trunk/Arduino/libraries/IRremote/examples/IRtest/IRtest.ino

/*
 * IRremote: IRtest unittest
 * Version 0.1 July, 2009
 * Copyright 2009 Ken Shirriff
 * http://arcfn.com
 *
 * Note: to run these tests, edit IRremote/IRremote.h to add "#define TEST"
 * You must then recompile the library by removing IRremote.o and restarting
 * the arduino IDE.
 */

#include <IRremote.h>

IRrecv IrReceiver(0);

// Dumps out the decode_results structure.
// Call this after IRrecv::decode()
// void * to work around compiler issue
//void dump(void *v) {
//  decode_results *results = (decode_results *)v
void dump() {
    int count = IrReceiver.results.rawlen;

    if (IrReceiver.results.decode_type == UNKNOWN) {
        Serial.println("Could not decode message");
    } else {
        IrReceiver.printResultShort(&Serial);

        Serial.print(" (");
        Serial.print(IrReceiver.results.bits, DEC);
        Serial.println(" bits)");
    }
    Serial.print("Raw (");
    Serial.print(count, DEC);
    Serial.print("): ");

    for (int i = 0; i < count; i++) {
        if ((i % 2) == 1) {
            Serial.print(IrReceiver.results.rawbuf[i] * MICROS_PER_TICK, DEC);
        } else {
            Serial.print(-(int) IrReceiver.results.rawbuf[i] * MICROS_PER_TICK, DEC);
        }
        Serial.print(" ");
    }
    Serial.println("");
}

class IRsendDummy: public IRsend {
public:
    // For testing, just log the marks/spaces
#define SENDLOG_LEN 128
    int sendlog[SENDLOG_LEN];
    int sendlogcnt = 0;
    IRsendDummy() :
            IRsend() {
    }
    void reset() {
        sendlogcnt = 0;
    }
    void mark(int time) {
        sendlog[sendlogcnt] = time;
        if (sendlogcnt < SENDLOG_LEN)
            sendlogcnt++;
    }
    void space(int time) {
        sendlog[sendlogcnt] = -time;
        if (sendlogcnt < SENDLOG_LEN)
            sendlogcnt++;
    }
    // Copies the dummy buf into the interrupt buf
    void useDummyBuf() {
        int last = SPACE;
        irparams.rcvstate = IR_REC_STATE_STOP;
        irparams.rawlen = 1; // Skip the gap
        for (int i = 0; i < sendlogcnt; i++) {
            if (sendlog[i] < 0) {
                if (last == MARK) {
                    // New space
                    irparams.rawbuf[irparams.rawlen++] = (-sendlog[i] - MARK_EXCESS_MICROS) / MICROS_PER_TICK;
                    last = SPACE;
                } else {
                    // More space
                    irparams.rawbuf[irparams.rawlen - 1] += -sendlog[i] / MICROS_PER_TICK;
                }
            } else if (sendlog[i] > 0) {
                if (last == SPACE) {
                    // New mark
                    irparams.rawbuf[irparams.rawlen++] = (sendlog[i] + MARK_EXCESS_MICROS) / MICROS_PER_TICK;
                    last = MARK;
                } else {
                    // More mark
                    irparams.rawbuf[irparams.rawlen - 1] += sendlog[i] / MICROS_PER_TICK;
                }
            }
        }
        if (irparams.rawlen % 2) {
            irparams.rawlen--; // Remove trailing space
        }
    }
};

