validation-test/stdlib/SipHash.swift - third_party/swift - Git at Google

 // RUN: %target-run-simple-swiftgyb
 // REQUIRES: executable_test

 import StdlibUnittest

 let SipHashTests = TestSuite("SipHashTests")

 struct SipHashTest {
   let input: [UInt8]
   let key: (UInt64, UInt64)
   let output: UInt64

   /// Test vector from the reference C implementation.
   ///
   /// SipHash output with
   ///
   ///     key = 00 01 02 ...
   ///
   /// and
   ///
   ///     input = (empty string)
   ///     input = 00 (1 byte)
   ///     input = 00 01 (2 bytes)
   ///     input = 00 01 02 (3 bytes)
   ///     ...
   ///     input = 00 01 02 ... 3e (63 bytes)
   init(referenceVectorIndex i: Int, output: UInt64) {
     self.input = Array(0..<UInt8(i))
     self.key = (0x07060504_03020100, 0x0F0E0D0C_0B0A0908)
     self.output = output
   }

   init(input: [UInt8], key: (UInt64, UInt64), output: UInt64) {
     self.input = input
     self.key = key
     self.output = output
   }
 }

 let sipHash24Tests: [SipHashTest] = [
   // Test vectors from the reference C implementation, which was released
   // to public domain by:
   //
   // * Jean-Philippe Aumasson <jeanphilippe.aumasson@gmail.com>
   // * Daniel J. Bernstein <djb@cr.yp.to>
   SipHashTest(referenceVectorIndex: 0, output: 0x726fdb47dd0e0e31),
   SipHashTest(referenceVectorIndex: 1, output: 0x74f839c593dc67fd),
   SipHashTest(referenceVectorIndex: 2, output: 0x0d6c8009d9a94f5a),
   SipHashTest(referenceVectorIndex: 3, output: 0x85676696d7fb7e2d),
   SipHashTest(referenceVectorIndex: 4, output: 0xcf2794e0277187b7),
   SipHashTest(referenceVectorIndex: 5, output: 0x18765564cd99a68d),
   SipHashTest(referenceVectorIndex: 6, output: 0xcbc9466e58fee3ce),
   SipHashTest(referenceVectorIndex: 7, output: 0xab0200f58b01d137),
   SipHashTest(referenceVectorIndex: 8, output: 0x93f5f5799a932462),
   SipHashTest(referenceVectorIndex: 9, output: 0x9e0082df0ba9e4b0),
   SipHashTest(referenceVectorIndex: 10, output: 0x7a5dbbc594ddb9f3),
   SipHashTest(referenceVectorIndex: 11, output: 0xf4b32f46226bada7),
   SipHashTest(referenceVectorIndex: 12, output: 0x751e8fbc860ee5fb),
   SipHashTest(referenceVectorIndex: 13, output: 0x14ea5627c0843d90),
   SipHashTest(referenceVectorIndex: 14, output: 0xf723ca908e7af2ee),
   SipHashTest(referenceVectorIndex: 15, output: 0xa129ca6149be45e5),
   SipHashTest(referenceVectorIndex: 16, output: 0x3f2acc7f57c29bdb),
   SipHashTest(referenceVectorIndex: 17, output: 0x699ae9f52cbe4794),
   SipHashTest(referenceVectorIndex: 18, output: 0x4bc1b3f0968dd39c),
   SipHashTest(referenceVectorIndex: 19, output: 0xbb6dc91da77961bd),
   SipHashTest(referenceVectorIndex: 20, output: 0xbed65cf21aa2ee98),
   SipHashTest(referenceVectorIndex: 21, output: 0xd0f2cbb02e3b67c7),
   SipHashTest(referenceVectorIndex: 22, output: 0x93536795e3a33e88),
   SipHashTest(referenceVectorIndex: 23, output: 0xa80c038ccd5ccec8),
   SipHashTest(referenceVectorIndex: 24, output: 0xb8ad50c6f649af94),
   SipHashTest(referenceVectorIndex: 25, output: 0xbce192de8a85b8ea),
   SipHashTest(referenceVectorIndex: 26, output: 0x17d835b85bbb15f3),
   SipHashTest(referenceVectorIndex: 27, output: 0x2f2e6163076bcfad),
   SipHashTest(referenceVectorIndex: 28, output: 0xde4daaaca71dc9a5),
   SipHashTest(referenceVectorIndex: 29, output: 0xa6a2506687956571),
   SipHashTest(referenceVectorIndex: 30, output: 0xad87a3535c49ef28),
   SipHashTest(referenceVectorIndex: 31, output: 0x32d892fad841c342),
   SipHashTest(referenceVectorIndex: 32, output: 0x7127512f72f27cce),
   SipHashTest(referenceVectorIndex: 33, output: 0xa7f32346f95978e3),
   SipHashTest(referenceVectorIndex: 34, output: 0x12e0b01abb051238),
   SipHashTest(referenceVectorIndex: 35, output: 0x15e034d40fa197ae),
   SipHashTest(referenceVectorIndex: 36, output: 0x314dffbe0815a3b4),
   SipHashTest(referenceVectorIndex: 37, output: 0x027990f029623981),
   SipHashTest(referenceVectorIndex: 38, output: 0xcadcd4e59ef40c4d),
   SipHashTest(referenceVectorIndex: 39, output: 0x9abfd8766a33735c),
   SipHashTest(referenceVectorIndex: 40, output: 0x0e3ea96b5304a7d0),
   SipHashTest(referenceVectorIndex: 41, output: 0xad0c42d6fc585992),
   SipHashTest(referenceVectorIndex: 42, output: 0x187306c89bc215a9),
   SipHashTest(referenceVectorIndex: 43, output: 0xd4a60abcf3792b95),
   SipHashTest(referenceVectorIndex: 44, output: 0xf935451de4f21df2),
   SipHashTest(referenceVectorIndex: 45, output: 0xa9538f0419755787),
   SipHashTest(referenceVectorIndex: 46, output: 0xdb9acddff56ca510),
   SipHashTest(referenceVectorIndex: 47, output: 0xd06c98cd5c0975eb),
   SipHashTest(referenceVectorIndex: 48, output: 0xe612a3cb9ecba951),
   SipHashTest(referenceVectorIndex: 49, output: 0xc766e62cfcadaf96),
   SipHashTest(referenceVectorIndex: 50, output: 0xee64435a9752fe72),
   SipHashTest(referenceVectorIndex: 51, output: 0xa192d576b245165a),
   SipHashTest(referenceVectorIndex: 52, output: 0x0a8787bf8ecb74b2),
   SipHashTest(referenceVectorIndex: 53, output: 0x81b3e73d20b49b6f),
   SipHashTest(referenceVectorIndex: 54, output: 0x7fa8220ba3b2ecea),
   SipHashTest(referenceVectorIndex: 55, output: 0x245731c13ca42499),
   SipHashTest(referenceVectorIndex: 56, output: 0xb78dbfaf3a8d83bd),
   SipHashTest(referenceVectorIndex: 57, output: 0xea1ad565322a1a0b),
   SipHashTest(referenceVectorIndex: 58, output: 0x60e61c23a3795013),
   SipHashTest(referenceVectorIndex: 59, output: 0x6606d7e446282b93),
   SipHashTest(referenceVectorIndex: 60, output: 0x6ca4ecb15c5f91e1),
   SipHashTest(referenceVectorIndex: 61, output: 0x9f626da15c9625f3),
   SipHashTest(referenceVectorIndex: 62, output: 0xe51b38608ef25f57),
   SipHashTest(referenceVectorIndex: 63, output: 0x958a324ceb064572),
   // End of reference test vectors.

