#define PROGSUSED struct edict_s; #include "progsint.h" //#include "crc.h" #ifdef _WIN32 //this is windows all files are written with this endian standard. we do this to try to get a little more speed. #define NOENDIAN #endif pbool ED_ParseEpair (progfuncs_t *progfuncs, size_t qcptr, unsigned int fldofs, int fldtype, char *s); /* ================= QC_ClearEdict Sets everything to NULL ================= */ void PDECL QC_ClearEdict (pubprogfuncs_t *ppf, struct edict_s *ed) { // progfuncs_t *progfuncs = (progfuncs_t*)ppf; edictrun_t *e = (edictrun_t *)ed; int num = e->entnum; memset (e->fields, 0, e->fieldsize); e->ereftype = ER_ENTITY; e->entnum = num; } edictrun_t *ED_AllocIntoTable (progfuncs_t *progfuncs, int num, pbool object, unsigned int fields_size) { edictrun_t *e; e = prinst.edicttable[num]; if (!e) { e = (void*)externs->memalloc(externs->edictsize); prinst.edicttable[num] = e; memset(e, 0, externs->edictsize); } if (e->fieldsize != fields_size) { if (e->fields) progfuncs->funcs.AddressableFree(&progfuncs->funcs, e->fields); e->fields = progfuncs->funcs.AddressableAlloc(&progfuncs->funcs, fields_size); if (!e->fields) Sys_Error ("ED_Alloc: Unable to allocate more field space"); e->fieldsize = fields_size; // e->fields = PRAddressableExtend(progfuncs, NULL, fields_size, 0); } e->entnum = num; memset (e->fields, 0, e->fieldsize); e->ereftype = object?ER_OBJECT:ER_ENTITY; return e; } /* ================= ED_Alloc Either finds a free edict, or allocates a new one. Try to avoid reusing an entity that was recently freed, because it can cause the client to think the entity morphed into something else instead of being removed and recreated, which can cause interpolated angles and bad trails. ================= */ struct edict_s *PDECL ED_Alloc (pubprogfuncs_t *ppf, pbool object, size_t extrasize) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; unsigned int i; edictrun_t *e; unsigned int fields_size; fields_size = object?0:prinst.fields_size; fields_size += extrasize; if (object) { //objects are allocated at the end. for ( i=prinst.maxedicts-1 ; i>0 ; i--) { e = (edictrun_t*)EDICT_NUM(progfuncs, i); // the first couple seconds of server time can involve a lot of // freeing and allocating, so relax the replacement policy if (!e || (e->ereftype==ER_FREE && ( e->freetime < 2 || *externs->gametime - e->freetime > 0.5 ) )) { e = ED_AllocIntoTable(progfuncs, i, object, fields_size); if (externs->entspawn) externs->entspawn((struct edict_s *) e, false); return (struct edict_s *)e; } } Sys_Error ("ED_Alloc: no free edicts (max is %i)", prinst.maxedicts); } //define this to wastefully allocate extra ents, to test network capabilities. #define STEP 1//((i <= 32)?1:8) for ( i=0 ; iereftype==ER_FREE && ( e->freetime < 2 || *externs->gametime - e->freetime > 0.5 ) )) { e = ED_AllocIntoTable(progfuncs, i, object, fields_size); if (externs->entspawn) externs->entspawn((struct edict_s *) e, false); return (struct edict_s *)e; } } if (i >= prinst.maxedicts-1) //try again, but use timed out ents. { for ( i=0 ; iereftype==ER_FREE)) { e = ED_AllocIntoTable(progfuncs, i, object, fields_size); if (externs->entspawn) externs->entspawn((struct edict_s *) e, false); return (struct edict_s *)e; } } if (i >= prinst.maxedicts-2) { PR_RunWarning(&progfuncs->funcs, "Running out of edicts\n"); } if (i >= prinst.maxedicts-1) { size_t size; char *buf; buf = PR_SaveEnts(&progfuncs->funcs, NULL, &size, 0, 0); progfuncs->funcs.parms->WriteFile("edalloc.dump", buf, size); Sys_Error ("ED_Alloc: no free edicts (max is %i)", prinst.maxedicts); } } while(sv_num_edicts < i) { e = (edictrun_t*)EDICT_NUM(progfuncs, sv_num_edicts); if (!e) { e = ED_AllocIntoTable(progfuncs, sv_num_edicts, object, fields_size); if (externs->entspawn) externs->entspawn((struct edict_s *) e, false); e->ereftype=ER_FREE; } sv_num_edicts++; } sv_num_edicts++; e = ED_AllocIntoTable(progfuncs, i, object, fields_size); if (externs->entspawn) externs->entspawn((struct edict_s *) e, false); return (struct edict_s *)e; } /* ================= ED_Free Marks the edict as free FIXME: walk all entities and NULL out references to this entity ================= */ void PDECL ED_Free (pubprogfuncs_t *ppf, struct edict_s *ed) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; edictrun_t *e = (edictrun_t *)ed; // SV_UnlinkEdict (ed); // unlink from world bsp if (e->ereftype == ER_FREE) //this happens on start.bsp where an onlyregistered trigger killtargets itself (when all of this sort die after 1 trigger anyway). { if (pr_depth) printf("Tried to free free entity within %s\n", pr_xfunction->s_name+progfuncs->funcs.stringtable); else printf("Engine tried to free free entity\n"); // if (developer.value == 1) // progfuncs->funcs.pr_trace = true; return; } if (externs->entcanfree) if (!externs->entcanfree(ed)) //can stop an ent from being freed. return; e->ereftype = ER_FREE; e->freetime = (float)*externs->gametime; /* ed->v.model = 0; ed->v.takedamage = 0; ed->v.modelindex = 0; ed->v.colormap = 0; ed->v.skin = 0; ed->v.frame = 0; VectorCopy (vec3_origin, ed->v.origin); VectorCopy (vec3_origin, ed->v.angles); ed->v.nextthink = -1; ed->v.solid = 0; */ } //=========================================================================== /* ============ ED_GlobalAtOfs ============ */ ddef16_t *ED_GlobalAtOfs16 (progfuncs_t *progfuncs, int ofs) { ddef16_t *def; unsigned int i; for (i=0 ; inumglobaldefs ; i++) { def = &pr_globaldefs16[i]; if (def->ofs == ofs) return def; } return NULL; } ddef32_t *ED_GlobalAtOfs32 (progfuncs_t *progfuncs, unsigned int ofs) { ddef32_t *def; unsigned int i; for (i=0 ; inumglobaldefs ; i++) { def = &pr_globaldefs32[i]; if (def->ofs == ofs) return def; } return NULL; } /* ============ ED_FieldAtOfs ============ */ fdef_t *ED_FieldAtOfs (progfuncs_t *progfuncs, unsigned int ofs) { // ddef_t *def; unsigned int i; for (i=0 ; inumglobaldefs ; i++) { def = &pr_globaldefs16[i]; if (!strcmp(def->s_name+progfuncs->funcs.stringtable,name) ) return def; } return NULL; } ddef32_t *ED_FindGlobal32 (progfuncs_t *progfuncs, char *name) { ddef32_t *def; unsigned int i; for (i=1 ; inumglobaldefs ; i++) { def = &pr_globaldefs32[i]; if (!strcmp(def->s_name+progfuncs->funcs.stringtable,name) ) return def; } return NULL; } unsigned int ED_FindGlobalOfs (progfuncs_t *progfuncs, char *name) { ddef16_t *d16; ddef32_t *d32; switch(current_progstate->structtype) { case PST_KKQWSV: case PST_DEFAULT: d16 = ED_FindGlobal16(progfuncs, name); return d16?d16->ofs:0; case PST_QTEST: case PST_FTE32: d32 = ED_FindGlobal32(progfuncs, name); return d32?d32->ofs:0; } Sys_Error("ED_FindGlobalOfs - bad struct type"); return 0; } ddef16_t *ED_FindGlobalFromProgs16 (progfuncs_t *progfuncs, const char *name, progsnum_t prnum) { ddef16_t *def; unsigned int i; for (i=1 ; inumglobaldefs ; i++) { def = &pr_progstate[prnum].globaldefs16[i]; if (!strcmp(def->s_name+progfuncs->funcs.stringtable,name) ) return def; } return NULL; } ddef32_t *ED_FindGlobalFromProgs32 (progfuncs_t *progfuncs, const char *name, progsnum_t prnum) { ddef32_t *def; unsigned int i; for (i=1 ; inumglobaldefs ; i++) { def = &pr_progstate[prnum].globaldefs32[i]; if (!strcmp(def->s_name+progfuncs->funcs.stringtable,name) ) return def; } return NULL; } ddef16_t *ED_FindTypeGlobalFromProgs16 (progfuncs_t *progfuncs, const char *name, progsnum_t prnum, int type) { ddef16_t *def; unsigned int i; for (i=1 ; inumglobaldefs ; i++) { def = &pr_progstate[prnum].globaldefs16[i]; if (!strcmp(def->s_name+progfuncs->funcs.stringtable,name) ) { if (pr_progstate[prnum].types) { if (pr_progstate[prnum].types[def->type&~DEF_SAVEGLOBAL].type != type) continue; } else if ((def->type&(~DEF_SAVEGLOBAL)) != type) continue; return def; } } return NULL; } ddef32_t *ED_FindTypeGlobalFromProgs32 (progfuncs_t *progfuncs, const char *name, progsnum_t prnum, int type) { ddef32_t *def; unsigned int i; for (i=1 ; inumglobaldefs ; i++) { def = &pr_progstate[prnum].globaldefs32[i]; if (!strcmp(def->s_name+progfuncs->funcs.stringtable,name) ) { if (pr_progstate[prnum].types) { if (pr_progstate[prnum].types[def->type&~DEF_SAVEGLOBAL].type != type) continue; } else if ((def->type&(~DEF_SAVEGLOBAL)) != (unsigned)type) continue; return def; } } return NULL; } unsigned int *ED_FindGlobalOfsFromProgs (progfuncs_t *progfuncs, char *name, progsnum_t prnum, int type) { ddef16_t *def16; ddef32_t *def32; static unsigned int pos; switch(pr_progstate[prnum].structtype) { case PST_DEFAULT: case PST_KKQWSV: def16 = ED_FindTypeGlobalFromProgs16(progfuncs, name, prnum, type); if (!def16) return NULL; pos = def16->ofs; return &pos; case PST_QTEST: case PST_FTE32: def32 = ED_FindTypeGlobalFromProgs32(progfuncs, name, prnum, type); if (!def32) return NULL; return &def32->ofs; } Sys_Error("ED_FindGlobalOfsFromProgs - bad struct type"); return 0; } /* ============ ED_FindFunction ============ */ mfunction_t *ED_FindFunction (progfuncs_t *progfuncs, const char *name, progsnum_t *prnum, progsnum_t fromprogs) { mfunction_t *func; unsigned int i; char *sep; progsnum_t pnum; if (prnum) { sep = strchr(name, ':'); if (sep) { pnum = atoi(name); name = sep+1; } else { if (fromprogs>=0) pnum = fromprogs; else pnum = prinst.pr_typecurrent; } *prnum = pnum; } else pnum = prinst.pr_typecurrent; if ((unsigned)pnum > (unsigned)prinst.maxprogs) { printf("Progsnum %i out of bounds\n", pnum); return NULL; } if (!pr_progstate[pnum].progs) return NULL; for (i=1 ; inumfunctions ; i++) { func = &pr_progstate[pnum].functions[i]; if (!strcmp(func->s_name+progfuncs->funcs.stringtable,name) ) return func; } return NULL; } #ifdef _WIN32 static void VARGS QC_snprintfz (char *dest, size_t size, const char *fmt, ...) { va_list args; va_start (args, fmt); _vsnprintf (dest, size-1, fmt, args); va_end (args); //make sure its terminated. dest[size-1] = 0; } #else #define QC_snprintfz snprintf #endif /* ============ PR_ValueString Returns a string describing *data in a human-readable type specific manner if verbose, contains