Make sure resizing of float and half float images works, fixes #21157
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334acc017f
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3fd2fc1e01
1 changed files with 133 additions and 35 deletions
168
core/image.cpp
168
core/image.cpp
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@ -37,6 +37,7 @@
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#include "print_string.h"
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#include "io/resource_loader.h"
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#include "math_funcs.h"
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#include "thirdparty/misc/hq2x.h"
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#include <stdio.h>
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@ -525,7 +526,7 @@ static double _bicubic_interp_kernel(double x) {
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return bc;
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}
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template <int CC>
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template <int CC, class T = uint8_t>
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static void _scale_cubic(const uint8_t *__restrict p_src, uint8_t *__restrict p_dst, uint32_t p_src_width, uint32_t p_src_height, uint32_t p_dst_width, uint32_t p_dst_height) {
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// get source image size
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@ -556,7 +557,7 @@ static void _scale_cubic(const uint8_t *__restrict p_src, uint8_t *__restrict p_
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// initial pixel value
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uint8_t *__restrict dst = p_dst + (y * p_dst_width + x) * CC;
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T *__restrict dst = ((T *)p_dst) + (y * p_dst_width + x) * CC;
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double color[CC];
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for (int i = 0; i < CC; i++) {
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@ -584,23 +585,32 @@ static void _scale_cubic(const uint8_t *__restrict p_src, uint8_t *__restrict p_
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ox2 = xmax;
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// get pixel of original image
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const uint8_t *__restrict p = p_src + (oy2 * p_src_width + ox2) * CC;
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const T *__restrict p = ((T *)p_src) + (oy2 * p_src_width + ox2) * CC;
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for (int i = 0; i < CC; i++) {
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color[i] += p[i] * k2;
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if (sizeof(T) == 2) { //half float
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color[i] = Math::half_to_float(p[i]);
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} else {
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color[i] += p[i] * k2;
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}
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}
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}
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}
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for (int i = 0; i < CC; i++) {
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dst[i] = CLAMP(Math::fast_ftoi(color[i]), 0, 255);
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if (sizeof(T) == 1) { //byte
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dst[i] = CLAMP(Math::fast_ftoi(color[i]), 0, 255);
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} else if (sizeof(T) == 2) { //half float
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dst[i] = Math::make_half_float(color[i]);
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} else {
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dst[i] = color[i];
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}
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}
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}
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}
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}
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template <int CC>
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template <int CC, class T = uint8_t>
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static void _scale_bilinear(const uint8_t *__restrict p_src, uint8_t *__restrict p_dst, uint32_t p_src_width, uint32_t p_src_height, uint32_t p_dst_width, uint32_t p_dst_height) {
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enum {
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@ -640,22 +650,58 @@ static void _scale_bilinear(const uint8_t *__restrict p_src, uint8_t *__restrict
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for (uint32_t l = 0; l < CC; l++) {
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uint32_t p00 = p_src[y_ofs_up + src_xofs_left + l] << FRAC_BITS;
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uint32_t p10 = p_src[y_ofs_up + src_xofs_right + l] << FRAC_BITS;
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uint32_t p01 = p_src[y_ofs_down + src_xofs_left + l] << FRAC_BITS;
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uint32_t p11 = p_src[y_ofs_down + src_xofs_right + l] << FRAC_BITS;
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if (sizeof(T) == 1) { //uint8
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uint32_t p00 = p_src[y_ofs_up + src_xofs_left + l] << FRAC_BITS;
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uint32_t p10 = p_src[y_ofs_up + src_xofs_right + l] << FRAC_BITS;
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uint32_t p01 = p_src[y_ofs_down + src_xofs_left + l] << FRAC_BITS;
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uint32_t p11 = p_src[y_ofs_down + src_xofs_right + l] << FRAC_BITS;
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uint32_t interp_up = p00 + (((p10 - p00) * src_xofs_frac) >> FRAC_BITS);
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uint32_t interp_down = p01 + (((p11 - p01) * src_xofs_frac) >> FRAC_BITS);
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uint32_t interp = interp_up + (((interp_down - interp_up) * src_yofs_frac) >> FRAC_BITS);
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interp >>= FRAC_BITS;
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p_dst[i * p_dst_width * CC + j * CC + l] = interp;
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uint32_t interp_up = p00 + (((p10 - p00) * src_xofs_frac) >> FRAC_BITS);
