def test_float_field(self):
if not self.cpu.supports_floats:
py.test.skip('requires floats')
t_box, T_box, _ = self.alloc_instance(self.TFloat)
floatdescr = self.cpu.fielddescrof(self.SFloat, 'float')
self.execute_operation(rop.SETFIELD_GC, [t_box, boxfloat(3.4)],
'void', descr=floatdescr)
res = self.execute_operation(rop.GETFIELD_GC_F, [t_box],
'float', descr=floatdescr)
assert longlong.getrealfloat(res) == 3.4
#
self.execute_operation(rop.SETFIELD_GC, [t_box, constfloat(-3.6)],
'void', descr=floatdescr)
res = self.execute_operation(rop.GETFIELD_GC_F, [t_box],
'float', descr=floatdescr)
assert longlong.getrealfloat(res) == -3.6
def test_call_with_singlefloats(self):
cpu = self.cpu
if not cpu.supports_floats or not cpu.supports_singlefloats:
py.test.skip('requires floats and singlefloats')
import random
from rpython.rlib.rarithmetic import r_singlefloat
def func(*args):
res = 0.0
for i, x in enumerate(args):
res += (i + 1.1) * float(x)
return res
F = lltype.Float
S = lltype.SingleFloat
I = lltype.Signed
floats = [random.random() - 0.5 for i in range(20)]
singlefloats = [
r_singlefloat(random.random() - 0.5) for i in range(20)
]
ints = [random.randrange(-99, 99) for i in range(20)]
for repeat in range(100):
args = []
argvalues = []
argslist = []
local_floats = list(floats)
local_singlefloats = list(singlefloats)
local_ints = list(ints)
for i in range(random.randrange(4, 20)):
case = random.randrange(0, 6)
if case & 1: boxme = InputArgInt
else: boxme = ConstInt
if case < 2:
args.append(F)
arg = arg1 = local_floats.pop()
if case & 1: boxme = boxfloat
else: boxme = constfloat
elif case < 4:
args.append(S)
arg = local_singlefloats.pop()
arg1 = longlong.singlefloat2int(arg)
else:
args.append(I)
arg = arg1 = local_ints.pop()
argslist.append(boxme(arg1))
argvalues.append(arg)
FUNC = self.FuncType(args, F)
FPTR = self.Ptr(FUNC)
func_ptr = llhelper(FPTR, func)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
funcbox = self.get_funcbox(cpu, func_ptr)
res = self.execute_operation(rop.CALL_F, [funcbox] + argslist,
'float',
descr=calldescr)
expected = func(*argvalues)
res = longlong.getrealfloat(res)
assert abs(res - expected) < 0.0001
def test_shadowstack_collecting_call_float(self):
cpu = self.cpu
def float_return(i, f):
# mark frame for write barrier
frame = rffi.cast(lltype.Ptr(JITFRAME), i)
frame.hdr |= 1
return 1.2 + f
FUNC = lltype.FuncType([lltype.Signed, lltype.Float], lltype.Float)
fptr = llhelper(lltype.Ptr(FUNC), float_return)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
loop = self.parse("""
[f0]
i = force_token()
f1 = call(ConstClass(fptr), i, f0, descr=calldescr)
finish(f1, descr=finaldescr)
""", namespace={'fptr': fptr, 'calldescr': calldescr,
'finaldescr': BasicFinalDescr(1)})
token = JitCellToken()
cpu.gc_ll_descr.init_nursery(20)
cpu.setup_once()
cpu.compile_loop(loop.inputargs, loop.operations, token)
arg = longlong.getfloatstorage(2.3)
frame = cpu.execute_token(token, arg)
ofs = cpu.get_baseofs_of_frame_field()
f = cpu.read_float_at_mem(frame, ofs)
f = longlong.getrealfloat(f)
assert f == 2.3 + 1.2
def test_shadowstack_collecting_call_float(self):
cpu = self.cpu
def float_return(i, f):
# mark frame for write barrier
frame = rffi.cast(lltype.Ptr(JITFRAME), i)
frame.hdr |= 1
return 1.2 + f
FUNC = lltype.FuncType([lltype.Signed, lltype.Float], lltype.Float)
fptr = llhelper(lltype.Ptr(FUNC), float_return)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
loop = self.parse("""
[f0]
i = force_token()
f1 = call_f(ConstClass(fptr), i, f0, descr=calldescr)
finish(f1, descr=finaldescr)
""", namespace={'fptr': fptr, 'calldescr': calldescr,
'finaldescr': BasicFinalDescr(1)})
token = JitCellToken()
cpu.gc_ll_descr.init_nursery(20)
cpu.setup_once()
cpu.compile_loop(loop.inputargs, loop.operations, token)
arg = longlong.getfloatstorage(2.3)
frame = cpu.execute_token(token, arg)
