GY-63_MS5611/libraries/FastTrig/examples/fastTrig_test2/fastTrig_test2.ino
2021-08-10 21:24:22 +02:00

123 lines
2.3 KiB
C++

//
// FILE: fastTrig_test2.ino
// AUTHOR: Rob Tillaart
// PURPOSE: testing the itan functions
// DATE: 2021-08-10
// (c) : MIT
//
#include "FastTrig.h"
uint32_t start, d1, d2;
volatile float x;
int i;
void setup()
{
Serial.begin(115200);
Serial.println("start");
test_tan(0);
test_itan_error_1(false);
Serial.println("done...\n");
}
void test_tan(int n)
{
Serial.println(__FUNCTION__);
Serial.print("TAN\titan\t360 calls - offset: " );
Serial.println(n);
delay(10);
start = micros();
for ( i = n; i < n + 360; i++)
{
x = tan(i);
}
float t1 = (micros() - start) / 360.0;
Serial.println(t1);
delay(10);
start = micros();
for ( i = n; i < n + 360; i++)
{
x = itan(i);
}
float t2 = (micros() - start) / 360.0;
Serial.println(t2);
Serial.print(t2 / t1, 3);
Serial.println("%");
Serial.println();
Serial.println();
delay(10);
}
void test_itan_error_1(bool show)
{
Serial.println(__FUNCTION__);
Serial.println("ITAN 0-3600 calls: \t");
delay(10);
float mx = 0;
float mxr = 0;
float z = 0;
float zz = 0;
for (int i = 0; i < 3600; i++)
{
if (((i + 900 ) % 1800) == 0) continue;
float a = tan(i * 0.1 * PI / 180);
float b = itan(i * 0.1);
float y = abs(a - b); // abs error - rel error ~ 1%
z += y;
if (a > 0) zz += y / a; // not 100% correct but almost.
if (mx < y) mx = y;
if (show)
{
Serial.print(i);
Serial.print("\t");
Serial.print(a, 6);
Serial.print("\t");
Serial.print(b, 6);
Serial.print("\t");
Serial.print(a - b, 6);
Serial.print("\t");
Serial.println((a - b) / a, 6);
}
if (abs(a) > 0.00001 && mxr < y / a)
{
// Serial.print(i);
// Serial.print('\t');
// Serial.print(a, 6);
// Serial.print('\t');
// Serial.print(b, 6);
// Serial.print('\t');
// Serial.print(y/a, 6);
// Serial.println();
mxr = y / a;
}
}
Serial.print("max abs error: ");
Serial.println(mx, 8);
Serial.print("avg abs error: ");
Serial.println(z / 3600, 8);
Serial.print("max rel error: ");
Serial.println(mxr, 8);
Serial.print("avg rel error: ");
Serial.println(zz / 3600, 8);
Serial.println();
Serial.println();
delay(10);
}
void loop()
{
}
// -- END OF FILE --