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-rw-r--r--pngcanvas.py291
1 files changed, 0 insertions, 291 deletions
diff --git a/pngcanvas.py b/pngcanvas.py
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-#!/usr/bin/env python
-
-"""Simple PNG Canvas for Python"""
-__version__ = "0.8"
-__author__ = "Rui Carmo (http://the.taoofmac.com)"
-__copyright__ = "CC Attribution-NonCommercial-NoDerivs 2.0 Rui Carmo"
-__contributors__ = ["http://collaboa.weed.rbse.com/repository/file/branches/pgsql/lib/spark_pr.rb"], ["Eli Bendersky"]
-
-import zlib, struct
-
-signature = struct.pack("8B", 137, 80, 78, 71, 13, 10, 26, 10)
-
-# alpha blends two colors, using the alpha given by c2
-def blend(c1, c2):
- return [c1[i]*(0xFF-c2[3]) + c2[i]*c2[3] >> 8 for i in range(3)]
-
-# calculate a new alpha given a 0-0xFF intensity
-def intensity(c,i):
- return [c[0],c[1],c[2],(c[3]*i) >> 8]
-
-# calculate perceptive grayscale value
-def grayscale(c):
- return int(c[0]*0.3 + c[1]*0.59 + c[2]*0.11)
-
-# calculate gradient colors
-def gradientList(start,end,steps):
- delta = [end[i] - start[i] for i in range(4)]
- grad = []
- for i in range(steps+1):
- grad.append([start[j] + (delta[j]*i)/steps for j in range(4)])
- return grad
-
-class PNGCanvas:
- def __init__(self, width, height,bgcolor=[0xff,0xff,0xff,0xff],color=[0,0,0,0xff]):
- self.canvas = []
- self.width = width
- self.height = height
- self.color = color #rgba
- bgcolor = bgcolor[0:3] # we don't need alpha for background
- for i in range(height):
- self.canvas.append([bgcolor] * width)
-
- def point(self,x,y,color=None):
- if x<0 or y<0 or x>self.width-1 or y>self.height-1: return
- if color == None: color = self.color
- self.canvas[y][x] = blend(self.canvas[y][x],color)
-
- def _rectHelper(self,x0,y0,x1,y1):
- x0, y0, x1, y1 = int(x0), int(y0), int(x1), int(y1)
- if x0 > x1: x0, x1 = x1, x0
- if y0 > y1: y0, y1 = y1, y0
- return [x0,y0,x1,y1]
-
- def verticalGradient(self,x0,y0,x1,y1,start,end):
- x0, y0, x1, y1 = self._rectHelper(x0,y0,x1,y1)
- grad = gradientList(start,end,y1-y0)
- for x in range(x0, x1+1):
- for y in range(y0, y1+1):
- self.point(x,y,grad[y-y0])
-
- def rectangle(self,x0,y0,x1,y1):
- x0, y0, x1, y1 = self._rectHelper(x0,y0,x1,y1)
- self.polyline([[x0,y0],[x1,y0],[x1,y1],[x0,y1],[x0,y0]])
-
- def filledRectangle(self,x0,y0,x1,y1):
- x0, y0, x1, y1 = self._rectHelper(x0,y0,x1,y1)
- for x in range(x0, x1+1):
- for y in range(y0, y1+1):
- self.point(x,y,self.color)
-
- def copyRect(self,x0,y0,x1,y1,dx,dy,destination):
- x0, y0, x1, y1 = self._rectHelper(x0,y0,x1,y1)
- for x in range(x0, x1+1):
- for y in range(y0, y1+1):
- destination.canvas[dy+y-y0][dx+x-x0] = self.canvas[y][x]
-
- def blendRect(self,x0,y0,x1,y1,dx,dy,destination,alpha=0xff):
- x0, y0, x1, y1 = self._rectHelper(x0,y0,x1,y1)
- for x in range(x0, x1+1):
- for y in range(y0, y1+1):
- rgba = self.canvas[y][x] + [alpha]
- destination.point(dx+x-x0,dy+y-y0,rgba)
-
- # draw a line using Xiaolin Wu's antialiasing technique
- def line(self,x0, y0, x1, y1):
- # clean params
- x0, y0, x1, y1 = int(x0), int(y0), int(x1), int(y1)
- if y0>y1:
- y0, y1, x0, x1 = y1, y0, x1, x0
- dx = x1-x0
- if dx < 0:
- sx = -1
- else:
- sx = 1
- dx *= sx
- dy = y1-y0
-
- # 'easy' cases
- if dy == 0:
- for x in range(x0,x1,sx):
- self.point(x, y0)
- return
- if dx == 0:
- for y in range(y0,y1):
- self.point(x0, y)
- self.point(x1, y1)
- return
- if dx == dy:
- for x in range(x0,x1,sx):
- self.point(x, y0)
- y0 = y0 + 1
- return
-
- # main loop
- self.point(x0, y0)
- e_acc = 0
- if dy > dx: # vertical displacement
- e = (dx << 16) / dy
- for i in range(y0,y1-1):
- e_acc_temp, e_acc = e_acc, (e_acc + e) & 0xFFFF
- if (e_acc <= e_acc_temp):
- x0 = x0 + sx
- w = 0xFF-(e_acc >> 8)
- self.point(x0, y0, intensity(self.color,(w)))
- y0 = y0 + 1
- self.point(x0 + sx, y0, intensity(self.color,(0xFF-w)))
- self.point(x1, y1)
- return
-
- # horizontal displacement
- e = (dy << 16) / dx
- for i in range(x0,x1-sx,sx):
- e_acc_temp, e_acc = e_acc, (e_acc + e) & 0xFFFF
- if (e_acc <= e_acc_temp):
- y0 = y0 + 1
