Fixes #148.
return lambda state: normalize((arg(state) >> shift) & mask, shape)
def on_Part(self, value):
- shape = value.shape()
- arg = self(value.value)
- shift = self(value.offset)
- mask = (1 << value.width) - 1
- return lambda state: normalize((arg(state) >> shift(state)) & mask, shape)
+ shape = value.shape()
+ arg = self(value.value)
+ shift = self(value.offset)
+ mask = (1 << value.width) - 1
+ stride = value.stride
+ return lambda state: normalize((arg(state) >> shift(state) * stride) & mask, shape)
def on_Cat(self, value):
shape = value.shape()
return eval
def on_Part(self, value):
- lhs_r = self.rhs_compiler(value.value)
- lhs_l = self(value.value)
- shift = self.rhs_compiler(value.offset)
- mask = (1 << value.width) - 1
+ lhs_r = self.rhs_compiler(value.value)
+ lhs_l = self(value.value)
+ shift = self.rhs_compiler(value.offset)
+ mask = (1 << value.width) - 1
+ stride = value.stride
def eval(state, rhs):
lhs_value = lhs_r(state)
- shift_value = shift(state)
+ shift_value = shift(state) * stride
lhs_value &= ~(mask << shift_value)
lhs_value |= (rhs & mask) << shift_value
lhs_l(state, lhs_value)
def on_Part(self, value):
lhs, rhs = value.value, value.offset
+ if value.stride != 1:
+ rhs *= value.stride
lhs_bits, lhs_sign = lhs.shape()
rhs_bits, rhs_sign = rhs.shape()
res_bits, res_sign = value.shape()
"""
return ~premise | conclusion
+ # TODO(nmigen-0.2): move this to nmigen.compat and make it a deprecated extension
+ @deprecated("instead of `.part`, use `.bit_slip`")
def part(self, offset, width):
- """Indexed part-select.
+ return Part(self, offset, width, src_loc_at=1)
+
+ def bit_select(self, offset, width):
+ """Part-select with bit granularity.
- Selects a constant width but variable offset part of a ``Value``.
+ Selects a constant width but variable offset part of a ``Value``, such that successive
+ parts overlap by all but 1 bit.
Parameters
----------
offset : Value, in
- start point of the selected bits
+ index of first selected bit
width : int
number of selected bits
Part, out
Selected part of the ``Value``
"""
- return Part(self, offset, width, src_loc_at=1)
+ return Part(self, offset, width, stride=1, src_loc_at=1)
+
+ def word_select(self, offset, width):
+ """Part-select with word granularity.
+
+ Selects a constant width but variable offset part of a ``Value``, such that successive
+ parts do not overlap.
+
+ Parameters
+ ----------
+ offset : Value, in
+ index of first selected word
+ width : int
+ number of selected bits
+
+ Returns
+ -------
+ Part, out
+ Selected part of the ``Value``
+ """
+ return Part(self, offset, width, stride=width, src_loc_at=1)
def eq(self, value):
"""Assignment.
@final
class Part(Value):
- def __init__(self, value, offset, width, *, src_loc_at=0):
+ def __init__(self, value, offset, width, stride=1, *, src_loc_at=0):
if not isinstance(width, int) or width < 0:
raise TypeError("Part width must be a non-negative integer, not '{!r}'".format(width))
+ if not isinstance(stride, int) or stride <= 0:
+ raise TypeError("Part stride must be a positive integer, not '{!r}'".format(stride))
super().__init__(src_loc_at=src_loc_at)
self.value = value
self.offset = Value.wrap(offset)
self.width = width
+ self.stride = stride
def shape(self):
return self.width, False
return self.value._rhs_signals() | self.offset._rhs_signals()
def __repr__(self):
- return "(part {} {} {})".format(repr(self.value), repr(self.offset), self.width)
+ return "(part {} {} {} {})".format(repr(self.value), repr(self.offset),
+ self.width, self.stride)
@final
return hash((ValueKey(self.value.value), self.value.start, self.value.end))
elif isinstance(self.value, Part):
return hash((ValueKey(self.value.value), ValueKey(self.value.offset),
- self.value.width))
+ self.value.width, self.value.stride))
