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|
/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
#ifndef SCI_ENGINE_VM_H
#define SCI_ENGINE_VM_H
/* VM and kernel declarations */
//#include "common/serializer.h"
#include "sci/engine/vm_types.h" // for reg_t
#include "common/util.h"
namespace Sci {
class SegManager;
struct EngineState;
typedef int sci_version_t;
enum MemObjectType {
MEM_OBJ_INVALID = 0,
MEM_OBJ_SCRIPT = 1,
MEM_OBJ_CLONES = 2,
MEM_OBJ_LOCALS = 3,
MEM_OBJ_STACK = 4,
MEM_OBJ_SYS_STRINGS = 5,
MEM_OBJ_LISTS = 6,
MEM_OBJ_NODES = 7,
MEM_OBJ_HUNK = 8,
MEM_OBJ_DYNMEM = 9,
MEM_OBJ_STRING_FRAG = 10,
MEM_OBJ_MAX // For sanity checking
};
struct MemObject /* : public Common::Serializable */ {
MemObjectType _type;
int _segmgrId; /**< Internal value used by the seg_manager's hash map */
typedef void (*NoteCallback)(void *param, reg_t addr); // FIXME: Bad choice of name
public:
static MemObject *createMemObject(MemObjectType type);
public:
virtual ~MemObject() {}
/**
* Dereferences a raw memory pointer.
* @param reg reference to dereference
* @param size if not NULL, set to the theoretical maximum size of the referenced data block
* @return the data block referenced
*/
virtual byte *dereference(reg_t pointer, int *size);
inline MemObjectType getType() const { return _type; }
inline int getSegMgrId() const { return _segmgrId; }
// Finds the canonic address associated with sub_reg
// Parameters: (reg_t) sub_addr: The base address whose canonic address is to be found
// For each valid address a, there exists a canonic address c(a) such that c(a) = c(c(a)).
// This address "governs" a in the sense that deallocating c(a) will deallocate a.
virtual reg_t findCanonicAddress(SegManager *segmgr, reg_t sub_addr) { return sub_addr; }
// Deallocates all memory associated with the specified address
// Parameters: (reg_t) sub_addr: The address (within the given segment) to deallocate
virtual void freeAtAddress(SegManager *segmgr, reg_t sub_addr) {}
// Iterates over and reports all addresses within the current segment
// Parameters: note : (voidptr * addr) -> (): Invoked for each address on which free_at_address()
// makes sense
// (void *) param: Parameter passed to 'note'
virtual void listAllDeallocatable(SegmentId segId, void *param, NoteCallback note) {}
// Iterates over all references reachable from the specified object
// Parameters: (reg_t) object: The object (within the current segment) to analyse
// (void *) param: Parameter passed to 'note'
// note : (voidptr * addr) -> (): Invoked for each outgoing reference within the object
// Note: This function may also choose to report numbers (segment 0) as adresses
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note) {}
};
struct IntMapper;
enum {
SYS_STRINGS_MAX = 4,
SYS_STRING_SAVEDIR = 0,
SYS_STRING_PARSER_BASE = 1,
MAX_PARSER_BASE = 64
};
struct SystemString {
char *name;
int max_size;
reg_t *value;
};
struct SystemStrings : public MemObject {
SystemString strings[SYS_STRINGS_MAX];
public:
SystemStrings() {
memset(strings, 0, sizeof(strings));
}
~SystemStrings() {
for (int i = 0; i < SYS_STRINGS_MAX; i++) {
SystemString *str = &strings[i];
if (str->name) {
free(str->name);
str->name = NULL;
free(str->value);
str->value = NULL;
str->max_size = 0;
}
}
}
virtual byte *dereference(reg_t pointer, int *size);
// virtual void saveLoadWithSerializer(Common::Serializer &ser);
};
/** Number of bytes to be allocated for the stack */
#define VM_STACK_SIZE 0x1000
/** Maximum number of calls residing on the stack */
#define SCRIPT_MAX_EXEC_STACK 256
/** Maximum number of entries in the class table */
#define SCRIPT_MAX_CLASSTABLE_SIZE 256
/** Maximum number of cloned objects on the heap */
#define SCRIPT_MAX_CLONES 256
/** Object-relative offset of the selector area inside a script */
#define SCRIPT_SELECTOR_OFFSET 8 -8
/** Object-relative offset of the pointer to the underlying script's local variables */
#define SCRIPT_LOCALVARPTR_OFFSET 2 -8
