import os import sys import datatypes from pdfspec_autogen import * # TODO(edisonn): date and some other types are in fact strings, with a custom format!!! # TODO(edisonn): refer to page 99 (PDF data types) knowTypes = { '(any)': ['SkPdfObject*', 'ret', datatypes.CppNull(), 'true', 'use a mapper'], # TODO(edisonn): return constant for undefined '(undefined)': ['SkPdfObject*', 'ret', datatypes.CppNull(), 'true', 'use a mapper'], '(various)': ['SkPdfObject*', 'ret', datatypes.CppNull(), 'true', 'use a mapper'], 'array': ['SkPdfArray*', '(SkPdfArray*)ret', datatypes.CppNull(), 'ret->isArray()'], 'boolean': ['bool', 'ret->boolValue()', datatypes.PdfBoolean('false'), 'ret->isBoolean()'], #date is a string, with special formating, add here the 'date': ['SkPdfDate', 'ret->dateValue()', datatypes.PdfDateNever(), 'ret->isDate()'], 'dictionary': ['SkPdfDictionary*', '(SkPdfDictionary*)ret', datatypes.CppNull(), 'ret->isDictionary()', 'use a mapper'], 'function': ['SkPdfFunction', 'ret->functionValue()', datatypes.PdfFunctionNone(), 'ret->isFunction()'], 'integer': ['int64_t', 'ret->intValue()', datatypes.PdfInteger(0), 'ret->isInteger()'], 'file_specification': ['SkPdfFileSpec', 'ret->fileSpecValue()', datatypes.FileSpecNone(), 'false'], 'name': ['std::string', 'ret->nameValue2()', datatypes.PdfString('""'), 'ret->isName()'], #should assert, references should never be allowed here, should be resolved way earlier 'tree': ['SkPdfTree', 'ret->treeValue()', datatypes.EmptyTree(), 'false'], 'number': ['double', 'ret->numberValue()', datatypes.PdfNumber(0), 'ret->isNumber()'], 'rectangle': ['SkRect', 'ret->rectangleValue()', datatypes.EmptyRect(), 'ret->isRectangle()'], 'stream': ['SkPdfStream*', 'ret->getStream()', datatypes.CppNull(), 'ret->hasStream()'], 'string': ['std::string', 'ret->stringValue2()', datatypes.PdfString('""'), 'ret->isAnyString()'], 'text': ['std::string', 'ret->stringValue2()', datatypes.PdfString('""'), 'ret->isAnyString()'], 'text string': ['std::string', 'ret->stringValue2()', datatypes.PdfString('""'), 'ret->isAnyString()'], 'matrix': ['SkMatrix', 'ret->matrixValue()', datatypes.IdentityMatrix(), 'ret->isMatrix()'], } class PdfField: def __init__(self, parent, name, abr): self.fParent = parent self.fName = name self.fAbr = abr self.fDefault = '' self.fTypes = '' self.fCppName = '' self.fEnumValues = [] self.fHasMust = False self.fMustBe = [] self.fComment = '' def must(self, value): self.fHasMust = True self.fMustBe = value return self def default(self, value): self.fDefault = value return self def multiple(self, enumValues): self.fEnumValues = enumValues return self def name(self, name): self.fCppName = name return self def type(self, types): # TODO (edisonn): if simple type, use it, otherwise set it to Dictionary, and set a mask for valid types, like array or name types = types.strip() types = types.replace(' or ', ' ') types = types.replace(' or,', ' ') types = types.replace(',or ', ' ') types = types.replace(',or,', ' ') types = types.replace(',', ' ') types = types.replace('text', ' ') # TODO(edisonn): what is the difference between 'text string' and 'string'? types = types.replace('file specification', 'file_specification') self.fTypes = types return self def comment(self, comment): self.fComment = comment return self def done(self): return self.fParent class PdfClassField: def __init__(self, parent, required, version='', inheritable=False): #self.fProp = '' self.fParent = parent self.fRequired = required self.fVersion = version self.fInheritable = inheritable def field(self, name, abr=''): self.fProp = PdfField(self, name, abr) return self.fProp def done(self): return