// // Definitions of common non-engine data structures/functions // (and declarations of data appearing in both) // for EDuke32 and Mapster32 // #ifndef EDUKE32_COMMON_H_ #define EDUKE32_COMMON_H_ #include "compat.h" #include "pragmas.h" // klabs #include "scriptfile.h" extern bool playing_rr; extern bool playing_blood; //// TYPES struct strllist { struct strllist *next; char *str; }; typedef struct { const char *text; int32_t tokenid; } tokenlist; enum { T_EOF = -2, T_ERROR = -1, }; //// EXTERN DECLS extern const char *s_buildRev; extern const char *s_buildTimestamp; //// FUNCTIONS void G_AddDef(const char *buffer); void G_AddDefModule(const char *buffer); #ifdef HAVE_CLIPSHAPE_FEATURE void G_AddClipMap(const char *buffer); #endif // returns a buffer of size BMAX_PATH static inline char *dup_filename(const char *fn) { char * const buf = (char *) Xmalloc(BMAX_PATH); return Bstrncpyz(buf, fn, BMAX_PATH); } static inline void realloc_copy(char **fn, const char *buf) { uint8_t len = Bstrlen(buf) + 1; *fn = (char *)Xrealloc(*fn, len); Bstrncpy(*fn, buf, len); } int32_t getatoken(scriptfile *sf, const tokenlist *tl, int32_t ntokens); int32_t G_CheckCmdSwitch(int32_t argc, char const * const * argv, const char *str); int32_t maybe_append_ext(char *wbuf, int32_t wbufsiz, const char *fn, const char *ext); // Approximations to 2D and 3D Euclidean distances. Initial EDuke32 SVN import says // in mact/src/mathutil.c: "Ken's reverse-engineering job". // Note that mathutil.c contains practically the same code, but where the // individual x/y(/z) distances are passed instead. static inline int32_t sepldist(const int32_t dx, const int32_t dy) { vec2_t d = { klabs(dx), klabs(dy) }; if (!d.y) return d.x; if (!d.x) return d.y; if (d.x < d.y) swaplong(&d.x, &d.y); d.y += (d.y>>1); return d.x - (d.x>>5) - (d.x>>7) + (d.y>>2) + (d.y>>6); } // dz: in Build coordinates static inline int32_t sepdist(const int32_t dx, const int32_t dy, const int32_t dz) { vec3_t d = { klabs(dx), klabs(dy), klabs(dz>>4) }; if (d.x < d.y) swaplong(&d.x, &d.y); if (d.x < d.z) swaplong(&d.x, &d.z); d.y += d.z; return d.x - (d.x>>4) + (d.y>>2) + (d.y>>3); } int32_t FindDistance2D(int32_t dx, int32_t dy); int32_t FindDistance3D(int32_t dx, int32_t dy, int32_t dz); int32_t ldist(const void *s1, const void *s2); int32_t dist(const void *s1, const void *s2); void COMMON_clearbackground(int32_t numcols, int32_t numrows); // timer defs for profiling function chunks the simple way #define EDUKE32_TMRDEF int32_t t[20], ti=0; const char *tmrstr=__func__; fprintf(stderr,"%s\n",tmrstr); t[ti++]=timerGetTicks(); #define EDUKE32_TMRTIC t[ti++]=timerGetTicks() #define EDUKE32_TMRPRN do { int ii=0; fprintf(stderr,"%s: ",tmrstr); for (ii=1; ii