import warnings from enum import Enum from ..hdl.ast import * from .utils import * class UnsignedEnum(Enum): FOO = 1 BAR = 2 BAZ = 3 class SignedEnum(Enum): FOO = -1 BAR = 0 BAZ = +1 class StringEnum(Enum): FOO = "a" BAR = "b" class ShapeTestCase(FHDLTestCase): def test_make(self): s1 = Shape() self.assertEqual(s1.width, 1) self.assertEqual(s1.signed, False) s2 = Shape(signed=True) self.assertEqual(s2.width, 1) self.assertEqual(s2.signed, True) s3 = Shape(3, True) self.assertEqual(s3.width, 3) self.assertEqual(s3.signed, True) def test_make_wrong(self): with self.assertRaises(TypeError, msg="Width must be a non-negative integer, not -1"): Shape(-1) def test_tuple(self): width, signed = Shape() self.assertEqual(width, 1) self.assertEqual(signed, False) def test_unsigned(self): s1 = unsigned(2) self.assertIsInstance(s1, Shape) self.assertEqual(s1.width, 2) self.assertEqual(s1.signed, False) def test_signed(self): s1 = signed(2) self.assertIsInstance(s1, Shape) self.assertEqual(s1.width, 2) self.assertEqual(s1.signed, True) def test_cast_shape(self): s1 = Shape.cast(unsigned(1)) self.assertEqual(s1.width, 1) self.assertEqual(s1.signed, False) s2 = Shape.cast(signed(3)) self.assertEqual(s2.width, 3) self.assertEqual(s2.signed, True) def test_cast_int(self): s1 = Shape.cast(2) self.assertEqual(s1.width, 2) self.assertEqual(s1.signed, False) def test_cast_int_wrong(self): with self.assertRaises(TypeError, msg="Width must be a non-negative integer, not -1"): Shape.cast(-1) def test_cast_tuple(self): with warnings.catch_warnings(): warnings.filterwarnings(action="ignore", category=DeprecationWarning) s1 = Shape.cast((1, True)) self.assertEqual(s1.width, 1) self.assertEqual(s1.signed, True) def test_cast_tuple_wrong(self): with warnings.catch_warnings(): warnings.filterwarnings(action="ignore", category=DeprecationWarning) with self.assertRaises(TypeError, msg="Width must be a non-negative integer, not -1"): Shape.cast((-1, True)) def test_cast_range(self): s1 = Shape.cast(range(0, 8)) self.assertEqual(s1.width, 3) self.assertEqual(s1.signed, False) s2 = Shape.cast(range(0, 9)) self.assertEqual(s2.width, 4) self.assertEqual(s2.signed, False) s3 = Shape.cast(range(-7, 8)) self.assertEqual(s3.width, 4) self.assertEqual(s3.signed, True) s4 = Shape.cast(range(0, 1)) self.assertEqual(s4.width, 1) self.assertEqual(s4.signed, False) s5 = Shape.cast(range(-1, 0)) self.assertEqual(s5.width, 1) self.assertEqual(s5.signed, True) s6 = Shape.cast(range(0, 0)) self.assertEqual(s6.width, 0) self.assertEqual(s6.signed, False) s7 = Shape.cast(range(-1, -1)) self.assertEqual(s7.width, 0) self.assertEqual(s7.signed, True) def test_cast_enum(self): s1 = Shape.cast(UnsignedEnum) self.assertEqual(s1.width, 2) self.assertEqual(s1.signed, False) s2 = Shape.cast(SignedEnum) self.assertEqual(s2.width, 2) self.assertEqual(s2.signed, True) def test_cast_enum_bad(self): with self.assertRaises(TypeError, msg="Only enumerations with integer values can be used as value shapes"): Shape.cast(StringEnum) def test_cast_bad(self): with self.assertRaises(TypeError, msg="Object 'foo' cannot be used as value shape"): Shape.cast("foo") class ValueTestCase(FHDLTestCase): def test_cast(self): self.assertIsInstance(Value.cast(0), Const) self.assertIsInstance(Value.cast(True), Const) c = Const(0) self.assertIs(Value.cast(c), c) with self.assertRaises(TypeError, msg="Object 'str' cannot be converted to an nMigen value"): Value.cast("str") def test_cast_enum(self): e1 = Value.cast(UnsignedEnum.FOO) self.assertIsInstance(e1, Const) self.assertEqual(e1.shape(), unsigned(2)) e2 = Value.cast(SignedEnum.FOO) self.assertIsInstance(e2, Const) self.assertEqual(e2.shape(), signed(2)) def test_cast_enum_wrong(self): with self.assertRaises(TypeError, msg="Only enumerations with integer values can be used as value shapes"): Value.cast(StringEnum.FOO) def test_bool(self): with self.assertRaises(TypeError, msg="Attempted to convert nMigen value to boolean"): if Const(0): pass def test_len(self): self.assertEqual(len(Const(10)), 4) def test_getitem_int(self): s1 = Const(10)[0] self.assertIsInstance(s1, Slice) self.assertEqual(s1.start, 0) self.assertEqual(s1.stop, 1) s2 = Const(10)[-1] self.assertIsInstance(s2, Slice) self.assertEqual(s2.start, 3) self.assertEqual(s2.stop, 4) with self.assertRaises(IndexError, msg="Cannot index 5 bits into 4-bit value"): Const(10)[5] def test_getitem_slice(self): s1 = Const(10)[1:3] self.assertIsInstance(s1, Slice) self.assertEqual(s1.start, 1) self.assertEqual(s1.stop, 3) s2 = Const(10)[1:-2] self.assertIsInstance(s2, Slice) self.assertEqual(s2.start, 1) self.assertEqual(s2.stop, 2) s3 = Const(31)[::2] self.assertIsInstance(s3, Cat) self.assertIsInstance(s3.parts[0], Slice) self.assertEqual(s3.parts[0].start, 0) self.assertEqual(s3.parts[0].stop, 1) self.assertIsInstance(s3.parts[1], Slice) self.assertEqual(s3.parts[1].start, 2) self.assertEqual(s3.parts[1].stop, 3) self.assertIsInstance(s3.parts[2], Slice) self.assertEqual(s3.parts[2].start, 4) self.assertEqual(s3.parts[2].stop, 5) def test_getitem_wrong(self): with self.assertRaises(TypeError, msg="Cannot index value with 'str'"): Const(31)["str"] class ConstTestCase(FHDLTestCase): def test_shape(self): self.assertEqual(Const(0).shape(), unsigned(1)) self.assertIsInstance(Const(0).shape(), Shape) self.assertEqual(Const(1).shape(), unsigned(1)) self.assertEqual(Const(10).shape(), unsigned(4)) self.assertEqual(Const(-10).shape(), signed(5)) self.assertEqual(Const(1, 4).shape(), unsigned(4)) self.assertEqual(Const(-1, 4).shape(), signed(4)) self.assertEqual(Const(1, signed(4)).shape(), signed(4)) self.assertEqual(Const(0, unsigned(0)).shape(), unsigned(0)) def test_shape_wrong(self): with self.assertRaises(TypeError, msg="Width must be a non-negative integer, not -1"): Const(1, -1) def test_normalization(self): self.assertEqual(Const(0b10110, signed(5)).value, -10) def test_value(self): self.assertEqual(Const(10).value, 10) def test_repr(self): self.assertEqual(repr(Const(10)), "(const 4'd10)") self.assertEqual(repr(Const(-10)), "(const 5'sd-10)") def test_hash(self): with self.assertRaises(TypeError): hash(Const(0)) class OperatorTestCase(FHDLTestCase): def test_bool(self): v = Const(0, 4).bool() self.assertEqual(repr(v), "(b (const 4'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_invert(self): v = ~Const(0, 4) self.assertEqual(repr(v), "(~ (const 4'd0))") self.assertEqual(v.shape(), unsigned(4)) def test_as_unsigned(self): v = Const(-1, signed(4)).as_unsigned() self.assertEqual(repr(v), "(u (const 4'sd-1))") self.assertEqual(v.shape(), unsigned(4)) def test_as_signed(self): v = Const(1, unsigned(4)).as_signed() self.assertEqual(repr(v), "(s (const 4'd1))") self.assertEqual(v.shape(), signed(4)) def test_neg(self): v1 = -Const(0, unsigned(4)) self.assertEqual(repr(v1), "(- (const 4'd0))") self.assertEqual(v1.shape(), signed(5)) v2 = -Const(0, signed(4)) self.assertEqual(repr(v2), "(- (const 4'sd0))") self.assertEqual(v2.shape(), signed(5)) def test_add(self): v1 = Const(0, unsigned(4)) + Const(0, unsigned(6)) self.assertEqual(repr(v1), "(+ (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(7)) v2 = Const(0, signed(4)) + Const(0, signed(6)) self.assertEqual(v2.shape(), signed(7)) v3 = Const(0, signed(4)) + Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(6)) v4 = Const(0, unsigned(4)) + Const(0, signed(4)) self.assertEqual(v4.shape(), signed(6)) v5 = 10 + Const(0, 4) self.assertEqual(v5.shape(), unsigned(5)) def test_sub(self): v1 = Const(0, unsigned(4)) - Const(0, unsigned(6)) self.assertEqual(repr(v1), "(- (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(7)) v2 = Const(0, signed(4)) - Const(0, signed(6)) self.assertEqual(v2.shape(), signed(7)) v3 = Const(0, signed(4)) - Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(6)) v4 = Const(0, unsigned(4)) - Const(0, signed(4)) self.assertEqual(v4.shape(), signed(6)) v5 = 10 - Const(0, 4) self.assertEqual(v5.shape(), unsigned(5)) def test_mul(self): v1 = Const(0, unsigned(4)) * Const(0, unsigned(6)) self.assertEqual(repr(v1), "(* (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(10)) v2 = Const(0, signed(4)) * Const(0, signed(6)) self.assertEqual(v2.shape(), signed(10)) v3 = Const(0, signed(4)) * Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(8)) v5 = 10 * Const(0, 4) self.assertEqual(v5.shape(), unsigned(8)) def test_mod(self): v1 = Const(0, unsigned(4)) % Const(0, unsigned(6)) self.assertEqual(repr(v1), "(% (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(4)) v3 = Const(0, signed(4)) % Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(4)) v5 = 10 % Const(0, 4) self.assertEqual(v5.shape(), unsigned(4)) def test_mod_wrong(self): with self.assertRaises(NotImplementedError, msg="Division by a signed value is not supported"): Const(0, signed(4)) % Const(0, signed(6)) def test_floordiv(self): v1 = Const(0, unsigned(4)) // Const(0, unsigned(6)) self.assertEqual(repr(v1), "(// (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(4)) v3 = Const(0, signed(4)) // Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(4)) v5 = 10 // Const(0, 4) self.assertEqual(v5.shape(), unsigned(4)) def test_floordiv_wrong(self): with self.assertRaises(NotImplementedError, msg="Division by a signed value is not supported"): Const(0, signed(4)) // Const(0, signed(6)) def test_and(self): v1 = Const(0, unsigned(4)) & Const(0, unsigned(6)) self.assertEqual(repr(v1), "(& (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(6)) v2 = Const(0, signed(4)) & Const(0, signed(6)) self.assertEqual(v2.shape(), signed(6)) v3 = Const(0, signed(4)) & Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(5)) v4 = Const(0, unsigned(4)) & Const(0, signed(4)) self.assertEqual(v4.shape(), signed(5)) v5 = 10 & Const(0, 4) self.assertEqual(v5.shape(), unsigned(4)) def