//qc execution code. //we have two conditions. //one allows us to debug and trace through our code, the other doesn't. //hopefully, the compiler will do a great job at optimising this code for us, where required. //if it dosn't, then bum. //the general overhead should be reduced significantly, and I would be supprised if it did run slower. //run away loops are checked for ONLY on gotos and function calls. This might give a poorer check, but it will run faster overall. //Appears to work fine. #if INTSIZE == 16 #define reeval reeval16 #define pr_statements pr_statements16 #define fakeop fakeop16 #define dstatement_t dstatement16_t #define sofs signed short #elif INTSIZE == 32 #define reeval reeval32 #define pr_statements pr_statements32 #define fakeop fakeop32 #define dstatement_t dstatement32_t #define sofs signed int #elif INTSIZE == 24 #error INTSIZE should be set to 32. #else #error Bad cont size #endif #define ENGINEPOINTER(p) ((char*)(p) - progfuncs->funcs.stringtable) #define QCPOINTER(p) (eval_t *)(p->_int+progfuncs->funcs.stringtable) #define QCPOINTERM(p) (eval_t *)((p)+progfuncs->funcs.stringtable) #define QCPOINTERWRITEFAIL(p,sz) ((float)(p)-1 >= prinst.addressableused-1-(sz)) //disallows null writes #define QCPOINTERREADFAIL(p,sz) ((unsigned int)(p) >= prinst.addressableused-(sz)) //permits null reads #define QCFAULT return (pr_xstatement=(st-pr_statements)-1),PR_HandleFault #define EVAL_FLOATISTRUE(ev) ((ev)->_int & 0x7fffffff) //mask away sign bit. This avoids using denormalized floats. #ifdef __GNUC__ #define errorif(x) if(__builtin_expect(x,0)) #else #define errorif(x) if(x) #endif //rely upon just st { #ifdef DEBUGABLE s = st-pr_statements; s+=1; errorif (prinst.watch_ptr && prinst.watch_ptr->_int != prinst.watch_old._int) { //this will fire on the next instruction after the variable got changed. pr_xstatement = s; if (current_progstate->linenums) printf("Watch point hit in %s:%u, \"%s\" changed", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), current_progstate->linenums[s-1], prinst.watch_name); else printf("Watch point hit in %s, \"%s\" changed", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), prinst.watch_name); switch(prinst.watch_type) { case ev_float: printf(" from %g to %g", prinst.watch_old._float, prinst.watch_ptr->_float); break; case ev_vector: printf(" from '%g %g %g' to '%g %g %g'", prinst.watch_old._vector[0], prinst.watch_old._vector[1], prinst.watch_old._vector[2], prinst.watch_ptr->_vector[0], prinst.watch_ptr->_vector[1], prinst.watch_ptr->_vector[2]); break; default: printf(" from %i to %i", prinst.watch_old._int, prinst.watch_ptr->_int); break; case ev_entity: printf(" from %i(%s) to %i(%s)", prinst.watch_old._int, PR_GetEdictClassname(progfuncs, prinst.watch_old._int), prinst.watch_ptr->_int, PR_GetEdictClassname(progfuncs, prinst.watch_ptr->_int)); break; case ev_function: case ev_string: printf(", now set to %s", PR_ValueString(progfuncs, prinst.watch_type, prinst.watch_ptr, false)); break; } printf(".\n"); prinst.watch_old = *prinst.watch_ptr; // prinst.watch_ptr = NULL; progfuncs->funcs.debug_trace=DEBUG_TRACE_INTO; //this is what it's for s=ShowStep(progfuncs, s, "Watchpoint hit", false); } else if (progfuncs->funcs.debug_trace) s=ShowStep(progfuncs, s, NULL, false); st = pr_statements + s; pr_xfunction->profile+=1; op = (progfuncs->funcs.debug_trace?(st->op & ~0x8000):st->op); reeval: #else st++; op = st->op; #endif switch (op) { case OP_ADD_F: OPC->_float = OPA->_float + OPB->_float; break; case OP_ADD_V: OPC->_vector[0] = OPA->_vector[0] + OPB->_vector[0]; OPC->_vector[1] = OPA->_vector[1] + OPB->_vector[1]; OPC->_vector[2] = OPA->_vector[2] + OPB->_vector[2]; break; case OP_SUB_F: OPC->_float = OPA->_float - OPB->_float; break; case OP_SUB_V: OPC->_vector[0] = OPA->_vector[0] - OPB->_vector[0]; OPC->_vector[1] = OPA->_vector[1] - OPB->_vector[1]; OPC->_vector[2] = OPA->_vector[2] - OPB->_vector[2]; break; case OP_MUL_F: OPC->_float = OPA->_float * OPB->_float; break; case OP_MUL_V: OPC->_float = OPA->_vector[0]*OPB->_vector[0] + OPA->_vector[1]*OPB->_vector[1] + OPA->_vector[2]*OPB->_vector[2]; break; case OP_MUL_FV: tmpf = OPA->_float; OPC->_vector[0] = tmpf * OPB->_vector[0]; OPC->_vector[1] = tmpf * OPB->_vector[1]; OPC->_vector[2] = tmpf * OPB->_vector[2]; break; case OP_MUL_VF: tmpf = OPB->_float; OPC->_vector[0] = tmpf * OPA->_vector[0]; OPC->_vector[1] = tmpf * OPA->_vector[1]; OPC->_vector[2] = tmpf * OPA->_vector[2]; break; case OP_DIV_F: /* errorif (!OPB->_float) { pr_xstatement = st-pr_statements; printf ("Division by 0 in %s\n", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); PR_StackTrace (&progfuncs->funcs); } */ OPC->_float = OPA->_float / OPB->_float; break; case OP_DIV_VF: tmpf = OPB->_float; /* errorif (!tmpf) { pr_xstatement = st-pr_statements; printf ("Division by 0 in %s\n", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); PR_StackTrace (&progfuncs->funcs); } */ OPC->_vector[0] = OPA->_vector[0] / tmpf; OPC->_vector[1] = OPA->_vector[1] / tmpf; OPC->_vector[2] = OPA->_vector[2] / tmpf; break; case OP_BITAND_F: OPC->_float = (float)((int)OPA->_float & (int)OPB->_float); break; case OP_BITOR_F: OPC->_float = (float)((int)OPA->_float | (int)OPB->_float); break; case OP_GE_F: OPC->_float = (float)(OPA->_float >= OPB->_float); break; case OP_GE_I: OPC->_int = (int)(OPA->_int >= OPB->_int); break; case OP_GE_IF: OPC->_int = (float)(OPA->_int >= OPB->_float); break; case OP_GE_FI: OPC->_int = (float)(OPA->_float >= OPB->_int); break; case OP_LE_F: OPC->_float = (float)(OPA->_float <= OPB->_float); break; case OP_LE_I: OPC->_int = (int)(OPA->_int <= OPB->_int); break; case OP_LE_IF: OPC->_int = (float)(OPA->_int <= OPB->_float); break; case OP_LE_FI: OPC->_int = (float)(OPA->_float <= OPB->_int); break; case OP_GT_F: OPC->_float = (float)(OPA->_float > OPB->_float); break; case OP_GT_I: OPC->_int = (int)(OPA->_int > OPB->_int); break; case OP_GT_IF: OPC->_int = (float)(OPA->_int > OPB->_float); break; case OP_GT_FI: OPC->_int = (float)(OPA->_float > OPB->_int); break; case OP_LT_F: OPC->_float = (float)(OPA->_float < OPB->_float); break; case OP_LT_I: OPC->_int = (int)(OPA->_int < OPB->_int); break; case OP_LT_IF: OPC->_int = (float)(OPA->_int < OPB->_float); break; case OP_LT_FI: OPC->_int = (float)(OPA->_float < OPB->_int); break; case OP_AND_F: //original logic //OPC->_float = (float)(OPA->_float && OPB->_float); //deal with denormalized floats by ensuring that they're not 0 (ignoring sign bit). //this avoids issues where the fpu treats denormalised floats as 0, or fpus that don't support denormals. OPC->_float = (float)(EVAL_FLOATISTRUE(OPA) && EVAL_FLOATISTRUE(OPB)); break; case OP_OR_F: OPC->_float = (float)(EVAL_FLOATISTRUE(OPA) || EVAL_FLOATISTRUE(OPB)); break; case OP_NOT_F: OPC->_float = (float)(!EVAL_FLOATISTRUE(OPA)); break; case OP_NOT_V: OPC->_float = (float)(!OPA->_vector[0] && !OPA->_vector[1] && !OPA->_vector[2]); break; case OP_NOT_S: OPC->_float = (float)(!(OPA->string) || !*PR_StringToNative(&progfuncs->funcs, OPA->string)); break; case OP_NOT_FNC: OPC->_float = (float)(!(OPA->function & ~0xff000000)); break; case OP_NOT_ENT: OPC->_float = (float)(!(OPA->edict));//(PROG_TO_EDICT(progfuncs, OPA->edict) == (edictrun_t *)sv_edicts); break; case OP_EQ_F: OPC->_float = (float)(OPA->_float == OPB->_float); break; case OP_EQ_IF: OPC->_int = (float)(OPA->_int == OPB->_float); break; case OP_EQ_FI: OPC->_float = (float)(OPA->_float == OPB->_int); break; case OP_EQ_V: OPC->_float = (float)((OPA->_vector[0] == OPB->_vector[0]) && (OPA->_vector[1] == OPB->_vector[1]) && (OPA->_vector[2] == OPB->_vector[2])); break; case OP_EQ_S: if (OPA->string==OPB->string) OPC->_float = true; else if (!OPA->string) { if (!OPB->string || !*PR_StringToNative(&progfuncs->funcs, OPB->string)) OPC->_float = true; else OPC->_float = false; } else if (!OPB->string) { if (!OPA->string || !*PR_StringToNative(&progfuncs->funcs, OPA->string)) OPC->_float = true; else OPC->_float = false; } else OPC->_float = (float)(!strcmp(PR_StringToNative(&progfuncs->funcs, OPA->string),PR_StringToNative(&progfuncs->funcs, OPB->string))); break; case OP_EQ_E: OPC->_float = (float)(OPA->_int == OPB->_int); break; case OP_EQ_FNC: OPC->_float = (float)(OPA->function == OPB->function); break; case OP_NE_F: OPC->_float = (float)(OPA->_float != OPB->_float); break; case OP_NE_V: OPC->_float = (float)((OPA->_vector[0] != OPB->_vector[0]) || (OPA->_vector[1] != OPB->_vector[1]) || (OPA->_vector[2] != OPB->_vector[2])); break; case OP_NE_S: if (OPA->string==OPB->string) OPC->_float = false; else if (!OPA->string) { if (!OPB->string || !*(PR_StringToNative(&progfuncs->funcs, OPB->string))) OPC->_float = false; else OPC->_float = true; } else if (!OPB->string) { if (!OPA->string || !