initial_regs[6] = 0x0404
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 2 # VL
- svstate.maxvl[0:7] = 2 # MAXVL
- print ("SVSTATE", bin(svstate.spr.asint()))
+ svstate.vl = 2 # VL
+ svstate.maxvl = 2 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
# copy before running, then compute answers
expected_regs = deepcopy(initial_regs)
# r1 = r1 + r5 + r6
initial_regs[4] = 0x4
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 3 # VL
- svstate.maxvl[0:7] = 3 # MAXVL
- print ("SVSTATE", bin(svstate.spr.asint()))
+ svstate.vl = 3 # VL
+ svstate.maxvl = 3 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
# copy before running, then compute answers
expected_regs = deepcopy(initial_regs)
for i in range(3):
initial_regs[4] = 0x1
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 3 # VL
- svstate.maxvl[0:7] = 3 # MAXVL
- print ("SVSTATE", bin(svstate.spr.asint()))
+ svstate.vl = 3 # VL
+ svstate.maxvl = 3 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
# copy before running, then compute answers
expected_regs = deepcopy(initial_regs)
for i in range(3):
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 3 # VL
- svstate.maxvl[0:7] = 3 # MAXVL
- print ("SVSTATE", bin(svstate.spr.asint()))
+ svstate.vl = 3 # VL
+ svstate.maxvl = 3 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
with Program(lst, bigendian=False) as program:
sim = self.run_tst_program(program, svstate=svstate,
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 2 # VL
- svstate.maxvl[0:7] = 2 # MAXVL
- print ("SVSTATE", bin(svstate.spr.asint()))
+ 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,