Ejemplo n.º 1
0
 def pdf_to_image(self, pdf_file):
     if not self.check_file_exist(pdf_file):
         self.log.debug('Requested file not found in {} '.format(pdf_file))
         return False
     image_file = pdf_file.replace('.pdf', '.jpg')
     try:
         pdf_to_img = Image()
         pdf_to_img.density('200')
         pdf_to_img.read(pdf_file)
         pdf_to_img.write(image_file)
         self.log.info('Image convert passed - {} '.format(image_file))
         return True
     except Exception:
         self.log.error('Image convert failed - {} '.format(image_file))
         self.log.error('', exc_info=True)
         return False
Ejemplo n.º 2
0
 def to_jpgs(self, size='mid', pages=None):
     """ Convert pdf to jpeg images
       pages: array for pages, None for extract all
     """
     dendic = dict(thumb=40, mid=100, big=150)
     density = dendic[size]
     pages = np.arange(0, self.pages, 1) if pages is None else pages
     if len(pages) < 1:
         return
     sp = self.slides_path(size)
     if os.path.exists(sp):
         shutil.rmtree(sp)
     os.makedirs(sp)
     img = Image()
     img.density("{}".format(density))
     for page in pages:
         if page > self.pages or page < 0:
             continue
         pdf = "{}[{}]".format(self.pdf_path, page)
         slid = "{}/{:03d}".format(sp, page)
         img.read(pdf)
         img.write("{}.jpg".format(slid))
Ejemplo n.º 3
0
	def buildNodeImage(self,node):
		

		self.buildCounterNode+=1

		node['name'] = node['name'].encode("utf-8")


		print "{0:.2f}".format(self.buildCounterNode / (self.buildCounterNodeTotal) * 100)," percent complete of this batch                                         \r",

		scale = self.scaleFactor

		#if node['size'] > 10:

		#cale = 4.75

		#if node['size'] < 900:
		#	scale = 4




		circleHeight = int(float(node['size'])*scale)
		circleWidth = int(float(node['size'])*scale)


		canvasHeight = int(circleHeight *2)
		canvasWidth = int(circleWidth* 2) 


		im = Image(Geometry(10,10), 'transparent')
		fontsize = self.returnFontSize(canvasHeight)
		im.fontPointsize(fontsize)
		tm = TypeMetric()
		im.fontTypeMetrics(node['name'], tm)

		if tm.textWidth() > canvasWidth:
			canvasWidth = int(tm.textWidth()) + 5

		im = Image(Geometry(canvasWidth,canvasHeight), 'transparent')
		im.density("72x72")
		im.magick('RGB')
		im.resolutionUnits(ResolutionType.PixelsPerInchResolution)

		im.strokeAntiAlias(True)

		color = (node['rgb'][0],node['rgb'][1],node['rgb'][2])

		color = self.rgb_to_hex( color )
		im.fillColor(color);

		im.strokeWidth(2);

		if circleWidth <= 20:
			im.strokeColor("transparent");
		else:
			im.strokeColor("black");

		if circleWidth <= 50:
			im.strokeWidth(1);


		circle = DrawableCircle( canvasWidth/2 , canvasHeight/2, (canvasWidth/2) + (circleWidth/2), (canvasHeight/2) + (circleHeight/2))
		im.draw(circle)

		im.fillColor("white");
		im.strokeColor("black");
		im.strokeWidth(1);



		fontsize = self.returnFontSize(canvasHeight)
		im.fontPointsize(fontsize)

		

		tm = TypeMetric()
		im.fontTypeMetrics(node['name'], tm)

		textWidth = tm.textWidth()
		textHeight = tm.textHeight()


		if fontsize <= 30:
			im.strokeColor("transparent")
		

		text = DrawableText((canvasWidth / 2) - (textWidth/2), canvasHeight/2 + 6 , node['name'])
		im.draw(text)
		


		im.write(self.dataCircles + str(node['id']) + '.png')