// Copyright 2017 David Conran #include "ir_Toshiba.h" #include "IRac.h" #include "IRrecv.h" #include "IRrecv_test.h" #include "IRsend.h" #include "IRsend_test.h" #include "gtest/gtest.h" // Tests for Toshiba A/C methods. // Test sending typical data only. TEST(TestSendToshibaAC, SendDataOnly) { IRsendTest irsend(kGpioUnused); irsend.begin(); uint8_t toshiba_code[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x00}; irsend.reset(); irsend.sendToshibaAC(toshiba_code); EXPECT_EQ( "f38000d50" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s1600m580s1600" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s7400" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s1600m580s1600" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s7400", irsend.outputStr()); } // Test sending with repeats. TEST(TestSendToshibaAC, SendWithRepeats) { IRsendTest irsend(kGpioUnused); irsend.begin(); irsend.reset(); uint8_t toshiba_code[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x00}; irsend.sendToshibaAC(toshiba_code, kToshibaACStateLength, 0); EXPECT_EQ( "f38000d50" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s1600m580s1600" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s7400", irsend.outputStr()); irsend.reset(); irsend.sendToshibaAC(toshiba_code, kToshibaACStateLength, 2); EXPECT_EQ( "f38000d50" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s1600m580s1600" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s7400" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s1600m580s1600" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s7400" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s1600m580s1600" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s7400", irsend.outputStr()); } // Tests for IRToshibaAC class. TEST(TestToshibaACClass, Power) { IRToshibaAC ac(kGpioUnused); ac.begin(); ac.on(); EXPECT_TRUE(ac.getPower()); ac.off(); EXPECT_FALSE(ac.getPower()); ac.setPower(true); EXPECT_TRUE(ac.getPower()); ac.setPower(false); EXPECT_FALSE(ac.getPower()); } TEST(TestToshibaACClass, Temperature) { IRToshibaAC ac(kGpioUnused); ac.begin(); ac.setTemp(0); EXPECT_EQ(kToshibaAcMinTemp, ac.getTemp()); ac.setTemp(255); EXPECT_EQ(kToshibaAcMaxTemp, ac.getTemp()); ac.setTemp(kToshibaAcMinTemp); EXPECT_EQ(kToshibaAcMinTemp, ac.getTemp()); ac.setTemp(kToshibaAcMaxTemp); EXPECT_EQ(kToshibaAcMaxTemp, ac.getTemp()); ac.setTemp(kToshibaAcMinTemp - 1); EXPECT_EQ(kToshibaAcMinTemp, ac.getTemp()); ac.setTemp(kToshibaAcMaxTemp + 1); EXPECT_EQ(kToshibaAcMaxTemp, ac.getTemp()); ac.setTemp(17); EXPECT_EQ(17, ac.getTemp()); ac.setTemp(21); EXPECT_EQ(21, ac.getTemp()); ac.setTemp(25); EXPECT_EQ(25, ac.getTemp()); ac.setTemp(30); EXPECT_EQ(30, ac.getTemp()); } TEST(TestToshibaACClass, OperatingMode) { IRToshibaAC ac(kGpioUnused); ac.begin(); ac.setMode(kToshibaAcAuto); EXPECT_EQ(kToshibaAcAuto, ac.getMode()); ac.setMode(kToshibaAcCool); EXPECT_EQ(kToshibaAcCool, ac.getMode()); ac.setMode(kToshibaAcHeat); EXPECT_EQ(kToshibaAcHeat, ac.getMode()); ac.setMode(kToshibaAcDry); EXPECT_EQ(kToshibaAcDry, ac.getMode()); ac.setMode(kToshibaAcFan); EXPECT_EQ(kToshibaAcFan, ac.getMode()); ac.setMode(kToshibaAcFan + 1); EXPECT_EQ(kToshibaAcAuto, ac.getMode()); ac.setMode(255); EXPECT_EQ(kToshibaAcAuto, ac.getMode()); // Setting the power off changes the underlying mode in the state to a special // off mode. ac.setPower(true); ac.setMode(kToshibaAcCool); EXPECT_EQ(kToshibaAcCool, ac.getMode()); ac.setPower(false); EXPECT_EQ(kToshibaAcCool, ac.getMode()); } TEST(TestToshibaACClass, FanSpeed) { IRToshibaAC ac(kGpioUnused); ac.begin(); ac.setFan(kToshibaAcFanAuto); EXPECT_EQ(kToshibaAcFanAuto, ac.getFan()); ac.setFan(255); EXPECT_EQ(kToshibaAcFanMax, ac.getFan()); ac.setFan(kToshibaAcFanMax); EXPECT_EQ(kToshibaAcFanMax, ac.getFan()); ac.setFan(kToshibaAcFanMax - 1); EXPECT_EQ(kToshibaAcFanMax - 1, ac.getFan()); ac.setFan(1); EXPECT_EQ(1, ac.getFan()); ac.setFan(2); EXPECT_EQ(2, ac.getFan()); ac.setFan(3); EXPECT_EQ(3, ac.getFan()); ac.setFan(4); EXPECT_EQ(4, ac.getFan()); ac.setFan(kToshibaAcFanMax + 1); EXPECT_EQ(kToshibaAcFanMax, ac.getFan()); } TEST(TestToshibaACClass, RawState) { IRToshibaAC ac(kGpioUnused); ac.begin(); uint8_t initial_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x50, 0x00, 0x00, 0x51}; uint8_t modified_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0xC1, 0x00, 0xC0}; // Verify the starting state. EXPECT_STATE_EQ(initial_state, ac.getRaw(), kToshibaACBits); EXPECT_TRUE(ac.getPower()); EXPECT_EQ(kToshibaAcAuto, ac.getMode()); EXPECT_EQ(kToshibaAcFanAuto, ac.getFan()); // Change some settings. ac.setMode(kToshibaAcCool); ac.setFan(kToshibaAcFanMax); ac.setTemp(kToshibaAcMinTemp); // Verify those were set. EXPECT_EQ(kToshibaAcCool, ac.getMode()); EXPECT_EQ(kToshibaAcFanMax, ac.getFan()); EXPECT_EQ(kToshibaAcMinTemp, ac.getTemp()); // Retrieve the modified state. EXPECT_STATE_EQ(modified_state, ac.getRaw(), kToshibaACBits); // Set it back to the initial state. ac.setRaw(initial_state); // Check the new state was set correctly. EXPECT_TRUE(ac.getPower()); EXPECT_EQ(kToshibaAcAuto, ac.getMode()); EXPECT_EQ(kToshibaAcFanAuto, ac.getFan()); EXPECT_STATE_EQ(initial_state, ac.getRaw(), kToshibaACBits); } TEST(TestToshibaACClass, Checksums) { IRToshibaAC ac(kGpioUnused); ac.begin(); uint8_t initial_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x01}; uint8_t modified_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0xC1, 0x00, 0xC0}; uint8_t invalid_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x00}; EXPECT_EQ(0x01, ac.calcChecksum(initial_state)); EXPECT_EQ(0xC0, ac.calcChecksum(modified_state)); // Check we can call it without instantiating the object. EXPECT_EQ(0x01, IRToshibaAC::calcChecksum(initial_state)); // Use different lengths. EXPECT_EQ(0x01, IRToshibaAC::calcChecksum(initial_state, kToshibaACStateLength - 1)); EXPECT_EQ(0xFF, IRToshibaAC::calcChecksum(initial_state, 3)); // Minimum length that actually means anything. EXPECT_EQ(0xF2, IRToshibaAC::calcChecksum(initial_state, 2)); // Technically, there is no such thing