lib.c 11.2 KB
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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"
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#include "version.h"
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#include <errno.h>
#include <string.h>

#include "dav1d/dav1d.h"
#include "dav1d/data.h"

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

#include "src/internal.h"
#include "src/obu.h"
#include "src/qm.h"
#include "src/ref.h"
#include "src/thread_task.h"
#include "src/wedge.h"

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static void init_internal(void) {
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    av1_init_wedge_masks();
    av1_init_interintra_masks();
    av1_init_qm_tables();
}

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static pthread_once_t initted = PTHREAD_ONCE_INIT;

void dav1d_init(void) {
    pthread_once(&initted, init_internal);
}

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const char *dav1d_version(void) {
    return DAV1D_VERSION;
}

void dav1d_default_settings(Dav1dSettings *const s) {
    s->n_frame_threads = 1;
    s->n_tile_threads = 1;
}

int dav1d_open(Dav1dContext **const c_out,
               const Dav1dSettings *const s)
{
    validate_input_or_ret(c_out != NULL, -EINVAL);
    validate_input_or_ret(s != NULL, -EINVAL);
    validate_input_or_ret(s->n_tile_threads >= 1 &&
                          s->n_tile_threads <= 64, -EINVAL);
    validate_input_or_ret(s->n_frame_threads >= 1 &&
                          s->n_frame_threads <= 256, -EINVAL);

    Dav1dContext *const c = *c_out = dav1d_alloc_aligned(sizeof(*c), 32);
    if (!c) goto error;
    memset(c, 0, sizeof(*c));

    c->n_fc = s->n_frame_threads;
    c->fc = dav1d_alloc_aligned(sizeof(*c->fc) * s->n_frame_threads, 32);
    if (!c->fc) goto error;
    memset(c->fc, 0, sizeof(*c->fc) * s->n_frame_threads);
    if (c->n_fc > 1) {
        c->frame_thread.out_delayed =
            malloc(sizeof(*c->frame_thread.out_delayed) * c->n_fc);
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        if (!c->frame_thread.out_delayed) goto error;
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        memset(c->frame_thread.out_delayed, 0,
               sizeof(*c->frame_thread.out_delayed) * c->n_fc);
    }
    for (int n = 0; n < s->n_frame_threads; n++) {
        Dav1dFrameContext *const f = &c->fc[n];
        f->c = c;
        f->lf.last_sharpness = -1;
        f->n_tc = s->n_tile_threads;
        f->tc = dav1d_alloc_aligned(sizeof(*f->tc) * s->n_tile_threads, 32);
        if (!f->tc) goto error;
        memset(f->tc, 0, sizeof(*f->tc) * s->n_tile_threads);
        if (f->n_tc > 1) {
            pthread_mutex_init(&f->tile_thread.lock, NULL);
            pthread_cond_init(&f->tile_thread.cond, NULL);
            pthread_cond_init(&f->tile_thread.icond, NULL);
        }
        for (int m = 0; m < s->n_tile_threads; m++) {
            Dav1dTileContext *const t = &f->tc[m];
            t->f = f;
            t->cf = dav1d_alloc_aligned(32 * 32 * sizeof(int32_t), 32);
            if (!t->cf) goto error;
            t->scratch.mem = dav1d_alloc_aligned(128 * 128 * 8, 32);
            if (!t->scratch.mem) goto error;
            memset(t->cf, 0, 32 * 32 * sizeof(int32_t));
            t->emu_edge =
                dav1d_alloc_aligned(160 * (128 + 7) * sizeof(uint16_t), 32);
            if (!t->emu_edge) goto error;
            if (f->n_tc > 1) {
                pthread_mutex_init(&t->tile_thread.td.lock, NULL);
                pthread_cond_init(&t->tile_thread.td.cond, NULL);
                t->tile_thread.fttd = &f->tile_thread;
                pthread_create(&t->tile_thread.td.thread, NULL, dav1d_tile_task, t);
            }
        }
        f->libaom_cm = av1_alloc_ref_mv_common();
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        if (!f->libaom_cm) goto error;
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        if (c->n_fc > 1) {
            pthread_mutex_init(&f->frame_thread.td.lock, NULL);
            pthread_cond_init(&f->frame_thread.td.cond, NULL);
            pthread_create(&f->frame_thread.td.thread, NULL, dav1d_frame_task, f);
        }
    }

