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526 lines
15 KiB
Python
526 lines
15 KiB
Python
#!/usr/bin/env python
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"""PILdriver, an image-processing calculator using PIL.
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An instance of class PILDriver is essentially a software stack machine
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(Polish-notation interpreter) for sequencing PIL image
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transformations. The state of the instance is the interpreter stack.
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The only method one will normally invoke after initialization is the
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`execute' method. This takes an argument list of tokens, pushes them
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onto the instance's stack, and then tries to clear the stack by
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successive evaluation of PILdriver operators. Any part of the stack
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not cleaned off persists and is part of the evaluation context for
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the next call of the execute method.
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PILDriver doesn't catch any exceptions, on the theory that these
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are actually diagnostic information that should be interpreted by
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the calling code.
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When called as a script, the command-line arguments are passed to
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a PILDriver instance. If there are no command-line arguments, the
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module runs an interactive interpreter, each line of which is split into
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space-separated tokens and passed to the execute method.
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In the method descriptions below, a first line beginning with the string
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`usage:' means this method can be invoked with the token that follows
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it. Following <>-enclosed arguments describe how the method interprets
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the entries on the stack. Each argument specification begins with a
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type specification: either `int', `float', `string', or `image'.
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All operations consume their arguments off the stack (use `dup' to
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keep copies around). Use `verbose 1' to see the stack state displayed
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before each operation.
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Usage examples:
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`show crop 0 0 200 300 open test.png' loads test.png, crops out a portion
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of its upper-left-hand corner and displays the cropped portion.
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`save rotated.png rotate 30 open test.tiff' loads test.tiff, rotates it
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30 degrees, and saves the result as rotated.png (in PNG format).
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"""
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# by Eric S. Raymond <esr@thyrsus.com>
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# $Id$
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# TO DO:
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# 1. Add PILFont capabilities, once that's documented.
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# 2. Add PILDraw operations.
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# 3. Add support for composing and decomposing multiple-image files.
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#
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from __future__ import print_function
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from PIL import Image
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class PILDriver(object):
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verbose = 0
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def do_verbose(self):
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"""usage: verbose <int:num>
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Set verbosity flag from top of stack.
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"""
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self.verbose = int(self.do_pop())
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# The evaluation stack (internal only)
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stack = [] # Stack of pending operations
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def push(self, item):
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"Push an argument onto the evaluation stack."
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self.stack = [item] + self.stack
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def top(self):
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"Return the top-of-stack element."
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return self.stack[0]
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# Stack manipulation (callable)
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def do_clear(self):
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"""usage: clear
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Clear the stack.
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"""
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self.stack = []
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def do_pop(self):
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"""usage: pop
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Discard the top element on the stack.
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"""
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top = self.stack[0]
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self.stack = self.stack[1:]
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return top
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def do_dup(self):
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"""usage: dup
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Duplicate the top-of-stack item.
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"""
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if hasattr(self, 'format'): # If it's an image, do a real copy
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dup = self.stack[0].copy()
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else:
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dup = self.stack[0]
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self.stack = [dup] + self.stack
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def do_swap(self):
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"""usage: swap
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Swap the top-of-stack item with the next one down.
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"""
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self.stack = [self.stack[1], self.stack[0]] + self.stack[2:]
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# Image module functions (callable)
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def do_new(self):
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"""usage: new <int:xsize> <int:ysize> <int:color>:
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Create and push a greyscale image of given size and color.
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"""
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xsize = int(self.do_pop())
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ysize = int(self.do_pop())
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color = int(self.do_pop())
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self.push(Image.new("L", (xsize, ysize), color))
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def do_open(self):
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"""usage: open <string:filename>
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Open the indicated image, read it, push the image on the stack.
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"""
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self.push(Image.open(self.do_pop()))
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def do_blend(self):
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"""usage: blend <image:pic1> <image:pic2> <float:alpha>
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Replace two images and an alpha with the blended image.
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"""
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image1 = self.do_pop()
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image2 = self.do_pop()
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alpha = float(self.do_pop())
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self.push(Image.blend(image1, image2, alpha))
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def do_composite(self):
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"""usage: composite <image:pic1> <image:pic2> <image:mask>
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Replace two images and a mask with their composite.
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"""
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image1 = self.do_pop()
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image2 = self.do_pop()
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mask = self.do_pop()
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self.push(Image.composite(image1, image2, mask))
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def do_merge(self):
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"""usage: merge <string:mode> <image:pic1> [<image:pic2> [<image:pic3> [<image:pic4>]]]
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Merge top-of stack images in a way described by the mode.
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"""
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mode = self.do_pop()
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bandlist = []
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for band in mode:
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bandlist.append(self.do_pop())
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self.push(Image.merge(mode, bandlist))
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# Image class methods
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def do_convert(self):
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"""usage: convert <string:mode> <image:pic1>
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Convert the top image to the given mode.
