#!/usr/bin/env python ########################################################################## # # Copyright 2011 Jose Fonseca # All Rights Reserved. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the 'Software'), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # ##########################################################################/ '''Run two retrace instances in parallel, comparing generated snapshots. ''' import math import optparse import os.path import subprocess import platform import sys from PIL import Image from snapdiff import Comparer from highlight import AutoHighlighter import jsondiff # Null file, to use when we're not interested in subprocesses output NULL = open(os.path.devnull, 'wb') class RetraceRun: def __init__(self, process): self.process = process def nextSnapshot(self): image, comment = read_pnm(self.process.stdout) if image is None: return None, None callNo = int(comment.strip()) return image, callNo def terminate(self): try: self.process.terminate() except OSError: # Avoid http://bugs.python.org/issue14252 pass class Retracer: def __init__(self, retraceExe, args, env=None): self.retraceExe = retraceExe self.args = args self.env = env def _retrace(self, args, stdout=subprocess.PIPE): cmd = [ self.retraceExe, ] + args + self.args if self.env: for name, value in self.env.iteritems(): sys.stderr.write('%s=%s ' % (name, value)) sys.stderr.write(' '.join(cmd) + '\n') try: return subprocess.Popen(cmd, env=self.env, stdout=stdout, stderr=NULL) except OSError, ex: sys.stderr.write('error: failed to execute %s: %s\n' % (cmd[0], ex.strerror)) sys.exit(1) def retrace(self, args): p = self._retrace([]) p.wait() return p.returncode def snapshot(self, call_nos): process = self._retrace([ '-s', '-', '-S', call_nos, ]) return RetraceRun(process) def dump_state(self, call_no): '''Get the state dump at the specified call no.''' p = self._retrace([ '-D', str(call_no), ]) state = jsondiff.load(p.stdout) p.wait() return state.get('parameters', {}) def diff_state(self, ref_call_no, src_call_no, stream): '''Compare the state between two calls.''' ref_state = self.dump_state(ref_call_no) src_state = self.dump_state(src_call_no) stream.flush() differ = jsondiff.Differ(stream) differ.visit(ref_state, src_state) stream.write('\n') def read_pnm(stream): '''Read a PNM from the stream, and return the image object, and the comment.''' magic = stream.readline() if not magic: return None, None magic = magic.rstrip() if magic == 'P5': channels = 1 bytesPerChannel = 1 mode = 'L' elif magic == 'P6': channels = 3 bytesPerChannel = 1 mode = 'RGB' elif magic == 'Pf': channels = 1 bytesPerChannel = 4 mode = 'R' elif magic == 'PF': channels = 3 bytesPerChannel = 4 mode = 'RGB' elif magic == 'PX': channels = 4 bytesPerChannel = 4 mode = 'RGB' else: raise Exception('Unsupported magic `%s`' % magic) comment = '' line = stream.readline() while line.startswith('#'): comment += line[1:] line = stream.readline() width, height = map(int, line.strip().split()) maximum = int(stream.readline().strip()) if bytesPerChannel == 1: assert maximum == 255 else: assert maximum == 1 data = stream.read(height * width * channels * bytesPerChannel) if bytesPerChannel == 4: # Image magic only supports single channel floating point images, so # represent the image as numpy arrays import numpy pixels = numpy.fromstring(data, dtype=numpy.float32) pixels.resize((height, width, channels)) return pixels, comment image = Image.frombuffer(mode, (width, height), data, 'raw', mode, 0, 1) return image, comment def dumpNumpyImage(output, pixels, filename): height, width, channels = pixels.shape import numpy pixels = (pixels*255).clip(0, 255).astype('uint8') if 0: # XXX: Doesn't work somehow im = Image.fromarray(pixels) else: # http://code.activestate.com/recipes/577591-conversion-of-pil-image-and-numpy-array/ pixels = pixels.reshape(height*width, channels) if channels == 4: mode = 'RGBA' else: if channels < 3: pixels = numpy.c_[arr, 255*numpy.ones((heigth * width, 3 - channels), numpy.uint8)] assert channels == 3 mode = 'RGB' im = Image.frombuffer(mode, (width, height), pixels.tostring(), 'raw', mode, 0, 1) im.save(filename) if 0: # Dump to stdout for y in range(height): output.write(' ') for x in range(width): for c in range(channels): output.write('%0.9g,' % pixels[y, x, c]) output.write(' ') output.write('\n') def parse_env(optparser, entries): '''Translate a list of NAME=VALUE entries into an environment dictionary.''' if not entries: return None env = os.environ.copy() for entry in entries: try: name, var = entry.split('=', 1) except Exception: optparser.error('invalid environment entry %r' % entry) env[name] = var return env def