    // intra edge tree
    c->intra_edge.root[BL_128X128] = &c->intra_edge.branch_sb128[0].node;
    init_mode_tree(c->intra_edge.root[BL_128X128], c->intra_edge.tip_sb128, 1);
    c->intra_edge.root[BL_64X64] = &c->intra_edge.branch_sb64[0].node;
    init_mode_tree(c->intra_edge.root[BL_64X64], c->intra_edge.tip_sb64, 0);

    return 0;

error:
    if (c) {
        if (c->fc) {
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            for (unsigned n = 0; n < c->n_fc; n++)
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                if (c->fc[n].tc)
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                    dav1d_free_aligned(c->fc[n].tc);
            dav1d_free_aligned(c->fc);
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        }
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        dav1d_freep_aligned(c_out);
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    }
    fprintf(stderr, "Failed to allocate memory: %s\n", strerror(errno));
    return -ENOMEM;
}

int dav1d_decode(Dav1dContext *const c,
                 Dav1dData *const in, Dav1dPicture *const out)
{
    int res;

    validate_input_or_ret(c != NULL, -EINVAL);
    validate_input_or_ret(out != NULL, -EINVAL);

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    if (!in) {
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        if (c->n_fc == 1) return -EAGAIN;

        // flush
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        unsigned flush_count = 0;
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        do {
            const unsigned next = c->frame_thread.next;
            Dav1dFrameContext *const f = &c->fc[next];

            pthread_mutex_lock(&f->frame_thread.td.lock);
            while (f->n_tile_data > 0)
                pthread_cond_wait(&f->frame_thread.td.cond,
                                  &f->frame_thread.td.lock);
            pthread_mutex_unlock(&f->frame_thread.td.lock);
            Dav1dThreadPicture *const out_delayed =
                &c->frame_thread.out_delayed[next];
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            if (++c->frame_thread.next == c->n_fc)
                c->frame_thread.next = 0;
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            if (out_delayed->p.data[0]) {
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                if (out_delayed->visible && !out_delayed->flushed) {
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                    dav1d_picture_ref(out, &out_delayed->p);
                }
                dav1d_thread_picture_unref(out_delayed);
                if (out->data[0]) {
                    return 0;
                }
                // else continue
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            }
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        } while (++flush_count < c->n_fc);
        return -EAGAIN;
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    }

    while (in->sz > 0) {
        if ((res = parse_obus(c, in)) < 0)
            return res;

        assert(res <= in->sz);
        in->sz -= res;
        in->data += res;
        if (c->out.data[0]) {
            if (!in->sz) dav1d_data_unref(in);
            dav1d_picture_ref(out, &c->out);
            dav1d_picture_unref(&c->out);
            return 0;
        }
    }

    if (c->out.data[0]) {
        dav1d_picture_ref(out, &c->out);
        dav1d_picture_unref(&c->out);
        return 0;
    }

    return -EAGAIN;
}

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void dav1d_flush(Dav1dContext *const c) {
    if (c->n_fc == 1) return;

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    for (unsigned n = 0; n < c->n_fc; n++)
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        c->frame_thread.out_delayed[n].flushed = 1;
}

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void dav1d_close(Dav1dContext **const c_out) {
    validate_input(c_out != NULL);

    Dav1dContext *const c = *c_out;
    if (!c) return;
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    for (unsigned n = 0; n < c->n_fc; n++) {
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        Dav1dFrameContext *const f = &c->fc[n];

