Mercurial > otakunoraifu
view scn2k/scn2k_cmd.cc @ 58:0aaa5bb3dde5
Moved all opcodes from scn2k_text.cc to scn2k_textimpl.cc
author | Thibaut GIRKA <thib@sitedethib.com> |
---|---|
date | Fri, 18 Dec 2009 14:25:56 +0100 |
parents | d7cde171a1de |
children | 3b1593186f12 |
line wrap: on
line source
/* * Copyright (c) 2004-2006 Kazunori "jagarl" Ueno * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "scn2k.h" #include <stdlib.h> #include <stdarg.h> #include <stdio.h> #include <string.h> #include <string> #include "system/file.h" using namespace std; // #define SCN_DUMP /* 注意点: @@@ で表記 */ //bool debug_flag = true; bool debug_flag = false; void dprintf(const char* fmt, ...) { if (debug_flag) { va_list ap; va_start(ap, fmt); vprintf(fmt, ap); va_end(ap); } } void eprintf(const char* fmt, ...) { va_list ap; va_start(ap, fmt); // vprintf(fmt, ap); va_end(ap); } /************************************************************** ** Flag */ Flags::Flags(void) { int i,j; for (i=0; i<=TYPE_VARMAX; i++) { for (j=0; j<2000; j++) { var[i][j] = 0; } } sys = 0; } bool Flags::IsInt(int type) const { int v = type % 26; return (v >= 0 && v < 7) || v == 25; } int Flags::MaxIndex(int type) const { switch (type / 26) { case 1: return 63999; case 2: return 31999; case 3: return 15999; case 4: return 7999; default: return 1999; } } int Flags::operator()() const { return sys; // rand() % 10000; } int Flags::operator() (VarInfo info) const { return Get(info.type, info.number); } int Flags::Get(int type, int number) const { int index = type % 26; type /= 26; if (index == 25) { if (var[7][number] != 0) return var[7][number]; if (cgm_data.find(number) == cgm_data.end()) return 0; else return 1; } if (index == 10) index = 8; if (index == 11) index = 9; if (index > TYPE_VARMAX || uint(type) > 4) return 0; if (type == 0) { // A[]..G[], Z[] を直に読む if (uint(number) >= 2000) return 0; return var[index][number]; } else { // Ab[]..G4b[], Z8b[] などを読む int factor = 1 << (type - 1); int eltsize = 32 / factor; if (uint(number) >= (64000 / factor)) return 0; return (var[index][number / eltsize] >> ((number % eltsize) * factor)) & ((1 << factor) - 1); } } void Flags::Set(VarInfo info, int value) { int type = info.type / 26; int index = info.type % 26; if (index == 25) { if (uint(info.number) >= 2000) return; if (value == 0) cgm_data.erase(info.number); else cgm_data.insert(info.number); index = 7; } if (index == 10) index = 8; if (index == 11) index = 9; if (index < 0 || index > TYPE_VARMAX) { fprintf(stderr,"Error: invalid access to Var<%d>[%d]\n",info.type,info.number); } if (type == 0) { // A[]..G[], Z[] を直に書く if (uint(info.number) >= 2000) return; var[index][info.number] = value; } else { // Ab[]..G4b[], Z8b[] などを書く int factor = 1 << (type - 1); int eltsize = 32 / factor; int eltmask = (1 << factor) - 1; int shift = (info.number % eltsize) * factor; if (uint(info.number) >= (64000 / factor)) return; var[index][info.number / eltsize] = (var[index][info.number / eltsize] & ~(eltmask << shift)) | (value & eltmask) << shift; } } void Flags::SetSys(int value) { sys = value; } void Flags::SetStr(VarInfo info, string val) { switch(info.type) { case TYPE_VARLOCSTR: if (info.number >= 3) return; loc_str[info.number] = val; break; case TYPE_VARSYSSTR: if (info.number >= 2000) return; sys_str[info.number] = val; break; case TYPE_VARSTR: if (info.number >= 2000) return; str[info.number] = val; break; } return; } void Flags::Str(int type, unsigned int number, char* buf, int sz) const { if (sz <= 0) return; buf[0] = 0; const string* sptr; switch(type) { case TYPE_VARLOCSTR: if (number >= 3) return; sptr = &loc_str[number]; break; case TYPE_VARSYSSTR: if (number >= 2000) return; sptr = &sys_str[number]; break; case TYPE_VARSTR: if (number >= 2000) return; sptr = &str[number]; break; } int len = sptr->length(); if (sz-1 > len) sz = len; sptr->copy(buf, sz, 0); buf[sz] = 0; return; } string Flags::Str(int type, unsigned int number) const { switch(type) { case TYPE_VARLOCSTR: if (number >= 3) return ""; return loc_str[number]; case TYPE_VARSYSSTR: if (number >= 2000) return ""; return sys_str[number]; case TYPE_VARSTR: if (number >= 2000) return ""; return str[number]; } return ""; } void Flags::Save(string& save) { char buf[1024]; save = "\n[Flags]\n"; int i,j; for (i=0; i<=TYPE_NONSYSVARMAX; i++) { for (j=0; j<2000; j++) { if (var[i][j] != 0) { sprintf(buf, "V<%d>[%04d]=%d\n",i,j,var[i][j]); save += buf; } } } for (j=0; j<2000; j++) { if (str[j].length() != 0) { sprintf(buf, "V<C>[%04d]=%s\n", j, str[j].c_str()); save += buf; } } } void Flags::Load(const char* save) { int i,j; for (i=0; i<=TYPE_NONSYSVARMAX; i++) { for (j=0; j<2000; j++) { var[i][j] = 0; } } sys = 0; for (j=0; j<2000; j++) { str[j] = ""; } save = strstr(save, "\n[Flags]\n"); if (save) { save += strlen("\n[Flags]\n"); do { if (save[0] == '[') break; // next section if (strncmp(save, "V<",2) == 0) { if (strncmp(save, "V<C>[",5) == 0) { // string char buf[1024]; int n; if (sscanf(save, "V<C>[%04d]=",&n) == 1) { char* s = strchr(save, '='); s++; char* send = strchr(s, '\n'); int slen = send - s; strncpy(buf, s, slen); buf[slen] = 