Tasmota/lib/IRremoteESP8266-2.6.0/test/ir_Daikin_test.cpp

1881 lines
67 KiB
C++

// Copyright 2017 David Conran
#include "ir_Daikin.h"
#include "IRrecv.h"
#include "IRrecv_test.h"
#include "IRsend.h"
#include "IRsend_test.h"
#include "gtest/gtest.h"
// Tests for sendDaikin().
// Test sending typical data only.
TEST(TestSendDaikin, SendDataOnly) {
IRsendTest irsend(0);
irsend.begin();
uint8_t daikin_code[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x20, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x41, 0x1E, 0x00, 0xB0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0xE3};
irsend.reset();
irsend.sendDaikin(daikin_code);
EXPECT_EQ(
"f38000d50"
"m428s428m428s428m428s428m428s428m428s428"
"m428s29428"
"m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s1280m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s1280m428s428m428s1280m428s428m428s1280m428s1280"
"m428s29428"
"m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s1280m428s428m428s428"
"m428s29428"
"m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s428m428s428m428s428m428s428m428s1280m428s428"
"m428s428m428s1280m428s1280m428s1280m428s1280m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s428m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s428m428s428m428s428m428s1280m428s1280m428s1280"
"m428s29428",
irsend.outputStr());
}
// Test sending with repeats.
TEST(TestSendDaikin, SendWithRepeats) {
IRsendTest irsend(0);
irsend.begin();
irsend.reset();
uint8_t daikin_code[kDaikinStateLengthShort] = {
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x20, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x41, 0x1E, 0x00, 0xB0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0xE3};
irsend.reset();
irsend.sendDaikin(daikin_code, kDaikinStateLengthShort, 1);
EXPECT_EQ(
"f38000d50"
"m428s428m428s428m428s428m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s1280m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s1280m428s428m428s1280m428s428m428s1280m428s1280"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s1280m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s428m428s428m428s428m428s428m428s1280m428s428"
"m428s428m428s1280m428s1280m428s1280m428s1280m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s428m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s428m428s428m428s428m428s1280m428s1280m428s1280"
"m428s29428"
"m428s428m428s428m428s428m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s1280m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s1280m428s428m428s1280m428s428m428s1280m428s1280"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s1280m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s428m428s428m428s428m428s428m428s1280m428s428"
"m428s428m428s1280m428s1280m428s1280m428s1280m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s428m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s428m428s428m428s428m428s1280m428s1280m428s1280"
"m428s29428",
irsend.outputStr());
}
// Test sending atypical sizes.
TEST(TestSendDaikin, SendUnexpectedSizes) {
IRsendTest irsend(4);
irsend.begin();
uint8_t daikin_short_code[kDaikinStateLengthShort - 1] = {
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x20, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x41, 0x1E, 0x00, 0xB0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00};
irsend.reset();
irsend.sendDaikin(daikin_short_code, kDaikinStateLengthShort - 1);
ASSERT_EQ("", irsend.outputStr());
uint8_t daikin_long_code[kDaikinStateLengthShort + 1] = {
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x20, 0x11, 0xDA,
0x27, 0x00, 0x00, 0x41, 0x1E, 0x00, 0xB0, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0xE3, 0x11};
irsend.reset();
irsend.sendDaikin(daikin_long_code, kDaikinStateLengthShort + 1);
ASSERT_EQ(
"f38000d50"
"m428s428m428s428m428s428m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s1280m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s1280m428s428m428s1280m428s428m428s1280m428s1280"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s1280m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s428m428s428m428s428m428s428m428s1280m428s428"
"m428s428m428s1280m428s1280m428s1280m428s1280m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s428m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s428m428s428m428s428m428s1280m428s1280m428s1280"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s29428",
irsend.outputStr());
}
// Tests for IRDaikinESP class.
TEST(TestDaikinClass, Power) {
IRDaikinESP ac(0);
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(TestDaikinClass, Temperature) {
IRDaikinESP ac(0);
ac.begin();
ac.setTemp(0);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(255);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(kDaikinMaxTemp);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp - 1);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(kDaikinMaxTemp + 1);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp + 1);
EXPECT_EQ(kDaikinMinTemp + 1, ac.getTemp());
ac.setTemp(21);
EXPECT_EQ(21, ac.getTemp());
ac.setTemp(25);
EXPECT_EQ(25, ac.getTemp());
ac.setTemp(29);
EXPECT_EQ(29, ac.getTemp());
}
TEST(TestDaikinClass, OperatingMode) {
IRDaikinESP ac(0);
ac.begin();
ac.setMode(kDaikinAuto);
EXPECT_EQ(kDaikinAuto, ac.getMode());
ac.setMode(kDaikinCool);
EXPECT_EQ(kDaikinCool, ac.getMode());
ac.setMode(kDaikinHeat);
EXPECT_EQ(kDaikinHeat, ac.getMode());
ac.setMode(kDaikinDry);
EXPECT_EQ(kDaikinDry, ac.getMode());
ac.setMode(kDaikinFan);
EXPECT_EQ(kDaikinFan, ac.getMode());
ac.setMode(kDaikinFan + 1);
EXPECT_EQ(kDaikinAuto, ac.getMode());
ac.setMode(kDaikinAuto + 1);
EXPECT_EQ(kDaikinAuto, ac.getMode());
ac.setMode(255);
EXPECT_EQ(kDaikinAuto, ac.getMode());
}
TEST(TestDaikinClass, VaneSwing) {
IRDaikinESP ac(0);
ac.begin();
ac.setSwingHorizontal(true);
ac.setSwingVertical(false);
ac.setSwingHorizontal(true);
EXPECT_TRUE(ac.getSwingHorizontal());
EXPECT_FALSE(ac.getSwingVertical());
ac.setSwingVertical(true);
EXPECT_TRUE(ac.getSwingHorizontal());
EXPECT_TRUE(ac.getSwingVertical());
ac.setSwingHorizontal(false);
EXPECT_FALSE(ac.getSwingHorizontal());
EXPECT_TRUE(ac.getSwingVertical());
ac.setSwingVertical(false);
EXPECT_FALSE(ac.getSwingHorizontal());
EXPECT_FALSE(ac.getSwingVertical());
}
TEST(TestDaikinClass, QuietMode) {
IRDaikinESP ac(0);
ac.begin();
ac.setQuiet(true);
EXPECT_TRUE(ac.getQuiet());
ac.setQuiet(false);
EXPECT_FALSE(ac.getQuiet());
ac.setQuiet(true);
EXPECT_TRUE(ac.getQuiet());
// Setting Econo mode should NOT change out of quiet mode.
ac.setEcono(true);
EXPECT_TRUE(ac.getQuiet());
ac.setEcono(false);
EXPECT_TRUE(ac.getQuiet());
// But setting Powerful mode should exit out of quiet mode.
ac.setPowerful(true);
EXPECT_FALSE(ac.getQuiet());
}
TEST(TestDaikinClass, PowerfulMode) {
IRDaikinESP ac(0);
ac.begin();
ac.setPowerful(true);
EXPECT_TRUE(ac.getPowerful());
ac.setPowerful(false);
EXPECT_FALSE(ac.getPowerful());
ac.setPowerful(true);
EXPECT_TRUE(ac.getPowerful());
ac.setQuiet(true);
EXPECT_FALSE(ac.getPowerful());
ac.setPowerful(true);
ac.setEcono(true);
EXPECT_FALSE(ac.getPowerful());
}
TEST(TestDaikinClass, EconoMode) {
IRDaikinESP ac(0);
ac.begin();
ac.setEcono(true);
EXPECT_TRUE(ac.getEcono());
ac.setEcono(false);
EXPECT_FALSE(ac.getEcono());
ac.setEcono(true);
EXPECT_TRUE(ac.getEcono());
// Setting Quiet mode should NOT change out of Econo mode.
ac.setQuiet(true);
EXPECT_TRUE(ac.getEcono());
ac.setQuiet(false);
EXPECT_TRUE(ac.getEcono());
// But setting Powerful mode should exit out of Econo mode.
ac.setPowerful(true);
EXPECT_FALSE(ac.getEcono());
}
TEST(TestDaikinClass, FanSpeed) {
IRDaikinESP ac(0);
ac.begin();
// Unexpected value should default to Auto.
ac.setFan(0);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
// Unexpected value should default to Auto.
ac.setFan(255);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanMax);
EXPECT_EQ(kDaikinFanMax, ac.getFan());
// Beyond Max should default to Auto.
