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-rw-r--r--externals/extra/0.43.2/LICENSE.txt378
-rw-r--r--externals/extra/0.43.2/Makefile263
-rw-r--r--externals/extra/0.43.2/README.txt30
-rw-r--r--externals/extra/0.43.2/bonk~/bonk~-help.pd209
-rw-r--r--externals/extra/0.43.2/bonk~/bonk~.c1638
-rw-r--r--externals/extra/0.43.2/bonk~/templates.txt4
-rw-r--r--externals/extra/0.43.2/choice/choice-help.pd58
-rw-r--r--externals/extra/0.43.2/choice/choice.c128
-rw-r--r--externals/extra/0.43.2/complex-mod~-help.pd26
-rw-r--r--externals/extra/0.43.2/complex-mod~.pd30
-rw-r--r--externals/extra/0.43.2/debian/changelog5
-rw-r--r--externals/extra/0.43.2/debian/compat1
-rw-r--r--externals/extra/0.43.2/debian/control35
-rw-r--r--externals/extra/0.43.2/debian/copyright63
-rw-r--r--externals/extra/0.43.2/debian/gbp.conf7
-rw-r--r--externals/extra/0.43.2/debian/links1
-rwxr-xr-xexternals/extra/0.43.2/debian/rules15
-rw-r--r--externals/extra/0.43.2/debian/source/format1
-rw-r--r--externals/extra/0.43.2/debian/watch2
-rw-r--r--externals/extra/0.43.2/expr-help.pd497
-rw-r--r--externals/extra/0.43.2/expr~/LICENSE.txt165
-rw-r--r--externals/extra/0.43.2/expr~/README.txt97
-rw-r--r--externals/extra/0.43.2/expr~/fts_to_pd.h41
-rw-r--r--externals/extra/0.43.2/expr~/vexp.c2142
-rw-r--r--externals/extra/0.43.2/expr~/vexp.h248
-rw-r--r--externals/extra/0.43.2/expr~/vexp_fun.c1315
-rw-r--r--externals/extra/0.43.2/expr~/vexp_if.c1225
-rw-r--r--externals/extra/0.43.2/extra-meta.pd7
-rw-r--r--externals/extra/0.43.2/fiddle~/fiddle~-help.pd142
-rw-r--r--externals/extra/0.43.2/fiddle~/fiddle~.c1851
-rw-r--r--externals/extra/0.43.2/hilbert~-help.pd18
-rw-r--r--externals/extra/0.43.2/hilbert~.pd27
-rw-r--r--externals/extra/0.43.2/loop~/loop~-help.pd74
-rw-r--r--externals/extra/0.43.2/loop~/loop~.c169
-rw-r--r--externals/extra/0.43.2/loop~/test-loop~.pd58
-rw-r--r--externals/extra/0.43.2/lrshift~/lrshift~-help.pd33
-rw-r--r--externals/extra/0.43.2/lrshift~/lrshift~.c76
-rw-r--r--externals/extra/0.43.2/pd~/notes.txt8
-rw-r--r--externals/extra/0.43.2/pd~/pdsched.c106
-rw-r--r--externals/extra/0.43.2/pd~/pd~-help.pd75
-rw-r--r--externals/extra/0.43.2/pd~/pd~-subprocess.pd60
-rw-r--r--externals/extra/0.43.2/pd~/pd~.c771
-rw-r--r--externals/extra/0.43.2/pd~/z.pd15
-rw-r--r--externals/extra/0.43.2/pique/pique-help.pd33
-rw-r--r--externals/extra/0.43.2/pique/pique.c243
-rw-r--r--externals/extra/0.43.2/rev1-final.pd106
-rw-r--r--externals/extra/0.43.2/rev1-stage.pd99
-rw-r--r--externals/extra/0.43.2/rev1~-help.pd119
-rw-r--r--externals/extra/0.43.2/rev1~.pd64
-rw-r--r--externals/extra/0.43.2/rev2~-help.pd134
-rw-r--r--externals/extra/0.43.2/rev2~.pd237
-rw-r--r--externals/extra/0.43.2/rev3~-help.pd136
-rw-r--r--externals/extra/0.43.2/rev3~.pd439
-rw-r--r--externals/extra/0.43.2/sigmund~/sigmund~-help.pd194
-rw-r--r--externals/extra/0.43.2/sigmund~/sigmund~.c1655
-rw-r--r--externals/extra/0.43.2/stdout/stdout-help.pd19
-rw-r--r--externals/extra/0.43.2/stdout/stdout.c50
57 files changed, 15642 insertions, 0 deletions
diff --git a/externals/extra/0.43.2/LICENSE.txt b/externals/extra/0.43.2/LICENSE.txt
new file mode 100644
index 00000000..bb6c6e6e
--- /dev/null
+++ b/externals/extra/0.43.2/LICENSE.txt
@@ -0,0 +1,378 @@
+
+Most of the code is covered by a BSD license, but the 'expr' code is covered by a GPL license:
+
+------------------------------------------------------------------------------
+
+This software is copyrighted by Miller Puckette and others. The following
+terms (the "Standard Improved BSD License") apply to all files associated with
+the software unless explicitly disclaimed in individual files:
+
+Redistribution and use in source and binary forms, with or without
+modification, are permitted provided that the following conditions are
+met:
+
+1. Redistributions of source code must retain the above copyright
+ notice, this list of conditions and the following disclaimer.
+2. Redistributions in binary form must reproduce the above
+ copyright notice, this list of conditions and the following
+ disclaimer in the documentation and/or other materials provided
+ with the distribution.
+3. The name of the author may not be used to endorse or promote
+ products derived from this software without specific prior
+ written permission.
+
+THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY
+EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
+THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
+PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR
+BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
+EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
+TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
+ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
+LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
+IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
+THE POSSIBILITY OF SUCH DAMAGE.
+
+------------------------------------------------------------------------------
+
+ GNU GENERAL PUBLIC LICENSE
+ Version 2, June 1991
+
+ Copyright (C) 1989, 1991 Free Software Foundation, Inc.
+ 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ Everyone is permitted to copy and distribute verbatim copies
+ of this license document, but changing it is not allowed.
+
+ Preamble
+
+ The licenses for most software are designed to take away your
+freedom to share and change it. By contrast, the GNU General Public
+License is intended to guarantee your freedom to share and change free
+software--to make sure the software is free for all its users. This
+General Public License applies to most of the Free Software
+Foundation's software and to any other program whose authors commit to
+using it. (Some other Free Software Foundation software is covered by
+the GNU Library General Public License instead.) You can apply it to
+your programs, too.
+
+ When we speak of free software, we are referring to freedom, not
+price. Our General Public Licenses are designed to make sure that you
+have the freedom to distribute copies of free software (and charge for
+this service if you wish), that you receive source code or can get it
+if you want it, that you can change the software or use pieces of it
+in new free programs; and that you know you can do these things.
+
+ To protect your rights, we need to make restrictions that forbid
+anyone to deny you these rights or to ask you to surrender the rights.
+These restrictions translate to certain responsibilities for you if you
+distribute copies of the software, or if you modify it.
+
+ For example, if you distribute copies of such a program, whether
+gratis or for a fee, you must give the recipients all the rights that
+you have. You must make sure that they, too, receive or can get the
+source code. And you must show them these terms so they know their
+rights.
+
+ We protect your rights with two steps: (1) copyright the software, and
+(2) offer you this license which gives you legal permission to copy,
+distribute and/or modify the software.
+
+ Also, for each author's protection and ours, we want to make certain
+that everyone understands that there is no warranty for this free
+software. If the software is modified by someone else and passed on, we
+want its recipients to know that what they have is not the original, so
+that any problems introduced by others will not reflect on the original
+authors' reputations.
+
+ Finally, any free program is threatened constantly by software
+patents. We wish to avoid the danger that redistributors of a free
+program will individually obtain patent licenses, in effect making the
+program proprietary. To prevent this, we have made it clear that any
+patent must be licensed for everyone's free use or not licensed at all.
+
+ The precise terms and conditions for copying, distribution and
+modification follow.
+
+ GNU GENERAL PUBLIC LICENSE
+ TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
+
+ 0. This License applies to any program or other work which contains
+a notice placed by the copyright holder saying it may be distributed
+under the terms of this General Public License. The "Program", below,
+refers to any such program or work, and a "work based on the Program"
+means either the Program or any derivative work under copyright law:
+that is to say, a work containing the Program or a portion of it,
+either verbatim or with modifications and/or translated into another
+language. (Hereinafter, translation is included without limitation in
+the term "modification".) Each licensee is addressed as "you".
+
+Activities other than copying, distribution and modification are not
+covered by this License; they are outside its scope. The act of
+running the Program is not restricted, and the output from the Program
+is covered only if its contents constitute a work based on the
+Program (independent of having been made by running the Program).
+Whether that is true depends on what the Program does.
+
+ 1. You may copy and distribute verbatim copies of the Program's
+source code as you receive it, in any medium, provided that you
+conspicuously and appropriately publish on each copy an appropriate
+copyright notice and disclaimer of warranty; keep intact all the
+notices that refer to this License and to the absence of any warranty;
+and give any other recipients of the Program a copy of this License
+along with the Program.
+
+You may charge a fee for the physical act of transferring a copy, and
+you may at your option offer warranty protection in exchange for a fee.
+
+ 2. You may modify your copy or copies of the Program or any portion
+of it, thus forming a work based on the Program, and copy and
+distribute such modifications or work under the terms of Section 1
+above, provided that you also meet all of these conditions:
+
+ a) You must cause the modified files to carry prominent notices
+ stating that you changed the files and the date of any change.
+
+ b) You must cause any work that you distribute or publish, that in
+ whole or in part contains or is derived from the Program or any
+ part thereof, to be licensed as a whole at no charge to all third
+ parties under the terms of this License.
+
+ c) If the modified program normally reads commands interactively
+ when run, you must cause it, when started running for such
+ interactive use in the most ordinary way, to print or display an
+ announcement including an appropriate copyright notice and a
+ notice that there is no warranty (or else, saying that you provide
+ a warranty) and that users may redistribute the program under
+ these conditions, and telling the user how to view a copy of this
+ License. (Exception: if the Program itself is interactive but
+ does not normally print such an announcement, your work based on
+ the Program is not required to print an announcement.)
+
+These requirements apply to the modified work as a whole. If
+identifiable sections of that work are not derived from the Program,
+and can be reasonably considered independent and separate works in
+themselves, then this License, and its terms, do not apply to those
+sections when you distribute them as separate works. But when you
+distribute the same sections as part of a whole which is a work based
+on the Program, the distribution of the whole must be on the terms of
+this License, whose permissions for other licensees extend to the
+entire whole, and thus to each and every part regardless of who wrote it.
+
+Thus, it is not the intent of this section to claim rights or contest
+your rights to work written entirely by you; rather, the intent is to
+exercise the right to control the distribution of derivative or
+collective works based on the Program.
+
+In addition, mere aggregation of another work not based on the Program
+with the Program (or with a work based on the Program) on a volume of
+a storage or distribution medium does not bring the other work under
+the scope of this License.
+
+ 3. You may copy and distribute the Program (or a work based on it,
+under Section 2) in object code or executable form under the terms of
+Sections 1 and 2 above provided that you also do one of the following:
+
+ a) Accompany it with the complete corresponding machine-readable
+ source code, which must be distributed under the terms of Sections
+ 1 and 2 above on a medium customarily used for software interchange; or,
+
+ b) Accompany it with a written offer, valid for at least three
+ years, to give any third party, for a charge no more than your
+ cost of physically performing source distribution, a complete
+ machine-readable copy of the corresponding source code, to be
+ distributed under the terms of Sections 1 and 2 above on a medium
+ customarily used for software interchange; or,
+
+ c) Accompany it with the information you received as to the offer
+ to distribute corresponding source code. (This alternative is
+ allowed only for noncommercial distribution and only if you
+ received the program in object code or executable form with such
+ an offer, in accord with Subsection b above.)
+
+The source code for a work means the preferred form of the work for
+making modifications to it. For an executable work, complete source
+code means all the source code for all modules it contains, plus any
+associated interface definition files, plus the scripts used to
+control compilation and installation of the executable. However, as a
+special exception, the source code distributed need not include
+anything that is normally distributed (in either source or binary
+form) with the major components (compiler, kernel, and so on) of the
+operating system on which the executable runs, unless that component
+itself accompanies the executable.
+
+If distribution of executable or object code is made by offering
+access to copy from a designated place, then offering equivalent
+access to copy the source code from the same place counts as
+distribution of the source code, even though third parties are not
+compelled to copy the source along with the object code.
+
+ 4. You may not copy, modify, sublicense, or distribute the Program
+except as expressly provided under this License. Any attempt
+otherwise to copy, modify, sublicense or distribute the Program is
+void, and will automatically terminate your rights under this License.
+However, parties who have received copies, or rights, from you under
+this License will not have their licenses terminated so long as such
+parties remain in full compliance.
+
+ 5. You are not required to accept this License, since you have not
+signed it. However, nothing else grants you permission to modify or
+distribute the Program or its derivative works. These actions are
+prohibited by law if you do not accept this License. Therefore, by
+modifying or distributing the Program (or any work based on the
+Program), you indicate your acceptance of this License to do so, and
+all its terms and conditions for copying, distributing or modifying
+the Program or works based on it.
+
+ 6. Each time you redistribute the Program (or any work based on the
+Program), the recipient automatically receives a license from the
+original licensor to copy, distribute or modify the Program subject to
+these terms and conditions. You may not impose any further
+restrictions on the recipients' exercise of the rights granted herein.
+You are not responsible for enforcing compliance by third parties to
+this License.
+
+ 7. If, as a consequence of a court judgment or allegation of patent
+infringement or for any other reason (not limited to patent issues),
+conditions are imposed on you (whether by court order, agreement or
+otherwise) that contradict the conditions of this License, they do not
+excuse you from the conditions of this License. If you cannot
+distribute so as to satisfy simultaneously your obligations under this
+License and any other pertinent obligations, then as a consequence you
+may not distribute the Program at all. For example, if a patent
+license would not permit royalty-free redistribution of the Program by
+all those who receive copies directly or indirectly through you, then
+the only way you could satisfy both it and this License would be to
+refrain entirely from distribution of the Program.
+
+If any portion of this section is held invalid or unenforceable under
+any particular circumstance, the balance of the section is intended to
+apply and the section as a whole is intended to apply in other
+circumstances.
+
+It is not the purpose of this section to induce you to infringe any
+patents or other property right claims or to contest validity of any
+such claims; this section has the sole purpose of protecting the
+integrity of the free software distribution system, which is
+implemented by public license practices. Many people have made
+generous contributions to the wide range of software distributed
+through that system in reliance on consistent application of that
+system; it is up to the author/donor to decide if he or she is willing
+to distribute software through any other system and a licensee cannot
+impose that choice.
+
+This section is intended to make thoroughly clear what is believed to
+be a consequence of the rest of this License.
+
+ 8. If the distribution and/or use of the Program is restricted in
+certain countries either by patents or by copyrighted interfaces, the
+original copyright holder who places the Program under this License
+may add an explicit geographical distribution limitation excluding
+those countries, so that distribution is permitted only in or among
+countries not thus excluded. In such case, this License incorporates
+the limitation as if written in the body of this License.
+
+ 9. The Free Software Foundation may publish revised and/or new versions
+of the General Public License from time to time. Such new versions will
+be similar in spirit to the present version, but may differ in detail to
+address new problems or concerns.
+
+Each version is given a distinguishing version number. If the Program
+specifies a version number of this License which applies to it and "any
+later version", you have the option of following the terms and conditions
+either of that version or of any later version published by the Free
+Software Foundation. If the Program does not specify a version number of
+this License, you may choose any version ever published by the Free Software
+Foundation.
+
+ 10. If you wish to incorporate parts of the Program into other free
+programs whose distribution conditions are different, write to the author
+to ask for permission. For software which is copyrighted by the Free
+Software Foundation, write to the Free Software Foundation; we sometimes
+make exceptions for this. Our decision will be guided by the two goals
+of preserving the free status of all derivatives of our free software and
+of promoting the sharing and reuse of software generally.
+
+ NO WARRANTY
+
+ 11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY
+FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN
+OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES
+PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED
+OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS
+TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE
+PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING,
+REPAIR OR CORRECTION.
+
+ 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
+WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR
+REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,
+INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING
+OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED
+TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY
+YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER
+PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE
+POSSIBILITY OF SUCH DAMAGES.
+
+ END OF TERMS AND CONDITIONS
+
+ How to Apply These Terms to Your New Programs
+
+ If you develop a new program, and you want it to be of the greatest
+possible use to the public, the best way to achieve this is to make it
+free software which everyone can redistribute and change under these terms.
+
+ To do so, attach the following notices to the program. It is safest
+to attach them to the start of each source file to most effectively
+convey the exclusion of warranty; and each file should have at least
+the "copyright" line and a pointer to where the full notice is found.
+
+ <one line to give the program's name and a brief idea of what it does.>
+ Copyright (C) 19yy <name of author>
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+
+
+Also add information on how to contact you by electronic and paper mail.
+
+If the program is interactive, make it output a short notice like this
+when it starts in an interactive mode:
+
+ Gnomovision version 69, Copyright (C) 19yy name of author
+ Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
+ This is free software, and you are welcome to redistribute it
+ under certain conditions; type `show c' for details.
+
+The hypothetical commands `show w' and `show c' should show the appropriate
+parts of the General Public License. Of course, the commands you use may
+be called something other than `show w' and `show c'; they could even be
+mouse-clicks or menu items--whatever suits your program.
+
+You should also get your employer (if you work as a programmer) or your
+school, if any, to sign a "copyright disclaimer" for the program, if
+necessary. Here is a sample; alter the names:
+
+ Yoyodyne, Inc., hereby disclaims all copyright interest in the program
+ `Gnomovision' (which makes passes at compilers) written by James Hacker.
+
+ <signature of Ty Coon>, 1 April 1989
+ Ty Coon, President of Vice
+
+This General Public License does not permit incorporating your program into
+proprietary programs. If your program is a subroutine library, you may
+consider it more useful to permit linking proprietary applications with the
+library. If this is what you want to do, use the GNU Library General
+Public License instead of this License.
diff --git a/externals/extra/0.43.2/Makefile b/externals/extra/0.43.2/Makefile
new file mode 100644
index 00000000..e3b0e63e
--- /dev/null
+++ b/externals/extra/0.43.2/Makefile
@@ -0,0 +1,263 @@
+# To use this Makefile for your project, first put the name of your library in
+# LIBRARY_NAME variable. The folder for your project should have the same name
+# as your library.
+LIBRARY_NAME = extra
+
+# Next, add your source files to the SOURCES variable.
+SOURCES = bonk~/bonk~.c choice/choice.c fiddle~/fiddle~.c loop~/loop~.c lrshift~/lrshift~.c pique/pique.c sigmund~/sigmund~.c stdout/stdout.c
+
+# For objects that only build on certain platforms, add those to the SOURCES
+# line for the right platforms.
+SOURCES_Darwin = pd~/pd~.c
+SOURCES_Linux = pd~/pd~.c
+
+# include these abstractions with their help patches
+PD_OBJECTS = complex-mod~.pd hilbert~.pd rev1~.pd rev2~.pd rev3~.pd
+
+# these are meant to be customizable
+CFLAGS = -Wall -W -g
+LDFLAGS =
+
+#------------------------------------------------------------------------------#
+#
+# you shouldn't need to edit anything below here, if we did it right :)
+#
+#------------------------------------------------------------------------------#
+
+# where Pd lives
+PD_PATH = ../../pd
+# where to install the library
+prefix = /usr/local
+libdir = $(prefix)/lib
+pkglibdir = $(libdir)/pd-externals
+objectsdir = $(pkglibdir)
+
+ALL_CFLAGS = -DPD -I$(PD_PATH)/src
+ALL_LDFLAGS =
+LIBS =
+
+LN_S = ln -s
+
+INSTALL = install
+INSTALL_PROGRAM = $(INSTALL) -p -m 644
+INSTALL_DATA = $(INSTALL) -p -m 644
+INSTALL_DIR = $(INSTALL) -p -m 755 -d
+
+UNAME := $(shell uname -s)
+ifeq ($(UNAME),Darwin)
+ SOURCES += $(SOURCES_Darwin)
+ EXTENSION = pd_darwin
+ OPT_CFLAGS = -ftree-vectorize -ftree-vectorizer-verbose=2 -fast
+ FAT_FLAGS = -arch i386 -arch ppc -mmacosx-version-min=10.4
+ ALL_CFLAGS += -fPIC $(FAT_FLAGS)
+ ALL_LDFLAGS += -bundle -undefined dynamic_lookup $(FAT_FLAGS)
+ LIBS += -lc -lm
+ STRIP = strip -x
+ endif
+ifeq ($(UNAME),Linux)
+ SOURCES += $(SOURCES_Linux)
+ EXTENSION = pd_linux
+ OPT_CFLAGS = -O6 -funroll-loops -fomit-frame-pointer
+ ALL_CFLAGS += -fPIC
+ ALL_LDFLAGS += -Wl,--export-dynamic -shared -fPIC
+ LIBS += -lc
+ STRIP = strip --strip-unneeded -R .note -R .comment
+endif
+ifeq ($(UNAME),GNU)
+ # GNU/Hurd, should work like GNU/Linux for basically all externals
+ SOURCES += $(SOURCES_linux)
+ EXTENSION = pd_linux
+ OPT_CFLAGS = -O6 -funroll-loops -fomit-frame-pointer
+ ALL_CFLAGS += -fPIC
+ ALL_LDFLAGS += -Wl,--export-dynamic -shared -fPIC
+ LIBS += -lc
+ STRIP = strip --strip-unneeded -R .note -R .comment
+endif
+ifeq ($(UNAME),GNU/kFreeBSD)
+ # Debian GNU/kFreeBSD, should work like GNU/Linux for basically all externals
+ SOURCES += $(SOURCES_linux)
+ EXTENSION = pd_linux
+ OPT_CFLAGS = -O6 -funroll-loops -fomit-frame-pointer
+ ALL_CFLAGS += -fPIC
+ ALL_LDFLAGS += -Wl,--export-dynamic -shared -fPIC
+ LIBS += -lc
+ STRIP = strip --strip-unneeded -R .note -R .comment
+endif
+ifeq (CYGWIN,$(findstring CYGWIN,$(UNAME)))
+# SOURCES += $(SOURCES_Linux)
+ EXTENSION = dll
+ OPT_CFLAGS = -O6 -funroll-loops -fomit-frame-pointer
+ ALL_CFLAGS += -fPIC
+ ALL_LDFLAGS += -L$(PD_PATH)/src -Wl,--export-dynamic -shared -fPIC
+ LIBS += -lc -lpd
+ STRIP = strip --strip-unneeded -R .note -R .comment
+endif
+ifeq (MINGW,$(findstring MINGW,$(UNAME)))
+ SOURCES += $(SOURCES_Windows)
+ EXTENSION = dll
+ CC=gcc
+ OPT_CFLAGS = -O3 -funroll-loops -fomit-frame-pointer -march=i686 -mtune=pentium4
+ WINDOWS_HACKS = -D'O_NONBLOCK=1'
+ ALL_CFLAGS += -mms-bitfields $(WINDOWS_HACKS)
+ ALL_LDFLAGS += -s -shared -Wl,--enable-auto-import
+ LIBS += -L$(PD_PATH)/src -lpd -lwsock32 -lkernel32 -luser32 -lgdi32
+ STRIP = strip --strip-unneeded -R .note -R .comment
+endif
+
+ALL_CFLAGS += $(OPT_CFLAGS)
+
+
+.PHONY = install libdir_install single_install install-doc install-exec clean dist etags
+
+# kludges for objects with strange build requirements
+EXPR_OBJECTS = expr~/expr~.$(EXTENSION) fexpr~.$(EXTENSION) expr.$(EXTENSION)
+# special cases, where there are multiple .c files for a single class
+EXPR_SOURCES = expr~/vexp.c expr~/vexp_fun.c expr~/vexp_if.c
+
+
+# get library version from meta file
+LIBRARY_VERSION = $(shell sed -n 's|^\#X text [0-9][0-9]* [0-9][0-9]* VERSION \(.*\);|\1|p' $(LIBRARY_NAME)-meta.pd)
+DISTDIR=$(LIBRARY_NAME)-$(LIBRARY_VERSION)
+ORIGDIR=pd-$(LIBRARY_NAME:~=)_$(LIBRARY_VERSION)
+
+
+all: $(SOURCES:.c=.$(EXTENSION)) $(EXPR_OBJECTS) pd~/pdsched.$(EXTENSION)
+
+%.o: %.c
+ $(CC) $(ALL_CFLAGS) $(CFLAGS) -o "$*.o" -c "$*.c"
+
+%.$(EXTENSION): %.o
+ $(CC) $(ALL_LDFLAGS) $(LDFLAGS) -o "$*.$(EXTENSION)" "$*.o" $(LIBS)
+ chmod a-x "$*.$(EXTENSION)"
+
+
+expr~/expr~.$(EXTENSION): $(EXPR_SOURCES:.c=.o)
+ $(CC) $(ALL_LDFLAGS) $(LDFLAGS) -o expr~/expr~.$(EXTENSION) $(EXPR_SOURCES:.c=.o) $(LIBS)
+ chmod a-x expr~/expr~.$(EXTENSION)
+
+expr.$(EXTENSION): expr~/expr~.$(EXTENSION)
+ test -e expr.$(EXTENSION) || \
+ $(LN_S) expr~/expr~.$(EXTENSION) expr.$(EXTENSION)
+
+fexpr~.$(EXTENSION): expr~/expr~.$(EXTENSION)
+ test -e fexpr~.$(EXTENSION) || \
+ $(LN_S) expr~/expr~.$(EXTENSION) fexpr~.$(EXTENSION)
+
+install: all install-doc install-exec install-special
+
+# install all the weird old kludgey build stuff here
+install-special:
+ $(INSTALL_DIR) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) extra-meta.pd $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(SOURCES:.c=.$(EXTENSION)) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(EXPR_OBJECTS) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(SOURCES:.c=-help.pd) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) rev1-final.pd rev1-stage.pd $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) expr-help.pd $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(STRIP) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)/*.$(EXTENSION)
+
+install-doc:
+ $(INSTALL_DIR) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(SOURCES:.c=-help.pd) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(PD_OBJECTS:.pd=-help.pd) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) pd~/pd~-subprocess.pd pd~/z.pd $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) README.txt $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)/README.txt
+
+install-exec:
+ $(INSTALL_DIR) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(SOURCES:.c=.$(EXTENSION)) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) $(PD_OBJECTS) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+ $(INSTALL_DATA) pd~/pdsched.$(EXTENSION) $(DESTDIR)$(objectsdir)/$(LIBRARY_NAME)
+
+dist:
+ $(INSTALL_DIR) $(DISTDIR)
+ $(INSTALL_DATA) Makefile $(DISTDIR)
+ $(INSTALL_DATA) README.txt $(DISTDIR)
+ $(INSTALL_DATA) LICENSE.txt $(DISTDIR)
+ $(INSTALL_DATA) extra-meta.pd $(DISTDIR)
+ $(INSTALL_DATA) complex-mod~-help.pd $(DISTDIR)
+ $(INSTALL_DATA) complex-mod~.pd $(DISTDIR)
+ $(INSTALL_DATA) hilbert~-help.pd $(DISTDIR)
+ $(INSTALL_DATA) hilbert~.pd $(DISTDIR)
+ $(INSTALL_DATA) rev1-final.pd $(DISTDIR)
+ $(INSTALL_DATA) rev1~-help.pd $(DISTDIR)
+ $(INSTALL_DATA) rev1~.pd $(DISTDIR)
+ $(INSTALL_DATA) rev1-stage.pd $(DISTDIR)
+ $(INSTALL_DATA) rev2~-help.pd $(DISTDIR)
+ $(INSTALL_DATA) rev2~.pd $(DISTDIR)
+ $(INSTALL_DATA) rev3~-help.pd $(DISTDIR)
+ $(INSTALL_DATA) rev3~.pd $(DISTDIR)
+ $(INSTALL_DATA) expr-help.pd $(DISTDIR)
+ $(INSTALL_DIR) $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/fts_to_pd.h $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/LICENSE.txt $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/README.txt $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/vexp.c $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/vexp_fun.c $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/vexp.h $(DISTDIR)/expr~
+ $(INSTALL_DATA) expr~/vexp_if.c $(DISTDIR)/expr~
+ $(INSTALL_DIR) $(DISTDIR)/bonk~
+ $(INSTALL_DATA) bonk~/bonk~.c $(DISTDIR)/bonk~
+ $(INSTALL_DATA) bonk~/bonk~-help.pd $(DISTDIR)/bonk~
+ $(INSTALL_DATA) bonk~/templates.txt $(DISTDIR)/bonk~
+ $(INSTALL_DIR) $(DISTDIR)/choice
+ $(INSTALL_DATA) choice/choice.c $(DISTDIR)/choice
+ $(INSTALL_DATA) choice/choice-help.pd $(DISTDIR)/choice
+ $(INSTALL_DIR) $(DISTDIR)/fiddle~
+ $(INSTALL_DATA) fiddle~/fiddle~.c $(DISTDIR)/fiddle~
+ $(INSTALL_DATA) fiddle~/fiddle~-help.pd $(DISTDIR)/fiddle~
+ $(INSTALL_DIR) $(DISTDIR)/loop~
+ $(INSTALL_DATA) loop~/loop~.c $(DISTDIR)/loop~
+ $(INSTALL_DATA) loop~/loop~-help.pd $(DISTDIR)/loop~
+ $(INSTALL_DATA) loop~/test-loop~.pd $(DISTDIR)/loop~
+ $(INSTALL_DIR) $(DISTDIR)/lrshift~
+ $(INSTALL_DATA) lrshift~/lrshift~.c $(DISTDIR)/lrshift~
+ $(INSTALL_DATA) lrshift~/lrshift~-help.pd $(DISTDIR)/lrshift~
+ $(INSTALL_DIR) $(DISTDIR)/pd~
+ $(INSTALL_DATA) pd~/notes.txt $(DISTDIR)/pd~
+ $(INSTALL_DATA) pd~/pd~.c $(DISTDIR)/pd~
+ $(INSTALL_DATA) pd~/pd~-help.pd $(DISTDIR)/pd~
+ $(INSTALL_DATA) pd~/pdsched.c $(DISTDIR)/pd~
+ $(INSTALL_DATA) pd~/pd~-subprocess.pd $(DISTDIR)/pd~
+ $(INSTALL_DATA) pd~/z.pd $(DISTDIR)/pd~
+ $(INSTALL_DIR) $(DISTDIR)/pique
+ $(INSTALL_DATA) pique/pique.c $(DISTDIR)/pique
+ $(INSTALL_DATA) pique/pique-help.pd $(DISTDIR)/pique
+ $(INSTALL_DIR) $(DISTDIR)/sigmund~
+ $(INSTALL_DATA) sigmund~/sigmund~.c $(DISTDIR)/sigmund~
+ $(INSTALL_DATA) sigmund~/sigmund~-help.pd $(DISTDIR)/sigmund~
+ $(INSTALL_DIR) $(DISTDIR)/stdout
+ $(INSTALL_DATA) stdout/stdout.c $(DISTDIR)/stdout
+ $(INSTALL_DATA) stdout/stdout-help.pd $(DISTDIR)/stdout
+ tar --exclude-vcs -czpf $(DISTDIR).tar.gz $(DISTDIR)
+
+distclean: clean
+ -rm -f -- $(DISTBINDIR).tar.gz
+ -rm -rf -- $(DISTBINDIR)
+ -rm -f -- $(DISTDIR).tar.gz
+ -rm -rf -- $(DISTDIR)
+ -rm -f -- $(ORIGDIR).tar.gz
+ -rm -rf -- $(ORIGDIR)
+
+# make a Debian source package
+dpkg-source:
+ debclean
+ make distclean dist
+ mv $(DISTDIR) $(ORIGDIR)
+ tar --exclude-vcs -czpf ../$(ORIGDIR).orig.tar.gz $(ORIGDIR)
+ rm -f -- $(DISTDIR).tar.gz
+ rm -rf -- $(DISTDIR) $(ORIGDIR)
+ cd .. && dpkg-source -b $(LIBRARY_NAME)
+
+clean:
+ -rm -f -- $(SOURCES:.c=.o)
+ -rm -f -- $(SOURCES:.c=.$(EXTENSION))
+ -rm -f -- $(LIBRARY_NAME).$(EXTENSION)
+ -rm -f -- $(EXPR_SOURCES:.c=.o)
+ -rm -f -- $(EXPR_OBJECTS) pd~/pdsched.$(EXTENSION)
+
+showpaths:
+ @echo "PD_PATH: $(PD_PATH)"
+ @echo "objectsdir: $(objectsdir)"
+ @echo "LIBRARY_NAME: $(LIBRARY_NAME)"
+ @echo "SOURCES: $(SOURCES)"
diff --git a/externals/extra/0.43.2/README.txt b/externals/extra/0.43.2/README.txt
new file mode 100644
index 00000000..850e3032
--- /dev/null
+++ b/externals/extra/0.43.2/README.txt
@@ -0,0 +1,30 @@
+This is the README file for the "extras" library, consisting of Pd
+objects which are too specialized or otherwise non-canonical for
+inclusion into Pd proper. These files are open source; see
+LICENSE.txt in this distribution for details.
+Note however that "expr" is GPL (the rest is all BSD).
+
+This package should run in Pd under linux, MSW, or Mac OSX.
+You can additionally compile fiddle~. bonk~, and paf~ for Max/MSP.
+
+contents:
+
+externs:
+fiddle~ -- pitch tracker
+bonk~ - percussion detector
+choose - find the "best fit" of incoming vector with stored profiles
+paf~ -- phase aligned formant generator
+loop~ -- sample looper
+expr -- arithmetic expression evaluation (Shahrokh Yadegari)
+pique - fft-based peak finder
+lrshift~ - left or right shift an audio vector
+
+abstractions:
+hilbert~ - Hilbert transform for SSB modulation
+complex-mod~ - ring modulation for complex (real+imaginary) audio signals
+rev1~, etc. - reverberators
+
+These objects are part of the regular Pd distribution as of Pd version
+0.30. Macintosh versions of fiddle~, bonk~, and paf~ are available
+from http://www.crca.ucsd.edu/~tapel
+- msp@ucsd.edu
diff --git a/externals/extra/0.43.2/bonk~/bonk~-help.pd b/externals/extra/0.43.2/bonk~/bonk~-help.pd
new file mode 100644
index 00000000..4666d6f5
--- /dev/null
+++ b/externals/extra/0.43.2/bonk~/bonk~-help.pd
@@ -0,0 +1,209 @@
+#N canvas 0 0 1052 581 12;
+#X obj 382 492 spigot;
+#X msg 484 293 bang;
+#X obj 483 454 bonk~;
+#X msg 483 357 print;
+#X obj 435 428 adc~;
+#X msg 637 506 \; pd dsp 1;
+#X obj 300 492 spigot;
+#N canvas 366 126 604 404 synth 0;
+#X obj 112 24 r bonk-cooked;
+#X obj 112 49 unpack;
+#X obj 112 99 * 12;
+#X obj 112 124 div 7;
+#X obj 112 74 + 1;
+#X obj 112 174 mtof;
+#X obj 112 224 osc~;
+#X obj 112 249 cos~;
+#X obj 112 149 + 47;
+#X obj 209 247 line~;
+#X obj 209 272 *~;
+#X obj 209 297 lop~ 500;
+#X obj 112 274 *~;
+#X obj 103 361 dac~;
+#X obj 253 165 dbtorms;
+#X obj 253 115 * 0.5;
+#X obj 253 140 + 50;
+#X obj 211 189 f;
+#X msg 173 159 bang;
+#X obj 258 83 inlet;
+#X obj 111 307 hip~ 5;
+#X msg 34 24 0 60;
+#X obj 112 199 sig~;
+#X msg 209 222 \$1 \, 0 200;
+#X connect 0 0 1 0;
+#X connect 1 0 4 0;
+#X connect 2 0 3 0;
+#X connect 3 0 8 0;
+#X connect 4 0 2 0;
+#X connect 5 0 18 0;
+#X connect 5 0 22 0;
+#X connect 6 0 7 0;
+#X connect 7 0 12 0;
+#X connect 8 0 5 0;
+#X connect 9 0 10 0;
+#X connect 9 0 10 1;
+#X connect 10 0 11 0;
+#X connect 11 0 12 1;
+#X connect 12 0 20 0;
+#X connect 14 0 17 1;
+#X connect 15 0 16 0;
+#X connect 16 0 14 0;
+#X connect 17 0 23 0;
+#X connect 18 0 17 0;
+#X connect 19 0 15 0;
+#X connect 20 0 13 1;
+#X connect 20 0 13 0;
+#X connect 21 0 1 0;
+#X connect 22 0 6 0;
+#X connect 23 0 9 0;
+#X restore 869 523 pd synth;
+#X floatatom 869 500 0 0 0 0 - - -;
+#X msg 869 470 0;
+#X msg 900 470 90;
+#X text 625 472 click here;
+#X text 626 485 to start DSP;
+#X text 5 285 In this patch \, after starting DSP \, you can print
+out the raw or cooked output using the two "spigots" or listen to a
+synthesizer output by raising its volume.;
+#X text 770 469 output volume;
+#X text 784 487 (0-100);
+#X msg 483 138 mask 4 0.7;
+#X text 578 120 Describes how energy in each frequency band masks later
+energy in the band. Here the masking is total for 4 analysis periods
+and then drops by 0.7 each period.;
+#X text 528 286 Poll the current spectrum via "raw" outlet \, You can
+set a very high threshold if you don't want attacks mixed in.;
+#X msg 483 331 debug 0;
+#X text 561 331 turn debugging on or off.;
+#X obj 349 493 tgl 15 0 empty empty empty 0 -6 0 8 -262144 -1 -1 0
+1;
+#X obj 431 493 tgl 15 0 empty empty empty 0 -6 0 8 -262144 -1 -1 0
+1;
+#X obj 382 522 print cooked;
+#X obj 300 522 print raw;
+#X text 162 491 enable printout:;
+#X text 560 202 Minimum "velocity" to output (quieter notes are ignored.)
+;
+#X obj 485 481 s bonk-cooked;
+#X text 8 145 Bonk's two outputs are the raw spectrum of the attack
+(provided as a list of 11 numbers giving the signal "loudness" in the
+11 frequency bands used) \, and the "cooked" output which gives only
+an instrument number (counting up from zero) and a "velocity". This
+"velocity" is the sum of the square roots of the amplitudes of the
+bands \, normalized so that 100 is an attack of amplitude of about
+1 The instrument number is significant only if Bonk has a "template
+set" in memory.;
+#X text 580 35 Set low and high thresholds. Signal growth must exceed
+the high one and then fall to the low one to make an attack. The unit
+is the sum of the proportional growth in the 11 filter bands. Proportional
+growth is essentially the logarithmic time derivative.;
+#X msg 483 384 print 1;
+#X text 551 386 print out filterbank settings;
+#X text 9 33 The Bonk object takes an audio signal input and looks
+for "attacks" defined as sharp changes in the spectral envelope of
+the incoming sound. Optionally \, and less reliably \, you can have
+Bonk check the attack against a collection of stored templates to try
+to guess which of two or more instruments was hit. Bonk is described
+theoretically in the 1998 ICMC proceedings \, reprinted on crca.ucsd.edu/~msp
+.;
+#N canvas 0 0 699 717 creation-arguments 1;
+#X text 228 14 creation arguments for bonk~;
+#X text 70 272 -npts 256;
+#X text 44 244 default value:;
+#X text 70 308 -hop 128;
+#X text 70 342 -nfilters 11;
+#X text 68 380 -halftones 6;
+#X text 76 514 -overlap 1;
+#X text 79 567 -firstbin 1;
+#X text 71 454 -minbandwidth 1.5;
+#X text 122 147 All frequency parameters are specified in 'bins'. One
+bin is the sample rate divided by the window size. The minimum possible
+bandwidth is 1.5 bins. Higher bandwidths give numerically more robust
+outputs.;
+#X text 43 229 Arguments and;
+#X text 212 270 window size in points;
+#X text 210 306 analysis period ("hop size") in points;
+#X text 212 340 number of filters to use;
+#X text 212 379 desired bandwidth of filters in halftones \, effective
+in the exponentially spaced region. (At lower center frequencies the
+bandwidth is supported by the "minbandwidth" parameter below).;
+#X text 212 511 overlap factor between filters. If 1 \, the filters
+are spaced to line up at their half-power points. Other values specify
+more or fewer filters proportionally.;
+#X text 121 49 bonk~ uses a filterbank whose center frequencies are
+spaced equally at low frequencies and proportionally at high ones -
+i.e. \, they increase linearly \, then exponentially. They are determined
+by the filters' bandwidths and overlap. The bandwidths are specified
+proportionally to frequency but bounded below by a specified minimum.
+;
+#X text 210 455 minimum bandwidth in bins. If the bandwidth specified
+by "halftones" is smaller than this \, this value is used. This must
+be at least 1.5.;
+#X text 212 567 center frequency \, in bins \, of the lowest filter.
+The others are computed from this.;
+#X restore 147 414 pd creation-arguments;
+#N canvas 660 173 579 589 templates 0;
+#X msg 76 197 learn 0;
+#X msg 76 227 forget;
+#X msg 76 257 write templates.txt;
+#X msg 76 287 read templates.txt;
+#X msg 76 107 debounce 0;
+#X msg 76 137 learn 10;
+#X obj 62 431 outlet;
+#X text 155 133 Forget all templates and start learning new ones. The
+argument gives the number of times you will hit each instrument (10
+recommended.) Turn on the output volume above for audible feedback
+as you train Bonk. "Learn 0" exits learn mode.;
+#X text 155 217 Forget the last template. In Learn mode \, use "forget"
+to erase and record over a template.;
+#X text 220 253 Write templates to a file in text-editable format.
+;
+#X text 221 283 Read templates from a file.;
+#X text 157 104 Minimum time (msec) between attacks in learn mode;
+#X connect 0 0 6 0;
+#X connect 1 0 6 0;
+#X connect 2 0 6 0;
+#X connect 3 0 6 0;
+#X connect 4 0 6 0;
+#X connect 5 0 6 0;
+#X restore 500 421 pd templates;
+#X msg 483 68 thresh 2.5 5;
+#X msg 483 173 attack-frames 1;
+#X text 608 174 number of frames over which to measure growth;
+#X text 605 422 more messages for managing templates;
+#X msg 483 201 minvel 7;
+#X msg 483 228 spew 0;
+#X text 550 230 Turn spew mode on/off;
+#X msg 483 255 useloudness 0;
+#X text 597 254 experimental: use alternative loudness units;
+#X text 212 9 BONK~ - attack detection and spectral envelope measurement
+;
+#X text 734 552 Updated for Pd version 0.42;
+#X text 5 344 By default bonk's analysis is carried out on a 256-point
+window (6 msec at 44.1 kHz) and the analysis period is 128 samples.
+These and other parameters may be overridden using creation arguments
+as shown in the subpatch below:;
+#X text 552 356 Print out settings and templates.;
+#X connect 0 0 23 0;
+#X connect 1 0 2 0;
+#X connect 2 0 6 0;
+#X connect 2 1 0 0;
+#X connect 2 1 27 0;
+#X connect 3 0 2 0;
+#X connect 4 0 2 0;
+#X connect 6 0 24 0;
+#X connect 8 0 7 0;
+#X connect 9 0 8 0;
+#X connect 10 0 8 0;
+#X connect 16 0 2 0;
+#X connect 19 0 2 0;
+#X connect 21 0 6 1;
+#X connect 22 0 0 1;
+#X connect 30 0 2 0;
+#X connect 34 0 2 0;
+#X connect 35 0 2 0;
+#X connect 36 0 2 0;
+#X connect 39 0 2 0;
+#X connect 40 0 2 0;
+#X connect 42 0 2 0;
diff --git a/externals/extra/0.43.2/bonk~/bonk~.c b/externals/extra/0.43.2/bonk~/bonk~.c
new file mode 100644
index 00000000..c3516775
--- /dev/null
+++ b/externals/extra/0.43.2/bonk~/bonk~.c
@@ -0,0 +1,1638 @@
+/*
+ ###########################################################################
+ # bonk~ - a Max/MSP external
+ # by miller puckette and ted apel
+ # http://crca.ucsd.edu/~msp/
+ # Max/MSP port by barry threw
+ # http://www.barrythrew.com
+ # me@barrythrew.com
+ # San Francisco, CA
+ # (c) 2008
+ # for Kesumo - http://www.kesumo.com
+ ###########################################################################
+ // bonk~ detects attacks in an audio signal
+ ###########################################################################
+ This software is copyrighted by Miller Puckette and others. The following
+ terms (the "Standard Improved BSD License") apply to all files associated with
+ the software unless explicitly disclaimed in individual files:
+
+ Redistribution and use in source and binary forms, with or without
+ modification, are permitted provided that the following conditions are
+ met:
+
+ 1. Redistributions of source code must retain the above copyright
+ notice, this list of conditions and the following disclaimer.
+ 2. Redistributions in binary form must reproduce the above
+ copyright notice, this list of conditions and the following
+ disclaimer in the documentation and/or other materials provided
+ with the distribution.
+ 3. The name of the author may not be used to endorse or promote
+ products derived from this software without specific prior
+ written permission.
+
+ THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY
+ EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
+ THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
+ PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR
+ BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
+ EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
+ TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+ DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
+ ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
+ LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
+ IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
+ THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+/*
+dolist:
+decay and other times in msec
+*/
+
+#include <math.h>
+#include <stdio.h>
+#include <string.h>
+
+/* These pragmas are only used for MSVC, not MinGW or Cygwin <hans@at.or.at> */
+#ifdef _MSC_VER
+#pragma warning (disable: 4305 4244)
+#endif
+
+#ifdef MSP
+#include "ext.h"
+#include "z_dsp.h"
+#include "math.h"
+#include "ext_support.h"
+#include "ext_proto.h"
+#include "ext_obex.h"
+
+typedef double t_floatarg; /* from m_pd.h */
+#define flog log
+#define fexp exp
+#define fsqrt sqrt
+#define t_resizebytes(a, b, c) t_resizebytes((char *)(a), (b), (c))
+
+void *bonk_class;
+#define getbytes t_getbytes
+#define freebytes t_freebytes
+#endif /* MSP */
+
+#ifdef PD
+#include "m_pd.h"
+static t_class *bonk_class;
+#endif
+
+#ifdef _WIN32
+#include <malloc.h>
+#elif ! defined(_MSC_VER)
+#include <alloca.h>
+#endif
+
+/* ------------------------ bonk~ ----------------------------- */
+
+#define DEFNPOINTS 256
+#define MAXCHANNELS 8
+#define MINPOINTS 64
+#define DEFPERIOD 128
+#define DEFNFILTERS 11
+#define DEFHALFTONES 6
+#define DEFOVERLAP 1
+#define DEFFIRSTBIN 1
+#define DEFMINBANDWIDTH 1.5
+#define DEFHITHRESH 5
+#define DEFLOTHRESH 2.5
+#define DEFMASKTIME 4
+#define DEFMASKDECAY 0.7
+#define DEFDEBOUNCEDECAY 0
+#define DEFMINVEL 7
+#define DEFATTACKBINS 1
+#define MAXATTACKWAIT 4
+
+typedef struct _filterkernel
+{
+ int k_filterpoints;
+ int k_hoppoints;
+ int k_skippoints;
+ int k_nhops;
+ t_float k_centerfreq; /* center frequency, bins */
+ t_float k_bandwidth; /* bandwidth, bins */
+ t_float *k_stuff;
+} t_filterkernel;
+
+typedef struct _filterbank
+{
+ int b_nfilters; /* number of filters in bank */
+ int b_npoints; /* input vector size */
+ t_float b_halftones; /* filter bandwidth in halftones */
+ t_float b_overlap; /* overlap; default 1 for 1/2-power pts */
+ t_float b_firstbin; /* freq of first filter in bins, default 1 */
+ t_float b_minbandwidth; /* minimum bandwidth, default 1.5 */
+ t_filterkernel *b_vec; /* filter kernels */
+ int b_refcount; /* number of bonk~ objects using this */
+ struct _filterbank *b_next; /* next in linked list */
+} t_filterbank;
+
+#if 0 /* this is the design for 1.0: */
+static t_filterkernel bonk_filterkernels[] =
+ {{256, 2, .01562}, {256, 4, .01562}, {256, 6, .01562}, {180, 6, .02222},
+ {128, 6, .01803}, {90, 6, .02222}, {64, 6, .02362}, {46, 6, .02773},
+ {32, 6, .03227}, {22, 6, .03932}, {16, 6, .04489}};
+#endif
+
+#if 0
+ /* here's the 1.1 rev: */
+static t_filterkernel bonk_filterkernels[] =
+ {{256, 1, .01562, 0}, {256, 3, .01562, 0}, {256, 5, .01562, 0},
+ {212, 6, .01886, 0}, {150, 6, .01885, 0}, {106, 6, .02179, 0},
+ {76, 6, .0236, 0}, {54, 6, .02634, 0}, {38, 6, .03047, 0},
+ {26, 6, .03667, 0}, {18, 6, .04458, 0}};
+
+#define NFILTERS \
+ ((int)(sizeof(bonk_filterkernels) / sizeof(bonk_filterkernels[0])))
+
+#endif
+
+#if 0
+ /* and 1.2 */
+#define NFILTERS 11
+static t_filterkernel bonk_filterkernels[NFILTERS];
+#endif
+
+ /* and 1.3 */
+#define MAXNFILTERS 50
+#define MASKHIST 8
+
+static t_filterbank *bonk_filterbanklist;
+
+typedef struct _hist
+{
+ t_float h_power;
+ t_float h_before;
+ t_float h_outpower;
+ int h_countup;
+ t_float h_mask[MASKHIST];
+} t_hist;
+
+typedef struct template
+{
+ t_float t_amp[MAXNFILTERS];
+} t_template;
+
+typedef struct _insig
+{
+ t_hist g_hist[MAXNFILTERS]; /* history for each filter */
+#ifdef PD
+ t_outlet *g_outlet; /* outlet for raw data */
+#endif
+#ifdef MSP
+ void *g_outlet; /* outlet for raw data */
+#endif
+ t_float *g_inbuf; /* buffered input samples */
+ t_float *g_invec; /* new input samples */
+} t_insig;
+
+typedef struct _bonk
+{
+#ifdef PD
+ t_object x_obj;
+ t_outlet *x_cookedout;
+ t_clock *x_clock;
+ t_canvas *x_canvas; /* ptr to current canvas --fbar */
+#endif /* PD */
+#ifdef MSP
+ t_pxobject x_obj;
+ void *obex;
+ void *x_cookedout;
+ void *x_clock;
+#endif /* MSP */
+ /* parameters */
+ int x_npoints; /* number of points in input buffer */
+ int x_period; /* number of input samples between analyses */
+ int x_nfilters; /* number of filters requested */
+ t_float x_halftones; /* nominal halftones between filters */
+ t_float x_overlap;
+ t_float x_firstbin;
+ t_float x_minbandwidth;
+ t_float x_hithresh; /* threshold for total growth to trigger */
+ t_float x_lothresh; /* threshold for total growth to re-arm */
+ t_float x_minvel; /* minimum velocity we output */
+ t_float x_maskdecay;
+ int x_masktime;
+ int x_useloudness; /* use loudness spectra instead of power */
+ t_float x_debouncedecay;
+ t_float x_debouncevel;
+ double x_learndebounce; /* debounce time (in "learn" mode only) */
+ int x_attackbins; /* number of bins to wait for attack */
+
+ t_filterbank *x_filterbank;
+ t_hist x_hist[MAXNFILTERS];
+ t_template *x_template;
+ t_insig *x_insig;
+ int x_ninsig;
+ int x_ntemplate;
+ int x_infill;
+ int x_countdown;
+ int x_willattack;
+ int x_attacked;
+ int x_debug;
+ int x_learn;
+ int x_learncount; /* countup for "learn" mode */
+ int x_spew; /* if true, always generate output! */
+ int x_maskphase; /* phase, 0 to MASKHIST-1, for mask history */
+ t_float x_sr; /* current sample rate in Hz. */
+ int x_hit; /* next "tick" called because of a hit, not a poll */
+} t_bonk;
+
+#ifdef MSP
+static void *bonk_new(t_symbol *s, long ac, t_atom *av);
+static void bonk_tick(t_bonk *x);
+static void bonk_doit(t_bonk *x);
+static t_int *bonk_perform(t_int *w);
+static void bonk_dsp(t_bonk *x, t_signal **sp);
+void bonk_assist(t_bonk *x, void *b, long m, long a, char *s);
+static void bonk_free(t_bonk *x);
+void bonk_setup(void);
+int main();
+
+static void bonk_thresh(t_bonk *x, t_floatarg f1, t_floatarg f2);
+static void bonk_print(t_bonk *x, t_floatarg f);
+static void bonk_bang(t_bonk *x);
+
+static void bonk_write(t_bonk *x, t_symbol *s);
+static void bonk_dowrite(t_bonk *x, t_symbol *s);
+static void bonk_writefile(t_bonk *x, char *filename, short path);
+
+static void bonk_read(t_bonk *x, t_symbol *s);
+static void bonk_doread(t_bonk *x, t_symbol *s);
+static void bonk_openfile(t_bonk *x, char *filename, short path);
+
+void bonk_minvel_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_lothresh_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_hithresh_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_masktime_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_maskdecay_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_debouncedecay_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_debug_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_spew_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_useloudness_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_attackbins_set(t_bonk *x, void *attr, long ac, t_atom *av);
+void bonk_learn_set(t_bonk *x, void *attr, long ac, t_atom *av);
+
+t_float qrsqrt(t_float f);
+double clock_getsystime();
+double clock_gettimesince(double prevsystime);
+char *strcpy(char *s1, const char *s2);
+#endif
+
+static void bonk_tick(t_bonk *x);
+
+#define HALFWIDTH 0.75 /* half peak bandwidth at half power point in bins */
+#define SLIDE 0.25 /* relative slide between filter subwindows */
+
+static t_filterbank *bonk_newfilterbank(int npoints, int nfilters,
+ t_float halftones, t_float overlap, t_float firstbin, t_float minbandwidth)
+{
+ int i, j;
+ t_float cf, bw, h, relspace;
+ t_filterbank *b = (t_filterbank *)getbytes(sizeof(*b));
+ b->b_npoints = npoints;
+ b->b_nfilters = nfilters;
+ b->b_halftones = halftones;
+ b->b_overlap = overlap;
+ b->b_firstbin = firstbin;
+ b->b_minbandwidth = minbandwidth;
+ b->b_refcount = 0;
+ b->b_next = bonk_filterbanklist;
+ bonk_filterbanklist = b;
+ b->b_vec = (t_filterkernel *)getbytes(nfilters * sizeof(*b->b_vec));
+
+ h = exp((log(2.)/12.)*halftones); /* specced interval between filters */
+ relspace = (h - 1)/(h + 1); /* nominal spacing-per-f for fbank */
+
+ if (minbandwidth < 2*HALFWIDTH)
+ minbandwidth = 2*HALFWIDTH;
+ if (firstbin < minbandwidth/(2*HALFWIDTH))
+ firstbin = minbandwidth/(2*HALFWIDTH);
+ cf = firstbin;
+ bw = cf * relspace * overlap;
+ if (bw < (0.5*minbandwidth))
+ bw = (0.5*minbandwidth);
+ for (i = 0; i < nfilters; i++)
+ {
+ t_float *fp, newcf, newbw;
+ t_float normalizer = 0;
+ int filterpoints, skippoints, hoppoints, nhops;
+
+ filterpoints = npoints * HALFWIDTH/bw;
+ if (cf > npoints/2)
+ {
+ post("bonk~: only using %d filters (ran past Nyquist)", i+1);
+ break;
+ }
+ if (filterpoints < 4)
+ {
+ post("bonk~: only using %d filters (kernels got too short)", i+1);
+ break;
+ }
+ else if (filterpoints > npoints)
+ filterpoints = npoints;
+
+ hoppoints = SLIDE * npoints * HALFWIDTH/bw;
+
+ nhops = 1. + (npoints-filterpoints)/(t_float)hoppoints;
+ skippoints = 0.5 * (npoints-filterpoints - (nhops-1) * hoppoints);
+
+ b->b_vec[i].k_stuff =
+ (t_float *)getbytes(2 * sizeof(t_float) * filterpoints);
+ b->b_vec[i].k_filterpoints = filterpoints;
+ b->b_vec[i].k_nhops = nhops;
+ b->b_vec[i].k_hoppoints = hoppoints;
+ b->b_vec[i].k_skippoints = skippoints;
+ b->b_vec[i].k_centerfreq = cf;
+ b->b_vec[i].k_bandwidth = bw;
+
+ for (fp = b->b_vec[i].k_stuff, j = 0; j < filterpoints; j++, fp+= 2)
+ {
+ t_float phase = j * cf * (2*3.141592653589793 / npoints);
+ t_float wphase = j * (2*3.141592653589793 / filterpoints);
+ t_float window = sin(0.5*wphase);
+ fp[0] = window * cos(phase);
+ fp[1] = window * sin(phase);
+ normalizer += window;
+ }
+ normalizer = 1/(normalizer * sqrt(nhops));
+ for (fp = b->b_vec[i].k_stuff, j = 0;
+ j < filterpoints; j++, fp+= 2)
+ fp[0] *= normalizer, fp[1] *= normalizer;
+#if 0
+ post("i %d cf %.2f bw %.2f nhops %d, hop %d, skip %d, npoints %d",
+ i, cf, bw, nhops, hoppoints, skippoints, filterpoints);
+#endif
+ newcf = (cf + bw/overlap)/(1 - relspace);
+ newbw = newcf * overlap * relspace;
+ if (newbw < 0.5*minbandwidth)
+ {
+ newbw = 0.5*minbandwidth;
+ newcf = cf + minbandwidth / overlap;
+ }
+ cf = newcf;
+ bw = newbw;
+ }
+ for (; i < nfilters; i++)
+ b->b_vec[i].k_stuff = 0, b->b_vec[i].k_filterpoints = 0;
+ return (b);
+}
+
+static void bonk_freefilterbank(t_filterbank *b)
+{
+ t_filterbank *b2, *b3;
+ int i;
+ if (bonk_filterbanklist == b)
+ bonk_filterbanklist = b->b_next;
+ else for (b2 = bonk_filterbanklist; b3 = b2->b_next; b2 = b3)
+ if (b3 == b)
+ {
+ b2->b_next = b3->b_next;
+ break;
+ }
+ for (i = 0; i < b->b_nfilters; i++)
+ if (b->b_vec[i].k_stuff)
+ freebytes(b->b_vec[i].k_stuff,
+ b->b_vec[i].k_filterpoints * sizeof(t_float));
+ freebytes(b, sizeof(*b));
+}
+
+static void bonk_donew(t_bonk *x, int npoints, int period, int nsig,
+ int nfilters, t_float halftones, t_float overlap, t_float firstbin,
+ t_float minbandwidth, t_float samplerate)
+{
+ int i, j;
+ t_hist *h;
+ t_float *fp;
+ t_insig *g;
+ t_filterbank *fb;
+ for (j = 0, g = x->x_insig; j < nsig; j++, g++)
+ {
+ for (i = 0, h = g->g_hist; i--; h++)
+ {
+ h->h_power = h->h_before = 0, h->h_countup = 0;
+ for (j = 0; j < MASKHIST; j++)
+ h->h_mask[j] = 0;
+ }
+ /* we ought to check for failure to allocate memory here */
+ g->g_inbuf = (t_float *)getbytes(npoints * sizeof(t_float));
+ for (i = npoints, fp = g->g_inbuf; i--; fp++) *fp = 0;
+ }
+ if (!period) period = npoints/2;
+ x->x_npoints = npoints;
+ x->x_period = period;
+ x->x_ninsig = nsig;
+ x->x_nfilters = nfilters;
+ x->x_halftones = halftones;
+ x->x_template = (t_template *)getbytes(0);
+ x->x_ntemplate = 0;
+ x->x_infill = 0;
+ x->x_countdown = 0;
+ x->x_willattack = 0;
+ x->x_attacked = 0;
+ x->x_maskphase = 0;
+ x->x_debug = 0;
+ x->x_hithresh = DEFHITHRESH;
+ x->x_lothresh = DEFLOTHRESH;
+ x->x_masktime = DEFMASKTIME;
+ x->x_maskdecay = DEFMASKDECAY;
+ x->x_learn = 0;
+ x->x_learndebounce = clock_getsystime();
+ x->x_learncount = 0;
+ x->x_debouncedecay = DEFDEBOUNCEDECAY;
+ x->x_minvel = DEFMINVEL;
+ x->x_useloudness = 0;
+ x->x_debouncevel = 0;
+ x->x_attackbins = DEFATTACKBINS;
+ x->x_sr = samplerate;
+ x->x_filterbank = 0;
+ x->x_hit = 0;
+ for (fb = bonk_filterbanklist; fb; fb = fb->b_next)
+ if (fb->b_nfilters == x->x_nfilters &&
+ fb->b_halftones == x->x_halftones &&
+ fb->b_firstbin == firstbin &&
+ fb->b_overlap == overlap &&
+ fb->b_npoints == x->x_npoints &&
+ fb->b_minbandwidth == minbandwidth)
+ {
+ fb->b_refcount++;
+ x->x_filterbank = fb;
+ break;
+ }
+ if (!x->x_filterbank)
+ x->x_filterbank = bonk_newfilterbank(npoints, nfilters,
+ halftones, overlap, firstbin, minbandwidth),
+ x->x_filterbank->b_refcount++;
+}
+
+static void bonk_tick(t_bonk *x)
+{
+ t_atom at[MAXNFILTERS], *ap, at2[3];
+ int i, j, k, n;
+ t_hist *h;
+ t_float *pp, vel = 0., temperature = 0.;
+ t_float *fp;
+ t_template *tp;
+ int nfit, ninsig = x->x_ninsig, ntemplate = x->x_ntemplate, nfilters = x->x_nfilters;
+ t_insig *gp;
+#ifdef _MSC_VER
+ t_float powerout[MAXNFILTERS*MAXCHANNELS];
+#else
+ t_float *powerout = alloca(x->x_nfilters * x->x_ninsig * sizeof(*powerout));
+#endif
+
+ for (i = ninsig, pp = powerout, gp = x->x_insig; i--; gp++)
+ {
+ for (j = 0, h = gp->g_hist; j < nfilters; j++, h++, pp++)
+ {
+ t_float power = h->h_outpower;
+ t_float intensity = *pp = (power > 0. ? 100. * qrsqrt(qrsqrt(power)) : 0.);
+ vel += intensity;
+ temperature += intensity * (t_float)j;
+ }
+ }
+ if (vel > 0) temperature /= vel;
+ else temperature = 0;
+ vel *= 0.5 / ninsig; /* fudge factor */
+ if (x->x_hit)
+ {
+ /* if hit nonzero it's a clock callback. if in "learn" mode update the
+ template list; in any event match the hit to known templates. */
+
+ if (vel < x->x_debouncevel)
+ {
+ if (x->x_debug)
+ post("bounce cancelled: vel %f debounce %f",
+ vel, x->x_debouncevel);
+ return;
+ }
+ if (vel < x->x_minvel)
+ {
+ if (x->x_debug)
+ post("low velocity cancelled: vel %f, minvel %f",
+ vel, x->x_minvel);
+ return;
+ }
+ x->x_debouncevel = vel;
+ if (x->x_learn)
+ {
+ double lasttime = x->x_learndebounce;
+ double msec = clock_gettimesince(lasttime);
+ if ((!ntemplate) || (msec > 200))
+ {
+ int countup = x->x_learncount;
+ /* normalize to 100 */
+ t_float norm;
+ for (i = nfilters * ninsig, norm = 0, pp = powerout; i--; pp++)
+ norm += *pp * *pp;
+ if (norm < 1.0e-15) norm = 1.0e-15;
+ norm = 100. * qrsqrt(norm);
+ /* check if this is the first strike for a new template */
+ if (!countup)
+ {
+ int oldn = ntemplate;
+ x->x_ntemplate = ntemplate = oldn + ninsig;
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ oldn * sizeof(x->x_template[0]),
+ ntemplate * sizeof(x->x_template[0]));
+ for (i = ninsig, pp = powerout; i--; oldn++)
+ for (j = nfilters, fp = x->x_template[oldn].t_amp; j--;
+ pp++, fp++)
+ *fp = *pp * norm;
+ }
+ else
+ {
+ int oldn = ntemplate - ninsig;
+ if (oldn < 0) post("bonk_tick bug");
+ for (i = ninsig, pp = powerout; i--; oldn++)
+ {
+ for (j = nfilters, fp = x->x_template[oldn].t_amp; j--;
+ pp++, fp++)
+ *fp = (countup * *fp + *pp * norm)
+ /(countup + 1.0);
+ }
+ }
+ countup++;
+ if (countup == x->x_learn) countup = 0;
+ x->x_learncount = countup;
+ }
+ else return;
+ }
+ x->x_learndebounce = clock_getsystime();
+ if (ntemplate)
+ {
+ t_float bestfit = -1e30;
+ int templatecount;
+ nfit = -1;
+ for (i = 0, templatecount = 0, tp = x->x_template;
+ templatecount < ntemplate; i++)
+ {
+ t_float dotprod = 0;
+ for (k = 0, pp = powerout;
+ k < ninsig && templatecount < ntemplate;
+ k++, tp++, templatecount++)
+ {
+ for (j = nfilters, fp = tp->t_amp;
+ j--; fp++, pp++)
+ {
+ if (*fp < 0 || *pp < 0) post("bonk_tick bug 2");
+ dotprod += *fp * *pp;
+ }
+ }
+ if (dotprod > bestfit)
+ {
+ bestfit = dotprod;
+ nfit = i;
+ }
+ }
+ if (nfit < 0) post("bonk_tick bug");
+ }
+ else nfit = 0;
+ }
+ else nfit = -1; /* hit is zero; this is the "bang" method. */
+
+ x->x_attacked = 1;
+ if (x->x_debug)
+ post("bonk out: number %d, vel %f, temperature %f",
+ nfit, vel, temperature);
+
+ SETFLOAT(at2, nfit);
+ SETFLOAT(at2+1, vel);
+ SETFLOAT(at2+2, temperature);
+ outlet_list(x->x_cookedout, 0, 3, at2);
+
+ for (n = 0, gp = x->x_insig + (ninsig-1),
+ pp = powerout + nfilters * (ninsig-1); n < ninsig;
+ n++, gp--, pp -= nfilters)
+ {
+ t_float *pp2;
+ for (i = 0, ap = at, pp2 = pp; i < nfilters;
+ i++, ap++, pp2++)
+ {
+ ap->a_type = A_FLOAT;
+ ap->a_w.w_float = *pp2;
+ }
+ outlet_list(gp->g_outlet, 0, nfilters, at);
+ }
+}
+
+static void bonk_doit(t_bonk *x)
+{
+ int i, j, ch, n;
+ t_filterkernel *k;
+ t_hist *h;
+ t_float growth = 0, *fp1, *fp3, *fp4, hithresh, lothresh;
+ int ninsig = x->x_ninsig, nfilters = x->x_nfilters,
+ maskphase = x->x_maskphase, nextphase, oldmaskphase;
+ t_insig *gp;
+ nextphase = maskphase + 1;
+ if (nextphase >= MASKHIST)
+ nextphase = 0;
+ x->x_maskphase = nextphase;
+ oldmaskphase = nextphase - x->x_attackbins;
+ if (oldmaskphase < 0)
+ oldmaskphase += MASKHIST;
+ if (x->x_useloudness)
+ hithresh = qrsqrt(qrsqrt(x->x_hithresh)),
+ lothresh = qrsqrt(qrsqrt(x->x_lothresh));
+ else hithresh = x->x_hithresh, lothresh = x->x_lothresh;
+ for (ch = 0, gp = x->x_insig; ch < ninsig; ch++, gp++)
+ {
+ for (i = 0, k = x->x_filterbank->b_vec, h = gp->g_hist;
+ i < nfilters; i++, k++, h++)
+ {
+ t_float power = 0, maskpow = h->h_mask[maskphase];
+ t_float *inbuf= gp->g_inbuf + k->k_skippoints;
+ int countup = h->h_countup;
+ int filterpoints = k->k_filterpoints;
+ /* if the user asked for more filters that fit under the
+ Nyquist frequency, some filters won't actually be filled in
+ so we skip running them. */
+ if (!filterpoints)
+ {
+ h->h_countup = 0;
+ h->h_mask[nextphase] = 0;
+ h->h_power = 0;
+ continue;
+ }
+ /* run the filter repeatedly, sliding it forward by hoppoints,
+ for nhop times */
+ for (fp1 = inbuf, n = 0;
+ n < k->k_nhops; fp1 += k->k_hoppoints, n++)
+ {
+ t_float rsum = 0, isum = 0;
+ for (fp3 = fp1, fp4 = k->k_stuff, j = filterpoints; j--;)
+ {
+ t_float g = *fp3++;
+ rsum += g * *fp4++;
+ isum += g * *fp4++;
+ }
+ power += rsum * rsum + isum * isum;
+ }
+ if (!x->x_willattack)
+ h->h_before = maskpow;
+
+ if (power > h->h_mask[oldmaskphase])
+ {
+ if (x->x_useloudness)
+ growth += qrsqrt(qrsqrt(
+ power/(h->h_mask[oldmaskphase] + 1.0e-15))) - 1.;
+ else growth += power/(h->h_mask[oldmaskphase] + 1.0e-15) - 1.;
+ }
+ if (!x->x_willattack && countup >= x->x_masktime)
+ maskpow *= x->x_maskdecay;
+
+ if (power > maskpow)
+ {
+ maskpow = power;
+ countup = 0;
+ }
+ countup++;
+ h->h_countup = countup;
+ h->h_mask[nextphase] = maskpow;
+ h->h_power = power;
+ }
+ }
+ if (x->x_willattack)
+ {
+ if (x->x_willattack > MAXATTACKWAIT || growth < x->x_lothresh)
+ {
+ /* if haven't yet, and if not in spew mode, report a hit */
+ if (!x->x_spew && !x->x_attacked)
+ {
+ for (ch = 0, gp = x->x_insig; ch < ninsig; ch++, gp++)
+ for (i = nfilters, h = gp->g_hist; i--; h++)
+ h->h_outpower = h->h_mask[nextphase];
+ x->x_hit = 1;
+ clock_delay(x->x_clock, 0);
+ }
+ }
+ if (growth < x->x_lothresh)
+ x->x_willattack = 0;
+ else x->x_willattack++;
+ }
+ else if (growth > x->x_hithresh)
+ {
+ if (x->x_debug) post("attack: growth = %f", growth);
+ x->x_willattack = 1;
+ x->x_attacked = 0;
+ for (ch = 0, gp = x->x_insig; ch < ninsig; ch++, gp++)
+ for (i = nfilters, h = gp->g_hist; i--; h++)
+ h->h_mask[nextphase] = h->h_power, h->h_countup = 0;
+ }
+
+ /* if in "spew" mode just always output */
+ if (x->x_spew)
+ {
+ for (ch = 0, gp = x->x_insig; ch < ninsig; ch++, gp++)
+ for (i = nfilters, h = gp->g_hist; i--; h++)
+ h->h_outpower = h->h_power;
+ x->x_hit = 0;
+ clock_delay(x->x_clock, 0);
+ }
+ x->x_debouncevel *= x->x_debouncedecay;
+}
+
+static t_int *bonk_perform(t_int *w)
+{
+ t_bonk *x = (t_bonk *)(w[1]);
+ int n = (int)(w[2]);
+ int onset = 0;
+ if (x->x_countdown >= n)
+ x->x_countdown -= n;
+ else
+ {
+ int i, j, ninsig = x->x_ninsig;
+ t_insig *gp;
+ if (x->x_countdown > 0)
+ {
+ n -= x->x_countdown;
+ onset += x->x_countdown;
+ x->x_countdown = 0;
+ }
+ while (n > 0)
+ {
+ int infill = x->x_infill;
+ int m = (n < (x->x_npoints - infill) ?
