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/*
 * 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 <errno.h>
#include <limits.h>
#include <string.h>
#include <stdio.h>
#include <inttypes.h>

#include "dav1d/data.h"

#include "common/intops.h"
#include "common/mem.h"

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#include "src/ctx.h"
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#include "src/decode.h"
#include "src/dequant_tables.h"
#include "src/env.h"
#include "src/qm.h"
#include "src/recon.h"
#include "src/ref.h"
#include "src/tables.h"
#include "src/thread_task.h"
#include "src/warpmv.h"

static void init_quant_tables(const Av1SequenceHeader *const seq_hdr,
                              const Av1FrameHeader *const frame_hdr,
                              const int qidx, uint16_t (*dq)[3][2])
{
    for (int i = 0; i < (frame_hdr->segmentation.enabled ? 8 : 1); i++) {
        const int yac = frame_hdr->segmentation.enabled ?
            iclip_u8(qidx + frame_hdr->segmentation.seg_data.d[i].delta_q) : qidx;
        const int ydc = iclip_u8(yac + frame_hdr->quant.ydc_delta);
        const int uac = iclip_u8(yac + frame_hdr->quant.uac_delta);
        const int udc = iclip_u8(yac + frame_hdr->quant.udc_delta);
        const int vac = iclip_u8(yac + frame_hdr->quant.vac_delta);
        const int vdc = iclip_u8(yac + frame_hdr->quant.vdc_delta);

        dq[i][0][0] = dav1d_dq_tbl[seq_hdr->bpc > 8][ydc][0];
        dq[i][0][1] = dav1d_dq_tbl[seq_hdr->bpc > 8][yac][1];
        dq[i][1][0] = dav1d_dq_tbl[seq_hdr->bpc > 8][udc][0];
        dq[i][1][1] = dav1d_dq_tbl[seq_hdr->bpc > 8][uac][1];
        dq[i][2][0] = dav1d_dq_tbl[seq_hdr->bpc > 8][vdc][0];
        dq[i][2][1] = dav1d_dq_tbl[seq_hdr->bpc > 8][vac][1];
    }
}

static int read_mv_component_diff(Dav1dTileContext *const t,
                                  CdfMvComponent *const mv_comp,
                                  const int have_fp)
{
    Dav1dTileState *const ts = t->ts;
    const Dav1dFrameContext *const f = t->f;
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    const int have_hp = f->frame_hdr->hp;
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    const int sign = msac_decode_bool_adapt(&ts->msac, mv_comp->sign);
    const int cl = msac_decode_symbol_adapt(&ts->msac, mv_comp->classes, 11);
    int up, fp, hp;

    if (!cl) {
        up = msac_decode_bool_adapt(&ts->msac, mv_comp->class0);
        if (have_fp) {
            fp = msac_decode_symbol_adapt(&ts->msac, mv_comp->class0_fp[up], 4);
            hp = have_hp ? msac_decode_bool_adapt(&ts->msac, mv_comp->class0_hp) : 1;
        } else {
            fp = 3;
            hp = 1;
        }
    } else {
        up = 1 << cl;
        for (int n = 0; n < cl; n++)
            up |= msac_decode_bool_adapt(&ts->msac, mv_comp->classN[n]) << n;
        if (have_fp) {
            fp = msac_decode_symbol_adapt(&ts->msac, mv_comp->classN_fp, 4);
            hp = have_hp ? msac_decode_bool_adapt(&ts->msac, mv_comp->classN_hp) : 1;
        } else {
            fp = 3;
            hp = 1;
        }
    }

    const int diff = ((up << 3) | (fp << 1) | hp) + 1;

    return sign ? -diff : diff;
}

static void read_mv_residual(Dav1dTileContext *const t, mv *const ref_mv,
                             CdfMvContext *const mv_cdf, const int have_fp)
{
    switch (msac_decode_symbol_adapt(&t->ts->msac, t->ts->cdf.mv.joint, N_MV_JOINTS)) {
    case MV_JOINT_HV:
        ref_mv->y += read_mv_component_diff(t, &mv_cdf->comp[0], have_fp);
        ref_mv->x += read_mv_component_diff(t, &mv_cdf->comp[1], have_fp);
        break;
    case MV_JOINT_H:
        ref_mv->x += read_mv_component_diff(t, &mv_cdf->comp[1], have_fp);
        break;
    case MV_JOINT_V:
        ref_mv->y += read_mv_component_diff(t, &mv_cdf->comp[0], have_fp);
        break;
    default:
        break;
    }
}

static void read_tx_tree(Dav1dTileContext *const t,
                         const enum RectTxfmSize from,
                         const int depth, uint16_t *const masks,
                         const int x_off, const int y_off)
{
    const Dav1dFrameContext *const f = t->f;
    const int bx4 = t->bx & 31, by4 = t->by & 31;
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    const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[from];
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    const int txw = t_dim->lw, txh = t_dim->lh;
    int is_split;

    if (depth < 2 && from > (int) TX_4X4) {
        const int cat = 2 * (TX_64X64 - t_dim->max) - depth;
        const int a = t->a->tx[bx4] < txw;
        const int l = t->l.tx[by4] < txh;

        is_split = msac_decode_bool_adapt(&t->ts->msac, t->ts->cdf.m.txpart[cat][a + l]);
        if (is_split)
            masks[depth] |= 1 << (y_off * 4 + x_off);
    } else {
        is_split = 0;
    }

    if (is_split && t_dim->max > TX_8X8) {
        const enum RectTxfmSize sub = t_dim->sub;
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        const TxfmInfo *const sub_t_dim = &dav1d_txfm_dimensions[sub];
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        const int txsw = sub_t_dim->w, txsh = sub_t_dim->h;

        read_tx_tree(t, sub, depth + 1, masks, x_off * 2 + 0, y_off * 2 + 0);
        t->bx += txsw;
        if (txw >= txh && t->bx < f->bw)
            read_tx_tree(t, sub, depth + 1, masks, x_off * 2 + 1, y_off * 2 + 0);
        t->bx -= txsw;
        t->by += txsh;
        if (txh >= txw && t->by < f->bh) {
            read_tx_tree(t, sub, depth + 1, masks, x_off * 2 + 0, y_off * 2 + 1);
            t->bx += txsw;
            if (txw >= txh && t->bx < f->bw)
                read_tx_tree(t, sub, depth + 1, masks,
                             x_off * 2 + 1, y_off * 2 + 1);
            t->bx -= txsw;
        }
        t->by -= txsh;
    } else {
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#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
        rep_macro(type, t->dir tx, off, is_split ? TX_4X4 : mul * txh)
        case_set_upto16(t_dim->h, l., 1, by4);
#undef set_ctx
#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
        rep_macro(type, t->dir tx, off, is_split ? TX_4X4 : mul * txw)
        case_set_upto16(t_dim->w, a->, 0, bx4);
#undef set_ctx
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    }
}

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static int neg_deinterleave(int diff, int ref, int max) {
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    if (!ref) return diff;
    if (ref >= (max - 1)) return max - diff - 1;
    if (2 * ref < max) {
        if (diff <= 2 * ref) {
            if (diff & 1)
                return ref + ((diff + 1) >> 1);
            else
                return ref - (diff >> 1);
        }
        return diff;
    } else {
        if (diff <= 2 * (max - ref - 1)) {
            if (diff & 1)
                return ref + ((diff + 1) >> 1);
            else
                return ref - (diff >> 1);
        }
        return max - (diff + 1);
    }
}

static void find_matching_ref(const Dav1dTileContext *const t,
                              const enum EdgeFlags intra_edge_flags,
                              const int bw4, const int bh4,
                              const int w4, const int h4,
                              const int have_left, const int have_top,
                              const int ref, uint64_t masks[2])
{
    const Dav1dFrameContext *const f = t->f;
    const ptrdiff_t b4_stride = f->b4_stride;
    const refmvs *const r = &f->mvs[t->by * b4_stride + t->bx];
    int count = 0;
    int have_topleft = have_top && have_left;
    int have_topright = imax(bw4, bh4) < 32 &&
                        have_top && t->bx + bw4 < t->ts->tiling.col_end &&
                        (intra_edge_flags & EDGE_I444_TOP_HAS_RIGHT);

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#define bs(rp) dav1d_block_dimensions[sbtype_to_bs[(rp)->sb_type]]
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#define matches(rp) ((rp)->ref[0] == ref + 1 && (rp)->ref[1] == -1)

    if (have_top) {
        const refmvs *r2 = &r[-b4_stride];
        if (matches(r2)) {
            masks[0] |= 1;
            count = 1;
        }
        int aw4 = bs(r2)[0];
        if (aw4 >= bw4) {
            const int off = t->bx & (aw4 - 1);
            if (off) have_topleft = 0;
            if (aw4 - off > bw4) have_topright = 0;
        } else {
            unsigned mask = 1 << aw4;
            for (int x = aw4; x < w4; x += aw4) {
                r2 += aw4;
                if (matches(r2)) {
                    masks[0] |= mask;
                    if (++count >= 8) return;
                }
                aw4 = bs(r2)[0];
                mask <<= aw4;
            }
        }
    }
    if (have_left) {
        const refmvs *r2 = &r[-1];
        if (matches(r2)) {
            masks[1] |= 1;
            if (++count >= 8) return;
        }
        int lh4 = bs(r2)[1];
        if (lh4 >= bh4) {
            if (t->by & (lh4 - 1)) have_topleft = 0;
        } else {
            unsigned mask = 1 << lh4;
            for (int y = lh4; y < h4; y += lh4) {
                r2 += lh4 * b4_stride;
                if (matches(r2)) {
                    masks[1] |= mask;
                    if (++count >= 8) return;
                }
                lh4 = bs(r2)[1];
                mask <<= lh4;
            }
        }
    }
    if (have_topleft && matches(&r[-(1 + b4_stride)])) {
        masks[1] |= 1ULL << 32;
        if (++count >= 8) return;
    }
    if (have_topright && matches(&r[bw4 - b4_stride])) {
        masks[0] |= 1ULL << 32;
    }
#undef matches
}

static void derive_warpmv(const Dav1dTileContext *const t,
                          const int bw4, const int bh4,
                          const uint64_t masks[2], const struct mv mv,
                          WarpedMotionParams *const wmp)
{
    int pts[8][2 /* in, out */][2 /* x, y */], np = 0;
    const Dav1dFrameContext *const f = t->f;
    const ptrdiff_t b4_stride = f->b4_stride;
    const refmvs *const r = &f->mvs[t->by * b4_stride + t->bx];