entity field listing etc too ============= */ char *PR_ValueString (progfuncs_t *progfuncs, etype_t type, eval_t *val, pbool verbose) { static char line[4096]; fdef_t *fielddef; mfunction_t *f; #ifdef DEF_SAVEGLOBAL type &= ~DEF_SAVEGLOBAL; #endif if (current_progstate && pr_types) type = pr_types[type].type; if (!val) type = ev_void; switch (type) { case ev_struct: QC_snprintfz (line, sizeof(line), "struct"); break; case ev_union: QC_snprintfz (line, sizeof(line), "union"); break; case ev_string: #ifndef QCGC if (((unsigned int)val->string & STRING_SPECMASK) == STRING_TEMP) return ""; else #endif QC_snprintfz (line, sizeof(line), "%s", PR_StringToNative(&progfuncs->funcs, val->string)); break; case ev_entity: fielddef = ED_FindField(progfuncs, "classname"); if (fielddef && (unsigned)val->edict < (unsigned)sv_num_edicts) { edictrun_t *ed; string_t *v; ed = (edictrun_t *)EDICT_NUM(progfuncs, val->edict); v = (string_t *)((char *)edvars(ed) + fielddef->ofs*4); QC_snprintfz (line, sizeof(line), "entity %i(%s)", val->edict, PR_StringToNative(&progfuncs->funcs, *v)); } else QC_snprintfz (line, sizeof(line), "entity %i", val->edict); if (verbose && (unsigned)val->edict < (unsigned)sv_num_edicts) { struct edict_s *ed = EDICT_NUM(progfuncs, val->edict); size_t size = strlen(line); if (ed) PR_SaveEnt(&progfuncs->funcs, line, &size, sizeof(line), ed); } break; case ev_function: if (!val->function) QC_snprintfz (line, sizeof(line), "NULL function"); else { if ((val->function & 0xff000000)>>24 >= prinst.maxprogs || !pr_progstate[(val->function & 0xff000000)>>24].functions) QC_snprintfz (line, sizeof(line), "Bad function %i:%i", (val->function & 0xff000000)>>24, val->function & ~0xff000000); else { if ((val->function &~0xff000000) >= pr_progs->numfunctions) QC_snprintfz (line, sizeof(line), "bad function %i:%i\n", (val->function & 0xff000000)>>24, val->function & ~0xff000000); else { f = pr_progstate[(val->function & 0xff000000)>>24].functions + (val->function & ~0xff000000); QC_snprintfz (line, sizeof(line), "%i:%s()", (val->function & 0xff000000)>>24, f->s_name+progfuncs->funcs.stringtable); } } } break; case ev_field: fielddef = ED_FieldAtOfs (progfuncs, val->_int + progfuncs->funcs.fieldadjust); if (!fielddef) QC_snprintfz (line, sizeof(line), ".??? (#%i)", val->_int); else QC_snprintfz (line, sizeof(line), ".%s (#%i)", fielddef->name, val->_int); break; case ev_void: QC_snprintfz (line, sizeof(line), "void type"); break; case ev_float: QC_snprintfz (line, sizeof(line), "%g", val->_float); break; case ev_integer: QC_snprintfz (line, sizeof(line), "%i", val->_int); break; case ev_vector: QC_snprintfz (line, sizeof(line), "'%g %g %g'", val->_vector[0], val->_vector[1], val->_vector[2]); break; case ev_pointer: QC_snprintfz (line, sizeof(line), "%#x", val->_int); { // int entnum; // int valofs; //FIXME: :/ // entnum = ((qbyte *)val->edict - (qbyte *)sv_edicts) / pr_edict_size; // valofs = (int *)val->edict - (int *)edvars(EDICT_NUM(progfuncs, entnum)); // fielddef = ED_FieldAtOfs (progfuncs, valofs ); // if (fielddef) // sprintf(line, "ent%i.%s", entnum, fielddef->s_name); } break; case ev_accessor: QC_snprintfz (line, sizeof(line), "(accessor)"); break; default: QC_snprintfz (line, sizeof(line), "(bad type %i)", type); break; } return line; } /* ============ PR_UglyValueString Returns a string describing *data in a type specific manner Easier to parse than PR_ValueString ============= */ char *PDECL PR_UglyValueString (pubprogfuncs_t *ppf, etype_t type, eval_t *val) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; static char line[4096]; fdef_t *fielddef; mfunction_t *f; int i, j; #ifdef DEF_SAVEGLOBAL type &= ~DEF_SAVEGLOBAL; #endif // if (pr_types) // type = pr_types[type].type; switch (type) { case ev_struct: sprintf (line, "structures cannot yet be saved"); break; case ev_union: sprintf (line, "unions cannot yet be saved"); break; case ev_string: { char *outs = line; int outb = sizeof(line)-2; const char *ins; #ifndef QCGC if (((unsigned int)val->string & STRING_SPECMASK) == STRING_TEMP) return ""; else #endif ins = PR_StringToNative(&progfuncs->funcs, val->string); //markup the output string. while(*ins && outb > 0) { switch(*ins) { case '\n': *outs++ = '\\'; *outs++ = 'n'; ins++; outb-=2; break; case '\"': *outs++ = '\\'; *outs++ = '"'; ins++; outb-=2; break; case '\\': *outs++ = '\\'; *outs++ = '\\'; ins++; outb-=2; break; default: *outs++ = *ins++; outb--; break; } } *outs = 0; } break; case ev_entity: sprintf (line, "%i", val->_int); break; case ev_function: i = (val->function & 0xff000000)>>24; //progs number if ((unsigned)i >= prinst.maxprogs || !pr_progstate[(unsigned)i].progs) sprintf (line, "BAD FUNCTION INDEX: %i", val->function); else { j = (val->function & ~0xff000000); //function number if ((unsigned)j >= pr_progstate[(unsigned)i].progs->numfunctions) sprintf(line, "%i:%s", i, "CORRUPT FUNCTION POINTER"); else { f = pr_progstate[(unsigned)i].functions + j; sprintf (line, "%i:%s", i, f->s_name+progfuncs->funcs.stringtable); } } break; case ev_field: fielddef = ED_FieldAtOfs (progfuncs, val->_int + progfuncs->funcs.fieldadjust); if (fielddef) sprintf (line, "%s", fielddef->name); else sprintf (line, "bad field %i", type); break; case ev_void: sprintf (line, "void"); break; case ev_float: if (val->_float == (int)val->_float) sprintf (line, "%i", (int)val->_float); //an attempt to cut down on the number of .000000 vars.. else sprintf (line, "%f", val->_float); break; case ev_integer: sprintf (line, "%i", val->_int); break; case ev_vector: if (val->_vector[0] == (int)val->_vector[0] && val->_vector[1] == (int)val->_vector[1] && val->_vector[2] == (int)val->_vector[2]) sprintf (line, "%i %i %i", (int)val->_vector[0], (int)val->_vector[1], (int)val->_vector[2]); else sprintf (line, "%g %g %g", val->_vector[0], val->_vector[1], val->_vector[2]); break; case ev_pointer: QC_snprintfz (line, sizeof(line), "%#x", val->_int); break; default: sprintf (line, "bad type %i", type); break; } return line; } //compatible with Q1 (for savegames) char *PR_UglyOldValueString (progfuncs_t *progfuncs, etype_t type, eval_t *val) { static char line[4096]; fdef_t *fielddef; mfunction_t *f; #ifdef DEF_SAVEGLOBAL type &= ~DEF_SAVEGLOBAL; #endif if (pr_types) type = pr_types[type].type; switch (type) { case ev_struct: QC_snprintfz (line, sizeof(line), "structures cannot yet be saved"); break; case ev_union: QC_snprintfz (line, sizeof(line), "unions cannot yet be saved"); break; case ev_string: //FIXME: we should probably add markup. vanilla does _not_, so we can expect problems reloading anyway. QC_snprintfz (line, sizeof(line), "%s", PR_StringToNative(&progfuncs->funcs, val->string)); break; case ev_entity: QC_snprintfz (line, sizeof(line), "%i", val->edict); break; case ev_function: f = pr_progstate[(val->function & 0xff000000)>>24].functions + (val->function & ~0xff000000); QC_snprintfz (line, sizeof(line), "%s", f->s_name+progfuncs->funcs.stringtable); break; case ev_field: fielddef = ED_FieldAtOfs (progfuncs, val->_int + progfuncs->funcs.fieldadjust); QC_snprintfz (line, sizeof(line), "%s", fielddef->name); break; case ev_void: QC_snprintfz (line, sizeof(line), "void"); break; case ev_float: if (val->_float == (int)val->_float) QC_snprintfz (line, sizeof(line), "%i", (int)val->_float); //an attempt to cut down on the number of .000000 vars.. else QC_snprintfz (line, sizeof(line), "%f", val->_float); break; case ev_integer: QC_snprintfz (line, sizeof(line), "%i", val->_int); break; case ev_vector: if (val->_vector[0] == (int)val->_vector[0] && val->_vector[1] == (int)val->_vector[1] && val->_vector[2] == (int)val->_vector[2]) QC_snprintfz (line, sizeof(line), "%i %i %i", (int)val->_vector[0], (int)val->_vector[1], (int)val->_vector[2]); else QC_snprintfz (line, sizeof(line), "%f %f %f", val->_vector[0], val->_vector[1], val->_vector[2]); break; case ev_pointer: QC_snprintfz (line, sizeof(line), "%#x", val->_int); break; default: QC_snprintfz (line, sizeof(line), "bad type %i", type); break; } return line; } char *PR_TypeString(progfuncs_t *progfuncs, etype_t type) { #ifdef DEF_SAVEGLOBAL type &= ~DEF_SAVEGLOBAL; #endif if (pr_types) type = pr_types[type].type; switch (type) { case ev_struct: return "struct"; case ev_union: return "union"; case ev_string: return "string"; case ev_entity: return "entity"; case ev_function: return "function"; case ev_field: return "field"; case ev_void: return "void"; case ev_float: return "float"; case ev_vector: return "vector"; case ev_integer: return "integer"; default: return "BAD TYPE"; } } /* ============ PR_GlobalString Returns a string with a description and the contents of a global, padded to 20 field width ============ */ char *PR_GlobalString (progfuncs_t *progfuncs, int ofs) { char *s; int i; ddef16_t *def16; ddef32_t *def32; void *val; static char line[128]; switch (current_progstate->structtype) { case PST_DEFAULT: case PST_KKQWSV: val = (void *)&pr_globals[ofs]; def16 = ED_GlobalAtOfs16(progfuncs, ofs); if (!def16) sprintf (line,"%i(?""?""?)", ofs); else { s = PR_ValueString (progfuncs, def16->type, val, false); sprintf (line,"%i(%s)%s", ofs, def16->s_name+progfuncs->funcs.stringtable, s); } i = strlen(line); for ( ; i<20 ; i++) strcat (line," "); strcat (line," "); return line; case PST_QTEST: case PST_FTE32: val = (void *)&pr_globals[ofs]; def32 = ED_GlobalAtOfs32(progfuncs, ofs); if (!def32) sprintf (line,"%i(?""?""