GY-63_MS5611/libraries/Set/examples/allTest/allTest.ino

397 lines
8.4 KiB
Arduino
Raw Normal View History

2014-11-18 13:28:12 -05:00
//
// FILE: allTest.ino
// AUTHOR: Rob Tillaart
2017-07-16 14:09:23 -04:00
// VERSION: 0.1.3
2014-11-18 13:28:12 -05:00
// PURPOSE: demo/test Set class
// DATE: 2014-11-16
// URL:
//
// Released to the public domain
//
#include "Set.h"
Set setA, setB;
volatile bool b;
void setup()
{
Serial.begin(115200);
Serial.print("Start set_demo : ");
Serial.println(SET_LIB_VERSION);
Serial.println();
timingTest();
equalTest();
intersectionTest();
intersection2Test();
subsetTest();
iterationTest();
Serial.println("done...");
Serial.println();
}
void loop()
{
}
void timingTest()
{
Set myset;
Serial.println("TIMING TEST");
Serial.print("100x clr():\t");
2014-11-18 13:28:12 -05:00
uint32_t start = micros();
for (uint8_t i=0; i<100; i++) myset.clr();
2014-11-18 13:28:12 -05:00
uint32_t stop = micros();
Serial.println(stop-start);
Serial.print("100x add():\t");
start = micros();
for (uint8_t i=0; i<100; i++) myset.add(i);
stop = micros();
Serial.println(stop-start);
Serial.print("100x sub():\t");
start = micros();
for (uint8_t i=0; i<100; i++) myset.sub(i);
stop = micros();
Serial.println(stop-start);
Serial.print("100x has():\t");
start = micros();
for (uint8_t i=0; i<100; i++) b = myset.has(i);
stop = micros();
Serial.println(stop-start);
Serial.print("100x invert(v):\t");
start = micros();
for (uint8_t i=0; i<100; i++) myset.invert(i);
stop = micros();
Serial.println(stop-start);
Serial.print("invert():\t");
start = micros();
myset.invert();
stop = micros();
Serial.println(stop-start);
Serial.print("count() empty:\t");
myset.clr();
start = micros();
myset.count();
stop = micros();
Serial.println(stop-start);
Serial.print("count() full:\t");
myset.clr();
myset.invert();
start = micros();
myset.count();
stop = micros();
Serial.println(stop-start);
Serial.println();
2017-07-16 14:09:23 -04:00
Serial.print("100x isEmpty(): empty\t");
myset.clr();
start = micros();
2017-07-16 14:09:23 -04:00
for (uint8_t i=0; i<100; i++) b = myset.isEmpty();
stop = micros();
Serial.println(stop-start);
Serial.print("100x isEmpty(): full\t");
myset.clr();
myset.invert();
start = micros();
for (uint8_t i=0; i<100; i++) b = myset.isEmpty();
stop = micros();
Serial.println(stop-start);
Serial.print("100x isFull(): empty\t");
myset.clr();
start = micros();
for (uint8_t i=0; i<100; i++) b = myset.isFull();
stop = micros();
Serial.println(stop-start);
Serial.print("100x isFull(): full\t");
myset.clr();
myset.invert();
start = micros();
for (uint8_t i=0; i<100; i++) b = myset.isFull();
stop = micros();
Serial.println(stop-start);
Serial.println();
2014-11-18 13:28:12 -05:00
randomSeed(1);
setA.clr();
setB.clr();
for (int i=0; i<150; i++)
{
setA.add(random(256));
setB.add(random(256));
}
Serial.print("a = b + c:\t");
start = micros();
myset = setA + setB;
stop = micros();
Serial.println(stop-start);
Serial.print("a = b - c:\t");
start = micros();
myset = setA - setB;
stop = micros();
Serial.println(stop-start);
Serial.print("a = b * c:\t");
start = micros();
myset = setA * setB;
stop = micros();
Serial.println(stop-start);
Serial.print("a += b:\t");
start = micros();
myset += setA;
stop = micros();
Serial.println(stop-start);
Serial.print("a -= b:\t");
start = micros();
myset -= setA;
stop = micros();
Serial.println(stop-start);
Serial.print("a *= b:\t");
start = micros();
myset *= setA;
stop = micros();
Serial.println(stop-start);
Serial.print("a == b:\t");
start = micros();
b = (setA == setB);
stop = micros();
Serial.println(stop-start);
Serial.print("a != b:\t");
start = micros();
b = (setA != setB);
stop = micros();
Serial.println(stop-start);
Serial.print("a <= b:\t");
start = micros();
b = (setA <= setB);
