#ifndef foomemblockqhfoo #define foomemblockqhfoo /*** This file is part of PulseAudio. Copyright 2004-2006 Lennart Poettering PulseAudio is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. PulseAudio is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with PulseAudio; if not, see . ***/ #include #include #include #include #include /* A memblockq is a queue of pa_memchunks (yep, the name is not * perfect). It is similar to the ring buffers used by most other * audio software. In contrast to a ring buffer this memblockq data * type doesn't need to copy any data around, it just maintains * references to reference counted memory blocks. */ typedef struct pa_memblockq pa_memblockq; /* Parameters: - name: name for debugging purposes - idx: start value for both read and write index - maxlength: maximum length of queue. If more data is pushed into the queue, the operation will fail. Must not be 0. - tlength: the target length of the queue. Pass 0 for the default. - ss: Sample spec describing the queue contents. Only multiples of the frame size as implied by the sample spec are allowed into the queue or can be popped from it. - prebuf: If the queue runs empty wait until this many bytes are in queue again before passing the first byte out. If set to 0 pa_memblockq_pop() will return a silence memblock if no data is in the queue and will never fail. Pass (size_t) -1 for the default. - minreq: pa_memblockq_pop_missing() will only return values greater than this value. Pass 0 for the default. - maxrewind: how many bytes of history to keep in the queue - silence: return this memchunk when reading uninitialized data */ pa_memblockq* pa_memblockq_new( const char *name, int64_t idx, size_t maxlength, size_t tlength, const pa_sample_spec *sample_spec, size_t prebuf, size_t minreq, size_t maxrewind, pa_memchunk *silence); void pa_memblockq_free(pa_memblockq*bq); /* Push a new memory chunk into the queue. */ int pa_memblockq_push(pa_memblockq* bq, const pa_memchunk *chunk); /* Push a new memory chunk into the queue, but filter it through a * pa_mcalign object. Don't mix this with pa_memblockq_seek() unless * you know what you do. */ int pa_memblockq_push_align(pa_memblockq* bq, const pa_memchunk *chunk); /* Manipulate the write pointer */ void pa_memblockq_seek(pa_memblockq *bq, int64_t offset, pa_seek_mode_t seek, bool account); /* Return a copy of the next memory chunk in the queue. It is not * removed from the queue. There are two reasons this function might * fail: 1. prebuffering is active, 2. queue is empty and no silence * memblock was passed at initialization. If the queue is not empty, * but we're currently at a hole in the queue and no silence memblock * was passed we return the length of the hole in chunk->length. */ int pa_memblockq_peek(pa_memblockq* bq, pa_memchunk *chunk); /* Much like pa_memblockq_peek, but guarantees that the returned chunk * will have a length of the block size passed. You must configure a * silence memchunk for this memblockq if you use this call. */ int pa_memblockq_peek_fixed_size(pa_memblockq *bq, size_t block_size, pa_memchunk *chunk); /* Drop the specified bytes from the queue. */ void pa_memblockq_drop(pa_memblockq *bq, size_t length); /* Rewind the read index. If the history is shorter than the specified length we'll point to silence afterwards. */ void pa_memblockq_rewind(pa_memblockq *bq, size_t length); /* Test if the pa_memblockq is currently readable, that is, more data than base */ bool pa_memblockq_is_readable(pa_memblockq *bq); /* Return the length of the queue in bytes */ size_t pa_memblockq_get_length(pa_memblockq *bq); /* Return the number of bytes that are missing since the last call to * this function, reset the internal counter to 0. */ size_t pa_memblockq_pop_missing(pa_memblockq *bq); /* Directly moves the data from the source memblockq into bq */ int pa_memblockq_splice(pa_memblockq *bq, pa_memblockq *source); /* Set the queue to silence, set write index to read index */ void pa_memblockq_flush_write(pa_memblockq *bq, bool account); /* Set the queue to silence, set write read index to write index*/ void pa_memblockq_flush_read(pa_memblockq *bq); /* Ignore prebuf for now */ void pa_memblockq_prebuf_disable(pa_memblockq *bq); /* Force prebuf */ void pa_memblockq_prebuf_force(pa_memblockq *bq); /* Return the maximum length of the queue in bytes */ size_t pa_memblockq_get_maxlength(pa_memblockq *bq); /* Get Target length */ size_t pa_memblockq_get_tlength(pa_memblockq *bq); /* Return the prebuffer length in bytes */ size_t pa_memblockq_get_prebuf(pa_memblockq *bq); /* Returns the minimal request value */ size_t pa_memblockq_get_minreq(pa_memblockq *bq); /* Returns the maximal rewind value */ size_t pa_memblockq_get_maxrewind(pa_memblockq *bq); /* Return the base unit in bytes */ size_t pa_memblockq_get_base(pa_memblockq *bq); /* Return the current read index */ int64_t pa_memblockq_get_read_index(pa_memblockq *bq); /* Return the current write index */ int64_t pa_memblockq_get_write_index(pa_memblockq *bq); /* Change metrics. Always call in order. */ void pa_memblockq_set_maxlength(pa_memblockq *memblockq, size_t maxlength); /* might modify tlength, prebuf, minreq too */ void pa_memblockq_set_tlength(pa_memblockq *memblockq, size_t tlength); /* might modify minreq, too */ void pa_memblockq_set_minreq(pa_memblockq *memblockq, size_t minreq); /* might modify prebuf, too */ void pa_memblockq_set_prebuf(pa_memblockq *memblockq, size_t prebuf); void pa_memblockq_set_maxrewind(pa_memblockq *memblockq, size_t maxrewind); /* Set the maximum history size */ void pa_memblockq_set_silence(pa_memblockq *memblockq, pa_memchunk *silence); /* Apply the data from pa_buffer_attr */ void pa_memblockq_apply_attr(pa_memblockq *memblockq, const pa_buffer_attr *a); void pa_memblockq_get_attr(pa_memblockq *bq, pa_buffer_attr *a); /* Call pa_memchunk_will_need() for every chunk in the queue from the current read pointer to the end */ void pa_memblockq_willneed(pa_memblockq *bq); /* Check whether the memblockq is completely empty, i.e. no data * neither left nor right of the read pointer, and hence no buffered * data for the future nor data in the backlog. */ bool pa_memblockq_is_empty(pa_memblockq *bq); /* Drop everything in the queue, but don't modify the indexes */ void pa_memblockq_silence(pa_memblockq *bq); /* Check whether we currently are in prebuf state */ bool pa_memblockq_prebuf_active(pa_memblockq *bq); /* Return how many items are currently stored in the queue */ unsigned pa_memblockq_get_nblocks(pa_memblockq *bq); #endif