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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.
*
* $URL$
* $Id$
*
*/
#include "common/endian.h"
#include "sci/sci.h"
#include "sci/engine/segment.h"
#include "sci/engine/seg_manager.h"
#include "sci/engine/state.h"
namespace Sci {
//#define GC_DEBUG // Debug garbage collection
//#define GC_DEBUG_VERBOSE // Debug garbage verbosely
SegmentObj *SegmentObj::createSegmentObj(SegmentType type) {
SegmentObj *mem = 0;
switch (type) {
case SEG_TYPE_SCRIPT:
mem = new Script();
break;
case SEG_TYPE_CLONES:
mem = new CloneTable();
break;
case SEG_TYPE_LOCALS:
mem = new LocalVariables();
break;
case SEG_TYPE_SYS_STRINGS:
mem = new SystemStrings();
break;
case SEG_TYPE_STACK:
mem = new DataStack();
break;
case SEG_TYPE_HUNK:
mem = new HunkTable();
break;
case SEG_TYPE_LISTS:
mem = new ListTable();
break;
case SEG_TYPE_NODES:
mem = new NodeTable();
break;
case SEG_TYPE_DYNMEM:
mem = new DynMem();
break;
#ifdef ENABLE_SCI32
case SEG_TYPE_ARRAY:
mem = new ArrayTable();
break;
case SEG_TYPE_STRING:
mem = new StringTable();
break;
#endif
default:
error("Unknown SegmentObj type %d", type);
break;
}
assert(mem);
assert(mem->_type == type);
return mem;
}
Script::Script() : SegmentObj(SEG_TYPE_SCRIPT) {
_nr = 0;
_buf = NULL;
_bufSize = 0;
_scriptSize = 0;
_heapSize = 0;
_synonyms = NULL;
_heapStart = NULL;
_exportTable = NULL;
_localsOffset = 0;
_localsSegment = 0;
_localsBlock = NULL;
_relocated = false;
_markedAsDeleted = 0;
}
Script::~Script() {
freeScript();
}
void Script::freeScript() {
free(_buf);
_buf = NULL;
_bufSize = 0;
_objects.clear();
_codeBlocks.clear();
}
bool Script::init(int script_nr, ResourceManager *resMan) {
setScriptSize(script_nr, resMan);
_buf = (byte *)malloc(_bufSize);
#ifdef DEBUG_segMan
printf("_buf = %p ", _buf);
#endif
if (!_buf) {
freeScript();
warning("Not enough memory space for script size");
_bufSize = 0;
return false;
}
_localsOffset = 0;
_localsBlock = NULL;
_codeBlocks.clear();
_relocated = false;
_markedAsDeleted = false;
_nr = script_nr;
if (getSciVersion() >= SCI_VERSION_1_1)
_heapStart = _buf + _scriptSize;
else
_heapStart = _buf;
return true;
}
Object *Script::allocateObject(uint16 offset) {
return &_objects[offset];
}
Object *Script::getObject(uint16 offset) {
if (_objects.contains(offset))
return &_objects[offset];
else
return 0;
}
void Script::incrementLockers() {
_lockers++;
}
void Script::decrementLockers() {
if (_lockers > 0)
_lockers--;
}
int Script::getLockers() const {
return _lockers;
}
void Script::setLockers(int lockers) {
_lockers = lockers;
}
void Script::setExportTableOffset(int offset) {
if (offset) {
_exportTable = (uint16 *)(_buf + offset + 2);
_numExports = READ_LE_UINT16((byte *)(_exportTable - 1));
} else {
_exportTable = NULL;
_numExports = 0;
}
}
void Script::setSynonymsOffset(int offset) {
_synonyms = _buf + offset;
}
byte *Script::getSynonyms() const {
return _synonyms;
}
void Script::setSynonymsNr(int n) {
_numSynonyms = n;
}
int Script::getSynonymsNr() const {
return _numSynonyms;
}
// memory operations
void Script::mcpyInOut(int dst, const void *src, size_t n) {
if (_buf) {
assert(dst + n <= _bufSize);
memcpy(_buf + dst, src, n);
}
}
int16 Script::getHeap(uint16 offset) const {
assert(offset + 1 < (int)_bufSize);
return READ_LE_UINT16(_buf + offset);
// return (_buf[offset] | (_buf[offset+1]) << 8);
}
SegmentRef SegmentObj::dereference(reg_t pointer) {
error("Error: Trying to dereference pointer %04x:%04x to inappropriate segment",
PRINT_REG(pointer));
return SegmentRef();
}
bool Script::isValidOffset(uint16 offset) const {
return offset < _bufSize;
}
SegmentRef Script::dereference(reg_t pointer) {
if (pointer.offset > _bufSize) {
warning("Script::dereference(): Attempt to dereference invalid pointer %04x:%04x into script segment (script size=%d)",
PRINT_REG(pointer), (uint)_bufSize);
return SegmentRef();
}
SegmentRef ret;
ret.isRaw = true;
ret.maxSize = _bufSize - pointer.offset;
ret.raw = _buf + pointer.offset;
return ret;
}
bool LocalVariables::isValidOffset(uint16 offset) const {
return offset < _locals.size() * 2;
}
SegmentRef LocalVariables::dereference(reg_t pointer) {
// FIXME: The following doesn't seem to be endian safe.
