406 lines
13 KiB
C
406 lines
13 KiB
C
/*
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* Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <math.h>
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#include "./vp9_rtcd.h"
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#include "./vpx_dsp_rtcd.h"
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#include "vp9/common/vp9_blockd.h"
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#include "vp9/common/vp9_idct.h"
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#include "vpx_dsp/inv_txfm.h"
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#include "vpx_ports/mem.h"
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void vp9_iht4x4_16_add_c(const tran_low_t *input, uint8_t *dest, int stride,
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int tx_type) {
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const transform_2d IHT_4[] = {
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{ idct4_c, idct4_c }, // DCT_DCT = 0
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{ iadst4_c, idct4_c }, // ADST_DCT = 1
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{ idct4_c, iadst4_c }, // DCT_ADST = 2
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{ iadst4_c, iadst4_c } // ADST_ADST = 3
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};
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int i, j;
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tran_low_t out[4 * 4];
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tran_low_t *outptr = out;
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tran_low_t temp_in[4], temp_out[4];
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// inverse transform row vectors
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for (i = 0; i < 4; ++i) {
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IHT_4[tx_type].rows(input, outptr);
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input += 4;
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outptr += 4;
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}
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// inverse transform column vectors
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for (i = 0; i < 4; ++i) {
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for (j = 0; j < 4; ++j)
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temp_in[j] = out[j * 4 + i];
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IHT_4[tx_type].cols(temp_in, temp_out);
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for (j = 0; j < 4; ++j) {
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dest[j * stride + i] = clip_pixel_add(dest[j * stride + i],
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ROUND_POWER_OF_TWO(temp_out[j], 4));
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}
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}
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}
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static const transform_2d IHT_8[] = {
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{ idct8_c, idct8_c }, // DCT_DCT = 0
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{ iadst8_c, idct8_c }, // ADST_DCT = 1
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{ idct8_c, iadst8_c }, // DCT_ADST = 2
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{ iadst8_c, iadst8_c } // ADST_ADST = 3
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};
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void vp9_iht8x8_64_add_c(const tran_low_t *input, uint8_t *dest, int stride,
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int tx_type) {
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int i, j;
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tran_low_t out[8 * 8];
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tran_low_t *outptr = out;
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tran_low_t temp_in[8], temp_out[8];
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const transform_2d ht = IHT_8[tx_type];
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// inverse transform row vectors
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for (i = 0; i < 8; ++i) {
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ht.rows(input, outptr);
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input += 8;
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outptr += 8;
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}
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// inverse transform column vectors
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for (i = 0; i < 8; ++i) {
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for (j = 0; j < 8; ++j)
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temp_in[j] = out[j * 8 + i];
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ht.cols(temp_in, temp_out);
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for (j = 0; j < 8; ++j) {
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dest[j * stride + i] = clip_pixel_add(dest[j * stride + i],
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ROUND_POWER_OF_TWO(temp_out[j], 5));
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}
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}
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}
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static const transform_2d IHT_16[] = {
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{ idct16_c, idct16_c }, // DCT_DCT = 0
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{ iadst16_c, idct16_c }, // ADST_DCT = 1
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{ idct16_c, iadst16_c }, // DCT_ADST = 2
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{ iadst16_c, iadst16_c } // ADST_ADST = 3
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};
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void vp9_iht16x16_256_add_c(const tran_low_t *input, uint8_t *dest, int stride,
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int tx_type) {
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int i, j;
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tran_low_t out[16 * 16];
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tran_low_t *outptr = out;
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tran_low_t temp_in[16], temp_out[16];
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const transform_2d ht = IHT_16[tx_type];
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// Rows
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for (i = 0; i < 16; ++i) {
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ht.rows(input, outptr);
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input += 16;
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outptr += 16;
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}
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// Columns
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for (i = 0; i < 16; ++i) {
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for (j = 0; j < 16; ++j)
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temp_in[j] = out[j * 16 + i];
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ht.cols(temp_in, temp_out);
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for (j = 0; j < 16; ++j) {
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dest[j * stride + i] = clip_pixel_add(dest[j * stride + i],
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ROUND_POWER_OF_TWO(temp_out[j], 6));
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}
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}
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}
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// idct
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void vp9_idct4x4_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob) {
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if (eob > 1)
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vpx_idct4x4_16_add(input, dest, stride);
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else
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vpx_idct4x4_1_add(input, dest, stride);
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}
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void vp9_iwht4x4_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob) {
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if (eob > 1)
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vpx_iwht4x4_16_add(input, dest, stride);
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else
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vpx_iwht4x4_1_add(input, dest, stride);
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}
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void vp9_idct8x8_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob) {
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// If dc is 1, then input[0] is the reconstructed value, do not need
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// dequantization. Also, when dc is 1, dc is counted in eobs, namely eobs >=1.
