src/third_party/mozjs-45/python/slugid/test.py - cobalt - Git at Google

 # Licensed under the Mozilla Public Licence 2.0.
 # https://www.mozilla.org/en-US/MPL/2.0

 import uuid
 import slugid


 def testEncode():
     """ Test that we can correctly encode a "non-nice" uuid (with first bit
     set) to its known slug. The specific uuid was chosen since it has a slug
     which contains both `-` and `_` characters."""

     # 10000000010011110011111111001000110111111100101101001011000001101000100111111011101011101111101011010101111000011000011101010100....
     # <8 ><0 ><4 ><f ><3 ><f ><c ><8 ><d ><f ><c ><b ><4 ><b ><0 ><6 ><8 ><9 ><f ><b ><a ><e ><f ><a ><d ><5 ><e ><1 ><8 ><7 ><5 ><4 >
     # < g  >< E  >< 8  >< _  >< y  >< N  >< _  >< L  >< S  >< w  >< a  >< J  >< -  >< 6  >< 7  >< 6  >< 1  >< e  >< G  >< H  >< V  >< A  >
     uuid_ = uuid.UUID('{804f3fc8-dfcb-4b06-89fb-aefad5e18754}')
     expectedSlug = 'gE8_yN_LSwaJ-6761eGHVA'
     actualSlug = slugid.encode(uuid_)

     assert expectedSlug == actualSlug, "UUID not correctly encoded into slug: '" + expectedSlug + "' != '" + actualSlug + "'"


 def testDecode():
     """ Test that we can decode a "non-nice" slug (first bit of uuid is set)
     that begins with `-`"""

     # 11111011111011111011111011111011111011111011111001000011111011111011111111111111111111111111111111111111111111111111111111111101....
     # <f ><b ><e ><f ><b ><e ><f ><b ><e ><f ><b ><e ><4 ><3 ><e ><f ><b ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><d >
     # < -  >< -  >< -  >< -  >< -  >< -  >< -  >< -  >< Q  >< -  >< -  >< -  >< _  >< _  >< _  >< _  >< _  >< _  >< _  >< _  >< _  >< Q  >
     slug = '--------Q--__________Q'
     expectedUuid = uuid.UUID('{fbefbefb-efbe-43ef-bfff-fffffffffffd}')
     actualUuid = slugid.decode(slug)

     assert expectedUuid == actualUuid, "Slug not correctly decoded into uuid: '" + str(expectedUuid) + "' != '" + str(actualUuid) + "'"


 def testUuidEncodeDecode():
     """ Test that 10000 v4 uuids are unchanged after encoding and then decoding them"""

     for i in range(0, 10000):
         uuid1 = uuid.uuid4()
         slug = slugid.encode(uuid1)
         uuid2 = slugid.decode(slug)

         assert uuid1 == uuid2, "Encode and decode isn't identity: '" + str(uuid1) + "' != '" + str(uuid2) + "'"


 def testSlugDecodeEncode():
     """ Test that 10000 v4 slugs are unchanged after decoding and then encoding them."""

     for i in range(0, 10000):
         slug1 = slugid.v4()
         uuid_ = slugid.decode(slug1)
         slug2 = slugid.encode(uuid_)

         assert slug1 == slug2, "Decode and encode isn't identity"


 def testSpreadNice():
     """ Make sure that all allowed characters can appear in all allowed
     positions within the "nice" slug. In this test we generate over a thousand
     slugids, and make sure that every possible allowed character per position
     appears at least once in the sample of all slugids generated. We also make
     sure that no other characters appear in positions in which they are not
     allowed.

     base 64 encoding char -> value:
     ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_
     0         1         2         3         4         5          6
     0123456789012345678901234567890123456789012345678901234567890123

     e.g. from this we can see 'j' represents 35 in base64

     The following comments show the 128 bits of the v4 uuid in binary, hex and
     base 64 encodings. The 6 fixed bits (`0`/`1`) according to RFC 4122, plus
     the first (most significant) fixed bit (`0`) are shown among the 121
     arbitrary value bits (`.`/`x`). The `x` means the same as `.` but just
     highlights which bits are grouped together for the respective encoding.