test_or(self): v1 = Const(0, unsigned(4)) | Const(0, unsigned(6)) self.assertEqual(repr(v1), "(| (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(6)) v2 = Const(0, signed(4)) | Const(0, signed(6)) self.assertEqual(v2.shape(), signed(6)) v3 = Const(0, signed(4)) | Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(5)) v4 = Const(0, unsigned(4)) | Const(0, signed(4)) self.assertEqual(v4.shape(), signed(5)) v5 = 10 | Const(0, 4) self.assertEqual(v5.shape(), unsigned(4)) def test_xor(self): v1 = Const(0, unsigned(4)) ^ Const(0, unsigned(6)) self.assertEqual(repr(v1), "(^ (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(6)) v2 = Const(0, signed(4)) ^ Const(0, signed(6)) self.assertEqual(v2.shape(), signed(6)) v3 = Const(0, signed(4)) ^ Const(0, unsigned(4)) self.assertEqual(v3.shape(), signed(5)) v4 = Const(0, unsigned(4)) ^ Const(0, signed(4)) self.assertEqual(v4.shape(), signed(5)) v5 = 10 ^ Const(0, 4) self.assertEqual(v5.shape(), unsigned(4)) def test_shl(self): v1 = Const(1, 4) << Const(4) self.assertEqual(repr(v1), "(<< (const 4'd1) (const 3'd4))") self.assertEqual(v1.shape(), unsigned(11)) def test_shl_wrong(self): with self.assertRaises(NotImplementedError, msg="Shift by a signed value is not supported"): 1 << Const(0, signed(6)) with self.assertRaises(NotImplementedError, msg="Shift by a signed value is not supported"): Const(1, unsigned(4)) << -1 def test_shr(self): v1 = Const(1, 4) >> Const(4) self.assertEqual(repr(v1), "(>> (const 4'd1) (const 3'd4))") self.assertEqual(v1.shape(), unsigned(4)) def test_shr_wrong(self): with self.assertRaises(NotImplementedError, msg="Shift by a signed value is not supported"): 1 << Const(0, signed(6)) with self.assertRaises(NotImplementedError, msg="Shift by a signed value is not supported"): Const(1, unsigned(4)) << -1 def test_lt(self): v = Const(0, 4) < Const(0, 6) self.assertEqual(repr(v), "(< (const 4'd0) (const 6'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_le(self): v = Const(0, 4) <= Const(0, 6) self.assertEqual(repr(v), "(<= (const 4'd0) (const 6'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_gt(self): v = Const(0, 4) > Const(0, 6) self.assertEqual(repr(v), "(> (const 4'd0) (const 6'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_ge(self): v = Const(0, 4) >= Const(0, 6) self.assertEqual(repr(v), "(>= (const 4'd0) (const 6'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_eq(self): v = Const(0, 4) == Const(0, 6) self.assertEqual(repr(v), "(== (const 4'd0) (const 6'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_ne(self): v = Const(0, 4) != Const(0, 6) self.assertEqual(repr(v), "(!= (const 4'd0) (const 6'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_mux(self): s = Const(0) v1 = Mux(s, Const(0, unsigned(4)), Const(0, unsigned(6))) self.assertEqual(repr(v1), "(m (const 1'd0) (const 4'd0) (const 6'd0))") self.assertEqual(v1.shape(), unsigned(6)) v2 = Mux(s, Const(0, signed(4)), Const(0, signed(6))) self.assertEqual(v2.shape(), signed(6)) v3 = Mux(s, Const(0, signed(4)), Const(0, unsigned(4))) self.assertEqual(v3.shape(), signed(5)) v4 = Mux(s, Const(0, unsigned(4)), Const(0, signed(4))) self.assertEqual(v4.shape(), signed(5)) def test_mux_wide(self): s = Const(0b100) v = Mux(s, Const(0, unsigned(4)), Const(0, unsigned(6))) self.assertEqual(repr(v), "(m (b (const 3'd4)) (const 4'd0) (const 6'd0))") def test_mux_bool(self): v = Mux(True, Const(0), Const(0)) self.assertEqual(repr(v), "(m (const 1'd1) (const 1'd0) (const 1'd0))") def test_bool(self): v = Const(0).bool() self.assertEqual(repr(v), "(b (const 1'd0))") self.assertEqual(v.shape(), unsigned(1)) def test_any(self): v = Const(0b101).any() self.assertEqual(repr(v), "(r| (const 3'd5))") def test_all(self): v = Const(0b101).all() self.assertEqual(repr(v), "(r& (const 3'd5))") def test_xor(self): v = Const(0b101).xor() self.assertEqual(repr(v), "(r^ (const 3'd5))") def test_matches(self): s = Signal(4) self.assertRepr(s.matches(), "(const 1'd0)") self.assertRepr(s.matches(1), """ (== (sig s) (const 1'd1)) """) self.assertRepr(s.matches(0, 1), """ (r| (cat (== (sig s) (const 1'd0)) (== (sig s) (const 1'd1)))) """) self.assertRepr(s.matches("10--"), """ (== (& (sig s) (const 4'd12)) (const 4'd8)) """) self.assertRepr(s.matches("1 0--"), """ (== (& (sig s) (const 4'd12)) (const 4'd8)) """) def test_matches_enum(self): s = Signal(SignedEnum) self.assertRepr(s.matches(SignedEnum.FOO), """ (== (sig s) (const 1'sd-1)) """) def test_matches_width_wrong(self): s = Signal(4) with self.assertRaises(SyntaxError, msg="Match pattern '--' must have the same width as match value (which is 4)"): s.matches("--") with self.assertWarns(SyntaxWarning, msg="Match pattern '10110' is wider than match value (which has width 4); " "comparison will never be true"): s.matches(0b10110) def test_matches_bits_wrong(self): s = Signal(4) with self.assertRaises(SyntaxError, msg="Match pattern 'abc' must consist of 0, 1, and - (don't care) bits, " "and may include whitespace"): s.matches("abc") def test_matches_pattern_wrong(self): s = Signal(4) with self.assertRaises(SyntaxError, msg="Match pattern must be an integer, a string, or an enumeration, not 1.0"): s.matches(1.0) def test_hash(self): with self.assertRaises(TypeError): hash(Const(0) + Const(0)) class SliceTestCase(FHDLTestCase): def test_shape(self): s1 = Const(10)[2] self.assertEqual(s1.shape(), unsigned(1)) self.assertIsInstance(s1.shape(), Shape) s2 = Const(-10)[0:2] self.assertEqual(s2.shape(), unsigned(2)) def test_start_end_negative(self): c = Const(0, 8) s1 = Slice(c, 0, -1) self.assertEqual((s1.start, s1.stop), (0, 7)) s1 = Slice(c, -4, -1) self.assertEqual((s1.start, s1.stop), (4, 7)) def test_start_end_wrong(self): with self.assertRaises(TypeError, msg="Slice start must be an integer, not 'x'"): Slice(0, "x", 1) with self.assertRaises(TypeError, msg="Slice stop must be an integer, not 'x'"): Slice(0, 1, "x") def test_start_end_out_of_range(self): c = Const(0, 8) with self.assertRaises(IndexError, msg="Cannot start slice 10 bits into 8-bit value"): Slice(c, 10, 12) with self.assertRaises(IndexError, msg="Cannot stop slice 12 bits into 8-bit value"): Slice(c, 0, 12) with self.assertRaises(IndexError, msg="Slice start 4 must be less than slice stop 2"): Slice(c, 4, 2) def test_repr(self): s1 = Const(10)[2] self.assertEqual(repr(s1), "(slice (const 4'd10) 2:3)") class BitSelectTestCase(FHDLTestCase): def setUp(self): self.c = Const(0, 8) self.s = Signal(range(self.c.width)) def test_shape(self): s1 = self.c.bit_select(self.s, 