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#61 use constant, refactor tests, add short command tests

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Geoffrey Merck 1 month ago
parent 35bba7828a
commit e3a894247d
1 changed files with 99 additions and 173 deletions
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Tests/DTMF/decode.cpp
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@ -1,5 +1,5 @@
/*
* Copyright (C) 2021-2024 by Geoffrey Merck F4FXL / KC3FRA
* Copyright (C) 2021-2026 by Geoffrey Merck F4FXL / KC3FRA
*
* 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
@ -16,124 +16,64 @@
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <array>
#include <gtest/gtest.h>
#include "DTMF.h"
const unsigned char DTMF_MASK[] = {0x82U, 0x08U, 0x20U, 0x82U, 0x00U, 0x00U, 0x82U, 0x00U, 0x00U};
const unsigned char DTMF_SIG[] = {0x82U, 0x08U, 0x20U, 0x82U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U};
const unsigned char NULL_AMBE_DATA_BYTES[] = {0x9E, 0x8D, 0x32, 0x88, 0x26, 0x1A, 0x3F, 0x61, 0xE8};
const unsigned char DTMF_SYM_MASK[] = {0x10U, 0x40U, 0x08U, 0x20U};
const unsigned char DTMF_SYM0[] = {0x00U, 0x40U, 0x08U, 0x20U};
const unsigned char DTMF_SYM1[] = {0x00U, 0x00U, 0x00U, 0x00U};
const unsigned char DTMF_SYM2[] = {0x00U, 0x40U, 0x00U, 0x00U};
const unsigned char DTMF_SYM3[] = {0x10U, 0x00U, 0x00U, 0x00U};
const unsigned char DTMF_SYM4[] = {0x00U, 0x00U, 0x00U, 0x20U};
const unsigned char DTMF_SYM5[] = {0x00U, 0x40U, 0x00U, 0x20U};
const unsigned char DTMF_SYM6[] = {0x10U, 0x00U, 0x00U, 0x20U};
const unsigned char DTMF_SYM7[] = {0x00U, 0x00U, 0x08U, 0x00U};
const unsigned char DTMF_SYM8[] = {0x00U, 0x40U, 0x08U, 0x00U};
const unsigned char DTMF_SYM9[] = {0x10U, 0x00U, 0x08U, 0x00U};
const unsigned char DTMF_SYMA[] = {0x10U, 0x40U, 0x00U, 0x00U};
const unsigned char DTMF_SYMB[] = {0x10U, 0x40U, 0x00U, 0x20U};
const unsigned char DTMF_SYMC[] = {0x10U, 0x40U, 0x08U, 0x00U};
const unsigned char DTMF_SYMD[] = {0x10U, 0x40U, 0x08U, 0x20U};
const unsigned char DTMF_SYMS[] = {0x00U, 0x00U, 0x08U, 0x20U};
const unsigned char DTMF_SYMH[] = {0x10U, 0x00U, 0x08U, 0x20U};
#include "DStarDefines.h"
namespace DTMFTests
{
class DTMF_decode : public ::testing::Test {
};
using Frame = std::array<unsigned char, 9>;
static Frame makeFrame(const unsigned char sym[4])
{
return Frame{
DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
static_cast<unsigned char>(DTMF_SIG[4] | sym[0]),
static_cast<unsigned char>(DTMF_SIG[5] | sym[1]),
DTMF_SIG[6],
static_cast<unsigned char>(DTMF_SIG[7] | sym[2]),
static_cast<unsigned char>(DTMF_SIG[8] | sym[3]),
};
}
static void decode4(CDTMF& dtmf, const Frame& f, bool last = false)
{
dtmf.decode(f.data(), false);
dtmf.decode(f.data(), false);
dtmf.decode(f.data(), false);
dtmf.decode(f.data(), last);
}
static void gap(CDTMF& dtmf, unsigned n = 10, bool end = false)
{
for (unsigned i = 0; i < n; ++i)
dtmf.decode(NULL_AMBE_DATA_BYTES, end);
}
class DTMF_decode : public ::testing::Test {};
TEST_F(DTMF_decode, decode_reflector_module_as_number)
{
unsigned char D[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYMD[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYMD[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYMD[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYMD[3])};
unsigned char Zero[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM0[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM0[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM0[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM0[3])};
unsigned char One[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM1[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM1[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM1[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM1[3])};
unsigned char Eight[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM8[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM8[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM8[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM8[3])};