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"""
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mode = self.do_pop()
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image = self.do_pop()
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self.push(image.convert(mode))
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def do_copy(self):
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"""usage: copy <image:pic1>
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Make and push a true copy of the top image.
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"""
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self.dup()
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def do_crop(self):
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"""usage: crop <int:left> <int:upper> <int:right> <int:lower> <image:pic1>
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Crop and push a rectangular region from the current image.
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"""
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left = int(self.do_pop())
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upper = int(self.do_pop())
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right = int(self.do_pop())
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lower = int(self.do_pop())
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image = self.do_pop()
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self.push(image.crop((left, upper, right, lower)))
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def do_draft(self):
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"""usage: draft <string:mode> <int:xsize> <int:ysize>
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Configure the loader for a given mode and size.
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"""
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mode = self.do_pop()
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xsize = int(self.do_pop())
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ysize = int(self.do_pop())
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self.push(self.draft(mode, (xsize, ysize)))
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def do_filter(self):
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"""usage: filter <string:filtername> <image:pic1>
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Process the top image with the given filter.
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"""
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from PIL import ImageFilter
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filter = eval("ImageFilter." + self.do_pop().upper())
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image = self.do_pop()
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self.push(image.filter(filter))
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def do_getbbox(self):
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"""usage: getbbox
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Push left, upper, right, and lower pixel coordinates of the top image.
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"""
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bounding_box = self.do_pop().getbbox()
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self.push(bounding_box[3])
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self.push(bounding_box[2])
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self.push(bounding_box[1])
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self.push(bounding_box[0])
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def do_getextrema(self):
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"""usage: extrema
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Push minimum and maximum pixel values of the top image.
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"""
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extrema = self.do_pop().extrema()
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self.push(extrema[1])
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self.push(extrema[0])
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def do_offset(self):
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"""usage: offset <int:xoffset> <int:yoffset> <image:pic1>
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Offset the pixels in the top image.
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"""
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xoff = int(self.do_pop())
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yoff = int(self.do_pop())
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image = self.do_pop()
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self.push(image.offset(xoff, yoff))
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def do_paste(self):
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"""usage: paste <image:figure> <int:xoffset> <int:yoffset> <image:ground>
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Paste figure image into ground with upper left at given offsets.
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"""
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figure = self.do_pop()
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xoff = int(self.do_pop())
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yoff = int(self.do_pop())
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ground = self.do_pop()
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if figure.mode == "RGBA":
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ground.paste(figure, (xoff, yoff), figure)
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else:
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ground.paste(figure, (xoff, yoff))
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self.push(ground)
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def do_resize(self):
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"""usage: resize <int:xsize> <int:ysize> <image:pic1>
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Resize the top image.
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"""
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ysize = int(self.do_pop())
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xsize = int(self.do_pop())
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image = self.do_pop()
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self.push(image.resize((xsize, ysize)))
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def do_rotate(self):
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"""usage: rotate <int:angle> <image:pic1>
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Rotate image through a given angle
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"""
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angle = int(self.do_pop())
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image = self.do_pop()
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self.push(image.rotate(angle))
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def do_save(self):
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"""usage: save <string:filename> <image:pic1>
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Save image with default options.
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"""
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filename = self.do_pop()
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image = self.do_pop()
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image.save(filename)
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def do_save2(self):
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"""usage: save2 <string:filename> <string:options> <image:pic1>
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Save image with specified options.
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"""
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filename = self.do_pop()
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options = self.do_pop()
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image = self.do_pop()
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image.save(filename, None, options)
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def do_show(self):
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"""usage: show <image:pic1>
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Display and pop the top image.
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"""
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self.do_pop().show()
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def do_thumbnail(self):
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"""usage: thumbnail <int:xsize> <int:ysize> <image:pic1>
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Modify the top image in the stack to contain a thumbnail of itself.
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"""
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ysize = int(self.do_pop())
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xsize = int(self.do_pop())
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self.top().thumbnail((xsize, ysize))
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def do_transpose(self):
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"""usage: transpose <string:operator> <image:pic1>
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Transpose the top image.
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"""
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transpose = self.do_pop().upper()
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image = self.do_pop()
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self.push(image.transpose(transpose))
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# Image attributes
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def do_format(self):
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"""usage: format <image:pic1>
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Push the format of the top image onto the stack.
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"""
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self.push(self.do_pop().format)
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def do_mode(self):
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"""usage: mode <image:pic1>
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Push the mode of the top image onto the stack.
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"""
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self.push(self.do_pop().mode)
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def do_size(self):
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"""usage: size <image:pic1>
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Push the image size on the stack as (y, x).
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"""
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size = self.do_pop().size
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self.push(size[0])
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self.push(size[1])
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# ImageChops operations
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def do_invert(self):
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"""usage: invert <image:pic1>
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Invert the top image.