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// The calculation can be simplified if there are not many non-zero dct
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// coefficients. Use eobs to decide what to do.
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// TODO(yunqingwang): "eobs = 1" case is also handled in vp9_short_idct8x8_c.
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// Combine that with code here.
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if (eob == 1)
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// DC only DCT coefficient
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vpx_idct8x8_1_add(input, dest, stride);
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else if (eob <= 12)
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vpx_idct8x8_12_add(input, dest, stride);
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else
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vpx_idct8x8_64_add(input, dest, stride);
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}
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void vp9_idct16x16_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob) {
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/* The calculation can be simplified if there are not many non-zero dct
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* coefficients. Use eobs to separate different cases. */
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if (eob == 1)
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/* DC only DCT coefficient. */
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vpx_idct16x16_1_add(input, dest, stride);
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else if (eob <= 10)
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vpx_idct16x16_10_add(input, dest, stride);
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else
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vpx_idct16x16_256_add(input, dest, stride);
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}
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void vp9_idct32x32_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob) {
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if (eob == 1)
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vpx_idct32x32_1_add(input, dest, stride);
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else if (eob <= 34)
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// non-zero coeff only in upper-left 8x8
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vpx_idct32x32_34_add(input, dest, stride);
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else if (eob <= 135)
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// non-zero coeff only in upper-left 16x16
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vpx_idct32x32_135_add(input, dest, stride);
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else
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vpx_idct32x32_1024_add(input, dest, stride);
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}
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// iht
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void vp9_iht4x4_add(TX_TYPE tx_type, const tran_low_t *input, uint8_t *dest,
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int stride, int eob) {
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if (tx_type == DCT_DCT)
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vp9_idct4x4_add(input, dest, stride, eob);
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else
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vp9_iht4x4_16_add(input, dest, stride, tx_type);
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}
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void vp9_iht8x8_add(TX_TYPE tx_type, const tran_low_t *input, uint8_t *dest,
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int stride, int eob) {
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if (tx_type == DCT_DCT) {
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vp9_idct8x8_add(input, dest, stride, eob);
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} else {
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vp9_iht8x8_64_add(input, dest, stride, tx_type);
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}
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}
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void vp9_iht16x16_add(TX_TYPE tx_type, const tran_low_t *input, uint8_t *dest,
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int stride, int eob) {
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if (tx_type == DCT_DCT) {
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vp9_idct16x16_add(input, dest, stride, eob);
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} else {
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vp9_iht16x16_256_add(input, dest, stride, tx_type);
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}
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}
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#if CONFIG_VP9_HIGHBITDEPTH
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void vp9_highbd_iht4x4_16_add_c(const tran_low_t *input, uint8_t *dest8,
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int stride, int tx_type, int bd) {
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const highbd_transform_2d IHT_4[] = {
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{ vpx_highbd_idct4_c, vpx_highbd_idct4_c }, // DCT_DCT = 0
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{ vpx_highbd_iadst4_c, vpx_highbd_idct4_c }, // ADST_DCT = 1
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{ vpx_highbd_idct4_c, vpx_highbd_iadst4_c }, // DCT_ADST = 2
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{ vpx_highbd_iadst4_c, vpx_highbd_iadst4_c } // ADST_ADST = 3
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};
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uint16_t *dest = CONVERT_TO_SHORTPTR(dest8);
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int i, j;
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tran_low_t out[4 * 4];
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tran_low_t *outptr = out;
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tran_low_t temp_in[4], temp_out[4];
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// Inverse transform row vectors.
