ref: 421b13439f877ca1b3d9a13c07df10bf16928897
dir: /sv_save.c/
//**************************************************************************
//**
//** sv_save.c : Heretic 2 : Raven Software, Corp.
//**
//** $Revision: 522 $
//** $Date: 2009-06-08 11:45:17 +0300 (Mon, 08 Jun 2009) $
//**
//** Games are always saved Little Endian, with 32 bit offsets.
//** The saved games then can be properly read on 64 bit and/or
//** Big Endian machines all the same.
//** See the file SAVEGAME for notes and/or issues.
//**
//**************************************************************************
// HEADER FILES ------------------------------------------------------------
#include "h2stdinc.h"
#include "h2def.h"
#include "p_local.h"
#include "sv_save.h"
// MACROS ------------------------------------------------------------------
#define MAX_TARGET_PLAYERS 512
#define MOBJ_NULL -1
#define MOBJ_XX_PLAYER -2
#define MAX_MAPS 99
#define BASE_SLOT 6
#define REBORN_SLOT 7
#define REBORN_DESCRIPTION "TEMP GAME"
#define MAX_THINKER_SIZE 256
// TYPES -------------------------------------------------------------------
typedef enum
{
ASEG_GAME_HEADER = 101,
ASEG_MAP_HEADER,
ASEG_WORLD,
ASEG_POLYOBJS,
ASEG_MOBJS,
ASEG_THINKERS,
ASEG_SCRIPTS,
ASEG_PLAYERS,
ASEG_SOUNDS,
ASEG_MISC,
ASEG_END
} gameArchiveSegment_t;
typedef enum
{
TC_NULL,
TC_MOVE_CEILING,
TC_VERTICAL_DOOR,
TC_MOVE_FLOOR,
TC_PLAT_RAISE,
TC_INTERPRET_ACS,
TC_FLOOR_WAGGLE,
TC_LIGHT,
TC_PHASE,
TC_BUILD_PILLAR,
TC_ROTATE_POLY,
TC_MOVE_POLY,
TC_POLY_DOOR
} thinkClass_t;
typedef struct
{
thinkClass_t tClass;
think_t thinkerFunc;
void (*mangleFunc)(void *, void *);
void (*restoreFunc)(void *, void *);
size_t realsize, savesize;
} thinkInfo_t;
typedef struct
{
thinker_t thinker;
sector_t *sector;
} ssthinker_t;
// EXTERNAL FUNCTION PROTOTYPES --------------------------------------------
void P_SpawnPlayer(mapthing_t *mthing);
// PUBLIC FUNCTION PROTOTYPES ----------------------------------------------
// PRIVATE FUNCTION PROTOTYPES ---------------------------------------------
static void ArchiveWorld(void);
static void UnarchiveWorld(void);
static void ArchivePolyobjs(void);
static void UnarchivePolyobjs(void);
static void ArchiveMobjs(void);
static void UnarchiveMobjs(void);
static void ArchiveThinkers(void);
static void UnarchiveThinkers(void);
static void ArchiveScripts(void);
static void UnarchiveScripts(void);
static void ArchivePlayers(void);
static void UnarchivePlayers(void);
static void ArchiveSounds(void);
static void UnarchiveSounds(void);
static void ArchiveMisc(void);
static void UnarchiveMisc(void);
static void SetMobjArchiveNums(void);
static void RemoveAllThinkers(void);
static void MangleMobj(mobj_t *mobj, save_mobj_t *temp);
static void RestoreMobj(mobj_t *mobj, save_mobj_t *temp);
static int32_t GetMobjNum(mobj_t *mobj);
static mobj_t *GetMobjPtr(int32_t archiveNum, intptr_t *target);
static void MangleFloorMove(void *arg1, void *arg2);
static void RestoreFloorMove(void *arg1, void *arg2);
static void MangleLight(void *arg1, void *arg2);
static void RestoreLight(void *arg1, void *arg2);
static void MangleVerticalDoor(void *arg1, void *arg2);
static void RestoreVerticalDoor(void *arg1, void *arg2);
static void ManglePhase(void *arg1, void *arg2);
static void RestorePhase(void *arg1, void *arg2);
static void ManglePillar(void *arg1, void *arg2);
static void RestorePillar(void *arg1, void *arg2);
static void MangleFloorWaggle(void *arg1, void *arg2);
static void RestoreFloorWaggle(void *arg1, void *arg2);
static void ManglePolyEvent(void *arg1, void *arg2);
static void RestorePolyEvent(void *arg1, void *arg2);
static void ManglePolyDoor(void *arg1, void *arg2);
static void RestorePolyDoor(void *arg1, void *arg2);
static void MangleScript(void *arg1, void *arg2);
static void RestoreScript(void *arg1, void *arg2);
static void ManglePlatRaise(void *arg1, void *arg2);
static void RestorePlatRaise(void *arg1, void *arg2);
static void MangleMoveCeiling(void *arg1, void *arg2);
static void RestoreMoveCeiling(void *arg1, void *arg2);
static void AssertSegment(gameArchiveSegment_t segType);
static void ClearSaveSlot(int slot);
static void CopySaveSlot(int sourceSlot, int destSlot);
static void CopyFile(const char *sourceName, const char *destName);
static boolean ExistingFile(const char *name);
static void OpenStreamOut(const char *fileName);
static void CloseStreamOut(void);
static void StreamOutBuffer(const void *buffer, size_t size);
static void StreamOutByte(byte val);
static void StreamOutWord(uint16_t val);
static void StreamOutLong(uint32_t val);
// EXTERNAL DATA DECLARATIONS ----------------------------------------------
extern int ACScriptCount;
extern byte *ActionCodeBase;
extern acsInfo_t *ACSInfo;
// PUBLIC DATA DEFINITIONS -------------------------------------------------
// PRIVATE DATA DEFINITIONS ------------------------------------------------
static int MobjCount;
static mobj_t **MobjList;
static intptr_t **TargetPlayerAddrs;
static int TargetPlayerCount;
static void *SaveBuffer;
static boolean SavingPlayers;
static byte *SavePtr;
static FILE *SavingFP;
// This list has been prioritized using frequency estimates
static thinkInfo_t ThinkerInfo[] =
{
{
TC_MOVE_FLOOR,
T_MoveFloor,
MangleFloorMove,
RestoreFloorMove,
sizeof(floormove_t),
sizeof(save_floormove_t)
},
{
TC_PLAT_RAISE,
T_PlatRaise,
ManglePlatRaise,
RestorePlatRaise,
sizeof(plat_t),
sizeof(save_plat_t)
},
{
TC_MOVE_CEILING,
T_MoveCeiling,
MangleMoveCeiling,
RestoreMoveCeiling,
sizeof(ceiling_t),
sizeof(save_ceiling_t)
},
{
TC_LIGHT,
T_Light,
MangleLight,
RestoreLight,
sizeof(light_t),
sizeof(save_light_t)
},
{
TC_VERTICAL_DOOR,
T_VerticalDoor,
MangleVerticalDoor,
RestoreVerticalDoor,
sizeof(vldoor_t),
sizeof(save_vldoor_t)
},
{
TC_PHASE,
T_Phase,
ManglePhase,
RestorePhase,
sizeof(phase_t),
sizeof(save_phase_t)
},
{
TC_INTERPRET_ACS,
T_InterpretACS,
MangleScript,
RestoreScript,
sizeof(acs_t),
sizeof(save_acs_t)
},
{
TC_ROTATE_POLY,
T_RotatePoly,
ManglePolyEvent,
RestorePolyEvent,
sizeof(polyevent_t),
sizeof(save_polyevent_t)
},
{
TC_BUILD_PILLAR,
T_BuildPillar,
ManglePillar,
RestorePillar,
sizeof(pillar_t),
sizeof(save_pillar_t)
},
{
TC_MOVE_POLY,
T_MovePoly,
ManglePolyEvent,
RestorePolyEvent,
sizeof(polyevent_t),
sizeof(save_polyevent_t)
},
{
TC_POLY_DOOR,
T_PolyDoor,
ManglePolyDoor,
RestorePolyDoor,
sizeof(polydoor_t),
sizeof(save_polydoor_t)
},
{
TC_FLOOR_WAGGLE,
T_FloorWaggle,
MangleFloorWaggle,
RestoreFloorWaggle,
sizeof(floorWaggle_t),
sizeof(save_floorWaggle_t)
},
{ // Terminator
TC_NULL, NULL, NULL, NULL, 0
}
};
// CODE --------------------------------------------------------------------
static byte GET_BYTE (void)
{
return *SavePtr++;
}
static int16_t GET_WORD (void)
{
uint16_t val = READ_INT16(SavePtr);
INCR_INT16(SavePtr);
return (int16_t) val;
}
static int32_t GET_LONG (void)
{
uint32_t val = READ_INT32(SavePtr);
INCR_INT32(SavePtr);
return (int32_t) val;
}
//==========================================================================
//
// SV_SaveGame
//
//==========================================================================
void SV_SaveGame(int slot, const char *description)
{
int i;
char fileName[MAX_OSPATH];
char versionText[HXS_VERSION_TEXT_LENGTH];
// Open the output file
snprintf(fileName, sizeof(fileName), "%shex6.hxs", basePath);
OpenStreamOut(fileName);
// Write game save description
StreamOutBuffer(description, HXS_DESCRIPTION_LENGTH);
// Write version info
memset(versionText, 0, HXS_VERSION_TEXT_LENGTH);
strcpy(versionText, HXS_VERSION_TEXT);
StreamOutBuffer(versionText, HXS_VERSION_TEXT_LENGTH);
// Place a header marker
StreamOutLong(ASEG_GAME_HEADER);
// Write current map and difficulty
StreamOutByte(gamemap);
StreamOutByte(gameskill);
// Write global script info
for (i = 0; i < MAX_ACS_WORLD_VARS; i++)
{
StreamOutLong(WorldVars[i]);
}
for (i = 0; i <= MAX_ACS_STORE; i++)
{
StreamOutLong(ACSStore[i].map);
StreamOutLong(ACSStore[i].script);
StreamOutBuffer(ACSStore[i].args, 4);
}
ArchivePlayers();
// Place a termination marker
StreamOutLong(ASEG_END);
// Close the output file
CloseStreamOut();
// Save out the current map
SV_SaveMap(true); // true = save player info
// Clear all save files at destination slot
ClearSaveSlot(slot);
// Copy base slot to destination slot
CopySaveSlot(BASE_SLOT, slot);
}
//==========================================================================
//
// SV_SaveMap
//
//==========================================================================
void SV_SaveMap(boolean savePlayers)
{
char fileName[MAX_OSPATH];
SavingPlayers = savePlayers;
// Open the output file
snprintf(fileName, sizeof(fileName), "%shex6%02d.hxs", basePath, gamemap);
OpenStreamOut(fileName);
// Place a header marker
StreamOutLong(ASEG_MAP_HEADER);
// Write the level timer
StreamOutLong(leveltime);
// Set the mobj archive numbers
SetMobjArchiveNums();
ArchiveWorld();
ArchivePolyobjs();
ArchiveMobjs();
ArchiveThinkers();
ArchiveScripts();
ArchiveSounds();
ArchiveMisc();
// Place a termination marker
StreamOutLong(ASEG_END);
// Close the output file
CloseStreamOut();
}
//==========================================================================
//
// SV_LoadGame
//
//==========================================================================
void SV_LoadGame(int slot)
{
int i;
char fileName[MAX_OSPATH];
player_t playerBackup[MAXPLAYERS];
mobj_t *mobj;
// Copy all needed save files to the base slot
if (slot != BASE_SLOT)
{
ClearSaveSlot(BASE_SLOT);
CopySaveSlot(slot, BASE_SLOT);
}
// Create the name
snprintf(fileName, sizeof(fileName), "%shex6.hxs", basePath);
// Load the file
M_ReadFile(fileName, &SaveBuffer);
// Set the save pointer and skip the description field
SavePtr = (byte *)SaveBuffer + HXS_DESCRIPTION_LENGTH;
// Check the version text
if (strcmp((char *)SavePtr, HXS_VERSION_TEXT))
{ // Bad version
return;
}
SavePtr += HXS_VERSION_TEXT_LENGTH;
AssertSegment(ASEG_GAME_HEADER);
gameepisode = 1;
gamemap = GET_BYTE();
gameskill = GET_BYTE();
// Read global script info
memcpy(WorldVars, SavePtr, sizeof(WorldVars));
SavePtr += sizeof(WorldVars);
memcpy(ACSStore, SavePtr, sizeof(ACSStore));
SavePtr += sizeof(ACSStore);
for (i = 0; i < MAX_ACS_WORLD_VARS; i++)
{
WorldVars[i] = (int) LONG(WorldVars[i]);
}
for (i = 0; i <= MAX_ACS_STORE; i++)
{
ACSStore[i].map = (int) LONG(ACSStore[i].map);
ACSStore[i].script = (int) LONG(ACSStore[i].script);
}
// Read the player structures
UnarchivePlayers();
AssertSegment(ASEG_END);
Z_Free(SaveBuffer);
// Save player structs
for (i = 0; i < MAXPLAYERS; i++)
{
playerBackup[i] = players[i];
}
// Load the current map
SV_LoadMap();
// Don't need the player mobj relocation info for load game
Z_Free(TargetPlayerAddrs);
TargetPlayerAddrs = NULL;
// Restore player structs
inv_ptr = 0;
curpos = 0;
for (i = 0; i < MAXPLAYERS; i++)
{
mobj = players[i].mo;
players[i] = playerBackup[i];
players[i].mo = mobj;
if (i == consoleplayer)
{
players[i].readyArtifact = players[i].inventory[inv_ptr].type;
}
}
}
//==========================================================================
//
// SV_UpdateRebornSlot
//
// Copies the base slot to the reborn slot.
