Ejemplo n.º 1
0
 def open_callback(self, arg):
     app.updateInfo(inf1=_("Document parsing"), inf2=_("Start document processing"), inf3=3)
     filename = arg[0]
     doc = load.load_drawing(filename)
     app.updateInfo(inf1=_("Document parsing"), inf2=_("Document has been loaded"), inf3=100)
     time.sleep(0.1)
     return doc
Ejemplo n.º 2
0
 def import_callback(self, arg):
     app.updateInfo(inf1=_("File importing"), inf2=_("Start file parsing"), inf3=3)
     filename = arg[0]
     doc = load.load_drawing(filename)
     app.updateInfo(inf1=_("File importing"), inf2=_("File has been imported"), inf3=100)
     time.sleep(0.1)
     return doc
Ejemplo n.º 3
0
    def Load(self):
        file = self.file
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]
        self.initialize()
        self.document()
        self.layer(name=_("EXP_objects"))

        #Beginning of stitch data
        file.seek(0)
        parsed = 0
        parsed_interval = totalsize / 99 + 1
        flag = UNKNOWN
        while 1:

            interval_count = file.tell() / parsed_interval
            if interval_count > parsed:
                parsed += 10  # 10% progress
                app.updateInfo(inf2='%u' % parsed + '% of file is parsed...',
                               inf3=parsed)

            val1 = self.readInt8(file)
            val2 = self.readInt8(file)
            #print val1, val2
            if val1 is None or val2 is None:
                flag = END
            elif val1 == 0x80 and val2 == 0x01:
                flag = CHANGECOLOR
                val1 = self.readInt8(file)
                val2 = self.readInt8(file)
            elif val1 == 0x80 and val2 > 0x01:
                flag = JUMP
                val1 = self.readInt8(file)
                val2 = self.readInt8(file)
            else:
                flag = NORMAL

            x, y = val1, val2
            if val1 > 0x7F:
                x = -1 * (0x100 - val1)
            if val2 > 0x7F:
                y = -1 * (0x100 - val2)

            if flag == NORMAL:
                self.needle_down(x, y)
            elif flag == CHANGECOLOR:
                self.needle_up()
                self.needle_down(x, y)
                #self.bezier()
                self.cur_style.line_pattern = self.palette.next_color()
            elif flag == JUMP:
                #self.bezier() # cut the rope
                self.jump(x, y)
                #self.needle_down(x, y)
            elif flag == END:
                self.needle_up()
                break
        self.end_all()
        self.object.load_Completed()
        return self.object
Ejemplo n.º 4
0
	def Load(self):
		file = self.file
		fileinfo=os.stat(self.filename)
		totalsize=fileinfo[6]
		self.initialize()
		self.document()
		self.layer(name=_("EXP_objects"))
		
		#Beginning of stitch data
		file.seek(0)
		parsed = 0
		parsed_interval=totalsize/99+1
		flag = UNKNOWN
		while 1:
			
			interval_count=file.tell()/parsed_interval
			if interval_count > parsed:
				parsed+=10 # 10% progress
				app.updateInfo(inf2='%u'%parsed+'% of file is parsed...',inf3=parsed)
			
			val1 = self.readInt8(file)
			val2 = self.readInt8(file)
			#print val1, val2
			if val1 is None or val2 is None:
				flag = END
			elif val1 == 0x80 and val2 == 0x01:
				flag = CHANGECOLOR
				val1 = self.readInt8(file)
				val2 = self.readInt8(file)
			elif val1 == 0x80 and val2 > 0x01:
				flag = JUMP
				val1 = self.readInt8(file)
				val2 = self.readInt8(file)
			else:
				flag = NORMAL
			
			x, y = val1, val2
			if val1 > 0x7F:
				x = -1 * (0x100 - val1)
			if val2 > 0x7F:
				y = -1 * (0x100 - val2)
				
			if flag == NORMAL:
				self.needle_down(x, y)
			elif flag == CHANGECOLOR:
				self.needle_up()
				self.needle_down(x, y)
				#self.bezier()
				self.cur_style.line_pattern = self.palette.next_color()
			elif flag == JUMP:
				#self.bezier() # cut the rope
				self.jump(x, y)
				#self.needle_down(x, y)
			elif flag == END:
				self.needle_up()
				break
		self.end_all()
		self.object.load_Completed()
		return self.object
def save(document, file, filename, options={}):
    app.updateInfo(inf1=_('PDF generation.'),
                   inf2=_('Start document composing'),
                   inf3=3)
    saver = PDFGenSaver(file, filename, document, options)
    saver.Save()
    saver.close()
    app.updateInfo(inf2=_('Document generation is finished'), inf3=100)
Ejemplo n.º 6
0
 def save_callback(self, arg):
     app.updateInfo(inf1=_('Document saving/exporting'),
                    inf2=_('Start document processing'),
                    inf3=3)
     self.SaveToFile(arg[0], arg[1], arg[2], arg[3], arg[4])
     app.updateInfo(inf2=_('Finish document processing'), inf3=100)
     time.sleep(.1)
     return None
    def interpret(self):
        import shlex

