.format(repr(obj), type(obj)))
def __bool__(self):
- # Special case: Consts and Signals are part of a set or used as
- # dictionary keys, and Python needs to check for equality.
- if isinstance(self, Operator) and self.op == "==":
- a, b = self.operands
- if isinstance(a, Const) and isinstance(b, Const):
- return a.value == b.value
- if isinstance(a, Signal) and isinstance(b, Signal):
- return a is b
- if (isinstance(a, Const) and isinstance(b, Signal)
- or isinstance(a, Signal) and isinstance(b, Const)):
- return False
raise TypeError("Attempted to convert Migen value to boolean")
def __invert__(self):
>>> Value.bits_sign(C(0xaa))
8, False
"""
- raise TypeError("Cannot calculate bit length of {!r}".format(self))
+ raise NotImplementedError # :nocov:
def _lhs_signals(self):
raise TypeError("Value {!r} cannot be used in assignments".format(self))
def _rhs_signals(self):
- raise NotImplementedError
+ raise NotImplementedError # :nocov:
def __hash__(self):
raise TypeError("Unhashable type: {}".format(type(self).__name__))
def _rhs_signals(self):
return ValueSet()
- def __eq__(self, other):
- return self.value == other.value
-
- def __hash__(self):
- return hash(self.value)
-
def __repr__(self):
return "(const {}'{}d{})".format(self.nbits, "s" if self.signed else "", self.value)
elif self.op == "&" or self.op == "^" or self.op == "|":
return self._bitwise_binary_bits_sign(*obs)
elif (self.op == "<" or self.op == "<=" or self.op == "==" or self.op == "!=" or
- self.op == ">" or self.op == ">="):
+ self.op == ">" or self.op == ">=" or self.op == "b"):
return 1, False
elif self.op == "~":
return obs[0]
elif self.op == "m":
- return _bitwise_binary_bits_sign(obs[1], obs[2])
+ return self._bitwise_binary_bits_sign(obs[1], obs[2])
else:
- raise TypeError
+ raise TypeError # :nocov:
def _rhs_signals(self):
return union(op._rhs_signals() for op in self.operands)
def __repr__(self):
- if len(self.operands) == 1:
- return "({} {})".format(self.op, self.operands[0])
- elif len(self.operands) == 2:
- return "({} {} {})".format(self.op, self.operands[0], self.operands[1])
+ return "({} {})".format(self.op, " ".join(map(repr, self.operands)))
def Mux(sel, val1, val0):
return len(self.value) * self.count, False
def _rhs_signals(self):
- return value._rhs_signals()
+ return self.value._rhs_signals()
+
+ def __repr__(self):
+ return "(repl {!r} {})".format(self.value, self.count)
class Signal(Value, DUID):
self.signed = min < 0 or max < 0
self.nbits = builtins.max(bits_for(min, self.signed), bits_for(max, self.signed))
- elif isinstance(bits_sign, int):
- if not (min is None or max is None):
- raise ValueError("Only one of bits/signedness or bounds may be specified")
- self.nbits, self.signed = bits_sign, False
-
else:
- self.nbits, self.signed = bits_sign
+ if not (min is None and max is None):
+ raise ValueError("Only one of bits/signedness or bounds may be specified")
+ if isinstance(bits_sign, int):
+ self.nbits, self.signed = bits_sign, False
+ else:
+ self.nbits, self.signed = bits_sign
if not isinstance(self.nbits, int) or self.nbits < 0:
raise TypeError("Width must be a positive integer, not {!r}".format(self.nbits))
- self.reset = reset
- self.reset_less = reset_less
+ self.reset = int(reset)
+ self.reset_less = bool(reset_less)
self.attrs = OrderedDict(() if attrs is None else attrs)
"""
kw = dict(bits_sign=cls.wrap(other).bits_sign())
if isinstance(other, cls):
- kw.update(reset=other.reset.value, reset_less=other.reset_less, attrs=other.attrs)
+ kw.update(reset=other.reset, reset_less=other.reset_less, attrs=other.attrs)
kw.update(kwargs)
return cls(**kw)
Parameters
----------
- cd : str
- Clock domain to obtain a clock signal for. Defaults to `"sys"`.
+ domain : str
+ Clock domain to obtain a clock signal for. Defaults to `"sync"`.
"""
- def __init__(self, cd="sys"):
+ def __init__(self, domain="sync"):
super().__init__()
- if not isinstance(cd, str):
- raise TypeError("Clock domain name must be a string, not {!r}".format(cd))
- self.cd = cd
+ if not isinstance(domain, str):
+ raise TypeError("Clock domain name must be a string, not {!r}".format(domain))
+ self.domain = domain
def __repr__(self):
- return "(clk {})".format(self.cd)
+ return "(clk {})".format(self.domain)
class ResetSignal(Value):
Parameters
----------
- cd : str
- Clock domain to obtain a reset signal for. Defaults to `"sys"`.