   SipHashTest(
     input: [
       0x72, 0xdc, 0xde, 0xd4, 0x6d, 0xb4, 0xc8, 0xa1,
       0xcf, 0x22, 0xe2, 0x7f, 0xe3, 0xf6, 0xe5, 0x6d,
       0x8b, 0x66, 0x0b, 0xaf, 0xba, 0x16, 0x25, 0xf3,
       0x63, 0x8e, 0x69, 0x80, 0xf3, 0x7e, 0xd6, 0xe3,
     ],
     key: (0xa3432fc680796c34, 0x1173946a79aeaae5),
     output: 0x058b04535972ff2b),
 ]

 let sipHash13Tests: [SipHashTest] = [
   SipHashTest(referenceVectorIndex: 0, output: 0xabac0158050fc4dc),
   SipHashTest(referenceVectorIndex: 1, output: 0xc9f49bf37d57ca93),
   SipHashTest(referenceVectorIndex: 2, output: 0x82cb9b024dc7d44d),
   SipHashTest(referenceVectorIndex: 3, output: 0x8bf80ab8e7ddf7fb),
   SipHashTest(referenceVectorIndex: 4, output: 0xcf75576088d38328),
   SipHashTest(referenceVectorIndex: 5, output: 0xdef9d52f49533b67),
   SipHashTest(referenceVectorIndex: 6, output: 0xc50d2b50c59f22a7),
   SipHashTest(referenceVectorIndex: 7, output: 0xd3927d989bb11140),
   SipHashTest(referenceVectorIndex: 8, output: 0x369095118d299a8e),
   SipHashTest(referenceVectorIndex: 9, output: 0x25a48eb36c063de4),
   SipHashTest(referenceVectorIndex: 10, output: 0x79de85ee92ff097f),
   SipHashTest(referenceVectorIndex: 11, output: 0x70c118c1f94dc352),
   SipHashTest(referenceVectorIndex: 12, output: 0x78a384b157b4d9a2),
   SipHashTest(referenceVectorIndex: 13, output: 0x306f760c1229ffa7),
   SipHashTest(referenceVectorIndex: 14, output: 0x605aa111c0f95d34),
   SipHashTest(referenceVectorIndex: 15, output: 0xd320d86d2a519956),
   SipHashTest(referenceVectorIndex: 16, output: 0xcc4fdd1a7d908b66),
   SipHashTest(referenceVectorIndex: 17, output: 0x9cf2689063dbd80c),
   SipHashTest(referenceVectorIndex: 18, output: 0x8ffc389cb473e63e),
   SipHashTest(referenceVectorIndex: 19, output: 0xf21f9de58d297d1c),
   SipHashTest(referenceVectorIndex: 20, output: 0xc0dc2f46a6cce040),
   SipHashTest(referenceVectorIndex: 21, output: 0xb992abfe2b45f844),
   SipHashTest(referenceVectorIndex: 22, output: 0x7ffe7b9ba320872e),
   SipHashTest(referenceVectorIndex: 23, output: 0x525a0e7fdae6c123),
   SipHashTest(referenceVectorIndex: 24, output: 0xf464aeb267349c8c),
   SipHashTest(referenceVectorIndex: 25, output: 0x45cd5928705b0979),
   SipHashTest(referenceVectorIndex: 26, output: 0x3a3e35e3ca9913a5),
   SipHashTest(referenceVectorIndex: 27, output: 0xa91dc74e4ade3b35),
   SipHashTest(referenceVectorIndex: 28, output: 0xfb0bed02ef6cd00d),
   SipHashTest(referenceVectorIndex: 29, output: 0x88d93cb44ab1e1f4),
   SipHashTest(referenceVectorIndex: 30, output: 0x540f11d643c5e663),
   SipHashTest(referenceVectorIndex: 31, output: 0x2370dd1f8c21d1bc),
   SipHashTest(referenceVectorIndex: 32, output: 0x81157b6c16a7b60d),
