// Copyright 2017-2019 David Conran #include "IRutils.h" #include #include "IRrecv.h" #include "IRrecv_test.h" #include "IRsend.h" #include "IRsend_test.h" #include "gtest/gtest.h" // Tests reverseBits(). // Tests reverseBits for typical use. TEST(ReverseBitsTest, TypicalUse) { EXPECT_EQ(0xF, reverseBits(0xF0, 8)); EXPECT_EQ(0xFFFF, reverseBits(0xFFFF0000, 32)); EXPECT_EQ(0x555500005555FFFF, reverseBits(0xFFFFAAAA0000AAAA, 64)); EXPECT_EQ(0, reverseBits(0, 64)); EXPECT_EQ(0xFFFFFFFFFFFFFFFF, reverseBits(0xFFFFFFFFFFFFFFFF, 64)); } // Tests reverseBits for bit size values <= 1 TEST(ReverseBitsTest, LessThanTwoBitsReversed) { EXPECT_EQ(0x12345678, reverseBits(0x12345678, 1)); EXPECT_EQ(1234, reverseBits(1234, 0)); } // Tests reverseBits for bit size larger than a uint64_t. TEST(ReverseBitsTest, LargerThan64BitsReversed) { EXPECT_EQ(0, reverseBits(0, 65)); EXPECT_EQ(0xFFFFFFFFFFFFFFFF, reverseBits(0xFFFFFFFFFFFFFFFF, 100)); EXPECT_EQ(0x555500005555FFFF, reverseBits(0xFFFFAAAA0000AAAA, 3000)); } // Tests reverseBits for bit sizes less than all the data stored. TEST(ReverseBitsTest, LessBitsReversedThanInputHasSet) { EXPECT_EQ(0xF8, reverseBits(0xF1, 4)); EXPECT_EQ(0xF5, reverseBits(0xFA, 4)); EXPECT_EQ(0x12345678FFFF0000, reverseBits(0x123456780000FFFF, 32)); } // Tests for uint64ToString() TEST(TestUint64ToString, TrivialCases) { EXPECT_EQ("0", uint64ToString(0)); // Default base (10) EXPECT_EQ("0", uint64ToString(0, 2)); // Base-2 EXPECT_EQ("0", uint64ToString(0, 8)); // Base-8 EXPECT_EQ("0", uint64ToString(0, 10)); // Base-10 EXPECT_EQ("0", uint64ToString(0, 16)); // Base-16 EXPECT_EQ("1", uint64ToString(1, 2)); // Base-2 EXPECT_EQ("2", uint64ToString(2, 8)); // Base-8 EXPECT_EQ("3", uint64ToString(3, 10)); // Base-10 EXPECT_EQ("4", uint64ToString(4, 16)); // Base-16 } TEST(TestUint64ToString, NormalUse) { EXPECT_EQ("12345", uint64ToString(12345)); EXPECT_EQ("100", uint64ToString(4, 2)); EXPECT_EQ("3039", uint64ToString(12345, 16)); EXPECT_EQ("123456", uint64ToString(123456)); EXPECT_EQ("1E240", uint64ToString(123456, 16)); EXPECT_EQ("FEEDDEADBEEF", uint64ToString(0xfeeddeadbeef, 16)); } TEST(TestUint64ToString, Max64Bit) { EXPECT_EQ("18446744073709551615", uint64ToString(UINT64_MAX)); // Default EXPECT_EQ("1111111111111111111111111111111111111111111111111111111111111111", uint64ToString(UINT64_MAX, 2)); // Base-2 EXPECT_EQ("1777777777777777777777", uint64ToString(UINT64_MAX, 8)); // Base-8 EXPECT_EQ("18446744073709551615", uint64ToString(UINT64_MAX, 10)); // Base-10 EXPECT_EQ("FFFFFFFFFFFFFFFF", uint64ToString(UINT64_MAX, 16)); // Base-16 } TEST(TestUint64ToString, Max32Bit) { EXPECT_EQ("4294967295", uint64ToString(UINT32_MAX)); // Default EXPECT_EQ("37777777777", uint64ToString(UINT32_MAX, 8)); // Base-8 EXPECT_EQ("4294967295", uint64ToString(UINT32_MAX, 10)); // Base-10 EXPECT_EQ("FFFFFFFF", uint64ToString(UINT32_MAX, 16)); // Base-16 } TEST(TestUint64ToString, InterestingCases) { // Previous hacky-code didn't handle leading zeros in the lower 32 bits. EXPECT_EQ("100000000", uint64ToString(0x100000000, 