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Tasmota/lib/IRremoteESP8266-2.2.1.02/test/IRrecv_test.cpp

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v5.9.1f - Update libraries and a fix 5.9.1f * Upgrade library ArduinoJson to 5.11.2 * Upgrade library IRRemoteEsp8266 to 2.2.1 + 2 commits but tweaked some protocols to keep code usage small * Upgrade library NeoPixelBus to 2.2.9 * Upgrade library OneWire to 2.3.3 + 6 commits * Formalize library PubSubClient to 2.6 + 9 commits and additional delay * Add optional ADS1115 driver as alternative for unsupported I2Cdevlib in esp8266-core 2.4.0-rc2 * Fix wrong response name for command HlwISet (#1214)
2017-11-19 17:02:03 +00:00
// Copyright 2017 David Conran
#include "IRremoteESP8266.h"
#include "IRrecv.h"
#include "IRsend.h"
#include "IRsend_test.h"
#include "gtest/gtest.h"
// Tests for the IRrecv object.
TEST(TestIRrecv, DefaultBufferSize) {
IRrecv irrecv_default(1);
EXPECT_EQ(RAWBUF, irrecv_default.getBufSize());
}
TEST(TestIRrecv, LargeBufferSize) {
IRrecv irrecv_large(3, 1024);
EXPECT_EQ(1024, irrecv_large.getBufSize());
}
TEST(TestIRrecv, SmallBufferSize) {
IRrecv irrecv_small(4, 80);
EXPECT_EQ(80, irrecv_small.getBufSize());
}
TEST(TestIRrecv, MediumBufferSize) {
IRrecv irrecv_medium(4, 512);
EXPECT_EQ(512, irrecv_medium.getBufSize());
}
TEST(TestIRrecv, IRrecvDestructor) {
IRrecv *irrecv_ptr = new IRrecv(1);
EXPECT_EQ(RAWBUF, irrecv_ptr->getBufSize());
delete irrecv_ptr;
irrecv_ptr = new IRrecv(1, 1234);
EXPECT_EQ(1234, irrecv_ptr->getBufSize());
delete irrecv_ptr;
irrecv_ptr = new IRrecv(1, 123);
EXPECT_EQ(123, irrecv_ptr->getBufSize());
delete irrecv_ptr;
}
// Tests for copyIrParams()
TEST(TestCopyIrParams, CopyEmpty) {
irparams_t src;
irparams_t dst;
uint16_t test_size = 1234;
src.bufsize = test_size;
src.rawlen = 0;
src.rawbuf = new uint16_t[test_size];
src.overflow = false;
dst.bufsize = 4567;
dst.rawlen = 123;
dst.rawbuf = new uint16_t[test_size];
dst.overflow = true;
// Confirm we are looking at different memory for the buffers.
ASSERT_NE(src.rawbuf, dst.rawbuf);
IRrecv irrecv(4);
irrecv.copyIrParams(&src, &dst);
ASSERT_EQ(src.bufsize, dst.bufsize);
ASSERT_EQ(src.rawlen, dst.rawlen);
ASSERT_NE(src.rawbuf, dst.rawbuf); // Pointers, not content.
ASSERT_EQ(src.overflow, dst.overflow);
// Contents of the buffers needs to match.
EXPECT_EQ(0, memcmp(src.rawbuf, dst.rawbuf, src.bufsize * sizeof(uint16_t)));
}
TEST(TestCopyIrParams, CopyNonEmpty) {
irparams_t src;
irparams_t dst;
uint16_t test_size = 1234;
src.bufsize = test_size;
src.rawlen = 67;
src.rawbuf = new uint16_t[test_size];
src.rawbuf[0] = 0xF00D;
src.rawbuf[1] = 0xBEEF;
src.rawbuf[test_size - 1] = 0xDEAD;
src.overflow = true;
dst.bufsize = 0;
dst.rawlen = 0;
dst.rawbuf = new uint16_t[test_size];
dst.overflow = false;
// Confirm we are looking at different memory for the buffers.
ASSERT_NE(src.rawbuf, dst.rawbuf);
// and that they differ before we test.
EXPECT_NE(0, memcmp(src.rawbuf, dst.rawbuf, src.bufsize * sizeof(uint16_t)));
IRrecv irrecv(4);
irrecv.copyIrParams(&src, &dst);
ASSERT_EQ(src.bufsize, dst.bufsize);
EXPECT_EQ(test_size, dst.bufsize);
ASSERT_EQ(src.rawlen, dst.rawlen);
EXPECT_EQ(67, dst.rawlen);
ASSERT_EQ(src.overflow, dst.overflow);
EXPECT_TRUE(dst.overflow);
ASSERT_NE(src.rawbuf, dst.rawbuf); // Pointers, not content.
// Contents of the buffers needs to match.
EXPECT_EQ(0, memcmp(src.rawbuf, dst.rawbuf, src.bufsize * sizeof(uint16_t)));
// Check the canary values.
