self.assertEqual(CR0[CRFields.GT], 0)
self.assertEqual(CR0[CRFields.SO], 0)
+ def test_setvl_ctr_1(self):
+ """setvl CTR mode, testing if VL and MVL are over-ridden
+ """
+ lst = SVP64Asm(["setvl 1, 0, 10, 0, 1, 1",
+ ])
+ lst = list(lst)
+
+ # SVSTATE (in this case, VL=2), want to see if these get changed
+ svstate = SVP64State()
+ svstate.vl = 2 # VL
+ svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+ sprs = {'CTR': 5,
+ }
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate,
+ initial_sprs=sprs)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ self.assertEqual(sim.svstate.vl, 5)
+ self.assertEqual(sim.svstate.maxvl, 10)
+ print(" gpr1", sim.gpr(1))
+ self.assertEqual(sim.gpr(1), SelectableInt(5, 64))
+
+ def test_setvl_ctr_2(self):
+ """setvl CTR large, testing if VL and MVL are over-ridden
+ """
+ lst = SVP64Asm(["setvl 1, 0, 10, 0, 1, 1",
+ ])
+ lst = list(lst)
+
+ # SVSTATE (in this case, VL=2), want to see if these get changed
+ svstate = SVP64State()
+ svstate.vl = 2 # VL
+ svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+ sprs = {'CTR': 0x1000000000,
+ }
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate,
+ initial_sprs=sprs)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ self.assertEqual(sim.svstate.vl, 10)
+ self.assertEqual(sim.svstate.maxvl, 10)
+ print(" gpr1", sim.gpr(1))
+ self.assertEqual(sim.gpr(1), SelectableInt(10, 64))
def test_setvl_1(self):
"""straight setvl, testing if VL and MVL are over-ridden
"""
- lst = SVP64Asm(["setvl 1, 0, 10, 0, 1, 1",
+ lst = SVP64Asm(["setvl 0, 0, 10, 0, 1, 1",
])
lst = list(lst)
print (" mvl", bin(sim.svstate.maxvl))
self.assertEqual(sim.svstate.vl, 10)
self.assertEqual(sim.svstate.maxvl, 10)
- self.assertEqual(sim.svstate.maxvl, 10)
print(" gpr1", sim.gpr(1))
- self.assertEqual(sim.gpr(1), SelectableInt(10, 64))
+ self.assertEqual(sim.gpr(1), SelectableInt(0, 64))
+
+ def test_setvl_2(self):
+ """setvl, testing if VL is transferred to RT, and MVL truncates it
+ """
+ lst = SVP64Asm(["setvl 1, 0, 2, 0, 0, 1",
+ ])
+ lst = list(lst)
+
+ # SVSTATE (in this case, VL=2), want to see if these get changed
+ svstate = SVP64State()
+ svstate.vl = 10 # VL
+ svstate.maxvl = 10 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ self.assertEqual(sim.svstate.maxvl, 2)
+ self.assertEqual(sim.svstate.vl, 2)
+ print(" gpr1", sim.gpr(1))
+ self.assertEqual(sim.gpr(1), SelectableInt(2, 64))
def test_svstep_inner_loop_6(self):
- """tests svstep inner loop, running 6 times, looking for "k"
+ """tests svstep inner loop, running 6 times, looking for "k".
