63f5a4d652
The dc_parser_set_data() function allows to re-use a parser object for multiple dives. The advantages of this feature are actually very limited in practice. The reduction in memory consumption is almost negligible, because the amount of internal state in the parser is typically very small. But the implementation requires some additional complexity because each backend needs code to reset its internal state. Therefore, the function is removed and the data and size needs to be passed directly to the dc_parser_new() and dc_parser_new2() functions instead. Because keeping a reference to the data has also caused issues in the past, especially for applications implemented in a garbage collected language, the data will now also get copied internally.
235 lines
6.2 KiB
C
235 lines
6.2 KiB
C
/*
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* libdivecomputer
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*
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* Copyright (C) 2013 Jef Driesen
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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* MA 02110-1301 USA
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*/
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#include <stdlib.h>
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#include "cressi_leonardo.h"
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#include "context-private.h"
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#include "parser-private.h"
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#include "array.h"
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#define ISINSTANCE(parser) dc_device_isinstance((parser), &cressi_leonardo_parser_vtable)
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#define SZ_HEADER 82
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#define DRAKE 6
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typedef struct cressi_leonardo_parser_t cressi_leonardo_parser_t;
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struct cressi_leonardo_parser_t {
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dc_parser_t base;
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unsigned int model;
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};
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static dc_status_t cressi_leonardo_parser_get_datetime (dc_parser_t *abstract, dc_datetime_t *datetime);
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static dc_status_t cressi_leonardo_parser_get_field (dc_parser_t *abstract, dc_field_type_t type, unsigned int flags, void *value);
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static dc_status_t cressi_leonardo_parser_samples_foreach (dc_parser_t *abstract, dc_sample_callback_t callback, void *userdata);
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static const dc_parser_vtable_t cressi_leonardo_parser_vtable = {
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sizeof(cressi_leonardo_parser_t),
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DC_FAMILY_CRESSI_LEONARDO,
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NULL, /* set_clock */
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NULL, /* set_atmospheric */
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NULL, /* set_density */
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cressi_leonardo_parser_get_datetime, /* datetime */
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cressi_leonardo_parser_get_field, /* fields */
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cressi_leonardo_parser_samples_foreach, /* samples_foreach */
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NULL /* destroy */
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};
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dc_status_t
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cressi_leonardo_parser_create (dc_parser_t **out, dc_context_t *context, const unsigned char data[], size_t size, unsigned int model)
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{
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cressi_leonardo_parser_t *parser = NULL;
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if (out == NULL)
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return DC_STATUS_INVALIDARGS;
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// Allocate memory.
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parser = (cressi_leonardo_parser_t *) dc_parser_allocate (context, &cressi_leonardo_parser_vtable, data, size);
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if (parser == NULL) {
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ERROR (context, "Failed to allocate memory.");
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return DC_STATUS_NOMEMORY;
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}
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parser->model = model;
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*out = (dc_parser_t*) parser;
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return DC_STATUS_SUCCESS;
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}
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static dc_status_t
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cressi_leonardo_parser_get_datetime (dc_parser_t *abstract, dc_datetime_t *datetime)
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{
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if (abstract->size < SZ_HEADER)
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return DC_STATUS_DATAFORMAT;
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const unsigned char *p = abstract->data;
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if (datetime) {
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datetime->year = p[8] + 2000;
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datetime->month = p[9];
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datetime->day = p[10];
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datetime->hour = p[11];
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datetime->minute = p[12];
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datetime->second = 0;
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datetime->timezone = DC_TIMEZONE_NONE;
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}
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return DC_STATUS_SUCCESS;
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}
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static dc_status_t
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cressi_leonardo_parser_get_field (dc_parser_t *abstract, dc_field_type_t type, unsigned int flags, void *value)
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{
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cressi_leonardo_parser_t *parser = (cressi_leonardo_parser_t *) abstract;
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if (abstract->size < SZ_HEADER)
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return DC_STATUS_DATAFORMAT;
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const unsigned char *data = abstract->data;
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unsigned int interval = 20;
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if (parser->model == DRAKE) {
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interval = data[0x17];
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}
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if (interval == 0) {
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ERROR(abstract->context, "Invalid sample interval");
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return DC_STATUS_DATAFORMAT;
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}
