mirror of
https://github.com/robmcmullen/atrcopy.git
synced 2024-12-29 06:29:22 +00:00
164 lines
5.3 KiB
Python
164 lines
5.3 KiB
Python
import os
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import numpy as np
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import pytest
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from atrcopy import DefaultSegment, SegmentData, get_xex, interleave_segments
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def get_indexed(segment, num, scale):
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indexes = np.arange(num) * scale
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raw = segment.rawdata.get_indexed(indexes)
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s = DefaultSegment(raw, segment.start_addr + indexes[0])
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return s, indexes
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class TestSegment1(object):
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def setup(self):
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self.segments = []
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for i in range(8):
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data = np.ones([1024], dtype=np.uint8) * i
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r = SegmentData(data)
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self.segments.append(DefaultSegment(r, i * 1024))
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def test_xex(self):
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items = [
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[(0, 1, 2), 0],
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]
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for indexes, stuff in items:
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s = [self.segments[i] for i in indexes]
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bytes = get_xex(s, 0xbeef)
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assert tuple(bytes[0:2]) == (0xff, 0xff)
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# 2 bytes for the ffff
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# 6 bytes for the last segment run address
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# 4 bytes per segment for start, end address
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size = reduce(lambda a, b:a + 4 + len(b), s, 0)
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assert len(bytes) == 2 + 6 + size
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class TestIndexed(object):
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def setup(self):
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data = np.arange(4096, dtype=np.uint8)
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data[1::2] = np.repeat(np.arange(16, dtype=np.uint8), 128)
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r = SegmentData(data)
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self.segment = DefaultSegment(r, 0)
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def test_indexed(self):
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assert not self.segment.rawdata.is_indexed
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s, indexes = get_indexed(self.segment, 1024, 3)
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assert s.rawdata.is_indexed
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for i in range(len(indexes)):
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assert s.get_raw_index(i) == indexes[i]
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# get indexed into indexed, will result in every 9th byte
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s2, indexes2 = get_indexed(s, 256, 3)
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assert s2.rawdata.is_indexed
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for i in range(len(indexes2)):
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assert s2.get_raw_index(i) == indexes2[i] * 3
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def test_indexed_sub(self):
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base = self.segment
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assert not base.rawdata.is_indexed
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raw = base.rawdata[512:1536] # 1024 byte segment
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sub = DefaultSegment(raw, 512)
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assert not sub.rawdata.is_indexed
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for i in range(len(sub)):
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ri = sub.get_raw_index(i)
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assert ri == sub.start_addr + i
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assert sub[i] == base[ri]
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start, end = sub.byte_bounds_offset()
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assert start == 512
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assert end == 1536
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with pytest.raises(IndexError) as e:
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# attempt to get indexes to 1024 * 3... Index to big => fail!
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s, indexes = get_indexed(sub, 1024, 3)
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# try with elements up to 256 * 3
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s, indexes = get_indexed(sub, 256, 3)
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print sub.data
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print indexes
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print s.data[:]
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assert s.rawdata.is_indexed
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for i in range(len(indexes)):
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ri = s.get_raw_index(i)
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print ri, "base[ri]=%d" % base[ri], i, indexes[i], "s[i]=%d" % s[i]
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assert ri == sub.start_addr + indexes[i]
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assert s[i] == base[ri]
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start, end = s.byte_bounds_offset()
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assert start == 0
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assert end == len(base)
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# get indexed into indexed, will result in every 9th byte
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s2, indexes2 = get_indexed(s, 64, 3)
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assert s2.rawdata.is_indexed
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for i in range(len(indexes2)):
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assert s2.get_raw_index(i) == sub.start_addr + indexes2[i] * 3
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start, end = s.byte_bounds_offset()
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assert start == 0
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assert end == len(base)
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def test_interleave(self):
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base = self.segment
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r1 = base.rawdata[512:1024] # 512 byte segment
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s1 = DefaultSegment(r1, 512)
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r2 = base.rawdata[1024:1536] # 512 byte segment
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s2 = DefaultSegment(r2, 1024)
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indexes1 = r1.get_indexes_from_base()
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verify1 = np.arange(512, 1024, dtype=np.uint32)
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assert np.array_equal(indexes1, verify1)
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indexes2 = r2.get_indexes_from_base()
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verify2 = np.arange(1024, 1536, dtype=np.uint32)
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assert np.array_equal(indexes2, verify2)
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s = interleave_segments([s1, s2], 2)
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a = np.empty(len(s1) + len(s2), dtype=np.uint8)
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a[0::4] = s1[0::2]
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a[1::4] = s1[1::2]
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a[2::4] = s2[0::2]
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a[3::4] = s2[1::2]
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print list(s[:])
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print list(a[:])
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print s.rawdata.order
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assert np.array_equal(s[:], a)
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s = interleave_segments([s1, s2], 4)
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a = np.empty(len(s1) + len(s2), dtype=np.uint8)
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a[0::8] = s1[0::4]
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a[1::8] = s1[1::4]
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a[2::8] = s1[2::4]
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a[3::8] = s1[3::4]
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a[4::8] = s2[0::4]
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a[5::8] = s2[1::4]
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a[6::8] = s2[2::4]
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a[7::8] = s2[3::4]
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assert np.array_equal(s[:], a)
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with pytest.raises(ValueError) as e:
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s = interleave_segments([s1, s2], 3)
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r1 = base.rawdata[512:1025] # 513 byte segment
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s1 = DefaultSegment(r1, 512)
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r2 = base.rawdata[1024:1537] # 513 byte segment
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s2 = DefaultSegment(r2, 1024)
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s = interleave_segments([s1, s2], 3)
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a = np.empty(len(s1) + len(s2), dtype=np.uint8)
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a[0::6] = s1[0::3]
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a[1::6] = s1[1::3]
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a[2::6] = s1[2::3]
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a[3::6] = s2[0::3]
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a[4::6] = s2[1::3]
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a[5::6] = s2[2::3]
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assert np.array_equal(s[:], a)
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if __name__ == "__main__":
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t = TestIndexed()
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t.setup()
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t.test_indexed()
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t.test_indexed_sub()
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t.test_interleave()
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