294 строки
9.5 KiB
C
294 строки
9.5 KiB
C
/*
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* Copyright (c) 2016, Alliance for Open Media. All rights reserved
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*
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* This source code is subject to the terms of the BSD 2 Clause License and
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* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
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* was not distributed with this source code in the LICENSE file, you can
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* obtain it at www.aomedia.org/license/software. If the Alliance for Open
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* Media Patent License 1.0 was not distributed with this source code in the
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* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
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*/
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#ifndef AV1_COMMON_MV_H_
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#define AV1_COMMON_MV_H_
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#include "av1/common/common.h"
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#include "av1/common/common_data.h"
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#include "aom_dsp/aom_filter.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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typedef struct mv {
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int16_t row;
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int16_t col;
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} MV;
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typedef union int_mv {
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uint32_t as_int;
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MV as_mv;
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} int_mv; /* facilitates faster equality tests and copies */
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typedef struct mv32 {
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int32_t row;
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int32_t col;
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} MV32;
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#if (CONFIG_WARPED_MOTION || CONFIG_MOTION_VAR) && CONFIG_GLOBAL_MOTION
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#define SEPARATE_GLOBAL_MOTION 1
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#endif // (CONFIG_WARPED_MOTION || CONFIG_MOTION_VAR) && CONFIG_GLOBAL_MOTION
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#if CONFIG_GLOBAL_MOTION || CONFIG_WARPED_MOTION
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// Bits of precision used for the model
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#define WARPEDMODEL_PREC_BITS 16
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#define WARPEDMODEL_ROW3HOMO_PREC_BITS 16
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#define WARPEDMODEL_TRANS_CLAMP (128 << WARPEDMODEL_PREC_BITS)
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#define WARPEDMODEL_DIAGAFFINE_CLAMP (1 << (WARPEDMODEL_PREC_BITS + 1))
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#define WARPEDMODEL_NONDIAGAFFINE_CLAMP (1 << (WARPEDMODEL_PREC_BITS - 1))
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#define WARPEDMODEL_ROW3HOMO_CLAMP (1 << (WARPEDMODEL_PREC_BITS - 1))
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// Bits of subpel precision for warped interpolation
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#define WARPEDPIXEL_PREC_BITS 6
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#define WARPEDPIXEL_PREC_SHIFTS (1 << WARPEDPIXEL_PREC_BITS)
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// Taps for ntap filter
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#define WARPEDPIXEL_FILTER_TAPS 6
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// Precision of filter taps
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#define WARPEDPIXEL_FILTER_BITS 7
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// Precision bits reduction after horizontal shear
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#define HORSHEAR_REDUCE_PREC_BITS 5
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#define VERSHEAR_REDUCE_PREC_BITS \
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(2 * WARPEDPIXEL_FILTER_BITS - HORSHEAR_REDUCE_PREC_BITS)
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#define WARPEDDIFF_PREC_BITS (WARPEDMODEL_PREC_BITS - WARPEDPIXEL_PREC_BITS)
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/* clang-format off */
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typedef enum {
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IDENTITY = 0, // identity transformation, 0-parameter
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TRANSLATION = 1, // translational motion 2-parameter
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ROTZOOM = 2, // simplified affine with rotation + zoom only, 4-parameter
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AFFINE = 3, // affine, 6-parameter
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HORTRAPEZOID = 4, // constrained homography, hor trapezoid, 6-parameter
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VERTRAPEZOID = 5, // constrained homography, ver trapezoid, 6-parameter
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HOMOGRAPHY = 6, // homography, 8-parameter
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TRANS_TYPES = 7,
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} TransformationType;
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/* clang-format on */
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// Number of types used for global motion (must be >= 3 and <= TRANS_TYPES)
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// The following can be useful:
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// GLOBAL_TRANS_TYPES 3 - up to rotation-zoom
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// GLOBAL_TRANS_TYPES 4 - up to affine
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// GLOBAL_TRANS_TYPES 6 - up to hor/ver trapezoids
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// GLOBAL_TRANS_TYPES 7 - up to full homography
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#define GLOBAL_TRANS_TYPES 3
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typedef struct {
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#if CONFIG_GLOBAL_MOTION
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int global_warp_allowed;
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#endif // CONFIG_GLOBAL_MOTION
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#if CONFIG_WARPED_MOTION
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int local_warp_allowed;
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#endif // CONFIG_WARPED_MOTION
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} WarpTypesAllowed;
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// number of parameters used by each transformation in TransformationTypes
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static const int trans_model_params[TRANS_TYPES] = { 0, 2, 4, 6, 6, 6, 8 };
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// The order of values in the wmmat matrix below is best described
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// by the homography:
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// [x' (m2 m3 m0 [x
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// z . y' = m4 m5 m1 * y
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// 1] m6 m7 1) 1]
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typedef struct {
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TransformationType wmtype;
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int32_t wmmat[8];
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int16_t alpha, beta, gamma, delta;
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} WarpedMotionParams;
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static INLINE void set_default_warp_params(WarpedMotionParams *wm) {
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static const int32_t default_wm_mat[8] = {
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0, 0, (1 << WARPEDMODEL_PREC_BITS), 0, 0, (1 << WARPEDMODEL_PREC_BITS), 0, 0
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};
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memset(wm, 0, sizeof(*wm));
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memcpy(wm->wmmat, default_wm_mat, sizeof(wm->wmmat));
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wm->wmtype = IDENTITY;
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}
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#endif // CONFIG_GLOBAL_MOTION || CONFIG_WARPED_MOTION
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#if CONFIG_GLOBAL_MOTION
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// ALPHA here refers to parameters a and b in rotzoom model:
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// | a b|
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// |-b a|
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//
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// and a, b, c, d in affine model:
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// | a b|
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// | c d|
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//
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// Anything ending in PREC_BITS is the number of bits of precision
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// to maintain when converting from double to integer.