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dc_gasmix_t *gasmix = (dc_gasmix_t *) value;
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if (value) {
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switch (type) {
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case DC_FIELD_DIVETIME:
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*((unsigned int *) value) = array_uint16_le (data + 0x06) * interval;
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break;
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case DC_FIELD_MAXDEPTH:
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*((double *) value) = array_uint16_le (data + 0x20) / 10.0;
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break;
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case DC_FIELD_GASMIX_COUNT:
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if (parser->model == DRAKE) {
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*((unsigned int *) value) = 0;
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} else {
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*((unsigned int *) value) = 1;
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}
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break;
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case DC_FIELD_GASMIX:
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gasmix->usage = DC_USAGE_NONE;
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gasmix->helium = 0.0;
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gasmix->oxygen = data[0x19] / 100.0;
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gasmix->nitrogen = 1.0 - gasmix->oxygen - gasmix->helium;
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break;
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case DC_FIELD_TEMPERATURE_MINIMUM:
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*((double *) value) = data[0x22];
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break;
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default:
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return DC_STATUS_UNSUPPORTED;
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}
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}
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return DC_STATUS_SUCCESS;
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}
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static dc_status_t
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cressi_leonardo_parser_samples_foreach (dc_parser_t *abstract, dc_sample_callback_t callback, void *userdata)
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{
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cressi_leonardo_parser_t *parser = (cressi_leonardo_parser_t *) abstract;
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const unsigned char *data = abstract->data;
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unsigned int size = abstract->size;
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unsigned int time = 0;
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unsigned int interval = 20;
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if (parser->model == DRAKE) {
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interval = data[0x17];
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}
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if (interval == 0) {
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ERROR(abstract->context, "Invalid sample interval");
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return DC_STATUS_DATAFORMAT;
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}
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unsigned int gasmix_previous = 0xFFFFFFFF;
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unsigned int gasmix = 0;
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if (parser->model == DRAKE) {
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gasmix = gasmix_previous;
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}
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unsigned int offset = SZ_HEADER;
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while (offset + 2 <= size) {
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dc_sample_value_t sample = {0};
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if (offset + 4 <= size &&
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array_uint16_le (data + offset + 2) == 0xFF00)
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{
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unsigned int surftime = data[offset] + (data[offset + 1] & 0x07) * 60;
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// Time (seconds).
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time += surftime;
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sample.time = time * 1000;
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if (callback) callback (DC_SAMPLE_TIME, &sample, userdata);
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// Depth (1/10 m).
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sample.depth = 0.0;
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if (callback) callback (DC_SAMPLE_DEPTH, &sample, userdata);
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offset += 4;
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} else {
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unsigned int value = array_uint16_le (data + offset);
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unsigned int depth = value & 0x07FF;
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unsigned int ascent = (value & 0xC000) >> 14;
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// Time (seconds).
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time += interval;
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sample.time = time * 1000;
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if (callback) callback (DC_SAMPLE_TIME, &sample, userdata);
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// Depth (1/10 m).
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sample.depth = depth / 10.0;
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if (callback) callback (DC_SAMPLE_DEPTH, &sample, userdata);
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// Gas change.
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if (gasmix != gasmix_previous) {
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sample.gasmix = gasmix;
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if (callback) callback (DC_SAMPLE_GASMIX, &sample, userdata);
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gasmix_previous = gasmix;
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}
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// Ascent rate
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if (ascent) {
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sample.event.type = SAMPLE_EVENT_ASCENT;
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sample.event.time = 0;
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sample.event.flags = 0;
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sample.event.value = ascent;
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if (callback) callback (DC_SAMPLE_EVENT, &sample, userdata);
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}
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offset += 2;
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}
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}
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return DC_STATUS_SUCCESS;
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}
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