PCQRSCANER/venv/Lib/site-packages/pyzbar/tests/test_pyzbar.py

import platform
import unittest

from pathlib import Path

try:
    from unittest.mock import patch
except ImportError:
    # Python 2
    from mock import patch

import numpy as np

from PIL import Image

try:
    import cv2
except ImportError:
    cv2 = None

from pyzbar.pyzbar import (
    decode, Decoded, Rect, ZBarSymbol, EXTERNAL_DEPENDENCIES
)
from pyzbar.pyzbar_error import PyZbarError


TESTDATA = Path(__file__).parent


class TestDecode(unittest.TestCase):
    EXPECTED_CODE128 = [
        Decoded(
            data=b'Foramenifera',
            type='CODE128',
            rect=Rect(left=37, top=550, width=324, height=76),
            polygon=[(37, 551), (37, 625), (361, 626), (361, 550)]
        ),
        Decoded(
            data=b'Rana temporaria',
            type='CODE128',
            rect=Rect(left=4, top=0, width=390, height=76),
            polygon=[(4, 1), (4, 75), (394, 76), (394, 0)]
        )
    ]

    EXPECTED_QRCODE = [
        Decoded(
            b'Thalassiodracon',
            type='QRCODE',
            rect=Rect(left=27, top=27, width=145, height=145),
            polygon=[(27, 27), (27, 172), (172, 172), (172, 27)]
        )
    ]

    # Two barcodes, both with same content
    EXPECTED_QRCODE_ROTATED = [
        Decoded(
            data=b'Thalassiodracon',
            type='QRCODE',
            rect=Rect(left=173, top=10, width=205, height=205),
            polygon=[(173, 113), (276, 215), (378, 113), (276, 10)]),
        Decoded(
            data=b'Thalassiodracon',
            type='QRCODE',
            rect=Rect(left=32, top=208, width=158, height=158),
            polygon=[(32, 352), (177, 366), (190, 222), (46, 208)])
    ]

    def setUp(self):
        self.code128, self.qrcode, self.qrcode_rotated, self.empty = (
            Image.open(str(TESTDATA.joinpath(fname)))
            for fname in
            ('code128.png', 'qrcode.png', 'qrcode_rotated.png', 'empty.png')
        )
        self.maxDiff = None

    def tearDown(self):
        self.code128 = self.empty = self.qrcode = None

    def test_decode_code128(self):
        "Read both barcodes in `code128.png`"
        res = decode(self.code128)
        self.assertEqual(self.EXPECTED_CODE128, res)

    def test_decode_qrcode(self):
        "Read barcode in `qrcode.png`"
        res = decode(self.qrcode)
        self.assertEqual(self.EXPECTED_QRCODE, res)

    def test_decode_qrcode_rotated(self):
        "Read barcode in `qrcode_rotated.png`"
        # Test computation of the polygon around the barcode
        res = decode(self.qrcode_rotated)
        self.assertEqual(self.EXPECTED_QRCODE_ROTATED, res)

    def test_symbols(self):
        "Read only qrcodes in `qrcode.png`"
        res = decode(self.qrcode, symbols=[ZBarSymbol.QRCODE])
        self.assertEqual(self.EXPECTED_QRCODE, res)

    def test_symbols_not_present(self):
        "Read only code128 in `qrcode.png`"
        res = decode(self.qrcode, symbols=[ZBarSymbol.CODE128])
        self.assertEqual([], res)

    def test_decode_tuple(self):
        "Read barcodes in pixels"
        pixels = self.code128.copy().convert('L').tobytes()
        width, height = self.code128.size
        res = decode((pixels, width, height))
        self.assertEqual(self.EXPECTED_CODE128, res)

    def test_unsupported_bpp(self):
        pixels = self.code128.tobytes()
        width, height = self.code128.size
        self.assertRaises(PyZbarError, decode, (pixels, width, height))

    def test_empty(self):
        "Do not show any output for an image that does not contain a barcode"
        res = decode(self.empty)
        self.assertEqual([], res)

    def test_decode_numpy(self):
        "Read image using Pillow and convert to numpy.ndarray"
        res = decode(np.asarray(self.code128))
        self.assertEqual(self.EXPECTED_CODE128, res)

    @unittest.skipIf(cv2 is None, 'OpenCV not installed')
    def test_decode_opencv(self):
        "Read image using OpenCV"
        res = decode(cv2.imread(str(TESTDATA.joinpath('code128.png'))))
        self.assertEqual(self.EXPECTED_CODE128, res)

    def test_external_dependencies(self):
        "External dependencies"
        if 'Windows' == platform.system():
            self.assertEqual(2, len(EXTERNAL_DEPENDENCIES))
            self.assertTrue(
                any('libiconv' in d._name for d in EXTERNAL_DEPENDENCIES)
            )
        self.assertTrue(
            any('libzbar' in d._name for d in EXTERNAL_DEPENDENCIES)
        )

