-import itertools
+import random
import re
-from nmigen import Module, Signal
-from nmigen.back.pysim import Simulator, Settle
from nmutil.formaltest import FHDLTestCase
import unittest
-from openpower.decoder.isa.caller import ISACaller
+
from openpower.decoder.power_decoder import create_pdecode
from openpower.decoder.power_decoder2 import (PowerDecode2)
from openpower.simulator.program import Program
-from openpower.decoder.isa.caller import ISACaller, inject
from openpower.decoder.selectable_int import SelectableInt
-from openpower.decoder.orderedset import OrderedSet
-from openpower.decoder.isa.all import ISA
-
-# addg6s product limitations
-ADDG6S_PRODUCT_LIMIT = 2
+from openpower.decoder.isa.test_runner import run_tst
# PowerISA Version 3.0C Book 1 App. B, Table 129
BCD_TO_DPD_REGEX = re.compile(BCD_TO_DPD_PATTERN, re.M)
-def run_tst(generator, initial_regs, initial_sprs=None, svstate=0, mmu=False,
- initial_cr=0, mem=None,
- initial_fprs=None,
- pdecode2=None):
- if initial_sprs is None:
- initial_sprs = {}
- m = Module()
- comb = m.d.comb
- instruction = Signal(32)
-
- if pdecode2 is None:
- pdecode = create_pdecode(include_fp=initial_fprs is not None)
- pdecode2 = PowerDecode2(pdecode)
-
- gen = list(generator.generate_instructions())
- insncode = generator.assembly.splitlines()
- instructions = list(zip(gen, insncode))
-
- m.submodules.pdecode2 = pdecode2
- simulator = ISA(pdecode2, initial_regs, initial_sprs, initial_cr,
- initial_insns=gen, respect_pc=True,
- initial_svstate=svstate,
- initial_mem=mem,
- fpregfile=initial_fprs,
- disassembly=insncode,
- bigendian=0,
- mmu=mmu)
- comb += pdecode2.dec.raw_opcode_in.eq(instruction)
- sim = Simulator(m)
-
- def process():
-
- print ("GPRs")
- simulator.gpr.dump()
- print ("FPRs")
- simulator.fpr.dump()
-
- yield pdecode2.dec.bigendian.eq(0) # little / big?
- pc = simulator.pc.CIA.value
- index = pc//4
- while index < len(instructions):
- print("instr pc", pc)
- try:
- yield from simulator.setup_one()
- except KeyError: # indicates instruction not in imem: stop
- break
- yield Settle()
-
- ins, code = instructions[index]
- print(" 0x{:X}".format(ins & 0xffffffff))
- opname = code.split(' ')[0]
- print(code, opname)
-
- # ask the decoder to decode this binary data (endian'd)
- yield from simulator.execute_one()
- pc = simulator.pc.CIA.value
- index = pc//4
-
- sim.add_process(process)
- with sim.write_vcd("simulator.vcd", "simulator.gtkw",
- traces=[]):
- sim.run()
- return simulator
-
-
-def testgen(mapping):
+def tstgen(mapping):
zeros = [0] * 32
length = len(mapping)
iregs_whole = list(mapping.keys())
def run_tst(self, instr, mapping):
lst = [f"{instr} {reg}, {reg}" for reg in range(32)]
- for (iregs, oregs) in testgen(mapping):
+ for (iregs, oregs) in tstgen(mapping):
with self.subTest():
with Program(lst, bigendian=False) as program:
sim = self.run_tst_program(program, iregs)
- gprs = [sim.gpr(gpr) for gpr in range(32)]
for gpr in range(32):
self.assertEqual(sim.gpr(gpr),
SelectableInt(oregs[gpr], 64))
for digit in range(0x10):
dpd = int((match[0] + f"{digit:X}"), 16)
bcd = ((int(match[1 + digit][0]) << 8) |
- (int(match[1 + digit][1]) << 4) |
- (int(match[1 + digit][2]) << 0))
+ (int(match[1 + digit][1]) << 4) |
+ (int(match[1 + digit][2]) << 0))
mapping[dpd] = bcd
self.run_tst("cdtbcd", mapping)
for match in BCD_TO_DPD_REGEX.findall(BCD_TO_DPD_TABLE):
for digit in range(10):
bcd = ((int(match[0][0]) << 8) |
- (int(match[0][1]) << 4) |
- (int(digit) << 0))
+ (int(match[0][1]) << 4) |
+ (int(digit) << 0))
dpd = int(match[1 + digit], 16)
mapping[bcd] = dpd
self.run_tst("cbcdtd", mapping)
- @unittest.skip("slowpoke")
def test_addg6s(self):
- def half_adder(a, b):
- (a, b) = map(bool, [a, b])
- carry = a & b
- sum = a ^ b
- return (int(sum), int(carry))
-
- def full_adder(a, b, c):
- (a, b, c) = map(bool, [a, b, c])
- (sum0, carry0) = half_adder(a, b)
- (sum, carry1) = half_adder(sum0, c)
- carry = (carry0 | carry1)
- return (int(sum), int(carry))
-
- def full_adder64(a, b):
- sum = [0] * 64
- carry = [0] * 64
- (sum[0], carry[0]) = half_adder(a[0], b[0])
- for bit in range(1, 64, 1):
- (sum[bit], carry[bit]) = full_adder(a[bit], b[bit], carry[bit - 1])
- return (sum + [carry[63]])
-
+ # Reference implementation for addg6s, adopted to Python.