/** Object-relative offset of the selector counter */
#define SCRIPT_SELECTORCTR_OFFSET 6 -8
/** Object-relative offset of the offset of the function area */
#define SCRIPT_FUNCTAREAPTR_OFFSET 4 -8
/** Offset that has to be added to the function area pointer */
#define SCRIPT_FUNCTAREAPTR_MAGIC 8 -8
/** Offset of the name pointer */
#define SCRIPT_NAME_OFFSET (s->version < SCI_VERSION_1_1 ? 14 -8 : 16)
#define SCRIPT_NAME_SELECTOR (s->version < SCI_VERSION_1_1 ? 3 : 8)
/** Object-relative offset of the -info- selector */
#define SCRIPT_INFO_OFFSET (s->version < SCI_VERSION_1_1 ? 12 -8 : 14)
#define SCRIPT_INFO_SELECTOR (s->version < SCI_VERSION_1_1 ? 2 : 7)
/** Flag fo the -info- selector */
#define SCRIPT_INFO_CLONE 0x0001
/** Flag for the -info- selector */
#define SCRIPT_INFO_CLASS 0x8000
/** Magical object identifier */
#define SCRIPT_OBJECT_MAGIC_NUMBER 0x1234
/** Offset of this identifier */
#define SCRIPT_OBJECT_MAGIC_OFFSET (s->version < SCI_VERSION_1_1 ? -8 : 0)
/** Script-relative offset of the species ID */
#define SCRIPT_SPECIES_OFFSET 8 -8
#define SCRIPT_SUPERCLASS_OFFSET (s->version < SCI_VERSION_1_1 ? 10 -8 : 12)
/*---------------------------------*/
/* Script selector index variables */
/*---------------------------------*/
#define SCRIPT_SPECIES_SELECTOR (s->version < SCI_VERSION_1_1 ? 0 : 5)
#define SCRIPT_SUPERCLASS_SELECTOR (s->version < SCI_VERSION_1_1 ? 1 : 6)
#define SCRIPT_CLASSSCRIPT_SELECTOR 4
/** Magic adjustment value for lofsa and lofss */
#define SCRIPT_LOFS_MAGIC 3
/** Stack pointer value: Use predecessor's value */
#define CALL_SP_CARRY NULL
/** Types of selectors as returned by lookup_selector() below. */
enum SelectorType {
kSelectorNone = 0,
kSelectorVariable,
kSelectorMethod
};
struct Class {
int script; /**< number of the script the class is in, -1 for non-existing */
reg_t reg; /**< offset; script-relative offset, segment: 0 if not instantiated */
};
#define RAW_GET_CLASS_INDEX(scr, reg) ((scr)->obj_indices->checkKey(reg.offset, false))
#define RAW_IS_OBJECT(datablock) (READ_LE_UINT16(((byte *) datablock) + SCRIPT_OBJECT_MAGIC_OFFSET) == SCRIPT_OBJECT_MAGIC_NUMBER)
#define IS_CLASS(obj) (obj->_variables[SCRIPT_INFO_SELECTOR].offset & SCRIPT_INFO_CLASS)
/** This struct is used to buffer the list of send calls in send_selector() */
struct CallsStruct {
union {
reg_t func;
reg_t *var;
} address;
StackPtr argp;
int argc;
Selector selector;
StackPtr sp; /**< Stack pointer */
int type; /**< Same as ExecStack.type */
};
struct LocalVariables : public MemObject {
int script_id; /**< Script ID this local variable block belongs to */
Common::Array<reg_t> _locals;
public:
LocalVariables() {
script_id = 0;
}
virtual byte *dereference(reg_t pointer, int *size);
virtual reg_t findCanonicAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note);
// virtual void saveLoadWithSerializer(Common::Serializer &ser);
};
/** Clone has been marked as 'freed' */
#define OBJECT_FLAG_FREED (0x1 << 0)
struct Object {
int flags;
reg_t pos; /**< Object offset within its script; for clones, this is their base */
int variable_names_nr; /**< Number of variable names, may be less than variables_nr */
int methods_nr;
byte *base; /**< Points to a buffer all relative references (code, strings) point to */
byte *base_obj; /**< base + object offset within base */
uint16 *base_method; /**< Pointer to the method selector area for this object */
uint16 *base_vars; /**< Pointer to the varselector area for this object */
Common::Array<reg_t> _variables;
};
struct CodeBlock {
reg_t pos;
int size;
};
#define VM_OBJECT_GET_VARSELECTOR(obj, i) \
(s->version < SCI_VERSION_1_1 ? \
READ_LE_UINT16(obj->base_obj + obj->_variables.size() * 2 + i*2) : \
*(obj->base_vars + i))
#define VM_OBJECT_READ_PROPERTY(obj, i) (obj->_variables[i])
#define VM_OBJECT_GET_FUNCSELECTOR(obj, i) \
(s->version < SCI_VERSION_1_1 ? \
READ_LE_UINT16((byte *) (obj->base_method + i)) : \
READ_LE_UINT16((byte *) (obj->base_method + i*2 + 1)))