        def is_number(a):
            try:
                i = float(a)
            except ValueError:
                return 0
            return 1

        file = self.file
        if type(file) == StringType:
            file = open(file, 'r')
        file.seek(0)
        readline = file.readline
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]

        lexer = shlex.shlex(file)
        lexer.debug = 0
        lexer.wordchars = lexer.wordchars + ".-+"
        lexer.whitespace = lexer.whitespace + ';,'

        keyword = None
        args = []

        parsed = 0
        parsed_interval = totalsize / 99 + 1
        while 1:

            interval_count = file.tell() / parsed_interval
            if interval_count > parsed:
                parsed += 10  # 10% progress
                app.updateInfo(inf2='%u' % parsed +
                               _('% of file is parsed...'),
                               inf3=parsed)

            token = lexer.get_token()
            if not token:
                # run last command
                self.run(keyword, args)
                # pun up
                self.run('PU', [])
                # END INTERPRETATION
                app.updateInfo(inf2=_('Parsing is finished'), inf3=100)
                break

            if keyword and is_number(token):
                args.append(token)
            else:
                self.run(keyword, args)
                keyword = token[0:2]
                args = []
                if token[2:]:
                    lexer.push_token(token[2:])
Ejemplo n.º 8
0
 def import_callback(self, arg):
     app.updateInfo(inf1=_('File importing'),
                    inf2=_('Start file parsing'),
                    inf3=3)
     filename = arg[0]
     doc = load.load_drawing(filename)
     app.updateInfo(inf1=_('File importing'),
                    inf2=_('File has been imported'),
                    inf3=100)
     time.sleep(.1)
     return doc
Ejemplo n.º 9
0
 def open_callback(self, arg):
     app.updateInfo(inf1=_('Document parsing'),
                    inf2=_('Start document processing'),
                    inf3=3)
     filename = arg[0]
     doc = load.load_drawing(filename)
     app.updateInfo(inf1=_('Document parsing'),
                    inf2=_('Document has been loaded'),
                    inf3=100)
     time.sleep(.1)
     return doc
    def interpret(self):
        import shlex

        def is_number(a):
            try:
                i = float(a)
            except ValueError:
                return 0
            return 1

        file = self.file
        if type(file) == StringType:
            file = open(file, "r")
        file.seek(0)
        readline = file.readline
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]

        lexer = shlex.shlex(file)
        lexer.debug = 0
        lexer.wordchars = lexer.wordchars + ".-+"
        lexer.whitespace = lexer.whitespace + ";,"

        keyword = None
        args = []

        parsed = 0
        parsed_interval = totalsize / 99 + 1
        while 1:

            interval_count = file.tell() / parsed_interval
            if interval_count > parsed:
                parsed += 10  # 10% progress
                app.updateInfo(inf2="%u" % parsed + _("% of file is parsed..."), inf3=parsed)

            token = lexer.get_token()
            if not token:
                # run last command
                self.run(keyword, args)
                # pun up
                self.run("PU", [])
                # END INTERPRETATION
                app.updateInfo(inf2=_("Parsing is finished"), inf3=100)
                break

            if keyword and is_number(token):
                args.append(token)
            else:
                self.run(keyword, args)
                keyword = token[0:2]
                args = []
                if token[2:]:
                    lexer.push_token(token[2:])
Ejemplo n.º 11
0
 def Save(self):
     self.document.updateActivePage()
     masters = self.document.getMasterLayers()
     count = 0
     pagenum = len(self.document.pages)
     interval = int(97 / pagenum)
     for page in self.document.pages:
         count += 1
         app.updateInfo(inf2=_('Composing page %u of %u') % (count, pagenum), inf3=count * interval)
         layers = page + masters
         for layer in layers:
             if not layer.is_SpecialLayer and layer.Printable():
                 self.save_objects(layer.GetObjects())
	def import_curves(self):
		objcount=0
		objnum=len(self.info.paths_heap)
		jump=87.0/objnum
		interval=int((objnum/20)/10)+1
		interval_count=0
		for obj in self.info.paths_heap:
			objcount+=1
			interval_count+=1
			if interval_count>interval:
				interval_count=0
				app.updateInfo(inf2=_("Interpreting object %u of %u")%(objcount,objnum),inf3=10+int(jump*objcount))
			if obj==1:
				self.begin_group()
			elif obj==0:
				self.end_group()
			elif type(obj)==TupleType and obj[0]=='BMP':
				self.image(obj[1],obj[2])
			elif obj.is_Rectangle:
				self.set_style(obj)
				[m11,m21,m12,m22,v1,v2]=obj.trafo
				if len(obj.radiuses):
					self.rectangle(m11, m21, m12, m22, v1, v2, obj.radiuses[0], obj.radiuses[1])
				else:
					self.rectangle(m11, m21, m12, m22, v1, v2)
			elif obj.is_Ellipse:
				ellipse_type=app.conf.const.ArcPieSlice
				if obj.ellipse_type:
					ellipse_type=app.conf.const.ArcArc
					obj.colorIndex=False
				self.set_style(obj)
				[m11,m21,m12,m22,v1,v2]=obj.trafo
				self.ellipse(m11, m21, m12, m22, v1, v2, obj.angles[0], obj.angles[1],ellipse_type)
					
