[libsigrok.git] / output / analog.c

/*
 * This file is part of the sigrok project.
 *
 * Copyright (C) 2010-2012 Bert Vermeulen <bert@biot.com>
 * Copyright (C) 2011 Håvard Espeland <gus@ping.uio.no>
 * Copyright (C) 2011 Daniel Ribeiro <drwyrm@gmail.com>
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * This program 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 General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <glib.h>
#include "sigrok.h"

#define DEFAULT_BPL_BITS 64
#define DEFAULT_BPL_HEX  192
#define DEFAULT_BPL_ASCII 74

enum outputmode {
	MODE_BITS = 1,
	MODE_HEX,
	MODE_ASCII,
};

struct context {
	unsigned int num_enabled_probes;
	int samples_per_line;
	unsigned int unitsize;
	int line_offset;
	int linebuf_len;
	char *probelist[65];
	char *linebuf;
	int spl_cnt;
	uint8_t *linevalues;
	char *header;
	int mark_trigger;
//	struct sr_analog_sample *prevsample;
	enum outputmode mode;
};

static void flush_linebufs(struct context *ctx, char *outbuf)
{
	static int max_probename_len = 0;
	int len, i;

	if (ctx->linebuf[0] == 0)
		return;

	if (max_probename_len == 0) {
		/* First time through... */
		for (i = 0; ctx->probelist[i]; i++) {
			len = strlen(ctx->probelist[i]);
			if (len > max_probename_len)
				max_probename_len = len;
		}
	}

	for (i = 0; ctx->probelist[i]; i++) {
		sprintf(outbuf + strlen(outbuf), "%*s:%s\n", max_probename_len,
			ctx->probelist[i], ctx->linebuf + i * ctx->linebuf_len);
	}

	/* Mark trigger with a ^ character. */
	if (ctx->mark_trigger != -1)
	{
		int space_offset = ctx->mark_trigger / 8;

		if (ctx->mode == MODE_ASCII)
			space_offset = 0;

		sprintf(outbuf + strlen(outbuf), "T:%*s^\n",
			ctx->mark_trigger + space_offset, "");
	}

	memset(ctx->linebuf, 0, i * ctx->linebuf_len);
}

static int init(struct sr_output *o, int default_spl, enum outputmode mode)
{
	struct context *ctx;
	struct sr_probe *probe;
	GSList *l;
	uint64_t samplerate;
	int num_probes;
	char *samplerate_s;

	if (!(ctx = g_try_malloc0(sizeof(struct context)))) {
		sr_err("analog out: %s: ctx malloc failed", __func__);
		return SR_ERR_MALLOC;
	}

	o->internal = ctx;
	ctx->num_enabled_probes = 0;

	for (l = o->dev->probes; l; l = l->next) {
		probe = l->data;
		if (!probe->enabled)
			continue;
		ctx->probelist[ctx->num_enabled_probes++] = probe->name;
	}

	ctx->probelist[ctx->num_enabled_probes] = 0;
	ctx->unitsize = sizeof(struct sr_analog_sample) +
		(ctx->num_enabled_probes * sizeof(struct sr_analog_probe));
	ctx->line_offset = 0;
	ctx->spl_cnt = 0;
	ctx->mark_trigger = -1;
	ctx->mode = mode;

	if (o->param && o->param[0]) {
		ctx->samples_per_line = strtoul(o->param, NULL, 10);
		if (ctx->samples_per_line < 1)
			return SR_ERR;
	} else
		ctx->samples_per_line = default_spl;

	if (!(ctx->header = g_try_malloc(512))) {
		g_free(ctx);
		sr_err("analog out: %s: ctx->header malloc failed", __func__);
		return SR_ERR_MALLOC;
	}

	snprintf(ctx->header, 511, "%s\n", PACKAGE_STRING);
	num_probes = g_slist_length(o->dev->probes);
	if (o->dev->plugin && sr_dev_has_hwcap(o->dev, SR_HWCAP_SAMPLERATE)) {
		samplerate = *((uint64_t *) o->dev->plugin->get_dev_info(
				o->dev->plugin_index, SR_DI_CUR_SAMPLERATE));
		if (!(samplerate_s = sr_samplerate_string(samplerate))) {
			g_free(ctx->header);
			g_free(ctx);
			return SR_ERR;
		}
		snprintf(ctx->header + strlen(ctx->header),
			 511 - strlen(ctx->header),
			 "Acquisition with %d/%d probes at %s\n",
			 ctx->num_enabled_probes, num_probes, samplerate_s);
		g_free(samplerate_s);
	}