+ n : (x->x_npoints - infill));
+ for (i = 0, gp = x->x_insig; i < ninsig; i++, gp++)
+ {
+ t_float *fp = gp->g_inbuf + infill;
+ t_float *in1 = gp->g_invec + onset;
+ for (j = 0; j < m; j++)
+ *fp++ = *in1++;
+ }
+ infill += m;
+ x->x_infill = infill;
+ if (infill == x->x_npoints)
+ {
+ bonk_doit(x);
+
+ /* shift or clear the input buffer and update counters */
+ if (x->x_period > x->x_npoints)
+ x->x_countdown = x->x_period - x->x_npoints;
+ else x->x_countdown = 0;
+ if (x->x_period < x->x_npoints)
+ {
+ int overlap = x->x_npoints - x->x_period;
+ t_float *fp1, *fp2;
+ for (n = 0, gp = x->x_insig; n < ninsig; n++, gp++)
+ for (i = overlap, fp1 = gp->g_inbuf,
+ fp2 = fp1 + x->x_period; i--;)
+ *fp1++ = *fp2++;
+ x->x_infill = overlap;
+ }
+ else x->x_infill = 0;
+ }
+ n -= m;
+ onset += m;
+ }
+ }
+ return (w+3);
+}
+
+static void bonk_dsp(t_bonk *x, t_signal **sp)
+{
+ int i, n = sp[0]->s_n, ninsig = x->x_ninsig;
+ t_insig *gp;
+
+ x->x_sr = sp[0]->s_sr;
+
+ for (i = 0, gp = x->x_insig; i < ninsig; i++, gp++)
+ gp->g_invec = (*(sp++))->s_vec;
+
+ dsp_add(bonk_perform, 2, x, n);
+}
+
+static void bonk_thresh(t_bonk *x, t_floatarg f1, t_floatarg f2)
+{
+ if (f1 > f2)
+ post("bonk: warning: low threshold greater than hi threshold");
+ x->x_lothresh = (f1 <= 0 ? 0.0001 : f1);
+ x->x_hithresh = (f2 <= 0 ? 0.0001 : f2);
+}
+
+#ifdef PD
+static void bonk_mask(t_bonk *x, t_floatarg f1, t_floatarg f2)
+{
+ int ticks = f1;
+ if (ticks < 0) ticks = 0;
+ if (f2 < 0) f2 = 0;
+ else if (f2 > 1) f2 = 1;
+ x->x_masktime = ticks;
+ x->x_maskdecay = f2;
+}
+
+static void bonk_debounce(t_bonk *x, t_floatarg f1)
+{
+ if (f1 < 0) f1 = 0;
+ else if (f1 > 1) f1 = 1;
+ x->x_debouncedecay = f1;
+}
+
+static void bonk_minvel(t_bonk *x, t_floatarg f)
+{
+ if (f < 0) f = 0;
+ x->x_minvel = f;
+}
+
+static void bonk_debug(t_bonk *x, t_floatarg f)
+{
+ x->x_debug = (f != 0);
+}
+
+static void bonk_spew(t_bonk *x, t_floatarg f)
+{
+ x->x_spew = (f != 0);
+}
+
+static void bonk_useloudness(t_bonk *x, t_floatarg f)
+{
+ x->x_useloudness = (f != 0);
+}
+
+static void bonk_attackbins(t_bonk *x, t_floatarg f)
+{
+ if (f < 1)
+ f = 1;
+ else if (f > MASKHIST)
+ f = MASKHIST;
+ x->x_attackbins = f;
+}
+
+static void bonk_learn(t_bonk *x, t_floatarg f)
+{
+ int n = f;
+ if (n < 0) n = 0;
+ if (n)
+ {
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ x->x_ntemplate * sizeof(x->x_template[0]), 0);
+ x->x_ntemplate = 0;
+ }
+ x->x_learn = n;
+ x->x_learncount = 0;
+}
+#endif
+
+static void bonk_print(t_bonk *x, t_floatarg f)
+{
+ int i;
+ post("thresh %f %f", x->x_lothresh, x->x_hithresh);
+ post("mask %d %f", x->x_masktime, x->x_maskdecay);
+ post("attack-frames %d", x->x_attackbins);
+ post("debounce %f", x->x_debouncedecay);
+ post("minvel %f", x->x_minvel);
+ post("spew %d", x->x_spew);
+ post("useloudness %d", x->x_useloudness);
+
+#if 0 /* LATER rewrite without hard-coded 11 filters */
+ if (x->x_ntemplate)
+ {
+ post("templates:");
+ for (i = 0; i < x->x_ntemplate; i++)
+ post(
+"%2d %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f",
+ i,
+ x->x_template[i].t_amp[0],
+ x->x_template[i].t_amp[1],
+ x->x_template[i].t_amp[2],
+ x->x_template[i].t_amp[3],
+ x->x_template[i].t_amp[4],
+ x->x_template[i].t_amp[5],
+ x->x_template[i].t_amp[6],
+ x->x_template[i].t_amp[7],
+ x->x_template[i].t_amp[8],
+ x->x_template[i].t_amp[9],
+ x->x_template[i].t_amp[10]);
+ }
+ else post("no templates");
+#endif
+ post("number of templates %d", x->x_ntemplate);
+ if (x->x_learn) post("learn mode");
+ if (f != 0)
+ {
+ int j, ninsig = x->x_ninsig;
+ t_insig *gp;
+ for (j = 0, gp = x->x_insig; j < ninsig; j++, gp++)
+ {
+ t_hist *h;
+ if (ninsig > 1) post("input %d:", j+1);
+ for (i = x->x_nfilters, h = gp->g_hist; i--; h++)
+ post("pow %f mask %f before %f count %d",
+ h->h_power, h->h_mask[x->x_maskphase],
+ h->h_before, h->h_countup);
+ }
+ post("filter details (frequencies are in units of %.2f-Hz. bins):",
+ x->x_sr/x->x_npoints);
+ for (j = 0; j < x->x_nfilters; j++)
+ post("%2d cf %.2f bw %.2f nhops %d hop %d skip %d npoints %d",
+ j,
+ x->x_filterbank->b_vec[j].k_centerfreq,
+ x->x_filterbank->b_vec[j].k_bandwidth,
+ x->x_filterbank->b_vec[j].k_nhops,
+ x->x_filterbank->b_vec[j].k_hoppoints,
+ x->x_filterbank->b_vec[j].k_skippoints,
+ x->x_filterbank->b_vec[j].k_filterpoints);
+ }
+ if (x->x_debug) post("debug mode");
+}
+
+static void bonk_forget(t_bonk *x)
+{
+ int ntemplate = x->x_ntemplate, newn = ntemplate - x->x_ninsig;
+ if (newn < 0) newn = 0;
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ x->x_ntemplate * sizeof(x->x_template[0]),
+ newn * sizeof(x->x_template[0]));
+ x->x_ntemplate = newn;
+ x->x_learncount = 0;
+}
+
+static void bonk_bang(t_bonk *x)
+{
+ int i, ch;
+ t_insig *gp;
+ x->x_hit = 0;
+ for (ch = 0, gp = x->x_insig; ch < x->x_ninsig; ch++, gp++)
+ {
+ t_hist *h;
+ for (i = 0, h = gp->g_hist; i < x->x_nfilters; i++, h++)
+ h->h_outpower = h->h_power;
+ }
+ bonk_tick(x);
+}
+
+#ifdef PD
+static void bonk_read(t_bonk *x, t_symbol *s)
+{
+ t_float vec[MAXNFILTERS];
+ int i, ntemplate = 0, remaining;
+ t_float *fp, *fp2;
+
+ /* fbar: canvas_open code taken from g_array.c */
+ FILE *fd;
+ char buf[MAXPDSTRING], *bufptr;
+ int filedesc;
+
+ if ((filedesc = canvas_open(x->x_canvas,
+ s->s_name, "", buf, &bufptr, MAXPDSTRING, 0)) < 0
+ || !(fd = fdopen(filedesc, "r")))
+ {
+ post("%s: open failed", s->s_name);
+ return;
+ }
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ x->x_ntemplate * sizeof(t_template), 0);
+ while (1)
+ {
+ for (i = x->x_nfilters, fp = vec; i--; fp++)
+ if (fscanf(fd, "%f", fp) < 1) goto nomore;
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ ntemplate * sizeof(t_template),
+ (ntemplate + 1) * sizeof(t_template));
+ for (i = x->x_nfilters, fp = vec,
+ fp2 = x->x_template[ntemplate].t_amp; i--;)
+ *fp2++ = *fp++;
+ ntemplate++;
+ }
+nomore:
+ if (remaining = (ntemplate % x->x_ninsig))
+ {
+ post("bonk_read: %d templates not a multiple of %d; dropping extras");
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ ntemplate * sizeof(t_template),
+ (ntemplate - remaining) * sizeof(t_template));
+ ntemplate = ntemplate - remaining;
+ }
+ post("bonk: read %d templates\n", ntemplate);
+ x->x_ntemplate = ntemplate;
+ fclose(fd);
+}
+#endif
+
+#ifdef MSP
+static void bonk_read(t_bonk *x, t_symbol *s)
+{
+ defer(x, (method)bonk_doread, s, 0, NULL);
+}
+
+static void bonk_doread(t_bonk *x, t_symbol *s)
+{
+ long filetype = 'TEXT', outtype;
+ char filename[512];
+ short path;
+
+ if (s == gensym("")) {
+ if (open_dialog(filename, &path, &outtype, &filetype, 1))
+ return;
+ } else {
+ strcpy(filename, s->s_name);
+ if (locatefile_extended(filename, &path, &outtype, &filetype, 1)) {
+ object_error((t_object *) x, "%s: not found", s->s_name);
+ return;
+ }
+ }
+ // we have a file
+ bonk_openfile(x, filename, path);
+}
+
+static void bonk_openfile(t_bonk *x, char *filename, short path) {
+ t_float vec[MAXNFILTERS];
+ int i, ntemplate = 0, remaining;
+ t_float *fp, *fp2;
+
+ t_filehandle fh;
+ char **texthandle;
+ char *tokptr;
+
+ if (path_opensysfile(filename, path, &fh, READ_PERM)) {
+ object_error((t_object *) x, "error opening %s", filename);
+ return;
+ }
+
+ texthandle = sysmem_newhandle(0);
+ sysfile_readtextfile(fh, texthandle, 0, TEXT_LB_NATIVE);
+ sysfile_close(fh);
+
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ x->x_ntemplate * sizeof(t_template), 0);
+
+ tokptr = strtok(*texthandle, " \n");
+
+ while(tokptr != NULL)
+ {
+ for (i = x->x_nfilters, fp = vec; i--; fp++) {
+ if (sscanf(tokptr, "%f", fp) < 1)
+ goto nomore;
+ tokptr = strtok(NULL, " \n");
+ }
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ ntemplate * sizeof(t_template),
+ (ntemplate + 1) * sizeof(t_template));
+ for (i = x->x_nfilters, fp = vec,
+ fp2 = x->x_template[ntemplate].t_amp; i--;)
+ *fp2++ = *fp++;
+ ntemplate++;
+ }
+nomore:
+ if (remaining = (ntemplate % x->x_ninsig))
+ {
+ post("bonk_read: %d templates not a multiple of %d; dropping extras");
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ ntemplate * sizeof(t_template),
+ (ntemplate - remaining) * sizeof(t_template));
+ ntemplate = ntemplate - remaining;
+ }
+
+ sysmem_freehandle(texthandle);
+ post("bonk: read %d templates\n", ntemplate);
+ x->x_ntemplate = ntemplate;
+}
+#endif
+
+#ifdef PD
+static void bonk_write(t_bonk *x, t_symbol *s)
+{
+ FILE *fd;
+ char buf[MAXPDSTRING]; /* fbar */
+ int i, ntemplate = x->x_ntemplate;
+ t_template *tp = x->x_template;
+ t_float *fp;
+
+ /* fbar: canvas-code as in g_array.c */
+ canvas_makefilename(x->x_canvas, s->s_name,
+ buf, MAXPDSTRING);
+ sys_bashfilename(buf, buf);
+
+ if (!(fd = fopen(buf, "w")))
+ {
+ post("%s: couldn't create", s->s_name);
+ return;
+ }
+ for (; ntemplate--; tp++)
+ {
+ for (i = x->x_nfilters, fp = tp->t_amp; i--; fp++)
+ fprintf(fd, "%6.2f ", *fp);
+ fprintf(fd, "\n");
+ }
+ post("bonk: wrote %d templates\n", x->x_ntemplate);
+ fclose(fd);
+}
+#endif
+
+#ifdef MSP
+static void bonk_write(t_bonk *x, t_symbol *s)
+{
+ defer(x, (method)bonk_dowrite, s, 0, NULL);
+}
+
+static void bonk_dowrite(t_bonk *x, t_symbol *s)
+{
+ long filetype = 'TEXT', outtype;
+ char filename[MAX_FILENAME_CHARS];
+ short path;
+
+ if (s == gensym("")) {
+ sprintf(filename, "bonk_template.txt");
+ saveas_promptset("Save template as...");
+ if (saveasdialog_extended(filename, &path, &outtype, &filetype, 0))
+ return;
+ } else {
+ strcpy(filename, s->s_name);
+ path = path_getdefault();
+ }
+ bonk_writefile(x, filename, path);
+}
+
+void bonk_writefile(t_bonk *x, char *filename, short path)
+{
+ int i, ntemplate = x->x_ntemplate;
+ t_template *tp = x->x_template;
+ t_float *fp;
+ long err;
+ long buflen;
+
+ t_filehandle fh;
+
+ char buf[20];
+
+ err = path_createsysfile(filename, path, 'TEXT', &fh);
+
+ if (err)
+ return;
+
+ for (; ntemplate--; tp++)
+ {
+ for (i = x->x_nfilters, fp = tp->t_amp; i--; fp++) {
+ snprintf(buf, 20, "%6.2f ", *fp);
+ buflen = strlen(buf);
+ sysfile_write(fh, &buflen, buf);
+ }
+ buflen = 1;
+ sysfile_write(fh, &buflen, "\n");
+ }
+
+ sysfile_close(fh);
+}
+#endif
+
+static void bonk_free(t_bonk *x)
+{
+
+ int i, ninsig = x->x_ninsig;
+ t_insig *gp = x->x_insig;
+#ifdef MSP
+ dsp_free((t_pxobject *)x);
+#endif
+ for (i = 0, gp = x->x_insig; i < ninsig; i++, gp++)
+ freebytes(gp->g_inbuf, x->x_npoints * sizeof(t_float));
+ clock_free(x->x_clock);
+ if (!--(x->x_filterbank->b_refcount))
+ bonk_freefilterbank(x->x_filterbank);
+
+}
+
+/* -------------------------- Pd glue ------------------------- */
+#ifdef PD
+
+static void *bonk_new(t_symbol *s, int argc, t_atom *argv)
+{
+ t_bonk *x = (t_bonk *)pd_new(bonk_class);
+ int nsig = 1, period = DEFPERIOD, npts = DEFNPOINTS,
+ nfilters = DEFNFILTERS, j;
+ t_float halftones = DEFHALFTONES, overlap = DEFOVERLAP,
+ firstbin = DEFFIRSTBIN, minbandwidth = DEFMINBANDWIDTH;
+ t_insig *g;
+
+ x->x_canvas = canvas_getcurrent(); /* fbar: bind current canvas to x */
+ if (argc > 0 && argv[0].a_type == A_FLOAT)
+ {
+ /* old style args for compatibility */
+ period = atom_getfloatarg(0, argc, argv);
+ nsig = atom_getfloatarg(1, argc, argv);
+ }
+ else while (argc > 0)
+ {
+ t_symbol *firstarg = atom_getsymbolarg(0, argc, argv);
+ if (!strcmp(firstarg->s_name, "-npts") && argc > 1)
+ {
+ npts = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-hop") && argc > 1)
+ {
+ period = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-nsigs") && argc > 1)
+ {
+ nsig = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-nfilters") && argc > 1)
+ {
+ nfilters = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-halftones") && argc > 1)
+ {
+ halftones = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-overlap") && argc > 1)
+ {
+ overlap = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-firstbin") && argc > 1)
+ {
+ firstbin = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-minbandwidth") && argc > 1)
+ {
+ minbandwidth = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-spew") && argc > 1)
+ {
+ x->x_spew = (atom_getfloatarg(1, argc, argv) != 0);
+ argc -= 2; argv += 2;
+ }
+ else
+ {
+ pd_error(x,
+"usage is: bonk [-npts #] [-hop #] [-nsigs #] [-nfilters #] [-halftones #]");
+ post(
+"... [-overlap #] [-firstbin #] [-spew #]");
+ argc = 0;
+ }
+ }
+
+ x->x_npoints = (npts >= MINPOINTS ? npts : DEFNPOINTS);
+ x->x_period = (period >= 1 ? period : npts/2);
+ x->x_nfilters = (nfilters >= 1 ? nfilters : DEFNFILTERS);
+ if (halftones < 0.01)
+ halftones = DEFHALFTONES;
+ else if (halftones > 12)
+ halftones = 12;
+ if (nsig < 1)
+ nsig = 1;
+ else if (nsig > MAXCHANNELS)
+ nsig = MAXCHANNELS;
+ if (firstbin < 0.5)
+ firstbin = 0.5;
+ if (overlap < 1)
+ overlap = 1;
+
+ x->x_clock = clock_new(x, (t_method)bonk_tick);
+ x->x_insig = (t_insig *)getbytes(nsig * sizeof(*x->x_insig));
+ for (j = 0, g = x->x_insig; j < nsig; j++, g++)
+ {
+ g->g_outlet = outlet_new(&x->x_obj, gensym("list"));
+ if (j)
+ inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_signal, &s_signal);
+ }
+ x->x_cookedout = outlet_new(&x->x_obj, gensym("list"));
+ bonk_donew(x, npts, period, nsig, nfilters, halftones, overlap,
+ firstbin, minbandwidth, sys_getsr());
+ return (x);
+}
+
+void bonk_tilde_setup(void)
+{
+ bonk_class = class_new(gensym("bonk~"), (t_newmethod)bonk_new,
+ (t_method)bonk_free, sizeof(t_bonk), 0, A_GIMME, 0);
+ class_addmethod(bonk_class, nullfn, gensym("signal"), 0);
+ class_addmethod(bonk_class, (t_method)bonk_dsp, gensym("dsp"), 0);
+ class_addbang(bonk_class, bonk_bang);
+ class_addmethod(bonk_class, (t_method)bonk_learn,
+ gensym("learn"), A_FLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_forget, gensym("forget"), 0);
+ class_addmethod(bonk_class, (t_method)bonk_thresh,
+ gensym("thresh"), A_FLOAT, A_FLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_mask,
+ gensym("mask"), A_FLOAT, A_FLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_debounce,
+ gensym("debounce"), A_FLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_minvel,
+ gensym("minvel"), A_FLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_print,
+ gensym("print"), A_DEFFLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_debug,
+ gensym("debug"), A_DEFFLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_spew,
+ gensym("spew"), A_DEFFLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_useloudness,
+ gensym("useloudness"), A_DEFFLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_attackbins,
+ gensym("attack-bins"), A_DEFFLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_attackbins,
+ gensym("attack-frames"), A_DEFFLOAT, 0);
+ class_addmethod(bonk_class, (t_method)bonk_read,
+ gensym("read"), A_SYMBOL, 0);
+ class_addmethod(bonk_class, (t_method)bonk_write,
+ gensym("write"), A_SYMBOL, 0);
+ post("bonk version 1.5");
+}
+#endif
+
+/* -------------------------- MSP glue ------------------------- */
+#ifdef MSP
+
+int main()
+{
+ t_class *c;
+ t_object *attr;
+ long attrflags = 0;
+ t_symbol *sym_long = gensym("long"), *sym_float32 = gensym("float32");
+
+ c = class_new("bonk~", (method)bonk_new, (method)bonk_free, sizeof(t_bonk), (method)0L, A_GIMME, 0);
+
+ class_obexoffset_set(c, calcoffset(t_bonk, obex));
+
+ attr = attr_offset_new("npoints", sym_long, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_npoints));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("hop", sym_long, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_period));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("nfilters", sym_long, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_nfilters));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("halftones", sym_float32, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_halftones));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("overlap", sym_float32, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_overlap));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("firstbin", sym_float32, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_firstbin));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("minbandwidth", sym_float32, attrflags, (method)0L, (method)0L, calcoffset(t_bonk, x_minbandwidth));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("minvel", sym_float32, attrflags, (method)0L, (method)bonk_minvel_set, calcoffset(t_bonk, x_minvel));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("lothresh", sym_float32, attrflags, (method)0L, (method)bonk_lothresh_set, calcoffset(t_bonk, x_lothresh));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("hithresh", sym_float32, attrflags, (method)0L, (method)bonk_hithresh_set, calcoffset(t_bonk, x_hithresh));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("masktime", sym_long, attrflags, (method)0L, (method)bonk_masktime_set, calcoffset(t_bonk, x_masktime));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("maskdecay", sym_float32, attrflags, (method)0L, (method)bonk_maskdecay_set, calcoffset(t_bonk, x_maskdecay));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("debouncedecay", sym_float32, attrflags, (method)0L, (method)bonk_debouncedecay_set, calcoffset(t_bonk, x_debouncedecay));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("debug", sym_long, attrflags, (method)0L, (method)bonk_debug_set, calcoffset(t_bonk, x_debug));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("spew", sym_long, attrflags, (method)0L, (method)bonk_spew_set, calcoffset(t_bonk, x_spew));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("useloudness", sym_long, attrflags, (method)0L, (method)bonk_useloudness_set, calcoffset(t_bonk, x_useloudness));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("attackframes", sym_long, attrflags, (method)0L, (method)bonk_attackbins_set, calcoffset(t_bonk, x_attackbins));
+ class_addattr(c, attr);
+
+ attr = attr_offset_new("learn", sym_long, attrflags, (method)0L, (method)bonk_learn_set, calcoffset(t_bonk, x_learn));
+ class_addattr(c, attr);
+
+ class_addmethod(c, (method)bonk_dsp, "dsp", A_CANT, 0);
+ class_addmethod(c, (method)bonk_bang, "bang", A_CANT, 0);
+ class_addmethod(c, (method)bonk_forget, "forget", 0);
+ class_addmethod(c, (method)bonk_thresh, "thresh", A_FLOAT, A_FLOAT, 0);
+ class_addmethod(c, (method)bonk_print, "print", A_DEFFLOAT, 0);
+ class_addmethod(c, (method)bonk_read, "read", A_DEFSYM, 0);
+ class_addmethod(c, (method)bonk_write, "write", A_DEFSYM, 0);
+ class_addmethod(c, (method)bonk_assist, "assist", A_CANT, 0);
+
+ class_addmethod(c, (method)object_obex_dumpout, "dumpout", A_CANT, 0);
+ class_addmethod(c, (method)object_obex_quickref, "quickref", A_CANT, 0);
+
+ class_dspinit(c);
+
+ class_register(CLASS_BOX, c);
+ bonk_class = c;
+
+ post("bonk~ v1.5");
+ return (0);
+}
+
+static void *bonk_new(t_symbol *s, long ac, t_atom *av)
+{
+ short j;
+ t_bonk *x;
+
+ if (x = (t_bonk *)object_alloc(bonk_class)) {
+
+ t_insig *g;
+
+ x->x_npoints = DEFNPOINTS;
+ x->x_period = DEFPERIOD;
+ x->x_nfilters = DEFNFILTERS;
+ x->x_halftones = DEFHALFTONES;
+ x->x_firstbin = DEFFIRSTBIN;
+ x->x_minbandwidth = DEFMINBANDWIDTH;
+ x->x_overlap = DEFOVERLAP;
+ x->x_ninsig = 1;
+
+ x->x_hithresh = DEFHITHRESH;
+ x->x_lothresh = DEFLOTHRESH;
+ x->x_masktime = DEFMASKTIME;
+ x->x_maskdecay = DEFMASKDECAY;
+ x->x_debouncedecay = DEFDEBOUNCEDECAY;
+ x->x_minvel = DEFMINVEL;
+ x->x_attackbins = DEFATTACKBINS;
+
+ if (!x->x_period) x->x_period = x->x_npoints/2;
+ x->x_template = (t_template *)getbytes(0);
+ x->x_ntemplate = 0;
+ x->x_infill = 0;
+ x->x_countdown = 0;
+ x->x_willattack = 0;
+ x->x_attacked = 0;
+ x->x_maskphase = 0;
+ x->x_debug = 0;
+ x->x_learn = 0;
+ x->x_learndebounce = clock_getsystime();
+ x->x_learncount = 0;
+ x->x_useloudness = 0;
+ x->x_debouncevel = 0;
+ x->x_sr = sys_getsr();
+
+ if (ac) {
+ switch (av[0].a_type) {
+ case A_LONG:
+ x->x_ninsig = av[0].a_w.w_long;
+ break;
+ }
+ }
+
+ if (x->x_ninsig < 1) x->x_ninsig = 1;
+ if (x->x_ninsig > MAXCHANNELS) x->x_ninsig = MAXCHANNELS;
+
+ attr_args_process(x, ac, av);
+
+ x->x_insig = (t_insig *)getbytes(x->x_ninsig * sizeof(*x->x_insig));
+
+ dsp_setup((t_pxobject *)x, x->x_ninsig);
+
+ object_obex_store(x, gensym("dumpout"), outlet_new(x, NULL));
+
+ x->x_cookedout = listout((t_object *)x);
+
+ for (j = 0, g = x->x_insig + x->x_ninsig-1; j < x->x_ninsig; j++, g--) {
+ g->g_outlet = listout((t_object *)x);
+ }
+
+ x->x_clock = clock_new(x, (method)bonk_tick);
+
+ bonk_donew(x, x->x_npoints, x->x_period, x->x_ninsig, x->x_nfilters,
+ x->x_halftones, x->x_overlap, x->x_firstbin, x->x_minbandwidth,
+ sys_getsr());
+ }
+ return (x);
+}
+
+/* Attribute setters. */
+void bonk_minvel_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ t_float f = atom_getfloat(av);
+ if (f < 0) f = 0;
+ x->x_minvel = f;
+ }
+}
+
+void bonk_lothresh_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ t_float f = atom_getfloat(av);
+ if (f > x->x_hithresh)
+ post("bonk: warning: low threshold greater than hi threshold");
+ x->x_lothresh = (f <= 0 ? 0.0001 : f);
+ }
+}
+
+void bonk_hithresh_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ t_float f = atom_getfloat(av);
+ if (f < x->x_lothresh)
+ post("bonk: warning: low threshold greater than hi threshold");
+ x->x_hithresh = (f <= 0 ? 0.0001 : f);
+ }
+}
+
+void bonk_masktime_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ int n = atom_getlong(av);
+ x->x_masktime = (n < 0) ? 0 : n;
+ }
+}
+
+void bonk_maskdecay_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ t_float f = atom_getfloat(av);
+ f = (f < 0) ? 0 : f;
+ f = (f > 1) ? 1 : f;
+ x->x_maskdecay = f;
+ }
+}
+
+void bonk_debouncedecay_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ t_float f = atom_getfloat(av);
+ f = (f < 0) ? 0 : f;
+ f = (f > 1) ? 1 : f;
+ x->x_debouncedecay = f;
+ }
+}
+
+void bonk_debug_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ int n = atom_getlong(av);
+ x->x_debug = (n != 0);
+ }
+}
+
+void bonk_spew_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ int n = atom_getlong(av);
+ x->x_spew = (n != 0);
+ }
+}
+
+void bonk_useloudness_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ int n = atom_getlong(av);
+ x->x_useloudness = (n != 0);
+ }
+}
+
+void bonk_attackbins_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ int n = atom_getlong(av);
+ n = (n < 1) ? 1 : n;
+ n = (n > MASKHIST) ? MASKHIST : n;
+ x->x_attackbins = n;
+ }
+}
+
+void bonk_learn_set(t_bonk *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av) {
+ int n = atom_getlong(av);
+ if (n != 0) {
+ x->x_template = (t_template *)t_resizebytes(x->x_template,
+ x->x_ntemplate * sizeof(x->x_template[0]), 0);
+ x->x_ntemplate = 0;
+ }
+ x->x_learn = n;
+ x->x_learncount = 0;
+ }
+}
+/* end attr setters */
+
+void bonk_assist(t_bonk *x, void *b, long m, long a, char *s)
+{
+}
+
+ /* get current system time */
+double clock_getsystime()
+{
+ return gettime();
+}
+
+ /* elapsed time in milliseconds since the given system time */
+double clock_gettimesince(double prevsystime)
+{
+ return ((gettime() - prevsystime));
+}
+
+t_float qrsqrt(t_float f)
+{
+ return 1/sqrt(f);
+}
+#endif /* MSP */
diff --git a/externals/extra/0.43.2/bonk~/templates.txt b/externals/extra/0.43.2/bonk~/templates.txt
new file mode 100644
index 00000000..f3528d78
--- /dev/null
+++ b/externals/extra/0.43.2/bonk~/templates.txt
@@ -0,0 +1,4 @@
+ 10.47 9.65 14.95 23.77 28.32 38.84 53.21 41.20 31.25 21.70 16.48
+ 6.52 13.93 27.82 58.05 24.11 35.26 35.98 37.78 22.54 13.56 10.75
+ 30.45 28.86 29.42 21.94 29.92 35.70 38.49 32.01 28.19 27.38 22.10
+ 66.77 46.27 28.82 25.95 22.84 20.61 20.33 14.18 6.86 8.92 7.37
diff --git a/externals/extra/0.43.2/choice/choice-help.pd b/externals/extra/0.43.2/choice/choice-help.pd
new file mode 100644
index 00000000..0677db87
--- /dev/null
+++ b/externals/extra/0.43.2/choice/choice-help.pd
@@ -0,0 +1,58 @@
+#N canvas 16 5 609 600 12;
+#X obj 8 195 choice;
+#X msg 41 86 print;
+#X msg 29 63 clear;
+#X msg 8 34 add 1 0 0 \, add 0 1 0 \, add 0 0 1 \, add 1 1 1 \, add
+1 1 0;
+#X obj 77 171 pack 0 0 0;
+#X floatatom 182 125 0 0 0 0 - - -;
+#X floatatom 148 125 0 0 0 0 - - -;
+#X floatatom 115 125 0 0 0 0 - - -;
+#X obj 77 147 f;
+#X msg 77 125 bang;
+#X floatatom 8 216 0 0 0 0 - - -;
+#X obj 71 196 choice 1;
+#X floatatom 71 217 0 0 0 0 - - -;
+#X obj 76 4 choice;
+#X text 135 3 - search for a best match to an incoming list;
+#X text 19 243 The choice object holds a list of vectors \, each having
+up to ten elements. When sent a list of numbers \, it outputs the index
+of the known vector that matches most closely. The quality of the match
+is the dot product of the two vectors after normalizing them \, i.e.
+\, the vector whose direction is closest to that of the input wins.
+;
+#X text 19 340 If given a nonzero creation argument \, choice tries
+to avoid repetitious outputs by weighting less recently output vectors
+preferentially.;
+#X text 20 389 You can use this to choose interactively between a number
+of behaviors depending on their attributes. For example \, you might
+have stored a number of melodies \, of which some are syncopated \,
+some chromatic \, some are more than 100 years old \, some are bugle
+calls \, and some are Christmas carols. You could then ask to find
+a syncopated bugle call (1 \, 0 \, 0 \, 1 \, 0) and you'll get the
+thing most closely matching the request.;
+#X text 19 514 You can use numbers other than 0 and 1 to indicate relative
+strengths of the attributes \, or even use negative numbers to indicate
+opposites \, either in the incoming lists or in the stored ones.;
+#X text 320 572 updated for Pd version-0.30;
+#X text 79 62 delete all stored vectors;
+#X text 498 34 add vectors;
+#X text 94 84 debugging printout;
+#X text 69 104 tweak the numbers and hit "bang" to input a list;
+#X text 151 197 creation argument to avoid repeated outout;
+#X text 108 219 output is the index of best match \, counting from
+zero;
+#X connect 0 0 10 0;
+#X connect 1 0 0 0;
+#X connect 2 0 0 0;
+#X connect 2 0 11 0;
+#X connect 3 0 0 0;
+#X connect 3 0 11 0;
+#X connect 4 0 0 0;
+#X connect 4 0 11 0;
+#X connect 5 0 4 2;
+#X connect 6 0 4 1;
+#X connect 7 0 8 1;
+#X connect 8 0 4 0;
+#X connect 9 0 8 0;
+#X connect 11 0 12 0;
diff --git a/externals/extra/0.43.2/choice/choice.c b/externals/extra/0.43.2/choice/choice.c
new file mode 100644
index 00000000..9b8bfb1c
--- /dev/null
+++ b/externals/extra/0.43.2/choice/choice.c
@@ -0,0 +1,128 @@
+/* choice -- match incoming list against a collection of stored templates. */
+
+/* Copyright 1999 Miller Puckette.
+Permission is granted to use this software for any purpose provided you
+keep this copyright notice intact.
+
+THE AUTHOR AND HIS EMPLOYERS MAKE NO WARRANTY, EXPRESS OR IMPLIED,
+IN CONNECTION WITH THIS SOFTWARE.
+
+This file is downloadable from http://www.crca.ucsd.edu/~msp .
+*/
+
+#include "m_pd.h"
+#include <math.h>
+static t_class *choice_class;
+#define DIMENSION 10
+
+typedef struct _elem
+{
+ t_float e_age;
+ t_float e_weight[DIMENSION];
+} t_elem;
+
+typedef struct _choice
+{
+ t_object x_obj;
+ t_elem *x_vec;
+ int x_n;
+ int x_nonrepeat;
+} t_choice;
+
+static void *choice_new(t_float fnonrepeat)
+{
+ t_choice *x = (t_choice *)pd_new(choice_class);
+ outlet_new(&x->x_obj, gensym("float"));
+ x->x_vec = (t_elem *)getbytes(0);
+ x->x_n = 0;
+ x->x_nonrepeat = (fnonrepeat != 0);
+ return (x);
+}
+
+static void choice_clear(t_choice *x)
+{
+ x->x_vec = (t_elem *)resizebytes(x->x_vec, x->x_n * sizeof(t_elem), 0);
+ x->x_n = 0;
+}
+
+static void choice_print(t_choice *x)
+{
+ int j;
+ for (j = 0; j < x->x_n; j++)
+ {
+ t_elem *e = x->x_vec + j;
+ t_float *w = e->e_weight;
+ post("%2d age %2d \
+w %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f %5.2f",
+ j, (int)(e->e_age), w[0], w[1], w[2], w[3], w[4], w[5],
+ w[6], w[7], w[8], w[9]);
+ }
+}
+
+static void choice_add(t_choice *x, t_symbol *s, int argc, t_atom *argv)
+{
+ int oldn = x->x_n, newn = oldn + 1, i;
+ t_elem *e;
+ t_float sum, normal;
+ x->x_vec = (t_elem *)resizebytes(x->x_vec, oldn * sizeof(t_elem),
+ newn * sizeof(t_elem));
+ x->x_n = newn;
+ e = x->x_vec + oldn;
+ e->e_age = 2;
+
+ for (i = 0, sum = 0; i < DIMENSION; i++)
+ {
+ t_float f = atom_getfloatarg(i, argc, argv);
+ e->e_weight[i] = f;
+ sum += f*f;
+ }
+ normal = (t_float)(sum > 0 ? 1./sqrt(sum) : 1);
+ for (i = 0; i < DIMENSION; i++)
+ e->e_weight[i] *= normal;
+}
+
+static void choice_list(t_choice *x, t_symbol *s, int argc, t_atom *argv)
+{
+ int i, j;
+ t_float bestsum = 0;
+ int bestindex = -1;
+ t_float invec[DIMENSION];
+ for (i = 0; i < DIMENSION; i++)
+ invec[i] = atom_getfloatarg(i, argc, argv);
+ for (j = 0; j < x->x_n; j++)
+ {
+ t_elem *e = x->x_vec + j;
+ t_float sum;
+ for (i = 0, sum = 0; i < DIMENSION; i++)
+ sum += e->e_weight[i] * invec[i];
+ if (x->x_nonrepeat) sum *= (t_float)(log(e->e_age));
+ if (sum > bestsum)
+ {
+ bestsum = sum;
+ sum = 1;
+ bestindex = j;
+ }
+ }
+ if (bestindex >= 0)
+ {
+ for (j = 0; j < x->x_n; j++)
+ x->x_vec[j].e_age += 1.;
+ x->x_vec[bestindex].e_age = 1;
+ }
+ outlet_float(x->x_obj.ob_outlet, (t_float)bestindex);
+}
+
+static void choice_free(t_choice *x)
+{
+ freebytes(x->x_vec, x->x_n * sizeof(t_elem));
+}
+
+void choice_setup(void)
+{
+ choice_class = class_new(gensym("choice"), (t_newmethod)choice_new,
+ (t_method)choice_free, sizeof(t_choice), 0, A_DEFFLOAT, 0);
+ class_addmethod(choice_class, (t_method)choice_add, gensym("add"), A_GIMME, 0);
+ class_addmethod(choice_class, (t_method)choice_clear, gensym("clear"), 0);
+ class_addmethod(choice_class, (t_method)choice_print, gensym("print"), 0);
+ class_addlist(choice_class, choice_list);
+}
diff --git a/externals/extra/0.43.2/complex-mod~-help.pd b/externals/extra/0.43.2/complex-mod~-help.pd
new file mode 100644
index 00000000..9e14904d
--- /dev/null
+++ b/externals/extra/0.43.2/complex-mod~-help.pd
@@ -0,0 +1,26 @@
+#N canvas 136 85 600 480 12;
+#X graph graph1 0 -1 882 1 279 209 579 39;
+#X array mod-output 882 float;
+#X pop;
+#X msg 84 256 bang \; pd dsp 1;
+#X floatatom 67 56;
+#X obj 67 186 complex-mod~;
+#X obj 67 84 phasor~ 440;
+#X obj 67 115 cos~;
+#X obj 106 138 cos~;
+#X obj 106 114 -~ 0.25;
+#X floatatom 145 152;
+#X text 93 351 The complex modulator takes two signals in which it considers to be the real and imaginary part of a complex-valued signal. It then does a complex multiplication by a sinusoud to shift all frequencies up or down by any frequency shift in Hz. See also hilbert~.;
+#X obj 69 298 tabwrite~ mod-output;
+#X text 149 204 right outlet;
+#X text 151 220 gives the other;
+#X text 149 236 sideband;
+#X connect 1 0 10 0;
+#X connect 2 0 4 0;
+#X connect 3 0 10 0;
+#X connect 4 0 5 0;
+#X connect 4 0 7 0;
+#X connect 5 0 3 0;
+#X connect 6 0 3 1;
+#X connect 7 0 6 0;
+#X connect 8 0 3 2;
diff --git a/externals/extra/0.43.2/complex-mod~.pd b/externals/extra/0.43.2/complex-mod~.pd
new file mode 100644
index 00000000..df78a3bf
--- /dev/null
+++ b/externals/extra/0.43.2/complex-mod~.pd
@@ -0,0 +1,30 @@
+#N canvas 206 108 428 341 12;
+#X obj 142 87 inlet~;
+#X obj 315 166 cos~;
+#X obj 351 144 +~ -0.25;
+#X obj 351 166 cos~;
+#X obj 225 87 inlet~;
+#X obj 142 215 *~;
+#X obj 225 216 *~;
+#X obj 142 251 -~;
+#X obj 142 284 outlet~;
+#X obj 212 285 outlet~;
+#X obj 212 252 +~;
+#X text 140 310 positive;
+#X text 213 311 negative;
+#X obj 315 114 phasor~;
+#X obj 315 88 inlet~;
+#X connect 0 0 5 0;
+#X connect 1 0 5 1;
+#X connect 2 0 3 0;
+#X connect 3 0 6 1;
+#X connect 4 0 6 0;
+#X connect 5 0 7 0;
+#X connect 5 0 10 0;
+#X connect 6 0 7 1;
+#X connect 6 0 10 1;
+#X connect 7 0 8 0;
+#X connect 10 0 9 0;
+#X connect 13 0 2 0;
+#X connect 13 0 1 0;
+#X connect 14 0 13 0;
diff --git a/externals/extra/0.43.2/debian/changelog b/externals/extra/0.43.2/debian/changelog
new file mode 100644
index 00000000..1aaa941b
--- /dev/null
+++ b/externals/extra/0.43.2/debian/changelog
@@ -0,0 +1,5 @@
+pd-extra (0.42.6-1) unstable; urgency=low
+
+ * Initial release (Closes: #nnnn) <nnnn is the bug number of your ITP>
+
+ -- Hans-Christoph Steiner <hans@eds.org> Thu, 21 Jan 2010 23:27:04 -0500
diff --git a/externals/extra/0.43.2/debian/compat b/externals/extra/0.43.2/debian/compat
new file mode 100644
index 00000000..7f8f011e
--- /dev/null
+++ b/externals/extra/0.43.2/debian/compat
@@ -0,0 +1 @@
+7
diff --git a/externals/extra/0.43.2/debian/control b/externals/extra/0.43.2/debian/control
new file mode 100644
index 00000000..f6000b5c
--- /dev/null
+++ b/externals/extra/0.43.2/debian/control
@@ -0,0 +1,35 @@
+Source: pd-extra
+Section: sound
+Priority: optional
+Maintainer: Debian Multimedia Maintainers <pkg-multimedia-maintainers@lists.alioth.debian.org>
+Uploaders: Hans-Christoph Steiner <hans@eds.org>
+Build-Depends: debhelper (>= 7.0.50~),
+ puredata
+Standards-Version: 3.9.1
+Homepage: http://puredata.info
+
+Package: pd-extra
+Architecture: any
+Depends: ${shlibs:Depends},
+ pd,
+ pd-libdir,
+ ${misc:Depends}
+Recommends: pd-import
+Description: Pd library of core extras distributed as part of Pure Data
+ Pure Data ships with a separate collection of objects known as
+ 'extra'. Included in this collection is a set of audio functions like audio
+ analysis and reverb.
+ .
+ bonk~: attack detection and spectral envelope measurement
+ choice: search for a best match to an incoming list
+ complex-mod~: complex multiplication
+ expr, expr~, fexpr~: objects for evalutaing mathematical expressions
+ fiddle~: pitch estimator and sinusoidal peak finder
+ hilbert~: a phase quadrature for signal sideband modulation
+ loop~: phase generator for looping samplers
+ lrshift~: shift signal vector elements left or right
+ pd~: run pd as a subprocess of pd itself
+ pique: find peaks in an FFT spectrum
+ rev1~, rev2~, rev3~: different reverberation algorithms
+ sigmund~: sinusoidal analysis and pitch tracking
+ stdout: write messages to stdout
diff --git a/externals/extra/0.43.2/debian/copyright b/externals/extra/0.43.2/debian/copyright
new file mode 100644
index 00000000..231abfd2
--- /dev/null
+++ b/externals/extra/0.43.2/debian/copyright
@@ -0,0 +1,63 @@
+Format-Specification: http://svn.debian.org/wsvn/dep/web/deps/dep5.mdwn?rev=135
+Name: extra
+Maintainer: Miller Puckette and others
+Source: http://sourceforge.net/projects/pure-data/files/libraries/extra/
+
+Files: *
+Copyright: 1997-2010, Miller Puckette
+ 1997-1999, Ted Apel
+License: BSD Pd License
+
+Files: expr~/*
+Copyright: 1994, 1995, 1998, 1999 by IRCAM-Centre Georges Pompidou, Paris, France.
+License: GPL-2+
+
+License: BSD Pd License
+This software is copyrighted by Miller Puckette and others. The following
+terms (the "Standard Improved BSD License") apply to all files associated with
+the software unless explicitly disclaimed in individual files:
+
+Redistribution and use in source and binary forms, with or without
+modification, are permitted provided that the following conditions are
+met:
+
+1. Redistributions of source code must retain the above copyright
+ notice, this list of conditions and the following disclaimer.
+2. Redistributions in binary form must reproduce the above
+ copyright notice, this list of conditions and the following
+ disclaimer in the documentation and/or other materials provided
+ with the distribution.
+3. The name of the author may not be used to endorse or promote
+ products derived from this software without specific prior
+ written permission.
+
+THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY
+EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
+THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
+PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR
+BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
+EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
+TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
+ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
+LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
+IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
+THE POSSIBILITY OF SUCH DAMAGE.
+
+
+License: GPL-2+
+ This package is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2 of the License, or
+ (at your option) any later version.
+ .
+ This package is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+ .
+ You should have received a copy of the GNU General Public License
+ along with this package; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+X-Comment: On Debian systems, the complete text of the GNU General
+ Public License can be found in `/usr/share/common-licenses/GPL-2'.
diff --git a/externals/extra/0.43.2/debian/gbp.conf b/externals/extra/0.43.2/debian/gbp.conf
new file mode 100644
index 00000000..ae1dc367
--- /dev/null
+++ b/externals/extra/0.43.2/debian/gbp.conf
@@ -0,0 +1,7 @@
+[DEFAULT]
+upstream-branch = upstream
+debian-branch = master
+upstream-tag = upstream/%(version)s
+debian-tag = debian/%(version)s
+pristine-tar = True
+sign-tags = True
diff --git a/externals/extra/0.43.2/debian/links b/externals/extra/0.43.2/debian/links
new file mode 100644
index 00000000..d97ab7c9
--- /dev/null
+++ b/externals/extra/0.43.2/debian/links
@@ -0,0 +1 @@
+usr/lib/pd/extra/extra/README.txt usr/share/doc/pd-extra/README
diff --git a/externals/extra/0.43.2/debian/rules b/externals/extra/0.43.2/debian/rules
new file mode 100755
index 00000000..67fca227
--- /dev/null
+++ b/externals/extra/0.43.2/debian/rules
@@ -0,0 +1,15 @@
+#!/usr/bin/make -f
+
+LIBRARY_NAME = extra
+PACKAGE = pd-$(LIBRARY_NAME)
+pkglibdir = /usr/lib/pd/extra
+
+%:
+ dh $@ --buildsystem=makefile
+
+override_dh_auto_install:
+ dh_auto_install -- prefix=/usr pkglibdir=$(pkglibdir)
+
+override_dh_shlibdeps:
+ dpkg-shlibdeps $(CURDIR)/debian/$(PACKAGE)$(pkglibdir)/$(LIBRARY_NAME)/*.pd_linux \
+ -T$(CURDIR)/debian/$(PACKAGE).substvars
diff --git a/externals/extra/0.43.2/debian/source/format b/externals/extra/0.43.2/debian/source/format
new file mode 100644
index 00000000..163aaf8d
--- /dev/null
+++ b/externals/extra/0.43.2/debian/source/format
@@ -0,0 +1 @@
+3.0 (quilt)
diff --git a/externals/extra/0.43.2/debian/watch b/externals/extra/0.43.2/debian/watch
new file mode 100644
index 00000000..06eccab4
--- /dev/null
+++ b/externals/extra/0.43.2/debian/watch
@@ -0,0 +1,2 @@
+version=3
+http://sf.net/pure-data/extra-(.*)\.tar\.gz
diff --git a/externals/extra/0.43.2/expr-help.pd b/externals/extra/0.43.2/expr-help.pd
new file mode 100644
index 00000000..8fafb35d
--- /dev/null
+++ b/externals/extra/0.43.2/expr-help.pd
@@ -0,0 +1,497 @@
+#N canvas 165 94 1012 579 12;
+#X text 66 10 expression evaluation family - expr \, expr~ \, fexpr~
+;
+#X text 63 239 Syntyax:;
+#X text 64 311 $f#: float input variable;
+#X text 65 326 $s#: symbol input variable;
+#X text 553 90 Used for expr~ only:;
+#X text 553 105 $v#: signal (vector) input (vector by vector evaluation)
+;
+#X text 550 164 Used for fexpr~ only:;
+#X text 550 220 $y[n]: the output value indexed by n where n has to
+satisfy 0 > n >= -vector size.;
+#X text 550 248 (the vector size can be changed by the "block~" object.)
+;
+#X text 550 179 $x#[n]: the sample from inlet # indexed by n where
+n has to satisfy 0 => n >= -vector size \, ($x# is a shorthand for
+$x#[0] \, specifying the current sample);
+#X text 63 151 expr~ is used for expression evaluaion of signal data
+on the vector by vector basis;
+#X text 63 136 expr is used for expression evaluaion of control data
+;
+#X text 67 39 For a more detailed documentaion refer to http://www.crca.ucsd.edu/~yadegari/expr.html
+;
+#X text 64 254 The syntax is very close to how expressions are written
+in C. Variables are specified as follows where the '#' stands for the
+inlet number:;
+#X text 65 297 $i#: integer input variable;
+#X text 63 179 fexpr~ is used for expression evaluaion on sample level
+data \; i.e. \, filter design. Warning: fexpr~ is very cpu intensive.
+;
+#X text 633 12 updated for Pd 0.35 test 26 and expr* 0.4;
+#X text 67 85 you can define multiple expressoins in the same object.
+semicolon is used to separates the expressions.;
+#X text 635 294 $y -> $y1[-1];
+#X text 550 263 Shorthands: $x -> $x1[0];
+#X text 635 279 $x1 -> $x1[0] $x2 -> $x2[0] .....;
+#X text 635 309 $y1 -> $y1[-1] $y2 -> $y2[-1] .....;
+#N canvas 0 0 828 385 Examples 0;
+#X obj 33 151 expr 1;
+#X floatatom 197 119 0 0 0 0 - - -;
+#X floatatom 33 181 0 0 0 0 - - -;
+#X msg 33 123 bang;
+#X obj 101 149 expr 2 + 3;
+#X msg 101 122 bang;
+#X floatatom 101 177 0 0 0 0 - - -;
+#X floatatom 196 177 0 0 0 0 - - -;
+#X obj 196 149 expr 2+$f1;
+#X floatatom 34 220 0 0 0 0 - - -;
+#X floatatom 34 277 0 0 0 0 - - -;
+#X obj 34 249 expr $f1 * $f2;
+#X floatatom 113 220 0 0 0 0 - - -;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array array1 10 float 0;
+#X coords 0 10 10 0 200 150 1;
+#X restore 584 180 graph;
+#X floatatom 35 315 0 0 0 0 - - -;
+#X floatatom 35 371 0 0 0 0 - - -;
+#X floatatom 194 219 0 0 0 0 - - -;
+#X floatatom 194 276 0 0 0 0 - - -;
+#X obj 194 248 expr $s2[$f1];
+#X msg 267 220 symbol array1;
+#X obj 35 343 expr sin(2 * 3.14159 * $f1 / 360);
+#X msg 330 281 \; array1 1 4 2 8 5 6 1 4 2 8 5 6;
+#X floatatom 310 184 5 0 0 0 - - -;
+#X floatatom 395 186 5 0 0 0 - - -;
+#X floatatom 480 184 5 0 0 0 - - -;
+#X floatatom 310 105 5 0 0 0 - - -;
+#X obj 310 132 expr $f1 \; if ($f1 > 0 \, $f1 * 2 \, 0) \; if ($f1
+<= 0 \, $f1 / 2 \, 0);
+#X text 34 56 Examples of expr object;
+#X text 304 88 an example of multiple expressions and the use of 'if'
+;
+#X connect 0 0 2 0;
+#X connect 1 0 8 0;
+#X connect 3 0 0 0;
+#X connect 4 0 6 0;
+#X connect 5 0 4 0;
+#X connect 8 0 7 0;
+#X connect 9 0 11 0;
+#X connect 11 0 10 0;
+#X connect 12 0 11 1;
+#X connect 14 0 20 0;
+#X connect 16 0 18 0;
+#X connect 18 0 17 0;
+#X connect 19 0 18 1;
+#X connect 20 0 15 0;
+#X connect 25 0 26 0;
+#X connect 26 0 22 0;
+#X connect 26 1 23 0;
+#X connect 26 2 24 0;
+#X restore 307 398 pd Examples of expr;
+#N canvas 23 24 882 676 Examples 0;
+#X text -88 101 expr~ examples:;
+#X obj -24 355 print~;
+#X msg 13 334 bang;
+#X obj -24 276 sig~ 440;
+#X floatatom 49 293 0 0 0 0 - - -;
+#X floatatom -24 253 0 0 0 0 - - -;
+#X obj -24 316 expr~ $v1*$f2;
+#X obj 85 356 print~;
+#X msg 101 335 bang;
+#X floatatom 85 268 0 0 0 0 - - -;
+#X floatatom 158 270 0 0 0 0 - - -;
+#X floatatom 357 291 0 0 0 0 - - -;
+#X floatatom 244 267 0 0 0 0 - - -;
+#X obj 244 294 osc~;
+#X msg 369 47 \; pd dsp 0;
+#X msg 291 49 \; pd dsp 1;
+#X text 294 26 audio on;
+#X text 377 25 audio off;
+#X text -45 236 vector times scalar;
+#X text 87 236 vector;
+#X obj 243 354 dac~;
+#X text 241 245 frequency;
+#X text 373 273 amplitude;
+#X obj 85 315 expr~ $v1*$v2;
+#X floatatom 207 471 5 0 0 0 - - -;
+#X obj -40 520 tabsend~ a1;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array a1 64 float 0;
+#X coords 0 1 63 -1 200 140 1;
+#X restore -39 542 graph;
+#X obj -40 497 expr~ max(min($v1 \, $f2/10) \, -$f2/10);
+#X text -38 123 NOTES: the first inlet of expr~ cannot be a $f1 or
+$i1 \, this may change in later releases;
+#X text -87 420 A simple limiter example;
+#X obj 356 158 vsl 15 128 0 127 0 0 empty empty empty 20 8 0 8 -262144
+-1 -1 0 1;
+#X obj 243 315 expr~ $v1*$f2/128;
+#X text -82 28 make sure you turn on audio for the expr~ examples;
+#X obj -40 473 osc~ 2756.25;
+#X text 122 436 Move the value below between 0 and 10;
+#X text 126 451 to change the limiter threshold;
+#X obj 417 522 tabsend~ a2;
+#X obj 580 518 tabsend~ a3;
+#X obj 417 439 osc~ 2756.25;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array a2 64 float 1;
+#A 0 -0.797042 -0.728354 -0.551199 -0.29486 -5.74798e-08 0.28779 0.525076
+0.677165 0.723186 0.658973 0.49724 0.265198 -5.86755e-06 -0.257244
+-0.467812 -0.601285 -0.639938 -0.581051 -0.436842 -0.232108 -4.49318e-08
+0.223344 0.404462 0.517604 0.548393 0.495593 0.370771 0.195993 -4.2964e-06
+-0.186556 -0.335875 -0.427214 -0.449737 -0.4037 -0.299884 -0.157342
+-3.00576e-08 0.14734 0.262927 0.331275 0.34523 0.306564 0.225106 0.116645
+-2.503e-06 -0.106219 -0.186565 -0.231035 -0.236249 -0.205455 -0.147412
+-0.0744387 -1.36289e-08 0.0637127 0.10778 0.127799 0.124205 0.101679
+0.0677997 0.0312617 -5.8003e-07 -0.0203835 -0.0275998 -0.0229047;
+#X coords 0 1 63 -1 200 140 1;
+#X restore 347 554 graph;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array a3 64 float 0;
+#X coords 0 1 63 -1 200 140 1;
+#X restore 569 554 graph;
+#X obj 417 473 expr~ $v1 *$v2 \; if ($v2 > 0 \, 0 \, $v1*$v2);
+#X obj 580 439 osc~ 100;
+#X connect 2 0 1 0;
+#X connect 3 0 6 0;
+#X connect 4 0 6 1;
+#X connect 5 0 3 0;
+#X connect 6 0 1 0;
+#X connect 8 0 7 0;
+#X connect 9 0 23 0;
+#X connect 10 0 23 1;
+#X connect 11 0 31 1;
+#X connect 12 0 13 0;
+#X connect 13 0 31 0;
+#X connect 23 0 7 0;
+#X connect 24 0 27 1;
+#X connect 27 0 25 0;
+#X connect 30 0 11 0;
+#X connect 31 0 20 0;
+#X connect 31 0 20 1;
+#X connect 33 0 27 0;
+#X connect 38 0 41 0;
+#X connect 41 0 36 0;
+#X connect 41 1 37 0;
+#X connect 42 0 41 1;
+#X restore 307 433 pd Examples of expr~;
+#X text 40 399 For expr examples click here ->;
+#X text 41 433 For expr~ examples click here ->;
+#X text 40 471 For fexpr~ examples click here ->;
+#N canvas 0 0 1059 688 examples 0;
+#X msg 519 84 \; pd dsp 0;
+#X msg 428 84 \; pd dsp 1;
+#X text 426 64 audio on;
+#X text 518 65 audio off;
+#X floatatom 126 304 0 0 0 0 - - -;
+#X floatatom 259 323 0 0 0 0 - - -;
+#X msg 226 283 -10;
+#X text 53 103 fexpr~ examples:;
+#X obj 125 571 print~;
+#X msg 247 552 bang;
+#X floatatom 125 475 0 0 0 0 - - -;
+#X obj 126 347 fexpr~ ($x1[$f2]+$x1)/2;
+#X obj 125 532 fexpr~ $x1+$y[-1];
+#X floatatom 635 366 0 0 0 0 - - -;
+#X floatatom 795 387 0 0 0 0 - - -;
+#X obj 630 456 dac~;
+#X obj 632 407 fexpr~ ($x1[$f2/1000]+$x1)/2;
+#X msg 864 317 0 10000;
+#X obj 795 368 line 0;
+#X msg 798 318 -10000;
+#X obj 120 389 dac~;
+#X text 96 227 Simple FIR filter;
+#X text 557 134 Simple FIR filter using fractional offset;
+#X msg 704 318 -10000 10000;
+#X obj 635 387 osc~ 2205;
+#X msg 644 343 1102.5;
+#X msg 862 342 0 10000;
+#X msg 796 343 -20000;
+#X msg 702 343 -20000 10000;
+#X msg 635 318 2205;
+#X msg 548 312 start;
+#X msg 550 334 stop;
+#X msg 57 284 start;
+#X msg 56 309 stop;
+#X msg 75 469 start;
+#X msg 74 494 stop;
+#X obj 491 335 loadbang;
+#X obj 18 495 loadbang;
+#X obj 1 309 loadbang;
+#X text 617 291 frequency;
+#X text 707 300 of the simple filter;
+#X msg 293 282 -20;
+#X obj 126 325 osc~ 2205;
+#X msg 156 281 1102.5;
+#X msg 110 281 2205;
+#X msg 260 282 0;
+#X text 123 445 simple accumulator defined as and an IIR filter;
+#X text 52 148 NOTE: fexpr~ could use lots of CPU power \, by default
+fexpr~ is on when it is loaded. In this page we are turning them off
+with loadbang \, so to hear them you have to turn them on explicitly.
+You can use the "start" and "stop" messages to start and stop fexpr~
+and expr~;
+#X text 706 288 index defining the frequency;
+#X text 95 240 -10 offset will fully filter audio frequency of 2205
+\, and -20 offset will filter audio at frequency of 1102.5;
+#X text 559 215 Thus \, the offset -10000 will filter audio at frequency
+of 2205 and the offset value -20000 will filter the audio at frequency
+of 1102.5.;
+#X text 558 161 When fractional offset is used \, fexpr~ determines
+indexed by linear interpolation. In the following example the offset
+value is divided by 1000 \, thus we can continuously change the offset
+without an audible click in the output.;
+#X text 288 318 If you change this value you;
+#X text 290 330 hear a click;
+#X text 51 87 make sure you turn on audio for the fexpr~ examples;
+#X text 55 -323 Used for fexpr~ only:;
+#X text 55 -267 $y[n]: the output value indexed by n where n has to
+satisfy 0 > n >= -vector size.;
+#X text 55 -239 (the vector size can be changed by the "block~" object.)
