integrate.tests.test_ivp

Module Contents

Functions

fun_linear(t,y)
jac_linear()
sol_linear(t)
fun_rational(t,y)
fun_rational_vectorized(t,y)
jac_rational(t,y)
jac_rational_sparse(t,y)
sol_rational(t)
fun_medazko(t,y)
medazko_sparsity(n)
fun_complex(t,y)
jac_complex(t,y)
jac_complex_sparse(t,y)
sol_complex(t)
compute_error(y,y_true,rtol,atol)
test_integration()
test_integration_complex()
test_integration_sparse_difference()
test_integration_const_jac()
test_events()
test_max_step()
test_t_eval()
test_no_integration()
test_no_integration_class()
test_empty()
test_ConstantDenseOutput()
test_classes()
test_OdeSolution()
test_num_jac()
test_num_jac_sparse()
fun_linear(t, y)
jac_linear()
sol_linear(t)
fun_rational(t, y)
fun_rational_vectorized(t, y)
jac_rational(t, y)
jac_rational_sparse(t, y)
sol_rational(t)
fun_medazko(t, y)
medazko_sparsity(n)
fun_complex(t, y)
jac_complex(t, y)
jac_complex_sparse(t, y)
sol_complex(t)
compute_error(y, y_true, rtol, atol)
test_integration()
test_integration_complex()
test_integration_sparse_difference()
test_integration_const_jac()
test_events()
test_max_step()
test_t_eval()
test_no_integration()
test_no_integration_class()
test_empty()
test_ConstantDenseOutput()
test_classes()
test_OdeSolution()
test_num_jac()
test_num_jac_sparse()