/** * This file is part of Hercules. * http://herc.ws - http://github.com/HerculesWS/Hercules * * Copyright (C) 2012-2015 Hercules Dev Team * Copyright (C) Athena Dev Teams * * Hercules is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define HERCULES_CORE #include "config/core.h" // RENEWAL, RENEWAL_ASPD, RENEWAL_CAST, RENEWAL_DROP, RENEWAL_EDP, RENEWAL_EXP, RENEWAL_LVDMG, SCRIPT_CALLFUNC_CHECK, SECURE_NPCTIMEOUT, SECURE_NPCTIMEOUT_INTERVAL #include "script.h" #include "map/atcommand.h" #include "map/battle.h" #include "map/battleground.h" #include "map/channel.h" #include "map/chat.h" #include "map/chrif.h" #include "map/clif.h" #include "map/elemental.h" #include "map/guild.h" #include "map/homunculus.h" #include "map/instance.h" #include "map/intif.h" #include "map/itemdb.h" #include "map/log.h" #include "map/mail.h" #include "map/map.h" #include "map/mapreg.h" #include "map/mercenary.h" #include "map/mob.h" #include "map/npc.h" #include "map/party.h" #include "map/path.h" #include "map/pc.h" #include "map/pet.h" #include "map/pet.h" #include "map/quest.h" #include "map/skill.h" #include "map/status.h" #include "map/status.h" #include "map/storage.h" #include "map/unit.h" #include "common/cbasetypes.h" #include "common/conf.h" #include "common/db.h" #include "common/memmgr.h" #include "common/md5calc.h" #include "common/mmo.h" // NEW_CARTS #include "common/nullpo.h" #include "common/random.h" #include "common/showmsg.h" #include "common/socket.h" // usage: getcharip #include "common/sql.h" #include "common/strlib.h" #include "common/sysinfo.h" #include "common/timer.h" #include "common/utils.h" #include "common/HPM.h" #include #include #include #include #include #ifndef WIN32 #include #endif struct script_interface script_s; struct script_interface *script; static inline int GETVALUE(const struct script_buf *buf, int i) { Assert_ret(VECTOR_LENGTH(*buf) > i + 2); return (int)MakeDWord(MakeWord(VECTOR_INDEX(*buf, i), VECTOR_INDEX(*buf, i+1)), MakeWord(VECTOR_INDEX(*buf, i+2), 0)); } static inline void SETVALUE(struct script_buf *buf, int i, int n) { Assert_retv(VECTOR_LENGTH(*buf) > i + 2); VECTOR_INDEX(*buf, i) = GetByte(n, 0); VECTOR_INDEX(*buf, i+1) = GetByte(n, 1); VECTOR_INDEX(*buf, i+2) = GetByte(n, 2); } const char* script_op2name(int op) { #define RETURN_OP_NAME(type) case type: return #type switch( op ) { RETURN_OP_NAME(C_NOP); RETURN_OP_NAME(C_POS); RETURN_OP_NAME(C_INT); RETURN_OP_NAME(C_PARAM); RETURN_OP_NAME(C_FUNC); RETURN_OP_NAME(C_STR); RETURN_OP_NAME(C_CONSTSTR); RETURN_OP_NAME(C_ARG); RETURN_OP_NAME(C_NAME); RETURN_OP_NAME(C_EOL); RETURN_OP_NAME(C_RETINFO); RETURN_OP_NAME(C_USERFUNC); RETURN_OP_NAME(C_USERFUNC_POS); RETURN_OP_NAME(C_REF); RETURN_OP_NAME(C_LSTR); // operators RETURN_OP_NAME(C_OP3); RETURN_OP_NAME(C_LOR); RETURN_OP_NAME(C_LAND); RETURN_OP_NAME(C_LE); RETURN_OP_NAME(C_LT); RETURN_OP_NAME(C_GE); RETURN_OP_NAME(C_GT); RETURN_OP_NAME(C_EQ); RETURN_OP_NAME(C_NE); RETURN_OP_NAME(C_XOR); RETURN_OP_NAME(C_OR); RETURN_OP_NAME(C_AND); RETURN_OP_NAME(C_ADD); RETURN_OP_NAME(C_SUB); RETURN_OP_NAME(C_MUL); RETURN_OP_NAME(C_DIV); RETURN_OP_NAME(C_MOD); RETURN_OP_NAME(C_NEG); RETURN_OP_NAME(C_LNOT); RETURN_OP_NAME(C_NOT); RETURN_OP_NAME(C_R_SHIFT); RETURN_OP_NAME(C_L_SHIFT); RETURN_OP_NAME(C_ADD_POST); RETURN_OP_NAME(C_SUB_POST); RETURN_OP_NAME(C_ADD_PRE); RETURN_OP_NAME(C_SUB_PRE); RETURN_OP_NAME(C_RE_EQ); RETURN_OP_NAME(C_RE_NE); default: ShowDebug("script_op2name: unexpected op=%d\n", op); return "???"; } #undef RETURN_OP_NAME } #ifdef SCRIPT_DEBUG_DUMP_STACK static void script_dump_stack(struct script_state* st) { int i; ShowMessage("\tstart = %d\n", st->start); ShowMessage("\tend = %d\n", st->end); ShowMessage("\tdefsp = %d\n", st->stack->defsp); ShowMessage("\tsp = %d\n", st->stack->sp); for( i = 0; i < st->stack->sp; ++i ) { struct script_data* data = &st->stack->stack_data[i]; ShowMessage("\t[%d] %s", i, script->op2name(data->type)); switch( data->type ) { case C_INT: case C_POS: ShowMessage(" %d\n", data->u.num); break; case C_STR: case C_CONSTSTR: ShowMessage(" \"%s\"\n", data->u.str); break; case C_NAME: ShowMessage(" \"%s\" (id=%d ref=%p subtype=%s)\n", reference_getname(data), data->u.num, data->ref, script->op2name(script->str_data[data->u.num].type)); break; case C_RETINFO: { struct script_retinfo* ri = data->u.ri; ShowMessage(" %p {scope.vars=%p, scope.arrays=%p, script=%p, pos=%d, nargs=%d, defsp=%d}\n", ri, ri->scope.vars, ri->scope.arrays, ri->script, ri->pos, ri->nargs, ri->defsp); } break; default: ShowMessage("\n"); break; } } } #endif /// Reports on the console the src of a script error. void script_reportsrc(struct script_state *st) { struct block_list* bl; if( st->oid == 0 ) return; //Can't report source. bl = map->id2bl(st->oid); if( bl == NULL ) return; switch( bl->type ) { case BL_NPC: { const struct npc_data *nd = BL_UCCAST(BL_NPC, bl); if (bl->m >= 0) ShowDebug("Source (NPC): %s at %s (%d,%d)\n", nd->name, map->list[bl->m].name, bl->x, bl->y); else ShowDebug("Source (NPC): %s (invisible/not on a map)\n", nd->name); } break; default: if( bl->m >= 0 ) ShowDebug("Source (Non-NPC type %u): name %s at %s (%d,%d)\n", bl->type, clif->get_bl_name(bl), map->list[bl->m].name, bl->x, bl->y); else ShowDebug("Source (Non-NPC type %u): name %s (invisible/not on a map)\n", bl->type, clif->get_bl_name(bl)); break; } } /// Reports on the console information about the script data. void script_reportdata(struct script_data* data) { if( data == NULL ) return; switch( data->type ) { case C_NOP:// no value ShowDebug("Data: nothing (nil)\n"); break; case C_INT:// number ShowDebug("Data: number value=%"PRId64"\n", data->u.num); break; case C_STR: case C_CONSTSTR:// string if( data->u.str ) { ShowDebug("Data: string value=\"%s\"\n", data->u.str); } else { ShowDebug("Data: string value=NULL\n"); } break; case C_NAME:// reference if( reference_tovariable(data) ) {// variable const char* name = reference_getname(data); ShowDebug("Data: variable name='%s' index=%u\n", name, reference_getindex(data)); } else if( reference_toconstant(data) ) {// constant ShowDebug("Data: constant name='%s' value=%d\n", reference_getname(data), reference_getconstant(data)); } else if( reference_toparam(data) ) {// param ShowDebug("Data: param name='%s' type=%d\n", reference_getname(data), reference_getparamtype(data)); } else {// ??? ShowDebug("Data: reference name='%s' type=%s\n", reference_getname(data), script->op2name(data->type)); ShowDebug("Please report this!!! - script->str_data.type=%s\n", script->op2name(script->str_data[reference_getid(data)].type)); } break; case C_POS:// label ShowDebug("Data: label pos=%"PRId64"\n", data->u.num); break; default: ShowDebug("Data: %s\n", script->op2name(data->type)); break; } } /// Reports on the console information about the current built-in function. void script_reportfunc(struct script_state* st) { int params, id; struct script_data* data; if (!script_hasdata(st,0)) { // no stack return; } data = script_getdata(st,0); if (!data_isreference(data) || script->str_data[reference_getid(data)].type != C_FUNC) { // script currently not executing a built-in function or corrupt stack return; } id = reference_getid(data); params = script_lastdata(st)-1; if (params > 0) { int i; ShowDebug("Function: %s (%d parameter%s):\n", script->get_str(id), params, ( params == 1 ) ? "" : "s"); for (i = 2; i <= script_lastdata(st); i++) { script->reportdata(script_getdata(st,i)); } } else { ShowDebug("Function: %s (no parameters)\n", script->get_str(id)); } } /*========================================== * Output error message *------------------------------------------*/ static void disp_error_message2(const char *mes,const char *pos,int report) analyzer_noreturn; static void disp_error_message2(const char *mes,const char *pos,int report) { script->error_msg = aStrdup(mes); script->error_pos = pos; script->error_report = report; longjmp( script->error_jump, 1 ); } #define disp_error_message(mes,pos) (disp_error_message2((mes),(pos),1)) void disp_warning_message(const char *mes, const char *pos) { script->warning(script->parser_current_src,script->parser_current_file,script->parser_current_line,mes,pos); } /// Checks event parameter validity void check_event(struct script_state *st, const char *evt) { if( evt && evt[0] && !stristr(evt, "::On") ) { ShowWarning("NPC event parameter deprecated! Please use 'NPCNAME::OnEVENT' instead of '%s'.\n", evt); script->reportsrc(st); } } /*========================================== * Hashes the input string *------------------------------------------*/ unsigned int calc_hash(const char* p) { unsigned int h; #if defined(SCRIPT_HASH_DJB2) h = 5381; while( *p ) // hash*33 + c h = ( h << 5 ) + h + ((unsigned char)(*p++)); #elif defined(SCRIPT_HASH_SDBM) h = 0; while( *p ) // hash*65599 + c h = ( h << 6 ) + ( h << 16 ) - h + ((unsigned char)(*p++)); #elif defined(SCRIPT_HASH_ELF) // UNIX ELF hash h = 0; while( *p ) { unsigned int g; h = ( h << 4 ) + ((unsigned char)(*p++)); g = h & 0xF0000000; if( g ) { h ^= g >> 24; h &= ~g; } } #else // athena hash h = 0; while( *p ) h = ( h << 1 ) + ( h >> 3 ) + ( h >> 5 ) + ( h >> 8 ) + (unsigned char)(*p++); #endif return h % SCRIPT_HASH_SIZE; } /*========================================== * Hashes the input string in a case insensitive way *------------------------------------------*/ unsigned int calc_hash_ci(const char* p) { unsigned int h = 0; #ifdef ENABLE_CASE_CHECK #if defined(SCRIPT_HASH_DJB2) h = 5381; while( *p ) // hash*33 + c h = ( h << 5 ) + h + ((unsigned char)TOLOWER(*p++)); #elif defined(SCRIPT_HASH_SDBM) h = 0; while( *p ) // hash*65599 + c h = ( h << 6 ) + ( h << 16 ) - h + ((unsigned char)TOLOWER(*p++)); #elif defined(SCRIPT_HASH_ELF) // UNIX ELF hash h = 0; while( *p ) { unsigned int g; h = ( h << 4 ) + ((unsigned char)TOLOWER(*p++)); g = h & 0xF0000000; if( g ) { h ^= g >> 24; h &= ~g; } } #else // athena hash h = 0; while( *p ) h = ( h << 1 ) + ( h >> 3 ) + ( h >> 5 ) + ( h >> 8 ) + (unsigned char)TOLOWER(*p++); #endif #endif // ENABLE_CASE_CHECK return h % SCRIPT_HASH_SIZE; } /*========================================== * script->str_data manipulation functions *------------------------------------------*/ /// Looks up string using the provided id. const char* script_get_str(int id) { Assert_retr(NULL, id >= LABEL_START && id < script->str_size); return script->str_buf+script->str_data[id].str; } /// Returns the uid of the string, or -1. int script_search_str(const char* p) { int i; for( i = script->str_hash[script->calc_hash(p)]; i != 0; i = script->str_data[i].next ) { if( strcmp(script->get_str(i),p) == 0 ) { return i; } } return -1; } void script_casecheck_clear_sub(struct casecheck_data *ccd) { #ifdef ENABLE_CASE_CHECK if (ccd->str_data) { aFree(ccd->str_data); ccd->str_data = NULL; } ccd->str_data_size = 0; ccd->str_num = 1; if (ccd->str_buf) { aFree(ccd->str_buf); ccd->str_buf = NULL; } ccd->str_pos = 0; ccd->str_size = 0; memset(ccd->str_hash, 0, sizeof(ccd->str_hash)); #endif // ENABLE_CASE_CHECK } void script_global_casecheck_clear(void) { script_casecheck_clear_sub(&script->global_casecheck); } void script_local_casecheck_clear(void) { script_casecheck_clear_sub(&script->local_casecheck); } const char *script_casecheck_add_str_sub(struct casecheck_data *ccd, const char *p) { #ifdef ENABLE_CASE_CHECK int len; int h = script->calc_hash_ci(p); if (ccd->str_hash[h] == 0) { //empty bucket, add new node here ccd->str_hash[h] = ccd->str_num; } else { int i; for (i = ccd->str_hash[h]; ; i = ccd->str_data[i].next) { const char *s = NULL; Assert_retb(i >= 0 && i < ccd->str_size); s = ccd->str_buf+ccd->str_data[i].str; if (strcasecmp(s,p) == 0) { return s; // string already in list } if (ccd->str_data[i].next == 0) break; // reached the end } // append node to end of list ccd->str_data[i].next = ccd->str_num; } // grow list if neccessary if( ccd->str_num >= ccd->str_data_size ) { ccd->str_data_size += 1280; RECREATE(ccd->str_data,struct str_data_struct,ccd->str_data_size); memset(ccd->str_data + (ccd->str_data_size - 1280), '\0', 1280); } len=(int)strlen(p); // grow string buffer if neccessary while( ccd->str_pos+len+1 >= ccd->str_size ) { ccd->str_size += 10240; RECREATE(ccd->str_buf,char,ccd->str_size); memset(ccd->str_buf + (ccd->str_size - 10240), '\0', 10240); } safestrncpy(ccd->str_buf+ccd->str_pos, p, len+1); ccd->str_data[ccd->str_num].type = C_NOP; ccd->str_data[ccd->str_num].str = ccd->str_pos; ccd->str_data[ccd->str_num].val = 0; ccd->str_data[ccd->str_num].next = 0; ccd->str_data[ccd->str_num].func = NULL; ccd->str_data[ccd->str_num].backpatch = -1; ccd->str_data[ccd->str_num].label = -1; ccd->str_pos += len+1; ccd->str_num++; #endif // ENABLE_CASE_CHECK return NULL; } const char *script_global_casecheck_add_str(const char *p) { return script_casecheck_add_str_sub(&script->global_casecheck, p); } const char *script_local_casecheck_add_str(const char *p) { return script_casecheck_add_str_sub(&script->local_casecheck, p); } /// Stores a copy of the string and returns its id. /// If an identical string is already present, returns its id instead. int script_add_str(const char* p) { int len, h = script->calc_hash(p); #ifdef ENABLE_CASE_CHECK const char *existingentry = NULL; #endif // ENABLE_CASE_CHECK if (script->str_hash[h] == 0) { // empty bucket, add new node here script->str_hash[h] = script->str_num; } else { // scan for end of list, or occurence of identical string int i; for (i = script->str_hash[h]; ; i = script->str_data[i].next) { if( strcmp(script->get_str(i),p) == 0 ) { return i; // string already in list } if( script->str_data[i].next == 0 ) break; // reached the end } // append node to end of list script->str_data[i].next = script->str_num; } #ifdef ENABLE_CASE_CHECK if( (strncmp(p, ".@", 2) == 0) ) { // Local scope vars are checked separately to decrease false positives existingentry = script->local_casecheck.add_str(p); } else { existingentry = script->global_casecheck.add_str(p); if( existingentry ) { if( strcasecmp(p, "disguise") == 0 || strcasecmp(p, "Poison_Spore") == 0 || strcasecmp(p, "PecoPeco_Egg") == 0 || strcasecmp(p, "Soccer_Ball") == 0 || strcasecmp(p, "Horn") == 0 || strcasecmp(p, "Treasure_Box_") == 0 || strcasecmp(p, "Lord_of_Death") == 0 ) // Known duplicates, don't bother warning the user existingentry = NULL; } } if( existingentry ) { DeprecationCaseWarning("script_add_str", p, existingentry, script->parser_current_file); // TODO } #endif // ENABLE_CASE_CHECK // grow list if neccessary if( script->str_num >= script->str_data_size ) { script->str_data_size += 1280; RECREATE(script->str_data,struct str_data_struct,script->str_data_size); memset(script->str_data + (script->str_data_size - 1280), '\0', 1280); } len=(int)strlen(p); // grow string buffer if neccessary while( script->str_pos+len+1 >= script->str_size ) { script->str_size += 10240; RECREATE(script->str_buf,char,script->str_size); memset(script->str_buf + (script->str_size - 10240), '\0', 10240); } safestrncpy(script->str_buf+script->str_pos, p, len+1); script->str_data[script->str_num].type = C_NOP; script->str_data[script->str_num].str = script->str_pos; script->str_data[script->str_num].val = 0; script->str_data[script->str_num].next = 0; script->str_data[script->str_num].func = NULL; script->str_data[script->str_num].backpatch = -1; script->str_data[script->str_num].label = -1; script->str_pos += len+1; return script->str_num++; } /** * Appends 1 byte to the script buffer. * * @param a The byte to append. */ void add_scriptb(int a) { VECTOR_ENSURE(script->buf, 1, SCRIPT_BLOCK_SIZE); VECTOR_PUSH(script->buf, (uint8)a); } /** * Appends a c_op value to the script buffer. * * The value is variable-length encoded into 8-bit blocks. * The encoding scheme is ( 01?????? )* 00??????, LSB first. * All blocks but the last hold 7 bits of data, topmost bit is always 1 (carries). * * @param a The value to append. */ void add_scriptc(int a) { while( a >= 0x40 ) { script->addb((a&0x3f)|0x40); a = (a - 0x40) >> 6; } script->addb(a); } /** * Appends an integer value to the script buffer. * * The value is variable-length encoded into 8-bit blocks. * The encoding scheme is ( 11?????? )* 10??????, LSB first. * All blocks but the last hold 7 bits of data, topmost bit is always 1 (carries). * * @param a The value to append. */ void add_scripti(int a) { while( a >= 0x40 ) { script->addb((a&0x3f)|0xc0); a = (a - 0x40) >> 6; } script->addb(a|0x80); } /** * Appends a script->str_data object (label/function/variable/integer) to the script buffer. * * @param l The id of the script->str_data entry (Maximum up to 16M) */ void add_scriptl(int l) { int backpatch = script->str_data[l].backpatch; switch(script->str_data[l].type) { case C_POS: case C_USERFUNC_POS: script->addc(C_POS); script->addb(script->str_data[l].label); script->addb(script->str_data[l].label>>8); script->addb(script->str_data[l].label>>16); break; case C_NOP: case C_USERFUNC: // Embedded data backpatch there is a possibility of label script->addc(C_NAME); script->str_data[l].backpatch = VECTOR_LENGTH(script->buf); script->addb(backpatch); script->addb(backpatch>>8); script->addb(backpatch>>16); break; case C_INT: script->addi(abs(script->str_data[l].val)); if( script->str_data[l].val < 0 ) //Notice that this is negative, from jA (Rayce) script->addc(C_NEG); break; default: // assume C_NAME script->addc(C_NAME); script->addb(l); script->addb(l>>8); script->addb(l>>16); break; } } /*========================================== * Resolve the label *------------------------------------------*/ void set_label(int l,int pos, const char* script_pos) { int i; if(script->str_data[l].type==C_INT || script->str_data[l].type==C_PARAM || script->str_data[l].type==C_FUNC) { //Prevent overwriting constants values, parameters and built-in functions [Skotlex] disp_error_message("set_label: invalid label name",script_pos); return; } if(script->str_data[l].label!=-1) { disp_error_message("set_label: dup label ",script_pos); return; } script->str_data[l].type=(script->str_data[l].type == C_USERFUNC ? C_USERFUNC_POS : C_POS); script->str_data[l].label=pos; for (i = script->str_data[l].backpatch; i >= 0 && i != 0x00ffffff; ) { int next = GETVALUE(&script->buf, i); VECTOR_INDEX(script->buf, i-1) = (script->str_data[l].type == C_USERFUNC ? C_USERFUNC_POS : C_POS); SETVALUE(&script->buf, i, pos); i = next; } } /// Skips spaces and/or comments. const char* script_skip_space(const char* p) { if( p == NULL ) return NULL; for(;;) { while( ISSPACE(*p) ) ++p; if( *p == '/' && p[1] == '/' ) {// line comment while(*p && *p!='\n') ++p; } else if( *p == '/' && p[1] == '*' ) {// block comment p += 2; for(;;) { if( *p == '\0' ) { script->disp_warning_message("script:script->skip_space: end of file while parsing block comment. expected "CL_BOLD"*/"CL_NORM, p); return p; } if( *p == '*' && p[1] == '/' ) {// end of block comment p += 2; break; } ++p; } } else break; } return p; } /// Skips a word. /// A word consists of undercores and/or alphanumeric characters, /// and valid variable prefixes/postfixes. const char* skip_word(const char* p) { // prefix switch( *p ) { case '@':// temporary char variable ++p; break; case '#':// account variable p += ( p[1] == '#' ? 