#define VM_OBJECT_READ_FUNCTION(obj, i) \
(s->version < SCI_VERSION_1_1 ? \
make_reg(obj->pos.segment, \
READ_LE_UINT16((byte *) (obj->base_method \
+ obj->methods_nr + 1 \
+ i))) : \
make_reg(obj->pos.segment, \
READ_LE_UINT16((byte *) (obj->base_method \
+ i * 2 + 2))))
struct Script : public MemObject {
int nr; /**< Script number */
byte *buf; /**< Static data buffer, or NULL if not used */
size_t buf_size;
size_t script_size;
size_t heap_size;
byte *synonyms; /**< Synonyms block or 0 if not present*/
byte *heap_start; /**< Start of heap if SCI1.1, NULL otherwise */
uint16 *export_table; /**< Abs. offset of the export table or 0 if not present */
IntMapper *obj_indices;
int exports_nr; /**< Number of entries in the exports table */
int synonyms_nr; /**< Number of entries in the synonyms block */
int lockers; /**< Number of classes and objects that require this script */
/**
* Table for objects, contains property variables.
* Indexed by the value stored at SCRIPT_LOCALVARPTR_OFFSET,
* see VM_OBJECT_[GS]ET_INDEX()
*/
Common::Array<Object> _objects;
int locals_offset;
int locals_segment; /**< The local variable segment */
LocalVariables *locals_block;
Common::Array<CodeBlock> _codeBlocks;
int relocated;
bool _markedAsDeleted;
public:
Script() {
nr = 0;
buf = NULL;
buf_size = 0;
script_size = 0;
heap_size = 0;
synonyms = NULL;
heap_start = NULL;
export_table = NULL;
obj_indices = NULL;
locals_offset = 0;
locals_segment = 0;
locals_block = NULL;
relocated = 0;
_markedAsDeleted = 0;
}
~Script() {
freeScript();
}
void freeScript();
virtual byte *dereference(reg_t pointer, int *size);
virtual reg_t findCanonicAddress(SegManager *segmgr, reg_t sub_addr);
virtual void freeAtAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllDeallocatable(SegmentId segId, void *param, NoteCallback note);
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note);
// virtual void saveLoadWithSerializer(Common::Serializer &ser);
// script lock operations
/** Increments the number of lockers of this script by one. */
void incrementLockers();
/** Decrements the number of lockers of this script by one. */
void decrementLockers();
/**
* Retrieves the number of locks held on this script.
* @return the number of locks held on the previously identified script
*/
int getLockers() const;
/** Sets the number of locks held on this script. */
void setLockers(int lockers);
/**
* Retrieves a pointer to the synonyms associated with this script
* @return pointer to the synonyms, in non-parsed format.
*/
byte *getSynonyms() const;
/**
* Retrieves the number of synonyms associated with this script.
* @return the number of synonyms associated with this script
*/
int getSynonymsNr() const;
/**
* Sets the script-relative offset of the exports table.
* @param offset script-relative exports table offset
*/
void setExportTableOffset(int offset);
/**
* Sets the script-relative offset of the synonyms associated with this script.
* @param offset script-relative offset of the synonyms block
*/
void setSynonymsOffset(int offset);
/**
* Sets the number of synonyms associated with this script,
* @param nr number of synonyms, as to be stored within the script
*/
void setSynonymsNr(int nr);
/**
* Copies a byte string into a script's heap representation.
* @param dst script-relative offset of the destination area
* @param src pointer to the data source location
* @param n number of bytes to copy
*/
void mcpyInOut(int dst, const void *src, size_t n);
/**
* Marks the script as deleted.
* This will not actually delete the script. If references remain present on the
* heap or the stack, the script will stay in memory in a quasi-deleted state until
* either unreachable (resulting in its eventual deletion) or reloaded (resulting
* in its data being updated).
*/
void markDeleted() {
_markedAsDeleted = true;
}
/**
* Marks the script as not deleted.
*/
void unmarkDeleted() {
_markedAsDeleted = false;
}
/**
* Determines whether the script is marked as being deleted.