ofs = cpu.get_baseofs_of_frame_field()
f = cpu.read_float_at_mem(frame, ofs)
f = longlong.getrealfloat(f)
assert f == 2.3 + 1.2
def test_vstm_vldm_combined(self):
n = 14
source_container = lltype.malloc(lltype.Array(longlong.FLOATSTORAGE,
hints={'nolength':
True}),
n,
flavor='raw')
target_container = lltype.malloc(lltype.Array(longlong.FLOATSTORAGE,
hints={'nolength':
True}),
n,
flavor='raw')
for x in range(n):
source_container[x] = longlong.getfloatstorage(
float("%d.%d" % (x, x)))
self.a.gen_func_prolog()
self.a.mc.gen_load_int(r.ip.value,
rffi.cast(lltype.Signed, source_container))
self.a.mc.VLDM(r.ip.value, [x for x in range(n)])
self.a.mc.gen_load_int(r.ip.value,
rffi.cast(lltype.Signed, target_container))
self.a.mc.VSTM(r.ip.value, [x for x in range(n)])
self.a.gen_func_epilog()
run_asm(self.a)
for d in range(n):
res = longlong.getrealfloat(target_container[0]) == float("%d.%d" %
(d, d))
lltype.free(source_container, flavor='raw')
lltype.free(target_container, flavor='raw')
def test_float_ops():
cpu = FakeCPU()
for opnum, boxargs, rettype, retvalue in get_float_tests(cpu):
res = _execute_arglist(cpu, None, opnum, boxargs)
if rettype == 'float':
res = longlong.getrealfloat(res)
assert res == retvalue
def test_float_ops():
cpu = FakeCPU()
for opnum, boxargs, rettype, retvalue in get_float_tests(cpu):
res = _execute_arglist(cpu, None, opnum, boxargs)
if rettype == 'float':
res = longlong.getrealfloat(res)
assert res == retvalue
def cast_from_floatstorage(TYPE, x):
assert isinstance(x, longlong.r_float_storage)
if TYPE is lltype.Float:
return longlong.getrealfloat(x)
if longlong.is_longlong(TYPE):
return rffi.cast(TYPE, x)
raise TypeError(TYPE)
def cast_from_floatstorage(TYPE, x):
assert isinstance(x, longlong.r_float_storage)
if TYPE is lltype.Float:
return longlong.getrealfloat(x)
if longlong.is_longlong(TYPE):
return rffi.cast(TYPE, x)
raise TypeError(TYPE)
def test_call_aligned_with_spilled_values(self):
cpu = self.cpu
if not cpu.supports_floats:
py.test.skip('requires floats')
def func(*args):
return float(sum(args))
F = lltype.Float
I = lltype.Signed
floats = [0.7, 5.8, 0.1, 0.3, 0.9, -2.34, -3.45, -4.56]
ints = [7, 11, 23, 13, -42, 1111, 95, 1]
for case in range(256):
local_floats = list(floats)
local_ints = list(ints)
args = []
spills = []
funcargs = []
float_count = 0
int_count = 0
for i in range(8):
if case & (1<<i):
args.append('f%d' % float_count)
spills.append('force_spill(f%d)' % float_count)
float_count += 1
funcargs.append(F)
else:
args.append('i%d' % int_count)
spills.append('force_spill(i%d)' % int_count)
int_count += 1
funcargs.append(I)
arguments = ', '.join(args)
spill_ops = '\n'.join(spills)
FUNC = self.FuncType(funcargs, F)
FPTR = self.Ptr(FUNC)
func_ptr = llhelper(FPTR, func)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
funcbox = self.get_funcbox(cpu, func_ptr)
ops = '[%s]\n' % arguments
ops += '%s\n' % spill_ops
ops += 'f99 = call_f(ConstClass(func_ptr), %s, descr=calldescr)\n' % arguments
ops += 'i99 = same_as_i(0)\n'
ops += 'guard_true(i99) [f99, %s]\n' % arguments
ops += 'finish()\n'
loop = parse(ops, namespace=locals())
looptoken = JitCellToken()
self.cpu.compile_loop(loop.inputargs, loop.operations, looptoken)
argvals, expected_result = self._prepare_args(args, floats, ints)
deadframe = self.cpu.execute_token(looptoken, *argvals)
x = longlong.getrealfloat(cpu.get_float_value(deadframe, 0))
assert abs(x - expected_result) < 0.0001
def test_call_with_singlefloats(self):
cpu = self.cpu
if not cpu.supports_floats or not cpu.supports_singlefloats:
py.test.skip('requires floats and singlefloats')
import random
from rpython.rlib.rarithmetic import r_singlefloat
def func(*args):
res = 0.0
for i, x in enumerate(args):
res += (i + 1.1) * float(x)
return res
F = lltype.Float
S = lltype.SingleFloat
I = lltype.Signed