2 : 1 ); break; case '\'':// instance variable ++p; break; case '.':// npc variable p += ( p[1] == '@' ? 2 : 1 ); break; case '$':// global variable p += ( p[1] == '@' ? 2 : 1 ); break; } while( ISALNUM(*p) || *p == '_' || *p == '\'' ) ++p; // postfix if( *p == '$' )// string p++; return p; } /// Adds a word to script->str_data. /// @see skip_word /// @see script->add_str int add_word(const char* p) { size_t len; int i; // Check for a word len = script->skip_word(p) - p; if( len == 0 ) disp_error_message("script:add_word: invalid word. A word consists of undercores and/or alphanumeric characters, and valid variable prefixes/postfixes.", p); // Duplicate the word if( len+1 > script->word_size ) RECREATE(script->word_buf, char, (script->word_size = (len+1))); memcpy(script->word_buf, p, len); script->word_buf[len] = 0; // add the word i = script->add_str(script->word_buf); return i; } /// Parses a function call. /// The argument list can have parenthesis or not. /// The number of arguments is checked. static const char* parse_callfunc(const char* p, int require_paren, int is_custom) { const char *p2; char *arg = NULL; char null_arg = '\0'; int func; bool macro = false; // is need add check for arg null pointer below? func = script->add_word(p); if (script->str_data[func].type == C_FUNC) { script->syntax.nested_call++; if (script->syntax.last_func != -1) { if( script->str_data[func].val == script->buildin_lang_macro_offset ) { script->syntax.lang_macro_active = true; macro = true; } } if( !macro ) { // buildin function script->syntax.last_func = script->str_data[func].val; script->addl(func); script->addc(C_ARG); } arg = script->buildin[script->str_data[func].val]; if (script->str_data[func].deprecated) DeprecationWarning(p); if( !arg ) arg = &null_arg; // Use a dummy, null string } else if( script->str_data[func].type == C_USERFUNC || script->str_data[func].type == C_USERFUNC_POS ) { // script defined function script->addl(script->buildin_callsub_ref); script->addc(C_ARG); script->addl(func); arg = script->buildin[script->str_data[script->buildin_callsub_ref].val]; if( *arg == 0 ) disp_error_message("parse_callfunc: callsub has no arguments, please review its definition",p); if( *arg != '*' ) ++arg; // count func as argument } else { #ifdef SCRIPT_CALLFUNC_CHECK const char* name = script->get_str(func); if( !is_custom && strdb_get(script->userfunc_db, name) == NULL ) { #endif disp_error_message("parse_line: expect command, missing function name or calling undeclared function",p); #ifdef SCRIPT_CALLFUNC_CHECK } else {; script->addl(script->buildin_callfunc_ref); script->addc(C_ARG); script->addc(C_STR); while( *name ) script->addb(*name ++); script->addb(0); arg = script->buildin[script->str_data[script->buildin_callfunc_ref].val]; if( *arg != '*' ) ++ arg; } #endif } p = script->skip_word(p); p = script->skip_space(p); script->syntax.curly[script->syntax.curly_count].type = TYPE_ARGLIST; script->syntax.curly[script->syntax.curly_count].count = 0; if( *p == ';' ) {// ';' script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_NO_PAREN; } else if( *p == '(' && *(p2=script->skip_space(p+1)) == ')' ) {// '(' ')' script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_PAREN; p = p2; /* } else if( 0 && require_paren && *p != '(' ) {// script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_NO_PAREN; */ } else {// if( require_paren ) { if( *p != '(' ) disp_error_message("need '('",p); ++p; // skip '(' script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_PAREN; } else if( *p == '(' ) { script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_UNDEFINED; } else { script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_NO_PAREN; } ++script->syntax.curly_count; while( *arg ) { p2=script->parse_subexpr(p,-1); if( p == p2 ) break; // not an argument if( *arg != '*' ) ++arg; // next argument p=script->skip_space(p2); if( *arg == 0 || *p != ',' ) break; // no more arguments ++p; // skip comma } --script->syntax.curly_count; } if( arg && *arg && *arg != '?' && *arg != '*' ) disp_error_message2("parse_callfunc: not enough arguments, expected ','", p, script->config.warn_func_mismatch_paramnum); if( script->syntax.curly[script->syntax.curly_count].type != TYPE_ARGLIST ) disp_error_message("parse_callfunc: DEBUG last curly is not an argument list",p); if( script->syntax.curly[script->syntax.curly_count].flag == ARGLIST_PAREN ) { if( *p != ')' ) disp_error_message("parse_callfunc: expected ')' to close argument list",p); ++p; if( script->str_data[func].val == script->buildin_lang_macro_offset ) script->syntax.lang_macro_active = false; } if (!macro) { if (0 == --script->syntax.nested_call) script->syntax.last_func = -1; script->addc(C_FUNC); } return p; } /// Processes end of logical script line. /// @param first When true, only fix up scheduling data is initialized /// @param p Script position for error reporting in set_label void parse_nextline(bool first, const char* p) { if( !first ) { script->addc(C_EOL); // mark end of line for stack cleanup script->set_label(LABEL_NEXTLINE, VECTOR_LENGTH(script->buf), p); // fix up '-' labels } // initialize data for new '-' label fix up scheduling script->str_data[LABEL_NEXTLINE].type = C_NOP; script->str_data[LABEL_NEXTLINE].backpatch = -1; script->str_data[LABEL_NEXTLINE].label = -1; } /** * Pushes a variable into stack, processing its array index if needed. * @see parse_variable */ void parse_variable_sub_push(int word, const char *p2) { if( p2 ) { const char* p3 = NULL; // process the variable index // push the getelementofarray method into the stack script->addl(script->buildin_getelementofarray_ref); script->addc(C_ARG); script->addl(word); // process the sub-expression for this assignment p3 = script->parse_subexpr(p2 + 1, 1); p3 = script->skip_space(p3); if( *p3 != ']' ) {// closing parenthesis is required for this script disp_error_message("Missing closing ']' parenthesis for the variable assignment.", p3); } // push the closing function stack operator onto the stack script->addc(C_FUNC); p3++; } else { // No array index, simply push the variable or value onto the stack script->addl(word); } } /// Parse a variable assignment using the direct equals operator /// @param p script position where the function should run from /// @return NULL if not a variable assignment, the new position otherwise const char* parse_variable(const char* p) { int word; c_op type = C_NOP; const char *p2 = NULL; const char *var = p; if( ( p[0] == '+' && p[1] == '+' && (type = C_ADD_PRE, true) ) // pre ++ || ( p[0] == '-' && p[1] == '-' && (type = C_SUB_PRE, true) ) // pre -- ) { var = p = script->skip_space(&p[2]); } // skip the variable where applicable p = script->skip_word(p); p = script->skip_space(p); if( p == NULL ) { // end of the line or invalid buffer return NULL; } if (*p == '[') { int i, j; // array variable so process the array as appropriate for (p2 = p, i = 0, j = 1; p; ++ i) { if( *p ++ == ']' && --(j) == 0 ) break; if( *p == '[' ) ++ j; } if( !(p = script->skip_space(p)) ) { // end of line or invalid characters remaining disp_error_message("Missing right expression or closing bracket for variable.", p); } } if( type == C_NOP && !( ( p[0] == '=' && p[1] != '=' && (type = C_EQ, true) ) // = || ( p[0] == '+' && p[1] == '=' && (type = C_ADD, true) ) // += || ( p[0] == '-' && p[1] == '=' && (type = C_SUB, true) ) // -= || ( p[0] == '^' && p[1] == '=' && (type = C_XOR, true) ) // ^= || ( p[0] == '|' && p[1] == '=' && (type = C_OR, true) ) // |= || ( p[0] == '&' && p[1] == '=' && (type = C_AND, true) ) // &= || ( p[0] == '*' && p[1] == '=' && (type = C_MUL, true) ) // *= || ( p[0] == '/' && p[1] == '=' && (type = C_DIV, true) ) // /= || ( p[0] == '%' && p[1] == '=' && (type = C_MOD, true) ) // %= || ( p[0] == '+' && p[1] == '+' && (type = C_ADD_POST, true) ) // post ++ || ( p[0] == '-' && p[1] == '-' && (type = C_SUB_POST, true) ) // post -- || ( p[0] == '<' && p[1] == '<' && p[2] == '=' && (type = C_L_SHIFT, true) ) // <<= || ( p[0] == '>' && p[1] == '>' && p[2] == '=' && (type = C_R_SHIFT, true) ) // >>= ) ) {// failed to find a matching operator combination so invalid return NULL; } switch( type ) { case C_ADD_PRE: // pre ++ case C_SUB_PRE: // pre -- // (nothing more to skip) break; case C_EQ: // = p = script->skip_space( &p[1] ); break; case C_L_SHIFT: // <<= case C_R_SHIFT: // >>= p = script->skip_space( &p[3] ); break; default: // everything else p = script->skip_space( &p[2] ); } if( p == NULL ) { // end of line or invalid buffer return NULL; } // push the set function onto the stack script->syntax.nested_call++; script->syntax.last_func = script->str_data[script->buildin_set_ref].val; script->addl(script->buildin_set_ref); script->addc(C_ARG); // always append parenthesis to avoid errors script->syntax.curly[script->syntax.curly_count].type = TYPE_ARGLIST; script->syntax.curly[script->syntax.curly_count].count = 0; script->syntax.curly[script->syntax.curly_count].flag = ARGLIST_PAREN; // increment the total curly count for the position in the script ++script->syntax.curly_count; // parse the variable currently being modified word = script->add_word(var); if( script->str_data[word].type == C_FUNC || script->str_data[word].type == C_USERFUNC || script->str_data[word].type == C_USERFUNC_POS ) { // cannot assign a variable which exists as a function or label disp_error_message("Cannot modify a variable which has the same name as a function or label.", p); } parse_variable_sub_push(word, p2); // Push variable onto the stack if( type != C_EQ ) { parse_variable_sub_push(word, p2); // Push variable onto the stack once again (first argument of setr) } if( type == C_ADD_POST || type == C_SUB_POST ) { // post ++ / -- script->addi(1); script->addc(type == C_ADD_POST ? C_ADD : C_SUB); parse_variable_sub_push(word, p2); // Push variable onto the stack (third argument of setr) } else if( type == C_ADD_PRE || type == C_SUB_PRE ) { // pre ++ / -- script->addi(1); script->addc(type == C_ADD_PRE ? C_ADD : C_SUB); } else { // process the value as an expression p = script->parse_subexpr(p, -1); if( type != C_EQ ) { // push the type of modifier onto the stack script->addc(type); } } // decrement the curly count for the position within the script --script->syntax.curly_count; // close the script by appending the function operator script->addc(C_FUNC); if (--script->syntax.nested_call == 0) script->syntax.last_func = -1; // push the buffer from the method return p; } /* * Checks whether the gives string is a number literal * * Mainly necessary to differentiate between number literals and NPC name * constants, since several of those start with a digit. * * All this does is to check if the string begins with an optional + or - sign, * followed by a hexadecimal or decimal number literal literal and is NOT * followed by a underscore or letter. * * @param p Pointer to the string to check * @return Whether the string is a number literal */ bool is_number(const char *p) { const char *np; if (!p) return false; if (*p == '-' || *p == '+') p++; np = p; if (*p == '0' && p[1] == 'x') { p+=2; np = p; // Hexadecimal while (ISXDIGIT(*np)) np++; } else { // Decimal while (ISDIGIT(*np)) np++; } if (p != np && *np != '_' && !ISALPHA(*np)) // At least one digit, and next isn't a letter or _ return true; return false; } /** * Duplicates a script string into the script string list. * * Grows the script string list as needed. * * @param str The string to insert. * @return the string position in the script string list. */ int script_string_dup(char *str) { int len = (int)strlen(str); int pos = script->string_list_pos; while (pos+len+1 >= script->string_list_size) { script->string_list_size += (1024*1024)/2; RECREATE(script->string_list,char,script->string_list_size); } safestrncpy(script->string_list+pos, str, len+1); script->string_list_pos += len+1; return pos; } /*========================================== * Analysis section *------------------------------------------*/ const char *parse_simpleexpr(const char *p) { p=script->skip_space(p); if (*p == ';' || *p == ',') disp_error_message("parse_simpleexpr: unexpected end of expression",p); if (*p == '(') { return script->parse_simpleexpr_paren(p); } else if (is_number(p)) { return script->parse_simpleexpr_number(p); } else if(*p == '"') { return script->parse_simpleexpr_string(p); } else { return script->parse_simpleexpr_name(p); } } const char *parse_simpleexpr_paren(const char *p) { int i = script->syntax.curly_count - 1; if (i >= 0 && script->syntax.curly[i].type == TYPE_ARGLIST) ++script->syntax.curly[i].count; p = script->parse_subexpr(p + 1, -1); p = script->skip_space(p); if ((i = script->syntax.curly_count - 1) >= 0 && script->syntax.curly[i].type == TYPE_ARGLIST && script->syntax.curly[i].flag == ARGLIST_UNDEFINED && --script->syntax.curly[i].count == 0 ) { if (*p == ',') { script->syntax.curly[i].flag = ARGLIST_PAREN; return p; } else { script->syntax.curly[i].flag = ARGLIST_NO_PAREN; } } if (*p != ')') disp_error_message("parse_simpleexpr: unmatched ')'", p); return p + 1; } const char *parse_simpleexpr_number(const char *p) { char *np = NULL; long long lli; while (*p == '0' && ISDIGIT(p[1])) p++; // Skip leading zeros, we don't support octal literals lli = strtoll(p, &np, 0); if (lli < INT_MIN) { lli = INT_MIN; script->disp_warning_message("parse_simpleexpr: underflow detected, capping value to INT_MIN", p); } else if (lli > INT_MAX) { lli = INT_MAX; script->disp_warning_message("parse_simpleexpr: overflow detected, capping value to INT_MAX", p); } script->addi((int)lli); // Cast is safe, as it's already been checked for overflows return np; } const char *parse_simpleexpr_string(const char *p) { struct string_translation *st = NULL; const char *start_point = p; bool duplicate = true; do { p++; while (*p != '\0' && *p != '"') { if ((unsigned char)p[-1] <= 0x7e && *p == '\\') { char buf[8]; size_t len = sv->skip_escaped_c(p) - p; size_t n = sv->unescape_c(buf, p, len); if (n != 1) ShowDebug("parse_simpleexpr: unexpected length %d after unescape (\"%.*s\" -> %.*s)\n", (int)n, (int)len, p, (int)n, buf); p += len; VECTOR_ENSURE(script->parse_simpleexpr_str, 1, 512); VECTOR_PUSH(script->parse_simpleexpr_str, buf[0]); continue; } if (*p == '\n') { disp_error_message("parse_simpleexpr: unexpected newline @ string", p); } VECTOR_ENSURE(script->parse_simpleexpr_str, 1, 512); VECTOR_PUSH(script->parse_simpleexpr_str, *p++); } if (*p == '\0') disp_error_message("parse_simpleexpr: unexpected end of file @ string", p); p++; //'"' p = script->skip_space(p); } while (*p != '\0' && *p == '"'); VECTOR_ENSURE(script->parse_simpleexpr_str, 1, 512); VECTOR_PUSH(script->parse_simpleexpr_str, '\0'); if (script->syntax.translation_db == NULL || (st = strdb_get(script->syntax.translation_db, VECTOR_DATA(script->parse_simpleexpr_str))) == NULL) { script->addc(C_STR); VECTOR_ENSURE(script->buf, VECTOR_LENGTH(script->parse_simpleexpr_str), SCRIPT_BLOCK_SIZE); VECTOR_PUSHARRAY(script->buf, VECTOR_DATA(script->parse_simpleexpr_str), VECTOR_LENGTH(script->parse_simpleexpr_str)); } else { unsigned char u; int st_cursor = 0; script->addc(C_LSTR); VECTOR_ENSURE(script->buf, (int)(sizeof(st->string_id) + sizeof(st->translations)), SCRIPT_BLOCK_SIZE); VECTOR_PUSHARRAY(script->buf, (void *)&st->string_id, sizeof(st->string_id)); VECTOR_PUSHARRAY(script->buf, (void *)&st->translations, sizeof(st->translations)); for (u = 0; u != st->translations; u++) { struct string_translation_entry *entry = (void *)(st->buf+st_cursor); char *stringptr = &entry->string[0]; st_cursor += sizeof(*entry); VECTOR_ENSURE(script->buf, (int)(sizeof(entry->lang_id) + sizeof(char *)), SCRIPT_BLOCK_SIZE); VECTOR_PUSHARRAY(script->buf, (void *)&entry->lang_id, sizeof(entry->lang_id)); VECTOR_PUSHARRAY(script->buf, (void *)&stringptr, sizeof(stringptr)); st_cursor += sizeof(uint8); // FIXME: What are we skipping here? while (st->buf[st_cursor++] != 0) (void)0; // Skip string st_cursor += sizeof(uint8); // FIXME: What are we skipping here? } } /* When exporting we don't know what is a translation and what isn't */ if (script->lang_export_fp != NULL && VECTOR_LENGTH(script->parse_simpleexpr_str) > 1) { // The length of script->parse_simpleexpr_str will always be at least 1 because of the '\0' if (script->syntax.strings == NULL) { script->syntax.strings = strdb_alloc(DB_OPT_DUP_KEY|DB_OPT_ALLOW_NULL_DATA, 0); } if (!strdb_exists(script->syntax.strings, VECTOR_DATA(script->parse_simpleexpr_str))) { strdb_put(script->syntax.strings, VECTOR_DATA(script->parse_simpleexpr_str), NULL); duplicate = false; } } if (script->lang_export_fp != NULL && !duplicate && ( ( ( script->syntax.last_func == script->buildin_mes_offset || script->syntax.last_func == script->buildin_select_offset ) ) || script->syntax.lang_macro_active ) ) { const char *line_start = start_point; const char *line_end = start_point; int line_length; while( line_start > script->parser_current_src ) { if( *line_start != '\n' ) line_start--; else break; } while( *line_end != '\n' && *line_end != '\0' ) line_end++; line_length = (int)(line_end - line_start); if( line_length > 0 ) { VECTOR_ENSURE(script->lang_export_line_buf, line_length + 1, 512); VECTOR_PUSHARRAY(script->lang_export_line_buf, line_start, line_length); VECTOR_PUSH(script->lang_export_line_buf, '\0'); normalize_name(VECTOR_DATA(script->lang_export_line_buf), "\r\n\t "); // [!] Note: VECTOR_LENGTH() will lie. } VECTOR_ENSURE(script->lang_export_escaped_buf, 4*VECTOR_LENGTH(script->parse_simpleexpr_str)+1, 1); VECTOR_LENGTH(script->lang_export_escaped_buf) = (int)sv->escape_c(VECTOR_DATA(script->lang_export_escaped_buf), VECTOR_DATA(script->parse_simpleexpr_str), VECTOR_LENGTH(script->parse_simpleexpr_str)-1, /* exclude null terminator */ "\""); VECTOR_PUSH(script->lang_export_escaped_buf, '\0'); fprintf(script->lang_export_fp, "#: %s\n" "# %s\n" "msgctxt \"%s\"\n" "msgid \"%s\"\n" "msgstr \"\"\n", script->parser_current_file ? script->parser_current_file : "Unknown File", VECTOR_DATA(script->lang_export_line_buf), script->parser_current_npc_name ? script->parser_current_npc_name : "Unknown NPC", VECTOR_DATA(script->lang_export_escaped_buf) ); VECTOR_TRUNCATE(script->lang_export_line_buf); VECTOR_TRUNCATE(script->lang_export_escaped_buf); } VECTOR_TRUNCATE(script->parse_simpleexpr_str); return p; } const char *parse_simpleexpr_name(const char *p) { int l; const char *pv = NULL; // label , register , function etc if (script->skip_word(p) == p) disp_error_message("parse_simpleexpr: unexpected character", p); l = script->add_word(p); if (script->str_data[l].type == C_FUNC || script->str_data[l].type == C_USERFUNC || script->str_data[l].type == C_USERFUNC_POS) { return script->parse_callfunc(p,1,0); #ifdef SCRIPT_CALLFUNC_CHECK } else { const char *name = script->get_str(l); if (strdb_get(script->userfunc_db,name) != NULL) { return script->parse_callfunc(p, 1, 1); } #endif } if ((pv = script->parse_variable(p)) != NULL) { // successfully processed a variable assignment return pv; } if (script->str_data[l].type == C_INT && script->str_data[l].deprecated) { disp_warning_message("This constant is deprecated and it will be removed in a future version. Please see the script documentation and constants.conf for an alternative.