			else:
				self.set_style(obj)
						
				object = PolyBezier(paths = tuple(obj.paths), properties = self.get_prop_stack())
				self.append_object(object)
				
				if obj.outlineIndex:
					if self.info.outl_data[obj.outlineIndex].spec & 0x10:
						copy = object.Duplicate()
						copy.properties.SetProperty(line_width=0)
						self.append_object(copy)
				else:
					if self.info.default_outl_data.spec & 0x10:
						copy = object.Duplicate()
						copy.properties.SetProperty(line_width=0)
						self.append_object(copy)
Ejemplo n.º 13
0
def save(doc, file, filename, options = {}):
	app.updateInfo(inf1=_('Postscript generation.'),inf2=_('Start document composing'),inf3=3)
	
	bbox = doc.BoundingRect(visible = 0, printable = 1)
	dev = PostScriptDevice
	ps_dev = dev(file, as_eps = 1, bounding_box = tuple(bbox),
					rotate = 0, # page rotate?
					For = os_utils.get_real_username(),
					CreationDate = os_utils.current_date(), Title = 'generated by sK1',
					document = doc)
	doc.Draw(ps_dev)
	ps_dev.Close()
	
	app.updateInfo(inf2=_('Document generation is finished'),inf3=100)
Ejemplo n.º 14
0
def save(doc, file, filename, options = {}):
	app.updateInfo(inf1=_('Postscript generation.'),inf2=_('Start document composing'),inf3=3)
	
	bbox = doc.BoundingRect(visible = 0, printable = 1)
	dev = PostScriptDevice
	ps_dev = dev(file, as_eps = 1, bounding_box = tuple(bbox),
					rotate = 0, # page rotate?
					For = system.get_real_username(),
					CreationDate = system.current_date(), Title = 'generated by sK1',
					document = doc)
	doc.Draw(ps_dev)
	ps_dev.Close()
	
	app.updateInfo(inf2=_('Document generation is finished'),inf3=100)
 def Save(self):
     self.document.updateActivePage()
     masters = self.document.getMasterLayers()
     count = 0
     pagenum = len(self.document.pages)
     interval = int(97 / pagenum)
     for page in self.document.pages:
         count += 1
         app.updateInfo(inf2=_('Composing page %u of %u') %
                        (count, pagenum),
                        inf3=count * interval)
         layers = page + masters
         for layer in layers:
             if not layer.is_SpecialLayer and layer.Printable():
                 self.save_objects(layer.GetObjects())
Ejemplo n.º 16
0
	def Load(self):
		try:			
			self.file.seek(0)
			cdr = RiffChunk()
			cdr.load(self.file.read())
			app.updateInfo(inf2=_("Parsing is finished"),inf3=10)
			
			self.document()
			
			
			if self.verbosity:
				text=''
				if cdr.infocollector.cdr_version>0:
					text+='CorelDRAW ver.%u'%cdr.infocollector.cdr_version+'          \n'
					text+='   Pages: %u'%(cdr.infocollector.pages-1)+'\n'
					text+='   Layers: %u'%(cdr.infocollector.layers/cdr.infocollector.pages)+'\n'
					text+='   Groups: %u'%cdr.infocollector.groups+'\n'
					text+='   Objects: %u'%cdr.infocollector.objects+'\n'
					text+='   Bitmaps: %u'%cdr.infocollector.bitmaps+'\n'
					if cdr.infocollector.compression:
						text+='   COMPRESSED'
				sys.stderr.write(text)
			
			if cdr.infocollector.cdr_version>6:
				self.info=cdr.infocollector
				self.info.loader=self
				self.info.process_properties()
				
				self.import_curves()
				
			else:
				warn(USER, 'File <'+self.filename+
										'> contains usupported CorelDRAW ver.%u'%cdr.infocollector.cdr_version+'.0 drawing')
			self.end_all()
			self.object.load_Completed()
			self.object.pages.remove(self.object.pages[-1])
			self.object.pages.reverse()
			self.object.active_page=len(self.object.pages)-1
			self.object.setActivePage(0)
			
			return self.object
		
		except RiffEOF:
			raise SketchLoadError(_("Unexpected problems in file parsing"))
		except:
			import traceback
			traceback.print_exc()
			raise
Ejemplo n.º 17
0
    def Load(self):
        file = self.file
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]
        self.initialize()
        self.readheader(file)
        self.document()
        self.layer(name=_("DST_objects"))
        parsed = 0
        parsed_interval = totalsize / 99 + 1
        flag = UNKNOWN
        while 1:

            interval_count = file.tell() / parsed_interval
            if interval_count > parsed:
                parsed += 10  # 10% progress
                app.updateInfo(inf2='%u' % parsed + '% of file is parsed...',
                               inf3=parsed)