ac.setFan(kDaikinFanMax + 1);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanMax - 1);
EXPECT_EQ(kDaikinFanMax - 1, ac.getFan());
ac.setFan(kDaikinFanMin);
EXPECT_EQ(kDaikinFanMin, ac.getFan());
ac.setFan(kDaikinFanMin + 1);
EXPECT_EQ(kDaikinFanMin + 1, ac.getFan());
// Beyond Min should default to Auto.
ac.setFan(kDaikinFanMin - 1);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(3);
EXPECT_EQ(3, ac.getFan());
ac.setFan(kDaikinFanAuto);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanQuiet);
EXPECT_EQ(kDaikinFanQuiet, ac.getFan());
}
TEST(TestDaikinClass, CurrentTime) {
IRDaikinESP ac(0);
ac.begin();
ac.setCurrentTime(0); // 00:00
EXPECT_EQ(0, ac.getCurrentTime());
ac.setCurrentTime(754); // 12:34
EXPECT_EQ(754, ac.getCurrentTime());
ac.setCurrentTime(1439); // 23:59
EXPECT_EQ(1439, ac.getCurrentTime());
}
TEST(TestDaikinClass, OnOffTimers) {
IRDaikinESP ac(0);
ac.begin();
// Both timers turned off.
ac.disableOnTimer();
ac.disableOffTimer();
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
EXPECT_FALSE(ac.getOffTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOffTime());
// Turn on just the On Timer.
ac.enableOnTimer(123);
EXPECT_TRUE(ac.getOnTimerEnabled());
EXPECT_EQ(123, ac.getOnTime());
EXPECT_FALSE(ac.getOffTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOffTime());
// Now turn on the Off Timer.
ac.enableOffTimer(754);
EXPECT_TRUE(ac.getOffTimerEnabled());
EXPECT_EQ(754, ac.getOffTime());
EXPECT_TRUE(ac.getOnTimerEnabled());
EXPECT_EQ(123, ac.getOnTime());
// Turn off the just the On Timer.
ac.disableOnTimer();
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
EXPECT_TRUE(ac.getOffTimerEnabled());
EXPECT_EQ(754, ac.getOffTime());
// Now turn off the Off Timer.
ac.disableOffTimer();
EXPECT_FALSE(ac.getOffTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOffTime());
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
// Use some canary values around the timers to ensure no accidental
// bit flips happen. i.e. Neighbouring bytes in the state.
// (Found some during testing on systems with different endian-ness)
// Tests here to make sure it never happens again.
ac.setSwingHorizontal(true);
ac.setPowerful(true);
ac.disableOffTimer();
ac.disableOnTimer();
ASSERT_TRUE(ac.getSwingHorizontal());
ASSERT_TRUE(ac.getPowerful());
ac.enableOnTimer(123);
ac.enableOffTimer(456);
ASSERT_TRUE(ac.getSwingHorizontal());
ASSERT_TRUE(ac.getPowerful());
ac.disableOffTimer();
ac.disableOnTimer();
ASSERT_TRUE(ac.getSwingHorizontal());
ASSERT_TRUE(ac.getPowerful());
ac.setSwingHorizontal(false);
ac.setPowerful(false);
ac.disableOffTimer();
ac.disableOnTimer();
ASSERT_FALSE(ac.getSwingHorizontal());
ASSERT_FALSE(ac.getPowerful());
ac.enableOnTimer(123);
ac.enableOffTimer(456);
ASSERT_FALSE(ac.getSwingHorizontal());
ASSERT_FALSE(ac.getPowerful());
ac.disableOffTimer();
ac.disableOnTimer();
ASSERT_FALSE(ac.getSwingHorizontal());
ASSERT_FALSE(ac.getPowerful());
}
// Test Eye mode.
TEST(TestDaikinClass, EyeSetting) {
IRDaikinESP ac(0);
ac.begin();
// The Eye setting is stored in the same byte as Econo mode.
// Econo mode tests are there to make sure it isn't harmed and vice-versa.
ac.setEcono(false);
ac.setEye(false);
ASSERT_FALSE(ac.getEye());
EXPECT_FALSE(ac.getEcono());
ac.setEye(true);
ASSERT_TRUE(ac.getEye());
EXPECT_FALSE(ac.getEcono());
ac.setEcono(false);
ASSERT_TRUE(ac.getEye());
EXPECT_FALSE(ac.getEcono());
ac.setEcono(true);
ASSERT_TRUE(ac.getEye());
EXPECT_TRUE(ac.getEcono());
ac.setEye(false);
ASSERT_FALSE(ac.getEye());
EXPECT_TRUE(ac.getEcono());
}
// Test Mold mode.
TEST(TestDaikinClass, MoldSetting) {
IRDaikinESP ac(0);
ac.begin();
ac.setMold(false);
ASSERT_FALSE(ac.getMold());
ac.setMold(true);
ASSERT_TRUE(ac.getMold());
ac.setMold(false);
ASSERT_FALSE(ac.getMold());
}
// Test Comfort mode.
TEST(TestDaikinClass, ComfortSetting) {
IRDaikinESP ac(0);
ac.begin();
ac.setComfort(false);
ASSERT_FALSE(ac.getComfort());
ac.setComfort(true);
ASSERT_TRUE(ac.getComfort());
ac.setComfort(false);
ASSERT_FALSE(ac.getComfort());
}
// Test Sensor mode.
TEST(TestDaikinClass, SensorSetting) {
IRDaikinESP ac(0);
ac.begin();
ac.setSensor(false);
ASSERT_FALSE(ac.getSensor());
ac.setSensor(true);
ASSERT_TRUE(ac.getSensor());
ac.setSensor(false);
ASSERT_FALSE(ac.getSensor());
}
TEST(TestDaikinClass, RenderTime) {
EXPECT_EQ("0:00", IRDaikinESP::renderTime(0));
EXPECT_EQ("0:10", IRDaikinESP::renderTime(10));
EXPECT_EQ("1:00", IRDaikinESP::renderTime(1 * 60 + 0));
EXPECT_EQ("23:59", IRDaikinESP::renderTime(23 * 60 + 59));
}
TEST(TestDaikinClass, SetAndGetRaw) {
IRDaikinESP ac(0);
uint8_t shortState[kDaikinStateLengthShort] = {
0x11, 0xDA, 0x27, 0x00, 0x42, 0x00, 0x00, 0x54, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x49, 0x1E, 0x00, 0xB0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC0, 0x00, 0x00, 0x4F};
uint8_t longState[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0x00, 0x42, 0x00, 0x00, 0x54, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x49, 0x1E, 0x00, 0xB0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC0, 0x00, 0x00, 0x4F};
uint8_t expectedState[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0x00, 0x42, 0x00, 0x00, 0x54, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x48, 0x2A, 0x00, 0xB0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC0, 0x00, 0x02, 0x5C};
EXPECT_STATE_EQ(longState, ac.getRaw(), kDaikinBits);
// toggle the power state.
ac.setPower(!ac.getPower());
ac.setTemp(21);
ac.setMold(true);
EXPECT_STATE_EQ(expectedState, ac.getRaw(), kDaikinBits);
ac.setRaw(longState);
EXPECT_STATE_EQ(longState, ac.getRaw(), kDaikinBits);
ac.setRaw(shortState, kDaikinStateLengthShort);
EXPECT_STATE_EQ(longState, ac.getRaw(), kDaikinBits);
}
TEST(TestDaikinClass, ChecksumValidation) {
uint8_t daikin_code[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x02, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x41, 0x1E, 0x00, 0xB0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0xE1};
EXPECT_TRUE(IRDaikinESP::validChecksum(daikin_code));
// Change the array so the checksum is invalid.
daikin_code[0] ^= 0xFF;
EXPECT_FALSE(IRDaikinESP::validChecksum(daikin_code));
// Restore the previous change, and change another byte.
daikin_code[0] ^= 0xFF;
daikin_code[4] ^= 0xFF;
EXPECT_FALSE(IRDaikinESP::validChecksum(daikin_code));
daikin_code[4] ^= 0xFF;
// Change something in the 2nd block.
daikin_code[10] ^= 0xFF;
EXPECT_FALSE(IRDaikinESP::validChecksum(daikin_code));
daikin_code[10] ^= 0xFF;
EXPECT_TRUE(IRDaikinESP::validChecksum(daikin_code));
// Change something in the 3rd block.
daikin_code[20] ^= 0xFF;
EXPECT_FALSE(IRDaikinESP::validChecksum(daikin_code));
daikin_code[20] ^= 0xFF;
EXPECT_TRUE(IRDaikinESP::validChecksum(daikin_code));
}
// Test human readable output.
