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amaranth/nmigen/test/test_hdl_xfrm.py
whitequark 44711b7d08 hdl.ir: detect elaboratables that are created but not used. 
Requres every elaboratable to inherit from Elaboratable, but still
accepts ones that do not, with a warning.

Fixes #3.
2019-04-21 08:52:57 +00:00

535 lines
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Python
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from ..hdl.ast import *
from ..hdl.cd import *
from ..hdl.ir import *
from ..hdl.xfrm import *
from .tools import *
class DomainRenamerTestCase(FHDLTestCase):
def setUp(self):
self.s1 = Signal()
self.s2 = Signal()
self.s3 = Signal()
self.s4 = Signal()
self.s5 = Signal()
self.c1 = Signal()
def test_rename_signals(self):
f = Fragment()
f.add_statements(
self.s1.eq(ClockSignal()),
ResetSignal().eq(self.s2),
self.s3.eq(0),
self.s4.eq(ClockSignal("other")),
self.s5.eq(ResetSignal("other")),
)
f.add_driver(self.s1, None)
f.add_driver(self.s2, None)
f.add_driver(self.s3, "sync")
f = DomainRenamer("pix")(f)
self.assertRepr(f.statements, """
(
(eq (sig s1) (clk pix))
(eq (rst pix) (sig s2))
(eq (sig s3) (const 1'd0))
(eq (sig s4) (clk other))
(eq (sig s5) (rst other))
)
""")
self.assertEqual(f.drivers, {
None: SignalSet((self.s1, self.s2)),
"pix": SignalSet((self.s3,)),
})
def test_rename_multi(self):
f = Fragment()
f.add_statements(
self.s1.eq(ClockSignal()),
self.s2.eq(ResetSignal("other")),
)
f = DomainRenamer({"sync": "pix", "other": "pix2"})(f)
self.assertRepr(f.statements, """
(
(eq (sig s1) (clk pix))
(eq (sig s2) (rst pix2))
)
""")
def test_rename_cd(self):
cd_sync = ClockDomain()
cd_pix = ClockDomain()
f = Fragment()
f.add_domains(cd_sync, cd_pix)
f = DomainRenamer("ext")(f)
self.assertEqual(cd_sync.name, "ext")
self.assertEqual(f.domains, {
"ext": cd_sync,
"pix": cd_pix,
})
def test_rename_cd_subfragment(self):
cd_sync = ClockDomain()
cd_pix = ClockDomain()
f1 = Fragment()
f1.add_domains(cd_sync, cd_pix)
f2 = Fragment()
f2.add_domains(cd_sync)
f1.add_subfragment(f2)
f1 = DomainRenamer("ext")(f1)
self.assertEqual(cd_sync.name, "ext")
self.assertEqual(f1.domains, {
"ext": cd_sync,
"pix": cd_pix,
})
class DomainLowererTestCase(FHDLTestCase):
def setUp(self):
self.s = Signal()
def test_lower_clk(self):
sync = ClockDomain()
f = Fragment()
f.add_statements(
self.s.eq(ClockSignal("sync"))
)
f = DomainLowerer({"sync": sync})(f)
self.assertRepr(f.statements, """
(
(eq (sig s) (sig clk))
)
""")
def test_lower_rst(self):
sync = ClockDomain()
f = Fragment()
f.add_statements(
self.s.eq(ResetSignal("sync"))
)
f = DomainLowerer({"sync": sync})(f)
self.assertRepr(f.statements, """
(
(eq (sig s) (sig rst))
)
""")
def test_lower_rst_reset_less(self):
sync = ClockDomain(reset_less=True)
f = Fragment()
f.add_statements(
self.s.eq(ResetSignal("sync", allow_reset_less=True))
)
f = DomainLowerer({"sync": sync})(f)
self.assertRepr(f.statements, """
(
(eq (sig s) (const 1'd0))
)
""")
def test_lower_drivers(self):
pix = ClockDomain()
f = Fragment()
f.add_driver(ClockSignal("pix"), None)
f.add_driver(ResetSignal("pix"), "sync")
f = DomainLowerer({"pix": pix})(f)
self.assertEqual(f.drivers, {
None: SignalSet((pix.clk,)),
"sync": SignalSet((pix.rst,))
})
def test_lower_wrong_domain(self):
