ref: 335cf67d8b720c5dfe5ac60937acbe335d321039
dir: /vp9/encoder/vp9_resize.c/
/* * Copyright (c) 2014 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include <assert.h> #include <limits.h> #include <math.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "./vpx_config.h" #if CONFIG_VP9_HIGHBITDEPTH #include "vpx_dsp/vpx_dsp_common.h" #endif // CONFIG_VP9_HIGHBITDEPTH #include "vpx_ports/mem.h" #include "vp9/common/vp9_common.h" #include "vp9/encoder/vp9_resize.h" #define FILTER_BITS 7 #define INTERP_TAPS 8 #define SUBPEL_BITS 5 #define SUBPEL_MASK ((1 << SUBPEL_BITS) - 1) #define INTERP_PRECISION_BITS 32 typedef int16_t interp_kernel[INTERP_TAPS]; // Filters for interpolation (0.5-band) - note this also filters integer pels. static const interp_kernel filteredinterp_filters500[(1 << SUBPEL_BITS)] = { {-3, 0, 35, 64, 35, 0, -3, 0}, {-3, -1, 34, 64, 36, 1, -3, 0}, {-3, -1, 32, 64, 38, 1, -3, 0}, {-2, -2, 31, 63, 39, 2, -3, 0}, {-2, -2, 29, 63, 41, 2, -3, 0}, {-2, -2, 28, 63, 42, 3, -4, 0}, {-2, -3, 27, 63, 43, 4, -4, 0}, {-2, -3, 25, 62, 45, 5, -4, 0}, {-2, -3, 24, 62, 46, 5, -4, 0}, {-2, -3, 23, 61, 47, 6, -4, 0}, {-2, -3, 21, 60, 49, 7, -4, 0}, {-1, -4, 20, 60, 50, 8, -4, -1}, {-1, -4, 19, 59, 51, 9, -4, -1}, {-1, -4, 17, 58, 52, 10, -4, 0}, {-1, -4, 16, 57, 53, 12, -4, -1}, {-1, -4, 15, 56, 54, 13, -4, -1}, {-1, -4, 14, 55, 55, 14, -4, -1}, {-1, -4, 13, 54, 56, 15, -4, -1}, {-1, -4, 12, 53, 57, 16, -4, -1}, {0, -4, 10, 52, 58, 17, -4, -1}, {-1, -4, 9, 51, 59, 19, -4, -1}, {-1, -4, 8, 50, 60, 20, -4, -1}, {0, -4, 7, 49, 60, 21, -3, -2}, {0, -4, 6, 47, 61, 23, -3, -2}, {0, -4, 5, 46, 62, 24, -3, -2}, {0, -4, 5, 45, 62, 25, -3, -2}, {0, -4, 4, 43, 63, 27, -3, -2}, {0, -4, 3, 42, 63, 28, -2, -2}, {0, -3, 2, 41, 63, 29, -2, -2}, {0, -3, 2, 39, 63, 31, -2, -2}, {0, -3, 1, 38, 64, 32, -1, -3}, {0, -3, 1, 36, 64, 34, -1, -3} }; // Filters for interpolation (0.625-band) - note this also filters integer pels. static const interp_kernel filteredinterp_filters625[(1 << SUBPEL_BITS)] = { {-1, -8, 33, 80, 33, -8, -1, 0}, {-1, -8, 30, 80, 35, -8, -1, 1}, {-1, -8, 28, 80, 37, -7, -2, 1}, {0, -8, 26, 79, 39, -7, -2, 1}, {0, -8, 24, 79, 41, -7, -2, 1}, {0, -8, 22, 78, 43, -6, -2, 1}, {0, -8, 20, 78, 45, -5, -3, 1}, {0, -8, 18, 77, 48, -5, -3, 1}, {0, -8, 16, 76, 50, -4, -3, 1}, {0, -8, 15, 75, 52, -3, -4, 1}, {0, -7, 13, 74, 54, -3, -4, 1}, {0, -7, 11, 73, 56, -2, -4, 1}, {0, -7, 10, 71, 58, -1, -4, 1}, {1, -7, 8, 70, 60, 0, -5, 1}, {1, -6, 6, 68, 62, 1, -5, 1}, {1, -6, 5, 67, 63, 2, -5, 1}, {1, -6, 4, 65, 65, 4, -6, 1}, {1, -5, 2, 63, 67, 5, -6, 1}, {1, -5, 1, 62, 68, 6, -6, 1}, {1, -5, 0, 60, 70, 8, -7, 1}, {1, -4, -1, 58, 71, 10, -7, 0}, {1, -4, -2, 56, 73, 11, -7, 0}, {1, -4, -3, 54, 74, 13, -7, 0}, {1, -4, -3, 52, 75, 15, -8, 0}, {1, -3, -4, 50, 76, 16, -8, 0}, {1, -3, -5, 48, 77, 18, -8, 0}, {1, -3, -5, 45, 78, 20, -8, 0}, {1, -2, -6, 43, 78, 22, -8, 0}, {1, -2, -7, 41, 79, 24, -8, 0}, {1, -2, -7, 39, 79, 26, -8, 0}, {1, -2, -7, 37, 80, 28, -8, -1}, {1, -1, -8, 35, 80, 30, -8, -1}, }; // Filters