// Copyright 2017, 2019 David Conran #include "ir_LG.h" #include "IRac.h" #include "IRsend.h" #include "IRsend_test.h" #include "gtest/gtest.h" // Tests for calcLGChecksum() TEST(TestCalcLGChecksum, General) { EXPECT_EQ(0x0, calcLGChecksum(0x0)); EXPECT_EQ(0x1, calcLGChecksum(0x1)); EXPECT_EQ(0xF, calcLGChecksum(0xF)); EXPECT_EQ(0x4, calcLGChecksum(0x1111)); EXPECT_EQ(0x8, calcLGChecksum(0x2222)); EXPECT_EQ(0x0, calcLGChecksum(0x4444)); EXPECT_EQ(0xA, calcLGChecksum(0x1234)); EXPECT_EQ(0xA, calcLGChecksum(0x4321)); EXPECT_EQ(0xE, calcLGChecksum(0xABCD)); EXPECT_EQ(0x1, calcLGChecksum(0x4AE5)); EXPECT_EQ(0xC, calcLGChecksum(0xFFFF)); EXPECT_EQ(0x1, calcLGChecksum(0xC005)); EXPECT_EQ(0x1, IRLgAc::calcChecksum(0x88C0051)); EXPECT_EQ(0x4, calcLGChecksum(0xC035)); EXPECT_EQ(0x4, IRLgAc::calcChecksum(0x88C0354)); } // Tests for sendLG(). // Test sending typical data only. TEST(TestSendLG, SendDataOnly) { IRsendTest irsend(4); irsend.begin(); irsend.reset(); irsend.sendLG(0x4B4AE51); EXPECT_EQ( "f38000d50" "m8500s4250" "m550s550m550s1600m550s550m550s550" "m550s1600m550s550m550s1600m550s1600m550s550m550s1600m550s550m550s550" "m550s1600m550s550m550s1600m550s550m550s1600m550s1600m550s1600m550s550" "m550s550m550s1600m550s550m550s1600m550s550m550s550m550s550m550s1600" "m550s50300", irsend.outputStr()); irsend.reset(); irsend.sendLG(0xB4B4AE51, kLg32Bits); EXPECT_EQ( "f38000d33" "m4480s4480" "m560s1680m560s560m560s1680m560s1680m560s560m560s1680m560s560m560s560" "m560s1680m560s560m560s1680m560s1680m560s560m560s1680m560s560m560s560" "m560s1680m560s560m560s1680m560s560m560s1680m560s1680m560s1680m560s560" "m560s560m560s1680m560s560m560s1680m560s560m560s560m560s560m560s1680" "m560s44800" "m8950s2250m550s96300", irsend.outputStr()); } // Test sending with different repeats. TEST(TestSendLG, SendWithRepeats) { IRsendTest irsend(4); irsend.begin(); irsend.reset(); irsend.sendLG(0x4B4AE51, kLgBits, 1); EXPECT_EQ( "f38000d50" "m8500s4250" "m550s550m550s1600m550s550m550s550" "m550s1600m550s550m550s1600m550s1600m550s550m550s1600m550s550m550s550" "m550s1600m550s550m550s1600m550s550m550s1600m550s1600m550s1600m550s550" "m550s550m550s1600m550s550m550s1600m550s550m550s550m550s550m550s1600" "m550s50300" "m8500s2250m550s96750", irsend.outputStr()); irsend.reset(); irsend.sendLG(0xB4B4AE51, kLg32Bits, 1); EXPECT_EQ( "f38000d33" "m4480s4480" "m560s1680m560s560m560s1680m560s1680m560s560m560s1680m560s560m560s560" "m560s1680m560s560m560s1680m560s1680m560s560m560s1680m560s560m560s560" "m560s1680m560s560m560s1680m560s560m560s1680m560s1680m560s1680m560s560" "m560s560m560s1680m560s560m560s1680m560s560m560s560m560s560m560s1680" "m560s44800" "m8950s2250m550s96300" "m8950s2250m550s96300", irsend.outputStr()); } // Test sending an atypical data size. TEST(TestSendLG, SendUnusualSize) { IRsendTest irsend(4); irsend.begin(); irsend.reset(); irsend.sendLG(0x0, 31); EXPECT_EQ( "f38000d50" "m8500s4250" "m550s550m550s550m550s550m550s550m550s550m550s550m550s550m550s550" "m550s550m550s550m550s550m550s550m550s550m550s550m550s550m550s550" "m550s550m550s550m550s550m550s550m550s550m550s550m550s550m550s550" "m550s550m550s550m550s550m550s550m550s550m550s550m550s550" "m550s60650", irsend.outputStr()); irsend.reset(); irsend.sendLG(0x0, 64); EXPECT_EQ( "f38000d33" "m4480s4480" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s560m560s560m560s560m560s560m560s560m560s560m560s560m560s560" "m560s26880" "m8950s2250m550s96300", irsend.outputStr()); } // Tests