+ also sees if k is actually output into reg 2 (RT=2)
"""
lst = SVP64Asm([
# set triple butterfly mode with persistent "REMAP"
"setvl. 0, 0, 2, 1, 0, 0",# svstep (Rc=1)
"setvl. 0, 0, 2, 1, 0, 0",# svstep (Rc=1)
"setvl. 0, 0, 2, 1, 0, 0",# svstep (Rc=1)
- "setvl. 0, 0, 2, 1, 0, 0",# svstep (Rc=1)
+ "setvl. 2, 0, 2, 1, 0, 0",# svstep (Rc=1)
])
lst = list(lst)
# svstep called twice, didn't reach VL, so srcstep/dststep both 2
self.assertEqual(sim.svstate.srcstep, 6)
self.assertEqual(sim.svstate.dststep, 6)
- self.assertEqual(sim.gpr(0), SelectableInt(0, 64))
+ self.assertEqual(sim.gpr(2), SelectableInt(1, 64))
self.assertEqual(sim.svstate.vfirst, 1)
CR0 = sim.crl[0]
print(" CR0", bin(CR0.get_range().value))
self.assertEqual(CR0[CRFields.GT], 0)
self.assertEqual(CR0[CRFields.SO], 0)
+ def test_svstep_inner_loop_4_jl(self):
+ """tests svstep inner loop, running 4 times, checking
+ "jl" is returned after 4th iteration
+ """
+ lst = SVP64Asm([
+ # set triple butterfly mode with persistent "REMAP"
+ "svshape 8, 1, 1, 1, 1",
+ "svremap 31, 1, 0, 2, 0, 1, 1",
+ "setvl. 0, 0, 2, 1, 0, 0",# svstep (Rc=1)
+ "setvl. 0, 0, 2, 1, 0, 0",# svstep (Rc=1)
+ "setvl. 0, 0, 2, 1, 0, 0", # svstep (Rc=1)
+ "setvl. 2, 0, 2, 1, 0, 0", # svstep (Rc=1)
+ ])
+ lst = list(lst)
+
+ # SVSTATE
+ svstate = SVP64State()
+ #svstate.vl = 2 # VL
+ #svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ print (" srcstep", bin(sim.svstate.srcstep))
+ print (" dststep", bin(sim.svstate.dststep))
+ print (" vfirst", bin(sim.svstate. vfirst))
+ self.assertEqual(sim.svstate.vl, 12)
+ self.assertEqual(sim.svstate.maxvl, 12)
+ # svstep called twice, didn't reach VL, so srcstep/dststep both 2
+ self.assertEqual(sim.svstate.srcstep, 4)
+ self.assertEqual(sim.svstate.dststep, 4)
+ self.assertEqual(sim.gpr(2), SelectableInt(6, 64))
+ self.assertEqual(sim.svstate.vfirst, 1)
+ CR0 = sim.crl[0]
+ print(" CR0", bin(CR0.get_range().value))
+ self.assertEqual(CR0[CRFields.EQ], 0)
+ self.assertEqual(CR0[CRFields.LT], 1)
+ self.assertEqual(CR0[CRFields.GT], 0)
+ self.assertEqual(CR0[CRFields.SO], 0)
+
+ def test_svstep_inner_loop_8_jl(self):
+ """tests svstep inner loop, running 8 times (sv.setvl.), checking
+ jl is copied into a *Vector* result.
+
+ fuuun...
+ """
+ lst = SVP64Asm([
+ # set DCT triple butterfly mode with persistent "REMAP"
+ "svshape 8, 1, 1, 2, 0",
+ "svremap 0, 0, 0, 2, 0, 1, 1",
+ "sv.svstep *2, 4, 1", # svstep get vector of ci
+ "sv.svstep *16, 3, 1", # svstep get vector of step
+ ])
+ lst = list(lst)
+
+ # SVSTATE
+ svstate = SVP64State()
+ #svstate.vl = 2 # VL
+ #svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ print (" srcstep", bin(sim.svstate.srcstep))
+ print (" dststep", bin(sim.svstate.dststep))
+ print (" vfirst", bin(sim.svstate. vfirst))
+ self.assertEqual(sim.svstate.vl, 12)
+ self.assertEqual(sim.svstate.maxvl, 12)
+ # svstep called four times, reset occurs, srcstep zero
+ self.assertEqual(sim.svstate.srcstep, 0)
+ self.assertEqual(sim.svstate.dststep, 0)
+ for i in range(4):