#define add_sample(dx, dy, sx, sy, rp) do { \
    pts[np][0][0] = 16 * (2 * dx + sx * bs(rp)[0]) - 8; \
    pts[np][0][1] = 16 * (2 * dy + sy * bs(rp)[1]) - 8; \
    pts[np][1][0] = pts[np][0][0] + (rp)->mv[0].x; \
    pts[np][1][1] = pts[np][0][1] + (rp)->mv[0].y; \
    np++; \
} while (0)

    // use masks[] to find the projectable motion vectors in the edges
    if ((unsigned) masks[0] == 1 && !(masks[1] >> 32)) {
        const int off = t->bx & (bs(&r[-b4_stride])[0] - 1);
        add_sample(-off, 0, 1, -1, &r[-b4_stride]);
    } else for (unsigned off = 0, xmask = masks[0]; np < 8 && xmask;) { // top
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        const int tz = ctz(xmask);
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        off += tz;
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        xmask >>= tz;
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        add_sample(off, 0, 1, -1, &r[off - b4_stride]);
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        xmask &= ~1;
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    }
    if (np < 8 && masks[1] == 1) {
        const int off = t->by & (bs(&r[-1])[1] - 1);
        add_sample(0, -off, -1, 1, &r[-1 - off * b4_stride]);
    } else for (unsigned off = 0, ymask = masks[1]; np < 8 && ymask;) { // left
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        const int tz = ctz(ymask);
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        off += tz;
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        ymask >>= tz;
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        add_sample(0, off, -1, 1, &r[off * b4_stride - 1]);
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        ymask &= ~1;
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    }
    if (np < 8 && masks[1] >> 32) // top/left
        add_sample(0, 0, -1, -1, &r[-(1 + b4_stride)]);
    if (np < 8 && masks[0] >> 32) // top/right
        add_sample(bw4, 0, 1, -1, &r[bw4 - b4_stride]);
    assert(np > 0 && np <= 8);
#undef bs

    // select according to motion vector difference against a threshold
    int mvd[8], ret = 0;
    const int thresh = 4 * iclip(imax(bw4, bh4), 4, 28);
    for (int i = 0; i < np; i++) {
        mvd[i] = labs(pts[i][1][0] - pts[i][0][0] - mv.x) +
                 labs(pts[i][1][1] - pts[i][0][1] - mv.y);
        if (mvd[i] > thresh)
            mvd[i] = -1;
        else
            ret++;
    }
    if (!ret) {
        ret = 1;
    } else for (int i = 0, j = np - 1, k = 0; k < np - ret; k++, i++, j--) {
        while (mvd[i] != -1) i++;
        while (mvd[j] == -1) j--;
        assert(i != j);
        if (i > j) break;
        // replace the discarded samples;
        mvd[i] = mvd[j];
        memcpy(pts[i], pts[j], sizeof(*pts));
    }

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    if (!dav1d_find_affine_int(pts, ret, bw4, bh4, mv, wmp, t->bx, t->by) &&
        !dav1d_get_shear_params(wmp))
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    {
        wmp->type = WM_TYPE_AFFINE;
    } else
        wmp->type = WM_TYPE_IDENTITY;
}

static inline int findoddzero(const uint8_t *buf, int len) {
    for (int n = 0; n < len; n++)
        if (!buf[n * 2]) return 1;
    return 0;
}

static void read_pal_plane(Dav1dTileContext *const t, Av1Block *const b,
                           const int pl, const int sz_ctx,
                           const int bx4, const int by4)
{
    Dav1dTileState *const ts = t->ts;
    const Dav1dFrameContext *const f = t->f;
    const int pal_sz = b->pal_sz[pl] = 2 + msac_decode_symbol_adapt(&ts->msac,
                                                 ts->cdf.m.pal_sz[pl][sz_ctx], 7);
    uint16_t cache[16], used_cache[8];
    int l_cache = pl ? t->pal_sz_uv[1][by4] : t->l.pal_sz[by4];
    int n_cache = 0;
    // don't reuse above palette outside SB64 boundaries
    int a_cache = by4 & 15 ? pl ? t->pal_sz_uv[0][bx4] : t->a->pal_sz[bx4] : 0;
    const uint16_t *l = t->al_pal[1][by4][pl], *a = t->al_pal[0][bx4][pl];

    // fill/sort cache
    while (l_cache && a_cache) {
        if (*l < *a) {
            if (!n_cache || cache[n_cache - 1] != *l)
                cache[n_cache++] = *l;
            l++;
            l_cache--;
        } else {
            if (*a == *l) {
                l++;
                l_cache--;
            }
            if (!n_cache || cache[n_cache - 1] != *a)
                cache[n_cache++] = *a;
            a++;
            a_cache--;
        }
    }
    if (l_cache) {
        do {
            if (!n_cache || cache[n_cache - 1] != *l)
                cache[n_cache++] = *l;
            l++;
        } while (--l_cache > 0);
    } else if (a_cache) {
        do {
            if (!n_cache || cache[n_cache - 1] != *a)
                cache[n_cache++] = *a;
            a++;
        } while (--a_cache > 0);
    }

    // find reused cache entries
    int i = 0;
    for (int n = 0; n < n_cache && i < pal_sz; n++)
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        if (msac_decode_bool(&ts->msac, EC_BOOL_EPROB))
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            used_cache[i++] = cache[n];
    const int n_used_cache = i;

    // parse new entries
    uint16_t *const pal = f->frame_thread.pass ?
        f->frame_thread.pal[((t->by >> 1) + (t->bx & 1)) * (f->b4_stride >> 1) +
                            ((t->bx >> 1) + (t->by & 1))][pl] : t->pal[pl];
    if (i < pal_sz) {
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        int prev = pal[i++] = msac_decode_bools(&ts->msac, f->cur.p.bpc);
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        if (i < pal_sz) {
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            int bits = f->cur.p.bpc - 3 + msac_decode_bools(&ts->msac, 2);
            const int max = (1 << f->cur.p.bpc) - 1;
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            do {
                const int delta = msac_decode_bools(&ts->msac, bits);
                prev = pal[i++] = imin(prev + delta + !pl, max);
                if (prev + !pl >= max) {
                    for (; i < pal_sz; i++)
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                        pal[i] = max;
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                    break;
                }
                bits = imin(bits, 1 + ulog2(max - prev - !pl));
            } while (i < pal_sz);
        }

        // merge cache+new entries
        int n = 0, m = n_used_cache;
        for (i = 0; i < pal_sz; i++) {
            if (n < n_used_cache && (m >= pal_sz || used_cache[n] <= pal[m])) {
                pal[i] = used_cache[n++];
            } else {
                assert(m < pal_sz);
                pal[i] = pal[m++];
            }
        }
    } else {
        memcpy(pal, used_cache, n_used_cache * sizeof(*used_cache));
    }

    if (DEBUG_BLOCK_INFO) {
        printf("Post-pal[pl=%d,sz=%d,cache_size=%d,used_cache=%d]: r=%d, cache=",
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               pl, pal_sz, n_cache, n_used_cache, ts->msac.rng);
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        for (int n = 0; n < n_cache; n++)
            printf("%c%02x", n ? ' ' : '[', cache[n]);
        printf("%s, pal=", n_cache ? "]" : "[]");
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        for (int n = 0; n < pal_sz; n++)
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            printf("%c%02x", n ? ' ' : '[', pal[n]);
        printf("]\n");
    }
}

static void read_pal_uv(Dav1dTileContext *const t, Av1Block *const b,
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                        const int sz_ctx, const int bx4, const int by4)
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{
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    read_pal_plane(t, b, 1, sz_ctx, bx4, by4);
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    // V pal coding
    Dav1dTileState *const ts = t->ts;
    const Dav1dFrameContext *const f = t->f;
    uint16_t *const pal = f->frame_thread.pass ?
        f->frame_thread.pal[((t->by >> 1) + (t->bx & 1)) * (f->b4_stride >> 1) +
                            ((t->bx >> 1) + (t->by & 1))][2] : t->pal[2];
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    if (msac_decode_bool(&ts->msac, EC_BOOL_EPROB)) {
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        const int bits = f->cur.p.bpc - 4 + msac_decode_bools(&ts->msac, 2);
        int prev = pal[0] = msac_decode_bools(&ts->msac, f->cur.p.bpc);
        const int max = (1 << f->cur.p.bpc) - 1;
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        for (int i = 1; i < b->pal_sz[1]; i++) {
            int delta = msac_decode_bools(&ts->msac, bits);
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            if (delta && msac_decode_bool(&ts->msac, EC_BOOL_EPROB)) delta = -delta;
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            prev = pal[i] = (prev + delta) & max;
        }
    } else {
        for (int i = 0; i < b->pal_sz[1]; i++)
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            pal[i] = msac_decode_bools(&ts->msac, f->cur.p.bpc);
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    }
    if (DEBUG_BLOCK_INFO) {
        printf("Post-pal[pl=2]: r=%d ", ts->msac.rng);
        for (int n = 0; n < b->pal_sz[1]; n++)
            printf("%c%02x", n ? ' ' : '[', pal[n]);
        printf("]\n");
    }
}

