227 lines
9.4 KiB
Python
227 lines
9.4 KiB
Python
#encoding: utf8
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from nose.tools import *
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import os,sys
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from utilities import execution_path, run_tests, Todo
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from utilities import get_unique_colors, pixel2channels, side_by_side_image
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import mapnik
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def setup():
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# All of the paths used are relative, if we run the tests
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# from another directory we need to chdir()
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os.chdir(execution_path('.'))
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def is_pre(color,alpha):
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return (color*255.0/alpha) <= 255
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def debug_image(image,step=2):
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for x in range(0,image.width(),step):
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for y in range(0,image.height(),step):
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pixel = image.get_pixel(x,y)
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red,green,blue,alpha = pixel2channels(pixel)
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print "rgba(%s,%s,%s,%s) at %s,%s" % (red,green,blue,alpha,x,y)
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# note: it is impossible to know for all pixel colors
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# we can only detect likely cases of non premultiplied colors
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def validate_pixels_are_not_premultiplied(image):
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over_alpha = False
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transparent = True
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fully_opaque = True
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for x in range(0,image.width(),2):
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for y in range(0,image.height(),2):
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pixel = image.get_pixel(x,y)
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red,green,blue,alpha = pixel2channels(pixel)
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if alpha > 0:
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transparent = False
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if alpha < 255:
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fully_opaque = False
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color_max = max(red,green,blue)
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if color_max > alpha:
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over_alpha = True
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return over_alpha or transparent or fully_opaque
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def validate_pixels_are_not_premultiplied2(image):
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looks_not_multiplied = False
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for x in range(0,image.width(),2):
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for y in range(0,image.height(),2):
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pixel = image.get_pixel(x,y)
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red,green,blue,alpha = pixel2channels(pixel)
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#each value of the color channels will never be bigger than that of the alpha channel.
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if alpha > 0:
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if red > 0 and red > alpha:
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print 'red: %s, a: %s' % (red,alpha)
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looks_not_multiplied = True
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return looks_not_multiplied
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def validate_pixels_are_premultiplied(image):
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bad_pixels = []
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for x in range(0,image.width(),2):
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for y in range(0,image.height(),2):
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pixel = image.get_pixel(x,y)
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red,green,blue,alpha = pixel2channels(pixel)
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if alpha > 0:
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pixel = image.get_pixel(x,y)
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is_valid = ((0 <= red <= alpha) and is_pre(red,alpha)) \
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and ((0 <= green <= alpha) and is_pre(green,alpha)) \
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and ((0 <= blue <= alpha) and is_pre(blue,alpha)) \
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and (alpha >= 0 and alpha <= 255)
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if not is_valid:
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bad_pixels.append("rgba(%s,%s,%s,%s) at %s,%s" % (red,green,blue,alpha,x,y))
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num_bad = len(bad_pixels)
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return (num_bad == 0,bad_pixels)
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def test_compare_images():
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b = mapnik.Image.open('./images/support/b.png')
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b.premultiply()
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num_ops = len(mapnik.CompositeOp.names)
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successes = []
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fails = []
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for name in mapnik.CompositeOp.names:
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a = mapnik.Image.open('./images/support/a.png')
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a.premultiply()
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a.composite(b,getattr(mapnik.CompositeOp,name))
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actual = '/tmp/mapnik-comp-op-test-' + name + '.png'
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expected = 'images/composited/' + name + '.png'
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valid = validate_pixels_are_premultiplied(a)
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if not valid[0]:
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fails.append('%s not validly premultiplied!:\n\t %s pixels (%s)' % (name,len(valid[1]),valid[1][0]))
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a.demultiply()
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if not validate_pixels_are_not_premultiplied(a):
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fails.append('%s not validly demultiplied' % (name))
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a.save(actual)
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if not os.path.exists(expected):
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print 'generating expected test image: %s' % expected
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a.save(expected)
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expected_im = mapnik.Image.open(expected)
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# compare them
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if a.tostring() == expected_im.tostring():
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successes.append(name)
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else:
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fails.append('failed comparing actual (%s) and expected(%s)' % (actual,'tests/python_tests/'+ expected))
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fail_im = side_by_side_image(expected_im, a)
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fail_im.save('/tmp/mapnik-comp-op-test-' + name + '.fail.png')
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eq_(len(successes),num_ops,'\n'+'\n'.join(fails))
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b.demultiply()
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# b will be slightly modified by pre and then de multiplication rounding errors
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# TODO - write test to ensure the image is 99% the same.