//
//==========================================================================
void SV_UpdateRebornSlot(void)
{
ClearSaveSlot(REBORN_SLOT);
CopySaveSlot(BASE_SLOT, REBORN_SLOT);
}
//==========================================================================
//
// SV_ClearRebornSlot
//
//==========================================================================
void SV_ClearRebornSlot(void)
{
ClearSaveSlot(REBORN_SLOT);
}
//==========================================================================
//
// SV_MapTeleport
//
//==========================================================================
void SV_MapTeleport(int map, int position)
{
int i;
int j;
char fileName[MAX_OSPATH];
player_t playerBackup[MAXPLAYERS];
mobj_t *mobj;
mobj_t *targetPlayerMobj;
int inventoryPtr;
int currentInvPos;
boolean rClass;
boolean playerWasReborn;
boolean oldWeaponowned[NUMWEAPONS];
int oldKeys = 0; /* jim added initialiser */
int oldPieces = 0; /* jim added initialiser */
int bestWeapon;
if (!deathmatch)
{
if (P_GetMapCluster(gamemap) == P_GetMapCluster(map))
{ // Same cluster - save map without saving player mobjs
SV_SaveMap(false);
}
else
{ // Entering new cluster - clear base slot
ClearSaveSlot(BASE_SLOT);
}
}
// Store player structs for later
rClass = randomclass;
randomclass = false;
for (i = 0; i < MAXPLAYERS; i++)
{
playerBackup[i] = players[i];
}
// Save some globals that get trashed during the load
inventoryPtr = inv_ptr;
currentInvPos = curpos;
gamemap = map;
snprintf(fileName, sizeof(fileName), "%shex6%02d.hxs", basePath, gamemap);
if (!deathmatch && ExistingFile(fileName))
{ // Unarchive map
SV_LoadMap();
}
else
{ // New map
G_InitNew(gameskill, gameepisode, gamemap);
// Destroy all freshly spawned players
for (i = 0; i < MAXPLAYERS; i++)
{
if (playeringame[i])
{
P_RemoveMobj(players[i].mo);
}
}
}
// Restore player structs
targetPlayerMobj = NULL;
for (i = 0; i < MAXPLAYERS; i++)
{
if (!playeringame[i])
{
continue;
}
players[i] = playerBackup[i];
P_ClearMessage(&players[i]);
players[i].attacker = NULL;
players[i].poisoner = NULL;
if (netgame)
{
if (players[i].playerstate == PST_DEAD)
{ // In a network game, force all players to be alive
players[i].playerstate = PST_REBORN;
}
if (!deathmatch)
{ // Cooperative net-play, retain keys and weapons
oldKeys = players[i].keys;
oldPieces = players[i].pieces;
for (j = 0; j < NUMWEAPONS; j++)
{
oldWeaponowned[j] = players[i].weaponowned[j];
}
}
}
playerWasReborn = (players[i].playerstate == PST_REBORN);
if (deathmatch)
{
memset(players[i].frags, 0, sizeof(players[i].frags));
mobj = P_SpawnMobj(playerstarts[0][i].x<<16,
playerstarts[0][i].y<<16, 0, MT_PLAYER_FIGHTER);
players[i].mo = mobj;
G_DeathMatchSpawnPlayer(i);
P_RemoveMobj(mobj);
}
else
{
P_SpawnPlayer(&playerstarts[position][i]);
}
if (playerWasReborn && netgame && !deathmatch)
{ // Restore keys and weapons when reborn in co-op
players[i].keys = oldKeys;
players[i].pieces = oldPieces;
for (bestWeapon = 0, j = 0; j < NUMWEAPONS; j++)
{
if (oldWeaponowned[j])
{
bestWeapon = j;
players[i].weaponowned[j] = true;
}
}
players[i].mana[MANA_1] = 25;
players[i].mana[MANA_2] = 25;
if (bestWeapon)
{ // Bring up the best weapon
players[i].pendingweapon = bestWeapon;
}
}
if (targetPlayerMobj == NULL)
{ // The poor sap
targetPlayerMobj = players[i].mo;
}
}
randomclass = rClass;
// Redirect anything targeting a player mobj
if (TargetPlayerAddrs)
{
for (i = 0; i < TargetPlayerCount; i++)
{
*TargetPlayerAddrs[i] = (intptr_t)targetPlayerMobj;
}
Z_Free(TargetPlayerAddrs);
TargetPlayerAddrs = NULL;
}
// Destroy all things touching players
for (i = 0; i < MAXPLAYERS; i++)
{
if (playeringame[i])
{
P_TeleportMove(players[i].mo, players[i].mo->x, players[i].mo->y);
}
}
// Restore trashed globals
inv_ptr = inventoryPtr;
curpos = currentInvPos;
// Launch waiting scripts
if (!deathmatch)
{
P_CheckACSStore();
}
// For single play, save immediately into the reborn slot
if (!netgame)
{
SV_SaveGame(REBORN_SLOT, REBORN_DESCRIPTION);
}
}
//==========================================================================
//
// SV_GetRebornSlot
//
//==========================================================================
int SV_GetRebornSlot(void)
{
return (REBORN_SLOT);
}
//==========================================================================
//
// SV_RebornSlotAvailable
//
// Returns true if the reborn slot is available.
