Tasmota/lib/lib_basic/IRremoteESP8266-2.7.14/test/ir_Vestel_test.cpp

546 lines
16 KiB
C++

// Copyright 2019 David Conran
#include "ir_Vestel.h"
#include "IRac.h"
#include "IRrecv.h"
#include "IRrecv_test.h"
#include "IRsend.h"
#include "IRsend_test.h"
#include "gtest/gtest.h"
// Tests for sendVestelAc()
// Test sending typical data only.
TEST(TestSendVestelAc, SendDataOnly) {
IRsendTest irsend(0);
irsend.begin();
irsend.reset();
irsend.sendVestelAc(0x0F00D9001FEF201ULL);
EXPECT_EQ(
"f38000d50"
"m3110s9066"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s1535m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s480m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s480m520s480m520s1535"
"m520s1535m520s480m520s1535m520s1535m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s100000",
irsend.outputStr());
}
// Test sending typical data with repeats.
TEST(TestSendVestelAc, SendWithRepeats) {
IRsendTest irsend(0);
irsend.begin();
irsend.reset();
irsend.sendVestelAc(0x0F00D9001FEF201ULL, kVestelAcBits, 2); // two repeats.
EXPECT_EQ(
"f38000d50"
"m3110s9066"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s1535m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s480m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s480m520s480m520s1535"
"m520s1535m520s480m520s1535m520s1535m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s100000"
"m3110s9066"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s1535m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s480m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s480m520s480m520s1535"
"m520s1535m520s480m520s1535m520s1535m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s100000"
"m3110s9066"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s1535m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s480m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535m520s1535"
"m520s1535m520s480m520s480m520s480m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s480m520s480m520s1535"
"m520s1535m520s480m520s1535m520s1535m520s480m520s480m520s480m520s480"
"m520s480m520s480m520s480m520s480m520s1535m520s1535m520s1535m520s1535"
"m520s100000",
irsend.outputStr());
}
// Tests for IRVestelAc class.
TEST(TestVestelAcClass, Power) {
IRVestelAc ac(0);
ac.begin();
ac.setPower(true);
EXPECT_TRUE(ac.getPower());
ac.setPower(false);
EXPECT_EQ(false, ac.getPower());
ac.setPower(true);
EXPECT_TRUE(ac.getPower());
ac.off();
EXPECT_EQ(false, ac.getPower());
ac.on();
EXPECT_TRUE(ac.getPower());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, OperatingMode) {
IRVestelAc ac(0);
ac.begin();
ac.setMode(kVestelAcAuto);
EXPECT_EQ(kVestelAcAuto, ac.getMode());
ac.setMode(kVestelAcCool);
EXPECT_EQ(kVestelAcCool, ac.getMode());
ac.setMode(kVestelAcHeat);
EXPECT_EQ(kVestelAcHeat, ac.getMode());
ac.setMode(kVestelAcFan);
EXPECT_EQ(kVestelAcFan, ac.getMode());
ac.setMode(kVestelAcDry);
EXPECT_EQ(kVestelAcDry, ac.getMode());
ac.setMode(kVestelAcAuto - 1);
EXPECT_EQ(kVestelAcAuto, ac.getMode());
ac.setMode(kVestelAcCool);
EXPECT_EQ(kVestelAcCool, ac.getMode());
ac.setMode(kVestelAcHeat + 1);
EXPECT_EQ(kVestelAcAuto, ac.getMode());
ac.setMode(255);