as a checksum for a length of < 2 // But test it anyway EXPECT_EQ(0x00, IRToshibaAC::calcChecksum(initial_state, 1)); EXPECT_EQ(0x00, IRToshibaAC::calcChecksum(initial_state, 0)); // Validity tests. EXPECT_TRUE(IRToshibaAC::validChecksum(initial_state)); EXPECT_TRUE(IRToshibaAC::validChecksum(modified_state)); EXPECT_FALSE(IRToshibaAC::validChecksum(invalid_state)); EXPECT_FALSE(IRToshibaAC::validChecksum(initial_state, 0)); EXPECT_FALSE(IRToshibaAC::validChecksum(initial_state, 1)); EXPECT_FALSE(IRToshibaAC::validChecksum(initial_state, 2)); } TEST(TestToshibaACClass, HumanReadableOutput) { IRToshibaAC ac(kGpioUnused); ac.begin(); uint8_t initial_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x01}; uint8_t modified_state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0xC1, 0x00, 0xC0}; ac.setRaw(initial_state); EXPECT_EQ("Temp: 17C, Power: On, Mode: 0 (Auto), Fan: 0 (Auto), " "Turbo: Off, Econo: Off", ac.toString()); ac.setRaw(modified_state); EXPECT_EQ("Temp: 17C, Power: On, Mode: 1 (Cool), Fan: 5 (High), " "Turbo: Off, Econo: Off", ac.toString()); ac.setTemp(25); ac.setFan(3); ac.setMode(kToshibaAcDry); EXPECT_EQ("Temp: 25C, Power: On, Mode: 2 (Dry), Fan: 3 (Medium), " "Turbo: Off, Econo: Off", ac.toString()); ac.off(); EXPECT_EQ("Temp: 25C, Power: Off, Fan: 3 (Medium), Turbo: Off, Econo: Off", ac.toString()); } TEST(TestToshibaACClass, MessageConstuction) { IRToshibaAC ac(kGpioUnused); ac.begin(); ac.on(); ac.setFan(1); ac.setMode(kToshibaAcCool); ac.setTemp(27); // Check everything for kicks. EXPECT_EQ(1, ac.getFan()); EXPECT_EQ(kToshibaAcCool, ac.getMode()); EXPECT_EQ(27, ac.getTemp()); EXPECT_TRUE(ac.getPower()); // Turn off the power and re-check. ac.setPower(false); // Check everything for kicks. EXPECT_EQ(1, ac.getFan()); EXPECT_EQ(kToshibaAcCool, ac.getMode()); EXPECT_EQ(27, ac.getTemp()); EXPECT_FALSE(ac.getPower()); // Turn the power back on, and check nothing changed. ac.on(); EXPECT_EQ(1, ac.getFan()); EXPECT_EQ(kToshibaAcCool, ac.getMode()); EXPECT_EQ(27, ac.getTemp()); EXPECT_TRUE(ac.getPower()); } // Decoding a message we entirely constructed based solely on a given state. TEST(TestDecodeToshibaAC, SyntheticExample) { IRsendTest irsend(kGpioUnused); IRrecv irrecv(kGpioUnused); irsend.begin(); uint8_t expectedState[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x01}; irsend.reset(); irsend.sendToshibaAC(expectedState); irsend.makeDecodeResult(); EXPECT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits); EXPECT_EQ( "Temp: 17C, Power: On, Mode: 0 (Auto), Fan: 0 (Auto), Turbo: Off, " "Econo: Off", IRAcUtils::resultAcToString(&irsend.capture)); stdAc::state_t r, p; ASSERT_TRUE(IRAcUtils::decodeToState(&irsend.capture, &r, &p)); } // Test decoding against captures from a real Toshiba A/C remote. // Recorded by @mwildbolz TEST(TestDecodeToshibaAC, RealExamples) { IRToshibaAC ac(kGpioUnused); IRsendTest irsend(kGpioUnused); IRrecv irrecv(kGpioUnused); irsend.begin(); uint16_t rawData1[295] = { 4442, 4292, 612, 1544, 616, 1544, 616, 1544, 612, 