import sys

import numpy as np
from numpy.ctypeslib import ndpointer, load_library
from numpy.testing import *

try:
    cdll = load_library('multiarray', np.core.multiarray.__file__)
    _HAS_CTYPE = True
except ImportError:
    _HAS_CTYPE = False

class TestLoadLibrary(TestCase):
    @dec.skipif(not _HAS_CTYPE, "ctypes not available on this python installation")
    @dec.knownfailureif(sys.platform=='cygwin', "This test is known to fail on cygwin")
    def test_basic(self):
        try:
            cdll = load_library('multiarray',
                                np.core.multiarray.__file__)
        except ImportError, e:
            msg = "ctypes is not available on this python: skipping the test" \
                  " (import error was: %s)" % str(e)
            print msg

    @dec.skipif(not _HAS_CTYPE, "ctypes not available on this python installation")
    @dec.knownfailureif(sys.platform=='cygwin', "This test is known to fail on cygwin")
    def test_basic2(self):
        """Regression for #801: load_library with a full library name
        (including extension) does not work."""
        try:
            try:
                from distutils import sysconfig
                so = sysconfig.get_config_var('SO')
                cdll = load_library('multiarray%s' % so,
                                    np.core.multiarray.__file__)
            except ImportError:
                print "No distutils available, skipping test."
        except ImportError, e:
            msg = "ctypes is not available on this python: skipping the test" \
                  " (import error was: %s)" % str(e)
            print msg

class TestNdpointer(TestCase):
    def test_dtype(self):
        dt = np.intc
        p = ndpointer(dtype=dt)
        self.assert_(p.from_param(np.array([1], dt)))
        dt = '<i4'
        p = ndpointer(dtype=dt)
        self.assert_(p.from_param(np.array([1], dt)))
        dt = np.dtype('>i4')
        p = ndpointer(dtype=dt)
        p.from_param(np.array([1], dt))
        self.assertRaises(TypeError, p.from_param,
                          np.array([1], dt.newbyteorder('swap')))
        dtnames = ['x', 'y']
        dtformats = [np.intc, np.float64]
        dtdescr = {'names' : dtnames, 'formats' : dtformats}
        dt = np.dtype(dtdescr)
        p = ndpointer(dtype=dt)
        self.assert_(p.from_param(np.zeros((10,), dt)))
        samedt = np.dtype(dtdescr)
        p = ndpointer(dtype=samedt)
        self.assert_(p.from_param(np.zeros((10,), dt)))
        dt2 = np.dtype(dtdescr, align=True)
        if dt.itemsize != dt2.itemsize:
            self.assertRaises(TypeError, p.from_param, np.zeros((10,), dt2))
        else:
            self.assert_(p.from_param(np.zeros((10,), dt2)))

    def test_ndim(self):
        p = ndpointer(ndim=0)
        self.assert_(p.from_param(np.array(1)))
        self.assertRaises(TypeError, p.from_param, np.array([1]))
        p = ndpointer(ndim=1)
        self.assertRaises(TypeError, p.from_param, np.array(1))
        self.assert_(p.from_param(np.array([1])))
        p = ndpointer(ndim=2)
        self.assert_(p.from_param(np.array([[1]])))

    def test_shape(self):
        p = ndpointer(shape=(1,2))
        self.assert_(p.from_param(np.array([[1,2]])))
        self.assertRaises(TypeError, p.from_param, np.array([[1],[2]]))
        p = ndpointer(shape=())
        self.assert_(p.from_param(np.array(1)))

    def test_flags(self):
        x = np.array([[1,2,3]], order='F')
        p = ndpointer(flags='FORTRAN')
        self.assert_(p.from_param(x))
        p = ndpointer(flags='CONTIGUOUS')
        self.assertRaises(TypeError, p.from_param, x)
        p = ndpointer(flags=x.flags.num)
        self.assert_(p.from_param(x))
        self.assertRaises(TypeError, p.from_param, np.array([[1,2,3]]))


if __name__ == "__main__":
    run_module_suite()