Tasmota/lib/IRremoteESP8266-2.6.4/test/ir_Kelvinator_test.cpp

559 lines
18 KiB
C++

// Copyright 2017 David Conran
#include "ir_Kelvinator.h"
#include "IRrecv.h"
#include "IRrecv_test.h"
#include "IRremoteESP8266.h"
#include "IRsend.h"
#include "IRsend_test.h"
#include "gtest/gtest.h"
// Tests for sendKelvinator().
// Test sending typical data only.
TEST(TestSendKelvinator, SendDataOnly) {
IRsendTest irsend(4);
irsend.begin();
uint8_t kelv_code[kKelvinatorStateLength] = {
0x19, 0x0B, 0x80, 0x50, 0x00, 0x00, 0x00, 0xE0,
0x19, 0x0B, 0x80, 0x70, 0x00, 0x00, 0x10, 0xf0};
irsend.reset();
irsend.sendKelvinator(kelv_code);
EXPECT_EQ(
"f38000d50"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530"
"m680s39950"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s1530"
"m680s39950",
irsend.outputStr());
}
// Test sending with repeats.
TEST(TestSendKelvinator, SendWithRepeats) {
IRsendTest irsend(4);
irsend.begin();
irsend.reset();
uint8_t kelv_code[kKelvinatorStateLength] = {
0x19, 0x0B, 0x80, 0x50, 0x00, 0x00, 0x00, 0xE0,
0x19, 0x0B, 0x80, 0x70, 0x00, 0x00, 0x10, 0xf0};
irsend.reset();
irsend.sendKelvinator(kelv_code, kKelvinatorStateLength, 1);
EXPECT_EQ(
"f38000d50"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530"
"m680s39950"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s1530"
"m680s39950"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530"
"m680s39950"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s1530"
"m680s39950",
irsend.outputStr());
}
// Test sending atypical sizes.
TEST(TestSendKelvinator, SendUnexpectedSizes) {
IRsendTest irsend(4);
irsend.begin();
uint8_t kelv_short_code[15] = {0x19, 0x0B, 0x80, 0x50, 0x00, 0x00, 0x00, 0xE0,
0x19, 0x0B, 0x80, 0x70, 0x00, 0x00, 0x10};
uint8_t kelv_long_code[17] = {0x19, 0x0B, 0x80, 0x50, 0x00, 0x00,
0x00, 0xE0, 0x19, 0x0B, 0x80, 0x70,
0x00, 0x00, 0x10, 0xf0, 0x00};
irsend.reset();
irsend.sendKelvinator(kelv_short_code, 15);
ASSERT_EQ("", irsend.outputStr());
irsend.reset();
// Shouldn't be different from the SendDataOnly. We just don't send the
// extra data.
irsend.sendKelvinator(kelv_long_code, 17);
ASSERT_EQ(
"f38000d50"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530"
"m680s39950"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s510m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s1530"
"m680s39950",
irsend.outputStr());
}
// Tests for IRKelvinatorAC class.
TEST(TestKelvinatorClass, Power) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.on();
EXPECT_TRUE(irkelv.getPower());
irkelv.off();
EXPECT_FALSE(irkelv.getPower());
irkelv.setPower(true);
EXPECT_TRUE(irkelv.getPower());
irkelv.setPower(false);
EXPECT_FALSE(irkelv.getPower());
}
TEST(TestKelvinatorClass, Temperature) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setTemp(0);
EXPECT_EQ(kKelvinatorMinTemp, irkelv.getTemp());
irkelv.setTemp(255);
EXPECT_EQ(kKelvinatorMaxTemp, irkelv.getTemp());
irkelv.setTemp(kKelvinatorMinTemp);
EXPECT_EQ(kKelvinatorMinTemp, irkelv.getTemp());
irkelv.setTemp(kKelvinatorMaxTemp);
EXPECT_EQ(kKelvinatorMaxTemp, irkelv.getTemp());
irkelv.setTemp(kKelvinatorMinTemp - 1);
EXPECT_EQ(kKelvinatorMinTemp, irkelv.getTemp());