1548, 610, 468, 612, 468, 662, 1494, 640, 438, 616, 464, 614, 464, 616, 464, 612, 468, 610, 1544, 616, 1544, 616, 468, 612, 1544, 616, 464, 694, 386, 616, 464, 612, 468, 612, 468, 636, 444, 610, 1546, 616, 1544, 612, 1546, 614, 1546, 616, 1546, 740, 1420, 612, 1544, 616, 1546, 616, 464, 610, 468, 610, 470, 612, 468, 610, 468, 610, 470, 636, 438, 616, 464, 616, 464, 616, 1546, 636, 442, 612, 1546, 614, 1544, 616, 464, 614, 464, 610, 468, 612, 468, 612, 468, 612, 468, 636, 440, 614, 464, 616, 464, 616, 464, 612, 468, 636, 442, 638, 442, 662, 418, 610, 464, 616, 464, 616, 464, 610, 468, 612, 468, 636, 444, 610, 468, 638, 438, 614, 1546, 612, 1548, 612, 470, 610, 468, 636, 442, 612, 468, 612, 1544, 612, 7396, 4442, 4292, 610, 1546, 616, 1544, 612, 1548, 612, 1546, 616, 464, 616, 464, 616, 1544, 612, 468, 662, 418, 610, 468, 638, 442, 638, 438, 616, 1546, 616, 1544, 612, 468, 610, 1546, 616, 464, 616, 464, 642, 438, 616, 464, 612, 468, 610, 470, 610, 1546, 616, 1544, 612, 1546, 616, 1546, 614, 1546, 612, 1550, 610, 1544, 616, 1546, 614, 464, 642, 438, 610, 468, 612, 468, 612, 468, 612, 468, 610, 468, 638, 438, 614, 464, 616, 1544, 636, 444, 636, 1520, 616, 1544, 616, 464, 616, 464, 612, 468, 612, 468, 612, 468, 612, 468, 612, 464, 612, 470, 636, 442, 638, 442, 612, 470, 692, 384, 614, 464, 616, 464, 612, 468, 610, 468, 612, 468, 610, 470, 610, 464, 616, 464, 616, 464, 616, 464, 610, 1550, 610, 1546, 640, 444, 688, 386, 616, 464, 612, 468, 612, 1544, 642}; irsend.reset(); irsend.sendRaw(rawData1, 295, 38000); irsend.makeDecodeResult(); EXPECT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); ac.setRaw(irsend.capture.state); EXPECT_TRUE(ac.getPower()); EXPECT_EQ(23, ac.getTemp()); EXPECT_EQ(kToshibaAcFanAuto, ac.getFan()); EXPECT_EQ(kToshibaAcAuto, ac.getMode()); uint16_t rawData2[295] = { 4500, 4236, 636, 1520, 642, 1520, 640, 1520, 664, 1492, 642, 440, 668, 412, 642, 1518, 638, 438, 666, 414, 640, 438, 642, 438, 638, 442, 642, 1516, 640, 1520, 642, 438, 642, 1520, 636, 438, 668, 412, 640, 440, 666, 412, 642, 438, 668, 412, 640, 1516, 668, 1492, 642, 1520, 666, 1494, 638, 1520, 642, 1520, 668, 1490, 666, 1494, 642, 438, 638, 438, 668, 412, 668, 412, 642, 438, 642, 438, 664, 412, 642, 438, 642, 438, 642, 1518, 642, 434, 668, 412, 642, 438, 668, 412, 692, 388, 666, 412, 642, 434, 642, 438, 642, 1518, 668, 412, 668, 412, 640, 438, 638, 438, 642, 438, 640, 438, 668, 1492, 642, 440, 666, 412, 640, 438, 642, 438, 642, 434, 668, 412, 668, 412, 666, 414, 666, 1494, 640, 438, 642, 434, 668, 412, 642, 438, 642, 438, 668, 412, 668, 414, 640, 7362, 4474, 4262, 642, 1518, 638, 1520, 640, 1520, 668, 1494, 640, 434, 642, 438, 640, 1520, 642, 438, 642, 438, 642, 438, 642, 438, 642, 434, 668, 1494, 642, 1518, 638, 442, 638, 1520, 642, 438, 642, 438, 668, 414, 664, 408, 642, 438, 668, 412, 642, 1520, 666, 1494, 642, 1514, 642, 1518, 642, 1520, 636, 1520, 668, 1494, 666, 1494, 638, 438, 666, 414, 640, 440, 666, 412, 668, 412, 668, 412, 642, 434, 668, 412, 668, 412, 668, 1494, 642, 438, 642, 434, 