\n", p); } p = script->skip_word(p); if (*p == '[') { // array(name[i] => getelementofarray(name,i) ) script->addl(script->buildin_getelementofarray_ref); script->addc(C_ARG); script->addl(l); p = script->parse_subexpr(p + 1, -1); p = script->skip_space(p); if (*p != ']') disp_error_message("parse_simpleexpr: unmatched ']'", p); ++p; script->addc(C_FUNC); } else { script->addl(l); } return p; } /*========================================== * Analysis of the expression *------------------------------------------*/ const char* script_parse_subexpr(const char* p,int limit) { int op,opl,len; p=script->skip_space(p); if( *p == '-' ) { const char *tmpp = script->skip_space(p+1); if( *tmpp == ';' || *tmpp == ',' ) { script->addl(LABEL_NEXTLINE); p++; return p; } } if( (p[0]=='+' && p[1]=='+') /* C_ADD_PRE */ || (p[0]=='-'&&p[1]=='-') /* C_SUB_PRE */ ) { // Pre ++ -- operators p=script->parse_variable(p); } else if( (op=C_NEG,*p=='-') || (op=C_LNOT,*p=='!') || (op=C_NOT,*p=='~') ) { // Unary - ! ~ operators p=script->parse_subexpr(p+1,11); script->addc(op); } else { p=script->parse_simpleexpr(p); } p=script->skip_space(p); while(( (op=C_OP3, opl=0, len=1,*p=='?') // ?: || (op=C_ADD, opl=9, len=1,*p=='+') // + || (op=C_SUB, opl=9, len=1,*p=='-') // - || (op=C_MUL, opl=10,len=1,*p=='*') // * || (op=C_DIV, opl=10,len=1,*p=='/') // / || (op=C_MOD, opl=10,len=1,*p=='%') // % || (op=C_LAND, opl=2, len=2,*p=='&' && p[1]=='&') // && || (op=C_AND, opl=5, len=1,*p=='&') // & || (op=C_LOR, opl=1, len=2,*p=='|' && p[1]=='|') // || || (op=C_OR, opl=3, len=1,*p=='|') // | || (op=C_XOR, opl=4, len=1,*p=='^') // ^ || (op=C_EQ, opl=6, len=2,*p=='=' && p[1]=='=') // == || (op=C_NE, opl=6, len=2,*p=='!' && p[1]=='=') // != || (op=C_RE_EQ, opl=6, len=2,*p=='~' && p[1]=='=') // ~= || (op=C_RE_NE, opl=6, len=2,*p=='~' && p[1]=='!') // ~! || (op=C_R_SHIFT,opl=8, len=2,*p=='>' && p[1]=='>') // >> || (op=C_GE, opl=7, len=2,*p=='>' && p[1]=='=') // >= || (op=C_GT, opl=7, len=1,*p=='>') // > || (op=C_L_SHIFT,opl=8, len=2,*p=='<' && p[1]=='<') // << || (op=C_LE, opl=7, len=2,*p=='<' && p[1]=='=') // <= || (op=C_LT, opl=7, len=1,*p=='<') // < ) && opl>limit) { p+=len; if(op == C_OP3) { p=script->parse_subexpr(p,-1); p=script->skip_space(p); if( *(p++) != ':') disp_error_message("parse_subexpr: need ':'", p-1); p=script->parse_subexpr(p,-1); } else { p=script->parse_subexpr(p,opl); } script->addc(op); p=script->skip_space(p); } return p; /* return first untreated operator */ } /*========================================== * Evaluation of the expression *------------------------------------------*/ const char* parse_expr(const char *p) { switch(*p) { case ')': case ';': case ':': case '[': case ']': case '}': disp_error_message("parse_expr: unexpected char",p); } p=script->parse_subexpr(p,-1); return p; } /*========================================== * Analysis of the line *------------------------------------------*/ const char* parse_line(const char* p) { const char* p2; p=script->skip_space(p); if(*p==';') { //Close decision for if(); for(); while(); p = script->parse_syntax_close(p + 1); return p; } if(*p==')' && script->parse_syntax_for_flag) return p+1; p = script->skip_space(p); if(p[0] == '{') { script->syntax.curly[script->syntax.curly_count].type = TYPE_NULL; script->syntax.curly[script->syntax.curly_count].count = -1; script->syntax.curly[script->syntax.curly_count].index = -1; script->syntax.curly_count++; return p + 1; } else if(p[0] == '}') { return script->parse_curly_close(p); } // Syntax-related processing p2 = script->parse_syntax(p); if(p2 != NULL) return p2; // attempt to process a variable assignment p2 = script->parse_variable(p); if (p2 != NULL) { // variable assignment processed so leave the method if (script->parse_syntax_for_flag) { if (*p2 != ')') disp_error_message("parse_line: need ')'", p2); } else { if (*p2 != ';') disp_error_message("parse_line: need ';'", p2); } return script->parse_syntax_close(p2 + 1); } p = script->parse_callfunc(p,0,0); p = script->skip_space(p); if(script->parse_syntax_for_flag) { if( *p != ')' ) disp_error_message("parse_line: need ')'",p); } else { if( *p != ';' ) disp_error_message("parse_line: need ';'",p); } //Binding decision for if(), for(), while() p = script->parse_syntax_close(p+1); return p; } // { ... } Closing process const char* parse_curly_close(const char* p) { if(script->syntax.curly_count <= 0) { disp_error_message("parse_curly_close: unexpected string",p); return p + 1; } else if(script->syntax.curly[script->syntax.curly_count-1].type == TYPE_NULL) { script->syntax.curly_count--; //Close decision if, for , while p = script->parse_syntax_close(p + 1); return p; } else if(script->syntax.curly[script->syntax.curly_count-1].type == TYPE_SWITCH) { //Closing switch() int pos = script->syntax.curly_count-1; char label[256]; int l; // Remove temporary variables sprintf(label, "__setr $@__SW%x_VAL,0;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // Go to the end pointer unconditionally sprintf(label,"goto __SW%x_FIN;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // You are here labeled sprintf(label,"__SW%x_%x", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); if(script->syntax.curly[pos].flag) { //Exists default sprintf(label,"goto __SW%x_DEF;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; } // Label end sprintf(label,"__SW%x_FIN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); linkdb_final(&script->syntax.curly[pos].case_label); // free the list of case label script->syntax.curly_count--; //Closing decision if, for , while p = script->parse_syntax_close(p + 1); return p; } else { disp_error_message("parse_curly_close: unexpected string",p); return p + 1; } } // Syntax-related processing // break, case, continue, default, do, for, function, // if, switch, while ? will handle this internally. const char* parse_syntax(const char* p) { const char *p2 = script->skip_word(p); switch(*p) { case 'B': case 'b': if( p2 - p == 5 && strncmp(p,"break",5) == 0 ) { // break Processing char label[256]; int pos = script->syntax.curly_count - 1; while(pos >= 0) { if(script->syntax.curly[pos].type == TYPE_DO) { sprintf(label, "goto __DO%x_FIN;", (unsigned int)script->syntax.curly[pos].index); break; } else if(script->syntax.curly[pos].type == TYPE_FOR) { sprintf(label, "goto __FR%x_FIN;", (unsigned int)script->syntax.curly[pos].index); break; } else if(script->syntax.curly[pos].type == TYPE_WHILE) { sprintf(label, "goto __WL%x_FIN;", (unsigned int)script->syntax.curly[pos].index); break; } else if(script->syntax.curly[pos].type == TYPE_SWITCH) { sprintf(label, "goto __SW%x_FIN;", (unsigned int)script->syntax.curly[pos].index); break; } pos--; } if(pos < 0) { disp_error_message("parse_syntax: unexpected 'break'",p); } else { script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; } p = script->skip_space(p2); if(*p != ';') disp_error_message("parse_syntax: need ';'",p); // Closing decision if, for , while p = script->parse_syntax_close(p + 1); return p; } break; case 'c': case 'C': if( p2 - p == 4 && strncmp(p, "case", 4) == 0 ) { //Processing case int pos = script->syntax.curly_count-1; if(pos < 0 || script->syntax.curly[pos].type != TYPE_SWITCH) { disp_error_message("parse_syntax: unexpected 'case' ",p); return p+1; } else { char label[256]; int l,v; char *np; if(script->syntax.curly[pos].count != 1) { //Jump for FALLTHRU sprintf(label,"goto __SW%x_%xJ;", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // You are here labeled sprintf(label,"__SW%x_%x", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); } //Decision statement switch p = script->skip_space(p2); if(p == p2) { disp_error_message("parse_syntax: expect space ' '",p); } // check whether case label is integer or not if(is_number(p)) { //Numeric value v = (int)strtol(p,&np,0); if((*p == '-' || *p == '+') && ISDIGIT(p[1])) // pre-skip because '-' can not skip_word p++; p = script->skip_word(p); if(np != p) disp_error_message("parse_syntax: 'case' label is not an integer",np); } else { //Check for constants p2 = script->skip_word(p); v = (int)(size_t) (p2-p); // length of word at p2 memcpy(label,p,v); label[v]='\0'; if( !script->get_constant(label, &v) ) disp_error_message("parse_syntax: 'case' label is not an integer",p); p = script->skip_word(p); } p = script->skip_space(p); if(*p != ':') disp_error_message("parse_syntax: expect ':'",p); sprintf(label,"if(%d != $@__SW%x_VAL) goto __SW%x_%x;", v, (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count+1); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; // Bad I do not parse twice p2 = script->parse_line(label); script->parse_line(p2); script->syntax.curly_count--; if(script->syntax.curly[pos].count != 1) { // Label after the completion of FALLTHRU sprintf(label, "__SW%x_%xJ", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); } // check duplication of case label [Rayce] if(linkdb_search(&script->syntax.curly[pos].case_label, (void*)h64BPTRSIZE(v)) != NULL) disp_error_message("parse_syntax: dup 'case'",p); linkdb_insert(&script->syntax.curly[pos].case_label, (void*)h64BPTRSIZE(v), (void*)1); sprintf(label, "__setr $@__SW%x_VAL,0;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; script->syntax.curly[pos].count++; } return p + 1; } else if( p2 - p == 8 && strncmp(p, "continue", 8) == 0 ) { // Processing continue char label[256]; int pos = script->syntax.curly_count - 1; while(pos >= 0) { if(script->syntax.curly[pos].type == TYPE_DO) { sprintf(label, "goto __DO%x_NXT;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[pos].flag = 1; //Flag put the link for continue break; } else if(script->syntax.curly[pos].type == TYPE_FOR) { sprintf(label, "goto __FR%x_NXT;", (unsigned int)script->syntax.curly[pos].index); break; } else if(script->syntax.curly[pos].type == TYPE_WHILE) { sprintf(label, "goto __WL%x_NXT;", (unsigned int)script->syntax.curly[pos].index); break; } pos--; } if(pos < 0) { disp_error_message("parse_syntax: unexpected 'continue'",p); } else { script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; } p = script->skip_space(p2); if(*p != ';') disp_error_message("parse_syntax: need ';'",p); //Closing decision if, for , while p = script->parse_syntax_close(p + 1); return p; } break; case 'd': case 'D': if( p2 - p == 7 && strncmp(p, "default", 7) == 0 ) { // Switch - default processing int pos = script->syntax.curly_count-1; if(pos < 0 || script->syntax.curly[pos].type != TYPE_SWITCH) { disp_error_message("parse_syntax: unexpected 'default'",p); } else if(script->syntax.curly[pos].flag) { disp_error_message("parse_syntax: dup 'default'",p); } else { char label[256]; int l; // Put the label location p = script->skip_space(p2); if(*p != ':') { disp_error_message("parse_syntax: need ':'",p); } sprintf(label, "__SW%x_%x", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); // Skip to the next link w/o condition sprintf(label, "goto __SW%x_%x;", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count + 1); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // The default label sprintf(label, "__SW%x_DEF", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); script->syntax.curly[script->syntax.curly_count - 1].flag = 1; script->syntax.curly[pos].count++; } return p + 1; } else if( p2 - p == 2 && strncmp(p, "do", 2) == 0 ) { int l; char label[256]; p=script->skip_space(p2); script->syntax.curly[script->syntax.curly_count].type = TYPE_DO; script->syntax.curly[script->syntax.curly_count].count = 1; script->syntax.curly[script->syntax.curly_count].index = script->syntax.index++; script->syntax.curly[script->syntax.curly_count].flag = 0; // Label of the (do) form here sprintf(label, "__DO%x_BGN", (unsigned int)script->syntax.curly[script->syntax.curly_count].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); script->syntax.curly_count++; return p; } break; case 'f': case 'F': if( p2 - p == 3 && strncmp(p, "for", 3) == 0 ) { int l; char label[256]; int pos = script->syntax.curly_count; script->syntax.curly[script->syntax.curly_count].type = TYPE_FOR; script->syntax.curly[script->syntax.curly_count].count = 1; script->syntax.curly[script->syntax.curly_count].index = script->syntax.index++; script->syntax.curly[script->syntax.curly_count].flag = 0; script->syntax.curly_count++; p=script->skip_space(p2); if(*p != '(') disp_error_message("parse_syntax: need '('",p); p++; // Execute the initialization statement script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; p=script->parse_line(p); script->syntax.curly_count--; // Form the start of label decision sprintf(label, "__FR%x_J", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); p=script->skip_space(p); if(*p == ';') { // For (; Because the pattern of always true ;) ; } else { // Skip to the end point if the condition is false sprintf(label, "__FR%x_FIN", (unsigned int)script->syntax.curly[pos].index); script->addl(script->add_str("__jump_zero")); script->addc(C_ARG); p=script->parse_expr(p); p=script->skip_space(p); script->addl(script->add_str(label)); script->addc(C_FUNC); } if(*p != ';') disp_error_message("parse_syntax: need ';'",p); p++; // Skip to the beginning of the loop sprintf(label, "goto __FR%x_BGN;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // Labels to form the next loop sprintf(label, "__FR%x_NXT", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); // Process the next time you enter the loop // A ')' last for; flag to be treated as' script->parse_syntax_for_flag = 1; script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; p=script->parse_line(p); script->syntax.curly_count--; script->parse_syntax_for_flag = 0; // Skip to the determination process conditions sprintf(label, "goto __FR%x_J;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // Loop start labeling sprintf(label, "__FR%x_BGN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); return p; } else if( p2 - p == 8 && strncmp(p, "function", 8) == 0 ) { // internal script function const char *func_name; func_name = script->skip_space(p2); p = script->skip_word(func_name); if( p == func_name ) disp_error_message("parse_syntax:function: function name is missing or invalid", p); p2 = script->skip_space(p); if( *p2 == ';' ) {// function ; // function declaration - just register the name int l; l = script->add_word(func_name); if( script->str_data[l].type == C_NOP )// register only, if the name was not used by something else script->str_data[l].type = C_USERFUNC; else if( script->str_data[l].type == C_USERFUNC ) ; // already registered else disp_error_message("parse_syntax:function: function name is invalid", func_name); // Close condition of if, for, while p = script->parse_syntax_close(p2 + 1); return p; } else if(*p2 == '{') {// function char label[256]; int l; script->syntax.curly[script->syntax.curly_count].type = TYPE_USERFUNC; script->syntax.curly[script->syntax.curly_count].count = 1; script->syntax.curly[script->syntax.curly_count].index = script->syntax.index++; script->syntax.curly[script->syntax.curly_count].flag = 0; ++script->syntax.curly_count; // Jump over the function code sprintf(label, "goto __FN%x_FIN;", (unsigned int)script->syntax.curly[script->syntax.curly_count-1].index); script->syntax.curly[script->syntax.curly_count].type = TYPE_NULL; ++script->syntax.curly_count; script->parse_line(label); --script->syntax.curly_count; // Set the position of the function (label) l=script->add_word(func_name); if( script->str_data[l].type == C_NOP || script->str_data[l].type == C_USERFUNC )// register only, if the name was not used by something else { script->str_data[l].type = C_USERFUNC; script->set_label(l, VECTOR_LENGTH(script->buf), p); if( script->parse_options&SCRIPT_USE_LABEL_DB ) script->label_add(l, VECTOR_LENGTH(script->buf)); } else disp_error_message("parse_syntax:function: function name is invalid", func_name); return script->skip_space(p); } else { disp_error_message("expect ';' or '{' at function syntax",p); } } break; case 'i': case 'I': if( p2 - p == 2 && strncmp(p, "if", 2) == 0 ) { // If process char label[256]; p=script->skip_space(p2); if(*p != '(') { //Prevent if this {} non-c script->syntax. from Rayce (jA) disp_error_message("need '('",p); } script->syntax.curly[script->syntax.curly_count].type = TYPE_IF; script->syntax.curly[script->syntax.curly_count].count = 1; script->syntax.curly[script->syntax.curly_count].index = script->syntax.index++; script->syntax.curly[script->syntax.curly_count].flag = 0; sprintf(label, "__IF%x_%x", (unsigned int)script->syntax.curly[script->syntax.curly_count].index, (unsigned int)script->syntax.curly[script->syntax.curly_count].count); script->syntax.curly_count++; script->addl(script->add_str("__jump_zero")); script->addc(C_ARG); p=script->parse_expr(p); p=script->skip_space(p); script->addl(script->add_str(label)); script->addc(C_FUNC); return p; } break; case 's': case 'S': if( p2 - p == 6 && strncmp(p, "switch", 6) == 0 ) { // Processing of switch () char label[256]; p=script->skip_space(p2); if(*p != '(') { disp_error_message("need '('",p); } script->syntax.curly[script->syntax.curly_count].type = TYPE_SWITCH; script->syntax.curly[script->syntax.curly_count].count = 1; script->syntax.curly[script->syntax.curly_count].index = script->syntax.index++; script->syntax.curly[script->syntax.curly_count].flag = 0; sprintf(label, "$@__SW%x_VAL", (unsigned int)script->syntax.curly[script->syntax.curly_count].index); script->syntax.curly_count++; script->addl(script->add_str("__setr")); script->addc(C_ARG); script->addl(script->add_str(label)); p=script->parse_expr(p); p=script->skip_space(p); if(*p != '{') { disp_error_message("parse_syntax: need '{'",p); } script->addc(C_FUNC); return p + 1; } break; case 'w': case 'W': if( p2 - p == 5 && strncmp(p, "while", 5) == 0 ) { int l; char label[256]; p=script->skip_space(p2); if(*p != '(') { disp_error_message("need '('",p); } script->syntax.curly[script->syntax.curly_count].type = TYPE_WHILE; script->syntax.curly[script->syntax.curly_count].count = 1; script->syntax.curly[script->syntax.curly_count].index = script->syntax.index++; script->syntax.curly[script->syntax.curly_count].flag = 0; // Form the start of label decision sprintf(label, "__WL%x_NXT", (unsigned int)script->syntax.curly[script->syntax.curly_count].