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mindspore/tests/ut/cpp/dataset/tfReader_op_test.cc

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  1. /**

  2.  * Copyright 2019-2021 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. #include <iostream>

  17. #include <memory>

  18. #include <vector>

  19. 

  20. #include "minddata/dataset/core/client.h"

  21. #include "minddata/dataset/engine/data_schema.h"

  22. #include "common/common.h"

  23. #include "gtest/gtest.h"

  24. #include "utils/log_adapter.h"

  25. 

  26. namespace common = mindspore::common;

  27. 

  28. using namespace mindspore::dataset;

  29. using mindspore::MsLogLevel::INFO;

  30. using mindspore::ExceptionType::NoExceptionType;

  31. using mindspore::LogStream;

  32. 

  33. class MindDataTestTFReaderOp : public UT::DatasetOpTesting {

  34. 

  35. };

  36. 

  37. TEST_F(MindDataTestTFReaderOp, TestTFReaderBasic1) {

  38.   // Start with an empty execution tree

  39.   auto my_tree = std::make_shared<ExecutionTree>();

  40. 

  41.   std::string dataset_path;

  42.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  43. 

  44. 

  45.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  46.   TFReaderOp::Builder builder;

  47.   builder.SetDatasetFilesList({dataset_path});

  48.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  49.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json", {});

  50.   builder.SetDataSchema(std::move(schema));

  51.   Status rc = builder.Build(&my_tfreader_op);

  52.   ASSERT_TRUE(rc.IsOk());

  53. 

  54.   rc = my_tree->AssociateNode(my_tfreader_op);

  55.   ASSERT_TRUE(rc.IsOk());

  56. 

  57.   rc = my_tree->AssignRoot(my_tfreader_op);

  58.   ASSERT_TRUE(rc.IsOk());

  59. 

  60.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  61.   rc = my_tree->Prepare();

  62.   ASSERT_TRUE(rc.IsOk());

  63. 

  64.   rc = my_tree->Launch();

  65.   ASSERT_TRUE(rc.IsOk());

  66. 

  67.   // Start the loop of reading tensors from our pipeline

  68.   DatasetIterator di(my_tree);

  69.   TensorRow tensor_list;

  70.   rc = di.FetchNextTensorRow(&tensor_list);

  71.   ASSERT_TRUE(rc.IsOk());

  72. 

  73.   int row_count = 0;

  74.   while (!tensor_list.empty()) {

  75.     // Display the tensor by calling the printer on it

  76.     for (int i = 0; i < tensor_list.size(); i++) {

  77.       std::ostringstream ss;

  78.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  79.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  80.     }

  81. 

  82.     rc = di.FetchNextTensorRow(&tensor_list);

  83.     ASSERT_TRUE(rc.IsOk());

  84.     row_count++;

  85.   }

  86. 

  87.   ASSERT_EQ(row_count, 12);

  88. }

  89. 

  90. TEST_F(MindDataTestTFReaderOp, TestTFReaderLargeRowsPerBuffer) {

  91.   // Start with an empty execution tree

  92.   auto my_tree = std::make_shared<ExecutionTree>();

  93. 

  94.   std::string dataset_path;

  95.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  96. 

  97.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  98.   TFReaderOp::Builder builder;

  99.   builder.SetDatasetFilesList({dataset_path}).SetRowsPerBuffer(500);

  100.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  101.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json", {});

  102.   builder.SetDataSchema(std::move(schema));

  103.   Status rc = builder.Build(&my_tfreader_op);

  104.   ASSERT_TRUE(rc.IsOk());

  105. 

  106.   rc = my_tree->AssociateNode(my_tfreader_op);

  107.   ASSERT_TRUE(rc.IsOk());

  108. 

  109.   rc = my_tree->AssignRoot(my_tfreader_op);

  110.   ASSERT_TRUE(rc.IsOk());

  111. 

  112.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  113.   rc = my_tree->Prepare();

  114.   ASSERT_TRUE(rc.IsOk());

  115. 

  116.   rc = my_tree->Launch();

  117.   ASSERT_TRUE(rc.IsOk());

  118. 

  119.   // Start the loop of reading tensors from our pipeline

  120.   DatasetIterator di(my_tree);

  121.   TensorRow tensor_list;

  122.   rc = di.FetchNextTensorRow(&tensor_list);

  123.   ASSERT_TRUE(rc.IsOk());

  124. 