0; if (n >= 0 && n < 2000) str[n] = buf; } } else if (save[2] >= '0' && save[2] <= '9') { int c,n,v; if (sscanf(save, "V<%d>[%04d]=%d\n",&c,&n,&v) == 3) { if (c >= 0 && c <= TYPE_NONSYSVARMAX && n >= 0 && n < 2000) var[c][n] = v; } } } save = strchr(save, '\n'); if (save) save++; } while (save); } } void Flags::SaveSys(string& save) { //FIXME: see how to factorize with Save char buf[1024]; int j; save = "\n[Flags]\n"; for (j=0; j<2000; j++) { if (var[6][j] != 0) { sprintf(buf, "V<6>[%04d]=%d\n",j,var[6][j]); save += buf; } } for (j=0; j<2000; j++) { if (var[7][j] != 0) { sprintf(buf, "V<25>[%04d]=%d\n",j,var[7][j]); save += buf; } } for (j=0; j<2000; j++) { if (sys_str[j].length() != 0) { sprintf(buf, "V<M>[%04d]=%s\n", j, sys_str[j].c_str()); save += buf; } } } void Flags::LoadSys(const char* save) { //FIXME: Same as Save and SaveSys int i,j; for (i=6; i<=7; i++) { for (j=0; j<2000; j++) { var[i][j] = 0; } } for (j=0; j<2000; j++) { sys_str[j] = ""; } sys = 0; save = strstr(save, "\n[Flags]\n"); if (save) { save += strlen("\n[Flags]\n"); do { if (save[0] == '[') break; // next section if (strncmp(save, "V<",2) == 0) { if (strncmp(save, "V<M>[",5) == 0) { // string char buf[1024]; int n; if (sscanf(save, "V<M>[%04d]=",&n) == 1) { char* s = strchr(save, '='); s++; char* send = strchr(s, '\n'); int slen = send - s; strncpy(buf, s, slen); buf[slen] = 0; if (n >= 0 && n < 2000) sys_str[n] = buf; } } else if (save[2] >= '0' && save[2] <= '9') { int c,n,v; if (sscanf(save, "V<%d>[%04d]=%d\n",&c,&n,&v) == 3) { if (c == 6 && n >= 0 && n < 2000) var[6][n] = v; else if (c == 25 && n >= 0 && n < 2000) var[7][n] = v; } } } save = strchr(save, '\n'); if (save) save++; } while (save); } } bool Flags::Exec(Cmd& cmd) { if (cmd.cmd_type == CMD_FLAGS) { // 代入演算 if (cmd.args.size() != 2) return false; Set(cmd.args[0], cmd.args[1].value); cmd.clear(); return true; } if (cmd.cmd1 == 1 && cmd.cmd2 == 0x0a) { // 文字列演算 VarInfo arg1 = cmd.args[0]; switch(cmd.cmd3) { case 0: if (cmd.cmd4 == 0) { SetStr(arg1, cmd.Str(cmd.args[1])); } else if (cmd.cmd4 == 1) { string s = cmd.Str(cmd.args[1]); const char* sc = s.c_str(); int len = cmd.args[2].value; int i; for (i=0; i < sc[i] && len != 0; i++, len--) { if (sc[i]<0 && sc[i+1]!=0) i++; } s.erase(i); // 全角で len 文字まで切り詰める SetStr(arg1, s); // fprintf(stderr,"Set[%d,%d]<-%s\n",arg1.type,arg1.number,s.c_str()); } else break; cmd.clear(); break; case 1: if (cmd.cmd4 == 0) { SetStr(arg1, ""); cmd.clear(); } else if (cmd.cmd4 == 1) { // 領域指定で文字列クリア VarInfo v1 = cmd.args[0]; VarInfo v2 = cmd.args[1]; eprintf("memclear(str). Var[%d]<%d> - Var[%d]<%d>\n",v1.type, v1.number, v2.type, v2.number); if (v1.type != v2.type || (v1.type != TYPE_VARSTR && v1.type != TYPE_VARSYSSTR && v1.type != TYPE_VARLOCSTR)) { eprintf(" error: bad args\n"); } else { if (v1.number < 0) v1.number = 0; if (v2.number > 2000) v2.number = 2000; for (; v1.number <= v2.number; v1.number++) { SetStr(v1, ""); } } cmd.clear(); } case 2: SetStr(arg1, Str(arg1.type,arg1.number) + cmd.Str(cmd.args[1])); // fprintf(stderr,"Append[%d,%d]<-%s(%d:%d)\n",arg1.type,arg1.number,Str(arg1.type,arg1.number).c_str(),cmd.args[1].type,cmd.args[1].number); cmd.clear(); break; case 3: SetSys(strlen(cmd.Str(cmd.args[0]))); cmd.clear(); break; case 4: { int v = strcmp(cmd.Str(cmd.args[0]), cmd.Str(cmd.args[1])); // string s1=cmd.Str(cmd.args[0]); // string s2=cmd.Str(cmd.args[1]); // fprintf(stderr,"Cmp %s(%d:%d):%s(%d:%d):%d\n",s1.c_str(),cmd.args[0].type,cmd.args[0].number,s2.c_str(),cmd.args[1].type,cmd.args[1].number,v); if (v < 0) SetSys(-1); else if (v > 0) SetSys(1); else SetSys(0); cmd.clear(); break; } case 5: // substring, index from left case 6: // substring, index from right // 全角対応らしい //FIXME: Make sure it works properly { int offset = cmd.args[2].value; int len = strlen(cmd.Str(cmd.args[1])); string str = cmd.Str(cmd.args[1]); const char* s = str.c_str(); if (cmd.cmd3 == 6) offset = len - offset; if (offset < 0) offset = 0; // 先頭 N 文字を読み飛ばす int i; int offset_top = 0; for (i=0; i<offset && s[offset_top] != 0; i++) { if (s[offset_top] < 0 && s[offset_top+1] != 0) offset_top += 2; else offset_top += 1; } if (s[offset_top] == 0) { SetStr(arg1, ""); } else if (cmd.cmd4 == 0) { // 長さ制限なし SetStr(arg1, string(s, offset_top, len-offset_top)); } else { // cmd.cmd4 == 1 int slen = cmd.args[3].value; int offset_end = offset_top; for (i=0; i<slen && s[offset_end] != 0; i++) { if (s[offset_end] < 0 && s[offset_end]+1 != 0) offset_end += 2; else offset_end += 1; } string result(s, offset_top, offset_end-offset_top); SetStr(arg1, result); } cmd.clear(); break; } case 7: {// strlen w/ kanji const char* s = cmd.Str(cmd.args[0]); int i; for (i=0; *s != 0; i++) { if (*s < 0 && s[1] != 0) s += 2; else s++; } SetSys(i); cmd.clear(); break; } case 8: // 文字列を切って短くする if (cmd.args[1].value <= 0) { SetStr(arg1, ""); } else if (cmd.args[1].value < strlen(cmd.Str(cmd.args[1]))) { Str(arg1.type,arg1.number).erase(cmd.args[1].value); } cmd.clear(); break; case 0x0e: // 漢字モードでitoa { int arg1 = cmd.args[0].value; string result; char wc[3]; wc[2]=0; char buf[20]; if (cmd.cmd4 == 0) { sprintf(buf, "%d", arg1); } else { // cmd.cmd4 == 1 char fmt[20]; sprintf(fmt, "%%%dd", cmd.args[2].value); sprintf(buf, fmt, arg1); } int i; for (i=0; buf[i] != 0; i++) { if (buf[i] == ' ') { wc[0] = 0x81; // ' ' in SHIFT_JIS wc[1] = 0x40; } else if (buf[i] == '-') { wc[0] = 0x81; // '-' in SHIFT_JIS wc[1] = 0x7c; } else if (isdigit(buf[i])) { wc[0] = 0x82; // number in SHIFT_JIS wc[1] = buf[i] - '0' + 0x4f; } else { continue; } result += wc; } SetStr(cmd.args[1], result); cmd.clear(); } break; case 0x0f: case 0x11: // itoa (0x11 の方は zero padding するっぽい) if (cmd.cmd4 == 0) { int arg1 = cmd.args[0].value; char buf[1024]; sprintf(buf, "%d", arg1); SetStr(cmd.args[1], buf); cmd.clear(); } else if (cmd.cmd4 == 1) { // 漢字(SJIS) : 82 [4f+N] // やはり漢字じゃない? int arg1 = cmd.args[0].value; char buf[1024]; char fmt[1024]; if (cmd.cmd3 == 0x0f) { sprintf(fmt, "%%%dd",cmd.args[2].value); /* 空白でパディング */ } else { sprintf(fmt, "%%0%dd",cmd.args[2].value); } sprintf(buf, fmt, arg1); SetStr(cmd.args[1], buf); cmd.clear(); } break; case 0x64: // 文字列の表示 : 引数をテキストウィンドウに表示 if (cmd.cmd4 == 1) { char buf[256]; snprintf(buf, 255, "%d", Get(cmd.args[0].type, cmd.args[0].number)); cmd.args[0].type = TYPE_STR; cmd.args[0].value = cmd.AddStr(buf); cmd.cmd4 = 0; } cmd.cmd_type = CMD_TEXT; break; } } if (cmd.cmd1 == 1 && cmd.cmd2 == 0x0b) { // 数値変数演算 if (cmd.cmd3 == 0 && cmd.cmd4 == 0) { /* 複数の変数をセット */ VarInfo v1 = cmd.args[0]; eprintf("set multiple-var Var[%d]<%d> <- ",v1.type, v1.number); int i; if (cmd.args.size() < cmd.argc) { eprintf(" error: argsize changed %d -> %d\n",cmd.argc, cmd.args.size()); cmd.argc = cmd.args.size(); } for (i=0; i<cmd.argc; i++) { eprintf("%d, ",cmd.args[i+1].value); Set(v1, cmd.args[i+1].value); v1.number++; } eprintf("\n"); cmd.clear(); } else if (cmd.cmd3 == 1 && cmd.cmd4 == 0) { /* 領域指定で変数をクリア */ VarInfo v1 = cmd.args[0]; VarInfo v2 = cmd.args[1]; eprintf("memclear. Var[%d]<%d> - Var[%d]<%d>\n",v1.type, v1.number, v2.type, v2.number); if (v1.type != v2.type || !IsInt(v1.type)) eprintf(" error: bad args\n"); else { if (v1.number < 0) v1.number = 0; if (v2.number > MaxIndex(v2.type)) v2.number = MaxIndex(v2.type); for (; v1.number <= v2.number; v1.number++) Set(v1, 0); } cmd.clear(); } else if (cmd.cmd3 == 1 && cmd.cmd4 == 1) { /* 領域指定で変数をセット */ VarInfo v1 = cmd.args[0]; VarInfo v2 = cmd.args[1]; int value = cmd.args[2].value; eprintf("memset. Var[%d]<%d> - Var[%d]<%d> <- %d\n",v1.type, v1.number, v2.type, v2.number, value); if (v1.type != v2.type || !IsInt(v1.type)) eprintf(" error: bad args\n"); else { if (v1.number < 0) v1.number = 0; if (v2.number > MaxIndex(v2.type)) v2.number = MaxIndex(v2.type); for (; v1.number <= v2.number; v1.number++) Set(v1, value); } cmd.clear(); } else if (cmd.cmd3 == 4 && cmd.cmd4 == 1) { // 領域クリア(sysfunc.txt) VarInfo v1 = cmd.args[0]; int step = cmd.args[1].value; int deal = cmd.args[2].value; int val = cmd.args[3].value; eprintf("memclear. Var[%d]<%d> step %d deal %d <- val %d\n",v1.type, v1.number, step, deal, val); int i; for (i=0; i<deal; i++) { Set(v1, val); v1.number += step; } cmd.clear(); } else if (cmd.cmd3 == 0x64 && cmd.cmd4 == 0) { //領域で数値を合計する VarInfo v1 = cmd.args[0]; VarInfo v2 = cmd.args[1]; eprintf("sum var. Var[%d]<%d> - Var[%d]<%d>\n",v1.type, v1.number, v2.type, v2.number); int sum = 0; if (v1.type != v2.type || !IsInt(v1.type)) eprintf(" error: bad args\n"); else { if (v1.number < 0) v1.number = 0; if (v2.number > MaxIndex(v2.type)) v2.number = MaxIndex(v2.type); for (; v1.number <= v2.number; v1.number++) sum += (*this)(v1); } eprintf(" ret %d\n",sum); cmd.SetSysvar(sum); } } return false; } /********************************************************************* ** SimpleCmd */ SimpleCmd::SimpleCmd(int a, int b, int c) { cmd1 = a; cmd2 = b; cmd3 = c; } SimpleCmd::SimpleCmd(void) { cmd1 = cmd2 = cmd3 = 0; } bool SimpleCmd::operator<(const SimpleCmd& cmd) const { if (cmd1 < cmd.cmd1) return true; else if (cmd1 > cmd.cmd1) return false; if (cmd2 < cmd.cmd2) return true; else if (cmd2 > cmd.cmd2) return false; if (cmd3 < cmd.cmd3) return true; else return false; } bool SimpleCmd::operator==(const SimpleCmd& cmd) const { return (cmd1 == cmd.cmd1 && cmd2 == cmd.cmd2 && cmd3 == cmd.cmd3); } /********************************************************************* ** Cmd */ /* 数値 num := 0x24 0xff <int num> */ /* 変数 var := 0x24 <uchar type> 0x5b <exp> 0x5d */ /* 項 token := num | var | 0x28 <exp> 0x29 | <plus|minus> token */ int Cmd::GetLeftToken(const char*& d, VarInfo& info) { bool var_flag = true; int minus_flag = 0; int value = 0; if (d[0] == 0x5c && (d[1] == 1 || d[1] == 0) ) { if (d[1] == 1) {dprintf("minus-"); minus_flag ^= 1;} else dprintf("plus-"); d += 2; var_flag = false; } if (d[0] == 0x24 && ((unsigned const char*)d)[1] == 0xff) { // if ( (d[0] == 0x30 || d[0] == 0x31) && d[1] == 0x24 && ((unsigned const char*)d)[2] == 0xff) /* @@@ not supported; selection 内で、0x30|0x31 が付随することがある */ // numerical atom d += 6; value = read_little_endian_int(d-4); dprintf("%d",value); var_flag = false; } else if (d[0] == 0x24 && *(unsigned char*)(d+1) == 0xc8) { dprintf("V<sys>"); d += 