self.fParent class PdfClass: def __init__(self, name, base, comment): self.fFields = [] self.fIncludes = [] self.fCCPublicNative = [] self.fCCPublicNativeCpp = [] self.fName = name self.fBase = base self.fComment = comment self.fEnumSubclasses = [] self.fEnum = '!UNDEFINED' self.fEnumEnd = '!UNDEFINED' self.fCheck = '' def check(self, ifCheck): self.fCheck = ifCheck return self def required(self, badDefault): field = PdfClassField(self, True) field.fBadDefault = badDefault self.fFields.append(field) return field def optional(self): field = PdfClassField(self, False) self.fFields.append(field) return field #([Required] [;] [inheritable] [;] [version]; [comments]) # version: PDF [d].[d] # ; separate props #inheritable #version #required, if #optional, if def include(self, path): self.fIncludes.append(path) return self def carbonCopyPublicNative(self, cc): self.fCCPublicNative.append(cc) return self def carbonCopyPublicNativeCpp(self, cc): self.fCCPublicNativeCpp.append(cc) return self def done(self): return class PdfClassManager: def __init__(self): self.fClasses = {} self.fClassesNamesInOrder = [] def addClass(self, name, base='', comment=''): if name == 'Dictionary': cls = PdfClass(name, '', comment) else: cls = PdfClass(name, base, comment) self.fClasses[name] = cls self.fClassesNamesInOrder.append(name) return cls def writeEnum(self, fileEnums, enum, enumToCls): fileEnums.write(' ' + enum + ',\n') cls = enumToCls[enum] cls.fEnumSubclasses.sort() cnt = 0 for sub in cls.fEnumSubclasses: self.writeEnum(fileEnums, cls.fEnumSubclasses[cnt], enumToCls) cnt = cnt + 1 if cnt != 0: fileEnums.write(' ' + cls.fEnumEnd + ',\n') def writeAsNull(self, nativeFileClass, cls, enumToCls): nativeFileClass.write(' SkPdf' + cls.fName +'* as' + cls.fName + '() {return (SkPdf' + cls.fName + '*)this;}\n') nativeFileClass.write(' const SkPdf' + cls.fName +'* as' + cls.fName + '() const {return (const SkPdf' + cls.fName + '*)this;}\n') nativeFileClass.write('\n') cnt = 0 for sub in cls.fEnumSubclasses: self.writeAsNull(nativeFileClass, enumToCls[cls.fEnumSubclasses[cnt]], enumToCls) cnt = cnt + 1 def writeAsFoo(self, nativeFileClass, cls, enumToCls): # TODO(edisonn): add a container, with sections, public, private, default, ... # the end code will be grouped # me nativeFileClass.write('public:\n') nativeFileClass.write('public:\n') nativeFileClass.write(' SkPdf' + cls.fName +'* as' + cls.fName + '() {return this;}\n') nativeFileClass.write(' const SkPdf' + cls.fName +'* as' + cls.fName + '() const {return this;}\n') nativeFileClass.write('\n') if cls.fName == 'Dictionary': cnt = 0 for sub in cls.fEnumSubclasses: self.writeAsNull(nativeFileClass, enumToCls[cls.fEnumSubclasses[cnt]], enumToCls) cnt = cnt + 1 if cls.fName != 'Dictionary': nativeFileClass.write('private:\n') base = self.fClasses[cls.fBase] cnt = 0 for sub in base.fEnumSubclasses: if enumToCls[base.fEnumSubclasses[cnt]].fName != cls.fName: self.writeAsNull(nativeFileClass, enumToCls[base.fEnumSubclasses[cnt]], enumToCls) cnt = cnt + 1 def determineAllMustBe(self, cls, field, enumToCls): mustBe = [] for sub in cls.fEnumSubclasses: mustBe = mustBe + self.determineAllMustBe(enumToCls[sub], field, enumToCls) for subField in cls.fFields: if subField.fProp.fName == field.fProp.fName: mustBe = mustBe + subField.fProp.fMustBe # while cls.fBase != '': # cls = self.fClasses[cls.fBase] # # TODO(edisonn): bad perf # for subField in cls.fFields: # if subField.fProp.fName == field.fProp.fName: # mustBe = mustBe + subField.fProp.fMustBe return mustBe def write(self): global fileHeadersNative global fileHeadersNativeCpp global knowTypes # generate enum