	ctx->linebuf_len = ctx->samples_per_line * 2 + 4;
	if (!(ctx->linebuf = g_try_malloc0(num_probes * ctx->linebuf_len))) {
		g_free(ctx->header);
		g_free(ctx);
		sr_err("analog out: %s: ctx->linebuf malloc failed", __func__);
		return SR_ERR_MALLOC;
	}
	if (!(ctx->linevalues = g_try_malloc0(num_probes))) {
		g_free(ctx->header);
		g_free(ctx);
		sr_err("analog out: %s: ctx->linevalues malloc failed",
		       __func__);
		return SR_ERR_MALLOC;
	}

	return SR_OK;
}

static int event(struct sr_output *o, int event_type, char **data_out,
		 uint64_t *length_out)
{
	struct context *ctx;
	int outsize;
	char *outbuf;

	ctx = o->internal;
	switch (event_type) {
	case SR_DF_TRIGGER:
		ctx->mark_trigger = ctx->spl_cnt;
		*data_out = NULL;
		*length_out = 0;
		break;
	case SR_DF_END:
		outsize = ctx->num_enabled_probes
				* (ctx->samples_per_line + 20) + 512;
		if (!(outbuf = g_try_malloc0(outsize))) {
			sr_err("analog out: %s: outbuf malloc failed",
			       __func__);
			return SR_ERR_MALLOC;
		}
		flush_linebufs(ctx, outbuf);
		*data_out = outbuf;
		*length_out = strlen(outbuf);
		g_free(o->internal);
		o->internal = NULL;
		break;
	default:
		*data_out = NULL;
		*length_out = 0;
		break;
	}

	return SR_OK;
}

static int init_bits(struct sr_output *o)
{
	return init(o, DEFAULT_BPL_BITS, MODE_BITS);
}

static int data_bits(struct sr_output *o, const char *data_in,
		     uint64_t length_in, char **data_out, uint64_t *length_out)
{
	struct context *ctx;
	unsigned int outsize, offset, p;
	int max_linelen;
	struct sr_analog_sample *sample;
	char *outbuf, c;

	ctx = o->internal;
	max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
			+ ctx->samples_per_line / 8;
        /*
         * Calculate space needed for probes. Set aside 512 bytes for
         * extra output, e.g. trigger.
         */
	outsize = 512 + (1 + (length_in / ctx->unitsize) / ctx->samples_per_line)
            * (ctx->num_enabled_probes * max_linelen);

	if (!(outbuf = g_try_malloc0(outsize + 1))) {
		sr_err("analog out: %s: outbuf malloc failed", __func__);
		return SR_ERR_MALLOC;
	}

	outbuf[0] = '\0';
	if (ctx->header) {
		/* The header is still here, this must be the first packet. */
		strncpy(outbuf, ctx->header, outsize);
		g_free(ctx->header);
		ctx->header = NULL;

		/* Ensure first transition. */
//		memcpy(&ctx->prevsample, data_in, ctx->unitsize);
//		ctx->prevsample = ~ctx->prevsample;
	}

	if (length_in >= ctx->unitsize) {
		for (offset = 0; offset <= length_in - ctx->unitsize;
		     offset += ctx->unitsize) {
			sample = (struct sr_analog_sample *) (data_in + offset);
			for (p = 0; p < ctx->num_enabled_probes; p++) {
				int val = sample->probes[p].val;
				int res = sample->probes[p].res;
				if (res == 1)
					c = '0' + (val & ((1 << res) - 1));
				else
					/*
					 * Scale analog resolution down so it
					 * fits 25 letters
					 */
					c = 'A' + (((val & ((1 << res) - 1)) /
							(res * res)) / 10);
				ctx->linebuf[p * ctx->linebuf_len +
					     ctx->line_offset] = c;
			}
			ctx->line_offset++;
			ctx->spl_cnt++;

			/* Add a space every 8th bit. */
			if ((ctx->spl_cnt & 7) == 0) {
				for (p = 0; p < ctx->num_enabled_probes; p++)
					ctx->linebuf[p * ctx->linebuf_len +
						     ctx->line_offset] = ' ';
				ctx->line_offset++;
			}

			/* End of line. */
			if (ctx->spl_cnt >= ctx->samples_per_line) {
				flush_linebufs(ctx, outbuf);
				ctx->line_offset = ctx->spl_cnt = 0;
				ctx->mark_trigger = -1;
			}
		}
	} else {
		sr_info("analog out: short buffer (length_in=%" PRIu64 ")",
			length_in);
	}

