def replace_interpolate_pattern(graph: Graph, match: dict):
split = match['split']
scale = float32_array([get_split_scale(split)])
axis = int(split.in_port(1).get_connection().get_source().node.value)
split_node_name = split.name
axis_node = Const(graph, {'name': split_node_name + '/axis', 'value': int64_array([axis])}).create_node()
shape_node = Shape(graph, dict(name=split_node_name + '/Shape')).create_node()
scales_node = Const(graph, dict(name=split_node_name + '/scales', value=scale)).create_node()
mul_node = Mul(graph, dict(name=split_node_name + '/Mul')).create_node()
scales_node.out_port(0).connect(mul_node.in_port(1))
strided_slice_node = create_op_with_const_inputs(graph,
StridedSlice,
{1: int64_array([axis]), 2: int64_array([axis + 1])},
{
'name': split_node_name + '/StridedSlice',
'begin_mask': int64_array([1]),
'end_mask': int64_array([1]),
'new_axis_mask': int64_array([0]),
'shrink_axis_mask': int64_array([0]),
'ellipsis_mask': int64_array([0])
})
shape_node.out_port(0).connect(strided_slice_node.in_port(0))
cast_shape_to_float = Cast(graph, {'dst_type': np.float32}).create_node()
strided_slice_node.out_port(0).connect(cast_shape_to_float.in_port(0))
cast_shape_to_float.out_port(0).connect(mul_node.in_port(0))
interp_node = Interpolate(graph,
dict(name=split_node_name + '/Interpolate',
mode='nearest',
antialias=0, pads_begin=int64_array([0]), pads_end=int64_array([0]),
coordinate_transformation_mode='half_pixel', nearest_mode='round_prefer_floor',
cube_coeff=-0.75, version='opset4', shape_calculation_mode='scales',
in_ports_count=4, maybe_part_of_sequence=True)).create_node()
floor_node = Floor(graph, {'name': split_node_name + '/Floor'}).create_node()
cast_mul_result_to_int = Cast(graph, {'dst_type': np.int64}).create_node()
mul_node.out_port(0).connect(floor_node.in_port(0))
floor_node.out_port(0).connect(cast_mul_result_to_int.in_port(0))
cast_mul_result_to_int.out_port(0).connect(interp_node.in_port(1))
scales_node.out_port(0).connect(interp_node.in_port(2))
axis_node.out_port(0).connect(interp_node.in_port(3))
match['concat'].out_port(0).get_connection().set_source(interp_node.out_port(0))
split_connection = split.in_port(0).get_connection()
split_connection.set_destination(interp_node.in_port(0))
split_connection.get_source().connect(shape_node.in_port(0))
def floor_div_replacement(floor_div: Node):
graph = floor_div.graph
name = floor_div.soft_get('name', floor_div.id)
div = Div(graph, {'name': name + '/Div'}).create_node()
floor = Floor(graph, {'name': name}).create_node()
div.out_port(0).connect(floor.in_port(0))
div.in_port(0).connect(floor_div.in_port(0).get_source())
div.in_port(1).connect(floor_div.in_port(1).get_source())
floor_div.out_port(0).get_connection().set_source(floor.out_port(0))
graph.remove_node(floor_div.id)
rename_node(floor, name)
def replace_resize(graph: Graph, resize: Node):
log.debug("Converting of ONNX Resize-11 to Interpolate-4 "
"is triggered for node {}.".format(
resize.soft_get('name', resize.id)))
input_shape = resize.in_port(0).data.get_shape()
input_rank = len(input_shape)
resize_name = resize.soft_get('name', resize.id)
if input_rank not in {4, 5}:
log.warning(
'The input shape is not 4D or 5D for op with name {}'.format(
resize_name))
return
assert (resize.is_in_port_connected(0) and (resize.is_in_port_connected(2) or resize.is_in_port_connected(3))), \
"Scales or sizes inputs must be connected to Node {} with op {}.".format(resize.soft_get("name", resize.id),
resize.op)
assert resize.soft_get('coordinate_transformation_mode') != 'tf_crop_and_resize', \
'Mode tf_crop_and_resize is not supported for op {} with name {}'.format(resize.op,
resize.soft_get("name", resize.id))
layout = graph.graph['layout']
if input_rank == 4:
begin_dim = get_height_dim(layout, input_rank)
end_dim = get_width_dim(layout, input_rank) + 1
else:
begin_dim = get_depth_dim(layout, input_rank)
end_dim = get_width_dim(layout, input_rank) + 1
sizes_ss = create_op_with_const_inputs(
