portapack-mayhem/firmware/test/application/test_freqman_db.cpp
gullradriel 794fece8cc
Recon raw repeat (#1658)
* UI for Recon Repeater config
* persistent recon repeat settings
* record_view: added possibility to force keep the provided record filename
* working auto record to same file
* Recon TX 
* added Repeater type
* adding yellow coloring on Repeater config+a modal, comments in the code
* default repeater values
2023-12-28 11:25:53 +01:00

269 lines
7.8 KiB
C++

/*
* Copyright (C) 2023 Kyle Reed
*
* This file is part of PortaPack.
*
* 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 2, 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; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#include "doctest.h"
#include "freqman_db.hpp"
TEST_SUITE_BEGIN("Freqman Parsing");
TEST_CASE("It can parse basic single freq entry.") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.", e));
CHECK_EQ(e.frequency_a, 123'000'000);
CHECK_EQ(e.description, "This is the description.");
CHECK_EQ(e.type, freqman_type::Single);
}
TEST_CASE("It can parse basic range freq entry.") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"a=123000000,b=423000000,d=This is the description.", e));
CHECK_EQ(e.frequency_a, 123'000'000);
CHECK_EQ(e.frequency_b, 423'000'000);
CHECK_EQ(e.description, "This is the description.");
CHECK_EQ(e.type, freqman_type::Range);
}
TEST_CASE("It can parse basic ham radio freq entry.") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"r=123000000,t=423000000,d=This is the description.", e));
CHECK_EQ(e.frequency_a, 123'000'000);
CHECK_EQ(e.frequency_b, 423'000'000);
CHECK_EQ(e.description, "This is the description.");
CHECK_EQ(e.type, freqman_type::HamRadio);
}
TEST_CASE("It can parse repeater entry.") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"l=123000000,t=123000500,d=This is the description.", e));
CHECK_EQ(e.frequency_a, 123'000'000);
CHECK_EQ(e.frequency_b, 123'000'500);
CHECK_EQ(e.description, "This is the description.");
CHECK_EQ(e.type, freqman_type::Repeater);
}
TEST_CASE("It can parse modulation") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=AM", e));
CHECK_EQ(e.modulation, 0);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=NFM", e));
CHECK_EQ(e.modulation, 1);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=WFM", e));
CHECK_EQ(e.modulation, 2);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=SPEC", e));
CHECK_EQ(e.modulation, 3);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=FOO", e));
CHECK_EQ(e.modulation, freqman_invalid_index);
}
TEST_CASE("It can parse bandwidth") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=AM,bw=DSB 6k", e));
CHECK_EQ(e.bandwidth, 1);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,bw=DSB 6k", e));
// Modulation wasn't set.
CHECK_EQ(e.bandwidth, freqman_invalid_index);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=WFM,bw=50k", e));
// Invalid bandwidth value.
CHECK_EQ(e.bandwidth, freqman_invalid_index);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=SPEC,bw=16k", e));
CHECK_EQ(e.modulation, 3);
REQUIRE(
parse_freqman_entry(
"f=123000000,m=NFM,bw=11k,d=This is the description.", e));
CHECK_EQ(e.modulation, 1);
}
TEST_CASE("It can parse frequency step") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,s=0.1kHz", e));
CHECK_EQ(e.step, 0);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,s=50kHz", e));
CHECK_EQ(e.step, 11);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,s=FOO", e));
CHECK_EQ(e.step, freqman_invalid_index);
}
TEST_CASE("It can parse tone freq") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,c=0.0", e));
CHECK_EQ(e.tone, 0);
REQUIRE(
parse_freqman_entry(
"f=123000000,c=67.0,d=This is the description.", e));
CHECK_EQ(e.tone, 1);
REQUIRE(
parse_freqman_entry(
"f=123000000,c=67,d=This is the description.", e));
// Fractional can be omitted.
CHECK_EQ(e.tone, 1);
REQUIRE(
parse_freqman_entry(
"f=123000000,c=69.33,d=This is the description.", e));
// Fractional extra digits can be omitted.
CHECK_EQ(e.tone, 2);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,c=72", e));
// Should choose nearest.
CHECK_EQ(e.tone, 3);
}
TEST_CASE("It can serialize basic Single entry") {
auto str = to_freqman_string(freqman_entry{
.frequency_a = 123'456'000,
.description = "Foobar",
.type = freqman_type::Single,
});
CHECK(str == "f=123456000,d=Foobar");
}
TEST_CASE("It can serialize basic Range entry") {
auto str = to_freqman_string(freqman_entry{
.frequency_a = 123'456'000,
.frequency_b = 423'456'000,
.description = "Foobar",
.type = freqman_type::Range,
});
CHECK(str == "a=123456000,b=423456000,d=Foobar");
}
TEST_CASE("It can serialize basic HamRadio entry") {
auto str = to_freqman_string(freqman_entry{
.frequency_a = 123'456'000,
.frequency_b = 423'456'000,
.description = "Foobar",
.type = freqman_type::HamRadio,
});
CHECK(str == "r=123456000,t=423456000,d=Foobar");
}
TEST_CASE("It can serialize basic Repeater entry") {
auto str = to_freqman_string(freqman_entry{
.frequency_a = 123'456'000,
.frequency_b = 423'456'000,
.description = "Foobar",
.type = freqman_type::Repeater,
});
CHECK(str == "l=123456000,t=423456000,d=Foobar");
}
// New tables for a future PR.
/*
TEST_CASE("It can parse modulation") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=AM", e));
CHECK_EQ(e.modulation, freqman_modulation::AM);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=NFM", e));
CHECK_EQ(e.modulation, freqman_modulation::NFM);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=WFM", e));
CHECK_EQ(e.modulation, freqman_modulation::WFM);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=SPEC", e));
CHECK_EQ(e.modulation, freqman_modulation::SPEC);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,m=FOO", e));
CHECK_EQ(e.modulation, freqman_modulation::Unknown);
}
TEST_CASE("It can parse frequency step") {
freqman_entry e;
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,s=0.1kHz", e));
CHECK_EQ(e.step, freqman_step::_100Hz);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,s=50kHz", e));
CHECK_EQ(e.step, freqman_step::_50kHz);
REQUIRE(
parse_freqman_entry(
"f=123000000,d=This is the description.,s=FOO", e));
CHECK_EQ(e.step, freqman_step::Unknown);
}
*/
TEST_SUITE_END();