// meant to be SIMD'able, so that theoretical complexity of this function
// times block size goes from w4*h4 to w4+h4-1
// a and b are previous two lines containing (a) top/left entries or (b)
// top/left entries, with a[0] being either the first top or first left entry,
// depending on top_offset being 1 or 0, and b being the first top/left entry
// for whichever has one. left_offset indicates whether the (len-1)th entry
// has a left neighbour.
// output is order[] and ctx for each member of this diagonal.
static void order_palette(const uint8_t *pal_idx, const ptrdiff_t stride,
                          const int i, const int first, const int last,
                          uint8_t (*const order)[8], uint8_t *const ctx)
{
    int have_top = i > first;

    pal_idx += first + (i - first) * stride;
    for (int j = first, n = 0; j >= last; have_top = 1, j--, n++, pal_idx += stride - 1) {
        const int have_left = j > 0;

        assert(have_left || have_top);

#define add(v_in) do { \
        const int v = v_in; \
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        assert((unsigned)v < 8U); \
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        order[n][o_idx++] = v; \
        mask |= 1 << v; \
    } while (0)

        unsigned mask = 0;
        int o_idx = 0;
        if (!have_left) {
            ctx[n] = 0;
            add(pal_idx[-stride]);
        } else if (!have_top) {
            ctx[n] = 0;
            add(pal_idx[-1]);
        } else {
            const int l = pal_idx[-1], t = pal_idx[-stride], tl = pal_idx[-(stride + 1)];
            const int same_t_l = t == l;
            const int same_t_tl = t == tl;
            const int same_l_tl = l == tl;
            const int same_all = same_t_l & same_t_tl & same_l_tl;

            if (same_all) {
                ctx[n] = 4;
                add(t);
            } else if (same_t_l) {
                ctx[n] = 3;
                add(t);
                add(tl);
            } else if (same_t_tl | same_l_tl) {
                ctx[n] = 2;
                add(tl);
                add(same_t_tl ? l : t);
            } else {
                ctx[n] = 1;
                add(imin(t, l));
                add(imax(t, l));
                add(tl);
            }
        }
        for (unsigned m = 1, bit = 0; m < 0x100; m <<= 1, bit++)
            if (!(mask & m))
                order[n][o_idx++] = bit;
        assert(o_idx == 8);
#undef add
    }
}

static void read_pal_indices(Dav1dTileContext *const t,
                             uint8_t *const pal_idx,
                             const Av1Block *const b, const int pl,
                             const int w4, const int h4,
                             const int bw4, const int bh4)
{
    Dav1dTileState *const ts = t->ts;
    const ptrdiff_t stride = bw4 * 4;
    pal_idx[0] = msac_decode_uniform(&ts->msac, b->pal_sz[pl]);
    uint16_t (*const color_map_cdf)[8 + 1] =
        ts->cdf.m.color_map[pl][b->pal_sz[pl] - 2];
    for (int i = 1; i < 4 * (w4 + h4) - 1; i++) {
        // top/left-to-bottom/right diagonals ("wave-front")
        uint8_t order[64][8], ctx[64];
        const int first = imin(i, w4 * 4 - 1);
        const int last = imax(0, i - h4 * 4 + 1);
        order_palette(pal_idx, stride, i, first, last, order, ctx);
        for (int j = first, m = 0; j >= last; j--, m++) {
            const int color_idx =
                msac_decode_symbol_adapt(&ts->msac, color_map_cdf[ctx[m]],
                                         b->pal_sz[pl]);
            pal_idx[(i - j) * stride + j] = order[m][color_idx];
        }
    }
    // fill invisible edges
    if (bw4 > w4)
        for (int y = 0; y < 4 * h4; y++)
            memset(&pal_idx[y * stride + 4 * w4],
                   pal_idx[y * stride + 4 * w4 - 1], 4 * (bw4 - w4));
    if (h4 < bh4) {
        const uint8_t *const src = &pal_idx[stride * (4 * h4 - 1)];
        for (int y = h4 * 4; y < bh4 * 4; y++)
            memcpy(&pal_idx[y * stride], src, bw4 * 4);
    }
}

static void read_vartx_tree(Dav1dTileContext *const t,
                            Av1Block *const b, const enum BlockSize bs,
                            const int bx4, const int by4)
{
    const Dav1dFrameContext *const f = t->f;
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    const uint8_t *const b_dim = dav1d_block_dimensions[bs];
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    const int bw4 = b_dim[0], bh4 = b_dim[1];

    // var-tx tree coding
    b->tx_split[0] = b->tx_split[1] = 0;
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    b->max_ytx = dav1d_max_txfm_size_for_bs[bs][0];
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    if (f->frame_hdr->segmentation.lossless[b->seg_id] ||
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        b->max_ytx == TX_4X4)
    {
        b->max_ytx = b->uvtx = TX_4X4;
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        if (f->frame_hdr->txfm_mode == TX_SWITCHABLE) {
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#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
            rep_macro(type, t->dir tx, off, TX_4X4)
            case_set(bh4, l., 1, by4);
            case_set(bw4, a->, 0, bx4);
#undef set_ctx
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        }
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    } else if (f->frame_hdr->txfm_mode != TX_SWITCHABLE || b->skip) {
        if (f->frame_hdr->txfm_mode == TX_SWITCHABLE) {
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#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
            rep_macro(type, t->dir tx, off, mul * b_dim[2 + diridx])
            case_set(bh4, l., 1, by4);
            case_set(bw4, a->, 0, bx4);
#undef set_ctx
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        } else {
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            assert(f->frame_hdr->txfm_mode == TX_LARGEST);
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        }
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        b->uvtx = dav1d_max_txfm_size_for_bs[bs][f->cur.p.layout];
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    } else {
        assert(imin(bw4, bh4) <= 16 || b->max_ytx == TX_64X64);
        int y, x, y_off, x_off;
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        const TxfmInfo *const ytx = &dav1d_txfm_dimensions[b->max_ytx];
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        for (y = 0, y_off = 0; y < bh4; y += ytx->h, y_off++) {
            for (x = 0, x_off = 0; x < bw4; x += ytx->w, x_off++) {
                read_tx_tree(t, b->max_ytx, 0, b->tx_split, x_off, y_off);
                // contexts are updated inside read_tx_tree()
                t->bx += ytx->w;
            }
            t->bx -= x;
            t->by += ytx->h;
        }
        t->by -= y;
        if (DEBUG_BLOCK_INFO)
            printf("Post-vartxtree[%x/%x]: r=%d\n",
                   b->tx_split[0], b->tx_split[1], t->ts->msac.rng);
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        b->uvtx = dav1d_max_txfm_size_for_bs[bs][f->cur.p.layout];
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    }
}

static inline unsigned get_prev_frame_segid(const Dav1dFrameContext *const f,
                                            const int by, const int bx,
                                            const int w4, int h4,
                                            const uint8_t *ref_seg_map,
                                            const ptrdiff_t stride)
{
    unsigned seg_id = 8;

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    assert(f->frame_hdr->primary_ref_frame != PRIMARY_REF_NONE);
    if (dav1d_thread_picture_wait(&f->refp[f->frame_hdr->primary_ref_frame],
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                                  (by + h4) * 4, PLANE_TYPE_BLOCK))
    {
        return 8;
    }
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    ref_seg_map += by * stride + bx;
    do {
        for (int x = 0; x < w4; x++)
            seg_id = imin(seg_id, ref_seg_map[x]);
        ref_seg_map += stride;
    } while (--h4 > 0);
    assert(seg_id < 8);

    return seg_id;
}

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static int decode_b(Dav1dTileContext *const t,
                    const enum BlockLevel bl,
                    const enum BlockSize bs,
                    const enum BlockPartition bp,
                    const enum EdgeFlags intra_edge_flags)
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{
    Dav1dTileState *const ts = t->ts;
    const Dav1dFrameContext *const f = t->f;
    Av1Block b_mem, *const b = f->frame_thread.pass ?
        &f->frame_thread.b[t->by * f->b4_stride + t->bx] : &b_mem;
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    const uint8_t *const b_dim = dav1d_block_dimensions[bs];
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    const int bx4 = t->bx & 31, by4 = t->by & 31;
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    const int ss_ver = f->cur.p.layout == DAV1D_PIXEL_LAYOUT_I420;
    const int ss_hor = f->cur.p.layout != DAV1D_PIXEL_LAYOUT_I444;
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    const int cbx4 = bx4 >> ss_hor, cby4 = by4 >> ss_ver;
    const int bw4 = b_dim[0], bh4 = b_dim[1];
    const int w4 = imin(bw4, f->bw - t->bx), h4 = imin(bh4, f->bh - t->by);
    const int cbw4 = (bw4 + ss_hor) >> ss_hor, cbh4 = (bh4 + ss_ver) >> ss_ver;
    const int have_left = t->bx > ts->tiling.col_start;
    const int have_top = t->by > ts->tiling.row_start;
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    const int has_chroma = f->seq_hdr->layout != DAV1D_PIXEL_LAYOUT_I400 &&
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                           (bw4 > ss_hor || t->bx & 1) &&
                           (bh4 > ss_ver || t->by & 1);

    if (f->frame_thread.pass == 2) {
        if (b->intra) {
            f->bd_fn.recon_b_intra(t, bs, intra_edge_flags, b);

            const enum IntraPredMode y_mode_nofilt =
                b->y_mode == FILTER_PRED ? DC_PRED : b->y_mode;
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#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
            rep_macro(type, t->dir mode, off, mul * y_mode_nofilt); \
            rep_macro(type, t->dir intra, off, mul)
            case_set(bh4, l., 1, by4);
            case_set(bw4, a->, 0, bx4);
#undef set_ctx

            if (has_chroma) {
#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
                rep_macro(type, t->dir uvmode, off, mul * b->uv_mode)
                case_set(cbh4, l., 1, cby4);
                case_set(cbw4, a->, 0, cbx4);
#undef set_ctx
            }
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        } else {
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            if (f->frame_hdr->frame_type & 1 /* not intrabc */ &&
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                b->comp_type == COMP_INTER_NONE && b->motion_mode == MM_WARP)
            {
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                uint64_t mask[2] = { 0, 0 };
                find_matching_ref(t, intra_edge_flags, bw4, bh4, w4, h4,
                                  have_left, have_top, b->ref[0], mask);
                derive_warpmv(t, bw4, bh4, mask, b->mv[0], &t->warpmv);
            }
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            if (f->bd_fn.recon_b_inter(t, bs, b)) return -1;
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            const uint8_t *const filter = dav1d_filter_dir[b->filter2d];
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#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
            rep_macro(type, t->dir filter[0], off, mul * filter[0]); \
            rep_macro(type, t->dir filter[1], off, mul * filter[1]); \
            rep_macro(type, t->dir intra, off, 0)
            case_set(bh4, l., 1, by4);
            case_set(bw4, a->, 0, bx4);
#undef set_ctx

