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path: root/sword2/resman.cpp
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/* Copyright (C) 1994-2004 Revolution Software Ltd
 *
 * 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.
 *
 * $Header$
 */

#include "common/stdafx.h"
#include "common/file.h"
#include "sword2/sword2.h"
#include "sword2/defs.h"

#define Debug_Printf _vm->_debugger->DebugPrintf

namespace Sword2 {

// ---------------------------------------------------------------------------
// Welcome to the easy resource manager - written in simple code for easy
// maintenance
// 
// The resource compiler will create two files
//
//	resource.inf which is a list of ascii cluster file names
//	resource.tab which is a table which tells us which cluster a resource
//      is located in and the number within the cluster
// ---------------------------------------------------------------------------

enum {
	BOTH		= 0x0,		// Cluster is on both CDs
	CD1		= 0x1,		// Cluster is on CD1 only
	CD2		= 0x2,		// Cluster is on CD2 only
	LOCAL_CACHE	= 0x4,		// Cluster is cached on HDD
	LOCAL_PERM	= 0x8		// Cluster is on HDD.
};

#if !defined(__GNUC__)
	#pragma START_PACK_STRUCTS
#endif

struct CdInf {
	uint8 clusterName[20];	// Null terminated cluster name.
	uint8 cd;		// Cd cluster is on and whether it is on the local drive or not.
} GCC_PACK;

#if !defined(__GNUC__)
	#pragma END_PACK_STRUCTS
#endif

ResourceManager::ResourceManager(Sword2Engine *vm) {
	_vm = vm;

	// We read in the resource info which tells us the names of the
	// resource cluster files ultimately, although there might be groups
	// within the clusters at this point it makes no difference. We only
	// wish to know what resource files there are and what is in each

	File file;
	uint32 end;
	Memory *temp;
	uint32 pos = 0;
	uint32 j = 0;

	_totalClusters = 0;
	_resConvTable = NULL;

	if (!file.open("resource.inf")) {
		error("init cannot *OPEN* resource.inf");
	}

	end = file.size();

	//get some space for the incoming resource file - soon to be trashed
	temp = _vm->_memory->allocMemory(end, MEM_locked, UID_temp);

	if (file.read(temp->ad, end) != end) {
		file.close();
		error("init cannot *READ* resource.inf");
	}

	file.close();

	// ok, we've loaded in the resource.inf file which contains a list of
	// all the files now extract the filenames
	do {
		// item must have an #0d0a
		while(temp->ad[j] != 13) {
			_resourceFiles[_totalClusters][pos] = temp->ad[j];
			j++;
			pos++;
		}

		// NULL terminate our extracted string
		_resourceFiles[_totalClusters][pos]=0;

		// Reset position in current slot between entries, skip the
		// 0x0a in the source and increase the number of clusters.

		pos = 0;
		j += 2;
		_totalClusters++;

		// TODO: put overload check here
	} while (j != end);	// using this method the Gode generated resource.inf must have #0d0a on the last entry

	// now load in the binary id to res conversion table
	if (!file.open("resource.tab")) {
		error("init cannot *OPEN* resource.tab");
	}

	// find how many resources
	end = file.size();

	_totalResFiles = end / 4;

	// table seems ok so malloc some space
	_resConvTable = (uint16 *) malloc(end);

	for (j = 0; j < end / 2; j++)
		_resConvTable[j] = file.readUint16LE();

	if (file.ioFailed()) {
		file.close();
		error("init cannot *READ* resource.tab");
	}

	file.close();

	if (!file.open("cd.inf")) {
		error("init cannot *OPEN* cd.inf");
	}

	CdInf *cdInf = new CdInf[_totalClusters];

	for (j = 0; j < _totalClusters; j++) {
		file.read(cdInf[j].clusterName, sizeof(cdInf[j].clusterName));
		cdInf[j].cd = file.readByte();
		
		if (file.ioFailed()) {
			error("init failed to read cd.inf. Insufficient entries?");
		}
	}

	file.close();

	for (j = 0; j < _totalClusters; j++) {
		uint32 i = 0;

		while (scumm_stricmp((char *) cdInf[i].clusterName, _resourceFiles[j]) != 0 && i < _totalClusters)
			i++;

		if (i == _totalClusters) {
			error("init, %s is not in cd.inf", _resourceFiles[j]);
		} else
			_cdTab[j] = cdInf[i].cd;
	}

	delete [] cdInf;

	debug(5, "%d resources in %d cluster files", _totalResFiles, _totalClusters);
	for (j = 0; j < _totalClusters; j++)
		debug(5, "filename of cluster %d: -%s", j, _resourceFiles[j]);

