def jac_vec(tape_tag, x, v): """ evaluate F'(x)v, F:R^N -> R^M """ ts = tapestats(tape_tag) N = ts['NUM_INDEPENDENTS'] M = ts['NUM_DEPENDENTS'] x = numpy.asarray(x, dtype=float) assert numpy.size(x) == N assert numpy.ndim(x) == 1 v = numpy.asarray(v, dtype=float) assert numpy.size(v) == N assert numpy.ndim(v) == 1 z = numpy.zeros(M, dtype=float) _adolc.jac_vec(tape_tag, M, N, x, v, z) return z
def jac_vec(tape_tag, x, v):
"""
evaluate F'(x)v, F:R^N -> R^M
"""
ts = tapestats(tape_tag)
N = ts['NUM_INDEPENDENTS']
M = ts['NUM_DEPENDENTS']
x = numpy.ascontiguousarray(x, dtype=float)
assert numpy.size(x) == N
assert numpy.ndim(x) == 1
v = numpy.ascontiguousarray(v, dtype=float)
assert numpy.size(v) == N
assert numpy.ndim(v) == 1
z = numpy.zeros(M, dtype=float)
rc = _adolc.jac_vec(tape_tag, M, N, x, v, z)
if (rc < 0):
raise ErrorReturnCode("jac_vec", rc)
return z
def jac_vec(tape_tag, x, v):
"""
evaluate F'(x)v, F:R^N -> R^M
"""
ts = tapestats(tape_tag)
N = ts['NUM_INDEPENDENTS']
M = ts['NUM_DEPENDENTS']
x = numpy.ascontiguousarray(x, dtype=float)
assert numpy.size(x) == N
assert numpy.ndim(x) == 1
v = numpy.ascontiguousarray(v, dtype=float)
assert numpy.size(v) == N
assert numpy.ndim(v) == 1
z = numpy.zeros(M, dtype=float)
rc = _adolc.jac_vec(tape_tag, M, N, x, v, z)
if (rc < 0):
raise ErrorReturnCode("jac_vec", rc)
return z
