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mindspore/tests/st/cpp/dataset/test_de.cc

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c++ minddata eager plus ms eager
5 years ago
cxx api refactor: tensor/status/model
5 years ago
dataset: Create C++ API classes for vision transform ops Review rework Add overloaded API Map function Overload Execute, update st test_de.cc and enhance ut execute_test.cc; More TensorTransform support for BoundingBoxAugment and UniformAug Execute support for auto case; UT updates Rebase updates, including fix CI Ascend compilations test_de.cc - comment out dvpp tests Rebase updates Added back testcase and constructor Added back constructor added missing macro Fixed Macro removed decode
5 years ago
c++ minddata eager plus ms eager
5 years ago
Dvpp refactor and 6 Dvpp operators
5 years ago
c++ minddata eager plus ms eager
5 years ago
Add YoloV3 with Dvpp test.
5 years ago
fix 310 testcase compile Signed-off-by: zhoufeng <zhoufeng54@huawei.com>
5 years ago
Add YoloV3 with Dvpp test.
5 years ago
c++ minddata eager plus ms eager
5 years ago
cxx api refactor: tensor/status/model
5 years ago
dataset: Create C++ API classes for vision transform ops Review rework Add overloaded API Map function Overload Execute, update st test_de.cc and enhance ut execute_test.cc; More TensorTransform support for BoundingBoxAugment and UniformAug Execute support for auto case; UT updates Rebase updates, including fix CI Ascend compilations test_de.cc - comment out dvpp tests Rebase updates Added back testcase and constructor Added back constructor added missing macro Fixed Macro removed decode
5 years ago
c++ minddata eager plus ms eager
5 years ago
Fix dir of test case
5 years ago
cxx api refactor: tensor/status/model
5 years ago
c++ minddata eager plus ms eager
5 years ago
Fix dir of test case
5 years ago
dataset: Create C++ API classes for vision transform ops Review rework Add overloaded API Map function Overload Execute, update st test_de.cc and enhance ut execute_test.cc; More TensorTransform support for BoundingBoxAugment and UniformAug Execute support for auto case; UT updates Rebase updates, including fix CI Ascend compilations test_de.cc - comment out dvpp tests Rebase updates Added back testcase and constructor Added back constructor added missing macro Fixed Macro removed decode
5 years ago
c++ minddata eager plus ms eager
5 years ago
Fix dir of test case
5 years ago
cxx api refactor: tensor/status/model
5 years ago
c++ minddata eager plus ms eager
5 years ago
cxx api refactor: tensor/status/model
5 years ago
c++ minddata eager plus ms eager
5 years ago
Complete development of Dvpp feature which can be deployed on Ascend 310 Device, the function of this operation is decode + resize + center crop, the output is in format of YUV color space.
5 years ago
cxx api refactor: tensor/status/model
5 years ago
Fix dir of test case
5 years ago
cxx api refactor: tensor/status/model
5 years ago
Fix dir of test case
5 years ago
Dvpp refactor and 6 Dvpp operators
5 years ago
API merge with new API class and new IR class
5 years ago
Fix dir of test case
5 years ago
cxx api refactor: tensor/status/model
5 years ago
API merge with new API class and new IR class
5 years ago
cxx api refactor: tensor/status/model
5 years ago
Dvpp refactor and 6 Dvpp operators
5 years ago
cxx api refactor: tensor/status/model
5 years ago
Dvpp refactor and 6 Dvpp operators
5 years ago
Add YoloV3 with Dvpp test.
5 years ago
API merge with new API class and new IR class
5 years ago
cxx api refactor: tensor/status/model
5 years ago
Complete development of Dvpp feature which can be deployed on Ascend 310 Device, the function of this operation is decode + resize + center crop, the output is in format of YUV color space.
5 years ago
Dvpp refactor and 6 Dvpp operators
5 years ago
API merge with new API class and new IR class
5 years ago
Dvpp refactor and 6 Dvpp operators
5 years ago
Make the resource manager independent, new base class DeviceResource and new derived class AscendResource
5 years ago
API merge with new API class and new IR class
5 years ago
Make the resource manager independent, new base class DeviceResource and new derived class AscendResource
5 years ago
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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. #include <string>

  17. #include <vector>

  18. #include "common/common_test.h"

  19. #include "include/api/types.h"

  20. #include "minddata/dataset/include/execute.h"

  21. #include "minddata/dataset/include/transforms.h"

  22. #include "minddata/dataset/include/vision.h"

  23. #ifdef ENABLE_ACL

  24. #include "minddata/dataset/include/vision_ascend.h"

  25. #endif

  26. #include "minddata/dataset/kernels/tensor_op.h"

  27. #include "include/api/model.h"

  28. #include "include/api/serialization.h"

  29. #include "include/api/context.h"

  30. 