	// create space for a list of pointers to mem's
	_resList = (Memory **) malloc(_totalResFiles * sizeof(Memory *));

	_age = (uint32 *) malloc(_totalResFiles * sizeof(uint32));
	_count = (uint16 *) malloc(_totalResFiles * sizeof(uint16));

	for (j = 0; j < _totalResFiles; j++) {
		// age must be 0 if the file is not in memory at all
		_age[j] = 0;
		_count[j] = 0;
	}

	_resTime = 1;	//cannot start at 0
	_vm->_memory->freeMemory(temp);	//get that memory back
}

ResourceManager::~ResourceManager(void) {
	// free up our mallocs
	free(_resList);
	free(_age);
	free(_count);
	free(_resConvTable);
}

// Quick macro to make swapping in-place easier to write

#define SWAP16(x)	x = SWAP_BYTES_16(x)
#define SWAP32(x)	x = SWAP_BYTES_32(x)

void convertEndian(uint8 *file, uint32 len) {
	int i;
	StandardHeader *hdr = (StandardHeader *) file;
	
	file += sizeof(StandardHeader);

	SWAP32(hdr->compSize);
	SWAP32(hdr->decompSize);

	switch (hdr->fileType) {
	case ANIMATION_FILE: {
		AnimHeader *animHead = (AnimHeader *) file;

		SWAP16(animHead->noAnimFrames);
		SWAP16(animHead->feetStartX);
		SWAP16(animHead->feetStartY);
		SWAP16(animHead->feetEndX);
		SWAP16(animHead->feetEndY);
		SWAP16(animHead->blend);

		CdtEntry *cdtEntry = (CdtEntry *) (file + sizeof(AnimHeader));
		for (i = 0; i < animHead->noAnimFrames; i++, cdtEntry++) {
			SWAP16(cdtEntry->x);
			SWAP16(cdtEntry->y);
			SWAP32(cdtEntry->frameOffset);

			FrameHeader *frameHeader = (FrameHeader *) (file + cdtEntry->frameOffset);
			// Quick trick to prevent us from incorrectly applying the endian
			// fixes multiple times. This assumes that frames are less than 1 MB
			// and have height/width less than 4096.
			if ((frameHeader->compSize & 0xFFF00000) ||
				(frameHeader->width & 0xF000) ||
				(frameHeader->height & 0xF000)) {
				SWAP32(frameHeader->compSize);
				SWAP16(frameHeader->width);
				SWAP16(frameHeader->height);
			}
		}
		break;
	}
	case SCREEN_FILE: {
		MultiScreenHeader *mscreenHeader = (MultiScreenHeader *) file;

		SWAP32(mscreenHeader->palette);
		SWAP32(mscreenHeader->bg_parallax[0]);
		SWAP32(mscreenHeader->bg_parallax[1]);
		SWAP32(mscreenHeader->screen);
		SWAP32(mscreenHeader->fg_parallax[0]);
		SWAP32(mscreenHeader->fg_parallax[1]);
		SWAP32(mscreenHeader->layers);
		SWAP32(mscreenHeader->paletteTable);
		SWAP32(mscreenHeader->maskOffset);

		// screenHeader
		ScreenHeader *screenHeader = (ScreenHeader *) (file + mscreenHeader->screen);

		SWAP16(screenHeader->width);
		SWAP16(screenHeader->height);
		SWAP16(screenHeader->noLayers);

		// layerHeader
		LayerHeader *layerHeader = (LayerHeader *) (file + mscreenHeader->layers);
		for (i = 0; i < screenHeader->noLayers; i++, layerHeader++) {
			SWAP16(layerHeader->x);
			SWAP16(layerHeader->y);
			SWAP16(layerHeader->width);
			SWAP16(layerHeader->height);
			SWAP32(layerHeader->maskSize);
			SWAP32(layerHeader->offset);
		}