2; info.type = TYPE_SYS; info.number = 0; value = info.value = flags(); } else if (d[0] == 0x24 && d[2] == 0x5b) { // 0x24,<type>,0x5b,<expr>,0x5d-terminated term info.type = *(unsigned char*)(d+1); d += 3; dprintf("V<%d>[",info.type); info.number = GetExpression(d); dprintf("]"); if (*d == 0x5d) d++; else SetError(); if (info.type == TYPE_VARSTR || info.type == TYPE_VARSYSSTR || info.type == TYPE_VARLOCSTR) { value = 0; info.value = StrVar(info.type, info.number); } else { value = info.value = flags(info); } dprintf("(=%d)",value); } else SetError(); if (minus_flag) value = -value; if (!var_flag) { info.type = TYPE_VAL; info.value = value; } return value; } static const char* op_str[70] = { // 0 1 2 3 4 5 6 7 8 9 "+", "-", "*", "/", "%", "&", "|", "^", "<<", ">>", // +00 "err.","err.","err.","err.","err.","err.","err.","err.","err.","err.", // +10 "+=", "-=", "*=", "/=", "%=", "&=", "|=", "^=", "<<=", ">>=", // +20 "=", "err.","err.","err.","err.","err.","err.","err.","err.","err.", // +30 "==", "!=", "<=", "<", ">=", ">", "err.","err.","err.","err.", // +40 "err.","err.","err.","err.","err.","err.","err.","err.","err.","err.", // +50 "&&", "||", "err.","err.","err.","err.","err.","err.","err.","err.", // +60 }; static int op_pri_tbl[12] = { // + - * / % & | ^ << >> 2, 2, 1, 1, 1, 1, 1, 1, 1, 1, 10, 10}; inline int op_pri(int op) { if (op > 11) return 10; return op_pri_tbl[op]; } inline int op_pri_cond(int op) { if (op <= 11) return op_pri_tbl[op]; else if (op < 50) return 7; else if (op == 60) return 8; else if (op == 61) return 8; else return 10; } inline int eval(int v1, int op, int v2) { switch(op) { case 0: return v1+v2; case 1: return v1-v2; case 2: return v1*v2; case 3: return v2!=0 ? v1/v2 : v1; case 4: return v2!=0 ? v1%v2 : v1; case 5: return v1&v2; case 6: return v1|v2; case 7: return v1^v2; case 8: return v1<<v2; case 9: return v1>>v2; case 40: return v1 == v2; case 41: return v1 != v2; case 42: return v1 <= v2; case 43: return v1 < v2; case 44: return v1 >= v2; case 45: return v1 > v2; case 60: return v1 && v2; case 61: return v1 || v2; } return v2; } Cmd::Cmd(const Flags& f, int _sys_ver) : flags(f), system_version(_sys_ver) { cmd_type = CMD_NOP; argc = 0; errorflag = false; cmdstr[0] = 0; strend = 0; pos = -1; } /* 演算子 op := 0x5c <uchar op> */ /* 数式 exp: [op] <token> [op <token> [...]] */ int Cmd::GetExpression(const char*& d, VarInfo* info_ptr) { #define STACK_DEPTH 1024 #define OP_LB 11 char op_stack[STACK_DEPTH]; int val_stack[STACK_DEPTH]; int stack_count = 0; // 第一項の読み込み while(*d == 0x28) { d++; dprintf("("); op_stack[stack_count++] = OP_LB; } VarInfo info; int value = GetLeftToken(d, info); while(*d == 0x29 && stack_count > 0 && op_stack[stack_count-1] == OP_LB) { d++; dprintf(")"); stack_count--; } if (*d != 0x5c && stack_count == 0) { if (info_ptr) *info_ptr = info; return value; // 単純なleft-termはここで終了。有効なinfo_ptrを帰す(可能性がある) } while(*d == 0x5c) { int op_type = *(unsigned char*)(d+1); d += 2; if (op_type < 70) dprintf("%s",op_str[op_type]); else dprintf("err."); if (op_type >= 10) SetError(); int cur_pri = op_pri(op_type); while(stack_count != 0 && op_pri(op_stack[stack_count-1]) <= cur_pri) { // 優先順位の高い、先行する演算を行う value = eval(val_stack[stack_count-1], op_stack[stack_count-1], value); stack_count--; } val_stack[stack_count] = value; op_stack[stack_count++] = op_type; while(*d == 0x28) { d++; dprintf("("); op_stack[stack_count++] = OP_LB; } if (stack_count >= STACK_DEPTH) SetError(); value = GetLeftToken(d, info); while (*d != 0x5c && stack_count > 0) { // 未実行の演算を終わらせる if (op_stack[stack_count-1] != OP_LB) { value = eval(val_stack[stack_count-1], op_stack[stack_count-1], value); stack_count--; } else if (*d == 0x29) { /* op_stack == OP_LB */ // bracket 終端があれば、閉じておく d++; dprintf(")"); stack_count--; } else break; // error } } if (stack_count) SetError(); // unbalanced bracket dprintf("(=%d)",value); if (info_ptr) { info_ptr->type = TYPE_VAL; info_ptr->value = value; } return value; } // 条件分岐専用に、条件演算と算術演算の混合を検知できる専用ルーチン(本来はGetExpressionで差し支えない) int Cmd::GetExpressionCond(const char*& d) { char op_stack[STACK_DEPTH]; int val_stack[STACK_DEPTH]; int valattr_stack[STACK_DEPTH]; #define ATTR_VAL 0 #define ATTR_FLAG 1 int stack_count = 0; // 第一項の読み込み while(*d == 0x28) { d++; dprintf("("); op_stack[stack_count++] = OP_LB; } VarInfo info; int value = GetLeftToken(d, info); while(*d == 0x29 && stack_count > 0 && op_stack[stack_count-1] == OP_LB) { d++; dprintf(")"); stack_count--; } bool valattr = ATTR_VAL; while(*d == 0x5c) { int op_type = *(unsigned char*)(d+1); d += 2; if (op_type < 70) dprintf("%s",op_str[op_type]); else dprintf("err."); int cur_pri = op_pri_cond(op_type); while(stack_count != 0 && op_pri_cond(op_stack[stack_count-1]) <= cur_pri) { // 優先順位の高い、先行する演算を行う if (op_stack[stack_count-1] >= 60) { if (valattr_stack[stack_count-1] != ATTR_FLAG || valattr != ATTR_FLAG) SetError(); } else { if (valattr_stack[stack_count-1] != ATTR_VAL || valattr != ATTR_VAL) SetError(); } value = eval(val_stack[stack_count-1], op_stack[stack_count-1], value); if (op_stack[stack_count-1] >= 40) valattr = ATTR_FLAG; stack_count--; } val_stack[stack_count] = value; valattr_stack[stack_count] = valattr; op_stack[stack_count++] = op_type; while(*d == 0x28) { d++; dprintf("("); op_stack[stack_count++] = OP_LB; } if (stack_count >= STACK_DEPTH) SetError(); value = GetLeftToken(d, info); valattr = ATTR_VAL; while (*d != 0x5c && stack_count > 0) { // 未実行の演算を終わらせる if (op_stack[stack_count-1] != OP_LB) { if (op_stack[stack_count-1] >= 60) { if (valattr_stack[stack_count-1] != ATTR_FLAG || valattr != ATTR_FLAG) SetError(); } else { if (valattr_stack[stack_count-1] != ATTR_VAL || valattr != ATTR_VAL) SetError(); } value = eval(val_stack[stack_count-1], op_stack[stack_count-1], value); if (op_stack[stack_count-1] >= 40) valattr = ATTR_FLAG; stack_count--; // bracket 終端があれば、閉じておく } else if (*d == 0x29) { /* op_stack == OP_LB */ d++; dprintf(")"); stack_count--; } else break; // error } } if (stack_count) SetError(); // unbalanced bracket if (value) dprintf("(=true)"); else dprintf("(=false)"); return value; } /* str = arg = args = 0x28 <exp> [[0x2c] <exp> [[0x2c] <exp> [...] ]] */ int Cmd::GetArgs(const char*& d) { if (*d != 0x28) return 0; /* 引数なし */ d++; dprintf("args:"); VarInfo var; int i; for (i=0; i<100 ; i++) { /* number, variable, string の種別なく値を得る */ if (*d == 0x61) { // よくわからない(智代アフター) dprintf("@%d",d[1]); d += 2; if (*d == 0x28) { dprintf("{"); GetArgs(d); // (A,B,C)節が含まれることがある dprintf("}"); } else { dprintf("{}"); } } else if (d[0] == 0x0a || d[0] == 0x40) { // よくわからない (Little Busters!) int var; if (system_version == 0) { var = read_little_endian_int(d+1); d += 5;} else { var = read_little_endian_short(d+1); d += 3;} dprintf("line %d; ",var); } else if (*d == 0x24 || (*d == 0x5c && (d[1] == 1 || d[1] == 0)) || *d == 0x28) { GetExpression(d, &var); args.push_back(var); } else if (StrType(d)) { var.type = TYPE_STR; var.value = GetString(d); args.push_back(var); } else SetError(); if (*d == 0x29) break; if (*d == 0x2c) {d++;} // 次の arg が演算子で始まる、などがなければ存在しない dprintf(","); } if (*d == 0x29) d++; else SetError(); return i; } int Cmd::GetArgsSpecial(int normal_args,const char*& d) { if (*d != 0x28) return 0; /* 引数なし */ d++; dprintf("args:"); int i; for (i=0; i<normal_args; i++) { /* number, variable, string の種別なく値を得る */ if (*d == 0x24 || (*d == 0x5c && (d[1] == 1 || d[1] == 0)) || *d == 0x28) { GetExpression(d); } else if (StrType(d)) { GetString(d); } else SetError(); if (*d == 0x29) break; if (*d == 0x2c) {d++;} // 次の arg が演算子で始まる、などがなければ存在しない dprintf(","); } for (i=0; i<argc ; i++) { if (*d == 0x28) { /* ** cmd 01-22:0c1c, 01-22:0835 ** Princess Bride のカードが落ちるアニメの場面 ** なお、_PBCARDANM* の画像はこのコマンドでのみ使われているので、特殊処理として無視することも可能 ** ** cmd 01-04:0276, 026c, 0270 ** 複数の enum が args の数だけ続く処理。特殊処理として分離する */ dprintf("enum.<"); /* (...) は列挙型 or 構造体の可能性がある */ const char* d_orig = d; int pt = args.size(); args.push_back(VarInfo(0)); int count = GetArgs(d); args[pt] = VarInfo(count); dprintf(">"); } else if (*d == 0x61 && (d[1] >= 0x00 && d[1] <= 0x04) && d[2] == 0x28 ) { /* 使われるコマンドは 01-21:004b, 01-28:0064 のいずれか(R,C,PB,LO) ** それらのコマンドは ** arg1: 画像ファイル名 ** arg2 : Sel 番号 ** らしく、arg3 以降が 0x61 <00-04> (a,b,c,...) となる(ダンプ上は enum と表記される) ** () 内の引数はさまざまで、a のみ(画像ファイル名)、 ** a,b b=SEL? ** a,b,c (b,c)=座標? ** a,(b,c,d,e,f,g) b-g = src / dest? ** らしい */ dprintf("kasane. #%d <",d[1]); d += 2; int pt = args.size(); args.push_back(VarInfo(0)); int count = GetArgs(d); args[pt] = VarInfo(count); dprintf(">"); } else if (*d == 0x24 || (*d == 0x5c && (d[1] == 1 || d[1] == 0))) { /* cmd 01-15:0028 ; 始めに 0x24 節があり、続いて 0x28 節になる */ VarInfo var; GetExpression(d, &var); args.push_back(var); i--; // この引数はargc の数には入らない } else SetError(); if (d[0] == 0x0a || d[0] == 0x40) { /* cmd 01-15:0028 ; 0x28 節の後に毎回 0x0a 節が来る */ int var; if (system_version == 0) { var = read_little_endian_int(d+1); d += 5;} else { var = read_little_endian_short(d+1); d += 3;} dprintf("line %d; ",var); } if (*d == 0x29) break; if (*d == 0x2c) {d++;} // 次の arg が演算子で始まる、などがなければ存在しない dprintf(","); } if (*d == 0x29) d++; else SetError(); return 0; } /* switch <exp> 0x7b <exp> <int> ... 0x7d */ int Cmd::GetSwitch(const char*& d) { if (*d != 0x28) {SetError(); return -1;} d++; dprintf("switch. "); int var = GetExpression(d); if (*d != 0x29) {SetError(); return -1;} d++; dprintf("->\n"); if (*d == 0x7b) { d++; } else SetError(); int default_jmp = -1; int jmpto = -1; int i; for (i=0; i<argc; i++) { dprintf("\t"); if (*d++ != 0x28) {SetError(); return -1;} if (*d != 0x29) { int item = GetExpression(d); if (*d++ != 0x29) {SetError(); return -1;} int jmp = read_little_endian_int(d); if (var == item) { dprintf("(selected)"); jmpto = jmp; } dprintf(" -> %d\n", jmp); } else { d++; default_jmp = read_little_endian_int(d); } d += 4; } if (default_jmp != -1) { dprintf("default -> %d\n",default_jmp); if (jmpto == -1) jmpto = default_jmp; } if (*d == 0x7d) { d++; } else SetError(); return jmpto; } /* simple switch <exp> 0x7b <int> ... 