add gather trt converter test case (#35523)

75d5e3bf · baoachun · GitHub · 42559f72 · 75d5e3bf · 75d5e3bf
2 changed file
--- a/paddle/fluid/inference/tensorrt/op_teller.cc
+++ b/paddle/fluid/inference/tensorrt/op_teller.cc
@@ -319,6 +319,17 @@ bool OpTeller::Tell(const framework::ir::Node* node, bool use_no_calib_int8,

    if (op_type == "gather") {
      if (!with_dynamic_shape) return false;
+
+      if (with_dynamic_shape) {
+        auto* block = desc.Block();
+        auto* x_var_desc = block->FindVar(desc.Input("X")[0]);
+        const auto x_shape = x_var_desc->GetShape();
+        if (x_shape.size() == 1) {
+          VLOG(3) << "Gather does not support 1-dimensional input in tensorrt";
+          return false;
+        }
+      }
+
      auto inputs = desc.InputArgumentNames();
      for (auto& input : inputs) {
        if (input == "Axis" && desc.Input("Axis").size() > 0) return false;

--- a/python/paddle/fluid/tests/unittests/ir/inference/test_trt_convert_gather.py
+++ b/python/paddle/fluid/tests/unittests/ir/inference/test_trt_convert_gather.py
+# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
+# 
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+# 
+#     http://www.apache.org/licenses/LICENSE-2.0
+# 
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+from trt_layer_auto_scan_test import TrtLayerAutoScanTest, SkipReasons
+from program_config import TensorConfig, ProgramConfig
+import numpy as np
+import paddle.inference as paddle_infer
+from functools import partial
+from typing import Optional, List, Callable, Dict, Any, Set
+import logging
+
+
+class TrtConvertGatherTest(TrtLayerAutoScanTest):
+    def is_program_valid(self, program_config: ProgramConfig) -> bool:
+        inputs = program_config.inputs
+        attrs = [
+            program_config.ops[i].attrs
+            for i in range(len(program_config.ops))
+        ]
+        if len(inputs['input_data'].shape) <= attrs[0]['axis']:
+            return False
+
+        return True
+
+    def sample_program_configs(self):
+        def generate_input1(shape):
+            return np.random.random(shape).astype(np.float32)
+
+        def generate_input2(index):
+            return np.array(index).astype(np.int32)
+
+        def generate_input3(axis):
+            return np.array([axis]).astype(np.int32)
+
+        for shape in [[32], [16, 64], [32, 16, 16], [32, 64, 16, 32]]:
+            for index in [[1, 4], [4, 8]]:
+                for axis in [0, 1, 2, 3]:
+                    for overwrite in [True, False]:
+                        for input in [{
+                                "X": ["input_data"],
+                                "Index": ["index_data"]
+                        }, {
+                                "X": ["input_data"],
+                                "Index": ["index_data"],
+                                "Axis": ["axis_data"]
+                        }]:
+                            self.shape = shape
+                            self.axis = axis
+                            self.input_num = len(input)
+                            dics = [{"overwrite": overwrite, "axis": axis}]
+                            ops_config = [{
+                                "op_type": "gather",
+                                "op_inputs": input,
+                                "op_outputs": {
+                                    "Out": ["output_data"]
+                                },
+                                "op_attrs": dics[0]
+                            }]
+                            ops = self.generate_op_config(ops_config)
+
+                            program_config = ProgramConfig(
+                                ops=ops,
+                                weights={},
+                                inputs={
+                                    "input_data": TensorConfig(data_gen=partial(
+                                        generate_input1, shape)),
+                                    "index_data": TensorConfig(data_gen=partial(
+                                        generate_input2, index)),
+                                } if len(input) == 2 else {
+                                    "input_data": TensorConfig(data_gen=partial(
+                                        generate_input1, shape)),
+                                    "index_data": TensorConfig(data_gen=partial(
+                                        generate_input2, index)),
+                                    "axis_data": TensorConfig(data_gen=partial(
+                                        generate_input3, axis)),
+                                },
+                                outputs=["output_data"])
+
+                            yield program_config
