2015-10-15 10:13:43 +00:00
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/*
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* This file is part of the libsigrok project.
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*
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* Copyright (C) 2015 Uwe Hermann <uwe@hermann-uwe.de>
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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 2 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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2016-10-20 07:57:25 +00:00
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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2015-10-15 10:13:43 +00:00
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*/
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#include <config.h>
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#include <stdlib.h>
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#include <math.h>
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#include <check.h>
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#include <libsigrok/libsigrok.h>
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#include "lib.h"
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static int sr_analog_init_(struct sr_datafeed_analog *analog,
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struct sr_analog_encoding *encoding,
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struct sr_analog_meaning *meaning,
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struct sr_analog_spec *spec,
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int digits)
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{
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memset(analog, 0, sizeof(*analog));
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memset(encoding, 0, sizeof(*encoding));
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memset(meaning, 0, sizeof(*meaning));
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memset(spec, 0, sizeof(*spec));
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analog->encoding = encoding;
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analog->meaning = meaning;
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analog->spec = spec;
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encoding->unitsize = sizeof(float);
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encoding->is_float = TRUE;
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#ifdef WORDS_BIGENDIAN
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encoding->is_bigendian = TRUE;
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#else
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encoding->is_bigendian = FALSE;
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#endif
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encoding->digits = digits;
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encoding->is_digits_decimal = TRUE;
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encoding->scale.p = 1;
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encoding->scale.q = 1;
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encoding->offset.p = 0;
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encoding->offset.q = 1;
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spec->spec_digits = digits;
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return SR_OK;
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}
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START_TEST(test_analog_to_float)
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{
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int ret;
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unsigned int i;
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float f, fout;
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struct sr_channel ch;
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struct sr_datafeed_analog analog;
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struct sr_analog_encoding encoding;
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struct sr_analog_meaning meaning;
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struct sr_analog_spec spec;
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const float v[] = {-12.9, -333.999, 0, 3.1415, 29.7, 989898.121212};
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sr_analog_init_(&analog, &encoding, &meaning, &spec, 3);
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analog.num_samples = 1;
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analog.data = &f;
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meaning.channels = g_slist_append(NULL, &ch);
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for (i = 0; i < ARRAY_SIZE(v); i++) {
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fout = 19;
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f = v[i];
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ret = sr_analog_to_float(&analog, &fout);
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fail_unless(ret == SR_OK, "sr_analog_to_float() failed: %d.", ret);
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fail_unless(fabs(f - fout) <= 0.001, "%f != %f", f, fout);
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}
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}
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END_TEST
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START_TEST(test_analog_to_float_null)
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{
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int ret;
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float f, fout;
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struct sr_datafeed_analog analog;
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struct sr_analog_encoding encoding;
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struct sr_analog_meaning meaning;
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struct sr_analog_spec spec;
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f = G_PI;
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sr_analog_init_(&analog, &encoding, &meaning, &spec, 3);
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analog.num_samples = 1;
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analog.data = &f;
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ret = sr_analog_to_float(NULL, &fout);
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fail_unless(ret == SR_ERR_ARG);
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ret = sr_analog_to_float(&analog, NULL);
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fail_unless(ret == SR_ERR_ARG);
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ret = sr_analog_to_float(NULL, NULL);
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fail_unless(ret == SR_ERR_ARG);
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analog.data = NULL;
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ret = sr_analog_to_float(&analog, &fout);
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fail_unless(ret == SR_ERR_ARG);
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analog.data = &f;
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analog.meaning = NULL;
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ret = sr_analog_to_float(&analog, &fout);
