// SONIC ROBO BLAST 2 //----------------------------------------------------------------------------- // Copyright (C) 1993-1996 by id Software, Inc. // Copyright (C) 1998-2000 by DooM Legacy Team. // Copyright (C) 1999-2023 by Sonic Team Junior. // // This program is free software distributed under the // terms of the GNU General Public License, version 2. // See the 'LICENSE' file for more details. //----------------------------------------------------------------------------- /// \file tables.h /// \brief Lookup tables #ifndef __TABLES__ #define __TABLES__ #ifdef LINUX #include #endif #include "m_fixed.h" #define FINEANGLES 8192 #define FINEMASK (FINEANGLES - 1) #define ANGLETOFINESHIFT 19 // 0x100000000 to 0x2000 #define FINEANGLE_C(x) ((FixedAngle((x)*FRACUNIT)>>ANGLETOFINESHIFT) & FINEMASK) // ((x*(ANGLE_45/45))>>ANGLETOFINESHIFT) & FINEMASK // Effective size is 10240. extern fixed_t finesine[5*FINEANGLES/4]; // Re-use data, is just PI/2 phase shift. extern fixed_t *finecosine; // Effective size is 4096. extern fixed_t finetangent[FINEANGLES/2]; #define ANG1 0x00B60B61 //0.B6~ #define ANG2 0x016C16C1 //.6C1~ #define ANG10 0x071C71C7 //.1C7~ #define ANG15 0x0AAAAAAB //A.AA~ #define ANG20 0x0E38E38E //.38E~ #define ANG30 0x15555555 //.555~ #define ANG60 0x2AAAAAAB //A.AA~ #define ANG64h 0x2DDDDDDE //D.DD~ #define ANG105 0x4AAAAAAB //A.AA~ #define ANG210 0x95555555 //.555~ #define ANG255 0xB5555555 //.555~ #define ANG340 0xF1C71C72 //1.C7~ #define ANG350 0xF8E38E39 //8.E3~ #define ANGLE_11hh 0x08000000 #define ANGLE_22h 0x10000000 #define ANGLE_45 0x20000000 #define ANGLE_67h 0x30000000 #define ANGLE_90 0x40000000 #define ANGLE_112h 0x50000000 #define ANGLE_135 0x60000000 #define ANGLE_157h 0x70000000 #define ANGLE_180 0x80000000 #define ANGLE_202h 0x90000000 #define ANGLE_225 0xA0000000 #define ANGLE_247h 0xB0000000 #define ANGLE_270 0xC0000000 #define ANGLE_292h 0xD0000000 #define ANGLE_315 0xE0000000 #define ANGLE_337h 0xF0000000 #define ANGLE_MAX 0xFFFFFFFF typedef UINT32 angle_t; // To get a global angle from Cartesian coordinates, the coordinates are // flipped until they are in the first octant of the coordinate system, then // the y (<=x) is scaled and divided by x to get a tangent (slope) value // which is looked up in the tantoangle[] table. #define SLOPERANGE 2048 #define SLOPEBITS 11 #define DBITS (FRACBITS - SLOPEBITS) // The +1 size is to handle the case when x == y without additional checking. extern angle_t tantoangle[SLOPERANGE+1]; // Utility function, called by R_PointToAngle. FUNCMATH unsigned SlopeDiv(unsigned num, unsigned den); // Only called by R_PointToAngleEx UINT64 SlopeDivEx(unsigned int num, unsigned int den); // 360 - angle_t(ANGLE_45) = ANGLE_315 FUNCMATH FUNCINLINE static ATTRINLINE angle_t InvAngle(angle_t a) { return (ANGLE_MAX-a)+1; } // angle_t to fixed_t f(ANGLE_45) = 45*FRACUNIT FUNCMATH fixed_t AngleFixed(angle_t af); // fixed_t to angle_t f(45*FRACUNIT) = ANGLE_45 FUNCMATH angle_t FixedAngle(fixed_t fa); // and with a factor, with +factor for (fa/factor) and -factor for (fa*factor) FUNCMATH angle_t FixedAngleC(fixed_t fa, fixed_t factor); /// The FixedAcos function FUNCMATH angle_t FixedAcos(fixed_t x); /// Fixed Point Vector functions angle_t FV2_AngleBetweenVectors(const vector2_t *Vector1, const vector2_t *Vector2); angle_t FV3_AngleBetweenVectors(const vector3_t *Vector1, const vector3_t *Vector2); boolean FV2_InsidePolygon(const vector2_t *vIntersection, const vector2_t *Poly, const INT32 vertexCount); boolean FV3_InsidePolygon(const vector3_t *vIntersection, const vector3_t *Poly, const INT32 vertexCount); boolean FV3_IntersectedPolygon(const vector3_t *vPoly, const vector3_t *vLine, const INT32 vertexCount, vector3_t *collisionPoint); void FV3_Rotate(vector3_t *rotVec, const vector3_t *axisVec, const angle_t angle); /// Fixed Point Matrix functions matrix_t *FM_Rotate(matrix_t *dest, angle_t angle, fixed_t x, fixed_t y, fixed_t z); matrix_t *FM_RotateX(matrix_t *dest, angle_t rad); matrix_t *FM_RotateY(matrix_t *dest, angle_t rad); matrix_t *FM_RotateZ(matrix_t *dest, angle_t rad); // The table values in tables.c are calculated with this many fractional bits. #define FINE_FRACBITS 16 // These macros should be used in case FRACBITS < FINE_FRACBITS. #define FINESINE(n) (finesine[n]>>(FINE_FRACBITS-FRACBITS)) #define FINECOSINE(n) (finecosine[n]>>(FINE_FRACBITS-FRACBITS)) #define FINETANGENT(n) (finetangent[n]>>(FINE_FRACBITS-FRACBITS)) #endif