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mindspore/tests/ut/cpp/session/kernel_graph_test.cc

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  1. /**

  2.  * Copyright 2020 Huawei Technologies Co., Ltd

  3.  *

  4.  * Licensed under the Apache License, Version 2.0 (the "License");

  5.  * you may not use this file except in compliance with the License.

  6.  * You may obtain a copy of the License at

  7.  *

  8.  * http://www.apache.org/licenses/LICENSE-2.0

  9.  *

  10.  * Unless required by applicable law or agreed to in writing, software

  11.  * distributed under the License is distributed on an "AS IS" BASIS,

  12.  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  13.  * See the License for the specific language governing permissions and

  14.  * limitations under the License.

  15.  */

  16. 

  17. #include "common/common_test.h"

  18. #include "ir/param_value.h"

  19. #include "frontend/operator/ops.h"

  20. #include "backend/session/kernel_graph.h"

  21. #include "backend/session/anf_runtime_algorithm.h"

  22. #include "mindspore/ccsrc/runtime/device/kernel_info.h"

  23. #include "utils/utils.h"

  24. 

  25. namespace mindspore {

  26. namespace session {

  27. using device::KernelInfo;

  28. using KernelBuildInfoBuilder = kernel::KernelBuildInfo::KernelBuildInfoBuilder;

  29. 

  30. class KernelGraphTest : public UT::Common {

  31.  public:

  32.   KernelGraphTest() = default;

  33.   void SetUp() override {}

  34.   void TearDown() override {}

  35. };

  36. 

  37. TEST_F(KernelGraphTest, NewValueNode) {

  38.   auto kernel_graph = std::make_shared<KernelGraph>();

  39.   auto add_value = NewValueNode(MakeValue(0));

  40.   MS_EXCEPTION_IF_NULL(add_value);

  41.   std::vector<int> shape = {1};

  42.   auto x_abstract = std::make_shared<abstract::AbstractTensor>(kFloat32, shape);

  43.   add_value->set_abstract(x_abstract);

  44.   add_value->set_kernel_info(std::make_shared<KernelInfo>());

  45.   auto mutable_kernel_info = dynamic_cast<device::KernelInfo *>(add_value->kernel_info());

  46.   MS_EXCEPTION_IF_NULL(mutable_kernel_info);

  47.   std::shared_ptr<KernelBuildInfoBuilder> builder = std::make_shared<KernelBuildInfoBuilder>();

  48.   builder->SetOutputsFormat({kOpFormat_FRAC_Z});

  49.   builder->SetOutputsDeviceType({kFloat32->type_id()});

  50.   mutable_kernel_info->set_select_kernel_build_info(builder->Build());

  51.   auto new_value = kernel_graph->NewValueNode(add_value);

  52.   EXPECT_NE(new_value, nullptr);

  53.   EXPECT_EQ(AnfAlgo::GetOutputInferShape(new_value, 0)[0], 1);

  54.   EXPECT_EQ(AnfAlgo::GetOutputInferDataType(new_value, 0), kFloat32->type_id());

  55.   EXPECT_EQ(AnfAlgo::GetOutputFormat(new_value, 0), kOpFormat_DEFAULT);

  56.   EXPECT_EQ(AnfAlgo::GetOutputDeviceDataType(new_value, 0), kTypeUnknown);

  57. }

  58. 

  59. TEST_F(KernelGraphTest, NewParameter) {

  60.   auto anf_graph = std::make_shared<FuncGraph>();

  61.   auto kernel_graph = std::make_shared<KernelGraph>();

  62.   // test nullptr as input

  63.   auto new_paramter = kernel_graph->NewParameter(nullptr);

  64.   EXPECT_NE(new_paramter, nullptr);

  65.   EXPECT_TRUE(new_paramter->isa<Parameter>());

  66.   EXPECT_EQ(AnfAlgo::GetOutputFormat(new_paramter, 0), kOpFormat_DEFAULT);

  67.   EXPECT_EQ(AnfAlgo::GetOutputDeviceDataType(new_paramter, 0), kMetaTypeNone);

  68.   // test non-weight parameter node as input

  69.   std::vector<int> shape = {2, 32, 224, 224};

  70.   auto x_abstract = std::make_shared<abstract::AbstractTensor>(kFloat32, shape);