  31. using namespace mindspore;

  32. using namespace mindspore::dataset;

  33. using namespace mindspore::dataset::vision;

  34. 

  35. class TestDE : public ST::Common {

  36.  public:

  37.   TestDE() {}

  38. };

  39. 

  40. TEST_F(TestDE, TestResNetPreprocess) {

  41.   // Read images

  42.   std::shared_ptr<mindspore::dataset::Tensor> de_tensor;

  43.   mindspore::dataset::Tensor::CreateFromFile("./data/dataset/apple.jpg", &de_tensor);

  44.   auto image = mindspore::MSTensor(std::make_shared<mindspore::dataset::DETensor>(de_tensor));

  45. 

  46.   // Define transform operations

  47.   auto decode(new vision::Decode());

  48.   auto resize(new vision::Resize({224, 224}));

  49.   auto normalize(

  50.     new vision::Normalize({0.485 * 255, 0.456 * 255, 0.406 * 255}, {0.229 * 255, 0.224 * 255, 0.225 * 255}));

  51.   auto hwc2chw(new vision::HWC2CHW());

  52. 

  53.   mindspore::dataset::Execute Transform({decode, resize, normalize, hwc2chw});

  54. 

  55.   // Apply transform on images

  56.   Status rc = Transform(image, &image);

  57. 

  58.   // Check image info

  59.   ASSERT_TRUE(rc.IsOk());

  60.   ASSERT_EQ(image.Shape().size(), 3);

  61.   ASSERT_EQ(image.Shape()[0], 3);

  62.   ASSERT_EQ(image.Shape()[1], 224);

  63.   ASSERT_EQ(image.Shape()[2], 224);

  64. }

  65. 

  66. TEST_F(TestDE, TestDvpp) {

  67. #ifdef ENABLE_ACL

  68.   // Read images from target directory

  69.   std::shared_ptr<mindspore::dataset::Tensor> de_tensor;

  70.   mindspore::dataset::Tensor::CreateFromFile("./data/dataset/apple.jpg", &de_tensor);

  71.   auto image = MSTensor(std::make_shared<mindspore::dataset::DETensor>(de_tensor));

  72. 

  73.   // Define dvpp transform

  74.   std::vector<uint32_t> crop_paras = {224, 224};

  75.   std::vector<uint32_t> resize_paras = {256, 256};

  76.   auto decode_resize_crop(new vision::DvppDecodeResizeCropJpeg(crop_paras, resize_paras));

  77.   mindspore::dataset::Execute Transform(decode_resize_crop, MapTargetDevice::kAscend310);

  78. 

  79.   // Apply transform on images

  80.   Status rc = Transform(image, &image);

  81. 

  82.   // Check image info

  83.   ASSERT_TRUE(rc.IsOk());

  84.   ASSERT_EQ(image.Shape().size(), 2);

  85.   int32_t real_h = 0;

  86.   int32_t real_w = 0;

  87.   int32_t remainder = crop_paras[crop_paras.size() - 1] % 16;

  88.   if (crop_paras.size() == 1) {

  89.     real_h = (crop_paras[0] % 2 == 0) ? crop_paras[0] : crop_paras[0] + 1;

  90.     real_w = (remainder == 0) ? crop_paras[0] : crop_paras[0] + 16 - remainder;

  91.   } else {

  92.     real_h = (crop_paras[0] % 2 == 0) ? crop_paras[0] : crop_paras[0] + 1;

  93.     real_w = (remainder == 0) ? crop_paras[1] : crop_paras[1] + 16 - remainder;

  94.   }

  95.   ASSERT_EQ(image.Shape()[0], real_h);  // For image in YUV format, each pixel takes 1.5 byte

  96.   ASSERT_EQ(image.Shape()[1], real_w);

  97.   ASSERT_EQ(image.DataSize(), real_h * real_w * 1.5);

  98. #endif

  99. }

  100. 

  101. TEST_F(TestDE, TestDvppSinkMode) {

  102. #ifdef ENABLE_ACL

  103.   // Read images from target directory

  104.   std::shared_ptr<mindspore::dataset::Tensor> de_tensor;

  105.   mindspore::dataset::Tensor::CreateFromFile("./data/dataset/apple.jpg", &de_tensor);

  106.   auto image = MSTensor(std::make_shared<mindspore::dataset::DETensor>(de_tensor));

  107. 