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            if (has_chroma) {
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#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
                rep_macro(type, t->dir uvmode, off, mul * DC_PRED)
                case_set(cbh4, l., 1, cby4);
                case_set(cbw4, a->, 0, cbx4);
#undef set_ctx
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            }
        }
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        return 0;
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    }

    const int cw4 = (w4 + ss_hor) >> ss_hor, ch4 = (h4 + ss_ver) >> ss_ver;

    b->bl = bl;
    b->bp = bp;
    b->bs = bs;

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    const Av1SegmentationData *seg = NULL;
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    // segment_id (if seg_feature for skip/ref/gmv is enabled)
    int seg_pred = 0;
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    if (f->frame_hdr->segmentation.enabled) {
        if (!f->frame_hdr->segmentation.update_map) {
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            if (f->prev_segmap) {
                unsigned seg_id = get_prev_frame_segid(f, t->by, t->bx, w4, h4,
                                                       f->prev_segmap,
                                                       f->b4_stride);
                if (seg_id >= 8) return -1;
                b->seg_id = seg_id;
            } else {
                b->seg_id = 0;
            }
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            seg = &f->frame_hdr->segmentation.seg_data.d[b->seg_id];
        } else if (f->frame_hdr->segmentation.seg_data.preskip) {
            if (f->frame_hdr->segmentation.temporal &&
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                (seg_pred = msac_decode_bool_adapt(&ts->msac,
                                       ts->cdf.m.seg_pred[t->a->seg_pred[bx4] +
                                                          t->l.seg_pred[by4]])))
            {
                // temporal predicted seg_id
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                if (f->prev_segmap) {
                    unsigned seg_id = get_prev_frame_segid(f, t->by, t->bx,
                                                           w4, h4,
                                                           f->prev_segmap,
                                                           f->b4_stride);
                    if (seg_id >= 8) return -1;
                    b->seg_id = seg_id;
                } else {
                    b->seg_id = 0;
                }
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            } else {
                int seg_ctx;
                const unsigned pred_seg_id =
                    get_cur_frame_segid(t->by, t->bx, have_top, have_left,
                                        &seg_ctx, f->cur_segmap, f->b4_stride);
                const unsigned diff = msac_decode_symbol_adapt(&ts->msac,
                                                   ts->cdf.m.seg_id[seg_ctx],
                                                   NUM_SEGMENTS);
                const unsigned last_active_seg_id =
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                    f->frame_hdr->segmentation.seg_data.last_active_segid;
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                b->seg_id = neg_deinterleave(diff, pred_seg_id,
                                             last_active_seg_id + 1);
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                if (b->seg_id > last_active_seg_id) b->seg_id = 0; // error?
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                if (b->seg_id >= NUM_SEGMENTS) b->seg_id = 0; // error?
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            }

            if (DEBUG_BLOCK_INFO)
                printf("Post-segid[preskip;%d]: r=%d\n",
                       b->seg_id, ts->msac.rng);
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            seg = &f->frame_hdr->segmentation.seg_data.d[b->seg_id];
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        }
    } else {
        b->seg_id = 0;
    }

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    // skip_mode
    if ((!seg || (!seg->globalmv && seg->ref == -1 && !seg->skip)) &&
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        f->frame_hdr->skip_mode_enabled && imin(bw4, bh4) > 1)
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    {
        const int smctx = t->a->skip_mode[bx4] + t->l.skip_mode[by4];
        b->skip_mode = msac_decode_bool_adapt(&ts->msac,
                                              ts->cdf.m.skip_mode[smctx]);
        if (DEBUG_BLOCK_INFO)
            printf("Post-skipmode[%d]: r=%d\n", b->skip_mode, ts->msac.rng);
    } else {
        b->skip_mode = 0;
    }

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    // skip
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    if (b->skip_mode || (seg && seg->skip)) {
        b->skip = 1;
    } else {
        const int sctx = t->a->skip[bx4] + t->l.skip[by4];
        b->skip = msac_decode_bool_adapt(&ts->msac, ts->cdf.m.skip[sctx]);
        if (DEBUG_BLOCK_INFO)
            printf("Post-skip[%d]: r=%d\n", b->skip, ts->msac.rng);
    }
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    // segment_id
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    if (f->frame_hdr->segmentation.enabled &&
        f->frame_hdr->segmentation.update_map &&
        !f->frame_hdr->segmentation.seg_data.preskip)
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    {
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        if (!b->skip && f->frame_hdr->segmentation.temporal &&
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            (seg_pred = msac_decode_bool_adapt(&ts->msac,
                                   ts->cdf.m.seg_pred[t->a->seg_pred[bx4] +
                                                      t->l.seg_pred[by4]])))
        {
            // temporal predicted seg_id
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            if (f->prev_segmap) {
                unsigned seg_id = get_prev_frame_segid(f, t->by, t->bx, w4, h4,
                                                       f->prev_segmap,
                                                       f->b4_stride);
                if (seg_id >= 8) return -1;
                b->seg_id = seg_id;
            } else {
                b->seg_id = 0;
            }
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        } else {
            int seg_ctx;
            const unsigned pred_seg_id =
                get_cur_frame_segid(t->by, t->bx, have_top, have_left,
                                    &seg_ctx, f->cur_segmap, f->b4_stride);
            if (b->skip) {
                b->seg_id = pred_seg_id;
            } else {
                const unsigned diff = msac_decode_symbol_adapt(&ts->msac,
                                                   ts->cdf.m.seg_id[seg_ctx],
                                                   NUM_SEGMENTS);
                const unsigned last_active_seg_id =
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                    f->frame_hdr->segmentation.seg_data.last_active_segid;
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                b->seg_id = neg_deinterleave(diff, pred_seg_id,
                                             last_active_seg_id + 1);
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                if (b->seg_id > last_active_seg_id) b->seg_id = 0; // error?
            }
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            if (b->seg_id >= NUM_SEGMENTS) b->seg_id = 0; // error?
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        }

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        seg = &f->frame_hdr->segmentation.seg_data.d[b->seg_id];
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        if (DEBUG_BLOCK_INFO)
            printf("Post-segid[postskip;%d]: r=%d\n",
                   b->seg_id, ts->msac.rng);
    }

    // cdef index
    if (!b->skip) {
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        const int idx = f->seq_hdr->sb128 ? ((t->bx & 16) >> 4) +
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                                           ((t->by & 16) >> 3) : 0;
        if (t->cur_sb_cdef_idx_ptr[idx] == -1) {
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            const int v = msac_decode_bools(&ts->msac, f->frame_hdr->cdef.n_bits);
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            t->cur_sb_cdef_idx_ptr[idx] = v;
            if (bw4 > 16) t->cur_sb_cdef_idx_ptr[idx + 1] = v;
            if (bh4 > 16) t->cur_sb_cdef_idx_ptr[idx + 2] = v;
            if (bw4 == 32 && bh4 == 32) t->cur_sb_cdef_idx_ptr[idx + 3] = v;

            if (DEBUG_BLOCK_INFO)
                printf("Post-cdef_idx[%d]: r=%d\n",
                        *t->cur_sb_cdef_idx_ptr, ts->msac.rng);
        }
    }

    // delta-q/lf
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    if (!(t->bx & (31 >> !f->seq_hdr->sb128)) &&
        !(t->by & (31 >> !f->seq_hdr->sb128)))
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    {
        const int prev_qidx = ts->last_qidx;
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        const int have_delta_q = f->frame_hdr->delta.q.present &&
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            (bs != (f->seq_hdr->sb128 ? BS_128x128 : BS_64x64) || !b->skip);
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        int8_t prev_delta_lf[4];
        memcpy(prev_delta_lf, ts->last_delta_lf, 4);