for interpolation (0.75-band) - note this also filters integer pels. static const interp_kernel filteredinterp_filters750[(1 << SUBPEL_BITS)] = { {2, -11, 25, 96, 25, -11, 2, 0}, {2, -11, 22, 96, 28, -11, 2, 0}, {2, -10, 19, 95, 31, -11, 2, 0}, {2, -10, 17, 95, 34, -12, 2, 0}, {2, -9, 14, 94, 37, -12, 2, 0}, {2, -8, 12, 93, 40, -12, 1, 0}, {2, -8, 9, 92, 43, -12, 1, 1}, {2, -7, 7, 91, 46, -12, 1, 0}, {2, -7, 5, 90, 49, -12, 1, 0}, {2, -6, 3, 88, 52, -12, 0, 1}, {2, -5, 1, 86, 55, -12, 0, 1}, {2, -5, -1, 84, 58, -11, 0, 1}, {2, -4, -2, 82, 61, -11, -1, 1}, {2, -4, -4, 80, 64, -10, -1, 1}, {1, -3, -5, 77, 67, -9, -1, 1}, {1, -3, -6, 75, 70, -8, -2, 1}, {1, -2, -7, 72, 72, -7, -2, 1}, {1, -2, -8, 70, 75, -6, -3, 1}, {1, -1, -9, 67, 77, -5, -3, 1}, {1, -1, -10, 64, 80, -4, -4, 2}, {1, -1, -11, 61, 82, -2, -4, 2}, {1, 0, -11, 58, 84, -1, -5, 2}, {1, 0, -12, 55, 86, 1, -5, 2}, {1, 0, -12, 52, 88, 3, -6, 2}, {0, 1, -12, 49, 90, 5, -7, 2}, {0, 1, -12, 46, 91, 7, -7, 2}, {1, 1, -12, 43, 92, 9, -8, 2}, {0, 1, -12, 40, 93, 12, -8, 2}, {0, 2, -12, 37, 94, 14, -9, 2}, {0, 2, -12, 34, 95, 17, -10, 2}, {0, 2, -11, 31, 95, 19, -10, 2}, {0, 2, -11, 28, 96, 22, -11, 2} }; // Filters for interpolation (0.875-band) - note this also filters integer pels. static const interp_kernel filteredinterp_filters875[(1 << SUBPEL_BITS)] = { {3, -8, 13, 112, 13, -8, 3, 0}, {3, -7, 10, 112, 17, -9, 3, -1}, {2, -6, 7, 111, 21, -9, 3, -1}, {2, -5, 4, 111, 24, -10, 3, -1}, {2, -4, 1, 110, 28, -11, 3, -1}, {1, -3, -1, 108, 32, -12, 4, -1}, {1, -2, -3, 106, 36, -13, 4, -1}, {1, -1, -6, 105, 40, -14, 4, -1}, {1, -1, -7, 102, 44, -14, 4, -1}, {1, 0, -9, 100, 48, -15, 4, -1}, {1, 1, -11, 97, 53, -16, 4, -1}, {0, 1, -12, 95, 57, -16, 4, -1}, {0, 2, -13, 91, 61, -16, 4, -1}, {0, 2, -14, 88, 65, -16, 4, -1}, {0, 3, -15, 84, 69, -17, 4, 0}, {0, 3, -16, 81, 73, -16, 3, 0}, {0, 3, -16, 77, 77, -16, 3, 0}, {0, 3, -16, 73, 81, -16, 3, 0}, {0, 4, -17, 69, 84, -15, 3, 0}, {-1, 4, -16, 65, 88, -14, 2, 0}, {-1, 4, -16, 61, 91, -13, 2, 0}, {-1, 4, -16, 57, 95, -12, 1, 0}, {-1, 4, -16, 53, 97, -11, 1, 1}, {-1, 4, -15, 48, 100, -9, 0, 1}, {-1, 4, -14, 44, 102, -7, -1, 1}, {-1, 4, -14, 40, 105, -6, -1, 1}, {-1, 4, -13, 36, 106, -3, -2, 1}, {-1, 4, -12, 32, 108, -1, -3, 1}, {-1, 3, -11, 28, 110, 1, -4, 2}, {-1, 3, -10, 24, 111, 4, -5, 2}, {-1, 3, -9, 21, 111, 7, -6, 2}, {-1, 3, -9, 17, 112, 10, -7, 3} }; // Filters for interpolation (full-band) - no filtering for integer pixels static const interp_kernel filteredinterp_filters1000[(1 << SUBPEL_BITS)] = { {0, 0, 0, 128, 0, 0, 0, 0}, {0, 1, -3, 128, 3, -1, 0, 0}, {-1, 2, -6, 127, 7, -2, 1, 0}, {-1, 3, -9, 126, 12, -4, 1, 0}, {-1, 4, -12, 125, 16, -5, 1, 0}, {-1, 4, -14, 123, 20, -6, 2, 0}, {-1, 5, -15, 120, 25, -8, 2, 0}, {-1, 5, -17, 118, 30, -9, 3, -1}, {-1, 6, -18, 114, 35, -10, 3, -1}, {-1, 6, -19, 111, 41, -12, 3, -1}, {-1, 6, -20, 107, 46, -13, 4, -1}, {-1, 6, -21, 103, 52, -14, 4, -1}, {-1, 6, -21, 99, 57, -16, 5, -1}, {-1, 6, -21, 94, 63, -17, 5, -1}, {-1, 6, -20, 89, 