?)", ofs); else { s = PR_ValueString (progfuncs, def32->type, val, false); sprintf (line,"%i(%s)%s", ofs, def32->s_name+progfuncs->funcs.stringtable, s); } i = strlen(line); for ( ; i<20 ; i++) strcat (line," "); strcat (line," "); return line; } Sys_Error("Bad struct type in PR_GlobalString"); return ""; } char *PR_GlobalStringNoContents (progfuncs_t *progfuncs, int ofs) { int i; ddef16_t *def16; ddef32_t *def32; int nameofs = 0; static char line[128]; switch (current_progstate->structtype) { case PST_DEFAULT: case PST_KKQWSV: def16 = ED_GlobalAtOfs16(progfuncs, ofs); if (def16) nameofs = def16->s_name; break; case PST_QTEST: case PST_FTE32: def32 = ED_GlobalAtOfs32(progfuncs, ofs); if (def32) nameofs = def32->s_name; break; default: Sys_Error("Bad struct type in PR_GlobalStringNoContents"); } if (nameofs) sprintf (line,"%i(%s)", ofs, nameofs+progfuncs->funcs.stringtable); else { if (ofs >= OFS_RETURN && ofs < OFS_PARM0) sprintf (line,"%i(return_%c)", ofs, 'x' + (ofs - OFS_RETURN)%3); else if (ofs >= OFS_PARM0 && ofs < RESERVED_OFS) sprintf (line,"%i(parm%i_%c)", ofs, (ofs - OFS_PARM0)/3, 'x' + (ofs - OFS_PARM0)%3); else sprintf (line,"%i(?""?""?)", ofs); } i = strlen(line); for ( ; i<20 ; i++) strcat (line," "); strcat (line," "); return line; } /* ============= ED_Print For debugging ============= */ void PDECL ED_Print (pubprogfuncs_t *ppf, struct edict_s *ed) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; int l; fdef_t *d; int *v; unsigned int i;unsigned int j; char *name; int type; if (((edictrun_t *)ed)->ereftype == ER_FREE) { printf ("FREE\n"); return; } printf("\nEDICT %i:\n", NUM_FOR_EDICT(progfuncs, (struct edict_s *)ed)); for (i=1 ; iname; l = strlen(name); if (l >= 2 && name[l-2] == '_') continue; // skip _x, _y, _z vars v = (int *)((char *)edvars(ed) + d->ofs*4); // if the value is still all 0, skip the field #ifdef DEF_SAVEGLOBAL type = d->type & ~DEF_SAVEGLOBAL; #else type = d->type; #endif for (j=0 ; jtype, (eval_t *)v, false)); } } #if 0 void ED_PrintNum (progfuncs_t *progfuncs, int ent) { ED_Print (&progfuncs->funcs, EDICT_NUM(progfuncs, ent)); } /* ============= ED_PrintEdicts For debugging, prints all the entities in the current server ============= */ void ED_PrintEdicts (progfuncs_t *progfuncs) { unsigned int i; printf ("%i entities\n", sv_num_edicts); for (i=0 ; iisfree) continue; active++; // if (ent->v.solid) // solid++; // if (ent->v.model) // models++; // if (ent->v.movetype == MOVETYPE_STEP) // step++; } printf ("num_edicts:%3i\n", sv_num_edicts); printf ("active :%3i\n", active); // Con_Printf ("view :%3i\n", models); // Con_Printf ("touch :%3i\n", solid); // Con_Printf ("step :%3i\n", step); } #endif //============================================================================ /* ============= ED_NewString ============= */ char *PDECL ED_NewString (pubprogfuncs_t *ppf, const char *string, int minlength, pbool demarkup) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; char *newc, *new_p; int i,l; minlength++; l = strlen(string) + 1; newc = progfuncs->funcs.AddressableAlloc (&progfuncs->funcs, lfuncs.stringtable; new_p = newc; for (i=0 ; i< l ; i++) { if (demarkup && string[i] == '\\' && i < l-1 && string[i+1] != 0) { i++; switch(string[i]) { case 'n': *new_p++ = '\n'; break; case '\'': *new_p++ = '\''; break; case '\"': *new_p++ = '\"'; break; case 'r': *new_p++ = '\r'; break; default: *new_p++ = '\\'; i--; break; } } else *new_p++ = string[i]; } return newc; } /* ============= ED_ParseEval Can parse either fields or globals returns false if error ============= */ pbool PDECL ED_ParseEval (pubprogfuncs_t *ppf, eval_t *eval, int type, const char *s) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; int i; char string[128]; fdef_t *def; char *v, *w; string_t st; mfunction_t *func; switch (type & ~DEF_SAVEGLOBAL) { case ev_string: #ifdef QCGC st = PR_AllocTempString(&progfuncs->funcs, s); #else st = PR_StringToProgs(&progfuncs->funcs, ED_NewString (&progfuncs->funcs, s, 0, true)); #endif eval->string = st; break; case ev_float: eval->_float = (float)atof (s); break; case ev_integer: eval->_int = atoi (s); break; case ev_vector: strncpy (string, s, sizeof(string)); string[sizeof(string)-1] = 0; v = string; w = string; for (i=0 ; i<3 ; i++) { while (*v && *v != ' ') v++; if (!*v) { eval->_vector[i] = (float)atof (w); w = v; } else { *v = 0; eval->_vector[i] = (float)atof (w); w = v = v+1; } } break; case ev_entity: eval->edict = atoi (s); break; case ev_field: def = ED_FindField (progfuncs, s); if (!def) { printf ("Can't find field %s\n", s); return false; } eval->_int = def->ofs; break; case ev_function: if (s[1]==':'&&s[2]=='\0') { eval->function = 0; return true; } func = ED_FindFunction (progfuncs, s, &i, -1); if (!func) { printf ("Can't find function %s\n", s); return false; } eval->function = (func - pr_progstate[i].functions) | (i<<24); break; default: return false; } return true; } pbool ED_ParseEpair (progfuncs_t *progfuncs, size_t qcptr, unsigned int fldofs, int fldtype, char *s) { int i; char string[128]; fdef_t *def; char *v, *w; string_t st; mfunction_t *func; int type = fldtype & ~DEF_SAVEGLOBAL; qcptr += fldofs*sizeof(int); switch (type) { case ev_string: #ifdef QCGC st = PR_AllocTempString(&progfuncs->funcs, s); #else st = PR_StringToProgs(&progfuncs->funcs, ED_NewString (&progfuncs->funcs, s, 0, true)); #endif *(string_t *)(progfuncs->funcs.stringtable + qcptr) = st; break; case ev_float: *(float *)(progfuncs->funcs.stringtable + qcptr) = (float)atof (s); break; case ev_integer: *(int *)(progfuncs->funcs.stringtable + qcptr) = atoi (s); break; case ev_vector: strcpy (string, s); v = string; w = string; for (i=0 ; i<3 ; i++) { while (*v && *v != ' ') v++; if (!*v) { ((float *)(progfuncs->funcs.stringtable + qcptr))[i] = (float)atof (w); w = v; } else { *v = 0; ((float *)(progfuncs->funcs.stringtable + qcptr))[i] = (float)atof (w); w = v = v+1; } } break; case ev_entity: *(int *)(progfuncs->funcs.stringtable + qcptr) = atoi (s); break; case ev_field: def = ED_FindField (progfuncs, s); if (!def) { printf ("Can't find field %s\n", s); return false; } *(int *)(progfuncs->funcs.stringtable + qcptr) = def->ofs; break; case ev_function: if (s[1]==':'&&s[2]=='\0') { *(func_t *)(progfuncs->funcs.stringtable + qcptr) = 0; return true; } func = ED_FindFunction (progfuncs, s, &i, -1); if (!func) { printf ("Can't find function %s\n", s); return false; } *(func_t *)(progfuncs->funcs.stringtable + qcptr) = (func - pr_progstate[i].functions) | (i<<24); break; default: break; } return true; } /* ==================== ED_ParseEdict Parses an edict out of the given string, returning the new position ed should be a properly initialized empty edict. Used for initial level load and for savegames. ==================== */ #if 1 const char *ED_ParseEdict (progfuncs_t *progfuncs, const char *data, edictrun_t *ent) { fdef_t *key; pbool init; char keyname[256]; int n; int nest = 1; // eval_t *val; init = false; // clear it // if (ent != (edictrun_t *)sv_edicts) // hack // memset (ent+1, 0, pr_edict_size - sizeof(edictrun_t)); // go through all the dictionary pairs while (1) { // parse key data = QCC_COM_Parse (data); if (qcc_token[0] == '}') { if (--nest) continue; break; } if (qcc_token[0] == '{' && !qcc_token[1]) nest++; if (!data) { printf ("ED_ParseEntity: EOF without closing brace\n"); return NULL; } if (nest > 1) continue; strncpy (keyname, qcc_token, sizeof(keyname)-1); keyname[sizeof(keyname)-1] = 0; // another hack to fix heynames with trailing spaces n = strlen(keyname); while (n && keyname[n-1] == ' ') { keyname[n-1] = 0; n--; } // parse value data = QCC_COM_Parse (data); if (!data) { printf ("ED_ParseEntity: EOF without closing brace\n"); return NULL; } if (qcc_token[0] == '}') { printf ("ED_ParseEntity: closing brace without data\n"); return NULL; } init = true; // keynames with a leading underscore are used for utility comments, // and are immediately discarded by quake if (keyname[0] == '_') continue; if (!strcmp(keyname, "angle")) //Quake anglehack - we've got to leave it in cos it doesn't work for quake otherwise, and this is a QuakeC lib! { if ((key = ED_FindField (progfuncs, "angles"))) { QC_snprintfz (qcc_token, sizeof(qcc_token), "0 %f 0", atof(qcc_token)); //change it from yaw to 3d angle goto cont; } } key = ED_FindField (progfuncs, keyname); if (!key) { if (!strcmp(keyname, "light")) //Quake lighthack - allows a field name and a classname to go by the same thing in the level editor if ((key = ED_FindField (progfuncs, "light_lev"))) goto cont; if (externs->badfield && externs->badfield(&progfuncs->funcs, (struct edict_s*)ent, keyname, qcc_token)) continue; PR_DPrintf ("'%s' is not a field\n", keyname); continue; } cont: if (!ED_ParseEpair (progfuncs, (char*)ent->fields - progfuncs->funcs.stringtable, key->ofs, key->type, qcc_token)) { continue; // Sys_Error ("ED_ParseEdict: parse error on entities"); } } if (!init) ent->ereftype = ER_FREE; return data; } #endif static void PR_Cat(char *out, const char *in, size_t *len, size_t max) { size_t newl = strlen(in); max-=1; if (*len + newl > max) newl = max - *len; //truncate memcpy(out + *len, in, newl+1); *len += newl; } /* ================ ED_LoadFromFile The entities are directly placed in the array, rather than allocated with ED_Alloc, because otherwise an error loading the map would have entity number references out of order. Creates a server's entity / program execution context by parsing textual entity definitions out of an ent file. Used for both fresh maps and savegame loads. A fresh map would also need to call ED_CallSpawnFunctions () to let the objects initialize themselves. ================ */ char *ED_WriteGlobals(progfuncs_t *progfuncs, char *buf, size_t *bufofs, size_t bufmax) //switch first. { #define AddS(str) PR_Cat(buf, str, bufofs, bufmax) int *v; ddef32_t *def32; ddef16_t *def16; unsigned int i; unsigned int j; const char *name; int type; int curprogs = prinst.pr_typecurrent; int len; switch(current_progstate->structtype) { case PST_DEFAULT: case PST_KKQWSV: for (i=0 ; inumglobaldefs ; i++) { def16 = &pr_globaldefs16[i]; name = def16->s_name + progfuncs->funcs.stringtable; len = strlen(name); if (!*name) continue; if (len >= 2 && name[len-2] == '_' && (name[len-1] == 'x' || name[len-1] == 'y' || name[len-1] == 'z')) continue; // skip _x, _y, _z vars (vector components, which are saved as one vector not 3 floats) type = def16->type; #ifdef DEF_SAVEGLOBAL if ( !