irkelv.setTemp(kKelvinatorMaxTemp + 1);
EXPECT_EQ(kKelvinatorMaxTemp, irkelv.getTemp());
irkelv.setTemp(17);
EXPECT_EQ(17, irkelv.getTemp());
irkelv.setTemp(21);
EXPECT_EQ(21, irkelv.getTemp());
irkelv.setTemp(25);
EXPECT_EQ(25, irkelv.getTemp());
irkelv.setTemp(29);
EXPECT_EQ(29, irkelv.getTemp());
}
TEST(TestKelvinatorClass, OperatingMode) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setTemp(24);
irkelv.setMode(kKelvinatorAuto);
EXPECT_EQ(kKelvinatorAuto, irkelv.getMode());
EXPECT_EQ(kKelvinatorAutoTemp, irkelv.getTemp());
irkelv.setMode(kKelvinatorCool);
EXPECT_EQ(kKelvinatorCool, irkelv.getMode());
irkelv.setMode(kKelvinatorHeat);
EXPECT_EQ(kKelvinatorHeat, irkelv.getMode());
irkelv.setTemp(24);
irkelv.setMode(kKelvinatorDry);
EXPECT_EQ(kKelvinatorDry, irkelv.getMode());
EXPECT_EQ(kKelvinatorAutoTemp, irkelv.getTemp());
irkelv.setMode(kKelvinatorFan);
EXPECT_EQ(kKelvinatorFan, irkelv.getMode());
irkelv.setMode(kKelvinatorHeat + 1);
EXPECT_EQ(kKelvinatorAuto, irkelv.getMode());
irkelv.setMode(255);
EXPECT_EQ(kKelvinatorAuto, irkelv.getMode());
}
TEST(TestKelvinatorClass, VaneSwing) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setSwingHorizontal(true);
irkelv.setSwingVertical(false);
irkelv.setSwingHorizontal(true);
EXPECT_TRUE(irkelv.getSwingHorizontal());
EXPECT_FALSE(irkelv.getSwingVertical());
irkelv.setSwingVertical(true);
EXPECT_TRUE(irkelv.getSwingHorizontal());
EXPECT_TRUE(irkelv.getSwingVertical());
irkelv.setSwingHorizontal(false);
EXPECT_FALSE(irkelv.getSwingHorizontal());
EXPECT_TRUE(irkelv.getSwingVertical());
irkelv.setSwingVertical(false);
EXPECT_FALSE(irkelv.getSwingHorizontal());
EXPECT_FALSE(irkelv.getSwingVertical());
}
TEST(TestKelvinatorClass, QuietMode) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setQuiet(true);
EXPECT_TRUE(irkelv.getQuiet());
irkelv.setQuiet(false);
EXPECT_FALSE(irkelv.getQuiet());
irkelv.setQuiet(true);
EXPECT_TRUE(irkelv.getQuiet());
}
TEST(TestKelvinatorClass, IonFilter) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setIonFilter(true);
EXPECT_TRUE(irkelv.getIonFilter());
irkelv.setIonFilter(false);
EXPECT_FALSE(irkelv.getIonFilter());
irkelv.setIonFilter(true);
EXPECT_TRUE(irkelv.getIonFilter());
}
TEST(TestKelvinatorClass, Light) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setLight(true);
EXPECT_TRUE(irkelv.getLight());
irkelv.setLight(false);
EXPECT_FALSE(irkelv.getLight());
irkelv.setLight(true);
EXPECT_TRUE(irkelv.getLight());
}
TEST(TestKelvinatorClass, XFan) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setXFan(true);
EXPECT_TRUE(irkelv.getXFan());
irkelv.setXFan(false);
EXPECT_FALSE(irkelv.getXFan());
irkelv.setXFan(true);
EXPECT_TRUE(irkelv.getXFan());
}
TEST(TestKelvinatorClass, TurboFan) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setTurbo(true);
EXPECT_TRUE(irkelv.getTurbo());
irkelv.setTurbo(false);
EXPECT_FALSE(irkelv.getTurbo());
irkelv.setFan(2);
irkelv.setTurbo(true);
EXPECT_TRUE(irkelv.getTurbo());
// Turbo mode is turned off if the temperature is changed.
irkelv.setFan(3);
EXPECT_FALSE(irkelv.getTurbo());
// But only when it is changed, not set to the same value again.