            data = file.read(3)
            if len(data) < 3 or flag == 'END':
                self.needle_up()
                ## END INTERPRETATION
                app.updateInfo(inf2=_('Parsing is finished'), inf3=100)
                break

            d1, d2, d3 = unpack('BBB', data)
            x = self.decode_x(d1, d2, d3)
            y = self.decode_y(d1, d2, d3)
            #XXX swap coordinate
            x, y = y, x

            flag = self.decode_flag(d3)
            if flag == NORMAL:
                self.needle_down(x, y)
            elif flag == CHANGECOLOR:
                self.needle_up(x, y)
                self.cur_style.line_pattern = self.palette.next_color()
            elif flag == JUMP:
                #self.bezier() # cut the rope
                self.jump(x, y)

        self.end_all()
        self.object.load_Completed()
        return self.object
Ejemplo n.º 18
0
	def Load(self):
		file = self.file
		fileinfo=os.stat(self.filename)
		totalsize=fileinfo[6]
		self.initialize()
		self.readheader(file)
		self.document()
		self.layer(name=_("DST_objects"))
		parsed=0
		parsed_interval=totalsize/99+1
		flag = UNKNOWN
		while 1:
			
			interval_count=file.tell()/parsed_interval
			if interval_count > parsed:
				parsed+=10 # 10% progress
				app.updateInfo(inf2='%u'%parsed+'% of file is parsed...',inf3=parsed)
			
			data = file.read(3)
			if len(data) < 3 or flag == 'END':
				self.needle_up()
				## END INTERPRETATION
				app.updateInfo(inf2=_('Parsing is finished'),inf3=100)
				break
				
			d1, d2, d3 = unpack('BBB', data)
			x = self.decode_x(d1, d2, d3)
			y = self.decode_y(d1, d2, d3)
			#XXX swap coordinate 
			x, y = y, x
			
			flag = self.decode_flag(d3)
			if flag == NORMAL:
				self.needle_down(x, y)
			elif flag == CHANGECOLOR:
				self.needle_up(x, y)
				self.cur_style.line_pattern = self.palette.next_color()
			elif flag == JUMP:
				#self.bezier() # cut the rope
				self.jump(x, y)

		self.end_all()
		self.object.load_Completed()
		return self.object
Ejemplo n.º 19
0
	def load_section(self):
		return_code = False
		file = self.file
		parsed = self.parsed
		parsed_interval = self.parsed_interval
		line1, line2 = self.read_record()
		while line1 or line2:
			interval_count = file.tell() / parsed_interval
			if interval_count > parsed:
				parsed += 10 # 10% progress
				app.updateInfo(inf2 = '%u' % parsed + _('% of file is parsed...'), inf3 = parsed)
				
			if line1 == '0' and line2 == 'ENDSEC':
				return_code = True
				break
			elif line1 == '0':
				self.run(line2)
			line1, line2 = self.read_record()
		self.parsed = parsed
		return return_code
Ejemplo n.º 20
0
    def Load(self):
        file = self.file
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]
        self.initialize()
        self.readheader(file)
        self.scale = .472440944882
        self.document()
        self.layer(name=_("PCS_objects"))

        parsed = 0
        parsed_interval = totalsize / 99 + 1
        for i in xrange(self.LSB):
            interval_count = file.tell() / parsed_interval
            if interval_count > parsed:
                parsed += 10  # 10% progress
                app.updateInfo(inf2='%u' % parsed + '% of file is parsed...',
                               inf3=parsed)

            data = file.read(9)

            if len(data) < 9:
                break
            val1, val2, val4, val5, val6, val7, val9 = unpack('<BHBBHBB', data)
            if val9 == 0x03:
                self.needle_up()
                self.cur_style.line_pattern = self.palette.next_color(val1 + 1)
            else:
                x = val2
                y = val6
                self.cur_x = self.cur_y = 0
                self.needle_down(x, y)

        self.needle_up()
        self.end_all()
        self.object.load_Completed()
        return self.object
Ejemplo n.º 21
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	def Load(self):
		file = self.file
		fileinfo=os.stat(self.filename)
		totalsize=fileinfo[6]
		self.initialize()
		self.readheader(file)
		self.scale = .472440944882
		self.document()
		self.layer(name=_("PCS_objects"))
		
		parsed = 0
		parsed_interval=totalsize/99+1
		for i in xrange(self.LSB):
			interval_count=file.tell()/parsed_interval
			if interval_count > parsed:
				parsed+=10 # 10% progress
				app.updateInfo(inf2='%u'%parsed+'% of file is parsed...',inf3=parsed)
				
			data = file.read(9)
			
			if len(data) < 9:
				break
			val1, val2, val4, val5, val6, val7, val9 = unpack('<BHBBHBB', data)
			if val9 == 0x03:
				self.needle_up()
				self.cur_style.line_pattern = self.palette.next_color(val1+1)
			else:
				x = val2
				y = val6
				self.cur_x = self.cur_y = 0
				self.needle_down(x, y)

