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Merge pull request #7922 from Noplz/box_coder_op 

add box coder op
上级 4e7e39b4 7d8d9db9
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paddle/operators/box_coder_op.cc 0 → 100644
浏览文件 @ b7db3531
/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserve.
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. */
#include "paddle/operators/box_coder_op.h"
namespace paddle {
namespace operators {
class BoxCoderOp : public framework::OperatorWithKernel {
public:
using framework::OperatorWithKernel::OperatorWithKernel;
protected:
void InferShape(framework::InferShapeContext *ctx) const override {
PADDLE_ENFORCE(ctx->HasInput("PriorBox"),
"Input(PriorBox) of BoxCoderOp should not be null.");
PADDLE_ENFORCE(ctx->HasInput("PriorBoxVar"),
"Input(PriorBoxVar) of BoxCoderOp should not be null.");
PADDLE_ENFORCE(ctx->HasInput("TargetBox"),
"Input(TargetBox) of BoxCoderOp should not be null.");
PADDLE_ENFORCE(ctx->HasOutput("OutputBox"),
"Output(OutputBox) of BoxCoderOp should not be null.");
auto prior_box_dims = ctx->GetInputDim("PriorBox");
auto prior_box_var_dims = ctx->GetInputDim("PriorBoxVar");
auto target_box_dims = ctx->GetInputDim("TargetBox");
PADDLE_ENFORCE_EQ(prior_box_dims.size(), 2,
"The rank of Input of PriorBoxVar must be 2");
PADDLE_ENFORCE_EQ(prior_box_dims[1], 4, "The shape of PriorBox is [N, 4]");
PADDLE_ENFORCE_EQ(prior_box_dims, prior_box_var_dims);
PADDLE_ENFORCE_EQ(target_box_dims.size(), 2,
"The rank of Input of TargetBox must be 2");
PADDLE_ENFORCE_EQ(target_box_dims[1], 4,
"The shape of TargetBox is [M, 4]");
GetBoxCodeType(ctx->Attrs().Get<std::string>("code_type"));
ctx->SetOutputDim(
"OutputBox",
framework::make_ddim({target_box_dims[0], prior_box_dims[0], 4}));
ctx->ShareLoD("TargetBox", /*->*/ "OutputBox");
}
};
class BoxCoderOpMaker : public framework::OpProtoAndCheckerMaker {
public:
BoxCoderOpMaker(OpProto *proto, OpAttrChecker *op_checker)
: OpProtoAndCheckerMaker(proto, op_checker) {
AddInput(
"PriorBox",
"(Tensor, default Tensor<float>) "
"Box list PriorBox is a 2-D Tensor with shape [M, 4] holds M boxes, "
"each box is represented as [xmin, ymin, xmax, ymax], "
"[xmin, ymin] is the left top coordinate of the anchor box, "
"if the input is image feature map, they are close to the origin "
"of the coordinate system. [xmax, ymax] is the right bottom "
"coordinate of the anchor box.");
AddInput("PriorBoxVar",
"(Tensor, default Tensor<float>) "
"PriorBoxVar is a 2-D Tensor with shape [M, 4] holds M group "
"of variance.");
AddInput(
"TargetBox",
"(LoDTensor or Tensor) this input is a 2-D LoDTensor with shape "
"[N, 4], each box is represented as [xmin, ymin, xmax, ymax], "
"[xmin, ymin] is the left top coordinate of the box if the input "
"is image feature map, they are close to the origin of the coordinate "
"system. [xmax, ymax] is the right bottom coordinate of the box. "
"This tensor can contain LoD information to represent a batch "
"of inputs. One instance of this batch can contain different "
"numbers of entities.");
AddAttr<std::string>("code_type",
"(string, default encode_center_size) "
"the code type used with the target box")
.SetDefault("encode_center_size")
.InEnum({"encode_center_size", "decode_center_size"});
AddOutput(
"OutputBox",
"(LoDTensor or Tensor) "
"(Tensor) The output of box_coder_op, a tensor with shape [N, M, 4] "
"representing the result of N target boxes encoded/decoded with "
"M Prior boxes and variances.");
AddComment(R"DOC(
Bounding Box Coder Operator.
Encode/Decode the target bounding box with the priorbox information.