68, -18, 5, -1}, {-1, 6, -20, 84, 73, -19, 6, -1}, {-1, 6, -20, 79, 79, -20, 6, -1}, {-1, 6, -19, 73, 84, -20, 6, -1}, {-1, 5, -18, 68, 89, -20, 6, -1}, {-1, 5, -17, 63, 94, -21, 6, -1}, {-1, 5, -16, 57, 99, -21, 6, -1}, {-1, 4, -14, 52, 103, -21, 6, -1}, {-1, 4, -13, 46, 107, -20, 6, -1}, {-1, 3, -12, 41, 111, -19, 6, -1}, {-1, 3, -10, 35, 114, -18, 6, -1}, {-1, 3, -9, 30, 118, -17, 5, -1}, {0, 2, -8, 25, 120, -15, 5, -1}, {0, 2, -6, 20, 123, -14, 4, -1}, {0, 1, -5, 16, 125, -12, 4, -1}, {0, 1, -4, 12, 126, -9, 3, -1}, {0, 1, -2, 7, 127, -6, 2, -1}, {0, 0, -1, 3, 128, -3, 1, 0} }; // Filters for factor of 2 downsampling. static const int16_t vp9_down2_symeven_half_filter[] = {56, 12, -3, -1}; static const int16_t vp9_down2_symodd_half_filter[] = {64, 35, 0, -3}; static const interp_kernel *choose_interp_filter(int inlength, int outlength) { int outlength16 = outlength * 16; if (outlength16 >= inlength * 16) return filteredinterp_filters1000; else if (outlength16 >= inlength * 13) return filteredinterp_filters875; else if (outlength16 >= inlength * 11) return filteredinterp_filters750; else if (outlength16 >= inlength * 9) return filteredinterp_filters625; else return filteredinterp_filters500; } static void interpolate(const uint8_t *const input, int inlength, uint8_t *output, int outlength) { const int64_t delta = (((uint64_t)inlength << 32) + outlength / 2) / outlength; const int64_t offset = inlength > outlength ? (((int64_t)(inlength - outlength) << 31) + outlength / 2) / outlength : -(((int64_t)(outlength - inlength) << 31) + outlength / 2) / outlength; uint8_t *optr = output; int x, x1, x2, sum, k, int_pel, sub_pel; int64_t y; const interp_kernel *interp_filters = choose_interp_filter(inlength, outlength); x = 0; y = offset; while ((y >> INTERP_PRECISION_BITS) < (INTERP_TAPS / 2 - 1)) { x++; y += delta; } x1 = x; x = outlength - 1; y = delta * x + offset; while ((y >> INTERP_PRECISION_BITS) + (int64_t)(INTERP_TAPS / 2) >= inlength) { x--; y -= delta; } x2 = x; if (x1 > x2) { for (x = 0, y = offset; x < outlength; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) { const int pk = int_pel - INTERP_TAPS / 2 + 1 + k; sum += filter[k] * input[(pk < 0 ? 0 : (pk >= inlength ? inlength - 1 : pk))]; } *optr++ = clip_pixel(ROUND_POWER_OF_TWO(sum, FILTER_BITS)); } } else { // Initial part. for (x = 0, y = offset; x < x1; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) sum += filter[k] * input[(int_pel - INTERP_TAPS / 2 + 1 + k < 0 ? 0 : int_pel - INTERP_TAPS / 2 + 1 + k)]; *optr++ = clip_pixel(ROUND_POWER_OF_TWO(sum, FILTER_BITS)); } // Middle part. for (; x <= x2; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) sum += filter[k] * input[int_pel - INTERP_TAPS / 2 + 1 + k]; *optr++ = clip_pixel(ROUND_POWER_OF_TWO(sum, FILTER_BITS)); } // End part. for (; x < outlength; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) sum += filter[k] * input[(int_pel - INTERP_TAPS / 2 + 1 + k >= inlength ? inlength - 1 : int_pel - INTERP_TAPS / 2 + 1 + k)]; *optr++ = clip_pixel(ROUND_POWER_OF_TWO(sum, FILTER_BITS)); } } } static void down2_symeven(const uint8_t *const input, int length, uint8_t *output) { // Actual filter len = 2 * filter_len_half. const int16_t *filter = vp9_down2_symeven_half_filter; const int filter_len_half = sizeof(vp9_down2_symeven_half_filter) / 2; int i, j; uint8_t *optr = output; int l1 = filter_len_half; int l2 = (length - filter_len_half); l1 += (l1 & 1); l2 += (l2 & 1); if (l1 > l2) { // Short input length. for (i = 0; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[(i + 1 + j >= length ? length - 1 : i + 1 + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } } else { // Initial part. for (i = 0; i < l1; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[i + 1 + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } // Middle part. for (; i < l2; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[i - j] + input[i + 1 + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } // End part. for (; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[i - j] + input[(i + 1 + j >= length ? length - 1 : i + 1 + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } } } static void down2_symodd(const uint8_t *const input, int length, uint8_t *output) { // Actual filter len = 2 * filter_len_half - 1. const int16_t *filter = vp9_down2_symodd_half_filter; const int filter_len_half = sizeof(vp9_down2_symodd_half_filter) / 2; int i, j; uint8_t *optr = output; int l1 = filter_len_half - 1; int l2 = (length - filter_len_half + 1); l1 += (l1 & 1); l2 += (l2 & 1); if (l1 > l2) { // Short input length. for (i = 0; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[(i + j >= length ? length - 1 : i + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } } else { // Initial part. for (i = 0; i < l1; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[i + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } // Middle part. for (; i < l2; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[i - j] + input[i + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } // End part. for (; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[i - j] + input[(i + j >= length ? length - 1 : i + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel(sum); } } } static int get_down2_length(int length, int steps) { int s; for (s = 0; s < steps; ++s) length = (length + 1) >> 1; return length; } static int get_down2_steps(int in_length, int out_length) { int steps = 0; int proj_in_length; while ((proj_in_length = get_down2_length(in_length, 1)) >= out_length) { ++steps; in_length = proj_in_length; } return steps; } static void resize_multistep(const uint8_t *const input, int length, uint8_t *output, int olength, uint8_t *otmp) { int steps; if (length == olength) { memcpy(output, input, sizeof(output[0]) * length); return; } steps = get_down2_steps(length, olength); if (steps > 0) { int s; uint8_t *out = NULL; uint8_t *otmp2; int filteredlength = length; assert(otmp != NULL); otmp2 = otmp + get_down2_length(length, 1); for (s = 0; s < steps; ++s) { const int