*PR_StringToNative(&progfuncs->funcs, OPA->string)) OPC->_float = false; else OPC->_float = true; } else OPC->_float = (float)(strcmp(PR_StringToNative(&progfuncs->funcs, OPA->string),PR_StringToNative(&progfuncs->funcs, OPB->string))); break; case OP_NE_E: OPC->_float = (float)(OPA->_int != OPB->_int); break; case OP_NE_FNC: OPC->_float = (float)(OPA->function != OPB->function); break; //================== case OP_STORE_IF: OPB->_float = (float)OPA->_int; break; case OP_STORE_FI: OPB->_int = (int)OPA->_float; break; case OP_STORE_F: case OP_STORE_ENT: case OP_STORE_FLD: // integers case OP_STORE_S: case OP_STORE_I: case OP_STORE_FNC: // pointers case OP_STORE_P: OPB->_int = OPA->_int; break; case OP_STORE_V: OPB->_vector[0] = OPA->_vector[0]; OPB->_vector[1] = OPA->_vector[1]; OPB->_vector[2] = OPA->_vector[2]; break; //store a value to a pointer case OP_STOREP_IF: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { if (i == -1) break; QCFAULT(&progfuncs->funcs, "bad pointer write in %s", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); } ptr = QCPOINTERM(i); ptr->_float = (float)OPA->_int; break; case OP_STOREP_FI: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(int))) { if (i == -1) break; QCFAULT(&progfuncs->funcs, "bad pointer write in %s", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); } ptr = QCPOINTERM(i); ptr->_int = (int)OPA->_float; break; case OP_STOREP_I: case OP_STOREP_F: case OP_STOREP_ENT: case OP_STOREP_FLD: // integers case OP_STOREP_S: case OP_STOREP_FNC: // pointers i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(int))) { if (i == -1) break; if (i == 0) QCFAULT(&progfuncs->funcs, "bad pointer write in %s (null pointer)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); else QCFAULT(&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); ptr->_int = OPA->_int; break; case OP_STOREP_V: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(vec3_t))) { if (i == -1) break; QCFAULT(&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); ptr->_vector[0] = OPA->_vector[0]; ptr->_vector[1] = OPA->_vector[1]; ptr->_vector[2] = OPA->_vector[2]; break; case OP_STOREP_C: //store character in a string i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(char))) { if (i == -1) break; QCFAULT(&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); *(unsigned char *)ptr = (char)OPA->_float; break; //get a pointer to a field var case OP_ADDRESS: errorif ((unsigned)OPA->edict >= (unsigned)num_edicts) { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_ADDRESS references invalid entity in %s\n", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; break; } ed = PROG_TO_EDICT(progfuncs, OPA->edict); #ifdef PARANOID NUM_FOR_EDICT(ed); // make sure it's in range #endif errorif (!ed || ed->readonly) { //boot it over to the debugger { ddef16_t *d16; fdef_t *f; d16 = ED_GlobalAtOfs16(progfuncs, st->a); f = ED_FieldAtOfs(progfuncs, OPB->_int + progfuncs->funcs.fieldadjust); if (PR_ExecRunWarning(&progfuncs->funcs, st-pr_statements, "assignment to read-only entity %i in %s (%s.%s)\n", OPA->edict, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), d16?PR_StringToNative(&progfuncs->funcs, d16->s_name):NULL, f?f->name:NULL)) return pr_xstatement; OPC->_int = ~0; break; } } //Whilst the next block would technically be correct, we don't use it as it breaks too many quake mods. #ifdef NOLEGACY errorif (ed->ereftype == ER_FREE) { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "assignment to free entity in %s", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; break; } #endif i = OPB->_int + progfuncs->funcs.fieldadjust; #ifdef PARANOID errorif ((unsigned int)i*4 >= ed->fieldsize) //FIXME:lazy size check { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_ADDRESS references invalid field %i in %s\n", OPB->_int, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_int = 0; break; } #endif OPC->_int = ENGINEPOINTER((((int *)edvars(ed)) + i)); break; //load a field to a value case OP_LOAD_P: case OP_LOAD_I: case OP_LOAD_F: case OP_LOAD_FLD: case OP_LOAD_ENT: case OP_LOAD_S: case OP_LOAD_FNC: errorif ((unsigned)OPA->edict >= (unsigned)num_edicts) { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_LOAD references invalid entity %i in %s\n", OPA->edict, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_int = 0; break; } ed = PROG_TO_EDICT(progfuncs, OPA->edict); #ifdef PARANOID NUM_FOR_EDICT(ed); // make sure it's in range #endif #ifdef NOLEGACY if (ed->ereftype == ER_FREE) { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_LOAD