	*data_out = outbuf;
	*length_out = strlen(outbuf);

	return SR_OK;
}
#if 0
static int init_hex(struct sr_output *o)
{
	return init(o, DEFAULT_BPL_HEX, MODE_HEX);
}

static int data_hex(struct sr_output *o, const char *data_in,
		    uint64_t length_in, char **data_out, uint64_t *length_out)
{
	struct context *ctx;
	unsigned int outsize, offset, p;
	int max_linelen;
	uint64_t sample;
	char *outbuf;

	ctx = o->internal;
	max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
			+ ctx->samples_per_line / 2;
	outsize = length_in / ctx->unitsize * ctx->num_enabled_probes
			/ ctx->samples_per_line * max_linelen + 512;

	if (!(outbuf = g_try_malloc0(outsize + 1))) {
		sr_err("analog out: %s: outbuf malloc failed", __func__);
		return SR_ERR_MALLOC;
	}

	outbuf[0] = '\0';
	if (ctx->header) {
		/* The header is still here, this must be the first packet. */
		strncpy(outbuf, ctx->header, outsize);
		g_free(ctx->header);
		ctx->header = NULL;
	}

	ctx->line_offset = 0;
	for (offset = 0; offset <= length_in - ctx->unitsize;
	     offset += ctx->unitsize) {
		memcpy(&sample, data_in + offset, ctx->unitsize);
		for (p = 0; p < ctx->num_enabled_probes; p++) {
			ctx->linevalues[p] <<= 1;
			if (sample & ((uint64_t) 1 << p))
				ctx->linevalues[p] |= 1;
			sprintf(ctx->linebuf + (p * ctx->linebuf_len) +
				ctx->line_offset, "%.2x", ctx->linevalues[p]);
		}
		ctx->spl_cnt++;

		/* Add a space after every complete hex byte. */
		if ((ctx->spl_cnt & 7) == 0) {
			for (p = 0; p < ctx->num_enabled_probes; p++)
				ctx->linebuf[p * ctx->linebuf_len +
					     ctx->line_offset + 2] = ' ';
			ctx->line_offset += 3;
		}

		/* End of line. */
		if (ctx->spl_cnt >= ctx->samples_per_line) {
			flush_linebufs(ctx, outbuf);
			ctx->line_offset = ctx->spl_cnt = 0;
		}
	}

	*data_out = outbuf;
	*length_out = strlen(outbuf);

	return SR_OK;
}

static int init_ascii(struct sr_output *o)
{
	return init(o, DEFAULT_BPL_ASCII, MODE_ASCII);
}

static int data_ascii(struct sr_output *o, const char *data_in,
		      uint64_t length_in, char **data_out, uint64_t *length_out)
{
	struct context *ctx;
	unsigned int outsize, offset, p;
	int max_linelen;
	uint64_t sample;
	char *outbuf;

	ctx = o->internal;
	max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
			+ ctx->samples_per_line / 8;
        /*
         * Calculate space needed for probes. Set aside 512 bytes for
         * extra output, e.g. trigger.
         */
	outsize = 512 + (1 + (length_in / ctx->unitsize) / ctx->samples_per_line)
            * (ctx->num_enabled_probes * max_linelen);

	if (!(outbuf = g_try_malloc0(outsize + 1))) {
		sr_err("analog out: %s: outbuf malloc failed", __func__);
		return SR_ERR_MALLOC;
	}

	outbuf[0] = '\0';
	if (ctx->header) {
		/* The header is still here, this must be the first packet. */
		strncpy(outbuf, ctx->header, outsize);
		g_free(ctx->header);
		ctx->header = NULL;
	}

	if (length_in >= ctx->unitsize) {
		for (offset = 0; offset <= length_in - ctx->unitsize;
		     offset += ctx->unitsize) {
			memcpy(&sample, data_in + offset, ctx->unitsize);

			char tmpval[ctx->num_enabled_probes];

			for (p = 0; p < ctx->num_enabled_probes; p++) {
				uint64_t curbit = (sample & ((uint64_t) 1 << p));
				uint64_t prevbit = (ctx->prevsample &
						((uint64_t) 1 << p));

				if (curbit < prevbit && ctx->line_offset > 0) {
					ctx->linebuf[p * ctx->linebuf_len +
						ctx->line_offset-1] = '\\';
				}

				if (curbit > prevbit) {
					tmpval[p] = '/';
				} else {
					if (curbit)
						tmpval[p] = '"';
					else
						tmpval[p] = '.';
				}
			}