16)); EXPECT_EQ("100000001", uint64ToString(0x100000001, 16)); } TEST(TestUint64ToString, SillyBases) { // If we are given a silly base, we should defer to Base-10. EXPECT_EQ("12345", uint64ToString(12345, 0)); // Super silly, makes no sense. EXPECT_EQ("12345", uint64ToString(12345, 1)); // We don't do unary. EXPECT_EQ("12345", uint64ToString(12345, 100)); // We can't print base-100. EXPECT_EQ("12345", uint64ToString(12345, 37)); // Base-37 is one to far. EXPECT_EQ("9IX", uint64ToString(12345, 36)); // But we *can* do base-36. } TEST(TestGetCorrectedRawLength, NoLargeValues) { IRsendTest irsend(0); IRrecv irrecv(1); uint16_t test_data[7] = {1, 2, 3, 4, 5, 6, 7}; irsend.begin(); irsend.reset(); irsend.sendRaw(test_data, 7, 38000); irsend.makeDecodeResult(); irrecv.decode(&irsend.capture); EXPECT_EQ(7, getCorrectedRawLength(&irsend.capture)); } TEST(TestGetCorrectedRawLength, WithLargeValues) { IRsendTest irsend(0); IRrecv irrecv(1); uint16_t test_data[7] = {10, 20, 30, 40, 50, 60, 70}; irsend.begin(); irsend.reset(); irsend.sendRaw(test_data, 7, 38000); irsend.makeDecodeResult(); irrecv.decode(&irsend.capture); irsend.capture.rawbuf[3] = 60000; ASSERT_EQ(2, kRawTick); // The following values rely on kRawTick being 2. EXPECT_EQ(7 + 2, getCorrectedRawLength(&irsend.capture)); irsend.capture.rawbuf[4] = UINT16_MAX - 1; EXPECT_EQ(7 + 2 * 2, getCorrectedRawLength(&irsend.capture)); irsend.capture.rawbuf[4] = UINT16_MAX; EXPECT_EQ(7 + 2 * 2, getCorrectedRawLength(&irsend.capture)); } TEST(TestResultToSourceCode, SimpleTests) { IRsendTest irsend(0); IRrecv irrecv(1); uint16_t test_data[7] = {10, 20, 30, 40, 50, 60, 70}; irsend.begin(); irsend.reset(); irsend.sendRaw(test_data, 7, 38000); irsend.makeDecodeResult(); irrecv.decode(&irsend.capture); EXPECT_EQ( "uint16_t rawData[7] = {10, 20, 30, 40, 50, 60, 70};" " // UNKNOWN A5E5F35D\n", resultToSourceCode(&irsend.capture)); // Stick in some large values. irsend.capture.rawbuf[3] = 60000; EXPECT_EQ( "uint16_t rawData[9] = {10, 20, 65535, 0, 54465, 40," " 50, 60, 70}; // UNKNOWN A5E5F35D\n", resultToSourceCode(&irsend.capture)); irsend.capture.rawbuf[5] = UINT16_MAX; EXPECT_EQ( "uint16_t rawData[11] = {10, 20, 65535, 0, 54465, 40," " 65535, 0, 65535, 60, 70}; // UNKNOWN A5E5F35D\n", resultToSourceCode(&irsend.capture)); // Reset and put the large value in a space location. irsend.reset(); irsend.sendRaw(test_data, 7, 38000); irsend.makeDecodeResult(); irrecv.decode(&irsend.capture); irsend.capture.rawbuf[4] = UINT16_MAX - 1; EXPECT_EQ( "uint16_t rawData[9] = {10, 20, 30, 65535, 0, 65533," " 50, 60, 70}; // UNKNOWN A5E5F35D\n", resultToSourceCode(&irsend.capture)); } TEST(TestResultToSourceCode, SimpleProtocols) { IRsendTest irsend(0); IRrecv irrecv(1); irsend.begin(); // Generate a code which has address & command values. irsend.reset(); irsend.sendNEC(irsend.encodeNEC(0x10, 0x20)); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(NEC, irsend.capture.decode_type); ASSERT_EQ(kNECBits, irsend.capture.bits); EXPECT_EQ( "uint16_t