*/
bool isMarkedAsDeleted() const {
return _markedAsDeleted;
}
};
/** Data stack */
struct DataStack : MemObject {
int nr; /**< Number of stack entries */
reg_t *entries;
public:
DataStack() {
nr = 0;
entries = NULL;
}
~DataStack() {
free(entries);
entries = NULL;
}
virtual byte *dereference(reg_t pointer, int *size);
virtual reg_t findCanonicAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note);
// virtual void saveLoadWithSerializer(Common::Serializer &ser);
};
#define CLONE_USED -1
#define CLONE_NONE -1
typedef Object Clone;
struct Node {
reg_t pred; /**< Predecessor node */
reg_t succ; /**< Successor node */
reg_t key;
reg_t value;
}; /* List nodes */
struct List {
reg_t first;
reg_t last;
};
struct Hunk {
void *mem;
unsigned int size;
const char *type;
};
template<typename T>
struct Table : public MemObject {
typedef T value_type;
struct Entry : public T {
int next_free; /* Only used for free entries */
};
enum { HEAPENTRY_INVALID = -1 };
int first_free; /**< Beginning of a singly linked list for entries */
int entries_used; /**< Statistical information */
Common::Array<Entry> _table;
public:
Table() {
entries_used = 0;
first_free = HEAPENTRY_INVALID;
}
void initTable() {
entries_used = 0;
first_free = HEAPENTRY_INVALID;
}
int allocEntry() {
entries_used++;
if (first_free != HEAPENTRY_INVALID) {
int oldff = first_free;
first_free = _table[oldff].next_free;
_table[oldff].next_free = oldff;
return oldff;
} else {
uint newIdx = _table.size();
_table.push_back(Entry());
_table[newIdx].next_free = newIdx; // Tag as 'valid'
return newIdx;
}
}
bool isValidEntry(int idx) {
return idx >= 0 && (uint)idx < _table.size() && _table[idx].next_free == idx;
}
virtual void freeEntry(int idx) {
if (idx < 0 || (uint)idx >= _table.size())
::error("Table::freeEntry: Attempt to release invalid table index %d", idx);
_table[idx].next_free = first_free;
first_free = idx;
entries_used--;
}
virtual void listAllDeallocatable(SegmentId segId, void *param, NoteCallback note);
// virtual void saveLoadWithSerializer(Common::Serializer &ser);
};
// FIXME: Replace ENTRY_IS_VALID by a direct method call
#define ENTRY_IS_VALID(t, i) ((t)->isValidEntry(i))
/* CloneTable */
struct CloneTable : public Table<Clone> {
virtual void freeAtAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note);
};
/* NodeTable */
struct NodeTable : public Table<Node> {
virtual void freeAtAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note);
};
/* ListTable */
struct ListTable : public Table<List> {
virtual void freeAtAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllOutgoingReferences(EngineState *s, reg_t object, void *param, NoteCallback note);
};
/* HunkTable */
struct HunkTable : public Table<Hunk> {
virtual void freeEntry(int idx) {
Table<Hunk>::freeEntry(idx);
free(_table[idx].mem);
}
};
// Free-style memory
struct DynMem : public MemObject {
int _size;
char *_description;
byte *_buf;
public:
DynMem() : _size(0), _description(0), _buf(0) {}
~DynMem() {
free(_description);
_description = NULL;
free(_buf);
_buf = NULL;
}
virtual byte *dereference(reg_t pointer, int *size);
virtual reg_t findCanonicAddress(SegManager *segmgr, reg_t sub_addr);
virtual void listAllDeallocatable(SegmentId segId, void *param, NoteCallback note);
// virtual void saveLoadWithSerializer(Common::Serializer &ser);
};
/** Contains selector IDs for a few selected selectors */
struct selector_map_t {
Selector init; /**< Init function */
Selector play; /**< Play function (first function to be called) */
Selector replay; /**< Replay function */
Selector x, y, z; /**< Coordinates */
Selector priority;
Selector view, loop, cel; /**< Description of a specific image */
Selector brLeft, brRight, brTop, brBottom; /**< Bounding Rectangle */
Selector xStep, yStep; /**< BR adjustments */
Selector nsLeft, nsRight, nsTop, nsBottom; /**< View boundaries ('now seen') */
Selector text, font; /**< Used by controls */
Selector type, state; /**< Used by contols as well */
Selector doit; /**< Called (!) by the Animate() system call */