graph, StridedSlice, {
1: int64_array([begin_dim]),
2: int64_array([end_dim]),
3: int64_array([1])
}, {
'name': resize_name + '/StridedSlice_sizes',
'begin_mask': int64_array([1]),
'end_mask': int64_array([1]),
'new_axis_mask': int64_array([0]),
'shrink_axis_mask': int64_array([0]),
'ellipsis_mask': int64_array([0])
})
scales_ss = create_op_with_const_inputs(
graph, StridedSlice, {
1: int64_array([begin_dim]),
2: int64_array([end_dim]),
3: int64_array([1])
}, {
'name': resize_name + '/StridedSlice_scales',
'begin_mask': int64_array([1]),
'end_mask': int64_array([1]),
'new_axis_mask': int64_array([0]),
'shrink_axis_mask': int64_array([0]),
'ellipsis_mask': int64_array([0])
})
axes_node = Const(
graph, {
'name': resize_name + '/axis',
'value': int64_array(np.arange(begin_dim, end_dim))
}).create_node()
shape_calculation_mode = 'sizes' if resize.is_in_port_connected(
3) else 'scales'
interpolate_node = Interpolate(
graph, {
'version': 'opset4',
'mode': convert_mode(resize.mode),
'coordinate_transformation_mode':
resize.coordinate_transformation_mode,
'cube_coeff': resize.cube_coeff,
'nearest_mode': resize.nearest_mode,
'pads_begin': int64_array([0]),
'pads_end': int64_array([0]),
'antialias': 0,
'shape_calculation_mode': shape_calculation_mode,
'in_ports_count': 4
}).create_node()
axes_node.out_port(0).connect(interpolate_node.in_port(3))
shape_of = Shape(graph, {'name': resize_name + '/ShapeOf'}).create_node()
add_node = create_op_with_const_inputs(graph, Add,
{1: float_array([1.0e-5])},
{'name': resize_name + '/Add'})
dst_dtype = np.float32 # even if data_type=FP16 use float32 for shape values
if not resize.is_in_port_connected(3):
cast_shape_to_float = Cast(graph, {
'dst_type': dst_dtype
}).create_node()
mul_node = Mul(graph, {'name': resize_name + '/Mul'}).create_node()
shape_of.out_port(0).connect(cast_shape_to_float.in_port(0))
cast_shape_to_float.out_port(0).connect(mul_node.in_port(0))
cast_add_result_to_int = Cast(graph, {
'dst_type': np.int64
}).create_node()
floor_node = Floor(graph, {
'name': resize_name + '/Floor'
}).create_node()
mul_node.out_port(0).connect(add_node.in_port(0))
add_node.out_port(0).connect(floor_node.in_port(0))
floor_node.out_port(0).connect(cast_add_result_to_int.in_port(0))
cast_add_result_to_int.out_port(0).connect(sizes_ss.in_port(0))
sizes_ss.out_port(0).connect(interpolate_node.in_port(1))
scales_ss.out_port(0).connect(interpolate_node.in_port(2))
connection_of_resize_input = resize.in_port(0).get_connection()
connection_of_resize_input.set_destination(interpolate_node.in_port(0))
connection_of_scales = resize.in_port(2).get_connection()
connection_of_scales.set_destination(scales_ss.in_port(0))
connection_of_resize_input.get_source().connect(shape_of.in_port(0))
connection_of_scales.get_source().connect(mul_node.in_port(1))
else:
cast_shape_to_float = Cast(graph, {
'dst_type': dst_dtype
}).create_node()
cast_sizes_to_float = Cast(graph, {
'dst_type': dst_dtype
}).create_node()
div_node = Div(graph, {'name': resize_name + '/Div'}).create_node()
cast_sizes_to_float.out_port(0).connect(div_node.in_port(0))
cast_shape_to_float.out_port(0).connect(div_node.in_port(1))
shape_of.out_port(0).connect(cast_shape_to_float.in_port(0))
div_node.out_port(0).connect(add_node.in_port(0))
add_node.out_port(0).connect(scales_ss.in_port(0))
scales_ss.out_port(0).connect(interpolate_node.in_port(2))
sizes_ss.out_port(0).connect(interpolate_node.in_port(1))
connection_of_resize_input = resize.in_port(0).get_connection()
connection_of_resize_input.set_destination(interpolate_node.in_port(0))
connection_of_sizes = resize.in_port(3).get_connection()
connection_of_sizes.set_destination(sizes_ss.in_port(0))
connection_of_resize_input.get_source().connect(shape_of.in_port(0))
connection_of_sizes.get_source().connect(
cast_sizes_to_float.in_port(0))
rename_nodes([(resize, resize_name + '/delete'),
(interpolate_node, resize_name)])
resize.out_port(0).get_connection().set_source(
interpolate_node.out_port(0))