+ domain : str
+ Clock domain to obtain a reset signal for. Defaults to `"sync"`.
"""
- def __init__(self, cd="sys"):
+ def __init__(self, domain="sync"):
super().__init__()
- if not isinstance(cd, str):
- raise TypeError("Clock domain name must be a string, not {!r}".format(cd))
- self.cd = cd
+ if not isinstance(domain, str):
+ raise TypeError("Clock domain name must be a string, not {!r}".format(domain))
+ self.domain = domain
def __repr__(self):
- return "(rst {})".format(self.cd)
+ return "(reset {})".format(self.domain)
class Statement:
--- /dev/null
+import unittest
+
+from nmigen.fhdl.ast import *
+
+
+class ValueTestCase(unittest.TestCase):
+ def test_wrap(self):
+ self.assertIsInstance(Value.wrap(0), Const)
+ self.assertIsInstance(Value.wrap(True), Const)
+ c = Const(0)
+ self.assertIs(Value.wrap(c), c)
+ with self.assertRaises(TypeError):
+ Value.wrap("str")
+
+ def test_bool(self):
+ with self.assertRaises(TypeError):
+ 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.end, 1)
+ s2 = Const(10)[-1]
+ self.assertIsInstance(s2, Slice)
+ self.assertEqual(s2.start, 3)
+ self.assertEqual(s2.end, 4)
+ with self.assertRaises(IndexError):
+ 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.end, 3)
+ s2 = Const(10)[1:-2]
+ self.assertIsInstance(s2, Slice)
+ self.assertEqual(s2.start, 1)
+ self.assertEqual(s2.end, 2)
+ s3 = Const(31)[::2]
+ self.assertIsInstance(s3, Cat)
+ self.assertIsInstance(s3.operands[0], Slice)
+ self.assertEqual(s3.operands[0].start, 0)
+ self.assertEqual(s3.operands[0].end, 1)
+ self.assertIsInstance(s3.operands[1], Slice)
+ self.assertEqual(s3.operands[1].start, 2)
+ self.assertEqual(s3.operands[1].end, 3)
+ self.assertIsInstance(s3.operands[2], Slice)
+ self.assertEqual(s3.operands[2].start, 4)
+ self.assertEqual(s3.operands[2].end, 5)
+
+ def test_getitem_wrong(self):
+ with self.assertRaises(TypeError):
+ Const(31)["str"]
+
+
+class ConstTestCase(unittest.TestCase):
+ def test_bits_sign(self):
+ self.assertEqual(Const(0).bits_sign(), (0, False))
+ self.assertEqual(Const(1).bits_sign(), (1, False))
+ self.assertEqual(Const(10).bits_sign(), (4, False))
+ self.assertEqual(Const(-10).bits_sign(), (4, True))
+
+ self.assertEqual(Const(1, 4).bits_sign(), (4, False))
+ self.assertEqual(Const(1, (4, True)).bits_sign(), (4, True))
+
+ with self.assertRaises(TypeError):
+ Const(1, -1)
+
+ 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 4'sd-10)")
+
+ def test_hash(self):
+ with self.assertRaises(TypeError):
+ hash(Const(0))
+
+
+class OperatorTestCase(unittest.TestCase):
+ def test_invert(self):
+ v = ~Const(0, 4)
+ self.assertEqual(repr(v), "(~ (const 4'd0))")
+ self.assertEqual(v.bits_sign(), (4, False))
+
+ def test_neg(self):
+ v1 = -Const(0, (4, False))
+ self.assertEqual(repr(v1), "(- (const 4'd0))")
+ self.assertEqual(v1.bits_sign(), (5, True))
+ v2 = -Const(0, (4, True))
+ self.assertEqual(repr(v2), "(- (const 4'sd0))")
+ self.assertEqual(v2.bits_sign(), (4, True))
+
+ def test_add(self):
+ v1 = Const(0, (4, False)) + Const(0, (6, False))
+ self.assertEqual(repr(v1), "(+ (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (7, False))
+ v2 = Const(0, (4, True)) + Const(0, (6, True))
+ self.assertEqual(v2.bits_sign(), (7, True))
+ v3 = Const(0, (4, True)) + Const(0, (4, False))
+ self.assertEqual(v3.bits_sign(), (6, True))
+ v4 = Const(0, (4, False)) + Const(0, (4, True))
+ self.assertEqual(v4.bits_sign(), (6, True))
+ v5 = 10 + Const(0, 4)
+ self.assertEqual(v5.bits_sign(), (5, False))
+
+ def test_sub(self):