Selector signal; /**< Used by Animate() to control a view's behaviour */
Selector underBits; /**< Used by the graphics subroutines to store backupped BG pic data */
/* The following selectors are used by the Bresenham syscalls: */
Selector canBeHere; /**< Funcselector: Checks for movement validity */
Selector client; /**< The object that wants to be moved */
Selector cycler; /**< The cycler of the client */
Selector dx, dy; /**< Deltas */
Selector edgeHit;
Selector b_movCnt, b_i1, b_i2, b_di, b_xAxis, b_incr; /**< Various Bresenham vars */
Selector completed;
Selector illegalBits; /**< Used by CanBeHere */
Selector dispose;
Selector prevSignal; /**< Used by DoSound */
Selector message, modifiers; /**< Used by GetEvent */
Selector owner, handle;
Selector cue;
Selector number;
Selector max, cursor; /**< Used by EditControl */
Selector mode; /**< Used by text controls (-> DrawControl()) */
Selector wordFail, syntaxFail, semanticFail; /**< Used by Parse() */
Selector claimed; /**< Used generally by the event mechanism */
Selector elements; /**< Used by SetSynonyms() */
Selector lsTop, lsBottom, lsRight, lsLeft; /**< Used by Animate() subfunctions and scroll list controls */
Selector baseSetter; /**< Alternative baseSetter */
Selector who, distance; /**< Used for 'chasing' movers */
Selector looper, mover, isBlocked, heading; /**< Used in DoAvoider */
Selector caller, moveDone, moveSpeed; /**< Used for DoBresen */
Selector delete_; /**< Called by Animate() to dispose a view object */
Selector vol;
Selector pri;
Selector min; /**< SMPTE time format */
Selector sec;
Selector frame;
Selector dataInc;
Selector size;
Selector palette;
Selector cantBeHere;
Selector nodePtr;
Selector flags;
Selector points; /**< Used by AvoidPath() */
Selector syncCue; /**< Used by DoSync() */
Selector syncTime; /**< Used by DoSync() */
};
struct ViewObject {
reg_t obj;
reg_t *signalp; /* Used only indirectly */
reg_t *underBitsp; /* The same goes for the handle storage */
int underBits; /* Copy of the underbits: Needed for cleanup */
int x, y;
int priority;
byte *view;
int view_nr, loop, cel; /* view_nr is ised for save/restore */
int nsTop, nsLeft, nsRight, nsBottom;
int real_y, z, index_nr; /* Used for sorting */
};
enum {
VAR_GLOBAL = 0,
VAR_LOCAL = 1,
VAR_TEMP = 2,
VAR_PARAM = 3
};
enum ExecStackType {
EXEC_STACK_TYPE_CALL = 0,
EXEC_STACK_TYPE_KERNEL = 1,
EXEC_STACK_TYPE_VARSELECTOR = 2
};
struct ExecStack {
reg_t objp;
reg_t sendp; /**< Pointer to the object containing the invoked method */
union {
reg_t *varp; /**< Variable pointer for read/write access */
reg_t pc; /**< Not accurate for the TOS element */
} addr;
StackPtr fp; /**< Frame pointer */
StackPtr sp; /**< Stack pointer */
int argc;
/* former variables[4]: [all other values are derived] */
StackPtr variables_argp; /**< Argument pointer */
SegmentId local_segment; /**< local variables etc. */
Selector selector; /**< The selector which was used to call or -1 if not applicable */
int origin; /**< The stack frame position the call was made from, or -1 if it was the initial call. */
ExecStackType type;
};
enum BreakpointType {
/**
* Break when selector is executed. data contains (char *) selector name
* (in the format Object::Method)
*/
BREAK_SELECTOR = 1,
/**
* Break when an exported function is called. data contains
* script_no << 16 | export_no.
*/
BREAK_EXPORT = 2
};
struct Breakpoint {
BreakpointType type;
union {
uint32 address; /**< Breakpoints on exports */
char *name; /**< Breakpoints on selector names */
} data;
Breakpoint *next;
};
/** Set this to 1 to activate script debugging */
extern int script_debug_flag;
/** Set to 1 to move pc back to last position, even though action is executed */
extern int script_error_flag;
/** Displays the numbers of scripts when they are (un)loaded */
extern int script_checkloads_flag;
#define SCRIPT_ABORT_WITH_REPLAY 1025
/**
* Set this to 1 to abort script execution immediately. Aborting will leave the
* debug exec stack intact.
* Set it to SCRIPT_ABORT_WITH_REPLAY to force a replay afterwards.