642, 438, 642, 438, 642, 438, 642, 438, 642, 434, 646, 434, 642, 1518, 668, 412, 642, 438, 642, 434, 666, 414, 640, 438, 642, 438, 642, 1518, 642, 438, 642, 434, 668, 412, 642, 438, 642, 438, 642, 438, 642, 438, 642, 438, 640, 1520, 636, 438, 642, 438, 642, 438, 666, 414, 668, 412, 642, 440, 640, 438, 640}; irsend.reset(); irsend.sendRaw(rawData2, 295, 38000); irsend.makeDecodeResult(); EXPECT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); ac.setRaw(irsend.capture.state); EXPECT_TRUE(ac.getPower()); EXPECT_EQ(17, ac.getTemp()); EXPECT_EQ(3, ac.getFan()); EXPECT_EQ(kToshibaAcCool, ac.getMode()); uint16_t rawData3[295] = { 4474, 4262, 642, 1514, 642, 1520, 642, 1520, 642, 1514, 642, 438, 642, 438, 642, 1520, 636, 438, 642, 438, 642, 438, 642, 438, 642, 438, 640, 1520, 638, 1520, 642, 438, 640, 1520, 642, 438, 642, 434, 642, 438, 642, 438, 642, 438, 668, 414, 636, 1520, 642, 1520, 642, 1514, 642, 1520, 642, 1520, 640, 1518, 638, 1520, 666, 1494, 642, 438, 642, 434, 642, 438, 640, 438, 642, 438, 642, 440, 640, 434, 642, 438, 642, 438, 642, 1520, 642, 438, 642, 1514, 642, 1520, 640, 1520, 636, 438, 642, 438, 642, 438, 666, 414, 642, 1520, 636, 1520, 642, 438, 642, 438, 640, 438, 642, 434, 642, 1518, 642, 1520, 642, 438, 642, 434, 640, 438, 642, 438, 642, 438, 642, 440, 642, 438, 668, 408, 642, 1520, 642, 438, 642, 1520, 638, 1518, 642, 438, 642, 438, 640, 1520, 640, 438, 642, 7362, 4474, 4262, 642, 1518, 638, 1520, 640, 1520, 642, 1520, 638, 438, 642, 438, 642, 1518, 642, 438, 638, 438, 642, 438, 642, 438, 642, 438, 642, 1514, 642, 1520, 642, 438, 666, 1490, 642, 438, 642, 438, 642, 440, 640, 438, 642, 434, 640, 438, 642, 1520, 642, 1520, 636, 1520, 642, 1520, 642, 1514, 642, 1518, 642, 1518, 640, 1516, 642, 438, 642, 438, 642, 438, 640, 438, 638, 442, 642, 434, 642, 440, 640, 438, 642, 438, 642, 1518, 642, 438, 642, 1514, 642, 1520, 642, 1518, 642, 438, 642, 432, 642, 438, 642, 438, 642, 1520, 642, 1514, 642, 438, 642, 438, 642, 438, 642, 438, 642, 1514, 642, 1520, 642, 438, 642, 438, 638, 438, 642, 438, 642, 438, 640, 440, 642, 438, 640, 434, 642, 1520, 642, 438, 640, 1520, 668, 1490, 666, 414, 640, 438, 642, 1520, 642, 438, 636}; irsend.reset(); irsend.sendRaw(rawData3, 295, 38000); irsend.makeDecodeResult(); EXPECT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); ac.setRaw(irsend.capture.state); EXPECT_TRUE(ac.getPower()); EXPECT_EQ(24, ac.getTemp()); EXPECT_EQ(kToshibaAcFanMax, ac.getFan()); EXPECT_EQ(kToshibaAcHeat, ac.getMode()); uint16_t rawData4[295] = { 4474, 4262, 636, 1520, 640, 1520, 640, 1520, 638, 1518, 642, 438, 642, 438, 642, 1520, 636, 438, 642, 438, 642, 438, 642, 438, 636, 444, 636, 1520, 640, 1520, 642, 438, 638, 1524, 638, 438, 640, 438, 642, 438, 640, 438, 642, 438, 638, 438, 642, 1518, 642, 1520, 666, 1494, 636, 1520, 640, 1520, 640, 1520, 636, 1524, 638, 1520, 640, 440, 640, 438, 642, 438, 636, 444, 636, 438, 642, 438, 640, 440, 640, 438, 642, 438, 642, 1518, 638, 438, 642, 1518, 642, 438, 640, 1520, 636, 444, 636, 438, 640, 438, 642, 438, 668, 