   SipHashTest(referenceVectorIndex: 33, output: 0x4d54b9e57a8ff9bf),
   SipHashTest(referenceVectorIndex: 34, output: 0x759f12781f2a753e),
   SipHashTest(referenceVectorIndex: 35, output: 0xcea1a3bebf186b91),
   SipHashTest(referenceVectorIndex: 36, output: 0x2cf508d3ada26206),
   SipHashTest(referenceVectorIndex: 37, output: 0xb6101c2da3c33057),
   SipHashTest(referenceVectorIndex: 38, output: 0xb3f47496ae3a36a1),
   SipHashTest(referenceVectorIndex: 39, output: 0x626b57547b108392),
   SipHashTest(referenceVectorIndex: 40, output: 0xc1d2363299e41531),
   SipHashTest(referenceVectorIndex: 41, output: 0x667cc1923f1ad944),
   SipHashTest(referenceVectorIndex: 42, output: 0x65704ffec8138825),
   SipHashTest(referenceVectorIndex: 43, output: 0x24f280d1c28949a6),
   SipHashTest(referenceVectorIndex: 44, output: 0xc2ca1cedfaf8876b),
   SipHashTest(referenceVectorIndex: 45, output: 0xc2164bfc9f042196),
   SipHashTest(referenceVectorIndex: 46, output: 0xa16e9c9368b1d623),
   SipHashTest(referenceVectorIndex: 47, output: 0x49fb169c8b5114fd),
   SipHashTest(referenceVectorIndex: 48, output: 0x9f3143f8df074c46),
   SipHashTest(referenceVectorIndex: 49, output: 0xc6fdaf2412cc86b3),
   SipHashTest(referenceVectorIndex: 50, output: 0x7eaf49d10a52098f),
   SipHashTest(referenceVectorIndex: 51, output: 0x1cf313559d292f9a),
   SipHashTest(referenceVectorIndex: 52, output: 0xc44a30dda2f41f12),
   SipHashTest(referenceVectorIndex: 53, output: 0x36fae98943a71ed0),
   SipHashTest(referenceVectorIndex: 54, output: 0x318fb34c73f0bce6),
   SipHashTest(referenceVectorIndex: 55, output: 0xa27abf3670a7e980),
   SipHashTest(referenceVectorIndex: 56, output: 0xb4bcc0db243c6d75),
   SipHashTest(referenceVectorIndex: 57, output: 0x23f8d852fdb71513),
   SipHashTest(referenceVectorIndex: 58, output: 0x8f035f4da67d8a08),
   SipHashTest(referenceVectorIndex: 59, output: 0xd89cd0e5b7e8f148),
   SipHashTest(referenceVectorIndex: 60, output: 0xf6f4e6bcf7a644ee),
   SipHashTest(referenceVectorIndex: 61, output: 0xaec59ad80f1837f2),
   SipHashTest(referenceVectorIndex: 62, output: 0xc3b2f6154b6694e0),
   SipHashTest(referenceVectorIndex: 63, output: 0x9d199062b7bbb3a8),

   SipHashTest(
     input: [
       0x72, 0xdc, 0xde, 0xd4, 0x6d, 0xb4, 0xc8, 0xa1,
       0xcf, 0x22, 0xe2, 0x7f, 0xe3, 0xf6, 0xe5, 0x6d,
       0x8b, 0x66, 0x0b, 0xaf, 0xba, 0x16, 0x25, 0xf3,
       0x63, 0x8e, 0x69, 0x80, 0xf3, 0x7e, 0xd6, 0xe3,
     ],
     key: (0xa3432fc680796c34, 0x1173946a79aeaae5),
     output: 0x4d457d818f46941d),
 ]

 let incrementalPatterns: [[Int]] = [
   [1], [2], [3], [4], [5], [6], [7], [8], [9],
   [15], [16], [17],
   [31], [32], [33],
   [0, 1],
   [1, 2],
   [1, 3, 5],
   [1, 7],
   [1, 9],
   [7, 9],
 ]