  125.   int row_count = 0;

  126.   while (!tensor_list.empty()) {

  127.     // Display the tensor by calling the printer on it

  128.     for (int i = 0; i < tensor_list.size(); i++) {

  129.       std::ostringstream ss;

  130.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  131.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  132.     }

  133. 

  134.     rc = di.FetchNextTensorRow(&tensor_list);

  135.     ASSERT_TRUE(rc.IsOk());

  136.     row_count++;

  137.   }

  138. 

  139.   ASSERT_EQ(row_count, 12);

  140. }

  141. 

  142. TEST_F(MindDataTestTFReaderOp, TestTFReaderSmallRowsPerBuffer) {

  143.   // Start with an empty execution tree

  144.   auto my_tree = std::make_shared<ExecutionTree>();

  145. 

  146.   std::string dataset_path;

  147.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  148. 

  149.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  150.   TFReaderOp::Builder builder;

  151.   builder.SetDatasetFilesList({dataset_path});

  152.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  153.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json", {});

  154.   builder.SetDataSchema(std::move(schema));

  155.   Status rc = builder.Build(&my_tfreader_op);

  156.   ASSERT_TRUE(rc.IsOk());

  157. 

  158.   rc = my_tree->AssociateNode(my_tfreader_op);

  159.   ASSERT_TRUE(rc.IsOk());

  160. 

  161.   rc = my_tree->AssignRoot(my_tfreader_op);

  162.   ASSERT_TRUE(rc.IsOk());

  163. 

  164.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  165.   rc = my_tree->Prepare();

  166.   ASSERT_TRUE(rc.IsOk());

  167. 

  168.   rc = my_tree->Launch();

  169.   ASSERT_TRUE(rc.IsOk());

  170. 

  171.   // Start the loop of reading tensors from our pipeline

  172.   DatasetIterator di(my_tree);

  173.   TensorRow tensor_list;

  174.   rc = di.FetchNextTensorRow(&tensor_list);

  175.   ASSERT_TRUE(rc.IsOk());

  176. 

  177.   int row_count = 0;

  178.   while (!tensor_list.empty()) {

  179.     // Display the tensor by calling the printer on it

  180.     for (int i = 0; i < tensor_list.size(); i++) {

  181.       std::ostringstream ss;

  182.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  183.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  184.     }

  185. 

  186.     rc = di.FetchNextTensorRow(&tensor_list);

  187.     ASSERT_TRUE(rc.IsOk());

  188.     row_count++;

  189.   }

  190. 

  191.   ASSERT_EQ(row_count, 12);

  192. }

  193. 

  194. TEST_F(MindDataTestTFReaderOp, TestTFReaderLargeQueueSize) {

  195.   // Start with an empty execution tree

  196.   auto my_tree = std::make_shared<ExecutionTree>();

  197. 

  198.   std::string dataset_path;

  199.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  200. 

  201.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  202.   TFReaderOp::Builder builder;

  203.   builder.SetDatasetFilesList({dataset_path}).SetWorkerConnectorSize(1);

  204.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  205.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json", {});

  206.   builder.SetDataSchema(std::move(schema));

  207.   Status rc = builder.Build(&my_tfreader_op);

  208.   ASSERT_TRUE(rc.IsOk());

  209. 

  210.   rc = my_tree->AssociateNode(my_tfreader_op);

  211.   ASSERT_TRUE(rc.IsOk());

  212. 

  213.   rc = my_tree->AssignRoot(my_tfreader_op);

  214.   ASSERT_TRUE(rc.IsOk());

  215. 

  216.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  217.   rc = my_tree->Prepare();

  218.   ASSERT_TRUE(rc.IsOk());

  219. 

  220.   rc = my_tree->Launch();

  221.   ASSERT_TRUE(rc.IsOk());

  222. 

  223.   // Start the loop of reading tensors from our pipeline

  224.   DatasetIterator di(my_tree);

  225.   TensorRow tensor_list;

  226.   rc = di.FetchNextTensorRow(&tensor_list);

  227.   ASSERT_TRUE(rc.IsOk());

  228. 