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fail_unless(ret == SR_ERR_ARG);
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analog.meaning = &meaning;
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analog.encoding = NULL;
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ret = sr_analog_to_float(&analog, &fout);
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fail_unless(ret == SR_ERR_ARG);
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analog.encoding = &encoding;
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}
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END_TEST
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2016-08-28 20:11:20 +00:00
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START_TEST(test_analog_si_prefix)
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{
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struct {
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float input_value;
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int input_digits;
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float output_value;
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int output_digits;
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const char *output_si_prefix;
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} v[] = {
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{ 12.0 , 0, 12.0 , 0, "" },
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{ 12.0 , 1, 12.0 , 1, "" },
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{ 12.0 , -1, 0.012, 2, "k" },
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{ 1024.0 , 0, 1.024, 3, "k" },
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{ 1024.0 , -1, 1.024, 2, "k" },
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{ 1024.0 , -3, 1.024, 0, "k" },
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{ 12.0e5 , 0, 1.2, 6, "M" },
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{ 0.123456, 0, 0.123456, 0, "" },
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{ 0.123456, 1, 0.123456, 1, "" },
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{ 0.123456, 2, 0.123456, 2, "" },
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{ 0.123456, 3, 123.456, 0, "m" },
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{ 0.123456, 4, 123.456, 1, "m" },
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{ 0.123456, 5, 123.456, 2, "m" },
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{ 0.123456, 6, 123.456, 3, "m" },
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{ 0.123456, 7, 123.456, 4, "m" },
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{ 0.0123 , 4, 12.3, 1, "m" },
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{ 0.00123 , 5, 1.23, 2, "m" },
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{ 0.000123, 4, 0.123, 1, "m" },
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{ 0.000123, 5, 0.123, 2, "m" },
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{ 0.000123, 6, 123.0, 0, "µ" },
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{ 0.000123, 7, 123.0, 1, "µ" },
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};
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for (unsigned int i = 0; i < ARRAY_SIZE(v); i++) {
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float value = v[i].input_value;
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int digits = v[i].input_digits;
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const char *si_prefix = sr_analog_si_prefix(&value, &digits);
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fail_unless(fabs(value - v[i].output_value) <= 0.00001,
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"sr_analog_si_prefix() unexpected output value %f (i=%d).",
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value , i);
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fail_unless(digits == v[i].output_digits,
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"sr_analog_si_prefix() unexpected output digits %d (i=%d).",
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digits, i);
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fail_unless(!strcmp(si_prefix, v[i].output_si_prefix),
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"sr_analog_si_prefix() unexpected output prefix \"%s\" (i=%d).",
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si_prefix, i);
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}
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}
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END_TEST
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START_TEST(test_analog_si_prefix_null)
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{
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float value = 1.23;
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int digits = 1;
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const char *si_prefix;
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si_prefix = sr_analog_si_prefix(NULL, &digits);
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fail_unless(!strcmp(si_prefix, ""));
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si_prefix = sr_analog_si_prefix(&value, NULL);
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fail_unless(!strcmp(si_prefix, ""));
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si_prefix = sr_analog_si_prefix(NULL, NULL);
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fail_unless(!strcmp(si_prefix, ""));
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}
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END_TEST
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2015-10-15 10:13:43 +00:00
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START_TEST(test_analog_unit_to_string)
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{
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int ret;
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unsigned int i;
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char *result;
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struct sr_datafeed_analog analog;
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struct sr_analog_encoding encoding;
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struct sr_analog_meaning meaning;
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struct sr_analog_spec spec;
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2018-06-19 05:22:12 +00:00
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const int u[] = {SR_UNIT_VOLT, SR_UNIT_AMPERE, SR_UNIT_CELSIUS};
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const int f[] = {SR_MQFLAG_RMS, 0, 0};
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const char *r[] = {"V RMS", "A", "°C"};
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2015-10-15 10:13:43 +00:00
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sr_analog_init_(&analog, &encoding, &meaning, &spec, 3);
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2018-06-19 05:03:29 +00:00
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for (i = 0; i < ARRAY_SIZE(r); i++) {
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2018-06-19 05:22:12 +00:00
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meaning.unit = u[i];
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meaning.mqflags = f[i];
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2015-10-15 10:13:43 +00:00