EXPECT_EQ(kVestelAcAuto, ac.getMode());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, Temperature) {
IRVestelAc ac(0);
ac.begin();
ac.setTemp(kVestelAcMinTempC);
EXPECT_EQ(kVestelAcMinTempC, ac.getTemp());
ac.setTemp(kVestelAcMinTempC + 1);
EXPECT_EQ(kVestelAcMinTempC + 1, ac.getTemp());
ac.setTemp(kVestelAcMaxTemp);
EXPECT_EQ(kVestelAcMaxTemp, ac.getTemp());
ac.setTemp(kVestelAcMinTempC - 1);
EXPECT_EQ(kVestelAcMinTempC, ac.getTemp());
ac.setTemp(kVestelAcMaxTemp + 1);
EXPECT_EQ(kVestelAcMaxTemp, ac.getTemp());
ac.setTemp(23);
EXPECT_EQ(23, ac.getTemp());
ac.setTemp(0);
EXPECT_EQ(kVestelAcMinTempC, ac.getTemp());
ac.setTemp(255);
EXPECT_EQ(kVestelAcMaxTemp, ac.getTemp());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, FanSpeed) {
IRVestelAc ac(0);
ac.begin();
ac.setFan(kVestelAcFanLow);
ac.setFan(kVestelAcFanAuto);
EXPECT_EQ(kVestelAcFanAuto, ac.getFan());
ac.setFan(kVestelAcFanLow);
EXPECT_EQ(kVestelAcFanLow, ac.getFan());
ac.setFan(kVestelAcFanMed);
EXPECT_EQ(kVestelAcFanMed, ac.getFan());
ac.setFan(kVestelAcFanHigh);
EXPECT_EQ(kVestelAcFanHigh, ac.getFan());
ac.setFan(kVestelAcFanHigh);
EXPECT_EQ(kVestelAcFanHigh, ac.getFan());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, Swing) {
IRVestelAc ac(0);
ac.begin();
ac.setSwing(true);
EXPECT_TRUE(ac.getSwing());
ac.setSwing(false);
EXPECT_EQ(false, ac.getSwing());
ac.setSwing(true);
EXPECT_TRUE(ac.getSwing());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, Ion) {
IRVestelAc ac(0);
ac.begin();
ac.setIon(true);
EXPECT_TRUE(ac.getIon());
ac.setIon(false);
EXPECT_EQ(false, ac.getIon());
ac.setIon(true);
EXPECT_TRUE(ac.getIon());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, Turbo) {
IRVestelAc ac(0);
ac.begin();
ac.setTurbo(true);
EXPECT_TRUE(ac.getTurbo());
ac.setTurbo(false);
EXPECT_EQ(false, ac.getTurbo());
ac.setTurbo(true);
EXPECT_TRUE(ac.getTurbo());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, Sleep) {
IRVestelAc ac(0);
ac.begin();
ac.setSleep(true);
EXPECT_TRUE(ac.getSleep());
ac.setSleep(false);
EXPECT_EQ(false, ac.getSleep());
ac.setSleep(true);
EXPECT_TRUE(ac.getSleep());
EXPECT_FALSE(ac.isTimeCommand());
}
TEST(TestVestelAcClass, Time) {
IRVestelAc ac(0);
ac.begin();
ac.setTime(0);
EXPECT_EQ(0, ac.getTime());
EXPECT_TRUE(ac.isTimeCommand());
ac.setTime(1);
EXPECT_EQ(1, ac.getTime());
ac.setTime(1234);
EXPECT_EQ(1234, ac.getTime());
ac.setTime(23 * 60 + 59);
EXPECT_EQ(23 * 60 + 59, ac.getTime());
}
TEST(TestVestelAcClass, OnTimer) {
IRVestelAc ac(0);
ac.begin();
ac.setOnTimer(0);
EXPECT_EQ(0, ac.getOnTimer());
EXPECT_TRUE(ac.isTimeCommand());
ac.setOnTimer(1);
EXPECT_EQ(0, ac.getOnTimer());
ac.setOnTimer(10);
EXPECT_EQ(10, ac.getOnTimer());
ac.setOnTimer(12 * 60 + 15); // we will round down to 10 min increments.
EXPECT_EQ(12 * 60 + 10, ac.getOnTimer());
ac.setOnTimer(23 * 60 + 50);
EXPECT_EQ(23 * 60 + 50, ac.getOnTimer());
}
TEST(TestVestelAcClass, OffTimer) {
IRVestelAc ac(0);
ac.begin();
ac.setOffTimer(0);
EXPECT_EQ(0, ac.getOffTimer());
EXPECT_TRUE(ac.isTimeCommand());
ac.setOffTimer(1);
EXPECT_EQ(0, ac.getOffTimer());
ac.setOffTimer(10);
EXPECT_EQ(10, ac.getOffTimer());
ac.setOffTimer(12 * 60 + 15); // we will round down to 10 min increments.