//
//==========================================================================
boolean SV_RebornSlotAvailable(void)
{
char fileName[MAX_OSPATH];
snprintf(fileName, sizeof(fileName), "%shex%d.hxs", basePath, REBORN_SLOT);
return ExistingFile(fileName);
}
//==========================================================================
//
// SV_LoadMap
//
//==========================================================================
void SV_LoadMap(void)
{
char fileName[MAX_OSPATH];
// Load a base level
G_InitNew(gameskill, gameepisode, gamemap);
// Remove all thinkers
RemoveAllThinkers();
// Create the name
snprintf(fileName, sizeof(fileName), "%shex6%02d.hxs", basePath, gamemap);
// Load the file
M_ReadFile(fileName, &SaveBuffer);
SavePtr = (byte *) SaveBuffer;
AssertSegment(ASEG_MAP_HEADER);
// Read the level timer
leveltime = GET_LONG();
UnarchiveWorld();
UnarchivePolyobjs();
UnarchiveMobjs();
UnarchiveThinkers();
UnarchiveScripts();
UnarchiveSounds();
UnarchiveMisc();
AssertSegment(ASEG_END);
// Free mobj list and save buffer
Z_Free(MobjList);
Z_Free(SaveBuffer);
}
//==========================================================================
//
// SV_InitBaseSlot
//
//==========================================================================
void SV_InitBaseSlot(void)
{
ClearSaveSlot(BASE_SLOT);
}
//==========================================================================
//
// ArchivePlayers
//
//==========================================================================
static void ArchivePlayers(void)
{
int i, j;
save_player_t savp;
player_t *p;
StreamOutLong(ASEG_PLAYERS);
for (i = 0; i < MAXPLAYERS; i++)
{
StreamOutByte(playeringame[i]);
}
for (i = 0; i < MAXPLAYERS; i++)
{
if (!playeringame[i])
{
continue;
}
StreamOutByte(PlayerClasses[i]);
p = &players[i];
savp.mo_idx = 0;
savp.poisoner_idx = 0;
savp.attacker_idx = 0;
savp.playerstate = (int) LONG(p->playerstate);
savp.cmd.forwardmove = p->cmd.forwardmove;
savp.cmd.sidemove = p->cmd.sidemove;
savp.cmd.angleturn = (short) SHORT(p->cmd.angleturn);
savp.cmd.consistancy = (short) SHORT(p->cmd.consistancy);
savp.cmd.chatchar = p->cmd.chatchar;
savp.cmd.buttons = p->cmd.buttons;
savp.cmd.lookfly = p->cmd.lookfly;
savp.cmd.arti = p->cmd.arti;
savp.playerclass = (int) LONG(p->playerclass);
savp.viewz = (fixed_t) LONG(p->viewz);
savp.viewheight = (fixed_t) LONG(p->viewheight);
savp.deltaviewheight = (fixed_t) LONG(p->deltaviewheight);
savp.bob = (fixed_t) LONG(p->bob);
savp.flyheight = (int) LONG(p->flyheight);
savp.lookdir = (int) LONG(p->lookdir);
savp.centering = (int) LONG(p->centering);
savp.health = (int) LONG(p->health);
for (j = 0; j < NUMARMOR; j++)
{
savp.armorpoints[j] = (int) LONG(p->armorpoints[j]);
}
for (j = 0; j < NUMINVENTORYSLOTS; j++)
{
savp.inventory[j].type = (int) LONG(p->inventory[j].type);
savp.inventory[j].count = (int) LONG(p->inventory[j].count);
}
savp.readyArtifact = (int) LONG(p->readyArtifact);
savp.inventorySlotNum = (int) LONG(p->inventorySlotNum);
savp.artifactCount = (int) LONG(p->artifactCount);
for (j = 0; j < NUMPOWERS; j++)
{
savp.powers[j] = (int) LONG(p->powers[j]);
}
savp.keys = (int) LONG(p->keys);
savp.pieces = (int) LONG(p->pieces);
for (j = 0; j < MAXPLAYERS; j++)
{
savp.frags[j] = (signed int) LONG(p->frags[j]);
}
savp.readyweapon = (int) LONG(p->readyweapon);
savp.pendingweapon = (int) LONG(p->pendingweapon);
for (j = 0; j < NUMWEAPONS; j++)
{
savp.weaponowned[j] = (int) LONG(p->weaponowned[j]);
}
for (j = 0; j < NUMMANA; j++)
{
savp.mana[j] = (int) LONG(p->mana[j]);
}
savp.attackdown = (int) LONG(p->attackdown);
savp.usedown = (int) LONG(p->usedown);
savp.cheats = (int) LONG(p->cheats);
savp.refire = (int) LONG(p->refire);
savp.killcount = (int) LONG(p->killcount);
savp.itemcount = (int) LONG(p->itemcount);
savp.secretcount = (int) LONG(p->secretcount);
memcpy (savp.message, p->message, 80);
savp.messageTics = (int) LONG(p->messageTics);
savp.ultimateMessage = (short) SHORT(p->ultimateMessage);
savp.yellowMessage = (short) SHORT(p->yellowMessage);
savp.damagecount = (int) LONG(p->damagecount);
savp.bonuscount = (int) LONG(p->bonuscount);
savp.poisoncount = (int) LONG(p->poisoncount);
savp.extralight = (int) LONG(p->extralight);
savp.fixedcolormap = (int) LONG(p->fixedcolormap);
savp.colormap = (int) LONG(p->colormap);
savp.morphTics = (int) LONG(p->morphTics);
savp.jumpTics = (unsigned int) LONG(p->jumpTics);
savp.worldTimer = (unsigned int) LONG(p->worldTimer);
for (j = 0; j < NUMPSPRITES; j++)
{
savp.psprites[j].tics = (int) LONG(p->psprites[j].tics);
savp.psprites[j].sx = (fixed_t) LONG(p->psprites[j].sx);
savp.psprites[j].sy = (fixed_t) LONG(p->psprites[j].sy);
if (p->psprites[j].state)
{
savp.psprites[j].state_idx =
LONG((int32_t) (p->psprites[j].state - states));
}
else
{
savp.psprites[j].state_idx = 0;
}
}
StreamOutBuffer(&savp, sizeof(save_player_t));
}
}
//==========================================================================
//
// UnarchivePlayers
//
//==========================================================================
static void UnarchivePlayers(void)
{
int i, j;
save_player_t savp;
player_t *p;
AssertSegment(ASEG_PLAYERS);
for (i = 0; i < MAXPLAYERS; i++)
{
playeringame[i] = GET_BYTE();
}
for (i = 0; i < MAXPLAYERS; i++)
{
if (!playeringame[i])
{
continue;
}
PlayerClasses[i] = GET_BYTE();
memcpy(&savp, SavePtr, sizeof(save_player_t));
SavePtr += sizeof(save_player_t);
p = &players[i];
p->mo = NULL; // Will be set when unarc thinker
p->attacker = NULL;
p->poisoner = NULL;
p->playerstate = (playerstate_t) LONG(savp.playerstate);