TEST(TestDaikinClass, HumanReadable) {
IRDaikinESP ac(0);
EXPECT_EQ(
"Power: On, Mode: 4 (HEAT), Temp: 15C, Fan: 11 (QUIET), "
"Powerful: Off, Quiet: Off, Sensor: Off, Eye: Off, Mold: Off, "
"Comfort: Off, Swing (Horizontal): Off, Swing (Vertical): Off, "
"Current Time: 0:00, On Time: Off, Off Time: Off",
ac.toString());
ac.setMode(kDaikinAuto);
ac.setTemp(25);
ac.setFan(kDaikinFanAuto);
ac.setQuiet(true);
ac.setSensor(true);
ac.setEye(true);
ac.setMold(true);
ac.setSwingVertical(true);
ac.setSwingHorizontal(true);
ac.setCurrentTime(9 * 60 + 15);
ac.enableOnTimer(8 * 60 + 0);
ac.enableOffTimer(17 * 60 + 30);
ac.setComfort(true);
ac.off();
EXPECT_EQ(
"Power: Off, Mode: 0 (AUTO), Temp: 25C, Fan: 10 (AUTO), "
"Powerful: Off, Quiet: On, Sensor: On, Eye: On, Mold: On, Comfort: On, "
"Swing (Horizontal): On, Swing (Vertical): On, "
"Current Time: 9:15, On Time: 8:00, Off Time: 17:30",
ac.toString());
}
// Test general message construction after tweaking some settings.
TEST(TestDaikinClass, MessageConstuction) {
IRDaikinESP ac(0);
IRsendTest irsend(4);
ac.begin();
irsend.begin();
ac.setFan(kDaikinFanMin);
ac.setMode(kDaikinCool);
ac.setTemp(27);
ac.setSwingVertical(false);
ac.setSwingHorizontal(true);
ac.setQuiet(false);
ac.setPower(true);
// Check everything for kicks.
EXPECT_EQ(kDaikinFanMin, ac.getFan());
EXPECT_EQ(kDaikinCool, ac.getMode());
EXPECT_EQ(27, ac.getTemp());
EXPECT_FALSE(ac.getSwingVertical());
EXPECT_TRUE(ac.getSwingHorizontal());
EXPECT_FALSE(ac.getQuiet());
EXPECT_TRUE(ac.getPower());
irsend.reset();
irsend.sendDaikin(ac.getRaw());
EXPECT_EQ(
"f38000d50"
"m428s428m428s428m428s428m428s428m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s1280m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s1280m428s1280m428s428m428s1280m428s428m428s1280m428s1280"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s428m428s428m428s428m428s1280m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s1280m428s428m428s1280m428s428m428s1280m428s428"
"m428s29428m3650s1623"
"m428s1280m428s428m428s428m428s428m428s1280m428s428m428s428m428s428"
"m428s428m428s1280m428s428m428s1280m428s1280m428s428m428s1280m428s1280"
"m428s1280m428s1280m428s1280m428s428m428s428m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s1280m428s428m428s428m428s1280m428s1280m428s1280m428s428m428s428"
"m428s428m428s1280m428s1280m428s428m428s1280m428s1280m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s1280m428s1280m428s428m428s428"
"m428s1280m428s1280m428s1280m428s1280m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s1280m428s1280m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s1280m428s1280m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s1280m428s1280"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s428m428s428m428s428m428s428m428s428m428s428m428s428"
"m428s428m428s1280m428s1280m428s428m428s428m428s1280m428s1280m428s1280"
"m428s29428",
irsend.outputStr());
}
// Tests for decodeDaikin().
// Test decoding a message captured from a real IR remote.
TEST(TestDecodeDaikin, RealExample) {
IRDaikinESP ac(0);
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
uint8_t expectedState[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0x00, 0x42, 0x3A, 0x05, 0x93, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x3F, 0x3A, 0x00, 0xA0, 0x00,
0x0A, 0x25, 0x17, 0x01, 0x00, 0xC0, 0x00, 0x00, 0x32};
uint16_t rawData[583] = {
416, 446, 416, 446, 416, 446, 418, 446, 416, 446, 416, 25434,
3436, 1768, 390, 1336, 390, 446, 416, 446, 416, 446, 416, 1336,
390, 446, 416, 446, 416, 446, 416, 446, 416, 1336, 390, 448,
416, 1336, 390, 1336, 390, 448, 416, 1336, 390, 1336, 390, 1338,
388, 1338, 390, 1336, 390, 446, 416, 446, 416, 1336, 390, 446,
416, 446, 416, 446, 416, 446, 416, 446, 416, 446, 416, 448,
416, 446, 416, 446, 416, 446, 416, 1336, 390, 446, 416, 1336,
390, 448, 416, 446, 416, 446, 416, 1336, 390, 1336, 390, 446,
416, 446, 416, 446, 416, 446, 416, 446, 416, 446, 416, 446,
416, 446, 416, 446, 416, 448, 416, 446, 416, 446, 416, 446,
416, 448, 414, 448, 416, 448, 416, 1336, 390, 1336, 390, 1336,
390, 446, 414, 1336, 390, 448, 414, 1336, 390, 1336, 390, 34878,
3436, 1768, 390, 1336, 390, 446, 416, 448, 416, 446, 416, 1336,
390, 446, 416, 448, 416, 446, 416, 446, 416, 1336, 390, 446,
416, 1336, 390, 1336, 390, 446, 416, 1336, 390, 1336, 390, 1336,
390, 1336, 390, 1336, 392, 446, 414, 448, 416, 1336, 390, 446,
416, 446, 416, 446, 416, 446, 414, 448, 416, 446, 416, 448,
414, 448, 416, 446, 416, 446, 416, 446, 414, 1336, 390, 448,
416, 446, 416, 446, 416, 448, 416, 1336, 390, 446, 416, 446,
416, 1336, 390, 446, 416, 1336, 390, 1336, 390, 1336, 390, 446,
416, 446, 414, 1338, 390, 446, 416, 1336, 390, 446, 416, 446,
416, 446, 416, 446, 416, 446, 416, 1336, 390, 1336, 390, 446,
416, 446, 416, 1336, 390, 446, 416, 446, 416, 1336, 390, 34876,
3436, 1768, 388, 1336, 390, 446, 416, 446, 416, 448, 416, 1336,
390, 446, 416, 446, 416, 446, 416, 448, 416, 1336, 390, 448,
414, 1336, 390, 1336, 390, 446, 416, 1336, 388, 1338, 388, 1336,
390, 1336, 390, 1336, 390, 446, 416, 446, 416, 1336, 390, 446,
420, 442, 416, 446, 416, 446, 416, 446, 416, 446, 416, 446,
416, 446, 416, 446, 416, 446, 416, 446, 416, 446, 416, 448,
416, 446, 416, 448, 416, 446, 416, 448, 416, 446, 416, 1336,
390, 1336, 390, 1336, 388, 1338, 390, 1336, 390, 1336, 392, 446,
416, 446, 416, 448, 416, 1334, 390, 446, 416, 1338, 388, 1336,
390, 1336, 390, 446, 416, 446, 416, 448, 414, 446, 416, 446,
416, 446, 416, 448, 416, 446, 416, 446, 416, 446, 416, 446,
416, 446, 416, 446, 416, 446, 416, 446, 416, 1336, 390, 446,
416, 1336, 390, 446, 414, 448, 416, 446, 416, 446, 416, 446,
416, 448, 416, 446, 416, 446, 416, 446, 416, 1336, 390, 446,
416, 1336, 390, 446, 416, 446, 416, 446, 416, 448, 416, 1338,
390, 444, 418, 1336, 390, 448, 416, 446, 416, 1336, 390, 446,
416, 446, 416, 1336, 390, 1336, 388, 1336, 390, 446, 416, 1336,
390, 448, 414, 448, 414, 448, 416, 1334, 390, 446, 416, 446,
416, 446, 416, 448, 416, 446, 416, 446, 416, 448, 416, 446,
416, 446, 416, 446, 416, 446, 416, 446, 416, 446, 416, 446,
416, 446, 416, 446, 416, 446, 416, 446, 416, 446, 416, 446,
416, 448, 416, 1336, 390, 1336, 390, 446, 416, 446, 416, 446,
416, 446, 414, 446, 416, 448, 416, 446, 416, 448, 414, 446,
418, 446, 416, 446, 416, 448, 416, 446, 416, 448, 416, 446,
416, 448, 416, 446, 416, 1336, 390, 446, 416, 446, 416, 1338,
390, 1336, 390, 446, 416, 446, 416}; // Captured by @sillyfrog
irsend.reset();
irsend.sendRaw(rawData, 583, 38000);
irsend.makeDecodeResult();
EXPECT_TRUE(irrecv.decode(&irsend.capture));
ASSERT_EQ(DAIKIN, irsend.capture.decode_type);
ASSERT_EQ(kDaikinBits, irsend.capture.bits);
EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits);
ac.setRaw(irsend.capture.state);
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 29C, Fan: 10 (AUTO), Powerful: On, "
"Quiet: Off, Sensor: Off, Eye: Off, Mold: Off, Comfort: Off, "
"Swing (Horizontal): Off, Swing (Vertical): Off, "
"Current Time: 22:18, On Time: 21:30, Off Time: 6:10", ac.toString());
}
// Decoding a message we entirely constructed based solely on a given state.