rawData[68] = {8960, 4480, 560, 560, 560, 560, 560, 560, " "560, 560, 560, 1680, 560, 560, 560, 560, 560, 560, 560, 1680, " "560, 1680, 560, 1680, 560, 1680, 560, 560, 560, 1680, 560, 1680, " "560, 1680, 560, 560, 560, 560, 560, 560, 560, 560, 560, 560, " "560, 1680, 560, 560, 560, 560, 560, 1680, 560, 1680, 560, 1680, " "560, 1680, 560, 1680, 560, 560, 560, 1680, 560, 1680, 560, 40320 " "}; // NEC 8F704FB\n" "uint32_t address = 0x10;\n" "uint32_t command = 0x20;\n" "uint64_t data = 0x8F704FB;\n", resultToSourceCode(&irsend.capture)); // Generate a code which DOESN'T have address & command values. irsend.reset(); irsend.sendNikai(0xD0F2F); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(NIKAI, irsend.capture.decode_type); ASSERT_EQ(kNikaiBits, irsend.capture.bits); EXPECT_EQ( "uint16_t rawData[52] = {4000, 4000, 500, 2000, 500, 2000, " "500, 2000, 500, 2000, 500, 1000, 500, 1000, 500, 2000, 500, 1000, " "500, 2000, 500, 2000, 500, 2000, 500, 2000, 500, 1000, 500, 1000, " "500, 1000, 500, 1000, 500, 2000, 500, 2000, 500, 1000, 500, 2000, " "500, 1000, 500, 1000, 500, 1000, 500, 1000, 500, 8500 };" " // NIKAI D0F2F\n" "uint64_t data = 0xD0F2F;\n", resultToSourceCode(&irsend.capture)); } TEST(TestResultToSourceCode, ComplexProtocols) { IRsendTest irsend(0); IRrecv irrecv(1); irsend.begin(); uint8_t state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x01}; irsend.reset(); irsend.sendToshibaAC(state); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); EXPECT_EQ( "uint16_t rawData[296] = {4400, 4300, 542, 1622, 542, 1622, " "542, 1622, 542, 1622, 542, 472, 542, 472, 542, 1622, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 1622, 542, 1622, " "542, 472, 542, 1622, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 1622, 542, 1622, 542, 1622, 542, 1622, " "542, 1622, 542, 1622, 542, 1622, 542, 1622, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 1622, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 1622, 542, 7048, 4400, 4300, " "542, 1622, 542, 1622, 542, 1622, 542, 1622, 542, 472, 542, 472, " "542, 1622, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 1622, 542, 1622, 542, 472, 542, 1622, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 1622, 542, 1622, " "542, 1622, 542, 1622, 542, 1622, 542, 1622, 542, 1622, 542, 1622, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 1622, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 472, " "542, 472, 542, 472, 542, 472, 542, 472, 542, 472, 542, 1622, " "542, 7048 }; // TOSHIBA_AC\n" "uint8_t state[9] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, " "0x01};\n", resultToSourceCode(&irsend.capture)); } TEST(TestResultToTimingInfo, General) { IRsendTest irsend(0); IRrecv irrecv(1); irsend.begin(); irsend.reset(); irsend.sendNEC(irsend.encodeNEC(0x10, 0x20)); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(NEC, irsend.capture.decode_type); ASSERT_EQ(kNECBits, irsend.capture.bits); EXPECT_EQ( "Raw Timing[68]:\n" " + 8960, - 4480, + 560, - 560, + 560, - 560," " + 560, - 