p->cmd.forwardmove = savp.cmd.forwardmove;
p->cmd.sidemove = savp.cmd.sidemove;
p->cmd.angleturn = (short) SHORT(savp.cmd.angleturn);
p->cmd.consistancy = (short) SHORT(savp.cmd.consistancy);
p->cmd.chatchar = savp.cmd.chatchar;
p->cmd.buttons = savp.cmd.buttons;
p->cmd.lookfly = savp.cmd.lookfly;
p->cmd.arti = savp.cmd.arti;
p->playerclass = (pclass_t) LONG(savp.playerclass);
p->viewz = (fixed_t) LONG(savp.viewz);
p->viewheight = (fixed_t) LONG(savp.viewheight);
p->deltaviewheight = (fixed_t) LONG(savp.deltaviewheight);
p->bob = (fixed_t) LONG(savp.bob);
p->flyheight = (int) LONG(savp.flyheight);
p->lookdir = (int) LONG(savp.lookdir);
p->centering = !!(LONG(savp.centering));
p->health = (int) LONG(savp.health);
for (j = 0; j < NUMARMOR; j++)
{
p->armorpoints[j] = (int) LONG(savp.armorpoints[j]);
}
for (j = 0; j < NUMINVENTORYSLOTS; j++)
{
p->inventory[j].type = (int) LONG(savp.inventory[j].type);
p->inventory[j].count = (int) LONG(savp.inventory[j].count);
}
p->readyArtifact = (artitype_t) LONG(savp.readyArtifact);
p->artifactCount = (int) LONG(savp.artifactCount);
p->inventorySlotNum = (int) LONG(savp.inventorySlotNum);
for (j = 0; j < NUMPOWERS; j++)
{
p->powers[j] = (int) LONG(savp.powers[j]);
}
p->keys = (int) LONG(savp.keys);
p->pieces = (int) LONG(savp.pieces);
for (j = 0; j < MAXPLAYERS; j++)
{
p->frags[j] = (signed int) LONG(savp.frags[j]);
}
p->readyweapon = (weapontype_t) LONG(savp.readyweapon);
p->pendingweapon = (weapontype_t) LONG(savp.pendingweapon);
for (j = 0; j < NUMWEAPONS; j++)
{
p->weaponowned[j] = !!(LONG(savp.weaponowned[j]));
}
for (j = 0; j < NUMMANA; j++)
{
p->mana[j] = (int) LONG(savp.mana[j]);
}
p->attackdown = (int) LONG(savp.attackdown);
p->usedown = (int) LONG(savp.usedown);
p->cheats = (int) LONG(savp.cheats);
p->refire = (int) LONG(savp.refire);
p->killcount = (int) LONG(savp.killcount);
p->itemcount = (int) LONG(savp.itemcount);
p->secretcount = (int) LONG(savp.secretcount);
memcpy (p->message, savp.message, 80);
p->messageTics = (int) LONG(savp.messageTics);
p->ultimateMessage = (short) SHORT(savp.ultimateMessage);
p->yellowMessage = (short) SHORT(savp.yellowMessage);
p->damagecount = (int) LONG(savp.damagecount);
p->bonuscount = (int) LONG(savp.bonuscount);
p->poisoncount = (int) LONG(savp.poisoncount);
p->extralight = (int) LONG(savp.extralight);
p->fixedcolormap = (int) LONG(savp.fixedcolormap);
p->colormap = (int) LONG(savp.colormap);
p->morphTics = (int) LONG(savp.morphTics);
p->jumpTics = (unsigned int) LONG(savp.jumpTics);
p->worldTimer = (unsigned int) LONG(savp.worldTimer);
P_ClearMessage(p);
for (j = 0; j < NUMPSPRITES; j++)
{
p->psprites[j].tics = (int) LONG(savp.psprites[j].tics);
p->psprites[j].sx = (fixed_t) LONG(savp.psprites[j].sx);
p->psprites[j].sy = (fixed_t) LONG(savp.psprites[j].sy);
if (savp.psprites[j].state_idx)
{
savp.psprites[j].state_idx =
LONG(savp.psprites[j].state_idx);
p->psprites[j].state =
&states[savp.psprites[j].state_idx];
}
else
{
p->psprites[j].state = NULL;
}
}
}
}
//==========================================================================
//
// ArchiveWorld
//
//==========================================================================
static void ArchiveWorld(void)
{
int i;
int j;
sector_t *sec;
line_t *li;
side_t *si;
StreamOutLong(ASEG_WORLD);
for (i = 0, sec = sectors; i < numsectors; i++, sec++)
{
StreamOutWord(sec->floorheight>>FRACBITS);
StreamOutWord(sec->ceilingheight>>FRACBITS);
StreamOutWord(sec->floorpic);
StreamOutWord(sec->ceilingpic);
StreamOutWord(sec->lightlevel);
StreamOutWord(sec->special);
StreamOutWord(sec->tag);
StreamOutWord(sec->seqType);
}
for (i = 0, li = lines; i < numlines; i++, li++)
{
StreamOutWord(li->flags);
StreamOutByte(li->special);
StreamOutByte(li->arg1);
StreamOutByte(li->arg2);
StreamOutByte(li->arg3);
StreamOutByte(li->arg4);
StreamOutByte(li->arg5);
for (j = 0; j < 2; j++)
{
if (li->sidenum[j] == -1)
{
continue;
}
si = &sides[li->sidenum[j]];
StreamOutWord(si->textureoffset>>FRACBITS);
StreamOutWord(si->rowoffset>>FRACBITS);
StreamOutWord(si->toptexture);
StreamOutWord(si->bottomtexture);
StreamOutWord(si->midtexture);
}
}
}
//==========================================================================
//
// UnarchiveWorld
//
//==========================================================================
static void UnarchiveWorld(void)
{
int i;
int j;
sector_t *sec;
line_t *li;
side_t *si;
AssertSegment(ASEG_WORLD);
for (i = 0, sec = sectors; i < numsectors; i++, sec++)
{
sec->floorheight = ((fixed_t) GET_WORD())<<FRACBITS;
sec->ceilingheight = ((fixed_t) GET_WORD())<<FRACBITS;
sec->floorpic = GET_WORD();
sec->ceilingpic = GET_WORD();
sec->lightlevel = GET_WORD();
sec->special = GET_WORD();
sec->tag = GET_WORD();
sec->seqType = GET_WORD();
sec->specialdata = NULL;
sec->soundtarget = NULL;
}
for (i = 0, li = lines; i < numlines; i++, li++)
{
li->flags = GET_WORD();
li->special = GET_BYTE();
li->arg1 = GET_BYTE();
li->arg2 = GET_BYTE();
li->arg3 = GET_BYTE();
li->arg4 = GET_BYTE();
li->arg5 = GET_BYTE();
for (j = 0; j < 2; j++)
{
if (li->sidenum[j] == -1)
{
continue;
}
si = &sides[li->sidenum[j]];
si->textureoffset = ((fixed_t) GET_WORD())<<FRACBITS;
si->rowoffset = ((fixed_t) GET_WORD())<<FRACBITS;
si->toptexture = GET_WORD();
si->bottomtexture = GET_WORD();
si->midtexture = GET_WORD();
}
}
}
//==========================================================================
//
// SetMobjArchiveNums
//
// Sets the archive numbers in all mobj structs. Also sets the MobjCount
// global. Ignores player mobjs if SavingPlayers is false.