     schema:
          <..........time_low............><...time_mid...><time_hi_+_vers><clk_hi><clk_lo><.....................node.....................>

     bin: 0xxx............................................0100............10xx............................................................
     hex:  $A <01><02><03><04><05><06><07><08><09><10><11> 4  <13><14><15> $B <17><18><19><20><21><22><23><24><25><26><27><28><29><30><31>

     => $A in {0, 1, 2, 3, 4, 5, 6, 7} (0b0xxx)
     => $B in {8, 9, A, B} (0b10xx)

     bin: 0xxxxx..........................................0100xx......xxxx10............................................................xx0000
     b64:   $C  < 01 >< 02 >< 03 >< 04 >< 05 >< 06 >< 07 >  $D  < 09 >  $E  < 11 >< 12 >< 13 >< 14 >< 15 >< 16 >< 17 >< 18 >< 19 >< 20 >  $F

     => $C in {A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, a, b, c, d, e, f} (0b0xxxxx)
     => $D in {Q, R, S, T} (0b0100xx)
     => $E in {C, G, K, O, S, W, a, e, i, m, q, u, y, 2, 6, -} (0bxxxx10)
     => $F in {A, Q, g, w} (0bxx0000)"""

     charsAll = ''.join(sorted('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_'))
     # 0 - 31: 0b0xxxxx
     charsC = ''.join(sorted('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdef'))
     # 16, 17, 18, 19: 0b0100xx
     charsD = ''.join(sorted('QRST'))
     # 2, 6, 10, 14, 18, 22, 26, 30, 34, 38, 42, 46, 50, 54, 58, 62: 0bxxxx10
     charsE = ''.join(sorted('CGKOSWaeimquy26-'))
     # 0, 16, 32, 48: 0bxx0000
     charsF = ''.join(sorted('AQgw'))
     expected = [charsC, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsD, charsAll, charsE, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsF]
     spreadTest(slugid.nice, expected)


 def testSpreadV4():
     """ This test is the same as niceSpreadTest but for slugid.v4() rather than
     slugid.nice(). The only difference is that a v4() slug can start with any of
     the base64 characters since the first six bits of the uuid are random."""

     charsAll = ''.join(sorted('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_'))
     # 16, 17, 18, 19: 0b0100xx
     charsD = ''.join(sorted('QRST'))
     # 2, 6, 10, 14, 18, 22, 26, 30, 34, 38, 42, 46, 50, 54, 58, 62: 0bxxxx10
     charsE = ''.join(sorted('CGKOSWaeimquy26-'))
     # 0, 16, 32, 48: 0bxx0000
     charsF = ''.join(sorted('AQgw'))
     expected = [charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsD, charsAll, charsE, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsF]
     spreadTest(slugid.v4, expected)


 def spreadTest(generator, expected):
     """ `spreadTest` runs a test against the `generator` function, to check that
     when calling it 64*40 times, the range of characters per string position it
     returns matches the array `expected`, where each entry in `expected` is a
     string of all possible characters that should appear in that position in the
     string, at least once in the sample of 64*40 responses from the `generator`
     function"""
     # k is an array which stores which characters were found at which
     # positions. It has one entry per slugid character, therefore 22 entries.
     # Each entry is a dict with a key for each character found, and its value
     # as the number of times that character appeared at that position in the
     # slugid in the large sample of slugids generated in this test.
     k = [{}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}]

     # Generate a large sample of slugids, and record what characters appeared
     # where...  A monte-carlo test has demonstrated that with 64 * 20
     # iterations, no failure occurred in 1000 simulations, so 64 * 40 should be
     # suitably large to rule out false positives.
     for i in range(0, 64 * 40):
         slug = generator()
         assert len(slug) == 22
         for j in range(0, 22):
             if slug[j] in k[j]:
                 k[j][slug[j]] = k[j][slug[j]] + 1
             else:
                 k[j][slug[j]] = 1

     # Compose results into an array `actual`, for comparison with `expected`
     actual = []
     for j in range(0, len(k)):
         actual.append('')
         for a in k[j].keys():
             if k[j][a] > 0:
                 actual[j] += a
         # sort for easy comparison
         actual[j] = ''.join(sorted(actual[j]))

     assert arraysEqual(expected, actual), "In a large sample of generated slugids, the range of characters found per character position in the sample did not match expected results.\n\nExpected: " + str(expected) + "\n\nActual: " + str(actual)

 def arraysEqual(a, b):
     """ returns True if arrays a and b are equal"""
     return cmp(a, b) == 0
	# Licensed under the Mozilla Public Licence 2.0.
	# https://www.mozilla.org/en-US/MPL/2.0

	import uuid
	import slugid


	def testEncode():
	""" Test that we can correctly encode a "non-nice" uuid (with first bit
	set) to its known slug. The specific uuid was chosen since it has a slug
	which contains both `-` and `_` characters."""

