From 98999d9ed1f4f34dfa6758f9137f3b683ff13e09 Mon Sep 17 00:00:00 2001 From: Luke Kenneth Casson Leighton Date: Fri, 15 Dec 2023 23:23:37 +0000 Subject: [PATCH] bug 676: add first cut at maxloc copy/paste from ddffirst test --- .../decoder/isa/test_caller_svp64_maxloc.py | 376 ++++++++++++++++++ 1 file changed, 376 insertions(+) create mode 100644 src/openpower/decoder/isa/test_caller_svp64_maxloc.py diff --git a/src/openpower/decoder/isa/test_caller_svp64_maxloc.py b/src/openpower/decoder/isa/test_caller_svp64_maxloc.py new file mode 100644 index 00000000..a22b0d6d --- /dev/null +++ b/src/openpower/decoder/isa/test_caller_svp64_maxloc.py @@ -0,0 +1,376 @@ +"""Implementation of FORTRAN MAXLOC SVP64 +Copyright (C) 2022,2023 Luke Kenneth Casson Leighton +Licensed under the LGPLv3+ +Funded by NLnet NGI-ASSURE under EU grant agreement No 957073. +* https://nlnet.nl/project/Libre-SOC-OpenPOWER-ISA +* https://bugs.libre-soc.org/show_bug.cgi?id=676 +* https://libre-soc.org/openpower/sv/cookbook/fortran_maxloc/ +""" + +import unittest +from copy import deepcopy + +from nmutil.formaltest import FHDLTestCase +from openpower.decoder.isa.caller import SVP64State +from openpower.decoder.isa.test_caller import run_tst +from openpower.decoder.selectable_int import SelectableInt +from openpower.simulator.program import Program +from openpower.insndb.asm import SVP64Asm +from openpower.util import log + + + +# example sv.cmpi/ff=lt 0, 1, *10, 5 +# see https://bugs.libre-soc.org/show_bug.cgi?id=1183#c3 +def sv_maxu(gpr, CR, vl, ra, rb, rt): + i = 0 + while i < vl: + CR[0] = cmpd(gpr[ra+i], gpr[rb]) + log("sv_maxss test", i, gpr[ra + i], gpr[rb], CR[0], int(CR[0])) + gpr[rt] = gpr[ra+i] if CR[0].lt else gpr[rb] + if not CR[0].gt: + break + i += 1 + return i # new VL + + +class DDFFirstTestCase(FHDLTestCase): + + def _check_regs(self, sim, expected): + for i in range(32): + self.assertEqual(sim.gpr(i), SelectableInt(expected[i], 64)) + + def test_sv_maxloc_1(self): + self.sv_maxloc([1,2,3,4]) + + def tst_sv_maxloc_2(self): + self.sv_maxloc([3,4,1,0]) + + def tst_sv_maxloc_3(self): + self.sv_maxloc([2,9,8,0]) + + def tst_sv_maxloc_4(self): + self.sv_maxloc([2,1,3,0]) + + def sv_maxloc(self, ra): + lst = SVP64Asm(["sv.minmax./ff=le 4, *10, 4, 1" # scalar RB=RT + ]) + lst = list(lst) + + # SVSTATE + svstate = SVP64State() + vl = len(ra) # VL is length of array ra + svstate.vl = vl # VL + svstate.maxvl = vl # MAXVL + print("SVSTATE", bin(svstate.asint())) + + gprs = [0] * 32 + gprs[4] = rb # (RT&RB) accumulator in r4 + for i, ra in enumerate(ra): # vector in ra starts at r10 + gprs[10+i] = ra + log("maxu ddff", i, gprs[10+i]) + + cr_res = [0]*8 + res = deepcopy(gprs) + + expected_vl = sv_maxu(res, cr_res, vl, 10, 4, 4) + log("sv_maxu", expected_vl, cr_res) + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs, + svstate=svstate) + for i in range(4): + val = sim.gpr(i).value + res.append(val) + cr_res.append(0) + log("i", i, val) + # confirm that the results are as expected + + for i, v in enumerate(cr_res[:vl]): + crf = sim.crl[i].get_range().value + log("crf", i, res[i], bin(crf), bin(int(v))) + self.assertEqual(crf, int(v)) + + for i, v in enumerate(res): + self.assertEqual(v, res[i]) + + self.assertEqual(sim.svstate.vl, expected_vl) + self.assertEqual(sim.svstate.maxvl, 