references free entity %i in %s\n", OPA->edict, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_int = 0; } else #endif { i = OPB->_int + progfuncs->funcs.fieldadjust; errorif ((unsigned int)i*4 >= ed->fieldsize) //FIXME:lazy size check { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_LOAD references invalid field %i in %s\n", OPB->_int, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_int = 0; break; } ptr = (eval_t *)(((int *)edvars(ed)) + i); OPC->_int = ptr->_int; } break; case OP_LOAD_V: errorif ((unsigned)OPA->edict >= (unsigned)num_edicts) { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_LOAD_V references invalid entity %i in %s\n", OPA->edict, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_vector[0] = 0; OPC->_vector[1] = 0; OPC->_vector[2] = 0; break; } ed = PROG_TO_EDICT(progfuncs, OPA->edict); #ifdef PARANOID NUM_FOR_EDICT(ed); // make sure it's in range #endif #ifdef NOLEGACY if (ed->ereftype == ER_FREE) { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_LOAD references free entity %i in %s\n", OPA->edict, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_vector[0] = 0; OPC->_vector[1] = 0; OPC->_vector[2] = 0; } else #endif { i = OPB->_int + progfuncs->funcs.fieldadjust; errorif ((unsigned int)i*4 >= ed->fieldsize) //FIXME:lazy size check { if (PR_ExecRunWarning (&progfuncs->funcs, st-pr_statements, "OP_LOAD references invalid field %i in %s\n", OPB->_int, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name))) return pr_xstatement; OPC->_int = 0; break; } ptr = (eval_t *)(((int *)edvars(ed)) + i); OPC->_vector[0] = ptr->_vector[0]; OPC->_vector[1] = ptr->_vector[1]; OPC->_vector[2] = ptr->_vector[2]; } break; //================== case OP_IFNOT_S: RUNAWAYCHECK(); if (!OPA->string || !PR_StringToNative(&progfuncs->funcs, OPA->string)) st += (sofs)st->b - 1; // offset the s++ break; case OP_IFNOT_F: RUNAWAYCHECK(); if (!EVAL_FLOATISTRUE(OPA)) st += (sofs)st->b - 1; // offset the s++ break; //WARNING: vanilla uses this for floats too, which results in a discrepancy with -0 case OP_IFNOT_I: RUNAWAYCHECK(); if (!OPA->_int) st += (sofs)st->b - 1; // offset the s++ break; case OP_IF_S: RUNAWAYCHECK(); if (OPA->string && PR_StringToNative(&progfuncs->funcs, OPA->string)) st += (sofs)st->b - 1; // offset the s++ break; case OP_IF_F: RUNAWAYCHECK(); if (EVAL_FLOATISTRUE(OPA)) st += (sofs)st->b - 1; // offset the s++ break; //WARNING: vanilla uses this for floats too, which results in a discrepancy with -0 case OP_IF_I: RUNAWAYCHECK(); if (OPA->_int) st += (sofs)st->b - 1; // offset the s++ break; case OP_GOTO: RUNAWAYCHECK(); st += (sofs)st->a - 1; // offset the s++ break; case OP_CALL8H: case OP_CALL7H: case OP_CALL6H: case OP_CALL5H: case OP_CALL4H: case OP_CALL3H: case OP_CALL2H: G_VECTOR(OFS_PARM1)[0] = OPC->_vector[0]; G_VECTOR(OFS_PARM1)[1] = OPC->_vector[1]; G_VECTOR(OFS_PARM1)[2] = OPC->_vector[2]; case OP_CALL1H: G_VECTOR(OFS_PARM0)[0] = OPB->_vector[0]; G_VECTOR(OFS_PARM0)[1] = OPB->_vector[1]; G_VECTOR(OFS_PARM0)[2] = OPB->_vector[2]; case OP_CALL8: case OP_CALL7: case OP_CALL6: case OP_CALL5: case OP_CALL4: case OP_CALL3: case OP_CALL2: case OP_CALL1: case OP_CALL0: { int callerprogs; int newpr; unsigned int fnum; RUNAWAYCHECK(); pr_xstatement = st-pr_statements; if (op > OP_CALL8) progfuncs->funcs.callargc = op - (OP_CALL1H-1); else progfuncs->funcs.callargc = op - OP_CALL0; fnum = OPA->function; glob = NULL; //try to derestrict it. callerprogs=prinst.pr_typecurrent; //so we can revert to the right caller. newpr = (fnum & 0xff000000)>>24; //this is the progs index of the callee fnum &= ~0xff000000; //the callee's function index. //if it's an external call, switch now (before any function pointers are used) errorif (!PR_SwitchProgsParms(progfuncs, newpr) || !fnum || fnum > pr_progs->numfunctions) { char *msg = fnum?"OP_CALL references invalid function in %s\n":"NULL function from qc (inside %s).