enumsRoot = [] enumToCls = {} for name in self.fClasses: cls = self.fClasses[name] cls.fEnum = 'k' + name + '_SkPdfObjectType' cls.fEnumEnd = 'k' + name + '__End_SkPdfObjectType' fileHeadersNative.write('#include "SkPdf' + cls.fName + '_autogen.h"\n') fileHeadersNativeCpp.write('#include "SkPdf' + cls.fName + '_autogen.cpp"\n') if cls.fBase != '': self.fClasses[cls.fBase].fEnumSubclasses.append(cls.fEnum) if cls.fBase == '': enumsRoot.append(cls.fEnum) enumToCls[cls.fEnum] = cls enumsRoot.sort() # TODO(edisonn): move each .h in it's own file # write imports # write enums fileEnums = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdfEnums_autogen.h'), 'w') fileEnums.write('#ifndef __DEFINED__SkPdfEnums\n') fileEnums.write('#define __DEFINED__SkPdfEnums\n') fileEnums.write('\n') fileEnums.write('enum SkPdfObjectType {\n') fileEnums.write(' kNone_SkPdfObjectType = 0,\n') for enum in enumsRoot: self.writeEnum(fileEnums, enum, enumToCls) fileEnums.write('};\n') fileEnums.write('\n') # write forward class declaration for name in self.fClassesNamesInOrder: fileEnums.write('class SkPdf' + name + ';\n') fileEnums.write('\n') fileEnums.write('#endif // __DEFINED__SkPdfEnums\n') fileEnums.close() for name in self.fClassesNamesInOrder: cls = self.fClasses[name] enum = cls.fEnum nativeFileClass = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdf' + cls.fName + '_autogen.h'), 'w') nativeFileClassCpp = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdf' + cls.fName + '_autogen.cpp'), 'w') nativeFileClass.write('#ifndef __DEFINED__SkPdf' + cls.fName + '\n') nativeFileClass.write('#define __DEFINED__SkPdf' + cls.fName + '\n') nativeFileClass.write('\n') nativeFileClassCpp.write('#include "SkPdf' + cls.fName + '_autogen.h"\n\n') nativeFileClassCpp.write('\n') if cls.fBase == '': nativeFileClass.write('#include "stddef.h"\n') nativeFileClass.write('#include \n') nativeFileClass.write('#include "SkPdfEnums_autogen.h"\n') nativeFileClass.write('#include "SkPdfNYI.h"\n') nativeFileClass.write('#include "SkPdfObject.h"\n') nativeFileClass.write('class SkNativeParsedPDF;\n') if cls.fBase != '': nativeFileClass.write('#include "SkPdf' + cls.fBase + '_autogen.h"\n') nativeFileClassCpp.write('#include "SkNativeParsedPDF.h"\n') nativeFileClass.write('\n') if cls.fComment != '': nativeFileClass.write('// ' + cls.fComment + '\n') if cls.fBase == '': nativeFileClass.write('class SkPdf' + cls.fName + ' : public SkPdfObject {\n') else: nativeFileClass.write('class SkPdf' + cls.fName + ' : public SkPdf' + cls.fBase + ' {\n') self.writeAsFoo(nativeFileClass, cls, enumToCls) nativeFileClass.write('public:\n') for cc in cls.fCCPublicNative: nativeFileClass.write(' ' + cc + '\n') for cc in cls.fCCPublicNativeCpp: nativeFileClassCpp.write(cc + '\n\n') if cls.fBase == '': nativeFileClass.write('public:\n') # TODO(edisonn): add is valid ? #check required fieds, also, there should be an internal_valid() manually wrote for complex # situations # right now valid return true # TODO(edisonn): cache the value of valid, have a set of bits that would remember what types are valid for this type nativeFileClass.write(' bool valid() const {return true;}\n') #nativeFileClass.write('\n') for field in cls.fFields: prop = field.fProp if prop.fCppName != '': lines = prop.fComment.split('\n') if prop.fComment != '' and len(lines) > 0: nativeFileClass.write('/** ' + lines[0] + '\n') for line in lines[1:]: nativeFileClass.write(' * ' + line + '\n') nativeFileClass.write('**/\n') if prop.fCppName[0] == '[': nativeFileClass.write('/*\n') # comment code of the atributes that can have any name nativeFileClassCpp.write('/*\n') # comment