2) self.assertIsInstance(s1, Part) self.assertEqual(s1.shape(), unsigned(2)) self.assertIsInstance(s1.shape(), Shape) s2 = self.c.bit_select(self.s, 0) self.assertIsInstance(s2, Part) self.assertEqual(s2.shape(), unsigned(0)) def test_stride(self): s1 = self.c.bit_select(self.s, 2) self.assertIsInstance(s1, Part) self.assertEqual(s1.stride, 1) def test_const(self): s1 = self.c.bit_select(1, 2) self.assertIsInstance(s1, Slice) self.assertRepr(s1, """(slice (const 8'd0) 1:3)""") def test_width_wrong(self): with self.assertRaises(TypeError): self.c.bit_select(self.s, -1) def test_repr(self): s = self.c.bit_select(self.s, 2) self.assertEqual(repr(s), "(part (const 8'd0) (sig s) 2 1)") class WordSelectTestCase(FHDLTestCase): def setUp(self): self.c = Const(0, 8) self.s = Signal(range(self.c.width)) def test_shape(self): s1 = self.c.word_select(self.s, 2) self.assertIsInstance(s1, Part) self.assertEqual(s1.shape(), unsigned(2)) self.assertIsInstance(s1.shape(), Shape) def test_stride(self): s1 = self.c.word_select(self.s, 2) self.assertIsInstance(s1, Part) self.assertEqual(s1.stride, 2) def test_const(self): s1 = self.c.word_select(1, 2) self.assertIsInstance(s1, Slice) self.assertRepr(s1, """(slice (const 8'd0) 2:4)""") def test_width_wrong(self): with self.assertRaises(TypeError): self.c.word_select(self.s, 0) with self.assertRaises(TypeError): self.c.word_select(self.s, -1) def test_repr(self): s = self.c.word_select(self.s, 2) self.assertEqual(repr(s), "(part (const 8'd0) (sig s) 2 2)") class CatTestCase(FHDLTestCase): def test_shape(self): c0 = Cat() self.assertEqual(c0.shape(), unsigned(0)) self.assertIsInstance(c0.shape(), Shape) c1 = Cat(Const(10)) self.assertEqual(c1.shape(), unsigned(4)) c2 = Cat(Const(10), Const(1)) self.assertEqual(c2.shape(), unsigned(5)) c3 = Cat(Const(10), Const(1), Const(0)) self.assertEqual(c3.shape(), unsigned(6)) def test_repr(self): c1 = Cat(Const(10), Const(1)) self.assertEqual(repr(c1), "(cat (const 4'd10) (const 1'd1))") class ReplTestCase(FHDLTestCase): def test_shape(self): s1 = Repl(Const(10), 3) self.assertEqual(s1.shape(), unsigned(12)) self.assertIsInstance(s1.shape(), Shape) s2 = Repl(Const(10), 0) self.assertEqual(s2.shape(), unsigned(0)) def test_count_wrong(self): with self.assertRaises(TypeError): Repl(Const(10), -1) with self.assertRaises(TypeError): Repl(Const(10), "str") def test_repr(self): s = Repl(Const(10), 3) self.assertEqual(repr(s), "(repl (const 4'd10) 3)") class ArrayTestCase(FHDLTestCase): def test_acts_like_array(self): a = Array([1,2,3]) self.assertSequenceEqual(a, [1,2,3]) self.assertEqual(a[1], 2) a[1] = 4 self.assertSequenceEqual(a, [1,4,3]) del a[1] self.assertSequenceEqual(a, [1,3]) a.insert(1, 2) self.assertSequenceEqual(a, [1,2,3]) def test_becomes_immutable(self): a = Array([1,2,3]) s1 = Signal(range(len(a))) s2 = Signal(range(len(a))) v1 = a[s1] v2 = a[s2] with self.assertRaisesRegex(ValueError, regex=r"^Array can no longer be mutated after it was indexed with a value at "): a[1] = 2 with self.assertRaisesRegex(ValueError, regex=r"^Array can no longer be mutated after it was indexed with a value at "): del a[1] with self.assertRaisesRegex(ValueError, regex=r"^Array can no longer be mutated after it was indexed with a value at "): a.insert(1, 2) def test_repr(self): a = Array([1,2,3]) self.assertEqual(repr(a), "(array mutable [1, 2, 3])") s = Signal(range(len(a))) v = a[s] self.assertEqual(repr(a), "(array [1, 2, 3])") class ArrayProxyTestCase(FHDLTestCase): def test_index_shape(self): m = Array(Array(x * y for y in range(1, 4)) for x in range(1, 4)) a = Signal(range(3)) b = Signal(range(3)) v = m[a][b] self.assertEqual(v.shape(), unsigned(4)) def test_attr_shape(self): from collections import namedtuple pair = namedtuple("pair", ("p", "n")) a = Array(pair(i, -i) for i in range(10)) s = Signal(range(len(a))) v = a[s] self.assertEqual(v.p.shape(), unsigned(4)) self.assertEqual(v.n.shape(), signed(6)) def test_repr(self): a = Array([1, 2, 3]) s = Signal(range(3)) v = a[s] self.assertEqual(repr(v), "(proxy (array [1, 2, 3]) (sig s))") class SignalTestCase(FHDLTestCase): def test_shape(self): s1 = Signal() self.assertEqual(s1.shape(), unsigned(1)) self.assertIsInstance(s1.shape(), Shape) s2 = Signal(2) self.assertEqual(s2.shape(), unsigned(2)) s3 = Signal(unsigned(2)) self.assertEqual(s3.shape(), unsigned(2)) s4 = Signal(signed(2)) self.assertEqual(s4.shape(), signed(2)) s5 = Signal(0) self.assertEqual(s5.shape(), unsigned(0)) s6 = Signal(range(16)) self.assertEqual(s6.shape(), unsigned(4)) s7 = Signal(range(4, 16)) self.assertEqual(s7.shape(), unsigned(4)) s8 = Signal(range(-4, 16)) self.assertEqual(s8.shape(), signed(5)) s9 = Signal(range(-20, 16)) self.assertEqual(s9.shape(), signed(6)) s10 = Signal(range(0)) self.assertEqual(s10.shape(), unsigned(0)) s11 = Signal(range(1)) self.assertEqual(s11.shape(), unsigned(1)) def test_shape_wrong(self): with self.assertRaises(TypeError, msg="Width must be a non-negative integer, not -10"): Signal(-10) def test_name(self): s1 = Signal() self.assertEqual(s1.name, "s1") s2 = Signal(name="sig") self.assertEqual(s2.name, "sig") def test_reset(self): s1 = Signal(4, reset=0b111, reset_less=True) self.assertEqual(s1.reset, 0b111) self.assertEqual(s1.reset_less, True) def test_reset_enum(self): s1 = Signal(2, reset=UnsignedEnum.BAR) self.assertEqual(s1.reset, 2) with self.assertRaises(TypeError, msg="Reset value has to be an int or an integral Enum" ): Signal(1, reset=StringEnum.FOO) def test_reset_narrow(self): with self.assertWarns(SyntaxWarning, msg="Reset value 8 requires 4 bits to represent, but the signal only has 3 bits"): Signal(3, reset=8) with self.assertWarns(SyntaxWarning, msg="Reset value 4 requires 4 bits to represent, but the signal only has 3 bits"): Signal(signed(3), reset=4) with self.assertWarns(SyntaxWarning, msg="Reset value -5 requires 4 bits to represent, but the signal only has 3 bits"): Signal(signed(3), reset=-5) def test_attrs(self): s1 = Signal() self.assertEqual(s1.attrs, {}) s2 = Signal(attrs={"no_retiming": True}) self.assertEqual(s2.attrs, {"no_retiming": True}) def test_repr(self): s1 = Signal() self.assertEqual(repr(s1), "(sig s1)") def test_like(self): s1 = Signal.like(Signal(4)) self.assertEqual(s1.shape(), unsigned(4)) s2 = Signal.like(Signal(range(-15, 1))) self.assertEqual(s2.shape(), signed(5)) s3 = Signal.like(Signal(4, reset=0b111, reset_less=True)) self.assertEqual(s3.reset, 0b111) self.assertEqual(s3.reset_less, True) s4 = Signal.like(Signal(attrs={"no_retiming": True})) self.assertEqual(s4.attrs, {"no_retiming": True}) s5 = Signal.like(Signal(decoder=str)) self.assertEqual(s5.decoder, str) s6 = Signal.like(10) self.assertEqual(s6.shape(), unsigned(4)) s7 = [Signal.like(Signal(4))][0] self.assertEqual(s7.name, "$like") s8 = Signal.like(s1, name_suffix="_ff") self.assertEqual(s8.name, "s1_ff") def test_decoder(self): class Color(Enum): RED = 1 BLUE = 2 s = Signal(decoder=Color) self.assertEqual(s.decoder(1), "RED/1") self.assertEqual(s.decoder(3), "3") def test_enum(self): s1 = Signal(UnsignedEnum) self.assertEqual(s1.shape(), unsigned(2)) s2 = Signal(SignedEnum) self.assertEqual(s2.shape(), signed(2)) self.assertEqual(s2.decoder(SignedEnum.FOO), "FOO/-1") class ClockSignalTestCase(FHDLTestCase): def test_domain(self): s1 = ClockSignal() self.assertEqual(s1.domain, "sync") s2 = ClockSignal("pix") self.assertEqual(s2.domain, "pix") with self.assertRaises(TypeError, msg="Clock domain name must be a string, not 1"): ClockSignal(1) def test_shape(self): s1 = ClockSignal() self.assertEqual(s1.shape(), unsigned(1)) self.assertIsInstance(s1.shape(), Shape) def test_repr(self): s1 = ClockSignal() self.assertEqual(repr(s1), "(clk sync)") def test_wrong_name_comb(self): with self.assertRaises(ValueError, msg="Domain 'comb' does not have a clock"): ClockSignal("comb") class ResetSignalTestCase(FHDLTestCase): def test_domain(self): s1 = ResetSignal() self.assertEqual(s1.domain, "sync") s2 = ResetSignal("pix") self.assertEqual(s2.domain, "pix") with self.assertRaises(TypeError, msg="Clock domain name must be a string, not 1"): ResetSignal(1) def test_shape(self): s1 = ResetSignal() self.assertEqual(s1.shape(), unsigned(1)) self.assertIsInstance(s1.shape(), Shape) def test_repr(self): s1 = ResetSignal() self.assertEqual(repr(s1), "(rst sync)") def test_wrong_name_comb(self): with self.assertRaises(ValueError, msg="Domain 'comb' does not have a reset"): ResetSignal("comb") class MockUserValue(UserValue): def __init__(self, lowered): super().__init__() self.lower_count = 0 self.lowered = lowered def lower(self): self.lower_count += 1 return self.lowered class UserValueTestCase(FHDLTestCase): def test_shape(self): uv = MockUserValue(1) self.assertEqual(uv.shape(), unsigned(1)) self.assertIsInstance(uv.shape(), Shape) uv.lowered = 2 self.assertEqual(uv.shape(), unsigned(1)) self.assertEqual(uv.lower_count, 1) class SampleTestCase(FHDLTestCase): def test_const(self): s = Sample(1, 1, "sync") self.assertEqual(s.shape(), unsigned(1)) def test_signal(self): s1 = Sample(Signal(2), 1, "sync") self.assertEqual(s1.shape(), unsigned(2)) s2 = Sample(ClockSignal(), 1, "sync") s3 = Sample(ResetSignal(), 1, "sync") def test_wrong_value_operator(self): with self.assertRaises(TypeError, "Sampled value must be a signal or a constant, not " "(+ (sig $signal) (const 1'd1))"): Sample(Signal() + 1, 1, "sync") def test_wrong_clocks_neg(self): with self.assertRaises(ValueError, "Cannot sample a value 1 cycles in the future"): Sample(Signal(), -1, "sync") def test_wrong_domain(self): with self.assertRaises(TypeError, "Domain name must be a string or None, not 0"): Sample(Signal(), 1, 0) class InitialTestCase(FHDLTestCase): def test_initial(self): i = Initial() self.assertEqual(i.shape(), unsigned(1))