//
//==========================================================================
static void SetMobjArchiveNums(void)
{
mobj_t *mobj;
thinker_t *thinker;
MobjCount = 0;
for (thinker = thinkercap.next; thinker != &thinkercap;
thinker = thinker->next)
{
if (thinker->function == P_MobjThinker)
{
mobj = (mobj_t *)thinker;
if (mobj->player && !SavingPlayers)
{ // Skipping player mobjs
continue;
}
mobj->archiveNum = MobjCount++;
}
}
}
//==========================================================================
//
// ArchiveMobjs
//
//==========================================================================
static void ArchiveMobjs(void)
{
int count;
thinker_t *thinker;
save_mobj_t tempMobj;
mobj_t *mobj;
StreamOutLong(ASEG_MOBJS);
StreamOutLong(MobjCount);
count = 0;
for (thinker = thinkercap.next; thinker != &thinkercap;
thinker = thinker->next)
{
if (thinker->function != P_MobjThinker)
{ // Not a mobj thinker
continue;
}
mobj = (mobj_t *)thinker;
if (mobj->player && !SavingPlayers)
{ // Skipping player mobjs
continue;
}
count++;
memset(&tempMobj, 0, sizeof(save_mobj_t));
MangleMobj(mobj, &tempMobj);
StreamOutBuffer(&tempMobj, sizeof(save_mobj_t));
}
if (count != MobjCount)
{
I_Error("ArchiveMobjs: bad mobj count");
}
}
//==========================================================================
//
// UnarchiveMobjs
//
//==========================================================================
static void UnarchiveMobjs(void)
{
int i;
save_mobj_t tempMobj;
mobj_t *mobj;
AssertSegment(ASEG_MOBJS);
TargetPlayerAddrs = (intptr_t **) Z_Malloc(MAX_TARGET_PLAYERS*sizeof(intptr_t *), PU_STATIC, NULL);
TargetPlayerCount = 0;
MobjCount = GET_LONG();
MobjList = (mobj_t **) Z_Malloc(MobjCount*sizeof(mobj_t *), PU_STATIC, NULL);
for (i = 0; i < MobjCount; i++)
{
MobjList[i] = (mobj_t *) Z_Malloc(sizeof(mobj_t), PU_LEVEL, NULL);
}
for (i = 0; i < MobjCount; i++)
{
mobj = MobjList[i];
memset(&tempMobj, 0, sizeof(save_mobj_t));
memset(mobj, 0, sizeof(mobj_t));
memcpy(&tempMobj, SavePtr, sizeof(save_mobj_t));
SavePtr += sizeof(save_mobj_t);
RestoreMobj(mobj, &tempMobj);
P_AddThinker(&mobj->thinker);
}
P_CreateTIDList();
P_InitCreatureCorpseQueue(true); // true = scan for corpses
}
//==========================================================================
//
// MangleMobj
//
//==========================================================================
static void MangleMobj(mobj_t *mobj, save_mobj_t *temp)
{
boolean corpse;
temp->x = (fixed_t) LONG(mobj->x);
temp->y = (fixed_t) LONG(mobj->y);
temp->z = (fixed_t) LONG(mobj->z);
temp->angle = (angle_t) LONG(mobj->angle);
temp->sprite = (int) LONG(mobj->sprite);
temp->frame = (int) LONG(mobj->frame);
temp->floorpic = (fixed_t) LONG(mobj->floorpic);
temp->radius = (fixed_t) LONG(mobj->radius);
temp->height = (fixed_t) LONG(mobj->height);
temp->momx = (fixed_t) LONG(mobj->momx);
temp->momy = (fixed_t) LONG(mobj->momy);
temp->momz = (fixed_t) LONG(mobj->momz);
temp->validcount = (int) LONG(mobj->validcount);
temp->type = (int) LONG(mobj->type);
temp->tics = (int) LONG(mobj->tics);
temp->damage = (int) LONG(mobj->damage);
temp->flags = (int) LONG(mobj->flags);
temp->flags2 = (int) LONG(mobj->flags2);
temp->health = (int) LONG(mobj->health);
temp->movedir = (int) LONG(mobj->movedir);
temp->movecount = (int) LONG(mobj->movecount);
temp->reactiontime = (int) LONG(mobj->reactiontime);
temp->threshold = (int) LONG(mobj->threshold);
temp->lastlook = (int) LONG(mobj->lastlook);
temp->floorclip = (fixed_t) LONG(mobj->floorclip);
temp->archiveNum = (int) LONG(mobj->archiveNum);
temp->tid = (short) SHORT(mobj->tid);
temp->special = mobj->special;
temp->args[0] = mobj->args[0];
temp->args[1] = mobj->args[1];
temp->args[2] = mobj->args[2];
temp->args[3] = mobj->args[3];
temp->args[4] = mobj->args[4];
corpse = mobj->flags & MF_CORPSE;
temp->state_idx = LONG((int32_t)(mobj->state - states));
if (mobj->player)
{
temp->player_idx = LONG((int32_t)((mobj->player - players) + 1));
}
if (corpse)
{
temp->target_idx = (int32_t) LONG(MOBJ_NULL);
}
else
{
temp->target_idx = (int32_t) LONG(GetMobjNum(mobj->target));
}
switch (mobj->type)
{
// Just special1
case MT_BISH_FX:
case MT_HOLY_FX:
case MT_DRAGON:
case MT_THRUSTFLOOR_UP:
case MT_THRUSTFLOOR_DOWN:
case MT_MINOTAUR:
case MT_SORCFX1:
case MT_MSTAFF_FX2:
if (corpse)
{
temp->special1 = (int32_t) LONG(MOBJ_NULL);
}
else
{
temp->special1 = (int32_t) LONG(GetMobjNum((mobj_t *)mobj->special1));
}
break;
// Just special2
case MT_LIGHTNING_FLOOR:
case MT_LIGHTNING_ZAP:
if (corpse)
{
temp->special2 = (int32_t) LONG(MOBJ_NULL);
}
else
{
temp->special2 = (int32_t) LONG(GetMobjNum((mobj_t *)mobj->special2));
}
break;
// Both special1 and special2
case MT_HOLY_TAIL:
case MT_LIGHTNING_CEILING:
if (corpse)
{
temp->special1 = (int32_t) LONG(MOBJ_NULL);
temp->special2 = (int32_t) LONG(MOBJ_NULL);
}
else
{
temp->special1 = (int32_t) LONG(GetMobjNum((mobj_t *)mobj->special1));
temp->special2 = (int32_t) LONG(GetMobjNum((mobj_t *)mobj->special2));
}
break;
// Miscellaneous
case MT_KORAX:
temp->special1 = 0; // Searching index
break;
default:
break;
}
}
//==========================================================================
//
// GetMobjNum
//
//==========================================================================
static int32_t GetMobjNum(mobj_t *mobj)
{
if (mobj == NULL)
{
return MOBJ_NULL;
}
if (mobj->player && !SavingPlayers)
{
return MOBJ_XX_PLAYER;
}
return mobj->archiveNum;
}
//==========================================================================
//
// RestoreMobj
//
//==========================================================================
static void RestoreMobj(mobj_t *mobj, save_mobj_t *temp)
{
mobj->x = (fixed_t) LONG(temp->x);
mobj->y = (fixed_t) LONG(temp->y);
mobj->z = (fixed_t) LONG(temp->z);
mobj->angle = (angle_t) LONG(temp->angle);
mobj->sprite = (spritenum_t) LONG(temp->sprite);
mobj->frame = (int) LONG(temp->frame);
mobj->floorpic = (fixed_t) LONG(temp->floorpic);
mobj->radius = (fixed_t) LONG(temp->radius);
mobj->height = (fixed_t) LONG(temp->height);
mobj->momx = (fixed_t) LONG(temp->momx);
mobj->momy = (fixed_t) LONG(temp->momy);
mobj->momz = (fixed_t) LONG(temp->momz);
mobj->validcount = (int) LONG(temp->validcount);
mobj->type = (mobjtype_t) LONG(temp->type);
mobj->tics = (int) LONG(temp->tics);
mobj->damage = (int) LONG(temp->damage);
mobj->flags = (int) LONG(temp->flags);
mobj->flags2 = (int) LONG(temp->flags2);