			/* End of line. */
			if (ctx->spl_cnt >= ctx->samples_per_line) {
				flush_linebufs(ctx, outbuf);
				ctx->line_offset = ctx->spl_cnt = 0;
				ctx->mark_trigger = -1;
			}

			for (p = 0; p < ctx->num_enabled_probes; p++) {
				ctx->linebuf[p * ctx->linebuf_len +
					     ctx->line_offset] = tmpval[p];
			}

			ctx->line_offset++;
			ctx->spl_cnt++;

			ctx->prevsample = sample;
		}
	} else {
		sr_info("analog out: short buffer (length_in=%" PRIu64 ")",
			length_in);
	}

	*data_out = outbuf;
	*length_out = strlen(outbuf);

	return SR_OK;
}
#endif

SR_PRIV struct sr_output_format output_analog_bits = {
	.id = "analog_bits",
	.description = "Bits (takes argument, default 64)",
	.df_type = SR_DF_ANALOG,
	.init = init_bits,
	.data = data_bits,
	.event = event,
};

#if 0
struct sr_output_format output_analog_hex = {
	.id = "analog_hex",
	.description = "Hexadecimal (takes argument, default 192)",
	.df_type = SR_DF_ANALOG,
	.init = init_hex,
	.data = data_hex,
	.event = event,
};

