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/* ScummVM - Scumm Interpreter
* Copyright (C) 2004 The ScummVM project
*
* The ReInherit Engine is (C)2000-2003 by Daniel Balsom.
*
* This program 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 2
* 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, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* $Header$
*
*/
// Scripting module private header
#ifndef SAGA_SCRIPT_H
#define SAGA_SCRIPT_H
#include "saga/text.h"
#include "saga/yslib.h"
namespace Saga {
#define R_SCRIPT_DATABUF_NUM 5
#define R_SCRIPT_DATABUF_LEN 1024
#define R_S_LUT_ENTRYLEN_ITECD 22
#define R_S_LUT_ENTRYLEN_ITEDISK 16
#define R_SCRIPT_TBLENTRY_LEN 4
#define R_SCRIPT_MAX 5000
#define R_SCRIPTLIST_HDR 12
#define R_SCRIPT_STRINGLIMIT 255
#define R_TAB " "
#define S_ERROR_PREFIX "SError: "
#define S_WARN_PREFIX "SWarning: "
#define R_SFUNC_NUM 78
typedef unsigned int SDataWord_T;
enum R_SCRIPT_VERBS {
S_VERB_WALKTO = 0,
S_VERB_LOOKAT = 2,
S_VERB_PICKUP = 1,
S_VERB_TALKTO,
S_VERB_OPEN = 5,
S_VERB_CLOSE = 6,
S_VERB_USE = 8,
S_VERB_GIVE
};
#define STHREAD_DEF_INSTR_COUNT 8
struct R_SEMAPHORE {
int hold_count;
};
enum {
kVarObject = 0,
kVarWithObject,
kVarAction,
kVarActor
};
struct R_SCRIPT_THREAD {
int executing;
int sleep_time;
int ep_num; // Entrypoint number
unsigned long ep_offset; // Entrypoint offset
unsigned long i_offset; // Instruction offset
R_SEMAPHORE sem;
// The scripts are allowed to access the stack like any other memory
// area. It's therefore probably quite important that our stacks work
// the same as in the original interpreter.
SDataWord_T stackBuf[64];
int stackPtr;
int framePtr;
SDataWord_T threadVars[4];
SDataWord_T retVal;
SDataWord_T stackTop() {
return stackBuf[stackPtr];
}
int stackSize() {
return ARRAYSIZE(stackBuf) - stackPtr - 1;
}
void push(SDataWord_T n) {
assert(stackPtr > 0);
stackBuf[--stackPtr] = n;
}
SDataWord_T pop() {
assert(stackPtr < ARRAYSIZE(stackBuf));
return stackBuf[stackPtr++];
}
};
struct R_PROC_TBLENTRY {
size_t name_offset;
size_t offset;
};
struct R_SCRIPT_BYTECODE {
unsigned char *bytecode_p;
size_t bytecode_len;
size_t ep_tbl_offset;
unsigned long n_entrypoints;
R_PROC_TBLENTRY *entrypoints;
};
struct R_DIALOGUE_LIST {
unsigned int n_dialogue;
const char **str;
size_t *str_off;
};
struct R_VOICE_LUT {
int n_voices;
int *voices;
};
struct R_SCRIPTDATA {
int loaded;
R_SCRIPT_BYTECODE *bytecode;
R_DIALOGUE_LIST *diag;
R_VOICE_LUT *voice;
};
struct R_SCRIPT_LUT_ENTRY {
int script_rn;
int diag_list_rn;
int voice_lut_rn;
};
struct R_SCRIPT_DATABUF {
SDataWord_T *data;
int len;
};
#define R_SCRIPTFUNC_PARAMS R_SCRIPT_THREAD *thread
class Script {
public:
Script();
~Script();
int reg(void);
int loadScript(int scriptNum);
int freeScript();
R_SCRIPT_BYTECODE *loadBytecode(byte *bytecode_p, size_t bytecode_len);
R_DIALOGUE_LIST *loadDialogue(const byte *dialogue_p, size_t dialogue_len);
R_VOICE_LUT *loadVoiceLUT(const byte *voicelut_p, size_t voicelut_len, R_SCRIPTDATA *script);
int disassemble(R_SCRIPT_BYTECODE *script_list, R_DIALOGUE_LIST *diag_list);
bool isInitialized() const { return _initialized; }
bool isVoiceLUTPresent() const { return _voiceLUTPresent; }
R_SCRIPTDATA *currentScript() { return _currentScript; }
void setBuffer(int idx, R_SCRIPT_DATABUF *ptr) { _dataBuf[idx] = ptr; }