The Encoding schema described below:
ox = (tx - px) / pw / pxv
oy = (ty - py) / ph / pyv
ow = log(abs(tw / pw)) / pwv
oh = log(abs(th / ph)) / phv
The Decoding schema described below:
ox = (pw * pxv * tx * + px) - tw / 2
oy = (ph * pyv * ty * + py) - th / 2
ow = exp(pwv * tw) * pw + tw / 2
oh = exp(phv * th) * ph + th / 2
where tx, ty, tw, th denote the target box's center coordinates, width and
height respectively. Similarly, px, py, pw, ph denote the priorbox's(anchor)
center coordinates, width and height. pxv, pyv, pwv, phv denote the variance
of the priorbox and ox, oy, ow, oh denote the encoded/decoded coordinates,
width and height.
)DOC");
}
};
} // namespace operators
} // namespace paddle
namespace ops = paddle::operators;
REGISTER_OP_WITHOUT_GRADIENT(box_coder, ops::BoxCoderOp, ops::BoxCoderOpMaker);
REGISTER_OP_CPU_KERNEL(box_coder, ops::BoxCoderKernel<float>,
ops::BoxCoderKernel<double>);
paddle/operators/box_coder_op.cu 0 → 100644
浏览文件 @ b7db3531
/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserve.
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. */
#include "paddle/operators/box_coder_op.h"
#include "paddle/platform/cuda_helper.h"
namespace paddle {
namespace operators {
template <typename T>
__global__ void EncodeCenterSizeKernel(const T* prior_box_data,
const T* prior_box_var_data,
const T* target_box_data, const int row,
const int col, const int len,
T* output) {
const int idx = threadIdx.x + blockIdx.x * blockDim.x;
if (idx < row * col) {
const int row_idx = idx / col;
const int col_idx = idx % col;
T prior_box_width =
prior_box_data[col_idx * len + 2] - prior_box_data[col_idx * len];
T prior_box_height =
prior_box_data[col_idx * len + 3] - prior_box_data[col_idx * len + 1];
T prior_box_center_x =
(prior_box_data[col_idx * len + 2] + prior_box_data[col_idx * len]) / 2;
T prior_box_center_y = (prior_box_data[col_idx * len + 3] +
prior_box_data[col_idx * len + 1]) /
2;
T target_box_center_x =
(target_box_data[row_idx * len + 2] + target_box_data[row_idx * len]) /
2;
T target_box_center_y = (target_box_data[row_idx * len + 3] +
target_box_data[row_idx * len + 1]) /
2;
T target_box_width =
target_box_data[row_idx * len + 2] - target_box_data[row_idx * len];
T target_box_height =
target_box_data[row_idx * len + 3] - target_box_data[row_idx * len + 1];
output[idx * len] = (target_box_center_x - prior_box_center_x) /
prior_box_width / prior_box_var_data[col_idx * len];
output[idx * len + 1] = (target_box_center_y - prior_box_center_y) /
prior_box_height /
prior_box_var_data[col_idx * len + 1];
output[idx * len + 2] = log(fabs(target_box_width / prior_box_width)) /
prior_box_var_data[col_idx * len + 2];
output[idx * len + 3] = log(fabs(target_box_height / prior_box_height)) /
prior_box_var_data[col_idx * len + 3];
}
}
template <typename T>
__global__ void DecodeCenterSizeKernel(const T* prior_box_data,
const T* prior_box_var_data,
const T* target_box_data, const int row,
const int col, const int len,
T* output) {
const int idx = threadIdx.x + blockIdx.x * blockDim.x;
if (idx < row * col) {
const int row_idx = idx / col;
const int col_idx = idx % col;
T prior_box_width =
prior_box_data[col_idx * len + 2] - prior_box_data[col_idx * len];
T prior_box_height =
prior_box_data[col_idx * len + 3] - prior_box_data[col_idx * len + 1];
T prior_box_center_x =
(prior_box_data[col_idx * len + 2] + prior_box_data[col_idx * len]) / 2;
T prior_box_center_y = (prior_box_data[col_idx * len + 3] +
prior_box_data[col_idx * len + 1]) /
2;
T target_box_width = exp(prior_box_var_data[col_idx * len + 2] *
target_box_data[row_idx * len + 2]) *
prior_box_width;
T target_box_height = exp(prior_box_var_data[col_idx * len + 3] *
target_box_data[row_idx * len + 3]) *
