import tempfile import sympy as sp from sympy.codegen.ast import Assignment from sympy.codegen.algorithms import newtons_method, newtons_method_function from sympy.codegen.fnodes import bind_C from sympy.codegen.futils import render_as_module as f_module from sympy.codegen.pyutils import render_as_module as py_module from sympy.external import import_module from sympy.printing.codeprinter import ccode from sympy.utilities._compilation import compile_link_import_strings, has_c, has_fortran from sympy.utilities._compilation.util import may_xfail from sympy.testing.pytest import skip, raises cython = import_module('cython') wurlitzer = import_module('wurlitzer') def test_newtons_method(): x, dx, atol = sp.symbols('x dx atol') expr = sp.cos(x) - x**3 algo = newtons_method(expr, x, atol, dx) assert algo.has(Assignment(dx, -expr/expr.diff(x))) @may_xfail def test_newtons_method_function__ccode(): x = sp.Symbol('x', real=True) expr = sp.cos(x) - x**3 func = newtons_method_function(expr, x) if not cython: skip("cython not installed.") if not has_c(): skip("No C compiler found.") compile_kw = dict(std='c99') with tempfile.TemporaryDirectory() as folder: mod, info = compile_link_import_strings([ ('newton.c', ('#include \n' '#include \n') + ccode(func)), ('_newton.pyx', ("#cython: language_level={}\n".format("3") + "cdef extern double newton(double)\n" "def py_newton(x):\n" " return newton(x)\n")) ], build_dir=folder, compile_kwargs=compile_kw) assert abs(mod.py_newton(0.5) - 0.865474033102) < 1e-12 @may_xfail def test_newtons_method_function__fcode(): x = sp.Symbol('x', real=True) expr = sp.cos(x) - x**3 func = newtons_method_function(expr, x, attrs=[bind_C(name='newton')]) if not cython: skip("cython not installed.") if not has_fortran(): skip("No Fortran compiler found.") f_mod = f_module([func], 'mod_newton') with tempfile.TemporaryDirectory() as folder: mod, info = compile_link_import_strings([ ('newton.f90', f_mod), ('_newton.pyx', ("#cython: language_level={}\n".format("3") + "cdef extern double newton(double*)\n" "def py_newton(double x):\n" " return newton(&x)\n")) ], build_dir=folder) assert abs(mod.py_newton(0.5) - 0.865474033102) < 1e-12 def test_newtons_method_function__pycode(): x = sp.Symbol('x', real=True) expr = sp.cos(x) - x**3 func = newtons_method_function(expr, x) py_mod = py_module(func) namespace = {} exec(py_mod, namespace, namespace) res = eval('newton(0.5)', namespace) assert abs(res - 0.865474033102) < 1e-12 @may_xfail def test_newtons_method_function__ccode_parameters(): args = x, A, k, p = sp.symbols('x A k p') expr = A*sp.cos(k*x) - p*x**3 raises(ValueError, lambda: newtons_method_function(expr, x)) use_wurlitzer = wurlitzer func = newtons_method_function(expr, x, args, debug=use_wurlitzer) if not has_c(): skip("No C compiler found.") if not cython: skip("cython not installed.") compile_kw = dict(std='c99') with tempfile.TemporaryDirectory() as folder: mod, info = compile_link_import_strings([ ('newton_par.c', ('#include \n' '#include \n') + ccode(func)), ('_newton_par.pyx', ("#cython: language_level={}\n".format("3") + "cdef extern double newton(double, double, double, double)\n" "def py_newton(x, A=1, k=1, p=1):\n" " return newton(x, A, k, p)\n")) ], compile_kwargs=compile_kw, build_dir=folder) if use_wurlitzer: with wurlitzer.pipes() as (out, err): result = mod.py_newton(0.5) else: result = mod.py_newton(0.5) assert abs(result - 0.865474033102) < 1e-12 if not use_wurlitzer: skip("C-level output only tested when package 'wurlitzer' is available.") out, err = out.read(), err.read() assert err == '' assert out == """\ x= 0.5 d_x= 0.61214 x= 1.1121 d_x= -0.20247 x= 0.90967 d_x= -0.042409 x= 0.86726 d_x= -0.0017867 x= 0.86548 d_x= -3.1022e-06 x= 0.86547 d_x= -9.3421e-12 x= 0.86547 d_x= 3.6902e-17 """ # try to run tests with LC_ALL=C if this assertion fails