skia2/experimental/PdfViewer/generate_code.py

439 lines
13 KiB
Python
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import sys
class PdfName:
def __init__(self, name, abr=''):
self.fName = name
self.fAbr = abr
def toCpp(self):
return '\"' + self.fName + '\"'
class PdfString:
def __init__(self, value):
self.fValue = value
def toCpp(self):
return '\"' + self.fValue + '\"'
class PdfInteger:
def __init__(self, value):
self.fValue = value
def toCpp(self):
return str(self.fValue)
class PdfReal:
def __init__(self, value):
self.fValue = value
def toCpp(self):
return str(self.fValue)
class PdfString:
def __init__(self, value):
self.fValue = value
def toCpp(self):
return self.fValue
class PdfBoolean:
def __init__(self, value):
self.fValue = value
def toCpp(self):
return self.fValue
class PdfField:
def __init__(self, parent, name, abr):
self.fParent = parent
self.fName = name
self.fAbr = abr
self.fDefault = ''
self.fType = ''
self.fCppName = ''
self.fCppType = ''
self.fCppReader = ''
self.fValidOptions = []
self.fHasMust = False
self.fMustBe = ''
def must(self, value):
self.fHasMust = True
self.fMustBe = value
return self
def default(self, value):
self.fDefault = value
return self
def number(self, name):
self.fType = 'number'
self.fCppName = name
self.fCppType = 'double'
self.fCppReader = 'DoubleFromDictionary'
return self
def integer(self, name):
self.fType = 'integer'
self.fCppName = name
self.fCppType = 'long'
self.fCppReader = 'LongFromDictionary'
return self
def real(self, name):
self.fType = 'real'
self.fCppName = name
self.fCppType = 'double'
self.fCppReader = 'DoubleFromDictionary'
return self
def name(self, name):
self.fType = 'name'
self.fCppName = name
self.fCppType = 'std::string'
self.fCppReader = 'NameFromDictionary'
return self
def string(self, name):
self.fType = 'string'
self.fCppName = name
self.fCppType = 'std::string'
self.fCppReader = 'StringFromDictionary'
return self
def multiple(self, validOptions):
self.fValidOptions = validOptions
return self
def done(self):
return self.fParent
class PdfClassField:
def __init__(self, parent, required):
#self.fProp = ''
self.fParent = parent
self.fRequired = required
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):
self.fFields = []
self.fIncludes = []
self.fCCPublic = []
self.fCCPrivate = []
self.fName = name
self.fBase = base
self.fEnumSubclasses = []
self.fEnum = '!UNDEFINED'
self.fEnumEnd = '!UNDEFINED'
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
def include(self, path):
self.fIncludes.append(path)
return self
def carbonCopyPublic(self, cc):
self.fCCPublic.append(cc)
return self
def carbonCopyPrivate(self, cc):
self.fCCPrivate.append(cc)
return self
class PdfClassManager:
def __init__(self):
self.fClasses = {}
self.fClassesNamesInOrder = []
def addClass(self, name, base='Object'):
if name == 'Object':
cls = PdfClass(name, '')
else:
cls = PdfClass(name, base)
self.fClasses[name] = cls
self.fClassesNamesInOrder.append(name)
return cls
def longName(self, name):
ret = ''
while name != '':
cls = self.fClasses[name]
ret = name + ret
name = cls.fBase
return ret
def writeEnum(self, enum, enumToCls):
print(' ' + enum + ',')
cls = enumToCls[enum]
cls.fEnumSubclasses.sort()
cnt = 0
for sub in cls.fEnumSubclasses:
self.writeEnum(cls.fEnumSubclasses[cnt], enumToCls)
cnt = cnt + 1
if cnt != 0:
print(' ' + cls.fEnumEnd + ',')
def writeAsNull(self, cls, enumToCls):
print(' virtual SkPdf' + cls.fName +'* as' + cls.fName + '() {return NULL;}')
print(' virtual const SkPdf' + cls.fName +'* as' + cls.fName + '() const {return NULL;}')
print
cnt = 0
for sub in cls.fEnumSubclasses:
self.writeAsNull(enumToCls[cls.fEnumSubclasses[cnt]], enumToCls)
cnt = cnt + 1
def writeAsFoo(self, cls, enumToCls):