560, \n" " + 560, - 560, + 560, - 1680, + 560, - 560," " + 560, - 560, \n" " + 560, - 560, + 560, - 1680, + 560, - 1680," " + 560, - 1680, \n" " + 560, - 1680, + 560, - 560, + 560, - 1680," " + 560, - 1680, \n" " + 560, - 1680, + 560, - 560, + 560, - 560," " + 560, - 560, \n" " + 560, - 560, + 560, - 560, + 560, - 1680," " + 560, - 560, \n" " + 560, - 560, + 560, - 1680, + 560, - 1680," " + 560, - 1680, \n" " + 560, - 1680, + 560, - 1680, + 560, - 560," " + 560, - 1680, \n" " + 560, - 1680, + 560, - 40320\n", resultToTimingInfo(&irsend.capture)); irsend.reset(); uint16_t rawData[9] = {10, 20, 30, 40, 50, 60, 70, 80, 90}; irsend.sendRaw(rawData, 9, 38000); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); EXPECT_EQ( "Raw Timing[9]:\n" " + 10, - 20, + 30, - 40, + 50, - 60," " + 70, - 80, \n" " + 90\n", resultToTimingInfo(&irsend.capture)); } TEST(TestResultToHumanReadableBasic, SimpleCodes) { IRsendTest irsend(0); IRrecv irrecv(1); irsend.begin(); irsend.reset(); irsend.sendNEC(irsend.encodeNEC(0x10, 0x20)); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(NEC, irsend.capture.decode_type); ASSERT_EQ(kNECBits, irsend.capture.bits); EXPECT_EQ( "Encoding : NEC\n" "Code : 8F704FB (32 bits)\n", resultToHumanReadableBasic(&irsend.capture)); } TEST(TestResultToHumanReadableBasic, ComplexCodes) { IRsendTest irsend(0); IRrecv irrecv(1); irsend.begin(); uint8_t state[kToshibaACStateLength] = {0xF2, 0x0D, 0x03, 0xFC, 0x01, 0x00, 0x00, 0x00, 0x01}; irsend.reset(); irsend.sendToshibaAC(state); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(TOSHIBA_AC, irsend.capture.decode_type); ASSERT_EQ(kToshibaACBits, irsend.capture.bits); EXPECT_EQ( "Encoding : TOSHIBA_AC\n" "Code : F20D03FC0100000001 (72 bits)\n", resultToHumanReadableBasic(&irsend.capture)); } TEST(TestInvertBits, Normal) { ASSERT_EQ(0xAAAA5555AAAA5555, invertBits(0x5555AAAA5555AAAA, 64)); ASSERT_EQ(0xAAAA5555, invertBits(0x5555AAAA, 32)); ASSERT_EQ(0xFFFFFFFFFFFFFFFF, invertBits(0x0, 64)); ASSERT_EQ(0x0, invertBits(invertBits(0x0, 64), 64)); ASSERT_EQ(0x2, invertBits(0x1, 2)); } TEST(TestInvertBits, ZeroBits) { ASSERT_EQ(0xAAAA5555AAAA5555, invertBits(0xAAAA5555AAAA5555, 0)); ASSERT_EQ(0x0, invertBits(0x0, 0)); ASSERT_EQ(0x1, invertBits(0x1, 0)); } TEST(TestInvertBits, MoreThan64Bits) { ASSERT_EQ(0xAAAA5555AAAA5555, invertBits(0x5555AAAA5555AAAA, 70)); ASSERT_EQ(0xFFFFFFFFFFFFFFFF, invertBits(0x0, 128)); } TEST(TestCountBits, Pointer) { uint8_t data[14] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}; ASSERT_EQ(0, countBits(data, 0)); ASSERT_EQ(0, countBits(data, 1)); ASSERT_EQ(0, countBits(data, 1, true)); ASSERT_EQ(8, countBits(data, 1, false)); ASSERT_EQ(1, countBits(data, 2)); ASSERT_EQ(15, countBits(data, 2, false)); ASSERT_EQ(1, countBits(data + 1, 1)); ASSERT_EQ(2, countBits(data, 3)); ASSERT_EQ(4, countBits(data, 4)); ASSERT_EQ(25, countBits(data, 14)); ASSERT_EQ(25, countBits(data, 14)); ASSERT_EQ(14 * 8, countBits(data, 14, true) + countBits(data, 14, false)); ASSERT_EQ(125, countBits(data, 14, true, 