for encodeLG(). TEST(TestEncodeLG, NormalEncoding) { IRsendTest irsend(4); EXPECT_EQ(0x0, irsend.encodeLG(0, 0)); EXPECT_EQ(0x100011, irsend.encodeLG(1, 1)); EXPECT_EQ(0x100022, irsend.encodeLG(1, 2)); EXPECT_EQ(0x43001DE, irsend.encodeLG(0x43, 0x1D)); EXPECT_EQ(0xB4B4AE51, irsend.encodeLG(0xB4B, 0x4AE5)); EXPECT_EQ(0xAA0055A, irsend.encodeLG(0xAA, 0x55)); EXPECT_EQ(0xFFFFFFFC, irsend.encodeLG(0xFFFF, 0xFFFF)); } // Tests for decodeLG(). // Decode normal LG messages. TEST(TestDecodeLG, NormalDecodeWithStrict) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); // Normal LG 28-bit message. irsend.reset(); irsend.sendLG(0x4B4AE51, kLgBits); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLgBits, irsend.capture.bits); EXPECT_EQ(0x4B4AE51, irsend.capture.value); EXPECT_EQ(0x4B, irsend.capture.address); EXPECT_EQ(0x4AE5, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); // Normal LG 32-bit message. irsend.reset(); irsend.sendLG(0xB4B4AE51, kLg32Bits); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, false)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLg32Bits, irsend.capture.bits); EXPECT_EQ(0xB4B4AE51, irsend.capture.value); EXPECT_EQ(0xB4B, irsend.capture.address); EXPECT_EQ(0x4AE5, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); // Synthesised Normal LG 28-bit message. irsend.reset(); irsend.sendLG(irsend.encodeLG(0x07, 0x99)); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLgBits, irsend.capture.bits); EXPECT_EQ(0x700992, irsend.capture.value); EXPECT_EQ(0x07, irsend.capture.address); EXPECT_EQ(0x99, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); // Synthesised Normal LG 32-bit message. irsend.reset(); irsend.sendLG(irsend.encodeLG(0x800, 0x8000), kLg32Bits); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLg32Bits, irsend.capture.bits); EXPECT_EQ(0x80080008, irsend.capture.value); EXPECT_EQ(0x800, irsend.capture.address); EXPECT_EQ(0x8000, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); } // Decode normal repeated LG messages. TEST(TestDecodeLG, NormalDecodeWithRepeatAndStrict) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); // Normal LG 28-bit message with 2 repeats. irsend.reset(); irsend.sendLG(irsend.encodeLG(0x07, 0x99), kLgBits, 2); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLgBits, irsend.capture.bits); EXPECT_EQ(0x700992, irsend.capture.value); EXPECT_EQ(0x07, irsend.capture.address); EXPECT_EQ(0x99, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); // Normal LG 32-bit message with 2 repeats. irsend.reset(); irsend.sendLG(irsend.encodeLG(0x07, 0x99), kLg32Bits, 2); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLg32Bits, irsend.capture.bits); EXPECT_EQ(0x700992, irsend.capture.value); EXPECT_EQ(0x07, irsend.capture.address); EXPECT_EQ(0x99, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); } // Decode unsupported LG message values. TEST(TestDecodeLG, DecodeWithNonStrictValues) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); // Illegal values should be rejected when strict is on. // Illegal LG 28-bit message value. irsend.reset(); irsend.sendLG(0x1); irsend.makeDecodeResult(); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, false)); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, false)); // Illegal