    @patch('pyzbar.pyzbar.zbar_image_create')
    def test_zbar_image_create_fail(self, zbar_image_create):
        zbar_image_create.return_value = None
        self.assertRaisesRegexp(
            PyZbarError, 'Could not create zbar image', decode, self.code128
        )
        zbar_image_create.assert_called_once_with()

    @patch('pyzbar.pyzbar.zbar_image_scanner_create')
    def test_zbar_image_scanner_create_fail(self, zbar_image_scanner_create):
        zbar_image_scanner_create.return_value = None
        self.assertRaisesRegexp(
            PyZbarError, 'Could not create image scanner', decode, self.code128
        )
        zbar_image_scanner_create.assert_called_once_with()

    @patch('pyzbar.pyzbar.zbar_scan_image')
    def test_zbar_scan_image_fail(self, zbar_scan_image):
        zbar_scan_image.return_value = -1
        self.assertRaisesRegexp(
            PyZbarError, 'Unsupported image format', decode, self.code128
        )
        self.assertEqual(1, zbar_scan_image.call_count)

    def test_unsupported_bits_per_pixel(self):
        # 16 bits-per-pixel
        data = (list(range(3 * 3 * 2)), 3, 3)
        self.assertRaisesRegexp(
            PyZbarError,
            r'Unsupported bits-per-pixel \[16\]. Only \[8\] is supported.',
            decode, data
        )
        self.assertRaises(PyZbarError, decode, data)

    def test_inconsistent_dimensions(self):
        # Ten bytes but width x height indicates nine bytes
        data = (list(range(10)), 3, 3)
        self.assertRaisesRegexp(
            PyZbarError,
            (
                r'Inconsistent dimensions: image data of 10 bytes is not '
                r'divisible by \(width x height = 9\)'
            ),
            decode, data
        )


if __name__ == '__main__':
    unittest.main()
3 2019-12-22 21:51:47 +01:00			`import platform`
			`import unittest`

			`from pathlib import Path`

			`try:`
			`from unittest.mock import patch`
			`except ImportError:`
			`# Python 2`
			`from mock import patch`

			`import numpy as np`

			`from PIL import Image`

			`try:`
			`import cv2`
			`except ImportError:`
			`cv2 = None`

			`from pyzbar.pyzbar import (`
			`decode, Decoded, Rect, ZBarSymbol, EXTERNAL_DEPENDENCIES`
			`)`
			`from pyzbar.pyzbar_error import PyZbarError`


			`TESTDATA = Path(__file__).parent`


			`class TestDecode(unittest.TestCase):`
			`EXPECTED_CODE128 = [`
			`Decoded(`
			`data=b'Foramenifera',`
			`type='CODE128',`
			`rect=Rect(left=37, top=550, width=324, height=76),`
			`polygon=[(37, 551), (37, 625), (361, 626), (361, 550)]`
			`),`
			`Decoded(`
			`data=b'Rana temporaria',`
			`type='CODE128',`
			`rect=Rect(left=4, top=0, width=390, height=76),`
			`polygon=[(4, 1), (4, 75), (394, 76), (394, 0)]`
			`)`
			`]`

			`EXPECTED_QRCODE = [`
			`Decoded(`
			`b'Thalassiodracon',`
			`type='QRCODE',`
			`rect=Rect(left=27, top=27, width=145, height=145),`
			`polygon=[(27, 27), (27, 172), (172, 172), (172, 27)]`
			`)`
			`]`

			`# Two barcodes, both with same content`
			`EXPECTED_QRCODE_ROTATED = [`
			`Decoded(`
			`data=b'Thalassiodracon',`
			`type='QRCODE',`
			`rect=Rect(left=173, top=10, width=205, height=205),`
			`polygon=[(173, 113), (276, 215), (378, 113), (276, 10)]),`
			`Decoded(`
			`data=b'Thalassiodracon',`
			`type='QRCODE',`
			`rect=Rect(left=32, top=208, width=158, height=158),`
			`polygon=[(32, 352), (177, 366), (190, 222), (46, 208)])`
			`]`

			`def setUp(self):`
			`self.code128, self.qrcode, self.qrcode_rotated, self.empty = (`
			`Image.open(str(TESTDATA.joinpath(fname)))`
			`for fname in`
			`('code128.png', 'qrcode.png', 'qrcode_rotated.png', 'empty.png')`
			`)`
			`self.maxDiff = None`

			`def tearDown(self):`
			`self.code128 = self.empty = self.qrcode = None`

			`def test_decode_code128(self):`
			"Read both barcodes in `code128.png`"
			`res = decode(self.code128)`
			`self.assertEqual(self.EXPECTED_CODE128, res)`