		self.needle_up()
		self.end_all()
		self.object.load_Completed()
		return self.object
Ejemplo n.º 22
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 def save_callback(self, arg):
     app.updateInfo(inf1=_("Document saving/exporting"), inf2=_("Start document processing"), inf3=3)
     self.SaveToFile(arg[0], arg[1], arg[2], arg[3], arg[4])
     app.updateInfo(inf2=_("Finish document processing"), inf3=100)
     time.sleep(0.1)
     return None
Ejemplo n.º 23
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def save(document, file, filename, options = {}):
	app.updateInfo(inf1=_('PDF generation.'),inf2=_('Start document composing'),inf3=3)
	saver = PDFGenSaver(file, filename, document, options)
	saver.Save()
	saver.close()
	app.updateInfo(inf2=_('Document generation is finished'),inf3=100)
Ejemplo n.º 24
0
	def Load(self):
		file = self.file
		fileinfo=os.stat(self.filename)
		totalsize=fileinfo[6]
		self.initialize()
		self.readheader(file)
		self.cur_style.line_pattern = self.palette.next_color(1)
		self.document()
		self.layer(name=_("PES_objects"))
		
		#Beginning of stitch data
		file.seek(self.pecstart + 532)
		parsed = 0
		parsed_interval=totalsize/99+1
		while 1:
			
			interval_count=file.tell()/parsed_interval
			if interval_count > parsed:
				parsed+=10 # 10% progress
				app.updateInfo(inf2='%u'%parsed+'% of file is parsed...',inf3=parsed)
			
			val1 = self.readInt8(file)
			val2 = self.readInt8(file)
			
			if val1 is None or val2 is None:
				break
			elif val1 == 255 and val2 == 0:
				#end of stitches
				flag = END
				app.updateInfo(inf2=_('Parsing is finished'),inf3=100)
			elif val1 == 254 and val2 == 176:
				# color switch, start a new block
				flag = CHANGECOLOR
				nn = self.readInt8(file)
			else:
				if val1 & 128 == 128: # 0x80
					#this is a jump stitch
					flag = JUMP
					x = ((val1 & 15) * 256) + val2
					if x & 2048 == 2048: # 0x0800
						x= x - 4096
					#read next byte for Y value
					val2 = self.readInt8(file)
				else:
					#normal stitch
					flag = NORMAL
					x = val1
					if x > 63:
						x = x - 128
				
				if val2 & 128 == 128: # 0x80
					#this is a jump stitch
					flag = JUMP
					val3 = self.readInt8(file)
					y = ((val2 & 15) * 256) + val3
					if y & 2048 == 2048: # 0x0800
						y = y - 4096
				else:
					#normal stitch
					flag = NORMAL
					y = val2
					if y > 63:
						y = y - 128
				#XXX flip vertical coordinate 
				x, y = x, -y
				
			if flag == NORMAL:
				self.needle_down(x, y)
			elif flag == CHANGECOLOR:
				self.needle_up()
				#self.bezier()
				self.cur_style.line_pattern = self.palette.next_color()
			elif flag == JUMP:
				#self.bezier() # cut the rope
				#self.jump(x, y)
				self.needle_down(x, y)
			elif flag == END:
				self.needle_up()
				break
		self.end_all()
		self.object.load_Completed()
		return self.object
Ejemplo n.º 25
0
	def import_curves(self):
		objcount=0
		objnum=len(self.info.paths_heap)
		jump=87.0/objnum
		interval=int((objnum/20)/10)+1
		interval_count=0
		for obj in self.info.paths_heap:
			objcount+=1
			interval_count+=1
			if interval_count>interval:
				interval_count=0
				app.updateInfo(inf2=_("Interpreting object %u of %u")%(objcount,objnum),inf3=10+int(jump*objcount))
			if obj==1:
				self.begin_group()
			elif obj==0:
				self.end_group()
			elif type(obj)==TupleType and obj[0]=='BMP':
				self.image(obj[1],obj[2])
			else:
				style = self.style
				if obj.colorIndex:
					if self.info.fill_data.has_key(obj.colorIndex):
						style.fill_pattern = SolidPattern(self.info.fill_data[obj.colorIndex])
					else:
						style.fill_pattern = EmptyPattern
				else:
					style.fill_pattern = EmptyPattern
					
				if obj.outlineIndex:
					if self.info.outl_data.has_key(obj.outlineIndex):
						if self.info.outl_data[obj.outlineIndex].spec & 0x01:
							style.line_pattern = EmptyPattern
						else:
							style.line_pattern = SolidPattern(self.info.outl_data[obj.outlineIndex].color)
						
						if self.info.outl_data[obj.outlineIndex].spec & 0x04:
							style.line_dashes = self.info.outl_data[obj.outlineIndex].dashes
						
						if self.info.outl_data[obj.outlineIndex].spec & 0x20:
							style.line_width = self.info.outl_data[obj.outlineIndex].width*obj.scale
						else:
							style.line_width = self.info.outl_data[obj.outlineIndex].width
							
