Serious-Engine/Sources/Engine/Math/Functions.cpp
2016-03-11 15:57:17 +02:00

82 lines
2.1 KiB
C++

/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */
#include "stdh.h"
#include <Engine/Math/Functions.h>
/////////////////////////////////////////////////////////////////////
// Snapping functions
// does "snap to grid" for given coordinate
void Snap( FLOAT &fDest, FLOAT fStep)
{
// this must use floor() to get proper snapping of negative values.
FLOAT fDiv = fDest/fStep;
FLOAT fRound = fDiv + 0.5f;
FLOAT fSnap = FLOAT(floor(fRound));
FLOAT fRes = fSnap * fStep;
fDest = fRes;
}
// does "snap to grid" for given coordinate
void Snap( DOUBLE &fDest, DOUBLE fStep)
{
// this must use floor() to get proper snapping of negative values.
DOUBLE fDiv = fDest/fStep;
DOUBLE fRound = fDiv + 0.5f;
DOUBLE fSnap = DOUBLE(floor(fRound));
DOUBLE fRes = fSnap * fStep;
fDest = fRes;
}
#if 0
// does "snap to grid" for given angle
void Snap( ANGLE &angDest, ANGLE angStep)
{
/* Watch out for unsigned-signed mixing!
All sub-expressions and arguments must be unsigned for this to work correctly!
Unfortunately, ANGLE is not an unsigned type by default, so we must cast it.
Also, angStep must be a divisor of ANGLE_180!
*/
ASSERT(ANGLE_180%angStep == 0); // don't test with ANGLE_360 ,since it is 0!
angDest = ANGLE( ((UWORD(angDest)+UWORD(angStep)/2U)/UWORD(angStep))*UWORD(angStep) );
}
#endif
double adSinQuadrants[4][2] =
{
{1.0, 0.0},
{-1.0, -90.0},
{-1.0, 0.0},
{1.0, -90.0},
};
double adCosQuadrants[4][2] =
{
{-1.0, -90.0},
{-1.0, 0.0},
{1.0, -90.0},
{1.0, 0.0},
};
FLOAT Sin(ANGLE a)
{
double aWrapped = WrapAngle(a);
double aIn90 = fmod(aWrapped, 90.0);
int iQuadrant = int(aWrapped/90.0);
double fSin = adSinQuadrants[iQuadrant][0]*
sin((aIn90+adSinQuadrants[iQuadrant][1])*PI/ANGLE_180);
return FLOAT (fSin);
}
FLOAT Cos(ANGLE a)
{
double aWrapped = WrapAngle(a);
double aIn90 = fmod(aWrapped, 90.0);
int iQuadrant = int(aWrapped/90.0);
double fCos = adCosQuadrants[iQuadrant][0]*
sin((aIn90+adCosQuadrants[iQuadrant][1])*PI/ANGLE_180);
return FLOAT (fCos);
}
FLOAT Tan(ANGLE a)
{
return Sin(a)/Cos(a);
}