floats = [random.random() - 0.5 for i in range(20)]
singlefloats = [r_singlefloat(random.random() - 0.5) for i in range(20)]
ints = [random.randrange(-99, 99) for i in range(20)]
for repeat in range(100):
args = []
argvalues = []
argslist = []
local_floats = list(floats)
local_singlefloats = list(singlefloats)
local_ints = list(ints)
for i in range(random.randrange(4, 20)):
case = random.randrange(0, 6)
if case & 1: boxme = InputArgInt
else: boxme = ConstInt
if case < 2:
args.append(F)
arg = arg1 = local_floats.pop()
if case & 1: boxme = boxfloat
else: boxme = constfloat
elif case < 4:
args.append(S)
arg = local_singlefloats.pop()
arg1 = longlong.singlefloat2int(arg)
else:
args.append(I)
arg = arg1 = local_ints.pop()
argslist.append(boxme(arg1))
argvalues.append(arg)
FUNC = self.FuncType(args, F)
FPTR = self.Ptr(FUNC)
func_ptr = llhelper(FPTR, func)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
funcbox = self.get_funcbox(cpu, func_ptr)
res = self.execute_operation(rop.CALL_F,
[funcbox] + argslist,
'float', descr=calldescr)
expected = func(*argvalues)
res = longlong.getrealfloat(res)
assert abs(res - expected) < 0.0001
def test_call_aligned_with_spilled_values(self):
cpu = self.cpu
if not cpu.supports_floats:
py.test.skip('requires floats')
def func(*args):
return float(sum(args))
F = lltype.Float
I = lltype.Signed
floats = [0.7, 5.8, 0.1, 0.3, 0.9, -2.34, -3.45, -4.56]
ints = [7, 11, 23, 13, -42, 1111, 95, 1]
for case in range(256):
local_floats = list(floats)
local_ints = list(ints)
args = []
spills = []
funcargs = []
float_count = 0
int_count = 0
for i in range(8):
if case & (1 << i):
args.append('f%d' % float_count)
spills.append('force_spill(f%d)' % float_count)
float_count += 1
funcargs.append(F)
else:
args.append('i%d' % int_count)
spills.append('force_spill(i%d)' % int_count)
int_count += 1
funcargs.append(I)
arguments = ', '.join(args)
spill_ops = '\n'.join(spills)
FUNC = self.FuncType(funcargs, F)
FPTR = self.Ptr(FUNC)
func_ptr = llhelper(FPTR, func)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
funcbox = self.get_funcbox(cpu, func_ptr)
ops = '[%s]\n' % arguments
ops += '%s\n' % spill_ops
ops += 'f99 = call(ConstClass(func_ptr), %s, descr=calldescr)\n' % arguments
ops += 'i99 = same_as(0)\n'
ops += 'guard_true(i99) [f99, %s]\n' % arguments
ops += 'finish()\n'
loop = parse(ops, namespace=locals())
looptoken = JitCellToken()
self.cpu.compile_loop(loop.inputargs, loop.operations, looptoken)
argvals, expected_result = self._prepare_args(args, floats, ints)
deadframe = self.cpu.execute_token(looptoken, *argvals)
x = longlong.getrealfloat(cpu.get_float_value(deadframe, 0))
assert abs(x - expected_result) < 0.0001
def test_label_float_in_reg_and_on_stack(self):
targettoken = TargetToken()
ops = """
[i0, f3]
i2 = same_as_i(i0) # but forced to be in a register
force_spill(i2)
force_spill(f3)
f4 = float_add(f3, 5.0)
label(f3, f4, descr=targettoken)
force_spill(f3)
f5 = same_as_f(f3) # but forced to be in a register
finish(f5)
"""
faildescr = BasicFailDescr(2)
loop = parse(ops, self.cpu, namespace=locals())
looptoken = JitCellToken()
info = self.cpu.compile_loop(loop.inputargs, loop.operations,
looptoken)
ops2 = """
[i0, f1]
i1 = same_as_i(i0)
f2 = same_as_f(f1)
f3 = float_add(f1, 10.0)
force_spill(f3)
force_spill(i1)
f4 = float_add(f3, f1)
jump(f3, f4, descr=targettoken)
"""
loop2 = parse(ops2, self.cpu, namespace=locals())
looptoken2 = JitCellToken()
info = self.cpu.compile_loop(loop2.inputargs, loop2.operations,
looptoken2)
deadframe = self.cpu.execute_token(looptoken, -9,
longlong.getfloatstorage(-13.5))
res = longlong.getrealfloat(self.cpu.get_float_value(deadframe, 0))
assert res == -13.5
#
deadframe = self.cpu.execute_token(looptoken2, -9,
longlong.getfloatstorage(-13.5))
res = longlong.getrealfloat(self.cpu.get_float_value(deadframe, 0))
assert res == -3.5
def test_float_field(self):