TEST(TestDecodeDaikin, ShortSyntheticExample) {
IRDaikinESP ac(0);
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
uint8_t shortState[kDaikinStateLengthShort] = {
0x11, 0xDA, 0x27, 0x00, 0x42, 0x3A, 0x05, 0x93, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x3F, 0x3A, 0x00, 0xA0, 0x00,
0x0A, 0x25, 0x17, 0x01, 0x00, 0xC0, 0x00, 0x00, 0x32};
uint8_t longState[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0x00, 0x42, 0x3A, 0x05, 0x93, 0x11,
0xDA, 0x27, 0x00, 0x00, 0x3F, 0x3A, 0x00, 0xA0, 0x00,
0x0A, 0x25, 0x17, 0x01, 0x00, 0xC0, 0x00, 0x00, 0x32};
irsend.reset();
irsend.sendDaikin(shortState, kDaikinStateLengthShort);
irsend.makeDecodeResult();
EXPECT_TRUE(irrecv.decode(&irsend.capture));
ASSERT_EQ(DAIKIN, irsend.capture.decode_type);
ASSERT_EQ(kDaikinBits, irsend.capture.bits);
EXPECT_STATE_EQ(longState, irsend.capture.state, irsend.capture.bits);
ac.setRaw(irsend.capture.state);
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 29C, Fan: 10 (AUTO), Powerful: On, "
"Quiet: Off, Sensor: Off, Eye: Off, Mold: Off, Comfort: Off, "
"Swing (Horizontal): Off, Swing (Vertical): Off, "
"Current Time: 22:18, On Time: 21:30, Off Time: 6:10", ac.toString());
}
// Decoding a message we entirely constructed based solely on a given state.
TEST(TestDecodeDaikin, LongSyntheticExample) {
IRDaikinESP ac(0);
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
uint8_t expectedState[kDaikinStateLength] = {
0x11, 0xDA, 0x27, 0x00, 0xC5, 0x00, 0x00, 0xD7,
0x11, 0xDA, 0x27, 0x00, 0x42, 0x3A, 0x05, 0x93,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x3F, 0x3A, 0x00, 0xA0, 0x00,
0x0A, 0x25, 0x17, 0x01, 0x00, 0xC0, 0x00, 0x00, 0x32};
irsend.reset();
irsend.sendDaikin(expectedState);
irsend.makeDecodeResult();
EXPECT_TRUE(irrecv.decodeDaikin(&irsend.capture));
ASSERT_EQ(DAIKIN, irsend.capture.decode_type);
ASSERT_EQ(kDaikinBits, irsend.capture.bits);
EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits);
ac.setRaw(irsend.capture.state);
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 29C, Fan: 10 (AUTO), Powerful: On, "
"Quiet: Off, Sensor: Off, Eye: Off, Mold: Off, Comfort: Off, "
"Swing (Horizontal): Off, Swing (Vertical): Off, "
"Current Time: 22:18, On Time: 21:30, Off Time: 6:10", ac.toString());
}
// Test decoding a message captured from a real IR remote.
TEST(TestDecodeDaikin2, RealExample) {
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
uint8_t expectedState[kDaikin2StateLength] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x7A, 0xC3, 0x70, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xD5, 0xF5,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x08, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x80, 0x60, 0xE7};
// "Off" Data from https://github.com/markszabo/IRremoteESP8266/issues/582
uint16_t rawData[633] = { // Data supplied by @sheppy99
10024, 25180, 3494, 1732, 436, 1300, 436, 436, 432, 438, 430, 438,
426, 1306, 430, 442, 430, 438, 428, 440, 430, 440, 430, 1304,
432, 442, 428, 1308, 424, 1312, 428, 442, 428, 1306, 424, 1314,
426, 1308, 434, 1306, 426, 1308, 428, 444, 426, 442, 428, 1310,
428, 442, 424, 444, 426, 442, 426, 444, 424, 444, 426, 444,
424, 446, 422, 446, 422, 446, 422, 446, 418, 1318, 418, 450,
420, 448, 420, 448, 422, 448, 420, 450, 420, 448, 420, 450,
420, 452, 418, 1318, 420, 450, 420, 1318, 420, 1314, 418, 1318,
424, 1314, 424, 448, 422, 1316, 424, 1312, 426, 446, 422, 448,
420, 448, 422, 448, 422, 1314, 418, 1320, 416, 452, 420, 448,
420, 448, 422, 448, 422, 1314, 416, 1320, 422, 1316, 422, 450,
418, 450, 420, 448, 420, 448, 416, 1320, 418, 452, 418, 1316,
422, 448, 420, 450, 420, 450, 420, 448, 422, 1314, 418, 1320,
418, 450, 420, 448, 420, 448, 420, 450, 420, 450, 418, 450,
418, 450, 420, 450, 418, 452, 416, 452, 420, 450, 418, 1318,
420, 452, 418, 452, 418, 1322, 416, 452, 416, 452, 418, 452,
418, 452, 416, 454, 418, 452, 416, 456, 414, 452, 418, 454,
416, 1320, 410, 1324, 418, 452, 418, 1320, 416, 452, 418, 1320,
418, 1318, 420, 448, 420, 1316, 420, 450, 420, 450, 418, 450,
420, 450, 418, 452, 418, 1320, 418, 450, 418, 450, 416, 1322,
412, 458, 420, 450, 416, 452, 418, 452, 416, 452, 418, 452,
416, 454, 416, 452, 418, 452, 416, 454, 414, 454, 416, 454,
416, 454, 414, 456, 414, 454, 414, 456, 412, 454, 416, 456,
414, 456, 412, 1326, 412, 1320, 412, 1322, 414, 1322, 418, 1320,
420, 452, 418, 1318, 420, 1316, 422, 450, 420, 1314, 424, 448,
422, 1314, 422, 448, 422, 1314, 418, 1318, 424, 1316, 422, 448,
422, 1312, 424, 446, 422, 1314, 420, 1318, 422, 1316, 426, 1310,
426, 35166, 3500, 1724, 446, 1296, 444, 432, 436, 432, 438, 432,
436, 1296, 440, 434, 434, 436, 432, 436, 434, 436, 434, 1298,
438, 438, 432, 1304, 428, 1304, 432, 442, 430, 1302, 430, 1308,
430, 1306, 434, 1302, 432, 1306, 430, 440, 430, 438, 430, 1308,
434, 438, 430, 440, 428, 440, 430, 440, 428, 442, 426, 444,
428, 442, 426, 444, 426, 442, 426, 444, 424, 446, 422, 446,
424, 446, 424, 446, 422, 446, 424, 448, 420, 448, 422, 446,
422, 448, 422, 450, 420, 450, 414, 1320, 420, 450, 418, 450,
418, 448, 420, 450, 418, 452, 418, 1320, 418, 1316, 422, 450,
418, 452, 418, 1320, 420, 448, 418, 450, 420, 450, 418, 452,
416, 452, 418, 450, 418, 452, 416, 452, 418, 452, 416, 454,
416, 452, 416, 454, 416, 454, 414, 456, 416, 454, 414, 1322,
416, 454, 416, 1320, 418, 452, 416, 454, 414, 454, 416, 454,
414, 454, 414, 454, 414, 456, 414, 456, 412, 456, 414, 456,
414, 456, 412, 456, 414, 458, 406, 464, 410, 458, 412, 458,
410, 460, 410, 1326, 412, 1324, 414, 456, 412, 458, 412, 456,
414, 456, 412, 458, 410, 458, 414, 458, 410, 458, 408, 460,
410, 470, 400, 1324, 408, 1328, 410, 458, 410, 460, 414, 456,
410, 456, 414, 458, 412, 460, 410, 458, 412, 458, 412, 460,
408, 460, 410, 460, 408, 472, 396, 462, 408, 470, 402, 470,
396, 472, 400, 470, 398, 1326, 412, 460, 408, 472, 396, 472,
400, 470, 400, 472, 396, 1328, 410, 1324, 414, 458, 410, 458,
410, 458, 412, 458, 412, 460, 408, 460, 410, 460, 410, 1324,
414, 458, 410, 460, 408, 460, 410, 458, 410, 460, 410, 1326,
412, 1322, 416, 456, 412, 1322, 412, 1326, 416, 1322, 418, 452,
416, 454, 412, 1324, 418, 1320, 420, 1316, 420};
irsend.reset();
irsend.sendRaw(rawData, 633, 38000);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
ASSERT_EQ(DAIKIN2, irsend.capture.decode_type);
ASSERT_EQ(kDaikin2Bits, irsend.capture.bits);
EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits);
}
// Decoding a message we entirely constructed based solely on a given state.