  229.   int row_count = 0;

  230.   while (!tensor_list.empty()) {

  231.     // Display the tensor by calling the printer on it

  232.     for (int i = 0; i < tensor_list.size(); i++) {

  233.       std::ostringstream ss;

  234.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  235.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  236.     }

  237. 

  238.     rc = di.FetchNextTensorRow(&tensor_list);

  239.     ASSERT_TRUE(rc.IsOk());

  240.     row_count++;

  241.   }

  242. 

  243.   ASSERT_EQ(row_count, 12);

  244. }

  245. 

  246. TEST_F(MindDataTestTFReaderOp, TestTFReaderOneThread) {

  247.   // Start with an empty execution tree

  248.   auto my_tree = std::make_shared<ExecutionTree>();

  249. 

  250.   std::string dataset_path;

  251.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  252. 

  253.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  254.   TFReaderOp::Builder builder;

  255.   builder

  256.     .SetDatasetFilesList({dataset_path})

  257. 

  258.     .SetNumWorkers(1);

  259.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  260.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json", {});

  261.   builder.SetDataSchema(std::move(schema));

  262.   Status rc = builder.Build(&my_tfreader_op);

  263.   ASSERT_TRUE(rc.IsOk());

  264. 

  265.   rc = my_tree->AssociateNode(my_tfreader_op);

  266.   ASSERT_TRUE(rc.IsOk());

  267. 

  268.   rc = my_tree->AssignRoot(my_tfreader_op);

  269.   ASSERT_TRUE(rc.IsOk());

  270. 

  271.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  272.   rc = my_tree->Prepare();

  273.   ASSERT_TRUE(rc.IsOk());

  274. 

  275.   rc = my_tree->Launch();

  276.   ASSERT_TRUE(rc.IsOk());

  277. 

  278.   // Start the loop of reading tensors from our pipeline

  279.   DatasetIterator di(my_tree);

  280.   TensorRow tensor_list;

  281.   rc = di.FetchNextTensorRow(&tensor_list);

  282.   ASSERT_TRUE(rc.IsOk());

  283. 

  284.   int row_count = 0;

  285.   while (!tensor_list.empty()) {

  286.     // Display the tensor by calling the printer on it

  287.     for (int i = 0; i < tensor_list.size(); i++) {

  288.       std::ostringstream ss;

  289.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  290.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  291.     }

  292. 

  293.     rc = di.FetchNextTensorRow(&tensor_list);

  294.     ASSERT_TRUE(rc.IsOk());

  295.     row_count++;

  296.   }

  297. 

  298.   ASSERT_EQ(row_count, 12);

  299. }

  300. 

  301. TEST_F(MindDataTestTFReaderOp, TestTFReaderRepeat) {

  302.   // Start with an empty execution tree

  303.   auto my_tree = std::make_shared<ExecutionTree>();

  304. 

  305.   std::string dataset_path;

  306.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  307. 

  308.   // TFReaderOp

  309.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  310.   TFReaderOp::Builder builder;

  311.   builder.SetDatasetFilesList({dataset_path}).SetWorkerConnectorSize(16);

  312.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  313.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json", {});

  314.   builder.SetDataSchema(std::move(schema));

  315.   Status rc= builder.Build(&my_tfreader_op);

  316.   ASSERT_TRUE(rc.IsOk());

  317.   rc = my_tree->AssociateNode(my_tfreader_op);

  318.   ASSERT_TRUE(rc.IsOk());

  319. 

  320.   // RepeatOp

  321.   uint32_t num_repeats = 3;

  322.   std::shared_ptr<RepeatOp> my_repeat_op = std::make_shared<RepeatOp>(num_repeats);

  323.   rc = my_tree->AssociateNode(my_repeat_op);

  324.   ASSERT_TRUE(rc.IsOk());

  325. 

  326.   // Set children/root layout.

  327.   my_tfreader_op->set_total_repeats(num_repeats);

  328.   my_tfreader_op->set_num_repeats_per_epoch(num_repeats);

  329.   rc = my_repeat_op->AddChild(my_tfreader_op);

  330.   ASSERT_TRUE(rc.IsOk());

  331.   rc = my_tree->AssignRoot(my_repeat_op);

  332.   ASSERT_TRUE(rc.IsOk());

  333. 

  334.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  335.   rc = my_tree->Prepare();

  336.   ASSERT_TRUE(rc.IsOk());

  337. 