+ # https://github.com/antonblanchard/microwatt/blob/master/execute1.vhdl
def addg6s(a, b):
- BIT = lambda value, bit: int(bool((value >> bit) & 1))
- a = list(reversed(list(map(lambda bit: BIT(a, bit), range(63, -1, -1)))))
- b = list(reversed(list(map(lambda bit: BIT(b, bit), range(63, -1, -1)))))
- sum = full_adder64(a, b)
+ def bits(value, bits):
+ lsb = [((value >> bit) & 1) for bit in range(bits, -1, -1)]
+ return list(reversed(lsb))
- a_in = lambda bit: a[bit]
- b_in = lambda bit: b[bit]
- sum_with_carry = lambda bit: sum[bit]
+ a_in = bits(a, 64)
+ b_in = bits(b, 64)
+ sum_with_carry = bits((a + b), 65)
addg6s = [0] * 64
- for i in range(15):
+ for i in range(16):
lo = i * 4
hi = (i + 1) * 4
- if (a_in(hi) ^ b_in(hi) ^ (sum_with_carry(hi) == 0)):
- addg6s[lo + 3] = 0
- addg6s[lo + 2] = 1
- addg6s[lo + 1] = 1
- addg6s[lo + 0] = 0
- if sum_with_carry(64) == 0:
- addg6s[63] = 0
- addg6s[62] = 1
- addg6s[61] = 1
- addg6s[60] = 0
+ if (a_in[hi] ^ b_in[hi] ^ (sum_with_carry[hi] == 0)):
+ addg6s[lo:lo + 3 + 1] = [0, 1, 1, 0]
+ if sum_with_carry[64] == 0:
+ addg6s[60:63] = [0, 1, 1, 0]
return int("".join(map(str, reversed(addg6s))), 2)
- cond = lambda item: item[0] < ADDG6S_PRODUCT_LIMIT
- bcd = map(lambda digit: f"{digit:04b}", range(10))
- product = enumerate(itertools.product(bcd, repeat=16))
- sequences = (seq for (_, seq) in itertools.takewhile(cond, product))
- numbers = [int("".join(seq), 2) for seq in sequences]
- iregs = [0] * 32
- for a in numbers:
- for b in numbers:
- rv = addg6s(a, b)
- with self.subTest():
- iregs[2] = b
- iregs[1] = a
- lst = ["addg6s 0, 1, 2"]
- with Program(lst, bigendian=False) as program:
- sim = self.run_tst_program(program, iregs)
- self.assertEqual(sim.gpr(0), SelectableInt(rv, 64))
+ bcd = [f"{digit:04b}" for digit in range(10)]
+ def rng10(): return random.randrange(0, 10)
+ def bcdrng(): return int("".join((bcd[rng10()] for _ in range(16))), 2)
+
+ lst = [f"addg6s {gpr}, {gpr + 0}, {gpr + 1}" for gpr in range(31)]
+ oregs = [0] * 32
+ for _ in range(16):
+ iregs = [bcdrng() for _ in range(32)]
+ for gpr in range(31):
+ oregs[gpr] = addg6s(iregs[gpr + 0], iregs[gpr + 1])
+ with self.subTest():
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, iregs)
+ for gpr in range(31):
+ self.assertEqual(sim.gpr(gpr),
+ SelectableInt(oregs[gpr], 64))
def run_tst_program(self, prog, initial_regs=[0] * 32):
simulator = run_tst(prog, initial_regs, pdecode2=self.pdecode2)