ref: 16ba83510c69271d4b635a3f5fd43b73dfd89d20
dir: /src/itx_tmpl.c/
/* * Copyright © 2018, VideoLAN and dav1d authors * Copyright © 2018, Two Orioles, LLC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include <assert.h> #include <stddef.h> #include <stdint.h> #include <string.h> #include "common/attributes.h" #include "common/intops.h" #include "src/itx.h" #include "src/itx_1d.c" typedef void (*itx_1d_fn)(const coef *in, ptrdiff_t in_s, coef *out, ptrdiff_t out_s, const int range); static void NOINLINE inv_txfm_add_c(pixel *dst, const ptrdiff_t stride, coef *const coeff, const int eob, const int w, const int h, const int shift1, const int shift2, const itx_1d_fn first_1d_fn, const itx_1d_fn second_1d_fn HIGHBD_DECL_SUFFIX) { int i, j; const ptrdiff_t sh = imin(h, 32), sw = imin(w, 32); assert((h >= 4 || h <= 64) && (w >= 4 || w <= 64)); // Maximum value for h and w is 64 coef tmp[4096 /* w * h */], out[64 /* h */], in_mem[64 /* w */]; const int is_rect2 = w * 2 == h || h * 2 == w; const int bitdepth = bitdepth_from_max(bitdepth_max); const int row_clip_max = (1 << (bitdepth + 8 - 1)) - 1; const int col_clip_max = (1 << (imax(bitdepth + 6, 16) - 1)) -1; if (w != sw) memset(&in_mem[sw], 0, (w - sw) * sizeof(*in_mem)); const int rnd1 = (1 << shift1) >> 1; for (i = 0; i < sh; i++) { if (w != sw || is_rect2) { for (j = 0; j < sw; j++) { in_mem[j] = coeff[i + j * sh]; if (is_rect2) in_mem[j] = (in_mem[j] * 2896 + 2048) >> 12; } first_1d_fn(in_mem, 1, &tmp[i * w], 1, row_clip_max); } else { first_1d_fn(&coeff[i], sh, &tmp[i * w], 1, row_clip_max); } for (j = 0; j < w; j++) #if BITDEPTH == 8 tmp[i * w + j] = (tmp[i * w + j] + (rnd1)) >> shift1; #else tmp[i * w + j] = iclip((tmp[i * w + j] + (rnd1)) >> shift1, -col_clip_max - 1, col_clip_max); #endif } if (h != sh) memset(&tmp[sh * w], 0, w * (h - sh) * sizeof(*tmp)); const int rnd2 = (1 << shift2) >> 1; for (i = 0; i < w; i++) { second_1d_fn(&tmp[i], w, out, 1, col_clip_max); for (j = 0; j < h; j++) dst[i + j * PXSTRIDE(stride)] = iclip_pixel(dst[i + j * PXSTRIDE(stride)] + ((out[j] + (rnd2)) >> shift2)); } memset(coeff, 0, sizeof(*coeff) * sh * sw); } #define inv_txfm_fn(type1, type2, w, h, shift1, shift2) \ static void \ inv_txfm_add_##type1##_##type2##_##w##x##h##_c(pixel *dst, \ const ptrdiff_t stride, \ coef *const coeff, \ const int eob \ HIGHBD_DECL_SUFFIX) \ { \ inv_txfm_add_c(dst, stride, coeff, eob, w, h, shift1, shift2, \ inv_##type1##w##_1d, inv_##type2##h##_1d \ HIGHBD_TAIL_SUFFIX); \ } #define inv_txfm_fn64(w, h, shift1, shift2) \ inv_txfm_fn(dct, dct, w, h, shift1, shift2) #define inv_txfm_fn32(w, h, shift1, shift2) \ inv_txfm_fn64(w, h, shift1, shift2) \ inv_txfm_fn(identity, identity, w, h, shift1, shift2) #define inv_txfm_fn16(w, h, shift1, shift2) \ inv_txfm_fn32(w, h, shift1, shift2) \ inv_txfm_fn(adst, dct, w, h, shift1, shift2) \ inv_txfm_fn(dct, adst, w, h, shift1, shift2) \ inv_txfm_fn(adst, adst, w, h, shift1, shift2) \ inv_txfm_fn(dct, flipadst, w, h, shift1, shift2) \ inv_txfm_fn(flipadst, dct, w, h, shift1, shift2) \ inv_txfm_fn(adst, flipadst, w, h, shift1, shift2) \ inv_txfm_fn(flipadst, adst, w, h, shift1, shift2) \ inv_txfm_fn(flipadst, flipadst, w, h, shift1, shift2) \ inv_txfm_fn(identity, dct, w, h, shift1, shift2) \ inv_txfm_fn(dct, identity, w, h, shift1, shift2) \ #define inv_txfm_fn84(w, h, shift1, shift2) \ inv_txfm_fn16(w, h, shift1, shift2) \ inv_txfm_fn(identity, flipadst, w, h, shift1, shift2) \ inv_txfm_fn(flipadst, identity, w, h, shift1, shift2) \ inv_txfm_fn(identity, adst, w, h, shift1, shift2) \ inv_txfm_fn(adst, identity, w, h, shift1, shift2) \ inv_txfm_fn84( 4, 4, 0, 4) inv_txfm_fn84( 4, 8, 0, 4) inv_txfm_fn84( 4, 16, 1, 4) inv_txfm_fn84( 8, 4, 0, 4) inv_txfm_fn84( 