1494, 640, 438, 642, 1518, 636, 444, 636, 438, 640, 1520, 642, 1518, 642, 1520, 636, 444, 636, 438, 642, 438, 642, 438, 640, 440, 640, 438, 640, 440, 640, 438, 640, 1518, 642, 1520, 636, 1524, 636, 1518, 642, 438, 642, 1518, 642, 1518, 640, 438, 642, 7364, 4472, 4262, 642, 1518, 642, 1518, 638, 1518, 642, 1520, 642, 438, 642, 438, 640, 1520, 636, 440, 640, 438, 642, 438, 640, 438, 642, 438, 642, 1518, 636, 1524, 636, 438, 640, 1520, 642, 438, 642, 438, 640, 438, 636, 444, 636, 438, 668, 412, 642, 1518, 642, 1520, 642, 1520, 636, 1518, 642, 1518, 642, 1520, 636, 1520, 668, 1494, 642, 438, 636, 444, 664, 412, 642, 438, 668, 412, 642, 438, 636, 442, 638, 442, 638, 438, 642, 1518, 642, 438, 642, 1518, 638, 438, 642, 1518, 642, 440, 640, 438, 636, 444, 636, 444, 636, 1520, 642, 438, 642, 1520, 636, 444, 636, 438, 642, 1520, 640, 1520, 636, 1520, 668, 412, 642, 438, 642, 438, 642, 438, 638, 442, 636, 438, 642, 438, 668, 412, 640, 1520, 638, 1524, 636, 1520, 642, 1520, 636, 444, 638, 1522, 638, 1518, 640, 438, 642}; irsend.reset(); irsend.sendRaw(rawData4, 295, 38000); irsend.makeDecodeResult(); EXPECT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); ac.setRaw(irsend.capture.state); EXPECT_FALSE(ac.getPower()); EXPECT_EQ(22, ac.getTemp()); EXPECT_EQ(4, ac.getFan()); } TEST(TestToshibaACClass, toCommon) { IRToshibaAC ac(0); ac.setPower(true); ac.setMode(kToshibaAcCool); ac.setTemp(20); ac.setFan(kToshibaAcFanMax); // Now test it. ASSERT_EQ(decode_type_t::TOSHIBA_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); // Unsupported. ASSERT_EQ(stdAc::swingv_t::kOff, ac.toCommon().swingv); ASSERT_EQ(stdAc::swingh_t::kOff, ac.toCommon().swingh); ASSERT_FALSE(ac.toCommon().turbo); ASSERT_FALSE(ac.toCommon().econo); ASSERT_FALSE(ac.toCommon().light); ASSERT_FALSE(ac.toCommon().filter); 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); } // Tests for CarrierAc2 /// Decode a "real" long example message. TEST(TestDecodeToshibaAC, RealLongExample) { IRsendTest irsend(kGpioUnused); IRrecv irrecv(kGpioUnused); irsend.begin(); irsend.reset(); // Data from: // https://github.com/crankyoldgit/IRremoteESP8266/issues/1205#issuecomment-650475434 const uint16_t high_power_on[327] = { 4424, 4320, 582, 1574, 588, 1578, 582, 1574, 586, 1578, 586, 496, 582, 492, 586, 1576, 586, 492, 586, 492, 588, 496, 584, 496, 584, 496, 584, 1626, 534, 1626, 534, 494, 586, 1578, 582, 494, 586, 494, 586, 494, 588, 492, 586, 492, 586, 1576, 586, 494, 588, 492, 588, 1574, 588, 1576, 584, 1578, 584, 1574, 588, 1574, 588, 492, 588, 1572, 590, 1570, 590, 492, 588, 492, 590, 488, 590, 494, 584, 1570, 592, 492, 586, 490, 590, 1572, 590, 490, 590, 1570, 590, 490, 590, 1570, 590, 492, 588, 490, 588, 492, 588, 492, 590, 490, 590, 494, 586, 490, 590, 490, 588, 490, 590, 490, 588, 492, 590, 490, 588, 492, 590, 490, 590, 490, 590, 494, 584, 490, 590, 490, 590, 490, 590, 490, 588, 490, 588, 492, 588, 492, 586, 492, 588, 490, 588, 492, 588, 490, 590, 1572, 588, 494, 586, 1574, 588, 492, 588, 1572, 590, 1572, 588, 492, 588, 