TEST(TestDecodeDaikin2, SyntheticExample) {
IRDaikin2 ac(0);
IRsendTest irsend(0);
IRrecv irrecv(0);
irsend.begin();
uint8_t expectedState[kDaikin2StateLength] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x7A, 0xC3, 0x70, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xD5, 0xF5,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x08, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x80, 0x60, 0xE7};
irsend.reset();
irsend.sendDaikin2(expectedState);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
ASSERT_EQ(DAIKIN2, irsend.capture.decode_type);
ASSERT_EQ(kDaikin2Bits, irsend.capture.bits);
EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits);
ac.setRaw(irsend.capture.state);
EXPECT_EQ(
"Power: Off, Mode: 0 (AUTO), Temp: 19C, Fan: 10 (Auto), "
"Swing (V): 5, Swing (H): 190 (Auto), "
"Clock: 14:50, On Time: Off, Off Time: Off, Sleep Time: Off, "
"Beep: 1 (Quiet), Light: 3 (Off), Mold: On, Clean: On, Fresh Air: Off, "
"Eye: Off, Eye Auto: Off, Quiet: Off, Powerful: Off, Purify: Off, "
"Econo: Off",
ac.toString());
}
TEST(TestDaikin2Class, CurrentTime) {
IRDaikin2 ac(0);
ac.begin();
ac.setCurrentTime(0); // 00:00
EXPECT_EQ(0, ac.getCurrentTime());
ac.setCurrentTime(754); // 12:34
EXPECT_EQ(754, ac.getCurrentTime());
ac.setCurrentTime(1439); // 23:59
EXPECT_EQ(1439, ac.getCurrentTime());
}
TEST(TestDaikin2Class, OnOffTimers) {
IRDaikin2 ac(0);
ac.begin();
// Both timers turned off.
ac.disableOnTimer();
ac.disableOffTimer();
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
EXPECT_FALSE(ac.getOffTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOffTime());
// Turn on just the On Timer.
ac.enableOnTimer(123);
EXPECT_TRUE(ac.getOnTimerEnabled());
EXPECT_EQ(123, ac.getOnTime());
EXPECT_FALSE(ac.getOffTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOffTime());
// Now turn on the Off Timer.
ac.enableOffTimer(754);
EXPECT_TRUE(ac.getOffTimerEnabled());
EXPECT_EQ(754, ac.getOffTime());
EXPECT_TRUE(ac.getOnTimerEnabled());
EXPECT_EQ(123, ac.getOnTime());
// Turn off the just the On Timer.
ac.disableOnTimer();
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
EXPECT_TRUE(ac.getOffTimerEnabled());
EXPECT_EQ(754, ac.getOffTime());
// Now turn off the Off Timer.
ac.disableOffTimer();
EXPECT_FALSE(ac.getOffTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOffTime());
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
}
TEST(TestDaikin2Class, LightAndBeep) {
IRDaikin2 ac(0);
ac.begin();
ac.setLight(kDaikinLightOff);
EXPECT_EQ(kDaikinLightOff, ac.getLight());
ac.setBeep(kDaikinBeepOff);
EXPECT_EQ(kDaikinBeepOff, ac.getBeep());
ac.setLight(kDaikinLightBright);
EXPECT_EQ(kDaikinLightBright, ac.getLight());
EXPECT_EQ(kDaikinBeepOff, ac.getBeep());
ac.setBeep(kDaikinBeepLoud);
EXPECT_EQ(kDaikinBeepLoud, ac.getBeep());
EXPECT_EQ(kDaikinLightBright, ac.getLight());
}
TEST(TestDaikin2Class, FanSpeed) {
IRDaikin2 ac(0);
ac.begin();
// Unexpected value should default to Auto.
ac.setFan(0);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
// Unexpected value should default to Auto.
ac.setFan(255);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanMax);
EXPECT_EQ(kDaikinFanMax, ac.getFan());
// Beyond Max should default to Auto.
ac.setFan(kDaikinFanMax + 1);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanMax - 1);
EXPECT_EQ(kDaikinFanMax - 1, ac.getFan());
ac.setFan(kDaikinFanMin);
EXPECT_EQ(kDaikinFanMin, ac.getFan());
ac.setFan(kDaikinFanMin + 1);
EXPECT_EQ(kDaikinFanMin + 1, ac.getFan());
// Beyond Min should default to Auto.
ac.setFan(kDaikinFanMin - 1);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(3);
EXPECT_EQ(3, ac.getFan());
ac.setFan(kDaikinFanAuto);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanQuiet);
EXPECT_EQ(kDaikinFanQuiet, ac.getFan());
}
// Test Mold mode.
TEST(TestDaikin2Class, MoldSetting) {
IRDaikin2 ac(0);
ac.begin();
ac.setMold(false);
ASSERT_FALSE(ac.getMold());
ac.setMold(true);
ASSERT_TRUE(ac.getMold());
ac.setMold(false);
ASSERT_FALSE(ac.getMold());
}
// Test Auto Clean setting.
TEST(TestDaikin2Class, CleanSetting) {
IRDaikin2 ac(0);
ac.begin();
ac.setClean(false);
ASSERT_FALSE(ac.getClean());
ac.setClean(true);
ASSERT_TRUE(ac.getClean());
ac.setClean(false);
ASSERT_FALSE(ac.getClean());
}
TEST(TestDaikin2Class, Temperature) {
IRDaikin2 ac(0);
ac.begin();
ac.setMode(kDaikinAuto);
ac.setTemp(0);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(255);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(kDaikinMaxTemp);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp - 1);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(kDaikinMaxTemp + 1);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp + 1);
EXPECT_EQ(kDaikinMinTemp + 1, ac.getTemp());
// Now try it with Cool mode, which should set the temp to kDaikin2MinCoolTemp
ASSERT_TRUE(kDaikinMinTemp + 1 < kDaikin2MinCoolTemp);
ac.setMode(kDaikinCool);
EXPECT_EQ(kDaikin2MinCoolTemp, ac.getTemp());
ac.setTemp(kDaikin2MinCoolTemp - 1);
EXPECT_EQ(kDaikin2MinCoolTemp, ac.getTemp());
ac.setTemp(kDaikin2MinCoolTemp + 1);
EXPECT_EQ(kDaikin2MinCoolTemp + 1, ac.getTemp());
// Should be released from that requirement in other modes.
ac.setMode(kDaikinAuto);
ac.setTemp(kDaikin2MinCoolTemp - 1);
EXPECT_EQ(kDaikin2MinCoolTemp - 1, ac.getTemp());
ac.setTemp(21);
EXPECT_EQ(21, ac.getTemp());
ac.setTemp(25);
EXPECT_EQ(25, ac.getTemp());
ac.setTemp(29);
EXPECT_EQ(29, ac.getTemp());
}
// Test Fresh Air settings.
TEST(TestDaikin2Class, FreshAirSettings) {
IRDaikin2 ac(0);
ac.begin();
ac.setFreshAir(false);
ac.setFreshAirHigh(false);
ASSERT_FALSE(ac.getFreshAir());
ASSERT_FALSE(ac.getFreshAirHigh());
ac.setFreshAir(true);
ASSERT_TRUE(ac.getFreshAir());
ASSERT_FALSE(ac.getFreshAirHigh());
ac.setFreshAirHigh(true);
ASSERT_TRUE(ac.getFreshAir());
ASSERT_TRUE(ac.getFreshAirHigh());
ac.setFreshAir(false);
ASSERT_FALSE(ac.getFreshAir());
ASSERT_TRUE(ac.getFreshAirHigh());
ac.setFreshAirHigh(false);
ASSERT_FALSE(ac.getFreshAir());
ASSERT_FALSE(ac.getFreshAirHigh());
}
// Test Eye mode.
TEST(TestDaikin2Class, EyeSetting) {
IRDaikin2 ac(0);
ac.begin();
ac.setEye(false);
ASSERT_FALSE(ac.getEye());
ac.setEye(true);
ASSERT_TRUE(ac.getEye());
ac.setEye(false);
ASSERT_FALSE(ac.getEye());
}
// Test Econo setting.