proj_filteredlength = get_down2_length(filteredlength, 1); const uint8_t *const in = (s == 0 ? input : out); if (s == steps - 1 && proj_filteredlength == olength) out = output; else out = (s & 1 ? otmp2 : otmp); if (filteredlength & 1) down2_symodd(in, filteredlength, out); else down2_symeven(in, filteredlength, out); filteredlength = proj_filteredlength; } if (filteredlength != olength) { interpolate(out, filteredlength, output, olength); } } else { interpolate(input, length, output, olength); } } static void fill_col_to_arr(uint8_t *img, int stride, int len, uint8_t *arr) { int i; uint8_t *iptr = img; uint8_t *aptr = arr; for (i = 0; i < len; ++i, iptr += stride) { *aptr++ = *iptr; } } static void fill_arr_to_col(uint8_t *img, int stride, int len, uint8_t *arr) { int i; uint8_t *iptr = img; uint8_t *aptr = arr; for (i = 0; i < len; ++i, iptr += stride) { *iptr = *aptr++; } } void vp9_resize_plane(const uint8_t *const input, int height, int width, int in_stride, uint8_t *output, int height2, int width2, int out_stride) { int i; uint8_t *intbuf = (uint8_t *)malloc(sizeof(uint8_t) * width2 * height); uint8_t *tmpbuf = (uint8_t *)malloc(sizeof(uint8_t) * (width < height ? height : width)); uint8_t *arrbuf = (uint8_t *)malloc(sizeof(uint8_t) * height); uint8_t *arrbuf2 = (uint8_t *)malloc(sizeof(uint8_t) * height2); if (intbuf == NULL || tmpbuf == NULL || arrbuf == NULL || arrbuf2 == NULL) goto Error; assert(width > 0); assert(height > 0); assert(width2 > 0); assert(height2 > 0); for (i = 0; i < height; ++i) resize_multistep(input + in_stride * i, width, intbuf + width2 * i, width2, tmpbuf); for (i = 0; i < width2; ++i) { fill_col_to_arr(intbuf + i, width2, height, arrbuf); resize_multistep(arrbuf, height, arrbuf2, height2, tmpbuf); fill_arr_to_col(output + i, out_stride, height2, arrbuf2); } Error: free(intbuf); free(tmpbuf); free(arrbuf); free(arrbuf2); } #if CONFIG_VP9_HIGHBITDEPTH static void highbd_interpolate(const uint16_t *const input, int inlength, uint16_t *output, int outlength, int bd) { const int64_t delta = (((uint64_t)inlength << 32) + outlength / 2) / outlength; const int64_t offset = inlength > outlength ? (((int64_t)(inlength - outlength) << 31) + outlength / 2) / outlength : -(((int64_t)(outlength - inlength) << 31) + outlength / 2) / outlength; uint16_t *optr = output; int x, x1, x2, sum, k, int_pel, sub_pel; int64_t y; const interp_kernel *interp_filters = choose_interp_filter(inlength, outlength); x = 0; y = offset; while ((y >> INTERP_PRECISION_BITS) < (INTERP_TAPS / 2 - 1)) { x++; y += delta; } x1 = x; x = outlength - 1; y = delta * x + offset; while ((y >> INTERP_PRECISION_BITS) + (int64_t)(INTERP_TAPS / 2) >= inlength) { x--; y -= delta; } x2 = x; if (x1 > x2) { for (x = 0, y = offset; x < outlength; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) { const int pk = int_pel - INTERP_TAPS / 2 + 1 + k; sum += filter[k] * input[(pk < 0 ? 