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        if (have_delta_q) {
            int delta_q = msac_decode_symbol_adapt(&ts->msac, ts->cdf.m.delta_q, 4);
            if (delta_q == 3) {
                const int n_bits = 1 + msac_decode_bools(&ts->msac, 3);
                delta_q = msac_decode_bools(&ts->msac, n_bits) + 1 + (1 << n_bits);
            }
            if (delta_q) {
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                if (msac_decode_bool(&ts->msac, EC_BOOL_EPROB)) delta_q = -delta_q;
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                delta_q *= 1 << f->frame_hdr->delta.q.res_log2;
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            }
            ts->last_qidx = iclip(ts->last_qidx + delta_q, 1, 255);
            if (have_delta_q && DEBUG_BLOCK_INFO)
                printf("Post-delta_q[%d->%d]: r=%d\n",
                       delta_q, ts->last_qidx, ts->msac.rng);
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            if (f->frame_hdr->delta.lf.present) {
                const int n_lfs = f->frame_hdr->delta.lf.multi ?
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                    f->seq_hdr->layout != DAV1D_PIXEL_LAYOUT_I400 ? 4 : 2 : 1;
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                for (int i = 0; i < n_lfs; i++) {
                    int delta_lf =
                        msac_decode_symbol_adapt(&ts->msac,
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                        ts->cdf.m.delta_lf[i + f->frame_hdr->delta.lf.multi], 4);
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                    if (delta_lf == 3) {
                        const int n_bits = 1 + msac_decode_bools(&ts->msac, 3);
                        delta_lf = msac_decode_bools(&ts->msac, n_bits) +
                                   1 + (1 << n_bits);
                    }
                    if (delta_lf) {
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                        if (msac_decode_bool(&ts->msac, EC_BOOL_EPROB))
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                            delta_lf = -delta_lf;
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                        delta_lf *= 1 << f->frame_hdr->delta.lf.res_log2;
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                    }
                    ts->last_delta_lf[i] =
                        iclip(ts->last_delta_lf[i] + delta_lf, -63, 63);
                    if (have_delta_q && DEBUG_BLOCK_INFO)
                        printf("Post-delta_lf[%d:%d]: r=%d\n", i, delta_lf,
                               ts->msac.rng);
                }
            }
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        }
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        if (ts->last_qidx == f->frame_hdr->quant.yac) {
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            // assign frame-wide q values to this sb
            ts->dq = f->dq;
        } else if (ts->last_qidx != prev_qidx) {
            // find sb-specific quant parameters
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            init_quant_tables(f->seq_hdr, f->frame_hdr, ts->last_qidx, ts->dqmem);
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            ts->dq = ts->dqmem;
        }
        if (!memcmp(ts->last_delta_lf, (int8_t[4]) { 0, 0, 0, 0 }, 4)) {
            // assign frame-wide lf values to this sb
            ts->lflvl = f->lf.lvl;
        } else if (memcmp(ts->last_delta_lf, prev_delta_lf, 4)) {
            // find sb-specific lf lvl parameters
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            dav1d_calc_lf_values(ts->lflvlmem, f->frame_hdr, ts->last_delta_lf);
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            ts->lflvl = ts->lflvlmem;
        }
    }

    if (b->skip_mode) {
        b->intra = 0;
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    } else if (f->frame_hdr->frame_type & 1) {
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        if (seg && (seg->ref >= 0 || seg->globalmv)) {
            b->intra = !seg->ref;
        } else {
            const int ictx = get_intra_ctx(t->a, &t->l, by4, bx4,
                                           have_top, have_left);
            b->intra = !msac_decode_bool_adapt(&ts->msac, ts->cdf.m.intra[ictx]);
            if (DEBUG_BLOCK_INFO)
                printf("Post-intra[%d]: r=%d\n", b->intra, ts->msac.rng);
        }
994
    } else if (f->frame_hdr->allow_intrabc) {
995 996 997 998 999 1000 1001 1002 1003
        b->intra = !msac_decode_bool_adapt(&ts->msac, ts->cdf.m.intrabc);
        if (DEBUG_BLOCK_INFO)
            printf("Post-intrabcflag[%d]: r=%d\n", b->intra, ts->msac.rng);
    } else {
        b->intra = 1;
    }

    // intra/inter-specific stuff
    if (b->intra) {
1004
        uint16_t *const ymode_cdf = f->frame_hdr->frame_type & 1 ?
1005 1006 1007
            ts->cdf.m.y_mode[dav1d_ymode_size_context[bs]] :
            ts->cdf.kfym[dav1d_intra_mode_context[t->a->mode[bx4]]]
                        [dav1d_intra_mode_context[t->l.mode[by4]]];
1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024
        b->y_mode = msac_decode_symbol_adapt(&ts->msac, ymode_cdf,
                                              N_INTRA_PRED_MODES);
        if (DEBUG_BLOCK_INFO)
            printf("Post-ymode[%d]: r=%d\n", b->y_mode, ts->msac.rng);

        // angle delta
        if (b_dim[2] + b_dim[3] >= 2 && b->y_mode >= VERT_PRED &&
            b->y_mode <= VERT_LEFT_PRED)
        {
            uint16_t *const acdf = ts->cdf.m.angle_delta[b->y_mode - VERT_PRED];
            const int angle = msac_decode_symbol_adapt(&ts->msac, acdf, 7);
            b->y_angle = angle - 3;
        } else {
            b->y_angle = 0;
        }

        if (has_chroma) {
1025
            const int cfl_allowed = f->frame_hdr->segmentation.lossless[b->seg_id] ?
1026
                cbw4 == 1 && cbh4 == 1 : !!(cfl_allowed_mask & (1 << bs));
1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070
            uint16_t *const uvmode_cdf = ts->cdf.m.uv_mode[cfl_allowed][b->y_mode];
            b->uv_mode = msac_decode_symbol_adapt(&ts->msac, uvmode_cdf,
                                         N_UV_INTRA_PRED_MODES - !cfl_allowed);
            if (DEBUG_BLOCK_INFO)
                printf("Post-uvmode[%d]: r=%d\n", b->uv_mode, ts->msac.rng);

            if (b->uv_mode == CFL_PRED) {
#define SIGN(a) (!!(a) + ((a) > 0))
                const int sign =
                    msac_decode_symbol_adapt(&ts->msac, ts->cdf.m.cfl_sign, 8) + 1;
                const int sign_u = sign * 0x56 >> 8, sign_v = sign - sign_u * 3;
                assert(sign_u == sign / 3);
                if (sign_u) {
                    const int ctx = (sign_u == 2) * 3 + sign_v;
                    b->cfl_alpha[0] = msac_decode_symbol_adapt(&ts->msac,
                                            ts->cdf.m.cfl_alpha[ctx], 16) + 1;
                    if (sign_u == 1) b->cfl_alpha[0] = -b->cfl_alpha[0];
                } else {
                    b->cfl_alpha[0] = 0;
                }
                if (sign_v) {
                    const int ctx = (sign_v == 2) * 3 + sign_u;
                    b->cfl_alpha[1] = msac_decode_symbol_adapt(&ts->msac,
                                            ts->cdf.m.cfl_alpha[ctx], 16) + 1;
                    if (sign_v == 1) b->cfl_alpha[1] = -b->cfl_alpha[1];
                } else {
                    b->cfl_alpha[1] = 0;
                }
#undef SIGN
                if (DEBUG_BLOCK_INFO)
                    printf("Post-uvalphas[%d/%d]: r=%d\n",
                           b->cfl_alpha[0], b->cfl_alpha[1], ts->msac.rng);
            } else if (b_dim[2] + b_dim[3] >= 2 && b->uv_mode >= VERT_PRED &&
                       b->uv_mode <= VERT_LEFT_PRED)
            {
                uint16_t *const acdf = ts->cdf.m.angle_delta[b->uv_mode - VERT_PRED];
                const int angle = msac_decode_symbol_adapt(&ts->msac, acdf, 7);
                b->uv_angle = angle - 3;
            } else {
                b->uv_angle = 0;
            }
        }

        b->pal_sz[0] = b->pal_sz[1] = 0;
1071
        if (f->frame_hdr->allow_screen_content_tools &&
1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090
            imax(bw4, bh4) <= 16 && bw4 + bh4 >= 4)
        {
            const int sz_ctx = b_dim[2] + b_dim[3] - 2;
            if (b->y_mode == DC_PRED) {
                const int pal_ctx = (t->a->pal_sz[bx4] > 0) + (t->l.pal_sz[by4] > 0);
                const int use_y_pal =
                    msac_decode_bool_adapt(&ts->msac, ts->cdf.m.pal_y[sz_ctx][pal_ctx]);
                if (DEBUG_BLOCK_INFO)
                    printf("Post-y_pal[%d]: r=%d\n", use_y_pal, ts->msac.rng);
                if (use_y_pal)
                    read_pal_plane(t, b, 0, sz_ctx, bx4, by4);
            }

            if (has_chroma && b->uv_mode == DC_PRED) {
                const int pal_ctx = b->pal_sz[0] > 0;
                const int use_uv_pal =
                    msac_decode_bool_adapt(&ts->msac, ts->cdf.m.pal_uv[pal_ctx]);
                if (DEBUG_BLOCK_INFO)
                    printf("Post-uv_pal[%d]: r=%d\n", use_uv_pal, ts->msac.rng);
1091 1092
                if (use_uv_pal) // see aomedia bug 2183 for why we use luma coordinates
                    read_pal_uv(t, b, sz_ctx, bx4, by4);
1093 1094 1095 1096
            }
        }

        if (b->y_mode == DC_PRED && !b->pal_sz[0] &&
1097
            imax(b_dim[2], b_dim[3]) <= 3 && f->seq_hdr->filter_intra)
1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135
        {
            const int is_filter = msac_decode_bool_adapt(&ts->msac,
                                            ts->cdf.m.use_filter_intra[bs]);
            if (is_filter) {
                b->y_mode = FILTER_PRED;
                b->y_angle = msac_decode_symbol_adapt(&ts->msac,
                                                  ts->cdf.m.filter_intra, 5);
            }
            if (DEBUG_BLOCK_INFO)
                printf("Post-filterintramode[%d/%d]: r=%d\n",
                       b->y_mode, b->y_angle, ts->msac.rng);
        }

        if (b->pal_sz[0]) {
            uint8_t *pal_idx;
            if (f->frame_thread.pass) {
                pal_idx = ts->frame_thread.pal_idx;
                ts->frame_thread.pal_idx += bw4 * bh4 * 16;
            } else
                pal_idx = t->scratch.pal_idx;
            read_pal_indices(t, pal_idx, b, 0, w4, h4, bw4, bh4);
            if (DEBUG_BLOCK_INFO)
                printf("Post-y-pal-indices: r=%d\n", ts->msac.rng);
        }