	# 10000000010011110011111111001000110111111100101101001011000001101000100111111011101011101111101011010101111000011000011101010100....
	# <8 ><0 ><4 ><f ><3 ><f ><c ><8 ><d ><f ><c ><b ><4 ><b ><0 ><6 ><8 ><9 ><f ><b ><a ><e ><f ><a ><d ><5 ><e ><1 ><8 ><7 ><5 ><4 >
	# < g >< E >< 8 >< _ >< y >< N >< _ >< L >< S >< w >< a >< J >< - >< 6 >< 7 >< 6 >< 1 >< e >< G >< H >< V >< A >
	uuid_ = uuid.UUID('{804f3fc8-dfcb-4b06-89fb-aefad5e18754}')
	expectedSlug = 'gE8_yN_LSwaJ-6761eGHVA'
	actualSlug = slugid.encode(uuid_)

	assert expectedSlug == actualSlug, "UUID not correctly encoded into slug: '" + expectedSlug + "' != '" + actualSlug + "'"


	def testDecode():
	""" Test that we can decode a "non-nice" slug (first bit of uuid is set)
	that begins with `-`"""

	# 11111011111011111011111011111011111011111011111001000011111011111011111111111111111111111111111111111111111111111111111111111101....
	# <f ><b ><e ><f ><b ><e ><f ><b ><e ><f ><b ><e ><4 ><3 ><e ><f ><b ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><f ><d >
	# < - >< - >< - >< - >< - >< - >< - >< - >< Q >< - >< - >< - >< _ >< _ >< _ >< _ >< _ >< _ >< _ >< _ >< _ >< Q >
	slug = '--------Q--__________Q'
	expectedUuid = uuid.UUID('{fbefbefb-efbe-43ef-bfff-fffffffffffd}')
	actualUuid = slugid.decode(slug)

	assert expectedUuid == actualUuid, "Slug not correctly decoded into uuid: '" + str(expectedUuid) + "' != '" + str(actualUuid) + "'"


	def testUuidEncodeDecode():
	""" Test that 10000 v4 uuids are unchanged after encoding and then decoding them"""

	for i in range(0, 10000):
	uuid1 = uuid.uuid4()
	slug = slugid.encode(uuid1)
	uuid2 = slugid.decode(slug)

	assert uuid1 == uuid2, "Encode and decode isn't identity: '" + str(uuid1) + "' != '" + str(uuid2) + "'"


	def testSlugDecodeEncode():
	""" Test that 10000 v4 slugs are unchanged after decoding and then encoding them."""

	for i in range(0, 10000):
	slug1 = slugid.v4()
	uuid_ = slugid.decode(slug1)
	slug2 = slugid.encode(uuid_)

	assert slug1 == slug2, "Decode and encode isn't identity"


	def testSpreadNice():
	""" Make sure that all allowed characters can appear in all allowed
	positions within the "nice" slug. In this test we generate over a thousand
	slugids, and make sure that every possible allowed character per position
	appears at least once in the sample of all slugids generated. We also make
	sure that no other characters appear in positions in which they are not
	allowed.

	base 64 encoding char -> value:
	ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_
	0 1 2 3 4 5 6
	0123456789012345678901234567890123456789012345678901234567890123

	e.g. from this we can see 'j' represents 35 in base64

	The following comments show the 128 bits of the v4 uuid in binary, hex and
	base 64 encodings. The 6 fixed bits (`0`/`1`) according to RFC 4122, plus
	the first (most significant) fixed bit (`0`) are shown among the 121
	arbitrary value bits (`.`/`x`). The `x` means the same as `.` but just
	highlights which bits are grouped together for the respective encoding.

	schema:
	<..........time_low............><...time_mid...><time_hi_+_vers><clk_hi><clk_lo><.....................node.....................>

	bin: 0xxx............................................0100............10xx............................................................
	hex: $A <01><02><03><04><05><06><07><08><09><10><11> 4 <13><14><15> $B <17><18><19><20><21><22><23><24><25><26><27><28><29><30><31>