\n"; PR_SwitchProgsParms(progfuncs, callerprogs); glob = pr_globals; if (!progfuncs->funcs.debug_trace) QCFAULT(&progfuncs->funcs, msg, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); //skip the instruction if they just try stepping over it anyway. PR_StackTrace(&progfuncs->funcs, 0); printf(msg, PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); pr_globals[OFS_RETURN] = 0; pr_globals[OFS_RETURN+1] = 0; pr_globals[OFS_RETURN+2] = 0; break; } newf = &pr_cp_functions[fnum & ~0xff000000]; if (newf->first_statement <= 0) { // negative statements are built in functions /*calling a builtin in another progs may affect that other progs' globals instead, is the theory anyway, so args and stuff need to move over*/ if (prinst.pr_typecurrent != 0) { //builtins quite hackily refer to only a single global. //for builtins to affect the globals of other progs, we need to first switch to the progs that it will affect, so they'll be correct when we switch back PR_SwitchProgsParms(progfuncs, 0); } i = -newf->first_statement; // p = pr_typecurrent; if (i < externs->numglobalbuiltins) { #ifndef QCGC prinst.numtempstringsstack = prinst.numtempstrings; #endif (*externs->globalbuiltins[i]) (&progfuncs->funcs, (struct globalvars_s *)current_progstate->globals); //in case ed_alloc was called num_edicts = sv_num_edicts; if (prinst.continuestatement!=-1) { st=&pr_statements[prinst.continuestatement]; prinst.continuestatement=-1; glob = pr_globals; break; } } else { // if (newf->first_statement == -0x7fffffff) // ((builtin_t)newf->profile) (progfuncs, (struct globalvars_s *)current_progstate->globals); // else PR_RunError (&progfuncs->funcs, "Bad builtin call number - %i", -newf->first_statement); } // memcpy(&pr_progstate[p].globals[OFS_RETURN], ¤t_progstate->globals[OFS_RETURN], sizeof(vec3_t)); PR_SwitchProgsParms(progfuncs, (progsnum_t)callerprogs); //decide weather non debugger wants to start debugging. s = st-pr_statements; return s; } // PR_SwitchProgsParms((OPA->function & 0xff000000)>>24); s = PR_EnterFunction (progfuncs, newf, callerprogs); st = &pr_statements[s]; } //resume at the new statement, which might be in a different progs return s; // break; case OP_DONE: case OP_RETURN: RUNAWAYCHECK(); glob[OFS_RETURN] = glob[st->a]; glob[OFS_RETURN+1] = glob[st->a+1]; glob[OFS_RETURN+2] = glob[st->a+2]; /* { static char buffer[1024*1024*8]; int size = sizeof buffer; progfuncs->save_ents(progfuncs, buffer, &size, 0); } */ s = PR_LeaveFunction (progfuncs); st = &pr_statements[s]; if (pr_depth == prinst.exitdepth) { return -1; // all done } return s; // break; case OP_STATE: externs->stateop(&progfuncs->funcs, OPA->_float, OPB->function); break; case OP_ADD_I: OPC->_int = OPA->_int + OPB->_int; break; case OP_ADD_FI: OPC->_float = OPA->_float + (float)OPB->_int; break; case OP_ADD_IF: OPC->_float = (float)OPA->_int + OPB->_float; break; case OP_SUB_I: OPC->_int = OPA->_int - OPB->_int; break; case OP_SUB_FI: OPC->_float = OPA->_float - (float)OPB->_int; break; case OP_SUB_IF: OPC->_float = (float)OPA->_int - OPB->_float; break; case OP_CONV_ITOF: OPC->_float = (float)OPA->_int; break; case OP_CONV_FTOI: OPC->_int = (int)OPA->_float; break; case OP_CP_ITOF: ptr = (eval_t *)(((qbyte *)sv_edicts) + OPA->_int); OPC->_float = (float)ptr->_int; break; case OP_CP_FTOI: ptr = (eval_t *)(((qbyte *)sv_edicts) + OPA->_int); OPC->_int = (int)ptr->_float; break; case OP_BITAND_I: OPC->_int = (OPA->_int & OPB->_int); break; case OP_BITOR_I: OPC->_int = (OPA->_int | OPB->_int); break; case OP_MUL_I: OPC->_int = OPA->_int * OPB->_int; break; case OP_DIV_I: if (OPB->_int == 0) //no division by zero allowed... OPC->_int = 0; else OPC->_int = OPA->_int / OPB->_int; break; case OP_EQ_I: OPC->_int = (OPA->_int == OPB->_int); break; case OP_NE_I: OPC->_int = (OPA->_int != OPB->_int); break; //array/structure reading/writing. case OP_GLOBALADDRESS: OPC->_int = ENGINEPOINTER(&OPA->_int + OPB->_int); /*pointer arithmatic*/ break; case OP_ADD_PIW: //pointer to 32 bit (remember to *3 for vectors) OPC->_int = OPA->_int + OPB->_int*sizeof(float); break; case OP_LOADA_I: case OP_LOADA_F: case OP_LOADA_FLD: case OP_LOADA_ENT: case OP_LOADA_S: case OP_LOADA_FNC: ptr = (eval_t *)(&OPA->_int + OPB->_int); /*pointer arithmatic*/ OPC->_int = ptr->_int; break; case OP_LOADA_V: ptr = (eval_t *)(&OPA->_int + OPB->_int); OPC->_vector[0] = ptr->_vector[0]; OPC->_vector[1] = ptr->_vector[1]; OPC->_vector[2] = ptr->_vector[2]; break; case OP_ADD_SF: //(char*)c = (char*)a + (float)b OPC->_int = OPA->_int + (int)OPB->_float; break; case OP_SUB_S: //(float)c = (char*)a - (char*)b OPC->_int = OPA->_int - OPB->_int; break; case OP_LOADP_C: //load character from a string/pointer i = (unsigned int)OPA->_int + (unsigned int)OPB->_float; errorif (QCPOINTERREADFAIL(i, sizeof(char))) { if (!