elif isinstance(self.value, Cat):
return hash(tuple(ValueKey(o) for o in self.value.parts))
elif isinstance(self.value, ArrayProxy):
elif isinstance(self.value, Part):
return (ValueKey(self.value.value) == ValueKey(other.value.value) and
ValueKey(self.value.offset) == ValueKey(other.value.offset) and
- self.value.width == other.value.width)
+ self.value.width == other.value.width and
+ self.value.stride == other.value.stride)
elif isinstance(self.value, Cat):
return all(ValueKey(a) == ValueKey(b)
for a, b in zip(self.value.parts, other.value.parts))
return Slice(self.on_value(value.value), value.start, value.end)
def on_Part(self, value):
- return Part(self.on_value(value.value), self.on_value(value.offset), value.width)
+ return Part(self.on_value(value.value), self.on_value(value.offset),
+ value.width, value.stride)
def on_Cat(self, value):
return Cat(self.on_value(o) for o in value.parts)
self.assertEqual(repr(s1), "(slice (const 4'd10) 2:3)")
-class PartTestCase(FHDLTestCase):
+class BitSelectTestCase(FHDLTestCase):
def setUp(self):
self.c = Const(0, 8)
self.s = Signal(max=self.c.nbits)
def test_shape(self):
- s1 = self.c.part(self.s, 2)
+ s1 = self.c.bit_select(self.s, 2)
self.assertEqual(s1.shape(), (2, False))
- s2 = self.c.part(self.s, 0)
+ s2 = self.c.bit_select(self.s, 0)
self.assertEqual(s2.shape(), (0, False))
+ def test_stride(self):
+ s1 = self.c.bit_select(self.s, 2)
+ self.assertEqual(s1.stride, 1)
+
+ def test_width_bad(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(max=self.c.nbits)
+
+ def test_shape(self):
+ s1 = self.c.word_select(self.s, 2)
+ self.assertEqual(s1.shape(), (2, False))
+
+ def test_stride(self):
+ s1 = self.c.word_select(self.s, 2)
+ self.assertEqual(s1.stride, 2)
+
def test_width_bad(self):
with self.assertRaises(TypeError):
- self.c.part(self.s, -1)
+ 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.part(self.s, 2)
- self.assertEqual(repr(s), "(part (const 8'd0) (sig s) 2)")
+ s = self.c.word_select(self.s, 2)
+ self.assertEqual(repr(s), "(part (const 8'd0) (sig s) 2 2)")
class CatTestCase(FHDLTestCase):
stmt2 = lambda y, a: y[2:4].eq(a)
self.assertStatement(stmt2, [C(0b01, 2)], C(0b11110111, 8), reset=0b11111011)
- def test_part(self):
- stmt = lambda y, a, b: y.eq(a.part(b, 3))
+ def test_bit_select(self):
+ stmt = lambda y, a, b: y.eq(a.bit_select(b, 3))
self.assertStatement(stmt, [C(0b10110100, 8), C(0)], C(0b100, 3))
self.assertStatement(stmt, [C(0b10110100, 8), C(2)], C(0b101, 3))
self.assertStatement(stmt, [C(0b10110100, 8), C(3)], C(0b110, 3))
- def test_part_lhs(self):
- stmt = lambda y, a, b: y.part(a, 3).eq(b)
+ def test_bit_select_lhs(self):
+ stmt = lambda y, a, b: y.bit_select(a, 3).eq(b)
self.assertStatement(stmt, [C(0), C(0b100, 3)], C(0b11111100, 8), reset=0b11111111)
self.assertStatement(stmt, [C(2), C(0b101, 3)], C(0b11110111, 8), reset=0b11111111)
self.assertStatement(stmt, [C(3), C(0b110, 3)], C(0b11110111, 8), reset=0b11111111)
+ def test_word_select(self):
+ stmt = lambda y, a, b: y.eq(a.word_select(b, 3))
+ self.assertStatement(stmt, [C(0b10110100, 8), C(0)], C(0b100, 3))
+ self.assertStatement(stmt, [C(0b10110100, 8), C(1)], C(0b110, 3))
+ self.assertStatement(stmt, [C(0b10110100, 8), C(2)], C(0b010, 3))
+
+ def test_word_select_lhs(self):
+ stmt = lambda y, a, b: y.word_select(a, 3).eq(b)
+ self.assertStatement(stmt, [C(0), C(0b100, 3)], C(0b11111100, 8), reset=0b11111111)
+ self.assertStatement(stmt, [C(1), C(0b101, 3)], C(0b11101111, 8), reset=0b11111111)
+ self.assertStatement(stmt, [C(2), C(0b110, 3)], C(0b10111111, 8), reset=0b11111111)
+
def test_cat(self):
stmt = lambda y, *xs: y.eq(Cat(*xs))
self.assertStatement(stmt, [C(0b10, 2), C(0b01, 2)], C(0b0110, 4))
projects / nmigen.git / commitdiff