4) + self.assertEqual(sim.svstate.srcstep, 0) + self.assertEqual(sim.svstate.dststep, 0) + + def test_1(self): + lst = SVP64Asm(["sv.cmpi/ff=lt 0, 1, *10, 5" + ]) + lst = list(lst) + + # SVSTATE + svstate = SVP64State() + vl = 3 # VL + svstate.vl = vl # VL + svstate.maxvl = vl # MAXVL + print("SVSTATE", bin(svstate.asint())) + + gprs = [0] * 32 + gprs[10] = 7 + gprs[11] = 5 + gprs[12] = 12 + + res = [] + cr_res = [0]*8 + + newvl = sv_cmpi(gprs, cr_res, vl, 10, 5) + log("sv_cmpi", newvl, cr_res) + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs, + svstate=svstate) + for i in range(4): + val = sim.gpr(i).value + res.append(val) + cr_res.append(0) + print("i", i, val) + # confirm that the results are as expected + expected = deepcopy(vec) + expected_vl = 0 + for i in range(4): + # calculate expected result and expected CR field + result = vec[i] - gprs[8] + crf = ((result==0)<<1) | ((result > 0)<<2) | ((result < 0) << 3) + cr_res[i] = crf + if result <= 0: + break + # VLi=0 - test comes FIRST! + expected[i] = result + # only write out if successful + expected_vl += 1 + + for i, v in enumerate(cr_res): + crf = sim.crl[i].get_range().value + print ("crf", i, res[i], bin(crf), bin(v)) + self.assertEqual(crf, v) + + for i, v in enumerate(res): + self.assertEqual(v, expected[i]) + + self.assertEqual(sim.svstate.vl, expected_vl) + self.assertEqual(sim.svstate.maxvl, 4) + self.assertEqual(sim.svstate.srcstep, 0) + self.assertEqual(sim.svstate.dststep, 0) + + def test_sv_addi_ffirst_le(self): + lst = SVP64Asm(["sv.subf./ff=le *0,8,*0" + ]) + lst = list(lst) + + # SVSTATE + svstate = SVP64State() + svstate.vl = 4 # VL + svstate.maxvl = 4 # MAXVL + print("SVSTATE", bin(svstate.asint())) + + gprs = [0] * 64 + gprs[8] = 3 + vec = [9, 8, 3, 4] + + res = [] + cr_res = [] + # store GPRs + for i, x in enumerate(vec): + gprs[i] = x + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs, + svstate=svstate) + for i in range(4): + val = sim.gpr(i).value + res.append(val) + cr_res.append(0) + print("i", i, val) + # confirm that the results are as expected + expected = deepcopy(vec) + expected_vl = 0 + for i in range(4): + # calculate expected result and expected CR field + result = vec[i] - gprs[8] + crf = ((result==0)<<1) | ((result > 0)<<2) | ((result < 0) << 3) + cr_res[i] = crf + if result <= 0: + break + # VLi=0 - test comes FIRST! + expected[i] = result + # only write out if successful + expected_vl += 1 + + for i, v in enumerate(cr_res): + crf = sim.crl[i].get_range().value + print ("crf", i, res[i], bin(crf), bin(v)) + self.assertEqual(crf, v) + + for i, v in enumerate(res): + self.assertEqual(v, expected[i]) + + self.assertEqual(sim.svstate.vl, expected_vl) + self.assertEqual(sim.svstate.maxvl, 4) + self.assertEqual(sim.svstate.srcstep, 0) + self.assertEqual(sim.svstate.dststep, 0) + + def test_sv_addi_ffirst(self): + lst = SVP64Asm(["sv.subf./ff=eq *0,8,*0" + ]) + lst = list(lst) + + # SVSTATE + svstate = SVP64State() + svstate.vl = 4 # VL + svstate.maxvl = 4 # MAXVL + print("SVSTATE", bin(svstate.asint())) + + gprs = [0] * 64 + gprs[8] = 3 + vec = [9, 8, 3, 4] + + res = [] + cr_res = [] + # store GPRs + for i, x in enumerate(vec): + gprs[i] = x + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs, + svstate=svstate) + for