468 lines
12 KiB
C
468 lines
12 KiB
C
/*
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* This file is part of the sigrok project.
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*
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* Copyright (C) 2010 Bert Vermeulen <bert@biot.com>
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* Copyright (C) 2011 Håvard Espeland <gus@ping.uio.no>
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* Copyright (C) 2011 Daniel Ribeiro <drwyrm@gmail.com>
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program 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
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <glib.h>
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#include "sigrok.h"
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#define DEFAULT_BPL_BITS 64
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#define DEFAULT_BPL_HEX 192
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#define DEFAULT_BPL_ASCII 74
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enum outputmode {
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MODE_BITS = 1,
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MODE_HEX,
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MODE_ASCII,
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};
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struct context {
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unsigned int num_enabled_probes;
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int samples_per_line;
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unsigned int unitsize;
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int line_offset;
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int linebuf_len;
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char *probelist[65];
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char *linebuf;
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int spl_cnt;
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uint8_t *linevalues;
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char *header;
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int mark_trigger;
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// struct sr_analog_sample *prevsample;
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enum outputmode mode;
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};
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static void flush_linebufs(struct context *ctx, char *outbuf)
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{
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static int max_probename_len = 0;
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int len, i;
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if (ctx->linebuf[0] == 0)
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return;
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if (max_probename_len == 0) {
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/* First time through... */
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for (i = 0; ctx->probelist[i]; i++) {
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len = strlen(ctx->probelist[i]);
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if (len > max_probename_len)
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max_probename_len = len;
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}
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}
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for (i = 0; ctx->probelist[i]; i++) {
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sprintf(outbuf + strlen(outbuf), "%*s:%s\n", max_probename_len,
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ctx->probelist[i], ctx->linebuf + i * ctx->linebuf_len);
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}
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/* Mark trigger with a ^ character. */
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if (ctx->mark_trigger != -1)
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{
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int space_offset = ctx->mark_trigger / 8;
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if (ctx->mode == MODE_ASCII)
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space_offset = 0;
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sprintf(outbuf + strlen(outbuf), "T:%*s^\n",
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ctx->mark_trigger + space_offset, "");
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}
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memset(ctx->linebuf, 0, i * ctx->linebuf_len);
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}
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static int init(struct sr_output *o, int default_spl, enum outputmode mode)
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{
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struct context *ctx;
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struct sr_probe *probe;
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GSList *l;
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uint64_t samplerate;
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int num_probes;
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char *samplerate_s;
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if (!(ctx = calloc(1, sizeof(struct context))))
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return SR_ERR_MALLOC;
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o->internal = ctx;
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ctx->num_enabled_probes = 0;
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for (l = o->device->probes; l; l = l->next) {
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probe = l->data;
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if (!probe->enabled)
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continue;
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ctx->probelist[ctx->num_enabled_probes++] = probe->name;
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}
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ctx->probelist[ctx->num_enabled_probes] = 0;
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ctx->unitsize = sizeof(struct sr_analog_sample) +
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(ctx->num_enabled_probes * sizeof(struct sr_analog_probe));
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ctx->line_offset = 0;
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ctx->spl_cnt = 0;
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ctx->mark_trigger = -1;
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ctx->mode = mode;
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if (o->param && o->param[0]) {
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ctx->samples_per_line = strtoul(o->param, NULL, 10);
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if (ctx->samples_per_line < 1)
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return SR_ERR;
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} else
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ctx->samples_per_line = default_spl;
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if (!(ctx->header = malloc(512))) {
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free(ctx);
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return SR_ERR_MALLOC;
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}
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snprintf(ctx->header, 511, "%s\n", PACKAGE_STRING);
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num_probes = g_slist_length(o->device->probes);
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if (o->device->plugin && sr_device_has_hwcap(o->device, SR_HWCAP_SAMPLERATE)) {
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samplerate = *((uint64_t *) o->device->plugin->get_device_info(
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o->device->plugin_index, SR_DI_CUR_SAMPLERATE));
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if (!(samplerate_s = sr_samplerate_string(samplerate))) {
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free(ctx->header);
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free(ctx);
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return SR_ERR;
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}
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snprintf(ctx->header + strlen(ctx->header),
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511 - strlen(ctx->header),
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"Acquisition with %d/%d probes at %s\n",
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ctx->num_enabled_probes, num_probes, samplerate_s);
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free(samplerate_s);
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}
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ctx->linebuf_len = ctx->samples_per_line * 2 + 4;
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if (!(ctx->linebuf = calloc(1, num_probes * ctx->linebuf_len))) {
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free(ctx->header);
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free(ctx);
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return SR_ERR_MALLOC;
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}
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if (!(ctx->linevalues = calloc(1, num_probes))) {
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free(ctx->header);
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free(ctx);
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return SR_ERR_MALLOC;
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}
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return SR_OK;
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}
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static int event(struct sr_output *o, int event_type, char **data_out,
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uint64_t *length_out)
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{
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struct context *ctx;