struct sr_output_format output_analog_ascii = {
	.id = "analog_ascii",
	.description = "ASCII (takes argument, default 74)",
	.df_type = SR_DF_ANALOG,
	.init = init_ascii,
	.data = data_ascii,
	.event = event,
};
#endif
Commit	Line	Data
1437e893 BV	1	/*
	2	* This file is part of the sigrok project.
	3	*
c73d2ea4	4	* Copyright (C) 2010-2012 Bert Vermeulen <bert@biot.com>
f3163a6c	5	* Copyright (C) 2011 Håvard Espeland <gus@ping.uio.no>
6eb0e3ea	6	* Copyright (C) 2011 Daniel Ribeiro <drwyrm@gmail.com>
1437e893 BV	7	*
	8	* This program is free software: you can redistribute it and/or modify
	9	* it under the terms of the GNU General Public License as published by
	10	* the Free Software Foundation, either version 3 of the License, or
	11	* (at your option) any later version.
	12	*
	13	* This program is distributed in the hope that it will be useful,
	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	16	* GNU General Public License for more details.
	17	*
	18	* You should have received a copy of the GNU General Public License
	19	* along with this program. If not, see <http://www.gnu.org/licenses/>.
	20	*/
	21
1437e893	22	#include <stdlib.h>
f3163a6c	23	#include <stdio.h>
1437e893	24	#include <string.h>
f3163a6c	25	#include <glib.h>
cd315a80	26	#include "sigrok.h"
1437e893	27
f3163a6c DR	28	#define DEFAULT_BPL_BITS 64
	29	#define DEFAULT_BPL_HEX 192
	30	#define DEFAULT_BPL_ASCII 74
1437e893	31
f3163a6c DR	32	enum outputmode {
	33	MODE_BITS = 1,
	34	MODE_HEX,
	35	MODE_ASCII,
	36	};
1437e893 BV	37
1437e893 BV	38	struct context {
1437e893	39	unsigned int num_enabled_probes;
1437e893 BV	40	int samples_per_line;
	41	unsigned int unitsize;
	42	int line_offset;
	43	int linebuf_len;
f3163a6c	44	char *probelist[65];
1437e893 BV	45	char *linebuf;
1437e893 BV	46	int spl_cnt;
f3163a6c DR	47	uint8_t *linevalues;
f3163a6c DR	48	char *header;
1437e893	49	int mark_trigger;
809c5f20	50	// struct sr_analog_sample *prevsample;
f3163a6c	51	enum outputmode mode;
1437e893 BV	52	};
1437e893 BV	53
1437e893 BV	54	static void flush_linebufs(struct context ctx, char outbuf)
	55	{
	56	static int max_probename_len = 0;
	57	int len, i;
	58
	59	if (ctx->linebuf[0] == 0)
	60	return;
	61
	62	if (max_probename_len == 0) {
	63	/* First time through... */
	64	for (i = 0; ctx->probelist[i]; i++) {
	65	len = strlen(ctx->probelist[i]);
	66	if (len > max_probename_len)
	67	max_probename_len = len;
	68	}
	69	}
	70
	71	for (i = 0; ctx->probelist[i]; i++) {
	72	sprintf(outbuf + strlen(outbuf), "%*s:%s\n", max_probename_len,
	73	ctx->probelist[i], ctx->linebuf + i * ctx->linebuf_len);
	74	}
	75
	76	/* Mark trigger with a ^ character. */
	77	if (ctx->mark_trigger != -1)
f3163a6c DR	78	{
	79	int space_offset = ctx->mark_trigger / 8;
	80
	81	if (ctx->mode == MODE_ASCII)
	82	space_offset = 0;
	83
1437e893	84	sprintf(outbuf + strlen(outbuf), "T:%*s^\n",
f3163a6c DR	85	ctx->mark_trigger + space_offset, "");
f3163a6c DR	86	}
1437e893 BV	87
	88	memset(ctx->linebuf, 0, i * ctx->linebuf_len);
	89	}
	90
f50f3f40	91	static int init(struct sr_output *o, int default_spl, enum outputmode mode)
1437e893 BV	92	{
1437e893 BV	93	struct context *ctx;
1afe8989	94	struct sr_probe *probe;
1437e893 BV	95	GSList *l;
	96	uint64_t samplerate;
	97	int num_probes;
	98	char *samplerate_s;
	99
133a37bf UH	100	if (!(ctx = g_try_malloc0(sizeof(struct context)))) {
133a37bf UH	101	sr_err("analog out: %s: ctx malloc failed", __func__);
e46b8fb1	102	return SR_ERR_MALLOC;
133a37bf	103	}
1437e893	104
1437e893	105	o->internal = ctx;
1437e893	106	ctx->num_enabled_probes = 0;
f3163a6c	107
bb7ef793	108	for (l = o->dev->probes; l; l = l->next) {
f3163a6c DR	109	probe = l->data;
	110	if (!probe->enabled)
	111	continue;
	112	ctx->probelist[ctx->num_enabled_probes++] = probe->name;
	113	}
	114
	115	ctx->probelist[ctx->num_enabled_probes] = 0;
809c5f20 UH	116	ctx->unitsize = sizeof(struct sr_analog_sample) +
809c5f20 UH	117	(ctx->num_enabled_probes * sizeof(struct sr_analog_probe));
