From 57786e372935a1fd54291b80d9ef168e4bd697a7 Mon Sep 17 00:00:00 2001 From: yeliang2258 <30516196+yeliang2258@users.noreply.github.com> Date: Sat, 9 Oct 2021 10:16:24 +0800 Subject: [PATCH] add 5 operators and fix 2 operators (#682) * support movenet * update * update * update reducesum * update max and min --- .../op_mapper/onnx2paddle/opset9/opset.py | 164 ++++++++++++++++-- 1 file changed, 148 insertions(+), 16 deletions(-) diff --git a/x2paddle/op_mapper/onnx2paddle/opset9/opset.py b/x2paddle/op_mapper/onnx2paddle/opset9/opset.py index 98dce93..e820356 100755 --- a/x2paddle/op_mapper/onnx2paddle/opset9/opset.py +++ b/x2paddle/op_mapper/onnx2paddle/opset9/opset.py @@ -124,27 +124,22 @@ class OpSet9(): 'ReduceMean': [ 'paddle.mean', dict( axes='axis', keepdims='keepdim'), dict( - axes=None, keepdims=1) - ], - 'ReduceSum': [ - 'paddle.sum', dict( - axes='axis', keepdims='keepdim'), dict( - axes=None, keepdims=1) + axes=None, keepdims=True) ], 'ReduceMin': [ 'paddle.min', dict( axes='axis', keepdims='keepdim'), dict( - axes=None, keepdim=1) + axes=None, keepdim=True) ], 'ReduceMax': [ 'paddle.max', dict( axes='axis', keepdims='keepdim'), dict( - axes=None, keepdim=1) + axes=None, keepdim=True) ], 'ReduceProd': [ 'paddle.prod', dict( axes='axis', keepdims='keepdim'), dict( - axes=None, keepdim=1) + axes=None, keepdim=True) ], # active function 'Relu': ['paddle.nn.ReLU'], @@ -663,7 +658,9 @@ class OpSet9(): def Unsqueeze(self, node): val_x = self.graph.get_input_node(node, idx=0, copy=True) axes = node.get_attr('axes') - layer_attrs = {'axis': axes} + if axes is None: + axes = self.graph.get_input_node(node, idx=1, copy=True) + if len(val_x.out_shapes[0]) == 0: if node.name: self.paddle_graph.add_layer( @@ -672,11 +669,18 @@ class OpSet9(): outputs=[node.name], shape=[1]) else: - self.paddle_graph.add_layer( - 'paddle.unsqueeze', - inputs={"x": val_x.name}, - outputs=[node.name], - **layer_attrs) + if isinstance(axes, list) or isinstance(axes, tuple): + self.paddle_graph.add_layer( + 'paddle.unsqueeze', + inputs={"x": val_x.name}, + axis=axes, + outputs=[node.name]) + else: + self.paddle_graph.add_layer( + 'paddle.unsqueeze', + inputs={"x": val_x.name, + "axis": axes.name}, + outputs=[node.name]) @print_mapping_info def Shrink(self, node): @@ -1183,11 +1187,135 @@ class OpSet9(): else: raise Exception("max_value or min_value can't be None") + @print_mapping_info + def ReduceSum(self, node): + val_x = self.graph.get_input_node(node, idx=0, copy=True) + if len(node.inputs) == 1: + keepdims = node.get_attr('keepdims') + if keepdims is None: + keepdims = True + axes_value = node.get_attr('axes') + layer_attrs = {'axis': axes_value, 'keepdim': keepdims} + self.paddle_graph.add_layer( + 'paddle.sum', + inputs={"x": val_x.name}, + outputs=[node.name], + **layer_attrs) + else: + axes = self.graph.get_input_node(node, idx=1, copy=True) + axes_value = _const_weight_or_none(axes) + if axes_value.shape == (1, ): + axes_value = axes_value[0] + keepdims = node.get_attr('keepdims') + if keepdims is None: + layer_attrs = {'axis': axes_value} + else: + layer_attrs = {'axis': axes_value, 'keepdim': keepdims} + + self.paddle_graph.add_layer( + 'paddle.sum', + inputs={"x": val_x.name}, + outputs=[node.name], + **layer_attrs) + + @print_mapping_info + def Max(self, node): + if len(node.inputs) == 2: + val_x = self.graph.get_input_node(node, idx=0, copy=True) + val_y = self.graph.get_input_node(node, idx=1, copy=True) + self.paddle_graph.add_layer( + "paddle.maximum", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[node.name]) + else: + val_x = self.graph.get_input_node(node, idx=0, copy=True) + temp_name = "max_" + for i in range(1, len(node.inputs)): + val_y = self.graph.get_input_node(node, idx=i, copy=True) + temp_name = temp_name + str(i) + if i == len(node.inputs) - 1: + self.paddle_graph.add_layer( + "paddle.maximum", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[node.name]) + else: + self.paddle_graph.add_layer( + "paddle.maximum", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[temp_name]) + val_x.name = temp_name + + @print_mapping_info + def Min(self, node): + if len(node.inputs) == 2: + val_x = self.graph.get_input_node(node, idx=0, copy=True) + val_y = self.graph.get_input_node(node, idx=1, copy=True) + self.paddle_graph.add_layer( + "paddle.minimum", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[node.name]) + else: + val_x = self.graph.get_input_node(node, idx=0, copy=True) + temp_name = "min_" + for i in range(1, len(node.inputs)): + val_y = self.graph.get_input_node(node, idx=i, copy=True) + temp_name = temp_name + str(i) + if i == len(node.inputs) - 1: + self.paddle_graph.add_layer( + "paddle.minimum", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[node.name]) + else: + self.paddle_graph.add_layer( + "paddle.minimum", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[temp_name]) + val_x.name = temp_name + + @print_mapping_info + def GreaterOrEqual(self, node): + val_x = self.graph.get_input_node(node, idx=0, copy=True) + val_y = self.graph.get_input_node(node, idx=1, copy=True) + self.paddle_graph.add_layer( + "paddle.greater_equal", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[node.name]) + + @print_mapping_info + def GatherND(self, node): + print(len(node.inputs), node.inputs) + val_x = self.graph.get_input_node(node, idx=0, copy=True) + val_y = self.graph.get_input_node(node, idx=1, copy=True) + self.paddle_graph.add_layer( + "paddle.gather_nd", + inputs={"x": val_x.name, + "index": val_y.name}, + outputs=[node.name]) + + @print_mapping_info + def And(self, node): + val_x = self.graph.get_input_node(node, idx=0, copy=True) + val_y = self.graph.get_input_node(node, idx=1, copy=True) + self.paddle_graph.add_layer( + "paddle.logical_and", + inputs={"x": val_x.name, + "y": val_y.name}, + outputs=[node.name]) + @print_mapping_info def Split(self, node): val_x = self.graph.get_input_node(node, idx=0, copy=True) paddle_op = 'split' split = node.get_attr('split') + if split is None: + split = len(node.outputs) axis = node.get_attr('axis', 0) layer_attrs = { 'num_or_sections': split, @@ -1201,7 +1329,11 @@ class OpSet9(): for i in range(len(split)): outputs_list.append("{}_p{}".format(node.layer_name, i)) else: - outputs_list.append(node.name) + if len(node.outputs) == 1: + outputs_list.append(node.name) + else: + for i in range(len(node.outputs)): + outputs_list.append("{}_p{}".format(node.layer_name, i)) self.paddle_graph.add_layer( 'paddle.split', inputs={"x": val_x.name}, -- GitLab