492, 586, 494, 588, 7422, 4424, 4320, 586, 1572, 588, 1572, 588, 1576, 584, 1574, 588, 494, 586, 492, 588, 1572, 588, 492, 588, 492, 588, 492, 588, 494, 586, 496, 584, 1574, 586, 1578, 582, 494, 586, 1578, 584, 494, 586, 492, 588, 492, 586, 496, 584, 494, 586, 1578, 584, 494, 586, 494, 584, 1574, 588, 1572, 586, 1574, 588, 1574, 588, 1572, 588, 494, 590, 1572, 588, 1574, 588, 492, 588, 492, 588, 492, 586, 492, 588, 1572, 588, 498, 582, 492, 588, 1576, 586, 492, 588, 1572, 588, 494, 588, 1572, 588, 492, 586, 492, 588, 492, 590, 490, 588, 492, 586, 492, 588, 492, 590, 490, 588, 490, 588, 492, 590, 490, 588, 492, 590, 490, 588, 490, 590, 490, 590, 490, 592, 488, 592, 494, 584, 494, 586, 490, 590, 494, 586, 494, 588, 488, 592, 490, 588, 492, 586, 490, 592, 490, 588, 1576, 584, 494, 586, 1570, 590, 494, 586, 1576, 582, 1572, 590, 490, 590, 490, 588, 490, 590}; // UNKNOWN 54926187 const uint8_t expectedState[kToshibaACStateLengthLong] = { 0xF2, 0x0D, 0x04, 0xFB, 0x09, 0x50, 0x00, 0x00, 0x01, 0x58}; irsend.sendRaw(high_power_on, 327, 38000); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); EXPECT_EQ(decode_type_t::TOSHIBA_AC, irsend.capture.decode_type); EXPECT_EQ(kToshibaACBitsLong, irsend.capture.bits); EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits); EXPECT_EQ( "Temp: 22C, Power: On, Mode: 0 (Auto), Fan: 0 (Auto), Turbo: On, " "Econo: Off", IRAcUtils::resultAcToString(&irsend.capture)); } /// Decode a synthetic long message. TEST(TestDecodeToshibaAC, SyntheticLongExample) { IRsendTest irsend(0); IRrecv irrecv(0); const uint8_t expectedState[kToshibaACStateLengthLong] = { 0xF2, 0x0D, 0x04, 0xFB, 0x09, 0x50, 0x00, 0x00, 0x01, 0x58}; irsend.begin(); irsend.reset(); irsend.sendToshibaAC(expectedState, kToshibaACStateLengthLong); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); EXPECT_EQ(decode_type_t::TOSHIBA_AC, irsend.capture.decode_type); EXPECT_EQ(kToshibaACBitsLong, irsend.capture.bits); EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits); EXPECT_EQ( "f38000d50" // 4424 4320 "m4400s4300" // 582 1574 588 1578 582 1574 586 1578 586 496 582 492 586 1576 586 492 "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" // 586 492 588 496 584 496 584 496 584 1626 534 1626 534 494 586 1578 "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" // 582 494 586 494 586 494 588 492 586 492 586 1576 586 494 588 492 "m580s490m580s490m580s490m580s490m580s490m580s1600m580s490m580s490" // 588 1574 588 1576 584 1578 584 1574 588 1574 588 492 588 1572 590 1570 "m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s1600m580s1600" // 590 492 588 492 590 488 590 494 584 1570 592 492 586 490 590 1572 "m580s490m580s490m580s490m580s490m580s1600m580s490m580s490m580s1600" // 590 490 590 1570 590 490 590 1570 590 492 588 490 588 492 588 492 "m580s490m580s1600m580s490m580s1600m580s490m580s490m580s490m580s490" // 590 490 590 494 586 490 590 490 588 490 590 490 588 492 590 490 "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" // 588 492 590 490 590 490 590 494 584 490 590 490 