(def16->type & DEF_SAVEGLOBAL) ) continue; type &= ~DEF_SAVEGLOBAL; #endif if (current_progstate->types) type = current_progstate->types[type].type; if (type == ev_function) { v = (int *)¤t_progstate->globals[def16->ofs]; if ((v[0]&0xff000000)>>24 == (unsigned)curprogs) //same progs { if (!progfuncs->funcs.stringtable[current_progstate->functions[v[0]&0x00ffffff].s_name]) continue; else if (!strcmp(current_progstate->functions[v[0]&0x00ffffff].s_name+ progfuncs->funcs.stringtable, name)) //names match. Assume function is at initial value. continue; } if (curprogs!=0) if ((v[0]&0xff000000)>>24 == 0) if (!ED_FindFunction(progfuncs, name, NULL, curprogs)) //defined as extern { if (!progfuncs->funcs.stringtable[pr_progstate[0].functions[v[0]&0x00ffffff].s_name]) continue; else if (!strcmp(pr_progstate[0].functions[v[0]&0x00ffffff].s_name + progfuncs->funcs.stringtable, name)) //same name. continue; } //else function has been redirected externally. goto add16; } else if (type != ev_string //anything other than these is not saved && type != ev_float && type != ev_integer && type != ev_entity && type != ev_vector) continue; v = (int *)¤t_progstate->globals[def16->ofs]; // make sure the value is not null, where there's no point in saving for (j=0 ; jfuncs, def16->type&~DEF_SAVEGLOBAL, (eval_t *)v)); AddS("\"\n"); } break; case PST_QTEST: case PST_FTE32: for (i=0 ; inumglobaldefs ; i++) { size_t nlen; def32 = &pr_globaldefs32[i]; name = PR_StringToNative(&progfuncs->funcs, def32->s_name); nlen = strlen(name); if (nlen >= 3 && name[nlen-2] == '_') continue; // skip _x, _y, _z vars (vector components, which are saved as one vector not 3 floats) type = def32->type; #ifdef DEF_SAVEGLOBAL if ( !(def32->type & DEF_SAVEGLOBAL) ) continue; type &= ~DEF_SAVEGLOBAL; #endif if (current_progstate->types) type = current_progstate->types[type].type; if (type == ev_function) { v = (int *)¤t_progstate->globals[def32->ofs]; if ((v[0]&0xff000000)>>24 == (unsigned)curprogs) //same progs if (!strcmp(current_progstate->functions[v[0]&0x00ffffff].s_name+ progfuncs->funcs.stringtable, name)) //names match. Assume function is at initial value. continue; if (curprogs!=0) if ((v[0]&0xff000000)>>24 == 0) if (!ED_FindFunction(progfuncs, name, NULL, curprogs)) //defined as extern if (!strcmp(pr_progstate[0].functions[v[0]&0x00ffffff].s_name+ progfuncs->funcs.stringtable, name)) //same name. continue; //else function has been redirected externally. goto add32; } else if (type != ev_string //anything other than these is not saved && type != ev_float && type != ev_integer && type != ev_entity && type != ev_vector) continue; v = (int *)¤t_progstate->globals[def32->ofs]; // make sure the value is not null, where there's no point in saving for (j=0 ; jfuncs, def32->type&~DEF_SAVEGLOBAL, (eval_t *)v)); AddS("\"\n"); } break; default: Sys_Error("Bad struct type in SaveEnts"); } return buf; #undef AddS } char *ED_WriteEdict(progfuncs_t *progfuncs, edictrun_t *ed, char *buf, size_t *bufofs, size_t bufmax, pbool q1compatible) { #define AddS(str) PR_Cat(buf, str, bufofs, bufmax) fdef_t *d; int *v; unsigned int i;unsigned int j; char *name; int type; int len; char *tmp; for (i=0 ; iname; len = strlen(name); if (len>4 && (name[len-2] == '_' && (name[len-1] == 'x' || name[len-1] == 'y' || name[len-1] == 'z'))) continue; // skip _x, _y, _z vars v = (int *)((char*)ed->fields + d->ofs*4); // if the value is still all 0, skip the field #ifdef DEF_SAVEGLOBAL type = d->type & ~DEF_SAVEGLOBAL; #else type = d->type; #endif for (j=0 ; jtype, (eval_t *)v); else tmp = PR_UglyValueString(&progfuncs->funcs, d->type, (eval_t *)v); AddS("\""); AddS(tmp); AddS("\"\n"); } return buf; #undef AddS } //just a simple helper that makes sure the s_name+s_file values are actually valid. some qccs generate really dodgy values intended to crash decompilers, but also crash debuggers too. static char *PR_StaticString(progfuncs_t *progfuncs, string_t thestring) { if (thestring <= 0 || thestring >= progfuncs->funcs.stringtablesize) return "???"; return thestring + progfuncs->funcs.stringtable; } char *PR_SaveCallStack (progfuncs_t *progfuncs, char *buf, size_t *bufofs, size_t bufmax) { #define AddS(str) PR_Cat(buf, str, bufofs, bufmax) char buffer[8192]; const mfunction_t *f; int i; int progs; int arg; int *globalbase; progs = -1; if (pr_depth == 0) { AddS ("\n"); return buf; } globalbase = (int *)pr_globals + pr_xfunction->parm_start + pr_xfunction->locals; pr_stack[pr_depth].f = pr_xfunction; for (i=pr_depth ; i>0 ; i--) { f = pr_stack[i].f; if (!f) { AddS ("\n"); } else { if (pr_stack[i].progsnum != progs) { progs = pr_stack[i].progsnum; sprintf(buffer, "//%i %s\n", progs, pr_progstate[progs].filename); AddS (buffer); } if (!f->s_file) sprintf(buffer, "\t\"%i:%s\"\n", progs, PR_StaticString(progfuncs, f->s_name)); else sprintf(buffer, "\t\"%i:%s\" //%s\n", progs, PR_StaticString(progfuncs, f->s_name), PR_StaticString(progfuncs, f->s_file)); AddS (buffer); AddS ("\t{\n"); for (arg = 0; arg < f->locals; arg++) { ddef16_t *local; local = ED_GlobalAtOfs16(progfuncs, f->parm_start+arg); if (!local) sprintf(buffer, "\t\tofs%i %i // %f\n", f->parm_start+arg, *(int *)(globalbase - f->locals+arg), *(float *)(globalbase - f->locals+arg) ); else { if (local->type == ev_entity) { sprintf(buffer, "\t\t\"%s\" \"entity %i\"\n", PR_StaticString(progfuncs, local->s_name), ((eval_t*)(globalbase - f->locals+arg))->edict); } else sprintf(buffer, "\t\t\"%s\"\t\"%s\"\n", PR_StaticString(progfuncs, local->s_name), PR_ValueString(progfuncs, local->type, (eval_t*)(globalbase - f->locals+arg), false)); if (local->type == ev_vector) arg+=2; } AddS (buffer); } AddS ("\t}\n"); if (i == pr_depth) globalbase = prinst.localstack + prinst.localstack_used - f->locals; else globalbase -= f->locals; } } return buf; #undef AddS } //there are two ways of saving everything. //0 is to save just the entities. //1 is to save the entites, and all the progs info so that all the variables are saved off, and it can be reloaded to exactly how it was (provided no files or data has been changed outside, like the progs.dat for example) char *PDECL PR_SaveEnts(pubprogfuncs_t *ppf, char *buf, size_t *bufofs, size_t bufmax, int alldata) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; #define AddS(str) PR_Cat(buf, str, bufofs, bufmax) unsigned int a; char *buffree = NULL; int oldprogs; if (!buf) { if (bufmax <= 0) bufmax = 5*1024*1024; buffree = buf = externs->memalloc(bufmax); } *bufofs = 0; if (alldata == 2) { //special Q1 savegame compatability mode. //engine will need to store references to progs type and will need to preload the progs and inti the ents itself before loading. //Make sure there is only 1 progs loaded. for (a = 1; a < prinst.maxprogs; a++) { if (pr_progstate[a].progs) break; } if (!pr_progstate[0].progs || a != prinst.maxprogs) //the state of the progs wasn't Q1 compatible. { externs->memfree(buffree); return NULL; } //write the globals AddS ("{\n"); oldprogs = prinst.pr_typecurrent; PR_SwitchProgs(progfuncs, 0); ED_WriteGlobals(progfuncs, buf, bufofs, bufmax); PR_SwitchProgs(progfuncs, oldprogs); AddS ("}\n"); //write the ents for (a = 0; a < sv_num_edicts; a++) { edictrun_t *ed = (edictrun_t *)EDICT_NUM(progfuncs, a); AddS ("{\n"); if (ed->ereftype == ER_ENTITY) //free entities write a {} with no data. the loader detects this specifically. ED_WriteEdict(progfuncs, ed, buf, bufofs, bufmax, true); AddS ("}\n"); } return buf; } if (alldata) { AddS("general {\n"); AddS(qcva("\"maxprogs\" \"%i\"\n", prinst.maxprogs)); // AddS(qcva("\"maxentities\" \"%i\"\n", maxedicts)); // AddS(qcva("\"mem\" \"%i\"\n", hunksize)); // AddS(qcva("\"crc\" \"%i\"\n", header_crc)); AddS(qcva("\"numentities\" \"%i\"\n", sv_num_edicts)); AddS("}\n"); oldprogs = prinst.pr_typecurrent; for (a = 0; a < prinst.maxprogs; a++) { if (!pr_progstate[a].progs) continue; { AddS (qcva("progs %i {\n", a)); AddS (qcva("\"filename\" \"%s\"\n", pr_progstate[a].filename)); AddS (qcva("\"crc\" \"%i\"\n", pr_progstate[a].progs->crc)); AddS ("}\n"); } } if (alldata == 3) { //include callstack AddS("stacktrace {\n"); PR_SaveCallStack(progfuncs, buf, bufofs, bufmax); AddS("}\n"); } for (a = 0; a < prinst.maxprogs; a++) //I would mix, but external functions rely on other progs being loaded { if (!pr_progstate[a].progs) continue; AddS (qcva("globals %i {\n", a)); PR_SwitchProgs(progfuncs, a); ED_WriteGlobals(progfuncs, buf, bufofs, bufmax); AddS ("}\n"); } PR_SwitchProgs(progfuncs, oldprogs); } for (a = 0; a < sv_num_edicts; a++) { edictrun_t *ed = (edictrun_t *)EDICT_NUM(progfuncs, a); if (!ed || ed->ereftype != ER_ENTITY) continue; AddS (qcva("entity %i{\n", a)); ED_WriteEdict(progfuncs, ed, buf, bufofs, bufmax, false); AddS ("}\n"); } return buf; #undef AddS } int header_crc; //if 'general' block is found, this is a compleate state, otherwise, we should spawn entities like int PDECL PR_LoadEnts(pubprogfuncs_t *ppf, const char *file, void *ctx, void (PDECL *callback) (pubprogfuncs_t *progfuncs, struct edict_s *ed, void *ctx, const char *entstart, const char *entend)) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; const char *datastart; // eval_t *selfvar = NULL; // eval_t *var; // const char *spawnwarned[20] = {NULL}; char filename[128]; int num; edictrun_t *ed=NULL; ddef16_t *d16; ddef32_t *d32; void *oldglobals = NULL; int oldglobalssize = 0; extern edictrun_t tempedict; int crc = 1; int entsize = 0; int numents = 0; pbool resethunk=0; pbool isloadgame; if (file && !strncmp(file, "loadgame", 8)) { isloadgame = true; numents = -1; file+=8; } else isloadgame = false; while(1) { datastart = file; file = QCC_COM_Parse(file); if (file == NULL) break; //finished reading file else if (!strcmp(qcc_token, "Version")) { file = QCC_COM_Parse(file); //qcc_token is a version number } else if (!strcmp(qcc_token, "entity")) { if (entsize == 0 && resethunk) //edicts have not yet been initialized, and this is a compleate load (memsize has been set) { entsize = PR_InitEnts(&progfuncs->funcs, prinst.maxedicts); // sv_num_edicts = numents; for (num = 0; num < numents; num++) { ed = (edictrun_t *)EDICT_NUM(progfuncs, num); if (!ed) { ed = ED_AllocIntoTable(progfuncs, num, false, prinst.fields_size); ed->ereftype = ER_FREE; if (externs->entspawn) externs->entspawn((struct edict_s *) ed, true); } } } file = QCC_COM_Parse(file); num = atoi(qcc_token); datastart = file; file = QCC_COM_Parse(file); if (qcc_token[0] != '{') Sys_Error("Progs loading found %s, not '{'", qcc_token); if (!resethunk) ed = (edictrun_t *)ED_Alloc(&progfuncs->funcs, false, 0); else { ed = (edictrun_t *)EDICT_NUM(progfuncs, num); if (!ed) { Sys_Error("Edict was not allocated\n"); ed = ED_AllocIntoTable(progfuncs, num, false, prinst.fields_size); } } ed->ereftype = ER_ENTITY; if (externs->entspawn) externs->entspawn((struct edict_s *) ed, true); file = ED_ParseEdict(progfuncs, file, ed); if (callback) callback(ppf, (struct edict_s *)ed, ctx, datastart, file); } else if (!strcmp(qcc_token, "progs")) { file = QCC_COM_Parse(file); num = atoi(qcc_token); file = QCC_COM_Parse(file); if (qcc_token[0] != '{') Sys_Error("Progs loading found %s, not '{'", qcc_token); filename[0] = '\0'; header_crc = 0; while(1) { file = QCC_COM_Parse(file); //read the key if (!file) Sys_Error("EOF in progs block"); if (!strcmp("filename", qcc_token)) //check key get and save values {file = QCC_COM_Parse(file); strcpy(filename, qcc_token);} else if (!strcmp("crc", qcc_token)) {file = QCC_COM_Parse(file); header_crc = atoi(qcc_token);} else if (!strcmp("numbuiltins", qcc_token)) //no longer supported. {file = QCC_COM_Parse(file); /*qcc_token unused*/} else if (qcc_token[0] == '}') //end of block break; else Sys_Error("Bad key \"%s\" in progs block", qcc_token); } PR_ReallyLoadProgs(progfuncs, filename, &pr_progstate[num], true); if (num == 0 && oldglobals) { if (pr_progstate[0].globals_size == oldglobalssize) memcpy(pr_progstate[0].globals, oldglobals, pr_progstate[0].globals_size); free(oldglobals); oldglobals = NULL; } PR_SwitchProgs(progfuncs, 0); } else if (!strcmp(qcc_token, "globals")) { if (entsize == 0 && resethunk) //by the time we parse some globals, we MUST have loaded all progs { entsize = PR_InitEnts(&progfuncs->funcs, prinst.maxedicts); // sv_num_edicts = numents; for (num = 0; num < numents; num++) { ed = (edictrun_t *)EDICT_NUM(progfuncs, num); if (!ed) { ed = ED_AllocIntoTable(progfuncs, num, false, prinst.fields_size); ed->ereftype = ER_FREE; } if (externs->entspawn) externs->entspawn((struct edict_s *) ed, true); } } file = QCC_COM_Parse(file); num = atoi(qcc_token); file = QCC_COM_Parse(file); if (qcc_token[0] != '{') Sys_Error("Globals loading found \'%s\', not '{'", qcc_token); PR_SwitchProgs(progfuncs, num); while (1) { file = QCC_COM_Parse(file); if (qcc_token[0] == '}') break; else if (!qcc_token[0] || !file) Sys_Error("EOF when parsing global values"); switch(current_progstate->structtype) { case PST_DEFAULT: case PST_KKQWSV: if (!(d16 = ED_FindGlobal16(progfuncs, qcc_token))) { printf("global value %s not found\n", qcc_token); file = QCC_COM_Parse(file); } else { file = QCC_COM_Parse(file); ED_ParseEpair(progfuncs, (char*)pr_globals - progfuncs->funcs.stringtable, d16->ofs, d16->type, qcc_token); } break; case PST_QTEST: case PST_FTE32: if (!(d32 = ED_FindGlobal32(progfuncs, qcc_token))) { printf("global value %s not found\n", qcc_token); file = QCC_COM_Parse(file); } else { file = QCC_COM_Parse(file); ED_ParseEpair(progfuncs, (char*)pr_globals - progfuncs->funcs.stringtable, d32->ofs, d32->type, qcc_token); } break; default: Sys_Error("Bad struct type in LoadEnts"); } } PR_SwitchProgs(progfuncs, 0); // file = QCC_COM_Parse(file); // if (com_token[0] != '}') // Sys_Error("Progs loading found %s, not '}'", qcc_token); } else if (!strcmp(qcc_token, "general")) { QC_StartShares(progfuncs); // QC_InitShares(); //forget stuff // pr_edict_size = 0; prinst.max_fields_size=0; file = QCC_COM_Parse(file); if (qcc_token[0] != '{') Sys_Error("Progs loading found %s, not '{'", qcc_token); while(1) { file = QCC_COM_Parse(file); //read the key if (!file) Sys_Error("EOF in general block"); if (!strcmp("maxprogs", qcc_token)) //check key get and save values {file = QCC_COM_Parse(file); prinst.maxprogs = atoi(qcc_token);} // else if (!strcmp("maxentities", com_token)) // {file = QCC_COM_Parse(file); maxedicts = atoi(qcc_token);} // else if (!strcmp("mem", com_token)) // {file = QCC_COM_Parse(file); memsize = atoi(qcc_token);} // else if (!strcmp("crc", com_token)) // {file = QCC_COM_Parse(file); crc = atoi(qcc_token);} else if (!strcmp("numentities", qcc_token)) {file = QCC_COM_Parse(file); numents = atoi(qcc_token);} else if (qcc_token[0] == '}') //end of block break; else Sys_Error("Bad key \"%s\" in general block", qcc_token); } if (oldglobals) free(oldglobals); oldglobals = NULL; if (pr_progstate[0].globals_size) { oldglobals = malloc(pr_progstate[0].globals_size); if (oldglobals) { oldglobalssize = pr_progstate[0].globals_size; memcpy(oldglobals, pr_progstate[0].globals, oldglobalssize); } else printf("Unable to alloc %i bytes\n", pr_progstate[0].globals_size); } PRAddressableFlush(progfuncs, 0); resethunk=true; pr_progstate = PRHunkAlloc(progfuncs, sizeof(progstate_t) * prinst.maxprogs, "progstatetable"); prinst.pr_typecurrent=0; sv_num_edicts = 1; //set up a safty buffer so things won't go horribly wrong too often sv_edicts=(struct edict_s *)&tempedict; prinst.edicttable = (struct edictrun_s**)(progfuncs->funcs.edicttable = &sv_edicts); progfuncs->funcs.edicttable_length = numents; sv_num_edicts = numents; //should be fine // PR_Configure(crc, NULL, memsize, maxedicts, maxprogs); } else if (!strcmp(qcc_token, "{")) { if (isloadgame) { if (numents == -1) //globals { while (1) { file = QCC_COM_Parse(file); if (qcc_token[0] == '}') break; else if (!qcc_token[0] || !file) Sys_Error("EOF when parsing global values"); switch(current_progstate->structtype) { case PST_DEFAULT: case PST_KKQWSV: if (!(d16 = ED_FindGlobal16(progfuncs, qcc_token))) { printf("global value %s not found\n", qcc_token); file = QCC_COM_Parse(file); } else { file = QCC_COM_Parse(file); ED_ParseEpair(progfuncs, (char*)pr_globals - progfuncs->funcs.stringtable, d16->ofs, d16->type, qcc_token); } break; case PST_QTEST: case PST_FTE32: if (!(d32 = ED_FindGlobal32(progfuncs, qcc_token))) { printf("global value %s not found\n", qcc_token); file = QCC_COM_Parse(file); } else { file = QCC_COM_Parse(file); ED_ParseEpair(progfuncs, (char*)pr_globals - progfuncs->funcs.stringtable, d32->ofs, d32->type, qcc_token); } break; default: Sys_Error("Bad struct type in LoadEnts"); } } } else { ed = (edictrun_t *)EDICT_NUM(progfuncs, numents); if (!ed) ed = ED_AllocIntoTable(progfuncs, numents, false, prinst.fields_size); if (externs->entspawn) externs->entspawn((struct edict_s *) ed, true); ed->ereftype = ER_ENTITY; file = ED_ParseEdict (progfuncs, file, ed); } sv_num_edicts = ++numents; continue; } if (entsize == 0 && resethunk) //edicts have not yet been initialized, and this is a compleate load (memsize has been set) { entsize = PR_InitEnts(&progfuncs->funcs, prinst.maxedicts); // sv_num_edicts = numents; for (num = 0; num < numents; num++) { ed = (edictrun_t *)EDICT_NUM(progfuncs, num); if (!ed) { ed = ED_AllocIntoTable(progfuncs, num, false, prinst.fields_size); ed->ereftype = ER_FREE; } } } if (!ed) //first entity ed = (edictrun_t *)EDICT_NUM(progfuncs, 0); else ed = (edictrun_t *)ED_Alloc(&progfuncs->funcs, false, 0); ed->ereftype = ER_ENTITY; if (externs->entspawn) externs->entspawn((struct edict_s *) ed, true); file = ED_ParseEdict(progfuncs, file, ed); callback(ppf, (struct edict_s *)ed, ctx, datastart, file); } else Sys_Error("Bad entity lump: '%s' not recognised (last ent was %i)", qcc_token, ed?ed->entnum:0); } if (resethunk) { header_crc = crc; if (externs->loadcompleate) externs->loadcompleate(entsize); sv_num_edicts = numents; } if (oldglobals) free(oldglobals); oldglobals = NULL; if (resethunk) { return entsize; } else return prinst.max_fields_size; } //FIXME: maxsize is ignored. char *PDECL PR_SaveEnt (pubprogfuncs_t *ppf, char *buf, size_t *size, size_t maxsize, struct edict_s *ed) { #define AddS(str) PR_Cat(buf, str, size, maxsize) progfuncs_t *progfuncs = (progfuncs_t*)ppf; fdef_t *d; int *v; unsigned int i;unsigned int j; char *name, *mname; const char *classname = NULL; int classnamelen = 0; int type; // if (ed->free) // continue; AddS ("{\n"); for (i=0 ; iname; len = strlen(name); // should we skip vars with no name? if (len > 2 && name[len-2] == '_' && (name[len-1] == 'x' || name[len-1] == 'y' || name[len-1] == 'z')) continue; // skip _x, _y, _z vars v = (int*)((edictrun_t*)ed)->fields + d->ofs; // if the value is still all 0, skip the field type = d->type & ~DEF_SAVEGLOBAL; for (j=0 ; jofs*4); classname = PR_StringToNative(&progfuncs->funcs, *v); } else classname = ""; classnamelen = strlen(classname); } for (j = i+1; j < prinst.numfields; j++) { if (prinst.field[j].ofs == d->ofs) { mname = prinst.field[j].name; if (!strncmp(mname, classname, classnamelen) && mname[classnamelen] == ':') { //okay, we have a match... name = prinst.field[j].name; break; } } } } //add it to the file AddS("\""); AddS(name); AddS("\" \""); AddS(PR_UglyValueString(&progfuncs->funcs, d->type, (eval_t *)v)); AddS("\"\n"); } AddS ("}\n"); return buf; } struct edict_s *PDECL PR_RestoreEnt (pubprogfuncs_t *ppf, const char *buf, size_t *size, struct edict_s *ed) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; edictrun_t *ent; const char *start = buf; buf = QCC_COM_Parse(buf); //read the key if (!buf || !