  71.   auto non_weight_parameter = anf_graph->add_parameter();

  72.   MS_EXCEPTION_IF_NULL(non_weight_parameter);

  73.   non_weight_parameter->set_abstract(x_abstract);

  74.   auto new_non_weight_parameter = kernel_graph->NewParameter(non_weight_parameter);

  75.   EXPECT_NE(new_non_weight_parameter, nullptr);

  76.   new_non_weight_parameter->set_name("non_weight_parameter");

  77.   EXPECT_EQ(AnfAlgo::GetOutputInferShape(new_non_weight_parameter, 0)[1], 32);

  78.   EXPECT_EQ(AnfAlgo::GetOutputInferDataType(new_non_weight_parameter, 0), kFloat32->type_id());

  79.   EXPECT_EQ(AnfAlgo::GetOutputFormat(new_non_weight_parameter, 0), kOpFormat_DEFAULT);

  80.   EXPECT_EQ(AnfAlgo::GetOutputDeviceDataType(new_non_weight_parameter, 0), kFloat32->type_id());

  81.   EXPECT_EQ(new_non_weight_parameter->name(), "non_weight_parameter");

  82.   // test weight parameter node as input

  83.   auto weight_parameter_node = anf_graph->add_parameter();

  84.   MS_EXCEPTION_IF_NULL(weight_parameter_node);

  85.   auto param_value_new = std::make_shared<ParamValue>();

  86.   weight_parameter_node->set_default_param(param_value_new);

  87.   weight_parameter_node->set_abstract(x_abstract);

  88.   auto new_weight_parameter_node = kernel_graph->NewParameter(weight_parameter_node);

  89.   EXPECT_NE(new_weight_parameter_node, nullptr);

  90.   EXPECT_TRUE(new_weight_parameter_node->has_default());

  91.   EXPECT_EQ(AnfAlgo::GetOutputInferShape(new_weight_parameter_node, 0)[2], 224);

  92.   EXPECT_EQ(AnfAlgo::GetOutputInferDataType(new_weight_parameter_node, 0), kFloat32->type_id());

  93.   EXPECT_EQ(AnfAlgo::GetOutputFormat(new_weight_parameter_node, 0), kOpFormat_DEFAULT);

  94.   EXPECT_EQ(AnfAlgo::GetOutputDeviceDataType(new_weight_parameter_node, 0), kTypeUnknown);

  95. }

  96. 

  97. TEST_F(KernelGraphTest, NewCNode) {

  98.   auto kernel_graph = std::make_shared<KernelGraph>();

  99.   auto add_value = NewValueNode(prim::kPrimTensorAdd);

  100.   std::vector<AnfNodePtr> inputs = {add_value};

  101.   auto new_cnode = kernel_graph->NewCNode(inputs);

  102.   EXPECT_NE(new_cnode, nullptr);

  103.   EXPECT_EQ(AnfAlgo::GetCNodeName(new_cnode), prim::kPrimTensorAdd->name());

  104.   EXPECT_TRUE(AnfAlgo::GetOutputInferShape(new_cnode, 0).empty());

  105.   EXPECT_EQ(AnfAlgo::GetOutputInferDataType(new_cnode, 0), kMetaTypeNone);

  106. }

  107. 

  108. TEST_F(KernelGraphTest, MutableInputs) {

  109.   auto kernel_graph = std::make_shared<KernelGraph>();

  110.   auto x_parameter = kernel_graph->add_parameter();

  111.   MS_EXCEPTION_IF_NULL(x_parameter);

  112.   x_parameter->set_name("x_parameter");

  113.   auto y_parameter = kernel_graph->add_parameter();

  114.   MS_EXCEPTION_IF_NULL(y_parameter);

  115.   y_parameter->set_name("y_parameter");

  116.   std::vector<AnfNodePtr> inputs = {x_parameter, y_parameter};

  117.   auto mutable_inputs = kernel_graph->MutableInputs();

  118.   MS_EXCEPTION_IF_NULL(mutable_inputs);

  119.   *mutable_inputs = inputs;

  120.   auto first_input = kernel_graph->inputs()[0];

  121.   MS_EXCEPTION_IF_NULL(first_input);

  122.   auto first_parameter = first_input->cast<ParameterPtr>();

  123.   MS_EXCEPTION_IF_NULL(first_parameter);

  124.   EXPECT_EQ(first_parameter->name(), "x_parameter");

  125.   auto second_input = kernel_graph->inputs()[1];

  126.   MS_EXCEPTION_IF_NULL(second_input);

  127.   auto second_parameter = second_input->cast<ParameterPtr>();

  128.   MS_EXCEPTION_IF_NULL(second_parameter);

  129.   EXPECT_EQ(second_parameter->name(), "y_parameter");

  130. }

  131. 

