# AUTO-GENERATED by tools/checkspecs.py - DO NOT EDIT
from ..minc import Resample


def test_Resample_inputs():
    input_map = dict(
        args=dict(
            argstr="%s",
        ),
        clobber=dict(
            argstr="-clobber",
            usedefault=True,
        ),
        coronal_slices=dict(
            argstr="-coronal",
            xor=("transverse", "sagittal", "coronal"),
        ),
        dircos=dict(
            argstr="-dircos %s %s %s",
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        environ=dict(
            nohash=True,
            usedefault=True,
        ),
        fill=dict(
            argstr="-fill",
            xor=("nofill", "fill"),
        ),
        fill_value=dict(
            argstr="-fillvalue %s",
            requires=["fill"],
        ),
        format_byte=dict(
            argstr="-byte",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_double=dict(
            argstr="-double",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_float=dict(
            argstr="-float",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_int=dict(
            argstr="-int",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_long=dict(
            argstr="-long",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_short=dict(
            argstr="-short",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_signed=dict(
            argstr="-signed",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        format_unsigned=dict(
            argstr="-unsigned",
            xor=(
                "format_byte",
                "format_short",
                "format_int",
                "format_long",
                "format_float",
                "format_double",
                "format_signed",
                "format_unsigned",
            ),
        ),
        half_width_sinc_window=dict(
            argstr="-width %s",
            requires=["sinc_interpolation"],
        ),
        input_file=dict(
            argstr="%s",
            extensions=None,
            mandatory=True,
            position=-2,
        ),
        input_grid_files=dict(),
        invert_transformation=dict(
            argstr="-invert_transformation",
        ),
        keep_real_range=dict(
            argstr="-keep_real_range",
            xor=("keep_real_range", "nokeep_real_range"),
        ),
        like=dict(
            argstr="-like %s",
            extensions=None,
        ),
        nearest_neighbour_interpolation=dict(
            argstr="-nearest_neighbour",
            xor=(
                "trilinear_interpolation",
                "tricubic_interpolation",
                "nearest_neighbour_interpolation",
                "sinc_interpolation",
            ),
        ),
        nelements=dict(
            argstr="-nelements %s %s %s",
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        no_fill=dict(
            argstr="-nofill",
            xor=("nofill", "fill"),
        ),
        no_input_sampling=dict(
            argstr="-use_input_sampling",
            xor=("vio_transform", "no_input_sampling"),
        ),
        nokeep_real_range=dict(
            argstr="-nokeep_real_range",
            xor=("keep_real_range", "nokeep_real_range"),
        ),
        origin=dict(
            argstr="-origin %s %s %s",
        ),
        output_file=dict(
            argstr="%s",
            extensions=None,
            genfile=True,
            hash_files=False,
            name_source=["input_file"],
            name_template="%s_resample.mnc",
            position=-1,
        ),
        output_range=dict(
            argstr="-range %s %s",
        ),
        sagittal_slices=dict(
            argstr="-sagittal",
            xor=("transverse", "sagittal", "coronal"),
        ),
        sinc_interpolation=dict(
            argstr="-sinc",
            xor=(
                "trilinear_interpolation",
                "tricubic_interpolation",
                "nearest_neighbour_interpolation",
                "sinc_interpolation",
            ),
        ),
        sinc_window_hamming=dict(
            argstr="-hamming",
            requires=["sinc_interpolation"],
            xor=("sinc_window_hanning", "sinc_window_hamming"),
        ),
        sinc_window_hanning=dict(
            argstr="-hanning",
            requires=["sinc_interpolation"],
            xor=("sinc_window_hanning", "sinc_window_hamming"),
        ),
        spacetype=dict(
            argstr="-spacetype %s",
        ),
        standard_sampling=dict(
            argstr="-standard_sampling",
        ),
        start=dict(
            argstr="-start %s %s %s",
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        step=dict(
            argstr="-step %s %s %s",
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        talairach=dict(
            argstr="-talairach",
        ),
        transformation=dict(
            argstr="-transformation %s",
            extensions=None,
        ),
        transverse_slices=dict(
            argstr="-transverse",
            xor=("transverse", "sagittal", "coronal"),
        ),
        tricubic_interpolation=dict(
            argstr="-tricubic",
            xor=(
                "trilinear_interpolation",
                "tricubic_interpolation",
                "nearest_neighbour_interpolation",
                "sinc_interpolation",
            ),
        ),
        trilinear_interpolation=dict(
            argstr="-trilinear",
            xor=(
                "trilinear_interpolation",
                "tricubic_interpolation",
                "nearest_neighbour_interpolation",
                "sinc_interpolation",
            ),
        ),
        two=dict(
            argstr="-2",
        ),
        units=dict(
            argstr="-units %s",
        ),
        vio_transform=dict(
            argstr="-tfm_input_sampling",
            xor=("vio_transform", "no_input_sampling"),
        ),
        xdircos=dict(
            argstr="-xdircos %s",
            requires=("ydircos", "zdircos"),
            xor=("dircos", "dircos_x_y_or_z"),
        ),
        xnelements=dict(
            argstr="-xnelements %s",
            requires=("ynelements", "znelements"),
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        xstart=dict(
            argstr="-xstart %s",
            requires=("ystart", "zstart"),
            xor=("start", "start_x_y_or_z"),
        ),
        xstep=dict(
            argstr="-xstep %s",
            requires=("ystep", "zstep"),
            xor=("step", "step_x_y_or_z"),
        ),
        ydircos=dict(
            argstr="-ydircos %s",
            requires=("xdircos", "zdircos"),
            xor=("dircos", "dircos_x_y_or_z"),
        ),
        ynelements=dict(
            argstr="-ynelements %s",
            requires=("xnelements", "znelements"),
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        ystart=dict(
            argstr="-ystart %s",
            requires=("xstart", "zstart"),
            xor=("start", "start_x_y_or_z"),
        ),
        ystep=dict(
            argstr="-ystep %s",
            requires=("xstep", "zstep"),
            xor=("step", "step_x_y_or_z"),
        ),
        zdircos=dict(
            argstr="-zdircos %s",
            requires=("xdircos", "ydircos"),
            xor=("dircos", "dircos_x_y_or_z"),
        ),
        znelements=dict(
            argstr="-znelements %s",
            requires=("xnelements", "ynelements"),
            xor=("nelements", "nelements_x_y_or_z"),
        ),
        zstart=dict(
            argstr="-zstart %s",
            requires=("xstart", "ystart"),
            xor=("start", "start_x_y_or_z"),
        ),
        zstep=dict(
            argstr="-zstep %s",
            requires=("xstep", "ystep"),
            xor=("step", "step_x_y_or_z"),
        ),
    )
    inputs = Resample.input_spec()

    for key, metadata in list(input_map.items()):
        for metakey, value in list(metadata.items()):
            assert getattr(inputs.traits()[key], metakey) == value


def test_Resample_outputs():
    output_map = dict(
        output_file=dict(
            extensions=None,
        ),
    )
    outputs = Resample.output_spec()

    for key, metadata in list(output_map.items()):
        for metakey, value in list(metadata.items()):
            assert getattr(outputs.traits()[key], metakey) == value