From: Jacob Lifshay Date: Fri, 17 Dec 2021 03:12:54 +0000 (-0800) Subject: add grev test and formal proof X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=045a6b7f70f6b05e500a3b69793c8e955ea00702;p=nmutil.git add grev test and formal proof --- diff --git a/src/nmutil/test/test_grev.py b/src/nmutil/test/test_grev.py new file mode 100644 index 0000000..18e1917 --- /dev/null +++ b/src/nmutil/test/test_grev.py @@ -0,0 +1,73 @@ +# SPDX-License-Identifier: LGPL-3-or-later +# See Notices.txt for copyright information + +import unittest +from nmigen.hdl.ast import AnyConst, Assert +from nmigen.hdl.dsl import Module +from nmutil.formaltest import FHDLTestCase +from nmutil.grev import GRev, grev +from nmigen.sim import Delay +from nmutil.sim_util import do_sim, hash_256 + + +class TestGrev(FHDLTestCase): + def test(self): + log2_width = 6 + width = 2 ** log2_width + dut = GRev(log2_width) + self.assertEqual(width, dut.width) + self.assertEqual(len(dut._steps), log2_width + 1) + + def case(input, chunk_sizes): + expected = grev(input, chunk_sizes, log2_width) + with self.subTest(input=hex(input), chunk_sizes=bin(chunk_sizes), + expected=hex(expected)): + yield dut.input.eq(input) + yield dut.chunk_sizes.eq(chunk_sizes) + yield Delay(1e-6) + output = yield dut.output + with self.subTest(output=hex(output)): + self.assertEqual(expected, output) + for i, step in enumerate(dut._steps): + cur_chunk_sizes = chunk_sizes & (2 ** i - 1) + step_expected = grev(input, cur_chunk_sizes, log2_width) + step = yield step + with self.subTest(i=i, step=hex(step), + cur_chunk_sizes=bin(cur_chunk_sizes), + step_expected=hex(step_expected)): + self.assertEqual(step, step_expected) + + def process(): + for count in range(width + 1): + input = (1 << count) - 1 + for chunk_sizes in range(2 ** log2_width): + yield from case(input, chunk_sizes) + for i in range(100): + input = hash_256(f"grev input {i}") + input &= 2 ** width - 1 + chunk_sizes = hash_256(f"grev 2 {i}") + chunk_sizes &= 2 ** log2_width - 1 + yield from case(input, chunk_sizes) + with do_sim(self, dut, [dut.input, dut.chunk_sizes, + *dut._steps, dut.output]) as sim: + sim.add_process(process) + sim.run() + + def test_formal(self): + log2_width = 4 + dut = GRev(log2_width) + m = Module() + m.submodules.dut = dut + m.d.comb += dut.input.eq(AnyConst(2 ** log2_width)) + m.d.comb += dut.chunk_sizes.eq(AnyConst(log2_width)) + m.d.comb += Assert(dut.output == grev(dut.input, + dut.chunk_sizes, log2_width)) + for i, step in enumerate(dut._steps): + cur_chunk_sizes = dut.chunk_sizes & (2 ** i - 1) + step_expected = grev(dut.input, cur_chunk_sizes, log2_width) + m.d.comb += Assert(step == step_expected) + self.assertFormal(m) + + +if __name__ == "__main__": + unittest.main()