if not self.cpu.supports_floats:
py.test.skip('requires floats')
t_box, T_box, _ = self.alloc_instance(self.TFloat)
floatdescr = self.cpu.fielddescrof(self.SFloat, 'float')
self.execute_operation(rop.SETFIELD_GC, [t_box, boxfloat(3.4)],
'void',
descr=floatdescr)
res = self.execute_operation(rop.GETFIELD_GC_F, [t_box],
'float',
descr=floatdescr)
assert longlong.getrealfloat(res) == 3.4
#
self.execute_operation(rop.SETFIELD_GC,
[t_box, constfloat(-3.6)],
'void',
descr=floatdescr)
res = self.execute_operation(rop.GETFIELD_GC_F, [t_box],
'float',
descr=floatdescr)
assert longlong.getrealfloat(res) == -3.6
def test_execute_varargs():
cpu = FakeCPU()
descr = FakeCallDescr()
argboxes = [InputArgInt(99999), InputArgInt(321), constfloat(2.25), ConstInt(123),
InputArgRef(), boxfloat(5.5)]
box = execute_varargs(cpu, FakeMetaInterp(), rop.CALL_F, argboxes, descr)
assert longlong.getrealfloat(box) == 42.5
assert cpu.fakecalled == (99999, [321, 123],
[ConstPtr.value],
[longlong.getfloatstorage(2.25),
longlong.getfloatstorage(5.5)],
descr)
def test_label_float_in_reg_and_on_stack(self):
targettoken = TargetToken()
ops = """
[i0, f3]
i2 = same_as_i(i0) # but forced to be in a register
force_spill(i2)
force_spill(f3)
f4 = float_add(f3, 5.0)
label(f3, f4, descr=targettoken)
force_spill(f3)
f5 = same_as_f(f3) # but forced to be in a register
finish(f5)
"""
faildescr = BasicFailDescr(2)
loop = parse(ops, self.cpu, namespace=locals())
looptoken = JitCellToken()
info = self.cpu.compile_loop(loop.inputargs, loop.operations, looptoken)
ops2 = """
[i0, f1]
i1 = same_as_i(i0)
f2 = same_as_f(f1)
f3 = float_add(f1, 10.0)
force_spill(f3)
force_spill(i1)
f4 = float_add(f3, f1)
jump(f3, f4, descr=targettoken)
"""
loop2 = parse(ops2, self.cpu, namespace=locals())
looptoken2 = JitCellToken()
info = self.cpu.compile_loop(loop2.inputargs, loop2.operations, looptoken2)
deadframe = self.cpu.execute_token(looptoken, -9, longlong.getfloatstorage(-13.5))
res = longlong.getrealfloat(self.cpu.get_float_value(deadframe, 0))
assert res == -13.5
#
deadframe = self.cpu.execute_token(looptoken2, -9, longlong.getfloatstorage(-13.5))
res = longlong.getrealfloat(self.cpu.get_float_value(deadframe, 0))
assert res == -3.5
def interp_operations(self, f, args, **kwds):
# get the JitCodes for the function f
_get_jitcodes(self, self.CPUClass, f, args, **kwds)
# try to run it with blackhole.py
result1 = _run_with_blackhole(self, args)
# try to run it with pyjitpl.py
result2 = _run_with_pyjitpl(self, args)
assert result1 == result2 or isnan(result1) and isnan(result2)
# try to run it by running the code compiled just before
result3 = _run_with_machine_code(self, args)
assert result1 == result3 or result3 == NotImplemented or isnan(result1) and isnan(result3)
#
if longlong.supports_longlong and isinstance(result1, longlong.r_float_storage):
result1 = longlong.getrealfloat(result1)
return result1
def test_vldm(self):
n = 14
container = lltype.malloc(lltype.Array(longlong.FLOATSTORAGE,
hints={'nolength': True}), n, flavor='raw')
for x in range(n):
container[x] = longlong.getfloatstorage(float("%d.%d" % (x,x)))
self.a.gen_func_prolog()
self.a.mc.gen_load_int(r.ip.value, rffi.cast(lltype.Signed, container))
self.a.mc.VLDM(r.ip.value, [x for x in range(n)])
for x in range(1, n):
self.a.mc.VADD(0, 0, x)
self.a.mc.VSTR(r.d0.value, r.ip.value)
self.a.gen_func_epilog()
res = run_asm(self.a)
assert longlong.getrealfloat(container[0]) == sum([float("%d.%d" % (d,d)) for d in range(n)])
lltype.free(container, flavor='raw')
def interp_operations(self, f, args, **kwds):
# get the JitCodes for the function f
stats = _get_jitcodes(self, self.CPUClass, f, args, **kwds)
# try to run it with blackhole.py
result1 = _run_with_blackhole(self, args)
# try to run it with pyjitpl.py
result2 = _run_with_pyjitpl(self, args, stats)