irkelv.setTurbo(true);
irkelv.setFan(3);
EXPECT_TRUE(irkelv.getTurbo());
}
TEST(TestKelvinatorClass, FanSpeed) {
IRKelvinatorAC irkelv(0);
irkelv.begin();
irkelv.setFan(0);
EXPECT_EQ(0, irkelv.getFan());
irkelv.setFan(255);
EXPECT_EQ(kKelvinatorFanMax, irkelv.getFan());
irkelv.setFan(kKelvinatorFanMax);
EXPECT_EQ(kKelvinatorFanMax, irkelv.getFan());
irkelv.setFan(kKelvinatorFanMax + 1);
EXPECT_EQ(kKelvinatorFanMax, irkelv.getFan());
irkelv.setFan(kKelvinatorFanMax - 1);
EXPECT_EQ(kKelvinatorFanMax - 1, irkelv.getFan());
irkelv.setFan(1);
EXPECT_EQ(1, irkelv.getFan());
irkelv.setFan(1);
EXPECT_EQ(1, irkelv.getFan());
irkelv.setFan(3);
EXPECT_EQ(3, irkelv.getFan());
}
TEST(TestKelvinatorClass, Checksums) {
uint8_t kelv_code[kKelvinatorStateLength] = {
0x19, 0x0B, 0x80, 0x50, 0x00, 0x00, 0x00, 0xE0,
0x19, 0x0B, 0x80, 0x70, 0x00, 0x00, 0x10, 0xf0};
EXPECT_TRUE(IRKelvinatorAC::validChecksum(kelv_code));
// Change the array so the checksum is invalid.
kelv_code[0] ^= 0xFF;
EXPECT_FALSE(IRKelvinatorAC::validChecksum(kelv_code));
// Restore the previous change, and change another byte.
kelv_code[0] ^= 0xFF;
kelv_code[4] ^= 0xFF;
EXPECT_FALSE(IRKelvinatorAC::validChecksum(kelv_code));
kelv_code[4] ^= 0xFF;
// Change something in the 2nd block.
kelv_code[10] ^= 0xFF;
EXPECT_FALSE(IRKelvinatorAC::validChecksum(kelv_code));
kelv_code[10] ^= 0xFF;
EXPECT_TRUE(IRKelvinatorAC::validChecksum(kelv_code));
}
TEST(TestKelvinatorClass, SetAndGetRaw) {
IRKelvinatorAC irkelv(0);
uint8_t initialState[kKelvinatorStateLength] = {
0x00, 0x00, 0x00, 0x50, 0x00, 0x00, 0x00, 0xA0,
0x00, 0x00, 0x00, 0x70, 0x00, 0x00, 0x00, 0xA0};
uint8_t expectedState[kKelvinatorStateLength] = {
0x08, 0x05, 0x20, 0x50, 0x00, 0x00, 0x00, 0x70,
0x08, 0x05, 0x20, 0x70, 0x00, 0x00, 0x00, 0x70};
EXPECT_STATE_EQ(initialState, irkelv.getRaw(), kKelvinatorBits);
// toggle the power state.
irkelv.setPower(!irkelv.getPower());
irkelv.setTemp(21);
irkelv.setLight(true);
EXPECT_STATE_EQ(expectedState, irkelv.getRaw(), kKelvinatorBits);
irkelv.setRaw(initialState);
EXPECT_STATE_EQ(initialState, irkelv.getRaw(), kKelvinatorBits);
}
TEST(TestKelvinatorClass, HumanReadable) {
IRKelvinatorAC irkelv(0);
EXPECT_EQ(
"Power: Off, Mode: 0 (AUTO), Temp: 16C, Fan: 0 (Auto), Turbo: Off, "
"Quiet: Off, XFan: Off, IonFilter: Off, Light: Off, "
"Swing (Horizontal): Off, Swing (Vertical): Off",
irkelv.toString());
irkelv.on();
irkelv.setMode(kKelvinatorCool);
irkelv.setTemp(25);
irkelv.setFan(kKelvinatorFanMax);
irkelv.setXFan(true);
irkelv.setIonFilter(true);
irkelv.setLight(true);
irkelv.setSwingHorizontal(true);
EXPECT_EQ(
"Power: On, Mode: 1 (COOL), Temp: 25C, Fan: 5 (High), Turbo: Off, "
"Quiet: Off, XFan: On, IonFilter: On, Light: On, "
"Swing (Horizontal): On, Swing (Vertical): Off",
irkelv.toString());
}
TEST(TestKelvinatorClass, MessageConstuction) {
IRKelvinatorAC irkelv(0);
IRsendTest irsend(4);
irkelv.begin();
irsend.begin();
irkelv.setFan(1);
irkelv.setMode(kKelvinatorCool);
irkelv.setTemp(27);
irkelv.setSwingVertical(false);
irkelv.setSwingHorizontal(true);
irkelv.setIonFilter(true);
irkelv.setQuiet(false);
irkelv.setLight(false);
irkelv.setPower(true);
irkelv.setTurbo(false);
irkelv.setXFan(true);
// Check everything for kicks.