        // clean-up threading stuff
        if (c->n_fc > 1) {
            pthread_mutex_lock(&f->frame_thread.td.lock);
            f->frame_thread.die = 1;
            pthread_cond_signal(&f->frame_thread.td.cond);
            pthread_mutex_unlock(&f->frame_thread.td.lock);
            pthread_join(f->frame_thread.td.thread, NULL);
            freep(&f->frame_thread.b);
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            dav1d_freep_aligned(&f->frame_thread.pal_idx);
            dav1d_freep_aligned(&f->frame_thread.cf);
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            freep(&f->frame_thread.tile_start_off);
            freep(&f->frame_thread.pal);
            freep(&f->frame_thread.cbi);
            pthread_mutex_destroy(&f->frame_thread.td.lock);
            pthread_cond_destroy(&f->frame_thread.td.cond);
        }
        if (f->n_tc > 1) {
            pthread_mutex_lock(&f->tile_thread.lock);
            for (int m = 0; m < f->n_tc; m++) {
                Dav1dTileContext *const t = &f->tc[m];
                t->tile_thread.die = 1;
            }
            pthread_cond_broadcast(&f->tile_thread.cond);
            while (f->tile_thread.available != (1 << f->n_tc) - 1)
                pthread_cond_wait(&f->tile_thread.icond,
                                  &f->tile_thread.lock);
            pthread_mutex_unlock(&f->tile_thread.lock);
            for (int m = 0; m < f->n_tc; m++) {
                Dav1dTileContext *const t = &f->tc[m];
                if (f->n_tc > 1) {
                    pthread_join(t->tile_thread.td.thread, NULL);
                    pthread_mutex_destroy(&t->tile_thread.td.lock);
                    pthread_cond_destroy(&t->tile_thread.td.cond);
                }
            }
            pthread_mutex_destroy(&f->tile_thread.lock);
            pthread_cond_destroy(&f->tile_thread.cond);
            pthread_cond_destroy(&f->tile_thread.icond);
        }
        for (int m = 0; m < f->n_tc; m++) {
            Dav1dTileContext *const t = &f->tc[m];
            dav1d_free_aligned(t->cf);
            dav1d_free_aligned(t->scratch.mem);
            dav1d_free_aligned(t->emu_edge);
        }
        for (int m = 0; m < f->n_ts; m++) {
            Dav1dTileState *const ts = &f->ts[m];
            pthread_cond_destroy(&ts->tile_thread.cond);
            pthread_mutex_destroy(&ts->tile_thread.lock);
        }
        free(f->ts);
        dav1d_free_aligned(f->tc);
        dav1d_free_aligned(f->ipred_edge[0]);
        free(f->a);
        free(f->lf.mask);
        free(f->lf.level);
        free(f->lf.tx_lpf_right_edge[0]);
        av1_free_ref_mv_common(f->libaom_cm);
        dav1d_free_aligned(f->lf.cdef_line);
        dav1d_free_aligned(f->lf.lr_lpf_line);
    }
    dav1d_free_aligned(c->fc);
    if (c->n_fc > 1) {
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        for (unsigned n = 0; n < c->n_fc; n++)
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            if (c->frame_thread.out_delayed[n].p.data[0])
                dav1d_thread_picture_unref(&c->frame_thread.out_delayed[n]);
        free(c->frame_thread.out_delayed);
    }
    for (int n = 0; n < c->n_tile_data; n++)
        dav1d_data_unref(&c->tile[n].data);
    for (int n = 0; n < 8; n++) {
        if (c->cdf[n].cdf)
            cdf_thread_unref(&c->cdf[n]);
        if (c->refs[n].p.p.data[0])
            dav1d_thread_picture_unref(&c->refs[n].p);
        if (c->refs[n].refmvs)
            dav1d_ref_dec(c->refs[n].refmvs);
        if (c->refs[n].segmap)
            dav1d_ref_dec(c->refs[n].segmap);
    }
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    dav1d_freep_aligned(c_out);
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}