 func loadUnalignedUInt64LE(
   from p: UnsafeRawPointer
 ) -> UInt64 {
   return
     UInt64(p.load(fromByteOffset: 0, as: UInt8.self)) |
     (UInt64(p.load(fromByteOffset: 1, as: UInt8.self)) &<<  8 as UInt64) |
     (UInt64(p.load(fromByteOffset: 2, as: UInt8.self)) &<< 16 as UInt64) |
     (UInt64(p.load(fromByteOffset: 3, as: UInt8.self)) &<< 24 as UInt64) |
     (UInt64(p.load(fromByteOffset: 4, as: UInt8.self)) &<< 32 as UInt64) |
     (UInt64(p.load(fromByteOffset: 5, as: UInt8.self)) &<< 40 as UInt64) |
     (UInt64(p.load(fromByteOffset: 6, as: UInt8.self)) &<< 48 as UInt64) |
     (UInt64(p.load(fromByteOffset: 7, as: UInt8.self)) &<< 56 as UInt64)
 }

 func loadUnalignedUInt32LE(
   from p: UnsafeRawPointer
 ) -> UInt32 {
   return
     UInt32(p.load(fromByteOffset: 0, as: UInt8.self)) |
     (UInt32(p.load(fromByteOffset: 1, as: UInt8.self)) &<<  8 as UInt32) |
     (UInt32(p.load(fromByteOffset: 2, as: UInt8.self)) &<< 16 as UInt32) |
     (UInt32(p.load(fromByteOffset: 3, as: UInt8.self)) &<< 24 as UInt32)
 }

 func loadUnalignedUIntLE(
   from p: UnsafeRawPointer
 ) -> UInt {
 #if arch(i386) || arch(arm)
   return UInt(loadUnalignedUInt32LE(from: p))
 #elseif arch(x86_64) || arch(arm64) || arch(powerpc64) || arch(powerpc64le) || arch(s390x)
   return UInt(loadUnalignedUInt64LE(from: p))
 #endif
 }

 % for data_type in ['Int', 'Int64', 'Int32']:
 func loadUnaligned${data_type}LE(
   from p: UnsafeRawPointer
 ) -> ${data_type} {
   return ${data_type}(bitPattern: loadUnalignedU${data_type}LE(from: p))
 }
 % end

 % for data_type in ['UInt', 'Int', 'UInt64', 'Int64', 'UInt32', 'Int32']:
 func loadUnaligned${data_type}(
   from p: UnsafeRawPointer
 ) -> ${data_type} {
   return ${data_type}(littleEndian: loadUnaligned${data_type}LE(from: p))
 }
 % end

 % for (Self, tests) in [
 %   ('_SipHash13Context', 'sipHash13Tests'),
 %   ('_SipHash24Context', 'sipHash24Tests')
 % ]:
 SipHashTests.test("${Self}/Oneshot").forEach(in: ${tests}) {
   test in

   expectEqual(
     test.output,
     ${Self}.hash(
       data: test.input,
       dataByteCount: test.input.count,
       key: test.key))
 }

 SipHashTests.test("${Self}.append(UnsafeRawPointer)")
   .forEach(in: cartesianProduct(${tests}, incrementalPatterns)) {
   test_ in
   let (test, pattern) = test_

   var context = ${Self}(key: test.key)
   var startIndex = 0
   var chunkSizeIndex = 0
   while startIndex != test.input.endIndex {
     let chunkSize = min(
       pattern[chunkSizeIndex],
       test.input.endIndex - startIndex)
     context.append(
       Array(test.input[startIndex..<(startIndex+chunkSize)]),
       byteCount: chunkSize)
     startIndex += chunkSize
     chunkSizeIndex += 1
     chunkSizeIndex %= pattern.count
   }
   expectEqual(
     test.output,
     context.finalizeAndReturnHash())

   // Check that we can query the hash value more than once.
   expectEqual(
     test.output,
     context.finalizeAndReturnHash())
 }

 % for data_type in ['UInt', 'Int', 'UInt64', 'Int64', 'UInt32', 'Int32']:
 SipHashTests.test("${Self}.append(${data_type})").forEach(in: ${tests}) {
   test in

   var context = ${Self}(key: test.key)

   let chunkSize = MemoryLayout<${data_type}>.size

   var startIndex = 0
   let endIndex = test.input.count - (test.input.count % chunkSize)
   while startIndex != endIndex {
     context.append(
       loadUnaligned${data_type}(
         from: Array(
           test.input[startIndex..<(startIndex+chunkSize)])))
     startIndex += chunkSize
   }
   context.append(
     Array(test.input.suffix(from: endIndex)),
     byteCount: test.input.count - endIndex)

   expectEqual(
     test.output,
     context.finalizeAndReturnHash())
 }
 % end

 SipHashTests.test("${Self}/AppendAfterFinalizing") {
   var context = ${Self}(key: (0, 0))
   _ = context.finalizeAndReturnHash()
   expectCrashLater()
   context.append([], byteCount: 0)
 }
 % end

 runAllTests()
	// RUN: %target-run-simple-swiftgyb
	// REQUIRES: executable_test

	import StdlibUnittest

	let SipHashTests = TestSuite("SipHashTests")

	struct SipHashTest {
	let input: [UInt8]
	let key: (UInt64, UInt64)
	let output: UInt64