						style.line_cap = self.info.outl_data[obj.outlineIndex].caps + 1
						style.line_join = self.info.outl_data[obj.outlineIndex].corner
					else:
						style.line_pattern = EmptyPattern
				else:
					if self.info.default_outl_data:
						if self.info.default_outl_data.spec & 0x01:
							style.line_pattern = EmptyPattern
						else:
							style.line_pattern = SolidPattern(self.info.default_outl_data.color)
							
						if self.info.default_outl_data.spec & 0x04:
							style.line_dashes = self.info.default_outl_data.dashes

						if self.info.default_outl_data.spec & 0x20:
							style.line_width = self.info.default_outl_data.width*obj.scale
						else:
							style.line_width = self.info.default_outl_data.width
						style.line_cap = self.info.default_outl_data.caps + 1
						style.line_join = self.info.default_outl_data.corner
					else:
						style.line_pattern = EmptyPattern
						
				object = PolyBezier(paths = tuple(obj.paths), properties = self.get_prop_stack())
				self.append_object(object)
				
				if obj.outlineIndex:
					if self.info.outl_data[obj.outlineIndex].spec & 0x10:
						copy = object.Duplicate()
						copy.properties.SetProperty(line_width=0)
						self.append_object(copy)
				else:
					if self.info.default_outl_data.spec & 0x10:
						copy = object.Duplicate()
						copy.properties.SetProperty(line_width=0)
						self.append_object(copy)
Ejemplo n.º 26
0
	def Load(self):
		try:			
			self.file.seek(0)
			cdr = RiffChunk()
			cdr.load(self.file.read())
			app.updateInfo(inf2=_("Parsing is finished"),inf3=10)

			summary=[
			('CDR version', cdr.infocollector.cdr_version),
			('pages', cdr.infocollector.pages-1),
			('layers', cdr.infocollector.layers/cdr.infocollector.pages),
			('groups', cdr.infocollector.groups),
			('objects', cdr.infocollector.objects),
			('bitmaps', cdr.infocollector.bitmaps),
			]
			if cdr.infocollector.compression:
				summary.append(('compression','yes'))
			else:
				summary.append(('compression','no'))


			if self.filename == None:
				return
			from xml.sax.saxutils import XMLGenerator
	
			try:
				file = open(self.filename, 'w')
			except (IOError, os.error), value:
				import sys
				sys.stderr('cannot write parsing result into %s: %s'% (`filename`, value[1]))
				return
		
			writer = XMLGenerator(out=file,encoding='utf-8')
			writer.startDocument()	
	
			writer.startElement('riffDocument',{})
			writer.characters('\n')
			
			writer.startElement('docSummary',{})
			writer.characters('\n')
			
			for key, value in summary:
				writer.characters('\t')
				writer.startElement('%s' % key,{})
				writer.characters('%s' % `value`)
				writer.endElement('%s' % key)
				writer.characters('\n')
				
			writer.endElement('docSummary')
			writer.characters('\n')
			
			writer.startElement('docStructure',{})
			writer.characters('\n')
			
			if cdr.infocollector.cdr_version>6:
				self.info=cdr.infocollector
				self.info.loader=self
				self.info.process_properties()				
				self.import_curves(writer)
				
			else:
				writer.characters('\t')
				writer.startElement('info',{})
				value='Parsed file contains usupported CorelDRAW ver.%u'%cdr.infocollector.cdr_version+'.0 drawing'
				writer.characters('%s' % `value`)
				writer.endElement('info')
				writer.characters('\n')
    def Load(self):
        file = self.file
        if type(file) == StringType:
            file = open(file, 'r')
        dict = self.get_func_dict()
        from app import skread
        parse = skread.parse_sk_line2
        readline = file.readline
        bezier_load = self.bezier_load
        num = 1
        line = '#'
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]
        interval = int((totalsize / 200) / 10) + 1
        interval_count = 0
        if __debug__:
            import time
            start_time = time.clock()
        try:
            line = readline()
            parsed = int(file.tell() * 100 / totalsize)
            app.updateInfo(inf2='%u' % parsed + '% of file is parsed...',
                           inf3=parsed)
            while line:
                num = num + 1
                if line[0] == 'b' and line[1] in 'sc':
                    line = bezier_load(line)
                    continue
                #parse(line, dict)
                funcname, args, kwargs = parse(line)
                if funcname is not None:
                    function = dict.get(funcname)
                    if function is not None:
                        try:
                            apply(function, args, kwargs)
                        except TypeError:
                            tb = sys.exc_info()[2]
                            try:
                                if tb.tb_next is None:
                                    # the exception was raised by apply
                                    # and not within the function. Try to
                                    # invoke the function with fewer
                                    # arguments
                                    if call_function(function, args, kwargs):
                                        message = _("Omitted some arguments "
                                                    "for function %s")
                                    else:
                                        message = _("Cannot call function %s")
                                    self.add_message(message %
                                                     function.__name__)