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ret = sr_analog_unit_to_string(&analog, &result);
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fail_unless(ret == SR_OK);
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fail_unless(result != NULL);
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fail_unless(!strcmp(result, r[i]), "%s != %s", result, r[i]);
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g_free(result);
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}
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}
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END_TEST
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START_TEST(test_analog_unit_to_string_null)
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{
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int ret;
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char *result;
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struct sr_datafeed_analog analog;
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struct sr_analog_encoding encoding;
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struct sr_analog_meaning meaning;
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struct sr_analog_spec spec;
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sr_analog_init_(&analog, &encoding, &meaning, &spec, 3);
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meaning.unit = SR_UNIT_VOLT;
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meaning.mqflags = SR_MQFLAG_RMS;
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ret = sr_analog_unit_to_string(NULL, &result);
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fail_unless(ret == SR_ERR_ARG);
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ret = sr_analog_unit_to_string(&analog, NULL);
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fail_unless(ret == SR_ERR_ARG);
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ret = sr_analog_unit_to_string(NULL, NULL);
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fail_unless(ret == SR_ERR_ARG);
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analog.meaning = NULL;
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ret = sr_analog_unit_to_string(&analog, &result);
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fail_unless(ret == SR_ERR_ARG);
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}
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END_TEST
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START_TEST(test_set_rational)
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{
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unsigned int i;
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struct sr_rational r;
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const int64_t p[] = {0, 1, -5, INT64_MAX};
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const uint64_t q[] = {0, 2, 7, UINT64_MAX};
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for (i = 0; i < ARRAY_SIZE(p); i++) {
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sr_rational_set(&r, p[i], q[i]);
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fail_unless(r.p == p[i] && r.q == q[i]);
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}
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}
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END_TEST
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START_TEST(test_set_rational_null)
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{
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sr_rational_set(NULL, 5, 7);
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}
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END_TEST
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2016-04-22 21:15:54 +00:00
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START_TEST(test_cmp_rational)
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{
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const struct sr_rational r[] = { { 1, 1 },
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{ 2, 2 },
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{ 1000, 1000 },
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{ INT64_MAX, INT64_MAX },
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{ 1, 4 },
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{ 2, 8 },
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{ INT64_MAX, UINT64_MAX },
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{ INT64_MIN, UINT64_MAX },
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};
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fail_unless(sr_rational_eq(&r[0], &r[0]) == 1);
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fail_unless(sr_rational_eq(&r[0], &r[1]) == 1);
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fail_unless(sr_rational_eq(&r[1], &r[2]) == 1);
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fail_unless(sr_rational_eq(&r[2], &r[3]) == 1);
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fail_unless(sr_rational_eq(&r[3], &r[3]) == 1);
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fail_unless(sr_rational_eq(&r[4], &r[4]) == 1);
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fail_unless(sr_rational_eq(&r[4], &r[5]) == 1);
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fail_unless(sr_rational_eq(&r[5], &r[5]) == 1);
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fail_unless(sr_rational_eq(&r[6], &r[6]) == 1);
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fail_unless(sr_rational_eq(&r[7], &r[7]) == 1);
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fail_unless(sr_rational_eq(&r[1], &r[4]) == 0);
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}
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END_TEST
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2016-04-24 00:48:26 +00:00
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START_TEST(test_mult_rational)
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{
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const struct sr_rational r[][3] = {
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/* a * b = c */
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{ { 1, 1 }, { 1, 1 }, { 1, 1 }},
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{ { 2, 1 }, { 3, 1 }, { 6, 1 }},
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{ { 1, 2 }, { 2, 1 }, { 1, 1 }},
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/* Test negative numbers */
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{ { -1, 2 }, { 2, 1 }, { -1, 1 }},
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{ { -1, 2 }, { -2, 1 }, { 1, 1 }},
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{ { -(1ll<<20), (1ll<<10) }, { -(1ll<<20), 1 }, { (1ll<<30), 1 }},
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/* Test reduction */
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{ { INT32_MAX, (1ll<<12) }, { (1<<2), 1 }, { INT32_MAX, (1ll<<10) }},
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{ { INT64_MAX, (1ll<<63) }, { (1<<3), 1 }, { INT64_MAX, (1ll<<60) }},
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/* Test large numbers */
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{ { (1ll<<40), (1ll<<10) }, { (1ll<<30), 1 }, { (1ll<<60), 1 }},
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{ { -(1ll<<40), (1ll<<10) }, { -(1ll<<30), 1 }, { (1ll<<60), 1 }},