i in range(4): + val = sim.gpr(i).value + res.append(val) + cr_res.append(0) + print("i", i, val) + # confirm that the results are as expected + expected = deepcopy(vec) + for i in range(4): + result = vec[i] - gprs[8] + crf = ((result==0)<<1) | ((result > 0)<<2) | ((result < 0) << 3) + cr_res[i] = crf + if result == 0: + break + # VLi=0 - test comes FIRST! + expected[i] = result + for i, v in enumerate(cr_res): + crf = sim.crl[i].get_range().value + print ("crf", i, res[i], bin(crf), bin(v)) + self.assertEqual(crf, v) + + for i, v in enumerate(res): + self.assertEqual(v, expected[i]) + + self.assertEqual(sim.svstate.vl, 2) + self.assertEqual(sim.svstate.maxvl, 4) + self.assertEqual(sim.svstate.srcstep, 0) + self.assertEqual(sim.svstate.dststep, 0) + + def test_sv_addi_ffirst_rc1(self): + lst = SVP64Asm(["sv.subf/ff=RC1 *0,8,*0" # RC1 auto-sets EQ (and Rc=1) + ]) + lst = list(lst) + + # SVSTATE + svstate = SVP64State() + svstate.vl = 4 # VL + svstate.maxvl = 4 # MAXVL + print("SVSTATE", bin(svstate.asint())) + + gprs = [0] * 64 + gprs[8] = 3 + vec = [9, 8, 3, 4] + + res = [] + # store GPRs + for i, x in enumerate(vec): + gprs[i] = x + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs, + svstate=svstate) + for i in range(4): + val = sim.gpr(i).value + res.append(val) + print("i", i, val) + # confirm that the results are as expected + expected = deepcopy(vec) + for i in range(4): + result = expected[i] - gprs[8] + if result == 0: + break + # VLi=0 - test comes FIRST! + expected[i] = result + for i, v in enumerate(res): + self.assertEqual(v, expected[i]) + + self.assertEqual(sim.svstate.vl, 2) + self.assertEqual(sim.svstate.maxvl, 4) + self.assertEqual(sim.svstate.srcstep, 0) + self.assertEqual(sim.svstate.dststep, 0) + + def test_sv_addi_ffirst_vli(self): + """data-dependent fail-first with VLi=1, the test comes *after* write + """ + lst = SVP64Asm(["sv.subf/ff=RC1/vli *0,8,*0" + ]) + lst = list(lst) + + # SVSTATE + svstate = SVP64State() + svstate.vl = 4 # VL + svstate.maxvl = 4 # MAXVL + print("SVSTATE", bin(svstate.asint())) + + gprs = [0] * 64 + gprs[8] = 3 + vec = [9, 8, 3, 4] + + res = [] + # store GPRs + for i, x in enumerate(vec): + gprs[i] = x + + with Program(lst, bigendian=False) as program: + sim = self.run_tst_program(program, initial_regs=gprs, + svstate=svstate) + for i in range(4): + val = sim.gpr(i).value + res.append(val) + print("i", i, val) + # confirm that the results are as expected + expected = deepcopy(vec) + for i in range(4): + # VLi=1 - test comes AFTER write! + expected[i] -= gprs[8] + if expected[i] == 0: + break + for i, v in enumerate(res): + self.assertEqual(v, expected[i]) + + self.assertEqual(sim.svstate.vl, 3) + self.assertEqual(sim.svstate.maxvl, 4) + self.assertEqual(sim.svstate.srcstep, 0) + self.assertEqual(sim.svstate.dststep, 0) + + def run_tst_program(self, prog, initial_regs=None, + svstate=None, + initial_mem=None, + initial_fprs=None): + if initial_regs is None: + initial_regs = [0] * 32 + simulator = run_tst(prog, initial_regs, mem=initial_mem, + initial_fprs=initial_fprs, + svstate=svstate) + + print("GPRs") + simulator.gpr.dump() + print("FPRs") + simulator.fpr.dump() + + return simulator + + +if __name__ == "__main__": + unittest.main() -- 2.30.2