		// backgroundParallaxLayer
		Parallax *parallax;
		int offset;
		offset = mscreenHeader->bg_parallax[0];
		if (offset > 0) {
			parallax = (Parallax *) (file + offset);
			SWAP16(parallax->w);
			SWAP16(parallax->h);
		}

		offset = mscreenHeader->bg_parallax[1];
		if (offset > 0) {
			parallax = (Parallax *) (file + offset);
			SWAP16(parallax->w);
			SWAP16(parallax->h);
		}

		// backgroundLayer
		offset = mscreenHeader->screen + sizeof(ScreenHeader);
		if (offset > 0) {
			parallax = (Parallax *) (file + offset);
			SWAP16(parallax->w);
			SWAP16(parallax->h);
		}

		// foregroundParallaxLayer
		offset = mscreenHeader->fg_parallax[0];
		if (offset > 0) {
			parallax = (Parallax *) (file + offset);
			SWAP16(parallax->w);
			SWAP16(parallax->h);
		}

		offset = mscreenHeader->fg_parallax[1];
		if (offset > 0) {
			parallax = (Parallax *) (file + offset);
			SWAP16(parallax->w);
			SWAP16(parallax->h);
		}
		break;
	}
	case GAME_OBJECT: {
		ObjectHub *objectHub = (ObjectHub *) file;

		objectHub->type = (int) SWAP_BYTES_32(objectHub->type);
		SWAP32(objectHub->logic_level);

		for (i = 0; i < TREE_SIZE; i++) {
			SWAP32(objectHub->logic[i]);
			SWAP32(objectHub->script_id[i]);
			SWAP32(objectHub->script_pc[i]);
		}
		break;
	}
	case WALK_GRID_FILE: {
		WalkGridHeader *walkGridHeader = (WalkGridHeader *) file;

		SWAP32(walkGridHeader->numBars);
		SWAP32(walkGridHeader->numNodes);

		BarData *barData = (BarData *) (file + sizeof(WalkGridHeader));
		for (i = 0; i < walkGridHeader->numBars; i++) {
			SWAP16(barData->x1);
			SWAP16(barData->y1);
			SWAP16(barData->x2);
			SWAP16(barData->y2);
			SWAP16(barData->xmin);
			SWAP16(barData->ymin);
			SWAP16(barData->xmax);
			SWAP16(barData->ymax);
			SWAP16(barData->dx);
			SWAP16(barData->dy);
			SWAP32(barData->co);
			barData++;
		}

		uint16 *node = (uint16 *) (file + sizeof(WalkGridHeader) + walkGridHeader->numBars * sizeof(barData));
		for (i = 0; i < walkGridHeader->numNodes * 2; i++) {
			SWAP16(*node);
			node++;
		}

		break;
	}
	case GLOBAL_VAR_FILE:
		break;
	case PARALLAX_FILE_null:
		break;
	case RUN_LIST: {
		uint32 *list = (uint32 *) file;
		while (*list) {
			SWAP32(*list);
			list++;
		}
		break;
	}
	case TEXT_FILE: {
		TextHeader *textHeader = (TextHeader *) file;
		SWAP32(textHeader->noOfLines);
		break;
	}
	case SCREEN_MANAGER:
		break;
	case MOUSE_FILE:
		break;
	case ICON_FILE:
		break;
	}
}

uint8 *ResourceManager::openResource(uint32 res, bool dump) {
	// returns ad of resource. Loads if not in memory
	// retains a count
	// resource can be aged out of memory if count = 0
	// the resource is locked while count != 0 i.e. until a closeResource
	// is called

	File	file;
	uint16	parent_res_file;
	uint16	actual_res;
	uint32	pos, len;

	uint32	table_offset;

	assert(res < _totalResFiles);

	// is the resource in memory already?
	// if the file is not in memory then age should and MUST be 0
	if (!_age[res]) {
		// fetch the correct file and read in the correct portion
		// if the file cannot fit then we must trash the oldest large
		// enough floating file

		// points to the number of the ascii filename
		parent_res_file = _resConvTable[res * 2];

		assert(parent_res_file != 0xffff);

		// relative resource within the file
		actual_res = _resConvTable[(res * 2) + 1];

		// first we have to find the file via the _resConvTable

		debug(5, "resOpen %s res %d", _resourceFiles[parent_res_file], res);

