def test_JistLaminarVolumetricLayering_inputs(): input_map = dict( args=dict(argstr="%s"), environ=dict(nohash=True, usedefault=True), ignore_exception=dict(nohash=True, usedefault=True), inInner=dict(argstr="--inInner %s"), inLayering=dict(argstr="--inLayering %s"), inLayering2=dict(argstr="--inLayering2 %s"), inMax=dict(argstr="--inMax %d"), inMin=dict(argstr="--inMin %f"), inNumber=dict(argstr="--inNumber %d"), inOuter=dict(argstr="--inOuter %s"), inTopology=dict(argstr="--inTopology %s"), incurvature=dict(argstr="--incurvature %d"), inpresmooth=dict(argstr="--inpresmooth %s"), inratio=dict(argstr="--inratio %f"), null=dict(argstr="--null %s"), outContinuous=dict(argstr="--outContinuous %s", hash_files=False), outDiscrete=dict(argstr="--outDiscrete %s", hash_files=False), outLayer=dict(argstr="--outLayer %s", hash_files=False), terminal_output=dict(nohash=True), xDefaultMem=dict(argstr="-xDefaultMem %d"), xMaxProcess=dict(argstr="-xMaxProcess %d", usedefault=True), xPrefExt=dict(argstr="--xPrefExt %s"), ) inputs = JistLaminarVolumetricLayering.input_spec() for key, metadata in input_map.items(): for metakey, value in metadata.items(): yield assert_equal, getattr(inputs.traits()[key], metakey), value
def test_JistLaminarVolumetricLayering_outputs(): output_map = dict(outContinuous=dict(), outDiscrete=dict(), outLayer=dict()) outputs = JistLaminarVolumetricLayering.output_spec() for key, metadata in output_map.items(): for metakey, value in metadata.items(): yield assert_equal, getattr(outputs.traits()[key], metakey), value
def test_JistLaminarVolumetricLayering_outputs(): output_map = dict( outContinuous=dict(), outDiscrete=dict(), outLayer=dict(), ) outputs = JistLaminarVolumetricLayering.output_spec() for key, metadata in output_map.items(): for metakey, value in metadata.items(): yield assert_equal, getattr(outputs.traits()[key], metakey), value
def test_JistLaminarVolumetricLayering_inputs(): input_map = dict( args=dict(argstr='%s', ), environ=dict( nohash=True, usedefault=True, ), ignore_exception=dict( nohash=True, usedefault=True, ), inInner=dict(argstr='--inInner %s', ), inLayering=dict(argstr='--inLayering %s', ), inLayering2=dict(argstr='--inLayering2 %s', ), inMax=dict(argstr='--inMax %d', ), inMin=dict(argstr='--inMin %f', ), inNumber=dict(argstr='--inNumber %d', ), inOuter=dict(argstr='--inOuter %s', ), inTopology=dict(argstr='--inTopology %s', ), incurvature=dict(argstr='--incurvature %d', ), inpresmooth=dict(argstr='--inpresmooth %s', ), inratio=dict(argstr='--inratio %f', ), null=dict(argstr='--null %s', ), outContinuous=dict( argstr='--outContinuous %s', hash_files=False, ), outDiscrete=dict( argstr='--outDiscrete %s', hash_files=False, ), outLayer=dict( argstr='--outLayer %s', hash_files=False, ), terminal_output=dict( mandatory=True, nohash=True, ), xDefaultMem=dict(argstr='-xDefaultMem %d', ), xMaxProcess=dict( argstr='-xMaxProcess %d', usedefault=True, ), xPrefExt=dict(argstr='--xPrefExt %s', ), ) inputs = JistLaminarVolumetricLayering.input_spec() for key, metadata in input_map.items(): for metakey, value in metadata.items(): yield assert_equal, getattr(inputs.traits()[key], metakey), value