	/// Test vector from the reference C implementation.
	///
	/// SipHash output with
	///
	/// key = 00 01 02 ...
	///
	/// and
	///
	/// input = (empty string)
	/// input = 00 (1 byte)
	/// input = 00 01 (2 bytes)
	/// input = 00 01 02 (3 bytes)
	/// ...
	/// input = 00 01 02 ... 3e (63 bytes)
	init(referenceVectorIndex i: Int, output: UInt64) {
	self.input = Array(0..<UInt8(i))
	self.key = (0x07060504_03020100, 0x0F0E0D0C_0B0A0908)
	self.output = output
	}

	init(input: [UInt8], key: (UInt64, UInt64), output: UInt64) {
	self.input = input
	self.key = key
	self.output = output
	}
	}

	let sipHash24Tests: [SipHashTest] = [
	// Test vectors from the reference C implementation, which was released
	// to public domain by:
	//
	// * Jean-Philippe Aumasson <jeanphilippe.aumasson@gmail.com>
	// * Daniel J. Bernstein <djb@cr.yp.to>
	SipHashTest(referenceVectorIndex: 0, output: 0x726fdb47dd0e0e31),
	SipHashTest(referenceVectorIndex: 1, output: 0x74f839c593dc67fd),
	SipHashTest(referenceVectorIndex: 2, output: 0x0d6c8009d9a94f5a),
	SipHashTest(referenceVectorIndex: 3, output: 0x85676696d7fb7e2d),
	SipHashTest(referenceVectorIndex: 4, output: 0xcf2794e0277187b7),
	SipHashTest(referenceVectorIndex: 5, output: 0x18765564cd99a68d),
	SipHashTest(referenceVectorIndex: 6, output: 0xcbc9466e58fee3ce),
	SipHashTest(referenceVectorIndex: 7, output: 0xab0200f58b01d137),
	SipHashTest(referenceVectorIndex: 8, output: 0x93f5f5799a932462),
	SipHashTest(referenceVectorIndex: 9, output: 0x9e0082df0ba9e4b0),
	SipHashTest(referenceVectorIndex: 10, output: 0x7a5dbbc594ddb9f3),
	SipHashTest(referenceVectorIndex: 11, output: 0xf4b32f46226bada7),
	SipHashTest(referenceVectorIndex: 12, output: 0x751e8fbc860ee5fb),
	SipHashTest(referenceVectorIndex: 13, output: 0x14ea5627c0843d90),
	SipHashTest(referenceVectorIndex: 14, output: 0xf723ca908e7af2ee),
	SipHashTest(referenceVectorIndex: 15, output: 0xa129ca6149be45e5),
	SipHashTest(referenceVectorIndex: 16, output: 0x3f2acc7f57c29bdb),
	SipHashTest(referenceVectorIndex: 17, output: 0x699ae9f52cbe4794),
	SipHashTest(referenceVectorIndex: 18, output: 0x4bc1b3f0968dd39c),
	SipHashTest(referenceVectorIndex: 19, output: 0xbb6dc91da77961bd),
	SipHashTest(referenceVectorIndex: 20, output: 0xbed65cf21aa2ee98),
	SipHashTest(referenceVectorIndex: 21, output: 0xd0f2cbb02e3b67c7),
	SipHashTest(referenceVectorIndex: 22, output: 0x93536795e3a33e88),
	SipHashTest(referenceVectorIndex: 23, output: 0xa80c038ccd5ccec8),
	SipHashTest(referenceVectorIndex: 24, output: 0xb8ad50c6f649af94),
	SipHashTest(referenceVectorIndex: 25, output: 0xbce192de8a85b8ea),
	SipHashTest(referenceVectorIndex: 26, output: 0x17d835b85bbb15f3),
	SipHashTest(referenceVectorIndex: 27, output: 0x2f2e6163076bcfad),
	SipHashTest(referenceVectorIndex: 28, output: 0xde4daaaca71dc9a5),
	SipHashTest(referenceVectorIndex: 29, output: 0xa6a2506687956571),
	SipHashTest(referenceVectorIndex: 30, output: 0xad87a3535c49ef28),
	SipHashTest(referenceVectorIndex: 31, output: 0x32d892fad841c342),
	SipHashTest(referenceVectorIndex: 32, output: 0x7127512f72f27cce),
	SipHashTest(referenceVectorIndex: 33, output: 0xa7f32346f95978e3),
	SipHashTest(referenceVectorIndex: 34, output: 0x12e0b01abb051238),
	SipHashTest(referenceVectorIndex: 35, output: 0x15e034d40fa197ae),
	SipHashTest(referenceVectorIndex: 36, output: 0x314dffbe0815a3b4),
	SipHashTest(referenceVectorIndex: 37, output: 0x027990f029623981),
	SipHashTest(referenceVectorIndex: 38, output: 0xcadcd4e59ef40c4d),
	SipHashTest(referenceVectorIndex: 39, output: 0x9abfd8766a33735c),
	SipHashTest(referenceVectorIndex: 40, output: 0x0e3ea96b5304a7d0),
	SipHashTest(referenceVectorIndex: 41, output: 0xad0c42d6fc585992),
	SipHashTest(referenceVectorIndex: 42, output: 0x187306c89bc215a9),
	SipHashTest(referenceVectorIndex: 43, output: 0xd4a60abcf3792b95),
	SipHashTest(referenceVectorIndex: 44, output: 0xf935451de4f21df2),
	SipHashTest(referenceVectorIndex: 45, output: 0xa9538f0419755787),
	SipHashTest(referenceVectorIndex: 46, output: 0xdb9acddff56ca510),
	SipHashTest(referenceVectorIndex: 47, output: 0xd06c98cd5c0975eb),
	SipHashTest(referenceVectorIndex: 48, output: 0xe612a3cb9ecba951),
	SipHashTest(referenceVectorIndex: 49, output: 0xc766e62cfcadaf96),
	SipHashTest(referenceVectorIndex: 50, output: 0xee64435a9752fe72),
	SipHashTest(referenceVectorIndex: 51, output: 0xa192d576b245165a),
	SipHashTest(referenceVectorIndex: 52, output: 0x0a8787bf8ecb74b2),
	SipHashTest(referenceVectorIndex: 53, output: 0x81b3e73d20b49b6f),
	SipHashTest(referenceVectorIndex: 54, output: 0x7fa8220ba3b2ecea),
	SipHashTest(referenceVectorIndex: 55, output: 0x245731c13ca42499),
	SipHashTest(referenceVectorIndex: 56, output: 0xb78dbfaf3a8d83bd),
	SipHashTest(referenceVectorIndex: 57, output: 0xea1ad565322a1a0b),
	SipHashTest(referenceVectorIndex: 58, output: 0x60e61c23a3795013),
	SipHashTest(referenceVectorIndex: 59, output: 0x6606d7e446282b93),
	SipHashTest(referenceVectorIndex: 60, output: 0x6ca4ecb15c5f91e1),
	SipHashTest(referenceVectorIndex: 61, output: 0x9f626da15c9625f3),
	SipHashTest(referenceVectorIndex: 62, output: 0xe51b38608ef25f57),
	SipHashTest(referenceVectorIndex: 63, output: 0x958a324ceb064572),
	// End of reference test vectors.