sync = ClockDomain()
f = Fragment()
f.add_statements(
self.s.eq(ClockSignal("xxx"))
)
with self.assertRaises(DomainError,
msg="Signal (clk xxx) refers to nonexistent domain 'xxx'"):
DomainLowerer({"sync": sync})(f)
def test_lower_wrong_reset_less_domain(self):
sync = ClockDomain(reset_less=True)
f = Fragment()
f.add_statements(
self.s.eq(ResetSignal("sync"))
)
with self.assertRaises(DomainError,
msg="Signal (rst sync) refers to reset of reset-less domain 'sync'"):
DomainLowerer({"sync": sync})(f)
class SampleLowererTestCase(FHDLTestCase):
def setUp(self):
self.i = Signal()
self.o1 = Signal()
self.o2 = Signal()
self.o3 = Signal()
def test_lower_signal(self):
f = Fragment()
f.add_statements(
self.o1.eq(Sample(self.i, 2, "sync")),
self.o2.eq(Sample(self.i, 1, "sync")),
self.o3.eq(Sample(self.i, 1, "pix")),
)
f = SampleLowerer()(f)
self.assertRepr(f.statements, """
(
(eq (sig o1) (sig $sample$s$i$sync$2))
(eq (sig o2) (sig $sample$s$i$sync$1))
(eq (sig o3) (sig $sample$s$i$pix$1))
(eq (sig $sample$s$i$sync$1) (sig i))
(eq (sig $sample$s$i$sync$2) (sig $sample$s$i$sync$1))
(eq (sig $sample$s$i$pix$1) (sig i))
)
""")
self.assertEqual(len(f.drivers["sync"]), 2)
self.assertEqual(len(f.drivers["pix"]), 1)
def test_lower_const(self):
f = Fragment()
f.add_statements(
self.o1.eq(Sample(1, 2, "sync")),
)
f = SampleLowerer()(f)
self.assertRepr(f.statements, """
(
(eq (sig o1) (sig $sample$c$1$sync$2))
(eq (sig $sample$c$1$sync$1) (const 1'd1))
(eq (sig $sample$c$1$sync$2) (sig $sample$c$1$sync$1))
)
""")
self.assertEqual(len(f.drivers["sync"]), 2)
class SwitchCleanerTestCase(FHDLTestCase):
def test_clean(self):
a = Signal()
b = Signal()
c = Signal()
stmts = [
Switch(a, {
1: a.eq(0),
0: [
b.eq(1),
Switch(b, {1: [
Switch(a|b, {})
]})
]
})
]
self.assertRepr(SwitchCleaner()(stmts), """
(
(switch (sig a)
(case 1
(eq (sig a) (const 1'd0)))
(case 0
(eq (sig b) (const 1'd1)))
)
)
""")
class LHSGroupAnalyzerTestCase(FHDLTestCase):
def test_no_group_unrelated(self):
a = Signal()
b = Signal()
stmts = [
a.eq(0),
b.eq(0),
]
groups = LHSGroupAnalyzer()(stmts)
self.assertEqual(list(groups.values()), [
SignalSet((a,)),
SignalSet((b,)),
])
def test_group_related(self):
a = Signal()
b = Signal()
stmts = [
a.eq(0),
Cat(a, b).eq(0),
]
groups = LHSGroupAnalyzer()(stmts)
self.assertEqual(list(groups.values()), [
SignalSet((a, b)),
])
def test_no_loops(self):
a = Signal()
b = Signal()
stmts = [
a.eq(0),
Cat(a, b).eq(0),
Cat(a, b).eq(0),
]
groups = LHSGroupAnalyzer()(stmts)
self.assertEqual(list(groups.values()), [
SignalSet((a, b)),
])
def test_switch(self):
a = Signal()
b = Signal()
stmts = [
a.eq(0),
Switch(a, {
1: b.eq(0),
})
]
groups = LHSGroupAnalyzer()(stmts)
self.assertEqual(list(groups.values()), [
SignalSet((a,)),
SignalSet((b,)),
])
class LHSGroupFilterTestCase(FHDLTestCase):
def test_filter(self):
a = Signal()
b = Signal()
c = Signal()
stmts = [
Switch(a, {
1: a.eq(0),
0: [
b.eq(1),
Switch(b, {1: []})
]
})
]
self.assertRepr(LHSGroupFilter(SignalSet((a,)))(stmts), """
(
(switch (sig a)
(case 1
(eq (sig a) (const 1'd0)))
(case 0 )
)
)
""")
class ResetInserterTestCase(FHDLTestCase):
def setUp(self):
self.s1 = Signal()
self.s2 = Signal(reset=1)
self.s3 = Signal(reset=1, reset_less=True)