100)); } TEST(TestCountBits, Integer) { uint64_t data = 0xAAAAAAAAAAAAAAAA; ASSERT_EQ(0, countBits(data, 0)); ASSERT_EQ(0, countBits(data, 1)); ASSERT_EQ(0, countBits(data, 1, true)); ASSERT_EQ(1, countBits(data, 1, false)); ASSERT_EQ(1, countBits(data, 3)); ASSERT_EQ(2, countBits(data, 3, false)); ASSERT_EQ(4, countBits(data, 8)); ASSERT_EQ(4, countBits(data, 8, false)); ASSERT_EQ(32, countBits(data, 64)); ASSERT_EQ(32, countBits(data, 64, false)); data = 0; ASSERT_EQ(0, countBits(data, 1, true)); ASSERT_EQ(1, countBits(data, 1, false)); ASSERT_EQ(0, countBits(data, 64)); ASSERT_EQ(64, countBits(data, 64, false)); data = 0xFFFFFFFFFFFFFFFF; ASSERT_EQ(1, countBits(data, 1, true)); ASSERT_EQ(0, countBits(data, 1, false)); ASSERT_EQ(64, countBits(data, 64)); ASSERT_EQ(0, countBits(data, 64, false)); } TEST(TestStrToDecodeType, strToDecodeType) { EXPECT_EQ(decode_type_t::NEC, strToDecodeType("NEC")); EXPECT_EQ(decode_type_t::KELVINATOR, strToDecodeType("KELVINATOR")); EXPECT_EQ(decode_type_t::UNKNOWN, strToDecodeType("foo")); } TEST(TestUtils, htmlEscape) { EXPECT_EQ("", irutils::htmlEscape("")); EXPECT_EQ("No Changes", irutils::htmlEscape("No Changes")); EXPECT_EQ("No\tChanges+_%^$@~`\n:\\", irutils::htmlEscape("No\tChanges+_%^$@~`\n:\\")); EXPECT_EQ(""With Changes"", irutils::htmlEscape("\"With Changes\"")); EXPECT_EQ( "';!‐"<>&#equals;&#{}" "()", irutils::htmlEscape("';!-\"<>=&#{}()")); EXPECT_EQ("""", irutils::htmlEscape("\"\"")); EXPECT_EQ( "&quot;&lt;&apos;&gt;&amp;", irutils::htmlEscape(""<'>&")); } TEST(TestUtils, TemperatureConversion) { // Freezing point of water. ASSERT_EQ(32.0, celsiusToFahrenheit(0.0)); ASSERT_EQ(0.0, fahrenheitToCelsius(32.0)); // Boiling point of water. ASSERT_EQ(212.0, celsiusToFahrenheit(100.0)); ASSERT_EQ(100.0, fahrenheitToCelsius(212.0)); // Room Temp. (RTP) ASSERT_EQ(77.0, celsiusToFahrenheit(25.0)); ASSERT_EQ(25.0, fahrenheitToCelsius(77.0)); // Misc ASSERT_EQ(-40.0, fahrenheitToCelsius(-40.0)); } TEST(TestResultToRawArray, TypicalCase) { IRsendTest irsend(0); IRrecv irrecv(1); irsend.begin(); // Generate a known message. irsend.reset(); irsend.sendNikai(0xD0F2F); irsend.makeDecodeResult(); ASSERT_TRUE(irrecv.decode(&irsend.capture)); ASSERT_EQ(NIKAI, irsend.capture.decode_type); ASSERT_EQ(kNikaiBits, irsend.capture.bits); EXPECT_EQ( "uint16_t rawData[52] = {4000, 4000, 500, 2000, 500, 2000, " "500, 2000, 500, 2000, 500, 1000, 500, 1000, 500, 2000, 500, 1000, " "500, 2000, 500, 2000, 500, 2000, 500, 2000, 500, 1000, 500, 1000, " "500, 1000, 500, 1000, 500, 2000, 500, 2000, 500, 1000, 500, 2000, " "500, 1000, 500, 1000, 500, 1000, 500, 1000, 500, 8500 };" " // NIKAI D0F2F\n" "uint64_t data = 0xD0F2F;\n", resultToSourceCode(&irsend.capture)); uint16_t rawData[52] = { // Data taken from above. 