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Python

"""
=============================================
Integration and ODEs (:mod:`scipy.integrate`)
=============================================
.. currentmodule:: scipy.integrate
Integrating functions, given function object
============================================
.. autosummary::
:toctree: generated/
quad -- General purpose integration
dblquad -- General purpose double integration
tplquad -- General purpose triple integration
nquad -- General purpose n-dimensional integration
fixed_quad -- Integrate func(x) using Gaussian quadrature of order n
quadrature -- Integrate with given tolerance using Gaussian quadrature
romberg -- Integrate func using Romberg integration
quad_explain -- Print information for use of quad
newton_cotes -- Weights and error coefficient for Newton-Cotes integration
IntegrationWarning -- Warning on issues during integration
Integrating functions, given fixed samples
==========================================
.. autosummary::
:toctree: generated/
trapz -- Use trapezoidal rule to compute integral.
cumtrapz -- Use trapezoidal rule to cumulatively compute integral.
simps -- Use Simpson's rule to compute integral from samples.
romb -- Use Romberg Integration to compute integral from
-- (2**k + 1) evenly-spaced samples.
.. seealso::
:mod:`scipy.special` for orthogonal polynomials (special) for Gaussian
quadrature roots and weights for other weighting factors and regions.
Solving initial value problems for ODE systems
==============================================
The solvers are implemented as individual classes which can be used directly
(low-level usage) or through a convenience function.
.. autosummary::
:toctree: generated/
solve_ivp -- Convenient function for ODE integration.
RK23 -- Explicit Runge-Kutta solver of order 3(2).
RK45 -- Explicit Runge-Kutta solver of order 5(4).
Radau -- Implicit Runge-Kutta solver of order 5.
BDF -- Implicit multi-step variable order (1 to 5) solver.
LSODA -- LSODA solver from ODEPACK Fortran package.
OdeSolver -- Base class for ODE solvers.
DenseOutput -- Local interpolant for computing a dense output.
OdeSolution -- Class which represents a continuous ODE solution.
Old API
-------
These are the routines developed earlier for scipy. They wrap older solvers
implemented in Fortran (mostly ODEPACK). While the interface to them is not
particularly convenient and certain features are missing compared to the new
API, the solvers themselves are of good quality and work fast as compiled
Fortran code. In some cases it might be worth using this old API.
.. autosummary::
:toctree: generated/
odeint -- General integration of ordinary differential equations.
ode -- Integrate ODE using VODE and ZVODE routines.
complex_ode -- Convert a complex-valued ODE to real-valued and integrate.
Solving boundary value problems for ODE systems
===============================================
.. autosummary::
:toctree: generated/
solve_bvp -- Solve a boundary value problem for a system of ODEs.
"""
from __future__ import division, print_function, absolute_import
from .quadrature import *
from .odepack import *
from .quadpack import *
from ._ode import *
from ._bvp import solve_bvp
from ._ivp import (solve_ivp, OdeSolution, DenseOutput,
OdeSolver, RK23, RK45, Radau, BDF, LSODA)
__all__ = [s for s in dir() if not s.startswith('_')]
from scipy._lib._testutils import PytestTester
test = PytestTester(__name__)
del PytestTester