#!/usr/bin/env python # -*- coding: utf-8 -*- from nose.plugins.errorclass import ErrorClass, ErrorClassPlugin import os, sys, inspect, traceback import mapnik def execution_path(filename): return os.path.join(os.path.dirname(sys._getframe(1).f_code.co_filename), filename) class Todo(Exception): pass class TodoPlugin(ErrorClassPlugin): name = "todo" todo = ErrorClass(Todo, label='TODO', isfailure=False) def contains_word(word, bytestring_): """ Checks that a bytestring contains a given word. len(bytestring) should be a multiple of len(word). >>> contains_word("abcd", "abcd"*5) True >>> contains_word("ab", "ba"*5) False >>> contains_word("ab", "ab"*5+"a") Traceback (most recent call last): ... AssertionError: len(bytestring_) not multiple of len(word) """ n = len(word) assert len(bytestring_)%n == 0, "len(bytestring_) not multiple of len(word)" chunks = [bytestring_[i:i+n] for i in xrange(0, len(bytestring_), n)] return word in chunks def pixel2channels(pixel): alpha = (pixel >> 24) & 0xff red = pixel & 0xff green = (pixel >> 8) & 0xff blue = (pixel >> 16) & 0xff return red,green,blue,alpha def pixel2rgba(pixel): return 'rgba(%s,%s,%s,%s)' % pixel2channels(pixel) def get_unique_colors(im): pixels = [] for x in range(im.width()): for y in range(im.height()): pixel = im.get_pixel(x,y) if pixel not in pixels: pixels.append(pixel) pixels = sorted(pixels) return map(pixel2rgba,pixels) def run_tests(iterable): failed = 0 for test in iterable: try: test() sys.stderr.write("\x1b[32m✓ \x1b[m" + test.__name__ + "\x1b[m\n") except: exc_type, exc_value, exc_tb = sys.exc_info() failed += 1 sys.stderr.write("\x1b[31m✘ \x1b[m" + test.__name__ + "\x1b[m\n") for mline in traceback.format_exception_only(exc_type, exc_value): for line in mline.rstrip().split("\n"): sys.stderr.write(" \x1b[31m" + line + "\x1b[m\n") sys.stderr.write(" Traceback:\n") for mline in traceback.format_tb(exc_tb): for line in mline.rstrip().split("\n"): sys.stderr.write(" " + line + "\n") sys.stderr.flush() return failed def side_by_side_image(left_im, right_im): width = left_im.width() + 1 + right_im.width() height = max(left_im.height(), right_im.height()) im = mapnik.Image(width, height) im.blend(0, 0, left_im, 1.0) im.blend(left_im.width() + 1, 0, right_im, 1.0) return im