Beispiel #1
0
def rref_solve(matlist, variable, constant, K):
    """
    Solves a system of equations using reduced row echelon form given
    a matrix of coefficients, a vector of variables and a vector of constants.

    Examples
    ========

    >>> from sympy.matrices.densesolve import rref_solve
    >>> from sympy import QQ
    >>> from sympy import Dummy
    >>> x, y, z = Dummy('x'), Dummy('y'), Dummy('z')
    >>> coefficients = [
    ... [QQ(25), QQ(15), QQ(-5)],
    ... [QQ(15), QQ(18), QQ(0)],
    ... [QQ(-5), QQ(0), QQ(11)]]
    >>> constants = [
    ... [QQ(2)],
    ... [QQ(3)],
    ... [QQ(1)]]
    >>> variables = [
    ... [x],
    ... [y],
    ... [z]]
    >>> rref_solve(coefficients, variables, constants, QQ)
    [[-1/225], [23/135], [4/45]]

    See Also
    ========

    row_echelon
    augment
    """
    new_matlist = copy.deepcopy(matlist)
    augmented = augment(new_matlist, constant, K)
    solution = rref(augmented, K)
    return col(solution, -1)
Beispiel #2
0
def rref_solve(matlist, variable, constant, K):
    """
    Solves a system of equations using reduced row echelon form given
    a matrix of coefficients, a vector of variables and a vector of constants.

    Examples
    ========

    >>> from sympy.matrices.densesolve import rref_solve
    >>> from sympy import QQ
    >>> from sympy import Dummy
    >>> x, y, z = Dummy('x'), Dummy('y'), Dummy('z')
    >>> coefficients = [
    ... [QQ(25), QQ(15), QQ(-5)],
    ... [QQ(15), QQ(18), QQ(0)],
    ... [QQ(-5), QQ(0), QQ(11)]]
    >>> constants = [
    ... [QQ(2)],
    ... [QQ(3)],
    ... [QQ(1)]]
    >>> variables = [
    ... [x],
    ... [y],
    ... [z]]
    >>> rref_solve(coefficients, variables, constants, QQ)
    [[-1/225], [23/135], [4/45]]

    See Also
    ========

    row_echelon
    augment
    """
    new_matlist = copy.deepcopy(matlist)
    augmented = augment(new_matlist, constant, K)
    solution = rref(augmented, K)
    return col(solution, -1)