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graphengine/ge/host_kernels/pack_kernel.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. #include "host_kernels/pack_kernel.h"

  17. 

  18. #include <memory>

  19. #include <vector>

  20. 

  21. #include "common/debug/log.h"

  22. #include "common/formats/utils/formats_trans_utils.h"

  23. #include "common/ge_inner_error_codes.h"

  24. #include "common/op/ge_op_utils.h"

  25. #include "framework/common/debug/ge_log.h"

  26. #include "graph/debug/ge_attr_define.h"

  27. #include "host_kernels/kernel_utils.h"

  28. #include "graph/utils/type_utils.h"

  29. #include "inc/kernel_factory.h"

  30. #include "framework/common/types.h"

  31. 

  32. namespace {

  33. const int64_t kShapeItemNumMAX = 2000000000;

  34. }  // namespace

  35. namespace ge {

  36. Status PackKernel::Compute(const ge::OpDescPtr op_desc_ptr, const std::vector<ge::ConstGeTensorPtr> &input,

  37.                            std::vector<ge::GeTensorPtr> &v_output) {

  38.   GELOGI("Pack kernel in.");

  39.   Status validate_ret = ValidateKernelParams(op_desc_ptr, input);

  40.   if (validate_ret != SUCCESS) {

  41.     GELOGW("Pack kernel input is invalid , can not continue compute.");

  42.     return NOT_CHANGED;

  43.   }

  44. 

  45.   GeShape final_shape;

  46.   ExpandDims(axis_, input, final_shape);

  47. 

  48.   // generate output

  49.   GeTensorPtr output_ptr = MakeShared<GeTensor>(op_desc_ptr->GetOutputDesc(0));

  50.   if (output_ptr == nullptr) {

  51.     GELOGW("Fail to malloc output.");

  52.     return OUT_OF_MEMORY;

  53.   }

  54.   Status ret = CopyOutputData(final_shape, input, output_ptr);

  55.   if (ret != SUCCESS) {

  56.     GELOGW("Pack inputs failed. Ignore pack kernel.");

  57.     return NOT_CHANGED;

  58.   }

  59.   v_output.push_back(output_ptr);

  60.   return SUCCESS;

  61. }

  62. 

  63. Status PackKernel::ValidateKernelParams(const ge::OpDescPtr &op_desc_ptr,

  64.                                         const std::vector<ge::ConstGeTensorPtr> &input) {

  65.   if (op_desc_ptr == nullptr) {

  66.     GELOGW("input opdesc is nullptr.");

  67.     return PARAM_INVALID;

  68.   }

  69.   if (!(AttrUtils::GetInt(op_desc_ptr, PACK_ATTR_NAME_NUM, n_))) {

  70.     n_ = 0;

  71.     GELOGD("Attr %s is not set, default value %ld is used.", PACK_ATTR_NAME_NUM.c_str(), n_);

  72.   }

  73.   if (!(AttrUtils::GetInt(op_desc_ptr, ATTR_NAME_AXIS, axis_))) {

  74.     GELOGW("Attr %s is not exist.", ATTR_NAME_AXIS.c_str());

  75.     return PARAM_INVALID;

  76.   }

  77.   if (input.empty()) {

  78.     GELOGW("The number of input for Pack should be %ld, in fact it is %zu ", n_, input.size());

  79.     return NOT_CHANGED;

  80.   }

  81.   if (input.size() != static_cast<size_t>(n_)) {

  82.     GELOGW("The number of input for Pack should be %d, in fact it is %ld ", static_cast<int>(n_),

  83.            input.size());

  84.     return PARAM_INVALID;

  85.   }

  86.   data_type_ = op_desc_ptr->GetInputDesc(0).GetDataType();

  87.   GeShape shape = op_desc_ptr->GetInputDesc(0).GetShape();

  88.   if (axis_ < 0 || axis_ > (static_cast<int64_t>(shape.GetDimNum()) + 1)) {

  89.     GELOGW("Axis is %ld ,which is out of range [0,R+1].", axis_);

  90.     return NOT_CHANGED;

  91.   }

  92. 

  93.   Status validate_ret = ValidateInputs(op_desc_ptr, input);

  94.   if (validate_ret != SUCCESS) {

  95.     GELOGW("Validate inputs failed.Ignore pack kernel.");

  96.     return NOT_CHANGED;

  97.   }

  98.   return SUCCESS;

  99. }

  100. 

  101. Status PackKernel::ValidateInputs(const ge::OpDescPtr &op_desc_ptr, const std::vector<ge::ConstGeTensorPtr> &input) {

  102.   GeShape shape;

  103.   for (int64_t i = 0; i < n_; i++) {

  104.     if (input[i] == nullptr) {

  105.       GELOGW("Input %ld of pack kernel %s is null.", i, op_desc_ptr->GetName().c_str());

  106.       return PARAM_INVALID;

  107.     }

  108. 

  109.     if (i == 0) {

  110.       // get first input shape

  111.       shape = input[0]->GetTensorDesc().GetShape();

  112.     }

  113. 