+ v1 = Const(0, (4, False)) - Const(0, (6, False))
+ self.assertEqual(repr(v1), "(- (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (7, False))
+ v2 = Const(0, (4, True)) - Const(0, (6, True))
+ self.assertEqual(v2.bits_sign(), (7, True))
+ v3 = Const(0, (4, True)) - Const(0, (4, False))
+ self.assertEqual(v3.bits_sign(), (6, True))
+ v4 = Const(0, (4, False)) - Const(0, (4, True))
+ self.assertEqual(v4.bits_sign(), (6, True))
+ v5 = 10 - Const(0, 4)
+ self.assertEqual(v5.bits_sign(), (5, False))
+
+ def test_mul(self):
+ v1 = Const(0, (4, False)) * Const(0, (6, False))
+ self.assertEqual(repr(v1), "(* (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (10, False))
+ v2 = Const(0, (4, True)) * Const(0, (6, True))
+ self.assertEqual(v2.bits_sign(), (9, True))
+ v3 = Const(0, (4, True)) * Const(0, (4, False))
+ self.assertEqual(v3.bits_sign(), (8, True))
+ v5 = 10 * Const(0, 4)
+ self.assertEqual(v5.bits_sign(), (8, False))
+
+ def test_and(self):
+ v1 = Const(0, (4, False)) & Const(0, (6, False))
+ self.assertEqual(repr(v1), "(& (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (6, False))
+ v2 = Const(0, (4, True)) & Const(0, (6, True))
+ self.assertEqual(v2.bits_sign(), (6, True))
+ v3 = Const(0, (4, True)) & Const(0, (4, False))
+ self.assertEqual(v3.bits_sign(), (5, True))
+ v4 = Const(0, (4, False)) & Const(0, (4, True))
+ self.assertEqual(v4.bits_sign(), (5, True))
+ v5 = 10 & Const(0, 4)
+ self.assertEqual(v5.bits_sign(), (4, False))
+
+ def test_or(self):
+ v1 = Const(0, (4, False)) | Const(0, (6, False))
+ self.assertEqual(repr(v1), "(| (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (6, False))
+ v2 = Const(0, (4, True)) | Const(0, (6, True))
+ self.assertEqual(v2.bits_sign(), (6, True))
+ v3 = Const(0, (4, True)) | Const(0, (4, False))
+ self.assertEqual(v3.bits_sign(), (5, True))
+ v4 = Const(0, (4, False)) | Const(0, (4, True))
+ self.assertEqual(v4.bits_sign(), (5, True))
+ v5 = 10 | Const(0, 4)
+ self.assertEqual(v5.bits_sign(), (4, False))
+
+ def test_xor(self):
+ v1 = Const(0, (4, False)) ^ Const(0, (6, False))
+ self.assertEqual(repr(v1), "(^ (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (6, False))
+ v2 = Const(0, (4, True)) ^ Const(0, (6, True))
+ self.assertEqual(v2.bits_sign(), (6, True))
+ v3 = Const(0, (4, True)) ^ Const(0, (4, False))
+ self.assertEqual(v3.bits_sign(), (5, True))
+ v4 = Const(0, (4, False)) ^ Const(0, (4, True))
+ self.assertEqual(v4.bits_sign(), (5, True))
+ v5 = 10 ^ Const(0, 4)
+ self.assertEqual(v5.bits_sign(), (4, False))
+
+ def test_lt(self):
+ v = Const(0, 4) < Const(0, 6)
+ self.assertEqual(repr(v), "(< (const 4'd0) (const 6'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_le(self):
+ v = Const(0, 4) <= Const(0, 6)
+ self.assertEqual(repr(v), "(<= (const 4'd0) (const 6'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_gt(self):
+ v = Const(0, 4) > Const(0, 6)
+ self.assertEqual(repr(v), "(> (const 4'd0) (const 6'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_ge(self):
+ v = Const(0, 4) >= Const(0, 6)
+ self.assertEqual(repr(v), "(>= (const 4'd0) (const 6'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_eq(self):
+ v = Const(0, 4) == Const(0, 6)
+ self.assertEqual(repr(v), "(== (const 4'd0) (const 6'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_ne(self):
+ v = Const(0, 4) != Const(0, 6)
+ self.assertEqual(repr(v), "(!= (const 4'd0) (const 6'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_mux(self):
+ s = Const(0)
+ v1 = Mux(s, Const(0, (4, False)), Const(0, (6, False)))