EXPECT_EQ(1, irkelv.getFan());
EXPECT_EQ(kKelvinatorCool, irkelv.getMode());
EXPECT_EQ(27, irkelv.getTemp());
EXPECT_FALSE(irkelv.getSwingVertical());
EXPECT_TRUE(irkelv.getSwingHorizontal());
EXPECT_TRUE(irkelv.getIonFilter());
EXPECT_FALSE(irkelv.getQuiet());
EXPECT_FALSE(irkelv.getLight());
EXPECT_TRUE(irkelv.getPower());
EXPECT_FALSE(irkelv.getTurbo());
EXPECT_TRUE(irkelv.getXFan());
irsend.reset();
irsend.sendKelvinator(irkelv.getRaw());
EXPECT_EQ(
"f38000d50"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s1530m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s1530m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s1530"
"m680s39950"
"m9010s4505"
"m680s1530m680s510m680s510m680s1530m680s1530m680s510m680s1530m680s510"
"m680s1530m680s1530m680s510m680s1530m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s1530m680s1530"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s510"
"m680s510m680s1530m680s510"
"m680s19975"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s510m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s510m680s510m680s510"
"m680s510m680s510m680s510m680s510m680s1530m680s1530m680s1530m680s1530"
"m680s39950",
irsend.outputStr());
}
// Decode a synthetic Kelvinator message.
TEST(TestDecodeKelvinator, NormalSynthetic) {
IRsendTest irsend(4);
IRrecv irrecv(4);
irsend.begin();
uint8_t kelv_code[kKelvinatorStateLength] = {
0x19, 0x0B, 0x80, 0x50, 0x00, 0x00, 0x00, 0xE0,
0x19, 0x0B, 0x80, 0x70, 0x00, 0x00, 0x10, 0xf0};
irsend.reset();
irsend.sendKelvinator(kelv_code);
irsend.makeDecodeResult();
EXPECT_TRUE(irrecv.decode(&irsend.capture));
EXPECT_EQ(KELVINATOR, irsend.capture.decode_type);
ASSERT_EQ(kKelvinatorBits, irsend.capture.bits);
EXPECT_STATE_EQ(kelv_code, irsend.capture.state, kKelvinatorBits);
}
TEST(TestKelvinatorClass, toCommon) {
IRKelvinatorAC ac(0);
ac.setPower(true);
ac.setMode(kKelvinatorCool);
ac.setTemp(20);
ac.setFan(kKelvinatorFanMax);
ac.setIonFilter(true);
ac.setXFan(true);
ac.setQuiet(false);
ac.setTurbo(true);
ac.setLight(true);
ac.setSwingHorizontal(false);
ac.setSwingVertical(true);
// Now test it.
ASSERT_EQ(decode_type_t::KELVINATOR, ac.toCommon().protocol);
ASSERT_EQ(-1, ac.toCommon().model);
ASSERT_TRUE(ac.toCommon().power);
ASSERT_TRUE(ac.toCommon().celsius);
ASSERT_EQ(20, ac.toCommon().degrees);
ASSERT_TRUE(ac.toCommon().filter);
ASSERT_TRUE(ac.toCommon().clean);
ASSERT_FALSE(ac.toCommon().quiet);
ASSERT_TRUE(ac.toCommon().turbo);
ASSERT_TRUE(ac.toCommon().light);
ASSERT_EQ(stdAc::opmode_t::kCool, ac.toCommon().mode);
ASSERT_EQ(stdAc::fanspeed_t::kMax, ac.toCommon().fanspeed);
ASSERT_EQ(stdAc::swingv_t::kAuto, ac.toCommon().swingv);
ASSERT_EQ(stdAc::swingh_t::kOff, ac.toCommon().swingh);
// Unsupported.
ASSERT_FALSE(ac.toCommon().econo);
ASSERT_FALSE(ac.toCommon().beep);
ASSERT_EQ(-1, ac.toCommon().sleep);
ASSERT_EQ(-1, ac.toCommon().clock);
}