+;
+#X text 55 -308 $x#[n]: the sample from inlet # indexed by n where
+n has to satisfy 0 => n >= -vector size \, ($x# is a shorthand for
+$x#[0] \, specifying the current sample);
+#X text 140 -193 $y -> $y1[-1];
+#X text 55 -224 Shorthands: $x -> $x1[0];
+#X text 140 -208 $x1 -> $x1[0] $x2 -> $x2[0] .....;
+#X text 140 -178 $y1 -> $y1[-1] $y2 -> $y2[-1] .....;
+#X text 64 -125 fexpr~ responds to the following methods;
+#X text 66 -106 clear - clears all the previous input and output buffers
+;
+#X text 65 -92 clear x# - clears the previous values of the #th input
+;
+#X text 66 -79 clear y# - clears the previous values of the #th output
+;
+#X text 66 -33 set x# val-1 val-2 ... - sets the as many supplied values
+of the #th input;
+#X text 513 -22 e.g. \, set x2 3.4 0.4 sets x2[-1]=3.4 and x2[-2]=0.4
+;
+#X text 66 -2 set y# val-1 val-2 ... - sets the as many supplied values
+of the #th input;
+#X text 514 4 e.g. \, set y3 1.1 3.3 4.5 sets y3[-1]=1.1 y3[-2]=3.3
+and y3[-3]=4.5;
+#X text 64 -54 set val val ... - sets the first past values of each
+output;
+#X text 513 -59 e.g. \, set 0.1 2.2 0.4 sets y1[-1]=0.1 y2[-1]=2.2
+\, and y3[-1]=0.4;
+#X msg 244 475 set 4000;
+#X obj 125 504 sig~ 0.001;
+#X msg 245 498 clear;
+#X text 22 442 comment;
+#X text 14 431 1 first click the start button;
+#X text 307 494 2 click the set or the clear button;
+#X text 304 547 3 then click bang to see how set and clear work;
+#X connect 4 0 42 0;
+#X connect 5 0 11 1;
+#X connect 6 0 5 0;
+#X connect 9 0 8 0;
+#X connect 10 0 74 0;
+#X connect 11 0 20 0;
+#X connect 11 0 20 1;
+#X connect 12 0 8 0;
+#X connect 13 0 24 0;
+#X connect 14 0 16 1;
+#X connect 16 0 15 0;
+#X connect 16 0 15 1;
+#X connect 17 0 18 0;
+#X connect 18 0 14 0;
+#X connect 19 0 18 0;
+#X connect 23 0 18 0;
+#X connect 24 0 16 0;
+#X connect 25 0 13 0;
+#X connect 26 0 18 0;
+#X connect 27 0 18 0;
+#X connect 28 0 18 0;
+#X connect 29 0 13 0;
+#X connect 30 0 16 0;
+#X connect 31 0 16 0;
+#X connect 32 0 11 0;
+#X connect 33 0 11 0;
+#X connect 34 0 12 0;
+#X connect 35 0 12 0;
+#X connect 36 0 31 0;
+#X connect 37 0 35 0;
+#X connect 38 0 33 0;
+#X connect 41 0 5 0;
+#X connect 42 0 11 0;
+#X connect 43 0 4 0;
+#X connect 44 0 4 0;
+#X connect 45 0 5 0;
+#X connect 73 0 12 0;
+#X connect 74 0 12 0;
+#X connect 75 0 12 0;
+#X restore 306 472 pd examples of fexpr~;
+#X text 42 504 For using fexpr~ for solving;
+#X text 43 520 differential equations click here ->;
+#N canvas 112 22 944 449 lorenz 0;
+#X obj 176 67 v pr;
+#X obj 307 68 v r;
+#X obj 233 69 v b;
+#X floatatom 176 38 5 0 0 0 - - -;
+#X floatatom 307 40 5 0 0 0 - - -;
+#X msg 177 13 10;
+#X obj 231 10 expr 8./3;
+#X msg 128 136 set 1.2 2.3 4.4;
+#X floatatom 233 39 7 0 0 0 - - -;
+#X msg 75 46 stop;
+#X msg 75 67 start;
+#X floatatom 399 40 5 0 0 0 - - -;
+#X obj 399 69 v dt;
+#X msg 310 12 18;
+#X msg 395 13 0.01;
+#X obj 68 296 dac~;
+#X obj 128 -41 bng 15 250 50 0 empty empty empty 20 8 0 8 -262144 -1
+-1;
+#X text 201 -41 <- turn audio on and bang here;
+#X text 463 42 <- experiment with these numbers;
+#X text 472 72 if you hear a buzz \, you have probably gone unstable
+bang on the top again;
+#X obj 489 15 line;
+#X obj 128 241 /~ 20;
+#X obj 234 238 /~ 20;
+#X obj 340 237 /~ 20;
+#X msg 484 -11 0.01 \, 0.04 5000;
+#X obj 128 185 fexpr~ $y1+(pr*$y2-pr*$y1)*dt \; $y2 +(-$y1*$y3 + r*$y1-$y2)*dt
+\; $y3+($y1*$y2 - b*$y3)*dt;
+#X obj 14 65 loadbang;
+#X text 113 -100 This is an example of how fexpr~ could be used for
+solving differential equations \, in this case the lorenz equations
+which generate chotic signals;
+#X text 361 182 Note the following shorthands:;
+#X text 360 198 $y1 -> $y1[-1] \, $y2 -> $y2[-1] \, .....;
+#X text 248 136 the 'set' commands sets the initial previous values
+;
+#X obj 128 298 tabsend~ lorenz1a;
+#X obj 234 278 tabsend~ lorenz2a;
+#X obj 339 259 tabsend~ lorenz3a;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array lorenz1a 64 float 0;
+#X coords 0 1 63 -1 200 140 1;
+#X restore 73 437 graph;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array lorenz2a 64 float 0;
+#X coords 0 1 63 -1 200 140 1;
+#X restore 331 435 graph;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array lorenz3a 64 float 0;
+#X coords 0 1 63 -1 200 140 1;
+#X restore 592 436 graph;
+#X text 301 315 You can see the graphs if you scroll down;
+#X text 301 328 but the redrawings may cause clicks in the audio;
+#X connect 3 0 0 0;
+#X connect 4 0 1 0;
+#X connect 5 0 3 0;
+#X connect 6 0 8 0;
+#X connect 7 0 25 0;
+#X connect 8 0 2 0;
+#X connect 9 0 25 0;
+#X connect 10 0 25 0;
+#X connect 11 0 12 0;
+#X connect 13 0 4 0;
+#X connect 14 0 11 0;
+#X connect 16 0 5 0;
+#X connect 16 0 6 0;
+#X connect 16 0 13 0;
+#X connect 16 0 14 0;
+#X connect 16 0 7 0;
+#X connect 16 0 10 0;
+#X connect 20 0 11 0;
+#X connect 21 0 31 0;
+#X connect 21 0 15 0;
+#X connect 21 0 15 1;
+#X connect 22 0 32 0;
+#X connect 23 0 33 0;
+#X connect 24 0 20 0;
+#X connect 25 0 21 0;
+#X connect 25 1 22 0;
+#X connect 25 2 23 0;
+#X connect 26 0 9 0;
+#X restore 308 518 pd lorenz equations for audition;
+#N canvas 97 36 978 656 lorenz 0;
+#X obj 176 67 v pr;
+#X obj 307 68 v r;
+#X obj 233 69 v b;
+#X floatatom 176 38 5 0 0 0 - - -;
+#X floatatom 307 40 5 0 0 0 - - -;
+#X msg 177 13 10;
+#X obj 231 10 expr 8./3;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array lorenz1 2048 float 0;
+#X coords 0 -1 2047 1 200 140 1;
+#X restore 82 357 graph;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array lorenz2 2048 float 0;
+#X coords 0 -1 2047 1 200 140 1;
+#X restore 327 353 graph;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array lorenz3 2048 float 0;
+#X coords 0 -1 2047 1 200 140 1;
+#X restore 570 347 graph;
+#X msg 128 136 set 1.2 2.3 4.4;
+#X floatatom 233 39 7 0 0 0 - - -;
+#X msg 75 46 stop;
+#X msg 75 67 start;
+#X floatatom 399 40 5 0 0 0 - - -;
+#X obj 399 69 v dt;
+#X msg 310 12 18;
+#X msg 395 13 0.01;
+#X obj 128 -41 bng 15 250 50 0 empty empty empty 20 8 0 8 -262144 -1
+-1;
+#X text 201 -41 <- turn audio on and bang here;
+#X text 463 42 <- experiment with these numbers;
+#X text 472 72 if you hear a buzz \, you have probably gone unstable
+bang on the top again;
+#X obj 489 15 line;
+#X obj 128 241 /~ 20;
+#X obj 234 238 /~ 20;
+#X obj 340 237 /~ 20;
+#X msg 484 -11 0.01 \, 0.04 5000;
+#X obj 14 65 loadbang;
+#X text 113 -100 This is an example of how fexpr~ could be used for
+solving differential equations \, in this case the lorenz equations
+which generate chotic signals;
+#X text 361 182 Note the following shorthands:;
+#X text 360 198 $y1 -> $y1[-1] \, $y2 -> $y2[-1] \, .....;
+#X text 248 136 the 'set' commands sets the initial previous values
+;
+#X obj 128 298 tabsend~ lorenz1;
+#X obj 234 278 tabsend~ lorenz2;
+#X obj 339 259 tabsend~ lorenz3;
+#X obj 627 280 block~ 2048;
+#X text 669 133 Lorenz Equations;
+#X obj 128 185 fexpr~ $y1+pr * ($y2-$y1)*dt \; $y2 +(-$y1*$y3 + r*$y1-$y2)*dt
+\; $y3+($y1*$y2 - b*$y3)*dt;
+#X text 672 197 dZ/dt = -bZ;
+#X text 669 167 dX/dt = pr * (X - Y);
+#X text 668 147 written with 3 state variable X \, Y \, and Z;
+#X text 670 182 dY/dt = -XZ + rX - y;
+#X connect 3 0 0 0;
+#X connect 4 0 1 0;
+#X connect 5 0 3 0;
+#X connect 6 0 11 0;
+#X connect 10 0 37 0;
+#X connect 11 0 2 0;
+#X connect 12 0 37 0;
+#X connect 13 0 37 0;
+#X connect 14 0 15 0;
+#X connect 16 0 4 0;
+#X connect 17 0 14 0;
+#X connect 18 0 5 0;
+#X connect 18 0 6 0;
+#X connect 18 0 16 0;
+#X connect 18 0 17 0;
+#X connect 18 0 10 0;
+#X connect 18 0 13 0;
+#X connect 22 0 14 0;
+#X connect 23 0 32 0;
+#X connect 24 0 33 0;
+#X connect 25 0 34 0;
+#X connect 26 0 22 0;
+#X connect 27 0 12 0;
+#X connect 37 0 23 0;
+#X connect 37 1 24 0;
+#X connect 37 2 25 0;
+#X restore 308 541 pd lorenz equations for visualization;
+#X text 68 24 by Shahrokh Yadegari;
diff --git a/externals/extra/0.43.2/expr~/LICENSE.txt b/externals/extra/0.43.2/expr~/LICENSE.txt
new file mode 100644
index 00000000..01469ec7
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/LICENSE.txt
@@ -0,0 +1,165 @@
+ GNU LESSER GENERAL PUBLIC LICENSE
+ Version 3, 29 June 2007
+
+ Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
+ Everyone is permitted to copy and distribute verbatim copies
+ of this license document, but changing it is not allowed.
+
+
+ This version of the GNU Lesser General Public License incorporates
+the terms and conditions of version 3 of the GNU General Public
+License, supplemented by the additional permissions listed below.
+
+ 0. Additional Definitions.
+
+ As used herein, "this License" refers to version 3 of the GNU Lesser
+General Public License, and the "GNU GPL" refers to version 3 of the GNU
+General Public License.
+
+ "The Library" refers to a covered work governed by this License,
+other than an Application or a Combined Work as defined below.
+
+ An "Application" is any work that makes use of an interface provided
+by the Library, but which is not otherwise based on the Library.
+Defining a subclass of a class defined by the Library is deemed a mode
+of using an interface provided by the Library.
+
+ A "Combined Work" is a work produced by combining or linking an
+Application with the Library. The particular version of the Library
+with which the Combined Work was made is also called the "Linked
+Version".
+
+ The "Minimal Corresponding Source" for a Combined Work means the
+Corresponding Source for the Combined Work, excluding any source code
+for portions of the Combined Work that, considered in isolation, are
+based on the Application, and not on the Linked Version.
+
+ The "Corresponding Application Code" for a Combined Work means the
+object code and/or source code for the Application, including any data
+and utility programs needed for reproducing the Combined Work from the
+Application, but excluding the System Libraries of the Combined Work.
+
+ 1. Exception to Section 3 of the GNU GPL.
+
+ You may convey a covered work under sections 3 and 4 of this License
+without being bound by section 3 of the GNU GPL.
+
+ 2. Conveying Modified Versions.
+
+ If you modify a copy of the Library, and, in your modifications, a
+facility refers to a function or data to be supplied by an Application
+that uses the facility (other than as an argument passed when the
+facility is invoked), then you may convey a copy of the modified
+version:
+
+ a) under this License, provided that you make a good faith effort to
+ ensure that, in the event an Application does not supply the
+ function or data, the facility still operates, and performs
+ whatever part of its purpose remains meaningful, or
+
+ b) under the GNU GPL, with none of the additional permissions of
+ this License applicable to that copy.
+
+ 3. Object Code Incorporating Material from Library Header Files.
+
+ The object code form of an Application may incorporate material from
+a header file that is part of the Library. You may convey such object
+code under terms of your choice, provided that, if the incorporated
+material is not limited to numerical parameters, data structure
+layouts and accessors, or small macros, inline functions and templates
+(ten or fewer lines in length), you do both of the following:
+
+ a) Give prominent notice with each copy of the object code that the
+ Library is used in it and that the Library and its use are
+ covered by this License.
+
+ b) Accompany the object code with a copy of the GNU GPL and this license
+ document.
+
+ 4. Combined Works.
+
+ You may convey a Combined Work under terms of your choice that,
+taken together, effectively do not restrict modification of the
+portions of the Library contained in the Combined Work and reverse
+engineering for debugging such modifications, if you also do each of
+the following:
+
+ a) Give prominent notice with each copy of the Combined Work that
+ the Library is used in it and that the Library and its use are
+ covered by this License.
+
+ b) Accompany the Combined Work with a copy of the GNU GPL and this license
+ document.
+
+ c) For a Combined Work that displays copyright notices during
+ execution, include the copyright notice for the Library among
+ these notices, as well as a reference directing the user to the
+ copies of the GNU GPL and this license document.
+
+ d) Do one of the following:
+
+ 0) Convey the Minimal Corresponding Source under the terms of this
+ License, and the Corresponding Application Code in a form
+ suitable for, and under terms that permit, the user to
+ recombine or relink the Application with a modified version of
+ the Linked Version to produce a modified Combined Work, in the
+ manner specified by section 6 of the GNU GPL for conveying
+ Corresponding Source.
+
+ 1) Use a suitable shared library mechanism for linking with the
+ Library. A suitable mechanism is one that (a) uses at run time
+ a copy of the Library already present on the user's computer
+ system, and (b) will operate properly with a modified version
+ of the Library that is interface-compatible with the Linked
+ Version.
+
+ e) Provide Installation Information, but only if you would otherwise
+ be required to provide such information under section 6 of the
+ GNU GPL, and only to the extent that such information is
+ necessary to install and execute a modified version of the
+ Combined Work produced by recombining or relinking the
+ Application with a modified version of the Linked Version. (If
+ you use option 4d0, the Installation Information must accompany
+ the Minimal Corresponding Source and Corresponding Application
+ Code. If you use option 4d1, you must provide the Installation
+ Information in the manner specified by section 6 of the GNU GPL
+ for conveying Corresponding Source.)
+
+ 5. Combined Libraries.
+
+ You may place library facilities that are a work based on the
+Library side by side in a single library together with other library
+facilities that are not Applications and are not covered by this
+License, and convey such a combined library under terms of your
+choice, if you do both of the following:
+
+ a) Accompany the combined library with a copy of the same work based
+ on the Library, uncombined with any other library facilities,
+ conveyed under the terms of this License.
+
+ b) Give prominent notice with the combined library that part of it
+ is a work based on the Library, and explaining where to find the
+ accompanying uncombined form of the same work.
+
+ 6. Revised Versions of the GNU Lesser General Public License.
+
+ The Free Software Foundation may publish revised and/or new versions
+of the GNU Lesser General Public License from time to time. Such new
+versions will be similar in spirit to the present version, but may
+differ in detail to address new problems or concerns.
+
+ Each version is given a distinguishing version number. If the
+Library as you received it specifies that a certain numbered version
+of the GNU Lesser General Public License "or any later version"
+applies to it, you have the option of following the terms and
+conditions either of that published version or of any later version
+published by the Free Software Foundation. If the Library as you
+received it does not specify a version number of the GNU Lesser
+General Public License, you may choose any version of the GNU Lesser
+General Public License ever published by the Free Software Foundation.
+
+ If the Library as you received it specifies that a proxy can decide
+whether future versions of the GNU Lesser General Public License shall
+apply, that proxy's public statement of acceptance of any version is
+permanent authorization for you to choose that version for the
+Library.
diff --git a/externals/extra/0.43.2/expr~/README.txt b/externals/extra/0.43.2/expr~/README.txt
new file mode 100644
index 00000000..bf84f2ae
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/README.txt
@@ -0,0 +1,97 @@
+
+You can get more information on the expr object at
+http://www.crca.ucsd.edu/~yadegari/expr.html
+
+-----------
+
+New if Version 0.4
+
+-access to variables (made by value object)
+-multiple expression separated by ;
+-added the following shorthands:
+ $y or $y1 = $y1[-1] and $y2 = $y2[-1]
+-new functions:
+ if - conditional evaluation
+ cbrt - cube root
+ erf - error function
+ erfc - complementary error function
+ expm1 - exponential minus 1,
+ log1p - logarithm of 1 plus
+ isinf - is the value infinite,
+ finite - is the value finite
+ isnan -- is the resut a nan (Not a number)
+ copysign - copy sign of a number
+ ldexp - multiply floating-point number by integral power of 2
+ imodf - get signed integral value from floating-point number
+ modf - get signed fractional value from floating-point number
+ drem - floating-point remainder function
+
+ Thanks to Orm Finnendahl for adding the following functions:
+ fmod - floating-point remainder function
+ ceil - ceiling function: smallest integral value not less than argument
+ floor - largest integral value not greater than argument
+
+------------
+
+New in Version 0.3
+-Full function functionality
+
+------------
+
+The object "expr" is used for expression evaluaion of control data.
+
+Expr~ and fexpr~ are extentions to the expr object to work with vectors.
+The expr~ object is designed to efficiently combine signal and control
+stream processing by vector operations on the basis of the block size of
+the environment.
+
+fexpr~ object provides a flexible mechanism for building FIR and
+IIR filters by evaluating expressions on a sample by sample basis
+and providing access to prior samples of the input and output audio
+streams. When fractional offset is used, fexpr~ uses linear interpolation
+to determine the value of the indexed sample. fexpr~ evaluates the
+expression for every single sample and at every evaluation previous
+samples (limited by the audio vector size) can be accessed. $x is used to
+denote a singnal input whose samples we would like to access. The syntax
+is $x followed by the inlet number and indexed by brackets, for example
+$x1[-1] specifies the previous sample of the first inlet. Therefore,
+if we are to build a simple filter which replaces every sample by
+the average of that sample and its previous one, we would use "fexpr~
+($x1[0]+$x1[-1])/2 ". For ease of when the brackets are omitted, the
+current sample is implied, so we can right the previous filter expression
+as follows: " fexpr~ ($x1+$x1[-1])/2". To build IIR filters $y is used
+to access the previous samples of the output stream.
+
+The three objects expr, expr~, and fexpr~ are implemented in the same object
+so the files expr~.pd_linux and fexpr~.pd_linux are links to expr.pd_linux
+This release has been compiled and tested on Linux 6.0.
+
+--------
+
+Here are some syntax information: (refer to help-expr.pd for examples)
+
+Syntyax:
+The syntax is very close to how expression are written in
+C. Variables are specified as follows where the '#' stands
+for the inlet number:
+$i#: integer input variable
+$f#: float input variable
+$s#: symbol input variable
+
+Used for expr~ only:
+$v#: signal (vector) input (vector by vector evaluation)
+
+Used for fexpr~ only:
+$x#[n]: the sample from inlet # indexed by n, where n has to
+ satisfy 0 => n >= -vector size,
+ ($x# is a shorthand for $x#[0], specifying the current sample)
+
+$y#[n]: the output value indexed by n, where n has to
+ satisfy 0 > n >= -vector size,
+ $y[n] is a shorthand for $y1[n]
+
+
+I'll appreciate hearing about bugs, comments, suggestions, ...
+
+Shahrokh Yadegari (sdy@ucsd.edu)
+7/10/02
diff --git a/externals/extra/0.43.2/expr~/fts_to_pd.h b/externals/extra/0.43.2/expr~/fts_to_pd.h
new file mode 100644
index 00000000..9ca2fc42
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/fts_to_pd.h
@@ -0,0 +1,41 @@
+/* fts_to_pd.h -- alias some fts names to compile in Pd.
+
+copyright 1999 Miller Puckette;
+permission is granted to use this file for any purpose.
+*/
+
+
+#define fts_malloc malloc
+#define fts_calloc calloc
+#define fts_free free
+#define fts_realloc realloc
+#define fts_atom_t t_atom
+#define fts_object_t t_object
+typedef t_symbol *fts_symbol_t;
+
+#ifdef MSP
+#define t_atom Atom
+#define t_symbol Symbol
+#define pd_new(x) newobject(x);
+#define pd_free(x) freeobject(x);
+#define t_outlet void
+#define t_binbuf void
+typedef t_class *t_pd;
+typedef float t_floatarg;
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <stdarg.h>
+#include <string.h>
+#include <errno.h>
+
+void pd_error(void *object, char *fmt, ...);
+
+#endif /* MSP */
+
+#define post_error pd_error
+#define fts_is_floatg(x) ((x)->a_type == A_FLOAT)
+
+#define fts_new_symbol_copy gensym
+
+#define fts_symbol_name(x) ((x)->s_name)
diff --git a/externals/extra/0.43.2/expr~/vexp.c b/externals/extra/0.43.2/expr~/vexp.c
new file mode 100644
index 00000000..8f8ff46c
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/vexp.c
@@ -0,0 +1,2142 @@
+/*
+ * jMax
+ * Copyright (C) 1994, 1995, 1998, 1999 by IRCAM-Centre Georges Pompidou, Paris, France.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * See file LICENSE for further informations on licensing terms.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+ *
+ * Based on Max/ISPW by Miller Puckette.
+ *
+ * Authors: Maurizio De Cecco, Francois Dechelle, Enzo Maggi, Norbert Schnell.
+ *
+ */
+
+/* "expr" was written by Shahrokh Yadegari c. 1989. -msp */
+/* "expr~" and "fexpr~" conversion by Shahrokh Yadegari c. 1999,2000 */
+
+/*
+ * Feb 2002 - added access to variables
+ * multiple expression support
+ * new short hand forms for fexpr~
+ * now $y or $y1 = $y1[-1] and $y2 = $y2[-1]
+ * --sdy
+ *
+ * July 2002
+ * fixed bugs introduced in last changes in store and ET_EQ
+ * --sdy
+ *
+ */
+
+/*
+ * vexp.c -- a variable expression evaluator
+ *
+ * This modules implements an expression evaluator using the
+ * operator-precedence parsing. It transforms an infix expression
+ * to a prefix stack ready to be evaluated. The expression sysntax
+ * is close to that of C. There are a few operators that are not
+ * supported and functions are also recognized. Strings can be
+ * passed to functions when they are quoted in '"'s. "[]" are implememted
+ * as an easy way of accessing the content of tables, and the syntax
+ * table_name[index].
+ * Variables (inlets) are specified with the following syntax: $x#,
+ * where x is either i(integers), f(floats), and s(strings); and #
+ * is a digit that coresponds to the inlet number. The string variables
+ * can be used as strings when they are quoted and can also be used as
+ * table names when they are followed by "[]".
+ *
+ * signal vectors have been added to this implementation:
+ * $v# denotes a signal vector
+ * $x#[index] is the value of a sample at the index of a the signal vector
+ * $x# is the shorthand for $x#[0]
+ * $y[index] is the value of the sample output at the index of a the
+ * signal output
+ * "index" for $x#[index] has to have this range (0 <= index < vectorsize)
+ * "index" for $y[index] has to have this range (0 < index < vectorsize)
+ */
+
+#include <string.h>
+#include <stdlib.h>
+#include <ctype.h>
+#include "vexp.h"
+#ifdef MSP
+#undef isdigit
+#define isdigit(x) (x >= '0' && x <= '9')
+#endif
+
+char *atoif(char *s, long int *value, long int *type);
+
+static struct ex_ex *ex_lex(struct expr *expr, long int *n);
+struct ex_ex *ex_match(struct ex_ex *eptr, long int op);
+struct ex_ex *ex_parse(struct expr *expr, struct ex_ex *iptr,
+ struct ex_ex *optr, long int *argc);
+struct ex_ex *ex_eval(struct expr *expr, struct ex_ex *eptr,
+ struct ex_ex *optr, int i);
+
+int expr_donew(struct expr *exprr, int ac, t_atom *av);
+struct ex_ex *eval_func(struct expr *expr,struct ex_ex *eptr,
+ struct ex_ex *optr, int i);
+struct ex_ex *eval_tab(struct expr *expr, struct ex_ex *eptr,
+ struct ex_ex *optr, int i);
+struct ex_ex *eval_var(struct expr *expr, struct ex_ex *eptr,
+ struct ex_ex *optr, int i);
+struct ex_ex *eval_store(struct expr *expr, struct ex_ex *eptr,
+ struct ex_ex *optr, int i);
+struct ex_ex *eval_sigidx(struct expr *expr, struct ex_ex *eptr,
+ struct ex_ex *optr, int i);
+static int cal_sigidx(struct ex_ex *optr, /* The output value */
+ int i, t_float rem_i, /* integer and fractinal part of index */
+ int idx, /* index of current fexpr~ processing */
+ int vsize, /* vector size */
+ t_float *curvec, t_float *prevec); /* current and previous table */
+t_ex_func *find_func(char *s);
+void ex_dzdetect(struct expr *expr);
+
+#define MAX_ARGS 10
+extern t_ex_func ex_funcs[];
+
+struct ex_ex nullex;
+
+void set_tokens (char *s);
+int getoken (struct expr *expr, struct ex_ex *eptr);
+void ex_print (struct ex_ex *eptr);
+#ifdef MSP
+void atom_string(t_atom *a, char *buf, unsigned int bufsize);
+
+void atom_string(t_atom *a, char *buf, unsigned int bufsize)
+{
+ char tbuf[30];
+ switch(a->a_type)
+ {
+ case A_SEMI: strcpy(buf, ";"); break;
+ case A_COMMA: strcpy(buf, ","); break;
+#ifdef PD
+ case A_POINTER:
+ strcpy(buf, "(pointer)");
+ break;
+#endif
+ case A_FLOAT:
+ sprintf(tbuf, "%g", a->a_w.w_float);
+ if (strlen(tbuf) < bufsize-1) strcpy(buf, tbuf);
+ else if (a->a_w.w_float < 0) strcpy(buf, "-");
+ else strcat(buf, "+");
+ break;
+ case A_LONG:
+ sprintf(tbuf, "%d", a->a_w.w_long);
+ if (strlen(tbuf) < bufsize-1) strcpy(buf, tbuf);
+ else if (a->a_w.w_float < 0) strcpy(buf, "-");
+ else strcat(buf, "+");
+ break;
+ case A_SYMBOL:
+ {
+ char *sp;
+ unsigned int len;
+ int quote;
+ for (sp = a->a_w.w_symbol->s_name, len = 0, quote = 0; *sp; sp++, len++)
+ if (*sp == ';' || *sp == ',' || *sp == '\\' ||
+ (*sp == '$' && sp == a->a_w.w_symbol->s_name && sp[1] >= '0'
+ && sp[1] <= '9'))
+ quote = 1;
+ if (quote)
+ {
+ char *bp = buf, *ep = buf + (bufsize-2);
+ sp = a->a_w.w_symbol->s_name;
+ while (bp < ep && *sp)
+ {
+ if (*sp == ';' || *sp == ',' || *sp == '\\' ||
+ (*sp == '$' && bp == buf && sp[1] >= '0' && sp[1] <= '9'))
+ *bp++ = '\\';
+ *bp++ = *sp++;
+ }
+ if (*sp) *bp++ = '*';
+ *bp = 0;
+ /* post("quote %s -> %s", a->a_w.w_symbol->s_name, buf); */
+ }
+ else
+ {
+ if (len < bufsize-1) strcpy(buf, a->a_w.w_symbol->s_name);
+ else
+ {
+ strncpy(buf, a->a_w.w_symbol->s_name, bufsize - 2);
+ strcpy(buf + (bufsize - 2), "*");
+ }
+ }
+ }
+ break;
+#ifdef PD
+ case A_DOLLAR:
+ sprintf(buf, "$%d", a->a_w.w_index);
+ break;
+ case A_DOLLSYM:
+ sprintf(buf, "$%s", a->a_w.w_symbol->s_name);
+ break;
+#else /* MAX */
+ case A_DOLLAR:
+ sprintf(buf, "$%s", a->a_w.w_symbol->s_name);
+ break;
+#endif
+ default:
+ post("atom_string bug");
+ }
+}
+#endif /* MSP */
+/*
+ * expr_donew -- create a new "expr" object.
+ * returns 1 on failure, 0 on success.
+ */
+int
+expr_donew(struct expr *expr, int ac, t_atom *av)
+{
+ struct ex_ex *list;
+ struct ex_ex *ret;
+ long max_node = 0; /* maximum number of nodes needed */
+ char *exp_string;
+ int exp_strlen;
+ t_binbuf *b;
+ int i;
+
+ memset(expr->exp_var, 0, MAX_VARS * sizeof (*expr->exp_var));
+#ifdef PD
+ b = binbuf_new();
+ binbuf_add(b, ac, av);
+ binbuf_gettext(b, &exp_string, &exp_strlen);
+
+#else /* MSP */
+ {
+ char *buf = getbytes(0), *newbuf;
+ int length = 0;
+ char string[250];
+ t_atom *ap;
+ int indx;
+
+ for (ap = av, indx = 0; indx < ac; indx++, ap = ++av) {
+ int newlength;
+ if ((ap->a_type == A_SEMI || ap->a_type == A_COMMA) &&
+ length && buf[length-1] == ' ') length--;
+ atom_string(ap, string, 250);
+ newlength = length + strlen(string) + 1;
+ if (!(newbuf = t_resizebytes(buf, length, newlength))) break;
+ buf = newbuf;
+ strcpy(buf + length, string);
+ length = newlength;
+ if (ap->a_type == A_SEMI) buf[length-1] = '\n';
+ else buf[length-1] = ' ';
+ }
+
+ if (length && buf[length-1] == ' ') {
+ if (newbuf = t_resizebytes(buf, length, length-1))
+ {
+ buf = newbuf;
+ length--;
+ }
+ }
+ exp_string = buf;
+ exp_strlen = length;
+ }
+#endif
+ exp_string = (char *)t_resizebytes(exp_string, exp_strlen,exp_strlen+1);
+ exp_string[exp_strlen] = 0;
+ expr->exp_string = exp_string;
+ expr->exp_str = exp_string;
+ expr->exp_nexpr = 0;
+ ret = (struct ex_ex *) 0;
+ /*
+ * if ret == 0 it means that we have no expression
+ * so we let the pass go through to build a single null stack
+ */
+ while (*expr->exp_str || !ret) {
+ list = ex_lex(expr, &max_node);
+ if (!list) { /* syntax error */
+ goto error;
+ }
+ expr->exp_stack[expr->exp_nexpr] =
+ (struct ex_ex *)fts_malloc(max_node * sizeof (struct ex_ex));
+ expr->exp_nexpr++;
+ ret = ex_match(list, (long)0);
+ if (!ret) /* syntax error */
+ goto error;
+ ret = ex_parse(expr,
+ list, expr->exp_stack[expr->exp_nexpr - 1], (long *)0);
+ if (!ret)
+ goto error;
+ }
+ *ret = nullex;
+ t_freebytes(exp_string, exp_strlen+1);
+ return (0);
+error:
+ for (i = 0; i < expr->exp_nexpr; i++) {
+ fts_free(expr->exp_stack[i]);
+ expr->exp_stack[i] = 0;
+ }
+ expr->exp_nexpr = 0;
+ if (list)
+ fts_free(list);
+ t_freebytes(exp_string, exp_strlen+1);
+ return (1);
+}
+
+/*
+ * ex_lex -- This routine is a bit more than a lexical parser since it will
+ * also do some syntax checking. It reads the string s and will
+ * return a linked list of struct ex_ex.
+ * It will also put the number of the nodes in *n.
+ */
+struct ex_ex *
+ex_lex(struct expr *expr, long int *n)
+{
+ struct ex_ex *list_arr;
+ struct ex_ex *exptr;
+ long non = 0; /* number of nodes */
+ long maxnode = 0;
+
+ list_arr = (struct ex_ex *)fts_malloc(sizeof (struct ex_ex) * MINODES);
+ if (! list_arr) {
+ post("ex_lex: no mem\n");
+ return ((struct ex_ex *)0);
+ }
+ exptr = list_arr;
+ maxnode = MINODES;
+
+ while (8)
+ {
+ if (non >= maxnode) {
+ maxnode += MINODES;
+
+ list_arr = fts_realloc((void *)list_arr,
+ sizeof (struct ex_ex) * maxnode);
+ if (!list_arr) {
+ post("ex_lex: no mem\n");
+ return ((struct ex_ex *)0);
+ }
+ exptr = &(list_arr)[non];
+ }
+
+ if (getoken(expr, exptr)) {
+ fts_free(list_arr);
+ return ((struct ex_ex *)0);
+ }
+ non++;
+
+ if (!exptr->ex_type)
+ break;
+
+ exptr++;
+ }
+ *n = non;
+
+ return list_arr;
+}
+
+/*
+ * ex_match -- this routine walks through the eptr and matches the
+ * perentheses and brackets, it also converts the function
+ * names to a pointer to the describing structure of the
+ * specified function
+ */
+/* operator to match */
+struct ex_ex *
+ex_match(struct ex_ex *eptr, long int op)
+{
+ int firstone = 1;
+ struct ex_ex *ret;
+ t_ex_func *fun;
+
+ for (; 8; eptr++, firstone = 0) {
+ switch (eptr->ex_type) {
+ case 0:
+ if (!op)
+ return (eptr);
+ post("expr syntax error: an open %s not matched\n",
+ op == OP_RP ? "parenthesis" : "bracket");
+ return (exNULL);
+ case ET_INT:
+ case ET_FLT:
+ case ET_II:
+ case ET_FI:
+ case ET_SI:
+ case ET_VI:
+ case ET_SYM:
+ case ET_VSYM:
+ continue;
+ case ET_YO:
+ if (eptr[1].ex_type != ET_OP || eptr[1].ex_op != OP_LB)
+ eptr->ex_type = ET_YOM1;
+ continue;
+ case ET_XI:
+ if (eptr[1].ex_type != ET_OP || eptr[1].ex_op != OP_LB)
+ eptr->ex_type = ET_XI0;
+ continue;
+ case ET_TBL:
+ case ET_FUNC:
+ case ET_LP:
+ /* CHANGE
+ case ET_RP:
+ */
+ case ET_LB:
+ /* CHANGE
+ case ET_RB:
+ */
+ post("ex_match: unexpected type, %ld\n", eptr->ex_type);
+ return (exNULL);
+ case ET_OP:
+ if (op == eptr->ex_op)
+ return (eptr);
+ /*
+ * if we are looking for a right peranthesis
+ * or a right bracket and find the other kind,
+ * it has to be a syntax error
+ */
+ if ((eptr->ex_op == OP_RP && op == OP_RB) ||
+ (eptr->ex_op == OP_RB && op == OP_RP)) {
+ post("expr syntax error: prenthesis or brackets not matched\n");
+ return (exNULL);
+ }
+ /*
+ * Up to now we have marked the unary minuses as
+ * subrtacts. Any minus that is the first one in
+ * chain or is preceeded by anything except ')' and
+ * ']' is a unary minus.
+ */
+ if (eptr->ex_op == OP_SUB) {
+ ret = eptr - 1;
+ if (firstone || (ret->ex_type == ET_OP &&
+ ret->ex_op != OP_RB && ret->ex_op != OP_RP))
+ eptr->ex_op = OP_UMINUS;
+ } else if (eptr->ex_op == OP_LP) {
+ ret = ex_match(eptr + 1, OP_RP);
+ if (!ret)
+ return (ret);
+ eptr->ex_type = ET_LP;
+ eptr->ex_ptr = (char *) ret;
+ eptr = ret;
+ } else if (eptr->ex_op == OP_LB) {
+ ret = ex_match(eptr + 1, OP_RB);
+ if (!ret)
+ return (ret);
+ eptr->ex_type = ET_LB;
+ eptr->ex_ptr = (char *) ret;
+ eptr = ret;
+ }
+ continue;
+ case ET_STR:
+ if (eptr[1].ex_op == OP_LB) {
+ char *tmp;
+
+ eptr->ex_type = ET_TBL;
+ tmp = eptr->ex_ptr;
+ if (ex_getsym(tmp, (t_symbol **)&(eptr->ex_ptr))) {
+ post("expr: syntax error: problms with ex_getsym\n");
+ return (exNULL);
+ }
+ fts_free((void *)tmp);
+ } else if (eptr[1].ex_op == OP_LP) {
+ fun = find_func(eptr->ex_ptr);
+ if (!fun) {
+ post(
+ "expr: error: function %s not found\n",
+ eptr->ex_ptr);
+ return (exNULL);
+ }
+ eptr->ex_type = ET_FUNC;
+ eptr->ex_ptr = (char *) fun;
+ } else {
+ char *tmp;
+
+ if (eptr[1].ex_type && eptr[1].ex_type!=ET_OP){
+ post("expr: syntax error: bad string '%s'\n", eptr->ex_ptr);
+ return (exNULL);
+ }
+ /* it is a variable */
+ eptr->ex_type = ET_VAR;
+ tmp = eptr->ex_ptr;
+ if (ex_getsym(tmp,
+ (t_symbol **)&(eptr->ex_ptr))) {
+ post("expr: variable '%s' not found",tmp);
+ return (exNULL);
+ }
+ }
+ continue;
+ default:
+ post("ex_match: bad type\n");
+ return (exNULL);
+ }
+ }
+ /* NOTREACHED */
+}
+
+/*
+ * ex_parse -- This function if called when we have already done some
+ * parsing on the expression, and we have already matched
+ * our brackets and parenthesis. The main job of this
+ * function is to convert the infix expression to the
+ * prefix form.
+ * First we find the operator with the lowest precedence and
+ * put it on the stack ('optr', it is really just an array), then
+ * we call ourself (ex_parse()), on its arguments (unary operators
+ * only have one operator.)
+ * When "argc" is set it means that we are parsing the arguments
+ * of a function and we will increment *argc anytime we find
+ * a a segment that can qualify as an argument (counting commas).
+ *
+ * returns 0 on syntax error
+ */
+/* number of argument separated by comma */
+struct ex_ex *
+ex_parse(struct expr *x, struct ex_ex *iptr, struct ex_ex *optr, long int *argc)
+{
+ struct ex_ex *eptr;
+ struct ex_ex *lowpre = 0; /* pointer to the lowest precedence */
+ struct ex_ex savex;
+ long pre = HI_PRE;
+ long count;
+
+ if (!iptr) {
+ post("ex_parse: input is null, iptr = 0x%lx\n", iptr);
+ return (exNULL);
+ }
+ if (!iptr->ex_type)
+ return (exNULL);
+
+ /*
+ * the following loop finds the lowest precedence operator in the
+ * the input token list, comma is explicitly checked here since
+ * that is a special operator and is only legal in functions
+ */
+ for (eptr = iptr, count = 0; eptr->ex_type; eptr++, count++)
+ switch (eptr->ex_type) {
+ case ET_SYM:
+ case ET_VSYM:
+ if (!argc) {
+ post("expr: syntax error: symbols allowed for functions only\n");
+ ex_print(eptr);
+ return (exNULL);
+ }
+ case ET_INT:
+ case ET_FLT:
+ case ET_II:
+ case ET_FI:
+ case ET_XI0:
+ case ET_YOM1:
+ case ET_VI:
+ case ET_VAR:
+ if (!count && !eptr[1].ex_type) {
+ *optr++ = *eptr;
+ return (optr);
+ }
+ break;
+ case ET_XI:
+ case ET_YO:
+ case ET_SI:
+ case ET_TBL:
+ if (eptr[1].ex_type != ET_LB) {
+ post("expr: syntax error: brackets missing\n");
+ ex_print(eptr);
+ return (exNULL);
+ }
+ /* if this table is the only token, parse the table */
+ if (!count &&
+ !((struct ex_ex *) eptr[1].ex_ptr)[1].ex_type) {
+ savex = *((struct ex_ex *) eptr[1].ex_ptr);
+ *((struct ex_ex *) eptr[1].ex_ptr) = nullex;
+ *optr++ = *eptr;
+ lowpre = ex_parse(x, &eptr[2], optr, (long *)0);
+ *((struct ex_ex *) eptr[1].ex_ptr) = savex;
+ return(lowpre);
+ }
+ eptr = (struct ex_ex *) eptr[1].ex_ptr;
+ break;
+ case ET_OP:
+ if (eptr->ex_op == OP_COMMA) {
+ if (!argc || !count || !eptr[1].ex_type) {
+ post("expr: syntax error: illegal comma\n");
+ ex_print(eptr[1].ex_type ? eptr : iptr);
+ return (exNULL);
+ }
+ }
+ if (!eptr[1].ex_type) {
+ post("expr: syntax error: missing operand\n");
+ ex_print(iptr);
+ return (exNULL);
+ }
+ if ((eptr->ex_op & PRE_MASK) <= pre) {
+ pre = eptr->ex_op & PRE_MASK;
+ lowpre = eptr;
+ }
+ break;
+ case ET_FUNC:
+ if (eptr[1].ex_type != ET_LP) {
+ post("expr: ex_parse: no parenthesis\n");
+ return (exNULL);
+ }
+ /* if this function is the only token, parse it */
+ if (!count &&
+ !((struct ex_ex *) eptr[1].ex_ptr)[1].ex_type) {
+ long ac;
+
+ if (eptr[1].ex_ptr == (char *) &eptr[2]) {
+ post("expr: syntax error: missing argument\n");
+ ex_print(eptr);
+ return (exNULL);
+ }
+ ac = 0;
+ savex = *((struct ex_ex *) eptr[1].ex_ptr);
+ *((struct ex_ex *) eptr[1].ex_ptr) = nullex;
+ *optr++ = *eptr;
+ lowpre = ex_parse(x, &eptr[2], optr, &ac);
+ if (!lowpre)
+ return (exNULL);
+ ac++;
+ if (ac !=
+ ((t_ex_func *)eptr->ex_ptr)->f_argc){
+ post("expr: syntax error: function '%s' needs %ld arguments\n",
+ ((t_ex_func *)eptr->ex_ptr)->f_name,
+ ((t_ex_func *)eptr->ex_ptr)->f_argc);
+ return (exNULL);
+ }
+ *((struct ex_ex *) eptr[1].ex_ptr) = savex;
+ return (lowpre);
+ }
+ eptr = (struct ex_ex *) eptr[1].ex_ptr;
+ break;
+ case ET_LP:
+ case ET_LB:
+ if (!count &&
+ !((struct ex_ex *) eptr->ex_ptr)[1].ex_type) {
+ if (eptr->ex_ptr == (char *)(&eptr[1])) {
+ post("expr: syntax error: empty '%s'\n",
+ eptr->ex_type==ET_LP?"()":"[]");
+ ex_print(eptr);
+ return (exNULL);
+ }
+ savex = *((struct ex_ex *) eptr->ex_ptr);
+ *((struct ex_ex *) eptr->ex_ptr) = nullex;
+ lowpre = ex_parse(x, &eptr[1], optr, (long *)0);
+ *((struct ex_ex *) eptr->ex_ptr) = savex;
+ return (lowpre);
+ }
+ eptr = (struct ex_ex *)eptr->ex_ptr;
+ break;
+ case ET_STR:
+ default:
+ ex_print(eptr);
+ post("expr: ex_parse: type = 0x%lx\n", eptr->ex_type);
+ return (exNULL);
+ }
+
+ if (pre == HI_PRE) {
+ post("expr: syntax error: missing operation\n");
+ ex_print(iptr);
+ return (exNULL);
+ }
+ if (count < 2) {
+ post("expr: syntax error: mission operand\n");
+ ex_print(iptr);
+ return (exNULL);
+ }
+ if (count == 2) {
+ if (lowpre != iptr) {
+ post("expr: ex_parse: unary operator should be first\n");
+ return (exNULL);
+ }
+ if (!unary_op(lowpre->ex_op)) {
+ post("expr: syntax error: not a uniary operator\n");
+ ex_print(iptr);
+ return (exNULL);
+ }
+ *optr++ = *lowpre;
+ eptr = ex_parse(x, &lowpre[1], optr, argc);
+ return (eptr);
+ }
+ if (lowpre == iptr) {
+ post("expr: syntax error: mission operand\n");
+ ex_print(iptr);
+ return (exNULL);
+ }
+ savex = *lowpre;
+ *lowpre = nullex;
+ if (savex.ex_op != OP_COMMA)
+ *optr++ = savex;
+ else
+ (*argc)++;
+ eptr = ex_parse(x, iptr, optr, argc);
+ if (eptr) {
+ eptr = ex_parse(x, &lowpre[1], eptr, argc);
+ *lowpre = savex;
+ }
+ return (eptr);
+}
+
+/*
+ * this is the devide zero check for a a non devide operator
+ */
+#define DZC(ARG1,OPR,ARG2) (ARG1 OPR ARG2)
+
+#define EVAL(OPR); \
+eptr = ex_eval(expr, ex_eval(expr, eptr, &left, idx), &right, idx); \
+switch (left.ex_type) { \
+case ET_INT: \
+ switch(right.ex_type) { \
+ case ET_INT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = (t_float)DZC(left.ex_int, OPR, right.ex_int); \
+ for (j = 0; j < expr->exp_vsize; j++) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_INT; \
+ optr->ex_int = DZC(left.ex_int, OPR, right.ex_int); \
+ } \
+ break; \
+ case ET_FLT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = DZC(((t_float)left.ex_int), OPR, right.ex_flt);\
+ for (j = 0; j < expr->exp_vsize; j++) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = DZC(((t_float)left.ex_int), OPR, \
+ right.ex_flt); \
+ } \
+ break; \
+ case ET_VEC: \
+ case ET_VI: \
+ if (optr->ex_type != ET_VEC) { \
+ if (optr->ex_type == ET_VI) { \
+ post("expr~: Int. error %d", __LINE__); \
+ abort(); \
+ } \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float)*expr->exp_vsize); \
+ } \
+ scalar = left.ex_int; \
+ rp = right.ex_vec; \
+ op = optr->ex_vec; \
+ for (i = 0; i < expr->exp_vsize; i++) { \
+ *op++ = DZC (scalar, OPR, *rp); \
+ rp++; \
+ } \
+ break; \
+ case ET_SYM: \
+ default: \
+ post_error((fts_object_t *) expr, \
+ "expr: ex_eval(%d): bad right type %ld\n", \
+ __LINE__, right.ex_type); \
+ nullret = 1; \
+ } \
+ break; \
+case ET_FLT: \
+ switch(right.ex_type) { \
+ case ET_INT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = DZC((t_float) left.ex_flt, OPR, right.ex_int); \
+ for (j = 0; j < expr->exp_vsize; j++) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = DZC(left.ex_flt, OPR, right.ex_int); \
+ } \
+ break; \
+ case ET_FLT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = DZC(left.ex_flt, OPR, right.ex_flt); \
+ for (j = 0; j < expr->exp_vsize; j++) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt= DZC(left.ex_flt, OPR, right.ex_flt); \
+ } \
+ break; \
+ case ET_VEC: \
+ case ET_VI: \
+ if (optr->ex_type != ET_VEC) { \
+ if (optr->ex_type == ET_VI) { \
+ post("expr~: Int. error %d", __LINE__); \
+ abort(); \
+ } \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float)*expr->exp_vsize); \
+ } \
+ scalar = left.ex_flt; \
+ rp = right.ex_vec; \
+ op = optr->ex_vec; \
+ for (i = 0; i < expr->exp_vsize; i++) { \
+ *op++ = DZC(scalar, OPR, *rp); \
+ rp++; \
+ } \
+ break; \
+ case ET_SYM: \
+ default: \
+ post_error((fts_object_t *) expr, \
+ "expr: ex_eval(%d): bad right type %ld\n", \
+ __LINE__, right.ex_type); \
+ nullret = 1; \
+ } \
+ break; \
+case ET_VEC: \
+case ET_VI: \
+ if (optr->ex_type != ET_VEC) { \
+ if (optr->ex_type == ET_VI) { \
+ post("expr~: Int. error %d", __LINE__); \
+ abort(); \
+ } \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float)*expr->exp_vsize); \
+ } \
+ op = optr->ex_vec; \
+ lp = left.ex_vec; \
+ switch(right.ex_type) { \
+ case ET_INT: \
+ scalar = right.ex_int; \
+ for (i = 0; i < expr->exp_vsize; i++) { \
+ *op++ = DZC(*lp, OPR, scalar); \
+ lp++; \
+ } \
+ break; \
+ case ET_FLT: \
+ scalar = right.ex_flt; \
+ for (i = 0; i < expr->exp_vsize; i++) { \
+ *op++ = DZC(*lp, OPR, scalar); \
+ lp++; \
+ } \
+ break; \
+ case ET_VEC: \
+ case ET_VI: \
+ rp = right.ex_vec; \
+ for (i = 0; i < expr->exp_vsize; i++) { \
+ /* \
+ * on a RISC processor one could copy \
+ * 8 times in each round to get a considerable \
+ * improvement \
+ */ \
+ *op++ = DZC(*lp, OPR, *rp); \
+ rp++; lp++; \
+ } \
+ break; \
+ case ET_SYM: \
+ default: \
+ post_error((fts_object_t *) expr, \
+ "expr: ex_eval(%d): bad right type %ld\n", \
+ __LINE__, right.ex_type); \
+ nullret = 1; \
+ } \
+ break; \
+case ET_SYM: \
+default: \
+ post_error((fts_object_t *) expr, \
+ "expr: ex_eval(%d): bad left type %ld\n", \
+ __LINE__, left.ex_type); \
+} \
+break;
+
+/*
+ * evaluate a unary operator, TYPE is applied to float operands
+ */
+#define EVAL_UNARY(OPR, TYPE) \
+ eptr = ex_eval(expr, eptr, &left, idx); \
+ switch(left.ex_type) { \
+ case ET_INT: \
+ if (optr->ex_type == ET_VEC) { \
+ ex_mkvector(optr->ex_vec,(t_float)(OPR left.ex_int),\
+ expr->exp_vsize);\
+ break; \
+ } \
+ optr->ex_type = ET_INT; \
+ optr->ex_int = OPR left.ex_int; \
+ break; \
+ case ET_FLT: \
+ if (optr->ex_type == ET_VEC) { \
+ ex_mkvector(optr->ex_vec, OPR (TYPE left.ex_flt),\
+ expr->exp_vsize);\
+ break; \
+ } \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = OPR (TYPE left.ex_flt); \
+ break; \
+ case ET_VI: \
+ case ET_VEC: \
+ j = expr->exp_vsize; \
+ if (optr->ex_type != ET_VEC) { \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float)*expr->exp_vsize); \
+ } \
+ op = optr->ex_vec; \
+ lp = left.ex_vec; \
+ j = expr->exp_vsize; \
+ for (i = 0; i < j; i++) \
+ *op++ = OPR (TYPE *lp++); \
+ break; \
+ default: \
+ post_error((fts_object_t *) expr, \
+ "expr: ex_eval(%d): bad left type %ld\n", \
+ __LINE__, left.ex_type); \
+ nullret++; \
+ } \
+ break;
+
+void
+ex_mkvector(t_float *fp, t_float x, int size)
+{
+ while (size--)
+ *fp++ = x;
+}
+
+/*
+ * ex_dzdetect -- divide by zero detected
+ */
+void
+ex_dzdetect(struct expr *expr)
+{
+ char *etype;
+
+ if (!expr->exp_error & EE_DZ) {
+ if (IS_EXPR(expr))
+ etype = "expr";
+ else if (IS_EXPR_TILDE(expr))
+ etype = "expr~";
+ else if (IS_FEXPR_TILDE(expr))
+ etype = "fexpr~";
+ else {
+ post ("expr -- ex_dzdetect internal error");
+ etype = "";
+ }
+ post ("%s divide by zero detected", etype);
+ expr->exp_error |= EE_DZ;
+ }
+}
+
+
+/*
+ * ex_eval -- evaluate the array of prefix expression
+ * ex_eval returns the pointer to the first unevaluated node
+ * in the array. This is a recursive routine.