prior_box_height;
T target_box_center_x = prior_box_var_data[col_idx * len] *
target_box_data[row_idx * len] *
prior_box_width +
prior_box_center_x;
T target_box_center_y = prior_box_var_data[col_idx * len + 1] *
target_box_data[row_idx * len + 1] *
prior_box_height +
prior_box_center_y;
output[idx * len] = target_box_center_x - target_box_width / 2;
output[idx * len + 1] = target_box_center_y - target_box_height / 2;
output[idx * len + 2] = target_box_center_x + target_box_width / 2;
output[idx * len + 3] = target_box_center_y + target_box_height / 2;
}
}
template <typename T>
class BoxCoderCUDAKernel : public framework::OpKernel<T> {
public:
void Compute(const framework::ExecutionContext& context) const override {
PADDLE_ENFORCE(platform::is_gpu_place(context.GetPlace()),
"This kernel only runs on GPU device.");
auto* prior_box = context.Input<framework::Tensor>("PriorBox");
auto* prior_box_var = context.Input<framework::Tensor>("PriorBoxVar");
auto* target_box = context.Input<framework::LoDTensor>("TargetBox");
auto* output_box = context.Output<framework::Tensor>("OutputBox");
if (target_box->lod().size()) {
PADDLE_ENFORCE_EQ(target_box->lod().size(), 1,
"Only support 1 level of LoD.");
}
auto row = target_box->dims()[0];
auto col = prior_box->dims()[0];
auto len = prior_box->dims()[1];
int block = 512;
int grid = (row * col + block - 1) / block;
auto& device_ctx = context.cuda_device_context();
const T* prior_box_data = prior_box->data<T>();
const T* prior_box_var_data = prior_box_var->data<T>();
const T* target_box_data = target_box->data<T>();
output_box->mutable_data<T>({row, col, len}, context.GetPlace());
T* output = output_box->data<T>();
auto code_type = GetBoxCodeType(context.Attr<std::string>("code_type"));
if (code_type == BoxCodeType::kEncodeCenterSize) {
EncodeCenterSizeKernel<T><<<grid, block, 0, device_ctx.stream()>>>(
prior_box_data, prior_box_var_data, target_box_data, row, col, len,
output);
} else if (code_type == BoxCodeType::kDecodeCenterSize) {
DecodeCenterSizeKernel<T><<<grid, block, 0, device_ctx.stream()>>>(
prior_box_data, prior_box_var_data, target_box_data, row, col, len,
output);
}
}
};
} // namespace operators
} // namespace paddle
namespace ops = paddle::operators;
REGISTER_OP_CUDA_KERNEL(box_coder, ops::BoxCoderCUDAKernel<float>,
ops::BoxCoderCUDAKernel<double>);
paddle/operators/box_coder_op.h 0 → 100644
浏览文件 @ b7db3531
/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserve.
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. */
#pragma once
#include "paddle/framework/op_registry.h"
#include "paddle/operators/math/math_function.h"
namespace paddle {
namespace operators {
enum class BoxCodeType { kEncodeCenterSize = 0, kDecodeCenterSize = 1 };
inline BoxCodeType GetBoxCodeType(const std::string& type) {
if (type == "encode_center_size") {
return BoxCodeType::kEncodeCenterSize;
} else if (type == "decode_center_size") {
return BoxCodeType::kDecodeCenterSize;
}
PADDLE_THROW("Not support type %s.", type);
}
template <typename T>
class BoxCoderKernel : public framework::OpKernel<T> {
public:
void EncodeCenterSize(const framework::Tensor& target_box,
const framework::Tensor& prior_box,
const framework::Tensor& prior_box_var,
T* output) const {
int64_t row = target_box.dims()[0];
int64_t col = prior_box.dims()[0];
int64_t len = prior_box.dims()[1];
auto* target_box_data = target_box.data<T>();
auto* prior_box_data = prior_box.data<T>();
auto* prior_box_var_data = prior_box_var.data<T>();
for (int64_t i = 0; i < row; ++i) {
for (int64_t j = 0; j < col; ++j) {
T prior_box_width =
prior_box_data[j * len + 2] - prior_box_data[j * len];
T prior_box_height =
prior_box_data[j * len + 3] - prior_box_data[j * len + 1];
T prior_box_center_x =
