Paul Davis
30b087ab3d
Generated by tools/f2s. Some hand-editing will be required in a few places to fix up comments related to timecode and video in order to keep the legible
285 lines
7.1 KiB
C
285 lines
7.1 KiB
C
/*
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Copyright 2008-2012 David Robillard <http://drobilla.net>
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Permission to use, copy, modify, and/or distribute this software for any
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purpose with or without fee is hereby granted, provided that the above
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copyright notice and this permission notice appear in all copies.
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THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*/
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#include <assert.h>
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#include <string.h>
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#include <stdlib.h>
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#include "lv2/lv2plug.in/ns/ext/atom/atom.h"
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#include "lv2/lv2plug.in/ns/ext/event/event.h"
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#include "lv2_evbuf.h"
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struct LV2_Evbuf_Impl {
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LV2_Evbuf_Type type;
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uint32_t capacity;
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uint32_t atom_Chunk;
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uint32_t atom_Sequence;
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union {
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LV2_Event_Buffer event;
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LV2_Atom_Sequence atom;
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} buf;
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};
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static inline uint32_t
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lv2_evbuf_pad_size(uint32_t size)
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{
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return (size + 7) & (~7);
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}
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LV2_Evbuf*
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lv2_evbuf_new(uint32_t capacity,
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LV2_Evbuf_Type type,
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uint32_t atom_Chunk,
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uint32_t atom_Sequence)
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{
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// FIXME: memory must be 64-bit aligned
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LV2_Evbuf* evbuf = (LV2_Evbuf*)malloc(
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sizeof(LV2_Evbuf) + sizeof(LV2_Atom_Sequence) + capacity);
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evbuf->capacity = capacity;
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evbuf->atom_Chunk = atom_Chunk;
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evbuf->atom_Sequence = atom_Sequence;
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lv2_evbuf_set_type(evbuf, type);
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lv2_evbuf_reset(evbuf, true);
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return evbuf;
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}
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void
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lv2_evbuf_free(LV2_Evbuf* evbuf)
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{
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free(evbuf);
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}
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void
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lv2_evbuf_set_type(LV2_Evbuf* evbuf, LV2_Evbuf_Type type)
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{
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evbuf->type = type;
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switch (type) {
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case LV2_EVBUF_EVENT:
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evbuf->buf.event.data = (uint8_t*)(evbuf + 1);
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evbuf->buf.event.capacity = evbuf->capacity;
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break;
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case LV2_EVBUF_ATOM:
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break;
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}
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lv2_evbuf_reset(evbuf, true);
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}
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void
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lv2_evbuf_reset(LV2_Evbuf* evbuf, bool input)
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{
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switch (evbuf->type) {
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case LV2_EVBUF_EVENT:
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evbuf->buf.event.header_size = sizeof(LV2_Event_Buffer);
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evbuf->buf.event.stamp_type = LV2_EVENT_AUDIO_STAMP;
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evbuf->buf.event.event_count = 0;
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evbuf->buf.event.size = 0;
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break;
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case LV2_EVBUF_ATOM:
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if (input) {
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evbuf->buf.atom.atom.size = sizeof(LV2_Atom_Sequence_Body);
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evbuf->buf.atom.atom.type = evbuf->atom_Sequence;
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} else {
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evbuf->buf.atom.atom.size = evbuf->capacity;
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evbuf->buf.atom.atom.type = evbuf->atom_Chunk;
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}
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}
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}
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uint32_t
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lv2_evbuf_get_size(LV2_Evbuf* evbuf)
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{
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switch (evbuf->type) {
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case LV2_EVBUF_EVENT:
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return evbuf->buf.event.size;
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case LV2_EVBUF_ATOM:
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assert(evbuf->buf.atom.atom.type != evbuf->atom_Sequence
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|| evbuf->buf.atom.atom.size >= sizeof(LV2_Atom_Sequence_Body));
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return evbuf->buf.atom.atom.type == evbuf->atom_Sequence
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? evbuf->buf.atom.atom.size - sizeof(LV2_Atom_Sequence_Body)
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: 0;
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}
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return 0;
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}
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uint32_t
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lv2_evbuf_get_capacity(LV2_Evbuf* evbuf)
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{
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return evbuf->capacity;
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}
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void*
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lv2_evbuf_get_buffer(LV2_Evbuf* evbuf)
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{
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switch (evbuf->type) {
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case LV2_EVBUF_EVENT:
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return &evbuf->buf.event;
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case LV2_EVBUF_ATOM:
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return &evbuf->buf.atom;
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}
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return NULL;
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}
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LV2_Evbuf_Iterator
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lv2_evbuf_begin(LV2_Evbuf* evbuf)
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{
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LV2_Evbuf_Iterator iter = { evbuf, 0 };
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return iter;
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}
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LV2_Evbuf_Iterator
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lv2_evbuf_end(LV2_Evbuf* evbuf)
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{
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const uint32_t size = lv2_evbuf_get_size(evbuf);