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uint32_t interp_down = p01 + (((p11 - p01) * src_xofs_frac) >> FRAC_BITS);
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uint32_t interp = interp_up + (((interp_down - interp_up) * src_yofs_frac) >> FRAC_BITS);
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interp >>= FRAC_BITS;
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p_dst[i * p_dst_width * CC + j * CC + l] = interp;
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} else if (sizeof(T) == 2) { //half float
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float xofs_frac = float(src_xofs_frac) / (1 << FRAC_BITS);
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float yofs_frac = float(src_yofs_frac) / (1 << FRAC_BITS);
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const T *src = ((const T *)p_src);
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T *dst = ((T *)p_dst);
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float p00 = Math::half_to_float(src[y_ofs_up + src_xofs_left + l]);
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float p10 = Math::half_to_float(src[y_ofs_up + src_xofs_right + l]);
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float p01 = Math::half_to_float(src[y_ofs_down + src_xofs_left + l]);
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float p11 = Math::half_to_float(src[y_ofs_down + src_xofs_right + l]);
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float interp_up = p00 + (p10 - p00) * xofs_frac;
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float interp_down = p01 + (p11 - p01) * xofs_frac;
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float interp = interp_up + ((interp_down - interp_up) * yofs_frac);
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dst[i * p_dst_width * CC + j * CC + l] = Math::make_half_float(interp);
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} else if (sizeof(T) == 4) { //float
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float xofs_frac = float(src_xofs_frac) / (1 << FRAC_BITS);
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float yofs_frac = float(src_yofs_frac) / (1 << FRAC_BITS);
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const T *src = ((const T *)p_src);
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T *dst = ((T *)p_dst);
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float p00 = src[y_ofs_up + src_xofs_left + l];
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float p10 = src[y_ofs_up + src_xofs_right + l];
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float p01 = src[y_ofs_down + src_xofs_left + l];
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float p11 = src[y_ofs_down + src_xofs_right + l];
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float interp_up = p00 + (p10 - p00) * xofs_frac;
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float interp_down = p01 + (p11 - p01) * xofs_frac;
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float interp = interp_up + ((interp_down - interp_up) * yofs_frac);
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dst[i * p_dst_width * CC + j * CC + l] = interp;
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}
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}
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}
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}
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}
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template <int CC>
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template <int CC, class T = uint8_t>
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static void _scale_nearest(const uint8_t *__restrict p_src, uint8_t *__restrict p_dst, uint32_t p_src_width, uint32_t p_src_height, uint32_t p_dst_width, uint32_t p_dst_height) {
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for (uint32_t i = 0; i < p_dst_height; i++) {
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@ -670,8 +716,11 @@ static void _scale_nearest(const uint8_t *__restrict p_src, uint8_t *__restrict
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for (uint32_t l = 0; l < CC; l++) {
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uint32_t p = p_src[y_ofs + src_xofs + l];
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p_dst[i * p_dst_width * CC + j * CC + l] = p;
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const T *src = ((const T *)p_src);
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T *dst = ((T *)p_dst);
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T p = src[y_ofs + src_xofs + l];
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dst[i * p_dst_width * CC + j * CC + l] = p;
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}
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}
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}
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@ -766,12 +815,30 @@ void Image::resize(int p_width, int p_height, Interpolation p_interpolation) {
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case INTERPOLATE_NEAREST: {
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switch (get_format_pixel_size(format)) {
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case 1: _scale_nearest<1>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 2: _scale_nearest<2>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 3: _scale_nearest<3>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 4: _scale_nearest<4>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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if (format >= FORMAT_L8 && format <= FORMAT_RGBA8) {
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switch (get_format_pixel_size(format)) {
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case 1: _scale_nearest<1>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 2: _scale_nearest<2>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 3: _scale_nearest<3>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 4: _scale_nearest<4>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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}
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} else if (format >= FORMAT_RF && format <= FORMAT_RGBAF) {
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switch (get_format_pixel_size(format)) {
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case 4: _scale_nearest<1, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 8: _scale_nearest<2, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 12: _scale_nearest<3, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 16: _scale_nearest<4, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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}