	SipHashTest(
	input: [
	0x72, 0xdc, 0xde, 0xd4, 0x6d, 0xb4, 0xc8, 0xa1,
	0xcf, 0x22, 0xe2, 0x7f, 0xe3, 0xf6, 0xe5, 0x6d,
	0x8b, 0x66, 0x0b, 0xaf, 0xba, 0x16, 0x25, 0xf3,
	0x63, 0x8e, 0x69, 0x80, 0xf3, 0x7e, 0xd6, 0xe3,
	],
	key: (0xa3432fc680796c34, 0x1173946a79aeaae5),
	output: 0x058b04535972ff2b),
	]

	let sipHash13Tests: [SipHashTest] = [
	SipHashTest(referenceVectorIndex: 0, output: 0xabac0158050fc4dc),
	SipHashTest(referenceVectorIndex: 1, output: 0xc9f49bf37d57ca93),
	SipHashTest(referenceVectorIndex: 2, output: 0x82cb9b024dc7d44d),
	SipHashTest(referenceVectorIndex: 3, output: 0x8bf80ab8e7ddf7fb),
	SipHashTest(referenceVectorIndex: 4, output: 0xcf75576088d38328),
	SipHashTest(referenceVectorIndex: 5, output: 0xdef9d52f49533b67),
	SipHashTest(referenceVectorIndex: 6, output: 0xc50d2b50c59f22a7),
	SipHashTest(referenceVectorIndex: 7, output: 0xd3927d989bb11140),
	SipHashTest(referenceVectorIndex: 8, output: 0x369095118d299a8e),
	SipHashTest(referenceVectorIndex: 9, output: 0x25a48eb36c063de4),
	SipHashTest(referenceVectorIndex: 10, output: 0x79de85ee92ff097f),
	SipHashTest(referenceVectorIndex: 11, output: 0x70c118c1f94dc352),
	SipHashTest(referenceVectorIndex: 12, output: 0x78a384b157b4d9a2),
	SipHashTest(referenceVectorIndex: 13, output: 0x306f760c1229ffa7),
	SipHashTest(referenceVectorIndex: 14, output: 0x605aa111c0f95d34),
	SipHashTest(referenceVectorIndex: 15, output: 0xd320d86d2a519956),
	SipHashTest(referenceVectorIndex: 16, output: 0xcc4fdd1a7d908b66),
	SipHashTest(referenceVectorIndex: 17, output: 0x9cf2689063dbd80c),
	SipHashTest(referenceVectorIndex: 18, output: 0x8ffc389cb473e63e),
	SipHashTest(referenceVectorIndex: 19, output: 0xf21f9de58d297d1c),
	SipHashTest(referenceVectorIndex: 20, output: 0xc0dc2f46a6cce040),
	SipHashTest(referenceVectorIndex: 21, output: 0xb992abfe2b45f844),
	SipHashTest(referenceVectorIndex: 22, output: 0x7ffe7b9ba320872e),
	SipHashTest(referenceVectorIndex: 23, output: 0x525a0e7fdae6c123),
	SipHashTest(referenceVectorIndex: 24, output: 0xf464aeb267349c8c),
	SipHashTest(referenceVectorIndex: 25, output: 0x45cd5928705b0979),
	SipHashTest(referenceVectorIndex: 26, output: 0x3a3e35e3ca9913a5),
	SipHashTest(referenceVectorIndex: 27, output: 0xa91dc74e4ade3b35),
	SipHashTest(referenceVectorIndex: 28, output: 0xfb0bed02ef6cd00d),
	SipHashTest(referenceVectorIndex: 29, output: 0x88d93cb44ab1e1f4),
	SipHashTest(referenceVectorIndex: 30, output: 0x540f11d643c5e663),
	SipHashTest(referenceVectorIndex: 31, output: 0x2370dd1f8c21d1bc),
	SipHashTest(referenceVectorIndex: 32, output: 0x81157b6c16a7b60d),