		// If we're loading a cluster that's only available from one
		// of the CDs, remember which one so that we can play the
		// correct music.

		if (!(_cdTab[parent_res_file] & LOCAL_PERM))
			_curCd = _cdTab[parent_res_file] & 3;

		// Actually, as long as the file can be found we don't really
		// care which CD it's on. But if we can't find it, keep asking
		// for the CD until we do.

		while (!file.open(_resourceFiles[parent_res_file])) {
			// If the file is supposed to be on hard disk, or we're
			// playing a demo, then we're in trouble if the file
			// can't be found!

			if ((_vm->_features & GF_DEMO) || (_cdTab[parent_res_file] & LOCAL_PERM))
				error("Could not find '%s'", _resourceFiles[parent_res_file]);

			getCd(_cdTab[parent_res_file] & 3);
		}

		// 1st DWORD of a cluster is an offset to the look-up table
		table_offset = file.readUint32LE();

		debug(5, "table offset = %d", table_offset);

		// 2 dwords per resource
		file.seek(table_offset + actual_res * 8, SEEK_SET);
		// get position of our resource within the cluster file
		pos = file.readUint32LE();
		// read the length
		len = file.readUint32LE();

		// get to position in file of our particular resource
		file.seek(pos, SEEK_SET);

		debug(5, "res len %d", len);

		// ok, we know the length so try and allocate the memory
		// if it can't then old files will be ditched until it works
		_resList[res] = _vm->_memory->allocMemory(len, MEM_locked, res);

		// now load the file
		// hurray, load it in.
		file.read(_resList[res]->ad, len);

		if (dump) {
			StandardHeader *header = (StandardHeader *) _resList[res]->ad;
			char buf[256];
			char tag[10];
			File out;

			switch (header->fileType) {
			case ANIMATION_FILE:
				strcpy(tag, "anim");
				break;
			case SCREEN_FILE:
				strcpy(tag, "layer");
				break;
			case GAME_OBJECT:
				strcpy(tag, "object");
				break;
			case WALK_GRID_FILE:
				strcpy(tag, "walkgrid");
				break;
			case GLOBAL_VAR_FILE:
				strcpy(tag, "globals");
				break;
			case PARALLAX_FILE_null:
				strcpy(tag, "parallax");	// Not used!
				break;
			case RUN_LIST:
				strcpy(tag, "runlist");
				break;
			case TEXT_FILE:
				strcpy(tag, "text");
				break;
			case SCREEN_MANAGER:
				strcpy(tag, "screen");
				break;
			case MOUSE_FILE:
				strcpy(tag, "mouse");
				break;
			case WAV_FILE:
				strcpy(tag, "wav");
				break;
			case ICON_FILE:
				strcpy(tag, "icon");
				break;
			case PALETTE_FILE:
				strcpy(tag, "palette");
				break;
			default:
				strcpy(tag, "unknown");
				break;
			}

#if defined(MACOS_CARBON)
			sprintf(buf, ":dumps:%s-%d.dmp", tag, res);
#else
			sprintf(buf, "dumps/%s-%d.dmp", tag, res);
#endif

			if (!out.open(buf, "")) {
				if (out.open(buf, "", File::kFileWriteMode))
					out.write(_resList[res]->ad, len);
			}

			if (out.isOpen())
				out.close();
		}

		// close the cluster
		file.close();

#ifdef SCUMM_BIG_ENDIAN
		convertEndian((uint8 *) _resList[res]->ad, len);
#endif
	} else {
		debug(9, "RO %d, already open count=%d", res, _count[res]);
	}

	// number of times opened - the file won't move in memory while count
	// is non zero
	_count[res]++;

	// update the accessed time stamp - touch the file in other words
	_age[res] = _resTime;

	// pass the address of the mem & lock the memory too
	// might be locked already (if count > 1)
	_vm->_memory->lockMemory(_resList[res]);

	return (uint8 *) _resList[res]->ad;
}

uint8 ResourceManager::checkValid(uint32 res) {
	// returns '1' if resource is valid, otherwise returns '0'
	// used in startup.cpp to ignore invalid screen-manager resources

	uint16 parent_res_file;

	// resource number out of range
	if (res >= _totalResFiles)
		return 0;

	// points to the number of the ascii filename
	parent_res_file = _resConvTable[res * 2];

