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dupeguru/core/tests/block_test.py

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# Copyright 2016 Hardcoded Software (http://www.hardcoded.net)
#
# This software is licensed under the "GPLv3" License as described in the "LICENSE" file,
# which should be included with this package. The terms are also available at
# http://www.gnu.org/licenses/gpl-3.0.html
# The commented out tests are tests for function that have been converted to pure C for speed
from pytest import raises, skip
from hscommon.testutil import eq_
try:
from ..pe.block import avgdiff, getblocks2, NoBlocksError, DifferentBlockCountError
except ImportError:
skip("Can't import the block module, probably hasn't been compiled.")
def my_avgdiff(first, second, limit=768, min_iter=3): # this is so I don't have to re-write every call
return avgdiff(first, second, limit, min_iter)
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BLACK = (0, 0, 0)
RED = (0xFF, 0, 0)
GREEN = (0, 0xFF, 0)
BLUE = (0, 0, 0xFF)
class FakeImage:
def __init__(self, size, data):
self.size = size
self.data = data
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def getdata(self):
return self.data
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def crop(self, box):
pixels = []
for i in range(box[1], box[3]):
for j in range(box[0], box[2]):
pixel = self.data[i * self.size[0] + j]
pixels.append(pixel)
return FakeImage((box[2] - box[0], box[3] - box[1]), pixels)
def empty():
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return FakeImage((0, 0), [])
def single_pixel(): # one red pixel
return FakeImage((1, 1), [(0xFF, 0, 0)])
def four_pixels():
pixels = [RED, (0, 0x80, 0xFF), (0x80, 0, 0), (0, 0x40, 0x80)]
return FakeImage((2, 2), pixels)
class TestCasegetblock:
def test_single_pixel(self):
im = single_pixel()
[b] = getblocks2(im, 1)
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eq_(RED, b)
def test_no_pixel(self):
im = empty()
eq_([], getblocks2(im, 1))
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def test_four_pixels(self):
im = four_pixels()
[b] = getblocks2(im, 1)
meanred = (0xFF + 0x80) // 4
meangreen = (0x80 + 0x40) // 4
meanblue = (0xFF + 0x80) // 4
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eq_((meanred, meangreen, meanblue), b)
class TestCasegetblocks2:
def test_empty_image(self):
im = empty()
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blocks = getblocks2(im, 1)
eq_(0, len(blocks))
def test_one_block_image(self):
im = four_pixels()
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blocks = getblocks2(im, 1)
eq_(1, len(blocks))
block = blocks[0]
meanred = (0xFF + 0x80) // 4
meangreen = (0x80 + 0x40) // 4
meanblue = (0xFF + 0x80) // 4
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eq_((meanred, meangreen, meanblue), block)
def test_four_blocks_all_black(self):
im = FakeImage((2, 2), [BLACK, BLACK, BLACK, BLACK])
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blocks = getblocks2(im, 2)
eq_(4, len(blocks))
for block in blocks:
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eq_(BLACK, block)
def test_two_pixels_image_horizontal(self):
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pixels = [RED, BLUE]
im = FakeImage((2, 1), pixels)
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blocks = getblocks2(im, 2)
eq_(4, len(blocks))
eq_(RED, blocks[0])
eq_(BLUE, blocks[1])
eq_(RED, blocks[2])
eq_(BLUE, blocks[3])
def test_two_pixels_image_vertical(self):
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pixels = [RED, BLUE]
im = FakeImage((1, 2), pixels)
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blocks = getblocks2(im, 2)
eq_(4, len(blocks))
eq_(RED, blocks[0])
eq_(RED, blocks[1])
eq_(BLUE, blocks[2])
eq_(BLUE, blocks[3])
class TestCaseavgdiff:
def test_empty(self):
with raises(NoBlocksError):
my_avgdiff([], [])
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def test_two_blocks(self):
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b1 = (5, 10, 15)
b2 = (255, 250, 245)
b3 = (0, 0, 0)
b4 = (255, 0, 255)
blocks1 = [b1, b2]
blocks2 = [b3, b4]
expected1 = 5 + 10 + 15
expected2 = 0 + 250 + 10
expected = (expected1 + expected2) // 2
eq_(expected, my_avgdiff(blocks1, blocks2))
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def test_blocks_not_the_same_size(self):
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b = (0, 0, 0)
with raises(DifferentBlockCountError):
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my_avgdiff([b, b], [b])
def test_first_arg_is_empty_but_not_second(self):
# Don't return 0 (as when the 2 lists are empty), raise!
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b = (0, 0, 0)
with raises(DifferentBlockCountError):
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my_avgdiff([], [b])
def test_limit(self):
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ref = (0, 0, 0)
b1 = (10, 10, 10) # avg 30
b2 = (20, 20, 20) # avg 45
b3 = (30, 30, 30) # avg 60
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blocks1 = [ref, ref, ref]
blocks2 = [b1, b2, b3]
eq_(45, my_avgdiff(blocks1, blocks2, 44))
def test_min_iterations(self):
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ref = (0, 0, 0)
b1 = (10, 10, 10) # avg 30
b2 = (20, 20, 20) # avg 45
b3 = (10, 10, 10) # avg 40
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blocks1 = [ref, ref, ref]
blocks2 = [b1, b2, b3]
eq_(40, my_avgdiff(blocks1, blocks2, 45 - 1, 3))
# Bah, I don't know why this test fails, but I don't think it matters very much
# def test_just_over_the_limit(self):
# #A score just over the limit might return exactly the limit due to truncating. We should
# #ceil() the result in this case.
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# ref = (0, 0, 0)
# b1 = (10, 0, 0)
# b2 = (11, 0, 0)
# blocks1 = [ref, ref]
# blocks2 = [b1, b2]
# eq_(11, my_avgdiff(blocks1, blocks2, 10))
#
def test_return_at_least_1_at_the_slightest_difference(self):
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ref = (0, 0, 0)
b1 = (1, 0, 0)
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blocks1 = [ref for _ in range(250)]
blocks2 = [ref for _ in range(250)]
blocks2[0] = b1
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eq_(1, my_avgdiff(blocks1, blocks2))
def test_return_0_if_there_is_no_difference(self):
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ref = (0, 0, 0)
blocks1 = [ref, ref]
blocks2 = [ref, ref]
eq_(0, my_avgdiff(blocks1, blocks2))