TEST(TestDaikin2Class, EconoSetting) {
IRDaikin2 ac(0);
ac.begin();
ac.setEcono(false);
ASSERT_FALSE(ac.getEcono());
ac.setEcono(true);
ASSERT_TRUE(ac.getEcono());
ac.setEcono(false);
ASSERT_FALSE(ac.getEcono());
}
TEST(TestDaikin2Class, SleepTimer) {
IRDaikin2 ac(0);
ac.begin();
// NOTE: On & Sleep timer share the same time location.
// Both timers turned off.
ac.disableOnTimer();
ac.disableSleepTimer();
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
EXPECT_FALSE(ac.getSleepTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getSleepTime());
// Turn on just the On Timer.
ac.enableOnTimer(123);
EXPECT_TRUE(ac.getOnTimerEnabled());
EXPECT_EQ(123, ac.getOnTime());
EXPECT_FALSE(ac.getSleepTimerEnabled());
EXPECT_EQ(123, ac.getSleepTime());
// Now turn on the Sleep Timer. This shoud disable the On Timer.
ac.enableSleepTimer(754);
EXPECT_TRUE(ac.getSleepTimerEnabled());
EXPECT_EQ(754, ac.getSleepTime());
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(754, ac.getOnTime());
// Turn off the just the On Timer.
ac.disableOnTimer();
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
EXPECT_FALSE(ac.getSleepTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getSleepTime());
// Now turn on the On Timer and turn off the Sleep Timer.
// Both should be off afterwards.
ac.enableOnTimer(123);
ac.disableSleepTimer();
EXPECT_FALSE(ac.getSleepTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getSleepTime());
EXPECT_FALSE(ac.getOnTimerEnabled());
EXPECT_EQ(kDaikinUnusedTime, ac.getOnTime());
}
// Test Vertical Swing.
TEST(TestDaikin2Class, Swing) {
IRDaikin2 ac(0);
ac.begin();
// Vertical
ac.setSwingVertical(1);
ASSERT_EQ(1, ac.getSwingVertical());
ac.setSwingVertical(3);
ASSERT_EQ(3, ac.getSwingVertical());
ac.setSwingVertical(6);
ASSERT_EQ(6, ac.getSwingVertical());
ac.setSwingVertical(kDaikin2SwingVBreeze);
ASSERT_EQ(kDaikin2SwingVBreeze, ac.getSwingVertical());
ac.setSwingVertical(kDaikin2SwingVCirculate);
ASSERT_EQ(kDaikin2SwingVCirculate, ac.getSwingVertical());
ac.setSwingVertical(kDaikin2SwingVAuto);
ASSERT_EQ(kDaikin2SwingVAuto, ac.getSwingVertical());
ac.setSwingVertical(0);
ASSERT_EQ(kDaikin2SwingVAuto, ac.getSwingVertical());
ac.setSwingVertical(7);
ASSERT_EQ(kDaikin2SwingVAuto, ac.getSwingVertical());
ac.setSwingVertical(255);
ASSERT_EQ(kDaikin2SwingVAuto, ac.getSwingVertical());
// Horizontal
ac.setSwingHorizontal(kDaikin2SwingHAuto);
ASSERT_EQ(kDaikin2SwingHAuto, ac.getSwingHorizontal());
ac.setSwingHorizontal(kDaikin2SwingHSwing);
ASSERT_EQ(kDaikin2SwingHSwing, ac.getSwingHorizontal());
ac.setSwingHorizontal(0);
ASSERT_EQ(0, ac.getSwingHorizontal());
ac.setSwingHorizontal(255);
ASSERT_EQ(255, ac.getSwingHorizontal());
}
TEST(TestDaikin2Class, QuietMode) {
IRDaikin2 ac(0);
ac.begin();
ac.setQuiet(true);
EXPECT_TRUE(ac.getQuiet());
ac.setQuiet(false);
EXPECT_FALSE(ac.getQuiet());
ac.setQuiet(true);
EXPECT_TRUE(ac.getQuiet());
// But setting Powerful mode should exit out of quiet mode.
ac.setPowerful(true);
EXPECT_FALSE(ac.getQuiet());
}
TEST(TestDaikin2Class, PowerfulMode) {
IRDaikin2 ac(0);
ac.begin();
ac.setPowerful(true);
EXPECT_TRUE(ac.getPowerful());
ac.setPowerful(false);
EXPECT_FALSE(ac.getPowerful());
ac.setPowerful(true);
EXPECT_TRUE(ac.getPowerful());
ac.setQuiet(true);
EXPECT_FALSE(ac.getPowerful());
}
// Test Purify mode.
TEST(TestDaikin2Class, PurifySetting) {
IRDaikin2 ac(0);
ac.begin();
ac.setPurify(false);
ASSERT_FALSE(ac.getPurify());
ac.setPurify(true);
ASSERT_TRUE(ac.getPurify());
ac.setPurify(false);
ASSERT_FALSE(ac.getPurify());
}
TEST(TestDaikin2Class, HumanReadable) {
IRDaikin2 ac(0);
ac.begin();
ac.setPower(true);
ac.setMode(kDaikinCool);
ac.setTemp(21);
ac.setFan(kDaikinFanMax);
ac.setSwingVertical(kDaikin2SwingVAuto);
ac.setSwingHorizontal(kDaikin2SwingHSwing);
ac.setCurrentTime(12 * 60 + 34); // 12:34
ac.disableOnTimer();
ac.enableOffTimer(20 * 60); // 20:00
ac.enableSleepTimer(4 * 60); // 4:00
ac.setBeep(kDaikinBeepLoud);
ac.setLight(kDaikinLightDim);
ac.setMold(true);
ac.setClean(false);
ac.setFreshAir(true);
ac.setEye(true);
ac.setEyeAuto(true);
ac.setQuiet(false);
ac.setPowerful(true);
ac.setPurify(true);
ac.setEcono(false);
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 21C, Fan: 5 (Max), "
"Swing (V): 14 (Auto), Swing (H): 191 (Swing), Clock: 12:34, "
"On Time: Off, Off Time: 20:00, Sleep Time: 4:00, Beep: 2 (Loud), "
"Light: 2 (Dim), Mold: On, Clean: Off, Fresh Air: On, Eye: On, "
"Eye Auto: On, Quiet: Off, Powerful: On, Purify: On, Econo: Off",
ac.toString());
ac.setQuiet(true);
ac.setMode(kDaikinHeat);
ac.setBeep(kDaikinBeepQuiet);
ac.setLight(kDaikinLightBright);
ac.setTemp(32);
ac.setFan(kDaikinFanMin);
ac.setCurrentTime(23 * 60 + 45); // 23:45
ac.enableOnTimer(9 * 60 + 11); // 9:11
EXPECT_EQ(
"Power: On, Mode: 4 (HEAT), Temp: 32C, Fan: 1 (Min), "
"Swing (V): 14 (Auto), Swing (H): 191 (Swing), Clock: 23:45, "
"On Time: 9:11, Off Time: 20:00, Sleep Time: Off, Beep: 1 (Quiet), "
"Light: 1 (Bright), Mold: On, Clean: Off, Fresh Air: On, Eye: On, "
"Eye Auto: On, Quiet: On, Powerful: Off, Purify: On, Econo: Off",
ac.toString());
}
// See if we can construct a known state.
