import numpy as np
import numpy.linalg as la
import pyopencl as cl
import pyopencl.array  # noqa
import pyopencl.clrandom  # noqa
import loopy as lp
import sys

from pyopencl.tools import (  # noqa
        pytest_generate_tests_for_pyopencl
        as pytest_generate_tests)


class LoopyFixture:
    _WENO_PRG = []
    _QUEUE = []

    def get_weno_program(self):
        if self._WENO_PRG:
            return self._WENO_PRG[0]

        fn = "WENO.F90"

        with open(fn, "r") as infile:
            infile_content = infile.read()

        prg = lp.parse_transformed_fortran(infile_content, filename=fn)
        self._WENO_PRG.append(prg)
        return prg

    def with_root_kernel(self, prg, root_name):
        # FIXME This is a little less beautiful than it could be
        new_prg = prg.copy(name=root_name)
        for name in prg:
            clbl = new_prg[name]
            if isinstance(clbl, lp.LoopKernel) and clbl.is_called_from_host:
                new_prg = new_prg.with_kernel(clbl.copy(is_called_from_host=False))

        new_prg = new_prg.with_kernel(prg[root_name].copy(is_called_from_host=True))
        return new_prg

    def get_queue(self, ctx_factory):
        if not self._QUEUE:
            ctx = ctx_factory()
            self._QUEUE.append(cl.CommandQueue(ctx))
        return self._QUEUE[0]

    def mult_mat_vec(ctx_factory, alpha, a, b, c):
        pass


f = LoopyFixture()

def test_matvec(ctx_factory):
    queue = f.get_queue(ctx_factory)

    prg = f.get_weno_program()
    prg = f.with_root_kernel(prg, "mult_mat_vec")

    a = np.random.rand(10, 10).astype(np.float32).copy(order="F")
    b = np.random.rand(10).astype(np.float32)

    c_dev = cl.array.empty(queue, 10, dtype=np.float32)

    prg = lp.set_options(prg, write_cl=True)
    prg(queue, a=a, b=b, c=c_dev, alpha=1.0)

    c = c_dev.get()

    assert la.norm(a@b - c, 2)/la.norm(c) < 1e-5


def test_compute_flux_derivatives(ctx_factory):
    queue = f.get_queue(ctx_factory)

    ndim = 3
    nvars = 5
    nx = 10
    ny = 10
    nz = 10

    prg = f.get_weno_program()
    prg = lp.fix_parameters(prg, nx=nx, ny=ny, nz=nz, _remove=False)

    states = np.random.randn(nvars, nx+6, ny+6, nz+6).astype(np.float32).copy(
            order="F")
    fluxes = np.random.randn(nvars, ndim, nx+6, ny+6, nz+6).astype(np.float32).copy(
            order="F")
    metrics = np.random.randn(ndim, ndim, nx+6, ny+6, nz+6).astype(np.float32).copy(
            order="F")
    metric_jacobians = np.random.randn(nx+6, ny+6, nz+6).astype(np.float32).copy(
            order="F")

    flux_derivatives_dev = cl.array.empty(queue, (nvars, ndim, nx+6, ny+6,
        nz+6), dtype=np.float32, order="F")

    prg(queue, nvars=nvars, ndim=ndim, nx=nx, ny=ny, nz=nz, states=states,
            fluxes=fluxes, metrics=metrics,
            metric_jacobians=metric_jacobians,
            flux_derivatives=flux_derivatives_dev)
    print('Ran with some dummy arguments')


# This lets you run 'python test.py test_case(cl._csc)' without pytest.

if __name__ == "__main__":
    if len(sys.argv) > 1:
        exec(sys.argv[1])
    else:
        from pytest import main
        main([__file__])