assert result1 == result2 or isnan(result1) and isnan(result2)
# try to run it by running the code compiled just before
df, result3 = _run_with_machine_code(self, args)
self._lastframe = df
assert result1 == result3 or result3 == NotImplemented or isnan(result1) and isnan(result3)
#
if (longlong.supports_longlong and
isinstance(result1, longlong.r_float_storage)):
result1 = longlong.getrealfloat(result1)
return result1
def test_call_stubs_2():
c0 = GcCache(False)
ARRAY = lltype.GcArray(lltype.Signed)
ARGS = [lltype.Float, lltype.Ptr(ARRAY)]
RES = lltype.Float
def f2(a, b):
return float(b[0]) + a
fnptr = llhelper(lltype.Ptr(lltype.FuncType(ARGS, RES)), f2)
descr2 = get_call_descr(c0, ARGS, RES)
a = lltype.malloc(ARRAY, 3)
opaquea = lltype.cast_opaque_ptr(llmemory.GCREF, a)
a[0] = 1
res = descr2.call_stub_f(rffi.cast(lltype.Signed, fnptr),
[], [opaquea], [longlong.getfloatstorage(3.5)])
assert longlong.getrealfloat(res) == 4.5
def test_execute_varargs():
cpu = FakeCPU()
descr = FakeCallDescr()
argboxes = [
InputArgInt(99999),
InputArgInt(321),
constfloat(2.25),
ConstInt(123),
InputArgRef(),
boxfloat(5.5)
]
box = execute_varargs(cpu, FakeMetaInterp(), rop.CALL_F, argboxes, descr)
assert longlong.getrealfloat(box) == 42.5
assert cpu.fakecalled == (99999, [321, 123], [ConstPtr.value], [
longlong.getfloatstorage(2.25),
longlong.getfloatstorage(5.5)
], descr)
def test_call_stubs_2():
c0 = GcCache(False)
ARRAY = lltype.GcArray(lltype.Signed)
ARGS = [lltype.Float, lltype.Ptr(ARRAY)]
RES = lltype.Float
def f2(a, b):
return float(b[0]) + a
fnptr = llhelper(lltype.Ptr(lltype.FuncType(ARGS, RES)), f2)
descr2 = get_call_descr(c0, ARGS, RES)
a = lltype.malloc(ARRAY, 3)
opaquea = lltype.cast_opaque_ptr(llmemory.GCREF, a)
a[0] = 1
res = descr2.call_stub_f(rffi.cast(lltype.Signed, fnptr),
[], [opaquea], [longlong.getfloatstorage(3.5)])
assert longlong.getrealfloat(res) == 4.5
def test_vstm_vldm_combined(self):
n = 14
source_container = lltype.malloc(lltype.Array(longlong.FLOATSTORAGE,
hints={'nolength': True}), n, flavor='raw')
target_container = lltype.malloc(lltype.Array(longlong.FLOATSTORAGE,
hints={'nolength': True}), n, flavor='raw')
for x in range(n):
source_container[x] = longlong.getfloatstorage(float("%d.%d" % (x,x)))
self.a.gen_func_prolog()
self.a.mc.gen_load_int(r.ip.value, rffi.cast(lltype.Signed, source_container))
self.a.mc.VLDM(r.ip.value, [x for x in range(n)])
self.a.mc.gen_load_int(r.ip.value, rffi.cast(lltype.Signed, target_container))
self.a.mc.VSTM(r.ip.value, [x for x in range(n)])
self.a.gen_func_epilog()
run_asm(self.a)
for d in range(n):
res = longlong.getrealfloat(target_container[0]) == float("%d.%d" % (d,d))
lltype.free(source_container, flavor='raw')
lltype.free(target_container, flavor='raw')
def test_call_aligned_with_args_on_the_stack(self):
cpu = self.cpu
if not cpu.supports_floats:
py.test.skip('requires floats')
def func(*args):
return float(sum(args))
F = lltype.Float
I = lltype.Signed
floats = [0.7, 5.8, 0.1, 0.3, 0.9, -2.34, -3.45, -4.56]
ints = [7, 11, 23, 13, -42, 1111, 95, 1]
for case in range(256):
result = 0.0
args = []
argslist = []
local_floats = list(floats)
local_ints = list(ints)
for i in range(8):
if case & (1<<i):
args.append(F)
arg = local_floats.pop()
result += arg
argslist.append(boxfloat(arg))
else:
args.append(I)
arg = local_ints.pop()
result += arg
argslist.append(InputArgInt(arg))
FUNC = self.FuncType(args, F)
FPTR = self.Ptr(FUNC)
func_ptr = llhelper(FPTR, func)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
funcbox = self.get_funcbox(cpu, func_ptr)
res = self.execute_operation(rop.CALL_F,
[funcbox] + argslist,
'float', descr=calldescr)
res = longlong.getrealfloat(res)
assert abs(res - result) < 0.0001
def specialize_value(TYPE, x):
"""'x' must be a Signed, a GCREF or a FLOATSTORAGE.
This function casts it to a more specialized type, like Char or Ptr(..).