TEST(TestDaikin2Class, KnownConstruction) {
IRDaikin2 ac(0);
uint8_t expectedState[kDaikin2StateLength] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x7A, 0xC3, 0x70, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xD5, 0xF5,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x08, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x80, 0x60, 0xE7};
ac.begin();
ac.setPower(false);
ac.setMode(kDaikinAuto);
ac.setTemp(19);
ac.setFan(kDaikinFanAuto);
ac.setSwingVertical(5);
ac.setSwingHorizontal(kDaikin2SwingHAuto);
ac.setCurrentTime(14 * 60 + 50); // 14:50
ac.disableOnTimer();
ac.disableOffTimer();
ac.disableSleepTimer();
ac.setBeep(kDaikinBeepQuiet);
ac.setLight(kDaikinLightOff);
ac.setMold(true);
ac.setClean(true);
ac.setFreshAir(false);
ac.setEye(false);
ac.setEyeAuto(false);
ac.setQuiet(false);
ac.setPowerful(false);
ac.setPurify(false);
ac.setEcono(false);
EXPECT_EQ(
"Power: Off, Mode: 0 (AUTO), Temp: 19C, Fan: 10 (Auto), "
"Swing (V): 5, Swing (H): 190 (Auto), "
"Clock: 14:50, On Time: Off, Off Time: Off, Sleep Time: Off, "
"Beep: 1 (Quiet), Light: 3 (Off), Mold: On, Clean: On, Fresh Air: Off, "
"Eye: Off, Eye Auto: Off, Quiet: Off, Powerful: Off, Purify: Off, "
"Econo: Off",
ac.toString());
EXPECT_STATE_EQ(expectedState, ac.getRaw(), kDaikin2Bits);
}
TEST(TestUtils, Housekeeping) {
ASSERT_EQ("DAIKIN", typeToString(decode_type_t::DAIKIN));
ASSERT_EQ(decode_type_t::DAIKIN, strToDecodeType("DAIKIN"));
ASSERT_TRUE(hasACState(decode_type_t::DAIKIN));
ASSERT_EQ("DAIKIN2", typeToString(decode_type_t::DAIKIN2));
ASSERT_EQ(decode_type_t::DAIKIN2, strToDecodeType("DAIKIN2"));
ASSERT_TRUE(hasACState(decode_type_t::DAIKIN2));
ASSERT_EQ("DAIKIN216", typeToString(decode_type_t::DAIKIN216));
ASSERT_EQ(decode_type_t::DAIKIN216, strToDecodeType("DAIKIN216"));
ASSERT_TRUE(hasACState(decode_type_t::DAIKIN216));
}
// https://github.com/markszabo/IRremoteESP8266/issues/582#issuecomment-453863879
TEST(TestDecodeDaikin2, Issue582DeepDecodeExample) {
IRDaikin2 ac(0);
const uint8_t state[kDaikin2StateLength] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x30, 0x42, 0xF0, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xCE, 0xA3,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x09, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x92, 0x60, 0xFA};
ac.setRaw(state);
ASSERT_TRUE(ac.getMold());
ASSERT_TRUE(ac.getEye());
ASSERT_TRUE(ac.getPurify());
EXPECT_EQ(
"Power: On, Mode: 0 (AUTO), Temp: 19C, Fan: 10 (Auto), "
"Swing (V): 14 (Auto), Swing (H): 190 (Auto), Clock: 9:20, On Time: Off, "
"Off Time: Off, Sleep Time: Off, Beep: 3 (Off), Light: 3 (Off), "
"Mold: On, Clean: On, Fresh Air: Off, Eye: On, Eye Auto: Off, "
"Quiet: Off, Powerful: Off, Purify: On, Econo: Off",
ac.toString());
}
// https://docs.google.com/spreadsheets/d/1f8EGfIbBUo2B-CzUFdrgKQprWakoYNKM80IKZN4KXQE/edit?ts=5c317775#gid=1023395743
TEST(TestDecodeDaikin2, Issue582PowerfulEconoFix) {
IRDaikin2 ac(0);
const uint8_t PowerfulOn[39] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x3A, 0x43, 0xF0, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xCE, 0xAE,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x39, 0x28, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x01, 0x00, 0xC1, 0x90, 0x60, 0x2B};
const uint8_t PowerfulOff[39] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x3A, 0x43, 0xF0, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xCE, 0xAE,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x39, 0x28, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x90, 0x60, 0x2A};
ac.setRaw(PowerfulOn);
ASSERT_TRUE(ac.getPowerful());
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 20C, Fan: 10 (Auto), "
"Swing (V): 14 (Auto), Swing (H): 190 (Auto), Clock: 13:46, "
"On Time: Off, Off Time: Off, Sleep Time: Off, Beep: 3 (Off), "
"Light: 3 (Off), Mold: On, Clean: On, Fresh Air: Off, Eye: Off, "
"Eye Auto: Off, Quiet: Off, Powerful: On, Purify: On, Econo: Off",
ac.toString());
ac.setRaw(PowerfulOff);
ASSERT_FALSE(ac.getPowerful());
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 20C, Fan: 10 (Auto), "
"Swing (V): 14 (Auto), Swing (H): 190 (Auto), Clock: 13:46, "
"On Time: Off, Off Time: Off, Sleep Time: Off, Beep: 3 (Off), "
"Light: 3 (Off), Mold: On, Clean: On, Fresh Air: Off, Eye: Off, "
"Eye Auto: Off, Quiet: Off, Powerful: Off, Purify: On, Econo: Off",
ac.toString());
const uint8_t EconoOn[39] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x3B, 0x43, 0xF0, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xCE, 0xAF,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x39, 0x28, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x94, 0x60, 0x2E};
const uint8_t EconoOff[39] = {
0x11, 0xDA, 0x27, 0x00, 0x01, 0x3B, 0x43, 0xF0, 0x28, 0x0C,
0x80, 0x04, 0xB0, 0x16, 0x24, 0x00, 0x00, 0xBE, 0xCE, 0xAF,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x39, 0x28, 0x00, 0xA0, 0x00,
0x00, 0x06, 0x60, 0x00, 0x00, 0xC1, 0x90, 0x60, 0x2A};
ac.setRaw(EconoOn);
ASSERT_TRUE(ac.getEcono());
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 20C, Fan: 10 (Auto), "
"Swing (V): 14 (Auto), Swing (H): 190 (Auto), Clock: 13:47, "
"On Time: Off, Off Time: Off, Sleep Time: Off, Beep: 3 (Off), "
"Light: 3 (Off), Mold: On, Clean: On, Fresh Air: Off, Eye: Off, "
"Eye Auto: Off, Quiet: Off, Powerful: Off, Purify: On, Econo: On",
ac.toString());
ac.setRaw(EconoOff);
ASSERT_FALSE(ac.getEcono());
EXPECT_EQ(
"Power: On, Mode: 3 (COOL), Temp: 20C, Fan: 10 (Auto), "
"Swing (V): 14 (Auto), Swing (H): 190 (Auto), Clock: 13:47, "
"On Time: Off, Off Time: Off, Sleep Time: Off, Beep: 3 (Off), "
"Light: 3 (Off), Mold: On, Clean: On, Fresh Air: Off, Eye: Off, "
"Eye Auto: Off, Quiet: Off, Powerful: Off, Purify: On, Econo: Off",
ac.toString());
}
// Tests for IRDaikin216 class.
TEST(TestDaikin216Class, Power) {
IRDaikin216 ac(0);
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(TestDaikin216Class, Temperature) {
IRDaikin216 ac(0);
ac.begin();
ac.setTemp(0);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(255);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(kDaikinMaxTemp);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp - 1);
EXPECT_EQ(kDaikinMinTemp, ac.getTemp());
ac.setTemp(kDaikinMaxTemp + 1);
EXPECT_EQ(kDaikinMaxTemp, ac.getTemp());
ac.setTemp(kDaikinMinTemp + 1);
EXPECT_EQ(kDaikinMinTemp + 1, ac.getTemp());
ac.setTemp(21);
EXPECT_EQ(21, ac.getTemp());
ac.setTemp(25);
EXPECT_EQ(25, ac.getTemp());
ac.setTemp(29);
EXPECT_EQ(29, ac.getTemp());
}
TEST(TestDaikin216Class, OperatingMode) {
IRDaikin216 ac(0);
ac.begin();
ac.setMode(kDaikinAuto);
EXPECT_EQ(kDaikinAuto, ac.getMode());
ac.setMode(kDaikinCool);
EXPECT_EQ(kDaikinCool, ac.getMode());
ac.setMode(kDaikinHeat);
EXPECT_EQ(kDaikinHeat, ac.getMode());
ac.setMode(kDaikinDry);
EXPECT_EQ(kDaikinDry, ac.getMode());
ac.setMode(kDaikinFan);
EXPECT_EQ(kDaikinFan, ac.getMode());
ac.setMode(kDaikinFan + 1);
EXPECT_EQ(kDaikinAuto, ac.getMode());
ac.setMode(kDaikinAuto + 1);
EXPECT_EQ(kDaikinAuto, ac.getMode());
ac.setMode(255);
EXPECT_EQ(kDaikinAuto, ac.getMode());
}
TEST(TestDaikin216Class, VaneSwing) {
IRDaikin216 ac(0);
ac.begin();
ac.setSwingHorizontal(true);
ac.setSwingVertical(false);
ac.setSwingHorizontal(true);
EXPECT_TRUE(ac.getSwingHorizontal());
EXPECT_FALSE(ac.getSwingVertical());
ac.setSwingVertical(true);
EXPECT_TRUE(ac.getSwingHorizontal());
EXPECT_TRUE(ac.getSwingVertical());
ac.setSwingHorizontal(false);
EXPECT_FALSE(ac.getSwingHorizontal());
EXPECT_TRUE(ac.getSwingVertical());
ac.setSwingVertical(false);
EXPECT_FALSE(ac.getSwingHorizontal());
EXPECT_FALSE(ac.getSwingVertical());
}
TEST(TestDaikin216Class, FanSpeed) {
IRDaikin216 ac(0);
ac.begin();
// Unexpected value should default to Auto.