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); // Skip to the end point if the condition is false sprintf(label, "__WL%x_FIN", (unsigned int)script->syntax.curly[script->syntax.curly_count].index); script->syntax.curly_count++; script->addl(script->add_str("__jump_zero")); script->addc(C_ARG); p=script->parse_expr(p); p=script->skip_space(p); script->addl(script->add_str(label)); script->addc(C_FUNC); return p; } break; } return NULL; } const char* parse_syntax_close(const char *p) { // If (...) for (...) hoge (); as to make sure closed closed once again int flag; do { p = script->parse_syntax_close_sub(p,&flag); } while(flag); return p; } // Close judgment if, for, while, of do // flag == 1 : closed // flag == 0 : not closed const char* parse_syntax_close_sub(const char* p,int* flag) { char label[256]; int pos = script->syntax.curly_count - 1; int l; *flag = 1; if(script->syntax.curly_count <= 0) { *flag = 0; return p; } else if(script->syntax.curly[pos].type == TYPE_IF) { const char *bp = p; const char *p2; // if-block and else-block end is a new line script->parse_nextline(false, p); // Skip to the last location if sprintf(label, "goto __IF%x_FIN;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // Put the label of the location sprintf(label, "__IF%x_%x", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); script->syntax.curly[pos].count++; p = script->skip_space(p); p2 = script->skip_word(p); if( !script->syntax.curly[pos].flag && p2 - p == 4 && strncmp(p, "else", 4) == 0 ) { // else or else - if p = script->skip_space(p2); p2 = script->skip_word(p); if( p2 - p == 2 && strncmp(p, "if", 2) == 0 ) { // else - if p=script->skip_space(p2); if(*p != '(') { disp_error_message("need '('",p); } sprintf(label, "__IF%x_%x", (unsigned int)script->syntax.curly[pos].index, (unsigned int)script->syntax.curly[pos].count); script->addl(script->add_str("__jump_zero")); script->addc(C_ARG); p=script->parse_expr(p); p=script->skip_space(p); script->addl(script->add_str(label)); script->addc(C_FUNC); *flag = 0; return p; } else { // else if(!script->syntax.curly[pos].flag) { script->syntax.curly[pos].flag = 1; *flag = 0; return p; } } } // Close if script->syntax.curly_count--; // Put the label of the final location sprintf(label, "__IF%x_FIN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); if(script->syntax.curly[pos].flag == 1) { // Because the position of the pointer is the same if not else for this return bp; } return p; } else if(script->syntax.curly[pos].type == TYPE_DO) { const char *p2; if(script->syntax.curly[pos].flag) { // (Come here continue) to form the label here sprintf(label, "__DO%x_NXT", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); } // Skip to the end point if the condition is false p = script->skip_space(p); p2 = script->skip_word(p); if( p2 - p != 5 || strncmp(p, "while", 5) != 0 ) { disp_error_message("parse_syntax: need 'while'",p); } p = script->skip_space(p2); if(*p != '(') { disp_error_message("need '('",p); } // do-block end is a new line script->parse_nextline(false, p); sprintf(label, "__DO%x_FIN", (unsigned int)script->syntax.curly[pos].index); script->addl(script->add_str("__jump_zero")); script->addc(C_ARG); p=script->parse_expr(p); p=script->skip_space(p); script->addl(script->add_str(label)); script->addc(C_FUNC); // Skip to the starting point sprintf(label, "goto __DO%x_BGN;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // Form label of the end point conditions sprintf(label, "__DO%x_FIN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); p = script->skip_space(p); if(*p != ';') { disp_error_message("parse_syntax: need ';'",p); return p+1; } p++; script->syntax.curly_count--; return p; } else if(script->syntax.curly[pos].type == TYPE_FOR) { // for-block end is a new line script->parse_nextline(false, p); // Skip to the next loop sprintf(label, "goto __FR%x_NXT;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // End for labeling sprintf(label, "__FR%x_FIN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); script->syntax.curly_count--; return p; } else if(script->syntax.curly[pos].type == TYPE_WHILE) { // while-block end is a new line script->parse_nextline(false, p); // Skip to the decision while sprintf(label, "goto __WL%x_NXT;", (unsigned int)script->syntax.curly[pos].index); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // End while labeling sprintf(label, "__WL%x_FIN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); script->syntax.curly_count--; return p; } else if(script->syntax.curly[pos].type == TYPE_USERFUNC) { // Back sprintf(label,"return;"); script->syntax.curly[script->syntax.curly_count++].type = TYPE_NULL; script->parse_line(label); script->syntax.curly_count--; // Put the label of the location sprintf(label, "__FN%x_FIN", (unsigned int)script->syntax.curly[pos].index); l=script->add_str(label); script->set_label(l, VECTOR_LENGTH(script->buf), p); script->syntax.curly_count--; return p; } else { *flag = 0; return p; } } /// Retrieves the value of a constant. bool script_get_constant(const char* name, int* value) { int n = script->search_str(name); if( n == -1 || script->str_data[n].type != C_INT ) {// not found or not a constant return false; } value[0] = script->str_data[n].val; if (script->str_data[n].deprecated) { ShowWarning("The constant '%s' is deprecated and it will be removed in a future version. Please see the script documentation and constants.conf for an alternative.\n", name); } return true; } /// Creates new constant or parameter with given value. void script_set_constant(const char *name, int value, bool is_parameter, bool is_deprecated) { int n = script->add_str(name); if( script->str_data[n].type == C_NOP ) {// new script->str_data[n].type = is_parameter ? C_PARAM : C_INT; script->str_data[n].val = value; script->str_data[n].deprecated = is_deprecated ? 1 : 0; } else if( script->str_data[n].type == C_PARAM || script->str_data[n].type == C_INT ) {// existing parameter or constant ShowError("script_set_constant: Attempted to overwrite existing %s '%s' (old value=%d, new value=%d).\n", ( script->str_data[n].type == C_PARAM ) ? "parameter" : "constant", name, script->str_data[n].val, value); } else {// existing name ShowError("script_set_constant: Invalid name for %s '%s' (already defined as %s).\n", is_parameter ? "parameter" : "constant", name, script->op2name(script->str_data[n].type)); } } /* adds data to a existent constant in the database, inserted normally via parse */ void script_set_constant2(const char *name, int value, bool is_parameter, bool is_deprecated) { int n = script->add_str(name); if( script->str_data[n].type == C_PARAM ) { ShowError("script_set_constant2: Attempted to overwrite existing parameter '%s' with a constant (value=%d).\n", name, value); return; } if( script->str_data[n].type == C_NAME && script->str_data[n].val ) { ShowWarning("script_set_constant2: Attempted to overwrite existing variable '%s' with a constant (value=%d).\n", name, value); return; } if( script->str_data[n].type == C_INT && value && value != script->str_data[n].val ) { // existing constant ShowWarning("script_set_constant2: Attempted to overwrite existing constant '%s' (old value=%d, new value=%d).\n", name, script->str_data[n].val, value); return; } if( script->str_data[n].type != C_NOP ) { script->str_data[n].func = NULL; script->str_data[n].backpatch = -1; script->str_data[n].label = -1; } script->str_data[n].type = is_parameter ? C_PARAM : C_INT; script->str_data[n].val = value; script->str_data[n].deprecated = is_deprecated ? 1 : 0; } /** * Loads the constants database from constants.conf */ void read_constdb(void) { struct config_t constants_conf; char filepath[256]; struct config_setting_t *cdb; struct config_setting_t *t; int i = 0; sprintf(filepath, "%s/constants.conf", map->db_path); if (!libconfig->load_file(&constants_conf, filepath)) return; if ((cdb = libconfig->setting_get_member(constants_conf.root, "constants_db")) == NULL) { ShowError("can't read %s\n", filepath); return; } while ((t = libconfig->setting_get_elem(cdb, i++))) { bool is_parameter = false; bool is_deprecated = false; int value = 0; const char *name = config_setting_name(t); const char *p = name; while (*p != '\0') { if (!ISALNUM(*p) && *p != '_') break; p++; } if (*p != '\0') { ShowWarning("read_constdb: Invalid constant name %s. Skipping.\n", name); continue; } if (strcmp(name, "comment__") == 0) { const char *comment = libconfig->setting_get_string(t); if (comment == NULL) continue; if (*comment == '\0') comment = NULL; script->constdb_comment(comment); continue; } if (config_setting_is_aggregate(t)) { int i32; if (!libconfig->setting_lookup_int(t, "Value", &i32)) { ShowWarning("read_constdb: Invalid entry for %s. Skipping.\n", name); continue; } value = i32; if (libconfig->setting_lookup_bool(t, "Parameter", &i32)) { if (i32 != 0) is_parameter = true; } if (libconfig->setting_lookup_bool(t, "Deprecated", &i32)) { if (i32 != 0) is_deprecated = true; } } else { value = libconfig->setting_get_int(t); } if (is_parameter) ShowWarning("read_constdb: Defining parameters in the constants configuration is deprecated and will no longer be possible in a future version. Parameters should be defined in source. (parameter = '%s')\n", name); script->set_constant(name, value, is_parameter, is_deprecated); } script->constdb_comment(NULL); libconfig->destroy(&constants_conf); } /** * Sets the current constdb comment. * * This function does nothing (used by plugins only) * * @param comment The comment to set (NULL to unset) */ void script_constdb_comment(const char *comment) { (void)comment; } void script_load_parameters(void) { int i = 0; struct { char *name; enum status_point_types type; } parameters[] = { {"BaseExp", SP_BASEEXP}, {"JobExp", SP_JOBEXP}, {"Karma", SP_KARMA}, {"Manner", SP_MANNER}, {"Hp", SP_HP}, {"MaxHp", SP_MAXHP}, {"Sp", SP_SP}, {"MaxSp", SP_MAXSP}, {"StatusPoint", SP_STATUSPOINT}, {"BaseLevel", SP_BASELEVEL}, {"SkillPoint", SP_SKILLPOINT}, {"Class", SP_CLASS}, {"Zeny", SP_ZENY}, {"Sex", SP_SEX}, {"NextBaseExp", SP_NEXTBASEEXP}, {"NextJobExp", SP_NEXTJOBEXP}, {"Weight", SP_WEIGHT}, {"MaxWeight", SP_MAXWEIGHT}, {"JobLevel", SP_JOBLEVEL}, {"Upper", SP_UPPER}, {"BaseJob", SP_BASEJOB}, {"BaseClass", SP_BASECLASS}, {"killerrid", SP_KILLERRID}, {"killedrid", SP_KILLEDRID}, {"SlotChange", SP_SLOTCHANGE}, {"CharRename", SP_CHARRENAME}, {"ModExp", SP_MOD_EXP}, {"ModDrop", SP_MOD_DROP}, {"ModDeath", SP_MOD_DEATH}, }; script->constdb_comment("Parameters"); for (i=0; i < ARRAYLENGTH(parameters); ++i) script->set_constant(parameters[i].name, parameters[i].type, true, false); script->constdb_comment(NULL); } // Standard UNIX tab size is 8 #define TAB_SIZE 8 #define update_tabstop(tabstop,chars) \ do { \ (tabstop) -= (chars); \ while ((tabstop) <= 0) (tabstop) += TAB_SIZE; \ } while (false) /*========================================== * Display emplacement line of script *------------------------------------------*/ const char* script_print_line(StringBuf* buf, const char* p, const char* mark, int line) { int i, mark_pos = 0, tabstop = TAB_SIZE; if( p == NULL || !p[0] ) return NULL; if( line < 0 ) StrBuf->Printf(buf, "*%5d: ", -line); // len = 8 else StrBuf->Printf(buf, " %5d: ", line); // len = 8 update_tabstop(tabstop,8); // len = 8 for( i=0; p[i] && p[i] != '\n'; i++ ) { char c = p[i]; int w = 1; // Like Clang does, let's print the code with tabs expanded to spaces to ensure that the marker will be under the right character if( c == '\t' ) { c = ' '; w = tabstop; } update_tabstop(tabstop, w); if( p + i < mark) mark_pos += w; if( p + i != mark) StrBuf->Printf(buf, "%*c", w, c); else StrBuf->Printf(buf, CL_BT_RED"%*c"CL_RESET, w, c); } StrBuf->AppendStr(buf, "\n"); if( mark ) { StrBuf->AppendStr(buf, " "CL_BT_CYAN); // len = 8 for( ; mark_pos > 0; mark_pos-- ) { StrBuf->AppendStr(buf, "~"); } StrBuf->AppendStr(buf, CL_RESET CL_BT_GREEN"^"CL_RESET"\n"); } return p+i+(p[i] == '\n' ? 1 : 0); } #undef TAB_SIZE #undef update_tabstop #define CONTEXTLINES 3 void script_errorwarning_sub(StringBuf *buf, const char* src, const char* file, int start_line, const char* error_msg, const char* error_pos) { // Find the line where the error occurred int j; int line = start_line; const char *p, *error_linepos; const char *linestart[CONTEXTLINES] = { NULL }; for(p=src;p && *p;line++) { const char *lineend=strchr(p,'\n'); if(lineend==NULL || error_pos= 0 ) StrBuf->Printf(buf, "script error in file '%s' line %d column %"PRIdPTR"\n", file, line, error_pos-error_linepos+1); else StrBuf->Printf(buf, "script error in file '%s' item ID %d\n", file, -line); StrBuf->Printf(buf, " %s\n", error_msg); for(j = 0; j < CONTEXTLINES; j++ ) { script->print_line(buf, linestart[j], NULL, line + j - CONTEXTLINES); } p = script->print_line(buf, p, error_pos, -line); for(j = 0; j < CONTEXTLINES; j++) { p = script->print_line(buf, p, NULL, line + j + 1 ); } } #undef CONTEXTLINES void script_error(const char* src, const char* file, int start_line, const char* error_msg, const char* error_pos) { StringBuf buf; StrBuf->Init(&buf); StrBuf->AppendStr(&buf, "\a"); script->errorwarning_sub(&buf, src, file, start_line, error_msg, error_pos); ShowError("%s", StrBuf->Value(&buf)); StrBuf->Destroy(&buf); } void script_warning(const char* src, const char* file, int start_line, const char* error_msg, const char* error_pos) { StringBuf buf; StrBuf->Init(&buf); script->errorwarning_sub(&buf, src, file, start_line, error_msg, error_pos); ShowWarning("%s", StrBuf->Value(&buf)); StrBuf->Destroy(&buf); } /*========================================== * Analysis of the script *------------------------------------------*/ struct script_code* parse_script(const char *src,const char *file,int line,int options, int *retval) { const char *p,*tmpp; int i; struct script_code* code = NULL; char end; bool unresolved_names = false; script->parser_current_src = src; script->parser_current_file = file; script->parser_current_line = line; if( src == NULL ) return NULL;// empty script if( script->parse_cleanup_timer_id == INVALID_TIMER ) { script->parse_cleanup_timer_id = timer->add(timer->gettick() + 10, script->parse_cleanup_timer, 0, 0); } if( script->syntax.strings ) /* used only when generating translation file */ db_destroy(script->syntax.strings); memset(&script->syntax,0,sizeof(script->syntax)); script->syntax.last_func = -1;/* as valid values are >= 0 */ if( script->parser_current_npc_name ) { if( !script->translation_db ) script->load_translations(); if( script->translation_db ) script->syntax.translation_db = strdb_get(script->translation_db, script->parser_current_npc_name); } VECTOR_TRUNCATE(script->buf); script->parse_nextline(true, NULL); // who called parse_script is responsible for clearing the database after using it, but just in case... lets clear it here if( options&SCRIPT_USE_LABEL_DB ) script->label_count = 0; script->parse_options = options; if( setjmp( script->error_jump ) != 0 ) { //Restore program state when script has problems. [from jA] const int size = ARRAYLENGTH(script->syntax.curly); if( script->error_report ) script->error(src,file,line,script->error_msg,script->error_pos); aFree( script->error_msg ); VECTOR_TRUNCATE(script->buf); for(i=LABEL_START;istr_num;i++) if(script->str_data[i].type == C_NOP) script->str_data[i].type = C_NAME; for(i=0; isyntax.curly[i].case_label); #ifdef ENABLE_CASE_CHECK script->local_casecheck.clear(); script->parser_current_src = NULL; script->parser_current_file = NULL; script->parser_current_line = 0; #endif // ENABLE_CASE_CHECK if (retval) *retval = EXIT_FAILURE; return NULL; } script->parse_syntax_for_flag=0; p=src; p=script->skip_space(p); if( options&SCRIPT_IGNORE_EXTERNAL_BRACKETS ) {// does not require brackets around the script if (*p == '\0' && !(options&SCRIPT_RETURN_EMPTY_SCRIPT)) { // empty script and can return NULL VECTOR_TRUNCATE(script->buf); #ifdef ENABLE_CASE_CHECK script->local_casecheck.clear(); script->parser_current_src = NULL; script->parser_current_file = NULL; script->parser_current_line = 0; #endif // ENABLE_CASE_CHECK return NULL; } end = '\0'; } else {// requires brackets around the script if( *p != '{' ) { disp_error_message("not found '{'",p); if (retval) *retval = EXIT_FAILURE; } p = script->skip_space(p+1); if (*p == '}' && !(options&SCRIPT_RETURN_EMPTY_SCRIPT)) { // empty script and can return NULL VECTOR_TRUNCATE(script->buf); #ifdef ENABLE_CASE_CHECK script->local_casecheck.clear(); script->parser_current_src = NULL; script->parser_current_file = NULL; script->parser_current_line = 0; #endif // ENABLE_CASE_CHECK return NULL; } end = '}'; } // clear references of labels, variables and internal functions for(i=LABEL_START;istr_num;i++) { if( script->str_data[i].type==C_POS || script->str_data[i].type==C_NAME || script->str_data[i].type==C_USERFUNC || script->str_data[i].type == C_USERFUNC_POS ) { script->str_data[i].type=C_NOP; script->str_data[i].backpatch=-1; script->str_data[i].label=-1; } } while( script->syntax.curly_count != 0 || *p != end ) { if( *p == '\0' ) disp_error_message("unexpected end of script",p); // Special handling only label tmpp=script->skip_space(script->skip_word(p)); if(*tmpp==':' && !(strncmp(p,"default:",8) == 0 && p + 7 == tmpp)) { i=script->add_word(p); script->set_label(i, VECTOR_LENGTH(script->buf), p); if( script->parse_options&SCRIPT_USE_LABEL_DB ) script->label_add(i, VECTOR_LENGTH(script->buf)); p=tmpp+1; p=script->skip_space(p); continue; } // All other lumped p=script->parse_line(p); p=script->skip_space(p); script->parse_nextline(false, p); } script->addc(C_NOP); // default unknown references to variables for (i = LABEL_START; i < script->str_num; i++) { if (script->str_data[i].type == C_NOP) { int j; script->str_data[i].type=C_NAME; script->str_data[i].label=i; for (j = script->str_data[i].backpatch; j >= 0 && j != 0x00ffffff; ) { int next = GETVALUE(&script->buf, j); SETVALUE(&script->buf, j, i); j = next; } } else if(script->str_data[i].type == C_USERFUNC) { // 'function name;' without follow-up code ShowError("parse_script: function '%s' declared but not defined.\n", script->str_buf+script->str_data[i].str); if (retval) *retval = EXIT_FAILURE; unresolved_names = true; } } if( unresolved_names ) { disp_error_message("parse_script: unresolved function references", p); if (retval) *retval = EXIT_FAILURE; } #ifdef SCRIPT_DEBUG_DISP for (i = 0; i < VECTOR_LENGTH(script->buf); i++) { if ((i&15) == 0) ShowMessage("%04x : ",i); ShowMessage("%02x ", VECTOR_INDEX(script->buf, i)); if ((i&15) == 15) ShowMessage("\n"); } ShowMessage("\n"); #endif #ifdef SCRIPT_DEBUG_DISASM i = 0; while (i < VECTOR_LENGTH(script->buf)) { c_op op = script->get_com(&script->buf, &i); int j = i; // Note: i is modified in the line above. ShowMessage("%06x %s", i, script->op2name(op)); switch (op) { case C_INT: ShowMessage(" %d", script->get_num(&script->buf, &i)); break; case C_POS: ShowMessage(" 0x%06x", *(int*)(&VECTOR_INDEX(script->buf, i))&0xffffff); i += 3; break; case C_NAME: j = (*(int*)(&VECTOR_INDEX(script->buf, i))&0xffffff); ShowMessage(" %s", ( j == 0xffffff ) ? "?? unknown ??" : script->get_str(j)); i += 3; break; case C_STR: j = (int)strlen((char*)&VECTOR_INDEX(script->buf, i)); ShowMessage(" %s", &VECTOR_INDEX(script->buf, i)); i += j+1; break; } ShowMessage(CL_CLL"\n"); } #endif CREATE(code,struct script_code,1); VECTOR_INIT(code->script_buf); VECTOR_ENSURE(code->script_buf, VECTOR_LENGTH(script->buf), 1); VECTOR_PUSHARRAY(code->script_buf, VECTOR_DATA(script->buf), VECTOR_LENGTH(script->buf)); code->local.vars = NULL; code->local.arrays = NULL; #ifdef ENABLE_CASE_CHECK script->local_casecheck.clear(); script->parser_current_src = NULL; script->parser_current_file = NULL; script->parser_current_line = 0; #endif // ENABLE_CASE_CHECK return code; } /// Returns the player attached to this script, identified by the rid. /// If there is no player attached, the script is terminated. struct map_session_data *script_rid2sd(struct script_state *st) { struct map_session_data *sd; if( !