590 490 590 490 "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" // 588 490 588 492 588 492 586 492 588 490 588 492 588 490 590 1572 "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" // 588 494 586 1574 588 492 588 1572 590 1572 588 492 588 492 586 494 "m580s490m580s1600m580s490m580s1600m580s1600m580s490m580s490m580s490" // 588 7422 "m580s7400" "m4400s4300" "m580s1600m580s1600m580s1600m580s1600m580s490m580s490m580s1600m580s490" "m580s490m580s490m580s490m580s490m580s1600m580s1600m580s490m580s1600" "m580s490m580s490m580s490m580s490m580s490m580s1600m580s490m580s490" "m580s1600m580s1600m580s1600m580s1600m580s1600m580s490m580s1600m580s1600" "m580s490m580s490m580s490m580s490m580s1600m580s490m580s490m580s1600" "m580s490m580s1600m580s490m580s1600m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s490" "m580s490m580s490m580s490m580s490m580s490m580s490m580s490m580s1600" "m580s490m580s1600m580s490m580s1600m580s1600m580s490m580s490m580s490" "m580s7400", irsend.outputStr()); } /// Decode a "real" short example message. TEST(TestDecodeToshibaAC, RealShortExample) { IRsendTest irsend(kGpioUnused); IRrecv irrecv(kGpioUnused); irsend.begin(); irsend.reset(); // Data from: // https://github.com/crankyoldgit/IRremoteESP8266/issues/1205#issuecomment-650475096 const uint16_t air_direction[115] = { 4424, 4318, 588, 1574, 588, 1572, 588, 1574, 586, 1572, 590, 490, 586, 494, 586, 1574, 588, 492, 586, 494, 586, 494, 586, 496, 584, 492, 588, 1572, 588, 1572, 590, 492, 588, 1572, 590, 490, 588, 492, 586, 494, 588, 492, 588, 492, 588, 494, 584, 492, 588, 1572, 588, 1574, 588, 1574, 588, 1572, 588, 1572, 588, 1572, 588, 1574, 590, 1570, 588, 494, 586, 496, 584, 494, 588, 1572, 588, 492, 588, 492, 588, 490, 588, 492, 590, 1572, 588, 492, 588, 496, 586, 492, 588, 492, 586, 492, 588, 492, 588, 490, 590, 490, 588, 492, 588, 490, 588, 1572, 588, 492, 588, 492, 588, 490, 588, 492, 588, 1572, 586}; // UNKNOWN DEB8845C const uint8_t expectedState[kToshibaACStateLengthShort] = { 0xF2, 0x0D, 0x01, 0xFE, 0x21, 0x00, 0x21}; irsend.sendRaw(air_direction, 115, 38000); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); EXPECT_EQ(decode_type_t::TOSHIBA_AC, irsend.capture.decode_type); EXPECT_EQ(kToshibaACBitsShort, irsend.capture.bits); EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits); EXPECT_EQ( "Temp: 17C, Swing(V): 0 (Step)", IRAcUtils::resultAcToString(&irsend.capture)); } TEST(TestToshibaACClass, ConstructLongState) { IRToshibaAC ac(kGpioUnused); ac.setPower(true); ac.setMode(kToshibaAcDry); ac.setTemp(29); ac.setFan(2); ac.setSwing(false); ac.setTurbo(false); ac.setEcono(true); EXPECT_EQ( "Temp: 29C, Power: On, Mode: 2 (Dry), Fan: 2 (UNKNOWN), " "Turbo: Off, Econo: On", ac.toString()); EXPECT_EQ(kToshibaACStateLengthLong, ac.getStateLength()); const uint8_t expectedState[kToshibaACStateLengthLong] = { 0xF2, 0x0D, 0x04, 0xFB, 0x09, 0xC0, 0x62, 0x00, 0x03, 0xA8}; EXPECT_STATE_EQ(expectedState, ac.getRaw(), kToshibaACBitsLong); EXPECT_EQ(kToshibaACStateLengthLong, ac.getStateLength()); }