  338.   rc = my_tree->Launch();

  339.   ASSERT_TRUE(rc.IsOk());

  340. 

  341.   // Start the loop of reading tensors from our pipeline

  342.   DatasetIterator di(my_tree);

  343.   TensorRow tensor_list;

  344.   rc = di.FetchNextTensorRow(&tensor_list);

  345.   ASSERT_TRUE(rc.IsOk());

  346. 

  347.   int row_count = 0;

  348.   while (!tensor_list.empty()) {

  349.     MS_LOG(INFO) << "Row display for row #: " << row_count << ".";

  350. 

  351.     // Display the tensor by calling the printer on it

  352.     for (int i = 0; i < tensor_list.size(); i++) {

  353.       std::ostringstream ss;

  354.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  355.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  356.     }

  357. 

  358.     rc = di.FetchNextTensorRow(&tensor_list);

  359.     ASSERT_TRUE(rc.IsOk());

  360.     row_count++;

  361.   }

  362. 

  363.   ASSERT_EQ(row_count, 12 * 3);

  364. }

  365. 

  366. TEST_F(MindDataTestTFReaderOp, TestTFReaderSchemaConstructor) {

  367.   // Start with an empty execution tree

  368.   auto my_tree = std::make_shared<ExecutionTree>();

  369. 

  370.   std::string dataset_path;

  371.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes";

  372. 

  373.   std::unique_ptr<DataSchema> data_schema = std::make_unique<DataSchema>();

  374.   std::vector<std::string> columns_to_load;

  375.   columns_to_load.push_back("col_sint32");

  376.   columns_to_load.push_back("col_binary");

  377.   data_schema->LoadSchemaFile(dataset_path + "/datasetSchema.json", columns_to_load);

  378. 

  379.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  380.   TFReaderOp::Builder builder;

  381.   builder.SetDatasetFilesList({dataset_path + "/test.data"})

  382. 

  383.     .SetNumWorkers(16)

  384.     .SetDataSchema(std::move(data_schema));

  385.   Status rc = builder.Build(&my_tfreader_op);

  386.   ASSERT_TRUE(rc.IsOk());

  387. 

  388.   rc = my_tree->AssociateNode(my_tfreader_op);

  389.   ASSERT_TRUE(rc.IsOk());

  390. 

  391.   rc = my_tree->AssignRoot(my_tfreader_op);

  392.   ASSERT_TRUE(rc.IsOk());

  393. 

  394.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  395.   rc = my_tree->Prepare();

  396.   ASSERT_TRUE(rc.IsOk());

  397. 

  398.   rc = my_tree->Launch();

  399.   ASSERT_TRUE(rc.IsOk());

  400. 

  401.   // Start the loop of reading tensors from our pipeline

  402.   DatasetIterator di(my_tree);

  403.   TensorRow tensor_list;

  404.   rc = di.FetchNextTensorRow(&tensor_list);

  405.   ASSERT_TRUE(rc.IsOk());

  406. 

  407.   int row_count = 0;

  408.   while (!tensor_list.empty()) {

  409.     // Display the tensor by calling the printer on it

  410.     ASSERT_EQ(tensor_list.size(), columns_to_load.size());

  411. 

  412.     for (int i = 0; i < tensor_list.size(); i++) {

  413.       std::ostringstream ss;

  414.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  415.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  416.     }

  417. 

  418.     rc = di.FetchNextTensorRow(&tensor_list);

  419.     ASSERT_TRUE(rc.IsOk());

  420.     row_count++;

  421.   }

  422. 

  423.   ASSERT_EQ(row_count, 12);

  424. }

  425. 

  426. TEST_F(MindDataTestTFReaderOp, TestTFReaderTake1Row) {

  427.   // Start with an empty execution tree

  428.   auto my_tree = std::make_shared<ExecutionTree>();

  429. 

  430.   std::string dataset_path;

  431.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes";

  432. 

  433.   std::string data_schema_filepath = dataset_path + "/datasetSchema1Row.json";

  434. 

  435.   // TFReaderOp

  436.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  437.   TFReaderOp::Builder builder;

  438.   builder.SetDatasetFilesList({dataset_path + "/test.data"}).SetRowsPerBuffer(5);

  439.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  440.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema1Row.json", {});

  441.   builder.SetDataSchema(std::move(schema));

  442. 