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//
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// The ABS parameters are used to create an upper and lower bound
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// for each parameter. In other words, after a parameter is integerized
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// it is clamped between -(1 << ABS_XXX_BITS) and (1 << ABS_XXX_BITS).
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//
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// XXX_PREC_DIFF and XXX_DECODE_FACTOR
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// are computed once here to prevent repetitive
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// computation on the decoder side. These are
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// to allow the global motion parameters to be encoded in a lower
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// precision than the warped model precision. This means that they
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// need to be changed to warped precision when they are decoded.
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//
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// XX_MIN, XX_MAX are also computed to avoid repeated computation
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#define SUBEXPFIN_K 3
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#define GM_TRANS_PREC_BITS 6
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#define GM_ABS_TRANS_BITS 12
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#define GM_ABS_TRANS_ONLY_BITS (GM_ABS_TRANS_BITS - GM_TRANS_PREC_BITS + 3)
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#define GM_TRANS_PREC_DIFF (WARPEDMODEL_PREC_BITS - GM_TRANS_PREC_BITS)
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#define GM_TRANS_ONLY_PREC_DIFF (WARPEDMODEL_PREC_BITS - 3)
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#define GM_TRANS_DECODE_FACTOR (1 << GM_TRANS_PREC_DIFF)
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#define GM_TRANS_ONLY_DECODE_FACTOR (1 << GM_TRANS_ONLY_PREC_DIFF)
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#define GM_ALPHA_PREC_BITS 15
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#define GM_ABS_ALPHA_BITS 12
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#define GM_ALPHA_PREC_DIFF (WARPEDMODEL_PREC_BITS - GM_ALPHA_PREC_BITS)
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#define GM_ALPHA_DECODE_FACTOR (1 << GM_ALPHA_PREC_DIFF)
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#define GM_ROW3HOMO_PREC_BITS 16
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#define GM_ABS_ROW3HOMO_BITS 11
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#define GM_ROW3HOMO_PREC_DIFF \
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(WARPEDMODEL_ROW3HOMO_PREC_BITS - GM_ROW3HOMO_PREC_BITS)
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#define GM_ROW3HOMO_DECODE_FACTOR (1 << GM_ROW3HOMO_PREC_DIFF)
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#define GM_TRANS_MAX (1 << GM_ABS_TRANS_BITS)
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#define GM_ALPHA_MAX (1 << GM_ABS_ALPHA_BITS)
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#define GM_ROW3HOMO_MAX (1 << GM_ABS_ROW3HOMO_BITS)
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#define GM_TRANS_MIN -GM_TRANS_MAX
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#define GM_ALPHA_MIN -GM_ALPHA_MAX
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#define GM_ROW3HOMO_MIN -GM_ROW3HOMO_MAX
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// Use global motion parameters for sub8x8 blocks
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#define GLOBAL_SUB8X8_USED 0
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static INLINE int block_center_x(int mi_col, BLOCK_SIZE bs) {
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const int bw = block_size_wide[bs];
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return mi_col * MI_SIZE + bw / 2 - 1;
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}
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static INLINE int block_center_y(int mi_row, BLOCK_SIZE bs) {
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const int bh = block_size_high[bs];
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return mi_row * MI_SIZE + bh / 2 - 1;
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}
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static INLINE int convert_to_trans_prec(int allow_hp, int coor) {
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const int shift =
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allow_hp ? WARPEDMODEL_PREC_BITS - 3 : WARPEDMODEL_PREC_BITS - 2;
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const int scale = allow_hp ? 0 : 1;
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return (ROUND_POWER_OF_TWO_SIGNED(coor, shift) << scale);
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}
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// Convert a global motion translation vector (which may have more bits than a
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// regular motion vector) into a motion vector
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static INLINE int_mv gm_get_motion_vector(const WarpedMotionParams *gm,
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int allow_hp, BLOCK_SIZE bsize,
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int mi_col, int mi_row,
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int block_idx) {
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const int unify_bsize = CONFIG_CB4X4;
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int_mv res;
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const int32_t *mat = gm->wmmat;
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int xc, yc, x, y;
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if (gm->wmtype == TRANSLATION) {
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res.as_mv.row = gm->wmmat[0] >> GM_TRANS_ONLY_PREC_DIFF;
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res.as_mv.col = gm->wmmat[1] >> GM_TRANS_ONLY_PREC_DIFF;