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#expected_b = mapnik.Image.open('./images/support/b.png')
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#b.save('/tmp/mapnik-comp-op-test-original-mask.png')
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#eq_(b.tostring(),expected_b.tostring(), '/tmp/mapnik-comp-op-test-original-mask.png is no longer equivalent to original mask: ./images/support/b.png')
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def test_pre_multiply_status():
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b = mapnik.Image.open('./images/support/b.png')
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# not premultiplied yet, should appear that way
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result = validate_pixels_are_not_premultiplied(b)
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eq_(result,True)
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# not yet premultiplied therefore should return false
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result = validate_pixels_are_premultiplied(b)
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eq_(result[0],False)
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# now actually premultiply the pixels
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b.premultiply()
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# now checking if premultiplied should succeed
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result = validate_pixels_are_premultiplied(b)
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eq_(result[0],True)
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# should now not appear to look not premultiplied
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result = validate_pixels_are_not_premultiplied(b)
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eq_(result,False)
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# now actually demultiply the pixels
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b.demultiply()
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# should now appear demultiplied
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result = validate_pixels_are_not_premultiplied(b)
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eq_(result,True)
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def test_pre_multiply_status_of_map1():
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m = mapnik.Map(256,256)
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im = mapnik.Image(m.width,m.height)
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eq_(validate_pixels_are_not_premultiplied(im),True)
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mapnik.render(m,im)
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eq_(validate_pixels_are_not_premultiplied(im),True)
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def test_pre_multiply_status_of_map2():
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m = mapnik.Map(256,256)
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m.background = mapnik.Color(1,1,1,255)
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im = mapnik.Image(m.width,m.height)
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eq_(validate_pixels_are_not_premultiplied(im),True)
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mapnik.render(m,im)
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eq_(validate_pixels_are_not_premultiplied(im),True)
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def test_style_level_opacity():
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m = mapnik.Map(512,512)
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mapnik.load_map(m,'../data/good_maps/style_level_opacity_and_blur.xml')
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m.zoom_all()
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im = mapnik.Image(512,512)
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mapnik.render(m,im)
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actual = '/tmp/mapnik-style-level-opacity.png'
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expected = 'images/support/mapnik-style-level-opacity.png'
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im.save(actual)
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expected_im = mapnik.Image.open(expected)
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eq_(im.tostring(),expected_im.tostring(), 'failed comparing actual (%s) and expected (%s)' % (actual,'tests/python_tests/'+ expected))
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def test_rounding_and_color_expectations():
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m = mapnik.Map(1,1)
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m.background = mapnik.Color('rgba(255,255,255,.4999999)')
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im = mapnik.Image(m.width,m.height)
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mapnik.render(m,im)
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# ugh 252, see: https://github.com/mapnik/mapnik/issues/1519
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eq_(get_unique_colors(im),['rgba(252,252,252,127)'])
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m = mapnik.Map(1,1)
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m.background = mapnik.Color('rgba(255,255,255,.5)')
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im = mapnik.Image(m.width,m.height)
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mapnik.render(m,im)
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eq_(get_unique_colors(im),['rgba(253,253,253,128)'])
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im_file = mapnik.Image.open('../data/images/stripes_pattern.png')
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eq_(get_unique_colors(im_file),['rgba(0,0,0,0)', 'rgba(74,74,74,255)'])
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# should have no effect
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im_file.premultiply()
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eq_(get_unique_colors(im_file),['rgba(0,0,0,0)', 'rgba(74,74,74,255)'])
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im_file.set_alpha(.5)
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# should have effect now that image has transparency
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im_file.premultiply()
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eq_(get_unique_colors(im_file),['rgba(0,0,0,0)', 'rgba(37,37,37,127)'])
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# should restore to original nonpremultiplied colors
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im_file.demultiply()
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eq_(get_unique_colors(im_file),['rgba(0,0,0,0)', 'rgba(74,74,74,127)'])
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def test_background_image_and_background_color():
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m = mapnik.Map(8,8)
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m.background = mapnik.Color('rgba(255,255,255,.5)')
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m.background_image = '../data/images/stripes_pattern.png'
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im = mapnik.Image(m.width,m.height)
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mapnik.render(m,im)
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# note: data loss due to rounding as per https://github.com/mapnik/mapnik/issues/1519
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# means that background will roundtrip to 253 not 255
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#eq_(get_unique_colors(im),['rgba(255,255,255,128)', 'rgba(74,74,74,255)'])
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eq_(get_unique_colors(im),['rgba(253,253,253,128)', 'rgba(74,74,74,255)'])
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def test_background_image_with_alpha_and_background_color():
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m = mapnik.Map(10,10)
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m.background = mapnik.Color('rgba(255,255,255,.5)')
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m.background_image = '../data/images/yellow_half_trans.png'
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im = mapnik.Image(m.width,m.height)
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mapnik.render(m,im)
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eq_(get_unique_colors(im),['rgba(255,255,85,191)'])
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def test_background_image_with_alpha_and_background_color_against_composited_control():
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m = mapnik.Map(10,10)
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m.background = mapnik.Color('rgba(255,255,255,.5)')
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m.background_image = '../data/images/yellow_half_trans.png'
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im = mapnik.Image(m.width,m.height)
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mapnik.render(m,im)
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# create and composite the expected result
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im1 = mapnik.Image(10,10)
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im1.background = mapnik.Color('rgba(255,255,255,.5)')
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im1.premultiply()
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im2 = mapnik.Image(10,10)
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im2.background = mapnik.Color('rgba(255,255,0,.5)')
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im2.premultiply()
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im1.composite(im2)
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im1.demultiply()
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# compare image rendered (compositing in `agg_renderer<T>::setup`)
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# vs image composited via python bindings
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raise Todo("looks like we need to investigate PNG rounding when saving")
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eq_(get_unique_colors(im),get_unique_colors(im1))
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if __name__ == "__main__":
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setup()
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run_tests(eval(x) for x in dir() if x.startswith("test_"))
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