                                else:
                                    raise
                            finally:
                                del tb
                    else:
                        self.add_message(_("Unknown function %s") % funcname)

                line = readline()
                interval_count += 1
                if interval_count > interval:
                    interval_count = 0
                    parsed = int(file.tell() * 100 / totalsize)
                    app.updateInfo(inf2='%u' % parsed +
                                   '% of file is parsed...',
                                   inf3=parsed)

        except (SketchLoadError, SyntaxError), value:
            # a loader specific error occurred
            warn_tb(INTERNAL, 'error in line %d', num)
            if load._dont_handle_exceptions:
                raise
            else:
                raise SketchLoadError('%d:%s' % (num, value))
Ejemplo n.º 28
0
    def Load(self):
        file = self.file
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]
        self.initialize()
        self.readheader(file)
        self.cur_style.line_pattern = self.palette.next_color(1)
        self.document()
        self.layer(name=_("PES_objects"))

        #Beginning of stitch data
        file.seek(self.pecstart + 532)
        parsed = 0
        parsed_interval = totalsize / 99 + 1
        while 1:

            interval_count = file.tell() / parsed_interval
            if interval_count > parsed:
                parsed += 10  # 10% progress
                app.updateInfo(inf2='%u' % parsed + '% of file is parsed...',
                               inf3=parsed)

            val1 = self.readInt8(file)
            val2 = self.readInt8(file)

            if val1 is None or val2 is None:
                break
            elif val1 == 255 and val2 == 0:
                #end of stitches
                flag = END
                app.updateInfo(inf2=_('Parsing is finished'), inf3=100)
            elif val1 == 254 and val2 == 176:
                # color switch, start a new block
                flag = CHANGECOLOR
                nn = self.readInt8(file)
            else:
                if val1 & 128 == 128:  # 0x80
                    #this is a jump stitch
                    flag = JUMP
                    x = ((val1 & 15) * 256) + val2
                    if x & 2048 == 2048:  # 0x0800
                        x = x - 4096
                    #read next byte for Y value
                    val2 = self.readInt8(file)
                else:
                    #normal stitch
                    flag = NORMAL
                    x = val1
                    if x > 63:
                        x = x - 128

                if val2 & 128 == 128:  # 0x80
                    #this is a jump stitch
                    flag = JUMP
                    val3 = self.readInt8(file)
                    y = ((val2 & 15) * 256) + val3
                    if y & 2048 == 2048:  # 0x0800
                        y = y - 4096
                else:
                    #normal stitch
                    flag = NORMAL
                    y = val2
                    if y > 63:
                        y = y - 128
                #XXX flip vertical coordinate
                x, y = x, -y

            if flag == NORMAL:
                self.needle_down(x, y)
            elif flag == CHANGECOLOR:
                self.needle_up()
                #self.bezier()
                self.cur_style.line_pattern = self.palette.next_color()
            elif flag == JUMP:
                #self.bezier() # cut the rope
                #self.jump(x, y)
                self.needle_down(x, y)
            elif flag == END:
                self.needle_up()
                break
        self.end_all()
        self.object.load_Completed()
        return self.object
            # This should be considered a bug.
            warn_tb(INTERNAL, 'error in line %d:\n%s', num, ` line `)
            if load._dont_handle_exceptions:
                raise
            else:
                raise SketchLoadError(
                    _("error %s:%s in line %d:\n%s") % (sys.exc_info()[:2] +
                                                        (num, ` line `)))

        self.end_all()
        if self.page_layout:
            self.object.load_SetLayout(self.page_layout)
        for style in self.style_dict.values():
            self.object.load_AddStyle(style)
        self.object.load_Completed()
        app.updateInfo(inf2='Pasing is finished', inf3=100)

        self.object.meta.native_format = 1

        if __debug__:
            pdebug('timing', 'time:', time.clock() - start_time)
        return self.object


def call_function(function, args, kwargs):
    if hasattr(function, 'im_func'):
        args = (function.im_self, ) + args
        function = function.im_func
    code = function.func_code
    if code.co_flags & 0x000C:
        # uses *args or **kwargs
    def Load(self):
        try:
            self.file.seek(0)
            cdr = RiffChunk()
            cdr.load(self.file.read())
            app.updateInfo(inf2=_("Parsing is finished"), inf3=10)

            summary = [
                ('CDR version', cdr.infocollector.cdr_version),
                ('pages', cdr.infocollector.pages - 1),
                ('layers', cdr.infocollector.layers / cdr.infocollector.pages),
                ('groups', cdr.infocollector.groups),
                ('objects', cdr.infocollector.objects),
                ('bitmaps', cdr.infocollector.bitmaps),
            ]
            if cdr.infocollector.compression:
                summary.append(('compression', 'yes'))
            else:
                summary.append(('compression', 'no'))

            if self.filename == None:
                return
            from xml.sax.saxutils import XMLGenerator

            try:
                file = open(self.filename, 'w')
            except (IOError, os.error), value:
                import sys
                sys.stderr('cannot write parsing result into %s: %s' %
                           ( ` filename `, value[1]))
                return

            writer = XMLGenerator(out=file, encoding='utf-8')
            writer.startDocument()

            writer.startElement('riffDocument', {})
            writer.characters('\n')

            writer.startElement('docSummary', {})
            writer.characters('\n')