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return res;
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}
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if (bsize >= BLOCK_8X8 || unify_bsize) {
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x = block_center_x(mi_col, bsize);
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y = block_center_y(mi_row, bsize);
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} else {
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x = block_center_x(mi_col, bsize);
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y = block_center_y(mi_row, bsize);
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x += (block_idx & 1) * MI_SIZE / 2;
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y += (block_idx & 2) * MI_SIZE / 4;
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}
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if (gm->wmtype == ROTZOOM) {
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assert(gm->wmmat[5] == gm->wmmat[2]);
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assert(gm->wmmat[4] == -gm->wmmat[3]);
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}
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xc = mat[2] * x + mat[3] * y + mat[0];
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yc = mat[4] * x + mat[5] * y + mat[1];
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if (gm->wmtype > AFFINE) {
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const int Z =
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mat[6] * x + mat[7] * y + (1 << WARPEDMODEL_ROW3HOMO_PREC_BITS);
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xc <<= (WARPEDMODEL_ROW3HOMO_PREC_BITS - WARPEDMODEL_PREC_BITS);
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yc <<= (WARPEDMODEL_ROW3HOMO_PREC_BITS - WARPEDMODEL_PREC_BITS);
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xc = xc > 0 ? (xc + Z / 2) / Z : (xc - Z / 2) / Z;
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yc = yc > 0 ? (yc + Z / 2) / Z : (yc - Z / 2) / Z;
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}
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int tx = convert_to_trans_prec(allow_hp, xc) - (x << 3);
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int ty = convert_to_trans_prec(allow_hp, yc) - (y << 3);
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res.as_mv.row = ty;
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res.as_mv.col = tx;
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return res;
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}
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static INLINE TransformationType get_gmtype(const WarpedMotionParams *gm) {
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if (gm->wmmat[6] != 0 || gm->wmmat[7] != 0) {
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if (!gm->wmmat[6] && !gm->wmmat[4]) return HORTRAPEZOID;
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if (!gm->wmmat[7] && !gm->wmmat[3]) return VERTRAPEZOID;
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return HOMOGRAPHY;
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}
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if (gm->wmmat[5] == (1 << WARPEDMODEL_PREC_BITS) && !gm->wmmat[4] &&
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gm->wmmat[2] == (1 << WARPEDMODEL_PREC_BITS) && !gm->wmmat[3]) {
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return ((!gm->wmmat[1] && !gm->wmmat[0]) ? IDENTITY : TRANSLATION);
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}
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if (gm->wmmat[2] == gm->wmmat[5] && gm->wmmat[3] == -gm->wmmat[4])
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return ROTZOOM;
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else
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return AFFINE;
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}
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#endif // CONFIG_GLOBAL_MOTION
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#if CONFIG_REF_MV
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typedef struct candidate_mv {
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int_mv this_mv;
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int_mv comp_mv;
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uint8_t pred_diff[2];
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int weight;
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} CANDIDATE_MV;
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#endif
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static INLINE int is_zero_mv(const MV *mv) {
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return *((const uint32_t *)mv) == 0;
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}
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static INLINE int is_equal_mv(const MV *a, const MV *b) {
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return *((const uint32_t *)a) == *((const uint32_t *)b);
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}
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static INLINE void clamp_mv(MV *mv, int min_col, int max_col, int min_row,
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int max_row) {
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mv->col = clamp(mv->col, min_col, max_col);
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mv->row = clamp(mv->row, min_row, max_row);
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}
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static INLINE int mv_has_subpel(const MV *mv) {
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return (mv->row & SUBPEL_MASK) || (mv->col & SUBPEL_MASK);
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}
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#ifdef __cplusplus
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} // extern "C"
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#endif
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#endif // AV1_COMMON_MV_H_
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