+ self.assertEqual(sim.gpr(2+i), SelectableInt(8, 64))
+ self.assertEqual(sim.gpr(6+i), SelectableInt(4, 64))
+ self.assertEqual(sim.gpr(10+i), SelectableInt(2, 64))
+ self.assertEqual(sim.gpr(16+i), SelectableInt(i, 64))
+ self.assertEqual(sim.gpr(24+i), SelectableInt(0, 64))
+ for i in range(2):
+ self.assertEqual(sim.gpr(20+i), SelectableInt(i, 64))
+ self.assertEqual(sim.gpr(22+i), SelectableInt(i, 64))
+ self.assertEqual(sim.svstate.vfirst, 0)
+ CR0 = sim.crl[0]
+ print(" CR0", bin(CR0.get_range().value))
+ self.assertEqual(CR0[CRFields.EQ], 0)
+ self.assertEqual(CR0[CRFields.LT], 0)
+ self.assertEqual(CR0[CRFields.GT], 0)
+ self.assertEqual(CR0[CRFields.SO], 0)
+
def test_sv_add(self):
"""sets VL=2 then adds:
* 1 = 5 + 9 => 0x5555 = 0x4321+0x1234
* 2 = 6 + 10 => 0x3334 = 0x2223+0x1111
"""
- isa = SVP64Asm(["setvl 3, 0, 2, 0, 1, 1",
- 'sv.add 1.v, 5.v, 9.v'
+ isa = SVP64Asm(["setvl 0, 0, 2, 0, 1, 1",
+ 'sv.add *1, *5, *9',
+ "setvl 3, 0, 0, 0, 0, 0",
])
lst = list(isa)
print ("listing", lst)
def test_svstep_add_1(self):
"""tests svstep with an add, when it reaches VL
- lst = SVP64Asm(["setvl 3, 0, 2, 1, 1, 1",
- 'sv.add 1.v, 5.v, 9.v',
+ lst = SVP64Asm(["setvl 0, 0, 2, 1, 1, 1",
+ 'sv.add *1, *5, *9',
"setvl. 0, 0, 1, 1, 0, 0",
- 'sv.add 1.v, 5.v, 9.v',
- "setvl. 0, 0, 1, 1, 0, 0"
+ 'sv.add *1, *5, *9',
+ "setvl. 3, 0, 1, 1, 0, 0"
])
sequence is as follows:
* setvl sets VL=2 but also "Vertical First" mode.
- this sets MSR[SVF].
+ this sets SVSTATE[SVF].
* first add, which has srcstep/dststep = 0, does add 1,5,9
* svstep EXPLICITLY walks srcstep/dststep to next element
* second add, which now has srcstep/dststep = 1, does add 2,6,10
* svstep EXPLICITLY walks srcstep/dststep to next element,
which now equals VL. srcstep and dststep are both set to
- zero, and MSR[SVF] is cleared.
+ zero
"""
- lst = SVP64Asm(["setvl 3, 0, 2, 1, 1, 1",
- 'sv.add 1.v, 5.v, 9.v',
+ lst = SVP64Asm(["setvl 0, 0, 2, 1, 1, 1",
+ 'sv.add *1, *5, *9',
"setvl. 0, 0, 1, 1, 0, 0", # svstep
- 'sv.add 1.v, 5.v, 9.v',
- "setvl. 0, 0, 1, 1, 0, 0" # svstep
+ 'sv.add *1, *5, *9',
+ "setvl. 3, 0, 1, 1, 0, 0", # svstep
+ "setvl 4, 0, 0, 0, 0, 0" # svstep
])
lst = list(lst)
expected_regs = deepcopy(initial_regs)
expected_regs[1] = 0x5555
expected_regs[2] = 0x3334
- expected_regs[3] = 2 # setvl places copy of VL here
+ expected_regs[4] = 2 # setvl places copy of VL here
with Program(lst, bigendian=False) as program:
sim = self.run_tst_program(program, initial_regs, svstate=svstate)
def test_svstep_add_2(self):
"""tests svstep with a branch.
- lst = SVP64Asm(["setvl 3, 0, 2, 1, 1, 1",
- 'sv.add 1.v, 5.v, 9.v',
+ lst = SVP64Asm(["setvl 0, 0, 2, 1, 1, 1",
+ 'sv.add *1, *5, *9',
"setvl. 0, 0, 1, 1, 0, 0",
"bc 6, 3, -0xc"
])
first, then looping back and running all element 1, then all element 2
etc.
"""
- lst = SVP64Asm(["setvl 3, 0, 2, 1, 1, 1",
- 'sv.add 1.v, 5.v, 9.v',
+ lst = SVP64Asm(["setvl 0, 0, 2, 1, 1, 1",
+ 'sv.add *1, *5, *9',
"setvl. 0, 0, 1, 1, 0, 0", # svstep - this is 64-bit!
"bc 6, 3, -0xc" # branch to add (64-bit op so -0xc!)