"""
INPUT = lltype.typeOf(x)
if INPUT is lltype.Signed:
if isinstance(TYPE, lltype.Ptr) and TYPE.TO._gckind == 'raw':
# non-gc pointer
return rffi.cast(TYPE, x)
elif TYPE is lltype.SingleFloat:
return longlong.int2singlefloat(x)
else:
return lltype.cast_primitive(TYPE, x)
elif INPUT is longlong.FLOATSTORAGE:
if longlong.is_longlong(TYPE):
return rffi.cast(TYPE, x)
assert TYPE is lltype.Float
return longlong.getrealfloat(x)
else:
return lltype.cast_opaque_ptr(TYPE, x)
def specialize_value(TYPE, x):
"""'x' must be a Signed, a GCREF or a FLOATSTORAGE.
This function casts it to a more specialized type, like Char or Ptr(..).
"""
INPUT = lltype.typeOf(x)
if INPUT is lltype.Signed:
if isinstance(TYPE, lltype.Ptr) and TYPE.TO._gckind == 'raw':
# non-gc pointer
return rffi.cast(TYPE, x)
elif TYPE is lltype.SingleFloat:
return longlong.int2singlefloat(x)
else:
return lltype.cast_primitive(TYPE, x)
elif INPUT is longlong.FLOATSTORAGE:
if longlong.is_longlong(TYPE):
return rffi.cast(TYPE, x)
assert TYPE is lltype.Float
return longlong.getrealfloat(x)
else:
return lltype.cast_opaque_ptr(TYPE, x)
def test_call_aligned_with_args_on_the_stack(self):
cpu = self.cpu
if not cpu.supports_floats:
py.test.skip('requires floats')
def func(*args):
return float(sum(args))
F = lltype.Float
I = lltype.Signed
floats = [0.7, 5.8, 0.1, 0.3, 0.9, -2.34, -3.45, -4.56]
ints = [7, 11, 23, 13, -42, 1111, 95, 1]
for case in range(256):
result = 0.0
args = []
argslist = []
local_floats = list(floats)
local_ints = list(ints)
for i in range(8):
if case & (1 << i):
args.append(F)
arg = local_floats.pop()
result += arg
argslist.append(boxfloat(arg))
else:
args.append(I)
arg = local_ints.pop()
result += arg
argslist.append(InputArgInt(arg))
FUNC = self.FuncType(args, F)
FPTR = self.Ptr(FUNC)
func_ptr = llhelper(FPTR, func)
calldescr = cpu.calldescrof(FUNC, FUNC.ARGS, FUNC.RESULT,
EffectInfo.MOST_GENERAL)
funcbox = self.get_funcbox(cpu, func_ptr)
res = self.execute_operation(rop.CALL_F, [funcbox] + argslist,
'float',
descr=calldescr)
res = longlong.getrealfloat(res)
assert abs(res - result) < 0.0001
def test_execute_nonspec():
cpu = FakeCPU()
descr = FakeDescr()
# cases with a descr
# arity == -1
argboxes = [InputArgInt(321), ConstInt(123)]
box = _execute_arglist(cpu, FakeMetaInterp(), rop.CALL_F,
argboxes, FakeCallDescr())
assert longlong.getrealfloat(box) == 42.5
# arity == 0
box = _execute_arglist(cpu, None, rop.NEW, [], descr)
assert box.fakeargs == ('new', descr)
# arity == 1
box1 = InputArgRef()
box = _execute_arglist(cpu, None, rop.ARRAYLEN_GC, [box1], descr)
assert box == 55
# arity == 2
box2 = boxfloat(222.2)
fielddescr = FakeFieldDescr()
_execute_arglist(cpu, None, rop.SETFIELD_GC, [box1, box2], fielddescr)
assert cpu.fakesetfield == (box1.getref_base(), box2.getfloatstorage(),
fielddescr)
# arity == 3
box3 = InputArgInt(33)
arraydescr = FakeArrayDescr()
_execute_arglist(cpu, None, rop.SETARRAYITEM_GC, [box1, box3, box2],
arraydescr)
assert cpu.fakesetarrayitem == (box1.getref_base(), box3.getint(),
box2.getfloatstorage(), arraydescr)
# cases without descr
# arity == 1
box = _execute_arglist(cpu, None, rop.INT_INVERT, [box3])
assert box == ~33
# arity == 2
box = _execute_arglist(cpu, None, rop.INT_LSHIFT, [box3, InputArgInt(3)])
assert box == 33 << 3
# arity == 3
_execute_arglist(cpu, None, rop.STRSETITEM, [box1, InputArgInt(3), box3])
assert cpu.fakestrsetitem == (box1.getref_base(), 3, box3.getint())
def test_execute_nonspec():
cpu = FakeCPU()
descr = FakeDescr()
# cases with a descr
# arity == -1
argboxes = [InputArgInt(321), ConstInt(123)]
box = _execute_arglist(cpu, FakeMetaInterp(), rop.CALL_F, argboxes,
FakeCallDescr())
assert longlong.getrealfloat(box) == 42.5
# arity == 0
box = _execute_arglist(cpu, None, rop.NEW, [], descr)
assert box.fakeargs == ('new', descr)
# arity == 1
box1 = InputArgRef()