+ */
+
+/* SDY
+all the returns in this function need to be changed so that the code
+ends up at the end to check for newly allocated right and left vectors which
+need to be freed
+
+look into the variable nullret
+*/
+struct ex_ex *
+ex_eval(struct expr *expr, struct ex_ex *eptr, struct ex_ex *optr, int idx)
+/* the expr object data pointer */
+/* the operation stack */
+/* the result pointer */
+/* the sample numnber processed for fexpr~ */
+{
+ int i, j;
+ t_float *lp, *rp, *op; /* left, right, and out pointer to vectors */
+ t_float scalar;
+ int nullret = 0; /* did we have an error */
+ struct ex_ex left, right; /* left and right operands */
+
+ left.ex_type = 0;
+ left.ex_int = 0;
+ right.ex_type = 0;
+ right.ex_int = 0;
+
+ if (!eptr)
+ return (exNULL);
+ switch (eptr->ex_type) {
+ case ET_INT:
+ if (optr->ex_type == ET_VEC)
+ ex_mkvector(optr->ex_vec, (t_float) eptr->ex_int,
+ expr->exp_vsize);
+ else
+ *optr = *eptr;
+ return (++eptr);
+
+ case ET_FLT:
+
+ if (optr->ex_type == ET_VEC)
+ ex_mkvector(optr->ex_vec, eptr->ex_flt, expr->exp_vsize);
+ else
+ *optr = *eptr;
+ return (++eptr);
+
+ case ET_SYM:
+ if (optr->ex_type == ET_VEC) {
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: cannot turn string to vector\n");
+ return (exNULL);
+ }
+ *optr = *eptr;
+ return (++eptr);
+ case ET_II:
+ if (eptr->ex_int == -1) {
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: inlet number not set\n");
+ return (exNULL);
+ }
+ if (optr->ex_type == ET_VEC) {
+ ex_mkvector(optr->ex_vec,
+ (t_float)expr->exp_var[eptr->ex_int].ex_int,
+ expr->exp_vsize);
+ } else {
+ optr->ex_type = ET_INT;
+ optr->ex_int = expr->exp_var[eptr->ex_int].ex_int;
+ }
+ return (++eptr);
+ case ET_FI:
+ if (eptr->ex_int == -1) {
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: inlet number not set\n");
+ return (exNULL);
+ }
+ if (optr->ex_type == ET_VEC) {
+ ex_mkvector(optr->ex_vec,
+ expr->exp_var[eptr->ex_int].ex_flt, expr->exp_vsize);
+ } else {
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = expr->exp_var[eptr->ex_int].ex_flt;
+ }
+ return (++eptr);
+
+ case ET_VSYM:
+ if (optr->ex_type == ET_VEC) {
+ post_error((fts_object_t *) expr,
+ "expr: IntErr. vsym in for vec out\n");
+ return (exNULL);
+ }
+ if (eptr->ex_int == -1) {
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: inlet number not set\n");
+ return (exNULL);
+ }
+ optr->ex_type = ET_SYM;
+ optr->ex_ptr = expr->exp_var[eptr->ex_int].ex_ptr;
+ return(++eptr);
+
+ case ET_VI:
+ if (optr->ex_type != ET_VEC)
+ *optr = expr->exp_var[eptr->ex_int];
+ else if (optr->ex_vec != expr->exp_var[eptr->ex_int].ex_vec)
+ memcpy(optr->ex_vec, expr->exp_var[eptr->ex_int].ex_vec,
+ expr->exp_vsize * sizeof (t_float));
+ return(++eptr);
+ case ET_VEC:
+ if (optr->ex_type != ET_VEC) {
+ optr->ex_type = ET_VEC;
+ optr->ex_vec = eptr->ex_vec;
+ eptr->ex_type = ET_INT;
+ eptr->ex_int = 0;
+ } else if (optr->ex_vec != eptr->ex_vec) {
+ memcpy(optr->ex_vec, eptr->ex_vec,
+ expr->exp_vsize * sizeof (t_float));
+/* do we need to free here? or can we free higher up */
+/* SDY the next lines do not make sense */
+post("calling fts_free\n");
+abort();
+ fts_free(optr->ex_vec);
+ optr->ex_type = ET_INT;
+ eptr->ex_int = 0;
+ } else { /* this should not happen */
+ post("expr int. error, optr->ex_vec = %d",optr->ex_vec);
+ abort();
+ }
+ return(++eptr);
+ case ET_XI0:
+ /* short hand for $x?[0] */
+
+ /* SDY delete the following check */
+ if (!IS_FEXPR_TILDE(expr) || optr->ex_type==ET_VEC) {
+ post("%d:exp->exp_flags = %d", __LINE__,expr->exp_flags);
+ abort();
+ }
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = expr->exp_var[eptr->ex_int].ex_vec[idx];
+ return(++eptr);
+ case ET_YOM1:
+ /*
+ * short hand for $y?[-1]
+ * if we are calculating the first sample of the vector
+ * we need to look at the previous results buffer
+ */
+ optr->ex_type = ET_FLT;
+ if (idx == 0)
+ optr->ex_flt =
+ expr->exp_p_res[eptr->ex_int][expr->exp_vsize - 1];
+ else
+ optr->ex_flt=expr->exp_tmpres[eptr->ex_int][idx-1];
+ return(++eptr);
+
+ case ET_YO:
+ case ET_XI:
+ /* SDY delete the following */
+ if (!IS_FEXPR_TILDE(expr) || optr->ex_type==ET_VEC) {
+ post("%d:expr->exp_flags = %d", __LINE__,expr->exp_flags);
+ abort();
+ }
+ return (eval_sigidx(expr, eptr, optr, idx));
+
+ case ET_TBL:
+ case ET_SI:
+ return (eval_tab(expr, eptr, optr, idx));
+ case ET_FUNC:
+ return (eval_func(expr, eptr, optr, idx));
+ case ET_VAR:
+ return (eval_var(expr, eptr, optr, idx));
+ case ET_OP:
+ break;
+ case ET_STR:
+ case ET_LP:
+ case ET_LB:
+ default:
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: unexpected type %d\n", eptr->ex_type);
+ return (exNULL);
+ }
+ if (!eptr[1].ex_type) {
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: not enough nodes 1\n");
+ return (exNULL);
+ }
+ if (!unary_op(eptr->ex_op) && !eptr[2].ex_type) {
+ post_error((fts_object_t *) expr,
+ "expr: ex_eval: not enough nodes 2\n");
+ return (exNULL);
+ }
+
+ switch((eptr++)->ex_op) {
+ case OP_STORE:
+ return (eval_store(expr, eptr, optr, idx));
+ case OP_NOT:
+ EVAL_UNARY(!, +);
+ case OP_NEG:
+ EVAL_UNARY(~, (long));
+ case OP_UMINUS:
+ EVAL_UNARY(-, +);
+ case OP_MUL:
+ EVAL(*);
+ case OP_ADD:
+ EVAL(+);
+ case OP_SUB:
+ EVAL(-);
+ case OP_LT:
+ EVAL(<);
+ case OP_LE:
+ EVAL(<=);
+ case OP_GT:
+ EVAL(>);
+ case OP_GE:
+ EVAL(>=);
+ case OP_EQ:
+ EVAL(==);
+ case OP_NE:
+ EVAL(!=);
+/*
+ * following operators convert their argument to integer
+ */
+#undef DZC
+#define DZC(ARG1,OPR,ARG2) (((int)ARG1) OPR ((int)ARG2))
+ case OP_SL:
+ EVAL(<<);
+ case OP_SR:
+ EVAL(>>);
+ case OP_AND:
+ EVAL(&);
+ case OP_XOR:
+ EVAL(^);
+ case OP_OR:
+ EVAL(|);
+ case OP_LAND:
+ EVAL(&&);
+ case OP_LOR:
+ EVAL(||);
+/*
+ * for modulo we need to convert to integer and check for divide by zero
+ */
+#undef DZC
+#define DZC(ARG1,OPR,ARG2) (((ARG2)?(((int)ARG1) OPR ((int)ARG2)) \
+ : (ex_dzdetect(expr),0)))
+ case OP_MOD:
+ EVAL(%);
+/*
+ * define the divide by zero check for divide
+ */
+#undef DZC
+#define DZC(ARG1,OPR,ARG2) (((ARG2)?(ARG1 OPR ARG2):(ex_dzdetect(expr),0)))
+ case OP_DIV:
+ EVAL(/);
+ case OP_LP:
+ case OP_RP:
+ case OP_LB:
+ case OP_RB:
+ case OP_COMMA:
+ case OP_SEMI:
+ default:
+ post_error((fts_object_t *) expr, "expr: ex_print: bad op 0x%x\n", eptr->ex_op);
+ return (exNULL);
+ }
+
+
+ /*
+ * the left and right nodes could have been transformed to vectors
+ * down the chain
+ */
+ if (left.ex_type == ET_VEC)
+ fts_free(left.ex_vec);
+ if (right.ex_type == ET_VEC)
+ fts_free(right.ex_vec);
+ if (nullret)
+ return (exNULL);
+ else
+ return (eptr);
+}
+
+/*
+ * eval_func -- evaluate a function, call ex_eval() on all the arguments
+ * so that all of them are terminal nodes. The call the
+ * appropriate function
+ */
+struct ex_ex *
+eval_func(struct expr *expr, struct ex_ex *eptr, struct ex_ex *optr, int idx)
+/* the expr object data pointer */
+/* the operation stack */
+/* the result pointer */
+{
+ int i;
+ struct ex_ex args[MAX_ARGS];
+ t_ex_func *f;
+
+ f = (t_ex_func *)(eptr++)->ex_ptr;
+ if (!f || !f->f_name) {
+ return (exNULL);
+ }
+ if (f->f_argc > MAX_ARGS) {
+ post_error((fts_object_t *) expr, "expr: eval_func: asking too many arguments\n");
+ return (exNULL);
+ }
+
+ for (i = 0; i < f->f_argc; i++) {
+ args[i].ex_type = 0;
+ args[i].ex_int = 0;
+ eptr = ex_eval(expr, eptr, &args[i], idx);
+ }
+ (*f->f_func)(expr, f->f_argc, args, optr);
+ for (i = 0; i < f->f_argc; i++) {
+ if (args[i].ex_type == ET_VEC)
+ fts_free(args[i].ex_vec);
+ }
+ return (eptr);
+}
+
+
+/*
+ * eval_store -- evaluate the '=' operator,
+ * make sure the first operator is a legal left operator
+ * and call ex_eval on the right operator
+ */
+struct ex_ex *
+eval_store(struct expr *expr, struct ex_ex *eptr, struct ex_ex *optr, int idx)
+/* the expr object data pointer */
+/* the operation stack */
+/* the result pointer */
+{
+ struct ex_ex arg;
+ int isvalue;
+ char *tbl = (char *) 0;
+ char *var = (char *) 0;
+ int badleft = 0;
+
+post("store called\n");
+ex_print(eptr);
+eptr = ex_eval(expr, ++eptr, optr, idx);
+return (eptr);
+
+#ifdef notdef /* SDY */
+ arg.ex_type = ET_INT;
+ arg.ex_int = 0;
+ if (eptr->ex_type == ET_VAR) {
+ var = (char *) eptr->ex_ptr;
+
+ eptr = ex_eval(expr, ++eptr, &arg, idx);
+ (void)max_ex_var_store(expr, (t_symbol *)var, &arg, optr);
+ if (arg.ex_type == ET_VEC)
+ fts_free(arg.ex_vec);
+ }
+
+
+ if (eptr->ex_type == ET_SI) {
+ eptr++;
+ if (eptr->ex_type =
+ }
+
+ /* the left operator should either be a value or a array member */
+ switch (eptr->ex_type) {
+ case ET_SI:
+ if ((eptr + 1)->ex_type == OP_LB) {
+ }
+ if (!expr->exp_var[eptr->ex_int].ex_ptr) {
+ if (!(expr->exp_error & EE_NOTABLE)) {
+ post("expr: syntax error: no string for inlet %d", eptr->ex_int + 1);
+ post("expr: No more table errors will be reported");
+ post("expr: till the next reset");
+ expr->exp_error |= EE_NOTABLE;
+ }
+ badleft++;
+ } else
+ tbl = (char *) expr->exp_var[eptr->ex_int].ex_ptr;
+ break;
+ case ET_TBL:
+ }
+#endif /* SDY */
+}
+
+/*
+ * eval_tab -- evaluate a table operation
+ */
+struct ex_ex *
+eval_tab(struct expr *expr, struct ex_ex *eptr, struct ex_ex *optr, int idx)
+/* the expr object data pointer */
+/* the operation stack */
+/* the result pointer */
+{
+ struct ex_ex arg;
+ char *tbl = (char *) 0;
+ int notable = 0;
+
+ if (eptr->ex_type == ET_SI) {
+ if (!expr->exp_var[eptr->ex_int].ex_ptr) {
+/* SDY post_error() does not work in MAX/MSP yet
+ post_error((fts_object_t *) expr,
+ "expr: syntax error: no string for inlet %d\n", eptr->ex_int + 1);
+*/
+ if (!(expr->exp_error & EE_NOTABLE)) {
+ post("expr: syntax error: no string for inlet %d", eptr->ex_int + 1);
+ post("expr: No more table errors will be reported");
+ post("expr: till the next reset");
+ expr->exp_error |= EE_NOTABLE;
+ }
+ notable++;
+ } else
+ tbl = (char *) expr->exp_var[eptr->ex_int].ex_ptr;
+ } else if (eptr->ex_type == ET_TBL)
+ tbl = (char *) eptr->ex_ptr;
+ else {
+ post_error((fts_object_t *) expr, "expr: eval_tbl: bad type %ld\n", eptr->ex_type);
+ notable++;
+
+ }
+ arg.ex_type = 0;
+ arg.ex_int = 0;
+ eptr = ex_eval(expr, ++eptr, &arg, idx);
+
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ if (!notable)
+ (void)max_ex_tab(expr, (t_symbol *)tbl, &arg, optr);
+ if (arg.ex_type == ET_VEC)
+ fts_free(arg.ex_vec);
+ return (eptr);
+}
+
+/*
+ * eval_var -- evaluate a variable
+ */
+struct ex_ex *
+eval_var(struct expr *expr, struct ex_ex *eptr, struct ex_ex *optr, int idx)
+/* the expr object data pointer */
+/* the operation stack */
+/* the result pointer */
+{
+ struct ex_ex arg;
+ char *var = (char *) 0;
+ int novar = 0;
+
+ if (eptr->ex_type == ET_SI) {
+ if (!expr->exp_var[eptr->ex_int].ex_ptr) {
+/* SDY post_error() does not work in MAX/MSP yet
+post_error((fts_object_t *) expr,
+"expr: syntax error: no string for inlet %d\n", eptr->ex_int + 1);
+*/
+ if (!(expr->exp_error & EE_NOVAR)) {
+ post("expr: syntax error: no string for inlet %d", eptr->ex_int + 1);
+ post("expr: No more table errors will be reported");
+ post("expr: till the next reset");
+ expr->exp_error |= EE_NOVAR;
+ }
+ novar++;
+ } else
+ var = (char *) expr->exp_var[eptr->ex_int].ex_ptr;
+ } else if (eptr->ex_type == ET_VAR)
+ var = (char *) eptr->ex_ptr;
+ else {
+ post_error((fts_object_t *) expr, "expr: eval_tbl: bad type %ld\n", eptr->ex_type);
+ novar++;
+
+ }
+
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ if (!novar)
+ (void)max_ex_var(expr, (t_symbol *)var, optr);
+ return (++eptr);
+}
+
+/*
+ * eval_sigidx -- evaluate the value of an indexed signal for fexpr~
+ */
+struct ex_ex *
+eval_sigidx(struct expr *expr, struct ex_ex *eptr, struct ex_ex *optr, int idx)
+/* the expr object data pointer */
+/* the operation stack */
+/* the result pointer */
+/* the index */
+{
+ struct ex_ex arg;
+ struct ex_ex *reteptr;
+ int i = 0, j = 0;
+ t_float fi = 0, /* index in float */
+ rem_i = 0; /* remains of the float */
+ char *tbl;
+
+ arg.ex_type = 0;
+ arg.ex_int = 0;
+ reteptr = ex_eval(expr, eptr + 1, &arg, idx);
+ if (arg.ex_type == ET_FLT) {
+ fi = arg.ex_flt; /* float index */
+ i = (int) arg.ex_flt; /* integer index */
+ rem_i = arg.ex_flt - i; /* remains of integer */
+ } else if (arg.ex_type == ET_INT) {
+ fi = arg.ex_int; /* float index */
+ i = arg.ex_int;
+ rem_i = 0;
+ } else {
+ post("eval_sigidx: bad res type (%d)", arg.ex_type);
+ }
+ optr->ex_type = ET_FLT;
+ /*
+ * indexing an input vector
+ */
+ if (eptr->ex_type == ET_XI) {
+ if (fi > 0) {
+ if (!(expr->exp_error & EE_BI_INPUT)) {
+ expr->exp_error |= EE_BI_INPUT;
+ post("expr: input vector index > 0, (vector x%d[%f])",
+ eptr->ex_int + 1, i + rem_i);
+ post("fexpr~: index assumed to be = 0");
+ post("fexpr~: no error report till next reset");
+ ex_print(eptr);
+ }
+ /* just replace it with zero */
+ i = 0;
+ rem_i = 0;
+ }
+ if (cal_sigidx(optr, i, rem_i, idx, expr->exp_vsize,
+ expr->exp_var[eptr->ex_int].ex_vec,
+ expr->exp_p_var[eptr->ex_int])) {
+ if (!(expr->exp_error & EE_BI_INPUT)) {
+ expr->exp_error |= EE_BI_INPUT;
+ post("expr: input vector index < -VectorSize, (vector x%d[%f])", eptr->ex_int + 1, fi);
+ ex_print(eptr);
+ post("fexpr~: index assumed to be = -%d",
+ expr->exp_vsize);
+ post("fexpr~: no error report till next reset");
+ }
+ }
+
+ /*
+ * indexing an output vector
+ */
+ } else if (eptr->ex_type == ET_YO) {
+ /* for output vectors index of zero is not legal */
+ if (fi >= 0) {
+ if (!(expr->exp_error & EE_BI_OUTPUT)) {
+ expr->exp_error |= EE_BI_OUTPUT;
+ post("fexpr~: bad output index, (%f)", fi);
+ ex_print(eptr);
+ post("fexpr~: no error report till next reset");
+ post("fexpr~: index assumed to be = -1");
+ }
+ i = -1;
+ }
+ if (eptr->ex_int >= expr->exp_nexpr) {
+ post("fexpr~: $y%d illegal: not that many exprs",
+ eptr->ex_int);
+ optr->ex_flt = 0;
+ return (reteptr);
+ }
+ if (cal_sigidx(optr, i, rem_i, idx, expr->exp_vsize,
+ expr->exp_tmpres[eptr->ex_int],
+ expr->exp_p_res[eptr->ex_int])) {
+ if (!(expr->exp_error & EE_BI_OUTPUT)) {
+ expr->exp_error |= EE_BI_OUTPUT;
+ post("fexpr~: bad output index, (%f)", fi);
+ ex_print(eptr);
+ post("fexpr~: index assumed to be = -%d",
+ expr->exp_vsize);
+ }
+ }
+ } else {
+ optr->ex_flt = 0;
+ post("fexpr~:eval_sigidx: internal error - unknown vector (%d)",
+ eptr->ex_type);
+ }
+ return (reteptr);
+}
+
+/*
+ * cal_sigidx -- given two tables (one current one previous) calculate an
+ * evaluation of a float index into the vectors by linear
+ * interpolation
+ * return 0 on success, 1 on failure (index out of bound)
+ */
+static int
+cal_sigidx(struct ex_ex *optr, /* The output value */
+ int i, t_float rem_i,/* integer and fractinal part of index */
+ int idx, /* index of current fexpr~ processing */
+ int vsize, /* vector size */
+ t_float *curvec, t_float *prevec) /* current and previous table */
+{
+ int n;
+
+ n = i + idx;
+ if (n > 0) {
+ /* from the curvec */
+ if (rem_i)
+ optr->ex_flt = curvec[n] +
+ rem_i * (curvec[n] - curvec[n - 1]);
+ else
+ optr->ex_flt = curvec[n];
+ return (0);
+ }
+ if (n == 0) {
+ /*
+ * this is the case that the remaining float
+ * is between two tables
+ */
+ if (rem_i)
+ optr->ex_flt = *curvec +
+ rem_i * (*curvec - prevec[vsize - 1]);
+ else
+ optr->ex_flt = *curvec;
+ return (0);
+ }
+ /* find the index in the saved buffer */
+ n = vsize + n;
+ if (n > 0) {
+ if (rem_i)
+ optr->ex_flt = prevec[n] +
+ rem_i * (prevec[n] - prevec[n - 1]);
+ else
+ optr->ex_flt = prevec[n];
+ return (0);
+ }
+ /* out of bound */
+ optr->ex_flt = *prevec;
+ return (1);
+}
+
+/*
+ * getoken -- return 1 on syntax error otherwise 0
+ */
+int
+getoken(struct expr *expr, struct ex_ex *eptr)
+{
+ char *p;
+ long i;
+
+
+ if (!expr->exp_str) {
+ post("expr: getoken: expression string not set\n");
+ return (0);
+ }
+retry:
+ if (!*expr->exp_str) {
+ eptr->ex_type = 0;
+ eptr->ex_int = 0;
+ return (0);
+ }
+ if (*expr->exp_str == ';') {
+ expr->exp_str++;
+ eptr->ex_type = 0;
+ eptr->ex_int = 0;
+ return (0);
+ }
+ eptr->ex_type = ET_OP;
+ switch (*expr->exp_str++) {
+ case '\\':
+ case ' ':
+ case '\t':
+ goto retry;
+ case ';':
+ post("expr: syntax error: ';' not implemented\n");
+ return (1);
+ case ',':
+ eptr->ex_op = OP_COMMA;
+ break;
+ case '(':
+ eptr->ex_op = OP_LP;
+ break;
+ case ')':
+ eptr->ex_op = OP_RP;
+ break;
+ case ']':
+ eptr->ex_op = OP_RB;
+ break;
+ case '~':
+ eptr->ex_op = OP_NEG;
+ break;
+ /* we will take care of unary minus later */
+ case '*':
+ eptr->ex_op = OP_MUL;
+ break;
+ case '/':
+ eptr->ex_op = OP_DIV;
+ break;
+ case '%':
+ eptr->ex_op = OP_MOD;
+ break;
+ case '+':
+ eptr->ex_op = OP_ADD;
+ break;
+ case '-':
+ eptr->ex_op = OP_SUB;
+ break;
+ case '^':
+ eptr->ex_op = OP_XOR;
+ break;
+ case '[':
+ eptr->ex_op = OP_LB;
+ break;
+ case '!':
+ if (*expr->exp_str == '=') {
+ eptr->ex_op = OP_NE;
+ expr->exp_str++;
+ } else
+ eptr->ex_op = OP_NOT;
+ break;
+ case '<':
+ switch (*expr->exp_str) {
+ case '<':
+ eptr->ex_op = OP_SL;
+ expr->exp_str++;
+ break;
+ case '=':
+ eptr->ex_op = OP_LE;
+ expr->exp_str++;
+ break;
+ default:
+ eptr->ex_op = OP_LT;
+ break;
+ }
+ break;
+ case '>':
+ switch (*expr->exp_str) {
+ case '>':
+ eptr->ex_op = OP_SR;
+ expr->exp_str++;
+ break;
+ case '=':
+ eptr->ex_op = OP_GE;
+ expr->exp_str++;
+ break;
+ default:
+ eptr->ex_op = OP_GT;
+ break;
+ }
+ break;
+ case '=':
+ if (*expr->exp_str++ != '=') {
+ post("expr: syntax error: =\n");
+ return (1);
+ }
+ eptr->ex_op = OP_EQ;
+ break;
+/* do not allow the store till the function is fixed
+ if (*expr->exp_str != '=')
+ eptr->ex_op = OP_STORE;
+ else {
+ expr->exp_str++;
+ eptr->ex_op = OP_EQ;
+ }
+ break;
+*/
+
+ case '&':
+ if (*expr->exp_str == '&') {
+ expr->exp_str++;
+ eptr->ex_op = OP_LAND;
+ } else
+ eptr->ex_op = OP_AND;
+ break;
+
+ case '|':
+ if ((*expr->exp_str == '|')) {
+ expr->exp_str++;
+ eptr->ex_op = OP_LOR;
+ } else
+ eptr->ex_op = OP_OR;
+ break;
+ case '$':
+ switch (*expr->exp_str++) {
+ case 'I':
+ case 'i':
+ eptr->ex_type = ET_II;
+ break;
+ case 'F':
+ case 'f':
+ eptr->ex_type = ET_FI;
+ break;
+ case 'S':
+ case 's':
+ eptr->ex_type = ET_SI;
+ break;
+ case 'V':
+ case 'v':
+ if (IS_EXPR_TILDE(expr)) {
+ eptr->ex_type = ET_VI;
+ break;
+ }
+ post("$v? works only for expr~");
+ post("expr: syntax error: %s\n", &expr->exp_str[-2]);
+ return (1);
+ case 'X':
+ case 'x':
+ if (IS_FEXPR_TILDE(expr)) {
+ eptr->ex_type = ET_XI;
+ if (isdigit(*expr->exp_str))
+ break;
+ /* for $x[] is a shorhand for $x1[] */
+ eptr->ex_int = 0;
+ goto noinletnum;
+ }
+ post("$x? works only for fexpr~");
+ post("expr: syntax error: %s\n", &expr->exp_str[-2]);
+ return (1);
+ case 'y':
+ case 'Y':
+ if (IS_FEXPR_TILDE(expr)) {
+ eptr->ex_type = ET_YO;
+ /*$y takes no number */
+ if (isdigit(*expr->exp_str))
+ break;
+ /* for $y[] is a shorhand for $y1[] */
+ eptr->ex_int = 0;
+ goto noinletnum;
+ }
+ post("$y works only for fexpr~");
+ default:
+ post("expr: syntax error: %s\n", &expr->exp_str[-2]);
+ return (1);
+ }
+ p = atoif(expr->exp_str, &eptr->ex_op, &i);
+ if (!p) {
+ post("expr: syntax error: %s\n", &expr->exp_str[-2]);
+ return (1);
+ }
+ if (i != ET_INT) {
+ post("expr: syntax error: %s\n", expr->exp_str);
+ return (1);
+ }
+ /*
+ * make the user inlets one based rather than zero based
+ * therefore we decrement the number that user has supplied
+ */
+ if (!eptr->ex_op || (eptr->ex_op)-- > MAX_VARS) {
+ post("expr: syntax error: inlet or outlet out of range: %s\n",
+ expr->exp_str);
+ return (1);
+ }
+
+ /*
+ * until we can change the input type of inlets on
+ * the fly (at pd_new()
+ * time) the first input to expr~ is always a vectore
+ * and $f1 or $i1 is
+ * illegal for fexr~
+ */
+ if (eptr->ex_op == 0 &&
+ (IS_FEXPR_TILDE(expr) || IS_EXPR_TILDE(expr)) &&
+ (eptr->ex_type==ET_II || eptr->ex_type==ET_FI ||
+ eptr->ex_type==ET_SI)) {
+ post("first inlet of expr~/fexpr~ can only be a vector");
+ return (1);
+ }
+ /* record the inlet or outlet type and check for consistency */
+ if (eptr->ex_type == ET_YO ) {
+ /* it is an outlet for fexpr~*/
+ /* no need to do anything */
+ ;
+ } else if (!expr->exp_var[eptr->ex_op].ex_type)
+ expr->exp_var[eptr->ex_op].ex_type = eptr->ex_type;
+ else if (expr->exp_var[eptr->ex_op].ex_type != eptr->ex_type) {
+ post("expr: syntax error: inlets can only have one type: %s\n", expr->exp_str);
+ return (1);
+ }
+ expr->exp_str = p;
+noinletnum:
+ break;
+ case '"':
+ {
+ struct ex_ex ex;
+
+ p = expr->exp_str;
+ if (!*expr->exp_str || *expr->exp_str == '"') {
+ post("expr: syntax error: empty symbol: %s\n", --expr->exp_str);
+ return (1);
+ }
+ if (getoken(expr, &ex))
+ return (1);
+ switch (ex.ex_type) {
+ case ET_STR:
+ if (ex_getsym(ex.ex_ptr, (t_symbol **)&(eptr->ex_ptr))) {
+ post("expr: syntax error: getoken: problms with ex_getsym\n");
+ return (1);
+ }
+ eptr->ex_type = ET_SYM;
+ break;
+ case ET_SI:
+ *eptr = ex;
+ eptr->ex_type = ET_VSYM;
+ break;
+ default:
+ post("expr: syntax error: bad symbol name: %s\n", p);
+ return (1);
+ }
+ if (*expr->exp_str++ != '"') {
+ post("expr: syntax error: missing '\"'\n");
+ return (1);
+ }
+ break;
+ }
+ case '.':
+ case '0':
+ case '1':
+ case '2':
+ case '3':
+ case '4':
+ case '5':
+ case '6':
+ case '7':
+ case '8':
+ case '9':
+ p = atoif(--expr->exp_str, &eptr->ex_int, &eptr->ex_type);
+ if (!p)
+ return (1);
+ expr->exp_str = p;
+ break;
+
+ default:
+ /*
+ * has to be a string, it should either be a
+ * function or a table
+ */
+ p = --expr->exp_str;
+ for (i = 0; name_ok(*p); i++)
+ p++;
+ if (!i) {
+ post("expr: syntax error: %s\n", expr->exp_str);
+ return (1);
+ }
+ eptr->ex_ptr = (char *)fts_malloc(i + 1);
+ strncpy(eptr->ex_ptr, expr->exp_str, (int) i);
+ (eptr->ex_ptr)[i] = 0;
+ expr->exp_str = p;
+ /*
+ * we mark this as a string and later we will change this
+ * to either a function or a table
+ */
+ eptr->ex_type = ET_STR;
+ break;
+ }
+ return (0);
+}
+
+/*
+ * atoif -- ascii to float or integer (understands hex numbers also)
+ */
+char *
+atoif(char *s, long int *value, long int *type)
+{
+ char *p;
+ long int_val = 0;
+ int flt = 0;
+ t_float pos = 0;
+ t_float flt_val = 0;
+ int base = 10;
+
+ p = s;
+ if (*p == '0' && (p[1] == 'x' || p[1] == 'X')) {
+ base = 16;
+ p += 2;
+ }
+ while (8) {
+ switch (*p) {
+ case '.':
+ if (flt || base != 10) {
+ post("expr: syntax error: %s\n", s);
+ return ((char *) 0);
+ }
+ flt++;
+ pos = 10;
+ flt_val = int_val;
+ break;
+ case '0':
+ case '1':
+ case '2':
+ case '3':
+ case '4':
+ case '5':
+ case '6':
+ case '7':
+ case '8':
+ case '9':
+ if (flt) {
+ flt_val += (*p - '0') / pos;
+ pos *= 10;
+ } else {
+ int_val *= base;
+ int_val += (*p - '0');
+ }
+ break;
+ case 'a':
+ case 'b':
+ case 'c':
+ case 'd':
+ case 'e':
+ case 'f':
+ if (base != 16 || flt) {
+ post("expr: syntax error: %s\n", s);
+ return ((char *) 0);
+ }
+ int_val *= base;
+ int_val += (*p - 'a' + 10);
+ break;
+ case 'A':
+ case 'B':
+ case 'C':
+ case 'D':
+ case 'E':
+ case 'F':
+ if (base != 16 || flt) {
+ post("expr: syntax error: %s\n", s);
+ return ((char *) 0);
+ }
+ int_val *= base;
+ int_val += (*p - 'A' + 10);
+ break;
+ default:
+ if (flt) {
+ *type = ET_FLT;
+ *((t_float *) value) = flt_val;
+ } else {
+ *type = ET_INT;
+ *value = int_val;
+ }
+ return (p);
+ }
+ p++;
+ }
+}
+
+/*
+ * find_func -- returns a pointer to the found function structure
+ * otherwise it returns 0
+ */
+t_ex_func *
+find_func(char *s)
+{
+ t_ex_func *f;
+
+ for (f = ex_funcs; f->f_name; f++)
+ if (!strcmp(f->f_name, s))
+ return (f);
+ return ((t_ex_func *) 0);
+}
+
+
+/*
+ * ex_print -- print an expression array
+ */
+
+void
+ex_print(struct ex_ex *eptr)
+{
+
+ while (eptr->ex_type) {
+ switch (eptr->ex_type) {
+ case ET_INT:
+ post("%ld ", eptr->ex_int);
+ break;
+ case ET_FLT:
+ post("%f ", eptr->ex_flt);
+ break;
+ case ET_STR:
+ post("%s ", eptr->ex_ptr);
+ break;
+ case ET_TBL:
+ case ET_VAR:
+ post("%s ", ex_symname((fts_symbol_t )eptr->ex_ptr));
+ break;
+ case ET_SYM:
+ post("\"%s\" ", ex_symname((fts_symbol_t )eptr->ex_ptr));
+ break;
+ case ET_VSYM:
+ post("\"$s%ld\" ", eptr->ex_int + 1);
+ break;
+ case ET_FUNC:
+ post("%s ",
+ ((t_ex_func *)eptr->ex_ptr)->f_name);
+ break;
+ case ET_LP:
+ post("%c", '(');
+ break;
+ /* CHANGE
+ case ET_RP:
+ post("%c ", ')');
+ break;
+ */
+ case ET_LB:
+ post("%c", '[');
+ break;
+ /* CHANGE
+ case ET_RB:
+ post("%c ", ']');
+ break;
+ */
+ case ET_II:
+ post("$i%ld ", eptr->ex_int + 1);
+ break;
+ case ET_FI:
+ post("$f%ld ", eptr->ex_int + 1);
+ break;
+ case ET_SI:
+ post("$s%lx ", eptr->ex_ptr);
+ break;
+ case ET_VI:
+ post("$v%lx ", eptr->ex_vec);
+ break;
+ case ET_VEC:
+ post("vec = %ld ", eptr->ex_vec);
+ break;
+ case ET_YOM1:
+ case ET_YO:
+ post("$y%d", eptr->ex_int + 1);
+ break;
+ case ET_XI:
+ case ET_XI0:
+ post("$x%d", eptr->ex_int + 1);
+ break;
+ case ET_OP:
+ switch (eptr->ex_op) {
+ case OP_LP:
+ post("%c", '(');
+ break;
+ case OP_RP:
+ post("%c ", ')');
+ break;
+ case OP_LB:
+ post("%c", '[');
+ break;
+ case OP_RB:
+ post("%c ", ']');
+ break;
+ case OP_NOT:
+ post("%c", '!');
+ break;
+ case OP_NEG:
+ post("%c", '~');
+ break;
+ case OP_UMINUS:
+ post("%c", '-');
+ break;
+ case OP_MUL:
+ post("%c", '*');
+ break;
+ case OP_DIV:
+ post("%c", '/');
+ break;
+ case OP_MOD:
+ post("%c", '%');
+ break;
+ case OP_ADD:
+ post("%c", '+');
+ break;
+ case OP_SUB:
+ post("%c", '-');
+ break;
+ case OP_SL:
+ post("%s", "<<");
+ break;
+ case OP_SR:
+ post("%s", ">>");
+ break;
+ case OP_LT:
+ post("%c", '<');
+ break;
+ case OP_LE:
+ post("%s", "<=");
+ break;
+ case OP_GT:
+ post("%c", '>');
+ break;
+ case OP_GE:
+ post("%s", ">=");
+ break;
+ case OP_EQ:
+ post("%s", "==");
+ break;
+ case OP_STORE:
+ post("%s", "=");
+ break;
+ case OP_NE:
+ post("%s", "!=");
+ break;
+ case OP_AND:
+ post("%c", '&');
+ break;
+ case OP_XOR:
+ post("%c", '^');
+ break;
+ case OP_OR:
+ post("%c", '|');
+ break;
+ case OP_LAND:
+ post("%s", "&&");
+ break;
+ case OP_LOR:
+ post("%s", "||");
+ break;
+ case OP_COMMA:
+ post("%c", ',');
+ break;
+ case OP_SEMI:
+ post("%c", ';');
+ break;
+ default:
+ post("expr: ex_print: bad op 0x%lx\n", eptr->ex_op);
+ }
+ break;
+ default:
+ post("expr: ex_print: bad type 0x%lx\n", eptr->ex_type);
+ }
+ eptr++;
+ }
+ post("\n");
+}
+
+#ifdef _WIN32
+void ABORT( void) {bug("expr");}
+#endif
diff --git a/externals/extra/0.43.2/expr~/vexp.h b/externals/extra/0.43.2/expr~/vexp.h
new file mode 100644
index 00000000..df5547ea
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/vexp.h
@@ -0,0 +1,248 @@
+/*
+ * jMax
+ * Copyright (C) 1994, 1995, 1998, 1999 by IRCAM-Centre Georges Pompidou, Paris, France.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * See file LICENSE for further informations on licensing terms.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+ *
+ * Based on Max/ISPW by Miller Puckette.
+ *
+ * Authors: Maurizio De Cecco, Francois Dechelle, Enzo Maggi, Norbert Schnell.
+ *
+ */
+
+/* "expr" was written by Shahrokh Yadegari c. 1989. -msp */
+/* "expr~" and "fexpr~" conversion by Shahrokh Yadegari c. 1999,2000 */
+
+#define MSP
+#ifdef PD
+#undef MSP
+#endif
+
+#ifdef PD
+#include "m_pd.h"
+#else /* MSP */
+#include "ext.h"
+#include "z_dsp.h"
+#endif
+
+#include "fts_to_pd.h"
+/* This is put in fts_to_pd.h
+
+#ifdef MSP
+#define t_atom Atom
+#define t_symbol Symbol
+#define pd_new(x) newobject(x);
+#define t_outlet void
+#endif
+*/
+
+/*
+ * Currently the maximum number of variables (inlets) that are supported
+ * is 10.
+ */
+
+#define MAX_VARS 9
+#define MINODES 10 /* was 200 */
+
+/* terminal defines */
+
+/*
+ * operations
+ * (x<<16|y) x defines the level of precedence,
+ * the lower the number the lower the precedence
+ * separators are defines as operators just for convenience
+ */
+
+#define OP_SEMI ((long)(1<<16|1)) /* ; */
+#define OP_COMMA ((long)(2<<16|2)) /* , */
+#define OP_LOR ((long)(3<<16|3)) /* || */
+#define OP_LAND ((long)(4<<16|4)) /* && */
+#define OP_OR ((long)(5<<16|5)) /* | */
+#define OP_XOR ((long)(6<<16|6)) /* ^ */
+#define OP_AND ((long)(7<<16|7)) /* & */
+#define OP_NE ((long)(8<<16|8)) /* != */
+#define OP_EQ ((long)(8<<16|9)) /* == */
+#define OP_GE ((long)(9<<16|10)) /* >= */
+#define OP_GT ((long)(9<<16|11)) /* > */
+#define OP_LE ((long)(9<<16|12)) /* <= */
+#define OP_LT ((long)(9<<16|13)) /* < */
+#define OP_SR ((long)(10<<16|14)) /* >> */
+#define OP_SL ((long)(10<<16|15)) /* << */
+#define OP_SUB ((long)(11<<16|16)) /* - */
+#define OP_ADD ((long)(11<<16|17)) /* + */
+#define OP_MOD ((long)(12<<16|18)) /* % */
+#define OP_DIV ((long)(12<<16|19)) /* / */
+#define OP_MUL ((long)(12<<16|20)) /* * */
+#define OP_UMINUS ((long)(13<<16|21)) /* - unary minus */
+#define OP_NEG ((long)(13<<16|22)) /* ~ one complement */
+#define OP_NOT ((long)(13<<16|23)) /* ! */
+#define OP_RB ((long)(14<<16|24)) /* ] */
+#define OP_LB ((long)(14<<16|25)) /* [ */
+#define OP_RP ((long)(14<<16|26)) /* ) */
+#define OP_LP ((long)(14<<16|27)) /* ( */
+#define OP_STORE ((long)(15<<16|28)) /* = */
+#define HI_PRE ((long)(100<<16)) /* infinite precedence */
+#define PRE_MASK ((long)0xffff0000) /* precedence level mask */
+
+struct ex_ex;
+
+#define name_ok(c) (((c)=='_') || ((c)>='a' && (c)<='z') || \
+ ((c)>='A' && (c)<='Z') || ((c) >= '0' && (c) <= '9'))
+#define unary_op(x) ((x) == OP_NOT || (x) == OP_NEG || (x) == OP_UMINUS)
+
+struct ex_ex {
+ union {
+ long v_int;
+ t_float v_flt;
+ t_float *v_vec; /* this is an for allocated vector */
+ long op;
+ char *ptr;
+ } ex_cont; /* content */
+#define ex_int ex_cont.v_int
+#define ex_flt ex_cont.v_flt
+#define ex_vec ex_cont.v_vec
+#define ex_op ex_cont.op
+#define ex_ptr ex_cont.ptr
+ long ex_type; /* type of the node */
+};
+#define exNULL ((struct ex_ex *)0)
+
+/* defines for ex_type */
+#define ET_INT 1 /* an int */
+#define ET_FLT 2 /* a float */
+#define ET_OP 3 /* operator */
+#define ET_STR 4 /* string */
+#define ET_TBL 5 /* a table, the content is a pointer */
+#define ET_FUNC 6 /* a function */
+#define ET_SYM 7 /* symbol ("string") */
+#define ET_VSYM 8 /* variable symbol ("$s?") */
+ /* we treat parenthesis and brackets */
+ /* special to keep a pointer to their */
+ /* match in the content */
+#define ET_LP 9 /* left parenthesis */
+#define ET_LB 10 /* left bracket */
+#define ET_II 11 /* and integer inlet */
+#define ET_FI 12 /* float inlet */
+#define ET_SI 13 /* string inlet */
+#define ET_VI 14 /* signal inlet */
+#define ET_VEC 15 /* allocated signal vector */
+ /* special types for fexpr~ */
+#define ET_YO 16 /* vector output for fexpr~ */
+#define ET_YOM1 17 /* shorthand for $y?[-1] */
+#define ET_XI 18 /* vector input for fexpr~ */
+#define ET_XI0 20 /* shorthand for $x?[0] */
+#define ET_VAR 21 /* variable */
+
+/* defines for ex_flags */
+#define EF_TYPE_MASK 0x07 /* first three bits define the type of expr */
+#define EF_EXPR 0x01 /* expr - control in and out */
+#define EF_EXPR_TILDE 0x02 /* expr~ signal and control in, signal out */
+#define EF_FEXPR_TILDE 0x04 /* fexpr~ filter expression */
+
+#define EF_STOP 0x08 /* is it stopped used for expr~ and fexpr~ */
+#define EF_VERBOSE 0x10 /* verbose mode */
+
+#define IS_EXPR(x) ((((x)->exp_flags&EF_TYPE_MASK)|EF_EXPR) == EF_EXPR)
+#define IS_EXPR_TILDE(x) \
+ ((((x)->exp_flags&EF_TYPE_MASK)|EF_EXPR_TILDE)==EF_EXPR_TILDE)
+#define IS_FEXPR_TILDE(x) \
+ ((((x)->exp_flags&EF_TYPE_MASK)|EF_FEXPR_TILDE)==EF_FEXPR_TILDE)
+
+#define SET_EXPR(x) (x)->exp_flags |= EF_EXPR; \
+ (x)->exp_flags &= ~EF_EXPR_TILDE; \
+ (x)->exp_flags &= ~EF_FEXPR_TILDE;
+
+#define SET_EXPR_TILDE(x) (x)->exp_flags &= ~EF_EXPR; \
+ (x)->exp_flags |= EF_EXPR_TILDE; \
+ (x)->exp_flags &= ~EF_FEXPR_TILDE;
+
+#define SET_FEXPR_TILDE(x) (x)->exp_flags &= ~EF_EXPR; \
+ (x)->exp_flags &= ~EF_EXPR_TILDE; \
+ (x)->exp_flags |= EF_FEXPR_TILDE;
+
+/*
+ * defines for expr_error
+ */
+#define EE_DZ 0x01 /* divide by zero error */
+#define EE_BI_OUTPUT 0x02 /* Bad output index */
+#define EE_BI_INPUT 0x04 /* Bad input index */
+#define EE_NOTABLE 0x08 /* NO TABLE */
+#define EE_NOVAR 0x10 /* NO VARIABLE */
+
+typedef struct expr {
+#ifdef PD
+ t_object exp_ob;
+#else /* MSP */
+ t_pxobject exp_ob;
+#endif
+ int exp_flags; /* are we expr~, fexpr~, or expr */
+ int exp_error; /* reported errors */
+ int exp_nexpr; /* number of expressions */
+ char *exp_string; /* the full expression string */
+ char *exp_str; /* current parsing position */
+ t_outlet *exp_outlet[MAX_VARS];
+#ifdef PD
+ struct _exprproxy *exp_proxy;
+#else /* MAX */
+ void *exp_proxy[MAX_VARS];
+ long exp_proxy_id;
+#endif
+ struct ex_ex *exp_stack[MAX_VARS];
+ struct ex_ex exp_var[MAX_VARS];
+ struct ex_ex exp_res[MAX_VARS]; /* the evluation result */
+ t_float *exp_p_var[MAX_VARS];
+ t_float *exp_p_res[MAX_VARS]; /* the previous evaluation result */
+ t_float *exp_tmpres[MAX_VARS]; /* temporty result for fexpr~ */
+ int exp_vsize; /* the size of the signal vector */
+ int exp_nivec; /* # of vector inlets */
+ t_float exp_f; /* control value to be transformed to signal */
+} t_expr;
+
+typedef struct ex_funcs {
+ char *f_name; /* function name */
+ void (*f_func)(t_expr *, long, struct ex_ex *, struct ex_ex *);
+ /* the real function performing the function (void, no return!!!) */
+ long f_argc; /* number of arguments */
+} t_ex_func;
+
+/* function prototypes for pd-related functions called withing vexp.h */
+
+extern int max_ex_tab(struct expr *expr, t_symbol *s, struct ex_ex *arg, struct ex_ex *optr);
+extern int max_ex_var(struct expr *expr, t_symbol *s, struct ex_ex *optr);
+extern int ex_getsym(char *p, t_symbol **s);
+extern const char *ex_symname(t_symbol *s);
+void ex_mkvector(t_float *fp, t_float x, int size);
+extern void ex_size(t_expr *expr, long int argc, struct ex_ex *argv,
+ struct ex_ex *optr);
+extern void ex_sum(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+extern void ex_Sum(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+extern void ex_avg(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+extern void ex_Avg(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+extern void ex_store(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+
+int value_getonly(t_symbol *s, t_float *f);
+
+
+/* These pragmas are only used for MSVC, not MinGW or Cygwin <hans@at.or.at> */
+#ifdef _MSC_VER
+#pragma warning (disable: 4305 4244)
+#endif
+
+#ifdef _WIN32
+#define abort ABORT
+void ABORT(void);
+#endif
diff --git a/externals/extra/0.43.2/expr~/vexp_fun.c b/externals/extra/0.43.2/expr~/vexp_fun.c
new file mode 100644
index 00000000..73c0b5c6
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/vexp_fun.c
@@ -0,0 +1,1315 @@
+/*
+ * jMax
+ * Copyright (C) 1994, 1995, 1998, 1999 by IRCAM-Centre Georges Pompidou, Paris, France.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * See file LICENSE for further informations on licensing terms.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+ *
+ * Based on Max/ISPW by Miller Puckette.
+ *
+ * Authors: Maurizio De Cecco, Francois Dechelle, Enzo Maggi, Norbert Schnell.
+ *
+ */
+
+/* "expr" was written by Shahrokh Yadegari c. 1989. -msp
+ *
+ * Nov. 2001 --sdy
+ * conversion for expr~
+ *
+ * Jan, 2002 --sdy
+ * added fmod()
+ *
+ * May 2002
+ * added floor and ceil for expr -- Orm Finnendahl
+ *
+ * July 2002 --sdy
+ * added the following math funtions:
+ * cbrt - cube root
+ * erf - error function
+ * erfc - complementary error function
+ * expm1 - exponential minus 1,
+ * log1p - logarithm of 1 plus
+ * isinf - is the value infinite,
+ * finite - is the value finite
+ * isnan -- is the resut a nan (Not a number)
+ * copysign - copy sign of a number
+ * ldexp - multiply floating-point number by integral power of 2
+ * imodf - get signed integral value from floating-point number
+ * modf - get signed fractional value from floating-point number
+ * drem - floating-point remainder function
+ *
+ * The following are done but not popular enough in math libss
+ * to be included yet
+ * hypoth - Euclidean distance function
+ * trunc
+ * round
+ * nearbyint -
+ */
+
+
+
+/*
+ * vexp_func.c -- this file include all the functions for vexp.
+ * the first two arguments to the function are the number
+ * of argument and an array of arguments (argc, argv)
+ * the last argument is a pointer to a struct ex_ex for
+ * the result. Up do this point, the content of the
+ * struct ex_ex that these functions receive are either
+ * ET_INT (long), ET_FLT (t_float), or ET_SYM (char **, it is
+ * char ** and not char * since NewHandle of Mac returns
+ * a char ** for relocatability.) The common practice in
+ * these functions is that they figure out the type of their
+ * result according to the type of the arguments. In general
+ * the ET_SYM is used an ET_INT when we expect a value.
+ * It is the users responsibility not to pass strings to the
+ * function.
+ */
+
+#include <stdlib.h>
+#include <string.h>
+
+#define __STRICT_BSD__
+#include <math.h>
+#undef __STRICT_BSD__
+
+
+#include "vexp.h"
+
+/* forward declarations */
+
+static void ex_min(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_max(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_toint(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_rint(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_tofloat(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_pow(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_exp(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_log(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_ln(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_sin(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_cos(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_asin(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_acos(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_tan(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_atan(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_sinh(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_cosh(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_asinh(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_acosh(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_tanh(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_atanh(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_atan2(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_sqrt(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_fact(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_random(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_abs(t_expr *expr, long int argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_fmod(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_ceil(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_floor(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_if(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_ldexp(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_imodf(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_modf(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+#ifndef _WIN32
+static void ex_cbrt(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_erf(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_erfc(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_expm1(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_log1p(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_isinf(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_finite(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_isnan(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_copysign(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_drem(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+#endif
+#ifdef notdef
+/* the following will be added once they are more popular in math libraries */
+static void ex_round(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_trunc(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_nearbyint(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+static void ex_hypoth(t_expr *expr, long argc, struct ex_ex *argv, struct ex_ex *optr);
+#endif
+
+
+t_ex_func ex_funcs[] = {
+ {"min", ex_min, 2},
+ {"max", ex_max, 2},
+ {"int", ex_toint, 1},
+ {"rint", ex_rint, 1},
+ {"float", ex_tofloat, 1},
+ {"fmod", ex_fmod, 2},
+ {"floor", ex_floor, 2},
+ {"ceil", ex_ceil, 2},
+ {"pow", ex_pow, 2},
+ {"sqrt", ex_sqrt, 1},
+ {"exp", ex_exp, 1},
+ {"log10", ex_log, 1},
+ {"ln", ex_ln, 1},
+ {"log", ex_ln, 1},
+ {"sin", ex_sin, 1},
+ {"cos", ex_cos, 1},
+ {"tan", ex_tan, 1},
+ {"asin", ex_asin, 1},
+ {"acos", ex_acos, 1},
+ {"atan", ex_atan, 1},
+ {"atan2", ex_atan2, 2},
+ {"sinh", ex_sinh, 1},
+ {"cosh", ex_cosh, 1},
+ {"tanh", ex_tanh, 1},
+ {"fact", ex_fact, 1},
+ {"random", ex_random, 2}, /* random number */
+ {"abs", ex_abs, 1},
+ {"if", ex_if, 3},
+ {"ldexp ", ex_ldexp, 1},
+ {"imodf ", ex_imodf, 1},
+ {"modf", ex_modf, 1},
+#ifndef _WIN32
+ {"cbrt", ex_cbrt, 1},
+ {"erf", ex_erf, 1},
+ {"erfc", ex_erfc, 1},
+ {"expm1", ex_expm1, 1},
+ {"log1p", ex_log1p, 1},
+ {"isinf", ex_isinf, 1},
+ {"finite", ex_finite, 1},
+ {"isnan", ex_isnan, 1},
+ {"copysig", ex_copysign, 1},
+ {"drem", ex_drem, 1},
+ {"asinh", ex_asinh, 1},
+ {"acosh", ex_acosh, 1},
+ {"atanh", ex_atanh, 1}, /* hyperbolic atan */
+#endif
+#ifdef PD
+ {"size", ex_size, 1},
+ {"sum", ex_sum, 1},
+ {"Sum", ex_Sum, 3},
+ {"avg", ex_avg, 1},
+ {"Avg", ex_Avg, 3},
+ {"store", ex_store, 3},
+#endif
+#ifdef notdef
+/* the following will be added once they are more popular in math libraries */
+ {"round", ex_round, 1},
+ {"trunc", ex_trunc, 1},
+ {"nearbyint", ex_nearbyint, 1},
+ {"hypoth", ex_hypoth, 1},
+#endif
+ {0, 0, 0}
+};
+
+/*
+ * FUN_EVAL -- do type checking, evaluate a function,
+ * if fltret is set return float
+ * otherwise return value based on regular typechecking,
+ */
+#define FUNC_EVAL(left, right, func, leftfuncast, rightfuncast, optr, fltret) \
+switch (left->ex_type) { \
+case ET_INT: \
+ switch(right->ex_type) { \
+ case ET_INT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = (t_float)func(leftfuncast left->ex_int, \
+ rightfuncast right->ex_int); \
+ j = e->exp_vsize; \
+ while (j--) \
+ *op++ = scalar; \
+ } else { \
+ if (fltret) { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = (t_float)func(leftfuncast \
+ left->ex_int, rightfuncast right->ex_int); \
+ } else { \
+ optr->ex_type = ET_INT; \
+ optr->ex_int = (int)func(leftfuncast \
+ left->ex_int, rightfuncast right->ex_int); \
+ } \
+ } \
+ break; \
+ case ET_FLT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = (t_float)func(leftfuncast left->ex_int, \
+ rightfuncast right->ex_flt); \
+ j = e->exp_vsize; \
+ while (j--) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = (t_float)func(leftfuncast left->ex_int, \
+ rightfuncast right->ex_flt); \
+ } \
+ break; \
+ case ET_VEC: \
+ case ET_VI: \
+ if (optr->ex_type != ET_VEC) { \
+ if (optr->ex_type == ET_VI) { \
+ post("expr~: Int. error %d", __LINE__); \
+ abort(); \
+ } \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float)*e->exp_vsize); \
+ } \
+ scalar = left->ex_int; \
+ rp = right->ex_vec; \
+ op = optr->ex_vec; \
+ j = e->exp_vsize; \
+ while (j--) { \
+ *op++ = (t_float)func(leftfuncast scalar, \
+ rightfuncast *rp); \
+ rp++; \
+ } \
+ break; \
+ case ET_SYM: \
+ default: \
+ post_error((fts_object_t *) e, \
+ "expr: FUNC_EVAL(%d): bad right type %ld\n", \
+ __LINE__, right->ex_type);\
+ } \
+ break; \
+case ET_FLT: \
+ switch(right->ex_type) { \
+ case ET_INT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = (t_float)func(leftfuncast left->ex_flt, \
+ rightfuncast right->ex_int); \
+ j = e->exp_vsize; \
+ while (j--) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = (t_float)func(leftfuncast left->ex_flt, \
+ rightfuncast right->ex_int); \
+ } \
+ break; \
+ case ET_FLT: \
+ if (optr->ex_type == ET_VEC) { \
+ op = optr->ex_vec; \
+ scalar = (t_float)func(leftfuncast left->ex_flt, \
+ rightfuncast right->ex_flt); \
+ j = e->exp_vsize; \
+ while (j--) \
+ *op++ = scalar; \
+ } else { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = (t_float)func(leftfuncast left->ex_flt, \
+ rightfuncast right->ex_flt); \
+ } \
+ break; \
+ case ET_VEC: \
+ case ET_VI: \
+ if (optr->ex_type != ET_VEC) { \
+ if (optr->ex_type == ET_VI) { \
+ post("expr~: Int. error %d", __LINE__); \
+ abort(); \
+ } \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float) * e->exp_vsize);\
+ } \
+ scalar = left->ex_flt; \
+ rp = right->ex_vec; \
+ op = optr->ex_vec; \
+ j = e->exp_vsize; \
+ while (j--) { \
+ *op++ = (t_float)func(leftfuncast scalar, \
+ rightfuncast *rp); \
+ rp++; \
+ } \
+ break; \
+ case ET_SYM: \
+ default: \
+ post_error((fts_object_t *) e, \
+ "expr: FUNC_EVAL(%d): bad right type %ld\n", \
+ __LINE__, right->ex_type);\
+ } \
+ break; \
+case ET_VEC: \
+case ET_VI: \
+ if (optr->ex_type != ET_VEC) { \
+ if (optr->ex_type == ET_VI) { \
+ post("expr~: Int. error %d", __LINE__); \
+ abort(); \
+ } \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float) * e->exp_vsize); \
+ } \
+ op = optr->ex_vec; \
+ lp = left->ex_vec; \
+ switch(right->ex_type) { \
+ case ET_INT: \
+ scalar = right->ex_int; \
+ j = e->exp_vsize; \
+ while (j--) { \
+ *op++ = (t_float)func(leftfuncast *lp, \
+ rightfuncast scalar); \
+ lp++; \
+ } \
+ break; \
+ case ET_FLT: \
+ scalar = right->ex_flt; \
+ j = e->exp_vsize; \
+ while (j--) { \
+ *op++ = (t_float)func(leftfuncast *lp, \
+ rightfuncast scalar); \
+ lp++; \
+ } \
+ break; \
+ case ET_VEC: \
+ case ET_VI: \
+ rp = right->ex_vec; \
+ j = e->exp_vsize; \
+ while (j--) { \
+ /* \
+ * on a RISC processor one could copy \
+ * 8 times in each round to get a considerable \
+ * improvement \
+ */ \
+ *op++ = (t_float)func(leftfuncast *lp, \
+ rightfuncast *rp); \
+ rp++; lp++; \
+ } \
+ break; \
+ case ET_SYM: \
+ default: \
+ post_error((fts_object_t *) e, \
+ "expr: FUNC_EVAL(%d): bad right type %ld\n", \
+ __LINE__, right->ex_type);\
+ } \
+ break; \
+case ET_SYM: \
+default: \
+ post_error((fts_object_t *) e, \
+ "expr: FUNC_EVAL(%d): bad left type %ld\n", \
+ __LINE__, left->ex_type); \
+}
+
+/*
+ * FUNC_EVAL_UNARY - evaluate a unary function,
+ * if fltret is set return t_float
+ * otherwise return value based on regular typechecking,
+ */
+#define FUNC_EVAL_UNARY(left, func, leftcast, optr, fltret) \
+switch(left->ex_type) { \
+case ET_INT: \
+ if (optr->ex_type == ET_VEC) { \
+ ex_mkvector(optr->ex_vec, \
+ (t_float)(func (leftcast left->ex_int)), e->exp_vsize);\
+ break; \
+ } \
+ if (fltret) { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = (t_float) func(leftcast left->ex_int); \
+ break; \
+ } \
+ optr->ex_type = ET_INT; \
+ optr->ex_int = (int) func(leftcast left->ex_int); \
+ break; \
+case ET_FLT: \
+ if (optr->ex_type == ET_VEC) { \
+ ex_mkvector(optr->ex_vec, \
+ (t_float)(func (leftcast left->ex_flt)), e->exp_vsize);\
+ break; \
+ } \
+ optr->ex_type = ET_FLT; \
+ optr->ex_flt = (t_float) func(leftcast left->ex_flt); \
+ break; \
+case ET_VI: \
+case ET_VEC: \
+ if (optr->ex_type != ET_VEC) { \
+ optr->ex_type = ET_VEC; \
+ optr->ex_vec = (t_float *) \
+ fts_malloc(sizeof (t_float)*e->exp_vsize); \
+ } \
+ op = optr->ex_vec; \
+ lp = left->ex_vec; \
+ j = e->exp_vsize; \
+ while (j--) \
+ *op++ = (t_float)(func (leftcast *lp++)); \
+ break; \
+default: \
+ post_error((fts_object_t *) e, \
+ "expr: FUNV_EVAL_UNARY(%d): bad left type %ld\n",\
+ __LINE__, left->ex_type); \
+}
+
+#undef min
+#undef max
+#define min(x,y) (x > y ? y : x)
+#define max(x,y) (x > y ? x : y)
+
+#define FUNC_DEF(ex_func, func, castleft, castright, fltret); \
+static void \
+ex_func(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)\
+{ \
+ struct ex_ex *left, *right; \
+ t_float *op; /* output pointer */ \
+ t_float *lp, *rp; /* left and right vector pointers */ \
+ t_float scalar; \
+ int j; \
+ \
+ left = argv++; \
+ right = argv; \
+ FUNC_EVAL(left, right, func, castleft, castright, optr, fltret); \
+}
+
+
+#define FUNC_DEF_UNARY(ex_func, func, cast, fltret); \
+static void \
+ex_func(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)\
+{ \
+ struct ex_ex *left; \
+ t_float *op; /* output pointer */ \
+ t_float *lp, *rp; /* left and right vector pointers */ \
+ t_float scalar; \
+ int j; \
+ \
+ left = argv++; \
+ \
+ FUNC_EVAL_UNARY(left, func, cast, optr, fltret); \
+}
+
+/*
+ * ex_min -- if any of the arguments are or the output are vectors, a vector
+ * of floats is generated otherwise the type of the result is the
+ * type of the smaller value
+ */
+static void
+ex_min(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ right = argv;
+
+ FUNC_EVAL(left, right, min, (double), (double), optr, 0);
+}
+
+/*
+ * ex_max -- if any of the arguments are or the output are vectors, a vector
+ * of floats is generated otherwise the type of the result is the
+ * type of the larger value
+ */
+static void
+ex_max(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ right = argv;
+
+ FUNC_EVAL(left, right, max, (double), (double), optr, 0);
+}
+
+/*
+ * ex_toint -- convert to integer
+ */
+static void
+ex_toint(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+#define toint(x) ((int)(x))
+ FUNC_EVAL_UNARY(left, toint, (int), optr, 0);
+ }
+
+#ifdef _WIN32
+/* No rint in NT land ??? */
+double rint(double x);
+
+double
+rint(double x)
+{
+ return (floor(x + 0.5));
+}
+#endif
+
+/*
+ * ex_rint -- rint() round to the nearest int according to the common
+ * rounding mechanism
+ */
+static void
+ex_rint(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+
+ FUNC_EVAL_UNARY(left, rint, (double), optr, 1);
+}
+
+/*
+ * ex_tofloat -- convert to t_float
+ */
+static void
+ex_tofloat(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+#define tofloat(x) ((t_float)(x))
+ FUNC_EVAL_UNARY(left, tofloat, (int), optr, 1);
+}
+
+
+/*
+ * ex_pow -- the power of
+ */
+static void
+ex_pow(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ right = argv;
+ FUNC_EVAL(left, right, pow, (double), (double), optr, 1);
+}
+
+/*
+ * ex_sqrt -- square root
+ */
+static void
+ex_sqrt(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, sqrt, (double), optr, 1);
+}
+
+/*
+ * ex_exp -- e to the power of
+ */
+static void
+ex_exp(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, exp, (double), optr, 1);
+}
+
+/*
+ * ex_log -- 10 based logarithm
+ */
+static void
+ex_log(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, log10, (double), optr, 1);
+}
+
+/*
+ * ex_ln -- natural log
+ */
+static void
+ex_ln(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, log, (double), optr, 1);
+}
+
+static void
+ex_sin(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, sin, (double), optr, 1);
+}
+
+static void
+ex_cos(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, cos, (double), optr, 1);
+}
+
+
+static void
+ex_tan(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, tan, (double), optr, 1);
+}
+
+static void
+ex_asin(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, asin, (double), optr, 1);
+}
+
+static void
+ex_acos(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, acos, (double), optr, 1);
+}
+
+
+static void
+ex_atan(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, atan, (double), optr, 1);
+}
+
+/*
+ *ex_atan2 --
+ */
+static void
+ex_atan2(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ right = argv;
+ FUNC_EVAL(left, right, atan2, (double), (double), optr, 1);
+}
+
+/*
+ * ex_fmod -- floating point modulo
+ */
+static void
+ex_fmod(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ right = argv;
+ FUNC_EVAL(left, right, fmod, (double), (double), optr, 1);
+}
+
+
+/*
+ * ex_floor -- floor
+ */
+static void
+ex_floor(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ FUNC_EVAL_UNARY(left, floor, (double), optr, 1);
+}
+
+
+/*
+ * ex_ceil -- ceil
+ */
+static void
+ex_ceil(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ FUNC_EVAL_UNARY(left, ceil, (double), optr, 1);
+}
+
+static void
+ex_sinh(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, sinh, (double), optr, 1);
+}
+
+static void
+ex_cosh(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, cosh, (double), optr, 1);
+}
+
+
+static void
+ex_tanh(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, tanh, (double), optr, 1);
+}
+
+
+#ifndef _WIN32
+static void
+ex_asinh(t_expr *e, long argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, asinh, (double), optr, 1);
+}
+
+static void
+ex_acosh(t_expr *e, long argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, acosh, (double), optr, 1);
+}
+
+static void
+ex_atanh(t_expr *e, long argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, atanh, (double), optr, 1);
+}
+#endif
+
+static int
+ex_dofact(int i)
+{
+ int ret = 0;
+
+ if (i)
+ ret = 1;
+ else
+ return (0);
+
+ do {
+ ret *= i;
+ } while (--i);
+
+ return(ret);
+}
+
+static void
+ex_fact(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, ex_dofact, (int), optr, 0);
+}
+
+static int
+ex_dorandom(int i1, int i2)
+{
+ return(i1 + (((i2 - i1) * (rand() & 0x7fffL)) >> 15));
+}
+/*
+ * ex_random -- return a random number
+ */
+static void
+ex_random(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+ right = argv;
+ FUNC_EVAL(left, right, ex_dorandom, (int), (int), optr, 0);
+}
+
+
+static void
+ex_abs(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float scalar;
+ int j;
+
+ left = argv++;
+
+ FUNC_EVAL_UNARY(left, fabs, (double), optr, 0);
+}
+
+/*
+ *ex_if -- floating point modulo
+ */
+static void
+ex_if(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ struct ex_ex *left, *right, *cond, *res;
+ t_float *op; /* output pointer */
+ t_float *lp, *rp; /* left and right vector pointers */
+ t_float *cp; /* condition pointer */
+ t_float leftvalue, rightvalue;
+ int j;
+
+ cond = argv++;
+ left = argv++;
+ right = argv;
+
+ switch (cond->ex_type) {
+ case ET_VEC:
+ case ET_VI:
+ if (optr->ex_type != ET_VEC) {
+ if (optr->ex_type == ET_VI) {
+ /* SDY remove this test */
+ post("expr~: Int. error %d", __LINE__);
+ return;
+ }
+ optr->ex_type = ET_VEC;
+ optr->ex_vec = (t_float *)
+ fts_malloc(sizeof (t_float) * e->exp_vsize);
+ }
+ op = optr->ex_vec;
+ j = e->exp_vsize;
+ cp = cond->ex_vec;
+ switch (left->ex_type) {
+ case ET_INT:
+ leftvalue = left->ex_int;
+ switch (right->ex_type) {
+ case ET_INT:
+ rightvalue = right->ex_int;
+ while (j--) {
+ if (*cp++)
+ *op++ = leftvalue;
+ else
+ *op++ = rightvalue;
+ }
+ return;
+ case ET_FLT:
+ rightvalue = right->ex_flt;
+ while (j--) {
+ if (*cp++)
+ *op++ = leftvalue;
+ else
+ *op++ = rightvalue;
+ }
+ return;
+ case ET_VEC:
+ case ET_VI:
+ rp = right->ex_vec;
+ while (j--) {
+ if (*cp++)
+ *op++ = leftvalue;
+ else
+ *op++ = *rp;
+ rp++;
+ }
+ return;
+ case ET_SYM:
+ default:
+ post_error((fts_object_t *) e,
+ "expr: FUNC_EVAL(%d): bad right type %ld\n",
+ __LINE__, right->ex_type);
+ return;
+ }
+ case ET_FLT:
+ leftvalue = left->ex_flt;
+ switch (right->ex_type) {
+ case ET_INT:
+ rightvalue = right->ex_int;
+ while (j--) {
+ if (*cp++)
+ *op++ = leftvalue;
+ else
+ *op++ = rightvalue;
+ }
+ return;
+ case ET_FLT:
+ rightvalue = right->ex_flt;
+ while (j--) {
+ if (*cp++)
+ *op++ = leftvalue;
+ else
+ *op++ = rightvalue;
+ }
+ return;
+ case ET_VEC:
+ case ET_VI:
+ rp = right->ex_vec;
+ while (j--) {
+ if (*cp++)
+ *op++ = leftvalue;
+ else
+ *op++ = *rp;
+ rp++;
+ }
+ return;
+ case ET_SYM:
+ default:
+ post_error((fts_object_t *) e,
+ "expr: FUNC_EVAL(%d): bad right type %ld\n",
+ __LINE__, right->ex_type);
+ return;
+ }
+ case ET_VEC:
+ case ET_VI:
+ lp = left->ex_vec;
+ switch (right->ex_type) {
+ case ET_INT:
+ rightvalue = right->ex_int;
+ while (j--) {
+ if (*cp++)
+ *op++ = *lp;
+ else
+ *op++ = rightvalue;
+ lp++;
+ }
+ return;
+ case ET_FLT:
+ rightvalue = right->ex_flt;
+ while (j--) {
+ if (*cp++)
+ *op++ = *lp;
+ else
+ *op++ = rightvalue;
+ lp++;
+ }
+ return;
+ case ET_VEC:
+ case ET_VI:
+ rp = right->ex_vec;
+ while (j--) {
+ if (*cp++)
+ *op++ = *lp;
+ else
+ *op++ = *rp;
+ lp++; rp++;
+ }
+ return;
+ case ET_SYM:
+ default:
+ post_error((fts_object_t *) e,
+ "expr: FUNC_EVAL(%d): bad right type %ld\n",
+ __LINE__, right->ex_type);
+ return;
+ }
+ case ET_SYM:
+ default:
+ post_error((fts_object_t *) e,
+ "expr: FUNC_EVAL(%d): bad left type %ld\n",
+ __LINE__, left->ex_type);
+ return;
+ }
+ case ET_INT:
+ if (cond->ex_int)
+ res = left;
+ else
+ res = right;
+ break;
+ case ET_FLT:
+ if (cond->ex_flt)
+ res = left;
+ else
+ res = right;
+ break;
+ case ET_SYM:
+ default:
+ post_error((fts_object_t *) e,
+ "expr: FUNC_EVAL(%d): bad condition type %ld\n",
+ __LINE__, cond->ex_type);
+ return;
+ }
+ switch(res->ex_type) {
+ case ET_INT:
+ if (optr->ex_type == ET_VEC) {
+ ex_mkvector(optr->ex_vec, (t_float)res->ex_int,
+ e->exp_vsize);
+ return;
+ }
+ *optr = *res;
+ return;
+ case ET_FLT:
+ if (optr->ex_type == ET_VEC) {
+ ex_mkvector(optr->ex_vec, (t_float)res->ex_flt,
+ e->exp_vsize);
+ return;
+ }
+ *optr = *res;
+ return;
+ case ET_VEC:
+ case ET_VI:
+ if (optr->ex_type != ET_VEC) {
+ if (optr->ex_type == ET_VI) {
+ /* SDY remove this test */
+ post("expr~: Int. error %d", __LINE__);
+ return;
+ }
+ optr->ex_type = ET_VEC;
+ optr->ex_vec = (t_float *)
+ fts_malloc(sizeof (t_float) * e->exp_vsize);
+ }
+ memcpy(optr->ex_vec, res->ex_vec, e->exp_vsize*sizeof(t_float));
+ return;
+ case ET_SYM:
+ default:
+ post_error((fts_object_t *) e,
+ "expr: FUNC_EVAL(%d): bad res type %ld\n",
+ __LINE__, res->ex_type);
+ return;
+ }
+
+}
+
+/*
+ * ex_imodf - extract signed integral value from floating-point number
+ */
+static double
+imodf(double x)
+{
+ double xx;
+
+ modf(x, &xx);
+ return (xx);
+}
+FUNC_DEF_UNARY(ex_imodf, imodf, (double), 1);
+
+/*
+ * ex_modf - extract signed fractional value from floating-point number
+ *
+ * using fracmodf because fmodf() is alrady defined in a .h file
+ */
+static double
+fracmodf(double x)
+{
+ double xx;
+
+ return(modf(x, &xx));
+}
+FUNC_DEF_UNARY(ex_modf, fracmodf, (double), 1);
+
+/*
+ * ex_ldexp - multiply floating-point number by integral power of 2
+ */
+FUNC_DEF(ex_ldexp, ldexp, (double), (int), 1);
+
+#ifndef _WIN32
+/*
+ * ex_cbrt - cube root
+ */
+FUNC_DEF_UNARY(ex_cbrt, cbrt, (double), 1);
+
+/*
+ * ex_erf - error function
+ */
+FUNC_DEF_UNARY(ex_erf, erf, (double), 1);
+
+/*
+ * ex_erfc - complementary error function
+ */
+FUNC_DEF_UNARY(ex_erfc, erfc, (double), 1);
+
+/*
+ * ex_expm1 - exponential minus 1,
+ */
+FUNC_DEF_UNARY(ex_expm1, expm1, (double), 1);
+
+/*
+ * ex_log1p - logarithm of 1 plus
+ */
+FUNC_DEF_UNARY(ex_log1p, log1p, (double), 1);
+
+/*
+ * ex_isinf - is the value infinite,
+ */
+FUNC_DEF_UNARY(ex_isinf, isinf, (double), 0);
+
+/*
+ * ex_finite - is the value finite
+ */
+FUNC_DEF_UNARY(ex_finite, finite, (double), 0);
+
+/*
+ * ex_isnan -- is the resut a nan (Not a number)
+ */
+FUNC_DEF_UNARY(ex_isnan, isnan, (double), 0);
+
+/*
+ * ex_copysign - copy sign of a number
+ */
+FUNC_DEF(ex_copysign, copysign, (double), (double), 1);
+
+/*
+ * ex_drem - floating-point remainder function
+ */
+FUNC_DEF(ex_drem, drem, (double), (double), 1);
+#endif
+
+#ifdef notdef
+/* the following will be added once they are more popular in math libraries */
+/*
+ * ex_hypoth - Euclidean distance function
+ */
+FUNC_DEF(ex_hypoth, hypoth, (double), (double), 1);
+
+/*
+ * ex_round - round to nearest integer, away from zero
+ */
+FUNC_DEF_UNARY(ex_round, round, (double), 1);
+
+/*
+ * ex_trunc - round to interger, towards zero
+ */
+FUNC_DEF_UNARY(ex_trunc, trunc, (double), 1);
+
+/*
+ * ex_nearbyint - round to nearest integer
+ */
+FUNC_DEF_UNARY(ex_nearbyint, nearbyint, (double), 1);
+#endif
diff --git a/externals/extra/0.43.2/expr~/vexp_if.c b/externals/extra/0.43.2/expr~/vexp_if.c
new file mode 100644
index 00000000..3028ff82
--- /dev/null
+++ b/externals/extra/0.43.2/expr~/vexp_if.c
@@ -0,0 +1,1225 @@
+/*
+ * jMax
+ * Copyright (C) 1994, 1995, 1998, 1999 by IRCAM-Centre Georges Pompidou, Paris, France.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * See file LICENSE for further informations on licensing terms.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+ *
+ * Based on Max/ISPW by Miller Puckette.
+ *
+ * Authors: Maurizio De Cecco, Francois Dechelle, Enzo Maggi, Norbert Schnell.
+ *
+ */
+
+/* "expr" was written by Shahrokh Yadegari c. 1989. -msp */
+/* "expr~" and "fexpr~" conversion by Shahrokh Yadegari c. 1999,2000 */
+
+/*
+ * Feb 2002 - added access to variables
+ * multiple expression support
+ * new short hand forms for fexpr~
+ * now $y or $y1 = $y1[-1] and $y2 = $y2[-1]
+ * --sdy
+ */
+
+#include <stdio.h>
+#include <string.h>
+#include <stdlib.h>
+
+#include "vexp.h"
+
+static char *exp_version = "0.4";
+
+extern struct ex_ex *ex_eval(struct expr *expr, struct ex_ex *eptr,
+ struct ex_ex *optr, int n);
+
+#ifdef PD
+static t_class *expr_class;
+static t_class *expr_tilde_class;
+static t_class *fexpr_tilde_class;
+#else /* MSP */
+void *expr_tilde_class;
+#endif
+
+
+/*------------------------- expr class -------------------------------------*/
+
+extern int expr_donew(struct expr *expr, int ac, t_atom *av);
+
+/*#define EXPR_DEBUG*/
+
+static void expr_bang(t_expr *x);
+t_int *expr_perform(t_int *w);
+
+
+static void
+expr_list(t_expr *x, t_symbol *s, int argc, const fts_atom_t *argv)
+{
+ int i;
+
+ if (argc > MAX_VARS) argc = MAX_VARS;
+
+ for (i = 0; i < argc; i++)
+ {
+ if (argv[i].a_type == A_FLOAT)
+ {
+ if (x->exp_var[i].ex_type == ET_FI)
+ x->exp_var[i].ex_flt = argv[i].a_w.w_float;
+ else if (x->exp_var[i].ex_type == ET_II)
+ x->exp_var[i].ex_int = argv[i].a_w.w_float;
+ else if (x->exp_var[i].ex_type)
+ pd_error(x, "expr: type mismatch");
+ }
+ else if (argv[i].a_type == A_SYMBOL)
+ {
+ if (x->exp_var[i].ex_type == ET_SI)
+ x->exp_var[i].ex_ptr = (char *)argv[i].a_w.w_symbol;
+ else if (x->exp_var[i].ex_type)
+ pd_error(x, "expr: type mismatch");
+ }
+ }
+ expr_bang(x);
+}
+
+static void
+expr_flt(t_expr *x, t_float f, int in)
+{
+ if (in > MAX_VARS)
+ return;
+
+ if (x->exp_var[in].ex_type == ET_FI)
+ x->exp_var[in].ex_flt = f;
+ else if (x->exp_var[in].ex_type == ET_II)
+ x->exp_var[in].ex_int = f;
+}
+
+static t_class *exprproxy_class;
+
+typedef struct _exprproxy {
+ t_pd p_pd;
+ int p_index;
+ t_expr *p_owner;
+ struct _exprproxy *p_next;
+} t_exprproxy;
+
+t_exprproxy *exprproxy_new(t_expr *owner, int indx);
+void exprproxy_float(t_exprproxy *p, t_floatarg f);
+
+t_exprproxy *
+exprproxy_new(t_expr *owner, int indx)
+{
+ t_exprproxy *x = (t_exprproxy *)pd_new(exprproxy_class);
+ x->p_owner = owner;
+ x->p_index = indx;
+ x->p_next = owner->exp_proxy;
+ owner->exp_proxy = x;
+ return (x);
+}
+
+void
+exprproxy_float(t_exprproxy *p, t_floatarg f)
+{
+ t_expr *x = p->p_owner;
+ int in = p->p_index;
+
+ if (in > MAX_VARS)
+ return;
+
+ if (x->exp_var[in].ex_type == ET_FI)
+ x->exp_var[in].ex_flt = f;
+ else if (x->exp_var[in].ex_type == ET_II)
+ x->exp_var[in].ex_int = f;
+}
+
+/* method definitions */
+static void
+expr_ff(t_expr *x)
+{
+ t_exprproxy *y;
+ int i;
+
+ y = x->exp_proxy;
+ while (y)
+ {
+ x->exp_proxy = y->p_next;
+#ifdef PD
+ pd_free(&y->p_pd);
+#else /*MSP */
+ /* SDY find out what needs to be called for MSP */
+
+#endif
+ y = x->exp_proxy;
+ }
+ for (i = 0 ; i < x->exp_nexpr; i++);
+ if (x->exp_stack[i])
+ fts_free(x->exp_stack[i]);
+/*
+ * SDY free all the allocated buffers here for expr~ and fexpr~
+ * check to see if there are others
+ */
+ for (i = 0; i < MAX_VARS; i++) {
+ if (x->exp_p_var[i])
+ fts_free(x->exp_p_var[i]);
+ if (x->exp_p_res[i])
+ fts_free(x->exp_p_res[i]);
+ if (x->exp_tmpres[i])
+ fts_free(x->exp_tmpres[i]);
+ }
+
+
+}
+
+static void
+expr_bang(t_expr *x)
+{
+ int i;
+
+#ifdef EXPR_DEBUG
+ {
+ struct ex_ex *eptr;
+
+ for (i = 0, eptr = x->exp_var; ; eptr++, i++)
+ {
+ if (!eptr->ex_type)
+ break;
+ switch (eptr->ex_type)
+ {
+ case ET_II:
+ fprintf(stderr,"ET_II: %d \n", eptr->ex_int);
+ break;
+
+ case ET_FI:
+ fprintf(stderr,"ET_FT: %f \n", eptr->ex_flt);
+ break;
+
+ default:
+ fprintf(stderr,"oups\n");
+ }
+ }
+ }
+#endif
+ /* banging a signal or filter object means nothing */
+ if (!IS_EXPR(x))
+ return;
+
+ for (i = x->exp_nexpr - 1; i > -1 ; i--) {
+ if (!ex_eval(x, x->exp_stack[i], &x->exp_res[i], 0)) {
+ /*fprintf(stderr,"expr_bang(error evaluation)\n"); */
+ /* SDY now that we have mutiple ones, on error we should
+ * continue
+ return;
+ */
+ }
+ switch(x->exp_res[i].ex_type) {
+ case ET_INT:
+ outlet_float(x->exp_outlet[i],
+ (t_float) x->exp_res[i].ex_int);
+ break;
+
+ case ET_FLT:
+ outlet_float(x->exp_outlet[i], x->exp_res[i].ex_flt);
+ break;
+
+ case ET_SYM:
+ /* CHANGE this will have to be taken care of */
+
+ default:
+ post("expr: bang: unrecognized result %ld\n", x->exp_res[i].ex_type);
+ }
+ }
+}
+
+static t_expr *
+#ifdef PD
+expr_new(t_symbol *s, int ac, t_atom *av)
+#else /* MSP */
+Nexpr_new(t_symbol *s, int ac, t_atom *av)
+#endif
+{
+ struct expr *x;
+ int i, ninlet;
+ struct ex_ex *eptr;
+ t_atom fakearg;
+ int dsp_index; /* keeping track of the dsp inlets */
+
+
+/*
+ * SDY - we may need to call dsp_setup() in this function
+ */
+
+ if (!ac)
+ {
+ ac = 1;
+ av = &fakearg;
+ SETFLOAT(&fakearg, 0);
+ }
+
+#ifdef PD
+ /*
+ * figure out if we are expr, expr~, or fexpr~
+ */
+ if (!strcmp("expr", s->s_name)) {
+ x = (t_expr *)pd_new(expr_class);
+ SET_EXPR(x);
+ } else if (!strcmp("expr~", s->s_name)) {
+ x = (t_expr *)pd_new(expr_tilde_class);
+ SET_EXPR_TILDE(x);
+ } else if (!strcmp("fexpr~", s->s_name)) {
+ x = (t_expr *)pd_new(fexpr_tilde_class);
+ SET_FEXPR_TILDE(x);
+ } else {
+ post("expr_new: bad object name '%s'");
+ /* assume expr */
+ x = (t_expr *)pd_new(expr_class);
+ SET_EXPR(x);
+ }
+#else /* MSP */
+ /* for now assume an expr~ */
+ x = (t_expr *)pd_new(expr_tilde_class);
+ SET_EXPR_TILDE(x);
+#endif
+
+ /*
+ * initialize the newly allocated object
+ */
+ x->exp_proxy = 0;
+ x->exp_nivec = 0;
+ x->exp_nexpr = 0;
+ x->exp_error = 0;
+ for (i = 0; i < MAX_VARS; i++) {
+ x->exp_stack[i] = (struct ex_ex *)0;
+ x->exp_outlet[i] = (t_outlet *)0;
+ x->exp_res[i].ex_type = 0;
+ x->exp_res[i].ex_int = 0;
+ x->exp_p_res[i] = (t_float *)0;
+ x->exp_var[i].ex_type = 0;
+ x->exp_var[i].ex_int = 0;
+ x->exp_p_var[i] = (t_float *)0;
+ x->exp_tmpres[i] = (t_float *)0;
+ x->exp_vsize = 0;
+ }
+ x->exp_f = 0; /* save the control value to be transformed to signal */
+
+
+ if (expr_donew(x, ac, av))
+ {
+ pd_error(x, "expr: syntax error");
+/*
+SDY the following coredumps why?
