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#!/usr/bin/env python
#******************************************************************************
# rblti, Copyright 2005 by Mathieu Bouchard and Heri Andria
# pylti, Copyright 2005 by Michael Neuroth
# a wrapper for ltilib using SWIG
#******************************************************************************
#
# Tool to generate header files for SWIG to process the nested classes "parameters"
#
# 1) generate XML files for the ltilib with doxygen (tested with version 1.4.3) (use this switch in doc.cfg file: GENERATE_XML = YES)
# 2) generate the new header files for SWIG with this python script
from xml.dom import minidom
import os
import sys
from distutils.text_file import TextFile
str_version = '0.32'
basedir=None
# handle the settings: WORKAREA has to be defined !
if len(sys.argv)>1:
basedir = sys.argv[1]
else:
workarea = os.getenv('WORKAREA')
# is pylti not part of the ltilib ? Yes --> than we need a directory structure of WORKAREA_PATH/import/ltilib/xml
if workarea<>None:
basedir = workarea+os.sep+'import'+os.sep+'ltilib'+os.sep+'xml'+os.sep
# check if we are in misc directory of the ltilib distribution (ltilib/misc/pylti)
# very simple way: navigate up and navigate down again
else:
strCheckPath = '..'+os.sep+'..'+os.sep+'misc'+os.sep+'pylti'+'-'+str_version
try:
# try to read lti.i, this is a good indication of a pylti directory
aTestFile = TextFile(filename=strCheckPath+os.sep+'lti.i')
basedir = '..'+os.sep+'..'+os.sep+'xml'+os.sep # move up ltipy and misc directory
except IOError: pass
output_dir = 'generated'
#output_dir = 'generated_ruby'
def f(x): return 'classlti_1_1'+x+'.xml'
#def g(x): return 'lti::_'+x+'::_'+x+'_parameters'
def g(x): return 'lti::_'+x+'::'+x+'_parameters'
# list of tuples with ( xml-file-name, full-qualified-name of the base class )
lst = [ (f('functor_1_1parameters'), 'lti::ioObject')
, (f('ioFunctor_1_1parameters'), g('functor'))
, (f('ioImage_1_1parameters'), g('ioFunctor'))
, (f('usePalette_1_1parameters'), g('functor'))
, (f('segmentation_1_1parameters'), g('functor'))
, (f('regionGrowing_1_1parameters'), g('segmentation'))
, (f('meanShiftSegmentation_1_1parameters'), g('segmentation'))
, (f('kMeansSegmentation_1_1parameters'), g('segmentation'))
, (f('whiteningSegmentation_1_1parameters'), g('segmentation'))
, (f('csPresegmentation_1_1parameters'), g('segmentation'))
, (f('colorQuantization_1_1parameters'), g('functor'))
, (f('kMColorQuantization_1_1parameters'), g('colorQuantization'))
, (f('viewerBase_1_1parameters'), g('functor'))
, (f('externViewer_1_1parameters'), g('viewerBase'))
, (f('objectsFromMask_1_1parameters'), g('segmentation'))
, (f('objectsFromMask_1_1objectStruct'), 'lti::ioObject')
, (f('tree_1_1node'), 'lti::ioObject')
, (f('featureExtractor_1_1parameters'), g('functor'))
, (f('globalFeatureExtractor_1_1parameters'),g('featureExtractor'))
, (f('localFeatureExtractor_1_1parameters'), g('featureExtractor'))
, (f('geometricFeatures_1_1parameters'), g('globalFeatureExtractor'))
, (f('localMoments_1_1parameters'), g('localFeatureExtractor'))
, (f('chromaticityHistogram_1_1parameters'), g('globalFeatureExtractor'))
, (f('modifier_1_1parameters'), g('functor'))