])
expected_regs = deepcopy(initial_regs)
expected_regs[1] = 0x5555
expected_regs[2] = 0x3334
- expected_regs[3] = 2 # setvl places copy of VL here
with Program(lst, bigendian=False) as program:
sim = self.run_tst_program(program, initial_regs, svstate=svstate)
self.assertEqual(svstate.mo1, 3)
self.assertEqual(svstate.RMpst, 1)
+ def test_svstep_iota(self):
+ """tests svstep "straight", placing srcstep, dststep into vector
+ """
+ lst = SVP64Asm(["setvl 0, 0, 4, 0, 1, 1",
+ "sv.svstep *0, 5, 1", # svstep get vector srcstep
+ "sv.svstep. *4, 6, 1", # svstep get vector dststep
+ ])
+ lst = list(lst)
+
+ # SVSTATE
+ svstate = SVP64State()
+ #svstate.vl = 2 # VL
+ #svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ print (" srcstep", bin(sim.svstate.srcstep))
+ print (" dststep", bin(sim.svstate.dststep))
+ print (" vfirst", bin(sim.svstate. vfirst))
+ self.assertEqual(sim.svstate.vl, 4)
+ self.assertEqual(sim.svstate.maxvl, 4)
+ # svstep called four times, reset occurs, srcstep zero
+ self.assertEqual(sim.svstate.srcstep, 0)
+ self.assertEqual(sim.svstate.dststep, 0)
+ for i in range(4):
+ self.assertEqual(sim.gpr(0+i), SelectableInt(i, 64))
+ self.assertEqual(sim.gpr(4+i), SelectableInt(i, 64))
+ self.assertEqual(sim.svstate.vfirst, 0)
+ CR0 = sim.crl[0]
+ print(" CR0", bin(CR0.get_range().value))
+ self.assertEqual(CR0[CRFields.EQ], 0)
+ self.assertEqual(CR0[CRFields.LT], 0)
+ self.assertEqual(CR0[CRFields.GT], 0)
+ self.assertEqual(CR0[CRFields.SO], 1)
+
+ def test_svstep_iota_mask(self):
+ """tests svstep "straight", placing srcstep, dststep into vector
+ """
+ lst = SVP64Asm(["setvl 0, 0, 5, 0, 1, 1",
+ "sv.svstep/m=r30 *0, 5, 1", # svstep get vector srcstep
+ "sv.svstep./m=r30 *8, 6, 1", # svstep get vector dststep
+ ])
+ lst = list(lst)
+
+ # SVSTATE
+ svstate = SVP64State()
+ #svstate.vl = 2 # VL
+ #svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+
+ mask = 0b10101
+ initial_regs = [0] * 32
+ initial_regs[30] = mask
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate,
+ initial_regs=initial_regs)
+ print ("SVSTATE after", bin(sim.svstate.asint()))
+ print (" vl", bin(sim.svstate.vl))
+ print (" mvl", bin(sim.svstate.maxvl))
+ print (" srcstep", bin(sim.svstate.srcstep))
+ print (" dststep", bin(sim.svstate.dststep))
+ print (" vfirst", bin(sim.svstate. vfirst))
+ self.assertEqual(sim.svstate.vl, 5)
+ self.assertEqual(sim.svstate.maxvl, 5)
+ # svstep called four times, reset occurs, srcstep zero
+ self.assertEqual(sim.svstate.srcstep, 0)
+ self.assertEqual(sim.svstate.dststep, 0)
+ sim.gpr.dump()
+ for i in range(5):
+ if mask & (1<<i):
+ tst = i
+ else:
+ tst = 0
+ self.assertEqual(sim.gpr(0+i), SelectableInt(tst, 64))
+ self.assertEqual(sim.gpr(8+i), SelectableInt(tst, 64))
+ self.assertEqual(sim.svstate.vfirst, 0)
+ CR4 = sim.crl[4]
+ print(" CR4", bin(CR4.get_range().value))
+ self.assertEqual(CR4[CRFields.EQ], 0)
+ self.assertEqual(CR4[CRFields.LT], 0)
+ self.assertEqual(CR4[CRFields.GT], 0)
+ self.assertEqual(CR4[CRFields.SO], 0)
+
def run_tst_program(self, prog, initial_regs=None,
- svstate=None):
+ svstate=None,
+ initial_sprs=None):
if initial_regs is None:
initial_regs = [0] * 32
- simulator = run_tst(prog, initial_regs, svstate=svstate)
+ simulator = run_tst(prog, initial_regs, svstate=svstate,
+ initial_sprs=initial_sprs)
simulator.gpr.dump()
return simulator