	// null & void resource
	if (parent_res_file == 0xffff)
		return 0;

	// ok
	return 1;
}

void ResourceManager::nextCycle(void) {
	// increment the cycle and calculate actual per-cycle memory useage

#ifdef _SWORD2_DEBUG
	_currentMemoryUsage = 0;

	for (int i = 1; i < _totalResFiles; i++) {
		// was accessed last cycle
		if (_age[i] == _resTime)
			_currentMemoryUsage += _resList[i]->size;
	}
#endif

	_resTime++;

	// if you left the game running for a hundred years when this went to 0
	// there'd be a resource left stuck in memory - after another hundred
	// years there'd be another...
	//
	// Mind you, by then the our get_msecs() function will have wrapped
	// around too, probably causing a mess of other problems.

	if (!_resTime)
		_resTime++;
}

uint32 ResourceManager::fetchUsage(void) {
	// returns memory usage previous cycle
	return _currentMemoryUsage;
}

void ResourceManager::closeResource(uint32 res) {
	// decrements the count
	// resource floats when count = 0

	assert(res < _totalResFiles);
	assert(_count[res]);

	//one less has it open
	_count[res]--;

	//if noone has the file open then unlock and allow to float
	if (!_count[res]) {
		// pass the address of the mem
		_vm->_memory->floatMemory(_resList[res]);
	}
}

uint32 ResourceManager::fetchLen(uint32 res) {
	// returns the total file length of a resource - i.e. all headers are
	// included too

	File fh;
	uint16 parent_res_file;
	uint16 actual_res;
	uint32 len;
	uint32 table_offset;

	// points to the number of the ascii filename
	parent_res_file = _resConvTable[res * 2];

	// relative resource within the file
	actual_res = _resConvTable[(res * 2) + 1];

	// first we have to find the file via the _resConvTable
	// open the cluster file

	if (!fh.open(_resourceFiles[parent_res_file]))
		error("fetchLen cannot *OPEN* %s", _resourceFiles[parent_res_file]);

	// 1st DWORD of a cluster is an offset to the look-up table
	table_offset = fh.readUint32LE();

	// 2 dwords per resource + skip the position dword
	fh.seek(table_offset + (actual_res * 8) + 4, SEEK_SET);

	// read the length
	len = fh.readUint32LE();
	return len;
}

char *ResourceManager::fetchCluster(uint32 res) {
	// returns a pointer to the ascii name of the cluster file which
	// contains resource res
	return _resourceFiles[_resConvTable[res * 2]];
}

uint32 ResourceManager::fetchAge(uint32 res) {
	// return the age of res
	return _age[res];
}

uint32 ResourceManager::fetchCount(uint32 res) {
	// return the open count of res
	return _count[res];
}

uint32 ResourceManager::helpTheAgedOut(void) {
	// remove from memory the oldest closed resource

	uint32 oldest_res;	// holds id of oldest found so far when we have to chuck stuff out of memory
	uint32 oldest_age;	// age of above during search
	uint32 j;
	uint32 largestResource = 0;

	oldest_age = _resTime;
	oldest_res = 0;

	for (j = 2; j < _totalResFiles; j++) {
		// not held open and older than this one
		if (!_count[j] && _age[j] && _age[j] <= oldest_age) {	
			if (_age[j] == oldest_age && _resList[j]->size > largestResource)	{
				// Kick old resource of oldest age and largest
				// size (Helps the poor defragger).
				oldest_res = j;
				largestResource = _resList[j]->size;
			} else if (_age[j] < oldest_age)	{
				oldest_res = j;
				oldest_age = _age[j];
				largestResource = _resList[j]->size;
			}
		}
	}

	// there was not a file we could release
	// no bytes released - oh dear, lets hope this never happens
	if (!oldest_res)
		return 0;

	debug(5, "removing %d, age %d, size %d", oldest_res, _age[oldest_res], _resList[oldest_res]->size);