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int outsize;
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char *outbuf;
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ctx = o->internal;
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switch (event_type) {
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case SR_DF_TRIGGER:
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ctx->mark_trigger = ctx->spl_cnt;
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*data_out = NULL;
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*length_out = 0;
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break;
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case SR_DF_END:
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outsize = ctx->num_enabled_probes
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* (ctx->samples_per_line + 20) + 512;
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if (!(outbuf = calloc(1, outsize)))
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return SR_ERR_MALLOC;
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flush_linebufs(ctx, outbuf);
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*data_out = outbuf;
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*length_out = strlen(outbuf);
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free(o->internal);
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o->internal = NULL;
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break;
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default:
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*data_out = NULL;
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*length_out = 0;
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break;
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}
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return SR_OK;
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}
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static int init_bits(struct sr_output *o)
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{
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return init(o, DEFAULT_BPL_BITS, MODE_BITS);
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}
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static int data_bits(struct sr_output *o, const char *data_in,
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uint64_t length_in, char **data_out, uint64_t *length_out)
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{
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struct context *ctx;
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unsigned int outsize, offset, p;
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int max_linelen;
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struct sr_analog_sample *sample;
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char *outbuf, c;
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ctx = o->internal;
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max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
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+ ctx->samples_per_line / 8;
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/*
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* Calculate space needed for probes. Set aside 512 bytes for
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* extra output, e.g. trigger.
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*/
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outsize = 512 + (1 + (length_in / ctx->unitsize) / ctx->samples_per_line)
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* (ctx->num_enabled_probes * max_linelen);
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if (!(outbuf = calloc(1, outsize + 1)))
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return SR_ERR_MALLOC;
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outbuf[0] = '\0';
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if (ctx->header) {
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/* The header is still here, this must be the first packet. */
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strncpy(outbuf, ctx->header, outsize);
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free(ctx->header);
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ctx->header = NULL;
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/* Ensure first transition. */
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// memcpy(&ctx->prevsample, data_in, ctx->unitsize);
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// ctx->prevsample = ~ctx->prevsample;
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}
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if (length_in >= ctx->unitsize) {
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for (offset = 0; offset <= length_in - ctx->unitsize;
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offset += ctx->unitsize) {
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sample = (struct sr_analog_sample *) (data_in + offset);
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for (p = 0; p < ctx->num_enabled_probes; p++) {
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int val = sample->probes[p].val;
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int res = sample->probes[p].res;
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if (res == 1)
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c = '0' + (val & ((1 << res) - 1));
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else
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/*
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* Scale analog resolution down so it
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* fits 25 letters
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*/
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c = 'A' + (((val & ((1 << res) - 1)) /
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(res * res)) / 10);
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ctx->linebuf[p * ctx->linebuf_len +
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ctx->line_offset] = c;
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}
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ctx->line_offset++;
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ctx->spl_cnt++;
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/* Add a space every 8th bit. */
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if ((ctx->spl_cnt & 7) == 0) {
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for (p = 0; p < ctx->num_enabled_probes; p++)
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ctx->linebuf[p * ctx->linebuf_len +
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ctx->line_offset] = ' ';
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ctx->line_offset++;
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}
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/* End of line. */
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if (ctx->spl_cnt >= ctx->samples_per_line) {
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flush_linebufs(ctx, outbuf);
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ctx->line_offset = ctx->spl_cnt = 0;
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ctx->mark_trigger = -1;
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}
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}
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} else {
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sr_info("short buffer (length_in=%" PRIu64 ")", length_in);
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}
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*data_out = outbuf;
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*length_out = strlen(outbuf);
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return SR_OK;
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}
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#if 0
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static int init_hex(struct sr_output *o)
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{
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return init(o, DEFAULT_BPL_HEX, MODE_HEX);
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}
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static int data_hex(struct sr_output *o, const char *data_in,
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uint64_t length_in, char **data_out, uint64_t *length_out)
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{
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struct context *ctx;
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unsigned int outsize, offset, p;
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int max_linelen;
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uint64_t sample;
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char *outbuf;
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ctx = o->internal;
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max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
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+ ctx->samples_per_line / 2;
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outsize = length_in / ctx->unitsize * ctx->num_enabled_probes
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/ ctx->samples_per_line * max_linelen + 512;
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if (!(outbuf = calloc(1, outsize + 1)))
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return SR_ERR_MALLOC;
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outbuf[0] = '\0';
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if (ctx->header) {
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/* The header is still here, this must be the first packet. */
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strncpy(outbuf, ctx->header, outsize);
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free(ctx->header);
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ctx->header = NULL;
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}