+
+    def sample_predictor_configs(
+            self, program_config) -> (paddle_infer.Config, List[int], float):
+        def generate_dynamic_shape(attrs):
+            if len(self.shape) == 1:
+                self.dynamic_shape.min_input_shape = {
+                    "input_data": [4],
+                    "index_data": [1]
+                }
+                self.dynamic_shape.max_input_shape = {
+                    "input_data": [128],
+                    "index_data": [4]
+                }
+                self.dynamic_shape.opt_input_shape = {
+                    "input_data": [16],
+                    "index_data": [2]
+                }
+            elif len(self.shape) == 2:
+                self.dynamic_shape.min_input_shape = {
+                    "input_data": [2, 4],
+                    "index_data": [1]
+                }
+                self.dynamic_shape.max_input_shape = {
+                    "input_data": [256, 256],
+                    "index_data": [4]
+                }
+                self.dynamic_shape.opt_input_shape = {
+                    "input_data": [64, 32],
+                    "index_data": [2]
+                }
+            elif len(self.shape) == 3:
+                self.dynamic_shape.min_input_shape = {
+                    "input_data": [2, 4, 4],
+                    "index_data": [1]
+                }
+                self.dynamic_shape.max_input_shape = {
+                    "input_data": [128, 256, 256],
+                    "index_data": [4]
+                }
+                self.dynamic_shape.opt_input_shape = {
+                    "input_data": [16, 64, 32],
+                    "index_data": [2]
+                }
+            elif len(self.shape) == 4:
+                self.dynamic_shape.min_input_shape = {
+                    "input_data": [2, 4, 4, 2],
+                    "index_data": [1]
+                }
+                self.dynamic_shape.max_input_shape = {
+                    "input_data": [128, 256, 128, 256],
+                    "index_data": [4]
+                }
+                self.dynamic_shape.opt_input_shape = {
+                    "input_data": [16, 64, 16, 32],
+                    "index_data": [2]
+                }
+
+        def clear_dynamic_shape():
+            self.dynamic_shape.max_input_shape = {}
+            self.dynamic_shape.min_input_shape = {}
+            self.dynamic_shape.opt_input_shape = {}
+
+        def generate_trt_nodes_num(dynamic_shape):
+            if self.input_num == 3:
+                return 0, 5
+            else:
+                if dynamic_shape and self.axis == 0:
+                    return 1, 3
+                else:
+                    return 0, 4
+
+        attrs = [
+            program_config.ops[i].attrs
+            for i in range(len(program_config.ops))
+        ]
+
+        # for static_shape
+        clear_dynamic_shape()
+        self.trt_param.precision = paddle_infer.PrecisionType.Float32
+        yield self.create_inference_config(), generate_trt_nodes_num(
+            False), 1e-5
+        self.trt_param.precision = paddle_infer.PrecisionType.Half
+        yield self.create_inference_config(), generate_trt_nodes_num(
+            False), 1e-5
+
+        # for dynamic_shape
+        generate_dynamic_shape(attrs)
+        self.trt_param.precision = paddle_infer.PrecisionType.Float32
+        yield self.create_inference_config(), generate_trt_nodes_num(True), 1e-5
+        self.trt_param.precision = paddle_infer.PrecisionType.Half
+        yield self.create_inference_config(), generate_trt_nodes_num(True), 1e-5
+
+    def add_skip_trt_case(self):
+        def teller1(program_config, predictor_config):
+            if len(self.dynamic_shape.min_input_shape) != 0:
+                inputs = program_config.inputs
+                if len(inputs['input_data'].shape) == 1 or len(inputs[
+                        'index_data'].shape) == 1:
+                    return True
+            return False
+
+        self.add_skip_case(
+            teller1, SkipReasons.TRT_NOT_SUPPORT,
+            "Need to repair the case: trt reshape out failed for dynamic shape mode when inputs' dims==1."
+        )
+
+        def teller2(program_config, predictor_config):
+            inputs = program_config.inputs
+            if "axis_data" in inputs.keys():
+                return True
+            return False
+
+        self.add_skip_case(
+            teller2, SkipReasons.TRT_NOT_SUPPORT,
+            "Need to repair the case: trt do not support axis tensor input.")
+
+    def test(self):
+        self.add_skip_trt_case()
+        self.run_test()
+
+
+if __name__ == "__main__":
+    unittest.main()