(ptr=PR_GetReadTempStringPtr(progfuncs, OPA->_int, OPB->_int*4, sizeof(int)))) { if (i == -1) { OPC->_int = 0; break; } QCFAULT(&progfuncs->funcs, "bad pointer read in %s (%i bytes into %s)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, ptr); } } else ptr = QCPOINTERM(i); OPC->_float = *(unsigned char *)ptr; break; case OP_LOADP_I: case OP_LOADP_F: case OP_LOADP_FLD: case OP_LOADP_ENT: case OP_LOADP_S: case OP_LOADP_FNC: i = OPA->_int + OPB->_int*4; errorif (QCPOINTERREADFAIL(i, sizeof(int))) { if (!(ptr=PR_GetReadTempStringPtr(progfuncs, OPA->_int, OPB->_int*4, sizeof(int)))) { if (i == -1) { OPC->_int = 0; break; } QCFAULT(&progfuncs->funcs, "bad pointer read in %s (from %#x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i); } } else ptr = QCPOINTERM(i); OPC->_int = ptr->_int; break; case OP_LOADP_V: i = OPA->_int + OPB->_int*4; //NOTE: inconsistant, but a bit more practical for the qcc when structs etc are involved errorif (QCPOINTERREADFAIL(i, sizeof(vec3_t))) { if (!(ptr=PR_GetReadTempStringPtr(progfuncs, OPA->_int, OPB->_int*4, sizeof(vec3_t)))) { if (i == -1) { OPC->_vector[0] = 0; OPC->_vector[1] = 0; OPC->_vector[2] = 0; break; } QCFAULT(&progfuncs->funcs, "bad pointer read in %s (from %#x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i); } } else ptr = QCPOINTERM(i); OPC->_vector[0] = ptr->_vector[0]; OPC->_vector[1] = ptr->_vector[1]; OPC->_vector[2] = ptr->_vector[2]; break; case OP_BITXOR_I: OPC->_int = OPA->_int ^ OPB->_int; break; case OP_RSHIFT_I: OPC->_int = OPA->_int >> OPB->_int; break; case OP_LSHIFT_I: OPC->_int = OPA->_int << OPB->_int; break; //hexen2 arrays contain a prefix global set to (arraysize-1) inserted before the actual array data //for vectors, this prefix is the number of vectors rather than the number of globals. this can cause issues with using OP_FETCH_GBL_V within structs. case OP_FETCH_GBL_F: case OP_FETCH_GBL_S: case OP_FETCH_GBL_E: case OP_FETCH_GBL_FNC: i = OPB->_float; errorif((unsigned)i > (unsigned)((eval_t *)&glob[st->a-1])->_int) { pr_xstatement = st-pr_statements; PR_RunError(&progfuncs->funcs, "array index out of bounds: %s[%d] (max %d)", PR_GlobalStringNoContents(progfuncs, st->a), i, ((eval_t *)&glob[st->a-1])->_int); } OPC->_int = ((eval_t *)&glob[st->a + i])->_int; break; case OP_FETCH_GBL_V: i = OPB->_float; errorif((unsigned)i > (unsigned)((eval_t *)&glob[st->a-1])->_int) { pr_xstatement = st-pr_statements; PR_RunError(&progfuncs->funcs, "array index out of bounds: %s[%d]", PR_GlobalStringNoContents(progfuncs, st->a), i); } ptr = (eval_t *)&glob[st->a + i*3]; OPC->_vector[0] = ptr->_vector[0]; OPC->_vector[1] = ptr->_vector[1]; OPC->_vector[2] = ptr->_vector[2]; break; case OP_CSTATE: externs->cstateop(&progfuncs->funcs, OPA->_float, OPB->_float, pr_xfunction - pr_cp_functions); break; case OP_CWSTATE: externs->cwstateop(&progfuncs->funcs, OPA->_float, OPB->_float, pr_xfunction - pr_cp_functions); break; case OP_THINKTIME: externs->thinktimeop(&progfuncs->funcs, (struct edict_s *)PROG_TO_EDICT(progfuncs, OPA->edict), OPB->_float); break; case OP_MULSTORE_F: /*OPC->_float = */OPB->_float *= OPA->_float; break; case OP_MULSTORE_VF: tmpf = OPA->_float; //don't break on vec*=vec_x; /*OPC->_vector[0] = */OPB->_vector[0] *= tmpf; /*OPC->_vector[1] = */OPB->_vector[1] *= tmpf; /*OPC->_vector[2] = */OPB->_vector[2] *= tmpf; break; case OP_MULSTOREP_F: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); OPC->_float = ptr->_float *= OPA->_float; break; case OP_MULSTOREP_VF: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); tmpf = OPA->_float; //don't break on vec*=vec_x; OPC->_vector[0] = ptr->_vector[0] *= tmpf; OPC->_vector[1] = ptr->_vector[1] *= tmpf; OPC->_vector[2] = ptr->_vector[2] *= tmpf; break; case OP_DIVSTORE_F: /*OPC->_float = */OPB->_float /= OPA->_float; break; case OP_DIVSTOREP_F: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); OPC->_float = ptr->_float /= OPA->_float; break; case OP_ADDSTORE_F: /*OPC->_float = */OPB->_float += OPA->_float; break; case OP_ADDSTORE_V: /*OPC->_vector[0] =*/ OPB->_vector[0] += OPA->_vector[0]; /*OPC->_vector[1] =*/ OPB->_vector[1] += OPA->_vector[1]; /*OPC->_vector[2] =*/ OPB->_vector[2] += OPA->_vector[2]; break; case OP_ADDSTOREP_F: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); OPC->_float = ptr->_float += OPA->_float; break; case OP_ADDSTOREP_V: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); OPC->_vector[0] = ptr->_vector[0] += OPA->_vector[0]; OPC->_vector[1] = ptr->_vector[1] += OPA->_vector[1]; OPC->_vector[2] = ptr->_vector[2] += OPA->_vector[2]; break; case