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FastDeploy/fastdeploy/vision/visualize/visualize_pybind.cc
WJJ1995 9437dec9f5 [Model] add PFLD model (#433) 
* support face alignment PFLD

* add PFLD demo

* fixed FaceAlignmentResult

* fixed bugs

* fixed img size

* fixed readme

* deal with comments

* fixed readme

* add pfld testcase

* update infer.py

* add gflags for example

* update c++ readme

* add gflags in example

* fixed for ci

* fixed gflags.cmake

* deal with comments

* update infer demo

Co-authored-by: Jason <jiangjiajun@baidu.com>
2022-11-02 11:50:16 +08:00

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// Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
//
// 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 "fastdeploy/pybind/main.h"
namespace fastdeploy {
void BindVisualize(pybind11::module& m) {
m.def("vis_detection",
[](pybind11::array& im_data, vision::DetectionResult& result,
float score_threshold, int line_size, float font_size) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::VisDetection(im, result, score_threshold,
line_size, font_size);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("vis_face_detection",
[](pybind11::array& im_data, vision::FaceDetectionResult& result,
int line_size, float font_size) {
auto im = PyArrayToCvMat(im_data);
auto vis_im =
vision::VisFaceDetection(im, result, line_size, font_size);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("vis_face_alignment",
[](pybind11::array& im_data, vision::FaceAlignmentResult& result,
int line_size) {
auto im = PyArrayToCvMat(im_data);
auto vis_im =
vision::VisFaceAlignment(im, result, line_size);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("vis_segmentation",
[](pybind11::array& im_data, vision::SegmentationResult& result,
float weight) {
cv::Mat im = PyArrayToCvMat(im_data);
auto vis_im = vision::VisSegmentation(im, result, weight);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("swap_background",
[](pybind11::array& im_data, pybind11::array& background_data,
vision::MattingResult& result, bool remove_small_connected_area) {
cv::Mat im = PyArrayToCvMat(im_data);
cv::Mat background = PyArrayToCvMat(background_data);
auto vis_im = vision::SwapBackground(im, background, result,
remove_small_connected_area);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("swap_background",
[](pybind11::array& im_data, pybind11::array& background_data,
vision::SegmentationResult& result, int background_label) {
cv::Mat im = PyArrayToCvMat(im_data);
cv::Mat background = PyArrayToCvMat(background_data);
auto vis_im = vision::SwapBackground(im, background, result,
background_label);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("vis_ppocr",
[](pybind11::array& im_data, vision::OCRResult& result) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::VisOcr(im, result);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("vis_mot",
[](pybind11::array& im_data, vision::MOTResult& result,float fps, int frame_id) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::VisMOT(im, result,fps,frame_id);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def("vis_matting",
[](pybind11::array& im_data, vision::MattingResult& result,
bool remove_small_connected_area) {
cv::Mat im = PyArrayToCvMat(im_data);
auto vis_im =
vision::VisMatting(im, result, remove_small_connected_area);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
});
pybind11::class_<vision::Visualize>(m, "Visualize")
.def(pybind11::init<>())
.def_static("vis_detection",
[](pybind11::array& im_data, vision::DetectionResult& result,
float score_threshold, int line_size, float font_size) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::Visualize::VisDetection(
im, result, score_threshold, line_size, font_size);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static(
"vis_keypoint_detection",
[](pybind11::array& im_data, vision::KeyPointDetectionResult& result,
float conf_threshold) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::VisKeypointDetection(
im, result, conf_threshold);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static(
"vis_face_detection",
[](pybind11::array& im_data, vision::FaceDetectionResult& result,
int line_size, float font_size) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::Visualize::VisFaceDetection(
im, result, line_size, font_size);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static(
"vis_segmentation",
[](pybind11::array& im_data, vision::SegmentationResult& result) {
cv::Mat im = PyArrayToCvMat(im_data);
auto vis_im = vision::Visualize::VisSegmentation(im, result);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static(
"swap_background_matting",
[](pybind11::array& im_data, pybind11::array& background_data,
vision::MattingResult& result, bool remove_small_connected_area) {
cv::Mat im = PyArrayToCvMat(im_data);
cv::Mat background = PyArrayToCvMat(background_data);
auto vis_im = vision::Visualize::SwapBackgroundMatting(
im, background, result, remove_small_connected_area);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static("swap_background_segmentation",
[](pybind11::array& im_data, pybind11::array& background_data,
int background_label, vision::SegmentationResult& result) {
cv::Mat im = PyArrayToCvMat(im_data);
cv::Mat background = PyArrayToCvMat(background_data);
auto vis_im = vision::Visualize::SwapBackgroundSegmentation(
im, background, background_label, result);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static("remove_small_connected_area",
[](pybind11::array& alpha_pred_data, float threshold) {
cv::Mat alpha_pred = PyArrayToCvMat(alpha_pred_data);
auto vis_im = vision::Visualize::RemoveSmallConnectedArea(
alpha_pred, threshold);
})
.def_static("vis_ppocr",
[](pybind11::array& im_data, vision::OCRResult& result) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::Visualize::VisOcr(im, result);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static("vis_mot",
[](pybind11::array& im_data, vision::MOTResult& result,float fps, int frame_id) {
auto im = PyArrayToCvMat(im_data);
auto vis_im = vision::VisMOT(im, result,fps,frame_id);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
})
.def_static("vis_matting_alpha",
[](pybind11::array& im_data, vision::MattingResult& result,
bool remove_small_connected_area) {
cv::Mat im = PyArrayToCvMat(im_data);
auto vis_im = vision::Visualize::VisMattingAlpha(
im, result, remove_small_connected_area);
FDTensor out;
vision::Mat(vis_im).ShareWithTensor(&out);
return TensorToPyArray(out);
});
}
} // namespace fastdeploy
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