0x7d */ int Cmd::GetSimpleSwitch(const char*& d) { if (*d != 0x28) {SetError(); return -1;} d++; dprintf("simple switch. "); int var = GetExpression(d); if (*d != 0x29) {SetError(); return -1;} d++; dprintf(" ->\n"); int jumpto = -1; if (*d == 0x7b) { d++; } else SetError(); int i; for (i=0; i<argc; i++) { int j = read_little_endian_int(d); d += 4; dprintf("\t%d -> %d\n", i+1, j); if (var == i) jumpto = j; } if (*d == 0x7d) { d++; } else SetError(); return jumpto; } /* selection ? <exp> 0x7b <0x0a|0x40> <ushort | uint> */ void Cmd::GetSelection(const char*& d) { dprintf("selection. "); if (*d == 0x28) { d++; GetExpression(d); if (*d != 0x29) { SetError(); return;} d++; } if (*d == 0x7b) { d++; dprintf("{\n\t"); } else SetError(); int arg_count = 0; string text = ""; int cond_result = false; int sel_no = 0; while(*d != 0x7d) { if (d[0] == 0x0a || d[0] == 0x40) { int var; if (system_version == 0) { var = read_little_endian_int(d+1); d += 5;} else { var = read_little_endian_short(d+1); d += 3;} dprintf("Line %d; ",var); if (text.length() != 0) { if (cond_result) ; // 条件節が true なら表示しない else { const char* str = text.c_str(); VarInfo var; var.type = TYPE_STR; var.value = CopyString(str); args.push_back(var); var.type = TYPE_VAL; var.value = sel_no; args.push_back(var); } sel_no++; } text = ""; cond_result = false; } else if (d[0] == 0x2c) { dprintf(":comma:"); } else if (d[0] == 0x28) { dprintf(":cond:"); d++; while(d[0] != 0x29) { int result = GetExpressionCond(d); // PRINT- 節でないばあい、条件表示。次は文字節、またはPRINT節のはず if (*d == 0x32) { // 0x32 なら、現在の条件節を表示しない d++; dprintf("##"); cond_result = result; } else if (*d == 0x31) { // 0x31 なら、現在の条件節を表示する // Little Busters! : この条件で正しいかは未検証 d++; dprintf("***"); cond_result = !result; } dprintf(":"); } d++; } else if (StrType(d)) { int strpt = GetString(d); text += strheap + strpt; arg_count++; dprintf("\n\t"); } else if (*d == 0x23 && strncmp(d,"###PRINT",8) == 0) { d += 8; if (d[0] != 0x28) SetError(); else { // 文字変数の内容の表示 d++; dprintf("Print."); VarInfo info; GetLeftToken(d, info); if (d[0] != 0x29 || info.type == -1) SetError(); d++; dprintf(";");/* // 数値を全角文字に変換して登録 char str[10], str2[20]; // itoa sprintf(str, "%d", info.value); int i; for (i=0; str[i] != 0; i++) { str2[i*2] = 0xa3; str2[i*2+1] = 0xb0 + str[i]-'0'; } str2[i*2] = 0;*/ text += strheap + info.value; } } else { SetError(); break;} } d++; /* @@@ */ /* 一致しない場合があるのでコメントアウト */ // if (arg_count != argc) SetError(); dprintf("\n}\n"); } void Cmd::GetCmd(Flags& flags_orig, const char*& d ) { if (d == NULL) { SetError(); return;} if (cmd_type != CMD_NOP) return; cmdstr[0] = 0; rawdata = d; if (*d == 0x23) { /* コマンド */ cmd_type = CMD_OTHER; cmd1 = *(unsigned const char*)(d+1); cmd2 = *(unsigned const char*)(d+2); cmd3 = read_little_endian_short(d+3); argc = read_little_endian_short(d+5); cmd4 = *(unsigned const char*)(d+7); d += 8; /* verbose */ // dprintf(" 0x23 - cmd %02x-%02x:%04x:%02x[%2d] \n",cmd1,cmd2,cmd3,cmd4,argc); sprintf(cmdstr, "%02x-%02x:%04x:%02x : %s",cmd1,cmd2,cmd3,cmd4, CmdDescr(cmd1,cmd2,cmd3,cmd4)); /* 引数を得る */ /* 特殊引数のもの */ int is_special = 0; if (cmd1 == 0) { if (cmd2 == 1) { int jump_arg = -1; if (cmd3 == 0 || cmd3 == 5) { /* gosub / goto */ jump_arg =read_little_endian_int(d); d += 4; if (cmd3 == 0) dprintf("\tjmp -> %d\n", jump_arg); else /* cmd3 == 5 */ dprintf("\tcall -> %d\n", jump_arg); is_special = 1; } else if (cmd3 == 1 || cmd3 == 2) { /* conditional jump (if / unless) */ if (*d++ != 0x28) { SetError(); return;} dprintf("\t"); int cond = GetExpressionCond(d); if (cmd3 == 1) cond = !cond; // 逆になる if (*d++ != 0x29) { SetError(); return; } int jumpto = read_little_endian_int(d); d += 4; dprintf("-> %d\n", jumpto); if (! cond) jump_arg = jumpto; /* condition が満たされない場合、ジャンプ */ is_special = 1; } else if (cmd3 == 4) { /* switch to */ jump_arg = GetSwitch(d); is_special = 1; } else if (cmd3 == 8 || cmd3 == 3) { /* switch to */ jump_arg = GetSimpleSwitch(d); is_special = 1; } else if (cmd3 == 16) { // call with parameters GetArgs(d); jump_arg = read_little_endian_int(d); d += 4; is_special = 1; } else goto retry; if (jump_arg == -1) { cmd_type = CMD_NOP; } else { cmd_type = CMD_JMP; args.push_back(VarInfo(jump_arg)); } } else if (cmd2 == 2 && (cmd3 == 0 || cmd3 == 1 || cmd3 == 2 || cmd3 == 3 || cmd3 == 0x0d) ) { /* selection */ GetSelection(d); is_special = 1; } } retry: /* 一般引数のもの */ if (!is_special) { dprintf(" 0x23 - cmd %02x-%02x:%04x:%02x[%2d] : %s\n",cmd1,cmd2,cmd3,cmd4,argc,CmdDescr(cmd1,cmd2,cmd3,cmd4)); dprintf("\t"); if (cmd1 == 1 && cmd2 == 0x22 && (cmd3 == 0xc1c || cmd3 == 0x835)) GetArgsSpecial(3, d); else if (cmd1 == 1 && cmd2 == 0x0b && cmd3 == 0x65) GetArgsSpecial(0, d); else if (cmd1 == 1 && cmd2 == 0x15 && cmd3 == 0x28) GetArgsSpecial(0, d); else if (cmd1 == 1 && cmd2 == 4 && (cmd3 == 0x26c || cmd3 == 0x26d || cmd3 == 0x270 || cmd3 == 0x276)) GetArgsSpecial(0, d); else if (cmd1 == 1 && cmd2 == 4 && cmd3 == 0x586) GetArgsSpecial(1, d); else if (cmd1 == 1 && ((cmd2 == 0x21 && cmd3 == 0x4b) || (cmd2 == 0x28 && cmd3 == 0x64))) GetArgsSpecial(2,d); else GetArgs(d); dprintf("\n"); } } else if (*d == 0x24) { /* 代入演算 */ if (d[1] == 0x12 || d[2] != 0x5b) SetError(); dprintf("expr: "); sprintf(cmdstr, "expr"); VarInfo info; int value = GetLeftToken(d, info); if (d[0] != 0x5c) SetError(); int type = d[1]; if (type < 20 || type > 30) SetError(); else dprintf("%s",op_str[type]); d += 2; int value2 = GetExpression(d); // 代入情報を埋め込む if (type != 30) value2 = eval(value, type-20, value2); cmd_type = CMD_FLAGS; args.push_back(info); args.push_back(value2); dprintf("\n"); } else if (StrType(d)) { /* 文字出力 */ VarInfo info; info.type = TYPE_STR; info.value = GetString(d); args.push_back(info); cmd_type = CMD_TEXT; dprintf("\n"); } else if (*d == 0x0a || *d == 0x40 || *d == 0x21) { /* デバッグ用データと既読フラグ */ cmd_type = CMD_NOP; if (*d == 0x0a) { dprintf("line "); d++; int l; if (system_version == 0) { l = read_little_endian_int(d); d += 4; } else { l = read_little_endian_short(d); d += 2; } dprintf("%d\n", l); } else { /* 0x40, 0x21 */ // 既読マーカーらしい。