EXPECT_EQ(12 * 60 + 10, ac.getOffTimer());
ac.setOffTimer(23 * 60 + 50);
EXPECT_EQ(23 * 60 + 50, ac.getOffTimer());
}
TEST(TestVestelAcClass, Timer) {
IRVestelAc ac(0);
ac.begin();
ac.setTimer(0);
EXPECT_EQ(0, ac.getTimer());
EXPECT_EQ(0, ac.getOnTimer());
EXPECT_TRUE(ac.isTimeCommand());
ac.setTimer(10);
EXPECT_EQ(10, ac.getTimer());
EXPECT_EQ(0, ac.getOnTimer());
ac.setTimer(12 * 60 + 15); // we will round down to 10 min increments.
EXPECT_EQ(12 * 60 + 10, ac.getTimer());
EXPECT_EQ(0, ac.getOnTimer());
ac.setTimer(23 * 60 + 50);
EXPECT_EQ(23 * 60 + 50, ac.getTimer());
EXPECT_EQ(0, ac.getOnTimer());
}
TEST(TestVestelAcClass, MessageConstuction) {
IRVestelAc ac(0);
EXPECT_EQ(
"Power: On, Mode: 0 (Auto), Temp: 25C, Fan: 13 (Auto Heat), Sleep: Off, "
"Turbo: Off, Ion: Off, Swing: Off",
ac.toString());
ac.setMode(kVestelAcCool);
ac.setTemp(21);
ac.setFan(kVestelAcFanHigh);
EXPECT_FALSE(ac.isTimeCommand());
EXPECT_EQ(
"Power: On, Mode: 1 (Cool), Temp: 21C, Fan: 11 (High), Sleep: Off, "
"Turbo: Off, Ion: Off, Swing: Off",
ac.toString());
ac.setSwing(true);
ac.setIon(true);
ac.setTurbo(true);
EXPECT_FALSE(ac.isTimeCommand());
EXPECT_EQ(
"Power: On, Mode: 1 (Cool), Temp: 21C, Fan: 11 (High), Sleep: Off, "
"Turbo: On, Ion: On, Swing: On",
ac.toString());
// Now change a few already set things.
ac.setSleep(true);
ac.setMode(kVestelAcHeat);
EXPECT_EQ(
"Power: On, Mode: 4 (Heat), Temp: 21C, Fan: 11 (High), Sleep: On, "
"Turbo: Off, Ion: On, Swing: On",
ac.toString());
EXPECT_FALSE(ac.isTimeCommand());
ac.setTemp(25);
ac.setPower(false);
EXPECT_EQ(
"Power: Off, Mode: 4 (Heat), Temp: 25C, Fan: 11 (High), Sleep: On, "
"Turbo: Off, Ion: On, Swing: On",
ac.toString());
EXPECT_FALSE(ac.isTimeCommand());
// Check that the checksum is valid.
EXPECT_TRUE(IRVestelAc::validChecksum(ac.getRaw()));
ac.setTime(23 * 60 + 59);
EXPECT_TRUE(ac.isTimeCommand());
EXPECT_EQ(
"Clock: 23:59, Timer: Off, On Timer: Off, Off Timer: Off",
ac.toString());
ac.setTimer(8 * 60 + 0);
EXPECT_TRUE(ac.isTimeCommand());
EXPECT_EQ(
"Clock: 23:59, Timer: 08:00, On Timer: Off, Off Timer: Off",
ac.toString());
ac.setOnTimer(7 * 60 + 40);
EXPECT_EQ(
"Clock: 23:59, Timer: Off, On Timer: 07:40, Off Timer: Off",
ac.toString());
ac.setOffTimer(17 * 60 + 10);
EXPECT_EQ(
"Clock: 23:59, Timer: Off, On Timer: 07:40, Off Timer: 17:10",
ac.toString());
ac.setTimer(8 * 60 + 0);
EXPECT_EQ(
"Clock: 23:59, Timer: 08:00, On Timer: Off, Off Timer: Off",
ac.toString());
ac.setTimer(0);
EXPECT_EQ(
"Clock: 23:59, Timer: Off, On Timer: Off, Off Timer: Off",
ac.toString());
ac.on();
EXPECT_FALSE(ac.isTimeCommand());
EXPECT_EQ(
"Power: On, Mode: 4 (Heat), Temp: 25C, Fan: 11 (High), Sleep: On, "
"Turbo: Off, Ion: On, Swing: On",
ac.toString());
}
// Tests for decodeVestelAc().