(prior_box_data[j * len + 2] + prior_box_data[j * len]) / 2;
T prior_box_center_y =
(prior_box_data[j * len + 3] + prior_box_data[j * len + 1]) / 2;
T target_box_center_x =
(target_box_data[i * len + 2] + target_box_data[i * len]) / 2;
T target_box_center_y =
(target_box_data[i * len + 3] + target_box_data[i * len + 1]) / 2;
T target_box_width =
target_box_data[i * len + 2] - target_box_data[i * len];
T target_box_height =
target_box_data[i * len + 3] - target_box_data[i * len + 1];
size_t offset = i * col * len + j * len;
output[offset] = (target_box_center_x - prior_box_center_x) /
prior_box_width / prior_box_var_data[j * len];
output[offset + 1] = (target_box_center_y - prior_box_center_y) /
prior_box_height / prior_box_var_data[j * len + 1];
output[offset + 2] =
std::log(std::fabs(target_box_width / prior_box_width)) /
prior_box_var_data[j * len + 2];
output[offset + 3] =
std::log(std::fabs(target_box_height / prior_box_height)) /
prior_box_var_data[j * len + 3];
}
}
}
void DecodeCenterSize(const framework::Tensor& target_box,
const framework::Tensor& prior_box,
const framework::Tensor& prior_box_var,
T* output) const {
int64_t row = target_box.dims()[0];
int64_t col = prior_box.dims()[0];
int64_t len = prior_box.dims()[1];
auto* target_box_data = target_box.data<T>();
auto* prior_box_data = prior_box.data<T>();
auto* prior_box_var_data = prior_box_var.data<T>();
for (int64_t i = 0; i < row; ++i) {
for (int64_t j = 0; j < col; ++j) {
T prior_box_width =
prior_box_data[j * len + 2] - prior_box_data[j * len];
T prior_box_height =
prior_box_data[j * len + 3] - prior_box_data[j * len + 1];
T prior_box_center_x =
(prior_box_data[j * len + 2] + prior_box_data[j * len]) / 2;
T prior_box_center_y =
(prior_box_data[j * len + 3] + prior_box_data[j * len + 1]) / 2;
T target_box_center_x = prior_box_var_data[j * len] *
target_box_data[i * len] * prior_box_width +
prior_box_center_x;
T target_box_center_y = prior_box_var_data[j * len + 1] *
target_box_data[i * len + 1] *
prior_box_height +
prior_box_center_y;
T target_box_width = std::exp(prior_box_var_data[j * len + 2] *
target_box_data[i * len + 2]) *
prior_box_width;
T target_box_height = std::exp(prior_box_var_data[j * len + 3] *
target_box_data[i * len + 3]) *
prior_box_height;
size_t offset = i * col * len + j * len;
output[offset] = target_box_center_x - target_box_width / 2;
output[offset + 1] = target_box_center_y - target_box_height / 2;
output[offset + 2] = target_box_center_x + target_box_width / 2;
output[offset + 3] = target_box_center_y + target_box_height / 2;
}
}
}
void Compute(const framework::ExecutionContext& context) const override {
auto* prior_box = context.Input<framework::Tensor>("PriorBox");
auto* prior_box_var = context.Input<framework::Tensor>("PriorBoxVar");
auto* target_box = context.Input<framework::LoDTensor>("TargetBox");
auto* output_box = context.Output<framework::Tensor>("OutputBox");
if (target_box->lod().size()) {
PADDLE_ENFORCE_EQ(target_box->lod().size(), 1UL,
"Only support 1 level of LoD.");
}
auto row = target_box->dims()[0];
auto col = prior_box->dims()[0];
auto len = prior_box->dims()[1];
output_box->mutable_data<T>({row, col, len}, context.GetPlace());
auto code_type = GetBoxCodeType(context.Attr<std::string>("code_type"));
T* output = output_box->data<T>();
if (code_type == BoxCodeType::kEncodeCenterSize) {
EncodeCenterSize(*target_box, *prior_box, *prior_box_var, output);
} else if (code_type == BoxCodeType::kDecodeCenterSize) {
DecodeCenterSize(*target_box, *prior_box, *prior_box_var, output);
}
}
};
} // namespace operators
} // namespace paddle
python/paddle/v2/fluid/tests/test_box_coder_op.py 0 → 100644
浏览文件 @ b7db3531
# Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserve.