        if (has_chroma && b->pal_sz[1]) {
            uint8_t *pal_idx;
            if (f->frame_thread.pass) {
                pal_idx = ts->frame_thread.pal_idx;
                ts->frame_thread.pal_idx += cbw4 * cbh4 * 16;
            } else
                pal_idx = &t->scratch.pal_idx[bw4 * bh4 * 16];
            read_pal_indices(t, pal_idx, b, 1, cw4, ch4, cbw4, cbh4);
            if (DEBUG_BLOCK_INFO)
                printf("Post-uv-pal-indices: r=%d\n", ts->msac.rng);
        }

        const TxfmInfo *t_dim;
1136
        if (f->frame_hdr->segmentation.lossless[b->seg_id]) {
1137
            b->tx = b->uvtx = (int) TX_4X4;
1138
            t_dim = &dav1d_txfm_dimensions[TX_4X4];
1139
        } else {
1140
            b->tx = dav1d_max_txfm_size_for_bs[bs][0];
1141
            b->uvtx = dav1d_max_txfm_size_for_bs[bs][f->cur.p.layout];
1142
            t_dim = &dav1d_txfm_dimensions[b->tx];
1143
            if (f->frame_hdr->txfm_mode == TX_SWITCHABLE && t_dim->max > TX_4X4) {
1144
                const int tctx = get_tx_ctx(t->a, &t->l, t_dim, by4, bx4);
1145 1146 1147 1148 1149 1150
                uint16_t *const tx_cdf = ts->cdf.m.txsz[t_dim->max - 1][tctx];
                int depth = msac_decode_symbol_adapt(&ts->msac, tx_cdf,
                                                     imin(t_dim->max + 1, 3));

                while (depth--) {
                    b->tx = t_dim->sub;
1151
                    t_dim = &dav1d_txfm_dimensions[b->tx];
1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165
                }
            }
            if (DEBUG_BLOCK_INFO)
                printf("Post-tx[%d]: r=%d\n", b->tx, ts->msac.rng);
        }

        // reconstruction
        if (f->frame_thread.pass == 1) {
            f->bd_fn.read_coef_blocks(t, bs, b);
        } else {
            f->bd_fn.recon_b_intra(t, bs, intra_edge_flags, b);
        }

        dav1d_create_lf_mask_intra(t->lf_mask, f->lf.level, f->b4_stride,
1166
                                   f->frame_hdr, (const uint8_t (*)[8][2])
1167
                                   &ts->lflvl[b->seg_id][0][0][0],
1168
                                   t->bx, t->by, f->w4, f->h4, bs,
1169
                                   b->tx, b->uvtx, f->cur.p.layout,
1170 1171 1172 1173 1174
                                   &t->a->tx_lpf_y[bx4], &t->l.tx_lpf_y[by4],
                                   has_chroma ? &t->a->tx_lpf_uv[cbx4] : NULL,
                                   has_chroma ? &t->l.tx_lpf_uv[cby4] : NULL);

        // update contexts
1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185
#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
        rep_macro(type, t->dir tx_intra, off, mul * (((uint8_t *) &t_dim->lw)[diridx])); \
        rep_macro(type, t->dir tx, off, mul * (((uint8_t *) &t_dim->lw)[diridx])); \
        rep_macro(type, t->dir mode, off, mul * y_mode_nofilt); \
        rep_macro(type, t->dir pal_sz, off, mul * b->pal_sz[0]); \
        rep_macro(type, t->dir seg_pred, off, mul * seg_pred); \
        rep_macro(type, t->dir skip_mode, off, 0); \
        rep_macro(type, t->dir intra, off, mul); \
        rep_macro(type, t->dir skip, off, mul * b->skip); \
        /* see aomedia bug 2183 for why we use luma coordinates here */ \
        rep_macro(type, t->pal_sz_uv[diridx], off, mul * (has_chroma ? b->pal_sz[1] : 0)); \
1186
        if (f->frame_hdr->frame_type & 1) { \
1187
            rep_macro(type, t->dir comp_type, off, mul * COMP_INTER_NONE); \
1188 1189 1190 1191 1192
            rep_macro(type, t->dir ref[0], off, mul * ((uint8_t) -1)); \
            rep_macro(type, t->dir ref[1], off, mul * ((uint8_t) -1)); \
            rep_macro(type, t->dir filter[0], off, mul * N_SWITCHABLE_FILTERS); \
            rep_macro(type, t->dir filter[1], off, mul * N_SWITCHABLE_FILTERS); \
        }
1193 1194
        const enum IntraPredMode y_mode_nofilt =
            b->y_mode == FILTER_PRED ? DC_PRED : b->y_mode;
1195 1196 1197
        case_set(bh4, l., 1, by4);
        case_set(bw4, a->, 0, bx4);
#undef set_ctx
1198 1199 1200 1201 1202 1203 1204 1205 1206 1207
        if (b->pal_sz[0]) {
            uint16_t *const pal = f->frame_thread.pass ?
                f->frame_thread.pal[((t->by >> 1) + (t->bx & 1)) * (f->b4_stride >> 1) +
                                    ((t->bx >> 1) + (t->by & 1))][0] : t->pal[0];
            for (int x = 0; x < bw4; x++)
                memcpy(t->al_pal[0][bx4 + x][0], pal, 16);
            for (int y = 0; y < bh4; y++)
                memcpy(t->al_pal[1][by4 + y][0], pal, 16);
        }
        if (has_chroma) {
1208 1209 1210 1211 1212
#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
                rep_macro(type, t->dir uvmode, off, mul * b->uv_mode)
                case_set(cbh4, l., 1, cby4);
                case_set(cbw4, a->, 0, cbx4);
#undef set_ctx
1213 1214 1215 1216
            if (b->pal_sz[1]) for (int pl = 1; pl < 3; pl++) {
                uint16_t *const pal = f->frame_thread.pass ?
                    f->frame_thread.pal[((t->by >> 1) + (t->bx & 1)) * (f->b4_stride >> 1) +
                                        ((t->bx >> 1) + (t->by & 1))][pl] : t->pal[pl];
1217 1218 1219 1220 1221
                // see aomedia bug 2183 for why we use luma coordinates here
                for (int x = 0; x < bw4; x++)
                    memcpy(t->al_pal[0][bx4 + x][pl], pal, 16);
                for (int y = 0; y < bh4; y++)
                    memcpy(t->al_pal[1][by4 + y][pl], pal, 16);
1222 1223
            }
        }
1224
        if ((f->frame_hdr->frame_type & 1) || f->frame_hdr->allow_intrabc) {
1225 1226 1227
            splat_intraref(f->mvs, f->b4_stride, t->by, t->bx, bs,
                           y_mode_nofilt);
        }
1228
    } else if (!(f->frame_hdr->frame_type & 1)) {
1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243
        // intra block copy
        candidate_mv mvstack[8];
        int n_mvs;
        mv mvlist[2][2];
        av1_find_ref_mvs(mvstack, &n_mvs, mvlist, NULL,
                         (int[2]) { -1, -1 }, f->bw, f->bh,
                         bs, bp, t->by, t->bx, ts->tiling.col_start,
                         ts->tiling.col_end, ts->tiling.row_start,
                         ts->tiling.row_end, f->libaom_cm);

        if (mvlist[0][0].y | mvlist[0][0].x)
            b->mv[0] = mvlist[0][0];
        else if (mvlist[0][1].y | mvlist[0][1].x)
            b->mv[0] = mvlist[0][1];
        else {
1244
            if (t->by - (16 << f->seq_hdr->sb128) < ts->tiling.row_start) {
1245
                b->mv[0].y = 0;
1246
                b->mv[0].x = -(512 << f->seq_hdr->sb128) - 2048;
1247
            } else {
1248
                b->mv[0].y = -(512 << f->seq_hdr->sb128);
1249 1250 1251 1252 1253 1254
                b->mv[0].x = 0;
            }
        }

        const struct mv ref = b->mv[0];
        read_mv_residual(t, &b->mv[0], &ts->cdf.dmv, 0);
1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283

        // clip intrabc motion vector to decoded parts of current tile
        int border_left = ts->tiling.col_start * 4;
        int border_top  = ts->tiling.row_start * 4;
        if (has_chroma) {
            if (bw4 < 2 &&  ss_hor)
                border_left += 4;
            if (bh4 < 2 &&  ss_ver)
                border_top  += 4;
        }
        int src_left   = t->bx * 4 + (b->mv[0].x >> 3);
        int src_top    = t->by * 4 + (b->mv[0].y >> 3);
        int src_right  = src_left + bw4 * 4;
        int src_bottom = src_top  + bh4 * 4;

        // check against left or right tile boundary and adjust if necessary
        if (src_left < border_left) {
            src_right += border_left - src_left;
            src_left  += border_left - src_left;
        } else if (src_right > ts->tiling.col_end * 4) {
            src_left  -= src_right - ts->tiling.col_end * 4;
            src_right -= src_right - ts->tiling.col_end * 4;
        }
        // check against top tile boundary and adjust if necessary
        if (src_top < border_top) {
            src_bottom += border_top - src_top;
            src_top    += border_top - src_top;
        }

1284 1285 1286
        const int sbx = (t->bx >> (4 + f->seq_hdr->sb128)) << (6 + f->seq_hdr->sb128);
        const int sby = (t->by >> (4 + f->seq_hdr->sb128)) << (6 + f->seq_hdr->sb128);
        const int sb_size = 1 << (6 + f->seq_hdr->sb128);
1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310
        // check for overlap with current superblock
        if (src_bottom > sby && src_right > sbx) {
            if (src_top - border_top >= src_bottom - sby) {
                // if possible move src up into the previous suberblock row
                src_top    -= src_bottom - sby;
                src_bottom -= src_bottom - sby;
            } else if (src_left - border_left >= src_right - sbx) {
                // if possible move src left into the previous suberblock
                src_left  -= src_right - sbx;
                src_right -= src_right - sbx;
            }
        }
        // move src up if it is below current superblock row
        if (src_bottom > sby + sb_size) {
            src_top    -= src_bottom - (sby + sb_size);
            src_bottom -= src_bottom - (sby + sb_size);
        }
        // error out if mv still overlaps with the current superblock
        if (src_bottom > sby && src_right > sbx)
            return -1;

        b->mv[0].x = (src_left - t->bx * 4) * 8;
        b->mv[0].y = (src_top  - t->by * 4) * 8;