R_SCRIPT_DATABUF *dataBuffer(int idx) { return _dataBuf[idx]; }
YS_DL_LIST *threadList() { return _threadList; }
void scriptInfo(int argc, char *argv[]);
void scriptExec(int argc, char *argv[]);
protected:
bool _initialized;
bool _voiceLUTPresent;
R_RSCFILE_CONTEXT *_scriptContext;
R_SCRIPT_LUT_ENTRY *_scriptLUT;
int _scriptLUTMax;
uint16 _scriptLUTEntryLen;
R_SCRIPTDATA *_currentScript;
R_SCRIPT_DATABUF *_dataBuf[R_SCRIPT_DATABUF_NUM];
YS_DL_LIST *_threadList;
public:
int _dbg_singlestep;
int _dbg_dostep;
R_SCRIPT_THREAD *_dbg_thread;
R_TEXTLIST_ENTRY *_dbg_txtentry;
public:
R_SCRIPT_THREAD *SThreadCreate();
int SThreadExecute(R_SCRIPT_THREAD *thread, int ep_num);
int SThreadExecThreads(int msec);
int SThreadHoldSem(R_SEMAPHORE *sem);
int SThreadReleaseSem(R_SEMAPHORE *sem);
int SThreadDebugStep();
void SThreadCompleteThread(void);
int SThreadDestroy(R_SCRIPT_THREAD *thread);
private:
void setFramePtr(R_SCRIPT_THREAD *thread, int newPtr);
unsigned char *SThreadGetReadPtr(R_SCRIPT_THREAD *thread);
unsigned long SThreadGetReadOffset(const byte *read_p);
size_t SThreadGetReadLen(R_SCRIPT_THREAD *thread);
int SThreadRun(R_SCRIPT_THREAD *thread, int instr_limit, int msec);
int SThreadSetEntrypoint(R_SCRIPT_THREAD *thread, int ep_num);
private:
typedef int (Script::*SFunc_T)(R_SCRIPTFUNC_PARAMS);
struct R_SFUNC_ENTRY {
int sfunc_num;
int sfunc_argc;
SFunc_T sfunc_fp;
};
const R_SFUNC_ENTRY *_SFuncList;
void setupScriptFuncList(void);
int SDebugPrintInstr(R_SCRIPT_THREAD *thread);
int SF_sleep(R_SCRIPTFUNC_PARAMS);
int SF_takeObject(R_SCRIPTFUNC_PARAMS);
int SF_objectIsCarried(R_SCRIPTFUNC_PARAMS);
int SF_setCommandText(R_SCRIPTFUNC_PARAMS);
int SF_mainMode(R_SCRIPTFUNC_PARAMS);
int SF_actorWalkTo(R_SCRIPTFUNC_PARAMS);
int SF_setFacing(R_SCRIPTFUNC_PARAMS);
int SF_startBgdAnim(R_SCRIPTFUNC_PARAMS);
int SF_freezeInterface(R_SCRIPTFUNC_PARAMS);
int SF_dialogMode(R_SCRIPTFUNC_PARAMS);
int SF_startAnim(R_SCRIPTFUNC_PARAMS);
int SF_stopBgdAnim(R_SCRIPTFUNC_PARAMS);
int SF_actorWalkToAsync(R_SCRIPTFUNC_PARAMS);
int SF_moveTo(R_SCRIPTFUNC_PARAMS);
int SF_actorWalk(R_SCRIPTFUNC_PARAMS);
int SF_cycleActorFrames(R_SCRIPTFUNC_PARAMS);
int SF_setFrame(R_SCRIPTFUNC_PARAMS);
int SF_setRightPortrait(R_SCRIPTFUNC_PARAMS);
int SF_setLeftPortrait(R_SCRIPTFUNC_PARAMS);
int SF_linkAnim(R_SCRIPTFUNC_PARAMS);
int SF_placeActor(R_SCRIPTFUNC_PARAMS);
int SF_checkUserInterrupt(R_SCRIPTFUNC_PARAMS);
int SF_moveRelative(R_SCRIPTFUNC_PARAMS);
int SF_doAction(R_SCRIPTFUNC_PARAMS);
int SF_faceTowards(R_SCRIPTFUNC_PARAMS);
int SF_setFollower(R_SCRIPTFUNC_PARAMS);
int SF_setBgdAnimSpeed(R_SCRIPTFUNC_PARAMS);
int SF_centerActor(R_SCRIPTFUNC_PARAMS);
int SF_setActorState(R_SCRIPTFUNC_PARAMS);
int SF_finishBgdAnim(R_SCRIPTFUNC_PARAMS);
int SF_swapActors(R_SCRIPTFUNC_PARAMS);
int SF_scriptSpecialWalk(R_SCRIPTFUNC_PARAMS);
int SF_walkRelative(R_SCRIPTFUNC_PARAMS);
int SF_throwActor(R_SCRIPTFUNC_PARAMS);
int SF_waitWalk(R_SCRIPTFUNC_PARAMS);
int SF_changeActorScene(R_SCRIPTFUNC_PARAMS);
int SF_climb(R_SCRIPTFUNC_PARAMS);
int SF_setActorZ(R_SCRIPTFUNC_PARAMS);
int SF_getActorX(R_SCRIPTFUNC_PARAMS);
int SF_getActorY(R_SCRIPTFUNC_PARAMS);
int SF_playMusic(R_SCRIPTFUNC_PARAMS);
int SF_playSound(R_SCRIPTFUNC_PARAMS);
};
} // End of namespace Saga
#endif
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