EXPECT_EQ(0xF00D, dst.rawbuf[0]);
EXPECT_EQ(0xBEEF, dst.rawbuf[1]);
EXPECT_EQ(0xDEAD, dst.rawbuf[test_size - 1]);
}
// Tests for decode().
// Test decode of a NEC message.
TEST(TestDecode, DecodeNEC) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendNEC(0x807F40BF);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(NEC, irsend.capture.decode_type);
EXPECT_EQ(NEC_BITS, irsend.capture.bits);
EXPECT_EQ(0x807F40BF, irsend.capture.value);
}
// Test decode of a JVC message.
TEST(TestDecode, DecodeJVC) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendJVC(0xC2B8);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(JVC, irsend.capture.decode_type);
EXPECT_EQ(JVC_BITS, irsend.capture.bits);
EXPECT_EQ(0xC2B8, irsend.capture.value);
}
// Test decode of a LG message.
TEST(TestDecode, DecodeLG) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendLG(0x4B4AE51);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(LG, irsend.capture.decode_type);
EXPECT_EQ(LG_BITS, irsend.capture.bits);
EXPECT_EQ(0x4B4AE51, irsend.capture.value);
irsend.reset();
irsend.sendLG(0xB4B4AE51, LG32_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(LG, irsend.capture.decode_type);
EXPECT_EQ(LG32_BITS, irsend.capture.bits);
EXPECT_EQ(0xB4B4AE51, irsend.capture.value);
}
// Test decode of a Panasonic message.
TEST(TestDecode, DecodePanasonic) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendPanasonic64(0x40040190ED7C);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decodePanasonic(&irsend.capture, PANASONIC_BITS, true));
EXPECT_EQ(PANASONIC, irsend.capture.decode_type);
EXPECT_EQ(PANASONIC_BITS, irsend.capture.bits);
EXPECT_EQ(0x40040190ED7C, irsend.capture.value);
}
// Test decode of a Samsun message.
TEST(TestDecode, DecodeSamsung) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendSAMSUNG(0xE0E09966);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(SAMSUNG, irsend.capture.decode_type);
EXPECT_EQ(SAMSUNG_BITS, irsend.capture.bits);
EXPECT_EQ(0xE0E09966, irsend.capture.value);
}
// Test decode of a Sherwood message.
TEST(TestDecode, DecodeSherwood) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendSherwood(0x807F40BF);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
// Sherwood codes are really NEC codes.
EXPECT_EQ(NEC, irsend.capture.decode_type);
EXPECT_EQ(NEC_BITS, irsend.capture.bits);
EXPECT_EQ(0x807F40BF, irsend.capture.value);
}
// Test decode of a Whynter message.
TEST(TestDecode, DecodeWhynter) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendWhynter(0x87654321);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(WHYNTER, irsend.capture.decode_type);
EXPECT_EQ(WHYNTER_BITS, irsend.capture.bits);
EXPECT_EQ(0x87654321, irsend.capture.value);
}
// Test decode of Sony messages.
TEST(TestDecode, DecodeSony) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
// Synthesised Normal Sony 20-bit message.
irsend.reset();
irsend.sendSony(irsend.encodeSony(SONY_20_BITS, 0x1, 0x1, 0x1));
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(SONY, irsend.capture.decode_type);
EXPECT_EQ(SONY_20_BITS, irsend.capture.bits);
EXPECT_EQ(0x81080, irsend.capture.value);
// Synthesised Normal Sony 15-bit message.
irsend.reset();
irsend.sendSony(irsend.encodeSony(SONY_15_BITS, 21, 1), SONY_15_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(SONY, irsend.capture.decode_type);
EXPECT_EQ(SONY_15_BITS, irsend.capture.bits);
EXPECT_EQ(0x5480, irsend.capture.value);
// Synthesised Normal Sony 12-bit message.
irsend.reset();
irsend.sendSony(irsend.encodeSony(SONY_12_BITS, 21, 1), SONY_12_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(SONY, irsend.capture.decode_type);
EXPECT_EQ(SONY_12_BITS, irsend.capture.bits);
EXPECT_EQ(0xA90, irsend.capture.value);
}
// Test decode of Sharp messages.
TEST(TestDecode, DecodeSharp) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendSharpRaw(0x454A);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(SHARP, irsend.capture.decode_type);
EXPECT_EQ(SHARP_BITS, irsend.capture.bits);
EXPECT_EQ(0x454A, irsend.capture.value);
}
// Test decode of Sanyo messages.
TEST(TestDecode, DecodeSanyo) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendSanyoLC7461(0x2468DCB56A9);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(SANYO_LC7461, irsend.capture.decode_type);
EXPECT_EQ(SANYO_LC7461_BITS, irsend.capture.bits);
EXPECT_EQ(0x2468DCB56A9, irsend.capture.value);
}
// Test decode of RC-MM messages.