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const LV2_Evbuf_Iterator iter = { evbuf, lv2_evbuf_pad_size(size) };
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return iter;
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}
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bool
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lv2_evbuf_is_valid(LV2_Evbuf_Iterator iter)
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{
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return iter.offset < lv2_evbuf_get_size(iter.evbuf);
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}
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LV2_Evbuf_Iterator
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lv2_evbuf_next(LV2_Evbuf_Iterator iter)
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{
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if (!lv2_evbuf_is_valid(iter)) {
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return iter;
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}
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LV2_Evbuf* evbuf = iter.evbuf;
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uint32_t offset = iter.offset;
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uint32_t size;
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switch (evbuf->type) {
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case LV2_EVBUF_EVENT:
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size = ((LV2_Event*)((uintptr_t)(evbuf->buf.event.data + offset)))->size;
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offset += lv2_evbuf_pad_size(sizeof(LV2_Event) + size);
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break;
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case LV2_EVBUF_ATOM:
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size = ((LV2_Atom_Event*)((uintptr_t)
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((char*)LV2_ATOM_CONTENTS(LV2_Atom_Sequence, &evbuf->buf.atom)
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+ offset)))->body.size;
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offset += lv2_evbuf_pad_size(sizeof(LV2_Atom_Event) + size);
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break;
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}
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LV2_Evbuf_Iterator next = { evbuf, offset };
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return next;
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}
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bool
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lv2_evbuf_get(LV2_Evbuf_Iterator iter,
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uint32_t* samples,
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uint32_t* subframes,
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uint32_t* type,
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uint32_t* size,
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uint8_t** data)
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{
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*samples = *subframes = *type = *size = 0;
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*data = NULL;
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if (!lv2_evbuf_is_valid(iter)) {
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return false;
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}
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LV2_Event_Buffer* ebuf;
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LV2_Event* ev;
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LV2_Atom_Sequence* aseq;
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LV2_Atom_Event* aev;
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switch (iter.evbuf->type) {
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case LV2_EVBUF_EVENT:
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ebuf = &iter.evbuf->buf.event;
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ev = (LV2_Event*)((uintptr_t)((char*)ebuf->data + iter.offset));
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*samples = ev->frames;
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*subframes = ev->subframes;
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*type = ev->type;
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*size = ev->size;
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*data = (uint8_t*)ev + sizeof(LV2_Event);
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break;
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case LV2_EVBUF_ATOM:
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aseq = (LV2_Atom_Sequence*)&iter.evbuf->buf.atom;
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aev = (LV2_Atom_Event*)((uintptr_t)(
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(char*)LV2_ATOM_CONTENTS(LV2_Atom_Sequence, aseq)
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+ iter.offset));
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*samples = aev->time.frames;
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*subframes = 0;
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*type = aev->body.type;
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*size = aev->body.size;
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*data = (uint8_t*)LV2_ATOM_BODY(&aev->body);
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break;
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}
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return true;
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}
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bool
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lv2_evbuf_write(LV2_Evbuf_Iterator* iter,
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uint32_t samples,
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uint32_t subframes,
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uint32_t type,
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uint32_t size,
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const uint8_t* data)
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{
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LV2_Event_Buffer* ebuf;
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LV2_Event* ev;
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LV2_Atom_Sequence* aseq;
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LV2_Atom_Event* aev;
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switch (iter->evbuf->type) {
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case LV2_EVBUF_EVENT:
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ebuf = &iter->evbuf->buf.event;
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if (ebuf->capacity - ebuf->size < sizeof(LV2_Event) + size) {
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return false;
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}
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ev = (LV2_Event*)((uintptr_t)(ebuf->data + iter->offset));
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ev->frames = samples;
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ev->subframes = subframes;
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ev->type = type;
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ev->size = size;
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memcpy((uint8_t*)ev + sizeof(LV2_Event), data, size);
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size = lv2_evbuf_pad_size(sizeof(LV2_Event) + size);
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ebuf->size += size;
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ebuf->event_count += 1;
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iter->offset += size;
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break;
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case LV2_EVBUF_ATOM:
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aseq = (LV2_Atom_Sequence*)&iter->evbuf->buf.atom;
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if (iter->evbuf->capacity - sizeof(LV2_Atom) - aseq->atom.size
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< sizeof(LV2_Atom_Event) + size) {
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return false;
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}
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aev = (LV2_Atom_Event*)((uintptr_t)(
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(char*)LV2_ATOM_CONTENTS(LV2_Atom_Sequence, aseq)
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+ iter->offset));
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aev->time.frames = samples;
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aev->body.type = type;
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aev->body.size = size;
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memcpy(LV2_ATOM_BODY(&aev->body), data, size);
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size = lv2_evbuf_pad_size(sizeof(LV2_Atom_Event) + size);
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aseq->atom.size += size;
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iter->offset += size;
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break;
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default:
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return false;
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}
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return true;
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}
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