def test_TupleTypeSpec_str(): assert str(abi.TupleTypeSpec()) == "()" assert str(abi.TupleTypeSpec(abi.TupleTypeSpec())) == "(())" assert str(abi.TupleTypeSpec(abi.TupleTypeSpec(), abi.TupleTypeSpec())) == "((),())" assert ( str( abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ) ) == "(uint64,uint32,bool)" ) assert ( str( abi.TupleTypeSpec( abi.BoolTypeSpec(), abi.Uint64TypeSpec(), abi.Uint32TypeSpec() ) ) == "(bool,uint64,uint32)" ) assert ( str( abi.TupleTypeSpec( abi.Uint16TypeSpec(), abi.DynamicArrayTypeSpec(abi.Uint8TypeSpec()) ) ) == "(uint16,uint8[])" )
def test_TupleTypeSpec_value_type_specs(): assert abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ).value_type_specs() == [ abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec(), ]
def test_BoolTypeSpec_eq(): assert abi.BoolTypeSpec() == abi.BoolTypeSpec() for otherType in ( abi.ByteTypeSpec, abi.Uint64TypeSpec, abi.StaticArrayTypeSpec(abi.BoolTypeSpec(), 1), abi.DynamicArrayTypeSpec(abi.BoolTypeSpec()), ): assert abi.BoolTypeSpec() != otherType
def test_TupleTypeSpec_eq(): tupleA = abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ) tupleB = abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ) tupleC = abi.TupleTypeSpec( abi.BoolTypeSpec(), abi.Uint64TypeSpec(), abi.Uint32TypeSpec() ) assert tupleA == tupleA assert tupleA == tupleB assert tupleA != tupleC
def test_TupleTypeSpec_new_instance(): assert isinstance( abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ).new_instance(), abi.Tuple, )
def test_StaticArrayTypeSpec_byte_length_static(): for elementType in STATIC_TYPES: for length in range(256): staticArrayType = abi.StaticArrayTypeSpec(elementType, length) actual = staticArrayType.byte_length_static() if elementType == abi.BoolTypeSpec(): expected = _bool_sequence_length(length) else: expected = elementType.byte_length_static() * length assert (actual == expected ), "failed with element type {} and length {}".format( elementType, length) for length in range(256): staticBytesType = abi.StaticBytesTypeSpec(length) actual = staticBytesType.byte_length_static() assert ( actual == length ), f"failed with element type {staticBytesType.value_type_spec()} and length {length}" for elementType in DYNAMIC_TYPES: for length in range(256): staticArrayType = abi.StaticArrayTypeSpec(elementType, length) with pytest.raises(ValueError): staticArrayType.byte_length_static()
def test_Tuple_length(): tests: List[List[abi.TypeSpec]] = [ [], [abi.Uint64TypeSpec()], [ abi.TupleTypeSpec(abi.Uint64TypeSpec(), abi.Uint64TypeSpec()), abi.Uint64TypeSpec(), ], [abi.BoolTypeSpec()] * 8, ] for i, test in enumerate(tests): tupleValue = abi.Tuple(abi.TupleTypeSpec(*test)) expr = tupleValue.length() assert expr.type_of() == pt.TealType.uint64 assert not expr.has_return() expectedLength = len(test) expected = pt.TealSimpleBlock([pt.TealOp(None, pt.Op.int, expectedLength)]) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) with pt.TealComponent.Context.ignoreExprEquality(): assert actual == expected, "Test at index {} failed".format(i)
def test_TupleElement_store_into(): tests: List[List[abi.TypeSpec]] = [ [], [abi.Uint64TypeSpec()], [ abi.TupleTypeSpec(abi.Uint64TypeSpec(), abi.Uint64TypeSpec()), abi.Uint64TypeSpec(), ], [abi.BoolTypeSpec()] * 8, ] for i, test in enumerate(tests): tupleValue = abi.Tuple(abi.TupleTypeSpec(*test)) for j in range(len(test)): element = TupleElement(tupleValue, j) output = test[j].new_instance() expr = element.store_into(output) assert expr.type_of() == pt.TealType.none assert not expr.has_return() expectedExpr = _index_tuple(test, tupleValue.encode(), j, output) expected, _ = expectedExpr.__teal__(options) expected.addIncoming() expected = pt.TealBlock.NormalizeBlocks(expected) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) with pt.TealComponent.Context.ignoreExprEquality(): assert actual == expected, "Test at index {} failed".format(i)