0 : (pk >= inlength ? inlength - 1 : pk))]; } *optr++ = clip_pixel_highbd(ROUND_POWER_OF_TWO(sum, FILTER_BITS), bd); } } else { // Initial part. for (x = 0, y = offset; x < x1; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) sum += filter[k] * input[(int_pel - INTERP_TAPS / 2 + 1 + k < 0 ? 0 : int_pel - INTERP_TAPS / 2 + 1 + k)]; *optr++ = clip_pixel_highbd(ROUND_POWER_OF_TWO(sum, FILTER_BITS), bd); } // Middle part. for (; x <= x2; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) sum += filter[k] * input[int_pel - INTERP_TAPS / 2 + 1 + k]; *optr++ = clip_pixel_highbd(ROUND_POWER_OF_TWO(sum, FILTER_BITS), bd); } // End part. for (; x < outlength; ++x, y += delta) { const int16_t *filter; int_pel = y >> INTERP_PRECISION_BITS; sub_pel = (y >> (INTERP_PRECISION_BITS - SUBPEL_BITS)) & SUBPEL_MASK; filter = interp_filters[sub_pel]; sum = 0; for (k = 0; k < INTERP_TAPS; ++k) sum += filter[k] * input[(int_pel - INTERP_TAPS / 2 + 1 + k >= inlength ? inlength - 1 : int_pel - INTERP_TAPS / 2 + 1 + k)]; *optr++ = clip_pixel_highbd(ROUND_POWER_OF_TWO(sum, FILTER_BITS), bd); } } } static void highbd_down2_symeven(const uint16_t *const input, int length, uint16_t *output, int bd) { // Actual filter len = 2 * filter_len_half. static const int16_t *filter = vp9_down2_symeven_half_filter; const int filter_len_half = sizeof(vp9_down2_symeven_half_filter) / 2; int i, j; uint16_t *optr = output; int l1 = filter_len_half; int l2 = (length - filter_len_half); l1 += (l1 & 1); l2 += (l2 & 1); if (l1 > l2) { // Short input length. for (i = 0; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[(i + 1 + j >= length ? length - 1 : i + 1 + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } } else { // Initial part. for (i = 0; i < l1; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[i + 1 + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } // Middle part. for (; i < l2; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[i - j] + input[i + 1 + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } // End part. for (; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)); for (j = 0; j < filter_len_half; ++j) { sum += (input[i - j] + input[(i + 1 + j >= length ? length - 1 : i + 1 + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } } } static void highbd_down2_symodd(const uint16_t *const input, int length, uint16_t *output, int bd) { // Actual filter len = 2 * filter_len_half - 1. static const int16_t *filter = vp9_down2_symodd_half_filter; const int filter_len_half = sizeof(vp9_down2_symodd_half_filter) / 2; int i, j; uint16_t *optr = output; int l1 = filter_len_half - 1; int l2 = (length - filter_len_half + 1); l1 += (l1 & 1); l2 += (l2 & 1); if (l1 > l2) { // Short input length. for (i = 0; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[(i + j >= length ? length - 1 : i + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } } else { // Initial part. for (i = 0; i < l1; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[(i - j < 0 ? 