*/
extern int script_abort_flag;
/** Number of kernel calls in between gcs; should be < 50000 */
#define GC_INTERVAL 32768
/** Initially GC_DELAY, can be set at runtime */
extern int script_gc_interval;
/** Number of steps executed */
extern int script_step_counter;
/** The function used to get input for debugging */
extern const char *(*_debug_get_input)(void);
extern int _debugstate_valid;
extern int _debug_seeking;
extern int _debug_step_running;
typedef int kernel_function(struct EngineState *s);
extern kernel_function* kfuncs[];
extern int max_instance;
/*inline*/
ExecStack *execute_method(EngineState *s, uint16 script, uint16 pubfunct, StackPtr sp, reg_t calling_obj,
uint16 argc, StackPtr argp);
/* Executes function pubfunct of the specified script.
** Parameters: (EngineState *) s: The state which is to be executed with
** (uint16) script: The script which is called
** (uint16) pubfunct: The exported script function which is to be called
** (StackPtr) sp: Stack pointer position
** (reg_t) calling_obj: The heap address of the object which executed the call
** (uint16) argc: Number of arguments supplied
** (StackPtr) argp: Pointer to the first supplied argument
** Returns : (ExecStack *): A pointer to the new exec stack TOS entry
*/
ExecStack *send_selector(EngineState *s, reg_t send_obj, reg_t work_obj,
StackPtr sp, int framesize, StackPtr argp);
/* Executes a "send" or related operation to a selector
** Parameters: (EngineState *) s: The EngineState to operate on
** (reg_t) send_obj: Heap address of the object to send to
** (reg_t) work_obj: Heap address of the object initiating the send
** (StackPtr) sp: Stack pointer position
** (int) framesize: Size of the send as determined by the "send" operation
** (StackPtr) argp: Pointer to the beginning of the heap block containing the
** data to be send. This area is a succession of one or more
** sequences of [selector_number][argument_counter] and then
** "argument_counter" word entries with the parameter values.
** Returns : (ExecStack *): A pointer to the new execution stack TOS entry
*/
#define SCI_XS_CALLEE_LOCALS -1
ExecStack *add_exec_stack_entry(EngineState *s, reg_t pc, StackPtr sp, reg_t objp, int argc,
StackPtr argp, Selector selector, reg_t sendp, int origin, SegmentId local_segment);
/* Adds an entry to the top of the execution stack
** Parameters: (EngineState *) s: The state with which to execute
** (reg_t) pc: The initial program counter
** (StackPtr) sp: The initial stack pointer
** (reg_t) objp: Pointer to the beginning of the current object
** (int) argc: Number of parameters to call with
** (StackPtr) argp: Heap pointer to the first parameter
** (Selector) selector: The selector by which it was called or
** NULL_SELECTOR if n.a. For debugging.
** (reg_t) sendp: Pointer to the object which the message was sent to.
** Equal to objp for anything but super.
** (int) origin: Number of the execution stack element this entry was created by
** (usually the current TOS number, except for multiple sends).
** (SegmentId) local_segment: The segment to use for local variables,
** or SCI_XS_CALLEE_LOCALS to use obj's segment.
** Returns : (ExecStack *): A pointer to the new exec stack TOS entry
*/
ExecStack *add_exec_stack_varselector(EngineState *s, reg_t objp, int argc, StackPtr argp,
Selector selector, reg_t *address, int origin);
/* Adds one varselector access to the execution stack
** Parameters: (EngineState *) s: The EngineState to use
** (reg_t) objp: Pointer to the object owning the selector
** (int) argc: 1 for writing, 0 for reading
** (StackPtr) argp: Pointer to the address of the data to write -2
** (int) selector: Selector name
** (reg_t *) address: Heap address of the selector
** (int) origin: Stack frame which the access originated from
** Returns : (ExecStack *): Pointer to the new exec-TOS element
** This function is called from send_selector only.
*/
void run_vm(EngineState *s, int restoring);
/* Executes the code on s->heap[pc] until it hits a 'ret' operation while (stack_base == stack_pos)