	// trash this old resource

	_age[oldest_res] = 0;		// effectively gone from _resList
	_vm->_memory->freeMemory(_resList[oldest_res]);	// release the memory too

	return _resList[oldest_res]->size;	// return bytes freed
}

void ResourceManager::printConsoleClusters(void) {
	if (_totalClusters) {
		for (uint i = 0; i < _totalClusters; i++) {
			Debug_Printf("%-20s ", _resourceFiles[i]);
			if (!(_cdTab[i] & LOCAL_PERM)) {
				switch (_cdTab[i] & 3) {
				case BOTH:
					Debug_Printf("CD 1 & 2\n");
					break;
				case CD1:
					Debug_Printf("CD 1\n");
					break;
				case CD2:
					Debug_Printf("CD 2\n");
					break;
				default:
					Debug_Printf("CD 3? Huh?!\n");
					break;
				}
			} else
				Debug_Printf("HD\n");
		}
		Debug_Printf("%d resources\n", _totalResFiles);
	} else
		Debug_Printf("Argh! No resources!\n");
}

void ResourceManager::examine(int res) {
	StandardHeader *file_header;

	if (res < 0 || res >= (int) _totalResFiles)
		Debug_Printf("Illegal resource %d (there are %d resources 0-%d)\n", res, _totalResFiles, _totalResFiles - 1);
	else if (_resConvTable[res * 2] == 0xffff)
		Debug_Printf("%d is a null & void resource number\n", res);
	else {
		// open up the resource and take a look inside!
		file_header = (StandardHeader *) openResource(res);

		// Debug_Printf("%d\n", file_header->fileType);
		// Debug_Printf("%s\n", file_header->name);

		// Resource types. See header.h

		switch (file_header->fileType) {
		case ANIMATION_FILE:
			Debug_Printf("<anim> %s\n", file_header->name);
			break;
		case SCREEN_FILE:
			Debug_Printf("<layer> %s\n", file_header->name);
			break;
		case GAME_OBJECT:
			Debug_Printf("<game object> %s\n", file_header->name);
			break;
		case WALK_GRID_FILE:
			Debug_Printf("<walk grid> %s\n", file_header->name);
			break;
		case GLOBAL_VAR_FILE:
			Debug_Printf("<global variables> %s\n", file_header->name);
			break;
		case PARALLAX_FILE_null:
			Debug_Printf("<parallax file NOT USED!> %s\n", file_header->name);
			break;
		case RUN_LIST:
			Debug_Printf("<run list> %s\n", file_header->name);
			break;
		case TEXT_FILE:
			Debug_Printf("<text file> %s\n", file_header->name);
			break;
		case SCREEN_MANAGER:
			Debug_Printf("<screen manager> %s\n", file_header->name);
			break;
		case MOUSE_FILE:
			Debug_Printf("<mouse pointer> %s\n", file_header->name);
			break;
		case ICON_FILE:
			Debug_Printf("<menu icon> %s\n", file_header->name);
			break;
		default:
			Debug_Printf("unrecognised fileType %d\n", file_header->fileType);
			break;
		}
		closeResource(res);
	}
}

void ResourceManager::kill(int res) {
	if (res < 0 || res >= (int) _totalResFiles) {
		Debug_Printf("Illegal resource %d (there are %d resources 0-%d)\n", res, _totalResFiles, _totalResFiles - 1);
		return;
	}

	// if noone has the file open then unlock and allow to float
	if (!_count[res]) {
		if (_age[res]) {
			_age[res] = 0;		// effectively gone from _resList
			_vm->_memory->freeMemory(_resList[res]);	// release the memory too
			Debug_Printf("Trashed %d\n", res);
		} else
			Debug_Printf("%d not in memory\n", res);
	} else
		Debug_Printf("File is open - cannot remove\n");
}

void ResourceManager::remove(uint32 res) {
	if (_age[res]) {
		_age[res] = 0;			// effectively gone from _resList
		_vm->_memory->freeMemory(_resList[res]);	// release the memory too
		debug(5, " - Trashing %d", res);
	} else
		debug(5, "remove(%d) not even in memory!", res);
}

void ResourceManager::removeAll(void) {
	// remove all res files from memory - ready for a total restart
	// including player object & global variables resource

	int j;
	uint32 res;

	j = _vm->_memory->_baseMemBlock;

	do {
		if (_vm->_memory->_memList[j].uid < 65536) {	// a resource
			res = _vm->_memory->_memList[j].uid;
			_age[res] = 0;		// effectively gone from _resList
			_vm->_memory->freeMemory(_resList[res]);	// release the memory too
		}

		j = _vm->_memory->_memList[j].child;
	} while	(j != -1);
}

void ResourceManager::killAll(bool wantInfo) {
	// remove all res files from memory
	// its quicker to search the mem blocs for res files than search
	// resource lists for those in memory

	int j;
	uint32 res;
	uint32 nuked = 0;
  	StandardHeader *header;

	j = _vm->_memory->_baseMemBlock;

	do {
		if (_vm->_memory->_memList[j].uid < 65536) {	// a resource
			res = _vm->_memory->_memList[j].uid;