1311 1312 1313 1314 1315 1316 1317 1318 1319
        if (DEBUG_BLOCK_INFO)
            printf("Post-dmv[%d/%d,ref=%d/%d|%d/%d]: r=%d\n",
                   b->mv[0].y, b->mv[0].x, ref.y, ref.x,
                   mvlist[0][0].y, mvlist[0][0].x, ts->msac.rng);
        read_vartx_tree(t, b, bs, bx4, by4);

        // reconstruction
        if (f->frame_thread.pass == 1) {
            f->bd_fn.read_coef_blocks(t, bs, b);
1320
            b->filter2d = FILTER_2D_BILINEAR;
1321
        } else {
1322
            if (f->bd_fn.recon_b_inter(t, bs, b)) return -1;
1323 1324 1325 1326
        }

        splat_intrabc_mv(f->mvs, f->b4_stride, t->by, t->bx, bs, b->mv[0]);

1327 1328 1329 1330 1331 1332
#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
        rep_macro(type, t->dir tx_intra, off, mul * b_dim[2 + diridx]); \
        rep_macro(type, t->dir mode, off, mul * DC_PRED); \
        rep_macro(type, t->dir pal_sz, off, 0); \
        /* see aomedia bug 2183 for why this is outside if (has_chroma) */ \
        rep_macro(type, t->pal_sz_uv[diridx], off, 0); \
1333
        rep_macro(type, t->dir seg_pred, off, mul * seg_pred); \
1334 1335
        rep_macro(type, t->dir skip_mode, off, 0); \
        rep_macro(type, t->dir intra, off, 0); \
1336
        rep_macro(type, t->dir skip, off, mul * b->skip)
1337 1338 1339
        case_set(bh4, l., 1, by4);
        case_set(bw4, a->, 0, bx4);
#undef set_ctx
1340
        if (has_chroma) {
1341 1342 1343 1344 1345
#define set_ctx(type, dir, diridx, off, mul, rep_macro) \
            rep_macro(type, t->dir uvmode, off, mul * DC_PRED)
            case_set(cbh4, l., 1, cby4);
            case_set(cbw4, a->, 0, cbx4);
#undef set_ctx
1346 1347 1348 1349 1350 1351 1352
        }
    } else {
        // inter-specific mode/mv coding
        int is_comp, has_subpel_filter;

        if (b->skip_mode) {
            is_comp = 1;
1353
        } else if ((!seg || (seg->ref == -1 && !seg->globalmv && !seg->skip)) &&
1354
                   f->frame_hdr->switchable_comp_refs && imin(bw4, bh4) > 1)
1355
        {
1356 1357 1358 1359 1360 1361 1362 1363 1364 1365
            const int ctx = get_comp_ctx(t->a, &t->l, by4, bx4,
                                         have_top, have_left);
            is_comp = msac_decode_bool_adapt(&ts->msac, ts->cdf.m.comp[ctx]);
            if (DEBUG_BLOCK_INFO)
                printf("Post-compflag[%d]: r=%d\n", is_comp, ts->msac.rng);
        } else {
            is_comp = 0;
        }

        if (b->skip_mode) {
1366 1367
            b->ref[0] = f->frame_hdr->skip_mode_refs[0];
            b->ref[1] = f->frame_hdr->skip_mode_refs[1];
1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383
            b->comp_type = COMP_INTER_AVG;
            b->inter_mode = NEARESTMV_NEARESTMV;
            b->drl_idx = 0;
            has_subpel_filter = 0;

            candidate_mv mvstack[8];
            int n_mvs, ctx;
            mv mvlist[2][2];
            av1_find_ref_mvs(mvstack, &n_mvs, mvlist, &ctx,
                             (int[2]) { b->ref[0], b->ref[1] }, f->bw, f->bh,
                             bs, bp, t->by, t->bx, ts->tiling.col_start,
                             ts->tiling.col_end, ts->tiling.row_start,
                             ts->tiling.row_end, f->libaom_cm);

            b->mv[0] = mvstack[0].this_mv;
            b->mv[1] = mvstack[0].comp_mv;
1384 1385
            fix_mv_precision(f->frame_hdr, &b->mv[0]);
            fix_mv_precision(f->frame_hdr, &b->mv[1]);
1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466
            if (DEBUG_BLOCK_INFO)
                printf("Post-skipmodeblock[mv=1:y=%d,x=%d,2:y=%d,x=%d,refs=%d+%d\n",
                       b->mv[0].y, b->mv[0].x, b->mv[1].y, b->mv[1].x,
                       b->ref[0], b->ref[1]);
        } else if (is_comp) {
            const int dir_ctx = get_comp_dir_ctx(t->a, &t->l, by4, bx4,
                                                 have_top, have_left);
            if (msac_decode_bool_adapt(&ts->msac, ts->cdf.m.comp_dir[dir_ctx])) {
                // bidir - first reference (fw)
                const int ctx1 = av1_get_fwd_ref_ctx(t->a, &t->l, by4, bx4,
                                                     have_top, have_left);
                if (msac_decode_bool_adapt(&ts->msac,
                                           ts->cdf.m.comp_fwd_ref[0][ctx1]))
                {
                    const int ctx2 = av1_get_fwd_ref_2_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                    b->ref[0] = 2 + msac_decode_bool_adapt(&ts->msac,
                                            ts->cdf.m.comp_fwd_ref[2][ctx2]);
                } else {
                    const int ctx2 = av1_get_fwd_ref_1_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                    b->ref[0] = msac_decode_bool_adapt(&ts->msac,
                                            ts->cdf.m.comp_fwd_ref[1][ctx2]);
                }

                // second reference (bw)
                const int ctx3 = av1_get_bwd_ref_ctx(t->a, &t->l, by4, bx4,
                                                     have_top, have_left);
                if (msac_decode_bool_adapt(&ts->msac,
                                           ts->cdf.m.comp_bwd_ref[0][ctx3]))
                {
                    b->ref[1] = 6;
                } else {
                    const int ctx4 = av1_get_bwd_ref_1_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                    b->ref[1] = 4 + msac_decode_bool_adapt(&ts->msac,
                                           ts->cdf.m.comp_bwd_ref[1][ctx4]);
                }
            } else {
                // unidir
                const int uctx_p = av1_get_uni_p_ctx(t->a, &t->l, by4, bx4,
                                                     have_top, have_left);
                if (msac_decode_bool_adapt(&ts->msac,
                                           ts->cdf.m.comp_uni_ref[0][uctx_p]))
                {
                    b->ref[0] = 4;
                    b->ref[1] = 6;
                } else {
                    const int uctx_p1 = av1_get_uni_p1_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                    b->ref[0] = 0;
                    b->ref[1] = 1 + msac_decode_bool_adapt(&ts->msac,
                                           ts->cdf.m.comp_uni_ref[1][uctx_p1]);
                    if (b->ref[1] == 2) {
                        const int uctx_p2 = av1_get_uni_p2_ctx(t->a, &t->l, by4, bx4,
                                                               have_top, have_left);
                        b->ref[1] += msac_decode_bool_adapt(&ts->msac,
                                           ts->cdf.m.comp_uni_ref[2][uctx_p2]);
                    }
                }
            }
            if (DEBUG_BLOCK_INFO)
                printf("Post-refs[%d/%d]: r=%d\n",
                       b->ref[0], b->ref[1], ts->msac.rng);

            candidate_mv mvstack[8];
            int n_mvs, ctx;
            mv mvlist[2][2];
            av1_find_ref_mvs(mvstack, &n_mvs, mvlist, &ctx,
                             (int[2]) { b->ref[0], b->ref[1] }, f->bw, f->bh,
                             bs, bp, t->by, t->bx, ts->tiling.col_start,
                             ts->tiling.col_end, ts->tiling.row_start,
                             ts->tiling.row_end, f->libaom_cm);

            b->inter_mode = msac_decode_symbol_adapt(&ts->msac,
                                             ts->cdf.m.comp_inter_mode[ctx],
                                             N_COMP_INTER_PRED_MODES);
            if (DEBUG_BLOCK_INFO)
                printf("Post-compintermode[%d,ctx=%d,n_mvs=%d]: r=%d\n",
                       b->inter_mode, ctx, n_mvs, ts->msac.rng);

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            const uint8_t *const im = dav1d_comp_inter_pred_modes[b->inter_mode];
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            b->drl_idx = 0;
            if (b->inter_mode == NEWMV_NEWMV) {
                if (n_mvs > 1) {
                    const int drl_ctx_v1 = get_drl_context(mvstack, 0);
                    b->drl_idx += msac_decode_bool_adapt(&ts->msac,
                                             ts->cdf.m.drl_bit[drl_ctx_v1]);
                    if (b->drl_idx == 1 && n_mvs > 2) {
                        const int drl_ctx_v2 = get_drl_context(mvstack, 1);
                        b->drl_idx += msac_decode_bool_adapt(&ts->msac,
                                             ts->cdf.m.drl_bit[drl_ctx_v2]);
                    }
                    if (DEBUG_BLOCK_INFO)
                        printf("Post-drlidx[%d,n_mvs=%d]: r=%d\n",
                               b->drl_idx, n_mvs, ts->msac.rng);
                }
            } else if (im[0] == NEARMV || im[1] == NEARMV) {
                b->drl_idx = 1;
                if (n_mvs > 2) {
                    const int drl_ctx_v2 = get_drl_context(mvstack, 1);
                    b->drl_idx += msac_decode_bool_adapt(&ts->msac,
                                             ts->cdf.m.drl_bit[drl_ctx_v2]);
                    if (b->drl_idx == 2 && n_mvs > 3) {
                        const int drl_ctx_v3 = get_drl_context(mvstack, 2);
                        b->drl_idx += msac_decode_bool_adapt(&ts->msac,
                                             ts->cdf.m.drl_bit[drl_ctx_v3]);
                    }
                    if (DEBUG_BLOCK_INFO)
                        printf("Post-drlidx[%d,n_mvs=%d]: r=%d\n",
                               b->drl_idx, n_mvs, ts->msac.rng);
                }
            }