** Parameters: (EngineState *) s: The state to use
** (int) restoring: 1 if s has just been restored, 0 otherwise
** Returns : (void)
** This function will execute SCI bytecode. It requires s to be set up
** correctly.
*/
void vm_handle_fatal_error(EngineState *s, int line, const char *file);
/* Handles a fatal error condition
** Parameters: (EngineState *) s: The state to recover from
** (int) line: Source code line number the error occured in
** (const char *) file: File the error occured in
*/
void script_debug(EngineState *s, reg_t *pc, StackPtr *sp, StackPtr *pp, reg_t *objp,
int *restadjust, SegmentId *segids, reg_t **variables, reg_t **variables_base,
int *variables_nr, int bp);
/* Debugger functionality
** Parameters: (EngineState *) s: The state at which debugging should take place
** (reg_t *) pc: Pointer to the program counter
** (StackPtr *) sp: Pointer to the stack pointer
** (StackPtr *) pp: Pointer to the frame pointer
** (reg_t *) objp: Pointer to the object base pointer
** (int *) restadjust: Pointer to the &rest adjustment value
** (SegmentId *) segids: four-element array containing segment IDs for locals etc.
** (reg_t **) variables: four-element array referencing registers for globals etc.
** (reg_t **) variables_base: four-element array referencing
** register bases for temps etc.
** (int *) variables_nr: four-element array giving sizes for params etc. (may be NULL)
** (int) bp: Flag, set to 1 when a breakpoint is triggered
** Returns : (void)
*/
int script_init_engine(EngineState *s, sci_version_t version);
/* Initializes a EngineState block
** Parameters: (EngineState *) s: The state to initialize
** Returns : 0 on success, 1 if vocab.996 (the class table) is missing or corrupted
*/
void script_set_gamestate_save_dir(EngineState *s, const char *path);
/* Sets the gamestate's save_dir to the parameter path
** Parameters: (EngineState *) s: The state to set
** (const char *) path: Path where save_dir will point to
** Returns : (void)
*/
void script_free_engine(EngineState *s);
/* Frees all additional memory associated with a EngineState block
** Parameters: (EngineState *) s: The EngineState whose elements should be cleared
** Returns : (void)
*/
void script_free_vm_memory(EngineState *s);
/* Frees all script memory (heap, hunk, and class tables).
** Parameters: (EngineState *) s: The EngineState to free
** Returns : (void)
** This operation is implicit in script_free_engine(), but is required for restoring
** the game state.
*/
SelectorType lookup_selector(EngineState *s, reg_t obj, Selector selectorid, reg_t **vptr, reg_t *fptr);
/* Looks up a selector and returns its type and value
** Parameters: (EngineState *) s: The EngineState to use
** (reg_t) obj: Address of the object to look the selector up in
** (Selector) selectorid: The selector to look up
** Returns : (SelectorType) kSelectorNone if the selector was not found in the object or its superclasses.
** kSelectorVariable if the selector represents an object-relative variable
** kSelectorMethod if the selector represents a method
** (reg_t *) *vptr: A pointer to the storage space associated with the selector, if
** it is a variable
** (reg_t) *fptr: A reference to the function described by that selector, if it is
** a valid function selector.
** *vptr is written to iff it is non-NULL and the selector indicates a property of the object.
** *fptr is written to iff it is non-NULL and the selector indicates a member function of that object.
*/
enum {
SCRIPT_GET_DONT_LOAD = 0, /**< Fail if not loaded */
SCRIPT_GET_LOAD = 1, /**< Load, if neccessary */
SCRIPT_GET_LOCK = 3 /**< Load, if neccessary, and lock */
};
SegmentId script_get_segment(EngineState *s, int script_id, int load);
/* Determines the segment occupied by a certain script
** Parameters: (EngineState *) s: The state to operate on
** (int) script_id: The script in question
** (int) load: One of SCRIPT_GET_*
** Returns : The script's segment, or 0 on failure
*/
reg_t script_lookup_export(EngineState *s, int script_nr, int export_index);
/* Looks up an entry of the exports table of a script
** Parameters: (EngineState *) s: The state to operate on
** (int) script_nr: The script to look up in
** Returns : (int) export_index: index of the export entry to look up
*/
int script_instantiate(EngineState *s, int script_nr);
/* Makes sure that a script and its superclasses get loaded to the heap
** Parameters: (EngineState *) s: The state to operate on
** (int) script_nr: The script number to load
** Returns : (int) The script's segment ID or 0 if out of heap
** If the script already has been loaded, only the number of lockers is increased.
** All scripts containing superclasses of this script aret loaded recursively as well,
** unless 'recursive' is set to zero.
** The complementary function is "script_uninstantiate()" below.
*/
void script_uninstantiate(EngineState *s, int script_nr);
/* Decreases the numer of lockers of a script and unloads it if that number reaches zero
** Parameters: (EngineState *) s: The state to operate on
** (int) script_nr: The script number that is requestet to be unloaded
** Returns : (void)
** This function will recursively unload scripts containing its superclasses, if those
** aren't locked by other scripts as well.
*/
int game_init(EngineState *s);