	SipHashTest(referenceVectorIndex: 33, output: 0x4d54b9e57a8ff9bf),
	SipHashTest(referenceVectorIndex: 34, output: 0x759f12781f2a753e),
	SipHashTest(referenceVectorIndex: 35, output: 0xcea1a3bebf186b91),
	SipHashTest(referenceVectorIndex: 36, output: 0x2cf508d3ada26206),
	SipHashTest(referenceVectorIndex: 37, output: 0xb6101c2da3c33057),
	SipHashTest(referenceVectorIndex: 38, output: 0xb3f47496ae3a36a1),
	SipHashTest(referenceVectorIndex: 39, output: 0x626b57547b108392),
	SipHashTest(referenceVectorIndex: 40, output: 0xc1d2363299e41531),
	SipHashTest(referenceVectorIndex: 41, output: 0x667cc1923f1ad944),
	SipHashTest(referenceVectorIndex: 42, output: 0x65704ffec8138825),
	SipHashTest(referenceVectorIndex: 43, output: 0x24f280d1c28949a6),
	SipHashTest(referenceVectorIndex: 44, output: 0xc2ca1cedfaf8876b),
	SipHashTest(referenceVectorIndex: 45, output: 0xc2164bfc9f042196),
	SipHashTest(referenceVectorIndex: 46, output: 0xa16e9c9368b1d623),
	SipHashTest(referenceVectorIndex: 47, output: 0x49fb169c8b5114fd),
	SipHashTest(referenceVectorIndex: 48, output: 0x9f3143f8df074c46),
	SipHashTest(referenceVectorIndex: 49, output: 0xc6fdaf2412cc86b3),
	SipHashTest(referenceVectorIndex: 50, output: 0x7eaf49d10a52098f),
	SipHashTest(referenceVectorIndex: 51, output: 0x1cf313559d292f9a),
	SipHashTest(referenceVectorIndex: 52, output: 0xc44a30dda2f41f12),
	SipHashTest(referenceVectorIndex: 53, output: 0x36fae98943a71ed0),
	SipHashTest(referenceVectorIndex: 54, output: 0x318fb34c73f0bce6),
	SipHashTest(referenceVectorIndex: 55, output: 0xa27abf3670a7e980),
	SipHashTest(referenceVectorIndex: 56, output: 0xb4bcc0db243c6d75),
	SipHashTest(referenceVectorIndex: 57, output: 0x23f8d852fdb71513),
	SipHashTest(referenceVectorIndex: 58, output: 0x8f035f4da67d8a08),
	SipHashTest(referenceVectorIndex: 59, output: 0xd89cd0e5b7e8f148),
	SipHashTest(referenceVectorIndex: 60, output: 0xf6f4e6bcf7a644ee),
	SipHashTest(referenceVectorIndex: 61, output: 0xaec59ad80f1837f2),
	SipHashTest(referenceVectorIndex: 62, output: 0xc3b2f6154b6694e0),
	SipHashTest(referenceVectorIndex: 63, output: 0x9d199062b7bbb3a8),

	SipHashTest(
	input: [
	0x72, 0xdc, 0xde, 0xd4, 0x6d, 0xb4, 0xc8, 0xa1,
	0xcf, 0x22, 0xe2, 0x7f, 0xe3, 0xf6, 0xe5, 0x6d,
	0x8b, 0x66, 0x0b, 0xaf, 0xba, 0x16, 0x25, 0xf3,
	0x63, 0x8e, 0x69, 0x80, 0xf3, 0x7e, 0xd6, 0xe3,
	],
	key: (0xa3432fc680796c34, 0x1173946a79aeaae5),
	output: 0x4d457d818f46941d),
	]

	let incrementalPatterns: [[Int]] = [
	[1], [2], [3], [4], [5], [6], [7], [8], [9],
	[15], [16], [17],
	[31], [32], [33],
	[0, 1],
	[1, 2],
	[1, 3, 5],
	[1, 7],
	[1, 9],
	[7, 9],
	]