LG 32-bit message value. irsend.reset(); irsend.sendLG(0x1111111, kLg32Bits); irsend.makeDecodeResult(); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, false)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLg32Bits, irsend.capture.bits); EXPECT_EQ(0x1111111, irsend.capture.value); EXPECT_EQ(0x11, irsend.capture.address); EXPECT_EQ(0x1111, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); irsend.reset(); irsend.sendLG(0x1111111, kLg32Bits); irsend.makeDecodeResult(); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, false)); } // Decode unsupported LG message sizes. TEST(TestDecodeLG, DecodeWithNonStrictSizes) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); // Illegal sizes should be rejected when strict is on. // Illegal LG 16-bit message size. irsend.reset(); irsend.sendLG(irsend.encodeLG(0x07, 0x99), 16); irsend.makeDecodeResult(); // Should fail when unexpected against different bit sizes. ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, false)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, false)); // Should pass if strict off. ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, 16, false)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(16, irsend.capture.bits); EXPECT_EQ(0x992, irsend.capture.value); EXPECT_EQ(0x0, irsend.capture.address); EXPECT_EQ(0x99, irsend.capture.command); // Illegal LG 36-bit message size. irsend.reset(); irsend.sendLG(0x123456789, 36); // Illegal value LG 36-bit message. irsend.makeDecodeResult(); // Should fail when unexpected against different bit sizes. ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, false)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, false)); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, 36, false)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(36, irsend.capture.bits); EXPECT_EQ(0x123456789, irsend.capture.value); EXPECT_EQ(0x1234, irsend.capture.address); EXPECT_EQ(0x5678, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); } // Decode (non-standard) 64-bit messages. TEST(TestDecodeLG, Decode64BitMessages) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); irsend.reset(); // Illegal value & size LG 64-bit message. irsend.sendLG(0xFFFFFFFFFFFFFFFF, 64); irsend.makeDecodeResult(); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, 64, true)); // Should work with a 'normal' match (not strict) ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, 64, false)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(64, irsend.capture.bits); EXPECT_EQ(0xFFFFFFFFFFFFFFFF, irsend.capture.value); EXPECT_EQ(0xFFFFFFFF, irsend.capture.address); EXPECT_EQ(0xFFFF, irsend.capture.command); } // Decode a 'real' example via GlobalCache TEST(TestDecodeLG, DecodeGlobalCacheExample) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); // TODO(anyone): Find a Global Cache example of the LG 28-bit message. irsend.reset(); // LG (32-bit) code from Global Cache. uint16_t gc_test[75] = { 38000, 1, 69, 341, 170, 21, 64, 21, 21, 21, 64, 21, 64, 21, 21, 21, 64, 21, 21, 21, 21, 21, 64, 21, 21, 21, 64, 21, 64, 21, 21, 21, 64, 21, 21, 21, 21, 21, 64, 21, 21, 21, 64, 21, 21, 21, 64, 21, 64, 21, 64, 21, 21, 21, 21, 21, 64, 21, 21, 21, 64, 21, 21, 21, 21, 21, 21, 21, 64, 21, 1517, 341, 85, 21, 3655}; irsend.sendGC(gc_test, 75); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLg32Bits, true)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(kLg32Bits, irsend.capture.bits); EXPECT_EQ(0xB4B4AE51, irsend.capture.value); EXPECT_EQ(0xB4B, irsend.capture.address); EXPECT_EQ(0x4AE5, irsend.capture.command); EXPECT_FALSE(irsend.capture.repeat); } // Fail to decode a non-LG example via GlobalCache TEST(TestDecodeLG, FailToDecodeNonLGExample) { IRsendTest irsend(4); IRrecv irrecv(4); irsend.begin(); irsend.reset(); // Modified a few entries to unexpected values, based on previous test case. uint16_t gc_test[39] = {38000, 1, 1, 322, 162, 20, 61, 20, 61, 20, 20, 20, 20, 20, 20, 20, 127, 20, 61, 9, 20, 20, 61, 20, 20, 20, 61, 20, 61, 20, 61, 20, 20, 20, 20, 20, 20, 20, 884}; irsend.sendGC(gc_test, 39); irsend.makeDecodeResult(); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture)); ASSERT_FALSE(irrecv.decodeLG(&irsend.capture, kStartOffset, kLgBits, false)); } // Tests for sendLG2(). // Test sending typical data only. TEST(TestSendLG2, SendDataOnly) { IRsendTest irsend(0); irsend.begin(); irsend.reset(); irsend.sendLG2(0x880094D); EXPECT_EQ( "f38000d50" "m3200s9850" "m550s1600m550s550m550s550m550s550m550s1600m550s550m550s550m550s550" "m550s550m550s550m550s550m550s550m550s550m550s550m550s550m550s550" "m550s1600m550s550m550s550m550s1600m550s550m550s1600m550s550m550s550" "m550s1600m550s1600m550s550m550s1600" "m550s55250", irsend.outputStr()); } TEST(TestDecodeLG2, SyntheticExample) { IRsendTest irsend(0); IRrecv irrecv(0); irsend.begin(); irsend.reset(); irsend.sendLG2(0x880094D); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture)); ASSERT_EQ(LG2, irsend.capture.decode_type); EXPECT_EQ(kLgBits, irsend.capture.bits); EXPECT_EQ(0x880094D, irsend.capture.value); } // Verify decoding of LG variant 2 messages. TEST(TestDecodeLG2, RealLG2Example) { IRsendTest irsend(0); IRrecv irrecv(0); irsend.begin(); irsend.reset(); // From issue #548 uint16_t rawData[59] = { 3154, 9834, 520, 1634, 424, 606, 424, 568, 462, 570, 462, 1564, 508, 568, 458, 544, 500, 546, 508, 530, 508, 532, 506, 566, 464, 568, 460, 578, 464, 568, 464, 532, 506, 552, 474, 1592, 506, 568, 460, 570, 462, 1564, 506, 606, 424, 1640, 424, 616, 422, 570, 462, 1616, 460, 1584, 500, 544, 506, 1598, 490}; // UNKNOWN // F6D13AE8 irsend.sendRaw(rawData, 59, 38000); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decodeLG(&irsend.capture)); ASSERT_EQ(LG2, irsend.capture.decode_type); EXPECT_EQ(kLgBits, irsend.capture.bits); EXPECT_EQ(0x880094D, irsend.capture.value); } // Tests for issue reported in // https://github.com/crankyoldgit/IRremoteESP8266/issues/620 TEST(TestDecodeLG, Issue620) { IRsendTest irsend(0); IRrecv irrecv(0); irsend.begin(); // Raw data as reported in initial comment of Issue #620 uint16_t rawData[59] = { 8886, 4152, 560, 1538, 532, 502, 532, 504, 530, 484, 558, 1536, 508, 516, 558, 502, 532, 484, 558, 502, 532, 500, 534, 508, 532, 502, 532, 1518, 558, 510, 532, 484, 556, 486, 556, 510, 532, 1518, 558, 1560, 532, 1528, 556, 504, 530, 506, 530, 1520, 558, 508, 534, 500, 532, 512, 530, 484, 556, 1536, 532}; // LG 8808721 irsend.sendRaw(rawData, 59, 38000); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(28, irsend.capture.bits); EXPECT_EQ(0x8808721, irsend.capture.value); EXPECT_EQ(0x88, irsend.capture.address); EXPECT_EQ(0x872, irsend.capture.command); irsend.reset(); // Resend