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{ { 1000, 1 }, { 8000, 1 }, { 8000000, 1 }},
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{ { 10000, 1 }, { 80000, 1 }, { 800000000, 1 }},
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{ { 10000*3, 4 }, { 80000*3, 1 }, { 200000000*9, 1 }},
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{ { 1, 1000 }, { 1, 8000 }, { 1, 8000000 }},
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{ { 1, 10000 }, { 1, 80000 }, { 1, 800000000 }},
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{ { 4, 10000*3 }, { 1, 80000*3 }, { 1, 200000000*9 }},
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{ { -10000*3, 4 }, { 80000*3, 1 }, { -200000000*9, 1 }},
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{ { 10000*3, 4 }, { -80000*3, 1 }, { -200000000*9, 1 }},
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};
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for (unsigned i = 0; i < ARRAY_SIZE(r); i++) {
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struct sr_rational res;
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int rc = sr_rational_mult(&res, &r[i][0], &r[i][1]);
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fail_unless(rc == SR_OK);
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fail_unless(sr_rational_eq(&res, &r[i][2]) == 1,
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"sr_rational_mult() failed: [%d] %ld/%lu != %ld/%lu.",
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i, res.p, res.q, r[i][2].p, r[i][2].q);
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}
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}
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END_TEST
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2016-04-30 23:36:23 +00:00
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START_TEST(test_div_rational)
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{
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const struct sr_rational r[][3] = {
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/* a * b = c */
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{ { 1, 1 }, { 1, 1 }, { 1, 1 }},
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{ { 2, 1 }, { 1, 3 }, { 6, 1 }},
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{ { 1, 2 }, { 1, 2 }, { 1, 1 }},
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/* Test negative numbers */
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{ { -1, 2 }, { 1, 2 }, { -1, 1 }},
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{ { -1, 2 }, { -1, 2 }, { 1, 1 }},
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{ { -(1ll<<20), (1ll<<10) }, { -1, (1ll<<20) }, { (1ll<<30), 1 }},
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/* Test reduction */
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{ { INT32_MAX, (1ll<<12) }, { 1, (1<<2) }, { INT32_MAX, (1ll<<10) }},
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{ { INT64_MAX, (1ll<<63) }, { 1, (1<<3) }, { INT64_MAX, (1ll<<60) }},
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/* Test large numbers */
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{ { (1ll<<40), (1ll<<10) }, { 1, (1ll<<30) }, { (1ll<<60), 1 }},
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{ { -(1ll<<40), (1ll<<10) }, { -1, (1ll<<30) }, { (1ll<<60), 1 }},
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{ { 10000*3, 4 }, { 1, 80000*3 }, { 200000000*9, 1 }},
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{ { 4, 10000*3 }, { 80000*3, 1 }, { 1, 200000000*9 }},
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{ { -10000*3, 4 }, { 1, 80000*3 }, { -200000000*9, 1 }},
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{ { 10000*3, 4 }, { -1, 80000*3 }, { -200000000*9, 1 }},
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};
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for (unsigned i = 0; i < ARRAY_SIZE(r); i++) {
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struct sr_rational res;
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int rc = sr_rational_div(&res, &r[i][0], &r[i][1]);
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fail_unless(rc == SR_OK);
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fail_unless(sr_rational_eq(&res, &r[i][2]) == 1,
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"sr_rational_mult() failed: [%d] %ld/%lu != %ld/%lu.",
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i, res.p, res.q, r[i][2].p, r[i][2].q);
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}
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{
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struct sr_rational res;
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int rc = sr_rational_div(&res, &r[0][0], &((struct sr_rational){ 0, 5 }));
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fail_unless(rc == SR_ERR_ARG);
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}
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}
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END_TEST
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2015-10-15 10:13:43 +00:00
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Suite *suite_analog(void)
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{
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Suite *s;
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TCase *tc;
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s = suite_create("analog");
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tc = tcase_create("analog_to_float");
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tcase_add_test(tc, test_analog_to_float);
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tcase_add_test(tc, test_analog_to_float_null);
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2016-08-28 20:11:20 +00:00
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tcase_add_test(tc, test_analog_si_prefix);
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tcase_add_test(tc, test_analog_si_prefix_null);
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2015-10-15 10:13:43 +00:00
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tcase_add_test(tc, test_analog_unit_to_string);
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tcase_add_test(tc, test_analog_unit_to_string_null);
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tcase_add_test(tc, test_set_rational);
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tcase_add_test(tc, test_set_rational_null);
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2016-04-22 21:15:54 +00:00
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tcase_add_test(tc, test_cmp_rational);
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2016-04-24 00:48:26 +00:00
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tcase_add_test(tc, test_mult_rational);
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2016-04-30 23:36:23 +00:00
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tcase_add_test(tc, test_div_rational);
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2015-10-15 10:13:43 +00:00
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suite_add_tcase(s, tc);
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return s;
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}
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