def test_TupleTypeSpec_is_dynamic(): assert not abi.TupleTypeSpec().is_dynamic() assert not abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ).is_dynamic() assert abi.TupleTypeSpec( abi.Uint16TypeSpec(), abi.DynamicArrayTypeSpec(abi.Uint8TypeSpec()) ).is_dynamic()
def test_TupleTypeSpec_length_static(): tests: List[List[abi.TypeSpec]] = [ [], [abi.Uint64TypeSpec()], [ abi.TupleTypeSpec(abi.Uint64TypeSpec(), abi.Uint64TypeSpec()), abi.Uint64TypeSpec(), ], [abi.BoolTypeSpec()] * 8, ] for i, test in enumerate(tests): actual = abi.TupleTypeSpec(*test).length_static() expected = len(test) assert actual == expected, "Test at index {} failed".format(i)
def test_UintTypeSpec_eq(): for i, test in enumerate(testData): assert test.uintType == test.uintType for j, otherTest in enumerate(testData): if i == j: continue assert test.uintType != otherTest.uintType for otherType in ( abi.BoolTypeSpec(), abi.StaticArrayTypeSpec(test.uintType, 1), abi.DynamicArrayTypeSpec(test.uintType), ): assert test.uintType != otherType assert abi.ByteTypeSpec() != abi.Uint8TypeSpec() assert abi.Uint8TypeSpec() != abi.ByteTypeSpec()
def test_Bool_set_computed(): value = abi.Bool() computed = ContainerType(abi.BoolTypeSpec(), pt.Int(0x80)) expr = value.set(computed) assert expr.type_of() == pt.TealType.none assert not expr.has_return() expected = pt.TealSimpleBlock([ pt.TealOp(None, pt.Op.int, 0x80), pt.TealOp(None, pt.Op.store, value.stored_value.slot), ]) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) with pt.TealComponent.Context.ignoreExprEquality(): assert actual == expected with pytest.raises(pt.TealInputError): value.set(ContainerType(abi.Uint32TypeSpec(), pt.Int(65537)))
def test_Tuple_getitem(): tests: List[List[abi.TypeSpec]] = [ [], [abi.Uint64TypeSpec()], [ abi.TupleTypeSpec(abi.Uint64TypeSpec(), abi.Uint64TypeSpec()), abi.Uint64TypeSpec(), ], [abi.BoolTypeSpec()] * 8, ] for i, test in enumerate(tests): tupleValue = abi.Tuple(abi.TupleTypeSpec(*test)) for j in range(len(test)): element = tupleValue[j] assert type(element) is TupleElement, "Test at index {} failed".format(i) assert element.tuple is tupleValue, "Test at index {} failed".format(i) assert element.index == j, "Test at index {} failed".format(i) with pytest.raises(pt.TealInputError): tupleValue[-1] with pytest.raises(pt.TealInputError): tupleValue[len(test)]
def test_consecutiveBool(): class ConsecutiveTest(NamedTuple): types: List[abi.TypeSpec] start: int expected: int tests: List[ConsecutiveTest] = [ ConsecutiveTest(types=[], start=0, expected=0), ConsecutiveTest(types=[abi.Uint16TypeSpec()], start=0, expected=0), ConsecutiveTest(types=[abi.BoolTypeSpec()], start=0, expected=1), ConsecutiveTest(types=[abi.BoolTypeSpec()], start=1, expected=0), ConsecutiveTest(types=[abi.BoolTypeSpec(), abi.BoolTypeSpec()], start=0, expected=2), ConsecutiveTest(types=[abi.BoolTypeSpec(), abi.BoolTypeSpec()], start=1, expected=1), ConsecutiveTest(types=[abi.BoolTypeSpec(), abi.BoolTypeSpec()], start=2, expected=0), ConsecutiveTest(types=[abi.BoolTypeSpec() for _ in range(10)], start=0, expected=10), ConsecutiveTest( types=[ abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.ByteTypeSpec(), abi.BoolTypeSpec(), ], start=0, expected=2, ), ConsecutiveTest( types=[ abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.ByteTypeSpec(), abi.BoolTypeSpec(), ], start=2, expected=0, ), ConsecutiveTest( types=[ abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.ByteTypeSpec(), abi.BoolTypeSpec(), ], start=3, expected=1, ), ConsecutiveTest( types=[ abi.ByteTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.ByteTypeSpec(), ], start=0, expected=0, ), ConsecutiveTest( types=[ abi.ByteTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.ByteTypeSpec(), ], start=1, expected=2, ), ] for i, test in enumerate(tests): actual = _consecutive_bool_type_spec_num(test.types, test.start) assert actual == test.expected, "Test at index {} failed".format(i) actual = _consecutive_bool_instance_num( [t.new_instance() for t in test.types], test.start) assert actual == test.expected, "Test at index {} failed".format(i)
def test_BoolTypeSpec_byte_length_static(): assert abi.BoolTypeSpec().byte_length_static() == 1
def test_boolAwareStaticByteLength(): class ByteLengthTest(NamedTuple): types: List[abi.TypeSpec] expectedLength: int tests: List[ByteLengthTest] = [ ByteLengthTest(types=[], expectedLength=0), ByteLengthTest(types=[abi.Uint64TypeSpec()], expectedLength=8), ByteLengthTest(types=[abi.BoolTypeSpec()], expectedLength=1), ByteLengthTest(types=[abi.BoolTypeSpec()] * 8, expectedLength=1), ByteLengthTest(types=[abi.BoolTypeSpec()] * 9, expectedLength=2), ByteLengthTest(types=[abi.BoolTypeSpec()] * 16, expectedLength=2), ByteLengthTest(types=[abi.BoolTypeSpec()] * 17, expectedLength=3), ByteLengthTest(types=[abi.BoolTypeSpec()] * 100, expectedLength=13), ByteLengthTest( types=[abi.BoolTypeSpec(), abi.ByteTypeSpec(), abi.BoolTypeSpec()], expectedLength=3, ), ByteLengthTest( types=[ abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.ByteTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), ], expectedLength=3, ), ByteLengthTest( types=[abi.BoolTypeSpec()] * 16 + [abi.ByteTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec()], expectedLength=4, ), ] for i, test in enumerate(tests): actual = _bool_aware_static_byte_length(test.types) assert actual == test.expectedLength, "Test at index {} failed".format( i)
def test_BoolTypeSpec_is_dynamic(): assert not abi.BoolTypeSpec().is_dynamic()
def test_BoolTypeSpec_str(): assert str(abi.BoolTypeSpec()) == "bool"
def test_ArrayElement_store_into(): for elementType in STATIC_TYPES + DYNAMIC_TYPES: staticArrayType = abi.StaticArrayTypeSpec(elementType, 100) staticArray = staticArrayType.new_instance() index = pt.Int(9) element = abi.ArrayElement(staticArray, index) output = elementType.new_instance() expr = element.store_into(output) encoded = staticArray.encode() stride = pt.Int(staticArray.type_spec()._stride()) expectedLength = staticArray.length() if elementType == abi.BoolTypeSpec(): expectedExpr = cast(abi.Bool, output).decode_bit(encoded, index) elif not elementType.is_dynamic(): expectedExpr = output.decode(encoded, start_index=stride * index, length=stride) else: expectedExpr = output.decode( encoded, start_index=pt.ExtractUint16(encoded, stride * index), end_index=pt.If(index + pt.Int(1) == expectedLength).Then( pt.Len(encoded)).Else( pt.ExtractUint16(encoded, stride * index + pt.Int(2))), ) expected, _ = expectedExpr.