*qcc_token) return NULL; if (strcmp(qcc_token, "{")) Sys_Error("Restore Ent with no opening brace"); if (!ed) ent = (edictrun_t *)ED_Alloc(&progfuncs->funcs, false, 0); else ent = (edictrun_t *)ed; if (ent->ereftype == ER_FREE && externs->entspawn) externs->entspawn((struct edict_s *) ent, false); buf = ED_ParseEdict(progfuncs, buf, ent); *size = buf - start; return (struct edict_s *)ent; } #define Host_Error Sys_Error //return true if pr_progs needs recompiling (source files have changed) pbool PR_TestRecompile(progfuncs_t *progfuncs) { int newsize; int num, found=0, lost=0, changed=0; includeddatafile_t *s; if (!pr_progs->ofsfiles) return false; num = *(int*)((char *)pr_progs + pr_progs->ofsfiles); s = (includeddatafile_t *)((char *)pr_progs + pr_progs->ofsfiles+4); while(num>0) { newsize = externs->FileSize(s->filename); if (newsize == -1) //ignore now missing files. - the referencer must have changed... lost++; else if (s->size != newsize) //file changed++; else found++; s++; num--; } if (lost > found+changed) return false; if (changed) return true; return false; } /* #ifdef _DEBUG //this is for debugging. //I'm using this to detect incorrect string types while converting 32bit string pointers with bias to bound indexes. void PR_TestForWierdness(progfuncs_t *progfuncs) { unsigned int i; int e; edictrun_t *ed; for (i = 0; i < pr_progs->numglobaldefs; i++) { if ((pr_globaldefs16[i].type&~(DEF_SHARED|DEF_SAVEGLOBAL)) == ev_string) { if (G_INT(pr_globaldefs16[i].ofs) < 0 || G_INT(pr_globaldefs16[i].ofs) >= addressableused) printf("String type irregularity on \"%s\" \"%s\"\n", pr_globaldefs16[i].s_name+progfuncs->funcs.stringtable, G_INT(pr_globaldefs16[i].ofs)+progfuncs->funcs.stringtable); } } for (i = 0; i < numfields; i++) { if ((field[i].type&~(DEF_SHARED|DEF_SAVEGLOBAL)) == ev_string) { for (e = 0; e < sv_num_edicts; e++) { ed = (edictrun_t*)EDICT_NUM(progfuncs, e); if (ed->isfree) continue; if (((int *)ed->fields)[field[i].ofs] < 0 || ((int *)ed->fields)[field[i].ofs] >= addressableused) printf("String type irregularity \"%s\" \"%s\"\n", field[i].name, ((int *)ed->fields)[field[i].ofs]+progfuncs->funcs.stringtable); } } } } #endif */ void PR_CleanUpStatements16(progfuncs_t *progfuncs, dstatement16_t *st, pbool hexencalling) { unsigned int numst = pr_progs->numstatements; unsigned int numglob = pr_progs->numglobals+3; //+3 because I'm too lazy to deal with vectors unsigned int i; for (i=0 ; i= OP_CALL1 && st[i].op <= OP_CALL8 && hexencalling) st[i].op += OP_CALL1H - OP_CALL1; if (st[i].op >= OP_RAND0 && st[i].op <= OP_RANDV2 && hexencalling) if (!st[i].c) st[i].c = OFS_RETURN; //sanitise inputs if (st[i].a >= numglob) if (st[i].op != OP_GOTO) st[i].op = ~0; if (st[i].b >= numglob) if (st[i].op != OP_IFNOT_I && st[i].op != OP_IF_I && st[i].op != OP_IFNOT_F && st[i].op != OP_IF_F && st[i].op != OP_IFNOT_S && st[i].op != OP_IF_S && st[i].op != OP_BOUNDCHECK && st[i].op != OP_CASE) st[i].op = ~0; if (st[i].c >= numglob) if (st[i].op != OP_BOUNDCHECK && st[i].op != OP_CASERANGE) st[i].op = ~0; } } void PR_CleanUpStatements32(progfuncs_t *progfuncs, dstatement32_t *st, pbool hexencalling) { unsigned int numst = pr_progs->numstatements; unsigned int numglob = pr_progs->numglobals+3; //+3 because I'm too lazy to deal with vectors unsigned int i; for (i=0 ; i= OP_CALL1 && st[i].op <= OP_CALL8 && hexencalling) st[i].op += OP_CALL1H - OP_CALL1; if (st[i].op >= OP_RAND0 && st[i].op <= OP_RANDV2 && hexencalling) if (!st[i].c) st[i].c = OFS_RETURN; //sanitise inputs if (st[i].a >= numglob) if (st[i].op != OP_GOTO) st[i].op = ~0; if (st[i].b >= numglob) if (st[i].op != OP_IFNOT_I && st[i].op != OP_IF_I && st[i].op != OP_IFNOT_F && st[i].op != OP_IF_F && st[i].op != OP_IFNOT_S && st[i].op != OP_IF_S && st[i].op != OP_BOUNDCHECK && st[i].op != OP_CASE) st[i].op = ~0; if (st[i].c >= numglob) if (st[i].op != OP_BOUNDCHECK && st[i].op != OP_CASERANGE) st[i].op = ~0; } } char *decode(int complen, int len, int method, char *info, char *buffer); unsigned char *PR_GetHeapBuffer (void *ctx, size_t bufsize) { return PRHunkAlloc(ctx, bufsize+1, "proginfo"); } /* =============== PR_LoadProgs =============== */ int PR_ReallyLoadProgs (progfuncs_t *progfuncs, const char *filename, progstate_t *progstate, pbool complain) { unsigned int i, j, type; // extensionbuiltin_t *eb; // float fl; // int len; // int num; // dfunction_t *f, *f2; ddef16_t *d16; ddef32_t *d32; int *d2; eval_t *eval; char *s; int progstype; int trysleft = 2; // bool qfhack = false; pbool isfriked = false; //all imediate values were stripped, which causes problems with strings. pbool hexencalling = false; //hexen style calling convention. The opcodes themselves are used as part of passing the arguments; ddef16_t *gd16, *fld16; float *glob; dfunction_t *fnc; mfunction_t *fnc2; dstatement16_t *st16; size_t fsz; int len; int hmark=0xffffffff; int reorg = prinst.reorganisefields || prinst.numfields; int stringadjust; int *basictypetable; current_progstate = progstate; strcpy(current_progstate->filename, filename); // flush the non-C variable lookup cache // for (i=0 ; iautocompile == PR_COMPILEALWAYS) //always compile before loading { printf("Forcing compile of progs %s\n", filename); if (!CompileFile(progfuncs, filename)) return false; } // CRC_Init (&pr_crc); retry: hmark = PRHunkMark(progfuncs); pr_progs = externs->ReadFile(filename, PR_GetHeapBuffer, progfuncs, &fsz); if (!pr_progs) { if (externs->autocompile == PR_COMPILENEXIST || externs->autocompile == PR_COMPILECHANGED) //compile if file is not found (if 2, we have already tried, so don't bother) { if (hmark==0xffffffff) //first try { printf("couldn't open progs %s. Attempting to compile.\n", filename); CompileFile(progfuncs, filename); } pr_progs = externs->ReadFile(filename, PR_GetHeapBuffer, progfuncs, &fsz); if (!pr_progs) { printf("Couldn't find or compile file %s\n", filename); return false; } } else if (externs->autocompile == PR_COMPILEIGNORE) return false; else { printf("Couldn't find file %s\n", filename); return false; } } // for (i=0 ; iversion == PROG_VERSION) { // printf("Opening standard progs file \"%s\"\n", filename); current_progstate->structtype = PST_DEFAULT; } else if (pr_progs->version == PROG_QTESTVERSION) { current_progstate->structtype = PST_QTEST; } else if (pr_progs->version == PROG_EXTENDEDVERSION) { #ifndef NOENDIAN for (i = standard_dprograms_t_size/sizeof(int); i < sizeof(dprograms_t)/sizeof(int); i++) ((int *)pr_progs)[i] = PRLittleLong ( ((int *)pr_progs)[i] ); #endif if (pr_progs->secondaryversion == PROG_SECONDARYVERSION16) { // printf("Opening 16bit fte progs file \"%s\"\n", filename); current_progstate->structtype = PST_DEFAULT; } else if (pr_progs->secondaryversion == PROG_SECONDARYVERSION32) { // printf("Opening 32bit fte progs file \"%s\"\n", filename); current_progstate->structtype = PST_FTE32; } else { // printf("Opening KK7 progs file \"%s\"\n", filename); current_progstate->structtype = PST_KKQWSV; //KK progs. Yuck. Disabling saving would be a VERY good idea. pr_progs->version = PROG_VERSION; //not fte. } /* else { printf ("Progs extensions are not compatible\nTry recompiling with the FTE compiler\n"); HunkFree(hmark); pr_progs=NULL; return false; } */ } else { printf ("%s has wrong version number (%i should be %i)\n", filename, pr_progs->version, PROG_VERSION); PRHunkFree(progfuncs, hmark); pr_progs=NULL; return false; } //progs contains enough info for use to recompile it. if (trysleft && (externs->autocompile == PR_COMPILECHANGED || externs->autocompile == PR_COMPILEEXISTANDCHANGED) && pr_progs->version == PROG_EXTENDEDVERSION) { if (PR_TestRecompile(progfuncs)) { printf("Source file has changed\nRecompiling.\n"); if (CompileFile(progfuncs, filename)) { PRHunkFree(progfuncs, hmark); pr_progs=NULL; trysleft--; goto retry; } } } if (!trysleft) //the progs exists, let's just be happy about it. printf("Progs is out of date and uncompilable\n"); if (externs->CheckHeaderCrc && !externs->CheckHeaderCrc(&progfuncs->funcs, prinst.pr_typecurrent, pr_progs->crc)) { // printf ("%s system vars have been modified, progdefs.h is out of date\n", filename); PRHunkFree(progfuncs, hmark); pr_progs=NULL; return false; } if (pr_progs->version == PROG_EXTENDEDVERSION && pr_progs->blockscompressed && !QC_decodeMethodSupported(2)) { printf ("%s uses compression\n", filename); PRHunkFree(progfuncs, hmark); pr_progs=NULL; return false; } fnc = (dfunction_t *)((qbyte *)pr_progs + pr_progs->ofs_functions); pr_strings = ((char *)pr_progs + pr_progs->ofs_strings); current_progstate->globaldefs = *(void**)&gd16 = (void *)((qbyte *)pr_progs + pr_progs->ofs_globaldefs); current_progstate->fielddefs = *(void**)&fld16 = (void *)((qbyte *)pr_progs + pr_progs->ofs_fielddefs); current_progstate->statements = (void *)((qbyte *)pr_progs + pr_progs->ofs_statements); glob = pr_globals = (void *)((qbyte *)pr_progs + pr_progs->ofs_globals); current_progstate->globals_size = pr_progs->numglobals*sizeof(*pr_globals); pr_linenums=NULL; pr_types=NULL; if (pr_progs->version == PROG_EXTENDEDVERSION) { if (pr_progs->ofslinenums) pr_linenums = (int *)((qbyte *)pr_progs + pr_progs->ofslinenums); if (pr_progs->ofs_types) pr_types = (typeinfo_t *)((qbyte *)pr_progs + pr_progs->ofs_types); //start decompressing stuff... if (pr_progs->blockscompressed & 1) //statements { switch(current_progstate->structtype) { case PST_DEFAULT: len=sizeof(dstatement16_t)*pr_progs->numstatements; break; case PST_FTE32: len=sizeof(dstatement32_t)*pr_progs->numstatements; break; default: Sys_Error("Bad struct type"); len = 0; } s = PRHunkAlloc(progfuncs, len, "dstatements"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_statements16), len, 2, (char *)(((int *)pr_statements16)+1), s); current_progstate->statements = (dstatement16_t *)s; } if (pr_progs->blockscompressed & 2) //global defs { switch(current_progstate->structtype) { case PST_DEFAULT: len=sizeof(ddef16_t)*pr_progs->numglobaldefs; break; case PST_FTE32: len=sizeof(ddef32_t)*pr_progs->numglobaldefs; break; default: Sys_Error("Bad struct type"); len = 0; } s = PRHunkAlloc(progfuncs, len, "dglobaldefs"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_globaldefs16), len, 2, (char *)(((int *)pr_globaldefs16)+1), s); gd16 = *(ddef16_t**)¤t_progstate->globaldefs = (ddef16_t *)s; } if (pr_progs->blockscompressed & 4) //fields { switch(current_progstate->structtype) { case PST_DEFAULT: len=sizeof(ddef16_t)*pr_progs->numglobaldefs; break; case PST_FTE32: len=sizeof(ddef32_t)*pr_progs->numglobaldefs; break; default: Sys_Error("Bad struct type"); len = 0; } s = PRHunkAlloc(progfuncs, len, "progfieldtable"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_fielddefs16), len, 2, (char *)(((int *)pr_fielddefs16)+1), s); *(ddef16_t**)¤t_progstate->fielddefs = (ddef16_t *)s; } if (pr_progs->blockscompressed & 8) //functions { len=sizeof(dfunction_t)*pr_progs->numfunctions; s = PRHunkAlloc(progfuncs, len, "dfunctiontable"); QC_decode(progfuncs, PRLittleLong(*(int *)fnc), len, 2, (char *)(((int *)fnc)+1), s); fnc = (dfunction_t *)s; } if (pr_progs->blockscompressed & 16) //string table { len=sizeof(char)*pr_progs->numstrings; s = PRHunkAlloc(progfuncs, len, "dstringtable"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_strings), len, 2, (char *)(((int *)pr_strings)+1), s); pr_strings = (char *)s; } if (pr_progs->blockscompressed & 32) //globals { len=sizeof(float)*pr_progs->numglobals; s = PRHunkAlloc(progfuncs, len + sizeof(float)*2, "dglobaltable"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_globals), len, 2, (char *)(((int *)pr_globals)+1), s); glob = pr_globals = (float *)s; } if (pr_linenums && pr_progs->blockscompressed & 64) //line numbers { len=sizeof(int)*pr_progs->numstatements; s = PRHunkAlloc(progfuncs, len, "dlinenumtable"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_linenums), len, 2, (char *)(((int *)pr_linenums)+1), s); pr_linenums = (int *)s; } if (pr_types && pr_progs->blockscompressed & 128) //types { len=sizeof(typeinfo_t)*pr_progs->numtypes; s = PRHunkAlloc(progfuncs, len, "dtypes"); QC_decode(progfuncs, PRLittleLong(*(int *)pr_types), len, 2, (char *)(((int *)pr_types)+1), s); pr_types = (typeinfo_t *)s; } } len=sizeof(char)*pr_progs->numstrings; s = PRAddressableExtend(progfuncs, pr_strings, len, 0); pr_strings = (char *)s; len=sizeof(float)*pr_progs->numglobals; s = PRAddressableExtend(progfuncs, pr_globals, len, sizeof(float)*2); glob = pr_globals = (float *)s; if (progfuncs->funcs.stringtable) stringadjust = pr_strings - progfuncs->funcs.stringtable; else stringadjust = 0; if (!pr_linenums) { unsigned int lnotype = *(unsigned int*)"LNOF"; unsigned int version = 1; int ohm; unsigned int *file; char lnoname[128]; ohm = PRHunkMark(progfuncs); strcpy(lnoname, filename); StripExtension(lnoname); strcat(lnoname, ".lno"); file = externs->ReadFile(lnoname, PR_GetHeapBuffer, progfuncs, &fsz); if (file) { if ( file[0] != lnotype || file[1] != version || file[2] != pr_progs->numglobaldefs || file[3] != pr_progs->numglobals || file[4] != pr_progs->numfielddefs || file[5] != pr_progs->numstatements ) { PRHunkFree(progfuncs, ohm); //whoops: old progs or incompatible } else pr_linenums = file + 6; } } pr_cp_functions = NULL; // pr_strings = ((char *)pr_progs + pr_progs->ofs_strings); gd16 = *(ddef16_t**)¤t_progstate->globaldefs = (ddef16_t *)((qbyte *)pr_progs + pr_progs->ofs_globaldefs); fld16 = (ddef16_t *)((qbyte *)pr_progs + pr_progs->ofs_fielddefs); // pr_statements16 = (dstatement16_t *)((qbyte *)pr_progs + pr_progs->ofs_statements); pr_globals = glob; st16 = pr_statements16; #undef pr_globals #undef pr_globaldefs16 #undef pr_functions #undef pr_statements16 #undef pr_fielddefs16 current_progstate->edict_size = pr_progs->entityfields * 4 + externs->edictsize; if (sizeof(mfunction_t) > sizeof(qtest_function_t)) Sys_Error("assumption no longer works"); // byte swap the lumps switch(current_progstate->structtype) { case PST_QTEST: // qtest needs a struct remap pr_cp_functions = (mfunction_t*)fnc; fnc2 = pr_cp_functions; for (i=0 ; inumfunctions; i++) { //qtest functions are bigger, so we can just do this in-place qtest_function_t qtfunc = ((qtest_function_t*)fnc)[i]; fnc2[i].first_statement = PRLittleLong (qtfunc.first_statement); fnc2[i].parm_start = PRLittleLong (qtfunc.parm_start); fnc2[i].s_name = (string_t)PRLittleLong (qtfunc.s_name); fnc2[i].s_file = (string_t)PRLittleLong (qtfunc.s_file); fnc2[i].numparms = PRLittleLong (qtfunc.numparms); fnc2[i].locals = PRLittleLong (qtfunc.locals); for (j=0; jnumfunctions, "mfunctions"); for (i=0,fnc2=pr_cp_functions; inumfunctions; i++, fnc2++) { fnc2->first_statement = PRLittleLong (fnc[i].first_statement); fnc2->parm_start = PRLittleLong (fnc[i].parm_start); fnc2->s_name = (string_t)PRLittleLong ((long)fnc[i].s_name) + stringadjust; fnc2->s_file = (string_t)PRLittleLong ((long)fnc[i].s_file) + stringadjust; fnc2->numparms = PRLittleLong (fnc[i].numparms); fnc2->locals = PRLittleLong (fnc[i].locals); for (j=0; jparm_size[j] = fnc[i].parm_size[j]; } break; default: Sys_Error("Bad struct type"); } //actual global values #ifndef NOENDIAN for (i=0 ; inumglobals ; i++) ((int *)glob)[i] = PRLittleLong (((int *)glob)[i]); #endif if (pr_types) { for (i=0 ; inumtypes ; i++) { #ifndef NOENDIAN pr_types[i].type = PRLittleLong(current_progstate->types[i].type); pr_types[i].next = PRLittleLong(current_progstate->types[i].next); pr_types[i].aux_type = PRLittleLong(current_progstate->types[i].aux_type); pr_types[i].num_parms = PRLittleLong(current_progstate->types[i].num_parms); pr_types[i].ofs = PRLittleLong(current_progstate->types[i].ofs); pr_types[i].size = PRLittleLong(current_progstate->types[i].size); pr_types[i].name = PRLittleLong(current_progstate->types[i].name); #endif pr_types[i].name += stringadjust; } } QC_FlushProgsOffsets(progfuncs); switch(current_progstate->structtype) { case PST_KKQWSV: case PST_DEFAULT: //byteswap the globals and fix name offsets for (i=0 ; inumglobaldefs ; i++) { #ifndef NOENDIAN gd16[i].type = PRLittleShort (gd16[i].type); gd16[i].ofs = PRLittleShort (gd16[i].ofs); gd16[i].s_name = (string_t)PRLittleLong ((long)gd16[i].s_name); #endif gd16[i].s_name += stringadjust; } //byteswap fields and fix name offets. Also register the fields (which will result in some offset adjustments in the globals segment). for (i=0 ; inumfielddefs ; i++) { #ifndef NOENDIAN fld16[i].type = PRLittleShort (fld16[i].type); fld16[i].ofs = PRLittleShort (fld16[i].ofs); fld16[i].s_name = (string_t)PRLittleLong ((long)fld16[i].s_name); #endif if (reorg) { if (pr_types) type = pr_types[fld16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].type; else type = fld16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL); if (progfuncs->funcs.fieldadjust && !prinst.pr_typecurrent) //we need to make sure all fields appear in their original place. QC_RegisterFieldVar(&progfuncs->funcs, type, fld16[i].s_name+pr_strings, 4*(fld16[i].ofs+progfuncs->funcs.fieldadjust), fld16[i].ofs); else if (type == ev_vector) //emit vector vars early, so their fields cannot be alocated before the vector itself. (useful against scramblers) { QC_RegisterFieldVar(&progfuncs->funcs, type, fld16[i].s_name+pr_strings, -1, fld16[i].ofs); } } else { fdef_t *nf; if (prinst.numfields+1>prinst.maxfields) { i = prinst.maxfields; prinst.maxfields += 32; nf = externs->memalloc(sizeof(fdef_t) * prinst.maxfields); memcpy(nf, prinst.field, sizeof(fdef_t) * i); externs->memfree(prinst.field); prinst.field = nf; } nf = &prinst.field[prinst.numfields]; nf->name = fld16[i].s_name+pr_strings; nf->type = fld16[i].type; nf->progsofs = fld16[i].ofs; nf->ofs = fld16[i].ofs; if (prinst.fields_size < (nf->ofs+type_size[nf->type])*4) prinst.fields_size = (nf->ofs+type_size[nf->type])*4; prinst.numfields++; } fld16[i].s_name += stringadjust; } if (reorg && !(progfuncs->funcs.fieldadjust && !prinst.pr_typecurrent)) for (i=0 ; inumfielddefs ; i++) { if (pr_types) type = pr_types[fld16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].type; else type = fld16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL); if (type != ev_vector) QC_RegisterFieldVar(&progfuncs->funcs, type, fld16[i].s_name+pr_strings-stringadjust, -1, fld16[i].ofs); } break; case PST_QTEST: // qtest needs a struct remap for (i=0 ; inumglobaldefs ; i++) { qtest_def_t qtdef = ((qtest_def_t *)pr_globaldefs32)[i]; pr_globaldefs32[i].type = qtdef.type; pr_globaldefs32[i].s_name = qtdef.s_name; pr_globaldefs32[i].ofs = qtdef.ofs; } for (i=0 ; inumfielddefs ; i++) { qtest_def_t qtdef = ((qtest_def_t *)pr_fielddefs32)[i]; pr_fielddefs32[i].type = qtdef.type; pr_fielddefs32[i].s_name = qtdef.s_name; pr_fielddefs32[i].ofs = qtdef.ofs; } // passthrough case PST_FTE32: for (i=0 ; inumglobaldefs ; i++) { #ifndef NOENDIAN pr_globaldefs32[i].type = PRLittleLong (pr_globaldefs32[i].type); pr_globaldefs32[i].ofs = PRLittleLong (pr_globaldefs32[i].ofs); pr_globaldefs32[i].s_name = (string_t)PRLittleLong ((long)pr_globaldefs32[i].s_name); #endif pr_globaldefs32[i].s_name += stringadjust; } for (i=0 ; inumfielddefs ; i++) { #ifndef NOENDIAN pr_fielddefs32[i].type = PRLittleLong (pr_fielddefs32[i].type); pr_fielddefs32[i].ofs = PRLittleLong (pr_fielddefs32[i].ofs); pr_fielddefs32[i].s_name = (string_t)PRLittleLong ((long)pr_fielddefs32[i].s_name); #endif if (reorg) { if (pr_types) type = pr_types[pr_fielddefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].type; else type = pr_fielddefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL); if (progfuncs->funcs.fieldadjust && !prinst.pr_typecurrent) //we need to make sure all fields appear in their original place. QC_RegisterFieldVar(&progfuncs->funcs, type, pr_fielddefs32[i].s_name+pr_strings, 4*(pr_fielddefs32[i].ofs+progfuncs->funcs.fieldadjust), -1); else if (type == ev_vector) QC_RegisterFieldVar(&progfuncs->funcs, type, pr_fielddefs32[i].s_name+pr_strings, -1, pr_fielddefs32[i].ofs); } pr_fielddefs32[i].s_name += stringadjust; } if (reorg && !