stop = micros();
Serial.println(stop-start);
Serial.println();
Serial.println("iteration 10 elements");
Serial.print("first:\t");
setA.clr();
randomSeed(1);
for (int i=0; i<10; i++)
{
setA.add(random(256));
}
start = micros();
int n = setA.first();
stop = micros();
Serial.println(stop-start);
Serial.print("next:\t");
start = micros();
n = setA.next();
stop = micros();
Serial.println(stop-start);
Serial.print("first + next until -1 :\t");
start = micros();
n = setA.first();
while (n != -1)
{
n = setA.next();
}
stop = micros();
Serial.println(stop-start);
Serial.print("last + prev until -1 :\t");
start = micros();
n = setA.last();
while (n != -1)
{
n = setA.prev();
}
stop = micros();
Serial.println(stop-start);
2014-11-18 13:28:12 -05:00
Serial.println();
Serial.println();
}
void equalTest()
{
Serial.println("EQUAL TEST");
randomSeed(1);
setA.clr();
setB.clr();
Serial.println(setA == setB?"true":"false");
setB.add(0);
Serial.println(setA == setB?"true":"false");
Serial.println(setA == setA?"true":"false");
Set setC(setB);
Serial.println(setC == setB?"true":"false");
Serial.println(setC.count());
Set setD = setB;
Serial.println(setD != setB?"unequal":"equal");
Serial.println(setD == setB?"true":"false");
Serial.println(setD.count());
setD = setA;
Serial.println(setD == setB?"true":"false");
Serial.println(setD.count());
Serial.println();
}
void intersectionTest()
{
Serial.println("INTERSECTION TEST");
randomSeed(1);
setA.clr();
setB.clr();
for (int i=0; i<150; i++)
{
setA.add(random(256));
setB.add(random(256));
}
Serial.println(setA.count());
Serial.println(setB.count());
setA *= setB;
Serial.println(setA.count());
Serial.println();
Serial.println("union test");
randomSeed(1);
setA.clr();
setB.clr();
for (int i=0; i<150; i++)
{
setA.add(random(256));
setB.add(random(256));
}
Serial.println(setA.count());
Serial.println(setB.count());
setA += setB;
Serial.println(setA.count());
Serial.println();
Serial.println("diff test");
randomSeed(1);
setA.clr();
setB.clr();
for (int i=0; i<150; i++)
{
setA.add(random(256));
setB.add(random(256));
}
Serial.println(setA.count());
Serial.println(setB.count());
setA -= setB;
Serial.println(setA.count());
Serial.println();
}
void intersection2Test()
{
Serial.println("INTERSECTION2 TEST");
randomSeed(1);
setA.clr();
setB.clr();
for (int i=0; i<150; i++)
{
setA.add(random(256));
setB.add(random(256));
}
Set setC;
setC = setA * setB;
Serial.println(setA.count());
Serial.println(setB.count());
Serial.println(setC.count());
Serial.println();
Serial.println("union2 test");
setC = setA + setB;
Serial.println(setA.count());
Serial.println(setB.count());
Serial.println(setC.count());
Serial.println();
Serial.println("diff2 test");
setC = setA - setB;
Serial.println(setA.count());
Serial.println(setB.count());
Serial.println(setC.count());
Serial.println();
}
void subsetTest()
{
Serial.println("SUBSET TEST");
Set setE;
for (int i=0; i<5; i++) setE.add(i);
Set setF(setE);
Serial.println(setE.count());
Serial.println(setF.count());
Serial.println(setE <= setF?"subset":"no subset");
Serial.println(setF <= setE?"subset":"no subset");
setF.add(6);
Serial.println(setE <= setF?"subset":"no subset");
Serial.println(setF <= setE?"subset":"no subset");
setF.sub(3);
Serial.println(setE <= setF?"subset":"no subset");
Serial.println(setF <= setE?"subset":"no subset");
Serial.println();
}
void iterationTest()
{
Serial.println("ITERATE OVER SET TEST");
randomSeed(1);
setA.clr();
for (int i=0; i<10; i++)
{
setA.add(random(256));
}
Serial.println(setA.count());
int n = setA.first();
while (n != -1)
{
Serial.print(n);
Serial.print('\t');
n = setA.next();
}
Serial.println();
n = setA.last();
while (n != -1)
{
Serial.print(n);
Serial.print('\t');
n = setA.prev();
}
Serial.println();
}
//
// END OF FILE
//