__teal__(options) expected.addIncoming() expected = pt.TealBlock.NormalizeBlocks(expected) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) with pt.TealComponent.Context.ignoreExprEquality(): assert actual == expected with pytest.raises(pt.TealInputError): element.store_into(abi.Tuple(abi.TupleTypeSpec(elementType))) for elementType in STATIC_TYPES + DYNAMIC_TYPES: dynamicArrayType = abi.DynamicArrayTypeSpec(elementType) dynamicArray = dynamicArrayType.new_instance() index = pt.Int(9) element = abi.ArrayElement(dynamicArray, index) output = elementType.new_instance() expr = element.store_into(output) encoded = dynamicArray.encode() stride = pt.Int(dynamicArray.type_spec()._stride()) expectedLength = dynamicArray.length() if elementType == abi.BoolTypeSpec(): expectedExpr = cast(abi.Bool, output).decode_bit(encoded, index + pt.Int(16)) elif not elementType.is_dynamic(): expectedExpr = output.decode(encoded, start_index=stride * index + pt.Int(2), length=stride) else: expectedExpr = output.decode( encoded, start_index=pt.ExtractUint16( encoded, stride * index + pt.Int(2)) + pt.Int(2), end_index=pt.If(index + pt.Int(1) == expectedLength).Then( pt.Len(encoded)).Else( pt.ExtractUint16( encoded, stride * index + pt.Int(2) + pt.Int(2)) + pt.Int(2)), ) expected, _ = expectedExpr.__teal__(options) expected.addIncoming() expected = pt.TealBlock.NormalizeBlocks(expected) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) with pt.TealComponent.Context.ignoreExprEquality(): with pt.TealComponent.Context.ignoreScratchSlotEquality(): assert actual == expected assert pt.TealBlock.MatchScratchSlotReferences( pt.TealBlock.GetReferencedScratchSlots(actual), pt.TealBlock.GetReferencedScratchSlots(expected), ) with pytest.raises(pt.TealInputError): element.store_into(abi.Tuple(abi.TupleTypeSpec(elementType)))
def test_TupleTypeSpec_byte_length_static(): assert abi.TupleTypeSpec().byte_length_static() == 0 assert abi.TupleTypeSpec(abi.TupleTypeSpec()).byte_length_static() == 0 assert ( abi.TupleTypeSpec(abi.TupleTypeSpec(), abi.TupleTypeSpec()).byte_length_static() == 0 ) assert ( abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec() ).byte_length_static() == 8 + 4 + 1 ) assert ( abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), ).byte_length_static() == 8 + 4 + 1 ) assert ( abi.TupleTypeSpec( abi.Uint64TypeSpec(), abi.Uint32TypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.BoolTypeSpec(), ).byte_length_static() == 8 + 4 + 2 ) with pytest.raises(ValueError): abi.TupleTypeSpec( abi.Uint16TypeSpec(), abi.DynamicArrayTypeSpec(abi.Uint8TypeSpec()) ).byte_length_static()
def test_BoolTypeSpec_new_instance(): assert isinstance(abi.BoolTypeSpec().new_instance(), abi.Bool)
def test_UintTypeSpec_storage_type(): for test in testData: assert test.uintType.storage_type() == pt.TealType.uint64 assert abi.BoolTypeSpec().storage_type() == pt.TealType.uint64
def test_indexTuple(): class IndexTest(NamedTuple): types: List[abi.TypeSpec] typeIndex: int expected: Callable[[abi.BaseType], pt.Expr] # variables used to construct the tests uint64_t = abi.Uint64TypeSpec() byte_t = abi.ByteTypeSpec() bool_t = abi.BoolTypeSpec() tuple_t = abi.TupleTypeSpec(abi.BoolTypeSpec(), abi.BoolTypeSpec()) dynamic_array_t1 = abi.DynamicArrayTypeSpec(abi.Uint64TypeSpec()) dynamic_array_t2 = abi.DynamicArrayTypeSpec(abi.Uint16TypeSpec()) encoded = pt.Bytes("encoded") tests: List[IndexTest] = [ IndexTest( types=[uint64_t], typeIndex=0, expected=lambda output: output.decode(encoded), ), IndexTest( types=[uint64_t, uint64_t], typeIndex=0, expected=lambda output: output.decode(encoded, length=pt.Int(8)), ), IndexTest( types=[uint64_t, uint64_t], typeIndex=1, expected=lambda