+ self.assertEqual(repr(v1), "(m (const 0'd0) (const 4'd0) (const 6'd0))")
+ self.assertEqual(v1.bits_sign(), (6, False))
+ v2 = Mux(s, Const(0, (4, True)), Const(0, (6, True)))
+ self.assertEqual(v2.bits_sign(), (6, True))
+ v3 = Mux(s, Const(0, (4, True)), Const(0, (4, False)))
+ self.assertEqual(v3.bits_sign(), (5, True))
+ v4 = Mux(s, Const(0, (4, False)), Const(0, (4, True)))
+ self.assertEqual(v4.bits_sign(), (5, True))
+
+ def test_bool(self):
+ v = Const(0).bool()
+ self.assertEqual(repr(v), "(b (const 0'd0))")
+ self.assertEqual(v.bits_sign(), (1, False))
+
+ def test_hash(self):
+ with self.assertRaises(TypeError):
+ hash(Const(0) + Const(0))
+
+
+class SliceTestCase(unittest.TestCase):
+ def test_bits_sign(self):
+ s1 = Const(10)[2]
+ self.assertEqual(s1.bits_sign(), (1, False))
+ s2 = Const(-10)[0:2]
+ self.assertEqual(s2.bits_sign(), (2, False))
+
+ def test_repr(self):
+ s1 = Const(10)[2]
+ self.assertEqual(repr(s1), "(slice (const 4'd10) 2:3)")
+
+
+class CatTestCase(unittest.TestCase):
+ def test_bits_sign(self):
+ c1 = Cat(Const(10))
+ self.assertEqual(c1.bits_sign(), (4, False))
+ c2 = Cat(Const(10), Const(1))
+ self.assertEqual(c2.bits_sign(), (5, False))
+ c3 = Cat(Const(10), Const(1), Const(0))
+ self.assertEqual(c3.bits_sign(), (5, False))
+
+ def test_repr(self):
+ c1 = Cat(Const(10), Const(1))
+ self.assertEqual(repr(c1), "(cat (const 4'd10) (const 1'd1))")
+
+
+class ReplTestCase(unittest.TestCase):
+ def test_bits_sign(self):
+ r1 = Repl(Const(10), 3)
+ self.assertEqual(r1.bits_sign(), (12, False))
+
+ 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):
+ r1 = Repl(Const(10), 3)
+ self.assertEqual(repr(r1), "(repl (const 4'd10) 3)")
+
+
+class SignalTestCase(unittest.TestCase):
+ def test_bits_sign(self):
+ s1 = Signal()
+ self.assertEqual(s1.bits_sign(), (1, False))
+ s2 = Signal(2)
+ self.assertEqual(s2.bits_sign(), (2, False))
+ s3 = Signal((2, False))
+ self.assertEqual(s3.bits_sign(), (2, False))
+ s4 = Signal((2, True))
+ self.assertEqual(s4.bits_sign(), (2, True))
+ s5 = Signal(max=16)
+ self.assertEqual(s5.bits_sign(), (4, False))
+ s6 = Signal(min=4, max=16)
+ self.assertEqual(s6.bits_sign(), (4, False))
+ s7 = Signal(min=-4, max=16)
+ self.assertEqual(s7.bits_sign(), (5, True))
+ s8 = Signal(min=-20, max=16)
+ self.assertEqual(s8.bits_sign(), (6, True))
+
+ with self.assertRaises(ValueError):
+ Signal(min=10, max=4)
+ with self.assertRaises(ValueError):
+ Signal(2, min=10)
+ with self.assertRaises(TypeError):
+ 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_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.bits_sign(), (4, False))
+ s2 = Signal.like(Signal(min=-15))
+ self.assertEqual(s2.bits_sign(), (5, True))
+ 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(10)
+ self.assertEqual(s5.bits_sign(), (4, False))
+
+
+class ClockSignalTestCase(unittest.TestCase):
+ def test_domain(self):
+ s1 = ClockSignal()
+ self.assertEqual(s1.domain, "sync")
+ s2 = ClockSignal("pix")
+ self.assertEqual(s2.domain, "pix")
+
+ with self.assertRaises(TypeError):
+ ClockSignal(1)
+
+ def test_repr(self):
+ s1 = ClockSignal()
+ self.assertEqual(repr(s1), "(clk sync)")
+
+
+class ResetSignalTestCase(unittest.TestCase):
+ def test_domain(self):
+ s1 = ResetSignal()
+ self.assertEqual(s1.domain, "sync")
+ s2 = ResetSignal("pix")
+ self.assertEqual(s2.domain, "pix")
+
+ with self.assertRaises(TypeError):
+ ResetSignal(1)
+
+ def test_repr(self):
+ s1 = ResetSignal()
+ self.assertEqual(repr(s1), "(reset sync)")
projects / nmigen.git / commitdiff