// To fix this, we'd have to always treat the reg_t
// values stored here as in the little endian format.
// Anyway, generate a warning for now to see if this ever
// happens.
// One has to wonder whether we return the right value anyway.
// Here are three potential options:
// 1: ((byte *)&_locals[0]) + pointer.offset
// 2: ((byte *)&_locals[pointer.offset/2]) + (pointer.offset % 2)
// 3: ((byte *)&_locals[pointer.offset])
// So which one is correct? :)
if (pointer.offset & 1)
warning("LocalVariables::dereference: Odd offset in pointer %04x:%04x", PRINT_REG(pointer));
SegmentRef ret;
ret.isRaw = false; // reg_t based data!
ret.maxSize = (_locals.size() - pointer.offset/2) * 2;
if (ret.maxSize > 0) {
ret.raw = (byte *)&_locals[pointer.offset/2];
} else {
warning("LocalVariables::dereference: Offset at end or out of bounds %04x:%04x", PRINT_REG(pointer));
ret.raw = 0;
}
return ret;
}
bool DataStack::isValidOffset(uint16 offset) const {
return offset < _capacity * 2;
}
SegmentRef DataStack::dereference(reg_t pointer) {
SegmentRef ret;
ret.isRaw = false; // reg_t based data!
ret.maxSize = (_capacity - pointer.offset/2) * 2;
// FIXME: Is this correct? See comment in LocalVariables::dereference
if (pointer.offset & 1)
warning("LocalVariables::dereference: Odd offset in pointer %04x:%04x", PRINT_REG(pointer));
ret.raw = (byte *)&_entries[pointer.offset/2];
return ret;
}
bool DynMem::isValidOffset(uint16 offset) const {
return offset < _size;
}
SegmentRef DynMem::dereference(reg_t pointer) {
SegmentRef ret;
ret.isRaw = true;
ret.maxSize = _size - pointer.offset;
ret.raw = _buf + pointer.offset;
return ret;
}
bool SystemStrings::isValidOffset(uint16 offset) const {
return offset < SYS_STRINGS_MAX && !_strings[offset]._name.empty();
}
SegmentRef SystemStrings::dereference(reg_t pointer) {
SegmentRef ret;
ret.isRaw = true;
ret.maxSize = _strings[pointer.offset]._maxSize;
if (isValidOffset(pointer.offset))
ret.raw = (byte *)(_strings[pointer.offset]._value);
else {
// This occurs in KQ5CD when interacting with certain objects
warning("SystemStrings::dereference(): Attempt to dereference invalid pointer %04x:%04x", PRINT_REG(pointer));
}
return ret;
}
//-------------------- script --------------------
reg_t Script::findCanonicAddress(SegManager *segMan, reg_t addr) {
addr.offset = 0;
return addr;
}
void Script::freeAtAddress(SegManager *segMan, reg_t addr) {
/*
debugC(2, kDebugLevelGC, "[GC] Freeing script %04x:%04x\n", PRINT_REG(addr));
if (_localsSegment)
debugC(2, kDebugLevelGC, "[GC] Freeing locals %04x:0000\n", _localsSegment);
*/
if (_markedAsDeleted)
segMan->deallocateScript(_nr);
}
void Script::listAllDeallocatable(SegmentId segId, void *param, NoteCallback note) {
(*note)(param, make_reg(segId, 0));
}
void Script::listAllOutgoingReferences(reg_t addr, void *param, NoteCallback note) {
if (addr.offset <= _bufSize && addr.offset >= -SCRIPT_OBJECT_MAGIC_OFFSET && RAW_IS_OBJECT(_buf + addr.offset)) {
Object *obj = getObject(addr.offset);
if (obj) {
// Note all local variables, if we have a local variable environment
if (_localsSegment)
(*note)(param, make_reg(_localsSegment, 0));
for (uint i = 0; i < obj->getVarCount(); i++)
(*note)(param, obj->getVariable(i));
} else {
warning("Request for outgoing script-object reference at %04x:%04x failed", PRINT_REG(addr));
}
} else {
/* warning("Unexpected request for outgoing script-object references at %04x:%04x", PRINT_REG(addr));*/
/* Happens e.g. when we're looking into strings */
}
}
//-------------------- clones --------------------
void CloneTable::listAllOutgoingReferences(reg_t addr, void *param, NoteCallback note) {
Clone *clone;
// assert(addr.segment == _segId);
if (!isValidEntry(addr.offset)) {
error("Unexpected request for outgoing references from clone at %04x:%04x", PRINT_REG(addr));
}
clone = &(_table[addr.offset]);
// Emit all member variables (including references to the 'super' delegate)
for (uint i = 0; i < clone->getVarCount(); i++)
(*note)(param, clone->getVariable(i));
// Note that this also includes the 'base' object, which is part of the script and therefore also emits the locals.