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ctx->line_offset = 0;
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for (offset = 0; offset <= length_in - ctx->unitsize;
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offset += ctx->unitsize) {
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memcpy(&sample, data_in + offset, ctx->unitsize);
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for (p = 0; p < ctx->num_enabled_probes; p++) {
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ctx->linevalues[p] <<= 1;
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if (sample & ((uint64_t) 1 << p))
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ctx->linevalues[p] |= 1;
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sprintf(ctx->linebuf + (p * ctx->linebuf_len) +
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ctx->line_offset, "%.2x", ctx->linevalues[p]);
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}
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ctx->spl_cnt++;
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/* Add a space after every complete hex byte. */
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if ((ctx->spl_cnt & 7) == 0) {
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for (p = 0; p < ctx->num_enabled_probes; p++)
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ctx->linebuf[p * ctx->linebuf_len +
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ctx->line_offset + 2] = ' ';
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ctx->line_offset += 3;
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}
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/* End of line. */
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if (ctx->spl_cnt >= ctx->samples_per_line) {
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flush_linebufs(ctx, outbuf);
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ctx->line_offset = ctx->spl_cnt = 0;
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}
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}
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*data_out = outbuf;
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*length_out = strlen(outbuf);
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return SR_OK;
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}
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static int init_ascii(struct sr_output *o)
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{
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return init(o, DEFAULT_BPL_ASCII, MODE_ASCII);
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}
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static int data_ascii(struct sr_output *o, const char *data_in,
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uint64_t length_in, char **data_out, uint64_t *length_out)
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{
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struct context *ctx;
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unsigned int outsize, offset, p;
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int max_linelen;
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uint64_t sample;
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char *outbuf;
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ctx = o->internal;
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max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
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+ ctx->samples_per_line / 8;
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/*
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* Calculate space needed for probes. Set aside 512 bytes for
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* extra output, e.g. trigger.
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*/
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outsize = 512 + (1 + (length_in / ctx->unitsize) / ctx->samples_per_line)
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* (ctx->num_enabled_probes * max_linelen);
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if (!(outbuf = calloc(1, outsize + 1)))
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return SR_ERR_MALLOC;
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outbuf[0] = '\0';
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if (ctx->header) {
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/* The header is still here, this must be the first packet. */
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strncpy(outbuf, ctx->header, outsize);
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free(ctx->header);
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ctx->header = NULL;
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}
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if (length_in >= ctx->unitsize) {
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for (offset = 0; offset <= length_in - ctx->unitsize;
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offset += ctx->unitsize) {
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memcpy(&sample, data_in + offset, ctx->unitsize);
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char tmpval[ctx->num_enabled_probes];
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for (p = 0; p < ctx->num_enabled_probes; p++) {
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uint64_t curbit = (sample & ((uint64_t) 1 << p));
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uint64_t prevbit = (ctx->prevsample &
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((uint64_t) 1 << p));
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if (curbit < prevbit && ctx->line_offset > 0) {
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ctx->linebuf[p * ctx->linebuf_len +
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ctx->line_offset-1] = '\\';
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}
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if (curbit > prevbit) {
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tmpval[p] = '/';
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} else {
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if (curbit)
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tmpval[p] = '"';
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else
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tmpval[p] = '.';
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}
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}
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/* End of line. */
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if (ctx->spl_cnt >= ctx->samples_per_line) {
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flush_linebufs(ctx, outbuf);
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ctx->line_offset = ctx->spl_cnt = 0;
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ctx->mark_trigger = -1;
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}
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for (p = 0; p < ctx->num_enabled_probes; p++) {
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ctx->linebuf[p * ctx->linebuf_len +
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ctx->line_offset] = tmpval[p];
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}
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ctx->line_offset++;
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ctx->spl_cnt++;
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ctx->prevsample = sample;
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}
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} else {
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sr_info("short buffer (length_in=%" PRIu64 ")", length_in);
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}
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*data_out = outbuf;
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*length_out = strlen(outbuf);
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return SR_OK;
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}
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#endif
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SR_PRIV struct sr_output_format output_analog_bits = {
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.id = "analog_bits",
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.description = "Bits (takes argument, default 64)",
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.df_type = SR_DF_ANALOG,
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.init = init_bits,
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.data = data_bits,
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.event = event,
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};
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#if 0
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struct sr_output_format output_analog_hex = {
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.id = "analog_hex",
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.description = "Hexadecimal (takes argument, default 192)",
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.df_type = SR_DF_ANALOG,
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.init = init_hex,
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.data = data_hex,
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.event = event,
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};
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struct sr_output_format output_analog_ascii = {
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.id = "analog_ascii",
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.description = "ASCII (takes argument, default 74)",
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.df_type = SR_DF_ANALOG,
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.init = init_ascii,
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.data = data_ascii,
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.event = event,
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};
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#endif
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