IRsendDummy irsenddummy;

void verify(unsigned long val, int bits, int type) {
    irsenddummy.useDummyBuf();
    IrReceiver.decode();
    Serial.print("Testing ");
    Serial.print(val, HEX);
    if (IrReceiver.results.value == val && IrReceiver.results.bits == bits && IrReceiver.results.decode_type == type) {
        Serial.println(": OK");
    } else {
        Serial.println(": Error");
        dump();
    }
}

void testNEC(unsigned long val, int bits) {
    irsenddummy.reset();
    irsenddummy.sendNEC(val, bits);
    verify(val, bits, NEC);
}
void testSony(unsigned long val, int bits) {
    irsenddummy.reset();
    irsenddummy.sendSony(val, bits);
    verify(val, bits, SONY);
}
void testRC5(unsigned long val, int bits) {
    irsenddummy.reset();
    irsenddummy.sendRC5(val, bits);
    verify(val, bits, RC5);
}
void testRC6(unsigned long val, int bits) {
    irsenddummy.reset();
    irsenddummy.sendRC6(val, bits);
    verify(val, bits, RC6);
}

void test() {
    Serial.println("NEC tests");
    testNEC(0x00000000, 32);
    testNEC(0xffffffff, 32);
    testNEC(0xaaaaaaaa, 32);
    testNEC(0x55555555, 32);
    testNEC(0x12345678, 32);
    Serial.println("Sony tests");
    testSony(0xfff, 12);
    testSony(0x000, 12);
    testSony(0xaaa, 12);
    testSony(0x555, 12);
    testSony(0x123, 12);
    Serial.println("RC5 tests");
    testRC5(0xfff, 12);
    testRC5(0x000, 12);
    testRC5(0xaaa, 12);
    testRC5(0x555, 12);
    testRC5(0x123, 12);
    Serial.println("RC6 tests");
    testRC6(0xfffff, 20);
    testRC6(0x00000, 20);
    testRC6(0xaaaaa, 20);
    testRC6(0x55555, 20);
    testRC6(0x12345, 20);
}

void setup() {
    Serial.begin(115200);
    test();
}

void loop() {
}
daily_automated 2023-03-17 11:59:21 +00:00			`/*`
			`* IRremote: IRtest unittest`
			`* Version 0.1 July, 2009`
			`* Copyright 2009 Ken Shirriff`
			`* http://arcfn.com`
			`*`
			`* Note: to run these tests, edit IRremote/IRremote.h to add "#define TEST"`
			`* You must then recompile the library by removing IRremote.o and restarting`
			`* the arduino IDE.`
			`*/`

			`#include <IRremote.h>`

			`IRrecv IrReceiver(0);`

			`// Dumps out the decode_results structure.`
			`// Call this after IRrecv::decode()`
			`// void * to work around compiler issue`
			`//void dump(void *v) {`
			`// decode_results results = (decode_results )v`
			`void dump() {`
			`int count = IrReceiver.results.rawlen;`

			`if (IrReceiver.results.decode_type == UNKNOWN) {`
			`Serial.println("Could not decode message");`
			`} else {`
			`IrReceiver.printResultShort(&Serial);`

			`Serial.print(" (");`
			`Serial.print(IrReceiver.results.bits, DEC);`
			`Serial.println(" bits)");`
			`}`
			`Serial.print("Raw (");`
			`Serial.print(count, DEC);`
			`Serial.print("): ");`

			`for (int i = 0; i < count; i++) {`
			`if ((i % 2) == 1) {`
			`Serial.print(IrReceiver.results.rawbuf[i] * MICROS_PER_TICK, DEC);`
			`} else {`
			`Serial.print(-(int) IrReceiver.results.rawbuf[i] * MICROS_PER_TICK, DEC);`
			`}`
			`Serial.print(" ");`
			`}`
			`Serial.println("");`
			`}`