#define assign_comp_mv(idx, pfx) \
            switch (im[idx]) { \
            case NEARMV: \
            case NEARESTMV: \
                b->mv[idx] = mvstack[b->drl_idx].pfx##_mv; \
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                fix_mv_precision(f->frame_hdr, &b->mv[idx]); \
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                break; \
            case GLOBALMV: \
                has_subpel_filter |= \
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                    f->frame_hdr->gmv[b->ref[idx]].type == WM_TYPE_TRANSLATION; \
                b->mv[idx] = get_gmv_2d(&f->frame_hdr->gmv[b->ref[idx]], \
                                        t->bx, t->by, bw4, bh4, f->frame_hdr); \
                fix_mv_precision(f->frame_hdr, &b->mv[idx]); \
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                break; \
            case NEWMV: \
                b->mv[idx] = mvstack[b->drl_idx].pfx##_mv; \
                read_mv_residual(t, &b->mv[idx], &ts->cdf.mv, \
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                                 !f->frame_hdr->force_integer_mv); \
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                break; \
            }
            has_subpel_filter = imin(bw4, bh4) == 1 ||
                                b->inter_mode != GLOBALMV_GLOBALMV;
            assign_comp_mv(0, this);
            assign_comp_mv(1, comp);
#undef assign_comp_mv
            if (DEBUG_BLOCK_INFO)
                printf("Post-residual_mv[1:y=%d,x=%d,2:y=%d,x=%d]: r=%d\n",
                       b->mv[0].y, b->mv[0].x, b->mv[1].y, b->mv[1].x,
                       ts->msac.rng);

            // jnt_comp vs. seg vs. wedge
            int is_segwedge = 0;
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            if (f->seq_hdr->masked_compound) {
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                const int mask_ctx = get_mask_comp_ctx(t->a, &t->l, by4, bx4);

                is_segwedge = msac_decode_bool_adapt(&ts->msac,
                                                 ts->cdf.m.mask_comp[mask_ctx]);
                if (DEBUG_BLOCK_INFO)
                    printf("Post-segwedge_vs_jntavg[%d,ctx=%d]: r=%d\n",
                           is_segwedge, mask_ctx, ts->msac.rng);
            }

            if (!is_segwedge) {
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                if (f->seq_hdr->jnt_comp) {
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                    const int jnt_ctx =
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                        get_jnt_comp_ctx(f->seq_hdr->order_hint_n_bits,
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                                         f->cur.poc, f->refp[b->ref[0]].p.poc,
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                                         f->refp[b->ref[1]].p.poc, t->a, &t->l,
                                         by4, bx4);
                    b->comp_type = COMP_INTER_WEIGHTED_AVG +
                        msac_decode_bool_adapt(&ts->msac,
                                               ts->cdf.m.jnt_comp[jnt_ctx]);
                    if (DEBUG_BLOCK_INFO)
                        printf("Post-jnt_comp[%d,ctx=%d[ac:%d,ar:%d,lc:%d,lr:%d]]: r=%d\n",
                               b->comp_type == COMP_INTER_AVG,
                               jnt_ctx, t->a->comp_type[bx4], t->a->ref[0][bx4],
                               t->l.comp_type[by4], t->l.ref[0][by4],
                               ts->msac.rng);
                } else {
                    b->comp_type = COMP_INTER_AVG;
                }
            } else {
                if (wedge_allowed_mask & (1 << bs)) {
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                    const int ctx = dav1d_wedge_ctx_lut[bs];
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                    b->comp_type = COMP_INTER_WEDGE -
                        msac_decode_bool_adapt(&ts->msac,
                                               ts->cdf.m.wedge_comp[ctx]);
                    if (b->comp_type == COMP_INTER_WEDGE)
                        b->wedge_idx = msac_decode_symbol_adapt(&ts->msac,
                                                ts->cdf.m.wedge_idx[ctx], 16);
                } else {
                    b->comp_type = COMP_INTER_SEG;
                }
Rostislav Pehlivanov's avatar
Rostislav Pehlivanov committed
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                b->mask_sign = msac_decode_bool(&ts->msac, EC_BOOL_EPROB);
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                if (DEBUG_BLOCK_INFO)
                    printf("Post-seg/wedge[%d,wedge_idx=%d,sign=%d]: r=%d\n",
                           b->comp_type == COMP_INTER_WEDGE,
                           b->wedge_idx, b->mask_sign, ts->msac.rng);
            }
        } else {
            b->comp_type = COMP_INTER_NONE;

            // ref
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            if (seg && seg->ref > 0) {
                b->ref[0] = seg->ref - 1;
            } else if (seg && (seg->globalmv || seg->skip)) {
                b->ref[0] = 0;
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            } else {
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                const int ctx1 = av1_get_ref_ctx(t->a, &t->l, by4, bx4,
                                                 have_top, have_left);
                if (msac_decode_bool_adapt(&ts->msac, ts->cdf.m.ref[0][ctx1])) {
                    const int ctx2 = av1_get_ref_2_ctx(t->a, &t->l, by4, bx4,
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                                                       have_top, have_left);
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                    if (msac_decode_bool_adapt(&ts->msac, ts->cdf.m.ref[1][ctx2])) {
                        b->ref[0] = 6;
                    } else {
                        const int ctx3 = av1_get_ref_6_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                        b->ref[0] = 4 + msac_decode_bool_adapt(&ts->msac,
                                                           ts->cdf.m.ref[5][ctx3]);
                    }
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                } else {
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                    const int ctx2 = av1_get_ref_3_ctx(t->a, &t->l, by4, bx4,
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                                                       have_top, have_left);
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                    if (msac_decode_bool_adapt(&ts->msac, ts->cdf.m.ref[2][ctx2])) {
                        const int ctx3 = av1_get_ref_5_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                        b->ref[0] = 2 + msac_decode_bool_adapt(&ts->msac,
                                                           ts->cdf.m.ref[4][ctx3]);
                    } else {
                        const int ctx3 = av1_get_ref_4_ctx(t->a, &t->l, by4, bx4,
                                                           have_top, have_left);
                        b->ref[0] = msac_decode_bool_adapt(&ts->msac,
                                                           ts->cdf.m.ref[3][ctx3]);
                    }
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                }
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                if (DEBUG_BLOCK_INFO)
                    printf("Post-ref[%d]: r=%d\n", b->ref[0], ts->msac.rng);
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            }
            b->ref[1] = -1;

            candidate_mv mvstack[8];
            int n_mvs, ctx;
            mv mvlist[2][2];
            av1_find_ref_mvs(mvstack, &n_mvs, mvlist, &ctx,
                             (int[2]) { b->ref[0], -1 }, f->bw, f->bh, bs, bp,
                             t->by, t->bx, ts->tiling.col_start,
                             ts->tiling.col_end, ts->tiling.row_start,
                             ts->tiling.row_end, f->libaom_cm);

            // mode parsing and mv derivation from ref_mvs
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            if ((seg && (seg->skip || seg->globalmv)) ||
                msac_decode_bool_adapt(&ts->msac, ts->cdf.m.newmv_mode[ctx & 7]))
            {
                if ((seg && (seg->skip || seg->globalmv)) ||
                    !msac_decode_bool_adapt(&ts->msac,
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                                        ts->cdf.m.globalmv_mode[(ctx >> 3) & 1]))
                {
                    b->inter_mode = GLOBALMV;
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                    b->mv[0] = get_gmv_2d(&f->frame_hdr->gmv[b->ref[0]],
                                          t->bx, t->by, bw4, bh4, f->frame_hdr);
                    fix_mv_precision(f->frame_hdr, &b->mv[0]);
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                    has_subpel_filter = imin(bw4, bh4) == 1 ||
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                        f->frame_hdr->gmv[b->ref[0]].type == WM_TYPE_TRANSLATION;
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                } else {
                    has_subpel_filter = 1;
                    if (msac_decode_bool_adapt(&ts->msac,
                                       ts->cdf.m.refmv_mode[(ctx >> 4) & 15]))
                    {
                        b->inter_mode = NEARMV;
                        b->drl_idx = 1;
                        if (n_mvs > 2) {
                            const int drl_ctx_v2 = get_drl_context(mvstack, 1);
                            b->drl_idx += msac_decode_bool_adapt(&ts->msac,
                                                 ts->cdf.m.drl_bit[drl_ctx_v2]);
                            if (b->drl_idx == 2 && n_mvs > 3) {
                                const int drl_ctx_v3 =
                                    get_drl_context(mvstack, 2);
                                b->drl_idx += msac_decode_bool_adapt(&ts->msac,
                                                 ts->cdf.m.drl_bit[drl_ctx_v3]);
                            }
                        }
                    } else {
                        b->inter_mode = NEARESTMV;
                        b->drl_idx = 0;
                    }
                    if (b->drl_idx >= 2) {
                        b->mv[0] = mvstack[b->drl_idx].this_mv;
                    } else {
                        b->mv[0] = mvlist[0][b->drl_idx];