+ pd_free(&x->exp_ob.ob_pd);
+*/
+ return (0);
+ }
+
+ ninlet = 1;
+ for (i = 0, eptr = x->exp_var; i < MAX_VARS ; i++, eptr++)
+ if (eptr->ex_type) {
+ ninlet = i + 1;
+ }
+
+ /*
+ * create the new inlets
+ */
+ for (i = 1, eptr = x->exp_var + 1, dsp_index=1; i<ninlet ; i++, eptr++)
+ {
+ t_exprproxy *p;
+ switch (eptr->ex_type)
+ {
+ case 0:
+ /* nothing is using this inlet */
+ if (i < ninlet)
+#ifdef PD
+ floatinlet_new(&x->exp_ob, &eptr->ex_flt);
+#else /* MSP */
+ inlet_new(&x->exp_ob, "float");
+#endif
+ break;
+
+ case ET_II:
+ case ET_FI:
+ p = exprproxy_new(x, i);
+#ifdef PD
+ inlet_new(&x->exp_ob, &p->p_pd, &s_float, &s_float);
+#else /* MSP */
+ inlet_new(&x->exp_ob, "float");
+#endif
+ break;
+
+ case ET_SI:
+#ifdef PD
+ symbolinlet_new(&x->exp_ob, (t_symbol **)&eptr->ex_ptr);
+#else /* MSP */
+ inlet_new(&x->exp_ob, "symbol");
+#endif
+ break;
+
+ case ET_XI:
+ case ET_VI:
+ if (!IS_EXPR(x)) {
+ dsp_index++;
+#ifdef PD
+ inlet_new(&x->exp_ob, &x->exp_ob.ob_pd,
+ &s_signal, &s_signal);
+#else /* MSP */
+ inlet_new(&x->exp_ob, "signal");
+#endif
+ break;
+ } else
+ post("expr: internal error expr_new");
+ default:
+ pd_error(x, "expr: bad type (%lx) inlet = %d\n",
+ eptr->ex_type, i + 1);
+ break;
+ }
+ }
+ if (IS_EXPR(x)) {
+ for (i = 0; i < x->exp_nexpr; i++)
+ x->exp_outlet[i] = outlet_new(&x->exp_ob, 0);
+ } else {
+ for (i = 0; i < x->exp_nexpr; i++)
+ x->exp_outlet[i] = outlet_new(&x->exp_ob,
+ gensym("signal"));
+ x->exp_nivec = dsp_index;
+ }
+ /*
+ * for now assume a 64 sample size block but this may change once
+ * expr_dsp is called
+ */
+ x->exp_vsize = 64;
+ for (i = 0; i < x->exp_nexpr; i++) {
+ x->exp_p_res[i] = fts_calloc(x->exp_vsize, sizeof (t_float));
+ x->exp_tmpres[i] = fts_calloc(x->exp_vsize, sizeof (t_float));
+ }
+ for (i = 0; i < MAX_VARS; i++)
+ x->exp_p_var[i] = fts_calloc(x->exp_vsize, sizeof (t_float));
+
+ return (x);
+}
+
+t_int *
+expr_perform(t_int *w)
+{
+ int i, j;
+ t_expr *x = (t_expr *)w[1];
+ struct ex_ex res;
+ int n;
+
+ /* sanity check */
+ if (IS_EXPR(x)) {
+ post("expr_perform: bad x->exp_flags = %d", x->exp_flags);
+ abort();
+ }
+
+ if (x->exp_flags & EF_STOP) {
+ for (i = 0; i < x->exp_nexpr; i++)
+ memset(x->exp_res[i].ex_vec, 0,
+ x->exp_vsize * sizeof (t_float));
+ return (w + 2);
+ }
+
+ if (IS_EXPR_TILDE(x)) {
+ /*
+ * if we have only one expression, we can right on
+ * on the output directly, otherwise we have to copy
+ * the data because, outputs could be the same buffer as
+ * inputs
+ */
+ if ( x->exp_nexpr == 1)
+ ex_eval(x, x->exp_stack[0], &x->exp_res[0], 0);
+ else {
+ res.ex_type = ET_VEC;
+ for (i = 0; i < x->exp_nexpr; i++) {
+ res.ex_vec = x->exp_tmpres[i];
+ ex_eval(x, x->exp_stack[i], &res, 0);
+ }
+ n = x->exp_vsize * sizeof(t_float);
+ for (i = 0; i < x->exp_nexpr; i++)
+ memcpy(x->exp_res[i].ex_vec, x->exp_tmpres[i],
+ n);
+ }
+ return (w + 2);
+ }
+
+ if (!IS_FEXPR_TILDE(x)) {
+ post("expr_perform: bad x->exp_flags = %d - expecting fexpr",
+ x->exp_flags);
+ return (w + 2);
+ }
+ /*
+ * since the output buffer could be the same as one of the inputs
+ * we need to keep the output in a different buffer
+ */
+ for (i = 0; i < x->exp_vsize; i++) for (j = 0; j < x->exp_nexpr; j++) {
+ res.ex_type = 0;
+ res.ex_int = 0;
+ ex_eval(x, x->exp_stack[j], &res, i);
+ switch (res.ex_type) {
+ case ET_INT:
+ x->exp_tmpres[j][i] = (t_float) res.ex_int;
+ break;
+ case ET_FLT:
+ x->exp_tmpres[j][i] = res.ex_flt;
+ break;
+ default:
+ post("expr_perform: bad result type %d", res.ex_type);
+ }
+ }
+ /*
+ * copy inputs and results to the save buffers
+ * inputs need to be copied first as the output buffer can be
+ * same as an input buffer
+ */
+ n = x->exp_vsize * sizeof(t_float);
+ for (i = 0; i < MAX_VARS; i++)
+ if (x->exp_var[i].ex_type == ET_XI)
+ memcpy(x->exp_p_var[i], x->exp_var[i].ex_vec, n);
+ for (i = 0; i < x->exp_nexpr; i++) {
+ memcpy(x->exp_p_res[i], x->exp_tmpres[i], n);
+ memcpy(x->exp_res[i].ex_vec, x->exp_tmpres[i], n);
+ }
+ return (w + 2);
+}
+
+static void
+expr_dsp(t_expr *x, t_signal **sp)
+{
+ int i, nv;
+ int newsize;
+
+ x->exp_error = 0; /* reset all errors */
+ newsize = (x->exp_vsize != sp[0]->s_n);
+ x->exp_vsize = sp[0]->s_n; /* record the vector size */
+ for (i = 0; i < x->exp_nexpr; i++) {
+ x->exp_res[i].ex_type = ET_VEC;
+ x->exp_res[i].ex_vec = sp[x->exp_nivec + i]->s_vec;
+ }
+ for (i = 0, nv = 0; i < MAX_VARS; i++)
+ /*
+ * the first inlet is always a signal
+ *
+ * SDY We are warning the user till this limitation
+ * is taken away from pd
+ */
+ if (!i || x->exp_var[i].ex_type == ET_VI ||
+ x->exp_var[i].ex_type == ET_XI) {
+ if (nv >= x->exp_nivec) {
+ post("expr_dsp int. err nv = %d, x->exp_nive = %d",
+ nv, x->exp_nivec);
+ abort();
+ }
+ x->exp_var[i].ex_vec = sp[nv]->s_vec;
+ nv++;
+ }
+ /* we always have one inlet but we may not use it */
+ if (nv != x->exp_nivec && (nv != 0 || x->exp_nivec != 1)) {
+ post("expr_dsp internal error 2 nv = %d, x->exp_nive = %d",
+ nv, x->exp_nivec);
+ abort();
+ }
+
+ dsp_add(expr_perform, 1, (t_int *) x);
+
+ /*
+ * The buffer are now being allocated for expr~ and fexpr~
+ * because if we have more than one expression we need the
+ * temporary buffers, The save buffers are not really needed
+ if (!IS_FEXPR_TILDE(x))
+ return;
+ */
+ /*
+ * if we have already allocated the buffers and we have a
+ * new size free all the buffers
+ */
+ if (x->exp_p_res[0]) {
+ if (!newsize)
+ return;
+ /*
+ * if new size, reallocate all the previous buffers for fexpr~
+ */
+ for (i = 0; i < x->exp_nexpr; i++) {
+ fts_free(x->exp_p_res[i]);
+ fts_free(x->exp_tmpres[i]);
+ }
+ for (i = 0; i < MAX_VARS; i++)
+ fts_free(x->exp_p_var[i]);
+
+ }
+ for (i = 0; i < x->exp_nexpr; i++) {
+ x->exp_p_res[i] = fts_calloc(x->exp_vsize, sizeof (t_float));
+ x->exp_tmpres[i] = fts_calloc(x->exp_vsize, sizeof (t_float));
+ }
+ for (i = 0; i < MAX_VARS; i++)
+ x->exp_p_var[i] = fts_calloc(x->exp_vsize, sizeof (t_float));
+}
+
+/*
+ * expr_verbose -- toggle the verbose switch
+ */
+static void
+expr_verbose(t_expr *x)
+{
+ if (x->exp_flags & EF_VERBOSE) {
+ x->exp_flags &= ~EF_VERBOSE;
+ post ("verbose off");
+ } else {
+ x->exp_flags |= EF_VERBOSE;
+ post ("verbose on");
+ }
+}
+
+/*
+ * expr_start -- turn on expr processing for now only used for fexpr~
+ */
+static void
+expr_start(t_expr *x)
+{
+ x->exp_flags &= ~EF_STOP;
+}
+
+/*
+ * expr_stop -- turn on expr processing for now only used for fexpr~
+ */
+static void
+expr_stop(t_expr *x)
+{
+ x->exp_flags |= EF_STOP;
+}
+static void
+fexpr_set_usage(void)
+{
+ post("fexpr~: set val ...");
+ post("fexpr~: set {xy}[#] val ...");
+}
+
+/*
+ * fexpr_tilde_set -- set previous values of the buffers
+ * set val val ... - sets the first elements of output buffers
+ * set x val ... - sets the elements of the first input buffer
+ * set x# val ... - sets the elements of the #th input buffers
+ * set y val ... - sets the elements of the first output buffer
+ * set y# val ... - sets the elements of the #th output buffers
+ */
+static void
+fexpr_tilde_set(t_expr *x, t_symbol *s, int argc, t_atom *argv)
+{
+ t_symbol *sx;
+ int vecno;
+ int i, nargs;
+
+ if (!argc)
+ return;
+ sx = atom_getsymbolarg(0, argc, argv);
+ switch(sx->s_name[0]) {
+ case 'x':
+ if (!sx->s_name[1])
+ vecno = 0;
+ else {
+ vecno = atoi(sx->s_name + 1);
+ if (!vecno) {
+ post("fexpr~.set: bad set x vector number");
+ fexpr_set_usage();
+ return;
+ }
+ if (vecno >= MAX_VARS) {
+ post("fexpr~.set: no more than %d inlets",
+ MAX_VARS);
+ return;
+ }
+ vecno--;
+ }
+ if (x->exp_var[vecno].ex_type != ET_XI) {
+ post("fexpr~-set: no signal at inlet %d", vecno + 1);
+ return;
+ }
+ nargs = argc - 1;
+ if (!nargs) {
+ post("fexpr~-set: no argument to set");
+ return;
+ }
+ if (nargs > x->exp_vsize) {
+ post("fexpr~.set: %d set values larger than vector size(%d)",
+ nargs, x->exp_vsize);
+ post("fexpr~.set: only the first %d values will be set",
+ x->exp_vsize);
+ nargs = x->exp_vsize;
+ }
+ for (i = 0; i < nargs; i++) {
+ x->exp_p_var[vecno][x->exp_vsize - i - 1] =
+ atom_getfloatarg(i + 1, argc, argv);
+ }
+ return;
+ case 'y':
+ if (!sx->s_name[1])
+ vecno = 0;
+ else {
+ vecno = atoi(sx->s_name + 1);
+ if (!vecno) {
+ post("fexpr~.set: bad set y vector number");
+ fexpr_set_usage();
+ return;
+ }
+ vecno--;
+ }
+ if (vecno >= x->exp_nexpr) {
+ post("fexpr~.set: only %d outlets", x->exp_nexpr);
+ return;
+ }
+ nargs = argc - 1;
+ if (!nargs) {
+ post("fexpr~-set: no argument to set");
+ return;
+ }
+ if (nargs > x->exp_vsize) {
+ post("fexpr~-set: %d set values larger than vector size(%d)",
+ nargs, x->exp_vsize);
+ post("fexpr~.set: only the first %d values will be set",
+ x->exp_vsize);
+ nargs = x->exp_vsize;
+ }
+ for (i = 0; i < nargs; i++) {
+ x->exp_p_res[vecno][x->exp_vsize - i - 1] =
+ atom_getfloatarg(i + 1, argc, argv);
+ }
+ return;
+ case 0:
+ if (argc > x->exp_nexpr) {
+ post("fexpr~.set: only %d outlets available",
+ x->exp_nexpr);
+ post("fexpr~.set: the extra set values are ignored");
+ }
+ for (i = 0; i < x->exp_nexpr && i < argc; i++)
+ x->exp_p_res[i][x->exp_vsize - 1] =
+ atom_getfloatarg(i, argc, argv);
+ return;
+ default:
+ fexpr_set_usage();
+ return;
+ }
+ return;
+}
+
+/*
+ * fexpr_tilde_clear - clear the past buffers
+ */
+static void
+fexpr_tilde_clear(t_expr *x, t_symbol *s, int argc, t_atom *argv)
+{
+ t_symbol *sx;
+ int vecno;
+ int i, nargs;
+
+ /*
+ * if no arguement clear all input and output buffers
+ */
+ if (!argc) {
+ for (i = 0; i < x->exp_nexpr; i++)
+ memset(x->exp_p_res[i], 0, x->exp_vsize*sizeof(t_float));
+ for (i = 0; i < MAX_VARS; i++)
+ if (x->exp_var[i].ex_type == ET_XI)
+ memset(x->exp_p_var[i], 0,
+ x->exp_vsize*sizeof(t_float));
+ return;
+ }
+ if (argc > 1) {
+ post("fexpr~ usage: 'clear' or 'clear {xy}[#]'");
+ return;
+ }
+
+ sx = atom_getsymbolarg(0, argc, argv);
+ switch(sx->s_name[0]) {
+ case 'x':
+ if (!sx->s_name[1])
+ vecno = 0;
+ else {
+ vecno = atoi(sx->s_name + 1);
+ if (!vecno) {
+ post("fexpr~.clear: bad clear x vector number");
+ return;
+ }
+ if (vecno >= MAX_VARS) {
+ post("fexpr~.clear: no more than %d inlets",
+ MAX_VARS);
+ return;
+ }
+ vecno--;
+ }
+ if (x->exp_var[vecno].ex_type != ET_XI) {
+ post("fexpr~-clear: no signal at inlet %d", vecno + 1);
+ return;
+ }
+ memset(x->exp_p_var[vecno], 0, x->exp_vsize*sizeof(t_float));
+ return;
+ case 'y':
+ if (!sx->s_name[1])
+ vecno = 0;
+ else {
+ vecno = atoi(sx->s_name + 1);
+ if (!vecno) {
+ post("fexpr~.clear: bad clear y vector number");
+ return;
+ }
+ vecno--;
+ }
+ if (vecno >= x->exp_nexpr) {
+ post("fexpr~.clear: only %d outlets", x->exp_nexpr);
+ return;
+ }
+ memset(x->exp_p_res[vecno], 0, x->exp_vsize*sizeof(t_float));
+ return;
+ return;
+ default:
+ post("fexpr~ usage: 'clear' or 'clear {xy}[#]'");
+ return;
+ }
+ return;
+}
+
+#ifdef PD
+
+void
+expr_setup(void)
+{
+ /*
+ * expr initialization
+ */
+ expr_class = class_new(gensym("expr"), (t_newmethod)expr_new,
+ (t_method)expr_ff, sizeof(t_expr), 0, A_GIMME, 0);
+ class_addlist(expr_class, expr_list);
+ exprproxy_class = class_new(gensym("exprproxy"), 0,
+ 0, sizeof(t_exprproxy), CLASS_PD, 0);
+ class_addfloat(exprproxy_class, exprproxy_float);
+
+ /*
+ * expr~ initialization
+ */
+ expr_tilde_class = class_new(gensym("expr~"), (t_newmethod)expr_new,
+ (t_method)expr_ff, sizeof(t_expr), 0, A_GIMME, 0);
+ class_addmethod(expr_tilde_class, nullfn, gensym("signal"), 0);
+ CLASS_MAINSIGNALIN(expr_tilde_class, t_expr, exp_f);
+ class_addmethod(expr_tilde_class,(t_method)expr_dsp, gensym("dsp"), 0);
+ class_sethelpsymbol(expr_tilde_class, gensym("expr"));
+ /*
+ * fexpr~ initialization
+ */
+ fexpr_tilde_class = class_new(gensym("fexpr~"), (t_newmethod)expr_new,
+ (t_method)expr_ff, sizeof(t_expr), 0, A_GIMME, 0);
+ class_addmethod(fexpr_tilde_class, nullfn, gensym("signal"), 0);
+ class_addmethod(fexpr_tilde_class,(t_method)expr_start,
+ gensym("start"), 0);
+ class_addmethod(fexpr_tilde_class,(t_method)expr_stop,
+ gensym("stop"), 0);
+
+ class_addmethod(fexpr_tilde_class,(t_method)expr_dsp,gensym("dsp"), 0);
+ class_addmethod(fexpr_tilde_class, (t_method)fexpr_tilde_set,
+ gensym("set"), A_GIMME, 0);
+ class_addmethod(fexpr_tilde_class, (t_method)fexpr_tilde_clear,
+ gensym("clear"), A_GIMME, 0);
+ class_addmethod(fexpr_tilde_class,(t_method)expr_verbose,
+ gensym("verbose"), 0);
+ class_sethelpsymbol(fexpr_tilde_class, gensym("expr"));
+
+
+
+ post("expr, expr~, fexpr~ version %s under GNU General Public License ", exp_version);
+
+}
+
+void
+expr_tilde_setup(void)
+{
+ expr_setup();
+}
+
+void
+fexpr_tilde_setup(void)
+{
+ expr_setup();
+}
+#else /* MSP */
+void
+main(void)
+{
+ setup((t_messlist **)&expr_tilde_class, (method)Nexpr_new,
+ (method)expr_ff, (short)sizeof(t_expr), 0L, A_GIMME, 0);
+ addmess((method)expr_dsp, "dsp", A_CANT, 0); // dsp method
+ dsp_initclass();
+}
+#endif
+
+
+/* -- the following functions use Pd internals and so are in the "if" file. */
+
+
+int
+ex_getsym(char *p, fts_symbol_t *s)
+{
+ *s = gensym(p);
+ return (0);
+}
+
+const char *
+ex_symname(fts_symbol_t s)
+{
+ return (fts_symbol_name(s));
+}
+
+/*
+ * max_ex_tab -- evaluate this table access
+ * eptr is the name of the table and arg is the index we
+ * have to put the result in optr
+ * return 1 on error and 0 otherwise
+ *
+ * Arguments:
+ * the expr object
+ * table
+ * the argument
+ * the result pointer
+ */
+int
+max_ex_tab(struct expr *expr, fts_symbol_t s, struct ex_ex *arg,
+ struct ex_ex *optr)
+{
+#ifdef PD
+ t_garray *garray;
+ int size, indx;
+ t_word *wvec;
+
+ if (!s || !(garray = (t_garray *)pd_findbyclass(s, garray_class)) ||
+ !garray_getfloatwords(garray, &size, &wvec))
+ {
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = 0;
+ pd_error(expr, "no such table '%s'", s->s_name);
+ return (1);
+ }
+ optr->ex_type = ET_FLT;
+
+ switch (arg->ex_type) {
+ case ET_INT:
+ indx = arg->ex_int;
+ break;
+ case ET_FLT:
+ /* strange interpolation code deleted here -msp */
+ indx = arg->ex_flt;
+ break;
+
+ default: /* do something with strings */
+ pd_error(expr, "expr: bad argument for table '%s'\n", fts_symbol_name(s));
+ indx = 0;
+ }
+ if (indx < 0) indx = 0;
+ else if (indx >= size) indx = size - 1;
+ optr->ex_flt = wvec[indx].w_float;
+#else /* MSP */
+ /*
+ * table lookup not done for MSP yet
+ */
+ post("max_ex_tab: not complete for MSP yet!");
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = 0;
+#endif
+ return (0);
+}
+
+int
+max_ex_var(struct expr *expr, fts_symbol_t var, struct ex_ex *optr)
+{
+ optr->ex_type = ET_FLT;
+ if (value_getfloat(var, &(optr->ex_flt))) {
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = 0;
+ pd_error(expr, "no such var '%s'", var->s_name);
+ return (1);
+ }
+ return (0);
+}
+
+#ifdef PD /* this goes to the end of this file as the following functions
+ * should be defined in the expr object in MSP
+ */
+#define ISTABLE(sym, garray, size, vec) \
+if (!sym || !(garray = (t_garray *)pd_findbyclass(sym, garray_class)) || \
+ !garray_getfloatwords(garray, &size, &vec)) { \
+ optr->ex_type = ET_FLT; \
+ optr->ex_int = 0; \
+ error("no such table '%s'", sym?(sym->s_name):"(null)"); \
+ return; \
+}
+
+/*
+ * ex_size -- find the size of a table
+ */
+void
+ex_size(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ t_symbol *s;
+ t_garray *garray;
+ int size;
+ t_word *wvec;
+
+ if (argv->ex_type != ET_SYM)
+ {
+ post("expr: size: need a table name\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ return;
+ }
+
+ s = (fts_symbol_t ) argv->ex_ptr;
+
+ ISTABLE(s, garray, size, wvec);
+
+ optr->ex_type = ET_INT;
+ optr->ex_int = size;
+}
+
+/*
+ * ex_sum -- calculate the sum of all elements of a table
+ */
+
+void
+ex_sum(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ t_symbol *s;
+ t_garray *garray;
+ int size;
+ t_word *wvec;
+ t_float sum;
+ int indx;
+
+ if (argv->ex_type != ET_SYM)
+ {
+ post("expr: sum: need a table name\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ return;
+ }
+
+ s = (fts_symbol_t ) argv->ex_ptr;
+
+ ISTABLE(s, garray, size, wvec);
+
+ for (indx = 0, sum = 0; indx < size; indx++)
+ sum += wvec[indx].w_float;
+
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = sum;
+}
+
+
+/*
+ * ex_Sum -- calculate the sum of table with the given boundries
+ */
+
+void
+ex_Sum(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+ t_symbol *s;
+ t_garray *garray;
+ int size;
+ t_word *wvec;
+ t_float sum;
+ int indx, n1, n2;
+
+ if (argv->ex_type != ET_SYM)
+ {
+ post("expr: sum: need a table name\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ return;
+ }
+
+ s = (fts_symbol_t ) argv->ex_ptr;
+
+ ISTABLE(s, garray, size, wvec);
+
+ if (argv->ex_type != ET_INT || argv[1].ex_type != ET_INT)
+ {
+ post("expr: Sum: boundries have to be fix values\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ return;
+ }
+ n1 = argv->ex_int;
+ n2 = argv[1].ex_int;
+
+ for (indx = n1, sum = 0; indx < n2; indx++)
+ if (indx >= 0 && indx < size)
+ sum += wvec[indx].w_float;
+
+ optr->ex_type = ET_FLT;
+ optr->ex_flt = sum;
+}
+
+/*
+ * ex_avg -- calculate the avarage of a table
+ */
+
+void
+ex_avg(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+/* SDY - look into this function */
+#if 0
+ fts_symbol_t s;
+ fts_integer_vector_t *tw = 0;
+
+ if (argv->ex_type != ET_SYM)
+ {
+ post("expr: avg: need a table name\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ }
+
+ s = (fts_symbol_t ) argv->ex_ptr;
+
+ tw = table_integer_vector_get_by_name(s);
+
+ if (tw)
+ {
+ optr->ex_type = ET_INT;
+
+ if (! fts_integer_vector_get_size(tw))
+ optr->ex_int = 0;
+ else
+ optr->ex_int = fts_integer_vector_get_sum(tw) / fts_integer_vector_get_size(tw);
+ }
+ else
+ {
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ post("expr: avg: no such table %s\n", fts_symbol_name(s));
+ }
+#endif
+}
+
+
+/*
+ * ex_Avg -- calculate the avarage of table with the given boundries
+ */
+
+void
+ex_Avg(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+/* SDY - look into this function */
+#if 0
+ fts_symbol_t s;
+ fts_integer_vector_t *tw = 0;
+
+ if (argv->ex_type != ET_SYM)
+ {
+ post("expr: Avg: need a table name\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ }
+
+ s = (fts_symbol_t ) (argv++)->ex_ptr;
+
+ tw = table_integer_vector_get_by_name(s);
+
+ if (! tw)
+ {
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ post("expr: Avg: no such table %s\n", fts_symbol_name(s));
+ return;
+ }
+
+ if (argv->ex_type != ET_INT || argv[1].ex_type != ET_INT)
+ {
+ post("expr: Avg: boundries have to be fix values\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ return;
+ }
+
+ optr->ex_type = ET_INT;
+
+ if (argv[1].ex_int - argv->ex_int <= 0)
+ optr->ex_int = 0;
+ else
+ optr->ex_int = (fts_integer_vector_get_sub_sum(tw, argv->ex_int, argv[1].ex_int) /
+ (argv[1].ex_int - argv->ex_int));
+#endif
+}
+
+/*
+ * ex_store -- store a value in a table
+ * if the index is greater the size of the table,
+ * we will make a modulo the size of the table
+ */
+
+void
+ex_store(t_expr *e, long int argc, struct ex_ex *argv, struct ex_ex *optr)
+{
+/* SDY - look into this function */
+#if 0
+ fts_symbol_t s;
+ fts_integer_vector_t *tw = 0;
+
+ if (argv->ex_type != ET_SYM)
+ {
+ post("expr: store: need a table name\n");
+ }
+
+ s = (fts_symbol_t ) (argv++)->ex_ptr;
+
+ tw = table_integer_vector_get_by_name(s);
+
+ if (! tw)
+ {
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ post("expr: store: no such table %s\n", fts_symbol_name(s));
+ return;
+ }
+
+ if (argv->ex_type != ET_INT || argv[1].ex_type != ET_INT)
+ {
+ post("expr: store: arguments have to be integer\n");
+ optr->ex_type = ET_INT;
+ optr->ex_int = 0;
+ }
+
+ fts_integer_vector_set_element(tw, argv->ex_int < 0 ? 0 : argv->ex_int % fts_integer_vector_get_size(tw), argv[1].ex_int);
+ *optr = argv[1];
+#endif
+}
+
+#else /* MSP */
+
+void
+pd_error(void *object, char *fmt, ...)
+{
+ va_list ap;
+ t_int arg[8];
+ int i;
+ static int saidit = 0;
+ va_start(ap, fmt);
+/* SDY
+ vsprintf(error_string, fmt, ap);
+ */ post(fmt, ap);
+ va_end(ap);
+/* SDY
+ fprintf(stderr, "error: %s\n", error_string);
+ error_object = object;
+*/
+ if (!saidit)
+ {
+ post("... you might be able to track this down from the Find menu.");
+ saidit = 1;
+ }
+}
+#endif
diff --git a/externals/extra/0.43.2/extra-meta.pd b/externals/extra/0.43.2/extra-meta.pd
new file mode 100644
index 00000000..2ddfe712
--- /dev/null
+++ b/externals/extra/0.43.2/extra-meta.pd
@@ -0,0 +1,7 @@
+#N canvas 15 49 200 200 10;
+#N canvas 25 49 420 300 META 1;
+#X text 13 10 NAME extra;
+#X text 10 30 VERSION 0.43.2;
+#X text 10 50 AUTHOR Miller Puckette and others;
+#X text 10 50 LICENSE GPLv2 for expr and BSD for the rest;
+#X restore 10 10 pd META;
diff --git a/externals/extra/0.43.2/fiddle~/fiddle~-help.pd b/externals/extra/0.43.2/fiddle~/fiddle~-help.pd
new file mode 100644
index 00000000..f396725a
--- /dev/null
+++ b/externals/extra/0.43.2/fiddle~/fiddle~-help.pd
@@ -0,0 +1,142 @@
+#N canvas 93 26 980 745 10;
+#X obj 262 522 phasor~;
+#X obj 531 616 unpack;
+#X floatatom 531 666 0 0 0 0 - - -;
+#X msg 437 449 print;
+#X obj 262 500 sig~;
+#X floatatom 262 478 0 0 0 0 - - -;
+#X obj 262 456 mtof;
+#X floatatom 262 434 0 0 0 0 - - -;
+#X floatatom 545 643 0 0 0 0 - - -;
+#X obj 531 576 route 1 2 3 4;
+#X obj 614 616 unpack;
+#X floatatom 614 666 0 0 0 0 - - -;
+#X floatatom 628 643 0 0 0 0 - - -;
+#X obj 698 616 unpack;
+#X floatatom 698 666 0 0 0 0 - - -;
+#X floatatom 712 643 0 0 0 0 - - -;
+#X obj 389 616 unpack;
+#X floatatom 389 666 0 0 0 0 - - -;
+#X floatatom 403 643 0 0 0 0 - - -;
+#X obj 334 545 *~;
+#X obj 322 394 loadbang;
+#X obj 353 522 sig~;
+#X floatatom 353 500 0 0 0 0 - - -;
+#X msg 322 478 1;
+#X msg 353 478 0;
+#X floatatom 466 666 0 0 0 0 - - -;
+#X obj 281 666 print attack;
+#X obj 190 666 print pitch;
+#X msg 555 45 \; pd dsp 1;
+#X text 460 39 click here;
+#X text 460 61 to start DSP;
+#X text 226 4 FIDDLE - pitch estimator and sinusoidal peak finder;
+#X text 8 70 The Fiddle object estimates the pitch and amplitude of
+an incoming sound \, both continuously and as a stream of discrete
+"note" events. Fiddle optionally outputs a list of detected sinusoidal
+peaks used to make the pitch determination. Fiddle is described theoretically
+in the 1998 ICMC proceedings \, reprinted on http://man104nfs.ucsd.edu/~mpuckett.
+;
+#X text 8 170 Fiddle's creation arguments specify an analysis window
+size \, the maximum polyphony (i.e. \, the number of simultaneous "pitches"
+to try to find) \, the number of peaks in the spectrum to consider
+\, and the number of peaks \, if any \, to output "raw." The outlets
+give discrete pitch (a number) \, detected attacks in the amplitude
+envelope (a bang) \, one or more voices of continuous pitch and amplitude
+\, overall amplitude \, and optionally a sequence of messages with
+the peaks.;
+#X text 8 296 The analysis hop size is half the window size so in the
+example shown here \, one analysis is done every 512 samples (11.6
+msec at 44K1) \, and the analysis uses the most recent 1024 samples
+(23.2 msec at 44K1). The minimum frequency that Fiddle will report
+is 2-1/2 cycles per analysis windows \, or about 108 Hz. (just below
+MIDI 45.);
+#X text 669 535 number of pitch outlets (1-3 \, default 1);
+#X text 669 557 number of peaks to find (1-100 \, default 20);
+#X text 669 579 number of peaks to output (default 0.);
+#X msg 441 107 amp-range 40 50;
+#X msg 439 227 reattack 100 10;
+#X msg 438 282 npartial 7;
+#X msg 438 170 vibrato 50 0.5;
+#X text 560 91 a low and high amplitude threshold: if signal amplitude
+is below the low threshold \, no pitches or peaks are output. The high
+threshold is a minimum at which "cooked" outputs may appear.;
+#X text 560 152 A period in milliseconds (50) over which the raw pitch
+may not deviate more than an interval in half-tones (0.5) from the
+average pitch to report it as a note to the "cooked" pitch outlet.
+;
+#X text 560 213 A period in milliseconds (100) over which a re-attack
+is reported if the amplitude rises more than (1) dB. The re-attack
+will result in a "bang" in the attack outlet and may give rise to repeated
+notes in the cooked pitch output.;
+#X text 142 432 test input pitch;
+#X text 330 444 test input;
+#X text 330 457 amplitude;
+#X obj 410 545 fiddle~ 1024 1 20 3;
+#X text 538 690 individual sinusoidal components;
+#X text 466 688 amplitude;
+#X text 476 703 (dB);
+#X text 389 688 raw pitch;
+#X text 376 712 and amplitude;
+#X text 364 729 (up to 3 outputs);
+#X text 287 686 bang on;
+#X text 287 708 attack;
+#X text 185 686 cooked pitch;
+#X text 202 703 output;
+#X text 545 545 ------ arguments:;
+#X msg 262 412 57;
+#X msg 440 331 auto 1;
+#X msg 440 353 auto 0;
+#X msg 439 418 bang;
+#X text 561 416 poll current values --- useful if not in auto mode
+\,;
+#X text 560 274 Higher partials are weighed less strongly than lower
+ones in determining the pitch. This specifies the number of the partial
+(7) which will be weighted half as strongly as the fundamental.;
+#X text 560 335 start and stop "auto" mode (on by default.) If off
+\, output only appears on "bang" (poll mode).;
+#X text 561 448 print out all settings;
+#X text 669 513 window size (128-2048 \, default 1024);
+#X msg 440 375 npoints 2048;
+#X text 562 384 number of points in analysis window (power of 2 \,
+128-2048);
+#X msg 439 396 npoints 1024;
+#X connect 0 0 19 0;
+#X connect 1 0 2 0;
+#X connect 1 1 8 0;
+#X connect 3 0 48 0;
+#X connect 4 0 0 0;
+#X connect 5 0 4 0;
+#X connect 6 0 5 0;
+#X connect 7 0 6 0;
+#X connect 9 0 1 0;
+#X connect 9 1 10 0;
+#X connect 9 2 13 0;
+#X connect 10 0 11 0;
+#X connect 10 1 12 0;
+#X connect 13 0 14 0;
+#X connect 13 1 15 0;
+#X connect 16 0 17 0;
+#X connect 16 1 18 0;
+#X connect 19 0 48 0;
+#X connect 20 0 60 0;
+#X connect 20 0 23 0;
+#X connect 21 0 19 1;
+#X connect 22 0 21 0;
+#X connect 23 0 22 0;
+#X connect 24 0 22 0;
+#X connect 38 0 48 0;
+#X connect 39 0 48 0;
+#X connect 40 0 48 0;
+#X connect 41 0 48 0;
+#X connect 48 0 27 0;
+#X connect 48 1 26 0;
+#X connect 48 2 16 0;
+#X connect 48 3 25 0;
+#X connect 48 4 9 0;
+#X connect 60 0 7 0;
+#X connect 61 0 48 0;
+#X connect 62 0 48 0;
+#X connect 63 0 48 0;
+#X connect 69 0 48 0;
+#X connect 71 0 48 0;
diff --git a/externals/extra/0.43.2/fiddle~/fiddle~.c b/externals/extra/0.43.2/fiddle~/fiddle~.c
new file mode 100644
index 00000000..ea676784
--- /dev/null
+++ b/externals/extra/0.43.2/fiddle~/fiddle~.c
@@ -0,0 +1,1851 @@
+/* Copyright (c) 1997-1999 Miller Puckette and Ted Apel.
+* For information on usage and redistribution, and for a DISCLAIMER OF ALL
+* WARRANTIES, see the file, "LICENSE.txt," in this distribution. */
+
+/*
+ * Fiddle is a pitch tracker hardwired to have hop size ("H") equal to
+ * half its window size ("N").
+ *
+ * This version should compile for Max "0.26," JMAX, Pd, or Max/MSP.
+ *
+ * The "lastanalysis" field holds the shifted FT of the previous H
+ * samples. The buffer contains in effect points 1/2, 3/2, ..., (N-1)/2
+ * of the DTFT of a real vector of length N, half of whose points are zero,
+ * i.e., only the first H points are used. Put another way, we get the
+ * the odd-numbered points of the FFT of the H points, zero padded to 4*H in
+ * length. The integer points 0, 1, ..., H-1
+ * are found by interpolating these others, using the fact that the
+ * half-integer points are band-limited (they only have positive frequencies.)
+ * To facilitate the interpolation the "lastanalysis" buffer contains
+ * FILTSIZE extra points (1/2-FILTSIZE, ..., -1/2) at the beginning and
+ * FILTSIZE again at the end ((N+1)/2, ..., FILTSIZE+(N-1)/2). The buffer
+ * therefore has N+4*FILTSIZE floating-point numbers in it.
+ *
+ * after doing this I found out that you can just do a real FFT
+ * of the H new points, zero-padded to contain N points, and using a similar
+ * but simpler interpolation scheme you can still get 2N points of the DTFT
+ * of the N points. Jean Laroche is a big fat hen.
+ *
+ */
+
+
+/* These pragmas are only used for MSVC, not MinGW or Cygwin <hans@at.or.at> */
+#ifdef _MSC_VER
+#pragma warning (disable: 4305 4244)
+#endif
+
+/* this #ifdef does nothing, but its there... */
+#ifdef _WIN32
+#define flog log
+#define fexp exp
+#define fsqrt sqrt
+#else
+#define flog log
+#define fexp exp
+#define fsqrt sqrt
+#endif
+
+char fiddle_version[] = "fiddle version 1.1 TEST4";
+
+#ifdef JMAX
+#include "fts.h"
+#include <stdio.h>
+#include <stdlib.h>
+typedef float t_float;
+typedef float t_floatarg;
+typedef fts_symbol_t t_symbol;
+
+static void *getbytes(size_t nbytes)
+{
+ void *ret;
+ if (nbytes < 1) nbytes = 1;
+ ret = (void *)malloc(nbytes);
+ return (ret);
+}
+
+static void *resizebytes(void *old, size_t oldsize, size_t newsize)
+{
+ void *ret;
+ if (newsize < 1) newsize = 1;
+ ret = (void *)realloc((char *)old, newsize);
+ return (ret);
+}
+
+static void freebytes(void *fatso, size_t nbytes)
+{
+ free(fatso);
+}
+
+#define CLASSNAME "fiddle"
+
+#define OUTLETpower 5
+#define OUTLETmicropitch1 4
+#define OUTLETmicropitch2 3
+#define OUTLETmicropitch3 2
+#define OUTLETattack 1
+#define OUTLETpitch 0
+
+static fts_symbol_t *dsp_symbol = 0;
+#define error post
+
+#endif /* FTS */
+
+#ifdef MAX26
+#define t_floatarg double
+#include "m_extern.h"
+#include "d_graph.h"
+#include "d_ugen.h"
+#endif /* MAX26 */
+
+#ifdef PD
+#include "m_pd.h"
+#endif /* PD */
+
+#ifdef MSP
+#define flog log
+#define fexp exp
+#define fsqrt sqrt
+#endif /* MSP */
+
+#ifdef MSP
+#define t_floatarg double
+#include "ext.h"
+#include "z_dsp.h"
+#include "fft_mayer.proto.h"
+
+#endif /* MSP */
+
+#include <math.h>
+
+
+#define MINBIN 3
+#define DEFAMPLO 40
+#define DEFAMPHI 50
+#define DEFATTACKTIME 100
+#define DEFATTACKTHRESH 10
+#define DEFVIBTIME 50
+#define DEFVIBDEPTH 0.5
+#define GLISS 0.7f
+#define DBFUDGE 30.8f
+#define MINFREQINBINS 5 /* minimum frequency in bins for reliable output */
+
+#define MAXNPITCH 3
+#define MAXHIST 3 /* find N hottest peaks in histogram */
+
+#define MAXPOINTS 8192
+#define MINPOINTS 128
+#define DEFAULTPOINTS 1024
+
+#define HISTORY 20
+#define MAXPEAK 100 /* maximum number of peaks */
+#define DEFNPEAK 20 /* default number of peaks */
+
+#define MAXNPEAK (MAXLOWPEAK + MAXSTRONGPEAK)
+#define MINBW (0.03f) /* consider BW >= 0.03 FFT bins */
+
+#define BINPEROCT 48 /* bins per octave */
+#define BPERO_OVER_LOG2 69.24936196f /* BINSPEROCT/log(2) */
+#define FACTORTOBINS (t_float)(4/0.0145453) /* 4 / (pow(2.,1/48.) - 1) */
+#define BINGUARD 10 /* extra bins to throw in front */
+#define PARTIALDEVIANCE 0.023f /* acceptable partial detuning in % */
+#define LOGTODB 4.34294481903f /* 20/log(10) */
+
+#define KNOCKTHRESH 10.f /* don't know how to describe this */
+
+
+static t_float sigfiddle_partialonset[] =
+{
+0,
+48,
+76.0782000346154967102,
+96,
+111.45254855459339269887,
+124.07820003461549671089,
+134.75303625876499715823,
+144,
+152.15640006923099342109,
+159.45254855459339269887,
+166.05271769459026829915,
+172.07820003461549671088,
+177.62110647077242370064,
+182.75303625876499715892,
+187.53074858920888940907,
+192,
+};
+
+#define NPARTIALONSET ((int)(sizeof(sigfiddle_partialonset)/sizeof(t_float)))
+
+static int sigfiddle_intpartialonset[] =
+{
+0,
+48,
+76,
+96,
+111,
+124,
+135,
+144,
+152,
+159,
+166,
+172,
+178,
+183,
+188,
+192,
+};
+
+/* these coefficients, which come from the "upsamp" subdirectory,
+are a filter kernel for upsampling by a factor of two, assuming
+the sound to be upsampled has no energy above half the Nyquist, i.e.,
+that it's already 2x oversampled compared to the theoretically possible
+sample rate. I got these by trial and error. */
+
+#define FILT1 ((t_float)(.5 * 1.227054))
+#define FILT2 ((t_float)(.5 * -0.302385))
+#define FILT3 ((t_float)(.5 * 0.095326))
+#define FILT4 ((t_float)(.5 * -0.022748))
+#define FILT5 ((t_float)(.5 * 0.002533))
+#define FILTSIZE 5
+
+typedef struct peakout /* a peak for output */
+{
+ t_float po_freq; /* frequency in hz */
+ t_float po_amp; /* amplitude */
+} t_peakout;
+
+typedef struct peak /* a peak for analysis */
+{
+ t_float p_freq; /* frequency in bins */
+ t_float p_width; /* peak width in bins */
+ t_float p_pow; /* peak power */
+ t_float p_loudness; /* 4th root of power */
+ t_float *p_fp; /* pointer back to spectrum */
+} t_peak;
+
+typedef struct histopeak
+{
+ t_float h_pitch; /* estimated pitch */
+ t_float h_value; /* value of peak */
+ t_float h_loud; /* combined strength of found partials */
+ int h_index; /* index of bin holding peak */
+ int h_used; /* true if an x_hist entry points here */
+} t_histopeak;
+
+typedef struct pitchhist /* struct for keeping history by pitch */
+{
+ t_float h_pitch; /* pitch to output */
+ t_float h_amps[HISTORY]; /* past amplitudes */
+ t_float h_pitches[HISTORY]; /* past pitches */
+ t_float h_noted; /* last pitch output */
+ int h_age; /* number of frames pitch has been there */
+ t_histopeak *h_wherefrom; /* new histogram peak to incorporate */
+ void *h_outlet;
+} t_pitchhist;
+
+typedef struct sigfiddle /* instance struct */
+{
+#ifdef JMAX
+ fts_object_t x_h; /* object header */
+ fts_alarm_t x_clock; /* callback for timeouts */
+#endif
+#ifdef MAX26
+ t_head x_h; /* header for tilde objects */
+ t_sig *x_io[IN1+OUT0]; /* number of signal inputs and outputs */
+ void *x_clock; /* a "clock" object */
+#endif
+#ifdef PD
+ t_object x_ob; /* object header */
+ t_clock *x_clock; /* callback for timeouts */
+#endif
+#ifdef MSP
+ t_pxobject x_obj;
+ void *x_clock;
+ long x_downsample; /* downsample feature because of
+ MSP's large sig vector sizes */
+#endif
+ t_float *x_inbuf; /* buffer to analyze, npoints/2 elems */
+ t_float *x_lastanalysis; /* FT of last buffer (see main comment) */
+ t_float *x_spiral; /* 1/4-wave complex exponential */
+ t_peakout *x_peakbuf; /* spectral peaks for output */
+ int x_npeakout; /* number of spectral peaks to output */
+ int x_npeakanal; /* number of spectral peaks to analyze */
+ int x_phase; /* number of points since last output */
+ int x_histphase; /* phase into amplitude history vector */
+ int x_hop; /* period of output, npoints/2 */
+ t_float x_sr; /* sample rate */
+ t_pitchhist x_hist[MAXNPITCH]; /* history of current pitches */
+ int x_nprint; /* how many periods to print */
+ int x_npitch; /* number of simultaneous pitches */
+ t_float x_dbs[HISTORY]; /* DB history, indexed by "histphase" */
+ t_float x_peaked; /* peak since last attack */
+ int x_dbage; /* number of bins DB has met threshold */
+ int x_auto; /* true if generating continuous output */
+/* parameters */
+ t_float x_amplo;
+ t_float x_amphi;
+ int x_attacktime;
+ int x_attackbins;
+ t_float x_attackthresh;
+ int x_vibtime;
+ int x_vibbins;
+ t_float x_vibdepth;
+ t_float x_npartial;
+/* outlets & clock */
+ void *x_envout;
+ int x_attackvalue;
+ void *x_attackout;
+ void *x_noteout;
+ void *x_peakout;
+} t_sigfiddle;
+
+#if CHECKER
+t_float fiddle_checker[1024];
+#endif
+
+#ifdef MSP
+/* Mac compiler requires prototypes for everything */
+
+int sigfiddle_ilog2(int n);
+t_float fiddle_mtof(t_float f);
+t_float fiddle_ftom(t_float f);
+void sigfiddle_doit(t_sigfiddle *x);
+void sigfiddle_debug(t_sigfiddle *x);
+void sigfiddle_print(t_sigfiddle *x);
+void sigfiddle_assist(t_sigfiddle *x, void *b, long m, long a, char *s);
+void sigfiddle_amprange(t_sigfiddle *x, double amplo, double amphi);
+void sigfiddle_reattack(t_sigfiddle *x, t_floatarg attacktime, t_floatarg
+attackthresh);
+void sigfiddle_vibrato(t_sigfiddle *x, t_floatarg vibtime, t_floatarg
+vibdepth);
+void sigfiddle_npartial(t_sigfiddle *x, double npartial);
+void sigfiddle_auto(t_sigfiddle *x, t_floatarg f);
+void sigfiddle_setnpoints(t_sigfiddle *x, t_floatarg f);
+int sigfiddle_doinit(t_sigfiddle *x, long npoints, long npitch, long
+npeakanal, long npeakout);
+static t_int *fiddle_perform(t_int *w);
+void sigfiddle_dsp(t_sigfiddle *x, t_signal **sp);
+void sigfiddle_tick(t_sigfiddle *x);
+void sigfiddle_bang(t_sigfiddle *x);
+void sigfiddle_ff(t_sigfiddle *x);
+void *sigfiddle_new(long npoints, long npitch,
+ long npeakanal, long npeakout);
+void msp_fft(t_float *buf, long np, long inv);
+t_float msp_ffttemp[MAXPOINTS*2];
+int errno;
+#endif
+
+int sigfiddle_ilog2(int n)
+{
+ int ret = -1;
+ while (n)
+ {
+ n >>= 1;
+ ret++;
+ }
+ return (ret);
+}
+
+t_float fiddle_mtof(t_float f)
+{
+ return (8.17579891564 * exp(.0577622650 * f));
+}
+
+t_float fiddle_ftom(t_float f)
+{
+ return (17.3123405046 * log(.12231220585 * f));
+}
+#define ftom fiddle_ftom
+#define mtof fiddle_mtof
+
+void sigfiddle_doit(t_sigfiddle *x)
+{
+#ifdef MSP
+ /* prevents interrupt-level stack overflow crash with Netscape. */
+ static t_float spect1[4*MAXPOINTS];
+ static t_float spect2[MAXPOINTS + 4*FILTSIZE];
+#else
+ t_float spect1[4*MAXPOINTS];
+ t_float spect2[MAXPOINTS + 4*FILTSIZE];
+#endif
+#if CHECKER
+ t_float checker3[4*MAXPOINTS];
+#endif
+
+ t_peak peaklist[MAXPEAK + 1], *pk1;
+ t_peakout *pk2;
+ t_histopeak histvec[MAXHIST], *hp1;
+ int i, j, k, hop = x->x_hop, n = 2*hop, npeak, npitch,
+ logn = sigfiddle_ilog2(n), newphase, oldphase;
+ t_float *fp, *fp1, *fp2, *fp3, total_power, total_loudness, total_db;
+ t_float maxbin = BINPEROCT * (logn-2), *histogram = spect2 + BINGUARD;
+ t_pitchhist *phist;
+ t_float hzperbin = x->x_sr / (2.0f * n);
+ int npeakout = x->x_npeakout, npeakanal = x->x_npeakanal;
+ int npeaktot = (npeakout > npeakanal ? npeakout : npeakanal);
+
+ oldphase = x->x_histphase;
+ newphase = x->x_histphase + 1;
+ if (newphase == HISTORY) newphase = 0;
+ x->x_histphase = newphase;
+
+ /*
+ * multiply the H points by a 1/4-wave complex exponential,
+ * and take FFT of the result.
+ */
+ for (i = 0, fp1 = x->x_inbuf, fp2 = x->x_spiral, fp3 = spect1;
+ i < hop; i++, fp1++, fp2 += 2, fp3 += 2)
+ fp3[0] = fp1[0] * fp2[0], fp3[1] = fp1[0] * fp2[1];
+
+#ifdef MAX26
+ fft(spect1, hop, 0);
+#endif
+#ifdef PD
+ pd_fft(spect1, hop, 0);
+#endif
+#ifdef JMAX
+ fts_cfft_inplc((complex *)spect1, hop);
+#endif
+#ifdef MSP
+ msp_fft(spect1,hop,0);
+#endif
+ /*
+ * now redistribute the points to get in effect the odd-numbered
+ * points of the FFT of the H points, zero padded to 4*H in length.
+ */
+ for (i = 0, fp1 = spect1, fp2 = spect2 + (2*FILTSIZE);
+ i < (hop>>1); i++, fp1 += 2, fp2 += 4)
+ fp2[0] = fp1[0], fp2[1] = fp1[1];
+ for (i = 0, fp1 = spect1 + n - 2, fp2 = spect2 + (2*FILTSIZE+2);
+ i < (hop>>1); i++, fp1 -= 2, fp2 += 4)
+ fp2[0] = fp1[0], fp2[1] = -fp1[1];
+ for (i = 0, fp1 = spect2 + (2*FILTSIZE), fp2 = spect2 + (2*FILTSIZE-2);
+ i<FILTSIZE; i++, fp1+=2, fp2-=2)
+ fp2[0] = fp1[0], fp2[1] = -fp1[1];
+ for (i = 0, fp1 = spect2 + (2*FILTSIZE+n-2), fp2 = spect2 + (2*FILTSIZE+n);
+ i<FILTSIZE; i++, fp1-=2, fp2+=2)
+ fp2[0] = fp1[0], fp2[1] = -fp1[1];
+#if 0
+ {
+ fp = spect2 + 2*FILTSIZE;
+ post("x1 re %12.4f %12.4f %12.4f %12.4f %12.4f",
+ fp[0], fp[2], fp[4], fp[6], fp[8]);
+ post("x1 im %12.4f %12.4f %12.4f %12.4f %12.4f",
+ fp[1], fp[3], fp[5], fp[7], fp[9]);
+ }
+#endif
+ /* spect2 is now prepared; now combine spect2 and lastanalysis into
+ * spect1. Odd-numbered points of spect1 are the points of "last"
+ * plus (-i, i, -i, ...) times spect1. Even-numbered points are
+ * the interpolated points of "last" plus (1, -1, 1, ...) times the
+ * interpolated points of spect1.
+ *
+ * To interpolate, take FILT1 exp(-pi/4) times
+ * the previous point, FILT2*exp(-3*pi/4) times 3 bins before,
+ * etc, and FILT1 exp(pi/4), FILT2 exp(3pi/4), etc., to weight
+ * the +1, +3, etc., points.
+ *
+ * In this calculation, we take (1, i, -1, -i, 1) times the
+ * -9, -7, ..., -1 points, and (i, -1, -i, 1, i) times the 1, 3,..., 9
+ * points of the OLD spectrum, alternately adding and subtracting
+ * the new spectrum to the old; then we multiply the whole thing
+ * by exp(-i pi/4).
+ */
+ for (i = 0, fp1 = spect1, fp2 = x->x_lastanalysis + 2*FILTSIZE,
+ fp3 = spect2 + 2*FILTSIZE;
+ i < (hop>>1); i++)
+ {
+ t_float re, im;
+
+ re= FILT1 * ( fp2[ -2] -fp2[ 1] +fp3[ -2] -fp3[ 1]) +
+ FILT2 * ( fp2[ -3] -fp2[ 2] +fp3[ -3] -fp3[ 2]) +
+ FILT3 * (-fp2[ -6] +fp2[ 5] -fp3[ -6] +fp3[ 5]) +
+ FILT4 * (-fp2[ -7] +fp2[ 6] -fp3[ -7] +fp3[ 6]) +
+ FILT5 * ( fp2[-10] -fp2[ 9] +fp3[-10] -fp3[ 9]);
+
+ im= FILT1 * ( fp2[ -1] +fp2[ 0] +fp3[ -1] +fp3[ 0]) +
+ FILT2 * (-fp2[ -4] -fp2[ 3] -fp3[ -4] -fp3[ 3]) +
+ FILT3 * (-fp2[ -5] -fp2[ 4] -fp3[ -5] -fp3[ 4]) +
+ FILT4 * ( fp2[ -8] +fp2[ 7] +fp3[ -8] +fp3[ 7]) +
+ FILT5 * ( fp2[ -9] +fp2[ 8] +fp3[ -9] +fp3[ 8]);
+
+ fp1[0] = 0.7071f * (re + im);
+ fp1[1] = 0.7071f * (im - re);
+ fp1[4] = fp2[0] + fp3[1];
+ fp1[5] = fp2[1] - fp3[0];
+
+ fp1 += 8, fp2 += 2, fp3 += 2;
+ re= FILT1 * ( fp2[ -2] -fp2[ 1] -fp3[ -2] +fp3[ 1]) +
+ FILT2 * ( fp2[ -3] -fp2[ 2] -fp3[ -3] +fp3[ 2]) +
+ FILT3 * (-fp2[ -6] +fp2[ 5] +fp3[ -6] -fp3[ 5]) +
+ FILT4 * (-fp2[ -7] +fp2[ 6] +fp3[ -7] -fp3[ 6]) +
+ FILT5 * ( fp2[-10] -fp2[ 9] -fp3[-10] +fp3[ 9]);
+
+ im= FILT1 * ( fp2[ -1] +fp2[ 0] -fp3[ -1] -fp3[ 0]) +
+ FILT2 * (-fp2[ -4] -fp2[ 3] +fp3[ -4] +fp3[ 3]) +
+ FILT3 * (-fp2[ -5] -fp2[ 4] +fp3[ -5] +fp3[ 4]) +
+ FILT4 * ( fp2[ -8] +fp2[ 7] -fp3[ -8] -fp3[ 7]) +
+ FILT5 * ( fp2[ -9] +fp2[ 8] -fp3[ -9] -fp3[ 8]);
+
+ fp1[0] = 0.7071f * (re + im);
+ fp1[1] = 0.7071f * (im - re);
+ fp1[4] = fp2[0] - fp3[1];
+ fp1[5] = fp2[1] + fp3[0];
+
+ fp1 += 8, fp2 += 2, fp3 += 2;
+ }
+#if 0
+ if (x->x_nprint)
+ {
+ for (i = 0, fp = spect1; i < 16; i++, fp+= 4)
+ post("spect %d %f %f --> %f", i, fp[0], fp[1],
+ sqrt(fp[0] * fp[0] + fp[1] * fp[1]));
+ }
+#endif
+ /* copy new spectrum out */
+ for (i = 0, fp1 = spect2, fp2 = x->x_lastanalysis;
+ i < n + 4*FILTSIZE; i++) *fp2++ = *fp1++;
+
+ for (i = 0; i < MINBIN; i++) spect1[4*i + 2] = spect1[4*i + 3] = 0;
+ /* starting at bin MINBIN, compute hanning windowed power spectrum */
+ for (i = MINBIN, fp1 = spect1+4*MINBIN, total_power = 0;
+ i < n-2; i++, fp1 += 4)
+ {
+ t_float re = fp1[0] - 0.5 * (fp1[-8] + fp1[8]);
+ t_float im = fp1[1] - 0.5 * (fp1[-7] + fp1[9]);
+ fp1[3] = (total_power += (fp1[2] = re * re + im * im));
+ }
+
+ if (total_power > 1e-9f)
+ {
+ total_db = (100.f - DBFUDGE) + LOGTODB * log(total_power/n);
+ total_loudness = fsqrt(fsqrt(total_power));
+ if (total_db < 0) total_db = 0;
+ }
+ else total_db = total_loudness = 0;
+ /* store new db in history vector */
+ x->x_dbs[newphase] = total_db;
+ if (total_db < x->x_amplo) goto nopow;
+#if 1
+ if (x->x_nprint) post("power %f", total_power);
+#endif
+
+#if CHECKER
+ /* verify that our FFT resampling thing is putting out good results */
+ for (i = 0; i < hop; i++)
+ {
+ checker3[2*i] = fiddle_checker[i];
+ checker3[2*i + 1] = 0;
+ checker3[n + 2*i] = fiddle_checker[i] = x->x_inbuf[i];
+ checker3[n + 2*i + 1] = 0;
+ }
+ for (i = 2*n; i < 4*n; i++) checker3[i] = 0;
+ fft(checker3, 2*n, 0);
+ if (x->x_nprint)
+ {
+ for (i = 0, fp = checker3; i < 16; i++, fp += 2)
+ post("spect %d %f %f --> %f", i, fp[0], fp[1],
+ sqrt(fp[0] * fp[0] + fp[1] * fp[1]));
+ }
+
+#endif
+ npeak = 0;
+
+ /* search for peaks */
+ for (i = MINBIN, fp = spect1+4*MINBIN, pk1 = peaklist;
+ i < n-2 && npeak < npeaktot; i++, fp += 4)
+ {
+ t_float height = fp[2], h1 = fp[-2], h2 = fp[6];
+ t_float totalfreq, pfreq, f1, f2, m, var, stdev;
+
+ if (height < h1 || height < h2 ||
+ h1 < 0.00001f*total_power || h2 < 0.00001f*total_power)
+ continue;
+
+ /* use an informal phase vocoder to estimate the frequency.
+ Do this for the two adjacent bins too. */
+ pfreq= ((fp[-8] - fp[8]) * (2.0f * fp[0] - fp[8] - fp[-8]) +
+ (fp[-7] - fp[9]) * (2.0f * fp[1] - fp[9] - fp[-7])) /
+ (2.0f * height);
+ f1= ((fp[-12] - fp[4]) * (2.0f * fp[-4] - fp[4] - fp[-12]) +
+ (fp[-11] - fp[5]) * (2.0f * fp[-3] - fp[5] - fp[-11])) /
+ (2.0f * h1) - 1;
+ f2= ((fp[-4] - fp[12]) * (2.0f * fp[4] - fp[12] - fp[-4]) +
+ (fp[-3] - fp[13]) * (2.0f * fp[5] - fp[13] - fp[-3])) /
+ (2.0f * h2) + 1;
+
+ /* get sample mean and variance of the three */
+ m = 0.333333f * (pfreq + f1 + f2);
+ var = 0.5f * ((pfreq-m)*(pfreq-m) + (f1-m)*(f1-m) + (f2-m)*(f2-m));
+
+ totalfreq = i + m;
+ if (var * total_power > KNOCKTHRESH * height || var < 1e-30)
+ {
+#if 0
+ if (x->x_nprint)
+ post("cancel: %.2f hz, index %.1f, power %.5f, stdev=%.2f",
+ totalfreq * hzperbin, BPERO_OVER_LOG2 * log(totalfreq) - 96,
+ height, sqrt(var));
+#endif
+ continue;
+ }
+ stdev = fsqrt(var);
+ if (totalfreq < 4)
+ {
+ if (x->x_nprint) post("oops: was %d, freq %f, m %f, stdev %f h %f",
+ i, totalfreq, m, stdev, height);
+ totalfreq = 4;
+ }
+ pk1->p_width = stdev;
+
+ pk1->p_pow = height;
+ pk1->p_loudness = fsqrt(fsqrt(height));
+ pk1->p_fp = fp;
+ pk1->p_freq = totalfreq;
+ npeak++;
+#if 1
+ if (x->x_nprint)
+ {
+ post("peak: %.2f hz. index %.1f, power %.5f, stdev=%.2f",
+ pk1->p_freq * hzperbin,
+ BPERO_OVER_LOG2 * log(pk1->p_freq) - 96,
+ height, stdev);
+ }
+#endif
+ pk1++;
+ }
+
+ /* prepare the raw peaks for output */
+ for (i = 0, pk1 = peaklist, pk2 = x->x_peakbuf; i < npeak;
+ i++, pk1++, pk2++)
+ {
+ t_float loudness = pk1->p_loudness;
+ if (i >= npeakout) break;
+ pk2->po_freq = hzperbin * pk1->p_freq;
+ pk2->po_amp = (2. / (t_float)n) * (loudness * loudness);
+ }
+ for (; i < npeakout; i++, pk2++) pk2->po_amp = pk2->po_freq = 0;
+
+ /* now, working back into spect2, make a sort of "liklihood"
+ * spectrum. Proceeding in 48ths of an octave, from 2 to
+ * n/2 (in bins), the likelihood of each pitch range is contributed
+ * to by every peak in peaklist that's an integer multiple of it
+ * in frequency.
+ */
+
+ if (npeak > npeakanal) npeak = npeakanal; /* max # peaks to analyze */
+ for (i = 0, fp1 = histogram; i < maxbin; i++) *fp1++ = 0;
+ for (i = 0, pk1 = peaklist; i < npeak; i++, pk1++)
+ {
+ t_float pit = BPERO_OVER_LOG2 * flog(pk1->p_freq) - 96.0;
+ t_float binbandwidth = FACTORTOBINS * pk1->p_width/pk1->p_freq;
+ t_float putbandwidth = (binbandwidth < 2 ? 2 : binbandwidth);
+ t_float weightbandwidth = (binbandwidth < 1.0 ? 1.0 : binbandwidth);
+ /* t_float weightamp = 1.0f + 3.0f * pk1->p_pow / pow; */
+ t_float weightamp = 4. * pk1->p_loudness / total_loudness;
+ for (j = 0, fp2 = sigfiddle_partialonset; j < NPARTIALONSET; j++, fp2++)
+ {
+ t_float bin = pit - *fp2;
+ if (bin < maxbin)
+ {
+ t_float para, pphase, score = 30.0 * weightamp /
+ ((j+x->x_npartial) * weightbandwidth);
+ int firstbin = bin + 0.5f - 0.5f * putbandwidth;
+ int lastbin = bin + 0.5f + 0.5f * putbandwidth;
+ int ibw = lastbin - firstbin;
+ if (firstbin < -BINGUARD) break;
+ para = 1.0f / (putbandwidth * putbandwidth);
+ for (k = 0, fp3 = histogram + firstbin,
+ pphase = firstbin-bin; k <= ibw;
+ k++, fp3++, pphase += 1.0f)
+ {
+ *fp3 += score * (1.0f - para * pphase * pphase);
+ }
+ }
+ }
+ }
+#if 1
+ if (x->x_nprint)
+ {
+ for (i = 0; i < 6*5; i++)
+ {
+ t_float fhz = hzperbin * exp ((8*i + 96) * (1./BPERO_OVER_LOG2));
+ if (!(i % 6)) post("-- bin %d pitch %f freq %f----", 8*i,
+ ftom(fhz), fhz);;
+ post("%3d %3d %3d %3d %3d %3d %3d %3d",
+ (int)(histogram[8*i]),
+ (int)(histogram[8*i+1]),
+ (int)(histogram[8*i+2]),
+ (int)(histogram[8*i+3]),
+ (int)(histogram[8*i+4]),
+ (int)(histogram[8*i+5]),
+ (int)(histogram[8*i+6]),
+ (int)(histogram[8*i+7]));
+ }
+ }
+
+#endif
+
+ /*
+ * Next we find up to NPITCH strongest peaks in the histogram.