output: output.decode(encoded, start_index=pt.Int(8)), ), IndexTest( types=[uint64_t, byte_t, uint64_t], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.Int(8), length=pt.Int(1) ), ), IndexTest( types=[uint64_t, byte_t, uint64_t], typeIndex=2, expected=lambda output: output.decode( encoded, start_index=pt.Int(9), length=pt.Int(8) ), ), IndexTest( types=[bool_t], typeIndex=0, expected=lambda output: output.decode_bit(encoded, pt.Int(0)), ), IndexTest( types=[bool_t, bool_t], typeIndex=0, expected=lambda output: output.decode_bit(encoded, pt.Int(0)), ), IndexTest( types=[bool_t, bool_t], typeIndex=1, expected=lambda output: output.decode_bit(encoded, pt.Int(1)), ), IndexTest( types=[uint64_t, bool_t], typeIndex=1, expected=lambda output: output.decode_bit(encoded, pt.Int(8 * 8)), ), IndexTest( types=[uint64_t, bool_t, bool_t], typeIndex=1, expected=lambda output: output.decode_bit(encoded, pt.Int(8 * 8)), ), IndexTest( types=[uint64_t, bool_t, bool_t], typeIndex=2, expected=lambda output: output.decode_bit(encoded, pt.Int(8 * 8 + 1)), ), IndexTest( types=[bool_t, uint64_t], typeIndex=0, expected=lambda output: output.decode_bit(encoded, pt.Int(0)), ), IndexTest( types=[bool_t, uint64_t], typeIndex=1, expected=lambda output: output.decode(encoded, start_index=pt.Int(1)), ), IndexTest( types=[bool_t, bool_t, uint64_t], typeIndex=0, expected=lambda output: output.decode_bit(encoded, pt.Int(0)), ), IndexTest( types=[bool_t, bool_t, uint64_t], typeIndex=1, expected=lambda output: output.decode_bit(encoded, pt.Int(1)), ), IndexTest( types=[bool_t, bool_t, uint64_t], typeIndex=2, expected=lambda output: output.decode(encoded, start_index=pt.Int(1)), ), IndexTest( types=[tuple_t], typeIndex=0, expected=lambda output: output.decode(encoded) ), IndexTest( types=[byte_t, tuple_t], typeIndex=1, expected=lambda output: output.decode(encoded, start_index=pt.Int(1)), ), IndexTest( types=[tuple_t, byte_t], typeIndex=0, expected=lambda output: output.decode( encoded, start_index=pt.Int(0), length=pt.Int(tuple_t.byte_length_static()), ), ), IndexTest( types=[byte_t, tuple_t, byte_t], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.Int(1), length=pt.Int(tuple_t.byte_length_static()), ), ), IndexTest( types=[dynamic_array_t1], typeIndex=0, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(0)) ), ), IndexTest( types=[byte_t, dynamic_array_t1], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(1)) ), ), IndexTest( types=[dynamic_array_t1, byte_t], typeIndex=0, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(0)) ), ), IndexTest( types=[byte_t, dynamic_array_t1, byte_t], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(1)) ), ), IndexTest( types=[byte_t, dynamic_array_t1, byte_t, dynamic_array_t2], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(1)), end_index=pt.ExtractUint16(encoded, pt.Int(4)), ), ), IndexTest( types=[byte_t, dynamic_array_t1, byte_t, dynamic_array_t2], typeIndex=3, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(4)) ), ), IndexTest( types=[byte_t, dynamic_array_t1, tuple_t, dynamic_array_t2], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(1)), end_index=pt.ExtractUint16(encoded, pt.Int(4)), ), ), IndexTest( types=[byte_t, dynamic_array_t1, tuple_t, dynamic_array_t2], typeIndex=3, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(4)) ), ), IndexTest( types=[byte_t, dynamic_array_t2, bool_t, bool_t, dynamic_array_t2], typeIndex=1, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(1)), end_index=pt.ExtractUint16(encoded, pt.Int(4)), ), ), IndexTest( types=[byte_t, dynamic_array_t1, bool_t, bool_t, dynamic_array_t2], typeIndex=4, expected=lambda output: output.decode( encoded, start_index=pt.ExtractUint16(encoded, pt.Int(4)) ), ), ] for i, test in enumerate(tests): output = test.types[test.typeIndex].new_instance() expr = _index_tuple(test.types, encoded, test.typeIndex, output) assert expr.type_of() == pt.TealType.none assert not expr.has_return() expected, _ = test.expected(output).