/* * PiDiP module. * Copyright (c) by Yves Degoyon (ydegoyon@free.fr) * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. * */ /* This object is an object allowing transitions between two video sources * "circle", "wipe", "random", "melt" and "blend" * Written by Yves Degoyon */ #include "pdp.h" #include #define BLEND_MAX 200 static char *pdp_transition_version = "pdp_transition: version 0.1, two sources transition, written by Yves Degoyon (ydegoyon@free.fr)"; typedef struct pdp_transition_struct { t_object x_obj; t_float x_f; t_outlet *x_outlet0; t_int x_packet0; t_int x_packet1; t_int x_packet; t_int x_dropped; t_int x_queue_id; t_int x_vwidth0; t_int x_vheight0; t_int x_vsize0; t_int x_vwidth1; t_int x_vheight1; t_int x_vsize1; t_int x_vwidth; t_int x_vheight; t_int x_vsize; t_int x_transition_mode; // 1 : "circle" t_int x_transition_pending; t_int x_current_source; t_int x_target_source; t_int x_pos; // current position for transition t_int x_inc; // increment for various mode t_int x_rand;// randomizing argument } t_pdp_transition; static t_int pdp_transition_min( t_int a, t_int b ) { if ( a == 0 ) return b; if ( b == 0 ) return a; if ( a < b ) return a; else return b; } static void pdp_transition_circle(t_pdp_transition *x, t_floatarg finc ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } x->x_transition_mode = 1; x->x_transition_pending = 1; } static void pdp_transition_wipelr(t_pdp_transition *x, t_floatarg finc, t_floatarg frand ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } if ( (int) frand >= 0 ) { x->x_rand = (int)frand; } x->x_transition_mode = 2; x->x_transition_pending = 1; } static void pdp_transition_wiperl(t_pdp_transition *x, t_floatarg finc, t_floatarg frand ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } if ( (int) frand >= 0 ) { x->x_rand = (int)frand; } x->x_transition_mode = 3; x->x_transition_pending = 1; x->x_pos = x->x_vwidth; } static void pdp_transition_mwipe(t_pdp_transition *x, t_floatarg finc, t_floatarg frand ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } if ( (int) frand >= 0 ) { x->x_rand = (int)frand; } x->x_transition_mode = 4; x->x_transition_pending = 1; x->x_pos = 0; } static void pdp_transition_wipetd(t_pdp_transition *x, t_floatarg finc, t_floatarg frand ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } if ( (int) frand >= 0 ) { x->x_rand = (int)frand; } x->x_transition_mode = 5; x->x_transition_pending = 1; x->x_pos = 0; } static void pdp_transition_wipebu(t_pdp_transition *x, t_floatarg finc, t_floatarg frand ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } if ( (int) frand >= 0 ) { x->x_rand = (int)frand; } x->x_transition_mode = 6; x->x_transition_pending = 1; x->x_pos = x->x_vheight; } static void pdp_transition_random(t_pdp_transition *x, t_floatarg finc ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } x->x_transition_mode = 7; x->x_transition_pending = 1; x->x_rand = x->x_vsize/(x->x_inc*(pdp_transition_min( x->x_vwidth, 100 ))); } static void pdp_transition_melt(t_pdp_transition *x, t_floatarg finc ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } x->x_transition_mode = 8; x->x_transition_pending = 1; x->x_rand = 20; } static void pdp_transition_blend(t_pdp_transition *x, t_floatarg finc, t_floatarg frand ) { if ( x->x_transition_pending ) { post ( "pdp_transition : a transition is already pending, retry later...." ); return; } if ( (int) finc > 0 ) { x->x_inc = (int)finc; } if ( (int) frand >= 0 ) { x->x_rand = (int)frand; } x->x_transition_mode = 9; x->x_transition_pending = 1; x->x_pos = 0; } static void pdp_transition_process_yv12(t_pdp_transition *x) { t_pdp *header0 = pdp_packet_header(x->x_packet0); short int *data0 = (short int *)pdp_packet_data(x->x_packet0); t_pdp *header1 = pdp_packet_header(x->x_packet1); short int *data1 = (short int *)pdp_packet_data(x->x_packet1); t_pdp *header; short int *data; t_int tsource, cx=0, cy=0; t_int px, py, rvalue=0; t_float factor; int i; short int *poY, *poV, *poU, *p0Y, *p0V, *p0U, *p1Y, *p1V, *p1U; if ( header0 ) { x->x_vwidth0 = header0->info.image.width; x->x_vheight0 = header0->info.image.height; x->x_vsize0 = x->x_vwidth0*x->x_vheight0; } else { x->x_vwidth0 = x->x_vheight0 = x->x_vsize0 = 0; } if ( header1 ) { x->x_vwidth1 = header1->info.image.width; x->x_vheight1 = header1->info.image.height; x->x_vsize1 = x->x_vwidth1*x->x_vheight1; } else { x->x_vwidth1 = x->x_vheight1 = x->x_vsize1 = 0; } x->x_vwidth = pdp_transition_min( x->x_vwidth0 , x->x_vwidth1); x->x_vheight = pdp_transition_min( x->x_vheight0 , x->x_vheight1); x->x_vsize = x->x_vwidth*x->x_vheight; // post( "pdp_transition : resulting frame : %dx%d", x->x_vwidth, x->x_vheight ); x->x_packet = pdp_packet_new_image_YCrCb( x->x_vwidth, x->x_vheight ); header = pdp_packet_header(x->x_packet); data = (short int *)pdp_packet_data(x->x_packet); header->info.image.encoding = PDP_IMAGE_YV12; header->info.image.width = x->x_vwidth; header->info.image.height = x->x_vheight; poY = data; poV = data+x->x_vsize; poU = data+x->x_vsize+(x->x_vsize>>2); if ( x->x_current_source == 0 ) { if ( x->x_vsize0 > 0 ) memcpy( data, data0, (x->x_vsize+(x->x_vsize>>1))<<1 ); p0Y = data0; p0V = data0+x->x_vsize0; p0U = data0+x->x_vsize0+(x->x_vsize0>>2); p1Y = data1; p1V = data1+x->x_vsize1; p1U = data1+x->x_vsize1+(x->x_vsize1>>2); } else { if ( x->x_vsize1 > 0 ) memcpy( data, data1, (x->x_vsize+(x->x_vsize>>1))<<1 ); p0Y = data1; p0V = data1+x->x_vsize0; p0U = data1+x->x_vsize0+(x->x_vsize0>>2); p1Y = data0; p1V = data0+x->x_vsize1; p1U = data0+x->x_vsize1+(x->x_vsize1>>2); } if ( ( x->x_transition_pending ) && ( x->x_vsize0 > 0 ) && ( x->x_vsize1 > 0 ) ) { switch ( x->x_transition_mode ) { case 1: // circle for ( py=0; pyx_vheight; py++ ) { for ( px=0; pxx_vwidth; px++ ) { cx = px-(x->x_vwidth/2); cy = py-(x->x_vheight/2); if ( cx*cx + cy*cy < x->x_pos*x->x_pos ) { *(poY) = *(p1Y); *(poU) = *(p1U); *(poV) = *(p1V); } poY++; p1Y++; if ( (px%2==0) && (py%2==0) ) { poU++; poV++; p1U++; p1V++; } } } if ( ( x->x_pos > (x->x_vwidth/2) ) && ( x->x_pos > (x->x_vheight/2) ) ) { post( "pdp_transition : circle transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; case 2: // wipelr for ( py=0; pyx_vheight; py++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX); for ( px=0; pxx_vwidth; px++ ) { if ( px <= x->x_pos + rvalue ) { *(poY) = *(p1Y); *(poU) = *(p1U); *(poV) = *(p1V); } poY++; p1Y++; if ( (px%2==0) && (py%2==0) ) { poU++; poV++; p1U++; p1V++; } } } if ( x->x_pos > x->x_vwidth ) { post( "pdp_transition : wipelr transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; case 3: // wiperl for ( py=0; pyx_vheight; py++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX); for ( px=0; pxx_vwidth; px++ ) { if ( px >= x->x_pos + rvalue ) { *(poY) = *(p1Y); *(poU) = *(p1U); *(poV) = *(p1V); } poY++; p1Y++; if ( (px%2==0) && (py%2==0) ) { poU++; poV++; p1U++; p1V++; } } } if ( x->x_pos <= 0 ) { post( "pdp_transition : wiperl transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos -= x->x_inc; break; case 4: // mwipe for ( px=0; pxx_vwidth; px++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX); for ( py=0; pyx_vheight; py++ ) { if ( py <= x->x_pos + rvalue ) { *(poY) = *(p1Y); *(poU) = *(p1U); *(poV) = *(p1V); } poY++; p1Y++; if ( (px%2==0) && (py%2==0) ) { poU++; poV++; p1U++; p1V++; } } } if ( x->x_pos >= x->x_vheight ) { post( "pdp_transition : mwipe transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; case 5: // wipetd for ( px=0; pxx_vwidth; px++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX); for ( py=0; pyx_vheight; py++ ) { if ( py <= x->x_pos + rvalue ) { *(poY+py*x->x_vwidth+px) = *(p1Y+py*x->x_vwidth1+px); *(poU+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = *(p1U+(py>>1)*(x->x_vwidth1>>1)+(px>>1)); *(poV+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = *(p1V+(py>>1)*(x->x_vwidth1>>1)+(px>>1)); } } } if ( x->x_pos >= x->x_vheight ) { post( "pdp_transition : wipetd transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; case 6: // wipebu for ( px=0; pxx_vwidth; px++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX); for ( py=0; pyx_vheight; py++ ) { if ( py >= x->x_pos + rvalue ) { *(poY+py*x->x_vwidth+px) = *(p1Y+py*x->x_vwidth1+px); *(poU+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = *(p1U+(py>>1)*(x->x_vwidth1>>1)+(px>>1)); *(poV+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = *(p1V+(py>>1)*(x->x_vwidth1>>1)+(px>>1)); } } } if ( x->x_pos <= 0 ) { post( "pdp_transition : wipebu transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos -= x->x_inc; break; case 7: // random for ( px=0; pxx_vwidth; px++ ) { for ( py=0; pyx_vheight; py++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX); if ( rvalue <= x->x_pos ) { *(poY+py*x->x_vwidth+px) = *(p1Y+py*x->x_vwidth1+px); *(poU+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = *(p1U+(py>>1)*(x->x_vwidth1>>1)+(px>>1)); *(poV+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = *(p1V+(py>>1)*(x->x_vwidth1>>1)+(px>>1)); } } } if ( x->x_pos >= x->x_rand ) { post( "pdp_transition : wipebu transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; case 8: // melt for ( px=0; pxx_vwidth; px++ ) { rvalue = (int)(((float) x->x_rand )*( (float)random() ) / RAND_MAX)+(abs(px-x->x_vwidth/2)/5); for ( py=0; pyx_vheight; py++ ) { if ( py <= x->x_pos + rvalue ) { *(poY+py*x->x_vwidth+px) = 0; *(poU+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = 0; *(poV+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = 0; } } } if ( x->x_pos >= x->x_vheight ) { post( "pdp_transition : melt transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; case 9: // blend for ( px=0; pxx_vwidth; px++ ) { for ( py=0; pyx_vheight; py++ ) { rvalue = (((float) x->x_rand )*( (float)random() ) / RAND_MAX); factor = ( (float) x->x_pos + rvalue ) / BLEND_MAX; *(poY+py*x->x_vwidth+px) = (int)((1.0-factor)*(*(poY+py*x->x_vwidth+px)) + factor*(*(p1Y+py*x->x_vwidth1+px))); *(poU+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = (int)((1.0-factor)*(*(poU+(py>>1)*(x->x_vwidth>>1)+(px>>1))) + factor*(*(p1U+(py>>1)*(x->x_vwidth1>>1)+(px>>1)))); *(poV+(py>>1)*(x->x_vwidth>>1)+(px>>1)) = (int)((1.0-factor)*(*(poV+(py>>1)*(x->x_vwidth>>1)+(px>>1))) + factor*(*(p1V+(py>>1)*(x->x_vwidth1>>1)+(px>>1)))); } } if ( x->x_pos >= BLEND_MAX ) { post( "pdp_transition : blend transition finished" ); x->x_transition_pending = 0; x->x_transition_mode = 0; tsource = x->x_current_source; x->x_current_source = x->x_target_source; x->x_target_source = tsource; x->x_pos = 0; } x->x_pos += x->x_inc; break; default: break; } } return; } static void pdp_transition_sendpacket0(t_pdp_transition *x) { /* unregister and propagate if valid dest packet */ pdp_packet_pass_if_valid(x->x_outlet0, &x->x_packet); } static void pdp_transition_sendpacket1(t_pdp_transition *x) { /* unregister and propagate if valid dest packet */ pdp_packet_pass_if_valid(x->x_outlet0, &x->x_packet); } static void pdp_transition_process0(t_pdp_transition *x) { int encoding; t_pdp *header = 0; /* check if image data packets are compatible */ if ( (header = pdp_packet_header(x->x_packet0)) && (PDP_IMAGE == header->type)){ /* pdp_transition_process inputs and write into active inlet */ switch(pdp_packet_header(x->x_packet0)->info.image.encoding){ case PDP_IMAGE_YV12: pdp_queue_add(x, pdp_transition_process_yv12, pdp_transition_sendpacket0, &x->x_queue_id); break; case PDP_IMAGE_GREY: break; default: /* don't know the type, so dont pdp_transition_process */ break; } } } static void pdp_transition_process1(t_pdp_transition *x) { int encoding; t_pdp *header = 0; /* check if image data packets are compatible */ if ( (header = pdp_packet_header(x->x_packet1)) && (PDP_IMAGE == header->type)){ /* pdp_transition_process inputs and write into active inlet */ switch(pdp_packet_header(x->x_packet1)->info.image.encoding){ case PDP_IMAGE_YV12: pdp_queue_add(x, pdp_transition_process_yv12, pdp_transition_sendpacket1, &x->x_queue_id); break; case PDP_IMAGE_GREY: break; default: /* don't know the type, so dont pdp_transition_process */ break; } } } static void pdp_transition_input_0(t_pdp_transition *x, t_symbol *s, t_floatarg f) { /* if this is a register_ro message or register_rw message, register with packet factory */ if (s== gensym("register_rw")) { /* release the packet */ if ( x->x_packet0 != -1 ) { pdp_packet_mark_unused(x->x_packet0); x->x_packet0 = -1; } x->x_dropped = pdp_packet_convert_ro_or_drop(&x->x_packet0, (int)f, pdp_gensym("image/YCrCb/*") ); } if ((s == gensym("process")) && (-1 != x->x_packet0) && (!x->x_dropped)){ /* add the process method and callback to the process queue */ pdp_transition_process0(x); } } static void pdp_transition_input_1(t_pdp_transition *x, t_symbol *s, t_floatarg f) { /* if this is a register_ro message or register_rw message, register with packet factory */ if (s== gensym("register_rw")) { /* release the packet */ if ( x->x_packet1 != -1 ) { pdp_packet_mark_unused(x->x_packet1); x->x_packet1 = -1; } x->x_dropped = pdp_packet_convert_ro_or_drop(&x->x_packet1, (int)f, pdp_gensym("image/YCrCb/*") ); } if ((s == gensym("process")) && (-1 != x->x_packet1) && (!x->x_dropped)){ /* add the process method and callback to the process queue */ pdp_transition_process1(x); } } static void pdp_transition_free(t_pdp_transition *x) { int i; pdp_queue_finish(x->x_queue_id); pdp_packet_mark_unused(x->x_packet0); pdp_packet_mark_unused(x->x_packet1); } t_class *pdp_transition_class; void *pdp_transition_new(void) { int i; t_pdp_transition *x = (t_pdp_transition *)pd_new(pdp_transition_class); inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("pdp"), gensym("pdp1")); inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("pdp"), gensym("pdp2")); x->x_outlet0 = outlet_new(&x->x_obj, &s_anything); x->x_packet0 = -1; x->x_packet1 = -1; x->x_packet = -1; x->x_queue_id = -1; x->x_transition_mode = 0; x->x_transition_pending = 0; x->x_current_source = 0; x->x_target_source = 1; x->x_pos = 0; x->x_inc = 1; return (void *)x; } #ifdef __cplusplus extern "C" { #endif void pdp_transition_setup(void) { post( pdp_transition_version ); pdp_transition_class = class_new(gensym("pdp_transition"), (t_newmethod)pdp_transition_new, (t_method)pdp_transition_free, sizeof(t_pdp_transition), 0, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_input_0, gensym("pdp1"), A_SYMBOL, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_input_1, gensym("pdp2"), A_SYMBOL, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_circle, gensym("circle"), A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_wipelr, gensym("wipelr"), A_DEFFLOAT, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_wiperl, gensym("wiperl"), A_DEFFLOAT, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_mwipe, gensym("mwipe"), A_DEFFLOAT, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_wipetd, gensym("wipetd"), A_DEFFLOAT, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_wipebu, gensym("wipebu"), A_DEFFLOAT, A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_random, gensym("random"), A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_melt, gensym("melt"), A_DEFFLOAT, A_NULL); class_addmethod(pdp_transition_class, (t_method)pdp_transition_blend, gensym("blend"), A_DEFFLOAT, A_DEFFLOAT, A_NULL); } #ifdef __cplusplus } #endif