// Decode normal "synthetic" messages.
TEST(TestDecodeVestelAc, NormalDecodeWithStrict) {
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
// With the specific decoder.
uint64_t expectedState = 0x0F00D9001FEF201ULL;
irsend.reset();
irsend.sendVestelAc(expectedState);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decodeVestelAc(&irsend.capture, kStartOffset,
kVestelAcBits, true));
EXPECT_EQ(VESTEL_AC, irsend.capture.decode_type);
EXPECT_EQ(kVestelAcBits, irsend.capture.bits);
EXPECT_FALSE(irsend.capture.repeat);
EXPECT_EQ(expectedState, irsend.capture.value);
EXPECT_EQ(0, irsend.capture.address);
EXPECT_EQ(0, irsend.capture.command);
// With the all the decoders.
irsend.reset();
irsend.sendVestelAc(expectedState);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(VESTEL_AC, irsend.capture.decode_type);
EXPECT_EQ(kVestelAcBits, irsend.capture.bits);
EXPECT_FALSE(irsend.capture.repeat);
EXPECT_EQ(expectedState, irsend.capture.value);
EXPECT_EQ(0, irsend.capture.address);
EXPECT_EQ(0, irsend.capture.command);
IRVestelAc ac(0);
ac.begin();
ac.setRaw(irsend.capture.value);
EXPECT_EQ(
"Power: On, Mode: 0 (Auto), Temp: 25C, Fan: 13 (Auto Heat), Sleep: Off, "
"Turbo: Off, Ion: Off, Swing: Off",
ac.toString());
}
// Decode a real message from Raw Data.
TEST(TestDecodeVestelAc, RealNormalExample) {
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
uint16_t rawData[115] = {
3098, 9080, 548, 1538, 526, 492, 526, 468, 524, 468, 526, 468,
550, 466, 526, 466, 526, 504, 540, 466, 526, 1538, 526, 466,
526, 466, 552, 1540, 522, 466, 526, 492, 526, 544, 526, 1536,
526, 1536, 552, 1536, 526, 1536, 552, 1536, 552, 1536, 526, 1536,
526, 1574, 542, 1536, 526, 492, 526, 466, 526, 494, 524, 468,
524, 468, 526, 492, 526, 502, 540, 468, 524, 494, 524, 468,
526, 468, 524, 468, 526, 492, 526, 468, 524, 520, 524, 1538,
524, 468, 524, 468, 524, 468, 524, 468, 524, 468, 524, 1538,
524, 506, 538, 468, 524, 468, 524, 1538, 524, 468, 550, 1538,
550, 1538, 524, 1538, 534, 1528, 544}; // VESTEL_AC
irsend.reset();
irsend.sendRaw(rawData, 115, 38);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(VESTEL_AC, irsend.capture.decode_type);
EXPECT_EQ(kVestelAcBits, irsend.capture.bits);
EXPECT_FALSE(irsend.capture.repeat);
EXPECT_EQ(0xF4410001FF1201ULL, irsend.capture.value);
EXPECT_EQ(0, irsend.capture.address);
EXPECT_EQ(0, irsend.capture.command);
EXPECT_EQ(
"Power: On, Mode: 4 (Heat), Temp: 16C, Fan: 1 (Auto), Sleep: Off, "
"Turbo: Off, Ion: On, Swing: Off",
IRAcUtils::resultAcToString(&irsend.capture));