	func loadUnalignedUInt64LE(
	from p: UnsafeRawPointer
	) -> UInt64 {
	return
	UInt64(p.load(fromByteOffset: 0, as: UInt8.self)) \|
	(UInt64(p.load(fromByteOffset: 1, as: UInt8.self)) &<< 8 as UInt64) \|
	(UInt64(p.load(fromByteOffset: 2, as: UInt8.self)) &<< 16 as UInt64) \|
	(UInt64(p.load(fromByteOffset: 3, as: UInt8.self)) &<< 24 as UInt64) \|
	(UInt64(p.load(fromByteOffset: 4, as: UInt8.self)) &<< 32 as UInt64) \|
	(UInt64(p.load(fromByteOffset: 5, as: UInt8.self)) &<< 40 as UInt64) \|
	(UInt64(p.load(fromByteOffset: 6, as: UInt8.self)) &<< 48 as UInt64) \|
	(UInt64(p.load(fromByteOffset: 7, as: UInt8.self)) &<< 56 as UInt64)
	}

	func loadUnalignedUInt32LE(
	from p: UnsafeRawPointer
	) -> UInt32 {
	return
	UInt32(p.load(fromByteOffset: 0, as: UInt8.self)) \|
	(UInt32(p.load(fromByteOffset: 1, as: UInt8.self)) &<< 8 as UInt32) \|
	(UInt32(p.load(fromByteOffset: 2, as: UInt8.self)) &<< 16 as UInt32) \|
	(UInt32(p.load(fromByteOffset: 3, as: UInt8.self)) &<< 24 as UInt32)
	}

	func loadUnalignedUIntLE(
	from p: UnsafeRawPointer
	) -> UInt {
	#if arch(i386) \|\| arch(arm)
	return UInt(loadUnalignedUInt32LE(from: p))
	#elseif arch(x86_64) \|\| arch(arm64) \|\| arch(powerpc64) \|\| arch(powerpc64le) \|\| arch(s390x)
	return UInt(loadUnalignedUInt64LE(from: p))
	#endif
	}

	% for data_type in ['Int', 'Int64', 'Int32']:
	func loadUnaligned${data_type}LE(
	from p: UnsafeRawPointer
	) -> ${data_type} {
	return ${data_type}(bitPattern: loadUnalignedU${data_type}LE(from: p))
	}
	% end

	% for data_type in ['UInt', 'Int', 'UInt64', 'Int64', 'UInt32', 'Int32']:
	func loadUnaligned${data_type}(
	from p: UnsafeRawPointer
	) -> ${data_type} {
	return ${data_type}(littleEndian: loadUnaligned${data_type}LE(from: p))
	}
	% end

	% for (Self, tests) in [
	% ('_SipHash13Context', 'sipHash13Tests'),
	% ('_SipHash24Context', 'sipHash24Tests')
	% ]:
	SipHashTests.test("${Self}/Oneshot").forEach(in: ${tests}) {
	test in

	expectEqual(
	test.output,
	${Self}.hash(
	data: test.input,
	dataByteCount: test.input.count,
	key: test.key))
	}

	SipHashTests.test("${Self}.append(UnsafeRawPointer)")
	.forEach(in: cartesianProduct(${tests}, incrementalPatterns)) {
	test_ in
	let (test, pattern) = test_

	var context = ${Self}(key: test.key)
	var startIndex = 0
	var chunkSizeIndex = 0
	while startIndex != test.input.endIndex {
	let chunkSize = min(
	pattern[chunkSizeIndex],
	test.input.endIndex - startIndex)
	context.append(
	Array(test.input[startIndex..<(startIndex+chunkSize)]),
	byteCount: chunkSize)
	startIndex += chunkSize
	chunkSizeIndex += 1
	chunkSizeIndex %= pattern.count
	}
	expectEqual(
	test.output,
	context.finalizeAndReturnHash())

	// Check that we can query the hash value more than once.
	expectEqual(
	test.output,
	context.finalizeAndReturnHash())
	}

	% for data_type in ['UInt', 'Int', 'UInt64', 'Int64', 'UInt32', 'Int32']:
	SipHashTests.test("${Self}.append(${data_type})").forEach(in: ${tests}) {
	test in

	var context = ${Self}(key: test.key)

	let chunkSize = MemoryLayout<${data_type}>.size

	var startIndex = 0
	let endIndex = test.input.count - (test.input.count % chunkSize)
	while startIndex != endIndex {
	context.append(
	loadUnaligned${data_type}(
	from: Array(
	test.input[startIndex..<(startIndex+chunkSize)])))
	startIndex += chunkSize
	}
	context.append(
	Array(test.input.suffix(from: endIndex)),
	byteCount: test.input.count - endIndex)

	expectEqual(
	test.output,
	context.finalizeAndReturnHash())
	}
	% end

	SipHashTests.test("${Self}/AppendAfterFinalizing") {
	var context = ${Self}(key: (0, 0))
	_ = context.finalizeAndReturnHash()
	expectCrashLater()
	context.append([], byteCount: 0)
	}
	% end

	runAllTests()