  114.     GeTensorDesc tensor_desc = input[i]->GetTensorDesc();

  115.     // check datatype of inputs is same or not

  116.     if (tensor_desc.GetDataType() != data_type_) {

  117.       GELOGW("Data type of inputs %ld for pack not matched, data type should be %s, but actual datatype is %s", i,

  118.              TypeUtils::DataTypeToSerialString(data_type_).c_str(),

  119.              TypeUtils::DataTypeToSerialString(tensor_desc.GetDataType()).c_str());

  120.       return NOT_CHANGED;

  121.     }

  122.     // check shape of inputs is same or not

  123.     auto dst_shape = tensor_desc.GetShape();

  124.     int64_t num = 1;

  125.     for (auto dim : dst_shape.GetDims()) {

  126.       if (dim < 0) {

  127.         GELOGW("Invalid dim ld% in the shape %s", dim, formats::ShapeToString(shape).c_str());

  128.         return NOT_CHANGED;

  129.       }

  130.       num *= dim;

  131.       if (num > kShapeItemNumMAX) {

  132.         GELOGW("Shape overflow, the total count should be less than %ld!", kShapeItemNumMAX);

  133.         return NOT_CHANGED;

  134.       }

  135.     }

  136.     if (!formats::IsShapeEqual(shape, dst_shape)) {

  137.       GELOGW("Shape of input %ld is not equal wiht input 0.", i);

  138.       return NOT_CHANGED;

  139.     }

  140. 

  141.     // check tensor data size is zero ot not

  142.     if (input[i]->GetData().size() == 0 && num != 0) {

  143.       GELOGW("Inputs %ld do not have value.", i);

  144.       return NOT_CHANGED;

  145.     }

  146.   }

  147.   return SUCCESS;

  148. }

  149. 

  150. void PackKernel::ExpandDims(const int64_t axis, const std::vector<ge::ConstGeTensorPtr> &input, GeShape &final_shape) {

  151.   // expand dims

  152.   vector<int64_t> current_dims = input[0]->GetTensorDesc().GetShape().GetDims();

  153.   vector<int64_t> final_dims;

  154.   final_dims.assign(current_dims.begin(), current_dims.end());

  155. 

  156.   // expand dim of N

  157.   // assume there are N inputs, and shape is [A,B,C],

  158.   // if axis = 0, after pack, the output shape should be [N,A,B,C].

  159.   // if axis = 1, after pack, the output shape should be [A,N,B,C].

  160.   // ...etc

  161.   // if axis = 3, after pack, the output shape should be [A,B,C,N]

  162.   if (axis >= static_cast<int64_t>(final_dims.size())) {

  163.     final_dims.emplace_back(n_);

  164.   } else {

  165.     final_dims.insert(final_dims.begin() + axis, n_);

  166.   }

  167.   final_shape = GeShape(final_dims);

  168. }

  169. 

  170. Status PackKernel::CopyOutputData(const GeShape &final_shape,

  171.                                   const std::vector<ge::ConstGeTensorPtr> &input,

  172.                                   ge::GeTensorPtr &output_ptr) {

  173.   output_ptr->MutableTensorDesc().SetShape(final_shape);

  174.   output_ptr->MutableTensorDesc().SetDataType(DataType(data_type_));

  175.   if (final_shape.GetShapeSize() == 0 && final_shape.GetDims().size() != 0) {

  176.     // means has zero in shape list, output tnesor data is [].

  177.     return SUCCESS;

  178.   }

  179. 

  180.   int64_t times = 1;

  181.   int64_t unit = 1;

  182.   // calculate data unit

  183.   for (int64_t i = (axis_ + 1); i < static_cast<int64_t>(final_shape.GetDimNum()); i++) {

  184.     unit *= final_shape.GetDim(static_cast<size_t>(i));

  185.   }

  186.   // calculate get times

  187.   for (int64_t i = 0; i < axis_; i++) {

  188.     times *= final_shape.GetDim(static_cast<size_t>(i));

  189.   }

  190.   GELOGD("Copy output data times is %ld, unit is %ld.", times, unit);

  191. 

  192.   uint32_t data_size = GetSizeByDataType(data_type_);

  193.   // assume output shape is [A,N,B,C], time=A,unit=B*C

  194.   // when copy data from input, we follow time*N*unit

  195.   auto output_size = final_shape.GetShapeSize();

  196.   std::shared_ptr<uint8_t> buf(new (std::nothrow) uint8_t[output_size * data_size], std::default_delete<uint8_t[]>());

  197.   if (buf == nullptr) {

  198.     GELOGW("malloc buf is null.Ignore pack kernel.");

  199.     return NOT_CHANGED;

  200.   }

  201. 

  202.   size_t dst_offset = 0;

  203.   size_t src_offset = 0;

  204.   // data copy follow times*N*offset, which offset = time*unit

  205.   for (int64_t i = 0; i < times; i++) {

  206.     for (int64_t j = 0; j < n_; j++) {

  207.       // input range already check before. Range is [0,n_).

  208.       const uint8_t *in_data = input[j]->GetData().data();

  209.       auto ret = memcpy_s(buf.get() + dst_offset, output_size * data_size - dst_offset, in_data + src_offset,

  210.                           data_size * unit);

  211.       if (ret != EOK) {

  212.         GELOGW("Memory copy failed.");

  213.         return NOT_CHANGED;

  214.       }

  215.       dst_offset += data_size * unit;

  216.     }

  217.     src_offset += unit * data_size;

  218.   }

  219. 

  220.   if (output_ptr->SetData(buf.get(), static_cast<size_t>(output_size * data_size)) != GRAPH_SUCCESS) {

  221.     GELOGW("CopyOutputData: SetData failed");

  222.   }

  223.   return SUCCESS;

  224. }

  225. 

  226. REGISTER_KERNEL(PACK, PackKernel);

  227. }  // namespace ge