the same code as the report is a sent code doesn't decode // to the same message code. IRLgAc ac(0); irsend.sendLG(0x8808721); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); EXPECT_EQ(LG, irsend.capture.decode_type); EXPECT_EQ(28, irsend.capture.bits); EXPECT_EQ(0x8808721, irsend.capture.value); EXPECT_EQ(0x88, irsend.capture.address); EXPECT_EQ(0x872, irsend.capture.command); ac.setRaw(irsend.capture.value); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ("Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 22C, Fan: 2 (Medium)", ac.toString()); // The following seems to match the rawData above. EXPECT_EQ( "f38000d50" "m8500s4250" "m550s1600m550s550m550s550m550s550m550s1600" "m550s550m550s550m550s550m550s550m550s550" "m550s550m550s550m550s1600m550s550m550s550" "m550s550m550s550m550s1600m550s1600m550s1600" "m550s550m550s550m550s1600m550s550m550s550" "m550s550m550s550m550s1600m550" "s55550", irsend.outputStr()); } TEST(TestIRLgAcClass, SetAndGetPower) { IRLgAc ac(0); 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(TestIRLgAcClass, SetAndGetTemp) { IRLgAc ac(0); ac.setTemp(25); EXPECT_EQ(25, ac.getTemp()); ac.setTemp(kLgAcMinTemp); EXPECT_EQ(kLgAcMinTemp, ac.getTemp()); ac.setTemp(kLgAcMinTemp - 1); EXPECT_EQ(kLgAcMinTemp, ac.getTemp()); ac.setTemp(kLgAcMaxTemp); EXPECT_EQ(kLgAcMaxTemp, ac.getTemp()); ac.setTemp(kLgAcMaxTemp + 1); EXPECT_EQ(kLgAcMaxTemp, ac.getTemp()); } TEST(TestIRLgAcClass, SetAndGetMode) { IRLgAc ac(0); ac.setMode(kLgAcCool); ac.setFan(kLgAcFanAuto); ac.setTemp(25); EXPECT_EQ(25, ac.getTemp()); EXPECT_EQ(kLgAcCool, ac.getMode()); EXPECT_EQ(kLgAcFanAuto, ac.getFan()); ac.setMode(kLgAcHeat); EXPECT_EQ(kLgAcHeat, ac.getMode()); ac.setMode(kLgAcDry); EXPECT_EQ(kLgAcDry, ac.getMode()); } TEST(TestIRLgAcClass, SetAndGetFan) { IRLgAc ac(0); ac.setMode(kLgAcCool); ac.setFan(kLgAcFanAuto); EXPECT_EQ(kLgAcFanAuto, ac.getFan()); ac.setFan(kLgAcFanLow); EXPECT_EQ(kLgAcFanLow, ac.getFan()); ac.setFan(kLgAcFanHigh); EXPECT_EQ(kLgAcFanHigh, ac.getFan()); ac.setFan(kLgAcFanAuto + 1); EXPECT_EQ(kLgAcFanAuto, ac.getFan()); ac.setFan(kLgAcFanLow - 1); EXPECT_EQ(kLgAcFanAuto, ac.getFan()); } TEST(TestIRLgAcClass, toCommon) { IRLgAc ac(0); ac.setPower(true); ac.setMode(kLgAcCool); ac.setTemp(20); ac.setFan(kLgAcFanHigh); // Now test it. ASSERT_EQ(decode_type_t::LG, ac.toCommon().protocol); ASSERT_EQ(lg_ac_remote_model_t::GE6711AR2853M, 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().clean); ASSERT_FALSE(ac.toCommon().light); ASSERT_FALSE(ac.toCommon().quiet); ASSERT_FALSE(ac.toCommon().econo); ASSERT_FALSE(ac.toCommon().filter); ASSERT_FALSE(ac.toCommon().beep); ASSERT_EQ(-1, ac.toCommon().sleep); ASSERT_EQ(-1, ac.toCommon().clock); // Change models ac.setModel(AKB75215403); ASSERT_EQ(lg_ac_remote_model_t::AKB75215403, ac.toCommon().model); } TEST(TestIRLgAcClass, HumanReadable) { IRLgAc ac(0); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: Off", ac.toString()); ac.setMode(kLgAcHeat); ac.setTemp(kLgAcMaxTemp); ac.on(); ac.setFan(kLgAcFanHigh); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 4 (Heat), Temp: 30C, Fan: 4 (High)", ac.toString()); ac.setMode(kLgAcCool); ac.setFan(kLgAcFanLow); ac.setTemp(kLgAcMinTemp); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 16C, Fan: 0 (Low)", ac.toString()); ac.setTemp(ac.getTemp() + 1); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 17C, Fan: 0 (Low)", ac.toString()); ac.setTemp(ac.getTemp() - 1); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 16C, Fan: 0 (Low)", ac.toString()); ac.setPower(false); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: Off", ac.toString()); } TEST(TestIRLgAcClass, SetAndGetRaw) { IRLgAc ac(0); ac.setRaw(0x8800A4E); ASSERT_EQ(0x8800A4E, ac.getRaw()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 25C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x88C0051); ASSERT_EQ(0x88C0051, ac.getRaw()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: Off", ac.toString()); } TEST(TestIRLgAcClass, MessageConstruction) { IRLgAc ac(0); ac.on(); ac.setMode(kLgAcCool); ac.setTemp(25); ac.setFan(kLgAcFanHigh); ASSERT_EQ(0x8800A4E, ac.getRaw()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 25C, Fan: 4 (High)", ac.toString()); } TEST(TestIRLgAcClass, isValidLgAc) { IRLgAc ac(0); ac.setRaw(0x8800A4E); ASSERT_TRUE(ac.isValidLgAc()); // Make the checksum wrong. ac.setRaw(0x8800A4F); ASSERT_FALSE(ac.isValidLgAc()); ac.setRaw(0x88C0051); ASSERT_TRUE(ac.isValidLgAc()); // Use a wrong signature. ac.setRaw(0x8000A4E); ASSERT_FALSE(ac.isValidLgAc()); } TEST(TestUtils, Housekeeping) { ASSERT_EQ("LG", typeToString(decode_type_t::LG)); ASSERT_EQ(decode_type_t::LG, strToDecodeType("LG")); ASSERT_FALSE(hasACState(decode_type_t::LG)); ASSERT_TRUE(IRac::isProtocolSupported(decode_type_t::LG)); ASSERT_EQ("LG2", typeToString(decode_type_t::LG2)); ASSERT_EQ(decode_type_t::LG2, strToDecodeType("LG2")); ASSERT_FALSE(hasACState(decode_type_t::LG2)); ASSERT_TRUE(IRac::isProtocolSupported(decode_type_t::LG2)); } TEST(TestIRLgAcClass, KnownExamples) { IRLgAc ac(0); // Ref: // https://github.com/crankyoldgit/IRremoteESP8266/issues/1008#issuecomment-570646648 // Temp ac.setRaw(0x880C152); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 4 (Heat), Temp: 16C, Fan: 5 (Auto)", ac.toString()); ac.setRaw(0x880CF50); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 4 (Heat), Temp: 30C, Fan: 5 (Auto)", ac.toString()); // Modes ac.setRaw(0x880960F); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 1 (Dry), Temp: 21C, Fan: 0 (Low)", ac.toString()); ac.setRaw(0x880C758); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 4 (Heat), Temp: 22C, Fan: 5 (Auto)", ac.toString()); ac.setRaw(0x8808855); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 23C, Fan: 5 (Auto)", ac.toString()); // Fan speeds ac.setRaw(0x880870F); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 22C, Fan: 0 (Low)", ac.toString()); ac.setRaw(0x8808721); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 22C, Fan: 2 (Medium)", ac.toString()); ac.setRaw(0x8808743); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 22C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x8808754); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 22C, Fan: 5 (Auto)", ac.toString()); ac.setRaw(0x880A745); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 2 (Fan), Temp: 22C, Fan: 4 (High)", ac.toString()); // https://github.com/crankyoldgit/IRremoteESP8266/issues/1008#issuecomment-570794029 ac.setRaw(0x8800347); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 18C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x8808440); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 