+ * if a peak is related to a stronger one via an interval in
+ * the sigfiddle_partialonset array, we suppress it.
+ */
+
+ for (npitch = 0; npitch < x->x_npitch; npitch++)
+ {
+ int indx;
+ t_float best;
+ if (npitch)
+ {
+ for (best = 0, indx = -1, j=1; j < maxbin-1; j++)
+ {
+ if (histogram[j] > best && histogram[j] > histogram[j-1] &&
+ histogram[j] > histogram[j+1])
+ {
+ for (k = 0; k < npitch; k++)
+ if (histvec[k].h_index == j)
+ goto peaknogood;
+ for (k = 0; k < NPARTIALONSET; k++)
+ {
+ if (j - sigfiddle_intpartialonset[k] < 0) break;
+ if (histogram[j - sigfiddle_intpartialonset[k]]
+ > histogram[j]) goto peaknogood;
+ }
+ for (k = 0; k < NPARTIALONSET; k++)
+ {
+ if (j + sigfiddle_intpartialonset[k] >= maxbin) break;
+ if (histogram[j + sigfiddle_intpartialonset[k]]
+ > histogram[j]) goto peaknogood;
+ }
+ indx = j;
+ best = histogram[j];
+ }
+ peaknogood: ;
+ }
+ }
+ else
+ {
+ for (best = 0, indx = -1, j=0; j < maxbin; j++)
+ if (histogram[j] > best)
+ indx = j, best = histogram[j];
+ }
+ if (indx < 0) break;
+ histvec[npitch].h_value = best;
+ histvec[npitch].h_index = indx;
+ }
+#if 1
+ if (x->x_nprint)
+ {
+ for (i = 0; i < npitch; i++)
+ {
+ post("index %d freq %f --> value %f", histvec[i].h_index,
+ exp((1./BPERO_OVER_LOG2) * (histvec[i].h_index + 96)),
+ histvec[i].h_value);
+ post("next %f , prev %f",
+ exp((1./BPERO_OVER_LOG2) * (histvec[i].h_index + 97)),
+ exp((1./BPERO_OVER_LOG2) * (histvec[i].h_index + 95)) );
+ }
+ }
+#endif
+
+ /* for each histogram peak, we now search back through the
+ * FFT peaks. A peak is a pitch if either there are several
+ * harmonics that match it, or else if (a) the fundamental is
+ * present, and (b) the sum of the powers of the contributing peaks
+ * is at least 1/100 of the total power.
+ *
+ * A peak is a contributor if its frequency is within 25 cents of
+ * a partial from 1 to 16.
+ *
+ * Finally, we have to be at least 5 bins in frequency, which
+ * corresponds to 2-1/5 periods fitting in the analysis window.
+ */
+
+ for (i = 0; i < npitch; i++)
+ {
+ t_float cumpow = 0, cumstrength = 0, freqnum = 0, freqden = 0;
+ int npartials = 0, nbelow8 = 0;
+ /* guessed-at frequency in bins */
+ t_float putfreq = fexp((1.0 / BPERO_OVER_LOG2) *
+ (histvec[i].h_index + 96.0f));
+ for (j = 0; j < npeak; j++)
+ {
+ t_float fpnum = peaklist[j].p_freq/putfreq;
+ int pnum = fpnum + 0.5f;
+ t_float fipnum = pnum;
+ t_float deviation;
+ if (pnum > 16 || pnum < 1) continue;
+ deviation = 1.0f - fpnum/fipnum;
+ if (deviation > -PARTIALDEVIANCE && deviation < PARTIALDEVIANCE)
+ {
+ /*
+ * we figure this is a partial since it's within 1/4 of
+ * a halftone of a multiple of the putative frequency.
+ */
+
+ t_float stdev, weight;
+ npartials++;
+ if (pnum < 8) nbelow8++;
+ cumpow += peaklist[j].p_pow;
+ cumstrength += fsqrt(fsqrt(peaklist[j].p_pow));
+ stdev = (peaklist[j].p_width > MINBW ?
+ peaklist[j].p_width : MINBW);
+ weight = 1.0f / ((stdev*fipnum) * (stdev*fipnum));
+ freqden += weight;
+ freqnum += weight * peaklist[j].p_freq/fipnum;
+#if 1
+ if (x->x_nprint)
+ {
+ post("peak %d partial %d f=%f w=%f",
+ j, pnum, peaklist[j].p_freq/fipnum, weight);
+ }
+#endif
+ }
+#if 1
+ else if (x->x_nprint) post("peak %d partial %d dev %f",
+ j, pnum, deviation);
+#endif
+ }
+ if ((nbelow8 < 4 || npartials < 7) && cumpow < 0.01f * total_power)
+ histvec[i].h_value = 0;
+ else
+ {
+ t_float pitchpow = (cumstrength * cumstrength) *
+ (cumstrength * cumstrength);
+ t_float freqinbins = freqnum/freqden;
+ /* check for minimum output frequency */
+
+ if (freqinbins < MINFREQINBINS)
+ histvec[i].h_value = 0;
+ else
+ {
+ /* we passed all tests... save the values we got */
+ histvec[i].h_pitch = ftom(hzperbin * freqnum/freqden);
+ histvec[i].h_loud = (100.0f -DBFUDGE) +
+ (LOGTODB) * log(pitchpow/n);
+ }
+ }
+ }
+#if 1
+ if (x->x_nprint)
+ {
+ for (i = 0; i < npitch; i++)
+ {
+ if (histvec[i].h_value > 0)
+ post("index %d pit %f loud %f", histvec[i].h_index,
+ histvec[i].h_pitch, histvec[i].h_loud);
+ else post("-- cancelled --");
+ }
+ }
+#endif
+
+ /* now try to find continuous pitch tracks that match the new
+ * pitches. First mark each peak unmatched.
+ */
+ for (i = 0, hp1 = histvec; i < npitch; i++, hp1++)
+ hp1->h_used = 0;
+
+ /* for each old pitch, try to match a new one to it. */
+ for (i = 0, phist = x->x_hist; i < x->x_npitch; i++, phist++)
+ {
+ t_float thispitch = phist->h_pitches[oldphase];
+ phist->h_pitch = 0; /* no output, thanks */
+ phist->h_wherefrom = 0;
+ if (thispitch == 0.0f) continue;
+ for (j = 0, hp1 = histvec; j < npitch; j++, hp1++)
+ if ((hp1->h_value > 0) && hp1->h_pitch > thispitch - GLISS
+ && hp1->h_pitch < thispitch + GLISS)
+ {
+ phist->h_wherefrom = hp1;
+ hp1->h_used = 1;
+ }
+ }
+ for (i = 0, hp1 = histvec; i < npitch; i++, hp1++)
+ if ((hp1->h_value > 0) && !hp1->h_used)
+ {
+ for (j = 0, phist = x->x_hist; j < x->x_npitch; j++, phist++)
+ if (!phist->h_wherefrom)
+ {
+ phist->h_wherefrom = hp1;
+ phist->h_age = 0;
+ phist->h_noted = 0;
+ hp1->h_used = 1;
+ goto happy;
+ }
+ break;
+ happy: ;
+ }
+ /* copy the pitch info into the history vector */
+ for (i = 0, phist = x->x_hist; i < x->x_npitch; i++, phist++)
+ {
+ if (phist->h_wherefrom)
+ {
+ phist->h_amps[newphase] = phist->h_wherefrom->h_loud;
+ phist->h_pitches[newphase] =
+ phist->h_wherefrom->h_pitch;
+ (phist->h_age)++;
+ }
+ else
+ {
+ phist->h_age = 0;
+ phist->h_amps[newphase] = phist->h_pitches[newphase] = 0;
+ }
+ }
+#if 1
+ if (x->x_nprint)
+ {
+ post("vibrato %d %f", x->x_vibbins, x->x_vibdepth);
+ for (i = 0, phist = x->x_hist; i < x->x_npitch; i++, phist++)
+ {
+ post("noted %f, age %d", phist->h_noted, phist->h_age);
+#ifndef I860
+ post("values %f %f %f %f %f",
+ phist->h_pitches[newphase],
+ phist->h_pitches[(newphase + HISTORY-1)%HISTORY],
+ phist->h_pitches[(newphase + HISTORY-2)%HISTORY],
+ phist->h_pitches[(newphase + HISTORY-3)%HISTORY],
+ phist->h_pitches[(newphase + HISTORY-4)%HISTORY]);
+#endif
+ }
+ }
+#endif
+ /* look for envelope attacks */
+
+ x->x_attackvalue = 0;
+
+ if (x->x_peaked)
+ {
+ if (total_db > x->x_amphi)
+ {
+ int binlook = newphase - x->x_attackbins;
+ if (binlook < 0) binlook += HISTORY;
+ if (total_db > x->x_dbs[binlook] + x->x_attackthresh)
+ {
+ x->x_attackvalue = 1;
+ x->x_peaked = 0;
+ }
+ }
+ }
+ else
+ {
+ int binlook = newphase - x->x_attackbins;
+ if (binlook < 0) binlook += HISTORY;
+ if (x->x_dbs[binlook] > x->x_amphi && x->x_dbs[binlook] > total_db)
+ x->x_peaked = 1;
+ }
+
+ /* for each current frequency track, test for a new note using a
+ * stability criterion. Later perhaps we should also do as in
+ * pitch~ and check for unstable notes a posteriori when
+ * there's a new attack with no note found since the last onset;
+ * but what's an attack &/or onset when we're polyphonic?
+ */
+
+ for (i = 0, phist = x->x_hist; i < x->x_npitch; i++, phist++)
+ {
+ /*
+ * if we've found a pitch but we've now strayed from it turn
+ * it off.
+ */
+ if (phist->h_noted)
+ {
+ if (phist->h_pitches[newphase] > phist->h_noted + x->x_vibdepth
+ || phist->h_pitches[newphase] < phist->h_noted - x->x_vibdepth)
+ phist->h_noted = 0;
+ }
+ else
+ {
+ if (phist->h_wherefrom && phist->h_age >= x->x_vibbins)
+ {
+ t_float centroid = 0;
+ int not = 0;
+ for (j = 0, k = newphase; j < x->x_vibbins; j++)
+ {
+ centroid += phist->h_pitches[k];
+ k--;
+ if (k < 0) k = HISTORY-1;
+ }
+ centroid /= x->x_vibbins;
+ for (j = 0, k = newphase; j < x->x_vibbins; j++)
+ {
+ /* calculate deviation from norm */
+ t_float dev = centroid - phist->h_pitches[k];
+ k--;
+ if (k < 0) k = HISTORY-1;
+ if (dev > x->x_vibdepth ||
+ -dev > x->x_vibdepth) not = 1;
+ }
+ if (!not)
+ {
+ phist->h_pitch = phist->h_noted = centroid;
+ }
+ }
+ }
+ }
+ return;
+
+nopow:
+ for (i = 0; i < x->x_npitch; i++)
+ {
+ x->x_hist[i].h_pitch = x->x_hist[i].h_noted =
+ x->x_hist[i].h_pitches[newphase] =
+ x->x_hist[i].h_amps[newphase] = 0;
+ x->x_hist[i].h_age = 0;
+ }
+ x->x_peaked = 1;
+ x->x_dbage = 0;
+}
+
+void sigfiddle_debug(t_sigfiddle *x)
+{
+ x->x_nprint = 1;
+}
+
+void sigfiddle_print(t_sigfiddle *x)
+{
+ post("npoints %d,", 2 * x->x_hop);
+ post("amp-range %f %f,", x->x_amplo, x->x_amphi);
+ post("reattack %d %f,", x->x_attacktime, x->x_attackthresh);
+ post("vibrato %d %f", x->x_vibtime, x->x_vibdepth);
+ post("npartial %f", x->x_npartial);
+ post("auto %d", x->x_auto);
+}
+
+void sigfiddle_amprange(t_sigfiddle *x, t_floatarg amplo, t_floatarg amphi)
+{
+ if (amplo < 0) amplo = 0;
+ if (amphi < amplo) amphi = amplo + 1;
+ x->x_amplo = amplo;
+ x->x_amphi = amphi;
+}
+
+void sigfiddle_reattack(t_sigfiddle *x,
+ t_floatarg attacktime, t_floatarg attackthresh)
+{
+ if (attacktime < 0) attacktime = 0;
+ if (attackthresh <= 0) attackthresh = 1000;
+ x->x_attacktime = attacktime;
+ x->x_attackthresh = attackthresh;
+ x->x_attackbins = (x->x_sr * 0.001 * attacktime) / x->x_hop;
+ if (x->x_attackbins >= HISTORY) x->x_attackbins = HISTORY - 1;
+}
+
+void sigfiddle_vibrato(t_sigfiddle *x, t_floatarg vibtime, t_floatarg vibdepth)
+{
+ if (vibtime < 0) vibtime = 0;
+ if (vibdepth <= 0) vibdepth = 1000;
+ x->x_vibtime = vibtime;
+ x->x_vibdepth = vibdepth;
+ x->x_vibbins = (x->x_sr * 0.001 * vibtime) / x->x_hop;
+ if (x->x_vibbins >= HISTORY) x->x_vibbins = HISTORY - 1;
+ if (x->x_vibbins < 1) x->x_vibbins = 1;
+}
+
+void sigfiddle_npartial(t_sigfiddle *x, t_floatarg npartial)
+{
+ if (npartial < 0.1) npartial = 0.1;
+ x->x_npartial = npartial;
+}
+
+void sigfiddle_auto(t_sigfiddle *x, t_floatarg f)
+{
+ x->x_auto = (f != 0);
+}
+
+static void sigfiddle_freebird(t_sigfiddle *x)
+{
+ if (x->x_inbuf)
+ {
+ freebytes(x->x_inbuf, sizeof(t_float) * x->x_hop);
+ x->x_inbuf = 0;
+ }
+ if (x->x_lastanalysis)
+ {
+ freebytes(x->x_lastanalysis,
+ sizeof(t_float) * (2 * x->x_hop + 4 * FILTSIZE));
+ x->x_lastanalysis = 0;
+ }
+ if (x->x_spiral)
+ {
+ freebytes(x->x_spiral, sizeof(t_float) * 2 * x->x_hop);
+ x->x_spiral = 0;
+ }
+ x->x_hop = 0;
+}
+
+int sigfiddle_setnpoints(t_sigfiddle *x, t_floatarg fnpoints)
+{
+ int i, npoints = fnpoints;
+ sigfiddle_freebird(x);
+ if (npoints < MINPOINTS || npoints > MAXPOINTS)
+ {
+ error("fiddle~: npoints out of range; using %d",
+ npoints = DEFAULTPOINTS);
+ }
+ if (npoints != (1 << sigfiddle_ilog2(npoints)))
+ {
+ error("fiddle~: npoints not a power of 2; using %d",
+ npoints = (1 << sigfiddle_ilog2(npoints)));
+ }
+ x->x_hop = npoints >> 1;
+ if (!(x->x_inbuf = (t_float *)getbytes(sizeof(t_float) * x->x_hop)))
+ goto fail;
+ if (!(x->x_lastanalysis = (t_float *)getbytes(
+ sizeof(t_float) * (2 * x->x_hop + 4 * FILTSIZE))))
+ goto fail;
+ if (!(x->x_spiral = (t_float *)getbytes(sizeof(t_float) * 2 * x->x_hop)))
+ goto fail;
+ for (i = 0; i < x->x_hop; i++)
+ x->x_inbuf[i] = 0;
+ for (i = 0; i < npoints + 4 * FILTSIZE; i++)
+ x->x_lastanalysis[i] = 0;
+ for (i = 0; i < x->x_hop; i++)
+ x->x_spiral[2*i] = cos((3.14159*i)/(npoints)),
+ x->x_spiral[2*i+1] = -sin((3.14159*i)/(npoints));
+ x->x_phase = 0;
+ return (1);
+fail:
+ sigfiddle_freebird(x);
+ return (0);
+}
+
+int sigfiddle_doinit(t_sigfiddle *x, long npoints, long npitch,
+ long npeakanal, long npeakout)
+{
+ t_float *buf1, *buf2, *buf3;
+ t_peakout *buf4;
+ int i;
+
+ if (!npeakanal && !npeakout) npeakanal = DEFNPEAK, npeakout = 0;
+ if (!npeakanal < 0) npeakanal = 0;
+ else if (npeakanal > MAXPEAK) npeakanal = MAXPEAK;
+ if (!npeakout < 0) npeakout = 0;
+ else if (npeakout > MAXPEAK) npeakout = MAXPEAK;
+ if (npitch <= 0) npitch = 0;
+ else if (npitch > MAXNPITCH) npitch = MAXNPITCH;
+ if (npeakanal && !npitch) npitch = 1;
+ if (!npoints)
+ npoints = DEFAULTPOINTS;
+ if (!sigfiddle_setnpoints(x, npoints))
+ {
+ error("fiddle~: out of memory");
+ return (0);
+ }
+ if (!(buf4 = (t_peakout *)getbytes(sizeof(*buf4) * npeakout)))
+ {
+ sigfiddle_freebird(x);
+ error("fiddle~: out of memory");
+ return (0);
+ }
+ for (i = 0; i < npeakout; i++)
+ buf4[i].po_freq = buf4[i].po_amp = 0;
+ x->x_peakbuf = buf4;
+
+ x->x_npeakout = npeakout;
+ x->x_npeakanal = npeakanal;
+ x->x_phase = 0;
+ x->x_histphase = 0;
+ x->x_sr = 44100; /* this and the next are filled in later */
+ for (i = 0; i < MAXNPITCH; i++)
+ {
+ int j;
+ x->x_hist[i].h_pitch = x->x_hist[i].h_noted = 0;
+ x->x_hist[i].h_age = 0;
+ x->x_hist[i].h_wherefrom = 0;
+ x->x_hist[i].h_outlet = 0;
+ for (j = 0; j < HISTORY; j++)
+ x->x_hist[i].h_amps[j] = x->x_hist[i].h_pitches[j] = 0;
+ }
+ x->x_nprint = 0;
+ x->x_npitch = npitch;
+ for (i = 0; i < HISTORY; i++) x->x_dbs[i] = 0;
+ x->x_dbage = 0;
+ x->x_peaked = 0;
+ x->x_auto = 1;
+ x->x_amplo = DEFAMPLO;
+ x->x_amphi = DEFAMPHI;
+ x->x_attacktime = DEFATTACKTIME;
+ x->x_attackbins = 1; /* real value calculated afterward */
+ x->x_attackthresh = DEFATTACKTHRESH;
+ x->x_vibtime = DEFVIBTIME;
+ x->x_vibbins = 1; /* real value calculated afterward */
+ x->x_vibdepth = DEFVIBDEPTH;
+ x->x_npartial = 7;
+ x->x_attackvalue = 0;
+ return (1);
+}
+
+ /* formalities for JMAX */
+
+#ifdef JMAX
+
+void sigfiddle_debug13(fts_object_t *o, int winlet, fts_symbol_t s, int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ sigfiddle_debug(x);
+}
+
+void sigfiddle_print13(fts_object_t *o, int winlet, fts_symbol_t s,
+ int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ sigfiddle_print(x);
+}
+
+void sigfiddle_amprange13(fts_object_t *o, int winlet, fts_symbol_t s,
+ int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ t_float lo = (t_float) fts_get_float_arg(ac, at, 0, 0);
+ t_float hi = (t_float) fts_get_float_arg(ac, at, 1, 0);
+ sigfiddle_amprange(x, lo, hi);
+}
+
+void sigfiddle_reattack13(fts_object_t *o, int winlet, fts_symbol_t s,
+ int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ long msec = fts_get_float_arg(ac, at, 0, 0);
+ t_float db = (t_float) fts_get_float_arg(ac, at, 1, 0);
+ sigfiddle_reattack(x, msec, db);
+}
+
+void sigfiddle_vibrato13(fts_object_t *o, int winlet, fts_symbol_t s,
+ int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ long msec = fts_get_float_arg(ac, at, 0, 0);
+ t_float halftones = (t_float) fts_get_float_arg(ac, at, 1, 0);
+ sigfiddle_vibrato(x, msec, halftones);
+}
+
+void sigfiddle_npartial13(fts_object_t *o, int winlet, fts_symbol_t s,
+ int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ t_float npartial = (t_float) fts_get_float_arg(ac, at, 0, 0);
+ sigfiddle_npartial(x, npartial);
+}
+
+
+void ftl_sigfiddle(fts_word_t *a)
+{
+ t_sigfiddle *x = (t_sigfiddle *)fts_word_get_long(a);
+ t_float *in = (t_float *)fts_word_get_long(a + 1);
+ long n_tick = fts_word_get_long(a + 2);
+
+ int count;
+ t_float *fp, *fp2;
+ for (count = 0, fp = x->x_inbuf + x->x_phase;
+ count < n_tick; count++) *fp++ = *in++;
+ if (fp == x->x_inbuf + x->x_hop)
+ {
+ sigfiddle_doit(x);
+ x->x_phase = 0;
+ fts_alarm_set_delay(&x->x_clock, 0L); /* output bang */
+ fts_alarm_arm(&x->x_clock);
+
+ if (x->x_nprint) x->x_nprint--;
+ }
+ else x->x_phase += n_tick;
+}
+
+void sigfiddle_put(fts_object_t *o, int winlet, fts_symbol_t *s, int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ fts_dsp_descr_t *dsp = (fts_dsp_descr_t *)fts_get_long_arg(ac, at, 0, 0);
+ fts_atom_t a[3];
+
+ x->x_sr = fts_dsp_get_input_srate(dsp, 0);
+ sigfiddle_reattack(x, x->x_attacktime, x->x_attackthresh);
+ sigfiddle_vibrato(x, x->x_vibtime, x->x_vibdepth);
+
+ fts_set_long(a, (long)x);
+ fts_set_symbol(a+1, fts_dsp_get_input_name(dsp, 0));
+ fts_set_long(a+2, fts_dsp_get_input_size(dsp, 0));
+ dsp_add_funcall(dsp_symbol, 3, a);
+}
+
+void sigfiddle_tick(fts_alarm_t *alarm, void *p)
+{
+ fts_object_t *o = (fts_object_t *)p;
+ t_sigfiddle *x = (t_sigfiddle *)p;
+
+ int i;
+ t_pitchhist *ph;
+ fts_outlet_float(o, OUTLETpower, x->x_dbs[x->x_histphase]);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ {
+ fts_atom_t at[2];
+ fts_set_float(at, ph->h_pitches[x->x_histphase]);
+ fts_set_float(at+1, ph->h_amps[x->x_histphase]);
+ fts_outlet_list(o, OUTLETmicropitch3 - i, 2, at);
+ }
+ if (x->x_attackvalue) fts_outlet_bang(o, OUTLETattack);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ if (ph->h_pitch) fts_outlet_float(o, OUTLETpitch, ph->h_pitch);
+}
+
+static void sigfiddle_delete(fts_object_t *o, int winlet, fts_symbol_t *s, int ac,
+ const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+
+ fts_free(x->x_inbuf);
+ fts_free(x->x_lastanalysis);
+ fts_free(x->x_spiral);
+ dsp_list_remove(o);
+}
+
+static void sigfiddle_init(fts_object_t *o, int winlet, fts_symbol_t *s, int ac, const fts_atom_t *at)
+{
+ t_sigfiddle *x = (t_sigfiddle *)o;
+ t_float *buf1, *buf2, *buf3;
+ int i, hop;
+ long npoints = fts_get_long_arg(ac, at, 1, 0);
+ long npitch = fts_get_long_arg(ac, at, 2, 0);
+ long npeakanal = fts_get_long_arg(ac, at, 3, 0);
+ long npeakout = fts_get_long_arg(ac, at, 4, 0);
+
+ if (!sigfiddle_doinit(x, npoints, npitch, npeakanal, npeakout))
+ {
+ post("fiddle~: initialization failed");
+ return;
+ }
+ hop = npoints>>1;
+ if (fts_fft_declaresize(hop) != fts_Success)
+ post("fiddle~: bad FFT size");
+
+ fts_alarm_init(&(x->x_clock), 0, sigfiddle_tick, x);
+ dsp_list_insert(o);
+}
+
+static fts_status_t sigfiddle_instantiate(fts_class_t *cl, int ac,
+ const fts_atom_t *at)
+{
+ int i;
+ fts_type_t a[5];
+
+ fts_class_init(cl, sizeof(t_sigfiddle), 1, 6, 0); /* 1 inlet + 6 outlets */
+
+ /* the system methods */
+
+ a[0] = fts_Symbol;
+ a[1] = fts_Long | fts_OptArg;
+ a[2] = fts_Long | fts_OptArg;
+ fts_method_define(cl, fts_SystemInlet, fts_s_init, sigfiddle_init, 3, a);
+
+ fts_method_define(cl, fts_SystemInlet, fts_s_delete, sigfiddle_delete, 0, a);
+ a[0] = fts_Object;
+ fts_method_define(cl, fts_SystemInlet, fts_s_put, sigfiddle_put, 1, a);
+
+ /* class' own methods */
+ fts_method_define(cl, 0, fts_new_symbol("print"), sigfiddle_print13, 0, a);
+ fts_method_define(cl, 0, fts_new_symbol("debug"), sigfiddle_debug13, 0, a);
+ fts_method_define(cl, 0, fts_new_symbol("amp-range"), sigfiddle_amprange13,
+ 0, a);
+ fts_method_define(cl, 0, fts_new_symbol("reattack"), sigfiddle_reattack13,
+ 0, a);
+ fts_method_define(cl, 0, fts_new_symbol("vibrato"), sigfiddle_vibrato13,
+ 0, a);
+ fts_method_define(cl, 0, fts_new_symbol("npartial"), sigfiddle_npartial13,
+ 0, a);
+
+ /* classes signal inlets */
+ dsp_sig_inlet(cl, 0); /* declare signal input #0 */
+
+ /* classes outlets */
+ a[0] = fts_Float;
+ fts_outlet_type_define(cl, OUTLETpitch, fts_s_float, 1, a); /* declare outlet #0 */
+ fts_outlet_type_define(cl, OUTLETattack, fts_s_bang, 0, a); /* declare outlet #1 */
+ a[0] = fts_VarArgs;
+ fts_outlet_type_define(cl, OUTLETmicropitch1, fts_s_list, 1, a); /* declare outlet #2 */
+ fts_outlet_type_define(cl, OUTLETmicropitch2, fts_s_list, 1, a); /* declare outlet #3 */
+ fts_outlet_type_define(cl, OUTLETmicropitch3, fts_s_list, 1, a); /* declare outlet #4 */
+ a[0] = fts_Float;
+ fts_outlet_type_define(cl, OUTLETpower, fts_s_float, 1, a); /* declare outlet #5 */
+
+ dsp_symbol = fts_new_symbol("fiddle");
+ dsp_declare_function(dsp_symbol, ftl_sigfiddle);
+
+ /* DSP properties */
+
+ fts_class_put_prop(cl, fts_s_dsp_is_sink, fts_true);
+
+ return(fts_Success);
+}
+
+void fiddle_config(void)
+{
+ sys_log(fiddle_version);
+ fts_metaclass_create(fts_new_symbol(CLASSNAME), sigfiddle_instantiate, fts_always_equiv);
+}
+
+fts_module_t fiddle_module =
+ {"fiddle", "sonic meat fiddle", fiddle_config, 0};
+
+#endif /* JMAX */
+
+#ifdef PD
+
+static t_int *fiddle_perform(t_int *w)
+{
+ t_float *in = (t_float *)(w[1]);
+ t_sigfiddle *x = (t_sigfiddle *)(w[2]);
+ int n = (int)(w[3]);
+ int count;
+ t_float *fp;
+ if (!x->x_hop)
+ goto nono;
+ for (count = 0, fp = x->x_inbuf + x->x_phase; count < n; count++)
+ *fp++ = *in++;
+ if (fp == x->x_inbuf + x->x_hop)
+ {
+ sigfiddle_doit(x);
+ x->x_phase = 0;
+ if (x->x_auto) clock_delay(x->x_clock, 0L);
+ if (x->x_nprint) x->x_nprint--;
+ }
+ else x->x_phase += n;
+nono:
+ return (w+4);
+}
+
+void sigfiddle_dsp(t_sigfiddle *x, t_signal **sp)
+{
+ x->x_sr = sp[0]->s_sr;
+ sigfiddle_reattack(x, x->x_attacktime, x->x_attackthresh);
+ sigfiddle_vibrato(x, x->x_vibtime, x->x_vibdepth);
+ dsp_add(fiddle_perform, 3, sp[0]->s_vec, x, sp[0]->s_n);
+}
+
+ /* This is the callback function for the clock, but also acts as
+ the "bang" method; you can leave "auto" on to get this called
+ automatically (the default) or turn auto off and bang it yourself. */
+
+void sigfiddle_bang(t_sigfiddle *x)
+{
+ int i;
+ t_pitchhist *ph;
+ if (x->x_npeakout)
+ {
+ int npeakout = x->x_npeakout;
+ t_peakout *po;
+ for (i = 0, po = x->x_peakbuf; i < npeakout; i++, po++)
+ {
+ t_atom at[3];
+ SETFLOAT(at, i+1);
+ SETFLOAT(at+1, po->po_freq);
+ SETFLOAT(at+2, po->po_amp);
+ outlet_list(x->x_peakout, 0, 3, at);
+ }
+ }
+ outlet_float(x->x_envout, x->x_dbs[x->x_histphase]);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ {
+ t_atom at[2];
+ SETFLOAT(at, ph->h_pitches[x->x_histphase]);
+ SETFLOAT(at+1, ph->h_amps[x->x_histphase]);
+ outlet_list(ph->h_outlet, 0, 2, at);
+ }
+ if (x->x_attackvalue) outlet_bang(x->x_attackout);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ if (ph->h_pitch) outlet_float(x->x_noteout, ph->h_pitch);
+}
+
+void sigfiddle_ff(t_sigfiddle *x) /* cleanup on free */
+{
+ if (x->x_inbuf)
+ {
+ freebytes(x->x_inbuf, sizeof(t_float) * x->x_hop);
+ freebytes(x->x_lastanalysis, sizeof(t_float) * (2*x->x_hop + 4 * FILTSIZE));
+ freebytes(x->x_spiral, sizeof(t_float) * 2*x->x_hop);
+ freebytes(x->x_peakbuf, sizeof(*x->x_peakbuf) * x->x_npeakout);
+ clock_free(x->x_clock);
+ }
+}
+
+static t_class *sigfiddle_class;
+
+void *sigfiddle_new(t_floatarg npoints, t_floatarg npitch,
+ t_floatarg fnpeakanal, t_floatarg fnpeakout)
+{
+ t_sigfiddle *x = (t_sigfiddle *)pd_new(sigfiddle_class);
+ int i;
+ int npeakanal = fnpeakanal, npeakout = fnpeakout;
+
+
+ if (!sigfiddle_doinit(x, npoints, npitch,
+ npeakanal, npeakout))
+ {
+ x->x_inbuf = 0; /* prevent the free routine from cleaning up */
+ pd_free(&x->x_ob.ob_pd);
+ return (0);
+ }
+ x->x_noteout = outlet_new(&x->x_ob, gensym("float"));
+ x->x_attackout = outlet_new(&x->x_ob, gensym("bang"));
+ for (i = 0; i < x->x_npitch; i++)
+ x->x_hist[i].h_outlet = outlet_new(&x->x_ob, gensym("list"));
+ x->x_envout = outlet_new(&x->x_ob, gensym("float"));
+ if (x->x_npeakout)
+ x->x_peakout = outlet_new(&x->x_ob, gensym("list"));
+ else x->x_peakout = 0;
+ x->x_clock = clock_new(&x->x_ob.ob_pd, (t_method)sigfiddle_bang);
+ return (x);
+}
+
+void fiddle_tilde_setup(void)
+{
+ sigfiddle_class = class_new(gensym("fiddle~"), (t_newmethod)sigfiddle_new,
+ (t_method)sigfiddle_ff, sizeof(t_sigfiddle), 0,
+ A_DEFFLOAT, A_DEFFLOAT, A_DEFFLOAT, A_DEFFLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_dsp,
+ gensym("dsp"), 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_debug,
+ gensym("debug"), 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_setnpoints,
+ gensym("npoints"), A_FLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_amprange,
+ gensym("amp-range"), A_FLOAT, A_FLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_reattack,
+ gensym("reattack"), A_FLOAT, A_FLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_vibrato,
+ gensym("vibrato"), A_FLOAT, A_FLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_npartial,
+ gensym("npartial"), A_FLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_auto,
+ gensym("auto"), A_FLOAT, 0);
+ class_addmethod(sigfiddle_class, (t_method)sigfiddle_print,
+ gensym("print"), 0);
+ class_addmethod(sigfiddle_class, nullfn, gensym("signal"), 0);
+ class_addbang(sigfiddle_class, sigfiddle_bang);
+ class_addcreator((t_newmethod)sigfiddle_new, gensym("fiddle"),
+ A_DEFFLOAT, A_DEFFLOAT, A_DEFFLOAT, A_DEFFLOAT, 0);
+ post(fiddle_version);
+}
+
+void fiddle_setup(void)
+{
+ fiddle_tilde_setup();
+}
+#endif /* PD */
+
+#ifdef MAX26
+
+void cu_fiddle(t_float *in1, t_sigfiddle *x, int n)
+{
+ int count;
+ t_float *fp, *fp2;
+ for (count = 0, fp = x->x_inbuf + x->x_phase;
+ count < n; count++) *fp++ = *in1++;
+ if (fp == x->x_inbuf + x->x_hop)
+ {
+ sigfiddle_doit(x);
+ x->x_phase = 0;
+ if (x->x_auto) clock_delay(x->x_clock, 0L);
+ if (x->x_nprint) x->x_nprint--;
+ }
+ else x->x_phase += n;
+}
+
+void sigfiddle_put(t_sigfiddle *x, long whether)
+{
+ if (whether)
+ {
+ u_stdout(x);
+ x->x_sr = x->x_io[0]->s_sr;
+ sigfiddle_reattack(x, x->x_attacktime, x->x_attackthresh);
+ sigfiddle_vibrato(x, x->x_vibtime, x->x_vibdepth);
+ dspchain_addc(cu_fiddle, 3,
+ x->x_io[0]->s_shit, x, x->x_io[0]->s_n);
+ }
+}
+
+void sigfiddle_tick(t_sigfiddle *x) /* callback function for the clock */
+{
+ int i;
+ t_pitchhist *ph;
+ outlet_float(x->x_envout, x->x_dbs[x->x_histphase]);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ {
+ t_atom at[2];
+ SETFLOAT(at, ph->h_pitches[x->x_histphase]);
+ SETFLOAT(at+1, ph->h_amps[x->x_histphase]);
+ outlet_list(ph->h_outlet, NIL, 2, at);
+ }
+ if (x->x_attackvalue) outlet_bang(x->x_attackout);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ if (ph->h_pitch) outlet_float(x->x_noteout, ph->h_pitch);
+}
+
+void sigfiddle_ff(t_sigfiddle *x) /* cleanup on free */
+{
+ if (x->x_inbuf)
+ {
+ freebytes(x->x_inbuf, sizeof(t_float) * x->x_hop);
+ freebytes(x->x_lastanalysis, sizeof(t_float) * (2*x->x_hop + 4 * FILTSIZE));
+ freebytes(x->x_spiral, sizeof(t_float) * 2*x->x_hop);
+ clock_free(x->x_clock);
+ u_clean(x);
+ }
+}
+
+t_externclass *sigfiddle_class;
+
+void *sigfiddle_new(long npoints, long npitch,
+ long npeakanal, long npeakout)
+{
+ t_sigfiddle *x = (t_sigfiddle *)obj_new(&sigfiddle_class, 0);
+ int i;
+
+ if (!sigfiddle_doinit(x, npoints, npitch, npeakanal, npeakout))
+ {
+ x->x_inbuf = 0; /* prevent the free routine from cleaning up */
+ obj_free(x);
+ return (0);
+ }
+ u_setup(x, IN1, OUT0);
+ x->x_envout = outlet_new(x, gensym("float"));
+ for (i = 0; i < x->x_npitch; i++)
+ x->x_hist[i].h_outlet = outlet_new(x, gensym("list"));
+ x->x_attackout = outlet_new(x, gensym("bang"));
+ x->x_noteout = outlet_new(x, gensym("float"));
+ x->x_clock = clock_new(x, sigfiddle_tick);
+ return (x);
+}
+
+void fiddle_setup()
+{
+ c_extern(&sigfiddle_class, sigfiddle_new, sigfiddle_ff,
+ gensym("fiddle"), sizeof(t_sigfiddle), 0, A_DEFLONG, A_DEFLONG,
+ A_DEFLONG, A_DEFLONG, 0);
+ c_addmess(sigfiddle_put, gensym("put"), A_CANT, 0);
+ c_addmess(sigfiddle_debug, gensym("debug"), 0);
+ c_addmess(sigfiddle_amprange, gensym("amp-range"), A_FLOAT, A_FLOAT, 0);
+ c_addmess(sigfiddle_reattack, gensym("reattack"), A_FLOAT, A_FLOAT, 0);
+ c_addmess(sigfiddle_vibrato, gensym("vibrato"), A_LONG, A_FLOAT, 0);
+ c_addmess(sigfiddle_npartial, gensym("npartial"), A_FLOAT, 0);
+ c_addmess(sigfiddle_print, gensym("print"), 0);
+ u_inletmethod(0); /* one signal input */
+#ifdef MAX
+ post(fiddle_version);
+#endif
+}
+
+#endif /* MAX26 */
+
+/************* Beginning of MSP Code ******************************/
+
+#ifdef MSP
+
+static t_int *fiddle_perform(t_int *w)
+{
+ t_float *in = (t_float *)(w[1]);
+ t_sigfiddle *x = (t_sigfiddle *)(w[2]);
+ int n = (int)(w[3]);
+ int count,inc = x->x_downsample;
+ t_float *fp;
+
+ if (x->x_obj.z_disabled)
+ goto skip;
+ for (count = 0, fp = x->x_inbuf + x->x_phase; count < n; count+=inc) {
+ *fp++ = *in;
+ in += inc;
+ }
+ if (fp == x->x_inbuf + x->x_hop)
+ {
+ sigfiddle_doit(x);
+ x->x_phase = 0;
+ if (x->x_auto) clock_delay(x->x_clock, 0L);
+ if (x->x_nprint) x->x_nprint--;
+ }
+ else x->x_phase += n;
+skip:
+ return (w+4);
+}
+
+void sigfiddle_dsp(t_sigfiddle *x, t_signal **sp)
+{
+ if (sp[0]->s_n > x->x_hop) {
+ x->x_downsample = sp[0]->s_n / x->x_hop;
+ post("* warning: fiddle~: will downsample input by %ld",x->x_downsample);
+ x->x_sr = sp[0]->s_sr / x->x_downsample;
+ } else {
+ x->x_downsample = 1;
+ x->x_sr = sp[0]->s_sr;
+ }
+ sigfiddle_reattack(x, x->x_attacktime, x->x_attackthresh);
+ sigfiddle_vibrato(x, x->x_vibtime, x->x_vibdepth);
+ dsp_add(fiddle_perform, 3, sp[0]->s_vec, x, sp[0]->s_n);
+}
+
+void sigfiddle_tick(t_sigfiddle *x) /* callback function for the clock MSP*/
+{
+ int i;
+ t_pitchhist *ph;
+ if (x->x_npeakout)
+ {
+ int npeakout = x->x_npeakout;
+ t_peakout *po;
+ for (i = 0, po = x->x_peakbuf; i < npeakout; i++, po++)
+ {
+ t_atom at[3];
+ SETINT(at, i+1);
+ SETFLOAT(at+1, po->po_freq);
+ SETFLOAT(at+2, po->po_amp);
+ outlet_list(x->x_peakout, 0, 3, at);
+ }
+ }
+ outlet_float(x->x_envout, x->x_dbs[x->x_histphase]);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ {
+ t_atom at[2];
+ SETFLOAT(at, ph->h_pitches[x->x_histphase]);
+ SETFLOAT(at+1, ph->h_amps[x->x_histphase]);
+ outlet_list(ph->h_outlet, 0, 2, at);
+ }
+ if (x->x_attackvalue) outlet_bang(x->x_attackout);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ if (ph->h_pitch) outlet_float(x->x_noteout, ph->h_pitch);
+}
+
+void sigfiddle_bang(t_sigfiddle *x)
+{
+ int i;
+ t_pitchhist *ph;
+ if (x->x_npeakout)
+ {
+ int npeakout = x->x_npeakout;
+ t_peakout *po;
+ for (i = 0, po = x->x_peakbuf; i < npeakout; i++, po++)
+ {
+ t_atom at[3];
+ SETLONG(at, i+1);
+ SETFLOAT(at+1, po->po_freq);
+ SETFLOAT(at+2, po->po_amp);
+ outlet_list(x->x_peakout, 0, 3, at);
+ }
+ }
+ outlet_float(x->x_envout, x->x_dbs[x->x_histphase]);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ {
+ t_atom at[2];
+ SETFLOAT(at, ph->h_pitches[x->x_histphase]);
+ SETFLOAT(at+1, ph->h_amps[x->x_histphase]);
+ outlet_list(ph->h_outlet, 0, 2, at);
+ }
+ if (x->x_attackvalue) outlet_bang(x->x_attackout);
+ for (i = 0, ph = x->x_hist; i < x->x_npitch; i++, ph++)
+ if (ph->h_pitch) outlet_float(x->x_noteout, ph->h_pitch);
+}
+
+
+void sigfiddle_ff(t_sigfiddle *x) /* cleanup on free MSP */
+{
+
+ if (x->x_inbuf)
+ {
+ t_freebytes(x->x_inbuf, sizeof(t_float) * x->x_hop);
+ t_freebytes(x->x_lastanalysis, sizeof(t_float) * (2*x->x_hop + 4 *
+FILTSIZE));
+ t_freebytes(x->x_spiral, sizeof(t_float) * 2*x->x_hop);
+ t_freebytes(x->x_peakbuf, sizeof(*x->x_peakbuf) * x->x_npeakout);
+ }
+ dsp_free((t_pxobject *)x);
+}
+
+void *sigfiddle_class;
+
+void *sigfiddle_new(long npoints, long npitch,
+ long npeakanal, long npeakout)
+{
+ t_sigfiddle *x = (t_sigfiddle *)newobject(sigfiddle_class);
+ int i;
+
+ if (!sigfiddle_doinit(x, npoints, npitch, npeakanal, npeakout))
+ {
+ x->x_inbuf = 0; /* prevent the free routine from cleaning up */
+ return (0);
+ }
+ dsp_setup((t_pxobject *)x,1);
+
+ x->x_clock = clock_new(x, (method)sigfiddle_tick);
+ if (x->x_npeakout)
+ x->x_peakout = listout((t_object *)x);
+ else x->x_peakout = 0;
+ x->x_envout = floatout((t_object *)x);
+ for (i = 0; i < x->x_npitch; i++)
+ x->x_hist[i].h_outlet = listout((t_object *)x);
+ x->x_attackout = bangout((t_object *)x);
+ x->x_noteout = floatout((t_object *)x);
+ return (x);
+
+
+}
+
+void main()
+{
+ setup(&sigfiddle_class, sigfiddle_new, (method)sigfiddle_ff,
+ (short)sizeof(t_sigfiddle), 0L, A_DEFLONG, A_DEFLONG,
+A_DEFLONG, A_DEFLONG, 0);
+ addmess((method)sigfiddle_dsp, "dsp",
+ A_CANT, 0);
+ addmess((method)sigfiddle_debug, "debug", 0);
+ addmess((method)sigfiddle_setnpoints, "npoints", A_FLOAT, 0);
+ addmess((method)sigfiddle_amprange, "amp-range", A_FLOAT, A_FLOAT, 0);
+ addmess((method)sigfiddle_reattack, "reattack", A_FLOAT, A_FLOAT, 0);
+ addmess((method)sigfiddle_vibrato, "vibrato", A_FLOAT,
+A_FLOAT, 0);
+ addmess((method)sigfiddle_npartial, "npartial", A_FLOAT, 0);
+ addmess((method)sigfiddle_auto, "auto",
+ A_FLOAT, 0);
+ addmess((method)sigfiddle_print, "print", 0);
+ addmess((method)sigfiddle_assist, "assist",
+ A_CANT, 0);
+ addbang((method)sigfiddle_bang);
+ dsp_initclass();
+ rescopy('STR#',3748);
+ post(fiddle_version);
+}
+
+void sigfiddle_assist(t_sigfiddle *x, void *b, long m, long a, char *s)
+{
+ assist_string(3748,m,a,1,2,s);
+}
+
+void msp_fft(t_float *buf, long np, long inv)
+{
+ t_float *src,*real,*rp,*imag,*ip;
+ long i;
+
+ /*
+ // because this fft algorithm uses separate real and imaginary
+ // buffers
+ // we must split the real and imaginary parts into two buffers,
+ // then do the opposite on output
+ // a more ambitious person would either do an in-place conversion
+ // or rewrite the fft algorithm
+ */
+
+ real = rp = msp_ffttemp;
+ imag = ip = real + MAXPOINTS;
+ src = buf;
+ for (i = 0; i < np; i++) {
+ *rp++ = *src++;
+ *ip++ = *src++;
+ }
+ if (inv)
+ ifft(np,real,imag);
+ else
+ fft(np,real,imag);
+ rp = real;
+ ip = imag;
+ src = buf;
+ for (i = 0; i < np; i++) {
+ *src++ = *rp++;
+ *src++ = *ip++;
+ }
+}
+
+#endif /* MSP */
diff --git a/externals/extra/0.43.2/hilbert~-help.pd b/externals/extra/0.43.2/hilbert~-help.pd
new file mode 100644
index 00000000..130ec750
--- /dev/null
+++ b/externals/extra/0.43.2/hilbert~-help.pd
@@ -0,0 +1,18 @@
+#N canvas 156 234 600 488 12;
+#X obj 67 124 hilbert~;
+#X obj 66 85 osc~ 440;
+#X graph graph1 0 -1 882 1 279 209 579 39;
+#X array out-left 882 float;
+#X array out-right 882 float;
+#X pop;
+#X obj 67 274 tabwrite~ out-left;
+#X obj 118 248 tabwrite~ out-right;
+#X msg 137 188 bang \; pd dsp 1;
+#X floatatom 66 57;
+#X text 71 319 The Hilbert transform (the name is abused here according to computer music tradition) puts out a phase quadrature version of the input signal suitable for signal sideband modulation via complex-mod~.;
+#X connect 0 0 3 0;
+#X connect 0 1 4 0;
+#X connect 1 0 0 0;
+#X connect 5 0 3 0;
+#X connect 5 0 4 0;
+#X connect 6 0 1 0;
diff --git a/externals/extra/0.43.2/hilbert~.pd b/externals/extra/0.43.2/hilbert~.pd
new file mode 100644
index 00000000..152c2082
--- /dev/null
+++ b/externals/extra/0.43.2/hilbert~.pd
@@ -0,0 +1,27 @@
+#N canvas 269 0 593 306 12;
+#X obj 105 92 biquad~ 0.83774 -0.06338 0.06338 -0.83774 1;
+#X obj 105 66 biquad~ 1.94632 -0.94657 0.94657 -1.94632 1;
+#X obj 86 149 biquad~ -0.02569 0.260502 -0.260502 0.02569 1;
+#X obj 86 175 biquad~ 1.8685 -0.870686 0.870686 -1.8685 1;
+#X obj 86 39 inlet~;
+#X obj 105 121 outlet~;
+#X obj 86 202 outlet~;
+#X text 34 232 This is a pair of 4th-order all-pass filters whose outputs
+somehow manage to be about 90 degrees out of phase from each other.
+Both have different phases from the original. Adapted from a 4X patch
+by Emmanuel Favreau \, circa 1982;
+#X obj 502 39 inlet;
+#X text 461 13 bang to clear;
+#X text 80 16 signal in;
+#X msg 502 112 clear;
+#X connect 0 0 5 0;
+#X connect 1 0 0 0;
+#X connect 2 0 3 0;
+#X connect 3 0 6 0;
+#X connect 4 0 1 0;
+#X connect 4 0 2 0;
+#X connect 8 0 11 0;
+#X connect 11 0 1 0;
+#X connect 11 0 0 0;
+#X connect 11 0 2 0;
+#X connect 11 0 3 0;
diff --git a/externals/extra/0.43.2/loop~/loop~-help.pd b/externals/extra/0.43.2/loop~/loop~-help.pd
new file mode 100644
index 00000000..ff3d3a63
--- /dev/null
+++ b/externals/extra/0.43.2/loop~/loop~-help.pd
@@ -0,0 +1,74 @@
+#N canvas 234 90 647 662 12;
+#X floatatom 41 204 0 0 0 0 - - -;
+#X obj 254 382 print~;
+#X msg 254 347 bang;
+#X obj 41 338 loop~;
+#X floatatom 66 279 0 0 0 0 - - -;
+#X msg 55 252 bang;
+#X obj 183 382 print~;
+#X msg 183 347 bang;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array array2 150000 float 0;
+#X coords 0 1 150000 -1 200 150 1;
+#X restore 393 464 graph;
+#X msg 393 622 \; array2 resize 150000;
+#X obj 25 613 soundfiler;
+#X obj 16 453 tabread4~ array2;
+#X obj 16 407 *~;
+#X obj 16 522 dac~;
+#X obj 16 499 hip~ 5;
+#X obj 62 411 samphold~;
+#X obj 16 430 +~;
+#X floatatom 96 303 0 0 0 0 - - -;
+#X obj 96 326 *~ 1000;
+#X msg 43 568 read ../doc/sound/bell.aiff array2;
+#X msg 47 229 set 0.5;
+#X text 95 196 left signal input is transposition (1 is normal \, 2
+is up an octave \, etc);
+#X text 82 4 loop~ - phase generator for looping samplers;
+#X text 116 228 set phase (0 to 1);
+#X text 104 253 reset phase to 0;
+#X text 104 278 right signal input is window size in samples;
+#X text 134 302 here's how to handle onsets;
+#X obj 16 476 *~;
+#X floatatom 167 432 0 0 0 0 - - -;
+#X obj 167 501 line~;
+#X obj 167 455 dbtorms;
+#X obj 167 478 pack 0 50;
+#X text 201 431 output level 0-100;
+#X text 187 326 print outputs;
+#X text 33 32 loop~ takes input signals to set a window size and transposition
+\, and outputs a phase and a sampled window size. The window size only
+changes at phase zero crossings and the phase output is adjusted so
+that changing window size doesn't change the transposition.;
+#X text 33 112 You can send "bang" or "set" message to force the phase
+to zero--you should mute the output before doing so. This may be desirable
+if you've set a large window size but then want to decrease it without
+waiting for the next phase crossing.;
+#X msg 43 591 read ../doc/sound/voice.wav array2;
+#X connect 0 0 3 0;
+#X connect 2 0 1 0;
+#X connect 3 0 6 0;
+#X connect 3 0 12 0;
+#X connect 3 0 15 1;
+#X connect 3 1 1 0;
+#X connect 3 1 12 1;
+#X connect 4 0 3 1;
+#X connect 5 0 3 0;
+#X connect 7 0 6 0;
+#X connect 11 0 27 0;
+#X connect 12 0 16 0;
+#X connect 14 0 13 0;
+#X connect 14 0 13 1;
+#X connect 15 0 16 1;
+#X connect 16 0 11 0;
+#X connect 17 0 18 0;
+#X connect 18 0 15 0;
+#X connect 19 0 10 0;
+#X connect 20 0 3 0;
+#X connect 27 0 14 0;
+#X connect 28 0 30 0;
+#X connect 29 0 27 1;
+#X connect 30 0 31 0;
+#X connect 31 0 29 0;
+#X connect 36 0 10 0;
diff --git a/externals/extra/0.43.2/loop~/loop~.c b/externals/extra/0.43.2/loop~/loop~.c
new file mode 100644
index 00000000..ebe3d9d5
--- /dev/null
+++ b/externals/extra/0.43.2/loop~/loop~.c
@@ -0,0 +1,169 @@
+/* loop~ -- loop generator for sampling */
+
+/* Copyright 1997-1999 Miller Puckette.
+Permission is granted to use this software for any purpose provided you
+keep this copyright notice intact.
+
+THE AUTHOR AND HIS EMPLOYERS MAKE NO WARRANTY, EXPRESS OR IMPLIED,
+IN CONNECTION WITH THIS SOFTWARE.
+
+This file is downloadable from http://www.crca.ucsd.edu/~msp .
+
+*/
+
+#ifdef PD
+#include "m_pd.h"
+#else
+#define t_sample float
+#define t_float float
+#endif
+
+
+
+typedef struct _loopctl
+{
+ double l_phase;
+ t_sample l_invwindow;
+ t_sample l_window;
+ int l_resync;
+} t_loopctl;
+
+static void loopctl_run(t_loopctl *x, t_sample *transposein,
+ t_sample *windowin, t_sample *rawout, t_sample *windowout, int n)
+{
+ t_sample window, invwindow;
+ double phase = x->l_phase;
+ if (x->l_resync)
+ {
+ window = *windowin;
+ if (window < 0)
+ {
+ if (window > -1)
+ window = -1;
+ invwindow = -1/window;
+ }
+ else
+ {
+ if (window < 1)
+ window = 1;
+ invwindow = 1/window;
+ }
+ x->l_resync = 0;
+ }
+ else
+ {
+ window = x->l_window;
+ phase = x->l_phase;
+ invwindow = x->l_invwindow;
+ }
+ while (n--)
+ {
+ double phaseinc = invwindow * *transposein++;
+ double newphase;
+ t_sample nwind = *windowin++;
+ if (phaseinc >= 1 || phaseinc < 0)
+ phaseinc = 0;
+ newphase = phase + phaseinc;
+ if (newphase >= 1)
+ {
+ window = nwind;
+ if (window < 0)
+ {
+ if (window > -1)
+ window = -1;
+ invwindow = -1/window;
+ }
+ else
+ {
+ if (window < 1)
+ window = 1;
+ invwindow = 1/window;
+ }
+ newphase -= 1.;
+ }
+ phase = newphase;
+ *rawout++ = (t_sample)phase;
+ *windowout++ = window;
+ }
+ x->l_invwindow = invwindow;
+ x->l_window = window;
+ x->l_phase = phase;
+}
+
+static void loopctl_init(t_loopctl *x)
+{
+ x->l_window = 1;
+ x->l_invwindow = 1;
+ x->l_phase = 0;
+}
+
+static void loopctl_set(t_loopctl *x, t_float val)
+{
+ if (val < 0 || val > 1)
+ val = 0;
+ x->l_phase = val;
+ x->l_resync = 1;
+}
+
+#ifdef PD
+
+typedef struct _loop
+{
+ t_object x_obj;
+ t_float x_f;
+ t_loopctl x_loopctl;
+} t_loop;
+
+static t_class *loop_class;
+
+static void *loop_new(void)
+{
+ t_loop *x = (t_loop *)pd_new(loop_class);
+ loopctl_init(&x->x_loopctl);
+ inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_signal, &s_signal);
+ outlet_new(&x->x_obj, gensym("signal"));
+ outlet_new(&x->x_obj, gensym("signal"));
+ return (x);
+}
+
+static t_int *loop_perform(t_int *w)
+{
+ t_loopctl *ctl = (t_loopctl *)(w[1]);
+ t_sample *in1 = (t_sample *)(w[2]);
+ t_sample *in2 = (t_sample *)(w[3]);
+ t_sample *out1 = (t_sample *)(w[4]);
+ t_sample *out2 = (t_sample *)(w[5]);
+ int n = (int)(w[6]);
+ loopctl_run(ctl, in1, in2, out1, out2, n);
+ return (w+7);
+}
+
+static void loop_dsp(t_loop *x, t_signal **sp)
+{
+ dsp_add(loop_perform, 6,
+ &x->x_loopctl, sp[0]->s_vec, sp[1]->s_vec, sp[2]->s_vec, sp[3]->s_vec,
+ sp[0]->s_n);
+}
+
+static void loop_set(t_loop *x, t_floatarg val)
+{
+ loopctl_set(&x->x_loopctl, val);
+}
+
+static void loop_bang(t_loop *x)
+{
+ loopctl_set(&x->x_loopctl, 0);
+}
+
+void loop_tilde_setup(void)
+{
+ loop_class = class_new(gensym("loop~"), (t_newmethod)loop_new, 0,
+ sizeof(t_loop), 0, 0);
+ class_addmethod(loop_class, (t_method)loop_dsp, gensym("dsp"), A_CANT, 0);
+ CLASS_MAINSIGNALIN(loop_class, t_loop, x_f);
+ class_addmethod(loop_class, (t_method)loop_set, gensym("set"),
+ A_DEFFLOAT, 0);
+ class_addbang(loop_class, loop_bang);
+}
+
+#endif /* PD */
diff --git a/externals/extra/0.43.2/loop~/test-loop~.pd b/externals/extra/0.43.2/loop~/test-loop~.pd
new file mode 100644
index 00000000..9966483d
--- /dev/null
+++ b/externals/extra/0.43.2/loop~/test-loop~.pd
@@ -0,0 +1,58 @@
+#N canvas 33 0 680 609 12;
+#X floatatom 52 262 0 0 0 0 - - -;
+#X obj 261 346 print~;
+#X msg 47 373 bang;
+#X msg 274 313 bang;
+#X obj 52 306 loop~;
+#X floatatom 102 245 0 0 0 0 - - -;
+#N canvas 0 0 450 300 graph1 0;
+#X array array1 44100 float 0;
+#X coords 0 10 44100 0 200 150 1;
+#X restore 65 17 graph;
+#X msg 43 204 \; array1 resize 44100;
+#X obj 25 401 tabwrite~ array1;
+#X msg 208 371 bang;
+#X obj 176 402 tabwrite~ array1;
+#X msg 194 261 bang;
+#X obj 204 347 print~;
+#X msg 217 314 bang;
+#N canvas 0 0 450 300 graph1 0;
+#X array array2 150000 float 0;
+#X coords 0 1 150000 -1 200 150 1;
+#X restore 332 398 graph;
+#X msg 326 274 \; array2 resize 150000;
+#X obj 103 529 tabread4~ array2;
+#X obj 64 481 *~;
+#X obj 107 581 dac~;
+#X obj 105 552 hip~ 5;
+#X obj 123 482 samphold~;
+#X obj 102 506 +~;
+#X floatatom 106 430 0 0 0 0 - - -;
+#X obj 108 453 *~ 1000;
+#X obj 312 215 soundfiler;
+#X msg 330 170 read ../doc/sound/bell.aiff array2;
+#X msg 330 193 read ../doc/sound/vocal.aiff array2;
+#X connect 0 0 4 0;
+#X connect 2 0 8 0;
+#X connect 3 0 1 0;
+#X connect 4 0 12 0;
+#X connect 4 0 17 0;
+#X connect 4 0 8 0;
+#X connect 4 0 20 1;
+#X connect 4 1 10 0;
+#X connect 4 1 1 0;
+#X connect 4 1 17 1;
+#X connect 5 0 4 1;
+#X connect 9 0 10 0;
+#X connect 11 0 4 0;
+#X connect 13 0 12 0;
+#X connect 16 0 19 0;
+#X connect 17 0 21 0;
+#X connect 19 0 18 0;
+#X connect 19 0 18 1;
+#X connect 20 0 21 1;
+#X connect 21 0 16 0;
+#X connect 22 0 23 0;
+#X connect 23 0 20 0;
+#X connect 25 0 24 0;
+#X connect 26 0 24 0;
diff --git a/externals/extra/0.43.2/lrshift~/lrshift~-help.pd b/externals/extra/0.43.2/lrshift~/lrshift~-help.pd
new file mode 100644
index 00000000..fdf7b0c5
--- /dev/null
+++ b/externals/extra/0.43.2/lrshift~/lrshift~-help.pd
@@ -0,0 +1,33 @@
+#N canvas 143 0 673 325 12;
+#X msg 268 277 bang;
+#X obj 244 303 print~;
+#X msg 185 278 bang;
+#X obj 161 304 print~;
+#X text 53 117 click here first;
+#X msg 72 270 bang;
+#X obj 48 296 print~;
+#X text 162 222 shift left;
+#X text 243 224 shift right;
+#X obj 161 252 lrshift~ 1;
+#X obj 244 251 lrshift~ -1;
+#X text 39 37 Acting at whatever vector size the window is running
+at \, lrshift~ shifts samples to the left (toward the beginning sample)
+or to the right. The argument gives the direction and the amount of
+the shift. The rightmost (or leftmost) samples are set to zero.;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array shiftin 64 float 0;
+#X coords 0 1 63 0 200 140 1;
+#X restore 448 118 graph;
+#X text 115 11 -- shift signal vector elements left or right;
+#X msg 54 138 \; pd dsp 1 \; shiftin 1 1;
+#X obj 48 204 tabreceive~ shiftin;
+#X text 525 308 Updated for Pd 0.31.;
+#X obj 47 11 lrshift~;
+#X connect 0 0 1 0;
+#X connect 2 0 3 0;
+#X connect 5 0 6 0;
+#X connect 9 0 3 0;
+#X connect 10 0 1 0;
+#X connect 15 0 6 0;
+#X connect 15 0 9 0;
+#X connect 15 0 10 0;
diff --git a/externals/extra/0.43.2/lrshift~/lrshift~.c b/externals/extra/0.43.2/lrshift~/lrshift~.c
new file mode 100644
index 00000000..19dcb93d
--- /dev/null
+++ b/externals/extra/0.43.2/lrshift~/lrshift~.c
@@ -0,0 +1,76 @@
+#include "m_pd.h"
+
+/* ------------------------ lrshift~ ----------------------------- */
+
+static t_class *lrshift_tilde_class;
+
+typedef struct _lrshift_tilde
+{
+ t_object x_obj;
+ int x_n;
+ t_float x_f;
+} t_lrshift_tilde;
+
+static t_int *leftshift_perform(t_int *w)
+{
+ t_sample *in = (t_sample *)(w[1]);
+ t_sample *out= (t_sample *)(w[2]);
+ int n = (int)(w[3]);
+ int shift = (int)(w[4]);
+ in += shift;
+ n -= shift;
+ while (n--)
+ *out++ = *in++;
+ while (shift--)
+ *out++ = 0;
+ return (w+5);
+}
+
+static t_int *rightshift_perform(t_int *w)
+{
+ t_sample *in = (t_sample *)(w[1]);
+ t_sample *out= (t_sample *)(w[2]);
+ int n = (int)(w[3]);
+ int shift = (int)(w[4]);
+ n -= shift;
+ in -= shift;
+ while (n--)
+ *--out = *--in;
+ while (shift--)
+ *--out = 0;
+ return (w+5);
+}
+
+static void lrshift_tilde_dsp(t_lrshift_tilde *x, t_signal **sp)
+{
+ int n = sp[0]->s_n;
+ int shift = x->x_n;
+ if (shift > n)
+ shift = n;
+ if (shift < -n)
+ shift = -n;
+ if (shift < 0)
+ dsp_add(rightshift_perform, 4,
+ sp[0]->s_vec + n, sp[1]->s_vec + n, n, -shift);
+ else dsp_add(leftshift_perform, 4,
+ sp[0]->s_vec, sp[1]->s_vec, n, shift);
+}
+
+static void *lrshift_tilde_new(t_floatarg f)
+{
+ t_lrshift_tilde *x = (t_lrshift_tilde *)pd_new(lrshift_tilde_class);
+ x->x_n = f;
+ x->x_f = 0;
+ outlet_new(&x->x_obj, gensym("signal"));
+ return (x);
+}
+
+void lrshift_tilde_setup(void)
+{
+ lrshift_tilde_class = class_new(gensym("lrshift~"),
+ (t_newmethod)lrshift_tilde_new, 0, sizeof(t_lrshift_tilde), 0,
+ A_DEFFLOAT, 0);
+ CLASS_MAINSIGNALIN(lrshift_tilde_class, t_lrshift_tilde, x_f);
+ class_addmethod(lrshift_tilde_class, (t_method)lrshift_tilde_dsp,
+ gensym("dsp"), 0);
+}
diff --git a/externals/extra/0.43.2/pd~/notes.txt b/externals/extra/0.43.2/pd~/notes.txt
new file mode 100644
index 00000000..59129d5a
--- /dev/null
+++ b/externals/extra/0.43.2/pd~/notes.txt
@@ -0,0 +1,8 @@
+pd -schedlib `pwd`/pdsched
+
+dolist:
+pd~ to delay starting subproc until asked
+figure out about setting nchannels from command line
+fix maximum nchannels in and out
+
+
diff --git a/externals/extra/0.43.2/pd~/pdsched.c b/externals/extra/0.43.2/pd~/pdsched.c
new file mode 100644
index 00000000..43a5ccf1
--- /dev/null
+++ b/externals/extra/0.43.2/pd~/pdsched.c
@@ -0,0 +1,106 @@
+/* Copyright 2008 Miller Puckette. Berkeley license; see the
+file LICENSE.txt in this distribution. */
+
+/* A plug-in scheduler that turns Pd into a filter that inputs and
+outputs audio and messages. */
+
+/* todo:
+ fix schedlib code to use extent2
+ figure out about if (sys_externalschedlib) { return; } in s_audio.c
+ make buffer size ynamically growable
+
+*/
+#include "m_pd.h"
+#include "s_stuff.h"
+#include <stdio.h>
+
+#define BUFSIZE 65536
+static char inbuf[BUFSIZE];
+
+#if defined(__linux__) || defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__GNU__)
+void glob_watchdog(t_pd *dummy);
+
+static void pollwatchdog( void)
+{
+ static int sched_diddsp, sched_nextpingtime;
+ sched_diddsp++;
+ if (sys_nogui && sys_hipriority && (sched_diddsp - sched_nextpingtime > 0))
+ {
+ glob_watchdog(0);
+ /* ping every 2 seconds */
+ sched_nextpingtime = sched_diddsp +
+ 2 * (int)(sys_dacsr /(double)sys_schedblocksize);
+ }
+}
+#endif
+
+int pd_extern_sched(char *flags)
+{
+ int naudioindev, audioindev[MAXAUDIOINDEV], chindev[MAXAUDIOINDEV];
+ int naudiooutdev, audiooutdev[MAXAUDIOOUTDEV], choutdev[MAXAUDIOOUTDEV];
+ int i, j, rate, advance, callback, chin, chout, fill = 0, c, blocksize;
+ t_binbuf *b = binbuf_new();
+
+ sys_get_audio_params(&naudioindev, audioindev, chindev,
+ &naudiooutdev, audiooutdev, choutdev, &rate, &advance, &callback,
+ &blocksize);
+
+ chin = (naudioindev < 1 ? 0 : chindev[0]);
+ chout = (naudiooutdev < 1 ? 0 : choutdev[0]);
+
+ /* fprintf(stderr, "Pd plug-in scheduler called, chans %d %d, sr %d\n",
+ chin, chout, (int)rate); */
+ sys_setchsr(chin, chout, rate);
+ sys_audioapi = API_NONE;
+ while ((c = getchar()) != EOF)
+ {
+ if (c == ';')
+ {
+ int n;
+ t_atom *ap;
+ binbuf_text(b, inbuf, fill);
+ n = binbuf_getnatom(b);
+ ap = binbuf_getvec(b);
+ fill = 0;
+ if (n > 0 && ap[0].a_type == A_FLOAT)
+ {
+ /* a list -- take it as incoming signals. */
+ int chan, nchan = n/DEFDACBLKSIZE;
+ t_sample *fp;
+ for (i = chan = 0, fp = sys_soundin; chan < nchan; chan++)
+ for (j = 0; j < DEFDACBLKSIZE; j++)
+ *fp++ = atom_getfloat(ap++);
+ for (; chan < chin; chan++)
+ for (j = 0; j < DEFDACBLKSIZE; j++)
+ *fp++ = 0;
+ sched_tick(sys_time+sys_time_per_dsp_tick);
+ sys_pollgui();
+#if defined(__linux__) || defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__GNU__)
+ pollwatchdog();
+#endif
+ printf(";\n");
+ for (i = chout*DEFDACBLKSIZE, fp = sys_soundout; i--; fp++)
+ {
+ printf("%g\n", *fp);
+ *fp = 0;
+ }
+ printf(";\n");
+ fflush(stdout);
+ }
+ else if (n > 1 && ap[0].a_type == A_SYMBOL)
+ {
+ t_pd *whom = ap[0].a_w.w_symbol->s_thing;
+ if (!whom)
+ error("%s: no such object", ap[0].a_w.w_symbol->s_name);
+ else if (ap[1].a_type == A_SYMBOL)
+ typedmess(whom, ap[1].a_w.w_symbol, n-2, ap+2);
+ else pd_list(whom, 0, n-1, ap+1);
+ }
+ }
+ else if (fill < BUFSIZE)
+ inbuf[fill++] = c;
+ else if (fill == BUFSIZE)
+ fprintf(stderr, "pd-extern: input buffer overflow\n");
+ }
+ return (0);
+}
diff --git a/externals/extra/0.43.2/pd~/pd~-help.pd b/externals/extra/0.43.2/pd~/pd~-help.pd
new file mode 100644
index 00000000..8bc357e0
--- /dev/null
+++ b/externals/extra/0.43.2/pd~/pd~-help.pd
@@ -0,0 +1,75 @@
+#N canvas 12 0 566 872 12;
+#X msg 31 406 foo bar baz;
+#X obj 189 466 osc~ 440;
+#X obj 127 645 env~ 8192;
+#X floatatom 127 694 5 0 0 0 - - -;
+#X msg 434 807 \; pd dsp 1;
+#X msg 24 332 pd~ stop;
+#X obj 127 670 i;
+#X obj 241 643 env~ 8192;
+#X floatatom 241 693 5 0 0 0 - - -;
+#X obj 241 669 i;
+#X obj 123 489 *~;
+#X obj 158 490 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0
+1;
+#X obj 189 490 *~;
+#X obj 224 491 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0
+1;
+#X obj 434 781 loadbang;
+#X obj 14 691 print x;
+#X msg 15 309 pd~ start pd~-subprocess.pd;
+#X obj 14 532 pd~ -ninsig 2 -noutsig 2 -fifo 20;
+#X obj 37 20 pd~;
+#X text 69 22 - run a pd sub-process;
+#X text 27 57 The pd~ object starts and manages a Pd sub-process that
+can communicate with the super-process (this one) via audio channels
+and/or Pd messages. In this way you can take advantage of multi-core
+CPUs \, and/or use Pd features from within Max (if you're using the
+Max version of pd~).;
+#X text 24 251 Sending a new "start" message will stop the sub-process
+and start a new one. If you just want to stop the sub-process \, send
+"stop".;
+#X text 33 353 Any message besides "pd~" is sent to the sub-process.