stdAc::state_t r, p;
ASSERT_TRUE(IRAcUtils::decodeToState(&irsend.capture, &r, &p));
}
TEST(TestDecodeVestelAc, RealTimerExample) {
IRsendTest irsend(0);
IRrecv irrecv(0);
IRVestelAc ac(0);
irsend.begin();
uint16_t rawData[115] = {
3022, 9080, 546, 1536, 526, 466, 526, 492, 526, 468, 526, 492,
524, 468, 524, 494, 524, 504, 540, 492, 524, 1538, 526, 468,
524, 492, 526, 466, 552, 1536, 526, 1536, 526, 1570, 542, 492,
524, 1538, 550, 1538, 524, 1536, 526, 494, 524, 466, 526, 468,
524, 1574, 540, 1536, 550, 1536, 526, 468, 550, 1536, 526, 492,
526, 468, 524, 492, 526, 518, 526, 1536, 552, 1536, 550, 1536,
526, 494, 550, 1538, 526, 492, 524, 1538, 526, 504, 540, 466,
526, 1536, 526, 1536, 526, 468, 550, 1538, 524, 468, 524, 1538,
550, 1574, 540, 468, 550, 1538, 526, 492, 524, 468, 526, 466,
526, 468, 524, 494, 524, 468, 546}; // VESTEL_AC 2D6570B8EE201
irsend.reset();
irsend.sendRaw(rawData, 115, 38);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(VESTEL_AC, irsend.capture.decode_type);
EXPECT_EQ(kVestelAcBits, irsend.capture.bits);
EXPECT_FALSE(irsend.capture.repeat);
EXPECT_EQ(0x2D6570B8EE201ULL, irsend.capture.value);
EXPECT_EQ(0, irsend.capture.address);
EXPECT_EQ(0, irsend.capture.command);
ac.begin();
ac.setRaw(irsend.capture.value);
EXPECT_EQ(
"Clock: 05:45, Timer: Off, On Timer: 14:00, Off Timer: 23:00",
ac.toString());
}
// General housekeeping
TEST(TestDecodeVestelAc, Housekeeping) {
ASSERT_EQ("VESTEL_AC", typeToString(VESTEL_AC));
ASSERT_FALSE(hasACState(VESTEL_AC)); // Uses uint64_t, not uint8_t*.
}
TEST(TestVestelAcClass, toCommon) {
IRVestelAc ac(0);
ac.setPower(true);
ac.setMode(kVestelAcCool);
ac.setTemp(20);
ac.setFan(kVestelAcFanHigh);
ac.setSwing(true);
ac.setTurbo(true);
ac.setIon(true);
// Now test it.
ASSERT_EQ(decode_type_t::VESTEL_AC, ac.toCommon().protocol);
ASSERT_EQ(-1, ac.toCommon().model);
ASSERT_TRUE(ac.toCommon().power);
ASSERT_TRUE(ac.toCommon().celsius);
ASSERT_EQ(20, ac.toCommon().degrees);
ASSERT_EQ(stdAc::opmode_t::kCool, ac.toCommon().mode);
ASSERT_EQ(stdAc::fanspeed_t::kMax, ac.toCommon().fanspeed);
ASSERT_EQ(stdAc::swingv_t::kAuto, ac.toCommon().swingv);
ASSERT_TRUE(ac.toCommon().turbo);
ASSERT_TRUE(ac.toCommon().filter);
// Unsupported.
ASSERT_EQ(stdAc::swingh_t::kOff, ac.toCommon().swingh);
ASSERT_FALSE(ac.toCommon().econo);
ASSERT_FALSE(ac.toCommon().light);
ASSERT_FALSE(ac.toCommon().clean);
ASSERT_FALSE(ac.toCommon().beep);
ASSERT_FALSE(ac.toCommon().quiet);
ASSERT_EQ(-1, ac.toCommon().sleep);
ASSERT_EQ(-1, ac.toCommon().clock);
}