(progfuncs->funcs.fieldadjust && !prinst.pr_typecurrent)) for (i=0 ; inumfielddefs ; i++) { if (pr_types) type = pr_types[pr_fielddefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].type; else type = pr_fielddefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL); if (type != ev_vector) QC_RegisterFieldVar(&progfuncs->funcs, type, pr_fielddefs32[i].s_name+pr_strings-stringadjust, -1, pr_fielddefs32[i].ofs); } break; default: Sys_Error("Bad struct type"); } //ifstring fixes arn't performed anymore. //the following switch just fixes endian and hexen2 calling conventions (by using different opcodes). switch(current_progstate->structtype) { case PST_QTEST: for (i=0 ; inumstatements ; i++) { qtest_statement_t qtst = ((qtest_statement_t*)st16)[i]; st16[i].op = PRLittleShort(qtst.op); st16[i].a = PRLittleShort(qtst.a); st16[i].b = PRLittleShort(qtst.b); st16[i].c = PRLittleShort(qtst.c); // could use the line info as lno information maybe? is it really worth it? // also never assuming h2 calling mechanism } PR_CleanUpStatements16(progfuncs, st16, false); break; case PST_DEFAULT: for (i=0 ; inumstatements ; i++) { #ifndef NOENDIAN st16[i].op = PRLittleShort(st16[i].op); st16[i].a = PRLittleShort(st16[i].a); st16[i].b = PRLittleShort(st16[i].b); st16[i].c = PRLittleShort(st16[i].c); #endif if (st16[i].op >= OP_CALL1 && st16[i].op <= OP_CALL8) { if (st16[i].b) { hexencalling = true; break; } } } PR_CleanUpStatements16(progfuncs, st16, hexencalling); break; case PST_KKQWSV: case PST_FTE32: for (i=0 ; inumstatements ; i++) { #ifndef NOENDIAN pr_statements32[i].op = PRLittleLong(pr_statements32[i].op); pr_statements32[i].a = PRLittleLong(pr_statements32[i].a); pr_statements32[i].b = PRLittleLong(pr_statements32[i].b); pr_statements32[i].c = PRLittleLong(pr_statements32[i].c); #endif if (pr_statements32[i].op >= OP_CALL1 && pr_statements32[i].op <= OP_CALL8) { if (pr_statements32[i].b) { hexencalling = true; break; } } } PR_CleanUpStatements32(progfuncs, pr_statements32, hexencalling); break; } /* if (headercrc == -1) { isfriked = true; if (current_progstate->structtype != PST_DEFAULT) Sys_Error("Decompiling a bigprogs"); return true; } */ progstype = current_progstate-pr_progstate; // QC_StartShares(progfuncs); isfriked = true; if (!prinst.pr_typecurrent) //progs 0 always acts as string stripped. isfriked = -1; //partly to avoid some bad/optimised progs. basictypetable = NULL; if (prinst.reorganisefields == 2) { switch(current_progstate->structtype) { //gmqcc fucks up the globals. it writes FLOAT defs instead of field defs. stupid stupid stupid. case PST_DEFAULT: { dstatement16_t *st = current_progstate->statements; basictypetable = externs->memalloc(sizeof(*basictypetable) * pr_progs->numglobals); memset(basictypetable, 0, sizeof(*basictypetable) * pr_progs->numglobals); for (i = 0; i < pr_progs->numstatements; i++) { switch(st[i].op) { case OP_ADDRESS: if (st[i+1].op == OP_STOREP_V && st[i+1].b == st[i].c) { //following stores a vector to this field. if (st[i].b+2u < pr_progs->numglobals) { //vectors are usually 3 fields. if they're not then we're screwed. basictypetable[st[i].b+0] = ev_field; basictypetable[st[i].b+1] = ev_field; basictypetable[st[i].b+2] = ev_field; } break; } //fallthrough case OP_LOAD_F: case OP_LOAD_S: case OP_LOAD_ENT: case OP_LOAD_FLD: case OP_LOAD_FNC: case OP_LOAD_I: case OP_LOAD_P: if (st[i].b < pr_progs->numglobals) basictypetable[st[i].b] = ev_field; break; case OP_LOAD_V: if (st[i].b+2u < pr_progs->numglobals) { //vectors are usually 3 fields. if they're not then we're screwed. basictypetable[st[i].b+0] = ev_field; basictypetable[st[i].b+1] = ev_field; basictypetable[st[i].b+2] = ev_field; } break; } } for (i = 0; i < pr_progs->numglobaldefs; i++) { ddef16_t *gd = gd16+i; switch(gd->type & ~(DEF_SAVEGLOBAL|DEF_SHARED)) { case ev_field: //depend on _y _z to mark those globals. basictypetable[gd->ofs] = ev_field; break; } } for (i = 0; i < pr_progs->numglobals; i++) { if (basictypetable[i] == ev_field) QC_AddFieldGlobal(&progfuncs->funcs, (int *)glob + i); } externs->memfree(basictypetable); } break; case PST_QTEST: //not likely to need this case PST_KKQWSV: //fixme... case PST_FTE32: //fingers crossed... break; } } // len = 0; switch(current_progstate->structtype) { case PST_DEFAULT: case PST_KKQWSV: for (i=0 ; inumglobaldefs ; i++) { if (pr_types) type = pr_types[gd16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].type; else type = gd16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL); if (gd16[i].type & DEF_SHARED) { gd16[i].type &= ~DEF_SHARED; if (pr_types) QC_AddSharedVar(&progfuncs->funcs, gd16[i].ofs, pr_types[gd16[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].size); else QC_AddSharedVar(&progfuncs->funcs, gd16[i].ofs, type_size[type]); } switch(type) { case ev_field: if (reorg && !basictypetable) QC_AddSharedFieldVar(&progfuncs->funcs, i, pr_strings - stringadjust); break; case ev_string: if (((unsigned int *)glob)[gd16[i].ofs]>=progstate->progs->numstrings) printf("PR_LoadProgs: invalid string value (%x >= %x) in '%s'\n", ((unsigned int *)glob)[gd16[i].ofs], progstate->progs->numstrings, gd16[i].s_name+pr_strings-stringadjust); else if (isfriked != -1) { if (pr_strings[((int *)glob)[gd16[i].ofs]]) //quakec uses string tables. 0 must remain null, or 'if (s)' can break. { ((int *)glob)[gd16[i].ofs] += stringadjust; isfriked = false; } else ((int *)glob)[gd16[i].ofs] = 0; } break; case ev_function: if (((int *)glob)[gd16[i].ofs]) //don't change null funcs { // if (fnc[((int *)glob)[gd16[i].ofs]].first_statement>=0) //this is a hack. Make all builtins switch to the main progs first. Allows builtin funcs to cache vars from just the main progs. ((int *)glob)[gd16[i].ofs] |= progstype << 24; } break; } } break; case PST_QTEST: case PST_FTE32: for (i=0 ; inumglobaldefs ; i++) { if (pr_types) type = pr_types[pr_globaldefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].type; else type = pr_globaldefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL); if (pr_globaldefs32[i].type & DEF_SHARED) { pr_globaldefs32[i].type &= ~DEF_SHARED; if (pr_types) QC_AddSharedVar(&progfuncs->funcs, pr_globaldefs32[i].ofs, pr_types[pr_globaldefs32[i].type & ~(DEF_SHARED|DEF_SAVEGLOBAL)].size); else QC_AddSharedVar(&progfuncs->funcs, pr_globaldefs32[i].ofs, type_size[type]); } switch(type) { case ev_field: QC_AddSharedFieldVar(&progfuncs->funcs, i, pr_strings - stringadjust); break; case ev_string: if (pr_strings[((int *)glob)[pr_globaldefs32[i].ofs]]) //quakec uses string tables. 0 must remain null, or 'if (s)' can break. { ((int *)glob)[pr_globaldefs32[i].ofs] += stringadjust; isfriked = false; } break; case ev_function: if (((int *)glob)[pr_globaldefs32[i].ofs]) //don't change null funcs ((int *)glob)[pr_globaldefs32[i].ofs] |= progstype << 24; break; } } if (pr_progs->version == PROG_EXTENDEDVERSION && pr_progs->numbodylessfuncs) { s = &((char *)pr_progs)[pr_progs->ofsbodylessfuncs]; for (i = 0; i < pr_progs->numbodylessfuncs; i++) { d32 = ED_FindGlobal32(progfuncs, s); d2 = ED_FindGlobalOfsFromProgs(progfuncs, s, 0, ev_function); if (!d2) Sys_Error("Runtime-linked function %s was not found in existing progs", s); if (!d32) Sys_Error("Couldn't find def for \"%s\"", s); ((int *)glob)[d32->ofs] = (*(func_t *)&pr_progstate[0].globals[*d2]); s+=strlen(s)+1; } } break; default: Sys_Error("Bad struct type"); } if ((isfriked && prinst.pr_typecurrent)) //friked progs only allow one file. { printf("You are trying to load a string-stripped progs as an addon.\nThis behaviour is not supported. Try removing some optimizations."); PRHunkFree(progfuncs, hmark); pr_progs=NULL; return false; } pr_strings+=stringadjust; if (!progfuncs->funcs.stringtable) progfuncs->funcs.stringtable = pr_strings; if (progfuncs->funcs.stringtablesize + progfuncs->funcs.stringtable < pr_strings + pr_progs->numstrings) progfuncs->funcs.stringtablesize = (pr_strings + pr_progs->numstrings) - progfuncs->funcs.stringtable; if (externs->MapNamedBuiltin) { for (i=0,fnc2=pr_cp_functions; inumfunctions; i++, fnc2++) { if (i && !fnc2->first_statement) fnc2->first_statement = -externs->MapNamedBuiltin(&progfuncs->funcs, pr_progs->crc, PR_StringToNative(&progfuncs->funcs, fnc2->s_name)); } } eval = PR_FindGlobal(&progfuncs->funcs, "thisprogs", progstype, NULL); if (eval) eval->prog = progstype; switch(current_progstate->structtype) { case PST_DEFAULT: if (pr_progs->version == PROG_EXTENDEDVERSION && pr_progs->numbodylessfuncs) { s = &((char *)pr_progs)[pr_progs->ofsbodylessfuncs]; for (i = 0; i < pr_progs->numbodylessfuncs; i++) { d16 = ED_FindGlobal16(progfuncs, s); if (!d16) { printf("\"%s\" requires the external function \"%s\", but the definition was stripped\n", filename, s); PRHunkFree(progfuncs, hmark); pr_progs=NULL; return false; } ((int *)glob)[d16->ofs] = PR_FindFunc(&progfuncs->funcs, s, PR_ANY); if (!((int *)glob)[d16->ofs]) printf("Warning: Runtime-linked function %s could not be found (loading %s)\n", s, filename); s+=strlen(s)+1; } } break; case PST_QTEST: case PST_KKQWSV: break; //cannot happen anyway. case PST_FTE32: if (pr_progs->version == PROG_EXTENDEDVERSION && pr_progs->numbodylessfuncs) { s = &((char *)pr_progs)[pr_progs->ofsbodylessfuncs]; for (i = 0; i < pr_progs->numbodylessfuncs; i++) { d32 = ED_FindGlobal32(progfuncs, s); if (!d32) { printf("\"%s\" requires the external function \"%s\", but the definition was stripped\n", filename, s); PRHunkFree(progfuncs, hmark); pr_progs=NULL; return false; } ((int *)glob)[d32->ofs] = PR_FindFunc(&progfuncs->funcs, s, PR_ANY); if (!((int *)glob)[d32->ofs]) printf("Warning: Runtime-linked function %s could not be found (loading %s)\n", s, filename); s+=strlen(s)+1; } } break; } eval = PR_FindGlobal(&progfuncs->funcs, "__ext__fasttrackarrays", PR_CURRENT, NULL); if (eval) //we support these opcodes eval->_float = true; return true; } struct edict_s *PDECL QC_EDICT_NUM(pubprogfuncs_t *ppf, unsigned int n) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; if (n >= prinst.maxedicts) Sys_Error ("QCLIB: EDICT_NUM: bad number %i", n); return (struct edict_s*)prinst.edicttable[n]; } unsigned int PDECL QC_NUM_FOR_EDICT(pubprogfuncs_t *ppf, struct edict_s *e) { progfuncs_t *progfuncs = (progfuncs_t*)ppf; edictrun_t *er = (edictrun_t*)e; if (!er || er->entnum >= prinst.maxedicts) Sys_Error ("QCLIB: NUM_FOR_EDICT: bad pointer (%p)", e); return er->entnum; }