エントリーポイントとセーブポイントも使われる。 // RealLive 1.2.5から、0x40はセーブポイント、0x21はエントリーポイント。 // 1.2.5以前、どちらも0x40が使われる。 int kidoku_index; d++; if (system_version == 0) { kidoku_index = read_little_endian_int(d); d += 4; } else { kidoku_index = read_little_endian_short(d); d += 2; } dprintf("kidoku marker %d\n", kidoku_index); // text_readflagは、このkidoku_indexを使ったら良いかな。 } } else if (*d == 0x2c) { /* ??? */ dprintf("commd;0x2c\n"); // conditional jump の行き先によくあるらしい(常に、かはわからない) d++; } else { SetError(); } } void Cmd::clear(void) { cmd_type = CMD_NOP; ResetString(); args.clear(); errorflag = false; pos = -1; } char Cmd::strtype[256] = { 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0, /* +00 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0, /* +10 */ // 0123456789ABCDEF 1,0,3,0, 0,0,0,1, 0,0,0,0, 0,1,1,0, /* +20 */ // !"#$%&'()*+,-./ 1,1,1,1, 1,1,1,1, 1,1,1,0, 0,0,0,1, /* +30 */ // 0123456789:;<=>? 0,1,1,1, 1,1,1,1, 1,1,1,1, 1,1,1,1, /* +40 */ // @ABCDEFGHIJKLMNO 1,1,1,1, 1,1,1,1, 1,1,1,0, 0,0,0,1, /* +50 */ // PQRSTUVWXYZ[\]^_ 0,0,1,1, 1,1,1,1, 1,1,1,1, 1,1,1,1, /* +60 */ // `abcdefghijklmno 1,1,1,1, 1,1,1,1, 1,1,1,1, 0,0,0,0, /* +70 */ // pqrstuvwxyz{|}~ 2,2,2,2, 2,2,2,2, 2,2,2,2, 2,2,2,2, /* +80 */ 2,2,2,2, 2,2,2,2, 2,2,2,2, 2,2,2,2, /* +90 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0, /* +A0 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0, /* +B0 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0, /* +C0 */ 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0, /* +D0 */ 2,2,2,2, 2,2,2,2, 2,2,2,2, 2,2,2,2, /* +E0 */ 2,2,2,2, 2,2,2,2, 2,2,2,2, 2,2,0,0 /* +F0 */ }; int Cmd::GetString(const char*& d) { int retnum = -1; bool quote_flag = false; int stype; retnum = strend; while(1) { if (*d == '\\') { d++; strheap[strend++] = *d++; } else if (*d == '"') { if (quote_flag) quote_flag = false; else quote_flag = true; d++; } else if (quote_flag) { strheap[strend++] = *d++; } else if ((stype = StrType(d))) { strheap[strend++] = *d++; if (stype == 2) strheap[strend++] = *d++; } else break; } strheap[strend++] = 0; dprintf("\"%s\"", strheap + retnum); if (strend >= STRHEAP_SIZE) { dprintf("Error: string heap overflow\n"); } return retnum; } int Cmd::CopyString(const char* d) { int retnum = strend; int len = strlen(d); memcpy(strheap+strend, d, len+1); strend += len+1; d += len+1; return retnum; } int Cmd::StrVar(int type, int var_num) { int retnum = strend; flags.Str(type, var_num, strheap+strend, STRHEAP_SIZE-strend); strend += strlen(strheap+strend)+1; return retnum; } void Cmd::SetSysvar(int n, int val) { VarInfo info; if (cmd_type != CMD_SYSVAR) { args.clear(); } cmd_type = CMD_SYSVAR; info.type = TYPE_SYS; info.number = n; info.value = val; args.push_back(info); } void Cmd::SetFlagvar(VarInfo info, int val) { if (cmd_type != CMD_SYSVAR) { args.clear(); } cmd_type = CMD_SYSVAR; info.value = val; args.push_back(info); } void Cmd::SetStrvar(VarInfo info, const string& s) { if (cmd_type != CMD_SYSVAR) { args.clear(); } cmd_type = CMD_SYSVAR; const char* ss = s.c_str(); info.value = CopyString(ss); args.push_back(info); } const char* Cmd::Str(const VarInfo& info) const { if (info.type != TYPE_STR && info.type != TYPE_VARSTR && info.type != TYPE_VARLOCSTR && info.type != TYPE_VARSYSSTR) return ""; int pt = info.value; if (pt < 0 || pt >= STRHEAP_SIZE) return ""; return strheap + pt; } int Cmd::AddStr(char* s) { // 1-0a-0064 はこういうものが必要らしい int start = strend; while (*s) strheap[strend++] = *s++; strheap[strend++] = 0; return start; } void Cmd::read(const CmdSimplified& from) { errorflag = false; ResetString(); cmd_type = Cmdtype(from.type); cmd1 = from.cmd1; cmd2 = from.cmd2; cmd3 = from.cmd3; cmd4 = from.cmd4; argc = from.argc; /* args の読み込み */ args.clear(); char* d = from.args; if (d == NULL) return; while(*d != TYPE_END) { VarInfo info; switch(*d) { case TYPE_VAL: info.type = TYPE_VAL; info.number = 0; info.value = read_little_endian_int(d+1); d += 5; args.push_back(info); break; case TYPE_STR: info.type = TYPE_STR; info.number = 0; d++; info.value = CopyString( d); d += strlen(d)+1; args.push_back(info); break; default: fprintf(stderr,"Cmd::read: Invalid Load Data\n"); *d = TYPE_END; } } } void Cmd::write(CmdSimplified& to, char*& buffer) const { /* if (cmd_type != CMD_OTHER) { fprintf(stderr,"Cmd::write: Invalid Cmd during Saving Data\n"); to.cmd1 = 0; to.cmd2 = 0; to.cmd3 = 0; to.cmd4 = 0; to.argc = 0; to.args = 