4000, 4000, 500, 2000, 500, 2000, 500, 2000, 500, 2000, 500, 1000, 500, 1000, 500, 2000, 500, 1000, 500, 2000, 500, 2000, 500, 2000, 500, 2000, 500, 1000, 500, 1000, 500, 1000, 500, 1000, 500, 2000, 500, 2000, 500, 1000, 500, 2000, 500, 1000, 500, 1000, 500, 1000, 500, 1000, 500, 8500}; uint16_t * result = resultToRawArray(&irsend.capture); ASSERT_EQ(52, getCorrectedRawLength(&irsend.capture)); EXPECT_STATE_EQ(rawData, result, getCorrectedRawLength(&irsend.capture)); if (result != NULL) delete[] result; } TEST(TestResultToRawArray, LargeValues) { IRsendTest irsend(0); IRrecv irrecv(1); uint16_t test_data[9] = {10, 20, 30, 40, 50, 60, 70, 80, 90}; irsend.begin(); irsend.reset(); irsend.sendRaw(test_data, 9, 38000); irsend.makeDecodeResult(); irrecv.decode(&irsend.capture); uint16_t * result = resultToRawArray(&irsend.capture); ASSERT_EQ(9, getCorrectedRawLength(&irsend.capture)); EXPECT_STATE_EQ(test_data, result, 9); if (result != NULL) delete[] result; // Stick in some large values. irsend.capture.rawbuf[3] = 60000; EXPECT_EQ( "uint16_t rawData[11] = {10, 20, 65535, 0, 54465, 40, 50, 60, 70, " "80, 90}; // UNKNOWN 54051FFD\n", resultToSourceCode(&irsend.capture)); uint16_t large_test_data[11] = { 10, 20, 65535, 0, 54465, 40, 50, 60, 70, 80, 90}; ASSERT_EQ(11, getCorrectedRawLength(&irsend.capture)); result = resultToRawArray(&irsend.capture); EXPECT_STATE_EQ(large_test_data, result, 11); if (result != NULL) delete[] result; } TEST(TestUtils, TypeStringConversionRangeTests) { ASSERT_EQ("UNKNOWN", typeToString((decode_type_t)(kLastDecodeType + 1))); ASSERT_EQ("UNKNOWN", typeToString(decode_type_t::UNKNOWN)); for (int i = 0; i <= kLastDecodeType; i++) { EXPECT_NE("UNKNOWN", typeToString((decode_type_t)i)) << "Protocol " << i << " doesn't have a valid string for it."; EXPECT_EQ(i, strToDecodeType(typeToString((decode_type_t)i).c_str())) << "Protocol " << typeToString((decode_type_t)i) << " doesn't decode from a string correctly"; } } TEST(TestUtils, MinsToString) { EXPECT_EQ("00:00", irutils::minsToString(0)); EXPECT_EQ("00:01", irutils::minsToString(1)); EXPECT_EQ("00:10", irutils::minsToString(10)); EXPECT_EQ("00:59", irutils::minsToString(59)); EXPECT_EQ("01:00", irutils::minsToString(60)); EXPECT_EQ("01:01", irutils::minsToString(61)); EXPECT_EQ("01:59", irutils::minsToString(60 + 59)); EXPECT_EQ("18:59", irutils::minsToString(18 * 60 + 59)); EXPECT_EQ("23:59", irutils::minsToString(23 * 60 + 59)); } TEST(TestUtils, sumNibbles) { uint8_t testdata[] = {0x01, 0x23, 0x45}; EXPECT_EQ(0, irutils::sumNibbles(testdata, 0)); EXPECT_EQ(1, irutils::sumNibbles(testdata, 0, 1)); EXPECT_EQ(1, irutils::sumNibbles(testdata, 1)); EXPECT_EQ(2, irutils::sumNibbles(testdata, 1, 1)); EXPECT_EQ(15, irutils::sumNibbles(testdata, 3)); EXPECT_EQ(115, irutils::sumNibbles(testdata, 3, 100)); } TEST(TestUtils, BCD) { EXPECT_EQ(0, irutils::uint8ToBcd(0)); EXPECT_EQ(0, irutils::bcdToUint8(0)); EXPECT_EQ(1, irutils::uint8ToBcd(1)); EXPECT_EQ(10, irutils::bcdToUint8(0x10)); EXPECT_EQ(0x10, irutils::uint8ToBcd(10)); EXPECT_EQ(11, irutils::bcdToUint8(0x11)); EXPECT_EQ(0x11, irutils::uint8ToBcd(11)); EXPECT_EQ(99, irutils::bcdToUint8(0x99)); EXPECT_EQ(0x99, irutils::uint8ToBcd(99)); EXPECT_EQ(255, irutils::bcdToUint8(0x9A)); EXPECT_EQ(255, irutils::uint8ToBcd(100)); }