19C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x8800459); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 19C, Fan: 5 (Auto)", ac.toString()); ac.setRaw(0x8809946); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 1 (Dry), Temp: 24C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x880A341); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 2 (Fan), Temp: 18C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x8810045); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 15C, Fan: 4 (High)", ac.toString()); ac.setRaw(0x8810056); ASSERT_TRUE(ac.isValidLgAc()); EXPECT_EQ( "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 15C, Fan: 5 (Auto)", ac.toString()); } // Verify decoding of LG2 message. TEST(TestDecodeLG2, Issue1008) { IRsendTest irsend(0); IRrecv capture(0); irsend.begin(); irsend.reset(); // From https://github.com/crankyoldgit/IRremoteESP8266/issues/1008#issuecomment-570794029 // First entry. uint16_t rawData[59] = { 3272, 9844, 506, 1588, 536, 498, 534, 498, 536, 498, 534, 1540, 534, 506, 534, 498, 534, 500, 532, 500, 534, 498, 534, 498, 534, 506, 534, 500, 534, 498, 534, 498, 534, 498, 534, 500, 534, 498, 534, 1566, 508, 1566, 508, 500, 534, 1540, 534, 506, 534, 500, 534, 500, 534, 1560, 508, 1540, 534, 1558, 508}; // UNKNOWN AFC3034C irsend.sendRaw(rawData, 59, 38000); irsend.makeDecodeResult(); ASSERT_TRUE(capture.decode(&irsend.capture)); ASSERT_EQ(LG2, irsend.capture.decode_type); EXPECT_EQ(kLgBits, irsend.capture.bits); EXPECT_EQ(0x8800347, irsend.capture.value); irsend.reset(); IRLgAc ac(0); ac.setRaw(0x8800347); ac.setModel(lg_ac_remote_model_t::AKB75215403); // aka. 2 ac.send(); char expected[] = "Model: 2 (AKB75215403), " "Power: On, Mode: 0 (Cool), Temp: 18C, Fan: 4 (High)"; ASSERT_EQ(expected, ac.toString()); ac._irsend.makeDecodeResult(); EXPECT_TRUE(capture.decode(&ac._irsend.capture)); ASSERT_EQ(LG2, ac._irsend.capture.decode_type); ASSERT_EQ(kLgBits, ac._irsend.capture.bits); ASSERT_EQ(expected, IRAcUtils::resultAcToString(&ac._irsend.capture)); stdAc::state_t r, p; ASSERT_TRUE(IRAcUtils::decodeToState(&ac._irsend.capture, &r, &p)); } TEST(TestIRLgAcClass, DifferentModels) { IRLgAc ac(0); IRrecv capture(0); ac.setRaw(0x8800347); ac.setModel(lg_ac_remote_model_t::GE6711AR2853M); // aka. 1 ac._irsend.reset(); ac.send(); char expected1[] = "Model: 1 (GE6711AR2853M), " "Power: On, Mode: 0 (Cool), Temp: 18C, Fan: 4 (High)"; ASSERT_EQ(expected1, ac.toString()); ac._irsend.makeDecodeResult(); EXPECT_TRUE(capture.decode(&ac._irsend.capture)); ASSERT_EQ(LG, ac._irsend.capture.decode_type); // Not "LG2" ASSERT_EQ(kLgBits, ac._irsend.capture.bits); ASSERT_EQ(expected1, IRAcUtils::resultAcToString(&ac._irsend.capture)); stdAc::state_t r, p; ASSERT_TRUE(IRAcUtils::decodeToState(&ac._irsend.capture, &r, &p)); ac.setModel(lg_ac_remote_model_t::AKB75215403); // aka. 2 ac._irsend.reset(); ac.send(); char expected2[] = "Model: 2 (AKB75215403), " "Power: On, Mode: 0 (Cool), Temp: 18C, Fan: 4 (High)"; ASSERT_EQ(expected2, ac.toString()); ac._irsend.makeDecodeResult(); EXPECT_TRUE(capture.decode(&ac._irsend.capture)); ASSERT_EQ(LG2, ac._irsend.capture.decode_type); // Not "LG" ASSERT_EQ(kLgBits, ac._irsend.capture.bits); ASSERT_EQ(expected2, IRAcUtils::resultAcToString(&ac._irsend.capture)); ASSERT_TRUE(IRAcUtils::decodeToState(&ac._irsend.capture, &r, &p)); }