OP_SUBSTORE_F: /*OPC->_float = */OPB->_float -= OPA->_float; break; case OP_SUBSTORE_V: /*OPC->_vector[0] = */OPB->_vector[0] -= OPA->_vector[0]; /*OPC->_vector[1] = */OPB->_vector[1] -= OPA->_vector[1]; /*OPC->_vector[2] = */OPB->_vector[2] -= OPA->_vector[2]; break; case OP_SUBSTOREP_F: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); OPC->_float = ptr->_float -= OPA->_float; break; case OP_SUBSTOREP_V: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); OPC->_vector[0] = ptr->_vector[0] -= OPA->_vector[0]; OPC->_vector[1] = ptr->_vector[1] -= OPA->_vector[1]; OPC->_vector[2] = ptr->_vector[2] -= OPA->_vector[2]; break; case OP_BITSETSTORE_F: OPB->_float = (int)OPB->_float | (int)OPA->_float; break; case OP_BITSETSTOREP_F: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); ptr->_float = (int)ptr->_float | (int)OPA->_float; break; case OP_BITCLRSTORE_F: OPB->_float = (int)OPB->_float & ~(int)OPA->_float; break; case OP_BITCLRSTOREP_F: i = OPB->_int; errorif (QCPOINTERWRITEFAIL(i, sizeof(float))) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad pointer write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), i, prinst.addressableused); } ptr = QCPOINTERM(i); ptr->_float = (int)ptr->_float & ~(int)OPA->_float; break; //for scaler randoms, prevent the random value from ever reaching 1 //this avoids issues when array[random()*array.length] case OP_RAND0: OPC->_float = (rand ()&0x7fff) / ((float)0x8000); break; case OP_RAND1: OPC->_float = (rand ()&0x7fff) / ((float)0x8000)*OPA->_float; break; case OP_RAND2: //backwards range shouldn't matter (except that it is b that is never reached, rather than the higher of the two) OPC->_float = OPA->_float + (rand ()&0x7fff) / ((float)0x8000)*(OPB->_float-OPA->_float); break; //random vectors DO result in 0 to 1 inclusive, to try to ensure a more balanced range case OP_RANDV0: OPC->_vector[0] = (rand ()&0x7fff) / ((float)0x7fff); OPC->_vector[1] = (rand ()&0x7fff) / ((float)0x7fff); OPC->_vector[2] = (rand ()&0x7fff) / ((float)0x7fff); break; case OP_RANDV1: OPC->_vector[0] = (rand ()&0x7fff) / ((float)0x7fff)*OPA->_vector[0]; OPC->_vector[1] = (rand ()&0x7fff) / ((float)0x7fff)*OPA->_vector[1]; OPC->_vector[2] = (rand ()&0x7fff) / ((float)0x7fff)*OPA->_vector[2]; break; case OP_RANDV2: //backwards range shouldn't matter OPC->_vector[0] = OPA->_vector[0] + (rand ()&0x7fff) / ((float)0x7fff)*(OPB->_vector[0]-OPA->_vector[0]); OPC->_vector[1] = OPA->_vector[1] + (rand ()&0x7fff) / ((float)0x7fff)*(OPB->_vector[1]-OPA->_vector[1]); OPC->_vector[2] = OPA->_vector[2] + (rand ()&0x7fff) / ((float)0x7fff)*(OPB->_vector[2]-OPA->_vector[2]); break; case OP_SWITCH_F: case OP_SWITCH_V: case OP_SWITCH_S: case OP_SWITCH_E: case OP_SWITCH_FNC: //the case opcodes depend upon the preceding switch. //otherwise the switch itself is much like a goto //don't embed the case/caserange checks directly into the switch so that custom caseranges can be potentially be implemented with hybrid emulation. switchcomparison = op - OP_SWITCH_F; switchref = OPA; RUNAWAYCHECK(); st += (sofs)st->b - 1; // offset the s++ break; case OP_CASE: //if the comparison is true, jump (back up) to the relevent code block if (casecmp[switchcomparison](progfuncs, switchref, OPA)) { RUNAWAYCHECK(); st += (sofs)st->b-1; // -1 to offset the s++ } break; case OP_CASERANGE: //if the comparison is true, jump (back up) to the relevent code block if (casecmprange[switchcomparison](progfuncs, switchref, OPA, OPB)) { RUNAWAYCHECK(); st += (sofs)st->c-1; // -1 to offset the s++ } break; case OP_BITAND_IF: OPC->_int = (OPA->_int & (int)OPB->_float); break; case OP_BITOR_IF: OPC->_int = (OPA->_int | (int)OPB->_float); break; case OP_BITAND_FI: OPC->_int = ((int)OPA->_float & OPB->_int); break; case OP_BITOR_FI: OPC->_int = ((int)OPA->_float | OPB->_int); break; case OP_MUL_IF: OPC->_float = (OPA->_int * OPB->_float); break; case OP_MUL_FI: OPC->_float = (OPA->_float * OPB->_int); break; case OP_MUL_VI: tmpi = OPB->_int; OPC->_vector[0] = OPA->_vector[0] * tmpi; OPC->_vector[1] = OPA->_vector[1] * tmpi; OPC->_vector[2] = OPA->_vector[2] * tmpi; break; case OP_MUL_IV: tmpi = OPA->_int; OPC->_vector[0] = tmpi * OPB->_vector[0]; OPC->_vector[1] = tmpi * OPB->_vector[1]; OPC->_vector[2] = tmpi * OPB->_vector[2]; break; case OP_DIV_IF: OPC->_float = (OPA->_int / OPB->_float); break; case OP_DIV_FI: OPC->_float = (OPA->_float / OPB->_int); break; case OP_AND_I: OPC->_int = (OPA->_int && OPB->_int); break; case OP_OR_I: OPC->_int = (OPA->_int || OPB->_int); break; case OP_AND_IF: OPC->_int = (OPA->_int && OPB->_float); break; case OP_OR_IF: OPC->_int = (OPA->_int || OPB->_float); break; case OP_AND_FI: OPC->_int = (OPA->_float && OPB->_int); break; case OP_OR_FI: OPC->_int = (OPA->_float || OPB->_int); break; case OP_NOT_I: OPC->_int = !OPA->_int; break; case OP_NE_IF: OPC->_int = (OPA->_int != OPB->_float); break; case OP_NE_FI: OPC->_int = (OPA->_float != OPB->_int); break; case OP_GADDRESS: //return glob[aint+bfloat] //this instruction is not implemented due to the weirdness of it. //its theoretically a more powerful load... but untyped? //or is it meant to be an LEA instruction (that could simply be switched with OP_GLOAD_I) pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "OP_GADDRESS not implemented (found in %s)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); break; case OP_GLOAD_I: case OP_GLOAD_F: case OP_GLOAD_FLD: case OP_GLOAD_ENT: case OP_GLOAD_S: case OP_GLOAD_FNC: errorif (OPA->_int < 0 || OPA->_int*4 >= current_progstate->globals_size) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad indexed global read in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), OPA->_int, current_progstate->globals_size); } ptr = ((eval_t *)&glob[OPA->_int]); OPC->_int = ptr->_int; break; case OP_GLOAD_V: errorif (OPA->_int < 0 || (OPA->_int+2)*4 >= current_progstate->globals_size) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad indexed global read in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), OPA->_int, current_progstate->globals_size); } ptr = ((eval_t *)&glob[OPA->_int]); OPC->_vector[0] = ptr->_vector[0]; OPC->_vector[1] = ptr->_vector[1]; OPC->_vector[2] = ptr->_vector[2]; break; case OP_GSTOREP_I: case OP_GSTOREP_F: case OP_GSTOREP_ENT: case OP_GSTOREP_FLD: case OP_GSTOREP_S: case OP_GSTOREP_FNC: errorif (OPB->_int < 0 || OPB->_int*4 >= current_progstate->globals_size) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad indexed global write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), OPB->_int, prinst.addressableused); } ptr = ((eval_t *)&glob[OPB->_int]); ptr->_int = OPA->_int; break; case OP_GSTOREP_V: errorif (OPB->_int < 0 || (OPB->_int+2)*4 >= current_progstate->globals_size) { pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "bad indexed global write in %s (%x >= %x)", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name), OPB->_int, prinst.addressableused); } ptr = ((eval_t *)&glob[OPB->_int]); ptr->_vector[0] = OPA->_vector[0]; ptr->_vector[1] = OPA->_vector[1]; ptr->_vector[2] = OPA->_vector[2]; break; case OP_BOUNDCHECK: errorif ((unsigned int)OPA->_int < (unsigned int)st->c || (unsigned int)OPA->_int >= (unsigned int)st->b) { printf("Progs boundcheck failed. Value is %i. Must be %u<=value<%u\n", OPA->_int, st->c, st->b); QCFAULT(&progfuncs->funcs, "Progs boundcheck failed. Value is %i. Must be %u<=value<%u\n", OPA->_int, st->c, st->b); /* s=ShowStepf(progfuncs, st - pr_statements, "Progs boundcheck failed. Value is %i. Must be between %u and %u\n", OPA->_int, st->c, st->b); if (st == pr_statements + s) PR_RunError(&progfuncs->funcs, "unable to resume boundcheck"); st = pr_statements + s; return s; */ } break; case OP_PUSH: OPC->_int = ENGINEPOINTER(&prinst.localstack[prinst.localstack_used+prinst.spushed]); prinst.spushed += OPA->_int; if (prinst.spushed + prinst.localstack_used >= LOCALSTACK_SIZE) { prinst.spushed = 0; pr_xstatement = st-pr_statements; PR_RunError(&progfuncs->funcs, "Progs pushed too much"); } break; /* case OP_POP: pr_spushed -= OPA->_int; if (pr_spushed < 0) { pr_spushed = 0; pr_xstatement = st-pr_statements; PR_RunError(progfuncs, "Progs poped more than it pushed"); } break; */ default: if (op & 0x8000) //break point! { op &= ~0x8000; s = st-pr_statements; if (pr_xstatement != s) { pr_xstatement = s; printf("Break point hit in %s.\n", PR_StringToNative(&progfuncs->funcs, pr_xfunction->s_name)); s = ShowStep(progfuncs, s, NULL, false); st = &pr_statements[s]; //let the user move execution pr_xstatement = s = st-pr_statements; op = st->op & ~0x8000; } goto reeval; //reexecute } pr_xstatement = st-pr_statements; PR_RunError (&progfuncs->funcs, "Bad opcode %i", st->op); } } #undef reeval #undef st #undef pr_statements #undef fakeop #undef dstatement_t #undef sofs #undef OPCODE #undef ENGINEPOINTER #undef QCPOINTER #undef QCPOINTERM