mobj->health = (int) LONG(temp->health);
mobj->movedir = (int) LONG(temp->movedir);
mobj->movecount = (int) LONG(temp->movecount);
mobj->reactiontime = (int) LONG(temp->reactiontime);
mobj->threshold = (int) LONG(temp->threshold);
mobj->lastlook = (int) LONG(temp->lastlook);
mobj->floorclip = (fixed_t) LONG(temp->floorclip);
mobj->archiveNum = (int) LONG(temp->archiveNum);
mobj->tid = (short) SHORT(temp->tid);
mobj->special = temp->special;
mobj->args[0] = temp->args[0];
mobj->args[1] = temp->args[1];
mobj->args[2] = temp->args[2];
mobj->args[3] = temp->args[3];
mobj->args[4] = temp->args[4];
temp->state_idx = (int32_t) LONG(temp->state_idx);
temp->player_idx = (int32_t) LONG(temp->player_idx);
temp->target_idx = (int32_t) LONG(temp->target_idx);
temp->special1 = (int32_t) LONG(temp->special1);
temp->special2 = (int32_t) LONG(temp->special2);
mobj->thinker.function = P_MobjThinker;
mobj->state = &states[temp->state_idx];
if (temp->player_idx)
{
mobj->player = &players[temp->player_idx - 1];
mobj->player->mo = mobj;
}
P_SetThingPosition(mobj);
mobj->info = &mobjinfo[mobj->type];
mobj->floorz = mobj->subsector->sector->floorheight;
mobj->ceilingz = mobj->subsector->sector->ceilingheight;
mobj->target = GetMobjPtr(temp->target_idx, (intptr_t *)(void *)&mobj->target);
switch (mobj->type)
{
// Just special1
case MT_BISH_FX:
case MT_HOLY_FX:
case MT_DRAGON:
case MT_THRUSTFLOOR_UP:
case MT_THRUSTFLOOR_DOWN:
case MT_MINOTAUR:
case MT_SORCFX1:
mobj->special1 = (intptr_t) GetMobjPtr(temp->special1, &mobj->special1);
break;
// Just special2
case MT_LIGHTNING_FLOOR:
case MT_LIGHTNING_ZAP:
mobj->special2 = (intptr_t) GetMobjPtr(temp->special2, &mobj->special2);
break;
// Both special1 and special2
case MT_HOLY_TAIL:
case MT_LIGHTNING_CEILING:
mobj->special1 = (intptr_t) GetMobjPtr(temp->special1, &mobj->special1);
mobj->special2 = (intptr_t) GetMobjPtr(temp->special2, &mobj->special2);
break;
default:
break;
}
}
//==========================================================================
//
// GetMobjPtr
//
//==========================================================================
static mobj_t *GetMobjPtr(int32_t archiveNum, intptr_t *target)
{
if (archiveNum == MOBJ_NULL)
{
return NULL;
}
if (archiveNum == MOBJ_XX_PLAYER)
{
if (TargetPlayerCount == MAX_TARGET_PLAYERS)
{
I_Error("RestoreMobj: exceeded MAX_TARGET_PLAYERS");
}
TargetPlayerAddrs[TargetPlayerCount++] = target;
return NULL;
}
return MobjList[archiveNum];
}
//==========================================================================
//
// ArchiveThinkers
//
//==========================================================================
static void ArchiveThinkers(void)
{
thinker_t *thinker;
thinkInfo_t *info;
byte buffer[MAX_THINKER_SIZE];
StreamOutLong(ASEG_THINKERS);
for (thinker = thinkercap.next; thinker != &thinkercap;
thinker = thinker->next)
{
for (info = ThinkerInfo; info->tClass != TC_NULL; info++)
{
if (thinker->function == info->thinkerFunc)
{
StreamOutByte(info->tClass);
memset(buffer, 0, sizeof(buffer));
info->mangleFunc(thinker, buffer);
StreamOutBuffer(buffer, info->savesize);
break;
}
}
}
// Add a termination marker
StreamOutByte(TC_NULL);
}
//==========================================================================
//
// UnarchiveThinkers
//
//==========================================================================
static void UnarchiveThinkers(void)
{
int tClass;
thinker_t *thinker;
thinkInfo_t *info;
byte buffer[MAX_THINKER_SIZE];
AssertSegment(ASEG_THINKERS);
while ((tClass = GET_BYTE()) != TC_NULL)
{
for (info = ThinkerInfo; info->tClass != TC_NULL; info++)
{
if (tClass == info->tClass)
{
thinker = (thinker_t *) Z_Malloc(info->realsize, PU_LEVEL, NULL);
memset(thinker, 0, info->realsize);
memset(buffer, 0, sizeof(buffer));
memcpy(buffer, SavePtr, info->savesize);
SavePtr += info->savesize;
thinker->function = info->thinkerFunc;
info->restoreFunc(thinker, buffer);
P_AddThinker(thinker);
break;
}
}
if (info->tClass == TC_NULL)
{
I_Error("UnarchiveThinkers: Unknown tClass %d in savegame", tClass);
}
}
}
//==========================================================================
//
// MangleFloorMove
//
//==========================================================================
static void MangleFloorMove(void *arg1, void *arg2)
{
floormove_t *fm = (floormove_t *) arg1;
save_floormove_t *temp = (save_floormove_t *) arg2;
temp->sector_idx = LONG((int32_t)(fm->sector - sectors));
temp->type = (int) LONG(fm->type);
temp->crush = (int) LONG(fm->crush);
temp->direction = (int) LONG(fm->direction);
temp->newspecial = (int) LONG(fm->newspecial);
temp->texture = (short) SHORT(fm->texture);
temp->floordestheight = (fixed_t) LONG(fm->floordestheight);
temp->speed = (fixed_t) LONG(fm->speed);
temp->delayCount = (int) LONG(fm->delayCount);
temp->delayTotal = (int) LONG(fm->delayTotal);
temp->stairsDelayHeight = (fixed_t) LONG(fm->stairsDelayHeight);
temp->stairsDelayHeightDelta = (fixed_t) LONG(fm->stairsDelayHeightDelta);
temp->resetHeight = (fixed_t) LONG(fm->resetHeight);
temp->resetDelay = (short) SHORT(fm->resetDelay);
temp->resetDelayCount = (short) SHORT(fm->resetDelayCount);
temp->textureChange = fm->textureChange;
}
//==========================================================================
//
// RestoreFloorMove
//
//==========================================================================
static void RestoreFloorMove(void *arg1, void *arg2)
{
floormove_t *fm = (floormove_t *) arg1;
save_floormove_t *temp = (save_floormove_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
fm->sector = §ors[temp->sector_idx];
fm->sector->specialdata = T_MoveFloor; //fm->thinker.function
fm->type = (floor_e) LONG(temp->type);
fm->crush = (int) LONG(temp->crush);
fm->direction = (int) LONG(temp->direction);
fm->newspecial = (int) LONG(temp->newspecial);
fm->texture = (short) SHORT(temp->texture);
fm->floordestheight = (fixed_t) LONG(temp->floordestheight);
fm->speed = (fixed_t) LONG(temp->speed);
fm->delayCount = (int) LONG(temp->delayCount);
fm->delayTotal = (int) LONG(temp->delayTotal);
fm->stairsDelayHeight = (fixed_t) LONG(temp->stairsDelayHeight);
fm->stairsDelayHeightDelta = (fixed_t) LONG(temp->stairsDelayHeightDelta);
fm->resetHeight = (fixed_t) LONG(temp->resetHeight);
fm->resetDelay = (short) SHORT(temp->resetDelay);
fm->resetDelayCount = (short) SHORT(temp->resetDelayCount);