0; return; } */ to.type = cmd_type; to.cmd1 = cmd1; to.cmd2 = cmd2; to.cmd3 = cmd3; to.cmd4 = cmd4; to.argc = argc; /* args の書き込み */ if (args.empty()) { to.args = NULL; } else { to.args = buffer; char* d = to.args; vector<VarInfo>::const_iterator it; for (it = args.begin(); it != args.end(); it++) { int type = it->type; if ( (type >= 0 && type < 7) || type == TYPE_VAL || type == char(TYPE_SYS)) { // digits *d++ = TYPE_VAL; write_little_endian_int(d, it->value); d += 4; } else if (type == TYPE_VARSTR || type == TYPE_VARSYSSTR || type == TYPE_VARLOCSTR || type == TYPE_STR) { // string *d++ = TYPE_STR; const char* s = Str(*it); int len = strlen(s); memcpy(d, s, len+1); d += len+1; } else { fprintf(stderr,"Cmd::write: Invalid Cmd args during Saving Data\n"); } } *d++ = TYPE_END; buffer = d; } } void CmdSimplified::copy(const CmdSimplified& from, char*& args_buffer) { *this = from; if (args == NULL) return; char* args_old = from.args; /* args のコピー */ while(*args_old != TYPE_END) { if (*args_old == TYPE_VAL) { args_old += 5; } else { /* TYPE_STR */ args_old += strlen(args_old)+1; } } args_old++; int args_len = args_old - from.args; memmove(args_buffer, from.args, args_len); args = args_buffer; args_buffer += args_len; } void CmdSimplified::Save(string& saveret) { char buf[1024]; sprintf(buf, "%02x-%02x:%04x:%02x(%02d),", cmd1, cmd2, cmd3, cmd4, argc); saveret += buf; /* args のコピー */ char* d = args; while(d && *d != TYPE_END) { if (*d == TYPE_VAL) { d++; sprintf(buf, "%d,", read_little_endian_int(d)); d += 4; } else { /* TYPE_STR と仮定 */ d++; if (strlen(d) > 1000) d[1000] = 0; // ありえない・・・ int i; int cnt = 0; buf[cnt++] = '"'; for (i=0; d[i] != 0; i++) { if (d[i] == '"') buf[cnt++] = '"'; buf[cnt++] = d[i]; } buf[cnt++]='"'; buf[cnt++] = ','; buf[cnt++] = 0; d += strlen(d)+1; } saveret += buf; } saveret += 'E'; } void CmdSimplified::Load(const char* save, char*& args_buffer) { args = args_buffer; type = CMD_OTHER; sscanf(save, "%02x-%02x:%04x:%02x(%02d),", &cmd1, &cmd2, &cmd3, &cmd4, &argc); save = strchr(save, ','); if (save == NULL) { *args_buffer++ = TYPE_END; return; } save++; while(*save != 'E' && *save != '\n' && *save != '\0') { if (isdigit(*save)) { int v; sscanf(save,"%d,",&v); *args_buffer++ = TYPE_VAL; write_little_endian_int(args_buffer, v); args_buffer+= 4; save = strchr(save, ','); if (save) save++; } else { // *save == '"' save++; *args_buffer++ = TYPE_STR; while(1) { if (*save == 0) break; if (*save == '"') { if (save[1] != '"') break; save++; } *args_buffer++ = *save++; } save += 2; *args_buffer++ = 0; } } *args_buffer++ = TYPE_END; } #ifdef SCN_DUMP void usage(void) { fprintf(stderr,"usage : scn2kdump [inputfile] [outputfile]\n"); fprintf(stderr," inputfile: seen.txt(default)\n"); fprintf(stderr," outputfile: seen.txt_out(default)\n"); exit(-1); } int main(int argc, char** argv) { /* determine file names */ bool verbose = false; char* inname = "seen.txt"; char* outname = NULL; if (argc > 2 && strcmp(argv[1],"-v") == 0) { int i; for (i=1; i<argc; i++) argv[i] = argv[i+1]; argc--; verbose = true; } switch(argc) { case 1: break; case 2: inname = argv[1]; break; case 3: inname = argv[1]; outname = argv[2]; break; default: usage(); } /* open output file */ FILE* outstream = stdout; /* create archive instance */ SCN2kFILE archive(inname); archive.Init(); if (archive.Deal() == 0) { fprintf(stderr,"Cannot open / Invalid archive file %s\n",inname); usage(); } /* dump files */ archive.InitList(); char* fname; fprintf(stderr,"Dump start\n"); int system_version = 0; while( (fname = archive.ListItem()) != 0) { ARCINFO* info = archive.Find(fname,""); if (info == NULL) continue; char* data = info->CopyRead(); char* d = data; char* dend = d + info->Size(); /* version 確認 */ if (read_little_endian_int(d) == 0x1cc) { system_version = 0; } else if (read_little_endian_int(d) == 0x1d0) { system_version = 1; } else { continue; } if (read_little_endian_int(d+4) == 0x1adb2) ; // little busters! else if (read_little_endian_int(d+4) != 0x2712) continue; int header_size; if (system_version == 0) { header_size = 0x1cc + read_little_endian_int(d+0x20) * 4; } else { header_size = read_little_endian_int(d+0x20); } d += header_size; const char* dcur = d; const char* dstart = d; fprintf(stderr,"Dumping %s\n",fname); Flags flags; /* 最初から最後までコマンド取得 -> 出力を繰り返す */ while(dcur<dend) { const char* dprev = dcur; Cmd cmd(flags, system_version); cmd.ClearError(); /* end? */ if (*dcur == -1) { /* 0xff x 32byte + 0x00 : end sign */ int i; for (i=0; i<0x20; i++) if (dcur[i] != -1) break; if (i == 0x20 && dcur[i] == 0) break; } dprintf("%d : ",dcur-dstart); cmd.GetCmd(flags, dcur); if (cmd.IsError()) { fprintf(outstream, "Error at %6d\n",dprev-dstart); while(dcur < dend) { if (*dcur == 0x29 && dcur[1] == 0x0a) {dcur++;break;} dcur++; } dprev -= 2*16; int ilen = (dcur-dprev+15)/16; int i; for (i=0; i<ilen; i++) { fprintf(outstream, "%6d: ",dprev-dstart); int j; for (j=0; j<16; j++) { if (dprev >= dend) break; if (dprev < data) continue; fprintf(outstream, "%02x ",*(unsigned char*)(dprev)); dprev++; } fprintf(outstream, "\n"); } } } delete info; } return 0; } #endif