self.c1 = Signal()
def test_reset_default(self):
f = Fragment()
f.add_statements(
self.s1.eq(1)
)
f.add_driver(self.s1, "sync")
f = ResetInserter(self.c1)(f)
self.assertRepr(f.statements, """
(
(eq (sig s1) (const 1'd1))
(switch (sig c1)
(case 1 (eq (sig s1) (const 1'd0)))
)
)
""")
def test_reset_cd(self):
f = Fragment()
f.add_statements(
self.s1.eq(1),
self.s2.eq(0),
)
f.add_domains(ClockDomain("sync"))
f.add_driver(self.s1, "sync")
f.add_driver(self.s2, "pix")
f = ResetInserter({"pix": self.c1})(f)
self.assertRepr(f.statements, """
(
(eq (sig s1) (const 1'd1))
(eq (sig s2) (const 1'd0))
(switch (sig c1)
(case 1 (eq (sig s2) (const 1'd1)))
)
)
""")
def test_reset_value(self):
f = Fragment()
f.add_statements(
self.s2.eq(0)
)
f.add_driver(self.s2, "sync")
f = ResetInserter(self.c1)(f)
self.assertRepr(f.statements, """
(
(eq (sig s2) (const 1'd0))
(switch (sig c1)
(case 1 (eq (sig s2) (const 1'd1)))
)
)
""")
def test_reset_less(self):
f = Fragment()
f.add_statements(
self.s3.eq(0)
)
f.add_driver(self.s3, "sync")
f = ResetInserter(self.c1)(f)
self.assertRepr(f.statements, """
(
(eq (sig s3) (const 1'd0))
(switch (sig c1)
(case 1 )
)
)
""")
class CEInserterTestCase(FHDLTestCase):
def setUp(self):
self.s1 = Signal()
self.s2 = Signal()
self.s3 = Signal()
self.c1 = Signal()
def test_ce_default(self):
f = Fragment()
f.add_statements(
self.s1.eq(1)
)
f.add_driver(self.s1, "sync")
f = CEInserter(self.c1)(f)
self.assertRepr(f.statements, """
(
(eq (sig s1) (const 1'd1))
(switch (sig c1)
(case 0 (eq (sig s1) (sig s1)))
)
)
""")
def test_ce_cd(self):
f = Fragment()
f.add_statements(
self.s1.eq(1),
self.s2.eq(0),
)
f.add_driver(self.s1, "sync")
f.add_driver(self.s2, "pix")
f = CEInserter({"pix": self.c1})(f)
self.assertRepr(f.statements, """
(
(eq (sig s1) (const 1'd1))
(eq (sig s2) (const 1'd0))
(switch (sig c1)
(case 0 (eq (sig s2) (sig s2)))
)
)
""")
def test_ce_subfragment(self):
f1 = Fragment()
f1.add_statements(
self.s1.eq(1)
)
f1.add_driver(self.s1, "sync")
f2 = Fragment()
f2.add_statements(
self.s2.eq(1)
)
f2.add_driver(self.s2, "sync")
f1.add_subfragment(f2)
f1 = CEInserter(self.c1)(f1)
(f2, _), = f1.subfragments
self.assertRepr(f1.statements, """
(
(eq (sig s1) (const 1'd1))
(switch (sig c1)
(case 0 (eq (sig s1) (sig s1)))
)
)
""")
self.assertRepr(f2.statements, """
(
(eq (sig s2) (const 1'd1))
(switch (sig c1)
(case 0 (eq (sig s2) (sig s2)))
)
)
""")
class _MockElaboratable(Elaboratable):
def __init__(self):
self.s1 = Signal()
def elaborate(self, platform):
f = Fragment()
f.add_statements(
self.s1.eq(1)
)
f.add_driver(self.s1, "sync")
return f
class TransformedElaboratableTestCase(FHDLTestCase):
def setUp(self):
self.c1 = Signal()
self.c2 = Signal()
def test_getattr(self):
e = _MockElaboratable()
te = CEInserter(self.c1)(e)
self.assertIs(te.s1, e.s1)
def test_composition(self):
e = _MockElaboratable()
te1 = CEInserter(self.c1)(e)
te2 = ResetInserter(self.c2)(te1)
self.assertIsInstance(te1, TransformedElaboratable)
self.assertIs(te1, te2)
f = Fragment.get(te2, None)
self.assertRepr(f.statements, """
(
(eq (sig s1) (const 1'd1))
(switch (sig c1)
(case 0 (eq (sig s1) (sig s1)))
)
(switch (sig c2)
(case 1 (eq (sig s1) (const 1'd0)))
)
)
""")
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