- w = 0xFF-(e_acc >> 8)
- self.point(x0, y0, intensity(self.color,(w)))
- x0 = x0 + sx
- self.point(x0, y0 + 1, intensity(self.color,(0xFF-w)))
- self.point(x1, y1)
-
- def polyline(self,arr):
- for i in range(0,len(arr)-1):
- self.line(arr[i][0],arr[i][1],arr[i+1][0], arr[i+1][1])
-
- def dump(self):
- raw_list = []
- for y in range(self.height):
- raw_list.append(chr(0)) # filter type 0 (None)
- for x in range(self.width):
- raw_list.append(struct.pack("!3B",*self.canvas[y][x]))
- raw_data = ''.join(raw_list)
-
- # 8-bit image represented as RGB tuples
- # simple transparency, alpha is pure white
- return signature + \
- self.pack_chunk('IHDR', struct.pack("!2I5B",self.width,self.height,8,2,0,0,0)) + \
- self.pack_chunk('tRNS', struct.pack("!6B",0xFF,0xFF,0xFF,0xFF,0xFF,0xFF)) + \
- self.pack_chunk('IDAT', zlib.compress(raw_data,9)) + \
- self.pack_chunk('IEND', '')
-
- def pack_chunk(self,tag,data):
- to_check = tag + data
- return struct.pack("!I",len(data)) + to_check + struct.pack("!I", zlib.crc32(to_check) & 0xFFFFFFFF)
-
- def load(self,f):
- assert f.read(8) == signature
- self.canvas=[]
- for tag, data in self.chunks(f):
- if tag == "IHDR":
- ( width,
- height,
- bitdepth,
- colortype,
- compression, filter, interlace ) = struct.unpack("!2I5B",data)
- self.width = width
- self.height = height
- if (bitdepth,colortype,compression, filter, interlace) != (8,2,0,0,0):
- raise TypeError('Unsupported PNG format')
- # we ignore tRNS because we use pure white as alpha anyway
- elif tag == 'IDAT':
- raw_data = zlib.decompress(data)
- rows = []
- i = 0
- for y in range(height):
- filtertype = ord(raw_data[i])
- i = i + 1
- cur = [ord(x) for x in raw_data[i:i+width*3]]
- if y == 0:
- rgb = self.defilter(cur,None,filtertype)
- else:
- rgb = self.defilter(cur,prev,filtertype)
- prev = cur
- i = i+width*3
- row = []
- j = 0
- for x in range(width):
- pixel = rgb[j:j+3]
- row.append(pixel)
- j = j + 3
- self.canvas.append(row)
-
- def defilter(self,cur,prev,filtertype,bpp=3):
- if filtertype == 0: # No filter
- return cur
- elif filtertype == 1: # Sub
- xp = 0
- for xc in range(bpp,len(cur)):
- cur[xc] = (cur[xc] + cur[xp]) % 256
- xp = xp + 1
- elif filtertype == 2: # Up
- for xc in range(len(cur)):
- cur[xc] = (cur[xc] + prev[xc]) % 256
- elif filtertype == 3: # Average
- xp = 0
- for xc in range(len(cur)):
- cur[xc] = (cur[xc] + (cur[xp] + prev[xc])/2) % 256
- xp = xp + 1
- elif filtertype == 4: # Paeth
- xp = 0
- for i in range(bpp):
- cur[i] = (cur[i] + prev[i]) % 256
- for xc in range(bpp,len(cur)):
- a = cur[xp]
- b = prev[xc]
- c = prev[xp]
- p = a + b - c
- pa = abs(p - a)
- pb = abs(p - b)
- pc = abs(p - c)
- if pa <= pb and pa <= pc:
- value = a
- elif pb <= pc:
- value = b
- else:
- value = c
- cur[xc] = (cur[xc] + value) % 256
- xp = xp + 1
- else:
- raise TypeError('Unrecognized scanline filter type')
- return cur
-
- def chunks(self,f):
- while 1:
- try:
- length = struct.unpack("!I",f.read(4))[0]
- tag = f.read(4)
- data = f.read(length)
- crc = struct.unpack("!i",f.read(4))[0]
- except:
- return
- if zlib.crc32(tag + data) != crc:
- raise IOError
- yield [tag,data]
-
-if __name__ == '__main__':
- width = 128
- height = 64
- print "Creating Canvas..."
- c = PNGCanvas(width,height)
- c.color = [0xff,0,0,0xff]
- c.rectangle(0,0,width-1,height-1)
- print "Generating Gradient..."
- c.verticalGradient(1,1,width-2, height-2,[0xff,0,0,0xff],[0x20,0,0xff,0x80])
- print "Drawing Lines..."
- c.color = [0,0,0,0xff]
- c.line(0,0,width-1,height-1)
- c.line(0,0,width/2,height-1)
- c.line(0,0,width-1,height/2)
- # Copy Rect to Self
- print "Copy Rect"
- c.copyRect(1,1,width/2-1,height/2-1,0,height/2,c)
- # Blend Rect to Self
- print "Blend Rect"
- c.blendRect(1,1,width/2-1,height/2-1,width/2,0,c)
- # Write test
- print "Writing to file..."
- f = open("test.png", "wb")
- f.write(c.dump())
- f.close()
- # Read test
- print "Reading from file..."
- f = open("test.png", "rb")
- c.load(f)
- f.close()
- # Write back
- print "Writing to new file..."
- f = open("recycle.png","wb")
- f.write(c.dump())
- f.close()
-