code of the atributes that can have any name if len(prop.fTypes.split()) == 1: t = prop.fTypes.strip() nativeFileClass.write(' ' + knowTypes[t][0] + ' ' + prop.fCppName + '(SkNativeParsedPDF* doc);\n') nativeFileClassCpp.write('' + knowTypes[t][0] + ' SkPdf' + cls.fName + '::' + prop.fCppName + '(SkNativeParsedPDF* doc) {\n') nativeFileClassCpp.write(' SkPdfObject* ret = get(\"' + prop.fName + '\", \"' + prop.fAbr + '\");\n') nativeFileClassCpp.write(' if (doc) {ret = doc->resolveReference(ret);}\n') nativeFileClassCpp.write(' if ((ret != NULL && ' + knowTypes[t][3] + ') || (doc == NULL && ret != NULL && ret->isReference())) return ' + knowTypes[t][1] + ';\n') if field.fRequired: nativeFileClassCpp.write(' // TODO(edisonn): warn about missing required field, assert for known good pdfs\n') nativeFileClassCpp.write(' return ' + knowTypes[t][2].toCpp() + ';\n'); elif prop.fDefault != '': nativeFileClassCpp.write(' return ' + prop.fDefault.toCpp() + ';\n'); else: nativeFileClassCpp.write(' // TODO(edisonn): warn about missing default value for optional fields\n') nativeFileClassCpp.write(' return ' + knowTypes[t][2].toCpp() + ';\n'); nativeFileClassCpp.write('}\n') nativeFileClassCpp.write('\n') else: for type in prop.fTypes.split(): t = type.strip() nativeFileClass.write(' bool is' + prop.fCppName + 'A' + t.title() + '(SkNativeParsedPDF* doc);\n') nativeFileClassCpp.write('bool SkPdf' + cls.fName + '::is' + prop.fCppName + 'A' + t.title() + '(SkNativeParsedPDF* doc) {\n') nativeFileClassCpp.write(' SkPdfObject* ret = get(\"' + prop.fName + '\", \"' + prop.fAbr + '\");\n') nativeFileClassCpp.write(' if (doc) {ret = doc->resolveReference(ret);}\n') nativeFileClassCpp.write(' return ret != NULL && ' + knowTypes[t][3] + ';\n') nativeFileClassCpp.write('}\n') nativeFileClassCpp.write('\n') nativeFileClass.write(' ' + knowTypes[t][0] + ' get' + prop.fCppName + 'As' + t.title() + '(SkNativeParsedPDF* doc);\n') nativeFileClassCpp.write('' + knowTypes[t][0] + ' SkPdf' + cls.fName + '::get' + prop.fCppName + 'As' + t.title() + '(SkNativeParsedPDF* doc) {\n') nativeFileClassCpp.write(' SkPdfObject* ret = get(\"' + prop.fName + '\", \"' + prop.fAbr + '\");\n') nativeFileClassCpp.write(' if (doc) {ret = doc->resolveReference(ret);}\n') nativeFileClassCpp.write(' if ((ret != NULL && ' + knowTypes[t][3] + ') || (doc == NULL && ret != NULL && ret->isReference())) return ' + knowTypes[t][1] + ';\n') if field.fRequired: nativeFileClassCpp.write(' // TODO(edisonn): warn about missing required field, assert for known good pdfs\n') nativeFileClassCpp.write(' return ' + knowTypes[t][2].toCpp() + ';\n'); elif prop.fDefault != '': nativeFileClassCpp.write(' return ' + prop.fDefault.toCpp() + ';\n'); else: nativeFileClassCpp.write(' // TODO(edisonn): warn about missing default value for optional fields\n') nativeFileClassCpp.write(' return ' + knowTypes[t][2].toCpp() + ';\n'); nativeFileClassCpp.write('}\n') nativeFileClassCpp.write('\n') nativeFileClass.write(' bool has_' + prop.fCppName + '() const;\n') nativeFileClassCpp.write('bool SkPdf' + cls.fName + '::has_' + prop.fCppName + '() const {\n') # TODO(edisonn): has_foo() does not check type, add has_valid_foo(), and check that type is expected (e.g. number, string, ...) nativeFileClassCpp.write(' return get(\"' + prop.fName + '\", \"' + prop.fAbr + '\") != NULL;\n') nativeFileClassCpp.write('}\n') nativeFileClassCpp.write('\n') if prop.fCppName[0] == '[': nativeFileClass.write('*/\n') # comment code of the atributes that can have any name nativeFileClassCpp.write('*/\n') # comment code of the atributes that can have any name