, (f('polygonApproximation_1_1parameters'), g('modifier'))
, (f('transform_1_1parameters'), g('functor'))
, (f('gradientFunctor_1_1parameters'), g('transform'))
, (f('skeleton_1_1parameters'), g('transform'))
, (f('colorContrastGradient_1_1parameters'), g('gradientFunctor'))
, (f('edgeDetector_1_1parameters'), g('modifier'))
, (f('classicEdgeDetector_1_1parameters'), g('edgeDetector'))
, (f('cannyEdges_1_1parameters'), g('edgeDetector'))
, (f('filter_1_1parameters'), g('modifier'))
, (f('convolution_1_1parameters'), g('filter'))
, (f('morphology_1_1parameters'), g('modifier'))
, (f('dilation_1_1parameters'), g('morphology'))
, (f('erosion_1_1parameters'), g('morphology'))
, (f('distanceTransform_1_1parameters'), g('morphology'))
, (f('classifier_1_1parameters'), 'lti::ioObject')
, (f('classifier_1_1outputTemplate'), 'lti::ioObject')
, (f('classifier_1_1outputVector'), 'lti::ioObject')
, (f('decisionTree_1_1parameters'), g('classifier'))
, (f('ioBMP_1_1parameters'), g('ioFunctor'))
, (f('ioPNG_1_1parameters'), g('ioFunctor'))
, (f('ioJPEG_1_1parameters'), g('ioFunctor'))
, (f('distanceTransform_1_1sedMask'), None)
]
# some constants
nl = '\n'
# Doku:
#-------
# 'memberdef' ==> 'kind'=function
# --> 'name'
# --> 'type' # Return Type
# --> 'param' # Argumente
# --> 'type'
def WriteFile(name,txt):
f = open(name,'w')
f.write(txt)
def GetAttribute(attribs,key):
for k,v in attribs:
if k==key:
return v
def GetValue(elem):
#print elem,elem.firstChild,elem.nodeType
if elem.nodeType == elem.TEXT_NODE:
return elem.data
elif elem.nodeType == elem.ELEMENT_NODE:
if elem.firstChild <> None:
s = ''
for e in elem.childNodes:
s += GetValue(e) #+' '
return s
return ''
elif elem.nodeType == elem.ATTRIBUTE_NODE:
return 'xxxx'
elif elem.firstChild.nodeType == elem.TEXT_NODE:
return elem.firstChild.data
return '???'
def GetValueForItem(node,itemname,bOnlyFirst=False):
s = ''
nodes = node.getElementsByTagName(itemname)
#print '>>>>>>>',nodes,itemname,len(nodes)
if bOnlyFirst:
s += GetValue( nodes[0] )
else:
for node in nodes:
s += GetValue( node )
s += ' '
return s
def ProcessFunction(member,classname,newclassname,bIsConst=False,bIsPureVirtual=False,bIsHeader=True):
s = ''
arg = 'arg'
names = member.getElementsByTagName('name')
# es sollte immer nur einen Namen geben !
nameNode = names[0]
name = GetValue(nameNode)
s += GetValueForItem(member,'type',bOnlyFirst=True)
s += ' '
if not bIsHeader:
s += classname+'::'
s += GetValueForItem(member,'name')
s += '( '
# Behandlung des Constructors
bIsConstructor = (name == classname)
params = member.getElementsByTagName('param')
for i in range(len(params)):
if i>0:
s += ', '
s += GetValueForItem(params[i],'type')
s += ' '+arg+str(i)
s += ' )'
if bIsConst:
s += ' const'
if bIsPureVirtual:
s += ' = 0'
if not bIsHeader:
s += nl
s += '{'+nl
s += ' '+'pObj->'+name+'('
for i in range(len(params)):
if i>0:
s += ', '
s += arg+str(i)
s += ');'+nl
s += '}'
s += ';'+nl
# dies ist fuer das manuelle name mangling notwendig !
s = s.replace(classname,newclassname)
return s
def VerifyParameterType(sType):
"""
Sonderbehandlung fuer den Typ, falls es ein parameters Typ ist,
notwendig, da der parameters Typ mit einem define umbenannt wird...