( sd = map->id2sd(st->rid) ) ) { ShowError("script_rid2sd: fatal error ! player not attached!\n"); script->reportfunc(st); script->reportsrc(st); st->state = END; } return sd; } struct map_session_data *script_id2sd(struct script_state *st, int account_id) { struct map_session_data *sd; if ((sd = map->id2sd(account_id)) == NULL) { ShowWarning("script_id2sd: Player with account ID '%d' not found!\n", account_id); script->reportfunc(st); script->reportsrc(st); } return sd; } struct map_session_data *script_charid2sd(struct script_state *st, int char_id) { struct map_session_data *sd; if ((sd = map->charid2sd(char_id)) == NULL) { ShowWarning("script_charid2sd: Player with char ID '%d' not found!\n", char_id); script->reportfunc(st); script->reportsrc(st); } return sd; } struct map_session_data *script_nick2sd(struct script_state *st, const char *name) { struct map_session_data *sd; if ((sd = map->nick2sd(name)) == NULL) { ShowWarning("script_nick2sd: Player name '%s' not found!\n", name); script->reportfunc(st); script->reportsrc(st); } return sd; } char *get_val_npcscope_str(struct script_state* st, struct reg_db *n, struct script_data* data) { if (n) return (char*)i64db_get(n->vars, reference_getuid(data)); else return NULL; } char *get_val_instance_str(struct script_state* st, const char* name, struct script_data* data) { if (st->instance_id >= 0) { return (char*)i64db_get(instance->list[st->instance_id].regs.vars, reference_getuid(data)); } else { ShowWarning("script_get_val: cannot access instance variable '%s', defaulting to \"\"\n", name); return NULL; } } int get_val_npcscope_num(struct script_state* st, struct reg_db *n, struct script_data* data) { if (n) return (int)i64db_iget(n->vars, reference_getuid(data)); else return 0; } int get_val_instance_num(struct script_state* st, const char* name, struct script_data* data) { if (st->instance_id >= 0) return (int)i64db_iget(instance->list[st->instance_id].regs.vars, reference_getuid(data)); else { ShowWarning("script_get_val: cannot access instance variable '%s', defaulting to 0\n", name); return 0; } } /** * Dereferences a variable/constant, replacing it with a copy of the value. * * @param st[in] script state. * @param data[in,out] variable/constant. * @return pointer to data, for convenience. */ struct script_data *get_val(struct script_state* st, struct script_data* data) { const char* name; char prefix; char postfix; struct map_session_data *sd = NULL; if( !data_isreference(data) ) return data;// not a variable/constant name = reference_getname(data); prefix = name[0]; postfix = name[strlen(name) - 1]; if (strlen(name) > SCRIPT_VARNAME_LENGTH) { ShowError("script_get_val: variable name too long. '%s'\n", name); script->reportsrc(st); st->state = END; return data; } //##TODO use reference_tovariable(data) when it's confirmed that it works [FlavioJS] if( !reference_toconstant(data) && not_server_variable(prefix) ) { sd = script->rid2sd(st); if( sd == NULL ) {// needs player attached if( postfix == '$' ) {// string variable ShowWarning("script_get_val: cannot access player variable '%s', defaulting to \"\"\n", name); data->type = C_CONSTSTR; data->u.str = ""; } else {// integer variable ShowWarning("script_get_val: cannot access player variable '%s', defaulting to 0\n", name); data->type = C_INT; data->u.num = 0; } return data; } } if (postfix == '$') { // string variable const char *str = NULL; switch (prefix) { case '@': str = pc->readregstr(sd, data->u.num); break; case '$': str = mapreg->readregstr(data->u.num); break; case '#': if (name[1] == '#') str = pc_readaccountreg2str(sd, data->u.num);// global else str = pc_readaccountregstr(sd, data->u.num);// local break; case '.': if (data->ref) str = script->get_val_ref_str(st, data->ref, data); else if (name[1] == '@') str = script->get_val_scope_str(st, &st->stack->scope, data); else str = script->get_val_npc_str(st, &st->script->local, data); break; case '\'': str = script->get_val_instance_str(st, name, data); break; default: str = pc_readglobalreg_str(sd, data->u.num); break; } if (str == NULL || str[0] == '\0') { // empty string data->type = C_CONSTSTR; data->u.str = ""; } else {// duplicate string data->type = C_STR; data->u.mutstr = aStrdup(str); } } else {// integer variable data->type = C_INT; if( reference_toconstant(data) ) { data->u.num = reference_getconstant(data); } else if( reference_toparam(data) ) { data->u.num = pc->readparam(sd, reference_getparamtype(data)); } else switch( prefix ) { case '@': data->u.num = pc->readreg(sd, data->u.num); break; case '$': data->u.num = mapreg->readreg(data->u.num); break; case '#': if( name[1] == '#' ) data->u.num = pc_readaccountreg2(sd, data->u.num);// global else data->u.num = pc_readaccountreg(sd, data->u.num);// local break; case '.': if (data->ref) data->u.num = script->get_val_ref_num(st, data->ref, data); else if (name[1] == '@') data->u.num = script->get_val_scope_num(st, &st->stack->scope, data); else data->u.num = script->get_val_npc_num(st, &st->script->local, data); break; case '\'': data->u.num = script->get_val_instance_num(st, name, data); break; default: data->u.num = pc_readglobalreg(sd, data->u.num); break; } } data->ref = NULL; return data; } /** * Retrieves the value of a reference identified by uid (variable, constant, param) * * The value is left in the top of the stack and needs to be removed manually. * * @param st[in] script state. * @param uid[in] reference identifier. * @param ref[in] the container to look up the reference into. * @return the retrieved value of the reference. */ const void *get_val2(struct script_state *st, int64 uid, struct reg_db *ref) { struct script_data* data; script->push_val(st->stack, C_NAME, uid, ref); data = script_getdatatop(st, -1); script->get_val(st, data); if (data->type == C_INT) // u.num is int32 because it comes from script->get_val return (const void *)h64BPTRSIZE((int32)data->u.num); else return (const void *)h64BPTRSIZE(data->u.str); } /** * Because, currently, array members with key 0 are indifferenciable from normal variables, we should ensure its actually in * Will be gone as soon as undefined var feature is implemented **/ void script_array_ensure_zero(struct script_state *st, struct map_session_data *sd, int64 uid, struct reg_db *ref) { const char *name = script->get_str(script_getvarid(uid)); // is here st can be null pointer and st->rid is wrong? struct reg_db *src = script->array_src(st, sd ? sd : st->rid ? map->id2sd(st->rid) : NULL, name, ref); bool insert = false; if (sd && !st) { /* when sd comes, st isn't available */ insert = true; } else { if( is_string_variable(name) ) { const char *str = script->get_val2(st, uid, ref); if (str != NULL && *str != '\0') insert = true; script_removetop(st, -1, 0); } else { int32 num = (int32)h64BPTRSIZE(script->get_val2(st, uid, ref)); if( num ) insert = true; script_removetop(st, -1, 0); } } if (src && src->arrays) { struct script_array *sa = idb_get(src->arrays, script_getvarid(uid)); if (sa) { unsigned int i; ARR_FIND(0, sa->size, i, sa->members[i] == 0); if( i != sa->size ) { if( !insert ) script->array_remove_member(src,sa,i); return; } script->array_add_member(sa,0); } else if (insert) { script->array_update(src,reference_uid(script_getvarid(uid), 0),false); } } } /** * Returns array size by ID **/ unsigned int script_array_size(struct script_state *st, struct map_session_data *sd, const char *name, struct reg_db *ref) { struct script_array *sa = NULL; struct reg_db *src = script->array_src(st, sd, name, ref); if( src && src->arrays ) sa = idb_get(src->arrays, script->search_str(name)); return sa ? sa->size : 0; } /** * Returns array's highest key (for that awful getarraysize implementation that doesn't really gets the array size) **/ unsigned int script_array_highest_key(struct script_state *st, struct map_session_data *sd, const char *name, struct reg_db *ref) { struct script_array *sa = NULL; struct reg_db *src = script->array_src(st, sd, name, ref); if( src && src->arrays ) { int key = script->add_word(name); script->array_ensure_zero(st,sd,reference_uid(key, 0),ref); if( ( sa = idb_get(src->arrays, key) ) ) { unsigned int i, highest_key = 0; for(i = 0; i < sa->size; i++) { if( sa->members[i] > highest_key ) highest_key = sa->members[i]; } return sa->size ? highest_key + 1 : 0; } } return 0; } int script_free_array_db(union DBKey key, struct DBData *data, va_list ap) { struct script_array *sa = DB->data2ptr(data); aFree(sa->members); ers_free(script->array_ers, sa); return 0; } /** * Clears script_array and removes it from script->array_db **/ void script_array_delete(struct reg_db *src, struct script_array *sa) { aFree(sa->members); idb_remove(src->arrays, sa->id); ers_free(script->array_ers, sa); } /** * Removes a member from a script_array list * * @param idx the index of the member in script_array struct list, not of the actual array member **/ void script_array_remove_member(struct reg_db *src, struct script_array *sa, unsigned int idx) { unsigned int i, cursor; /* its the only member left, no need to do anything other than delete the array data */ if( sa->size == 1 ) { script->array_delete(src,sa); return; } sa->members[idx] = UINT_MAX; for(i = 0, cursor = 0; i < sa->size; i++) { if( sa->members[i] == UINT_MAX ) continue; if( i != cursor ) sa->members[cursor] = sa->members[i]; cursor++; } sa->size = cursor; } /** * Appends a new array index to the list in script_array * * @param idx the index of the array member being inserted **/ void script_array_add_member(struct script_array *sa, unsigned int idx) { RECREATE(sa->members, unsigned int, ++sa->size); sa->members[sa->size - 1] = idx; } /** * Obtains the source of the array database for this type and scenario * Initializes such database when not yet initialized. **/ struct reg_db *script_array_src(struct script_state *st, struct map_session_data *sd, const char *name, struct reg_db *ref) { struct reg_db *src = NULL; switch( name[0] ) { /* from player */ default: /* char reg */ case '@':/* temp char reg */ case '#':/* account reg */ src = &sd->regs; break; case '$':/* map reg */ src = &mapreg->regs; break; case '.':/* npc/script */ if( ref ) src = ref; else src = (name[1] == '@') ? &st->stack->scope : &st->script->local; break; case '\'':/* instance */ if( st->instance_id >= 0 ) { src = &instance->list[st->instance_id].regs; } break; } if( src ) { if( !src->arrays ) src->arrays = idb_alloc(DB_OPT_BASE); return src; } return NULL; } /** * Processes a array member modification, and update data accordingly * * @param src[in,out] Variable source database. If the array database doesn't exist, it is created. * @param num[in] Variable ID * @param empty[in] Whether the modified member is empty (needs to be removed) **/ void script_array_update(struct reg_db *src, int64 num, bool empty) { struct script_array *sa = NULL; int id = script_getvarid(num); unsigned int index = script_getvaridx(num); if (!src->arrays) { src->arrays = idb_alloc(DB_OPT_BASE); } else { sa = idb_get(src->arrays, id); } if( sa ) { unsigned int i; /* search */ for(i = 0; i < sa->size; i++) { if( sa->members[i] == index ) break; } /* if existent */ if( i != sa->size ) { /* if empty, we gotta remove it */ if( empty ) { script->array_remove_member(src, sa, i); } } else if( !empty ) { /* new entry */ script->array_add_member(sa,index); /* we do nothing if its empty, no point in modifying array data for a new empty member */ } } else if ( !empty ) {/* we only move to create if not empty */ sa = ers_alloc(script->array_ers, struct script_array); sa->id = id; sa->members = NULL; sa->size = 0; script->array_add_member(sa,index); idb_put(src->arrays, id, sa); } } void set_reg_npcscope_str(struct script_state* st, struct reg_db *n, int64 num, const char* name, const char *str) { if (n) { if (str[0]) { i64db_put(n->vars, num, aStrdup(str)); if (script_getvaridx(num)) script->array_update(n, num, false); } else { i64db_remove(n->vars, num); if (script_getvaridx(num)) script->array_update(n, num, true); } } } void set_reg_npcscope_num(struct script_state* st, struct reg_db *n, int64 num, const char* name, int val) { if (n) { if (val != 0) { i64db_iput(n->vars, num, val); if (script_getvaridx(num)) script->array_update(n, num, false); } else { i64db_remove(n->vars, num); if (script_getvaridx(num)) script->array_update(n, num, true); } } } void set_reg_instance_str(struct script_state* st, int64 num, const char* name, const char *str) { if (st->instance_id >= 0) { if (str[0]) { i64db_put(instance->list[st->instance_id].regs.vars, num, aStrdup(str)); if (script_getvaridx(num)) script->array_update(&instance->list[st->instance_id].regs, num, false); } else { i64db_remove(instance->list[st->instance_id].regs.vars, num); if (script_getvaridx(num)) script->array_update(&instance->list[st->instance_id].regs, num, true); } } else { ShowError("script_set_reg: cannot write instance variable '%s', NPC not in a instance!\n", name); script->reportsrc(st); } } void set_reg_instance_num(struct script_state* st, int64 num, const char* name, int val) { if (st->instance_id >= 0) { if (val != 0) { i64db_iput(instance->list[st->instance_id].regs.vars, num, val); if (script_getvaridx(num)) script->array_update(&instance->list[st->instance_id].regs, num, false); } else { i64db_remove(instance->list[st->instance_id].regs.vars, num); if (script_getvaridx(num)) script->array_update(&instance->list[st->instance_id].regs, num, true); } } else { ShowError("script_set_reg: cannot write instance variable '%s', NPC not in a instance!\n", name); script->reportsrc(st); } } /** * Stores the value of a script variable * * @param st current script state. * @param sd current character data. * @param num variable identifier. * @param name variable name. * @param value new value. * @param ref variable container, in case of a npc/scope variable reference outside the current scope. * @retval 0 failure. * @retval 1 success. * * TODO: return values are screwed up, have been for some time (reaad: years), e.g. some functions return 1 failure and success. *------------------------------------------*/ int set_reg(struct script_state *st, struct map_session_data *sd, int64 num, const char *name, const void *value, struct reg_db *ref) { char prefix = name[0]; if (strlen(name) > SCRIPT_VARNAME_LENGTH) { ShowError("script:set_reg: variable name too long. '%s'\n", name); script->reportsrc(st); st->state = END; return 0; } if( is_string_variable(name) ) {// string variable const char *str = (const char*)value; switch (prefix) { case '@': pc->setregstr(sd, num, str); return 1; case '$': return mapreg->setregstr(num, str); case '#': return (name[1] == '#') ? pc_setaccountreg2str(sd, num, str) : pc_setaccountregstr(sd, num, str); case '.': if (ref) script->set_reg_ref_str(st, ref, num, name, str); else if (name[1] == '@') script->set_reg_scope_str(st, &st->stack->scope, num, name, str); else script->set_reg_npc_str(st, &st->script->local, num, name, str); return 1; case '\'': set_reg_instance_str(st, num, name, str); return 1; default: return pc_setglobalreg_str(sd, num, str); } } else {// integer variable // FIXME: This isn't safe, in 32bits systems we're converting a 64bit pointer // to a 32bit int, this will lead to overflows! [Panikon] int val = (int)h64BPTRSIZE(value); if(script->str_data[script_getvarid(num)].type == C_PARAM) { if( pc->setparam(sd, script->str_data[script_getvarid(num)].val, val) == 0 ) { if( st != NULL ) { ShowError("script:set_reg: failed to set param '%s' to %d.\n", name, val); script->reportsrc(st); // Instead of just stop the script execution we let the character close // the window if it was open. st->state = (sd->state.dialog) ? CLOSE : END; if( st->state == CLOSE ) clif->scriptclose(sd, st->oid); } return 0; } return 1; } switch (prefix) { case '@': pc->setreg(sd, num, val); return 1; case '$': return mapreg->setreg(num, val); case '#': return (name[1] == '#') ? pc_setaccountreg2(sd, num, val) : pc_setaccountreg(sd, num, val); case '.': if (ref) script->set_reg_ref_num(st, ref, num, name, val); else if (name[1] == '@') script->set_reg_scope_num(st, &st->stack->scope, num, name, val); else script->set_reg_npc_num(st, &st->script->local, num, name, val); return 1; case '\'': set_reg_instance_num(st, num, name, val); return 1; default: return pc_setglobalreg(sd, num, val); } } } int set_var(struct map_session_data *sd, char *name, void *val) { return script->set_reg(NULL, sd, reference_uid(script->add_str(name),0), name, val, NULL); } void setd_sub(struct script_state *st, struct map_session_data *sd, const char *varname, int elem, const void *value, struct reg_db *ref) { script->set_reg(st, sd, reference_uid(script->add_str(varname),elem), varname, value, ref); } /// Converts the data to a string const char *conv_str(struct script_state *st, struct script_data* data) { script->get_val(st, data); if (data_isstring(data)) { // nothing to convert return data->u.str; } if (data_isint(data)) { // int -> string char *p; CREATE(p, char, ITEM_NAME_LENGTH); snprintf(p, ITEM_NAME_LENGTH, "%"PRId64"", data->u.num); p[ITEM_NAME_LENGTH-1] = '\0'; data->type = C_STR; data->u.mutstr = p; return data->u.mutstr; } if (data_isreference(data)) { // reference -> string //##TODO when does this happen (check script->get_val) [FlavioJS] data->type = C_CONSTSTR; data->u.str = reference_getname(data); return data->u.str; } // unsupported data type ShowError("script:conv_str: cannot convert to string, defaulting to \"\"\n"); script->reportdata(data); script->reportsrc(st); data->type = C_CONSTSTR; data->u.str = ""; return data->u.str; } /// Converts the data to an int int conv_num(struct script_state *st, struct script_data *data) { long num; script->get_val(st, data); if (data_isint(data)) { // nothing to convert return (int)data->u.num; } if (data_isstring(data)) { // string -> int // the result does not overflow or underflow, it is capped instead // ex: 999999999999 is capped to INT_MAX (2147483647) errno = 0; num = strtol(data->u.str, NULL, 10);// change radix to 0 to support octal numbers "o377" and hex numbers "0xFF" if( errno == ERANGE #if LONG_MAX > INT_MAX || num < INT_MIN || num > INT_MAX #endif ) { if( num <= INT_MIN ) { num = INT_MIN; ShowError("script:conv_num: underflow detected, capping to %ld\n", num); } else//if( num >= INT_MAX ) { num = INT_MAX; ShowError("script:conv_num: overflow detected, capping to %ld\n", num); } script->reportdata(data); script->reportsrc(st); } if (data->type == C_STR) aFree(data->u.mutstr); data->type = C_INT; data->u.num = (int)num; return (int)data->u.num; } #if 0 // unsupported data type // FIXME this function is being used to retrieve the position of labels and // probably other stuff [FlavioJS] ShowError("script:conv_num: cannot convert to number, defaulting to 0\n"); script->reportdata(data); script->reportsrc(st); data->type = C_INT; data->u.num = 0; #endif return (int)data->u.num; } // // Stack operations // /// Increases the size of the stack void stack_expand(struct script_stack* stack) { stack->sp_max += 64; stack->stack_data = (struct script_data*)aRealloc(stack->stack_data, stack->sp_max * sizeof(stack->stack_data[0]) ); memset(stack->stack_data + (stack->sp_max - 64), 0, 64 * sizeof(stack->stack_data[0]) ); } /// Pushes a value into the stack (with reference) struct script_data* push_val(struct script_stack* stack, enum c_op type, int64 val, struct reg_db *ref) { if( stack->sp >= stack->sp_max ) script->stack_expand(stack); stack->stack_data[stack->sp].type = type; stack->stack_data[stack->sp].u.num = val; stack->stack_data[stack->sp].ref = ref; stack->sp++; return &stack->stack_data[stack->sp-1]; } /// Pushes a string into the stack struct script_data *push_str(struct script_stack *stack, char *str) { if( stack->sp >= stack->sp_max ) script->stack_expand(stack); stack->stack_data[stack->sp].type = C_STR; stack->stack_data[stack->sp].u.mutstr = str; stack->stack_data[stack->sp].ref = NULL; stack->sp++; return &stack->stack_data[stack->sp-1]; } /// Pushes a constant string into the stack struct script_data *push_conststr(struct script_stack *stack, const char *str) { if( stack->sp >= stack->sp_max ) script->stack_expand(stack); stack->stack_data[stack->sp].type = C_CONSTSTR; stack->stack_data[stack->sp].u.str = str; stack->stack_data[stack->sp].ref = NULL; stack->sp++; return &stack->stack_data[stack->sp-1]; } /// Pushes a retinfo into the stack struct script_data* push_retinfo(struct script_stack* stack, struct script_retinfo* ri, struct reg_db *ref) { if( stack->sp >= stack->sp_max ) script->stack_expand(stack); stack->stack_data[stack->sp].type = C_RETINFO; stack->stack_data[stack->sp].u.ri = ri; stack->stack_data[stack->sp].ref = ref; stack->sp++; return &stack->stack_data[stack->sp-1]; } /// Pushes a copy of the target position into the stack struct script_data* push_copy(struct script_stack* stack, int pos) { switch( stack->stack_data[pos].type ) { case C_CONSTSTR: return script->push_conststr(stack, stack->stack_data[pos].u.str); break; case C_STR: return script->push_str(stack, aStrdup(stack->stack_data[pos].u.mutstr)); break; case C_RETINFO: ShowFatalError("script:push_copy: can't create copies of C_RETINFO. Exiting...