8, 8, 1, 4) inv_txfm_fn84( 8, 16, 1, 4) inv_txfm_fn32( 8, 32, 2, 4) inv_txfm_fn84(16, 4, 1, 4) inv_txfm_fn84(16, 8, 1, 4) inv_txfm_fn16(16, 16, 2, 4) inv_txfm_fn32(16, 32, 1, 4) inv_txfm_fn64(16, 64, 2, 4) inv_txfm_fn32(32, 8, 2, 4) inv_txfm_fn32(32, 16, 1, 4) inv_txfm_fn32(32, 32, 2, 4) inv_txfm_fn64(32, 64, 1, 4) inv_txfm_fn64(64, 16, 2, 4) inv_txfm_fn64(64, 32, 1, 4) inv_txfm_fn64(64, 64, 2, 4) static void inv_txfm_add_wht_wht_4x4_c(pixel *dst, const ptrdiff_t stride, coef *const coeff, const int eob HIGHBD_DECL_SUFFIX) { const int bitdepth = bitdepth_from_max(bitdepth_max); const int col_clip_max = (1 << (imax(bitdepth + 6, 16) - 1)) -1; const int col_clip_min = -col_clip_max - 1; coef tmp[4 * 4], out[4]; for (int i = 0; i < 4; i++) inv_wht4_1d(&coeff[i], 4, &tmp[i * 4], 1, 0); for (int k = 0; k < 4 * 4; k++) tmp[k] = iclip(tmp[k], col_clip_min, col_clip_max); for (int i = 0; i < 4; i++) { inv_wht4_1d(&tmp[i], 4, out, 1, 1); for (int j = 0; j < 4; j++) dst[i + j * PXSTRIDE(stride)] = iclip_pixel(dst[i + j * PXSTRIDE(stride)] + out[j]); } memset(coeff, 0, sizeof(*coeff) * 4 * 4); } void bitfn(dav1d_itx_dsp_init)(Dav1dInvTxfmDSPContext *const c) { #define assign_itx_all_fn64(w, h, pfx) \ c->itxfm_add[pfx##TX_##w##X##h][DCT_DCT ] = \ inv_txfm_add_dct_dct_##w##x##h##_c #define assign_itx_all_fn32(w, h, pfx) \ assign_itx_all_fn64(w, h, pfx); \ c->itxfm_add[pfx##TX_##w##X##h][IDTX] = \ inv_txfm_add_identity_identity_##w##x##h##_c #define assign_itx_all_fn16(w, h, pfx) \ assign_itx_all_fn32(w, h, pfx); \ c->itxfm_add[pfx##TX_##w##X##h][DCT_ADST ] = \ inv_txfm_add_adst_dct_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][ADST_DCT ] = \ inv_txfm_add_dct_adst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][ADST_ADST] = \ inv_txfm_add_adst_adst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][ADST_FLIPADST] = \ inv_txfm_add_flipadst_adst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][FLIPADST_ADST] = \ inv_txfm_add_adst_flipadst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][DCT_FLIPADST] = \ inv_txfm_add_flipadst_dct_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][FLIPADST_DCT] = \ inv_txfm_add_dct_flipadst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][FLIPADST_FLIPADST] = \ inv_txfm_add_flipadst_flipadst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][H_DCT] = \ inv_txfm_add_dct_identity_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][V_DCT] = \ inv_txfm_add_identity_dct_##w##x##h##_c #define assign_itx_all_fn84(w, h, pfx) \ assign_itx_all_fn16(w, h, pfx); \ c->itxfm_add[pfx##TX_##w##X##h][H_FLIPADST] = \ inv_txfm_add_flipadst_identity_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][V_FLIPADST] = \ inv_txfm_add_identity_flipadst_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][H_ADST] = \ inv_txfm_add_adst_identity_##w##x##h##_c; \ c->itxfm_add[pfx##TX_##w##X##h][V_ADST] = \ inv_txfm_add_identity_adst_##w##x##h##_c; \ memset(c, 0, sizeof(*c)); /* Zero unused function pointer elements. */ c->itxfm_add[TX_4X4][WHT_WHT] = inv_txfm_add_wht_wht_4x4_c; assign_itx_all_fn84( 4, 4, ); assign_itx_all_fn84( 4, 8, R); assign_itx_all_fn84( 4, 16, R); assign_itx_all_fn84( 8, 4, R); assign_itx_all_fn84( 8, 8, ); assign_itx_all_fn84( 8, 16, R); assign_itx_all_fn32( 8, 32, R); assign_itx_all_fn84(16, 4, R); assign_itx_all_fn84(16, 8, R); assign_itx_all_fn16(16, 16, ); assign_itx_all_fn32(16, 32, R); assign_itx_all_fn64(16, 64, R); assign_itx_all_fn32(32, 8, R); assign_itx_all_fn32(32, 16, R); assign_itx_all_fn32(32, 32, ); assign_itx_all_fn64(32, 64, R); assign_itx_all_fn64(64, 16, R); assign_itx_all_fn64(64, 32, R); assign_itx_all_fn64(64, 64, ); #if HAVE_ASM && ARCH_X86 bitfn(dav1d_itx_dsp_init_x86)(c); #endif }