            for key, value in summary:
                writer.characters('\t')
                writer.startElement('%s' % key, {})
                writer.characters('%s' % ` value `)
                writer.endElement('%s' % key)
                writer.characters('\n')

            writer.endElement('docSummary')
            writer.characters('\n')

            writer.startElement('docStructure', {})
            writer.characters('\n')

            if cdr.infocollector.cdr_version > 6:
                self.info = cdr.infocollector
                self.info.loader = self
                self.info.process_properties()
                self.import_curves(writer)

            else:
                writer.characters('\t')
                writer.startElement('info', {})
                value = 'Parsed file contains usupported CorelDRAW ver.%u' % cdr.infocollector.cdr_version + '.0 drawing'
                writer.characters('%s' % ` value `)
                writer.endElement('info')
                writer.characters('\n')
Ejemplo n.º 31
0
			# An exception was not converted to a SketchLoadError.
			# This should be considered a bug.
			warn_tb(INTERNAL, 'error in line %d:\n%s', num, `line`)
			if load._dont_handle_exceptions:
				raise
			else:
				raise SketchLoadError(_("error %s:%s in line %d:\n%s")
										% (sys.exc_info()[:2] +(num, `line`)))

		self.end_all()
		if self.page_layout:
			self.object.load_SetLayout(self.page_layout)
		for style in self.style_dict.values():
			self.object.load_AddStyle(style)
		self.object.load_Completed()
		app.updateInfo(inf2='Pasing is finished',inf3=100)

		self.object.meta.native_format = 1

		if __debug__:
			pdebug('timing', 'time:', time.clock() - start_time)
		return self.object


def call_function(function, args, kwargs):
	if hasattr(function, 'im_func'):
		args = (function.im_self,) + args
		function = function.im_func
	code = function.func_code
	if code.co_flags & 0x000C:
		# uses *args or **kwargs
Ejemplo n.º 32
0
        except:
            # An exception was not converted to a SketchLoadError.
            # This should be considered a bug.
            warn_tb(INTERNAL, "error in line %d:\n%s", num, ` line `)
            if load._dont_handle_exceptions:
                raise
            else:
                raise SketchLoadError(_("error %s:%s in line %d:\n%s") % (sys.exc_info()[:2] + (num, ` line `)))

        self.end_all()
        if self.page_layout:
            self.object.load_SetLayout(self.page_layout)
        for style in self.style_dict.values():
            self.object.load_AddStyle(style)
        self.object.load_Completed()
        app.updateInfo(inf2="Pasing is finished", inf3=100)

        self.object.meta.native_format = 1

        if __debug__:
            pdebug("timing", "time:", time.clock() - start_time)
        return self.object


def call_function(function, args, kwargs):
    if hasattr(function, "im_func"):
        args = (function.im_self,) + args
        function = function.im_func
    code = function.func_code
    if code.co_flags & 0x000C:
        # uses *args or **kwargs
Ejemplo n.º 33
0
    def Load(self):
        file = self.file
        if type(file) == StringType:
            file = open(file, "r")
        dict = self.get_func_dict()
        from app import skread

        parse = skread.parse_sk_line2
        readline = file.readline
        bezier_load = self.bezier_load
        num = 1
        line = "#"
        fileinfo = os.stat(self.filename)
        totalsize = fileinfo[6]
        interval = int((totalsize / 200) / 10) + 1
        interval_count = 0
        if __debug__:
            import time

            start_time = time.clock()
        try:
            line = readline()
            parsed = int(file.tell() * 100 / totalsize)
            app.updateInfo(inf2="%u" % parsed + "% of file is parsed...", inf3=parsed)
            while line:
                num = num + 1
                if line[0] == "b" and line[1] in "sc":
                    line = bezier_load(line)
                    continue
                    # parse(line, dict)
                funcname, args, kwargs = parse(line)
                if funcname is not None:
                    function = dict.get(funcname)
                    if function is not None:
                        try:
                            apply(function, args, kwargs)
                        except TypeError:
                            tb = sys.exc_info()[2]
                            try:
                                if tb.tb_next is None:
                                    # the exception was raised by apply
                                    # and not within the function. Try to
                                    # invoke the function with fewer
                                    # arguments
                                    if call_function(function, args, kwargs):
                                        message = _("Omitted some arguments " "for function %s")
                                    else:
                                        message = _("Cannot call function %s")
                                    self.add_message(message % function.__name__)

                                else:
                                    raise
                            finally:
                                del tb
                    else:
                        self.add_message(_("Unknown function %s") % funcname)

                line = readline()
                interval_count += 1
                if interval_count > interval:
                    interval_count = 0
                    parsed = int(file.tell() * 100 / totalsize)
                    app.updateInfo(inf2="%u" % parsed + "% of file is parsed...", inf3=parsed)

        except (SketchLoadError, SyntaxError), value:
            # a loader specific error occurred
            warn_tb(INTERNAL, "error in line %d", num)
            if load._dont_handle_exceptions:
                raise
            else:
                raise SketchLoadError("%d:%s" % (num, value))