+For instance \, the message below sends "bar baz" to any object in
+the sub-process named "foo" \, such as a "receive" object.;
+#X text 43 430 Audio signals appear in adc~ objects in the sub-process.
+The sub-process doesn't open real audio devices.;
+#X text 281 473 Creation args:;
+#X text 265 490 -insig <n> sets input audio channels;
+#X text 266 508 -outsig <n> sets output channels;
+#X text 269 542 -fifo <n> sets round-trip delay in blocks;
+#X text 272 559 -pddir <s> sets Pd directory \, e.g. \,;
+#X text 299 574 .../Pd-0.42.app/Contents/Resources;
+#X text 272 590 -scheddir <s> sets scheduler dir \, e.g. \,;
+#X text 297 607 .../.../Resources/extra/pd~;
+#X text 267 524 -sr <n> sets sample rate;
+#X text 20 716 The first outlet reports messages the sub-process sends
+us via "stdout" objects. Any other outlets are signals corresponding
+to "dac~" objects in the sub-process.;
+#X text 10 784 ATTENTION: DSP must be running in this process for the
+sub-process to run. This is because its clock is slaved to audio I/O
+it gets from us!;
+#X text 359 849 Updated for Pd version 0.42.;
+#X text 24 138 Messages with "pd~" selector control the sub-process.
+"pd~ start" takes as arguments any startup arguments you wish to send
+the sub-process. For example \, specify "-nogui" to stop the sub-process's
+GUI from appearing. You don't have to specify the number of channels
+in and out \, since that's set by creation arguments below. Audio config
+arguments arguments (-audiobuf \, -audiodev \, etc.) are ignored.;
+#X connect 0 0 17 0;
+#X connect 1 0 10 0;
+#X connect 1 0 12 0;
+#X connect 2 0 6 0;
+#X connect 5 0 17 0;
+#X connect 6 0 3 0;
+#X connect 7 0 9 0;
+#X connect 9 0 8 0;
+#X connect 10 0 17 0;
+#X connect 11 0 10 1;
+#X connect 12 0 17 1;
+#X connect 13 0 12 1;
+#X connect 14 0 4 0;
+#X connect 16 0 17 0;
+#X connect 17 0 15 0;
+#X connect 17 1 2 0;
+#X connect 17 2 7 0;
diff --git a/externals/extra/0.43.2/pd~/pd~-subprocess.pd b/externals/extra/0.43.2/pd~/pd~-subprocess.pd
new file mode 100644
index 00000000..1d883ab1
--- /dev/null
+++ b/externals/extra/0.43.2/pd~/pd~-subprocess.pd
@@ -0,0 +1,60 @@
+#N canvas 577 21 563 559 12;
+#X obj 202 395 r foo;
+#X obj 202 423 print foo;
+#X obj 87 174 adc~;
+#X obj 72 442 stdout;
+#X msg 72 364 a b c;
+#X msg 455 441 \; pd dsp 1;
+#X obj 87 201 env~ 8192;
+#X floatatom 87 250 5 0 0 0 - - -;
+#X obj 87 226 i;
+#X obj 263 253 dac~;
+#X obj 262 185 osc~ 440;
+#X obj 262 219 *~;
+#X obj 297 220 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0
+1;
+#X obj 332 186 osc~ 440;
+#X obj 332 220 *~;
+#X obj 367 221 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0
+1;
+#X msg 86 411 bang;
+#X obj 455 417 loadbang;
+#X obj 160 201 env~ 8192;
+#X floatatom 160 250 5 0 0 0 - - -;
+#X obj 160 226 i;
+#X msg 86 388 4;
+#X text 62 8 This is a test patch to demonstrate the Pd~ object. It's
+intended as the patch to run in the sub-process. The sub-process (which
+is a separate instance of Pd) can be called from a Max or Pd super-process.
+;
+#X text 63 73 Audio inlets and outlets on the Pd~ object (in the super-process)
+talk to adc~ and dac~ objects here - so \, for instance \, the first
+adc~ here is the first inlet of the pd~ object \, and the first chanel
+of dac~ goes to the second outlet of pd~ (because the first one is
+for messages \, as shown further below.);
+#X text 58 283 Any message sent to a stdout object in this sub-process
+(below) appears on the first \, message outlet of the pd~ object in
+the super-process. The super-process can send messages to any "receive"
+object in this sub-process.;
+#X text 137 478 We turn DSP on at load for convenience - control objects
+in this patch will still work without it (unlike in the super-process
+\, where DSP must be on for time to move forward in the sub-process.)
+;
+#X text 351 538 Updated for Pd version 0.42.;
+#X connect 0 0 1 0;
+#X connect 2 0 6 0;
+#X connect 2 1 18 0;
+#X connect 4 0 3 0;
+#X connect 6 0 8 0;
+#X connect 8 0 7 0;
+#X connect 10 0 11 0;
+#X connect 11 0 9 0;
+#X connect 12 0 11 1;
+#X connect 13 0 14 0;
+#X connect 14 0 9 1;
+#X connect 15 0 14 1;
+#X connect 16 0 3 0;
+#X connect 17 0 5 0;
+#X connect 18 0 20 0;
+#X connect 20 0 19 0;
+#X connect 21 0 3 0;
diff --git a/externals/extra/0.43.2/pd~/pd~.c b/externals/extra/0.43.2/pd~/pd~.c
new file mode 100644
index 00000000..9c9d335e
--- /dev/null
+++ b/externals/extra/0.43.2/pd~/pd~.c
@@ -0,0 +1,771 @@
+/*
+ pd~.c - embed a Pd process within Pd or Max.
+
+ Copyright 2008 Miller Puckette
+ BSD license; see README.txt in this distribution for details.
+*/
+
+#include <stdio.h>
+#include <string.h>
+#include <unistd.h>
+#include <stdlib.h>
+#include <errno.h>
+#include <ctype.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+#include <sys/wait.h>
+#include <fcntl.h>
+
+#ifdef _MSC_VER
+#pragma warning (disable: 4305 4244)
+#endif
+
+#ifdef MSP
+#include "ext.h"
+#include "z_dsp.h"
+#include "math.h"
+#include "ext_support.h"
+#include "ext_proto.h"
+#include "ext_obex.h"
+
+typedef double t_floatarg;
+#define w_symbol w_sym
+#define A_SYMBOL A_SYM
+#define getbytes t_getbytes
+#define freebytes t_freebytes
+#define ERROR error(
+void *pd_tilde_class;
+#define MAXPDSTRING 4096
+#define DEFDACBLKSIZE 64
+#endif /* MSP */
+
+#ifdef PD
+#include "m_pd.h"
+#include "s_stuff.h"
+static t_class *pd_tilde_class;
+char *class_gethelpdir(t_class *c);
+#define ERROR pd_error(x,
+
+#endif
+
+#if defined(__linux__) || defined(__FreeBSD_kernel__) || defined(__GNU__)
+#ifdef __x86_64__
+static char pd_tilde_dllextent[] = ".l_ia64",
+ pd_tilde_dllextent2[] = ".pd_linux";
+#else
+static char pd_tilde_dllextent[] = ".l_i386",
+ pd_tilde_dllextent2[] = ".pd_linux";
+#endif
+#endif
+#ifdef __APPLE__
+static char pd_tilde_dllextent[] = ".d_fat",
+ pd_tilde_dllextent2[] = ".pd_darwin";
+#endif
+#if defined(_WIN32) || defined(__CYGWIN__)
+static char pd_tilde_dllextent[] = ".m_i386", pd_tilde_dllextent2[] = ".dll";
+#endif
+
+/* ------------------------ pd_tilde~ ----------------------------- */
+
+#define MSGBUFSIZE 65536
+
+typedef struct _pd_tilde
+{
+#ifdef PD
+ t_object x_obj;
+ t_clock *x_clock;
+ t_outlet *x_outlet1; /* for messages back from subproc */
+ t_canvas *x_canvas;
+#endif /* PD */
+#ifdef MSP
+ t_pxobject x_obj;
+ void *x_outlet1;
+ void *x_clock;
+#endif /* MSP */
+ FILE *x_infd;
+ FILE *x_outfd;
+ char *x_msgbuf;
+ int x_msgbufsize;
+ int x_infill;
+ int x_childpid;
+ int x_ninsig;
+ int x_noutsig;
+ int x_fifo;
+ t_float x_sr;
+ t_symbol *x_pddir;
+ t_symbol *x_schedlibdir;
+ t_sample **x_insig;
+ t_sample **x_outsig;
+} t_pd_tilde;
+
+#ifdef MSP
+static void *pd_tilde_new(t_symbol *s, long ac, t_atom *av);
+static void pd_tilde_tick(t_pd_tilde *x);
+static t_int *pd_tilde_perform(t_int *w);
+static void pd_tilde_dsp(t_pd_tilde *x, t_signal **sp);
+void pd_tilde_assist(t_pd_tilde *x, void *b, long m, long a, char *s);
+static void pd_tilde_free(t_pd_tilde *x);
+void pd_tilde_setup(void);
+int main();
+void pd_tilde_minvel_set(t_pd_tilde *x, void *attr, long ac, t_atom *av);
+char *strcpy(char *s1, const char *s2);
+#endif
+
+static void pd_tilde_tick(t_pd_tilde *x);
+static void pd_tilde_close(t_pd_tilde *x)
+{
+ if (x->x_outfd)
+ fclose(x->x_outfd);
+ if (x->x_infd)
+ fclose(x->x_infd);
+ if (x->x_childpid > 0)
+ waitpid(x->x_childpid, 0, 0);
+ if (x->x_msgbuf)
+ free(x->x_msgbuf);
+ x->x_infd = x->x_outfd = 0;
+ x->x_childpid = -1;
+ x->x_msgbuf = 0;
+ x->x_msgbufsize = 0;
+}
+
+static void pd_tilde_readmessages(t_pd_tilde *x)
+{
+ int gotsomething = 0, setclock = 0, wasempty = (x->x_infill == 0);
+ FILE *infd = x->x_infd;
+ while (1)
+ {
+ int c = getc(infd);
+ if (c == EOF)
+ {
+ ERROR "pd~: %s", strerror(errno));
+ pd_tilde_close(x);
+ break;
+ }
+ if (x->x_infill >= x->x_msgbufsize)
+ {
+ char *z = realloc(x->x_msgbuf, x->x_msgbufsize+MSGBUFSIZE);
+ if (!z)
+ {
+ ERROR "pd~: failed to grow input buffer");
+ pd_tilde_close(x);
+ break;
+ }
+ x->x_msgbuf = z;
+ x->x_msgbufsize += MSGBUFSIZE;
+ }
+ x->x_msgbuf[x->x_infill++] = c;
+ if (c == ';')
+ {
+ if (!gotsomething)
+ break;
+ gotsomething = 0;
+ }
+ else if (!isspace(c))
+ gotsomething = setclock = 1;
+ }
+ if (setclock)
+ clock_delay(x->x_clock, 0);
+ else if (wasempty)
+ x->x_infill = 0;
+}
+
+static void pd_tilde_donew(t_pd_tilde *x, char *pddir, char *schedlibdir,
+ char *patchdir, char *pdargs, int ninsig, int noutsig, int fifo,
+ t_float samplerate)
+{
+ int i, pid, pipe1[2], pipe2[2];
+ char cmdbuf[MAXPDSTRING], pdexecbuf[MAXPDSTRING], schedbuf[MAXPDSTRING];
+ struct stat statbuf;
+ x->x_infd = x->x_outfd = 0;
+ x->x_childpid = -1;
+ snprintf(pdexecbuf, MAXPDSTRING, "%s/bin/pd", pddir);
+ if (stat(pdexecbuf, &statbuf) < 0)
+ {
+ snprintf(pdexecbuf, MAXPDSTRING, "%s/../../../bin/pd", pddir);
+ if (stat(pdexecbuf, &statbuf) < 0)
+ {
+ snprintf(pdexecbuf, MAXPDSTRING, "%s/pd", pddir);
+ if (stat(pdexecbuf, &statbuf) < 0)
+ {
+ ERROR "pd~: can't stat %s", pdexecbuf);
+ goto fail1;
+ }
+ }
+ }
+ snprintf(schedbuf, MAXPDSTRING, "%s/pdsched%s", schedlibdir,
+ pd_tilde_dllextent);
+ if (stat(schedbuf, &statbuf) < 0)
+ {
+ snprintf(schedbuf, MAXPDSTRING, "%s/pdsched%s", schedlibdir,
+ pd_tilde_dllextent2);
+ if (stat(schedbuf, &statbuf) < 0)
+ {
+ ERROR "pd~: can't stat %s", schedbuf);
+ goto fail1;
+ }
+ }
+ snprintf(cmdbuf, MAXPDSTRING,
+"'%s' -schedlib '%s'/pdsched -path '%s' -inchannels %d -outchannels %d -r %g %s\n",
+ pdexecbuf, schedlibdir, patchdir, ninsig, noutsig, samplerate, pdargs);
+#if 0
+#ifdef PD
+ fprintf(stderr, "%s", cmdbuf);
+#endif
+ post("cmd: %s", cmdbuf);
+#endif
+ if (pipe(pipe1) < 0)
+ {
+ ERROR "pd~: can't create pipe");
+ goto fail1;
+ }
+ if (pipe(pipe2) < 0)
+ {
+ ERROR "pd~: can't create pipe");
+ goto fail2;
+ }
+ if ((pid = fork()) < 0)
+ {
+ ERROR "pd~: can't fork");
+ goto fail3;
+ }
+ else if (pid == 0)
+ {
+ /* child process */
+ if (pipe2[1] == 0)
+ {
+ dup2(pipe2[1], 20);
+ close(pipe2[1]);
+ pipe2[1] = 20;
+ }
+ dup2(pipe1[0], 0);
+ dup2(pipe2[1], 1);
+ if (pipe1[0] >= 2)
+ close(pipe1[0]);
+ if (pipe1[1] >= 2)
+ close(pipe1[1]);
+ if (pipe2[0] >= 2)
+ close(pipe2[0]);
+ if (pipe2[1] >= 2)
+ close(pipe2[1]);
+ execl("/bin/sh", "sh", "-c", cmdbuf, (char*)0);
+ _exit(1);
+ }
+ /* OK, we're parent */
+ close(pipe1[0]);
+ close(pipe2[1]);
+ fcntl(pipe1[1], F_SETFD, FD_CLOEXEC);
+ fcntl(pipe2[0], F_SETFD, FD_CLOEXEC);
+ x->x_outfd = fdopen(pipe1[1], "w");
+ x->x_infd = fdopen(pipe2[0], "r");
+ x->x_childpid = pid;
+ for (i = 0; i < fifo; i++)
+ fprintf(x->x_outfd, "%s", ";\n0;\n");
+ fflush(x->x_outfd);
+ if (!(x->x_msgbuf = calloc(MSGBUFSIZE, 1)))
+ {
+ ERROR "pd~: can't allocate message buffer");
+ goto fail3;
+ }
+ x->x_msgbufsize = MSGBUFSIZE;
+ x->x_infill = 0;
+ /* fprintf(stderr, "read...\n"); */
+ pd_tilde_readmessages(x);
+ /* fprintf(stderr, "... done.\n"); */
+ return;
+fail3:
+ close(pipe2[0]);
+ close(pipe2[1]);
+ if (x->x_childpid > 0)
+ waitpid(x->x_childpid, 0, 0);
+fail2:
+ close(pipe1[0]);
+ close(pipe1[1]);
+fail1:
+ x->x_infd = x->x_outfd = 0;
+ x->x_childpid = -1;
+ return;
+}
+
+static t_int *pd_tilde_perform(t_int *w)
+{
+ t_pd_tilde *x = (t_pd_tilde *)(w[1]);
+ int n = (int)(w[2]), i, j, numbuffill = 0, c;
+ char numbuf[80];
+ FILE *infd = x->x_infd;
+ if (!infd)
+ goto zeroit;
+ fprintf(x->x_outfd, ";\n");
+ if (!x->x_ninsig)
+ fprintf(x->x_outfd, "0\n");
+ else for (i = 0; i < x->x_ninsig; i++)
+ {
+ t_sample *fp = x->x_insig[i];
+ for (j = 0; j < n; j++)
+ fprintf(x->x_outfd, "%g\n", *fp++);
+ for (; j < DEFDACBLKSIZE; j++)
+ fprintf(x->x_outfd, "0\n");
+ }
+ fprintf(x->x_outfd, ";\n");
+ fflush(x->x_outfd);
+ i = j = 0;
+ while (1)
+ {
+ while (1)
+ {
+ c = getc(infd);
+ if (c == EOF)
+ {
+ if (errno)
+ ERROR "pd~: %s", strerror(errno));
+ else ERROR "pd~: subprocess exited");
+ pd_tilde_close(x);
+ goto zeroit;
+ }
+ else if (!isspace(c) && c != ';')
+ {
+ if (numbuffill < (80-1))
+ numbuf[numbuffill++] = c;
+ }
+ else
+ {
+ t_sample z;
+ if (numbuffill)
+ {
+ numbuf[numbuffill] = 0;
+ if (sscanf(numbuf, "%f", &z) < 1)
+ continue;
+ if (i < x->x_noutsig)
+ x->x_outsig[i][j] = z;
+ if (++j >= DEFDACBLKSIZE)
+ j = 0, i++;
+ }
+ numbuffill = 0;
+ break;
+ }
+ }
+ /* message terminated */
+ if (c == ';')
+ break;
+ }
+ for (; i < x->x_noutsig; i++, j = 0)
+ {
+ for (; j < DEFDACBLKSIZE; j++)
+ x->x_outsig[i][j] = 0;
+ }
+ pd_tilde_readmessages(x);
+ return (w+3);
+zeroit:
+ for (i = 0; i < x->x_noutsig; i++)
+ {
+ for (j = 0; j < DEFDACBLKSIZE; j++)
+ x->x_outsig[i][j] = 0;
+ }
+ return (w+3);
+}
+
+static void pd_tilde_dsp(t_pd_tilde *x, t_signal **sp)
+{
+ int i, n = (x->x_ninsig || x->x_noutsig ? sp[0]->s_n : 1);
+ t_sample **g;
+
+ for (i = 0, g = x->x_insig; i < x->x_ninsig; i++, g++)
+ *g = (*(sp++))->s_vec;
+
+ for (i = 0, g = x->x_outsig; i < x->x_noutsig; i++, g++)
+ *g = (*(sp++))->s_vec;
+
+ dsp_add(pd_tilde_perform, 2, x, n);
+}
+
+static void pd_tilde_pdtilde(t_pd_tilde *x, t_symbol *s,
+ int argc, t_atom *argv)
+{
+ t_symbol *sel = ((argc > 0 && argv->a_type == A_SYMBOL) ?
+ argv->a_w.w_symbol : gensym("?")), *schedlibdir;
+ char *patchdir;
+ if (sel == gensym("start"))
+ {
+ char pdargstring[MAXPDSTRING];
+ if (x->x_infd)
+ pd_tilde_close(x);
+ pdargstring[0] = 0;
+ argc--; argv++;
+#ifdef PD
+ while (argc--)
+ {
+ atom_string(argv++, pdargstring + strlen(pdargstring),
+ MAXPDSTRING - strlen(pdargstring));
+ if (strlen(pdargstring) < MAXPDSTRING-1)
+ strcat(pdargstring, " ");
+ }
+ patchdir = canvas_getdir(x->x_canvas)->s_name;
+#endif
+#ifdef MSP
+ while (argc--)
+ {
+ /* because Mac pathnames sometimes have an evil preceeding
+ colon character, we test for and silently eat them */
+ if (argv->a_type == A_SYM)
+ strncat(pdargstring, (*argv->a_w.w_sym->s_name == ':'?
+ argv->a_w.w_sym->s_name+1 : argv->a_w.w_sym->s_name),
+ MAXPDSTRING - strlen(pdargstring)-3);
+ else if (argv->a_type == A_LONG)
+ snprintf(pdargstring+strlen(pdargstring),
+ MAXPDSTRING - strlen(pdargstring)-3, "%ld",
+ argv->a_w.w_long);
+ else if (argv->a_type == A_FLOAT)
+ snprintf(pdargstring+strlen(pdargstring),
+ MAXPDSTRING - strlen(pdargstring)-3, "%f",
+ argv->a_w.w_float);
+ strcat(pdargstring, " ");
+ argv++;
+ }
+ patchdir = ".";
+#endif
+ schedlibdir = x->x_schedlibdir;
+ if (schedlibdir == gensym(".") && x->x_pddir != gensym("."))
+ {
+ char *pds = x->x_pddir->s_name, scheddirstring[MAXPDSTRING];
+ int l = strlen(pds);
+ if (l >= 4 && (!strcmp(pds+l-3, "bin") || !strcmp(pds+l-4, "bin/")))
+ snprintf(scheddirstring, MAXPDSTRING, "%s/../extra/pd~", pds);
+ else snprintf(scheddirstring, MAXPDSTRING, "%s/extra/pd~", pds);
+ schedlibdir = gensym(scheddirstring);
+ }
+ pd_tilde_donew(x, x->x_pddir->s_name, schedlibdir->s_name,
+ patchdir, pdargstring, x->x_ninsig, x->x_noutsig, x->x_fifo,
+ x->x_sr);
+ }
+ else if (sel == gensym("stop"))
+ {
+ if (x->x_infd)
+ pd_tilde_close(x);
+ }
+ else if (sel == gensym("pddir"))
+ {
+ if ((argc > 1) && argv[1].a_type == A_SYMBOL)
+ {
+ t_symbol *sym = argv[1].a_w.w_symbol;
+#ifdef MSP
+ if (sym->s_name[0] == ':')
+ sym = gensym(s->s_name+1);
+#endif
+ x->x_pddir = sym;
+ }
+ else ERROR "pd~ pddir: needs symbol argument");
+ }
+ else ERROR "pd~: unknown control message: %s", sel->s_name);
+}
+
+static void pd_tilde_free(t_pd_tilde *x)
+{
+#ifdef MSP
+ dsp_free((t_pxobject *)x);
+#endif
+ pd_tilde_close(x);
+ clock_free(x->x_clock);
+}
+
+/* -------------------------- Pd glue ------------------------- */
+#ifdef PD
+
+static void pd_tilde_tick(t_pd_tilde *x)
+{
+ int messstart = 0, i, n;
+ t_atom *vec;
+ t_binbuf *b;
+ if (!x->x_msgbuf)
+ return;
+ b = binbuf_new();
+ binbuf_text(b, x->x_msgbuf, x->x_infill);
+ /* binbuf_print(b); */
+ n = binbuf_getnatom(b);
+ vec = binbuf_getvec(b);
+ for (i = 0; i < n; i++)
+ {
+ if (vec[i].a_type == A_SEMI)
+ {
+ if (i > messstart && vec[messstart].a_type == A_SYMBOL)
+ outlet_anything(x->x_outlet1, vec[messstart].a_w.w_symbol,
+ i-(messstart+1), vec+(messstart+1));
+ else if (i > messstart)
+ outlet_list(x->x_outlet1, 0, i-messstart, vec+messstart);
+ messstart = i+1;
+ }
+ }
+ binbuf_free(b);
+ x->x_infill = 0;
+}
+
+static void pd_tilde_anything(t_pd_tilde *x, t_symbol *s,
+ int argc, t_atom *argv)
+{
+ char msgbuf[MAXPDSTRING];
+ if (!x->x_outfd)
+ return;
+ fprintf(x->x_outfd, "%s ", s->s_name);
+ while (argc--)
+ {
+ atom_string(argv++, msgbuf, MAXPDSTRING);
+ fprintf(x->x_outfd, "%s ", msgbuf);
+ }
+ fprintf(x->x_outfd, ";\n");
+}
+
+static void *pd_tilde_new(t_symbol *s, int argc, t_atom *argv)
+{
+ t_pd_tilde *x = (t_pd_tilde *)pd_new(pd_tilde_class);
+ int ninsig = 2, noutsig = 2, j, fifo = 5;
+ t_float sr = sys_getsr();
+ t_sample **g;
+ t_symbol *pddir = sys_libdir,
+ *scheddir = gensym(class_gethelpdir(pd_tilde_class));
+ /* fprintf(stderr, "pd %s, sched %s\n", pddir->s_name, scheddir->s_name); */
+ while (argc > 0)
+ {
+ t_symbol *firstarg = atom_getsymbolarg(0, argc, argv);
+ if (!strcmp(firstarg->s_name, "-sr") && argc > 1)
+ {
+ sr = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-ninsig") && argc > 1)
+ {
+ ninsig = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-noutsig") && argc > 1)
+ {
+ noutsig = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-fifo") && argc > 1)
+ {
+ fifo = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-pddir") && argc > 1)
+ {
+ pddir = atom_getsymbolarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-scheddir") && argc > 1)
+ {
+ scheddir = atom_getsymbolarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else break;
+ }
+
+ if (argc)
+ {
+ pd_error(x,
+"usage: pd~ [-sr #] [-ninsig #] [-noutsig #] [-fifo #] [-pddir <>]");
+ post(
+"... [-scheddir <>]");
+ }
+
+ x->x_clock = clock_new(x, (t_method)pd_tilde_tick);
+ x->x_insig = (t_sample **)getbytes(ninsig * sizeof(*x->x_insig));
+ x->x_outsig = (t_sample **)getbytes(noutsig * sizeof(*x->x_outsig));
+ x->x_ninsig = ninsig;
+ x->x_noutsig = noutsig;
+ x->x_fifo = fifo;
+ x->x_sr = sr;
+ x->x_pddir = pddir;
+ x->x_schedlibdir = scheddir;
+ x->x_infd = 0;
+ x->x_outfd = 0;
+ x->x_outfd = 0;
+ x->x_childpid = -1;
+ x->x_msgbuf = 0;
+ x->x_canvas = canvas_getcurrent();
+ for (j = 1, g = x->x_insig; j < ninsig; j++, g++)
+ inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_signal, &s_signal);
+ x->x_outlet1 = outlet_new(&x->x_obj, 0);
+ for (j = 0, g = x->x_outsig; j < noutsig; j++, g++)
+ outlet_new(&x->x_obj, &s_signal);
+ signal(SIGPIPE, SIG_IGN);
+
+ return (x);
+}
+
+void pd_tilde_setup(void)
+{
+ pd_tilde_class = class_new(gensym("pd~"), (t_newmethod)pd_tilde_new,
+ (t_method)pd_tilde_free, sizeof(t_pd_tilde), 0, A_GIMME, 0);
+ class_addmethod(pd_tilde_class, nullfn, gensym("signal"), 0);
+ class_addmethod(pd_tilde_class, (t_method)pd_tilde_dsp, gensym("dsp"), 0);
+ class_addmethod(pd_tilde_class, (t_method)pd_tilde_pdtilde, gensym("pd~"), A_GIMME, 0);
+ class_addanything(pd_tilde_class, pd_tilde_anything);
+ post("pd~ version 0.2");
+}
+#endif
+
+/* -------------------------- MSP glue ------------------------- */
+#ifdef MSP
+
+#define LOTS 10000
+
+static void pd_tilde_tick(t_pd_tilde *x)
+{
+ int messstart = 0, i, n = 0;
+ t_atom vec[LOTS];
+ long z1 = 0, z2 = 0;
+ void *b;
+ if (!x->x_msgbuf)
+ return;
+ b = binbuf_new();
+ binbuf_text(b, &x->x_msgbuf, x->x_infill);
+ /* binbuf_print(b); */
+ while (!binbuf_getatom(b, &z1, &z2, vec+n))
+ if (++n >= LOTS)
+ break;
+ for (i = 0; i < n; i++)
+ {
+ if (vec[i].a_type == A_SEMI)
+ {
+ if (i > messstart + 1)
+ {
+ void *whom;
+ if (vec[messstart].a_type == A_SYM)
+ outlet_anything(x->x_outlet1, vec[messstart].a_w.w_sym,
+ i-messstart-1, vec+(messstart+1));
+ else if (vec[messstart].a_type == A_FLOAT && i == messstart+1)
+ outlet_float(x->x_outlet1, vec[messstart].a_w.w_float);
+ else if (vec[messstart].a_type == A_LONG && i == messstart+1)
+ outlet_int(x->x_outlet1, vec[messstart].a_w.w_long);
+ else outlet_list(x->x_outlet1, gensym("list"),
+ i-messstart, vec+(messstart));
+ }
+ messstart = i+1;
+ }
+ }
+ binbuf_free(b);
+ x->x_infill = 0;
+}
+
+static void pd_tilde_anything(t_pd_tilde *x, t_symbol *s,
+ long ac, t_atom *av)
+{
+ char msgbuf[MAXPDSTRING], *sp, *ep = msgbuf+MAXPDSTRING;
+ if (!x->x_outfd)
+ return;
+ msgbuf[0] = 0;
+ strncpy(msgbuf, s->s_name, MAXPDSTRING);
+ msgbuf[MAXPDSTRING-1] = 0;
+ sp = msgbuf + strlen(msgbuf);
+ while (ac--)
+ {
+ if (sp < ep-1)
+ sp[0] = ' ', sp[1] = 0, sp++;
+ if (sp < ep - 80)
+ {
+ if (av->a_type == A_SYM && strlen(av->a_w.w_sym->s_name) < ep - sp-20)
+ strcpy(sp, av->a_w.w_sym->s_name);
+ else if (av->a_type == A_LONG)
+ sprintf(sp, "%ld" ,av->a_w.w_long);
+ else if (av->a_type == A_FLOAT)
+ sprintf(sp, "%g" ,av->a_w.w_float);
+ }
+ sp += strlen(sp);
+ av++;
+ }
+ fprintf(x->x_outfd, "%s;\n", msgbuf);
+}
+
+int main()
+{
+ t_class *c;
+
+ c = class_new("pd_tilde~", (method)pd_tilde_new, (method)pd_tilde_free, sizeof(t_pd_tilde), (method)0L, A_GIMME, 0);
+
+ class_addmethod(c, (method)pd_tilde_dsp, "dsp", A_CANT, 0);
+ class_addmethod(c, (method)pd_tilde_assist, "assist", A_CANT, 0);
+ class_addmethod(c, (method)pd_tilde_pdtilde, "pd~", A_GIMME, 0);
+ class_addmethod(c, (method)pd_tilde_anything, "anything", A_GIMME, 0);
+ class_dspinit(c);
+
+ class_register(CLASS_BOX, c);
+ pd_tilde_class = c;
+ post("pd~ version 0.2");
+ return (0);
+}
+
+static void *pd_tilde_new(t_symbol *s, long ac, t_atom *av)
+{
+ int ninsig = 2, noutsig = 2, fifo = 5, j;
+ t_float sr = sys_getsr();
+ t_symbol *pddir = gensym("."), *scheddir = gensym(".");
+ t_pd_tilde *x;
+
+ if (x = (t_pd_tilde *)object_alloc(pd_tilde_class))
+ {
+ while (ac > 0 && av[0].a_type == A_SYM)
+ {
+ char *flag = av[0].a_w.w_sym->s_name;
+ if (!strcmp(flag, "-sr") && ac > 1)
+ {
+ sr = (av[1].a_type == A_FLOAT ? av[1].a_w.w_float :
+ (av[1].a_type == A_LONG ? av[1].a_w.w_long : 0));
+ ac -= 2; av += 2;
+ }
+ else if (!strcmp(flag, "-ninsig") && ac > 1)
+ {
+ ninsig = (av[1].a_type == A_FLOAT ? av[1].a_w.w_float :
+ (av[1].a_type == A_LONG ? av[1].a_w.w_long : 0));
+ ac -= 2; av += 2;
+ }
+ else if (!strcmp(flag, "-noutsig") && ac > 1)
+ {
+ noutsig = (av[1].a_type == A_FLOAT ? av[1].a_w.w_float :
+ (av[1].a_type == A_LONG ? av[1].a_w.w_long : 0));
+ ac -= 2; av += 2;
+ }
+ else if (!strcmp(flag, "-fifo") && ac > 1)
+ {
+ fifo = (av[1].a_type == A_FLOAT ? av[1].a_w.w_float :
+ (av[1].a_type == A_LONG ? av[1].a_w.w_long : 0));
+ ac -= 2; av += 2;
+ }
+ else if (!strcmp(flag, "-pddir") && ac > 1)
+ {
+ pddir = (av[1].a_type == A_SYM ? av[1].a_w.w_sym : gensym("."));
+ ac -= 2; av += 2;
+ }
+ else if (!strcmp(flag, "-scheddir") && ac > 1)
+ {
+ scheddir = (av[1].a_type == A_SYM ? av[1].a_w.w_sym : gensym("."));
+ ac -= 2; av += 2;
+ }
+ else break;
+ }
+ if (ac)
+ post("pd~: warning: ignoring extra arguments");
+ dsp_setup((t_pxobject *)x, ninsig);
+ x->x_outlet1 = outlet_new(&x->x_obj, 0);
+ for (j = 0; j < noutsig; j++)
+ outlet_new((t_pxobject *)x, "signal");
+ x->x_clock = clock_new(x, (method)pd_tilde_tick);
+ x->x_insig = (t_sample **)getbytes(ninsig * sizeof(*x->x_insig));
+ x->x_outsig = (t_sample **)getbytes(noutsig * sizeof(*x->x_outsig));
+ x->x_ninsig = ninsig;
+ x->x_noutsig = noutsig;
+ x->x_fifo = fifo;
+ x->x_sr = sr;
+ x->x_pddir = pddir;
+ x->x_schedlibdir = scheddir;
+ x->x_infd = 0;
+ x->x_outfd = 0;
+ x->x_outfd = 0;
+ x->x_childpid = -1;
+ x->x_msgbuf = 0;
+ }
+ return (x);
+}
+
+void pd_tilde_assist(t_pd_tilde *x, void *b, long m, long a, char *s)
+{
+}
+
+#endif /* MSP */
diff --git a/externals/extra/0.43.2/pd~/z.pd b/externals/extra/0.43.2/pd~/z.pd
new file mode 100644
index 00000000..373201da
--- /dev/null
+++ b/externals/extra/0.43.2/pd~/z.pd
@@ -0,0 +1,15 @@
+#N canvas 686 241 450 300 10;
+#X obj 65 58 r foo;
+#X obj 62 100 print foo;
+#X obj 244 59 adc~;
+#X obj 238 102 env~ 8192;
+#X floatatom 236 140 5 0 0 0 - - -;
+#X obj 155 234 dac~;
+#X obj 155 191 osc~ 440;
+#X obj 287 204 stdout;
+#X msg 307 153 a b c;
+#X connect 0 0 1 0;
+#X connect 2 0 3 0;
+#X connect 3 0 4 0;
+#X connect 6 0 5 0;
+#X connect 8 0 7 0;
diff --git a/externals/extra/0.43.2/pique/pique-help.pd b/externals/extra/0.43.2/pique/pique-help.pd
new file mode 100644
index 00000000..1689c95b
--- /dev/null
+++ b/externals/extra/0.43.2/pique/pique-help.pd
@@ -0,0 +1,33 @@
+#N canvas 143 0 729 407 12;
+#X obj 47 11 pique;
+#X text 105 12 -- find peaks in an FFT spectrum;
+#X obj 214 174 rfft~;
+#X obj 131 129 osc~ 2000;
+#X graph graph2 0 -64 63 64 519 179 719 39;
+#X array fft-real 64 float;
+#X pop;
+#X graph graph3 0 -64 63 64 519 327 719 187;
+#X array fft-imag 64 float;
+#X pop;
+#X obj 214 215 tabwrite~ fft-real;
+#X obj 245 240 tabwrite~ fft-imag;
+#X obj 315 158 metro 1000;
+#X obj 315 116 loadbang;
+#X msg 315 138 1;
+#X obj 91 349 pique;
+#X msg 91 322 64 fft-real fft-imag 10;
+#X obj 91 376 print;
+#X obj 205 132 osc~ 5000;
+#X text 25 37 pique takes unwindowed FFT analyses as input (they should be stored in arrays) and outputs a list of peaks \, giving their peak number \, frequency \, amplitude \, and phase (as a cosine/sine pair.);
+#X text 13 289 message argumnets: number of FFT points \, fft real part \, fft imaginary part \, maximum number of peaks to report.;
+#X text 578 387 updated for Pd 0.31.;
+#X connect 2 0 6 0;
+#X connect 2 1 7 0;
+#X connect 3 0 2 0;
+#X connect 8 0 6 0;
+#X connect 8 0 7 0;
+#X connect 9 0 10 0;
+#X connect 10 0 8 0;
+#X connect 11 0 13 0;
+#X connect 12 0 11 0;
+#X connect 14 0 2 0;
diff --git a/externals/extra/0.43.2/pique/pique.c b/externals/extra/0.43.2/pique/pique.c
new file mode 100644
index 00000000..7c8b899b
--- /dev/null
+++ b/externals/extra/0.43.2/pique/pique.c
@@ -0,0 +1,243 @@
+/* Copyright (c) 1999 Miller Puckette. The
+contents of this file are free for any use, but BOTH THE AUTHOR AND UCSD
+DISCLAIM ALL WARRANTIES related to it. Although not written in Java, this
+still should not be used to control any machinery containing a sharp blade or
+combustible materiel, or as part of any life support system or weapon. */
+
+#include "m_pd.h"
+#include <math.h>
+#include <stdio.h>
+/* These pragmas are only used for MSVC, not MinGW or Cygwin <hans@at.or.at> */
+#ifdef _MSC_VER
+#pragma warning( disable : 4244 )
+#pragma warning( disable : 4305 )
+#endif
+
+static t_class *pique_class;
+
+typedef struct _pique
+{
+ t_object x_obj;
+ int x_n;
+ t_float x_errthresh;
+ t_float *x_freq;
+ t_float *x_amp;
+ t_float *x_ampre;
+ t_float *x_ampim;
+} t_pique;
+
+static void *pique_new(t_floatarg f)
+{
+ int n = f;
+ t_pique *x = (t_pique *)pd_new(pique_class);
+ if (n < 1) n = 100;
+ x->x_n = n;
+ x->x_errthresh = 0;
+ x->x_freq = t_getbytes(n * sizeof(*x->x_freq));
+ x->x_amp = t_getbytes(n * sizeof(*x->x_amp));
+ x->x_ampre = t_getbytes(n * sizeof(*x->x_ampre));
+ x->x_ampim = t_getbytes(n * sizeof(*x->x_ampim));
+ outlet_new(&x->x_obj, &s_list);
+ return (x);
+}
+
+static t_float hanning(t_float pidetune, t_float sinpidetune)
+{
+ t_float pi = 3.141592653589793;
+ if (pidetune < 0.01 && pidetune > -0.01) return (1);
+ else if (pidetune > 3.14 && pidetune < 3.143) return (0.5);
+ else if (pidetune < -3.14 && pidetune > -3.143) return (0.5);
+ else return (sinpidetune/pidetune - 0.5 *
+ (sinpidetune/(pidetune+pi) + sinpidetune/(pidetune-pi)));
+}
+
+static t_float peakerror(t_word *fpreal, t_word *fpimag, t_float pidetune,
+ t_float norm, t_float peakreal, t_float peakimag)
+{
+ t_float sinpidetune = sin(pidetune);
+ t_float cospidetune = cos(pidetune);
+ t_float windowshould = hanning(pidetune, sinpidetune);
+ t_float realshould = windowshould * (
+ peakreal * cospidetune + peakimag * sinpidetune);
+ t_float imagshould = windowshould * (
+ peakimag * cospidetune - peakreal * sinpidetune);
+ t_float realgot = norm * (fpreal[0].w_float -
+ 0.5 * (fpreal[1].w_float + fpreal[-1].w_float));
+ t_float imaggot = norm * (fpimag[0].w_float -
+ 0.5 * (fpimag[1].w_float + fpimag[-1].w_float));
+ t_float realdev = realshould - realgot, imagdev = imagshould - imaggot;
+
+ /* post("real %f->%f; imag %f->%f", realshould, realgot,
+ imagshould, imaggot); */
+ return (realdev * realdev + imagdev * imagdev);
+}
+
+static void pique_doit(int npts, t_word *fpreal, t_word *fpimag,
+ int npeak, int *nfound, t_float *fpfreq, t_float *fpamp,
+ t_float *fpampre, t_float *fpampim, t_float errthresh)
+{
+ t_float srate = sys_getsr(); /* not sure how to get this correctly */
+ t_float oneovern = 1.0/ (t_float)npts;
+ t_float fperbin = srate * oneovern;
+ t_float pow1, pow2 = 0, pow3 = 0, pow4 = 0, pow5 = 0;
+ t_float re1, re2 = 0, re3 = fpreal->w_float;
+ t_float im1, im2 = 0, im3 = 0, powthresh, relativeerror;
+ int count, peakcount = 0, n2 = (npts >> 1);
+ t_float *fp1, *fp2;
+ t_word *wp1, *wp2;
+ for (count = n2, wp1 = fpreal, wp2 = fpimag, powthresh = 0;
+ count--; wp1++, wp2++)
+ powthresh += (wp1->w_float) * (wp1->w_float) +
+ (wp2->w_float) * (wp2->w_float) ;
+ powthresh *= 0.00001;
+ for (count = 1; count < n2; count++)
+ {
+ t_float windreal, windimag, pi = 3.141592653589793;
+ t_float detune, pidetune, sinpidetune, cospidetune,
+ ampcorrect, freqout, ampout, ampoutreal, ampoutimag;
+ t_float rpeak, rpeaknext, rpeakprev;
+ t_float ipeak, ipeaknext, ipeakprev;
+ t_float errleft, errright;
+ fpreal++;
+ fpimag++;
+ re1 = re2;
+ re2 = re3;
+ re3 = fpreal->w_float;
+ im1 = im2;
+ im2 = im3;
+ im3 = fpimag->w_float;
+ if (count < 2) continue;
+ pow1 = pow2;
+ pow2 = pow3;
+ pow3 = pow4;
+ pow4 = pow5;
+ /* get Hanning-windowed spectrum by convolution */
+ windreal = re2 - 0.5 * (re1 + re3);
+ windimag = im2 - 0.5 * (im1 + im3);
+ pow5 = windreal * windreal + windimag * windimag;
+ /* if (count < 30) post("power %f", pow5); */
+ if (count < 5) continue;
+ /* check for a peak. The actual bin is count-3. */
+ if (pow3 <= pow2 || pow3 <= pow4 || pow3 <= pow1 || pow3 <= pow5
+ || pow3 < powthresh)
+ continue;
+ /* go back for the raw FFT values around the peak. */
+ rpeak = fpreal[-3].w_float;
+ rpeaknext = fpreal[-2].w_float;
+ rpeakprev = fpreal[-4].w_float;
+ ipeak = fpimag[-3].w_float;
+ ipeaknext = fpimag[-2].w_float;
+ ipeakprev = fpimag[-4].w_float;
+ /* recalculate Hanning-windowed spectrum by convolution */
+ windreal = rpeak - 0.5 * (rpeaknext + rpeakprev);
+ windimag = ipeak - 0.5 * (ipeaknext + ipeakprev);
+
+ detune = ((rpeakprev - rpeaknext) *
+ (2.0 * rpeak - rpeakprev - rpeaknext) +
+ (ipeakprev - ipeaknext) *
+ (2.0 * ipeak - ipeakprev - ipeaknext)) /
+ (4.0 * pow3);
+ /* if (count < 30) post("detune %f", detune); */
+ if (detune > 0.7 || detune < -0.7) continue;
+ /* the frequency is the sum of the bin frequency and detuning */
+ freqout = fperbin * ((t_float)(count-3) + detune);
+ pidetune = pi * detune;
+ sinpidetune = sin(pidetune);
+ cospidetune = cos(pidetune);
+ ampcorrect = 1.0 / hanning(pidetune, sinpidetune);
+ /* Multiply by 2 to get real-sinusoid peak amplitude
+ and divide by N to normalize FFT */
+ ampcorrect *= 2. * oneovern;
+ /* amplitude is peak height, corrected for Hanning window shape */
+
+ ampout = ampcorrect * sqrt(pow3);
+ ampoutreal = ampcorrect *
+ (windreal * cospidetune - windimag * sinpidetune);
+ ampoutimag = ampcorrect *
+ (windreal * sinpidetune + windimag * cospidetune);
+ if (errthresh > 0)
+ {
+ /* post("peak %f %f", freqout, ampout); */
+ errleft = peakerror(fpreal-4, fpimag-4, pidetune+pi,
+ 2. * oneovern, ampoutreal, ampoutimag);
+ errright = peakerror(fpreal-2, fpimag-2, pidetune-pi,
+ 2. * oneovern, ampoutreal, ampoutimag);
+ relativeerror = (errleft + errright)/(ampout * ampout);
+ if (relativeerror > errthresh) continue;
+ }
+ /* post("power %f, error %f, relative %f",
+ pow3, errleft + errright, relativeerror); */
+ *fpfreq++ = freqout;
+ *fpamp++ = ampout;
+ *fpampre++ = ampoutreal;
+ *fpampim++ = ampoutimag;
+ if (++peakcount == npeak) break;
+ }
+ *nfound = peakcount;
+}
+
+static void pique_list(t_pique *x, t_symbol *s, int argc, t_atom *argv)
+{
+ int npts = atom_getintarg(0, argc, argv);
+ t_symbol *symreal = atom_getsymbolarg(1, argc, argv);
+ t_symbol *symimag = atom_getsymbolarg(2, argc, argv);
+ int npeak = atom_getintarg(3, argc, argv);
+ int n;
+ t_garray *a;
+ t_word *fpreal, *fpimag;
+ if (npts < 8 || npeak < 1) error("pique: bad npoints or npeak");
+ if (npeak > x->x_n) npeak = x->x_n;
+ if (!(a = (t_garray *)pd_findbyclass(symreal, garray_class)) ||
+ !garray_getfloatwords(a, &n, &fpreal) ||
+ n < npts)
+ error("%s: missing or bad array", symreal->s_name);
+ else if (!(a = (t_garray *)pd_findbyclass(symimag, garray_class)) ||
+ !garray_getfloatwords(a, &n, &fpimag) ||
+ n < npts)
+ error("%s: missing or bad array", symimag->s_name);
+ else
+ {
+ int nfound, i;
+ t_float *fpfreq = x->x_freq;
+ t_float *fpamp = x->x_amp;
+ t_float *fpampre = x->x_ampre;
+ t_float *fpampim = x->x_ampim;
+ pique_doit(npts, fpreal, fpimag, npeak,
+ &nfound, fpfreq, fpamp, fpampre, fpampim, x->x_errthresh);
+ for (i = 0; i < nfound; i++, fpamp++, fpfreq++, fpampre++, fpampim++)
+ {
+ t_atom at[5];
+ SETFLOAT(at, (t_float)i);
+ SETFLOAT(at+1, *fpfreq);
+ SETFLOAT(at+2, *fpamp);
+ SETFLOAT(at+3, *fpampre);
+ SETFLOAT(at+4, *fpampim);
+ outlet_list(x->x_obj.ob_outlet, &s_list, 5, at);
+ }
+ }
+}
+
+static void pique_errthresh(t_pique *x, t_floatarg f)
+{
+ x->x_errthresh = f;
+}
+
+static void pique_free(t_pique *x)
+{
+ int n = x->x_n;
+ t_freebytes(x->x_freq, n * sizeof(*x->x_freq));
+ t_freebytes(x->x_amp, n * sizeof(*x->x_amp));
+ t_freebytes(x->x_ampre, n * sizeof(*x->x_ampre));
+ t_freebytes(x->x_ampim, n * sizeof(*x->x_ampim));
+}
+
+void pique_setup(void)
+{
+ pique_class = class_new(gensym("pique"), (t_newmethod)pique_new,
+ (t_method)pique_free, sizeof(t_pique),0, A_DEFFLOAT, 0);
+ class_addlist(pique_class, pique_list);
+ class_addmethod(pique_class, (t_method)pique_errthresh,
+ gensym("errthresh"), A_FLOAT, 0);
+ post("pique 0.1 for PD version 23");
+}
+
diff --git a/externals/extra/0.43.2/rev1-final.pd b/externals/extra/0.43.2/rev1-final.pd
new file mode 100644
index 00000000..0ed091c4
--- /dev/null
+++ b/externals/extra/0.43.2/rev1-final.pd
@@ -0,0 +1,106 @@
+#N canvas 133 53 729 468 10;
+#X obj 72 240 inlet~;
+#X obj 347 28 loadbang;
+#X obj 90 376 +~;
+#X obj 52 408 +~;
+#X obj 52 437 outlet~;
+#X obj 409 96 pow;
+#X obj 372 118 *;
+#X floatatom 372 159;
+#X obj 82 264 *~ 0;
+#X obj 177 175 pow;
+#X text 386 140 delay \, msec;
+#X floatatom 201 237;
+#X obj 190 150 * 0.001;
+#X text 206 220 gain for this stage;
+#X obj 103 327 *~ 0;
+#X obj 201 202 *;
+#X text 25 13 Allpass filter for mono reverberator. Arg 1 = delay name \, arg2 = stage number \, arg 3 = delay time;
+#X obj 373 76 8;
+#X obj 409 75 1.79;
+#X obj 114 175 0.7;
+#X obj 363 50 t b b b b;
+#X obj 177 108 0;
+#X obj 372 207 abs;
+#X obj 372 229 moses 0.01;
+#X obj 443 229 print wrong-delay-time;
+#X obj 233 391 inlet~;
+#X obj 219 419 +~;
+#X obj 219 443 outlet~;
+#X text 74 83 decay after;
+#X text 85 98 1 second;
+#X obj 83 119 r \$1-decay;
+#X obj 327 262 r \$1-clear;
+#X obj 240 298 0;
+#X obj 327 281 t b;
+#X obj 327 344 delay;
+#X obj 327 322 + 5;
+#X obj 158 279 delread~ \$2 \$4;
+#X obj 90 397 delwrite~ \$2 \$4;
+#X obj 327 302 f \$4;
+#X obj 371 184 - \$4;
+#X obj 446 75 float \$3;
+#X obj 241 318 1;
+#X obj 158 300 *~ 1;
+#X obj 52 298 *~ 0;
+#X obj 10 209 t b f f;
+#X obj 28 233 *;
+#X obj 10 256 -;
+#X obj 41 258 * -1;
+#X obj 11 297 *~ 0;
+#X obj 214 181 sqrt;
+#X connect 0 0 8 0;
+#X connect 1 0 20 0;
+#X connect 2 0 37 0;
+#X connect 3 0 4 0;
+#X connect 3 0 26 0;
+#X connect 5 0 6 1;
+#X connect 6 0 7 0;
+#X connect 6 0 12 0;
+#X connect 7 0 39 0;
+#X connect 8 0 43 0;
+#X connect 8 0 48 0;
+#X connect 9 0 15 0;
+#X connect 9 0 14 1;
+#X connect 12 0 9 1;
+#X connect 14 0 2 1;
+#X connect 14 0 3 1;
+#X connect 15 0 11 0;
+#X connect 15 0 8 1;
+#X connect 17 0 6 0;
+#X connect 18 0 5 0;
+#X connect 18 0 49 0;
+#X connect 19 0 44 0;
+#X connect 19 0 47 0;
+#X connect 20 0 21 0;
+#X connect 20 0 19 0;
+#X connect 20 1 17 0;
+#X connect 20 2 18 0;
+#X connect 20 3 40 0;
+#X connect 21 0 9 0;
+#X connect 22 0 23 0;
+#X connect 23 1 24 0;
+#X connect 25 0 26 1;
+#X connect 26 0 27 0;
+#X connect 30 0 9 0;
+#X connect 31 0 33 0;
+#X connect 32 0 42 1;
+#X connect 33 0 32 0;
+#X connect 33 0 38 0;
+#X connect 34 0 41 0;
+#X connect 35 0 34 0;
+#X connect 36 0 42 0;
+#X connect 38 0 35 0;
+#X connect 39 0 22 0;
+#X connect 40 0 5 1;
+#X connect 41 0 42 1;
+#X connect 42 0 14 0;
+#X connect 43 0 3 0;
+#X connect 44 0 46 0;
+#X connect 44 1 45 0;
+#X connect 44 2 45 1;
+#X connect 45 0 46 1;
+#X connect 46 0 48 1;
+#X connect 47 0 43 1;
+#X connect 48 0 2 0;
+#X connect 49 0 15 1;
diff --git a/externals/extra/0.43.2/rev1-stage.pd b/externals/extra/0.43.2/rev1-stage.pd
new file mode 100644
index 00000000..c1ee6574
--- /dev/null
+++ b/externals/extra/0.43.2/rev1-stage.pd
@@ -0,0 +1,99 @@
+#N canvas 86 133 729 452 10;
+#X obj 27 238 inlet~;
+#X obj 347 28 loadbang;
+#X obj 171 281 * -1;
+#X obj 36 353 +~;
+#X obj 69 395 +~;
+#X obj 69 424 outlet~;
+#X obj 409 96 pow;
+#X obj 372 118 *;
+#X floatatom 372 159;
+#X obj 37 262 *~ 0;
+#X obj 177 175 pow;
+#X text 408 162 delay \, msec;
+#X floatatom 177 238;
+#X obj 190 150 * 0.001;
+#X text 182 221 gain for this stage;
+#X obj 49 332 *~ 0;
+#X obj 47 375 *~ 0;
+#X obj 177 203 *;
+#X floatatom 409 119;
+#X text 25 13 Allpass filter for mono reverberator. Arg 1 = delay name \, arg2 = stage number \, arg 3 = delay time;
+#X obj 373 76 8;
+#X obj 409 75 1.79;
+#X obj 68 185 0.7;
+#X obj 363 50 t b b b b;
+#X obj 177 108 0;
+#X obj 372 207 abs;
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index 00000000..55580bd5
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+#X text 143 226 dB after;
+#X text 220 245 clear;
+#X text 1 51 impulse;
+#X text 362 7 tone;
+#X text 484 31 beeps;
+#X text 428 167 This is an experimental reverberator design composed
+of a series of allpass filters with exponentially growing delay times.
+Each allpass filter has a gain of 0.7. The reverb time is adjusted
+by adjusting the input gains of the allpass filters. The last unit
+is modified so that its first two "echos" mimic those of an allpass
+but its loop gain depends on reverb time.;
+#X text 430 299 Reverb time is controlled by specifying the dB gain
+(100 normal) after one second \, so that 100 corresponds to infinite
+reverb time \, 70 to two seconds \, 40 to one second \, and 0 to 0
+;
+#X text 671 499 modified for Pd version 0.30.;
+#X msg 560 34 \; pd dsp 1;
+#X text 427 475 The rev1~ module eats about 18% of my 300mHz P2 machine.
+;
+#X obj 148 289 rev1~;
+#X text 428 381 The "clear" button impolitely clears out all the delay
+lines \, You may immediately resume pumping the reverberator \, but
+the input signal should be cleanly enveloped. The output \, too \,
+must be enveloped and may not be opened until 5 msec after the "clear"
+message is sent.;
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+#X text 282 65 reverb decay speed;
+#X text 278 79 (dB left after 1 sec);
+#X text 425 84 bang to clear;
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+#X text 136 96 tone;
+#X text 135 112 pitch;
+#X text 114 185 level \, dB;
+#X floatatom 117 209 0 0 100 0 - - -;
+#X text 158 209 liveness \, 0-100;
+#X text 505 330 modified for Pd version 0.37;
+#X floatatom 161 235 0 0 120 0 - - -;
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+#X text 192 235 crossover frequency \, Hz.;
+#X text 238 260 HF damping \, percent;
+#X obj 30 290 rev2~ 100 90 3000 20;
+#X text 141 324 output level \, dB;
+#X text 281 8 REV2~ - a simple 1-in \, 4-out reverberator;
+#X text 95 35 tone;
+#X text 96 52 bursts;
+#X text 231 37 The creation arguments (level \, liveness \, crossover
+frequency \, HF damping) may also be supplied in four inlets as shown.
+The "liveness" (actually the internal feedback percentage) should be
+100 for infinite reverb \, 90 for longish \, and 80 for short. The
+crossover frequency and HF damping work together: at frequencies above
+crossover \, the feedback is diminished by the "damping" as a percentage.
+So zero HF damping means equal reverb time at all frequencies \, and
+100% damping means almost nothing above the crossover frequency gets
+through.;
+#X text 132 130 (60 for;
+#X text 115 150 middle C);
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+#X text 403 10 control inlets:;
+#X text 9 9 rev2 - simple \, cheap reverberator with;
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+#X text 8 30 one signal inlet and four signal outlets.;
+#X text 399 79 4: high frequency damping \, 0-100;
+#X text 400 62 3: crossover frequency in Hz. (3000 default);
+#X text 400 45 2: liveness \, 0-100 \, usually between 85 and 100;
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index 00000000..78ef15f5
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new file mode 100644
index 00000000..5ddbf6d1
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+#N canvas 167 -7 580 617 12;
+#X text 42 4 sigmund~ - sinusoidal analysis and pitch tracking;
+#N canvas 432 117 573 597 using-with-tables 0;
+#X obj 29 368 print peak;
+#N canvas 0 0 450 300 (subpatch) 0;
+#X array insignal 1024 float 2;
+#X coords 0 1 1023 -1 200 140 1;
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+#X text 114 11 Using sigmund~ on arrays;
+#X text 42 33 If invoked with the "-t" flag (as a creation argument)
+\, sigmund~ analyzes waveforms stored in arrays. Instead of an incoming
+signal \, feed it "list" messages with the following arguments:;
+#X text 37 118 table name (a symbol);
+#X text 38 137 number of points;
+#X obj 29 342 sigmund~ -t -npeak 10 -maxfreq 5000 peaks;
+#X msg 29 316 list insignal 1024 0 44100 0;
+#X text 37 158 index of first point;
+#X text 39 179 sample rate;
+#X text 38 200 debug flag (print debugging info if nonzero);
+#X text 23 232 In this mode \, only the "env" \, "pitch" \, and "peaks"
+outputs are meaningful.;
+#X text 31 294 click here to test:;
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+#X text 38 579 pitch;
+#X text 222 582 envelope;
+#X text 13 28 Sigmund~ analyzes an incoming sound into sinusoidal components
+\, which may be reported individually or combined to form a pitch estimate.
+Possible outputs are specified as creation arguments:;
+#X text 56 95 pitch - output pitch continuously;
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+#X obj 182 139 sigmund~ -minpower 40;
+#X text 39 14 You can set parameters either by creation arguments \,
+or else using messages. The "print" message gives you the current values
+of all the parameters:;
+#X text 28 169 npts: number of points used in an analysis. Must be
+a power of two \, at least 128 The minimum frequency that can be tracked
+is about 2(sample_rate)/npts.;
+#X text 26 219 hop: number of points between analyses. Must be a power
+of two \, at least the DSP vector size (usually 64). This regulates
+the number of analyses done per unit of time.;
+#X text 28 271 npeak: maximum number of sinusoidal peaks to look for.
+The computation time is quadratic in the number of peaks actually found
+(this number only sets an upper limit). Use it to balance CPU time
+with quality of results.;
+#X text 30 336 maxfreq: maximum frequency of sinusoidal peaks to look
+for. This can be useful in situations where background noise creates
+high-frequency \, spurious peaks..;
+#X text 37 388 vibrato: maximum deviation from "pitch" to accept as
+normal vibrato (affects "notes" output only). If the value is too small.
+vibratos will appear as trills. If too large \, very small melodic
+intervals may not be reported as new notes.;
+#X text 33 457 stabletime: time period to wait before reporting a note
+(affects "notes" output only). The "pitch" must be present and must
+not vary more than "vibrato" for this entire period to report a note.
+If too large \, the "notes" will be unnecessarily delayed. If too small
+\, spurious notes get output.;
+#X text 31 551 minpower: minimum measured RMS level to report a pitch
+(affects "pitch" and "notes" output only). Signals quieter than this
+will be assumed to be crosstalk and ignored.;
+#X text 32 602 growth: minimum measured RMS growth to report a new
+note (affects "notes" output only). The RMS level must rise by this
+many dB (within a time period given by "stabletime") to report a repetition
+of a note at or near the previously output pitch.;
+#X connect 0 0 3 0;
+#X connect 1 0 2 0;
+#X connect 2 0 3 0;
+#X restore 330 531 pd setting-parameters;
+#N canvas 67 29 641 815 sinusoid-tracking 0;
+#X obj 124 267 sigmund~ -npeak 10 peaks;
+#X obj 124 214 phasor~;
+#X obj 124 144 loadbang;
+#X floatatom 124 190 5 0 120 0 - - -;
+#X obj 124 295 route 0 1 2 3 4 5 6 7 8 9;
+#X obj 82 339 unpack 0 0 0 0;
+#X floatatom 82 461 5 0 0 0 - - -;
+#X floatatom 122 431 5 0 0 0 - - -;
+#X floatatom 162 406 5 0 0 0 - - -;
+#X obj 124 167 440;
+#X floatatom 203 380 5 0 0 0 - - -;
+#X obj 322 349 unpack 0 0 0 0;
+#X floatatom 322 471 5 0 0 0 - - -;
+#X floatatom 362 441 5 0 0 0 - - -;
+#X floatatom 402 416 5 0 0 0 - - -;
+#X floatatom 443 390 5 0 0 0 - - -;
+#X text 385 475 frequency (Hz.);
+#X text 419 442 peak amplitude (linear);
+#X text 464 416 cosine component;
+#X text 499 390 sine component;
+#X text 79 505 loudest partial;
+#X text 332 508 quietest partial;
+#X text 36 4 You can ask for sinusoidal peaks in decreasing order of
+amplitude or arranged into maximally continuous tracks for resynthesis.
