#ifndef DR2MATH_H #define DR2MATH_H #include #if defined(_LANGUAGE_C_PLUS_PLUS)||defined(__cplusplus)||defined(c_plusplus) extern "C" { #endif // Driver 2 math definitions extern short rcossin_tbl[8192]; #if defined(_LANGUAGE_C_PLUS_PLUS)||defined(__cplusplus)||defined(c_plusplus) } #endif #define ONE 4096 #define ONE_BITS 12 #define PH_ONE 256 #define PH_ONE_BITS 8 // math constants #define FixHalfRound(x, bits) (((x) + (1 << (bits-1))) >> bits) #define FixFloorSigned(x, bits) ((x) / (1 << bits)) // in disassembly: ((int(x) < 0 ? int(x) + (1 << bits)-1 : int(x)) >> bits) #define FIXEDH(a) FixHalfRound(a, ONE_BITS) // Fixed Half Round number #define FIXED(a) ((a) >> ONE_BITS) // Fixed number (unsigned) #define RSIN(a) rcossin_tbl[(a & 0xFFFU) * 2] #define RCOS(a) rcossin_tbl[(a & 0xFFFU) * 2 + 1] #define DIFF_ANGLES( A, B ) \ (((((B) - (A)) + 2048) & 4095) - 2048) // Remap a value in the range [A,B] to [C,D]. #define RemapVal( val, A, B, C, D) \ (C + (D - C) * (val - A) / (B - A)) #define SetVec(_v, _x, _y, _z) \ { \ (_v)->vx = _x; \ (_v)->vy = _y; \ (_v)->vz = _z; \ } #define VecAdd(vecOut, vecLeft, vecRight) \ { \ (vecOut)->vx = (vecLeft)->vx + (vecRight)->vx; \ (vecOut)->vy = (vecLeft)->vy + (vecRight)->vy; \ (vecOut)->vz = (vecLeft)->vz + (vecRight)->vz; \ } #define VecSubtract(vecOut, vecLeft, vecRight) \ { \ (vecOut)->vx = (vecLeft)->vx - (vecRight)->vx; \ (vecOut)->vy = (vecLeft)->vy - (vecRight)->vy; \ (vecOut)->vz = (vecLeft)->vz - (vecRight)->vz; \ } #define VecAddEq(vecLeft, vecRight) \ { \ (vecLeft)->vx += (vecRight)->vz; \ (vecLeft)->vy += (vecRight)->vy; \ (vecLeft)->vz += (vecRight)->vz; \ } #define VecSubtractEq(vecLeft, vecRight) \ { \ (vecLeft)->vx -= (vecRight)->vx; \ (vecLeft)->vy -= (vecRight)->vy; \ (vecLeft)->vz -= (vecRight)->vz; \ } #define VecDivEq(vecLeft, vecRight) \ { \ (vecLeft)->vx /= (vecRight)->vz; \ (vecLeft)->vy /= (vecRight)->vy; \ (vecLeft)->vz /= (vecRight)->vz; \ } #define VecMulEq(vecLeft, vecRight) \ { \ (vecLeft)->vx *= (vecRight)->vx; \ (vecLeft)->vy *= (vecRight)->vy; \ (vecLeft)->vz *= (vecRight)->vz; \ } #define InitMatrix(_m) \ { \ (_m).m[0][0] = ONE; \ (_m).m[1][0] = 0; \ (_m).m[2][0] = 0; \ (_m).m[0][1] = 0; \ (_m).m[1][1] = ONE; \ (_m).m[2][1] = 0; \ (_m).m[0][2] = 0; \ (_m).m[1][2] = 0; \ (_m).m[2][2] = ONE; \ } #define numberOf(sexToys) (sizeof(sexToys) / sizeof(sexToys[0])) #ifndef MIN #define MIN(a,b) fst_min(a,b) #endif #ifndef MAX #define MAX(a,b) fst_max(a,b) #endif inline int fst_min(int a, int b) { int diff = a - b; int dsgn = diff >> 31; return b + (diff & dsgn); } inline int fst_max(int a, int b) { int diff = a - b; int dsgn = diff >> 31; return a - (diff & dsgn); } #endif // DR2MATH_H