  443.   Status rc= builder.Build(&my_tfreader_op);

  444.   ASSERT_TRUE(rc.IsOk());

  445. 

  446.   rc = my_tree->AssociateNode(my_tfreader_op);

  447.   ASSERT_TRUE(rc.IsOk());

  448. 

  449.   rc = my_tree->AssignRoot(my_tfreader_op);

  450.   ASSERT_TRUE(rc.IsOk());

  451. 

  452.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  453.   rc = my_tree->Prepare();

  454.   ASSERT_TRUE(rc.IsOk());

  455. 

  456.   rc = my_tree->Launch();

  457.   ASSERT_TRUE(rc.IsOk());

  458. 

  459.   // Start the loop of reading tensors from our pipeline

  460.   DatasetIterator di(my_tree);

  461.   TensorRow tensor_list;

  462.   rc = di.FetchNextTensorRow(&tensor_list);

  463.   ASSERT_TRUE(rc.IsOk());

  464. 

  465.   int row_count = 0;

  466.   while (!tensor_list.empty()) {

  467.     MS_LOG(INFO) << "Row display for row #: " << row_count << ".";

  468. 

  469.     // Display the tensor by calling the printer on it

  470.     for (int i = 0; i < tensor_list.size(); i++) {

  471.       std::ostringstream ss;

  472.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  473.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  474.     }

  475. 

  476.     rc = di.FetchNextTensorRow(&tensor_list);

  477.     ASSERT_TRUE(rc.IsOk());

  478.     row_count++;

  479.   }

  480. 

  481.   ASSERT_EQ(row_count, 1);

  482. }

  483. 

  484. TEST_F(MindDataTestTFReaderOp, TestTFReaderTake1Buffer) {

  485.   // Start with an empty execution tree

  486.   auto my_tree = std::make_shared<ExecutionTree>();

  487. 

  488.   std::string dataset_path;

  489.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes";

  490. 

  491.   std::string data_schema_filepath = dataset_path + "/datasetSchema5Rows.json";

  492. 

  493.   // TFReaderOp

  494.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  495.   TFReaderOp::Builder builder;

  496.   builder.SetDatasetFilesList({dataset_path + "/test.data"}).SetRowsPerBuffer(5);

  497.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  498.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema5Rows.json", {});

  499.   builder.SetDataSchema(std::move(schema));

  500. 

  501.   Status rc= builder.Build(&my_tfreader_op);

  502.   ASSERT_TRUE(rc.IsOk());

  503. 

  504.   rc = my_tree->AssociateNode(my_tfreader_op);

  505.   ASSERT_TRUE(rc.IsOk());

  506. 

  507.   rc = my_tree->AssignRoot(my_tfreader_op);

  508.   ASSERT_TRUE(rc.IsOk());

  509. 

  510.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  511.   rc = my_tree->Prepare();

  512.   ASSERT_TRUE(rc.IsOk());

  513. 

  514.   rc = my_tree->Launch();

  515.   ASSERT_TRUE(rc.IsOk());

  516. 

  517.   // Start the loop of reading tensors from our pipeline

  518.   DatasetIterator di(my_tree);

  519.   TensorRow tensor_list;

  520.   rc = di.FetchNextTensorRow(&tensor_list);

  521.   ASSERT_TRUE(rc.IsOk());

  522. 

  523.   int row_count = 0;

  524.   while (!tensor_list.empty()) {

  525.     MS_LOG(INFO) << "Row display for row #: " << row_count << ".";

  526. 

  527.     // Display the tensor by calling the printer on it

  528.     for (int i = 0; i < tensor_list.size(); i++) {

  529.       std::ostringstream ss;

  530.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  531.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  532.     }

  533. 

  534.     rc = di.FetchNextTensorRow(&tensor_list);

  535.     ASSERT_TRUE(rc.IsOk());

  536.     row_count++;

  537.   }

  538. 

  539.   ASSERT_EQ(row_count, 5);

  540. }

  541. 

  542. TEST_F(MindDataTestTFReaderOp, TestTFReaderTake7Rows) {

  543.   // Start with an empty execution tree

  544.   auto my_tree = std::make_shared<ExecutionTree>();

  545. 

