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/*
* Copyright (c) 2022 EdgeImpulse Inc.
*
* 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.
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef __EIDSP_IMAGE_PROCESSING__H__
#define __EIDSP_IMAGE_PROCESSING__H__
#include "edge-impulse-sdk/dsp/ei_utils.h"
#include "edge-impulse-sdk/porting/ei_classifier_porting.h"
#include "edge-impulse-sdk/dsp/returntypes.hpp"
namespace ei { namespace image { namespace processing {
enum YUV_OPTIONS
{
BIG_ENDIAN_ORDER = 1, //RGB reading from low to high memory. Otherwise, uses native encoding
PAD_4B = 2, // pad 0x00 on the high B. ie 0x00RRGGBB
};
/**
* @brief Convert YUV to RGB
*
* @param rgb_out Output buffer (can be the same as yuv_in if big enough)
* @param yuv_in Input buffer
* @param in_size_B Size of input image in B
* @param opts Note, only BIG_ENDIAN_ORDER supported presently
*/
int yuv422_to_rgb888(
unsigned char *rgb_out,
unsigned const char *yuv_in,
unsigned int in_size_B,
YUV_OPTIONS opts);
/**
* @brief Crops an image. Can be in-place. 4B alignment for best performance
* (Alignment is tested, will fall back to B by B movement)
*
* @param srcWidth X dimension in pixels
* @param srcHeight Y dimension in pixels
* @param srcImage Input buffer
* @param startX X coord of first pixel to keep
* @param startY Y coord of the first pixel to keep
* @param dstWidth Desired X dimension in pixels (should be smaller than srcWidth)
* @param dstHeight Desired Y dimension in pixels (should be smaller than srcHeight)
* @param dstImage Output buffer, can be the same as srcImage
* @param iBpp 8 or 16 for bits per pixel
*/
int cropImage(
const uint8_t *srcImage,
int srcWidth,
int srcHeight,
int startX,
int startY,
uint8_t *dstImage,
int dstWidth,
int dstHeight,
int iBpp);
/**
* @copydoc cropImage(
int srcWidth,
int srcHeight,
const uint8_t *srcImage,
int startX,
int startY,
int dstWidth,
int dstHeight,
uint8_t *dstImage,
int iBpp)
*/
void crop_image_rgb888_packed(
const uint8_t *srcImage,
int srcWidth,
int srcHeight,
int startX,
int startY,
uint8_t *dstImage,
int dstWidth,
int dstHeight);
constexpr int RGB888_B_SIZE = 3;
constexpr int MONO_B_SIZE = 1;
/**
* @brief Resize an image using interpolation
* Can be used to resize the image smaller or larger
* If resizing much smaller than 1/3 size, then a more rubust algorithm should average all of the pixels
* This algorithm uses bilinear interpolation - averages a 2x2 region to generate each new pixel
*
* @param srcWidth Input image width in pixels
* @param srcHeight Input image height in pixels
* @param srcImage Input buffer
* @param dstWidth Output image width in pixels
* @param dstHeight Output image height in pixels
* @param dstImage Output buffer, can be same as input buffer
* @param pixel_size_B Size of pixels in Bytes. 3 for RGB, 1 for mono
*/
void resize_image(
const uint8_t *srcImage,
int srcWidth,
int srcHeight,
uint8_t *dstImage,
int dstWidth,
int dstHeight,
int pixel_size_B);
/**
* @brief Calculate new dims that match the aspect ratio of destination
* This prevents a squashed look
* The smallest axis is held constant
*
* @param srcWidth Input width in pixels
* @param srcHeight Input height in pixels
* @param dstWidth Ultimate width in pixels
* @param dstHeight Ultimate height in pixels
* @param[out] cropWidth Width in pixels that matches the aspect ratio
* @param[out] cropHeight Height in pixels that matches the aspect ratio
*/
void calculate_crop_dims(
int srcWidth,
int srcHeight,
int dstWidth,
int dstHeight,
int &cropWidth,
int &cropHeight);
/**
* @brief Crops, then interpolates to a desired new image size
* Can be done in place (set srcImage == dstImage)
*
* @param srcImage Input image buffer
* @param srcWidth Input width in pixels
* @param srcHeight Input height in pixels
* @param dstImage Output image buffer, can be same as input buffer
* @param dstWidth Desired new width in pixels
* @param dstHeight Desired new height in pixels
*/
int crop_and_interpolate_rgb888(
const uint8_t *srcImage,
int srcWidth,
int srcHeight,
uint8_t *dstImage,
int dstWidth,
int dstHeight);
/**
* @brief Crops, then interpolates to a desired new image size
* Can be done in place (set srcImage == dstImage)
* A more beneric version of the previously used
* crop_and_interpolate_rgb888
*
* @param srcImage Input image buffer
* @param srcWidth Input width in pixels
* @param srcHeight Input height in pixels
* @param dstImage Output image buffer, can be same as input buffer
* @param dstWidth Desired new width in pixels
* @param dstHeight Desired new height in pixels
* @param pixel_size_B Size of pixels in Bytes. 3 for RGB, 1 for mono
*/
int crop_and_interpolate_image(
const uint8_t *srcImage,
int srcWidth,
int srcHeight,
uint8_t *dstImage,
int dstWidth,
int dstHeight,
int pixel_size_B);
}}} //namespaces
#endif //!__EI_IMAGE_PROCESSING__H__ |