main(): '''Main program. ''' global options # Parse command line options optparser = optparse.OptionParser( usage='\n\t%prog [options] -- [glretrace options] ', version='%%prog') optparser.add_option( '-r', '--retrace', metavar='PROGRAM', type='string', dest='retrace', default='glretrace', help='retrace command [default: %default]') optparser.add_option( '--ref-driver', metavar='DRIVER', type='string', dest='ref_driver', default=None, help='force reference driver') optparser.add_option( '--src-driver', metavar='DRIVER', type='string', dest='src_driver', default=None, help='force source driver') optparser.add_option( '--ref-arg', metavar='OPTION', type='string', action='append', dest='ref_args', default=[], help='pass argument to reference retrace') optparser.add_option( '--src-arg', metavar='OPTION', type='string', action='append', dest='src_args', default=[], help='pass argument to source retrace') optparser.add_option( '--ref-env', metavar='NAME=VALUE', type='string', action='append', dest='ref_env', default=[], help='add variable to reference environment') optparser.add_option( '--src-env', metavar='NAME=VALUE', type='string', action='append', dest='src_env', default=[], help='add variable to source environment') optparser.add_option( '--diff-prefix', metavar='PATH', type='string', dest='diff_prefix', default='.', help='prefix for the difference images') optparser.add_option( '-t', '--threshold', metavar='BITS', type="float", dest="threshold", default=12.0, help="threshold precision [default: %default]") optparser.add_option( '-S', '--snapshot-frequency', metavar='CALLSET', type="string", dest="snapshot_frequency", default='draw', help="calls to compare [default: %default]") optparser.add_option( '--diff-state', action='store_true', dest='diff_state', default=False, help='diff state between failing calls') optparser.add_option( '-o', '--output', metavar='FILE', type="string", dest="output", help="output file [default: stdout]") (options, args) = optparser.parse_args(sys.argv[1:]) ref_env = parse_env(optparser, options.ref_env) src_env = parse_env(optparser, options.src_env) if not args: optparser.error("incorrect number of arguments") if options.ref_driver: options.ref_args.insert(0, '--driver=' + options.ref_driver) if options.src_driver: options.src_args.insert(0, '--driver=' + options.src_driver) refRetracer = Retracer(options.retrace, options.ref_args + args, ref_env) srcRetracer = Retracer(options.retrace, options.src_args + args, src_env) if options.output: output = open(options.output, 'wt') else: output = sys.stdout highligher = AutoHighlighter(output) highligher.write('call\tprecision\n') last_bad = -1 last_good = 0 refRun = refRetracer.snapshot(options.snapshot_frequency) try: srcRun = srcRetracer.snapshot(options.snapshot_frequency) try: while True: # Get the reference image refImage, refCallNo = refRun.nextSnapshot() if refImage is None: break # Get the source image srcImage, srcCallNo = srcRun.nextSnapshot() if srcImage is None: break assert refCallNo == srcCallNo callNo = refCallNo # Compare the two images if isinstance(refImage, Image.Image) and isinstance(srcImage, Image.Image): # Using PIL numpyImages = False comparer = Comparer(refImage, srcImage) precision = comparer.precision() else: # Using numpy (for floating point images) # TODO: drop PIL when numpy path becomes general enough import numpy assert not isinstance(refImage, Image.Image) assert not isinstance(srcImage, Image.Image) numpyImages = True assert refImage.shape == srcImage.shape diffImage = numpy.square(srcImage - refImage) height, width, channels = diffImage.shape square_error = numpy.sum(diffImage) square_error += numpy.finfo(numpy.float32).eps rel_error = square_error / float(height*width*channels) bits = -math.log(rel_error)/math.log(2.0) precision = bits mismatch = precision < options.threshold if mismatch: highligher.color(highligher.red) highligher.bold() highligher.write('%u\t%f\n' % (callNo, precision)) if mismatch: highligher.normal() if mismatch: if options.diff_prefix: prefix = os.path.join(options.diff_prefix, '%010u' % callNo) prefix_dir = os.path.dirname(prefix) if not os.path.isdir(prefix_dir): os.makedirs(prefix_dir) if numpyImages: dumpNumpyImage(output, refImage, prefix + '.ref.png') dumpNumpyImage(output, srcImage, prefix + '.src.png') else: refImage.save(prefix + '.ref.png') srcImage.save(prefix + '.src.png') comparer.write_diff(prefix + '.diff.png') if last_bad < last_good and options.diff_state: srcRetracer.diff_state(last_good, callNo, output) last_bad = callNo else: last_good = callNo highligher.flush() finally: srcRun.terminate() finally: refRun.terminate() if __name__ == '__main__': main()