			`def test_decode_qrcode(self):`
			"Read barcode in `qrcode.png`"
			`res = decode(self.qrcode)`
			`self.assertEqual(self.EXPECTED_QRCODE, res)`

			`def test_decode_qrcode_rotated(self):`
			"Read barcode in `qrcode_rotated.png`"
			`# Test computation of the polygon around the barcode`
			`res = decode(self.qrcode_rotated)`
			`self.assertEqual(self.EXPECTED_QRCODE_ROTATED, res)`

			`def test_symbols(self):`
			"Read only qrcodes in `qrcode.png`"
			`res = decode(self.qrcode, symbols=[ZBarSymbol.QRCODE])`
			`self.assertEqual(self.EXPECTED_QRCODE, res)`

			`def test_symbols_not_present(self):`
			"Read only code128 in `qrcode.png`"
			`res = decode(self.qrcode, symbols=[ZBarSymbol.CODE128])`
			`self.assertEqual([], res)`

			`def test_decode_tuple(self):`
			`"Read barcodes in pixels"`
			`pixels = self.code128.copy().convert('L').tobytes()`
			`width, height = self.code128.size`
			`res = decode((pixels, width, height))`
			`self.assertEqual(self.EXPECTED_CODE128, res)`

			`def test_unsupported_bpp(self):`
			`pixels = self.code128.tobytes()`
			`width, height = self.code128.size`
			`self.assertRaises(PyZbarError, decode, (pixels, width, height))`

			`def test_empty(self):`
			`"Do not show any output for an image that does not contain a barcode"`
			`res = decode(self.empty)`
			`self.assertEqual([], res)`

			`def test_decode_numpy(self):`
			`"Read image using Pillow and convert to numpy.ndarray"`
			`res = decode(np.asarray(self.code128))`
			`self.assertEqual(self.EXPECTED_CODE128, res)`

			`@unittest.skipIf(cv2 is None, 'OpenCV not installed')`
			`def test_decode_opencv(self):`
			`"Read image using OpenCV"`
			`res = decode(cv2.imread(str(TESTDATA.joinpath('code128.png'))))`
			`self.assertEqual(self.EXPECTED_CODE128, res)`

			`def test_external_dependencies(self):`
			`"External dependencies"`
			`if 'Windows' == platform.system():`
			`self.assertEqual(2, len(EXTERNAL_DEPENDENCIES))`
			`self.assertTrue(`
			`any('libiconv' in d._name for d in EXTERNAL_DEPENDENCIES)`
			`)`
			`self.assertTrue(`
			`any('libzbar' in d._name for d in EXTERNAL_DEPENDENCIES)`
			`)`

			`@patch('pyzbar.pyzbar.zbar_image_create')`
			`def test_zbar_image_create_fail(self, zbar_image_create):`
			`zbar_image_create.return_value = None`
			`self.assertRaisesRegexp(`
			`PyZbarError, 'Could not create zbar image', decode, self.code128`
			`)`
			`zbar_image_create.assert_called_once_with()`

			`@patch('pyzbar.pyzbar.zbar_image_scanner_create')`
			`def test_zbar_image_scanner_create_fail(self, zbar_image_scanner_create):`
			`zbar_image_scanner_create.return_value = None`
			`self.assertRaisesRegexp(`
			`PyZbarError, 'Could not create image scanner', decode, self.code128`
			`)`
			`zbar_image_scanner_create.assert_called_once_with()`

			`@patch('pyzbar.pyzbar.zbar_scan_image')`
			`def test_zbar_scan_image_fail(self, zbar_scan_image):`
			`zbar_scan_image.return_value = -1`
			`self.assertRaisesRegexp(`
			`PyZbarError, 'Unsupported image format', decode, self.code128`
			`)`
			`self.assertEqual(1, zbar_scan_image.call_count)`

			`def test_unsupported_bits_per_pixel(self):`
			`# 16 bits-per-pixel`
			`data = (list(range(3 * 3 * 2)), 3, 3)`
			`self.assertRaisesRegexp(`
			`PyZbarError,`
			`r'Unsupported bits-per-pixel \[16\]. Only \[8\] is supported.',`
			`decode, data`
			`)`
			`self.assertRaises(PyZbarError, decode, data)`

			`def test_inconsistent_dimensions(self):`
			`# Ten bytes but width x height indicates nine bytes`
			`data = (list(range(10)), 3, 3)`
			`self.assertRaisesRegexp(`
			`PyZbarError,`
			`(`
			`r'Inconsistent dimensions: image data of 10 bytes is not '`
			`r'divisible by \(width x height = 9\)'`
			`),`
			`decode, data`
			`)`


			`if __name__ == '__main__':`
			`unittest.main()`