			// not the global vars which are assumed to be open in
			// memory & not the player object!
			if (res != 1 && res != CUR_PLAYER_ID) {
				header = (StandardHeader *) openResource(res);
				closeResource(res);

				_age[res] = 0;		// effectively gone from _resList
				_vm->_memory->freeMemory(_resList[res]);	// release the memory too
				nuked++;

				// if this was called from the console,
				if (wantInfo) {
					Debug_Printf("Nuked %5d: %s\n", res, header->name);
					debug(5, " nuked %d: %s", res, header->name);
				}	
			}
		}
		j = _vm->_memory->_memList[j].child;
	} while (j != -1);

	// if this was called from the console
	if (wantInfo) {
		Debug_Printf("Expelled %d resource(s)\n", nuked);
	}
}

//----------------------------------------------------------------------------
// Like killAll but only kills objects (except George & the variable table of
// course) - ie. forcing them to reload & restart their scripts, which
// simulates the effect of a save & restore, thus checking that each object's
// re-entrant logic works correctly, and doesn't cause a statuette to
// disappear forever, or some plaster-filled holes in sand to crash the game &
// get James in trouble again.

void ResourceManager::killAllObjects(bool wantInfo) {
	// remove all object res files from memory, excluding George
	// its quicker to search the mem blocs for res files than search
	// resource lists for those in memory

	int j;
	uint32 res;
	uint32 nuked = 0;
 	StandardHeader *header;

	j = _vm->_memory->_baseMemBlock;

	do {
		if (_vm->_memory->_memList[j].uid < 65536) {	// a resource
			res = _vm->_memory->_memList[j].uid;
			//not the global vars which are assumed to be open in
			// memory & not the player object!
			if (res != 1 && res != CUR_PLAYER_ID) {
				header = (StandardHeader *) openResource(res);
				closeResource(res);

				if (header->fileType == GAME_OBJECT) {
					_age[res] = 0;		// effectively gone from _resList
					_vm->_memory->freeMemory(_resList[res]);	// release the memory too
   					nuked++;

					// if this was called from the console
					if (wantInfo) {
						Debug_Printf("Nuked %5d: %s\n", res, header->name);
						debug(5, " nuked %d: %s", res, header->name);
					}	
				}
			}
		}
		j = _vm->_memory->_memList[j].child;
	} while (j != -1);

	// if this was called from the console
	if (wantInfo)
		Debug_Printf("Expelled %d object resource(s)\n", nuked);
}

void ResourceManager::getCd(int cd) {
	uint8 *textRes;

	// stop any music from playing - so the system no longer needs the
	// current CD - otherwise when we take out the CD, Windows will
	// complain!

	_vm->_logic->fnStopMusic(NULL);

	textRes = openResource(2283);
	_vm->displayMsg(_vm->fetchTextLine(textRes, 5 + cd) + 2, 0);
	closeResource(2283);

	// The original code probably determined automagically when the correct
	// CD had been inserted, but our backend doesn't support that, and
	// anyway I don't know if all systems allow that sort of thing. So we
	// wait for the user to press any key instead, or click the mouse.
	//
	// But just in case we ever try to identify the CDs by their labels,
	// they should be:
	//
	// CD1: "RBSII1" (or "PCF76" for the PCF76 version, whatever that is)
	// CD2: "RBSII2"

	while (1) {
		KeyboardEvent ke;
		MouseEvent *me;

		me = _vm->_input->mouseEvent();
		if (me && (me->buttons & (RD_LEFTBUTTONDOWN | RD_RIGHTBUTTONDOWN)))
			break;

		if (_vm->_input->readKey(&ke) == RD_OK)
			break;

		_vm->_graphics->updateDisplay();
		_vm->_system->delay_msecs(50);
	}

	_vm->removeMsg();
}

} // End of namespace Sword2