	=> $A in {0, 1, 2, 3, 4, 5, 6, 7} (0b0xxx)
	=> $B in {8, 9, A, B} (0b10xx)

	bin: 0xxxxx..........................................0100xx......xxxx10............................................................xx0000
	b64: $C < 01 >< 02 >< 03 >< 04 >< 05 >< 06 >< 07 > $D < 09 > $E < 11 >< 12 >< 13 >< 14 >< 15 >< 16 >< 17 >< 18 >< 19 >< 20 > $F

	=> $C in {A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, a, b, c, d, e, f} (0b0xxxxx)
	=> $D in {Q, R, S, T} (0b0100xx)
	=> $E in {C, G, K, O, S, W, a, e, i, m, q, u, y, 2, 6, -} (0bxxxx10)
	=> $F in {A, Q, g, w} (0bxx0000)"""

	charsAll = ''.join(sorted('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_'))
	# 0 - 31: 0b0xxxxx
	charsC = ''.join(sorted('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdef'))
	# 16, 17, 18, 19: 0b0100xx
	charsD = ''.join(sorted('QRST'))
	# 2, 6, 10, 14, 18, 22, 26, 30, 34, 38, 42, 46, 50, 54, 58, 62: 0bxxxx10
	charsE = ''.join(sorted('CGKOSWaeimquy26-'))
	# 0, 16, 32, 48: 0bxx0000
	charsF = ''.join(sorted('AQgw'))
	expected = [charsC, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsD, charsAll, charsE, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsF]
	spreadTest(slugid.nice, expected)


	def testSpreadV4():
	""" This test is the same as niceSpreadTest but for slugid.v4() rather than
	slugid.nice(). The only difference is that a v4() slug can start with any of
	the base64 characters since the first six bits of the uuid are random."""

	charsAll = ''.join(sorted('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_'))
	# 16, 17, 18, 19: 0b0100xx
	charsD = ''.join(sorted('QRST'))
	# 2, 6, 10, 14, 18, 22, 26, 30, 34, 38, 42, 46, 50, 54, 58, 62: 0bxxxx10
	charsE = ''.join(sorted('CGKOSWaeimquy26-'))
	# 0, 16, 32, 48: 0bxx0000
	charsF = ''.join(sorted('AQgw'))
	expected = [charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsD, charsAll, charsE, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsAll, charsF]
	spreadTest(slugid.v4, expected)


	def spreadTest(generator, expected):
	""" `spreadTest` runs a test against the `generator` function, to check that
	when calling it 64*40 times, the range of characters per string position it
	returns matches the array `expected`, where each entry in `expected` is a
	string of all possible characters that should appear in that position in the
	string, at least once in the sample of 64*40 responses from the `generator`
	function"""
	# k is an array which stores which characters were found at which
	# positions. It has one entry per slugid character, therefore 22 entries.
	# Each entry is a dict with a key for each character found, and its value
	# as the number of times that character appeared at that position in the
	# slugid in the large sample of slugids generated in this test.
	k = [{}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}]

	# Generate a large sample of slugids, and record what characters appeared
	# where... A monte-carlo test has demonstrated that with 64 * 20
	# iterations, no failure occurred in 1000 simulations, so 64 * 40 should be
	# suitably large to rule out false positives.
	for i in range(0, 64 * 40):
	slug = generator()
	assert len(slug) == 22
	for j in range(0, 22):
	if slug[j] in k[j]:
	k[j][slug[j]] = k[j][slug[j]] + 1
	else:
	k[j][slug[j]] = 1

	# Compose results into an array `actual`, for comparison with `expected`
	actual = []
	for j in range(0, len(k)):
	actual.append('')
	for a in k[j].keys():
	if k[j][a] > 0:
	actual[j] += a
	# sort for easy comparison
	actual[j] = ''.join(sorted(actual[j]))

	assert arraysEqual(expected, actual), "In a large sample of generated slugids, the range of characters found per character position in the sample did not match expected results.\n\nExpected: " + str(expected) + "\n\nActual: " + str(actual)

	def arraysEqual(a, b):
	""" returns True if arrays a and b are equal"""
	return cmp(a, b) == 0