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for (i = 0; i < 4; ++i) {
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IHT_4[tx_type].rows(input, outptr, bd);
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input += 4;
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outptr += 4;
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}
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// Inverse transform column vectors.
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for (i = 0; i < 4; ++i) {
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for (j = 0; j < 4; ++j)
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temp_in[j] = out[j * 4 + i];
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IHT_4[tx_type].cols(temp_in, temp_out, bd);
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for (j = 0; j < 4; ++j) {
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dest[j * stride + i] = highbd_clip_pixel_add(
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dest[j * stride + i], ROUND_POWER_OF_TWO(temp_out[j], 4), bd);
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}
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}
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}
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static const highbd_transform_2d HIGH_IHT_8[] = {
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{ vpx_highbd_idct8_c, vpx_highbd_idct8_c }, // DCT_DCT = 0
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{ vpx_highbd_iadst8_c, vpx_highbd_idct8_c }, // ADST_DCT = 1
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{ vpx_highbd_idct8_c, vpx_highbd_iadst8_c }, // DCT_ADST = 2
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{ vpx_highbd_iadst8_c, vpx_highbd_iadst8_c } // ADST_ADST = 3
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};
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void vp9_highbd_iht8x8_64_add_c(const tran_low_t *input, uint8_t *dest8,
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int stride, int tx_type, int bd) {
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int i, j;
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tran_low_t out[8 * 8];
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tran_low_t *outptr = out;
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tran_low_t temp_in[8], temp_out[8];
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const highbd_transform_2d ht = HIGH_IHT_8[tx_type];
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uint16_t *dest = CONVERT_TO_SHORTPTR(dest8);
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// Inverse transform row vectors.
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for (i = 0; i < 8; ++i) {
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ht.rows(input, outptr, bd);
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input += 8;
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outptr += 8;
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}
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// Inverse transform column vectors.
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for (i = 0; i < 8; ++i) {
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for (j = 0; j < 8; ++j)
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temp_in[j] = out[j * 8 + i];
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ht.cols(temp_in, temp_out, bd);
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for (j = 0; j < 8; ++j) {
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dest[j * stride + i] = highbd_clip_pixel_add(
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dest[j * stride + i], ROUND_POWER_OF_TWO(temp_out[j], 5), bd);
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}
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}
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}
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static const highbd_transform_2d HIGH_IHT_16[] = {
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{ vpx_highbd_idct16_c, vpx_highbd_idct16_c }, // DCT_DCT = 0
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{ vpx_highbd_iadst16_c, vpx_highbd_idct16_c }, // ADST_DCT = 1
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{ vpx_highbd_idct16_c, vpx_highbd_iadst16_c }, // DCT_ADST = 2
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{ vpx_highbd_iadst16_c, vpx_highbd_iadst16_c } // ADST_ADST = 3
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};
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void vp9_highbd_iht16x16_256_add_c(const tran_low_t *input, uint8_t *dest8,
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int stride, int tx_type, int bd) {
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int i, j;
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tran_low_t out[16 * 16];
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tran_low_t *outptr = out;
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tran_low_t temp_in[16], temp_out[16];
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const highbd_transform_2d ht = HIGH_IHT_16[tx_type];
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uint16_t *dest = CONVERT_TO_SHORTPTR(dest8);
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// Rows
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for (i = 0; i < 16; ++i) {
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ht.rows(input, outptr, bd);
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input += 16;
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outptr += 16;
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}
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// Columns
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for (i = 0; i < 16; ++i) {
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for (j = 0; j < 16; ++j)
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temp_in[j] = out[j * 16 + i];
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ht.cols(temp_in, temp_out, bd);
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for (j = 0; j < 16; ++j) {
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dest[j * stride + i] = highbd_clip_pixel_add(
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dest[j * stride + i], ROUND_POWER_OF_TWO(temp_out[j], 6), bd);
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}
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}
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}
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// idct
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void vp9_highbd_idct4x4_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob, int bd) {
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if (eob > 1)
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vpx_highbd_idct4x4_16_add(input, dest, stride, bd);
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else
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vpx_highbd_idct4x4_1_add(input, dest, stride, bd);
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}
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void vp9_highbd_iwht4x4_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob, int bd) {
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if (eob > 1)
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vpx_highbd_iwht4x4_16_add(input, dest, stride, bd);
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else
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vpx_highbd_iwht4x4_1_add(input, dest, stride, bd);
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}
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void vp9_highbd_idct8x8_add(const tran_low_t *input, uint8_t *dest, int stride,
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int eob, int bd) {
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// If dc is 1, then input[0] is the reconstructed value, do not need
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// dequantization. Also, when dc is 1, dc is counted in eobs, namely eobs >=1.