TEST(TestDecode, DecodeRCMM) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
// Normal RCMM 24-bit message.
irsend.reset();
irsend.sendRCMM(0xe0a600);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RCMM, irsend.capture.decode_type);
EXPECT_EQ(RCMM_BITS, irsend.capture.bits);
EXPECT_EQ(0xe0a600, irsend.capture.value);
// Normal RCMM 12-bit message.
irsend.reset();
irsend.sendRCMM(0x600, 12);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RCMM, irsend.capture.decode_type);
EXPECT_EQ(12, irsend.capture.bits);
EXPECT_EQ(0x600, irsend.capture.value);
// Normal RCMM 32-bit message.
irsend.reset();
irsend.sendRCMM(0x28e0a600, 32);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RCMM, irsend.capture.decode_type);
EXPECT_EQ(32, irsend.capture.bits);
EXPECT_EQ(0x28e0a600, irsend.capture.value);
}
// Test decode of Mitsubishi messages.
TEST(TestDecode, DecodeMitsubishi) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendMitsubishi(0xC2B8);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(MITSUBISHI, irsend.capture.decode_type);
EXPECT_EQ(MITSUBISHI_BITS, irsend.capture.bits);
EXPECT_EQ(0xC2B8, irsend.capture.value);
}
// Test decode of RC-5/RC-5X messages.
TEST(TestDecode, DecodeRC5) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
// Normal RC-5 12-bit message.
irsend.reset();
irsend.sendRC5(0x175);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RC5, irsend.capture.decode_type);
EXPECT_EQ(RC5_BITS, irsend.capture.bits);
EXPECT_EQ(0x175, irsend.capture.value);
// Synthesised Normal RC-5X 13-bit message.
irsend.reset();
irsend.sendRC5(irsend.encodeRC5X(0x02, 0x41, true), RC5X_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RC5X, irsend.capture.decode_type);
EXPECT_EQ(RC5X_BITS, irsend.capture.bits);
EXPECT_EQ(0x1881, irsend.capture.value);
}
// Test decode of RC-6 messages.
TEST(TestDecode, DecodeRC6) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
// Normal RC-6 Mode 0 (20-bit) message.
irsend.reset();
irsend.sendRC6(0x175);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RC6, irsend.capture.decode_type);
EXPECT_EQ(RC6_MODE0_BITS, irsend.capture.bits);
EXPECT_EQ(0x175, irsend.capture.value);
// Normal RC-6 36-bit message.
irsend.reset();
irsend.sendRC6(0xC800F742A, RC6_36_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(RC6, irsend.capture.decode_type);
EXPECT_EQ(RC6_36_BITS, irsend.capture.bits);
EXPECT_EQ(0xC800F742A, irsend.capture.value);
}
// Test decode of Dish messages.
TEST(TestDecode, DecodeDish) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendDISH(0x9C00);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(DISH, irsend.capture.decode_type);
EXPECT_EQ(DISH_BITS, irsend.capture.bits);
EXPECT_EQ(0x9C00, irsend.capture.value);
}
// Test decode of Denon messages.
TEST(TestDecode, DecodeDenon) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
// Normal Denon 15-bit message. (Sharp)
irsend.reset();
irsend.sendDenon(0x2278);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(DENON, irsend.capture.decode_type);
EXPECT_EQ(DENON_BITS, irsend.capture.bits);
EXPECT_EQ(0x2278, irsend.capture.value);
// Legacy Denon 14-bit message.
irsend.reset();
irsend.sendDenon(0x1278, DENON_LEGACY_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(DENON, irsend.capture.decode_type);
EXPECT_EQ(DENON_BITS, irsend.capture.bits);
EXPECT_EQ(0x1278, irsend.capture.value);
// Normal Denon 48-bit message. (Panasonic/Kaseikyo)
irsend.reset();
irsend.sendDenon(0x2A4C028D6CE3, DENON_48_BITS);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(DENON, irsend.capture.decode_type);
EXPECT_EQ(DENON_48_BITS, irsend.capture.bits);
EXPECT_EQ(0x2A4C028D6CE3, irsend.capture.value);
}
// Test decode of Coolix messages.
TEST(TestDecode, DecodeCoolix) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendCOOLIX(0x123456);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(COOLIX, irsend.capture.decode_type);
EXPECT_EQ(COOLIX_BITS, irsend.capture.bits);
EXPECT_EQ(0x123456, irsend.capture.value);
}
// Test decode of Aiwa messages.
TEST(TestDecode, DecodeAiwa) {
IRsendTest irsend(0);
IRrecv irrecv(1);
irsend.begin();
irsend.reset();
irsend.sendAiwaRCT501(0x7F);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(AIWA_RC_T501, irsend.capture.decode_type);
EXPECT_EQ(AIWA_RC_T501_BITS, irsend.capture.bits);
EXPECT_EQ(0x7F, irsend.capture.value);
}