# TODO(edisonn): add a container, with sections, public, private, default, ...
# the end code will be grouped
# me
print('public:')
print(' virtual SkPdf' + cls.fName +'* as' + cls.fName + '() {return this;}')
print(' virtual const SkPdf' + cls.fName +'* as' + cls.fName + '() const {return this;}')
print
if cls.fName == 'Object':
cnt = 0
for sub in cls.fEnumSubclasses:
self.writeAsNull(enumToCls[cls.fEnumSubclasses[cnt]], enumToCls)
cnt = cnt + 1
if cls.fName != 'Object':
print('private:')
base = self.fClasses[cls.fBase]
cnt = 0
for sub in base.fEnumSubclasses:
if enumToCls[base.fEnumSubclasses[cnt]].fName != cls.fName:
self.writeAsNull(enumToCls[base.fEnumSubclasses[cnt]], enumToCls)
cnt = cnt + 1
def write(self):
# generate enum
enumsRoot = []
enumToCls = {}
for name in self.fClasses:
cls = self.fClasses[name]
enum = self.longName(name)
cls.fEnum = 'k' + enum + '_SkPdfObjectType'
cls.fEnumEnd = 'k' + enum + '__End_SkPdfObjectType'
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
print('enum SkPdfObjectType {')
for enum in enumsRoot:
self.writeEnum(enum, enumToCls)
print('};')
print
# write forward class declaration
for name in self.fClassesNamesInOrder:
print('class SkPdf' + name + ';')
print
for name in self.fClassesNamesInOrder:
cls = self.fClasses[name]
enum = cls.fEnum
if cls.fBase == '':
print('class SkPdf' + cls.fName + ' {')
else:
print('class SkPdf' + cls.fName + ' : public SkPdf' + cls.fBase + ' {')
print('public:')
print(' virtual SkPdfObjectType getType() const { return ' + cls.fEnum + ';}')
if len(cls.fEnumSubclasses) == 0:
print(' virtual SkPdfObjectType getTypeEnd() const { return (SkPdfObjectType)(' + cls.fEnum + ' + 1);}')
else:
print(' virtual SkPdfObjectType getTypeEnd() const { return ' + cls.fEnumEnd + ';}')
self.writeAsFoo(cls, enumToCls)
print('public:')
for cc in cls.fCCPublic:
print(' ' + cc)
print('private:')
for cc in cls.fCCPrivate:
print(' ' + cc)
if cls.fBase == '':
print('protected:')
print(' const PdfMemDocument* fPodofoDoc;')
print(' const PdfObject* fPodofoObj;')
print
print('public:')
print(' SkPdf' + cls.fName + '(const PdfMemDocument* podofoDoc, const PdfObject* podofoObj) : fPodofoDoc(podofoDoc), fPodofoObj(podofoObj) {}')
print(' const PdfObject* podofo() const { return fPodofoObj;}')
else:
print('public:')
print(' SkPdf' + cls.fName + '(const PdfMemDocument* podofoDoc, const PdfObject* podofoObj) : SkPdf' + cls.fBase + '(podofoDoc, podofoObj) {}')
#check required fieds, also, there should be an internal_valid() manually wrote for complex
# situations
# right now valid return true
print(' virtual bool valid() const {return true;}')
for field in cls.fFields:
prop = field.fProp
if prop.fCppName != '':
print(' ' + prop.fCppType + ' ' + prop.fCppName + '() const {')
print(' ' + prop.fCppType + ' ret;')
print(' if (' + prop.fCppReader + '(fPodofoDoc, fPodofoObj->GetDictionary(), \"' + prop.fName + '\", \"' + prop.fAbr + '\", &ret)) return ret;')
if field.fRequired == False:
print(' return ' + prop.fDefault.toCpp() + ';');
if field.fRequired == True:
print(' // TODO(edisonn): warn about missing required field, assert for known good pdfs')
print(' return ' + field.fBadDefault + ';');
print(' }')
print
print('};')
print
print
# 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.
print('class PodofoMapper {')
print('public:')
for name in self.fClassesNamesInOrder:
cls = self.fClasses[name]
print(' static bool map' + name + '(const PdfMemDocument& podofoDoc, const PdfObject& podofoObj, SkPdfObject** out) {')
print(' if (!isA' + name + '(podofoDoc, podofoObj)) return false;')
print
for sub in cls.fEnumSubclasses:
print(' if (map' + enumToCls[sub].fName + '(podofoDoc, podofoObj, out)) return true;')
print
print(' *out = new SkPdf' + name + '(&podofoDoc, &podofoObj);')
print(' return true;')
print(' }')
print
for name in self.fClassesNamesInOrder:
cls = self.fClasses[name]
print(' static bool isA' + name + '(const PdfMemDocument& podofoDoc, const PdfObject& podofoObj) {')
cntMust = 0
for field in cls.fFields:
prop = field.fProp
if prop.fHasMust:
cntMust = cntMust + 1
print(' ' + prop.fCppType + ' ' + prop.fCppName + ';')
print(' if (!' + prop.fCppReader + '(&podofoDoc, podofoObj.GetDictionary(), \"' + prop.fName + '\", \"' + prop.fAbr + '\", &' + prop.fCppName + ')) return false;')
print(' if (' + prop.fCppName + ' != ' + prop.fMustBe.toCpp() + ') return false;')
print
# hack, we only care about dictionaries now, so ret tru only if there is a match
if cntMust != 0 or name == 'Object' or name == 'Dictionary':
print(' return true;')
else:
print(' return false;')
print(' }')
print
print('};')
print
return
def generateCode():
all = PdfClassManager()
all.addClass('Object')
all.addClass('Null')
all.addClass('Boolean')
all.addClass('Integer')
all.addClass('Real')
all.addClass('Name')
all.addClass('Stream')
all.addClass('Reference')
all.addClass('Array')
all.addClass('Dictionary')
all.addClass('XObject', 'Dictionary').required('""').field('Type').must(PdfName('XObject')).name('t')
all.addClass('Image', 'XObject').required('""').field('Type').must(PdfName('XObject')).name('t').done()\
.done()\
.required('""').field('Subtype').must(PdfName('Image')).name('s').done()\
.done()\
.required('-1').field('Width', 'W').integer('w').done()\
.done()\
.required('-1').field('Height', 'H').integer('h').done()\
.done()\
.required('""').field('ColorSpace').name('cs').multiple([PdfName('/DeviceRGB', '/RGB'), PdfName('/DeviceGray', '/Gray')]).done()\
.done()\
.optional().field('BitsPerComponent', 'BPC').integer('bpc').multiple([PdfInteger(1), PdfInteger(2), PdfInteger(4), PdfInteger(8)])\
.default(PdfInteger(1)).done()\
.done()\
.carbonCopyPrivate('SkBitmap bitmap;')
all.addClass('Form', 'XObject').required('""').field('Type').must(PdfName('XObject')).name('t').done()\
.done()\
.required('""').field('Subtype').must(PdfName('Form')).name('s').done()\
.done()\
.carbonCopyPublic('void test() {}')
all.write()
return 1
if '__main__' == __name__:
sys.exit(generateCode())