\n"); exit(1); break; default: return script->push_val( stack,stack->stack_data[pos].type, stack->stack_data[pos].u.num, stack->stack_data[pos].ref ); break; } } /// Removes the values in indexes [start,end[ from the stack. /// Adjusts all stack pointers. void pop_stack(struct script_state* st, int start, int end) { struct script_stack* stack = st->stack; struct script_data* data; int i; if( start < 0 ) start = 0; if( end > stack->sp ) end = stack->sp; if( start >= end ) return;// nothing to pop // free stack elements for( i = start; i < end; i++ ) { data = &stack->stack_data[i]; if (data->type == C_STR) aFree(data->u.mutstr); if( data->type == C_RETINFO ) { struct script_retinfo* ri = data->u.ri; if( ri->scope.vars ) { // Note: This is necessary evern if we're also doing it in run_func // (in the RETFUNC block) because not all functions return. If a // function (or a sub) has an 'end' or a 'close', it'll reach this // block with its scope vars still to be freed. script->free_vars(ri->scope.vars); ri->scope.vars = NULL; } if( ri->scope.arrays ) { ri->scope.arrays->destroy(ri->scope.arrays,script->array_free_db); ri->scope.arrays = NULL; } if( data->ref ) aFree(data->ref); aFree(ri); } data->type = C_NOP; } // move the rest of the elements if( stack->sp > end ) { memmove(&stack->stack_data[start], &stack->stack_data[end], sizeof(stack->stack_data[0])*(stack->sp - end)); for( i = start + stack->sp - end; i < stack->sp; ++i ) stack->stack_data[i].type = C_NOP; } // adjust stack pointers if( st->start > end ) st->start -= end - start; else if( st->start > start ) st->start = start; if( st->end > end ) st->end -= end - start; else if( st->end > start ) st->end = start; if( stack->defsp > end ) stack->defsp -= end - start; else if( stack->defsp > start ) stack->defsp = start; stack->sp -= end - start; } /// /// /// /*========================================== * Release script dependent variable, dependent variable of function *------------------------------------------*/ void script_free_vars(struct DBMap *var_storage) { if( var_storage ) { // destroy the storage construct containing the variables db_destroy(var_storage); } } void script_free_code(struct script_code* code) { nullpo_retv(code); if (code->instances) script->stop_instances(code); script->free_vars(code->local.vars); if (code->local.arrays) code->local.arrays->destroy(code->local.arrays,script->array_free_db); VECTOR_CLEAR(code->script_buf); aFree(code); } /// Creates a new script state. /// /// @param script Script code /// @param pos Position in the code /// @param rid Who is running the script (attached player) /// @param oid Where the code is being run (npc 'object') /// @return Script state struct script_state* script_alloc_state(struct script_code* rootscript, int pos, int rid, int oid) { struct script_state* st; st = ers_alloc(script->st_ers, struct script_state); st->stack = ers_alloc(script->stack_ers, struct script_stack); st->pending_refs = NULL; st->pending_ref_count = 0; st->stack->sp = 0; st->stack->sp_max = 64; CREATE(st->stack->stack_data, struct script_data, st->stack->sp_max); st->stack->defsp = st->stack->sp; st->stack->scope.vars = i64db_alloc(DB_OPT_RELEASE_DATA); st->stack->scope.arrays = NULL; st->state = RUN; st->script = rootscript; st->pos = pos; st->rid = rid; st->oid = oid; st->sleep.timer = INVALID_TIMER; st->npc_item_flag = battle_config.item_enabled_npc; if( st->script->instances != USHRT_MAX ) st->script->instances++; else { struct npc_data *nd = map->id2nd(oid); ShowError("over 65k instances of '%s' script are being run\n",nd ? nd->name : "unknown"); } if( !st->script->local.vars ) st->script->local.vars = i64db_alloc(DB_OPT_RELEASE_DATA); st->id = script->next_id++; script->active_scripts++; idb_put(script->st_db, st->id, st); return st; } /// Frees a script state. /// /// @param st Script state void script_free_state(struct script_state* st) { if( idb_exists(script->st_db,st->id) ) { struct map_session_data *sd = st->rid ? map->id2sd(st->rid) : NULL; if(st->bk_st) {// backup was not restored ShowDebug("script_free_state: Previous script state lost (rid=%d, oid=%d, state=%u, bk_npcid=%d).\n", st->bk_st->rid, st->bk_st->oid, st->bk_st->state, st->bk_npcid); } if(sd && sd->st == st) { //Current script is aborted. if(sd->state.using_fake_npc){ clif->clearunit_single(sd->npc_id, CLR_OUTSIGHT, sd->fd); sd->state.using_fake_npc = 0; } sd->st = NULL; sd->npc_id = 0; } if( st->sleep.timer != INVALID_TIMER ) timer->delete(st->sleep.timer, script->run_timer); if( st->stack ) { script->free_vars(st->stack->scope.vars); if( st->stack->scope.arrays ) st->stack->scope.arrays->destroy(st->stack->scope.arrays,script->array_free_db); script->pop_stack(st, 0, st->stack->sp); aFree(st->stack->stack_data); ers_free(script->stack_ers, st->stack); st->stack = NULL; } if( st->script && st->script->instances != USHRT_MAX && --st->script->instances == 0 ) { if( st->script->local.vars && !db_size(st->script->local.vars) ) { script->free_vars(st->script->local.vars); st->script->local.vars = NULL; } if( st->script->local.arrays && !db_size(st->script->local.arrays) ) { st->script->local.arrays->destroy(st->script->local.arrays,script->array_free_db); st->script->local.arrays = NULL; } } st->pos = -1; if (st->pending_ref_count > 0) { while (st->pending_ref_count > 0) aFree(st->pending_refs[--st->pending_ref_count]); aFree(st->pending_refs); st->pending_refs = NULL; } idb_remove(script->st_db, st->id); ers_free(script->st_ers, st); if( --script->active_scripts == 0 ) { script->next_id = 0; } } } /** * Adds a pending reference entry to the current script. * * @see struct script_state::pending_refs * * @param st[in] Script state. * @param ref[in] Reference to be added. */ void script_add_pending_ref(struct script_state *st, struct reg_db *ref) { RECREATE(st->pending_refs, struct reg_db*, ++st->pending_ref_count); st->pending_refs[st->pending_ref_count-1] = ref; } // // Main execution unit // /*========================================== * Read command *------------------------------------------*/ c_op get_com(const struct script_buf *scriptbuf, int *pos) { int i = 0, j = 0; if (VECTOR_INDEX(*scriptbuf, *pos) >= 0x80) { return C_INT; } while (VECTOR_INDEX(*scriptbuf, *pos) >= 0x40) { i = VECTOR_INDEX(*scriptbuf, (*pos)++) << j; j+=6; } return (c_op)(i+(VECTOR_INDEX(*scriptbuf, (*pos)++)<= 0xc0) { i+= (VECTOR_INDEX(*scriptbuf, (*pos)++)&0x7f)<get_val(st, data); if (data_isstring(data)) { flag = data->u.str[0]; // "" -> false } else if (data_isint(data)) { flag = data->u.num == 0 ? 0 : 1;// 0 -> false } else { ShowError("script:op_3: invalid data for the ternary operator test\n"); script->reportdata(data); script->reportsrc(st); script_removetop(st, -3, 0); script_pushnil(st); return; } if( flag ) script_pushcopytop(st, -2); else script_pushcopytop(st, -1); script_removetop(st, -4, -1); } /// Binary string operators /// s1 EQ s2 -> i /// s1 NE s2 -> i /// s1 GT s2 -> i /// s1 GE s2 -> i /// s1 LT s2 -> i /// s1 LE s2 -> i /// s1 RE_EQ s2 -> i /// s1 RE_NE s2 -> i /// s1 ADD s2 -> s void op_2str(struct script_state* st, int op, const char* s1, const char* s2) { int a = 0; switch(op) { case C_EQ: a = (strcmp(s1,s2) == 0); break; case C_NE: a = (strcmp(s1,s2) != 0); break; case C_GT: a = (strcmp(s1,s2) > 0); break; case C_GE: a = (strcmp(s1,s2) >= 0); break; case C_LT: a = (strcmp(s1,s2) < 0); break; case C_LE: a = (strcmp(s1,s2) <= 0); break; case C_RE_EQ: case C_RE_NE: { int inputlen = (int)strlen(s1); pcre *compiled_regex; pcre_extra *extra_regex; const char *pcre_error, *pcre_match; int pcre_erroroffset, offsetcount; int offsets[256*3]; // (max_capturing_groups+1)*3 compiled_regex = libpcre->compile(s2, 0, &pcre_error, &pcre_erroroffset, NULL); if( compiled_regex == NULL ) { ShowError("script:op2_str: Invalid regex '%s'.\n", s2); script->reportsrc(st); script_pushnil(st); st->state = END; return; } extra_regex = libpcre->study(compiled_regex, 0, &pcre_error); if( pcre_error != NULL ) { libpcre->free(compiled_regex); ShowError("script:op2_str: Unable to optimize the regex '%s': %s\n", s2, pcre_error); script->reportsrc(st); script_pushnil(st); st->state = END; return; } offsetcount = libpcre->exec(compiled_regex, extra_regex, s1, inputlen, 0, 0, offsets, 256*3); if( offsetcount == 0 ) { offsetcount = 256; } else if( offsetcount == PCRE_ERROR_NOMATCH ) { offsetcount = 0; } else if( offsetcount < 0 ) { libpcre->free(compiled_regex); if( extra_regex != NULL ) libpcre->free(extra_regex); ShowWarning("script:op2_str: Unable to process the regex '%s'.\n", s2); script->reportsrc(st); script_pushnil(st); st->state = END; return; } if (op == C_RE_EQ) { int i; for (i = 0; i < offsetcount; i++) { libpcre->get_substring(s1, offsets, offsetcount, i, &pcre_match); mapreg->setregstr(reference_uid(script->add_str("$@regexmatch$"), i), pcre_match); libpcre->free_substring(pcre_match); } mapreg->setreg(script->add_str("$@regexmatchcount"), i); a = offsetcount; } else { // C_RE_NE a = (offsetcount == 0); } libpcre->free(compiled_regex); if( extra_regex != NULL ) libpcre->free(extra_regex); } break; case C_ADD: { char* buf = (char *)aMalloc((strlen(s1)+strlen(s2)+1)*sizeof(char)); strcpy(buf, s1); strcat(buf, s2); script_pushstr(st, buf); return; } default: ShowError("script:op2_str: unexpected string operator %s\n", script->op2name(op)); script->reportsrc(st); script_pushnil(st); st->state = END; return; } script_pushint(st,a); } /// Binary number operators /// i OP i -> i void op_2num(struct script_state* st, int op, int i1, int i2) { int ret; int64 ret64; switch( op ) { case C_AND: ret = i1 & i2; break; case C_OR: ret = i1 | i2; break; case C_XOR: ret = i1 ^ i2; break; case C_LAND: ret = (i1 && i2); break; case C_LOR: ret = (i1 || i2); break; case C_EQ: ret = (i1 == i2); break; case C_NE: ret = (i1 != i2); break; case C_GT: ret = (i1 > i2); break; case C_GE: ret = (i1 >= i2); break; case C_LT: ret = (i1 < i2); break; case C_LE: ret = (i1 <= i2); break; case C_R_SHIFT: ret = i1>>i2; break; case C_L_SHIFT: ret = i1<op2name(op), i1, i2); script->reportsrc(st); script_pushnil(st); st->state = END; return; } else if( op == C_DIV ) ret = i1 / i2; else//if( op == C_MOD ) ret = i1 % i2; break; default: switch (op) { // operators that can overflow/underflow case C_ADD: ret = i1 + i2; ret64 = (int64)i1 + i2; break; case C_SUB: ret = i1 - i2; ret64 = (int64)i1 - i2; break; case C_MUL: ret = i1 * i2; ret64 = (int64)i1 * i2; break; default: ShowError("script:op_2num: unexpected number operator %s i1=%d i2=%d\n", script->op2name(op), i1, i2); script->reportsrc(st); script_pushnil(st); return; } if (ret64 < INT_MIN) { ShowWarning("script:op_2num: underflow detected op=%s i1=%d i2=%d\n", script->op2name(op), i1, i2); script->reportsrc(st); ret = INT_MIN; } else if (ret64 > INT_MAX) { ShowWarning("script:op_2num: overflow detected op=%s i1=%d i2=%d\n", script->op2name(op), i1, i2); script->reportsrc(st); ret = INT_MAX; } } script_pushint(st, ret); } /// Binary operators void op_2(struct script_state *st, int op) { struct script_data* left, leftref; struct script_data* right; leftref.type = C_NOP; left = script_getdatatop(st, -2); right = script_getdatatop(st, -1); if (st->op2ref) { if (data_isreference(left)) { leftref = *left; } st->op2ref = 0; } script->get_val(st, left); script->get_val(st, right); // automatic conversions switch( op ) { case C_ADD: if( data_isint(left) && data_isstring(right) ) {// convert int-string to string-string script->conv_str(st, left); } else if( data_isstring(left) && data_isint(right) ) {// convert string-int to string-string script->conv_str(st, right); } break; } if( data_isstring(left) && data_isstring(right) ) {// ss => op_2str script->op_2str(st, op, left->u.str, right->u.str); script_removetop(st, leftref.type == C_NOP ? -3 : -2, -1);// pop the two values before the top one if (leftref.type != C_NOP) { if (left->type == C_STR) // don't free C_CONSTSTR aFree(left->u.mutstr); *left = leftref; } } else if( data_isint(left) && data_isint(right) ) {// ii => op_2num int i1 = (int)left->u.num; int i2 = (int)right->u.num; script_removetop(st, leftref.type == C_NOP ? -2 : -1, 0); script->op_2num(st, op, i1, i2); if (leftref.type != C_NOP) *left = leftref; } else {// invalid argument ShowError("script:op_2: invalid data for operator %s\n", script->op2name(op)); script->reportdata(left); script->reportdata(right); script->reportsrc(st); script_removetop(st, -2, 0); script_pushnil(st); st->state = END; } } /// Unary operators /// NEG i -> i /// NOT i -> i /// LNOT i -> i void op_1(struct script_state* st, int op) { struct script_data* data; int i1; data = script_getdatatop(st, -1); script->get_val(st, data); if( !data_isint(data) ) {// not a number ShowError("script:op_1: argument is not a number (op=%s)\n", script->op2name(op)); script->reportdata(data); script->reportsrc(st); script_pushnil(st); st->state = END; return; } i1 = (int)data->u.num; script_removetop(st, -1, 0); switch( op ) { case C_NEG: i1 = -i1; break; case C_NOT: i1 = ~i1; break; case C_LNOT: i1 = !i1; break; default: ShowError("script:op_1: unexpected operator %s i1=%d\n", script->op2name(op), i1); script->reportsrc(st); script_pushnil(st); st->state = END; return; } script_pushint(st, i1); } /// Checks the type of all arguments passed to a built-in function. /// /// @param st Script state whose stack arguments should be inspected. /// @param func Built-in function for which the arguments are intended. void script_check_buildin_argtype(struct script_state* st, int func) { int idx, invalid = 0; char* sf = script->buildin[script->str_data[func].val]; for (idx = 2; script_hasdata(st, idx); idx++) { struct script_data* data = script_getdata(st, idx); char type = sf[idx-2]; const char* name = NULL; if (type == '?' || type == '*') { // optional argument or unknown number of optional parameters ( no types are after this ) break; } if (type == 0) { // more arguments than necessary ( should not happen, as it is checked before ) ShowWarning("Found more arguments than necessary. unexpected arg type %s\n",script->op2name(data->type)); invalid++; break; } if (data_isreference(data)) { // get name for variables to determine the type they refer to name = reference_getname(data); } switch (type) { case 'v': if (!data_isstring(data) && !data_isint(data) && !data_isreference(data)) { // variant ShowWarning("Unexpected type for argument %d. Expected string, number or variable.\n", idx-1); script->reportdata(data); invalid++; } break; case 's': if (!data_isstring(data) && !(data_isreference(data) && is_string_variable(name))) { // string ShowWarning("Unexpected type for argument %d. Expected string.\n", idx-1); script->reportdata(data); invalid++; } break; case 'i': if (!data_isint(data) && !(data_isreference(data) && (reference_toparam(data) || reference_toconstant(data) || !is_string_variable(name)))) { // int ( params and constants are always int ) ShowWarning("Unexpected type for argument %d. Expected number.\n", idx-1); script->reportdata(data); invalid++; } break; case 'r': if (!data_isreference(data) || reference_toconstant(data)) { // variables ShowWarning("Unexpected type for argument %d. Expected variable, got %s.\n", idx-1,script->op2name(data->type)); script->reportdata(data); invalid++; } break; case 'l': if (!data_islabel(data) && !data_isfunclabel(data)) { // label ShowWarning("Unexpected type for argument %d. Expected label, got %s\n", idx-1,script->op2name(data->type)); script->reportdata(data); invalid++; } break; } } if (invalid) { ShowDebug("Function: %s\n", script->get_str(func)); script->reportsrc(st); } } /// Executes a buildin command. /// Stack: C_NAME() C_ARG ... int run_func(struct script_state *st) { struct script_data* data; int i,start_sp,end_sp,func; end_sp = st->stack->sp;// position after the last argument for( i = end_sp-1; i > 0 ; --i ) if( st->stack->stack_data[i].type == C_ARG ) break; if( i == 0 ) { ShowError("script:run_func: C_ARG not found. please report this!!!\n"); st->state = END; script->reportsrc(st); return 1; } start_sp = i-1;// C_NAME of the command st->start = start_sp; st->end = end_sp; data = &st->stack->stack_data[st->start]; if( data->type == C_NAME && script->str_data[data->u.num].type == C_FUNC ) func = (int)data->u.num; else { ShowError("script:run_func: not a buildin command.\n"); script->reportdata(data); script->reportsrc(st); st->state = END; return 1; } if( script->config.warn_func_mismatch_argtypes ) { script->check_buildin_argtype(st, func); } if(script->str_data[func].func) { if (!(script->str_data[func].func(st))) //Report error script->reportsrc(st); } else { ShowError("script:run_func: '%s' (id=%d type=%s) has no C function. please report this!!!