cvar_t prvm_traceqc = {0, "prvm_traceqc", "0", "prints every QuakeC statement as it is executed (only for really thorough debugging!)"};
// LordHavoc: counts usage of each QuakeC statement
cvar_t prvm_statementprofiling = {0, "prvm_statementprofiling", "0", "counts how many times each QuakeC statement has been executed, these counts are displayed in prvm_printfunction output (if enabled)"};
+cvar_t prvm_timeprofiling = {0, "prvm_timeprofiling", "0", "counts how long each function has been executed, these counts are displayed in prvm_profile output (if enabled)"};
cvar_t prvm_backtraceforwarnings = {0, "prvm_backtraceforwarnings", "0", "print a backtrace for warnings too"};
cvar_t prvm_leaktest = {0, "prvm_leaktest", "0", "try to detect memory leaks in strings or entities"};
cvar_t prvm_leaktest_ignore_classnames = {0, "prvm_leaktest_ignore_classnames", "", "classnames of entities to NOT leak check because they are found by find(world, classname, ...) but are actually spawned by QC code (NOT map entities)"};
}
v = (prvm_eval_t *)(ed->fields.vp + key->ofs);
- s = PRVM_UglyValueString(key->type, v);
+ s = PRVM_UglyValueString((etype_t)key->type, v);
if(Cmd_Argc() == 5)
{
cvar_t *cvar = Cvar_FindVar(Cmd_Argv(4));
}
v = (prvm_eval_t *) &prog->globals.generic[key->ofs];
- s = PRVM_UglyValueString(key->type, v);
+ s = PRVM_UglyValueString((etype_t)key->type, v);
if(Cmd_Argc() == 4)
{
cvar_t *cvar = Cvar_FindVar(Cmd_Argv(3));
}
else
{
- if (developer.integer) // don't confuse non-developers with errors
+ if (developer.integer > 0) // don't confuse non-developers with errors
{
Con_Print("No spawn function for:\n");
PRVM_ED_Print(ent, NULL);
prog->fieldoffsets.dimension_hit = PRVM_ED_FindFieldOffset("dimension_hit");
prog->fieldoffsets.dimension_solid = PRVM_ED_FindFieldOffset("dimension_solid");
prog->fieldoffsets.disableclientprediction = PRVM_ED_FindFieldOffset("disableclientprediction");
+ prog->fieldoffsets.discardabledemo = PRVM_ED_FindFieldOffset("discardabledemo");
prog->fieldoffsets.dphitcontentsmask = PRVM_ED_FindFieldOffset("dphitcontentsmask");
prog->fieldoffsets.drawonlytoclient = PRVM_ED_FindFieldOffset("drawonlytoclient");
prog->fieldoffsets.exteriormodeltoclient = PRVM_ED_FindFieldOffset("exteriormodeltoclient");
prog->fieldoffsets.movedir = PRVM_ED_FindFieldOffset("movedir");
prog->fieldoffsets.camera_transform = PRVM_ED_FindFieldOffset("camera_transform");
+ prog->fieldoffsets.userwavefunc_param0 = PRVM_ED_FindFieldOffset("userwavefunc_param0");
+ prog->fieldoffsets.userwavefunc_param1 = PRVM_ED_FindFieldOffset("userwavefunc_param1");
+ prog->fieldoffsets.userwavefunc_param2 = PRVM_ED_FindFieldOffset("userwavefunc_param2");
+ prog->fieldoffsets.userwavefunc_param3 = PRVM_ED_FindFieldOffset("userwavefunc_param3");
prog->funcoffsets.CSQC_ConsoleCommand = PRVM_ED_FindFunctionOffset("CSQC_ConsoleCommand");
prog->funcoffsets.CSQC_Ent_Remove = PRVM_ED_FindFunctionOffset("CSQC_Ent_Remove");
prog->globaloffsets.v_up = PRVM_ED_FindGlobalOffset("v_up");
prog->globaloffsets.view_angles = PRVM_ED_FindGlobalOffset("view_angles");
prog->globaloffsets.worldstatus = PRVM_ED_FindGlobalOffset("worldstatus");
+ prog->globaloffsets.particles_alphamin = PRVM_ED_FindGlobalOffset("particles_alphamin");
+ prog->globaloffsets.particles_alphamax = PRVM_ED_FindGlobalOffset("particles_alphamax");
+ prog->globaloffsets.particles_colormin = PRVM_ED_FindGlobalOffset("particles_colormin");
+ prog->globaloffsets.particles_colormax = PRVM_ED_FindGlobalOffset("particles_colormax");
// menu qc only uses some functions, nothing else
prog->funcoffsets.m_draw = PRVM_ED_FindFunctionOffset("m_draw");
if(!buf)
return NULL;