#
# 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.
import unittest
import numpy as np
import sys
import math
from op_test import OpTest
def box_coder(target_box, prior_box, prior_box_var, output_box, code_type):
prior_box_x = (
(prior_box[:, 2] + prior_box[:, 0]) / 2).reshape(1, prior_box.shape[0])
prior_box_y = (
(prior_box[:, 3] + prior_box[:, 1]) / 2).reshape(1, prior_box.shape[0])
prior_box_width = (
(prior_box[:, 2] - prior_box[:, 0])).reshape(1, prior_box.shape[0])
prior_box_height = (
(prior_box[:, 3] - prior_box[:, 1])).reshape(1, prior_box.shape[0])
prior_box_var = prior_box_var.reshape(1, prior_box_var.shape[0],
prior_box_var.shape[1])
if (code_type == "EncodeCenterSize"):
target_box_x = ((target_box[:, 2] + target_box[:, 0]) / 2).reshape(
target_box.shape[0], 1)
target_box_y = ((target_box[:, 3] + target_box[:, 1]) / 2).reshape(
target_box.shape[0], 1)
target_box_width = ((target_box[:, 2] - target_box[:, 0])).reshape(
target_box.shape[0], 1)
target_box_height = ((target_box[:, 3] - target_box[:, 1])).reshape(
target_box.shape[0], 1)
output_box[:,:,0] = (target_box_x - prior_box_x) / prior_box_width / \
prior_box_var[:,:,0]
output_box[:,:,1] = (target_box_y - prior_box_y) / prior_box_height / \
prior_box_var[:,:,1]
output_box[:,:,2] = np.log(np.fabs(target_box_width / prior_box_width)) / \
prior_box_var[:,:,2]
output_box[:,:,3] = np.log(np.fabs(target_box_height / prior_box_height)) / \
prior_box_var[:,:,3]
elif (code_type == "DecodeCenterSize"):
target_box = target_box.reshape(target_box.shape[0], 1,
target_box.shape[1])
target_box_x = prior_box_var[:,:,0] * target_box[:,:,0] * \
prior_box_width + prior_box_x
target_box_y = prior_box_var[:,:,1] * target_box[:,:,1] * \
prior_box_height + prior_box_y
target_box_width = np.exp(prior_box_var[:,:,2] * target_box[:,:,2]) * \
prior_box_width
target_box_height = np.exp(prior_box_var[:,:,3] * target_box[:,:,3]) * \
prior_box_height
output_box[:, :, 0] = target_box_x - target_box_width / 2
output_box[:, :, 1] = target_box_y - target_box_height / 2
output_box[:, :, 2] = target_box_x + target_box_width / 2
output_box[:, :, 3] = target_box_y + target_box_height / 2
def batch_box_coder(prior_box, prior_box_var, target_box, lod, code_type):
n = target_box.shape[0]
m = prior_box.shape[0]
output_box = np.zeros((n, m, 4), dtype=np.float32)
for i in range(len(lod) - 1):
box_coder(target_box[lod[i]:lod[i + 1], :], prior_box, prior_box_var,
output_box[lod[i]:lod[i + 1], :, :], code_type)
return output_box
class TestBoxCoderOp(OpTest):
def test_check_output(self):
self.check_output()
def setUp(self):
self.op_type = "box_coder"
lod = [[0, 20]]
prior_box = np.random.random((10, 4)).astype('float32')
prior_box_var = np.random.random((10, 4)).astype('float32')
target_box = np.random.random((20, 4)).astype('float32')
code_type = "DecodeCenterSize"
output_box = batch_box_coder(prior_box, prior_box_var, target_box,
lod[0], code_type)
self.inputs = {
'PriorBox': prior_box,
'PriorBoxVar': prior_box_var,
'TargetBox': target_box,
}
self.attrs = {'code_type': 'decode_center_size'}
self.outputs = {'OutputBox': output_box}
class TestBoxCoderOpWithLoD(OpTest):
def test_check_output(self):
self.check_output()
def setUp(self):
self.op_type = "box_coder"
lod = [[0, 4, 12, 20]]
prior_box = np.random.random((10, 4)).astype('float32')
prior_box_var = np.random.random((10, 4)).astype('float32')
target_box = np.random.random((20, 4)).astype('float32')
code_type = "EncodeCenterSize"
output_box = batch_box_coder(prior_box, prior_box_var, target_box,
lod[0], code_type)
self.inputs = {
'PriorBox': prior_box,
'PriorBoxVar': prior_box_var,
'TargetBox': (target_box, lod),
}
self.attrs = {'code_type': 'encode_center_size'}
self.outputs = {'OutputBox': output_box}
if __name__ == '__main__':
unittest.main()
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