ai-content-maker/.venv/Lib/site-packages/sympy/printing/tests/test_llvmjit.py

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2024-05-03 04:18:51 +03:00
from sympy.external import import_module
from sympy.testing.pytest import raises
import ctypes
if import_module('llvmlite'):
import sympy.printing.llvmjitcode as g
else:
disabled = True
import sympy
from sympy.abc import a, b, n
# copied from numpy.isclose documentation
def isclose(a, b):
rtol = 1e-5
atol = 1e-8
return abs(a-b) <= atol + rtol*abs(b)
def test_simple_expr():
e = a + 1.0
f = g.llvm_callable([a], e)
res = float(e.subs({a: 4.0}).evalf())
jit_res = f(4.0)
assert isclose(jit_res, res)
def test_two_arg():
e = 4.0*a + b + 3.0
f = g.llvm_callable([a, b], e)
res = float(e.subs({a: 4.0, b: 3.0}).evalf())
jit_res = f(4.0, 3.0)
assert isclose(jit_res, res)
def test_func():
e = 4.0*sympy.exp(-a)
f = g.llvm_callable([a], e)
res = float(e.subs({a: 1.5}).evalf())
jit_res = f(1.5)
assert isclose(jit_res, res)
def test_two_func():
e = 4.0*sympy.exp(-a) + sympy.exp(b)
f = g.llvm_callable([a, b], e)
res = float(e.subs({a: 1.5, b: 2.0}).evalf())
jit_res = f(1.5, 2.0)
assert isclose(jit_res, res)
def test_two_sqrt():
e = 4.0*sympy.sqrt(a) + sympy.sqrt(b)
f = g.llvm_callable([a, b], e)
res = float(e.subs({a: 1.5, b: 2.0}).evalf())
jit_res = f(1.5, 2.0)
assert isclose(jit_res, res)
def test_two_pow():
e = a**1.5 + b**7
f = g.llvm_callable([a, b], e)
res = float(e.subs({a: 1.5, b: 2.0}).evalf())
jit_res = f(1.5, 2.0)
assert isclose(jit_res, res)
def test_callback():
e = a + 1.2
f = g.llvm_callable([a], e, callback_type='scipy.integrate.test')
m = ctypes.c_int(1)
array_type = ctypes.c_double * 1
inp = {a: 2.2}
array = array_type(inp[a])
jit_res = f(m, array)
res = float(e.subs(inp).evalf())
assert isclose(jit_res, res)
def test_callback_cubature():
e = a + 1.2
f = g.llvm_callable([a], e, callback_type='cubature')
m = ctypes.c_int(1)
array_type = ctypes.c_double * 1
inp = {a: 2.2}
array = array_type(inp[a])
out_array = array_type(0.0)
jit_ret = f(m, array, None, m, out_array)
assert jit_ret == 0
res = float(e.subs(inp).evalf())
assert isclose(out_array[0], res)
def test_callback_two():
e = 3*a*b
f = g.llvm_callable([a, b], e, callback_type='scipy.integrate.test')
m = ctypes.c_int(2)
array_type = ctypes.c_double * 2
inp = {a: 0.2, b: 1.7}
array = array_type(inp[a], inp[b])
jit_res = f(m, array)
res = float(e.subs(inp).evalf())
assert isclose(jit_res, res)
def test_callback_alt_two():
d = sympy.IndexedBase('d')
e = 3*d[0]*d[1]
f = g.llvm_callable([n, d], e, callback_type='scipy.integrate.test')
m = ctypes.c_int(2)
array_type = ctypes.c_double * 2
inp = {d[0]: 0.2, d[1]: 1.7}
array = array_type(inp[d[0]], inp[d[1]])
jit_res = f(m, array)
res = float(e.subs(inp).evalf())
assert isclose(jit_res, res)
def test_multiple_statements():
# Match return from CSE
e = [[(b, 4.0*a)], [b + 5]]
f = g.llvm_callable([a], e)
b_val = e[0][0][1].subs({a: 1.5})
res = float(e[1][0].subs({b: b_val}).evalf())
jit_res = f(1.5)
assert isclose(jit_res, res)
f_callback = g.llvm_callable([a], e, callback_type='scipy.integrate.test')
m = ctypes.c_int(1)
array_type = ctypes.c_double * 1
array = array_type(1.5)
jit_callback_res = f_callback(m, array)
assert isclose(jit_callback_res, res)
def test_cse():
e = a*a + b*b + sympy.exp(-a*a - b*b)
e2 = sympy.cse(e)
f = g.llvm_callable([a, b], e2)
res = float(e.subs({a: 2.3, b: 0.1}).evalf())
jit_res = f(2.3, 0.1)
assert isclose(jit_res, res)
def eval_cse(e, sub_dict):
tmp_dict = {}
for tmp_name, tmp_expr in e[0]:
e2 = tmp_expr.subs(sub_dict)
e3 = e2.subs(tmp_dict)
tmp_dict[tmp_name] = e3
return [e.subs(sub_dict).subs(tmp_dict) for e in e[1]]
def test_cse_multiple():
e1 = a*a
e2 = a*a + b*b
e3 = sympy.cse([e1, e2])
raises(NotImplementedError,
lambda: g.llvm_callable([a, b], e3, callback_type='scipy.integrate'))
f = g.llvm_callable([a, b], e3)
jit_res = f(0.1, 1.5)
assert len(jit_res) == 2
res = eval_cse(e3, {a: 0.1, b: 1.5})
assert isclose(res[0], jit_res[0])
assert isclose(res[1], jit_res[1])
def test_callback_cubature_multiple():
e1 = a*a
e2 = a*a + b*b
e3 = sympy.cse([e1, e2, 4*e2])
f = g.llvm_callable([a, b], e3, callback_type='cubature')
# Number of input variables
ndim = 2
# Number of output expression values
outdim = 3
m = ctypes.c_int(ndim)
fdim = ctypes.c_int(outdim)
array_type = ctypes.c_double * ndim
out_array_type = ctypes.c_double * outdim
inp = {a: 0.2, b: 1.5}
array = array_type(inp[a], inp[b])
out_array = out_array_type()
jit_ret = f(m, array, None, fdim, out_array)
assert jit_ret == 0
res = eval_cse(e3, inp)
assert isclose(out_array[0], res[0])
assert isclose(out_array[1], res[1])
assert isclose(out_array[2], res[2])
def test_symbol_not_found():
e = a*a + b
raises(LookupError, lambda: g.llvm_callable([a], e))
def test_bad_callback():
e = a
raises(ValueError, lambda: g.llvm_callable([a], e, callback_type='bad_callback'))