			`class IRsendDummy: public IRsend {`
			`public:`
			`// For testing, just log the marks/spaces`
			`#define SENDLOG_LEN 128`
			`int sendlog[SENDLOG_LEN];`
			`int sendlogcnt = 0;`
			`IRsendDummy() :`
			`IRsend() {`
			`}`
			`void reset() {`
			`sendlogcnt = 0;`
			`}`
			`void mark(int time) {`
			`sendlog[sendlogcnt] = time;`
			`if (sendlogcnt < SENDLOG_LEN)`
			`sendlogcnt++;`
			`}`
			`void space(int time) {`
			`sendlog[sendlogcnt] = -time;`
			`if (sendlogcnt < SENDLOG_LEN)`
			`sendlogcnt++;`
			`}`
			`// Copies the dummy buf into the interrupt buf`
			`void useDummyBuf() {`
			`int last = SPACE;`
			`irparams.rcvstate = IR_REC_STATE_STOP;`
			`irparams.rawlen = 1; // Skip the gap`
			`for (int i = 0; i < sendlogcnt; i++) {`
			`if (sendlog[i] < 0) {`
			`if (last == MARK) {`
			`// New space`
			`irparams.rawbuf[irparams.rawlen++] = (-sendlog[i] - MARK_EXCESS_MICROS) / MICROS_PER_TICK;`
			`last = SPACE;`
			`} else {`
			`// More space`
			`irparams.rawbuf[irparams.rawlen - 1] += -sendlog[i] / MICROS_PER_TICK;`
			`}`
			`} else if (sendlog[i] > 0) {`
			`if (last == SPACE) {`
			`// New mark`
			`irparams.rawbuf[irparams.rawlen++] = (sendlog[i] + MARK_EXCESS_MICROS) / MICROS_PER_TICK;`
			`last = MARK;`
			`} else {`
			`// More mark`
			`irparams.rawbuf[irparams.rawlen - 1] += sendlog[i] / MICROS_PER_TICK;`
			`}`
			`}`
			`}`
			`if (irparams.rawlen % 2) {`
			`irparams.rawlen--; // Remove trailing space`
			`}`
			`}`
			`};`

			`IRsendDummy irsenddummy;`

			`void verify(unsigned long val, int bits, int type) {`
			`irsenddummy.useDummyBuf();`
			`IrReceiver.decode();`
			`Serial.print("Testing ");`
			`Serial.print(val, HEX);`
			`if (IrReceiver.results.value == val && IrReceiver.results.bits == bits && IrReceiver.results.decode_type == type) {`
			`Serial.println(": OK");`
			`} else {`
			`Serial.println(": Error");`
			`dump();`
			`}`
			`}`

			`void testNEC(unsigned long val, int bits) {`
			`irsenddummy.reset();`
			`irsenddummy.sendNEC(val, bits);`
			`verify(val, bits, NEC);`
			`}`
			`void testSony(unsigned long val, int bits) {`
			`irsenddummy.reset();`
			`irsenddummy.sendSony(val, bits);`
			`verify(val, bits, SONY);`
			`}`
			`void testRC5(unsigned long val, int bits) {`
			`irsenddummy.reset();`
			`irsenddummy.sendRC5(val, bits);`
			`verify(val, bits, RC5);`
			`}`
			`void testRC6(unsigned long val, int bits) {`
			`irsenddummy.reset();`
			`irsenddummy.sendRC6(val, bits);`
			`verify(val, bits, RC6);`
			`}`

			`void test() {`
			`Serial.println("NEC tests");`
			`testNEC(0x00000000, 32);`
			`testNEC(0xffffffff, 32);`
			`testNEC(0xaaaaaaaa, 32);`
			`testNEC(0x55555555, 32);`
			`testNEC(0x12345678, 32);`
			`Serial.println("Sony tests");`
			`testSony(0xfff, 12);`
			`testSony(0x000, 12);`
			`testSony(0xaaa, 12);`
			`testSony(0x555, 12);`
			`testSony(0x123, 12);`
			`Serial.println("RC5 tests");`
			`testRC5(0xfff, 12);`
			`testRC5(0x000, 12);`
			`testRC5(0xaaa, 12);`
			`testRC5(0x555, 12);`
			`testRC5(0x123, 12);`
			`Serial.println("RC6 tests");`
			`testRC6(0xfffff, 20);`
			`testRC6(0x00000, 20);`
			`testRC6(0xaaaaa, 20);`
			`testRC6(0x55555, 20);`
			`testRC6(0x12345, 20);`
			`}`

			`void setup() {`
			`Serial.begin(115200);`
			`test();`
			`}`

			`void loop() {`
			`}`