  108.   // Define dvpp transform

  109.   std::vector<int32_t> crop_paras = {224, 224};

  110.   std::vector<int32_t> resize_paras = {256};

  111.   std::shared_ptr<TensorTransform> decode(new vision::Decode());

  112.   std::shared_ptr<TensorTransform> resize(new vision::Resize(resize_paras));

  113.   std::shared_ptr<TensorTransform> centercrop(new vision::CenterCrop(crop_paras));

  114.   std::vector<std::shared_ptr<TensorTransform>> transforms = {decode, resize, centercrop};

  115.   mindspore::dataset::Execute Transform(transforms, MapTargetDevice::kAscend310);

  116. 

  117.   // Apply transform on images

  118.   Status rc = Transform(image, &image);

  119. 

  120.   // Check image info

  121.   ASSERT_TRUE(rc.IsOk());

  122.   ASSERT_EQ(image.Shape().size(), 2);

  123.   int32_t real_h = 0;

  124.   int32_t real_w = 0;

  125.   int32_t remainder = crop_paras[crop_paras.size() - 1] % 16;

  126.   if (crop_paras.size() == 1) {

  127.     real_h = (crop_paras[0] % 2 == 0) ? crop_paras[0] : crop_paras[0] + 1;

  128.     real_w = (remainder == 0) ? crop_paras[0] : crop_paras[0] + 16 - remainder;

  129.   } else {

  130.     real_h = (crop_paras[0] % 2 == 0) ? crop_paras[0] : crop_paras[0] + 1;

  131.     real_w = (remainder == 0) ? crop_paras[1] : crop_paras[1] + 16 - remainder;

  132.   }

  133.   ASSERT_EQ(image.Shape()[0], real_h);  // For image in YUV format, each pixel takes 1.5 byte

  134.   ASSERT_EQ(image.Shape()[1], real_w);

  135.   ASSERT_EQ(image.DataSize(), 1.5 * real_w * real_h);

  136.   Transform.DeviceMemoryRelease();

  137. #endif

  138. }

  139. 

  140. TEST_F(TestDE, TestDvppDecodeResizeCrop) {

  141. #ifdef ENABLE_ACL

  142.   std::shared_ptr<mindspore::dataset::Tensor> de_tensor;

  143.   mindspore::dataset::Tensor::CreateFromFile("./data/dataset/apple.jpg", &de_tensor);

  144.   auto image = MSTensor(std::make_shared<mindspore::dataset::DETensor>(de_tensor));

  145. 

  146.   // Define dvpp transform

  147.   std::vector<int32_t> crop_paras = {416};

  148.   std::vector<int32_t> resize_paras = {512};

  149.   auto decode(new vision::Decode());

  150.   auto resize(new vision::Resize(resize_paras));

  151.   auto centercrop(new vision::CenterCrop(crop_paras));

  152.   std::vector<TensorTransform *> transforms = {decode, resize, centercrop};

  153.   mindspore::dataset::Execute Transform(transforms, MapTargetDevice::kAscend310);

  154. 

  155.   // Apply transform on images

  156.   Status rc = Transform(image, &image);

  157. 

  158.   // Check image info

  159.   ASSERT_TRUE(rc.IsOk());

  160.   ASSERT_EQ(image.Shape().size(), 2);

  161.   int32_t real_h = 0;

  162.   int32_t real_w = 0;

  163.   int32_t remainder = crop_paras[crop_paras.size() - 1] % 16;

  164.   if (crop_paras.size() == 1) {

  165.     real_h = (crop_paras[0] % 2 == 0) ? crop_paras[0] : crop_paras[0] + 1;

  166.     real_w = (remainder == 0) ? crop_paras[0] : crop_paras[0] + 16 - remainder;

  167.   } else {

  168.     real_h = (crop_paras[0] % 2 == 0) ? crop_paras[0] : crop_paras[0] + 1;

  169.     real_w = (remainder == 0) ? crop_paras[1] : crop_paras[1] + 16 - remainder;

  170.   }

  171.   ASSERT_EQ(image.Shape()[0], real_h);  // For image in YUV format, each pixel takes 1.5 byte

  172.   ASSERT_EQ(image.Shape()[1], real_w);

  173.   ASSERT_EQ(image.DataSize(), 1.5 * real_w * real_h);

  174.   Transform.DeviceMemoryRelease();

  175. #endif

  176. }

MindSpore is a new open source deep learning training/inference framework that could be used for mobile, edge and cloud scenarios.