\n", script->get_str(func), func, script->op2name(script->str_data[func].type)); script->reportsrc(st); st->state = END; } // Stack's datum are used when re-running functions [Eoe] if( st->state == RERUNLINE ) return 0; script->pop_stack(st, st->start, st->end); if( st->state == RETFUNC ) {// return from a user-defined function struct script_retinfo* ri; int olddefsp = st->stack->defsp; int nargs; script->pop_stack(st, st->stack->defsp, st->start);// pop distractions from the stack if( st->stack->defsp < 1 || st->stack->stack_data[st->stack->defsp-1].type != C_RETINFO ) { ShowWarning("script:run_func: return without callfunc or callsub!\n"); script->reportsrc(st); st->state = END; return 1; } script->free_vars(st->stack->scope.vars); st->stack->scope.arrays->destroy(st->stack->scope.arrays,script->array_free_db); ri = st->stack->stack_data[st->stack->defsp-1].u.ri; nargs = ri->nargs; st->pos = ri->pos; st->script = ri->script; st->stack->scope.vars = ri->scope.vars; st->stack->scope.arrays = ri->scope.arrays; st->stack->defsp = ri->defsp; memset(ri, 0, sizeof(struct script_retinfo)); script->pop_stack(st, olddefsp-nargs-1, olddefsp);// pop arguments and retinfo st->state = GOTO; } return 0; } /*========================================== * script execution *------------------------------------------*/ void run_script(struct script_code *rootscript, int pos, int rid, int oid) { struct script_state *st; if( rootscript == NULL || pos < 0 ) return; // TODO In jAthena, this function can take over the pending script in the player. [FlavioJS] // It is unclear how that can be triggered, so it needs the be traced/checked in more detail. // NOTE At the time of this change, this function wasn't capable of taking over the script state because st->scriptroot was never set. st = script->alloc_state(rootscript, pos, rid, oid); script->run_main(st); } void script_stop_instances(struct script_code *code) { struct DBIterator *iter; struct script_state* st; if( !script->active_scripts ) return;//dont even bother. iter = db_iterator(script->st_db); for( st = dbi_first(iter); dbi_exists(iter); st = dbi_next(iter) ) { if( st->script == code ) { script->free_state(st); } } dbi_destroy(iter); } /*========================================== * Timer function for sleep *------------------------------------------*/ int run_script_timer(int tid, int64 tick, int id, intptr_t data) { struct script_state *st = idb_get(script->st_db,(int)data); if( st ) { struct map_session_data *sd = map->id2sd(st->rid); if((sd && sd->status.char_id != id) || (st->rid && !sd)) { //Character mismatch. Cancel execution. st->rid = 0; st->state = END; } st->sleep.timer = INVALID_TIMER; if(st->state != RERUNLINE) st->sleep.tick = 0; script->run_main(st); } return 0; } /// Detaches script state from possibly attached character and restores it's previous script if any. /// /// @param st Script state to detach. /// @param dequeue_event Whether to schedule any queued events, when there was no previous script. void script_detach_state(struct script_state* st, bool dequeue_event) { struct map_session_data* sd; if(st->rid && (sd = map->id2sd(st->rid))!=NULL) { sd->st = st->bk_st; sd->npc_id = st->bk_npcid; if(st->bk_st) { //Remove tag for removal. st->bk_st = NULL; st->bk_npcid = 0; } else if(dequeue_event) { // For the Secure NPC Timeout option (check config/Secure.h) [RR] #ifdef SECURE_NPCTIMEOUT // We're done with this NPC session, so we cancel the timer (if existent) and move on if( sd->npc_idle_timer != INVALID_TIMER ) { timer->delete(sd->npc_idle_timer,npc->secure_timeout_timer); sd->npc_idle_timer = INVALID_TIMER; } #endif npc->event_dequeue(sd); } } else if(st->bk_st) { // rid was set to 0, before detaching the script state ShowError("script_detach_state: Found previous script state without attached player (rid=%d, oid=%d, state=%u, bk_npcid=%d)\n", st->bk_st->rid, st->bk_st->oid, st->bk_st->state, st->bk_npcid); script->reportsrc(st->bk_st); script->free_state(st->bk_st); st->bk_st = NULL; } } /// Attaches script state to possibly attached character and backups it's previous script, if any. /// /// @param st Script state to attach. void script_attach_state(struct script_state* st) { struct map_session_data* sd; if(st->rid && (sd = map->id2sd(st->rid))!=NULL) { if(st!=sd->st) { if(st->bk_st) {// there is already a backup ShowDebug("script_free_state: Previous script state lost (rid=%d, oid=%d, state=%u, bk_npcid=%d).\n", st->bk_st->rid, st->bk_st->oid, st->bk_st->state, st->bk_npcid); } st->bk_st = sd->st; st->bk_npcid = sd->npc_id; } sd->st = st; sd->npc_id = st->oid; sd->npc_item_flag = st->npc_item_flag; // load default. /** * For the Secure NPC Timeout option (check config/Secure.h) [RR] **/ #ifdef SECURE_NPCTIMEOUT if( sd->npc_idle_timer == INVALID_TIMER ) sd->npc_idle_timer = timer->add(timer->gettick() + (SECURE_NPCTIMEOUT_INTERVAL*1000),npc->secure_timeout_timer,sd->bl.id,0); sd->npc_idle_tick = timer->gettick(); #endif } } /*========================================== * The main part of the script execution *------------------------------------------*/ void run_script_main(struct script_state *st) { int cmdcount = script->config.check_cmdcount; int gotocount = script->config.check_gotocount; struct map_session_data *sd; struct script_stack *stack = st->stack; struct npc_data *nd; script->attach_state(st); nd = map->id2nd(st->oid); if( nd && nd->bl.m >= 0 ) st->instance_id = map->list[nd->bl.m].instance_id; else st->instance_id = -1; if(st->state == RERUNLINE) { script->run_func(st); if(st->state == GOTO) st->state = RUN; } else if(st->state != END) st->state = RUN; while( st->state == RUN ) { enum c_op c = script->get_com(&st->script->script_buf, &st->pos); switch(c) { case C_EOL: if( stack->defsp > stack->sp ) ShowError("script:run_script_main: unexpected stack position (defsp=%d sp=%d). please report this!!!\n", stack->defsp, stack->sp); else script->pop_stack(st, stack->defsp, stack->sp);// pop unused stack data. (unused return value) break; case C_INT: script->push_val(stack,C_INT,script->get_num(&st->script->script_buf, &st->pos), NULL); break; case C_POS: case C_NAME: script->push_val(stack,c,GETVALUE(&st->script->script_buf, st->pos), NULL); st->pos+=3; break; case C_ARG: script->push_val(stack,c,0,NULL); break; case C_STR: script->push_conststr(stack, (const char *)&VECTOR_INDEX(st->script->script_buf, st->pos)); while (VECTOR_INDEX(st->script->script_buf, st->pos++) != 0) (void)0; // Skip string break; case C_LSTR: { struct map_session_data *lsd = NULL; uint8 translations = 0; int string_id = *((int *)(&VECTOR_INDEX(st->script->script_buf, st->pos))); st->pos += sizeof(string_id); translations = *((uint8 *)(&VECTOR_INDEX(st->script->script_buf, st->pos))); st->pos += sizeof(translations); if( (!st->rid || !(lsd = map->id2sd(st->rid)) || !lsd->lang_id) && !map->default_lang_id ) script->push_conststr(stack, script->string_list+string_id); else { uint8 k, wlang_id = lsd ? lsd->lang_id : map->default_lang_id; int offset = st->pos; for(k = 0; k < translations; k++) { uint8 lang_id = *(uint8 *)(&VECTOR_INDEX(st->script->script_buf, offset)); offset += sizeof(uint8); if( lang_id == wlang_id ) break; offset += sizeof(char*); } if (k == translations) script->push_conststr(stack, script->string_list+string_id); else script->push_conststr(stack, *(const char**)(&VECTOR_INDEX(st->script->script_buf, offset))); } st->pos += ( ( sizeof(char*) + sizeof(uint8) ) * translations ); } break; case C_FUNC: script->run_func(st); if(st->state==GOTO) { st->state = RUN; if( !st->freeloop && gotocount>0 && (--gotocount)<=0 ) { ShowError("run_script: infinity loop !\n"); script->reportsrc(st); st->state=END; } } break; case C_REF: st->op2ref = 1; break; case C_NEG: case C_NOT: case C_LNOT: script->op_1(st ,c); break; case C_ADD: case C_SUB: case C_MUL: case C_DIV: case C_MOD: case C_EQ: case C_NE: case C_GT: case C_GE: case C_LT: case C_LE: case C_AND: case C_OR: case C_XOR: case C_LAND: case C_LOR: case C_R_SHIFT: case C_L_SHIFT: case C_RE_EQ: case C_RE_NE: script->op_2(st, c); break; case C_OP3: script->op_3(st, c); break; case C_NOP: st->state=END; break; default: ShowError("unknown command : %u @ %d\n", c, st->pos); st->state=END; break; } if( !st->freeloop && cmdcount>0 && (--cmdcount)<=0 ) { ShowError("run_script: too many opeartions being processed non-stop !\n"); script->reportsrc(st); st->state=END; } } if(st->sleep.tick > 0) { //Restore previous script script->detach_state(st, false); //Delay execution sd = map->id2sd(st->rid); // Get sd since script might have attached someone while running. [Inkfish] st->sleep.charid = sd?sd->status.char_id:0; st->sleep.timer = timer->add(timer->gettick()+st->sleep.tick, script->run_timer, st->sleep.charid, (intptr_t)st->id); } else if(st->state != END && st->rid) { //Resume later (st is already attached to player). if(st->bk_st) { ShowWarning("Unable to restore stack! Double continuation!\n"); //Report BOTH scripts to see if that can help somehow. ShowDebug("Previous script (lost):\n"); script->reportsrc(st->bk_st); ShowDebug("Current script:\n"); script->reportsrc(st); script->free_state(st->bk_st); st->bk_st = NULL; } } else { //Dispose of script. if ((sd = map->id2sd(st->rid))!=NULL) { //Restore previous stack and save char. if(sd->state.using_fake_npc) { clif->clearunit_single(sd->npc_id, CLR_OUTSIGHT, sd->fd); sd->state.using_fake_npc = 0; } //Restore previous script if any. script->detach_state(st, true); if (sd->vars_dirty) intif->saveregistry(sd); } script->free_state(st); st = NULL; } } int script_config_read(char *cfgName) { int i; char line[1024],w1[1024],w2[1024]; FILE *fp; if( !( fp = fopen(cfgName,"r") ) ) { ShowError("File not found: %s\n", cfgName); return 1; } while (fgets(line, sizeof(line), fp)) { if (line[0] == '/' && line[1] == '/') continue; i = sscanf(line,"%1023[^:]: %1023[^\r\n]", w1, w2); if(i!=2) continue; if(strcmpi(w1,"warn_func_mismatch_paramnum")==0) { script->config.warn_func_mismatch_paramnum = config_switch(w2); } else if(strcmpi(w1,"check_cmdcount")==0) { script->config.check_cmdcount = config_switch(w2); } else if(strcmpi(w1,"check_gotocount")==0) { script->config.check_gotocount = config_switch(w2); } else if(strcmpi(w1,"input_min_value")==0) { script->config.input_min_value = config_switch(w2); } else if(strcmpi(w1,"input_max_value")==0) { script->config.input_max_value = config_switch(w2); } else if(strcmpi(w1,"warn_func_mismatch_argtypes")==0) { script->config.warn_func_mismatch_argtypes = config_switch(w2); } else if(strcmpi(w1,"import")==0) { script->config_read(w2); } else if(HPM->parseConf(w1, w2, HPCT_SCRIPT)) { ; // handled by plugin } else { ShowWarning("Unknown setting '%s' in file %s\n", w1, cfgName); } } fclose(fp); return 0; } /** * @see DBApply */ int db_script_free_code_sub(union DBKey key, struct DBData *data, va_list ap) { struct script_code *code = DB->data2ptr(data); if (code) script->free_code(code); return 0; } void script_run_autobonus(const char *autobonus, int id, int pos) { struct script_code *scriptroot = (struct script_code *)strdb_get(script->autobonus_db, autobonus); if( scriptroot ) { status->current_equip_item_index = pos; script->run(scriptroot,0,id,0); } } void script_add_autobonus(const char *autobonus) { if( strdb_get(script->autobonus_db, autobonus) == NULL ) { struct script_code *scriptroot = script->parse(autobonus, "autobonus", 0, 0, NULL); if( scriptroot ) strdb_put(script->autobonus_db, autobonus, scriptroot); } } /// resets a temporary character array variable to given value void script_cleararray_pc(struct map_session_data* sd, const char* varname, void* value) { struct script_array *sa = NULL; struct reg_db *src = NULL; unsigned int i, *list = NULL, size = 0; int key; key = script->add_str(varname); if( !(src = script->array_src(NULL,sd,varname,NULL) ) ) return; if( value ) script->array_ensure_zero(NULL,sd,reference_uid(key,0),NULL); if( !(sa = idb_get(src->arrays, key)) ) /* non-existent array, nothing to empty */ return; size = sa->size; list = script->array_cpy_list(sa); for(i = 0; i < size; i++) { script->set_reg(NULL,sd,reference_uid(key, list[i]),varname,value,NULL); } } /// sets a temporary character array variable element idx to given value /// @param refcache Pointer to an int variable, which keeps a copy of the reference to varname and must be initialized to 0. Can be NULL if only one element is set. void script_setarray_pc(struct map_session_data* sd, const char* varname, uint32 idx, void* value, int* refcache) { int key; if( idx >= SCRIPT_MAX_ARRAYSIZE ) { ShowError("script_setarray_pc: Variable '%s' has invalid index '%u' (char_id=%d).\n", varname, idx, sd->status.char_id); return; } key = ( refcache && refcache[0] ) ? refcache[0] : script->add_str(varname); script->set_reg(NULL,sd,reference_uid(key, idx),varname,value,NULL); if( refcache ) {// save to avoid repeated script->add_str calls refcache[0] = key; } } /** * Clears persistent variables from memory **/ int script_reg_destroy(union DBKey key, struct DBData *data, va_list ap) { struct script_reg_state *src; if( data->type != DB_DATA_PTR )/* got no need for those! */ return 0; src = DB->data2ptr(data); if( src->type ) { struct script_reg_str *p = (struct script_reg_str *)src; if( p->value ) aFree(p->value); ers_free(pc->str_reg_ers,p); } else { ers_free(pc->num_reg_ers,(struct script_reg_num*)src); } return 0; } /** * Clears a single persistent variable **/ void script_reg_destroy_single(struct map_session_data *sd, int64 reg, struct script_reg_state *data) { i64db_remove(sd->regs.vars, reg); if( data->type ) { struct script_reg_str *p = (struct script_reg_str*)data; if( p->value ) aFree(p->value); ers_free(pc->str_reg_ers,p); } else { ers_free(pc->num_reg_ers,(struct script_reg_num*)data); } } unsigned int *script_array_cpy_list(struct script_array *sa) { if( sa->size > script->generic_ui_array_size ) script->generic_ui_array_expand(sa->size); memcpy(script->generic_ui_array, sa->members, sizeof(unsigned int)*sa->size); return script->generic_ui_array; } void script_generic_ui_array_expand (unsigned int plus) { script->generic_ui_array_size += plus + 100; RECREATE(script->generic_ui_array, unsigned int, script->generic_ui_array_size); } /*========================================== * Destructor *------------------------------------------*/ void do_final_script(void) { int i; struct DBIterator *iter; struct script_state *st; #ifdef SCRIPT_DEBUG_HASH if (battle_config.etc_log) { FILE *fp = fopen("hash_dump.txt","wt"); if(fp) { int count[SCRIPT_HASH_SIZE]; int count2[SCRIPT_HASH_SIZE]; // number of buckets with a certain number of items int n=0; int min=INT_MAX,max=0,zero=0; double mean=0.0f; double median=0.0f; ShowNotice("Dumping script str hash information to hash_dump.txt\n"); memset(count, 0, sizeof(count)); fprintf(fp,"num : hash : data_name\n"); fprintf(fp,"---------------------------------------------------------------\n"); for(i=LABEL_START; istr_num; i++) { unsigned int h = script->calc_hash(script->get_str(i)); fprintf(fp,"%04d : %4u : %s\n",i,h, script->get_str(i)); ++count[h]; } fprintf(fp,"--------------------\n\n"); memset(count2, 0, sizeof(count2)); for(i=0; i count[i]) min = count[i]; // minimun count of collision if(max < count[i]) max = count[i]; // maximun count of collision if(count[i] == 0) zero++; ++count2[count[i]]; } fprintf(fp,"\n--------------------\n items : buckets\n--------------------\n"); for( i=min; i <= max; ++i ) { fprintf(fp," %5d : %7d\n",i,count2[i]); mean += 1.0f*i*count2[i]/SCRIPT_HASH_SIZE; // Note: this will always result in / } for( i=min; i <= max; ++i ) { n += count2[i]; if( n*2 >= SCRIPT_HASH_SIZE ) { if( SCRIPT_HASH_SIZE%2 == 0 && SCRIPT_HASH_SIZE/2 == n ) median = (i+i+1)/2.0f; else median = i; break; } } fprintf(fp,"--------------------\n min = %d, max = %d, zero = %d\n mean = %lf, median = %lf\n",min,max,zero,mean,median); fclose(fp); } } #endif iter = db_iterator(script->st_db); for( st = dbi_first(iter); dbi_exists(iter); st = dbi_next(iter) ) { script->free_state(st); } dbi_destroy(iter); mapreg->final(); script->userfunc_db->destroy(script->userfunc_db, script->db_free_code_sub); script->autobonus_db->destroy(script->autobonus_db, script->db_free_code_sub); if (script->str_data) aFree(script->str_data); if (script->str_buf) aFree(script->str_buf); for( i = 0; i < atcommand->binding_count; i++ ) { aFree(atcommand->binding[i]); } if( atcommand->binding_count != 0 ) aFree(atcommand->binding); for( i = 0; i < script->buildin_count; i++) { if( script->buildin[i] ) { aFree(script->buildin[i]); script->buildin[i] = NULL; } } aFree(script->buildin); for (i = 0; i < VECTOR_LENGTH(script->hq); i++) { VECTOR_CLEAR(VECTOR_INDEX(script->hq, i).entries); } VECTOR_CLEAR(script->hq); for (i = 0; i < VECTOR_LENGTH(script->hqi); i++) { VECTOR_CLEAR(VECTOR_INDEX(script->hqi, i).entries); } VECTOR_CLEAR(script->hqi); if( script->word_buf != NULL ) aFree(script->word_buf); #ifdef ENABLE_CASE_CHECK script->global_casecheck.clear(); script->local_casecheck.clear(); #endif // ENABLE_CASE_CHECK ers_destroy(script->st_ers); ers_destroy(script->stack_ers); db_destroy(script->st_db); if( script->labels != NULL ) aFree(script->labels); ers_destroy(script->array_ers); if( script->generic_ui_array ) aFree(script->generic_ui_array); script->clear_translations(false); script->parser_clean_leftovers(); if( script->lang_export_file ) aFree(script->lang_export_file); } /** * **/ uint8 script_add_language(const char *name) { uint8 lang_id = script->max_lang_id; RECREATE(script->languages, char *, ++script->max_lang_id); script->languages[lang_id] = aStrdup(name); return lang_id; } /** * Goes thru db/translations.conf file **/ void script_load_translations(void) { struct config_t translations_conf; const char *config_filename = "db/translations.conf"; // FIXME hardcoded name struct config_setting_t *translations = NULL; int i, size; int total = 0; uint8 lang_id = 0, k; if (map->minimal) // No translations in minimal mode return; script->translation_db = strdb_alloc(DB_OPT_DUP_KEY, NAME_LENGTH*2+1); if( script->languages ) { for(i = 0; i < script->max_lang_id; i++) aFree(script->languages[i]); aFree(script->languages); } script->languages = NULL; script->max_lang_id = 0; script->add_language("English");/* 0 is default, which is whatever is in the npc files hardcoded (in our case, English) */ if (!libconfig->load_file(&translations_conf, config_filename)) return; if ((translations = libconfig->lookup(&translations_conf, "translations")) == NULL) { ShowError("load_translations: invalid format on '%s'\n",config_filename); return; } if( script->string_list ) aFree(script->string_list); script->string_list = NULL; script->string_list_pos = 0; script->string_list_size = 0; size = libconfig->setting_length(translations); for(i = 0; i < size; i++) { const char *translation_file = libconfig->setting_get_string_elem(translations, i); total += script->load_translation(translation_file, ++lang_id); } libconfig->destroy(&translations_conf); if (total != 0) { struct DBIterator *main_iter; struct DBMap *string_db; struct string_translation *st = NULL; VECTOR_ENSURE(script->translation_buf, total, 1); main_iter = db_iterator(script->translation_db); for (string_db = dbi_first(main_iter); dbi_exists(main_iter); string_db = dbi_next(main_iter)) { struct DBIterator *sub_iter = db_iterator(string_db); for (st = dbi_first(sub_iter); dbi_exists(sub_iter); st = dbi_next(sub_iter)) { VECTOR_PUSH(script->translation_buf, st->buf); } dbi_destroy(sub_iter); } dbi_destroy(main_iter); } for(k = 0; k < script->max_lang_id; k++) { if( !strcmpi(script->languages[k],map->default_lang_str) ) { break; } } if( k == script->max_lang_id ) { ShowError("load_translations: map server default_language setting '%s' is not a loaded language\n",map->default_lang_str); map->default_lang_id = 0; } else { map->default_lang_id = k; } } /** * **/ const char *script_get_translation_file_name(const char *file) { int i, len = (int)strlen(file), last_bar = -1, last_dot = -1; for(i = 0; i < len; i++) { if( file[i] == '/' || file[i] == '\\' ) last_bar = i; else if ( file[i] == '.' ) last_dot = i; } if( last_bar != -1 || last_dot != -1 ) { static char file_name[200]; if( last_bar != -1 && last_dot < last_bar ) last_dot = -1; safestrncpy(file_name, file+(last_bar >= 0 ? last_bar+1 : 0), ( last_dot >= 0 ? ( last_bar >= 0 ? last_dot - last_bar : last_dot ) : sizeof(file_name) )); return file_name; } return file; } /** * Parses an individual translation file. * * @param file The filename to parse. * @param lang_id The language identifier. * @return The amount of strings loaded. */ int script_load_translation(const char *file, uint8 lang_id) { int translations = 0; char line[1024]; char msgctxt[NAME_LENGTH*2+1] = { 0 }; struct DBMap *string_db; size_t i; FILE *fp; struct script_string_buf msgid, msgstr; if( !