/* Initializes an SCI game
** Parameters: (EngineState *) s: The state to operate on
** Returns : (int): 0 on success, 1 if an error occured.
** This function must be run before script_run() is executed.
** Graphics data is initialized iff s->gfx_state != NULL.
*/
int game_init_graphics(EngineState *s);
/* Initializes the graphics part of an SCI game
** Parameters: (EngineState *) s: The state to initialize the graphics in
** Returns : (int) 0 on success, 1 if an error occured
** This function may only be called if game_init() did not initialize
** the graphics data.
*/
int game_init_sound(EngineState *s, int sound_flags);
/* Initializes the sound part of an SCI game
** Parameters: (EngineState *) s: The state to initialize the sound in
** (int) sound_flags: Flags to pass to the sound subsystem
** Returns : (int) 0 on success, 1 if an error occured
** This function may only be called if game_init() did not initialize
** the graphics data.
*/
int game_run(EngineState **s);
/* Runs an SCI game
** Parameters: (EngineState **) s: Pointer to the pointer of the state to operate on
** Returns : (int): 0 on success, 1 if an error occured.
** This is the main function for SCI games. It takes a valid state, loads script 0 to it,
** finds the game object, allocates a stack, and runs the init method of the game object.
** In layman's terms, this runs an SCI game.
** By the way, *s may be changed during the game, e.g. if a game state is restored.
*/
int game_restore(EngineState **s, char *savegame_name);
/* Restores an SCI game state and runs the game
** Parameters: (EngineState **) s: Pointer to the pointer of the state to operate on
** (char *) savegame_name: Name of the savegame to restore
** Returns : (int): 0 on success, 1 if an error occured.
** This restores a savegame; otherwise, it behaves just like game_run().
*/
int game_exit(EngineState *s);
/* Uninitializes an initialized SCI game
** Parameters: (EngineState *) s: The state to operate on
** Returns : (int): 0 on success, 1 if an error occured.
** This function should be run after each script_run() call.
*/
void quit_vm();
/* Instructs the virtual machine to abort
** Paramteres: (void)
** Returns : (void)
*/
void script_map_selectors(EngineState *s, selector_map_t *map);
/* Maps special selectors
** Parameters: (EngineState *) s: The state from which the selector information should be taken
** (selector_map_t *) map: Pointer to the selector map to map
** Returns : (void)
** Called by script_run();
*/
int script_map_kernel(EngineState *s);
/* Maps kernel functions
** Parameters: (EngineState *) s: The state which the _kernelNames are retrieved from
** Returns : (void)
** This function reads from and writes to s. It is called by script_run().
*/
reg_t kalloc(EngineState *s, const char *type, int space);
/* Allocates "kernel" memory and returns a handle suitable to be passed on to SCI scripts
** Parameters: (EngineState *) s: Pointer to the EngineState to operate on
** (const char *) type: A free-form type description string (static)
** (int) space: The space to allocate
** Returns : (reg_t) The handle
*/
bool has_kernel_function(EngineState *s, const char *kname);
/* Detects whether a particular kernel function is required in the game
** Parameters: (EngineState *) s: Pointer to the EngineState to operate on
** (const char *) kname: The name of the desired kernel function
** Returns : (bool) 1 if the kernel function is listed in the kernel table,
** 0 otherwise
*/
byte *kmem(EngineState *s, reg_t handle);
/* Returns a pointer to "kernel" memory based on the handle
** Parameters: (EngineState *) s: Pointer to the EngineState to operate on
** (reg_t) handle: The handle to use
** Returns : (byte *) A pointer to the allocated memory
*/
int kfree(EngineState *s, reg_t handle);
/* Frees all "kernel" memory associated with a handle
** Parameters: (EngineState *) s: Pointer to the EngineState to operate on
** (reg_t) handle: The handle to free
** Returns : (int) 0 on success, 1 otherwise
*/
const char *obj_get_name(EngineState *s, reg_t pos);
/* Determines the name of an object
** Parameters: (EngineState *) s: Pointer to the EngineState to operate on
** (reg_t) pos: Location of the object whose name we want to
** inspect
** Returns : (const char *) A name for that object, or a string describing
** an error that occured while looking it up
** The string is stored in a static buffer and need not be freed (neither
** may it be modified).
*/
Object *obj_get(EngineState *s, reg_t offset);
/* Retrieves an object from the specified location
** Parameters: (EngineState *) s: Pointer to the EngineState to operate on
** (reg_t) offset: The object's offset
** Returns : (Object *) The object in question, or NULL if there is none
*/
} // End of namespace Sci
#endif // SCI_ENGINE_VM_H
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