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"""
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from PIL import ImageChops
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self.push(ImageChops.invert(self.do_pop()))
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def do_lighter(self):
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"""usage: lighter <image:pic1> <image:pic2>
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Pop the two top images, push an image of the lighter pixels of both.
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"""
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from PIL import ImageChops
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image1 = self.do_pop()
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image2 = self.do_pop()
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self.push(ImageChops.lighter(image1, image2))
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def do_darker(self):
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"""usage: darker <image:pic1> <image:pic2>
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Pop the two top images, push an image of the darker pixels of both.
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"""
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from PIL import ImageChops
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image1 = self.do_pop()
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image2 = self.do_pop()
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self.push(ImageChops.darker(image1, image2))
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def do_difference(self):
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"""usage: difference <image:pic1> <image:pic2>
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Pop the two top images, push the difference image
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"""
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from PIL import ImageChops
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image1 = self.do_pop()
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image2 = self.do_pop()
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self.push(ImageChops.difference(image1, image2))
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def do_multiply(self):
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"""usage: multiply <image:pic1> <image:pic2>
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Pop the two top images, push the multiplication image.
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"""
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from PIL import ImageChops
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image1 = self.do_pop()
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image2 = self.do_pop()
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self.push(ImageChops.multiply(image1, image2))
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def do_screen(self):
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"""usage: screen <image:pic1> <image:pic2>
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Pop the two top images, superimpose their inverted versions.
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"""
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from PIL import ImageChops
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image2 = self.do_pop()
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image1 = self.do_pop()
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self.push(ImageChops.screen(image1, image2))
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def do_add(self):
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"""usage: add <image:pic1> <image:pic2> <int:offset> <float:scale>
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Pop the two top images, produce the scaled sum with offset.
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"""
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from PIL import ImageChops
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image1 = self.do_pop()
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image2 = self.do_pop()
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scale = float(self.do_pop())
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offset = int(self.do_pop())
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self.push(ImageChops.add(image1, image2, scale, offset))
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def do_subtract(self):
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"""usage: subtract <image:pic1> <image:pic2> <int:offset> <float:scale>
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Pop the two top images, produce the scaled difference with offset.
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"""
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from PIL import ImageChops
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image1 = self.do_pop()
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image2 = self.do_pop()
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scale = float(self.do_pop())
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offset = int(self.do_pop())
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self.push(ImageChops.subtract(image1, image2, scale, offset))
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# ImageEnhance classes
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def do_color(self):
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"""usage: color <image:pic1>
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Enhance color in the top image.
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"""
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from PIL import ImageEnhance
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factor = float(self.do_pop())
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image = self.do_pop()
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enhancer = ImageEnhance.Color(image)
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self.push(enhancer.enhance(factor))
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def do_contrast(self):
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"""usage: contrast <image:pic1>
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Enhance contrast in the top image.
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"""
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from PIL import ImageEnhance
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factor = float(self.do_pop())
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image = self.do_pop()
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enhancer = ImageEnhance.Contrast(image)
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self.push(enhancer.enhance(factor))
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def do_brightness(self):
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"""usage: brightness <image:pic1>
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Enhance brightness in the top image.
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"""
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from PIL import ImageEnhance
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factor = float(self.do_pop())
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image = self.do_pop()
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enhancer = ImageEnhance.Brightness(image)
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self.push(enhancer.enhance(factor))
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def do_sharpness(self):
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"""usage: sharpness <image:pic1>
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Enhance sharpness in the top image.
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"""
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from PIL import ImageEnhance
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factor = float(self.do_pop())
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image = self.do_pop()
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enhancer = ImageEnhance.Sharpness(image)
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self.push(enhancer.enhance(factor))
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# The interpreter loop
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def execute(self, list):
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"Interpret a list of PILDriver commands."
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list.reverse()
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while len(list) > 0:
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self.push(list[0])
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list = list[1:]
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if self.verbose:
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print("Stack: " + repr(self.stack))
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top = self.top()
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if not isinstance(top, str):
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continue
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funcname = "do_" + top
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if not hasattr(self, funcname):
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continue
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else:
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self.do_pop()
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func = getattr(self, funcname)
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func()
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if __name__ == '__main__':
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import sys
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# If we see command-line arguments, interpret them as a stack state
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# and execute. Otherwise go interactive.
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driver = PILDriver()
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if len(sys.argv[1:]) > 0:
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driver.execute(sys.argv[1:])
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else:
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print("PILDriver says hello.")
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while True:
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try:
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if sys.version_info[0] >= 3:
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line = input('pildriver> ')
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else:
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line = raw_input('pildriver> ')
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except EOFError:
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print("\nPILDriver says goodbye.")
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break
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driver.execute(line.split())
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print(driver.stack)
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# The following sets edit modes for GNU EMACS
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# Local Variables:
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# mode:python
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# End:
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