__teal__(options) expected.addIncoming() expected = pt.TealBlock.NormalizeBlocks(expected) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) with pt.TealComponent.Context.ignoreExprEquality(): assert actual == expected, "Test at index {} failed".format(i) with pytest.raises(ValueError): _index_tuple(test.types, encoded, len(test.types), output) with pytest.raises(ValueError): _index_tuple(test.types, encoded, -1, output) otherType = abi.Uint64() if output.type_spec() == otherType.type_spec(): otherType = abi.Uint16() with pytest.raises(TypeError): _index_tuple(test.types, encoded, test.typeIndex, otherType)
def test_encodeTuple(): class EncodeTest(NamedTuple): types: List[abi.BaseType] expected: pt.Expr # variables used to construct the tests uint64_a = abi.Uint64() uint64_b = abi.Uint64() uint16_a = abi.Uint16() uint16_b = abi.Uint16() bool_a = abi.Bool() bool_b = abi.Bool() tuple_a = abi.Tuple(abi.TupleTypeSpec(abi.BoolTypeSpec(), abi.BoolTypeSpec())) dynamic_array_a = abi.DynamicArray(abi.DynamicArrayTypeSpec(abi.Uint64TypeSpec())) dynamic_array_b = abi.DynamicArray(abi.DynamicArrayTypeSpec(abi.Uint16TypeSpec())) dynamic_array_c = abi.DynamicArray(abi.DynamicArrayTypeSpec(abi.BoolTypeSpec())) tail_holder = pt.ScratchVar() encoded_tail = pt.ScratchVar() tests: List[EncodeTest] = [ EncodeTest(types=[], expected=pt.Bytes("")), EncodeTest(types=[uint64_a], expected=uint64_a.encode()), EncodeTest( types=[uint64_a, uint64_b], expected=pt.Concat(uint64_a.encode(), uint64_b.encode()), ), EncodeTest(types=[bool_a], expected=bool_a.encode()), EncodeTest( types=[bool_a, bool_b], expected=_encode_bool_sequence([bool_a, bool_b]) ), EncodeTest( types=[bool_a, bool_b, uint64_a], expected=pt.Concat( _encode_bool_sequence([bool_a, bool_b]), uint64_a.encode() ), ), EncodeTest( types=[uint64_a, bool_a, bool_b], expected=pt.Concat( uint64_a.encode(), _encode_bool_sequence([bool_a, bool_b]) ), ), EncodeTest( types=[uint64_a, bool_a, bool_b, uint64_b], expected=pt.Concat( uint64_a.encode(), _encode_bool_sequence([bool_a, bool_b]), uint64_b.encode(), ), ), EncodeTest( types=[uint64_a, bool_a, uint64_b, bool_b], expected=pt.Concat( uint64_a.encode(), bool_a.encode(), uint64_b.encode(), bool_b.encode() ), ), EncodeTest(types=[tuple_a], expected=tuple_a.encode()), EncodeTest( types=[uint64_a, tuple_a, bool_a, bool_b], expected=pt.Concat( uint64_a.encode(), tuple_a.encode(), _encode_bool_sequence([bool_a, bool_b]), ), ), EncodeTest( types=[dynamic_array_a], expected=pt.Concat( pt.Seq( encoded_tail.store(dynamic_array_a.encode()), tail_holder.store(encoded_tail.load()), uint16_a.set(2), uint16_a.encode(), ), tail_holder.load(), ), ), EncodeTest( types=[uint64_a, dynamic_array_a], expected=pt.Concat( uint64_a.encode(), pt.Seq( encoded_tail.store(dynamic_array_a.encode()), tail_holder.store(encoded_tail.load()), uint16_a.set(8 + 2), uint16_a.encode(), ), tail_holder.load(), ), ), EncodeTest( types=[uint64_a, dynamic_array_a, uint64_b], expected=pt.Concat( uint64_a.encode(), pt.Seq( encoded_tail.store(dynamic_array_a.encode()), tail_holder.store(encoded_tail.load()), uint16_a.set(8 + 2 + 8), uint16_a.encode(), ), uint64_b.encode(), tail_holder.load(), ), ), EncodeTest( types=[uint64_a, dynamic_array_a, bool_a, bool_b], expected=pt.Concat( uint64_a.encode(), pt.Seq( encoded_tail.store(dynamic_array_a.encode()), tail_holder.store(encoded_tail.load()), uint16_a.set(8 + 2 + 1), uint16_a.encode(), ), _encode_bool_sequence([bool_a, bool_b]), tail_holder.load(), ), ), EncodeTest( types=[uint64_a, dynamic_array_a, uint64_b, dynamic_array_b], expected=pt.Concat( uint64_a.encode(), pt.Seq( encoded_tail.store(dynamic_array_a.encode()), tail_holder.store(encoded_tail.load()), uint16_a.set(8 + 2 + 8 + 2), uint16_b.set(uint16_a.get() + pt.Len(encoded_tail.load())), uint16_a.encode(), ), uint64_b.encode(), pt.Seq( encoded_tail.store(dynamic_array_b.encode()), tail_holder.store( pt.Concat(tail_holder.load(), encoded_tail.load()) ), uint16_a.set(uint16_b), uint16_a.encode(), ), tail_holder.load(), ), ), EncodeTest( types=[ uint64_a, dynamic_array_a, uint64_b, dynamic_array_b, bool_a, bool_b, dynamic_array_c, ], expected=pt.Concat( uint64_a.encode(), pt.Seq( encoded_tail.store(dynamic_array_a.encode()), tail_holder.store(encoded_tail.load()), uint16_a.set(8 + 2 + 8 + 2 + 1 + 2), uint16_b.set(uint16_a.get() + pt.Len(encoded_tail.load())), uint16_a.encode(), ), uint64_b.encode(), pt.Seq( encoded_tail.store(dynamic_array_b.encode()), tail_holder.store( pt.Concat(tail_holder.load(), encoded_tail.load()) ), uint16_a.set(uint16_b), uint16_b.set(uint16_a.get() + pt.Len(encoded_tail.load())), uint16_a.encode(), ), _encode_bool_sequence([bool_a, bool_b]), pt.Seq( encoded_tail.store(dynamic_array_c.encode()), tail_holder.store( pt.Concat(tail_holder.load(), encoded_tail.load()) ), uint16_a.set(uint16_b), uint16_a.encode(), ), tail_holder.load(), ), ), ] for i, test in enumerate(tests): expr = _encode_tuple(test.types) assert expr.type_of() == pt.TealType.bytes assert not expr.has_return() expected, _ = test.expected.__teal__(options) expected.addIncoming() expected = pt.TealBlock.NormalizeBlocks(expected) actual, _ = expr.__teal__(options) actual.addIncoming() actual = pt.TealBlock.NormalizeBlocks(actual) if any(t.type_spec().is_dynamic() for t in test.types): with pt.TealComponent.Context.ignoreExprEquality(): with pt.TealComponent.Context.ignoreScratchSlotEquality(): assert actual == expected, "Test at index {} failed".format(i) assert pt.TealBlock.MatchScratchSlotReferences( pt.TealBlock.GetReferencedScratchSlots(actual), pt.TealBlock.GetReferencedScratchSlots(expected), ) continue with pt.TealComponent.Context.ignoreExprEquality(): assert actual == expected, "Test at index {} failed".format(i)
from typing import List, cast import pytest import pyteal as pt from pyteal import abi options = pt.CompileOptions(version=5) STATIC_TYPES: List[abi.TypeSpec] = [ abi.BoolTypeSpec(), abi.Uint8TypeSpec(), abi.Uint16TypeSpec(), abi.Uint32TypeSpec(), abi.Uint64TypeSpec(), abi.TupleTypeSpec(), abi.TupleTypeSpec(abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.Uint64TypeSpec()), abi.StaticArrayTypeSpec(abi.BoolTypeSpec(), 10), abi.StaticArrayTypeSpec(abi.Uint8TypeSpec(), 10), abi.StaticArrayTypeSpec(abi.Uint16TypeSpec(), 10), abi.StaticArrayTypeSpec(abi.Uint32TypeSpec(), 10), abi.StaticArrayTypeSpec(abi.Uint64TypeSpec(), 10), abi.StaticArrayTypeSpec( abi.TupleTypeSpec(abi.BoolTypeSpec(), abi.BoolTypeSpec(), abi.Uint64TypeSpec()), 10, ), ] DYNAMIC_TYPES: List[abi.TypeSpec] = [ abi.DynamicArrayTypeSpec(abi.BoolTypeSpec()),