box = _execute_arglist(cpu, None, rop.ARRAYLEN_GC, [box1], descr)
assert box == 55
# arity == 2
box2 = boxfloat(222.2)
fielddescr = FakeFieldDescr()
_execute_arglist(cpu, None, rop.SETFIELD_GC, [box1, box2], fielddescr)
assert cpu.fakesetfield == (box1.getref_base(), box2.getfloatstorage(),
fielddescr)
# arity == 3
box3 = InputArgInt(33)
arraydescr = FakeArrayDescr()
_execute_arglist(cpu, None, rop.SETARRAYITEM_GC, [box1, box3, box2],
arraydescr)
assert cpu.fakesetarrayitem == (box1.getref_base(), box3.getint(),
box2.getfloatstorage(), arraydescr)
# cases without descr
# arity == 1
box = _execute_arglist(cpu, None, rop.INT_INVERT, [box3])
assert box == ~33
# arity == 2
box = _execute_arglist(cpu, None, rop.INT_LSHIFT, [box3, InputArgInt(3)])
assert box == 33 << 3
# arity == 3
_execute_arglist(cpu, None, rop.STRSETITEM, [box1, InputArgInt(3), box3])
assert cpu.fakestrsetitem == (box1.getref_base(), 3, box3.getint())
def test_call_alignment_call_assembler(self):
cpu = self.cpu
if not cpu.supports_floats:
py.test.skip('requires floats')
fdescr3 = BasicFinalDescr(3)
fdescr4 = BasicFinalDescr(4)
def assembler_helper(failindex, virtualizable):
assert 0, 'should not be called, but was with failindex (%d)' % failindex
return 13
FUNCPTR = lltype.Ptr(lltype.FuncType([lltype.Signed, llmemory.GCREF],
lltype.Signed))
class FakeJitDriverSD:
index_of_virtualizable = -1
_assembler_helper_ptr = llhelper(FUNCPTR, assembler_helper)
assembler_helper_adr = llmemory.cast_ptr_to_adr(
_assembler_helper_ptr)
floats = [0.7, 5.8, 0.1, 0.3, 0.9, -2.34, -3.45, -4.56]
ints = [7, 11, 23, 42, -42, 1111, 95, 1]
for case in range(256):
float_count = 0
int_count = 0
args = []
called_ops = ''
total_index = -1
for i in range(8):
if case & (1<<i):
args.append('f%d' % float_count)
else:
args.append('i%d' % int_count)
called_ops += 'f%d = cast_int_to_float(i%d)\n' % (
float_count, int_count)
int_count += 1
if total_index == -1:
total_index = float_count
float_count += 1
else:
called_ops += 'f%d = float_add(f%d, f%d)\n' % (
float_count + 1, total_index, float_count)
total_index = float_count + 1
float_count += 2
arguments = ', '.join(args)
called_ops = '[%s]\n' % arguments + called_ops
called_ops += 'finish(f%d, descr=fdescr3)\n' % total_index
# compile called loop
called_loop = parse(called_ops, namespace=locals())
called_looptoken = JitCellToken()
called_looptoken.outermost_jitdriver_sd = FakeJitDriverSD()
done_descr = called_loop.operations[-1].getdescr()
self.cpu.compile_loop(called_loop.inputargs, called_loop.operations, called_looptoken)
argvals, expected_result = self._prepare_args(args, floats, ints)
deadframe = cpu.execute_token(called_looptoken, *argvals)
assert cpu.get_latest_descr(deadframe) == fdescr3
t = longlong.getrealfloat(cpu.get_float_value(deadframe, 0))
assert abs(t - expected_result) < 0.0001
ARGS = []
RES = lltype.Float
for x in args:
if x[0] == 'f':
ARGS.append(lltype.Float)
else:
ARGS.append(lltype.Signed)
FakeJitDriverSD.portal_calldescr = self.cpu.calldescrof(
lltype.Ptr(lltype.FuncType(ARGS, RES)), ARGS, RES,
EffectInfo.MOST_GENERAL)
ops = '''
[%s]
f99 = call_assembler_f(%s, descr=called_looptoken)
guard_not_forced()[]
finish(f99, descr=fdescr4)
''' % (arguments, arguments)
loop = parse(ops, namespace=locals())
# we want to take the fast path
self.cpu.done_with_this_frame_descr_float = done_descr
try:
othertoken = JitCellToken()
self.cpu.compile_loop(loop.inputargs, loop.operations, othertoken)
# prepare call to called_loop
argvals, _ = self._prepare_args(args, floats, ints)
deadframe = cpu.execute_token(othertoken, *argvals)
x = longlong.getrealfloat(
cpu.get_float_value(deadframe, 0))
assert cpu.get_latest_descr(deadframe) == fdescr4
assert abs(x - expected_result) < 0.0001
finally:
del self.cpu.done_with_this_frame_descr_float
def getfloat(v):
return longlong.getrealfloat(getfloatstorage(v))