nativeFileClass.write('};\n') nativeFileClass.write('\n') nativeFileClass.write('#endif // __DEFINED__NATIVE_SkPdf' + cls.fName + '\n') nativeFileClass.close() nativeFileClassCpp.close() # generate constructor when knowing the type # later, p2, generate constructor when not knowing the type - very similar with parsing? # generate parser # TODO(edisonn): fast recognition based on must attributes. fileMapperNative = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdfMapper_autogen.h'), 'w') fileMapperNativeCpp = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdfMapper_autogen.cpp'), 'w') fileMapperNative.write('#ifndef __DEFINED__SkPdfMapper\n') fileMapperNative.write('#define __DEFINED__SkPdfMapper\n') fileMapperNative.write('\n') fileMapperNative.write('#include "SkPdfHeaders_autogen.h"\n') fileMapperNative.write('#include "SkNativeParsedPDF.h"\n') fileMapperNative.write('#include "SkPdfObject.h"\n') fileMapperNativeCpp.write('#include "SkPdfMapper_autogen.h"\n') fileMapperNativeCpp.write('#include "SkPdfUtils.h"\n') fileMapperNativeCpp.write('#include "SkPdfObject.h"\n') fileMapperNativeCpp.write('\n') fileMapperNative.write('class SkPdfMapper {\n') fileMapperNative.write(' SkNativeParsedPDF* fParsedDoc;\n') fileMapperNative.write('public:\n') fileMapperNative.write(' SkPdfMapper(SkNativeParsedPDF* doc) : fParsedDoc(doc) {}\n') fileMapperNative.write('\n') for name in self.fClassesNamesInOrder: cls = self.fClasses[name] fileMapperNative.write(' SkPdfObjectType map' + name + '(const SkPdfObject* in) const;\n') fileMapperNativeCpp.write('SkPdfObjectType SkPdfMapper::map' + name + '(const SkPdfObject* in) const {\n') fileMapperNativeCpp.write(' if (in == NULL || !is' + name + '(in)) return kNone_SkPdfObjectType;\n') fileMapperNativeCpp.write('\n') if len(cls.fEnumSubclasses) > 0: fileMapperNativeCpp.write(' SkPdfObjectType ret;\n') # stream must be last one hasStream = False for sub in cls.fEnumSubclasses: fileMapperNativeCpp.write(' if (kNone_SkPdfObjectType != (ret = map' + enumToCls[sub].fName + '(in))) return ret;\n') fileMapperNativeCpp.write('\n') fileMapperNativeCpp.write(' return k' + name + '_SkPdfObjectType;\n') fileMapperNativeCpp.write('}\n') fileMapperNativeCpp.write('\n') for name in self.fClassesNamesInOrder: cls = self.fClasses[name] fileMapperNative.write(' bool is' + name + '(const SkPdfObject* nativeObj) const ;\n') fileMapperNativeCpp.write('bool SkPdfMapper::is' + name + '(const SkPdfObject* nativeObj) const {\n') if cls.fCheck != '': fileMapperNativeCpp.write(' return ' + cls.fCheck + ';\n') else: cntMust = 0 emitedRet = False for field in cls.fFields: prop = field.fProp if prop.fHasMust: if emitedRet == False: fileMapperNativeCpp.write(' const SkPdfObject* ret = NULL;\n') emitedRet = True cntMust = cntMust + 1 fileMapperNativeCpp.write(' if (!nativeObj->isDictionary()) return false;\n') fileMapperNativeCpp.write(' ret = nativeObj->get(\"' + prop.fName + '\", \"' + prop.fAbr + '\");\n') fileMapperNativeCpp.write(' if (ret == NULL || !' + knowTypes[prop.fTypes.strip()][3] + ') return false;\n') eval = ''; # TODO(edisonn): this could get out of hand, and could have poor performance if continued on this path # but if we would write our parser, then best thing would be to create a map of (key, value) -> to bits # and at each (key, value) we do an and with the bits existent, then we check what bits are left, which would tell the posible types of this dictionary # and for non unique posinilities (if any) based on context, or the requester of dictionry we can determine fast the dictionary type mustBe = self.determineAllMustBe(cls, field, enumToCls) if len(mustBe) > 0: for cnd in