Beispiel: gradientFunctor::parameters --> gradientFunctor_parameters
"""
s = sType
elem = sType.split('::')
if len(elem)>1 and elem[-1]=='parameters':
s = 'lti_'+sType.replace('::','_')
print "FOUND:",s
return s
def ProcessAttribute(member):
s = ''
sType = GetValueForItem(member,'type',bOnlyFirst=True)
sType = VerifyParameterType(sType)
s += sType
s += ' '
s += GetValueForItem(member,'name')
s += GetValueForItem(member,'argsstring')
s += ';'
return s
def ProcessEnum(member):
s = ''
s += 'enum '
name = GetValueForItem(member,'name',bOnlyFirst=True)
# Behandlung der unbenannten enums
if name[0]=='@':
name = ''
s += name
s += ' {'+nl
items = member.getElementsByTagName('enumvalue')
for i in range(len(items)):
e = items[i]
if i>0:
s += ','
s += GetValueForItem(e,'name')
val = GetValueForItem(e,'initializer')
if val<>None and len(val)>0:
s += ' = ' + val
s += nl
s += '};'+nl
return s
def ProcessMember(member,classname,newclassname,bIsHeader):
s = ''
attribs = member.attributes.items()
if GetAttribute(attribs,'prot')=='public':
if GetAttribute(attribs,'kind')=='function':
s = ProcessFunction(member, classname, newclassname, GetAttribute(attribs,'const')=='yes', GetAttribute(attribs,'virt')=='pure-virtual', bIsHeader ) #, GetAttribute(attribs,'virtual')=='virtual'
elif GetAttribute(attribs,'kind')=='variable':
s = ProcessAttribute(member)
elif GetAttribute(attribs,'kind')=='enum':
s = ProcessEnum(member)
else:
s = '/* not a function or attribute */'
return s+'\n'
def ProcessAllMembers(theclassname,thenewclassname,members,bIsHeader=True,indent=' '*4):
s = ''
for member in members:
s += indent+ProcessMember(member,theclassname,thenewclassname,bIsHeader)
return s
def ProcessHeaderFile(classname,theclassname,thenewclassname,members,baseclassname=None):
s = ''
s += '#ifndef _'+thenewclassname+'_h'+nl
s += '#define _'+thenewclassname+'_h'+nl
s += nl
sClose = ''
names = classname.split('::')
sTypedef = 'typedef '
for n in range(len(names)):
if n<len(names)-1:
s += 'namespace '
sPre = ''
if n>0:
sPre += '_'
s += sPre+names[n]+' {'+nl
if n<len(names)-2:
sClose += '}'+nl
sTypedef += sPre+names[n]+'::'
s += 'class '+thenewclassname
if baseclassname<>None:
s += ' : public '+baseclassname
s += nl
s += '{'+nl
s += 'public:'+nl
s += ProcessAllMembers(theclassname,thenewclassname,members)
#s += 'private:'+nl
#s += ' /*pObj*/'+nl
s += '};'+nl
s += sClose
# s += sTypedef+thenewclassname+' '+thenewclassname[1:]+';'+nl # erstes _ vom Klassennamen entfernen
s += sTypedef+thenewclassname+' '+thenewclassname+';'+nl
s += '}'
s += nl
s += '#endif'+nl
return s
def ProcessCppFile(classname,theclassname,thenewclassname,members):
s = ''
s += nl
s += '#include "'+thenewclassname+'.h"'+nl
s += nl
s += ProcessAllMembers(theclassname,thenewclassname,members,bIsHeader=False,indent='')
s += nl
return s
def ProcessClass(classname,theclassname,thenewclassname,members,baseclassname=None):
s = ''
s += ProcessHeaderFile(classname,theclassname,thenewclassname,members,baseclassname)
s += nl
#s += ProcessCppFile(classname,theclassname,thenewclassname,members)
return s
def ProcessFile(filename,baseclassname,add_to_output=None):
dom = minidom.parse(filename)
#elem = dom.getElementsByTagName('compoundname')
members = dom.getElementsByTagName('memberdef')
classitem = dom.getElementsByTagName('compoundname')
classname = GetValue(classitem[0]) # lti::object
print "processing",classname,"...",
nameitems = classname.split('::')
theclassname = nameitems[-1] # object
s = ''
for i in range(len(nameitems)):
# ignoriere das erste lti::
if i>0:
# s += '_'
if i>1: s += '_' #to prevent class names starting with '_', Ruby hates that
s += nameitems[i]
thenewclassname = s #classname.replace('::','_') # lti_object
print thenewclassname
# outputfilename = thenewclassname
outputfilename = '_'+thenewclassname
if add_to_output<>None:
outputfilename += add_to_output
outputfilename += '.h'
s = ProcessClass(classname,theclassname,thenewclassname,members,baseclassname)
WriteFile(output_dir+os.sep+outputfilename,s)
def ProcessAllFiles(lst):
for e in lst:
filename = basedir+e[0]
ProcessFile(filename,e[1])
#-------------------------------------------------
ProcessAllFiles(lst)
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