def test_functions():
xll = longlong.getfloatstorage(3.5)
assert longlong.getrealfloat(xll) == 3.5
assert is_valid_int(longlong.gethash(xll))
def getfloat(self):
return longlong.getrealfloat(self.getfloatstorage())
def getfloat(self):
return longlong.getrealfloat(self.value)
def __repr__(self):
floatvalue = longlong.getrealfloat(self.aslonglong)
return '<FloatImmedLoc(%s)>' % (floatvalue,)
def getfloats(self, end):
return [
longlong.getrealfloat(
self.cpu.get_float_value(self.deadframe, index))
for index in range(0, end)
]
def getfloats(self, end):
return [longlong.getrealfloat(
self.cpu.get_float_value(self.deadframe, index))
for index in range(0, end)]
def getfloat(self):
return longlong.getrealfloat(self.getfloatstorage())
def test_functions():
xll = longlong.getfloatstorage(3.5)
assert longlong.getrealfloat(xll) == 3.5
assert is_valid_int(longlong.gethash(xll))
def getfloat(self):
return longlong.getrealfloat(self.value)
def getfloat(v):
return longlong.getrealfloat(getfloatstorage(v))
def test_call_alignment_call_assembler(self):
cpu = self.cpu
if not cpu.supports_floats:
py.test.skip('requires floats')
fdescr3 = BasicFinalDescr(3)
fdescr4 = BasicFinalDescr(4)
def assembler_helper(failindex, virtualizable):
assert 0, 'should not be called, but was with failindex (%d)' % failindex
return 13
FUNCPTR = lltype.Ptr(
lltype.FuncType([lltype.Signed, llmemory.GCREF], lltype.Signed))
class FakeJitDriverSD:
index_of_virtualizable = -1
_assembler_helper_ptr = llhelper(FUNCPTR, assembler_helper)
assembler_helper_adr = llmemory.cast_ptr_to_adr(
_assembler_helper_ptr)
floats = [0.7, 5.8, 0.1, 0.3, 0.9, -2.34, -3.45, -4.56]
ints = [7, 11, 23, 42, -42, 1111, 95, 1]
for case in range(256):
float_count = 0
int_count = 0
args = []
called_ops = ''
total_index = -1
for i in range(8):
if case & (1 << i):
args.append('f%d' % float_count)
else:
args.append('i%d' % int_count)
called_ops += 'f%d = cast_int_to_float(i%d)\n' % (
float_count, int_count)
int_count += 1
if total_index == -1:
total_index = float_count
float_count += 1
else:
called_ops += 'f%d = float_add(f%d, f%d)\n' % (
float_count + 1, total_index, float_count)
total_index = float_count + 1
float_count += 2
arguments = ', '.join(args)
called_ops = '[%s]\n' % arguments + called_ops
called_ops += 'finish(f%d, descr=fdescr3)\n' % total_index
# compile called loop
called_loop = parse(called_ops, namespace=locals())
called_looptoken = JitCellToken()
called_looptoken.outermost_jitdriver_sd = FakeJitDriverSD()
done_descr = called_loop.operations[-1].getdescr()
self.cpu.compile_loop(called_loop.inputargs,
called_loop.operations, called_looptoken)
argvals, expected_result = self._prepare_args(args, floats, ints)
deadframe = cpu.execute_token(called_looptoken, *argvals)
assert cpu.get_latest_descr(deadframe) == fdescr3
t = longlong.getrealfloat(cpu.get_float_value(deadframe, 0))
assert abs(t - expected_result) < 0.0001
ARGS = []
RES = lltype.Float
for x in args:
if x[0] == 'f':
ARGS.append(lltype.Float)
else:
ARGS.append(lltype.Signed)
FakeJitDriverSD.portal_calldescr = self.cpu.calldescrof(
lltype.Ptr(lltype.FuncType(ARGS, RES)), ARGS, RES,
EffectInfo.MOST_GENERAL)
ops = '''
[%s]
f99 = call_assembler(%s, descr=called_looptoken)
guard_not_forced()[]
finish(f99, descr=fdescr4)
''' % (arguments, arguments)
loop = parse(ops, namespace=locals())
# we want to take the fast path
self.cpu.done_with_this_frame_descr_float = done_descr
try:
othertoken = JitCellToken()
self.cpu.compile_loop(loop.inputargs, loop.operations,
othertoken)
# prepare call to called_loop
argvals, _ = self._prepare_args(args, floats, ints)
deadframe = cpu.execute_token(othertoken, *argvals)
x = longlong.getrealfloat(cpu.get_float_value(deadframe, 0))
assert cpu.get_latest_descr(deadframe) == fdescr4
assert abs(x - expected_result) < 0.0001
finally:
del self.cpu.done_with_this_frame_descr_float