0 : i - j)] + input[i + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } // Middle part. for (; i < l2; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[i - j] + input[i + j]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } // End part. for (; i < length; i += 2) { int sum = (1 << (FILTER_BITS - 1)) + input[i] * filter[0]; for (j = 1; j < filter_len_half; ++j) { sum += (input[i - j] + input[(i + j >= length ? length - 1 : i + j)]) * filter[j]; } sum >>= FILTER_BITS; *optr++ = clip_pixel_highbd(sum, bd); } } } static void highbd_resize_multistep(const uint16_t *const input, int length, uint16_t *output, int olength, uint16_t *otmp, int bd) { int steps; if (length == olength) { memcpy(output, input, sizeof(output[0]) * length); return; } steps = get_down2_steps(length, olength); if (steps > 0) { int s; uint16_t *out = NULL; uint16_t *otmp2; int filteredlength = length; assert(otmp != NULL); otmp2 = otmp + get_down2_length(length, 1); for (s = 0; s < steps; ++s) { const int proj_filteredlength = get_down2_length(filteredlength, 1); const uint16_t *const in = (s == 0 ? input : out); if (s == steps - 1 && proj_filteredlength == olength) out = output; else out = (s & 1 ? otmp2 : otmp); if (filteredlength & 1) highbd_down2_symodd(in, filteredlength, out, bd); else highbd_down2_symeven(in, filteredlength, out, bd); filteredlength = proj_filteredlength; } if (filteredlength != olength) { highbd_interpolate(out, filteredlength, output, olength, bd); } } else { highbd_interpolate(input, length, output, olength, bd); } } static void highbd_fill_col_to_arr(uint16_t *img, int stride, int len, uint16_t *arr) { int i; uint16_t *iptr = img; uint16_t *aptr = arr; for (i = 0; i < len; ++i, iptr += stride) { *aptr++ = *iptr; } } static void highbd_fill_arr_to_col(uint16_t *img, int stride, int len, uint16_t *arr) { int i; uint16_t *iptr = img; uint16_t *aptr = arr; for (i = 0; i < len; ++i, iptr += stride) { *iptr = *aptr++; } } void vp9_highbd_resize_plane(const uint8_t *const input, int height, int width, int in_stride, uint8_t *output, int height2, int width2, int out_stride, int bd) { int i; uint16_t *intbuf = (uint16_t *)malloc(sizeof(uint16_t) * width2 * height); uint16_t *tmpbuf = (uint16_t *)malloc(sizeof(uint16_t) * (width < height ? height : width)); uint16_t *arrbuf = (uint16_t *)malloc(sizeof(uint16_t) * height); uint16_t *arrbuf2 = (uint16_t *)malloc(sizeof(uint16_t) * height2); if (intbuf == NULL || tmpbuf == NULL || arrbuf == NULL || arrbuf2 == NULL) goto Error; for (i = 0; i < height; ++i) { highbd_resize_multistep(CONVERT_TO_SHORTPTR(input + in_stride * i), width, intbuf + width2 * i, width2, tmpbuf, bd); } for (i = 0; i < width2; ++i) { highbd_fill_col_to_arr(intbuf + i, width2, height, arrbuf); highbd_resize_multistep(arrbuf, height, arrbuf2, height2, tmpbuf, bd); highbd_fill_arr_to_col(CONVERT_TO_SHORTPTR(output + i), out_stride, height2, arrbuf2); } Error: free(intbuf); free(tmpbuf); free(arrbuf); free(arrbuf2); } #endif // CONFIG_VP9_HIGHBITDEPTH void vp9_resize_frame420(const uint8_t *const y, int y_stride, const uint8_t *const u, const uint8_t *const v, int uv_stride, int height, int width, uint8_t *oy, int oy_stride, uint8_t *ou, uint8_t *ov, int ouv_stride, int oheight, int owidth) { vp9_resize_plane(y, height, width, y_stride, oy, oheight, owidth, oy_stride); vp9_resize_plane(u, height / 2, width / 2, uv_stride, ou, oheight / 2, owidth / 2, ouv_stride); vp9_resize_plane(v, height / 2, width / 2, uv_stride, ov, oheight / 2, owidth / 2, ouv_stride); } void vp9_resize_frame422(const uint8_t *const y, int y_stride, const uint8_t *const u, const uint8_t *const v, int uv_stride, int height, int width, uint8_t *oy, int oy_stride, uint8_t *ou, uint8_t *ov, int ouv_stride, int oheight, int owidth) { vp9_resize_plane(y, height, width, y_stride, oy, oheight, owidth, oy_stride); vp9_resize_plane(u, height, width / 2, uv_stride, ou, oheight, owidth / 2, ouv_stride); vp9_resize_plane(v, height, width / 2, uv_stride, ov, oheight, owidth / 2, ouv_stride); } void vp9_resize_frame444(const uint8_t *const y, int y_stride, const uint8_t *const u, const uint8_t *const v, int uv_stride, int height, int width, uint8_t *oy, int oy_stride, uint8_t *ou, uint8_t *ov, int ouv_stride, int oheight, int owidth) { vp9_resize_plane(y, height, width, y_stride, oy, oheight, owidth, oy_stride); vp9_resize_plane(u, height, width, uv_stride, ou, oheight, owidth, ouv_stride); vp9_resize_plane(v, height, width, uv_stride, ov, oheight, owidth, ouv_stride); } #if CONFIG_VP9_HIGHBITDEPTH void vp9_highbd_resize_frame420(const uint8_t *const y, int y_stride, const uint8_t *const u, const uint8_t *const v, int uv_stride, int height, int width, uint8_t *oy, int oy_stride, uint8_t *ou, uint8_t *ov, int ouv_stride, int oheight, int owidth, int bd) { vp9_highbd_resize_plane(y, height, width, y_stride, oy, oheight, owidth, oy_stride, bd); vp9_highbd_resize_plane(u, height / 2, width / 2, uv_stride, ou, oheight / 2, owidth / 2, ouv_stride, bd); vp9_highbd_resize_plane(v, height / 2, width / 2, uv_stride, ov, oheight / 2, owidth / 2, ouv_stride, bd); } void vp9_highbd_resize_frame422(const uint8_t *const y, int y_stride, const uint8_t *const u, const uint8_t *const v, int uv_stride, int height, int width, uint8_t *oy, int oy_stride, uint8_t *ou, uint8_t *ov, int ouv_stride, int oheight, int owidth, int bd) { vp9_highbd_resize_plane(y, height, width, y_stride, oy, oheight, owidth, oy_stride, bd); vp9_highbd_resize_plane(u, height, width / 2, uv_stride, ou, oheight, owidth / 2, ouv_stride, bd); vp9_highbd_resize_plane(v, height, width / 2, uv_stride, ov, oheight, owidth / 2, ouv_stride, bd); } void vp9_highbd_resize_frame444(const uint8_t *const y, int y_stride, const uint8_t *const u, const uint8_t *const v, int uv_stride, int height, int width, uint8_t *oy, int oy_stride, uint8_t *ou, uint8_t *ov, int ouv_stride, int oheight, int owidth, int bd) { vp9_highbd_resize_plane(y, height, width, y_stride, oy, oheight, owidth, oy_stride, bd); vp9_highbd_resize_plane(u, height, width, uv_stride, ou, oheight, owidth, ouv_stride, bd); vp9_highbd_resize_plane(v, height, width, uv_stride, ov, oheight, owidth, ouv_stride, bd); } #endif // CONFIG_VP9_HIGHBITDEPTH