forked from mindspore-Ecosystem/mindspore
[MS][LITE]fix lite minddata DecodeCv read jpeg only issue.
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0d90568241
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@ -32,6 +32,7 @@
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#include <opencv2/imgcodecs.hpp>
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#include <opencv2/imgproc/imgproc.hpp>
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#include "minddata/dataset/core/cv_tensor.h"
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#include "minddata/dataset/kernels/image/resize_cubic_op.h"
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#endif
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#define MAX_INT_PRECISION 16777216 // float int precision is 16777216
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namespace mindspore {
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@ -289,11 +290,39 @@ static LDataType GetLiteCVDataType(const DataType &data_type) {
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}
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}
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#if defined(ENABLE_CLOUD_FUSION_INFERENCE)
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Status DecodeCv(const std::shared_ptr<Tensor> &input, std::shared_ptr<Tensor> *output) {
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std::shared_ptr<CVTensor> input_cv = CVTensor::AsCVTensor(input);
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if (!input_cv->mat().data) {
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RETURN_STATUS_UNEXPECTED("[Internal ERROR] Decode: load image failed.");
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}
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try {
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cv::Mat img_mat = cv::imdecode(input_cv->mat(), cv::IMREAD_COLOR | cv::IMREAD_IGNORE_ORIENTATION);
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if (img_mat.data == nullptr) {
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std::string err = "Decode: image decode failed.";
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RETURN_STATUS_UNEXPECTED(err);
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}
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cv::cvtColor(img_mat, img_mat, static_cast<int>(cv::COLOR_BGR2RGB));
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std::shared_ptr<CVTensor> output_cv;
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dsize_t rank_num = 3;
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RETURN_IF_NOT_OK(CVTensor::CreateFromMat(img_mat, rank_num, &output_cv));
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*output = std::static_pointer_cast<Tensor>(output_cv);
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return Status::OK();
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} catch (const cv::Exception &e) {
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RETURN_STATUS_UNEXPECTED("Decode: " + std::string(e.what()));
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}
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}
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#endif
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Status Decode(const std::shared_ptr<Tensor> &input, std::shared_ptr<Tensor> *output) {
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if (IsNonEmptyJPEG(input)) {
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return JpegCropAndDecode(input, output);
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} else {
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#if defined(ENABLE_CLOUD_FUSION_INFERENCE)
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return DecodeCv(input, output);
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#else
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RETURN_STATUS_UNEXPECTED("Decode: Decode only supports jpeg for android");
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#endif
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}
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}
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@ -414,6 +443,91 @@ Status Normalize(const std::shared_ptr<Tensor> &input, std::shared_ptr<Tensor> *
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return Status::OK();
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}
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#if defined(ENABLE_CLOUD_FUSION_INFERENCE)
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int GetCVInterpolationMode(InterpolationMode mode) {
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switch (mode) {
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case InterpolationMode::kLinear:
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return static_cast<int>(cv::InterpolationFlags::INTER_LINEAR);
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case InterpolationMode::kCubic:
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return static_cast<int>(cv::InterpolationFlags::INTER_CUBIC);
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case InterpolationMode::kArea:
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return static_cast<int>(cv::InterpolationFlags::INTER_AREA);
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case InterpolationMode::kNearestNeighbour:
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return static_cast<int>(cv::InterpolationFlags::INTER_NEAREST);
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default:
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return static_cast<int>(cv::InterpolationFlags::INTER_LINEAR);
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}
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}
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Status Resize(const std::shared_ptr<Tensor> &input, std::shared_ptr<Tensor> *output, int32_t output_height,
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int32_t output_width, double fx, double fy, InterpolationMode mode) {
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std::shared_ptr<CVTensor> input_cv = CVTensor::AsCVTensor(input);
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if (!input_cv->mat().data) {
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RETURN_STATUS_UNEXPECTED("[Internal ERROR] Resize: load image failed.");
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}
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RETURN_IF_NOT_OK(ValidateImageRank("Resize", input_cv->Rank()));
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cv::Mat in_image = input_cv->mat();
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const uint32_t kResizeShapeLimits = 1000;
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// resize image too large or too small, 1000 is arbitrarily chosen here to prevent open cv from segmentation fault
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CHECK_FAIL_RETURN_UNEXPECTED((std::numeric_limits<int>::max() / kResizeShapeLimits) > in_image.rows,
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"Resize: in_image rows out of bounds.");
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CHECK_FAIL_RETURN_UNEXPECTED((std::numeric_limits<int>::max() / kResizeShapeLimits) > in_image.cols,
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"Resize: in_image cols out of bounds.");