  546.   std::string dataset_path;

  547.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes";

  548. 

  549.   std::string data_schema_filepath = dataset_path + "/datasetSchema7Rows.json";

  550. 

  551.   // TFReaderOp

  552.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  553.   TFReaderOp::Builder builder;

  554.   builder.SetDatasetFilesList({dataset_path + "/test.data"}).SetRowsPerBuffer(5);

  555.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  556.   schema->LoadSchemaFile(datasets_root_path_ + "/testTFTestAllTypes/datasetSchema7Rows.json", {});

  557.   builder.SetDataSchema(std::move(schema));

  558. 

  559.   Status rc= builder.Build(&my_tfreader_op);

  560.   ASSERT_TRUE(rc.IsOk());

  561. 

  562.   rc = my_tree->AssociateNode(my_tfreader_op);

  563.   ASSERT_TRUE(rc.IsOk());

  564. 

  565.   rc = my_tree->AssignRoot(my_tfreader_op);

  566.   ASSERT_TRUE(rc.IsOk());

  567. 

  568.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  569.   rc = my_tree->Prepare();

  570.   ASSERT_TRUE(rc.IsOk());

  571. 

  572.   rc = my_tree->Launch();

  573.   ASSERT_TRUE(rc.IsOk());

  574. 

  575.   // Start the loop of reading tensors from our pipeline

  576.   DatasetIterator di(my_tree);

  577.   TensorRow tensor_list;

  578.   rc = di.FetchNextTensorRow(&tensor_list);

  579.   ASSERT_TRUE(rc.IsOk());

  580. 

  581.   int row_count = 0;

  582.   while (!tensor_list.empty()) {

  583.     MS_LOG(INFO) << "Row display for row #: " << row_count << ".";

  584. 

  585.     // Display the tensor by calling the printer on it

  586.     for (int i = 0; i < tensor_list.size(); i++) {

  587.       std::ostringstream ss;

  588.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  589.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  590.     }

  591. 

  592.     rc = di.FetchNextTensorRow(&tensor_list);

  593.     ASSERT_TRUE(rc.IsOk());

  594.     row_count++;

  595.   }

  596. 

  597.   ASSERT_EQ(row_count, 7);

  598. }

  599. 

  600. TEST_F(MindDataTestTFReaderOp, TestTFReaderBasicNoSchema) {

  601.   // Start with an empty execution tree

  602.   auto my_tree = std::make_shared<ExecutionTree>();

  603. 

  604.   std::string dataset_path;

  605.   dataset_path = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  606. 

  607.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  608.   TFReaderOp::Builder builder;

  609.   builder.SetDatasetFilesList({dataset_path});

  610.   Status rc = builder.Build(&my_tfreader_op);

  611.   ASSERT_TRUE(rc.IsOk());

  612. 

  613.   rc = my_tree->AssociateNode(my_tfreader_op);

  614.   ASSERT_TRUE(rc.IsOk());

  615. 

  616.   rc = my_tree->AssignRoot(my_tfreader_op);

  617.   ASSERT_TRUE(rc.IsOk());

  618. 

  619.   MS_LOG(INFO) << "Launching tree and begin iteration.";

  620.   rc = my_tree->Prepare();

  621.   ASSERT_TRUE(rc.IsOk());

  622. 

  623.   rc = my_tree->Launch();

  624.   ASSERT_TRUE(rc.IsOk());

  625. 

  626.   // Start the loop of reading tensors from our pipeline

  627.   DatasetIterator di(my_tree);

  628.   TensorRow tensor_list;

  629.   rc = di.FetchNextTensorRow(&tensor_list);

  630.   ASSERT_TRUE(rc.IsOk());

  631. 

  632.   int row_count = 0;

  633.   while (!tensor_list.empty()) {

  634.     // Display the tensor by calling the printer on it

  635.     ASSERT_EQ(tensor_list.size(), 9);

  636.     for (int i = 0; i < tensor_list.size(); i++) {

  637.       std::ostringstream ss;

  638.       ss << "(" << tensor_list[i] << "): " << *tensor_list[i] << std::endl;

  639.       MS_LOG(INFO) << "Tensor print: " << ss.str() << ".";

  640.     }

  641. 

  642.     rc = di.FetchNextTensorRow(&tensor_list);

  643.     ASSERT_TRUE(rc.IsOk());

  644.     row_count++;

  645.   }

  646. 