mustBe: if eval == '': eval = '(' + knowTypes[prop.fTypes.strip()][1] + ' != ' + cnd.toCpp() + ')' else: eval = eval + ' && ' + '(' + knowTypes[prop.fTypes.strip()][1] + ' != ' + cnd.toCpp() + ')' fileMapperNativeCpp.write(' if (' + eval + ') return false;\n') fileMapperNativeCpp.write('\n') fileMapperNativeCpp.write(' return true;\n') fileMapperNativeCpp.write('}\n') fileMapperNativeCpp.write('\n') # TODO(edisonn): dict should be a SkPdfDictionary ? fileMapperNative.write(' bool SkPdf' + name + 'FromDictionary(const SkPdfObject* dict, const char* key, SkPdf' + name + '** data) const ;\n') fileMapperNativeCpp.write('bool SkPdfMapper::SkPdf' + name + 'FromDictionary(const SkPdfObject* dict, const char* key, SkPdf' + name + '** data) const {\n') fileMapperNativeCpp.write(' const SkPdfObject* value = dict->get(key);\n') fileMapperNativeCpp.write(' if (value == NULL) { return false; }\n') fileMapperNativeCpp.write(' if (data == NULL) { return true; }\n') fileMapperNativeCpp.write(' if (kNone_SkPdfObjectType == map' + name + '(value)) return false;\n') fileMapperNativeCpp.write(' *data = (SkPdf' + name + '*)value;\n') fileMapperNativeCpp.write(' return true;\n'); fileMapperNativeCpp.write('}\n') fileMapperNativeCpp.write('\n') fileMapperNative.write(' bool SkPdf' + name + 'FromDictionary(const SkPdfObject* dict, const char* key, const char* abr, SkPdf' + name + '** data) const ;\n') fileMapperNativeCpp.write('bool SkPdfMapper::SkPdf' + name + 'FromDictionary(const SkPdfObject* dict, const char* key, const char* abr, SkPdf' + name + '** data) const {\n') fileMapperNativeCpp.write(' if (SkPdf' + name + 'FromDictionary(dict, key, data)) return true;\n') fileMapperNativeCpp.write(' if (abr == NULL || *abr == \'\\0\') return false;\n') fileMapperNativeCpp.write(' return SkPdf' + name + 'FromDictionary(dict, abr, data);\n') fileMapperNativeCpp.write('}\n') fileMapperNativeCpp.write('\n') fileMapperNative.write('};\n') fileMapperNative.write('\n') fileMapperNative.write('#endif // __DEFINED__SkPdfMapper\n') fileMapperNative.close() fileMapperNativeCpp.close() return def generateCode(): global fileHeadersNative global fileHeadersNativeCpp global knowTypes nativeAutogenPath = os.path.join(sys.argv[1], 'native', 'autogen') if not os.path.exists(nativeAutogenPath): os.makedirs(nativeAutogenPath) fileHeadersNative = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdfHeaders_autogen.h'), 'w') fileHeadersNativeCpp = open(os.path.join(sys.argv[1], 'native', 'autogen', 'SkPdfHeaders_autogen.cpp'), 'w') fileHeadersNative.write('#ifndef __DEFINED__SkPdfHeaders\n') fileHeadersNative.write('#define __DEFINED__SkPdfHeaders\n') fileHeadersNative.write('\n') fileHeadersNativeCpp.write('#include "SkPdfHeaders_autogen.h"\n') manager = PdfClassManager() # these classes are not explicitely backed by a table in the pdf spec manager.addClass('Dictionary') manager.addClass('XObjectDictionary', 'Dictionary') manager.addClass('FontDictionary', 'Dictionary') manager.addClass('TrueTypeFontDictionary', 'Type1FontDictionary')\ .required('NULL')\ .field('Subtype')\ .name('Subtype')\ .type('name')\ .comment('')\ .must([datatypes.PdfName('TrueType')])\ .done().done()\ addDictionaryTypesTo(knowTypes) buildPdfSpec(manager) manager.addClass('MultiMasterFontDictionary', 'Type1FontDictionary')\ .required('NULL')\ .field('Subtype')\ .name('Subtype')\ .type('name')\ .comment('')\ .must([datatypes.PdfName('MMType1')])\ .done().done()\ manager.write() fileHeadersNative.write('#endif // __DEFINED__SkPdfHeaders\n') fileHeadersNative.close() fileHeadersNativeCpp.close() if '__main__' == __name__: #print sys.argv sys.exit(generateCode())