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if (output_height > in_image.rows * kResizeShapeLimits || output_width > in_image.cols * kResizeShapeLimits) {
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std::string err_msg =
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"Resize: the resizing width or height is too big, it's 1000 times bigger than the original image, got output "
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"height: " +
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std::to_string(output_height) + ", width: " + std::to_string(output_width) +
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", and original image size:" + std::to_string(in_image.rows) + ", " + std::to_string(in_image.cols);
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return Status(StatusCode::kMDShapeMisMatch, err_msg);
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}
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if (output_height == 0 || output_width == 0) {
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std::string err_msg = "Resize: the input value of 'resize' is invalid, width or height is zero.";
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return Status(StatusCode::kMDShapeMisMatch, err_msg);
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}
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if (mode == InterpolationMode::kCubicPil) {
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if (input_cv->shape().Size() != kDefaultImageChannel ||
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input_cv->shape()[kChannelIndexHWC] != kDefaultImageChannel) {
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RETURN_STATUS_UNEXPECTED("Resize: Interpolation mode PILCUBIC only supports image with 3 channels, but got: " +
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input_cv->shape().ToString());
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}
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LiteMat imIn, imOut;
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std::shared_ptr<Tensor> output_tensor;
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TensorShape new_shape = TensorShape({output_height, output_width, 3});
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RETURN_IF_NOT_OK(Tensor::CreateEmpty(new_shape, input_cv->type(), &output_tensor));
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uint8_t *buffer = reinterpret_cast<uint8_t *>(&(*output_tensor->begin<uint8_t>()));
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imOut.Init(output_width, output_height, static_cast<int>(input_cv->shape()[kChannelIndexHWC]),
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reinterpret_cast<void *>(buffer), LDataType::UINT8);
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imIn.Init(static_cast<int>(input_cv->shape()[1]), static_cast<int>(input_cv->shape()[0]),
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static_cast<int>(input_cv->shape()[kChannelIndexHWC]), input_cv->mat().data, LDataType::UINT8);
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if (ResizeCubic(imIn, imOut, output_width, output_height) == false) {
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RETURN_STATUS_UNEXPECTED("Resize: failed to do resize, please check the error msg.");
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}
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*output = output_tensor;
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return Status::OK();
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}
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try {
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TensorShape shape{output_height, output_width};
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if (input_cv->Rank() == kDefaultImageRank) {
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int num_channels = static_cast<int>(input_cv->shape()[kChannelIndexHWC]);
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shape = shape.AppendDim(num_channels);
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}
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std::shared_ptr<CVTensor> output_cv;
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RETURN_IF_NOT_OK(CVTensor::CreateEmpty(shape, input_cv->type(), &output_cv));
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auto cv_mode = GetCVInterpolationMode(mode);
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cv::resize(in_image, output_cv->mat(), cv::Size(output_width, output_height), fx, fy, cv_mode);
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*output = std::static_pointer_cast<Tensor>(output_cv);
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return Status::OK();
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} catch (const cv::Exception &e) {
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RETURN_STATUS_UNEXPECTED("Resize: " + std::string(e.what()));
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}
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}
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#else
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Status Resize(const std::shared_ptr<Tensor> &input, std::shared_ptr<Tensor> *output, int32_t output_height,
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int32_t output_width, double fx, double fy, InterpolationMode mode) {
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if (mode != InterpolationMode::kLinear) {
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@ -467,6 +581,7 @@ Status Resize(const std::shared_ptr<Tensor> &input, std::shared_ptr<Tensor> *out
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}
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return Status::OK();
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}
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#endif
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Status ResizePreserve(const TensorRow &inputs, int32_t height, int32_t width, int32_t img_orientation,
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TensorRow *outputs) {
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@ -24,6 +24,7 @@
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#include "lite_cv/lite_mat.h"
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#include "minddata/dataset/util/log_adapter.h"
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#include "minddata/dataset/util/status.h"
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#include "securec/include/securec.h"
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namespace mindspore {
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namespace dataset {
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@ -303,6 +303,7 @@ if(MSLITE_MINDDATA_IMPLEMENT STREQUAL "full")
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${MINDDATA_DIR}/kernels/image/rescale_op.cc
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${MINDDATA_DIR}/kernels/ir/vision/rescale_ir.cc
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${MINDDATA_DIR}/core/cv_tensor.cc
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${MINDDATA_DIR}/kernels/image/resize_cubic_op.cc
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)
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endif()
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