(fp = fopen(file,"rb")) ) { ShowError("load_translation: failed to open '%s' for reading\n",file); return 0; } VECTOR_INIT(msgid); VECTOR_INIT(msgstr); script->add_language(script->get_translation_file_name(file)); if( lang_id >= atcommand->max_message_table ) atcommand->expand_message_table(); while(fgets(line, sizeof(line), fp)) { size_t len = strlen(line); if( len <= 1 ) continue; if( line[0] == '#' ) continue; if( strncasecmp(line,"msgctxt \"", 9) == 0 ) { int cursor = 0; msgctxt[0] = '\0'; for(i = 9; i < len - 2; i++) { if( line[i] == '\\' && line[i+1] == '"' ) { msgctxt[cursor] = '"'; i++; } else msgctxt[cursor] = line[i]; if (++cursor >= (int)sizeof(msgctxt) - 1) break; } msgctxt[cursor] = '\0'; } else if ( strncasecmp(line, "msgid \"", 7) == 0 ) { VECTOR_TRUNCATE(msgid); for(i = 7; i < len - 2; i++) { VECTOR_ENSURE(msgid, 1, 512); if( line[i] == '\\' && line[i+1] == '"' ) { VECTOR_PUSH(msgid, '"'); i++; } else { VECTOR_PUSH(msgid, line[i]); } } VECTOR_ENSURE(msgid, 1, 512); VECTOR_PUSH(msgid, '\0'); } else if ( len > 9 && line[9] != '"' && strncasecmp(line, "msgstr \"",8) == 0 ) { VECTOR_TRUNCATE(msgstr); for(i = 8; i < len - 2; i++) { VECTOR_ENSURE(msgstr, 1, 512); if( line[i] == '\\' && line[i+1] == '"' ) { VECTOR_PUSH(msgstr, '"'); i++; } else { VECTOR_PUSH(msgstr, line[i]); } } VECTOR_ENSURE(msgstr, 1, 512); VECTOR_PUSH(msgstr, '\0'); } if( msgctxt[0] && VECTOR_LENGTH(msgid) > 1 && VECTOR_LENGTH(msgstr) > 1 ) { int msgstr_len = VECTOR_LENGTH(msgstr); unsigned int inner_len = 1 + (uint32)msgstr_len + 1; //uint8 lang_id + msgstr_len + '\0' if( strcasecmp(msgctxt, "messages.conf") == 0 ) { int k; for(k = 0; k < MAX_MSG; k++) { if( atcommand->msg_table[0][k] && strcmpi(atcommand->msg_table[0][k], VECTOR_DATA(msgid)) == 0 ) { if( atcommand->msg_table[lang_id][k] ) aFree(atcommand->msg_table[lang_id][k]); atcommand->msg_table[lang_id][k] = aStrdup(VECTOR_DATA(msgstr)); break; } } } else { struct string_translation *st = NULL; if( !( string_db = strdb_get(script->translation_db, msgctxt) ) ) { string_db = strdb_alloc(DB_OPT_DUP_KEY, 0); strdb_put(script->translation_db, msgctxt, string_db); } if ((st = strdb_get(string_db, VECTOR_DATA(msgid))) == NULL) { CREATE(st, struct string_translation, 1); st->string_id = script->string_dup(VECTOR_DATA(msgid)); strdb_put(string_db, VECTOR_DATA(msgid), st); } RECREATE(st->buf, uint8, st->len + inner_len); WBUFB(st->buf, st->len) = lang_id; safestrncpy(WBUFP(st->buf, st->len + 1), VECTOR_DATA(msgstr), msgstr_len + 1); st->translations++; st->len += inner_len; } msgctxt[0] = '\0'; VECTOR_TRUNCATE(msgid); VECTOR_TRUNCATE(msgstr); translations++; } } fclose(fp); VECTOR_CLEAR(msgid); VECTOR_CLEAR(msgstr); ShowStatus("Done reading '"CL_WHITE"%d"CL_RESET"' translations in '"CL_WHITE"%s"CL_RESET"'.\n", translations, file); return translations; } /** * **/ void script_clear_translations(bool reload) { uint32 i; if( script->string_list ) aFree(script->string_list); script->string_list = NULL; script->string_list_pos = 0; script->string_list_size = 0; while (VECTOR_LENGTH(script->translation_buf) > 0) { aFree(VECTOR_POP(script->translation_buf)); } VECTOR_CLEAR(script->translation_buf); if( script->languages ) { for(i = 0; i < script->max_lang_id; i++) aFree(script->languages[i]); aFree(script->languages); } script->languages = NULL; script->max_lang_id = 0; if( script->translation_db ) { script->translation_db->clear(script->translation_db,script->translation_db_destroyer); } if( reload ) script->load_translations(); } /** * **/ int script_translation_db_destroyer(union DBKey key, struct DBData *data, va_list ap) { struct DBMap *string_db = DB->data2ptr(data); if( db_size(string_db) ) { struct string_translation *st = NULL; struct DBIterator *iter = db_iterator(string_db); for( st = dbi_first(iter); dbi_exists(iter); st = dbi_next(iter) ) { aFree(st); } dbi_destroy(iter); } db_destroy(string_db); return 0; } /** * **/ void script_parser_clean_leftovers(void) { VECTOR_CLEAR(script->buf); if( script->translation_db ) { script->translation_db->destroy(script->translation_db,script->translation_db_destroyer); script->translation_db = NULL; } if( script->syntax.strings ) { /* used only when generating translation file */ db_destroy(script->syntax.strings); script->syntax.strings = NULL; } VECTOR_CLEAR(script->parse_simpleexpr_str); VECTOR_CLEAR(script->lang_export_line_buf); VECTOR_CLEAR(script->lang_export_escaped_buf); } /** * Performs cleanup after all parsing is processed **/ int script_parse_cleanup_timer(int tid, int64 tick, int id, intptr_t data) { script->parser_clean_leftovers(); script->parse_cleanup_timer_id = INVALID_TIMER; return 0; } /*========================================== * Initialization *------------------------------------------*/ void do_init_script(bool minimal) { script->parse_cleanup_timer_id = INVALID_TIMER; VECTOR_INIT(script->lang_export_line_buf); VECTOR_INIT(script->lang_export_escaped_buf); VECTOR_INIT(script->parse_simpleexpr_str); script->st_db = idb_alloc(DB_OPT_BASE); script->userfunc_db = strdb_alloc(DB_OPT_DUP_KEY,0); script->autobonus_db = strdb_alloc(DB_OPT_DUP_KEY,0); script->st_ers = ers_new(sizeof(struct script_state), "script.c::st_ers", ERS_OPT_CLEAN|ERS_OPT_FLEX_CHUNK); script->stack_ers = ers_new(sizeof(struct script_stack), "script.c::script_stack", ERS_OPT_NONE|ERS_OPT_FLEX_CHUNK); script->array_ers = ers_new(sizeof(struct script_array), "script.c::array_ers", ERS_OPT_CLEAN|ERS_OPT_CLEAR); ers_chunk_size(script->st_ers, 10); ers_chunk_size(script->stack_ers, 10); VECTOR_INIT(script->hq); VECTOR_INIT(script->hqi); script->parse_builtin(); script->read_constdb(); script->load_parameters(); script->hardcoded_constants(); if (minimal) return; mapreg->init(); script->load_translations(); } int script_reload(void) { int i; struct DBIterator *iter; struct script_state *st; #ifdef ENABLE_CASE_CHECK script->global_casecheck.clear(); #endif // ENABLE_CASE_CHECK iter = db_iterator(script->st_db); for( st = dbi_first(iter); dbi_exists(iter); st = dbi_next(iter) ) { script->free_state(st); } dbi_destroy(iter); script->userfunc_db->clear(script->userfunc_db, script->db_free_code_sub); script->label_count = 0; for( i = 0; i < atcommand->binding_count; i++ ) { aFree(atcommand->binding[i]); } if( atcommand->binding_count != 0 ) aFree(atcommand->binding); atcommand->binding_count = 0; db_clear(script->st_db); script->clear_translations(true); if( script->parse_cleanup_timer_id != INVALID_TIMER ) { timer->delete(script->parse_cleanup_timer_id,script->parse_cleanup_timer); script->parse_cleanup_timer_id = INVALID_TIMER; } mapreg->reload(); itemdb->name_constants(); sysinfo->vcsrevision_reload(); return 0; } /* returns name of current function being run, from within the stack [Ind/Hercules] */ const char *script_getfuncname(struct script_state *st) { struct script_data *data; data = &st->stack->stack_data[st->start]; if( data->type == C_NAME && script->str_data[data->u.num].type == C_FUNC ) return script->get_str(script_getvarid(data->u.num)); return NULL; } //----------------------------------------------------------------------------- // buildin functions // ///////////////////////////////////////////////////////////////////// // NPC interaction // /// Appends a message to the npc dialog. /// If a dialog doesn't exist yet, one is created. /// /// mes ""; BUILDIN(mes) { struct map_session_data *sd = script->rid2sd(st); if( sd == NULL ) return true; if( !script_hasdata(st, 3) ) {// only a single line detected in the script clif->scriptmes(sd, st->oid, script_getstr(st, 2)); } else {// parse multiple lines as they exist int i; for( i = 2; script_hasdata(st, i); i++ ) { // send the message to the client clif->scriptmes(sd, st->oid, script_getstr(st, i)); } } return true; } /// Displays the button 'next' in the npc dialog. /// The dialog text is cleared and the script continues when the button is pressed. /// /// next; BUILDIN(next) { struct map_session_data *sd = script->rid2sd(st); if (sd == NULL) return true; #ifdef SECURE_NPCTIMEOUT sd->npc_idle_type = NPCT_WAIT; #endif st->state = STOP; clif->scriptnext(sd, st->oid); return true; } /// Ends the script and displays the button 'close' on the npc dialog. /// The dialog is closed when the button is pressed. /// /// close; BUILDIN(close) { struct map_session_data *sd = script->rid2sd(st); if (sd == NULL) return true; st->state = sd->state.dialog == 1 ? CLOSE : END; clif->scriptclose(sd, st->oid); return true; } /// Displays the button 'close' on the npc dialog. /// The dialog is closed and the script continues when the button is pressed. /// /// close2; BUILDIN(close2) { struct map_session_data *sd = script->rid2sd(st); if (sd == NULL) return true; if( sd->state.dialog == 1 ) st->state = STOP; else { ShowWarning("misuse of 'close2'! trying to use it without prior dialog! skipping...\n"); script->reportsrc(st); } clif->scriptclose(sd, st->oid); return true; } /// Counts the number of valid and total number of options in 'str' /// If max_count > 0 the counting stops when that valid option is reached /// total is incremented for each option (NULL is supported) int menu_countoptions(const char* str, int max_count, int* total) { int count = 0; int bogus_total; if( total == NULL ) total = &bogus_total; ++(*total); // initial empty options while( *str == ':' ) { ++str; ++(*total); } // count menu options while( *str != '\0' ) { ++count; --max_count; if( max_count == 0 ) break; while( *str != ':' && *str != '\0' ) ++str; while( *str == ':' ) { ++str; ++(*total); } } return count; } /// Displays a menu with options and goes to the target label. /// The script is stopped if cancel is pressed. /// Options with no text are not displayed in the client. /// /// Options can be grouped together, separated by the character ':' in the text: /// ex: menu "A:B:C",L_target; /// All these options go to the specified target label. /// /// The index of the selected option is put in the variable @menu. /// Indexes start with 1 and are consistent with grouped and empty options. /// ex: menu "A::B",-,"",L_Impossible,"C",-; /// // displays "A", "B" and "C", corresponding to indexes 1, 3 and 5 /// /// NOTE: the client closes the npc dialog when cancel is pressed /// /// menu "",{,"",,...}; BUILDIN(menu) { int i; const char* text; struct map_session_data *sd = script->rid2sd(st); if (sd == NULL) return true; #ifdef SECURE_NPCTIMEOUT sd->npc_idle_type = NPCT_MENU; #endif // TODO detect multiple scripts waiting for input at the same time, and what to do when that happens if (sd->state.menu_or_input == 0) { struct StringBuf buf; if (script_lastdata(st) % 2 == 0) { // argument count is not even (1st argument is at index 2) ShowError("script:menu: illegal number of arguments (%d).\n", (script_lastdata(st) - 1)); st->state = END; return false; } StrBuf->Init(&buf); sd->npc_menu = 0; for (i = 2; i < script_lastdata(st); i += 2) { // target label struct script_data* data = script_getdata(st, i+1); // menu options text = script_getstr(st, i); if( !data_islabel(data) ) {// not a label StrBuf->Destroy(&buf); ShowError("script:menu: argument #%d (from 1) is not a label or label not found.\n", i); script->reportdata(data); st->state = END; return false; } // append option(s) if( text[0] == '\0' ) continue;// empty string, ignore if( sd->npc_menu > 0 ) StrBuf->AppendStr(&buf, ":"); StrBuf->AppendStr(&buf, text); sd->npc_menu += script->menu_countoptions(text, 0, NULL); } st->state = RERUNLINE; sd->state.menu_or_input = 1; /* menus beyond this length crash the client (see bugreport:6402) */ if( StrBuf->Length(&buf) >= 2047 ) { struct npc_data * nd = map->id2nd(st->oid); char* menu; CREATE(menu, char, 2048); safestrncpy(menu, StrBuf->Value(&buf), 2047); ShowWarning("NPC Menu too long! (source:%s / length:%d)\n",nd?nd->name:"Unknown",StrBuf->Length(&buf)); clif->scriptmenu(sd, st->oid, menu); aFree(menu); } else clif->scriptmenu(sd, st->oid, StrBuf->Value(&buf)); StrBuf->Destroy(&buf); if( sd->npc_menu >= 0xff ) {// client supports only up to 254 entries; 0 is not used and 255 is reserved for cancel; excess entries are displayed but cause 'uint8' overflow ShowWarning("buildin_menu: Too many options specified (current=%d, max=254).\n", sd->npc_menu); script->reportsrc(st); } } else if( sd->npc_menu == 0xff ) {// Cancel was pressed sd->state.menu_or_input = 0; st->state = END; } else {// goto target label int menu = 0; sd->state.menu_or_input = 0; if( sd->npc_menu <= 0 ) { ShowDebug("script:menu: unexpected selection (%d)\n", sd->npc_menu); st->state = END; return false; } // get target label for( i = 2; i < script_lastdata(st); i += 2 ) { text = script_getstr(st, i); sd->npc_menu -= script->menu_countoptions(text, sd->npc_menu, &menu); if( sd->npc_menu <= 0 ) break;// entry found } if( sd->npc_menu > 0 ) {// Invalid selection ShowDebug("script:menu: selection is out of range (%d pairs are missing?) - please report this\n", sd->npc_menu); st->state = END; return false; } if( !data_islabel(script_getdata(st, i + 1)) ) {// TODO remove this temporary crash-prevention code (fallback for multiple scripts requesting user input) ShowError("script:menu: unexpected data in label argument\n"); script->reportdata(script_getdata(st, i + 1)); st->state = END; return false; } pc->setreg(sd, script->add_str("@menu"), menu); st->pos = script_getnum(st, i + 1); st->state = GOTO; } return true; } /// Displays a menu with options and returns the selected option. /// Behaves like 'menu' without the target labels. /// /// select({,,...}) -> /// /// @see menu BUILDIN(select) { int i; const char* text; struct map_session_data *sd = script->rid2sd(st); if (sd == NULL) return true; #ifdef SECURE_NPCTIMEOUT sd->npc_idle_type = NPCT_MENU; #endif if( sd->state.menu_or_input == 0 ) { struct StringBuf buf; StrBuf->Init(&buf); sd->npc_menu = 0; for( i = 2; i <= script_lastdata(st); ++i ) { text = script_getstr(st, i); if( sd->npc_menu > 0 ) StrBuf->AppendStr(&buf, ":"); StrBuf->AppendStr(&buf, text); sd->npc_menu += script->menu_countoptions(text, 0, NULL); } st->state = RERUNLINE; sd->state.menu_or_input = 1; /* menus beyond this length crash the client (see bugreport:6402) */ if( StrBuf->Length(&buf) >= 2047 ) { struct npc_data * nd = map->id2nd(st->oid); char* menu; CREATE(menu, char, 2048); safestrncpy(menu, StrBuf->Value(&buf), 2047); ShowWarning("NPC Menu too long! (source:%s / length:%d)\n",nd?nd->name:"Unknown",StrBuf->Length(&buf)); clif->scriptmenu(sd, st->oid, menu); aFree(menu); } else clif->scriptmenu(sd, st->oid, StrBuf->Value(&buf)); StrBuf->Destroy(&buf); if( sd->npc_menu >= 0xff ) { ShowWarning("buildin_select: Too many options specified (current=%d, max=254).\n", sd->npc_menu); script->reportsrc(st); } } else if( sd->npc_menu == 0xff ) {// Cancel was pressed sd->state.menu_or_input = 0; st->state = END; } else {// return selected option int menu = 0; sd->state.menu_or_input = 0; for( i = 2; i <= script_lastdata(st); ++i ) { text = script_getstr(st, i); sd->npc_menu -= script->menu_countoptions(text, sd->npc_menu, &menu); if( sd->npc_menu <= 0 ) break;// entry found } pc->setreg(sd, script->add_str("@menu"), menu); script_pushint(st, menu); st->state = RUN; } return true; } /// Displays a menu with options and returns the selected option. /// Behaves like 'menu' without the target labels, except when cancel is /// pressed. /// When cancel is pressed, the script continues and 255 is returned. /// /// prompt({,,...}) -> /// /// @see menu BUILDIN(prompt) { int i; const char *text; struct map_session_data *sd = script->rid2sd(st); if (sd == NULL) return true; #ifdef SECURE_NPCTIMEOUT sd->npc_idle_type = NPCT_MENU; #endif if( sd->state.menu_or_input == 0 ) { struct StringBuf buf; StrBuf->Init(&buf); sd->npc_menu = 0; for( i = 2; i <= script_lastdata(st); ++i ) { text = script_getstr(st, i); if( sd->npc_menu > 0 ) StrBuf->AppendStr(&buf, ":"); StrBuf->AppendStr(&buf, text); sd->npc_menu += script->menu_countoptions(text, 0, NULL); } st->state = RERUNLINE; sd->state.menu_or_input = 1; /* menus beyond this length crash the client (see bugreport:6402) */ if( StrBuf->Length(&buf) >= 2047 ) { struct npc_data * nd = map->id2nd(st->oid); char* menu; CREATE(menu, char, 2048); safestrncpy(menu, StrBuf->Value(&buf), 2047); ShowWarning("NPC Menu too long! (source:%s / length:%d)\n",nd?nd->name:"Unknown",StrBuf->Length(&buf)); clif->scriptmenu(sd, st->oid, menu); aFree(menu); } else clif->scriptmenu(sd, st->oid, StrBuf->Value(&buf)); StrBuf->Destroy(&buf); if( sd->npc_menu >= 0xff ) { ShowWarning("buildin_prompt: Too many options specified (current=%d, max=254).\n", sd->npc_menu); script->reportsrc(st); } } else if( sd->npc_menu == 0xff ) {// Cancel was pressed sd->state.menu_or_input = 0; pc->setreg(sd, script->add_str("@menu"), 0xff); script_pushint(st, 0xff); st->state = RUN; } else {// return selected option int menu = 0; sd->state.menu_or_input = 0; for( i = 2; i <= script_lastdata(st); ++i ) { text = script_getstr(st, i); sd->npc_menu -= script->menu_countoptions(text, sd->npc_menu, &menu); if( sd->npc_menu <= 0 ) break;// entry found } pc->setreg(sd, script->add_str("@menu"), menu); script_pushint(st, menu); st->state = RUN; } return true; } ///////////////////////////////////////////////////////////////////// // ... // /// Jumps to the target script label. /// /// goto