f3163a6c DR	118	ctx->line_offset = 0;
f3163a6c DR	119	ctx->spl_cnt = 0;
1437e893	120	ctx->mark_trigger = -1;
f3163a6c DR	121	ctx->mode = mode;
f3163a6c DR	122
9b36e360 BV	123	if (o->param && o->param[0]) {
	124	ctx->samples_per_line = strtoul(o->param, NULL, 10);
	125	if (ctx->samples_per_line < 1)
e46b8fb1	126	return SR_ERR;
9b36e360	127	} else
f3163a6c	128	ctx->samples_per_line = default_spl;
9b36e360	129
133a37bf UH	130	if (!(ctx->header = g_try_malloc(512))) {
	131	g_free(ctx);
	132	sr_err("analog out: %s: ctx->header malloc failed", __func__);
e46b8fb1	133	return SR_ERR_MALLOC;
1437e893	134	}
1437e893 BV	135
1437e893 BV	136	snprintf(ctx->header, 511, "%s\n", PACKAGE_STRING);
bb7ef793 UH	137	num_probes = g_slist_length(o->dev->probes);
	138	if (o->dev->plugin && sr_dev_has_hwcap(o->dev, SR_HWCAP_SAMPLERATE)) {
	139	samplerate = ((uint64_t ) o->dev->plugin->get_dev_info(
	140	o->dev->plugin_index, SR_DI_CUR_SAMPLERATE));
a00ba012	141	if (!(samplerate_s = sr_samplerate_string(samplerate))) {
133a37bf UH	142	g_free(ctx->header);
133a37bf UH	143	g_free(ctx);
e46b8fb1	144	return SR_ERR;
1437e893 BV	145	}
	146	snprintf(ctx->header + strlen(ctx->header),
	147	511 - strlen(ctx->header),
	148	"Acquisition with %d/%d probes at %s\n",
	149	ctx->num_enabled_probes, num_probes, samplerate_s);
133a37bf	150	g_free(samplerate_s);
1437e893 BV	151	}
1437e893 BV	152
f3163a6c	153	ctx->linebuf_len = ctx->samples_per_line * 2 + 4;
133a37bf UH	154	if (!(ctx->linebuf = g_try_malloc0(num_probes * ctx->linebuf_len))) {
	155	g_free(ctx->header);
	156	g_free(ctx);
	157	sr_err("analog out: %s: ctx->linebuf malloc failed", __func__);
e46b8fb1	158	return SR_ERR_MALLOC;
f3163a6c	159	}
133a37bf UH	160	if (!(ctx->linevalues = g_try_malloc0(num_probes))) {
	161	g_free(ctx->header);
	162	g_free(ctx);
	163	sr_err("analog out: %s: ctx->linevalues malloc failed",
	164	__func__);
e46b8fb1	165	return SR_ERR_MALLOC;
1437e893 BV	166	}
1437e893 BV	167
e46b8fb1	168	return SR_OK;
1437e893 BV	169	}
1437e893 BV	170
f50f3f40	171	static int event(struct sr_output o, int event_type, char *data_out,
f3163a6c	172	uint64_t *length_out)
1437e893 BV	173	{
1437e893 BV	174	struct context *ctx;
f3163a6c DR	175	int outsize;
f3163a6c DR	176	char *outbuf;
1437e893 BV	177
1437e893 BV	178	ctx = o->internal;
f3163a6c	179	switch (event_type) {
5a2326a7	180	case SR_DF_TRIGGER:
f3163a6c DR	181	ctx->mark_trigger = ctx->spl_cnt;
	182	*data_out = NULL;
	183	*length_out = 0;
	184	break;
5a2326a7	185	case SR_DF_END:
f3163a6c DR	186	outsize = ctx->num_enabled_probes
f3163a6c DR	187	* (ctx->samples_per_line + 20) + 512;
133a37bf UH	188	if (!(outbuf = g_try_malloc0(outsize))) {
	189	sr_err("analog out: %s: outbuf malloc failed",
	190	__func__);
e46b8fb1	191	return SR_ERR_MALLOC;
133a37bf	192	}
f3163a6c DR	193	flush_linebufs(ctx, outbuf);
	194	*data_out = outbuf;
	195	*length_out = strlen(outbuf);
133a37bf	196	g_free(o->internal);
f3163a6c DR	197	o->internal = NULL;
	198	break;
	199	default:
	200	*data_out = NULL;
	201	*length_out = 0;
	202	break;
	203	}
	204
e46b8fb1	205	return SR_OK;
f3163a6c DR	206	}
f3163a6c DR	207
f50f3f40	208	static int init_bits(struct sr_output *o)
f3163a6c DR	209	{
	210	return init(o, DEFAULT_BPL_BITS, MODE_BITS);
	211	}
	212
54ac5277 UH	213	static int data_bits(struct sr_output o, const char data_in,
54ac5277 UH	214	uint64_t length_in, char *data_out, uint64_t length_out)
f3163a6c DR	215	{
	216	struct context *ctx;
	217	unsigned int outsize, offset, p;
	218	int max_linelen;
809c5f20	219	struct sr_analog_sample *sample;
f3163a6c DR	220	char *outbuf, c;
	221
	222	ctx = o->internal;
9688b443	223	max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
1437e893	224	+ ctx->samples_per_line / 8;
f3163a6c DR	225	/*
	226	* Calculate space needed for probes. Set aside 512 bytes for
	227	* extra output, e.g. trigger.
	228	*/
	229	outsize = 512 + (1 + (length_in / ctx->unitsize) / ctx->samples_per_line)
	230	* (ctx->num_enabled_probes * max_linelen);