- po = Mem_Alloc(pool, sizeof(*po));
+ memset(&thisstr, 0, sizeof(thisstr)); // hush compiler warning
+
+ po = (po_t *)Mem_Alloc(pool, sizeof(*po));
memset(po, 0, sizeof(*po));
p = buf;
{
if(thisstr.key)
Mem_Free(thisstr.key);
- thisstr.key = Mem_Alloc(pool, decodedpos + 1);
+ thisstr.key = (char *)Mem_Alloc(pool, decodedpos + 1);
memcpy(thisstr.key, decodedbuf, decodedpos + 1);
}
else if(decodedpos > 0 && thisstr.key) // skip empty translation results
{
- thisstr.value = Mem_Alloc(pool, decodedpos + 1);
+ thisstr.value = (char *)Mem_Alloc(pool, decodedpos + 1);
memcpy(thisstr.value, decodedbuf, decodedpos + 1);
hashindex = CRC_Block((const unsigned char *) thisstr.key, strlen(thisstr.key)) % PO_HASHSIZE;
thisstr.nextonhashchain = po->hashtable[hashindex];
- po->hashtable[hashindex] = Mem_Alloc(pool, sizeof(thisstr));
+ po->hashtable[hashindex] = (po_string_t *)Mem_Alloc(pool, sizeof(thisstr));
memcpy(po->hashtable[hashindex], &thisstr, sizeof(thisstr));
memset(&thisstr, 0, sizeof(thisstr));
}
PRVM_LoadProgs
===============
*/
-void PRVM_LoadProgs (const char * filename, int numrequiredfunc, char **required_func, int numrequiredfields, prvm_required_field_t *required_field, int numrequiredglobals, char **required_global)
+void PRVM_LoadProgs (const char * filename, int numrequiredfunc, const char **required_func, int numrequiredfields, prvm_required_field_t *required_field, int numrequiredglobals, char **required_global)
{
int i;
dstatement_t *st;
// later idea: include a list of authorized .po file checksums with the csprogs
{
qboolean deftrans = !!strcmp(PRVM_NAME, "client");
+ if(deftrans) // once we have dotranslate_ strings, ALWAYS use the opt-in method!
+ {
+ for (i=0 ; i<prog->progs->numglobaldefs ; i++)
+ {
+ const char *name;
+ name = PRVM_GetString(prog->globaldefs[i].s_name);
+ if((prog->globaldefs[i].type & ~DEF_SAVEGLOBAL) == ev_string)
+ if(name && !strncmp(name, "dotranslate_", 12))
+ {
+ deftrans = false;
+ break;
+ }
+ }
+ }
if(!strcmp(prvm_language.string, "dump"))
{
qfile_t *f = FS_OpenRealFile(va("%s.%s.po", filename, prvm_language.string), "w", false);
{
const char *name;
name = PRVM_GetString(prog->globaldefs[i].s_name);
- if(deftrans ? (!name || strncmp(name, "notranslate_", 12)) : (name && !strncmp(name, "dotranslate_", 12)))
if((prog->globaldefs[i].type & ~DEF_SAVEGLOBAL) == ev_string)
+ if(deftrans ? (!name || strncmp(name, "notranslate_", 12)) : (name && !strncmp(name, "dotranslate_", 12)))
{
prvm_eval_t *val = (prvm_eval_t *)(prog->globals.generic + prog->globaldefs[i].ofs);
const char *value = PRVM_GetString(val->string);
Cvar_RegisterVariable (&prvm_language);
Cvar_RegisterVariable (&prvm_traceqc);
Cvar_RegisterVariable (&prvm_statementprofiling);
+ Cvar_RegisterVariable (&prvm_timeprofiling);
Cvar_RegisterVariable (&prvm_backtraceforwarnings);
Cvar_RegisterVariable (&prvm_leaktest);
Cvar_RegisterVariable (&prvm_leaktest_ignore_classnames);
}
// LordHavoc: turned PRVM_EDICT_NUM into a #define for speed reasons
-unsigned int PRVM_EDICT_NUM_ERROR(unsigned int n, char *filename, int fileline)
+unsigned int PRVM_EDICT_NUM_ERROR(unsigned int n, const char *filename, int fileline)
{
PRVM_ERROR ("PRVM_EDICT_NUM: %s: bad number %i (called at %s:%i)", PRVM_NAME, n, filename, fileline);
return 0;
memcpy((char **)prog->knownstrings_origin, oldstrings_origin, prog->numknownstrings * sizeof(char *));
}
if (oldstrings)
- Mem_Free(oldstrings);
+ Mem_Free((char **)oldstrings);
if (oldstrings_freeable)
Mem_Free((unsigned char *)oldstrings_freeable);
if (oldstrings_origin)
- Mem_Free(oldstrings_origin);
+ Mem_Free((char **)oldstrings_origin);
}
prog->numknownstrings++;
}