  647.   ASSERT_EQ(row_count, 12);

  648. }

  649. 

  650. TEST_F(MindDataTestTFReaderOp, TestTotalRowsBasic) {

  651.   std::string tf_file = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  652. 

  653.   std::vector<std::string> filenames;

  654. 

  655.   for (int i = 0; i < 5; i++) {

  656.     filenames.push_back(tf_file);

  657.   }

  658. 

  659.   int64_t total_rows = 0;

  660.   TFReaderOp::CountTotalRows(&total_rows, filenames, 1);

  661.   ASSERT_EQ(total_rows, 60);

  662.   TFReaderOp::CountTotalRows(&total_rows, filenames, 2);

  663.   ASSERT_EQ(total_rows, 60);

  664.   TFReaderOp::CountTotalRows(&total_rows, filenames, 3);

  665.   ASSERT_EQ(total_rows, 60);

  666.   TFReaderOp::CountTotalRows(&total_rows, filenames, 4);

  667.   ASSERT_EQ(total_rows, 60);

  668.   TFReaderOp::CountTotalRows(&total_rows, filenames, 5);

  669.   ASSERT_EQ(total_rows, 60);

  670.   TFReaderOp::CountTotalRows(&total_rows, filenames, 6);

  671.   ASSERT_EQ(total_rows, 60);

  672.   TFReaderOp::CountTotalRows(&total_rows, filenames, 729);

  673.   ASSERT_EQ(total_rows, 60);

  674.   TFReaderOp::CountTotalRows(&total_rows, filenames, 1, true);

  675.   ASSERT_EQ(total_rows, 60);

  676.   TFReaderOp::CountTotalRows(&total_rows, filenames, 2, true);

  677.   ASSERT_EQ(total_rows, 60);

  678.   TFReaderOp::CountTotalRows(&total_rows, filenames, 3, true);

  679.   ASSERT_EQ(total_rows, 60);

  680.   TFReaderOp::CountTotalRows(&total_rows, filenames, 4, true);

  681.   ASSERT_EQ(total_rows, 60);

  682.   TFReaderOp::CountTotalRows(&total_rows, filenames, 5, true);

  683.   ASSERT_EQ(total_rows, 60);

  684.   TFReaderOp::CountTotalRows(&total_rows, filenames, 6, true);

  685.   ASSERT_EQ(total_rows, 60);

  686.   TFReaderOp::CountTotalRows(&total_rows, filenames, 729, true);

  687.   ASSERT_EQ(total_rows, 60);

  688. }

  689. 

  690. TEST_F(MindDataTestTFReaderOp, TestTFReaderInvalidFiles) {

  691.   // Start with an empty execution tree

  692.   auto my_tree = std::make_shared<ExecutionTree>();

  693. 

  694.   std::string valid_file = datasets_root_path_ + "/testTFTestAllTypes/test.data";

  695.   std::string schema_file = datasets_root_path_ + "/testTFTestAllTypes/datasetSchema.json";

  696.   std::string invalid_file = datasets_root_path_ + "/testTFTestAllTypes/invalidFile.txt";

  697.   std::string nonexistent_file = "this/file/does_not/exist";

  698. 

  699.   std::shared_ptr<TFReaderOp> my_tfreader_op;

  700.   TFReaderOp::Builder builder;

  701.   builder.SetDatasetFilesList({invalid_file, valid_file, schema_file});

  702. 

  703.   std::unique_ptr<DataSchema> schema = std::make_unique<DataSchema>();

  704.   schema->LoadSchemaFile(schema_file, {});

  705.   builder.SetDataSchema(std::move(schema));

  706. 

  707.   Status rc = builder.Build(&my_tfreader_op);

  708.   ASSERT_TRUE(!rc.IsOk());

  709. 

  710.   builder.SetDatasetFilesList({invalid_file, valid_file, schema_file, nonexistent_file});

  711. 

  712.   schema = std::make_unique<DataSchema>();

  713.   schema->LoadSchemaFile(schema_file, {});

  714.   builder.SetDataSchema(std::move(schema));

  715. 

  716.   rc = builder.Build(&my_tfreader_op);

  717.   ASSERT_TRUE(!rc.IsOk());

  718. }