  132. TEST_F(KernelGraphTest, SetExecOrderByDefault) {

  133.   /*

  134.    * define kernel graph:

  135.    *     x ----- y

  136.    *         add ----- z

  137.    *               mul

  138.    *              return

  139.    */

  140.   auto kernel_graph = std::make_shared<KernelGraph>();

  141.   std::vector<int> shape = {2, 32, 224, 224};

  142.   auto abstract = std::make_shared<abstract::AbstractTensor>(kFloat32, shape);

  143. 

  144.   auto x_parameter = kernel_graph->NewParameter();

  145.   MS_EXCEPTION_IF_NULL(x_parameter);

  146.   x_parameter->set_name("x_parameter");

  147.   x_parameter->set_abstract(abstract);

  148.   auto y_parameter = kernel_graph->NewParameter();

  149.   MS_EXCEPTION_IF_NULL(y_parameter);

  150.   y_parameter->set_name("y_parameter");

  151.   y_parameter->set_abstract(abstract);

  152.   std::vector<AnfNodePtr> add_inputs = {NewValueNode(prim::kPrimTensorAdd), x_parameter, y_parameter};

  153.   auto add = kernel_graph->NewCNode(add_inputs);

  154.   MS_EXCEPTION_IF_NULL(add);

  155.   add->set_abstract(abstract);

  156. 

  157.   auto z_parameter = kernel_graph->NewParameter();

  158.   MS_EXCEPTION_IF_NULL(z_parameter);

  159.   z_parameter->set_name("z_parameter");

  160.   z_parameter->set_abstract(abstract);

  161.   std::vector<AnfNodePtr> mul_inputs = {NewValueNode(prim::kPrimMul), add, z_parameter};

  162.   auto mul = kernel_graph->NewCNode(mul_inputs);

  163.   MS_EXCEPTION_IF_NULL(mul);

  164.   mul->set_abstract(abstract);

  165. 

  166.   std::vector<AnfNodePtr> make_tuple_inputs = {NewValueNode(prim::kPrimMakeTuple), mul};

  167.   auto make_tuple = kernel_graph->NewCNode(make_tuple_inputs);

  168.   kernel_graph->set_output(make_tuple);

  169.   // test outputs() function

  170.   auto outputs = kernel_graph->outputs();

  171.   EXPECT_EQ(outputs.size(), 1);

  172.   EXPECT_EQ(AnfAlgo::GetCNodeName(outputs[0]), prim::kPrimMul->name());

  173.   // test SetExecOrderByDefault() function

  174.   kernel_graph->SetExecOrderByDefault();

  175.   auto execution_order = kernel_graph->execution_order();

  176.   EXPECT_EQ(execution_order.size(), 2);

  177.   EXPECT_EQ(AnfAlgo::GetCNodeName(execution_order[0]), prim::kPrimTensorAdd->name());

  178.   EXPECT_EQ(AnfAlgo::GetCNodeName(execution_order[1]), prim::kPrimMul->name());

  179.   // test set_execution_order() function

  180.   kernel_graph->set_execution_order({add});

  181.   execution_order = kernel_graph->execution_order();

  182.   EXPECT_EQ(execution_order.size(), 1);

  183.   EXPECT_EQ(AnfAlgo::GetCNodeName(execution_order[0]), prim::kPrimTensorAdd->name());

  184. }

  185. 

  186. TEST_F(KernelGraphTest, SetGraphId) {

  187.   auto kernel_graph = std::make_shared<KernelGraph>();

  188.   kernel_graph->set_graph_id(1);

  189.   EXPECT_EQ(kernel_graph->graph_id(), 1);

  190. }

  191. 

  192. }  // namespace session

  193. }  // namespace mindspore