(*note)(param, clone->getPos());
//debugC(2, kDebugLevelGC, "[GC] Reporting clone-pos %04x:%04x\n", PRINT_REG(clone->pos));
}
void CloneTable::freeAtAddress(SegManager *segMan, reg_t addr) {
#ifdef GC_DEBUG
Object *victim_obj;
// assert(addr.segment == _segId);
victim_obj = &(_table[addr.offset]);
if (!(victim_obj->_flags & OBJECT_FLAG_FREED))
warning("[GC] Clone %04x:%04x not reachable and not freed (freeing now)", PRINT_REG(addr));
#ifdef GC_DEBUG_VERBOSE
else
warning("[GC-DEBUG] Clone %04x:%04x: Freeing", PRINT_REG(addr));
#endif
#endif
/*
warning("[GC] Clone %04x:%04x: Freeing", PRINT_REG(addr));
warning("[GC] Clone had pos %04x:%04x", PRINT_REG(victim_obj->pos));
*/
freeEntry(addr.offset);
}
//-------------------- locals --------------------
reg_t LocalVariables::findCanonicAddress(SegManager *segMan, reg_t addr) {
// Reference the owning script
SegmentId owner_seg = segMan->getScriptSegment(script_id);
assert(owner_seg > 0);
return make_reg(owner_seg, 0);
}
void LocalVariables::listAllOutgoingReferences(reg_t addr, void *param, NoteCallback note) {
// assert(addr.segment == _segId);
for (uint i = 0; i < _locals.size(); i++)
(*note)(param, _locals[i]);
}
//-------------------- stack --------------------
reg_t DataStack::findCanonicAddress(SegManager *segMan, reg_t addr) {
addr.offset = 0;
return addr;
}
void DataStack::listAllOutgoingReferences(reg_t addr, void *param, NoteCallback note) {
fprintf(stderr, "Emitting %d stack entries\n", _capacity);
for (int i = 0; i < _capacity; i++)
(*note)(param, _entries[i]);
fprintf(stderr, "DONE");
}
//-------------------- lists --------------------
void ListTable::freeAtAddress(SegManager *segMan, reg_t sub_addr) {
freeEntry(sub_addr.offset);
}
void ListTable::listAllOutgoingReferences(reg_t addr, void *param, NoteCallback note) {
if (!isValidEntry(addr.offset)) {
warning("Invalid list referenced for outgoing references: %04x:%04x", PRINT_REG(addr));
return;
}
List *list = &(_table[addr.offset]);
note(param, list->first);
note(param, list->last);
// We could probably get away with just one of them, but
// let's be conservative here.
}
//-------------------- nodes --------------------
void NodeTable::freeAtAddress(SegManager *segMan, reg_t sub_addr) {
freeEntry(sub_addr.offset);
}
void NodeTable::listAllOutgoingReferences(reg_t addr, void *param, NoteCallback note) {
if (!isValidEntry(addr.offset)) {
warning("Invalid node referenced for outgoing references: %04x:%04x", PRINT_REG(addr));
return;
}
Node *node = &(_table[addr.offset]);
// We need all four here. Can't just stick with 'pred' OR 'succ' because node operations allow us
// to walk around from any given node
note(param, node->pred);
note(param, node->succ);
note(param, node->key);
note(param, node->value);
}
//-------------------- hunk --------------------
//-------------------- dynamic memory --------------------
reg_t DynMem::findCanonicAddress(SegManager *segMan, reg_t addr) {
addr.offset = 0;
return addr;
}
void DynMem::listAllDeallocatable(SegmentId segId, void *param, NoteCallback note) {
(*note)(param, make_reg(segId, 0));
}
#ifdef ENABLE_SCI32
SegmentRef ArrayTable::dereference(reg_t pointer) {
SegmentRef ret;
ret.isRaw = false;
ret.maxSize = _table[pointer.offset].getSize() * 2;
ret.reg = _table[pointer.offset].getRawData();
return ret;
}
Common::String SciString::toString() {
if (_type != 3)
error("SciString::toString(): Array is not a string");
Common::String string;
for (uint32 i = 0; i < _size && _data[i] != 0; i++)
string += _data[i];
return string;
}
void SciString::fromString(Common::String string) {
if (_type != 3)
error("SciString::fromString(): Array is not a string");
if (string.size() > _size)
setSize(string.size());
for (uint32 i = 0; i < string.size(); i++)
_data[i] = string[i];
}
SegmentRef StringTable::dereference(reg_t pointer) {
SegmentRef ret;
ret.isRaw = true;
ret.maxSize = _table[pointer.offset].getSize();
ret.raw = (byte*)_table[pointer.offset].getRawData();
return ret;
}
#endif
} // End of namespace Sci
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