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// The calculation can be simplified if there are not many non-zero dct
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// coefficients. Use eobs to decide what to do.
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// TODO(yunqingwang): "eobs = 1" case is also handled in vp9_short_idct8x8_c.
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// Combine that with code here.
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// DC only DCT coefficient
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if (eob == 1) {
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vpx_highbd_idct8x8_1_add(input, dest, stride, bd);
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} else if (eob <= 10) {
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vpx_highbd_idct8x8_10_add(input, dest, stride, bd);
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} else {
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vpx_highbd_idct8x8_64_add(input, dest, stride, bd);
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}
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}
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void vp9_highbd_idct16x16_add(const tran_low_t *input, uint8_t *dest,
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int stride, int eob, int bd) {
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// The calculation can be simplified if there are not many non-zero dct
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// coefficients. Use eobs to separate different cases.
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// DC only DCT coefficient.
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if (eob == 1) {
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vpx_highbd_idct16x16_1_add(input, dest, stride, bd);
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} else if (eob <= 10) {
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vpx_highbd_idct16x16_10_add(input, dest, stride, bd);
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} else {
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vpx_highbd_idct16x16_256_add(input, dest, stride, bd);
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}
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}
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void vp9_highbd_idct32x32_add(const tran_low_t *input, uint8_t *dest,
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int stride, int eob, int bd) {
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// Non-zero coeff only in upper-left 8x8
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if (eob == 1) {
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vpx_highbd_idct32x32_1_add(input, dest, stride, bd);
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} else if (eob <= 34) {
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vpx_highbd_idct32x32_34_add(input, dest, stride, bd);
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} else {
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vpx_highbd_idct32x32_1024_add(input, dest, stride, bd);
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}
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}
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// iht
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void vp9_highbd_iht4x4_add(TX_TYPE tx_type, const tran_low_t *input,
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uint8_t *dest, int stride, int eob, int bd) {
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if (tx_type == DCT_DCT)
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vp9_highbd_idct4x4_add(input, dest, stride, eob, bd);
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else
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vp9_highbd_iht4x4_16_add(input, dest, stride, tx_type, bd);
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}
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void vp9_highbd_iht8x8_add(TX_TYPE tx_type, const tran_low_t *input,
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uint8_t *dest, int stride, int eob, int bd) {
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if (tx_type == DCT_DCT) {
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vp9_highbd_idct8x8_add(input, dest, stride, eob, bd);
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} else {
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vp9_highbd_iht8x8_64_add(input, dest, stride, tx_type, bd);
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}
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}
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void vp9_highbd_iht16x16_add(TX_TYPE tx_type, const tran_low_t *input,
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uint8_t *dest, int stride, int eob, int bd) {
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if (tx_type == DCT_DCT) {
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vp9_highbd_idct16x16_add(input, dest, stride, eob, bd);
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} else {
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vp9_highbd_iht16x16_256_add(input, dest, stride, tx_type, bd);
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}
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}
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#endif // CONFIG_VP9_HIGHBITDEPTH
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