unsigned char Four[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM4[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM4[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM4[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM4[3])};
const auto D = makeFrame(DTMF_SYMD);
const auto Zero = makeFrame(DTMF_SYM0);
const auto One = makeFrame(DTMF_SYM1);
const auto Eight= makeFrame(DTMF_SYM8);
const auto Four = makeFrame(DTMF_SYM4);
CDTMF dtmf;
dtmf.decode(D, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(One, false);
dtmf.decode(One, false);
dtmf.decode(One, false);
dtmf.decode(One, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(Eight, false);
dtmf.decode(Eight, false);
dtmf.decode(Eight, false);
dtmf.decode(Eight, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(Four, false);
dtmf.decode(Four, false);
dtmf.decode(Four, false);
dtmf.decode(Four, false);
dtmf.decode(Four, true);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
decode4(dtmf, D); gap(dtmf);
decode4(dtmf, Zero); gap(dtmf);
decode4(dtmf, One); gap(dtmf);
decode4(dtmf, Eight); gap(dtmf);
decode4(dtmf, Zero); gap(dtmf);
decode4(dtmf, Four);
gap(dtmf, 10, true);
EXPECT_TRUE(dtmf.hasCommand());
EXPECT_STREQ(dtmf.translate().c_str(), "DCS018DL");
@ -141,74 +81,60 @@ namespace DTMFTests
TEST_F(DTMF_decode, decode_reflector_module_as_letter)
{
unsigned char D[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYMD[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYMD[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYMD[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYMD[3])};
unsigned char Zero[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM0[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM0[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM0[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM0[3])};
unsigned char One[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM1[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM1[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM1[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM1[3])};
unsigned char Eight[] = {DTMF_SIG[0],
DTMF_SIG[1],
DTMF_SIG[2],
DTMF_SIG[3],
(unsigned char)(DTMF_SIG[4] | DTMF_SYM8[0]),
(unsigned char)(DTMF_SIG[5] | DTMF_SYM8[1]),
DTMF_SIG[6],
(unsigned char)(DTMF_SIG[7] | DTMF_SYM8[2]),
(unsigned char)(DTMF_SIG[8] | DTMF_SYM8[3])};
const auto D = makeFrame(DTMF_SYMD);
const auto Zero = makeFrame(DTMF_SYM0);
const auto One = makeFrame(DTMF_SYM1);
const auto Eight= makeFrame(DTMF_SYM8);
CDTMF dtmf;
dtmf.decode(D, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
dtmf.decode(Zero, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(One, false);
dtmf.decode(One, false);
dtmf.decode(One, false);
dtmf.decode(One, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(Eight, false);
dtmf.decode(Eight, false);
dtmf.decode(Eight, false);
dtmf.decode(Eight, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
dtmf.decode(D, false);
for(uint i = 0; i < 10U; i++) dtmf.decode(NULL_AMBE_DATA_BYTES, true);
decode4(dtmf, D); gap(dtmf);
decode4(dtmf, Zero); gap(dtmf);
decode4(dtmf, One); gap(dtmf);
decode4(dtmf, Eight); gap(dtmf);
decode4(dtmf, D);
gap(dtmf, 10, true);
EXPECT_TRUE(dtmf.hasCommand());
EXPECT_STREQ(dtmf.translate().c_str(), "DCS018DL");
}
TEST_F(DTMF_decode, decode_reflector_short_module_as_letter)
{
const auto D = makeFrame(DTMF_SYMD);
const auto One = makeFrame(DTMF_SYM1);
const auto Eight = makeFrame(DTMF_SYM8);
CDTMF dtmf;
decode4(dtmf, D); gap(dtmf);
decode4(dtmf, One); gap(dtmf);
decode4(dtmf, Eight); gap(dtmf);
decode4(dtmf, D);
gap(dtmf, 10, true);
EXPECT_TRUE(dtmf.hasCommand());
EXPECT_STREQ(dtmf.translate().c_str(), "DCS018DL");
}
TEST_F(DTMF_decode, decode_reflector_short_module_as_number)
{
const auto D = makeFrame(DTMF_SYMD);
const auto Zero = makeFrame(DTMF_SYM0);
const auto One = makeFrame(DTMF_SYM1);
const auto Eight = makeFrame(DTMF_SYM8);
const auto Four = makeFrame(DTMF_SYM4);
CDTMF dtmf;
decode4(dtmf, D); gap(dtmf);
decode4(dtmf, One); gap(dtmf);
decode4(dtmf, Eight); gap(dtmf);
decode4(dtmf, Zero); gap(dtmf);
decode4(dtmf, Four);
gap(dtmf, 10, true);
EXPECT_TRUE(dtmf.hasCommand());
EXPECT_STREQ(dtmf.translate().c_str(), "DCS018DL");
}
}
}

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