ac.setFan(0);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
// Unexpected value should default to Auto.
ac.setFan(255);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanMax);
EXPECT_EQ(kDaikinFanMax, ac.getFan());
// Beyond Max should default to Auto.
ac.setFan(kDaikinFanMax + 1);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanMax - 1);
EXPECT_EQ(kDaikinFanMax - 1, ac.getFan());
ac.setFan(kDaikinFanMin);
EXPECT_EQ(kDaikinFanMin, ac.getFan());
ac.setFan(kDaikinFanMin + 1);
EXPECT_EQ(kDaikinFanMin + 1, ac.getFan());
// Beyond Min should default to Auto.
ac.setFan(kDaikinFanMin - 1);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(3);
EXPECT_EQ(3, ac.getFan());
ac.setFan(kDaikinFanAuto);
EXPECT_EQ(kDaikinFanAuto, ac.getFan());
ac.setFan(kDaikinFanQuiet);
EXPECT_EQ(kDaikinFanQuiet, ac.getFan());
}
TEST(TestDaikin216Class, Quiet) {
IRDaikin216 ac(0);
ac.begin();
ac.setQuiet(true);
EXPECT_TRUE(ac.getQuiet());
ac.setQuiet(false);
EXPECT_FALSE(ac.getQuiet());
ac.setQuiet(true);
EXPECT_TRUE(ac.getQuiet());
}
TEST(TestDaikin216Class, ExampleStates) {
IRDaikin216 ac(0);
ac.begin();
// https://github.com/markszabo/IRremoteESP8266/pull/690#issuecomment-487770194
uint8_t state[kDaikin216StateLength] = {
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x02,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x21, 0xC0, 0x00, 0xA0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0x53};
ac.setRaw(state);
EXPECT_EQ(
"Power: On, Mode: 2 (DRY), Temp: 32C, Fan: 10 (AUTO), "
"Swing (Horizontal): Off, Swing (Vertical): Off, Quiet: Off",
ac.toString());
}
TEST(TestDaikin216Class, ReconstructKnownState) {
IRDaikin216 ac(0);
ac.begin();
// https://github.com/markszabo/IRremoteESP8266/issues/689#issue-438086949
uint8_t expectedState[kDaikin216StateLength] = {
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x02,
0x11, 0xDA, 0x27, 0x00, 0x00, 0x00, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0x98};
ac.setPower(false);
ac.setMode(kDaikinAuto);
ac.setTemp(19);
ac.setFan(kDaikinFanAuto);
ac.setSwingHorizontal(false);
ac.setSwingVertical(false);
ac.setQuiet(false);
EXPECT_EQ(
"Power: Off, Mode: 0 (AUTO), Temp: 19C, Fan: 10 (AUTO), "
"Swing (Horizontal): Off, Swing (Vertical): Off, Quiet: Off",
ac.toString());
EXPECT_STATE_EQ(expectedState, ac.getRaw(), kDaikin216Bits);
}
// https://github.com/markszabo/IRremoteESP8266/issues/689
TEST(TestDecodeDaikin216, RealExample) {
IRsendTest irsend(0);
IRrecv irrecv(0);
// https://github.com/markszabo/IRremoteESP8266/issues/689#issue-438086949
uint16_t rawData[439] = {
3402, 1770, 382, 1340, 382, 480, 382, 478, 382, 480, 380, 1342, 382, 478,
356, 504, 382, 480, 380, 478, 384, 1342, 380, 480, 380, 1342, 382, 1342,
382, 478, 382, 1340, 382, 1340, 384, 1340, 382, 1342, 382, 1340, 380, 480,
382, 480, 382, 1296, 426, 480, 380, 480, 382, 480, 380, 480, 382, 480,
382, 478, 382, 1342, 382, 1342, 382, 1340, 356, 1368, 382, 478, 382, 480,
382, 478, 380, 480, 382, 480, 382, 480, 382, 478, 382, 480, 382, 478, 358,
504, 382, 480, 380, 480, 382, 480, 382, 480, 380, 480, 382, 478, 382, 480,
382, 478, 382, 480, 354, 506, 354, 506, 380, 480, 382, 480, 382, 480, 382,
480, 380, 1342, 382, 480, 382, 480, 382, 478, 382, 478, 382, 478, 384,
478, 382, 29652, 3426, 1772, 382, 1340, 382, 480, 380, 478, 382, 480, 382,
1342, 382, 480, 382, 480, 382, 478, 356, 506, 382, 1342, 380, 480, 382,
1340, 382, 1340, 382, 478, 356, 1366, 382, 1340, 384, 1340, 382, 1340,
382, 1342, 382, 478, 382, 478, 382, 1340, 382, 478, 382, 478, 382, 478,
382, 480, 382, 480, 384, 478, 358, 504, 382, 478, 382, 480, 382, 478, 382,
480, 382, 480, 382, 478, 382, 480, 382, 478, 382, 478, 382, 478, 382, 478,
384, 478, 382, 478, 360, 500, 358, 504, 382, 478, 382, 480, 382, 480, 382,
478, 382, 478, 382, 1340, 382, 1342, 382, 480, 380, 480, 382, 1342, 382,
478, 382, 480, 356, 506, 382, 478, 382, 480, 382, 480, 356, 506, 382, 478,
382, 480, 382, 478, 382, 480, 382, 478, 382, 480, 380, 480, 380, 480, 382,
1342, 382, 478, 382, 1342, 382, 480, 382, 480, 382, 478, 382, 478, 382,
480, 382, 478, 382, 480, 356, 504, 384, 478, 382, 480, 382, 480, 380, 480,
382, 478, 382, 480, 382, 480, 382, 478, 356, 504, 384, 478, 380, 480, 382,
480, 382, 480, 382, 478, 356, 506, 382, 478, 382, 480, 380, 480, 382, 478,
382, 480, 382, 478, 382, 480, 358, 504, 382, 478, 382, 478, 356, 504, 382,
478, 382, 480, 382, 478, 382, 478, 382, 478, 382, 480, 380, 480, 382, 480,
380, 480, 356, 506, 356, 504, 382, 480, 382, 478, 382, 478, 382, 478, 382,
478, 382, 480, 382, 478, 382, 480, 382, 480, 382, 1340, 382, 1342, 382,
478, 384, 478, 382, 478, 382, 480, 380, 480, 382, 478, 382, 480, 356, 506,
382, 478, 382, 480, 382, 478, 356, 506, 380, 480, 382, 478, 382, 478, 382,
478, 382, 480, 382, 480, 380, 480, 382, 1342, 382, 1340, 382, 480, 356,
504, 382, 1342, 382}; // UNKNOWN E0E32232
uint8_t expectedState[kDaikin216StateLength] = {
// 8 bytes
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x02,
// 19 bytes
0x11, 0xDA, 0x27, 0x00, 0x00, 0x00, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0x98};
irsend.begin();
irsend.reset();
irsend.sendRaw(rawData, 439, 38000);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
ASSERT_EQ(DAIKIN216, irsend.capture.decode_type);
ASSERT_EQ(kDaikin216Bits, irsend.capture.bits);
EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits);
IRDaikin216 ac(0);
ac.setRaw(irsend.capture.state);
EXPECT_EQ(
"Power: Off, Mode: 0 (AUTO), Temp: 19C, Fan: 10 (AUTO), "
"Swing (Horizontal): Off, Swing (Vertical): Off, Quiet: Off",
ac.toString());
}
// https://github.com/markszabo/IRremoteESP8266/issues/689
TEST(TestDecodeDaikin216, SyntheticExample) {
IRsendTest irsend(0);
IRrecv irrecv(0);
// https://github.com/markszabo/IRremoteESP8266/issues/689#issue-438086949
uint8_t expectedState[kDaikin216StateLength] = {
// 8 bytes
0x11, 0xDA, 0x27, 0xF0, 0x00, 0x00, 0x00, 0x02,
// 19 bytes
0x11, 0xDA, 0x27, 0x00, 0x00, 0x00, 0x26, 0x00, 0xA0, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x00, 0x00, 0x98};
irsend.begin();
irsend.reset();
irsend.sendDaikin216(expectedState);
irsend.makeDecodeResult();
ASSERT_TRUE(irrecv.decode(&irsend.capture));
ASSERT_EQ(DAIKIN216, irsend.capture.decode_type);
ASSERT_EQ(kDaikin216Bits, irsend.capture.bits);
EXPECT_STATE_EQ(expectedState, irsend.capture.state, irsend.capture.bits);
}