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} else if (format >= FORMAT_RH && format <= FORMAT_RGBAH) {
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switch (get_format_pixel_size(format)) {
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case 2: _scale_nearest<1, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 4: _scale_nearest<2, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 6: _scale_nearest<3, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 8: _scale_nearest<4, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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}
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}
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} break;
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case INTERPOLATE_BILINEAR:
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case INTERPOLATE_TRILINEAR: {
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@ -812,11 +879,27 @@ void Image::resize(int p_width, int p_height, Interpolation p_interpolation) {
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}
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}
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switch (get_format_pixel_size(format)) {
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case 1: _scale_bilinear<1>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 2: _scale_bilinear<2>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 3: _scale_bilinear<3>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 4: _scale_bilinear<4>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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if (format >= FORMAT_L8 && format <= FORMAT_RGBA8) {
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switch (get_format_pixel_size(format)) {
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case 1: _scale_bilinear<1>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 2: _scale_bilinear<2>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 3: _scale_bilinear<3>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 4: _scale_bilinear<4>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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}
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} else if (format >= FORMAT_RF && format <= FORMAT_RGBAF) {
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switch (get_format_pixel_size(format)) {
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case 4: _scale_bilinear<1, float>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 8: _scale_bilinear<2, float>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 12: _scale_bilinear<3, float>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 16: _scale_bilinear<4, float>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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}
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} else if (format >= FORMAT_RH && format <= FORMAT_RGBAH) {
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switch (get_format_pixel_size(format)) {
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case 2: _scale_bilinear<1, uint16_t>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 4: _scale_bilinear<2, uint16_t>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 6: _scale_bilinear<3, uint16_t>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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case 8: _scale_bilinear<4, uint16_t>(src_ptr, w_ptr, src_width, src_height, p_width, p_height); break;
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}
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}
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}
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@ -829,13 +912,28 @@ void Image::resize(int p_width, int p_height, Interpolation p_interpolation) {
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} break;
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case INTERPOLATE_CUBIC: {
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switch (get_format_pixel_size(format)) {
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case 1: _scale_cubic<1>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 2: _scale_cubic<2>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 3: _scale_cubic<3>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 4: _scale_cubic<4>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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if (format >= FORMAT_L8 && format <= FORMAT_RGBA8) {
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switch (get_format_pixel_size(format)) {
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case 1: _scale_cubic<1>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 2: _scale_cubic<2>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 3: _scale_cubic<3>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 4: _scale_cubic<4>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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}
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} else if (format >= FORMAT_RF && format <= FORMAT_RGBAF) {
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switch (get_format_pixel_size(format)) {
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case 4: _scale_cubic<1, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 8: _scale_cubic<2, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 12: _scale_cubic<3, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 16: _scale_cubic<4, float>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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}
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} else if (format >= FORMAT_RH && format <= FORMAT_RGBAH) {
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switch (get_format_pixel_size(format)) {
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case 2: _scale_cubic<1, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 4: _scale_cubic<2, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 6: _scale_cubic<3, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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case 8: _scale_cubic<4, uint16_t>(r_ptr, w_ptr, width, height, p_width, p_height); break;
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}
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}
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} break;
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}
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