	231
133a37bf UH	232	if (!(outbuf = g_try_malloc0(outsize + 1))) {
133a37bf UH	233	sr_err("analog out: %s: outbuf malloc failed", __func__);
e46b8fb1	234	return SR_ERR_MALLOC;
133a37bf	235	}
1437e893 BV	236
	237	outbuf[0] = '\0';
	238	if (ctx->header) {
	239	/* The header is still here, this must be the first packet. */
	240	strncpy(outbuf, ctx->header, outsize);
133a37bf	241	g_free(ctx->header);
1437e893	242	ctx->header = NULL;
f3163a6c DR	243
f3163a6c DR	244	/* Ensure first transition. */
6eb0e3ea DR	245	// memcpy(&ctx->prevsample, data_in, ctx->unitsize);
6eb0e3ea DR	246	// ctx->prevsample = ~ctx->prevsample;
1437e893 BV	247	}
	248
	249	if (length_in >= ctx->unitsize) {
	250	for (offset = 0; offset <= length_in - ctx->unitsize;
	251	offset += ctx->unitsize) {
809c5f20	252	sample = (struct sr_analog_sample *) (data_in + offset);
1437e893	253	for (p = 0; p < ctx->num_enabled_probes; p++) {
6eb0e3ea DR	254	int val = sample->probes[p].val;
	255	int res = sample->probes[p].res;
	256	if (res == 1)
	257	c = '0' + (val & ((1 << res) - 1));
	258	else
	259	/*
	260	* Scale analog resolution down so it
	261	* fits 25 letters
	262	*/
	263	c = 'A' + (((val & ((1 << res) - 1)) /
	264	(res * res)) / 10);
f3163a6c DR	265	ctx->linebuf[p * ctx->linebuf_len +
	266	ctx->line_offset] = c;
	267	}
	268	ctx->line_offset++;
	269	ctx->spl_cnt++;
	270
	271	/* Add a space every 8th bit. */
	272	if ((ctx->spl_cnt & 7) == 0) {
	273	for (p = 0; p < ctx->num_enabled_probes; p++)
	274	ctx->linebuf[p * ctx->linebuf_len +
	275	ctx->line_offset] = ' ';
	276	ctx->line_offset++;
1437e893 BV	277	}
	278
	279	/* End of line. */
	280	if (ctx->spl_cnt >= ctx->samples_per_line) {
	281	flush_linebufs(ctx, outbuf);
	282	ctx->line_offset = ctx->spl_cnt = 0;
	283	ctx->mark_trigger = -1;
	284	}
1437e893 BV	285	}
1437e893 BV	286	} else {
7b48d6e1 UH	287	sr_info("analog out: short buffer (length_in=%" PRIu64 ")",
7b48d6e1 UH	288	length_in);
1437e893 BV	289	}
	290
	291	*data_out = outbuf;
	292	*length_out = strlen(outbuf);
	293
e46b8fb1	294	return SR_OK;
1437e893	295	}
6eb0e3ea	296	#if 0
f50f3f40	297	static int init_hex(struct sr_output *o)
f3163a6c DR	298	{
	299	return init(o, DEFAULT_BPL_HEX, MODE_HEX);
	300	}
	301
54ac5277 UH	302	static int data_hex(struct sr_output o, const char data_in,
54ac5277 UH	303	uint64_t length_in, char *data_out, uint64_t length_out)
1437e893 BV	304	{
1437e893 BV	305	struct context *ctx;
f3163a6c DR	306	unsigned int outsize, offset, p;
	307	int max_linelen;
	308	uint64_t sample;
	309	char *outbuf;
1437e893 BV	310
1437e893 BV	311	ctx = o->internal;
9688b443	312	max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
f3163a6c DR	313	+ ctx->samples_per_line / 2;
	314	outsize = length_in / ctx->unitsize * ctx->num_enabled_probes
	315	/ ctx->samples_per_line * max_linelen + 512;
	316
133a37bf UH	317	if (!(outbuf = g_try_malloc0(outsize + 1))) {
133a37bf UH	318	sr_err("analog out: %s: outbuf malloc failed", __func__);
e46b8fb1	319	return SR_ERR_MALLOC;
133a37bf	320	}
f3163a6c DR	321
	322	outbuf[0] = '\0';
	323	if (ctx->header) {
	324	/* The header is still here, this must be the first packet. */
	325	strncpy(outbuf, ctx->header, outsize);
133a37bf	326	g_free(ctx->header);
f3163a6c	327	ctx->header = NULL;
1437e893 BV	328	}
1437e893 BV	329
f3163a6c DR	330	ctx->line_offset = 0;
	331	for (offset = 0; offset <= length_in - ctx->unitsize;
	332	offset += ctx->unitsize) {
	333	memcpy(&sample, data_in + offset, ctx->unitsize);
	334	for (p = 0; p < ctx->num_enabled_probes; p++) {
	335	ctx->linevalues[p] <<= 1;
	336	if (sample & ((uint64_t) 1 << p))
	337	ctx->linevalues[p] \|= 1;
	338	sprintf(ctx->linebuf + (p * ctx->linebuf_len) +
	339	ctx->line_offset, "%.2x", ctx->linevalues[p]);
	340	}
	341	ctx->spl_cnt++;
	342
	343	/* Add a space after every complete hex byte. */
	344	if ((ctx->spl_cnt & 7) == 0) {
	345	for (p = 0; p < ctx->num_enabled_probes; p++)
	346	ctx->linebuf[p * ctx->linebuf_len +
	347	ctx->line_offset + 2] = ' ';