+(Or you can ask for both.) If you ask for peaks \, out come lists of
+five numbers \, one for each sinusoid at each analysis period. The
+first is the index number of the sinusoid (so you can use "route" to
+claw them apart). The other four are as shown:;
+#X obj 204 611 osc~ 440;
+#X obj 204 635 *~;
+#X obj 205 689 unpack 0 0 0 0;
+#X floatatom 205 782 5 0 0 0 - - -;
+#X floatatom 245 760 5 0 0 0 - - -;
+#X floatatom 285 737 5 0 0 0 - - -;
+#X floatatom 326 713 5 0 0 0 - - -;
+#X obj 246 638 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0
+1;
+#X text 43 535 If you ask for "tracks" \, the output is four numbers:
+index \, frequency \, and amplitude as before \, and finally a flag
+which is one for a new track \, zero for a continuation \, minus one
+for an empty track.;
+#X obj 205 662 sigmund~ -npts 16384 -hop 8192 -npeak 1 tracks;
+#X connect 0 0 4 0;
+#X connect 1 0 0 0;
+#X connect 2 0 9 0;
+#X connect 3 0 1 0;
+#X connect 4 0 5 0;
+#X connect 4 9 11 0;
+#X connect 5 0 6 0;
+#X connect 5 1 7 0;
+#X connect 5 2 8 0;
+#X connect 5 3 10 0;
+#X connect 9 0 3 0;
+#X connect 11 0 12 0;
+#X connect 11 1 13 0;
+#X connect 11 2 14 0;
+#X connect 11 3 15 0;
+#X connect 23 0 24 0;
+#X connect 24 0 32 0;
+#X connect 25 0 26 0;
+#X connect 25 1 27 0;
+#X connect 25 2 28 0;
+#X connect 25 3 29 0;
+#X connect 30 0 24 1;
+#X connect 32 0 25 0;
+#X restore 330 508 pd sinusoid-tracking;
+#X text 52 165 tracks - output sinusoidal peaks organized into tracks
+;
+#X text 56 111 notes - output pitch at the beginning of notes;
+#X text 339 485 more details:;
+#X text 10 184 Parameters you may set (in creation arguments or messages):
+;
+#X text 60 207 npts - number of points in each analysis window (1024)
+;
+#X text 60 225 hop - number of points between each analysis (512);
+#X text 60 242 npeak - number of sinusoidal peaks (20);
+#X text 61 279 vibrato - depth of vibrato to expect in 1/2-tones (1)
+;
+#X text 60 298 stabletime - time (msec) to wait to report notes (50)
+;
+#X obj 39 535 sigmund~ -hop 4096 pitch env;
+#X text 62 316 minpower - minimum power (dB) to report a pitch (50)
+;
+#X text 62 335 growth - growth (dB) to report a new note (7);
+#X text 54 147 peaks - output all sinusoidal peaks in order of amplitude
+;
+#X text 11 356 The npts and hop parameters are in samples \, and are
+powers of two. The example below specifies a huge hop of 4096 (to slow
+the output down) and to output "pitch" and "env". (Those are the default
+outputs.);
+#X text 61 260 maxfreq - maximum sinusoid frequency in Hz. (1000000)
+;
+#X text 55 128 env - output amplitude continuously;
+#X text 380 596 updated for Pd v0.41;
+#X connect 2 0 24 0;
+#X connect 3 0 8 0;
+#X connect 4 0 7 0;
+#X connect 7 0 2 0;
+#X connect 8 0 4 0;
+#X connect 24 0 5 0;
+#X connect 24 1 6 0;
diff --git a/externals/extra/0.43.2/sigmund~/sigmund~.c b/externals/extra/0.43.2/sigmund~/sigmund~.c
new file mode 100644
index 00000000..5d1d72f6
--- /dev/null
+++ b/externals/extra/0.43.2/sigmund~/sigmund~.c
@@ -0,0 +1,1655 @@
+/* Copyright (c) 2005 Miller Puckette. BSD licensed. No warranties. */
+
+/*
+ fix parameter settings
+ not to report pitch if evidence too scanty?
+ note-on detection triggered by falling envelope (a posteriori)
+ reentrancy bug setting loud flag (other parameters too?)
+ tweaked freqs still not stable enough
+ implement block ("-b") mode
+*/
+
+#ifdef PD
+#include "m_pd.h"
+#endif
+#ifdef MSP
+#include "ext.h"
+#include "z_dsp.h"
+#include "ext_support.h"
+#include "ext_proto.h"
+#include "ext_obex.h"
+typedef double t_floatarg;
+#define t_resizebytes(a, b, c) t_resizebytes((char *)(a), (b), (c))
+#endif
+
+/* From here to the next "#ifdef PD" or "#ifdef Max" should be extractable
+and usable in other contexts. The one external requirement is a real
+single-precision FFT, invoked as in the Mayer one: */
+
+#ifdef _MSC_VER /* this is only needed with Microsoft's compiler */
+__declspec(dllimport) extern
+#endif
+void mayer_realfft(int npoints, t_sample *buf);
+
+/* this routine is passed a buffer of npoints values, and returns the
+N/2+1 real parts of the DFT (frequency zero through Nyquist), followed
+by the N/2-1 imaginary points, in order of decreasing frequency. Pd 0.41,
+for example, defines this in the file d_fft_mayer.c or d_fft_fftsg.c. */
+
+#include <math.h>
+#include <stdio.h>
+#include <string.h>
+#ifdef _WIN32
+#include <malloc.h>
+#elif ! defined(_MSC_VER)
+#include <alloca.h>
+#endif
+#include <stdlib.h>
+#ifdef _MSC_VER
+#pragma warning( disable : 4244 )
+#pragma warning( disable : 4305 )
+#endif
+
+typedef struct peak
+{
+ t_float p_freq;
+ t_float p_amp;
+ t_float p_ampreal;
+ t_float p_ampimag;
+ t_float p_pit;
+ t_float p_db;
+ t_float p_salience;
+ t_float p_tmp;
+} t_peak;
+
+/********************** service routines **************************/
+
+/* these three are dapted from elsewhere in Pd but included here for
+cmolpeteness */
+static int sigmund_ilog2(int n)
+{
+ int ret = -1;
+ while (n)
+ {
+ n >>= 1;
+ ret++;
+ }
+ return (ret);
+}
+
+static t_float sigmund_ftom(t_float f)
+{
+ return (f > 0 ? 17.3123405046 * log(.12231220585 * f) : -1500);
+}
+
+#define LOGTEN 2.302585092994
+static t_float sigmund_powtodb(t_float f)
+{
+ if (f <= 0) return (0);
+ else
+ {
+ t_float val = 100 + 10./LOGTEN * log(f);
+ return (val < 0 ? 0 : val);
+ }
+}
+
+/* parameters for von Hann window (change these to get Hamming if desired) */
+#define W_ALPHA 0.5
+#define W_BETA 0.5
+#define NEGBINS 4 /* number of bins of negative frequency we'll need */
+
+#define PI 3.141592653589793
+#define LOG2 0.693147180559945
+#define LOG10 2.302585092994046
+
+static t_float sinx(t_float theta, t_float sintheta)
+{
+ if (theta > -0.003 && theta < 0.003)
+ return (1);
+ else return (sintheta/theta);
+}
+
+static t_float window_hann_mag(t_float pidetune, t_float sinpidetune)
+{
+ return (W_ALPHA * sinx(pidetune, sinpidetune)
+ - 0.5 * W_BETA *
+ (sinx(pidetune+PI, sinpidetune) + sinx(pidetune-PI, sinpidetune)));
+}
+
+static t_float window_mag(t_float pidetune, t_float cospidetune)
+{
+ return (sinx(pidetune + (PI/2), cospidetune)
+ + sinx(pidetune - (PI/2), -cospidetune));
+}
+
+/*********** Routines to analyze a window into sinusoidal peaks *************/
+
+static int sigmund_cmp_freq(const void *p1, const void *p2)
+{
+ if ((*(t_peak **)p1)->p_freq > (*(t_peak **)p2)->p_freq)
+ return (1);
+ else if ((*(t_peak **)p1)->p_freq < (*(t_peak **)p2)->p_freq)
+ return (-1);
+ else return (0);
+}
+
+static void sigmund_tweak(int npts, t_float *ftreal, t_float *ftimag,
+ int npeak, t_peak *peaks, t_float fperbin, int loud)
+{
+ t_peak **peakptrs = (t_peak **)alloca(sizeof (*peakptrs) * (npeak+1));
+ t_peak negpeak;
+ int peaki, j, k;
+ t_float ampreal[3], ampimag[3];
+ t_float binperf = 1./fperbin;
+ t_float phaseperbin = (npts-0.5)/npts, oneovern = 1./npts;
+ if (npeak < 1)
+ return;
+ for (peaki = 0; peaki < npeak; peaki++)
+ peakptrs[peaki+1] = &peaks[peaki];
+ qsort(peakptrs+1, npeak, sizeof (*peakptrs), sigmund_cmp_freq);
+ peakptrs[0] = &negpeak;
+ negpeak.p_ampreal = peakptrs[1]->p_ampreal;
+ negpeak.p_ampimag = -peakptrs[1]->p_ampimag;
+ negpeak.p_freq = -peakptrs[1]->p_freq;
+ for (peaki = 1; peaki <= npeak; peaki++)
+ {
+ int cbin = peakptrs[peaki]->p_freq*binperf + 0.5;
+ int nsub = (peaki == npeak ? 1:2);
+ t_float windreal, windimag, windpower, detune, pidetune, sinpidetune,
+ cospidetune, ampcorrect, ampout, ampoutreal, ampoutimag, freqout;
+ /* post("3 nsub %d amp %f freq %f", nsub,
+ peakptrs[peaki]->p_amp, peakptrs[peaki]->p_freq); */
+ if (cbin < 0 || cbin > 2*npts - 3)
+ continue;
+ for (j = 0; j < 3; j++)
+ ampreal[j] = ftreal[cbin+2*j-2], ampimag[j] = ftimag[cbin+2*j-2];
+ /* post("a %f %f", ampreal[1], ampimag[1]); */
+ for (j = 0; j < nsub; j++)
+ {
+ t_peak *neighbor = peakptrs[(peaki-1) + 2*j];
+ t_float neighborreal = npts * neighbor->p_ampreal;
+ t_float neighborimag = npts * neighbor->p_ampimag;
+ for (k = 0; k < 3; k++)
+ {
+ t_float freqdiff = (0.5*PI) * ((cbin + 2*k-2)
+ -binperf * neighbor->p_freq);
+ t_float sx = sinx(freqdiff, sin(freqdiff));
+ t_float phasere = cos(freqdiff * phaseperbin);
+ t_float phaseim = sin(freqdiff * phaseperbin);
+ ampreal[k] -=
+ sx * (phasere * neighborreal - phaseim * neighborimag);
+ ampimag[k] -=
+ sx * (phaseim * neighborreal + phasere * neighborimag);
+ }
+ /* post("b %f %f", ampreal[1], ampimag[1]); */
+ }
+
+ windreal = W_ALPHA * ampreal[1] -
+ (0.5 * W_BETA) * (ampreal[0] + ampreal[2]);
+ windimag = W_ALPHA * ampimag[1] -
+ (0.5 * W_BETA) * (ampimag[0] + ampimag[2]);
+ windpower = windreal * windreal + windimag * windimag;
+ detune = (
+ W_BETA*(ampreal[0] - ampreal[2]) *
+ (2.0*W_ALPHA * ampreal[1] - W_BETA * (ampreal[0] + ampreal[2]))
+ +
+ W_BETA*(ampimag[0] - ampimag[2]) *
+ (2.0*W_ALPHA * ampimag[1] - W_BETA * (ampimag[0] + ampimag[2]))
+ ) / (4.0 * windpower);
+ if (detune > 0.5)
+ detune = 0.5;
+ else if (detune < -0.5)
+ detune = -0.5;
+ /* if (loud > 0)
+ post("tweak: windpower %f, bin %d, detune %f",
+ windpower, cbin, detune); */
+ pidetune = PI * detune;
+ sinpidetune = sin(pidetune);
+ cospidetune = cos(pidetune);
+
+ ampcorrect = 1.0 / window_hann_mag(pidetune, sinpidetune);
+
+ ampout = oneovern * ampcorrect *sqrt(windpower);
+ ampoutreal = oneovern * ampcorrect *
+ (windreal * cospidetune - windimag * sinpidetune);
+ ampoutimag = oneovern * ampcorrect *
+ (windreal * sinpidetune + windimag * cospidetune);
+ freqout = (cbin + 2*detune) * fperbin;
+ /* if (loud > 1)
+ post("amp %f, freq %f", ampout, freqout); */
+
+ peakptrs[peaki]->p_freq = freqout;
+ peakptrs[peaki]->p_amp = ampout;
+ peakptrs[peaki]->p_ampreal = ampoutreal;
+ peakptrs[peaki]->p_ampimag = ampoutimag;
+ }
+}
+
+static void sigmund_remask(int maxbin, int bestindex, t_float powmask,
+ t_float maxpower, t_float *maskbuf)
+{
+ int bin;
+ int bin1 = (bestindex > 52 ? bestindex-50:2);
+ int bin2 = (maxbin < bestindex + 50 ? bestindex + 50 : maxbin);
+ for (bin = bin1; bin < bin2; bin++)
+ {
+ t_float bindiff = bin - bestindex;
+ t_float mymask;
+ mymask = powmask/ (1. + bindiff * bindiff * bindiff * bindiff);
+ if (bindiff < 2 && bindiff > -2)
+ mymask = 2*maxpower;
+ if (mymask > maskbuf[bin])
+ maskbuf[bin] = mymask;
+ }
+}
+
+#define PEAKMASKFACTOR 1.
+#define PEAKTHRESHFACTOR 0.6
+
+static void sigmund_getrawpeaks(int npts, t_float *insamps,
+ int npeak, t_peak *peakv, int *nfound, t_float *power, t_float srate, int loud,
+ t_float hifreq)
+{
+ t_float oneovern = 1.0/ (t_float)npts;
+ t_float fperbin = 0.5 * srate * oneovern, totalpower = 0;
+ int npts2 = 2*npts, i, bin;
+ int peakcount = 0;
+ t_float *fp1, *fp2;
+ t_float *rawreal, *rawimag, *maskbuf, *powbuf;
+ t_float *bigbuf = alloca(sizeof (t_float ) * (2*NEGBINS + 6*npts));
+ int maxbin = hifreq/fperbin;
+ if (maxbin > npts - NEGBINS)
+ maxbin = npts - NEGBINS;
+ /* if (loud) post("tweak %d", tweak); */
+ maskbuf = bigbuf + npts2;
+ powbuf = maskbuf + npts;
+ rawreal = powbuf + npts+NEGBINS;
+ rawimag = rawreal+npts+NEGBINS;
+ for (i = 0; i < npts; i++)
+ maskbuf[i] = 0;
+
+ for (i = 0; i < npts; i++)
+ bigbuf[i] = insamps[i];
+ for (i = npts; i < 2*npts; i++)
+ bigbuf[i] = 0;
+ mayer_realfft(npts2, bigbuf);
+ for (i = 0; i < npts; i++)
+ rawreal[i] = bigbuf[i];
+ for (i = 1; i < npts-1; i++)
+ rawimag[i] = bigbuf[npts2-i];
+ rawreal[-1] = rawreal[1];
+ rawreal[-2] = rawreal[2];
+ rawreal[-3] = rawreal[3];
+ rawreal[-4] = rawreal[4];
+ rawimag[0] = rawimag[npts-1] = 0;
+ rawimag[-1] = -rawimag[1];
+ rawimag[-2] = -rawimag[2];
+ rawimag[-3] = -rawimag[3];
+ rawimag[-4] = -rawimag[4];
+#if 1
+ for (i = 0, fp1 = rawreal, fp2 = rawimag; i < maxbin; i++, fp1++, fp2++)
+ {
+ t_float x1 = fp1[1] - fp1[-1], x2 = fp2[1] - fp2[-1], p = powbuf[i] = x1*x1+x2*x2;
+ if (i >= 2)
+ totalpower += p;
+ }
+ powbuf[maxbin] = powbuf[maxbin+1] = 0;
+ *power = 0.5 * totalpower *oneovern * oneovern;
+#endif
+ for (peakcount = 0; peakcount < npeak; peakcount++)
+ {
+ t_float pow1, maxpower = 0, windreal, windimag, windpower,
+ detune, pidetune, sinpidetune, cospidetune, ampcorrect, ampout,
+ ampoutreal, ampoutimag, freqout, powmask;
+ int bestindex = -1;
+
+ for (bin = 2, fp1 = rawreal+2, fp2 = rawimag+2;
+ bin < maxbin; bin++, fp1++, fp2++)
+ {
+ pow1 = powbuf[bin];
+ if (pow1 > maxpower && pow1 > maskbuf[bin])
+ {
+ t_float thresh = PEAKTHRESHFACTOR * (powbuf[bin-2]+powbuf[bin+2]);
+ if (pow1 > thresh)
+ maxpower = pow1, bestindex = bin;
+ }
+ }
+
+ if (totalpower <= 0 || maxpower < 1e-10*totalpower || bestindex < 0)
+ break;
+ fp1 = rawreal+bestindex;
+ fp2 = rawimag+bestindex;
+ powmask = maxpower * PEAKMASKFACTOR;
+ /* if (loud > 2)
+ post("maxpower %f, powmask %f, param1 %f",
+ maxpower, powmask, param1); */
+ sigmund_remask(maxbin, bestindex, powmask, maxpower, maskbuf);
+
+ /* if (loud > 1)
+ post("best index %d, total power %f", bestindex, totalpower); */
+
+ windreal = fp1[1] - fp1[-1];
+ windimag = fp2[1] - fp2[-1];
+ windpower = windreal * windreal + windimag * windimag;
+ detune = ((fp1[1] * fp1[1] - fp1[-1]*fp1[-1])
+ + (fp2[1] * fp2[1] - fp2[-1]*fp2[-1])) / (2 * windpower);
+
+ if (detune > 0.5)
+ detune = 0.5;
+ else if (detune < -0.5)
+ detune = -0.5;
+ /* if (loud > 1)
+ post("windpower %f, index %d, detune %f",
+ windpower, bestindex, detune); */
+ pidetune = PI * detune;
+ sinpidetune = sin(pidetune);
+ cospidetune = cos(pidetune);
+ ampcorrect = 1.0 / window_mag(pidetune, cospidetune);
+
+ ampout = ampcorrect *sqrt(windpower);
+ ampoutreal = ampcorrect *
+ (windreal * cospidetune - windimag * sinpidetune);
+ ampoutimag = ampcorrect *
+ (windreal * sinpidetune + windimag * cospidetune);
+
+ /* the frequency is the sum of the bin frequency and detuning */
+
+ peakv[peakcount].p_freq = (freqout = (bestindex + 2*detune)) * fperbin;
+ peakv[peakcount].p_amp = oneovern * ampout;
+ peakv[peakcount].p_ampreal = oneovern * ampoutreal;
+ peakv[peakcount].p_ampimag = oneovern * ampoutimag;
+ }
+ sigmund_tweak(npts, rawreal, rawimag, peakcount, peakv, fperbin, loud);
+ sigmund_tweak(npts, rawreal, rawimag, peakcount, peakv, fperbin, loud);
+ for (i = 0; i < peakcount; i++)
+ {
+ peakv[i].p_pit = sigmund_ftom(peakv[i].p_freq);
+ peakv[i].p_db = sigmund_powtodb(peakv[i].p_amp);
+ }
+ *nfound = peakcount;
+}
+
+/*************** Routines for finding fundamental pitch *************/
+
+#define PITCHNPEAK 12
+#define HALFTONEINC 0.059
+#define SUBHARMONICS 16
+#define DBPERHALFTONE 0.0
+
+static void sigmund_getpitch(int npeak, t_peak *peakv, t_float *freqp,
+ t_float npts, t_float srate, t_float nharmonics, t_float amppower, int loud)
+{
+ t_float fperbin = 0.5 * srate / npts;
+ int npit = 48 * sigmund_ilog2(npts), i, j, k, nsalient;
+ t_float bestbin, bestweight, sumamp, sumweight, sumfreq, freq;
+ t_float *weights = (t_float *)alloca(sizeof(t_float) * npit);
+ t_peak *bigpeaks[PITCHNPEAK];
+ if (npeak < 1)
+ {
+ freq = 0;
+ goto done;
+ }
+ for (i = 0; i < npit; i++)
+ weights[i] = 0;
+ for (i = 0; i < npeak; i++)
+ {
+ peakv[i].p_tmp = 0;
+ peakv[i].p_salience = peakv[i].p_db - DBPERHALFTONE * peakv[i].p_pit;
+ }
+ for (nsalient = 0; nsalient < PITCHNPEAK; nsalient++)
+ {
+ t_peak *bestpeak = 0;
+ t_float bestsalience = -1e20;
+ for (j = 0; j < npeak; j++)
+ if (peakv[j].p_tmp == 0 && peakv[j].p_salience > bestsalience)
+ {
+ bestsalience = peakv[j].p_salience;
+ bestpeak = &peakv[j];
+ }
+ if (!bestpeak)
+ break;
+ bigpeaks[nsalient] = bestpeak;
+ bestpeak->p_tmp = 1;
+ /* post("peak f=%f a=%f", bestpeak->p_freq, bestpeak->p_amp); */
+ }
+ sumweight = 0;
+ for (i = 0; i < nsalient; i++)
+ {
+ t_peak *thispeak = bigpeaks[i];
+ t_float weightindex = (48./LOG2) *
+ log(thispeak->p_freq/(2.*fperbin));
+ t_float loudness = pow(thispeak->p_amp, amppower);
+ /* post("index %f, uncertainty %f", weightindex, pitchuncertainty); */
+ for (j = 0; j < SUBHARMONICS; j++)
+ {
+ t_float subindex = weightindex -
+ (48./LOG2) * log(j + 1.);
+ int loindex = subindex - 0.5;
+ int hiindex = loindex+2;
+ if (hiindex < 0)
+ break;
+ if (hiindex >= npit)
+ continue;
+ if (loindex < 0)
+ loindex = 0;
+ for (k = loindex; k <= hiindex; k++)
+ weights[k] += loudness * nharmonics / (nharmonics + j);
+ }
+ sumweight += loudness;
+ }
+ bestbin = -1;
+ bestweight = -1e20;
+ for (i = 0; i < npit; i++)
+ if (weights[i] > bestweight)
+ bestweight = weights[i], bestbin = i;
+ if (bestweight < sumweight * 0.4)
+ bestbin = -1;
+
+ if (bestbin < 0)
+ {
+ freq = 0;
+ goto done;
+ }
+ if (bestbin > 0 && bestbin < npit-1)
+ {
+ int ibest = bestbin;
+ bestbin += (weights[ibest+1] - weights[ibest-1]) /
+ (weights[ibest+1] + weights[ibest] + weights[ibest-1]);
+ }
+ freq = 2*fperbin * exp((LOG2/48.)*bestbin);
+ for (sumamp = sumweight = sumfreq = 0, i = 0; i < nsalient; i++)
+ {
+ t_peak *thispeak = bigpeaks[i];
+ t_float thisloudness = thispeak->p_amp;
+ t_float thisfreq = thispeak->p_freq;
+ t_float harmonic = thisfreq/freq;
+ t_float intpart = (int)(0.5 + harmonic);
+ t_float inharm = harmonic - intpart;
+#if 0
+ if (loud)
+ post("freq %f intpart %f inharm %f", freq, intpart, inharm);
+#endif
+ if (intpart >= 1 && intpart <= 16 &&
+ inharm < 0.015 * intpart && inharm > - (0.015 * intpart))
+ {
+ t_float weight = thisloudness * intpart;
+ sumweight += weight;
+ sumfreq += weight*thisfreq/intpart;
+#if 0
+ if (loud)
+ post("weight %f freq %f", weight, thisfreq);
+#endif
+ }
+ }
+ if (sumweight > 0)
+ freq = sumfreq / sumweight;
+done:
+ if (!(freq >= 0 || freq <= 0))
+ {
+ /* post("freq nan cancelled"); */
+ freq = 0;
+ }
+ *freqp = freq;
+}
+
+/*************** gather peak lists into sinusoidal tracks *************/
+
+static void sigmund_peaktrack(int ninpeak, t_peak *inpeakv,
+ int noutpeak, t_peak *outpeakv, int loud)
+{
+ int incnt, outcnt;
+ for (outcnt = 0; outcnt < noutpeak; outcnt++)
+ outpeakv[outcnt].p_tmp = -1;
+
+ /* first pass. Match each "in" peak with the closest previous
+ "out" peak, but no two to the same one. */
+ for (incnt = 0; incnt < ninpeak; incnt++)
+ {
+ t_float besterror = 1e20;
+ int bestcnt = -1;
+ inpeakv[incnt].p_tmp = -1;
+ for (outcnt = 0; outcnt < noutpeak; outcnt++)
+ {
+ t_float thiserror =
+ inpeakv[incnt].p_freq - outpeakv[outcnt].p_freq;
+ if (thiserror < 0)
+ thiserror = -thiserror;
+ if (thiserror < besterror)
+ {
+ besterror = thiserror;
+ bestcnt = outcnt;
+ }
+ }
+ if (outpeakv[bestcnt].p_tmp < 0)
+ {
+ outpeakv[bestcnt] = inpeakv[incnt];
+ inpeakv[incnt].p_tmp = 0;
+ outpeakv[bestcnt].p_tmp = 0;
+ }
+ }
+ /* second pass. Unmatched "in" peaks assigned to free "out"
+ peaks */
+ for (incnt = 0; incnt < ninpeak; incnt++)
+ if (inpeakv[incnt].p_tmp < 0)
+ {
+ for (outcnt = 0; outcnt < noutpeak; outcnt++)
+ if (outpeakv[outcnt].p_tmp < 0)
+ {
+ outpeakv[outcnt] = inpeakv[incnt];
+ inpeakv[incnt].p_tmp = 0;
+ outpeakv[outcnt].p_tmp = 1;
+ break;
+ }
+ }
+ for (outcnt = 0; outcnt < noutpeak; outcnt++)
+ if (outpeakv[outcnt].p_tmp == -1)
+ outpeakv[outcnt].p_amp = 0;
+}
+
+/**************** parse continuous pitch into note starts ***************/
+
+#define NHISTPOINT 100
+
+typedef struct _histpoint
+{
+ t_float h_freq;
+ t_float h_power;
+} t_histpoint;
+
+typedef struct _notefinder
+{
+ t_float n_age;
+ t_float n_hifreq;
+ t_float n_lofreq;
+ int n_peaked;
+ t_histpoint n_hist[NHISTPOINT];
+ int n_histphase;
+} t_notefinder;
+
+
+static void notefinder_init(t_notefinder *x)
+{
+ int i;
+ x->n_peaked = x->n_age = 0;
+ x->n_hifreq = x->n_lofreq = 0;
+ x->n_histphase = 0;
+ for (i = 0; i < NHISTPOINT; i++)
+ x->n_hist[i].h_freq =x->n_hist[i].h_power = 0;
+}
+
+static void notefinder_doit(t_notefinder *x, t_float freq, t_float power,
+ t_float *note, t_float vibrato, int stableperiod, t_float powerthresh,
+ t_float growththresh, int loud)
+{
+ /* calculate frequency ratio between allowable vibrato extremes
+ (equal to twice the vibrato deviation from center) */
+ t_float vibmultiple = exp((2*LOG2/12) * vibrato);
+ int oldhistphase, i, k;
+ if (stableperiod > NHISTPOINT - 1)
+ stableperiod = NHISTPOINT - 1;
+ else if (stableperiod < 1)
+ stableperiod = 1;
+ if (++x->n_histphase == NHISTPOINT)
+ x->n_histphase = 0;
+ x->n_hist[x->n_histphase].h_freq = freq;
+ x->n_hist[x->n_histphase].h_power = power;
+ x->n_age++;
+ *note = 0;
+#if 0
+ if (loud)
+ {
+ post("stable %d, age %d, vibmultiple %f, powerthresh %f, hifreq %f",
+ stableperiod, (int)x->n_age ,vibmultiple, powerthresh, x->n_hifreq);
+ post("histfreq %f %f %f %f",
+ x->n_hist[x->n_histphase].h_freq,
+ x->n_hist[(x->n_histphase+NHISTPOINT-1)%NHISTPOINT].h_freq,
+ x->n_hist[(x->n_histphase+NHISTPOINT-2)%NHISTPOINT].h_freq,
+ x->n_hist[(x->n_histphase+NHISTPOINT-3)%NHISTPOINT].h_freq);
+ post("power %f %f %f %f",
+ x->n_hist[x->n_histphase].h_power,
+ x->n_hist[(x->n_histphase+NHISTPOINT-1)%NHISTPOINT].h_power,
+ x->n_hist[(x->n_histphase+NHISTPOINT-2)%NHISTPOINT].h_power,
+ x->n_hist[(x->n_histphase+NHISTPOINT-3)%NHISTPOINT].h_power);
+ for (i = 0, k = x->n_histphase; i < stableperiod; i++)
+ {
+ post("pit %5.1f pow %f", sigmund_ftom(x->n_hist[k].h_freq),
+ x->n_hist[k].h_power);
+ if (--k < 0)
+ k = NHISTPOINT - 1;
+ }
+ }
+#endif
+ /* look for shorter notes than "stableperiod" in length.
+ The amplitude must rise and then fall while the pitch holds
+ steady. */
+ if (x->n_hifreq <= 0 && x->n_age > stableperiod)
+ {
+ t_float maxpow = 0, freqatmaxpow = 0,
+ localhifreq = -1e20, locallofreq = 1e20;
+ int startphase = x->n_histphase - stableperiod + 1;
+ if (startphase < 0)
+ startphase += NHISTPOINT;
+ for (i = 0, k = startphase; i < stableperiod; i++)
+ {
+ if (x->n_hist[k].h_freq <= 0)
+ break;
+ if (x->n_hist[k].h_power > maxpow)
+ maxpow = x->n_hist[k].h_power,
+ freqatmaxpow = x->n_hist[k].h_freq;
+ if (x->n_hist[k].h_freq > localhifreq)
+ localhifreq = x->n_hist[k].h_freq;
+ if (x->n_hist[k].h_freq < locallofreq)
+ locallofreq = x->n_hist[k].h_freq;
+ if (localhifreq > locallofreq * vibmultiple)
+ break;
+ if (maxpow > power * growththresh &&
+ maxpow > x->n_hist[startphase].h_power * growththresh &&
+ localhifreq < vibmultiple * locallofreq
+ && freqatmaxpow > 0 && maxpow > powerthresh)
+ {
+ x->n_hifreq = x->n_lofreq = *note = freqatmaxpow;
+ x->n_age = 0;
+ x->n_peaked = 0;
+ /* post("got short note"); */
+ return;
+ }
+ if (++k >= NHISTPOINT)
+ k = 0;
+ }
+
+ }
+ if (x->n_hifreq > 0)
+ {
+ /* test if we're within "vibrato" range, and if so update range */
+ if (freq * vibmultiple >= x->n_hifreq &&
+ x->n_lofreq * vibmultiple >= freq)
+ {
+ if (freq > x->n_hifreq)
+ x->n_hifreq = freq;
+ if (freq < x->n_lofreq)
+ x->n_lofreq = freq;
+ }
+ else if (x->n_hifreq > 0 && x->n_age > stableperiod)
+ {
+ /* if we've been out of range at least 1/2 the
+ last "stableperiod+1" analyses, clear the note */
+ int nbad = 0;
+ for (i = 0, k = x->n_histphase; i < stableperiod + 1; i++)
+ {
+ if (--k < 0)
+ k = NHISTPOINT - 1;
+ if (x->n_hist[k].h_freq * vibmultiple <= x->n_hifreq ||
+ x->n_lofreq * vibmultiple <= x->n_hist[k].h_freq)
+ nbad++;
+ }
+ if (2 * nbad >= stableperiod + 1)
+ {
+ x->n_hifreq = x->n_lofreq = 0;
+ x->n_age = 0;
+ }
+ }
+ }
+
+ oldhistphase = x->n_histphase - stableperiod;
+ if (oldhistphase < 0)
+ oldhistphase += NHISTPOINT;
+
+ /* look for envelope attacks */
+
+ if (x->n_hifreq > 0 && x->n_peaked)
+ {
+ if (freq > 0 && power > powerthresh &&
+ power > x->n_hist[oldhistphase].h_power *
+ exp((LOG10*0.1)*growththresh))
+ {
+ /* clear it and fall through for new stable-note test */
+ x->n_peaked = 0;
+ x->n_hifreq = x->n_lofreq = 0;
+ x->n_age = 0;
+ }
+ }
+ else if (!x->n_peaked)
+ {
+ if (x->n_hist[oldhistphase].h_power > powerthresh &&
+ x->n_hist[oldhistphase].h_power > power)
+ x->n_peaked = 1;
+ }
+
+ /* test for a new note using a stability criterion. */
+
+ if (freq >= 0 &&
+ (x->n_hifreq <= 0 || freq > x->n_hifreq || freq < x->n_lofreq))
+ {
+ t_float testfhi = freq, testflo = freq,
+ maxpow = x->n_hist[x->n_histphase].h_freq;
+ for (i = 0, k = x->n_histphase; i < stableperiod-1; i++)
+ {
+ if (--k < 0)
+ k = NHISTPOINT - 1;
+ if (x->n_hist[k].h_freq > testfhi)
+ testfhi = x->n_hist[k].h_freq;
+ if (x->n_hist[k].h_freq < testflo)
+ testflo = x->n_hist[k].h_freq;
+ if (x->n_hist[k].h_power > maxpow)
+ maxpow = x->n_hist[k].h_power;
+ }
+#if 0
+ if (loud)
+ post("freq %.2g testfhi %.2g testflo %.2g maxpow %.2g",
+ freq, testfhi, testflo, maxpow);
+#endif
+ if (testflo > 0 && testfhi <= vibmultiple * testflo
+ && maxpow > powerthresh)
+ {
+ /* report new note */
+ t_float sumf = 0, sumw = 0, thisw;
+ for (i = 0, k = x->n_histphase; i < stableperiod; i++)
+ {
+ thisw = x->n_hist[k].h_power;
+ sumw += thisw;
+ sumf += thisw*x->n_hist[k].h_freq;
+ if (--k < 0)
+ k = NHISTPOINT - 1;
+ }
+ x->n_hifreq = x->n_lofreq = *note = (sumw > 0 ? sumf/sumw : 0);
+#if 0
+ /* debugging printout */
+ for (i = 0; i < stableperiod; i++)
+ {
+ int k3 = x->n_histphase - i;
+ if (k3 < 0)
+ k3 += NHISTPOINT;
+ startpost("%5.1f ", sigmund_ftom(x->n_hist[k3].h_freq));
+ }
+ post("");
+#endif
+ x->n_age = 0;
+ x->n_peaked = 0;
+ return;
+ }
+ }
+ *note = 0;
+ return;
+}
+
+/**************** object structure for Pd and Max. *********************/
+
+/* From here onward, the code is specific to eithr Pd, Max, or both. If
+neither "PD 'nor "MSP" is defined, none of this is compiled, so that the
+whole file can be included in other, non-PD and non-Max projects. */
+
+#if (defined(PD) || defined (MSP))
+
+#define NHIST 100
+
+#define MODE_STREAM 1
+#define MODE_BLOCK 2 /* unimplemented */
+#define MODE_TABLE 3
+
+#define NPOINTS_DEF 1024
+#define NPOINTS_MIN 128
+
+#define HOP_DEF 512
+#define NPEAK_DEF 20
+
+#define VIBRATO_DEF 1
+#define STABLETIME_DEF 50
+#define MINPOWER_DEF 50
+#define GROWTH_DEF 7
+
+#define OUT_PITCH 0
+#define OUT_ENV 1
+#define OUT_NOTE 2
+#define OUT_PEAKS 3
+#define OUT_TRACKS 4
+#define OUT_SMSPITCH 5
+#define OUT_SMSNONPITCH 6
+
+typedef struct _varout
+{
+#ifdef PD
+ t_outlet *v_outlet;
+#endif /* PD */
+#ifdef MSP
+ void *v_outlet;
+#endif /* MSP */
+ int v_what;
+} t_varout;
+
+typedef struct _sigmund
+{
+#ifdef PD
+ t_object x_obj;
+ t_clock *x_clock;
+ t_float x_f; /* for main signal inlet */
+#endif /* PD */
+#ifdef MSP
+ t_pxobject x_obj;
+ void *obex;
+ void *x_clock;
+ t_sample *x_inbuf2; /* extra input buffer to eat clock/DSP jitter */
+#endif /* MSP */
+ t_varout *x_varoutv;
+ int x_nvarout;
+ t_float x_sr; /* sample rate */
+ int x_mode; /* MODE_STREAM, etc. */
+ int x_npts; /* number of points in analysis window */
+ int x_npeak; /* number of peaks to find */
+ int x_loud; /* debug level */
+ t_sample *x_inbuf; /* input buffer */
+ int x_infill; /* number of points filled */
+ int x_countdown; /* countdown to start filling buffer */
+ int x_hop; /* samples between analyses */
+ t_float x_maxfreq; /* highest-frequency peak to report */
+ t_float x_vibrato; /* vibrato depth in half tones */
+ t_float x_stabletime; /* period of stability needed for note */
+ t_float x_growth; /* growth to set off a new note */
+ t_float x_minpower; /* minimum power, in DB, for a note */
+ t_float x_param1; /* three parameters for temporary use */
+ t_float x_param2;
+ t_float x_param3;
+ t_notefinder x_notefinder; /* note parsing state */
+ t_peak *x_trackv; /* peak tracking state */
+ int x_ntrack; /* number of peaks tracked */
+ unsigned int x_dopitch:1; /* which things to calculate */
+ unsigned int x_donote:1;
+ unsigned int x_dotracks:1;
+} t_sigmund;
+
+static void sigmund_preinit(t_sigmund *x)
+{
+ x->x_npts = NPOINTS_DEF;
+ x->x_param1 = 6;
+ x->x_param2 = 0.5;
+ x->x_param3 = 0;
+ x->x_hop = HOP_DEF;
+ x->x_mode = MODE_STREAM;
+ x->x_npeak = NPEAK_DEF;
+ x->x_vibrato = VIBRATO_DEF;
+ x->x_stabletime = STABLETIME_DEF;
+ x->x_growth = GROWTH_DEF;
+ x->x_minpower = MINPOWER_DEF;
+ x->x_maxfreq = 1000000;
+ x->x_loud = 0;
+ x->x_sr = 1;
+ x->x_nvarout = 0;
+ x->x_varoutv = (t_varout *)getbytes(0);
+ x->x_trackv = 0;
+ x->x_ntrack = 0;
+ x->x_dopitch = x->x_donote = x->x_dotracks = 0;
+ x->x_inbuf = 0;
+#ifdef MSP
+ x->x_inbuf2 = 0;
+#endif
+}
+
+static void sigmund_npts(t_sigmund *x, t_floatarg f)
+{
+ int nwas = x->x_npts, npts = f;
+ /* check parameter ranges */
+ if (npts < NPOINTS_MIN)
+ post("sigmund~: minimum points %d", NPOINTS_MIN),
+ npts = NPOINTS_MIN;
+ if (npts != (1 << sigmund_ilog2(npts)))
+ post("sigmund~: adjusting analysis size to %d points",
+ (npts = (1 << sigmund_ilog2(npts))));
+ if (npts != nwas)
+ x->x_countdown = x->x_infill = 0;
+ if (x->x_mode == MODE_STREAM)
+ {
+ if (x->x_inbuf)
+ {
+ x->x_inbuf = (t_sample *)t_resizebytes(x->x_inbuf,
+ sizeof(*x->x_inbuf) * nwas, sizeof(*x->x_inbuf) * npts);
+#ifdef MSP
+ x->x_inbuf2 = (t_sample *)t_resizebytes(x->x_inbuf2,
+ sizeof(*x->x_inbuf2) * nwas, sizeof(*x->x_inbuf2) * npts);
+#endif
+ }
+ else
+ {
+ x->x_inbuf = (t_sample *)getbytes(sizeof(*x->x_inbuf) * npts);
+ memset((char *)(x->x_inbuf), 0, sizeof(*x->x_inbuf) * npts);
+#ifdef MSP
+ x->x_inbuf2 = (t_sample *)getbytes(sizeof(*x->x_inbuf2) * npts);
+ memset((char *)(x->x_inbuf2), 0, sizeof(*x->x_inbuf2) * npts);
+#endif
+ }
+ }
+ else x->x_inbuf = 0;
+ x->x_npts = npts;
+}
+
+static void sigmund_hop(t_sigmund *x, t_floatarg f)
+{
+ x->x_hop = f;
+ /* check parameter ranges */
+ if (x->x_hop != (1 << sigmund_ilog2(x->x_hop)))
+ post("sigmund~: adjusting analysis size to %d points",
+ (x->x_hop = (1 << sigmund_ilog2(x->x_hop))));
+}
+
+static void sigmund_npeak(t_sigmund *x, t_floatarg f)
+{
+ if (f < 1)
+ f = 1;
+ x->x_npeak = f;
+}
+
+static void sigmund_maxfreq(t_sigmund *x, t_floatarg f)
+{
+ x->x_maxfreq = f;
+}
+
+static void sigmund_vibrato(t_sigmund *x, t_floatarg f)
+{
+ if (f < 0)
+ f = 0;
+ x->x_vibrato = f;
+}
+
+static void sigmund_stabletime(t_sigmund *x, t_floatarg f)
+{
+ if (f < 0)
+ f = 0;
+ x->x_stabletime = f;
+}
+
+static void sigmund_growth(t_sigmund *x, t_floatarg f)
+{
+ if (f < 0)
+ f = 0;
+ x->x_growth = f;
+}
+
+static void sigmund_minpower(t_sigmund *x, t_floatarg f)
+{
+ if (f < 0)
+ f = 0;
+ x->x_minpower = f;
+}
+
+static void sigmund_doit(t_sigmund *x, int npts, t_float *arraypoints,
+ int loud, t_float srate)
+{
+ t_peak *peakv = (t_peak *)alloca(sizeof(t_peak) * x->x_npeak);
+ int nfound, i, cnt;
+ t_float freq = 0, power, note = 0;
+ sigmund_getrawpeaks(npts, arraypoints, x->x_npeak, peakv,
+ &nfound, &power, srate, loud, x->x_maxfreq);
+ if (x->x_dopitch)
+ sigmund_getpitch(nfound, peakv, &freq, npts, srate,
+ x->x_param1, x->x_param2, loud);
+ if (x->x_donote)
+ notefinder_doit(&x->x_notefinder, freq, power, &note, x->x_vibrato,
+ 1 + x->x_stabletime * 0.001 * x->x_sr / (t_float)x->x_hop,
+ exp(LOG10*0.1*(x->x_minpower - 100)), x->x_growth, loud);
+ if (x->x_dotracks)
+ sigmund_peaktrack(nfound, peakv, x->x_ntrack, x->x_trackv, loud);
+
+ for (cnt = x->x_nvarout; cnt--;)
+ {
+ t_varout *v = &x->x_varoutv[cnt];
+ switch (v->v_what)
+ {
+ case OUT_PITCH:
+ outlet_float(v->v_outlet, sigmund_ftom(freq));
+ break;
+ case OUT_ENV:
+ outlet_float(v->v_outlet, sigmund_powtodb(power));
+ break;
+ case OUT_NOTE:
+ if (note > 0)
+ outlet_float(v->v_outlet, sigmund_ftom(note));
+ break;
+ case OUT_PEAKS:
+ for (i = 0; i < nfound; i++)
+ {
+ t_atom at[5];
+ SETFLOAT(at, (t_float)i);
+ SETFLOAT(at+1, peakv[i].p_freq);
+ SETFLOAT(at+2, 2*peakv[i].p_amp);
+ SETFLOAT(at+3, 2*peakv[i].p_ampreal);
+ SETFLOAT(at+4, 2*peakv[i].p_ampimag);
+ outlet_list(v->v_outlet, 0, 5, at);
+ }
+ break;
+ case OUT_TRACKS:
+ for (i = 0; i < x->x_ntrack; i++)
+ {
+ t_atom at[4];
+ SETFLOAT(at, (t_float)i);
+ SETFLOAT(at+1, x->x_trackv[i].p_freq);
+ SETFLOAT(at+2, 2*x->x_trackv[i].p_amp);
+ SETFLOAT(at+3, x->x_trackv[i].p_tmp);
+ outlet_list(v->v_outlet, 0, 4, at);
+ }
+ break;
+ }
+ }
+}
+
+static t_int *sigmund_perform(t_int *w);
+static void sigmund_dsp(t_sigmund *x, t_signal **sp)
+{
+ if (x->x_mode == MODE_STREAM)
+ {
+ if (x->x_hop % sp[0]->s_n)
+ post("sigmund: adjusting hop size to %d",
+ (x->x_hop = sp[0]->s_n * (x->x_hop / sp[0]->s_n)));
+ x->x_sr = sp[0]->s_sr;
+ dsp_add(sigmund_perform, 3, x, sp[0]->s_vec, sp[0]->s_n);
+ }
+}
+
+static void sigmund_print(t_sigmund *x)
+{
+ post("sigmund~ settings:");
+ post("npts %d", (int)x->x_npts);
+ post("hop %d", (int)x->x_hop);
+ post("npeak %d", (int)x->x_npeak);
+ post("maxfreq %g", x->x_maxfreq);
+ post("vibrato %g", x->x_vibrato);
+ post("stabletime %g", x->x_stabletime);
+ post("growth %g", x->x_growth);
+ post("minpower %g", x->x_minpower);
+ x->x_loud = 1;
+}
+
+static void sigmund_free(t_sigmund *x)
+{
+ if (x->x_inbuf)
+ {
+ freebytes(x->x_inbuf, x->x_npts * sizeof(*x->x_inbuf));
+#ifdef MSP
+ freebytes(x->x_inbuf2, x->x_npts * sizeof(*x->x_inbuf2));
+#endif
+ }
+ if (x->x_trackv)
+ freebytes(x->x_trackv, x->x_ntrack * sizeof(*x->x_trackv));
+ clock_free(x->x_clock);
+}
+
+#endif /* PD or MSP */
+/*************************** Glue for Pd ************************/
+#ifdef PD
+
+static t_class *sigmund_class;
+
+static void sigmund_tick(t_sigmund *x);
+static void sigmund_clear(t_sigmund *x);
+static void sigmund_npts(t_sigmund *x, t_floatarg f);
+static void sigmund_hop(t_sigmund *x, t_floatarg f);
+static void sigmund_npeak(t_sigmund *x, t_floatarg f);
+static void sigmund_maxfreq(t_sigmund *x, t_floatarg f);
+static void sigmund_vibrato(t_sigmund *x, t_floatarg f);
+static void sigmund_stabletime(t_sigmund *x, t_floatarg f);
+static void sigmund_growth(t_sigmund *x, t_floatarg f);
+static void sigmund_minpower(t_sigmund *x, t_floatarg f);
+
+static void sigmund_tick(t_sigmund *x)
+{
+ if (x->x_infill == x->x_npts)
+ {
+ sigmund_doit(x, x->x_npts, x->x_inbuf, x->x_loud, x->x_sr);
+ if (x->x_hop >= x->x_npts)
+ {
+ x->x_infill = 0;
+ x->x_countdown = x->x_hop - x->x_npts;
+ }
+ else
+ {
+ memmove(x->x_inbuf, x->x_inbuf + x->x_hop,
+ (x->x_infill = x->x_npts - x->x_hop) * sizeof(*x->x_inbuf));
+ x->x_countdown = 0;
+ }
+ if (x->x_loud)
+ x->x_loud--;
+ }
+}
+
+static t_int *sigmund_perform(t_int *w)
+{
+ t_sigmund *x = (t_sigmund *)(w[1]);
+ t_sample *in = (t_sample *)(w[2]);
+ int n = (int)(w[3]);
+
+ if (x->x_hop % n)
+ return (w+4);
+ if (x->x_countdown > 0)
+ x->x_countdown -= n;
+ else if (x->x_infill != x->x_npts)
+ {
+ int j;
+ t_float *fp = x->x_inbuf + x->x_infill;
+ for (j = 0; j < n; j++)
+ *fp++ = *in++;
+ x->x_infill += n;
+ if (x->x_infill == x->x_npts)
+ clock_delay(x->x_clock, 0);
+ }
+ return (w+4);
+}
+
+static void *sigmund_new(t_symbol *s, int argc, t_atom *argv)
+{
+ t_sigmund *x = (t_sigmund *)pd_new(sigmund_class);
+ sigmund_preinit(x);
+
+ while (argc > 0)
+ {
+ t_symbol *firstarg = atom_getsymbolarg(0, argc, argv);
+ if (!strcmp(firstarg->s_name, "-t"))
+ {
+ x->x_mode = MODE_TABLE;
+ argc--, argv++;
+ }
+ else if (!strcmp(firstarg->s_name, "-s"))
+ {
+ x->x_mode = MODE_STREAM;
+ argc--, argv++;
+ }
+#if 0
+ else if (!strcmp(firstarg->s_name, "-b"))
+ {
+ x->x_mode = MODE_BLOCK;
+ argc--, argv++;
+ }
+#endif
+ else if (!strcmp(firstarg->s_name, "-npts") && argc > 1)
+ {
+ x->x_npts = atom_getfloatarg(1, argc, argv);
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-hop") && argc > 1)
+ {
+ sigmund_hop(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-npeak") && argc > 1)
+ {
+ sigmund_npeak(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-maxfreq") && argc > 1)
+ {
+ sigmund_maxfreq(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-vibrato") && argc > 1)
+ {
+ sigmund_vibrato(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-stabletime") && argc > 1)
+ {
+ sigmund_stabletime(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-growth") && argc > 1)
+ {
+ sigmund_growth(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "-minpower") && argc > 1)
+ {
+ sigmund_minpower(x, atom_getfloatarg(1, argc, argv));
+ argc -= 2; argv += 2;
+ }
+ else if (!strcmp(firstarg->s_name, "pitch"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_outlet =
+ outlet_new(&x->x_obj, &s_float);
+ x->x_varoutv[x->x_nvarout].v_what = OUT_PITCH;
+ x->x_nvarout = n2;
+ x->x_dopitch = 1;
+ argc--, argv++;
+ }
+ else if (!strcmp(firstarg->s_name, "env"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_outlet =
+ outlet_new(&x->x_obj, &s_float);
+ x->x_varoutv[x->x_nvarout].v_what = OUT_ENV;
+ x->x_nvarout = n2;
+ argc--, argv++;
+ }
+ else if (!strcmp(firstarg->s_name, "note")
+ || !strcmp(firstarg->s_name, "notes"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_outlet =
+ outlet_new(&x->x_obj, &s_float);
+ x->x_varoutv[x->x_nvarout].v_what = OUT_NOTE;
+ x->x_nvarout = n2;
+ x->x_dopitch = x->x_donote = 1;
+ argc--, argv++;
+ }
+ else if (!strcmp(firstarg->s_name, "peaks"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_outlet =
+ outlet_new(&x->x_obj, &s_list);
+ x->x_varoutv[x->x_nvarout].v_what = OUT_PEAKS;
+ x->x_nvarout = n2;
+ argc--, argv++;
+ }
+ else if (!strcmp(firstarg->s_name, "tracks"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_outlet =
+ outlet_new(&x->x_obj, &s_list);
+ x->x_varoutv[x->x_nvarout].v_what = OUT_TRACKS;
+ x->x_nvarout = n2;
+ x->x_dotracks = 1;
+ argc--, argv++;
+ }
+ else
+ {
+ pd_error(x, "sigmund: %s: unknown flag or argument missing",
+ firstarg->s_name);
+ argc--, argv++;
+ }
+ }
+ if (!x->x_nvarout)
+ {
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ 0, 2*sizeof(t_varout));
+ x->x_varoutv[0].v_outlet = outlet_new(&x->x_obj, &s_float);
+ x->x_varoutv[0].v_what = OUT_PITCH;
+ x->x_varoutv[1].v_outlet = outlet_new(&x->x_obj, &s_float);
+ x->x_varoutv[1].v_what = OUT_ENV;
+ x->x_nvarout = 2;
+ x->x_dopitch = 1;
+ }
+ if (x->x_dotracks)
+ {
+ x->x_ntrack = x->x_npeak;
+ x->x_trackv = (t_peak *)getbytes(x->x_ntrack * sizeof(*x->x_trackv));
+ }
+ x->x_clock = clock_new(&x->x_obj.ob_pd, (t_method)sigmund_tick);
+
+ x->x_infill = 0;
+ x->x_countdown = 0;
+ sigmund_npts(x, x->x_npts);
+ notefinder_init(&x->x_notefinder);
+ sigmund_clear(x);
+ return (x);
+}
+
+static void sigmund_list(t_sigmund *x, t_symbol *s, int argc, t_atom *argv)
+{
+ t_symbol *syminput = atom_getsymbolarg(0, argc, argv);
+ int npts = atom_getintarg(1, argc, argv);
+ int onset = atom_getintarg(2, argc, argv);
+ t_float srate = atom_getfloatarg(3, argc, argv);
+ int loud = atom_getfloatarg(4, argc, argv);
+ int arraysize, totstorage, nfound, i;
+ t_garray *a;
+ t_float *arraypoints, pit;
+ t_word *wordarray = 0;
+ if (argc < 5)
+ {
+ post(
+ "sigmund: array-name, npts, array-onset, samplerate, loud");
+ return;
+ }
+ if (npts < 64 || npts != (1 << ilog2(npts)))
+ {
+ error("sigmund: bad npoints");
+ return;
+ }
+ if (onset < 0)
+ {
+ error("sigmund: negative onset");
+ return;
+ }
+ arraypoints = alloca(sizeof(t_float)*npts);
+ if (!(a = (t_garray *)pd_findbyclass(syminput, garray_class)) ||
+ !garray_getfloatwords(a, &arraysize, &wordarray) ||
+ arraysize < onset + npts)
+ {
+ error("%s: array missing or too small", syminput->s_name);
+ return;
+ }
+ if (arraysize < npts)
+ {
+ error("sigmund~: too few points in array");
+ return;
+ }
+ for (i = 0; i < npts; i++)
+ arraypoints[i] = wordarray[i+onset].w_float;
+ sigmund_doit(x, npts, arraypoints, loud, srate);
+}
+
+static void sigmund_clear(t_sigmund *x)
+{
+ if (x->x_trackv)
+ memset(x->x_trackv, 0, x->x_ntrack * sizeof(*x->x_trackv));
+ x->x_infill = x->x_countdown = 0;
+}
+
+ /* these are for testing; their meanings vary... */
+static void sigmund_param1(t_sigmund *x, t_floatarg f)
+{
+ x->x_param1 = f;
+}
+
+static void sigmund_param2(t_sigmund *x, t_floatarg f)
+{
+ x->x_param2 = f;
+}
+
+static void sigmund_param3(t_sigmund *x, t_floatarg f)
+{
+ x->x_param3 = f;
+}
+
+static void sigmund_printnext(t_sigmund *x, t_float f)
+{
+ x->x_loud = f;
+}
+
+void sigmund_tilde_setup(void)
+{
+ sigmund_class = class_new(gensym("sigmund~"), (t_newmethod)sigmund_new,
+ (t_method)sigmund_free, sizeof(t_sigmund), 0, A_GIMME, 0);
+ class_addlist(sigmund_class, sigmund_list);
+ class_addmethod(sigmund_class, (t_method)sigmund_dsp, gensym("dsp"), 0);
+ CLASS_MAINSIGNALIN(sigmund_class, t_sigmund, x_f);
+ class_addmethod(sigmund_class, (t_method)sigmund_param1,
+ gensym("param1"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_param2,
+ gensym("param2"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_param3,
+ gensym("param3"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_npts,
+ gensym("npts"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_hop,
+ gensym("hop"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_maxfreq,
+ gensym("maxfreq"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_npeak,
+ gensym("npeak"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_vibrato,
+ gensym("vibrato"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_stabletime,
+ gensym("stabletime"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_growth,
+ gensym("growth"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_minpower,
+ gensym("minpower"), A_FLOAT, 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_print,
+ gensym("print"), 0);
+ class_addmethod(sigmund_class, (t_method)sigmund_printnext,
+ gensym("printnext"), A_FLOAT, 0);
+ post("sigmund~ version 0.07");
+}
+
+#endif /* PD */
+
+/************************ Max/MSP glue **********************************/
+
+/* -------------------------- MSP glue ------------------------- */
+#ifdef MSP
+static void *sigmund_class;
+
+/* Max/MSP has laxer sync between DSP and "tick"s - so in the perf routine we
+keep a circular buffer that is rectified into inbuf only when the tick comes. */
+
+static void sigmund_tick(t_sigmund *x)
+{
+ int i, j, npts = x->x_npts;
+ if (!x->x_inbuf)
+ return;
+ for (i = x->x_infill, j = 0; i < npts; i++, j++)
+ x->x_inbuf[j] = x->x_inbuf2[i];
+ for (i = 0; j < npts; i++, j++)
+ x->x_inbuf[j] = x->x_inbuf2[i];
+ sigmund_doit(x, x->x_npts, x->x_inbuf, x->x_loud, x->x_sr);
+ x->x_loud = 0;
+}
+
+static t_int *sigmund_perform(t_int *w)
+{
+ t_sigmund *x = (t_sigmund *)(w[1]);
+ t_float *in = (t_float *)(w[2]);
+ int n = (int)(w[3]), j;
+ int infill = x->x_infill;
+ t_float *fp = x->x_inbuf2 + infill;
+
+ if (x->x_obj.z_disabled) /* return if in muted MSP subpatch -Rd */
+ return (w+4);
+
+ if (infill < 0 || infill >= x->x_npts)
+ infill = 0;
+ /* for some reason this sometimes happens: */
+ if (!x->x_inbuf2)
+ return (w+4);
+ for (j = 0; j < n; j++)
+ {
+ *fp++ = *in++;
+ if (++infill == x->x_npts)
+ infill = 0, fp = x->x_inbuf2;
+ }
+ x->x_infill = infill;
+ if (x->x_countdown <= 0)
+ {
+ x->x_countdown = x->x_hop;
+ clock_delay(x->x_clock, 0);
+ }
+ x->x_countdown -= n;
+ return (w+4);
+}
+
+static void *sigmund_new(t_symbol *s, long ac, t_atom *av)
+{
+ t_sigmund *x;
+ t_varout *g;
+ int i, j;
+ if (!(x = (t_sigmund *)object_alloc(sigmund_class)))
+ return (0);
+ sigmund_preinit(x);
+ attr_args_process(x, ac, av);
+ dsp_setup((t_pxobject *)x, 1);
+ object_obex_store(x, gensym("dumpout"), outlet_new(x, NULL));
+
+ for (i = 0; i < ac; i++)
+ if (av[i].a_type == A_SYM)
+ {
+ char *s = av[i].a_w.w_sym->s_name;
+ if (!strcmp(s, "pitch"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_what = OUT_PITCH;
+ x->x_nvarout = n2;
+ x->x_dopitch = 1;
+ }
+ else if (!strcmp(s, "env"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_what = OUT_ENV;
+ x->x_nvarout = n2;
+ }
+ else if (!strcmp(s, "note") || !strcmp(s, "notes"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_what = OUT_NOTE;
+ x->x_nvarout = n2;
+ x->x_dopitch = x->x_donote = 1;
+ }
+ else if (!strcmp(s, "peaks"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_what = OUT_PEAKS;
+ x->x_nvarout = n2;
+ }
+ else if (!strcmp(s, "tracks"))
+ {
+ int n2 = x->x_nvarout+1;
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ x->x_nvarout*sizeof(t_varout), n2*sizeof(t_varout));
+ x->x_varoutv[x->x_nvarout].v_what = OUT_TRACKS;
+ x->x_nvarout = n2;
+ x->x_dotracks = 1;
+ }
+ else if (s[0] != '@')
+ post("sigmund: ignoring unknown argument '%s'" ,s);
+ }
+ if (!x->x_nvarout)
+ {
+ x->x_varoutv = (t_varout *)t_resizebytes(x->x_varoutv,
+ 0, 2*sizeof(t_varout));
+ x->x_varoutv[0].v_what = OUT_PITCH;
+ x->x_varoutv[1].v_what = OUT_ENV;
+ x->x_nvarout = 2;
+ x->x_dopitch = 1;
+ }
+ for (j = 0, g = x->x_varoutv + x->x_nvarout-1; j < x->x_nvarout; j++, g--)
+ g->v_outlet = ((g->v_what == OUT_PITCH || g->v_what == OUT_ENV ||
+ g->v_what == OUT_NOTE) ?
+ floatout((t_object *)x) : listout((t_object *)x));
+ if (x->x_dotracks)
+ {
+ x->x_ntrack = x->x_npeak;
+ x->x_trackv = (t_peak *)getbytes(x->x_ntrack * sizeof(*x->x_trackv));
+ }
+ x->x_clock = clock_new(x, (method)sigmund_tick);
+ x->x_infill = 0;
+ x->x_countdown = 0;
+ sigmund_npts(x, x->x_npts);
+ notefinder_init(&x->x_notefinder);
+ return (x);
+}
+
+/* Attribute setters. */
+void sigmund_npts_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_npts(x, atom_getfloat(av));
+}
+
+void sigmund_hop_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_hop(x, atom_getfloat(av));
+}
+
+void sigmund_npeak_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_npeak(x, atom_getfloat(av));
+}
+
+void sigmund_maxfreq_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_maxfreq(x, atom_getfloat(av));
+}
+
+void sigmund_vibrato_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_vibrato(x, atom_getfloat(av));
+}
+
+void sigmund_stabletime_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_stabletime(x, atom_getfloat(av));
+}
+
+void sigmund_growth_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_growth(x, atom_getfloat(av));
+}
+
+void sigmund_minpower_set(t_sigmund *x, void *attr, long ac, t_atom *av)
+{
+ if (ac && av)
+ sigmund_minpower(x, atom_getfloat(av));
+}
+
+/* end attr setters */
+
+void sigmund_assist(t_sigmund *x, void *b, long m, long a, char *s)
+{
+}
+
+int main()
+{
+ t_class *c;
+ long attrflags = 0;
+ t_symbol *sym_long = gensym("long"), *sym_float32 = gensym("float32");
+
+ c = class_new("sigmund~", (method)sigmund_new,
+ (method)sigmund_free, sizeof(t_sigmund), (method)0L, A_GIMME, 0);
+
+ class_obexoffset_set(c, calcoffset(t_sigmund, obex));
+
+ class_addattr(c, attr_offset_new("npts", sym_long, attrflags,
+ (method)0L, (method)sigmund_npts_set,
+ calcoffset(t_sigmund, x_npts)));
+ class_addattr(c ,attr_offset_new("hop", sym_long, attrflags,
+ (method)0L, (method)sigmund_hop_set,
+ calcoffset(t_sigmund, x_hop)));
+ class_addattr(c ,attr_offset_new("maxfreq", sym_float32, attrflags,
+ (method)0L, (method)sigmund_maxfreq_set,
+ calcoffset(t_sigmund, x_maxfreq)));
+ class_addattr(c ,attr_offset_new("npeak", sym_long, attrflags,
+ (method)0L, (method)sigmund_npeak_set,
+ calcoffset(t_sigmund, x_npeak)));
+ class_addattr(c ,attr_offset_new("vibrato", sym_float32, attrflags,
+ (method)0L, (method)sigmund_vibrato_set,
+ calcoffset(t_sigmund, x_vibrato)));
+ class_addattr(c ,attr_offset_new("stabletime", sym_float32, attrflags,
+ (method)0L, (method)sigmund_stabletime_set,
+ calcoffset(t_sigmund, x_stabletime)));
+ class_addattr(c ,attr_offset_new("growth", sym_float32, attrflags,
+ (method)0L, (method)sigmund_growth_set,
+ calcoffset(t_sigmund, x_growth)));
+ class_addattr(c ,attr_offset_new("minpower", sym_float32, attrflags,
+ (method)0L, (method)sigmund_minpower_set,
+ calcoffset(t_sigmund, x_minpower)));
+
+ class_addmethod(c, (method)sigmund_dsp, "dsp", A_CANT, 0);
+ class_addmethod(c, (method)sigmund_print, "print", 0);
+ class_addmethod(c, (method)sigmund_print, "printnext", A_DEFFLOAT, 0);
+ class_addmethod(c, (method)sigmund_assist, "assist", A_CANT, 0);
+
+ class_addmethod(c, (method)object_obex_dumpout, "dumpout", A_CANT, 0);
+ class_addmethod(c, (method)object_obex_quickref, "quickref", A_CANT, 0);
+
+ class_dspinit(c);
+
+ class_register(CLASS_BOX, c);
+ sigmund_class = c;
+
+ post("sigmund~ version 0.07");
+ return (0);
+}
+
+
+#endif /* MSP */
+
+
diff --git a/externals/extra/0.43.2/stdout/stdout-help.pd b/externals/extra/0.43.2/stdout/stdout-help.pd
new file mode 100644
index 00000000..91edbc41
--- /dev/null
+++ b/externals/extra/0.43.2/stdout/stdout-help.pd
@@ -0,0 +1,19 @@
+#N canvas 121 60 488 321 12;
+#X msg 126 203 walk the dog;
+#X msg 117 156 1;
+#X obj 117 240 stdout;
+#X text 269 287 updated for Pd version 0.42;
+#X obj 14 13 stdout;
+#X text 67 14 - write messages to standard output;
+#X msg 122 179 1 2;
+#X obj 119 291 pd~;
+#X text 44 291 see also:;
+#X text 34 39 Sends messages to Pd's standard output. This is useful
+in conjunction with the pd~ object \, which starts a pd sub-process.
+Messages sent to the sub-process standard output appear on the output
+of the pd~ object in the owning process. This might also be useful
+in other situations. Note that there's no corresponding "stdin" object
+- there seems to be no one canonical way such a thing should act.;
+#X connect 0 0 2 0;
+#X connect 1 0 2 0;
+#X connect 6 0 2 0;
diff --git a/externals/extra/0.43.2/stdout/stdout.c b/externals/extra/0.43.2/stdout/stdout.c
new file mode 100644
index 00000000..5cd52f25
--- /dev/null
+++ b/externals/extra/0.43.2/stdout/stdout.c
@@ -0,0 +1,50 @@
+/* stdout -- write messages to standard output.
+
+ Copyright 2008 Miller Puckette
+ BSD license; see README.txt in this distribution for details.
+*/
+
+#include "m_pd.h"
+#include <stdio.h>
+#include <string.h>
+static t_class *stdout_class;
+
+typedef struct _stdout
+{
+ t_object x_obj;
+} t_stdout;
+
+static void *stdout_new(t_float fnonrepeat)
+{
+ t_stdout *x = (t_stdout *)pd_new(stdout_class);
+ return (x);
+}
+
+static void stdout_anything(t_stdout *x, t_symbol *s, int argc, t_atom *argv)
+{
+ char msgbuf[MAXPDSTRING], *sp, *ep = msgbuf+MAXPDSTRING;
+ msgbuf[0] = 0;
+ strncpy(msgbuf, s->s_name, MAXPDSTRING);
+ msgbuf[MAXPDSTRING-1] = 0;
+ sp = msgbuf + strlen(msgbuf);
+ while (argc--)
+ {
+ if (sp < ep-1)
+ sp[0] = ' ', sp[1] = 0, sp++;
+ atom_string(argv++, sp, ep-sp);
+ sp += strlen(sp);
+ }
+ printf("%s;\n", msgbuf);
+}
+
+static void stdout_free(t_stdout *x)
+{
+ fflush(stdout);
+}
+
+void stdout_setup(void)
+{
+ stdout_class = class_new(gensym("stdout"), (t_newmethod)stdout_new,
+ (t_method)stdout_free, sizeof(t_stdout), 0, 0);
+ class_addanything(stdout_class, stdout_anything);
+}