	348	ctx->line_offset += 3;
	349	}
	350
	351	/* End of line. */
	352	if (ctx->spl_cnt >= ctx->samples_per_line) {
	353	flush_linebufs(ctx, outbuf);
	354	ctx->line_offset = ctx->spl_cnt = 0;
	355	}
	356	}
	357
	358	*data_out = outbuf;
	359	*length_out = strlen(outbuf);
1437e893	360
e46b8fb1	361	return SR_OK;
1437e893 BV	362	}
1437e893 BV	363
f50f3f40	364	static int init_ascii(struct sr_output *o)
f3163a6c DR	365	{
	366	return init(o, DEFAULT_BPL_ASCII, MODE_ASCII);
	367	}
	368
54ac5277 UH	369	static int data_ascii(struct sr_output o, const char data_in,
54ac5277 UH	370	uint64_t length_in, char *data_out, uint64_t length_out)
f3163a6c DR	371	{
	372	struct context *ctx;
	373	unsigned int outsize, offset, p;
	374	int max_linelen;
	375	uint64_t sample;
	376	char *outbuf;
	377
	378	ctx = o->internal;
9688b443	379	max_linelen = SR_MAX_PROBENAME_LEN + 3 + ctx->samples_per_line
f3163a6c DR	380	+ ctx->samples_per_line / 8;
	381	/*
	382	* Calculate space needed for probes. Set aside 512 bytes for
	383	* extra output, e.g. trigger.
	384	*/
	385	outsize = 512 + (1 + (length_in / ctx->unitsize) / ctx->samples_per_line)
	386	* (ctx->num_enabled_probes * max_linelen);
	387
133a37bf UH	388	if (!(outbuf = g_try_malloc0(outsize + 1))) {
133a37bf UH	389	sr_err("analog out: %s: outbuf malloc failed", __func__);
e46b8fb1	390	return SR_ERR_MALLOC;
133a37bf	391	}
f3163a6c DR	392
	393	outbuf[0] = '\0';
	394	if (ctx->header) {
	395	/* The header is still here, this must be the first packet. */
	396	strncpy(outbuf, ctx->header, outsize);
133a37bf	397	g_free(ctx->header);
f3163a6c DR	398	ctx->header = NULL;
	399	}
	400
	401	if (length_in >= ctx->unitsize) {
	402	for (offset = 0; offset <= length_in - ctx->unitsize;
	403	offset += ctx->unitsize) {
	404	memcpy(&sample, data_in + offset, ctx->unitsize);
	405
	406	char tmpval[ctx->num_enabled_probes];
	407
	408	for (p = 0; p < ctx->num_enabled_probes; p++) {
	409	uint64_t curbit = (sample & ((uint64_t) 1 << p));
	410	uint64_t prevbit = (ctx->prevsample &
	411	((uint64_t) 1 << p));
	412
	413	if (curbit < prevbit && ctx->line_offset > 0) {
	414	ctx->linebuf[p * ctx->linebuf_len +
	415	ctx->line_offset-1] = '\\';
	416	}
	417
	418	if (curbit > prevbit) {
	419	tmpval[p] = '/';
	420	} else {
	421	if (curbit)
	422	tmpval[p] = '"';
	423	else
	424	tmpval[p] = '.';
	425	}
	426	}
	427
	428	/* End of line. */
	429	if (ctx->spl_cnt >= ctx->samples_per_line) {
	430	flush_linebufs(ctx, outbuf);
	431	ctx->line_offset = ctx->spl_cnt = 0;
	432	ctx->mark_trigger = -1;
	433	}
	434
	435	for (p = 0; p < ctx->num_enabled_probes; p++) {
	436	ctx->linebuf[p * ctx->linebuf_len +
	437	ctx->line_offset] = tmpval[p];
	438	}
	439
	440	ctx->line_offset++;
	441	ctx->spl_cnt++;
	442
	443	ctx->prevsample = sample;
	444	}
	445	} else {
7b48d6e1 UH	446	sr_info("analog out: short buffer (length_in=%" PRIu64 ")",
7b48d6e1 UH	447	length_in);
f3163a6c DR	448	}
	449
	450	*data_out = outbuf;
	451	*length_out = strlen(outbuf);
	452
e46b8fb1	453	return SR_OK;
f3163a6c	454	}
6eb0e3ea	455	#endif
f3163a6c	456
7c1d391c	457	SR_PRIV struct sr_output_format output_analog_bits = {
cdb3573c	458	.id = "analog_bits",
d494a4aa UH	459	.description = "Bits (takes argument, default 64)",
	460	.df_type = SR_DF_ANALOG,
	461	.init = init_bits,
	462	.data = data_bits,
	463	.event = event,
1437e893	464	};
7c1d391c	465
6eb0e3ea	466	#if 0
f50f3f40	467	struct sr_output_format output_analog_hex = {
cdb3573c	468	.id = "analog_hex",
d494a4aa UH	469	.description = "Hexadecimal (takes argument, default 192)",
	470	.df_type = SR_DF_ANALOG,
	471	.init = init_hex,
	472	.data = data_hex,
	473	.event = event,
f3163a6c DR	474	};
f3163a6c DR	475
f50f3f40	476	struct sr_output_format output_analog_ascii = {
cdb3573c	477	.id = "analog_ascii",
d494a4aa UH	478	.description = "ASCII (takes argument, default 74)",
	479	.df_type = SR_DF_ANALOG,
	480	.init = init_ascii,
	481	.data = data_ascii,
	482	.event = event,
f3163a6c	483	};
6eb0e3ea	484	#endif