fm->textureChange = temp->textureChange;
}
//==========================================================================
//
// MangleLight
//
//==========================================================================
static void MangleLight(void *arg1, void *arg2)
{
light_t *light = (light_t *) arg1;
save_light_t *temp = (save_light_t *) arg2;
temp->sector_idx = LONG((int32_t)(light->sector - sectors));
temp->type = (int) LONG(light->type);
temp->value1 = (int) LONG(light->value1);
temp->value2 = (int) LONG(light->value2);
temp->tics1 = (int) LONG(light->tics1);
temp->tics2 = (int) LONG(light->tics2);
temp->count = (int) LONG(light->count);
}
//==========================================================================
//
// RestoreLight
//
//==========================================================================
static void RestoreLight(void *arg1, void *arg2)
{
light_t *light = (light_t *) arg1;
save_light_t *temp = (save_light_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
light->sector = §ors[temp->sector_idx];
light->type = (lighttype_t) LONG(temp->type);
light->value1 = (int) LONG(temp->value1);
light->value2 = (int) LONG(temp->value2);
light->tics1 = (int) LONG(temp->tics1);
light->tics2 = (int) LONG(temp->tics2);
light->count = (int) LONG(temp->count);
}
//==========================================================================
//
// MangleVerticalDoor
//
//==========================================================================
static void MangleVerticalDoor(void *arg1, void *arg2)
{
vldoor_t *vldoor = (vldoor_t *) arg1;
save_vldoor_t *temp = (save_vldoor_t *) arg2;
temp->sector_idx = LONG((int32_t)(vldoor->sector - sectors));
temp->type = (int) LONG(vldoor->type);
temp->topheight = (fixed_t) LONG(vldoor->topheight);
temp->speed = (fixed_t) LONG(vldoor->speed);
temp->direction = (int) LONG(vldoor->direction);
temp->topwait = (int) LONG(vldoor->topwait);
temp->topcountdown = (int) LONG(vldoor->topcountdown);
}
//==========================================================================
//
// RestoreVerticalDoor
//
//==========================================================================
static void RestoreVerticalDoor(void *arg1, void *arg2)
{
vldoor_t *vldoor = (vldoor_t *) arg1;
save_vldoor_t *temp = (save_vldoor_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
vldoor->sector = §ors[temp->sector_idx];
vldoor->sector->specialdata = T_VerticalDoor; //vldoor->thinker.function
vldoor->type = (vldoor_e) LONG(temp->type);
vldoor->topheight = (fixed_t) LONG(temp->topheight);
vldoor->speed = (fixed_t) LONG(temp->speed);
vldoor->direction = (int) LONG(temp->direction);
vldoor->topwait = (int) LONG(temp->topwait);
vldoor->topcountdown = (int) LONG(temp->topcountdown);
}
//==========================================================================
//
// ManglePhase
//
//==========================================================================
static void ManglePhase(void *arg1, void *arg2)
{
phase_t *phase = (phase_t *) arg1;
save_phase_t *temp = (save_phase_t *) arg2;
temp->sector_idx = LONG((int32_t)(phase->sector - sectors));
temp->index = (int) LONG(phase->index);
temp->base = (int) LONG(phase->base);
}
//==========================================================================
//
// RestorePhase
//
//==========================================================================
static void RestorePhase(void *arg1, void *arg2)
{
phase_t *phase = (phase_t *) arg1;
save_phase_t *temp = (save_phase_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
phase->sector = §ors[temp->sector_idx];
phase->index = (int) LONG(temp->index);
phase->base = (int) LONG(temp->base);
}
//==========================================================================
//
// ManglePillar
//
//==========================================================================
static void ManglePillar(void *arg1, void *arg2)
{
pillar_t *pillar = (pillar_t *) arg1;
save_pillar_t *temp = (save_pillar_t *) arg2;
temp->sector_idx = LONG((int32_t)(pillar->sector - sectors));
temp->ceilingSpeed = (int) LONG(pillar->ceilingSpeed);
temp->floorSpeed = (int) LONG(pillar->floorSpeed);
temp->floordest = (int) LONG(pillar->floordest);
temp->ceilingdest = (int) LONG(pillar->ceilingdest);
temp->direction = (int) LONG(pillar->direction);
temp->crush = (int) LONG(pillar->crush);
}
//==========================================================================
//
// RestorePillar
//
//==========================================================================
static void RestorePillar(void *arg1, void *arg2)
{
pillar_t *pillar = (pillar_t *) arg1;
save_pillar_t *temp = (save_pillar_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
pillar->sector = §ors[temp->sector_idx];
pillar->sector->specialdata = T_BuildPillar; //pillar->thinker.function
pillar->ceilingSpeed = (int) LONG(temp->ceilingSpeed);
pillar->floorSpeed = (int) LONG(temp->floorSpeed);
pillar->floordest = (int) LONG(temp->floordest);
pillar->ceilingdest = (int) LONG(temp->ceilingdest);
pillar->direction = (int) LONG(temp->direction);
pillar->crush = (int) LONG(temp->crush);
}
//==========================================================================
//
// MangleFloorWaggle
//
//==========================================================================
static void MangleFloorWaggle(void *arg1, void *arg2)
{
floorWaggle_t *fw = (floorWaggle_t *) arg1;
save_floorWaggle_t *temp = (save_floorWaggle_t *) arg2;
temp->sector_idx = LONG((int32_t)(fw->sector - sectors));
temp->originalHeight = (fixed_t) LONG(fw->originalHeight);
temp->accumulator = (fixed_t) LONG(fw->accumulator);
temp->accDelta = (fixed_t) LONG(fw->accDelta);
temp->targetScale = (fixed_t) LONG(fw->targetScale);
temp->scale = (fixed_t) LONG(fw->scale);
temp->scaleDelta = (fixed_t) LONG(fw->scaleDelta);
temp->ticker = (int) LONG(fw->ticker);
temp->state = (int) LONG(fw->state);
}
//==========================================================================
//
// RestoreFloorWaggle
//
//==========================================================================
static void RestoreFloorWaggle(void *arg1, void *arg2)
{
floorWaggle_t *fw = (floorWaggle_t *) arg1;
save_floorWaggle_t *temp = (save_floorWaggle_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
fw->sector = §ors[temp->sector_idx];
fw->sector->specialdata = T_FloorWaggle; //fw->thinker.function
fw->originalHeight = (fixed_t) LONG(temp->originalHeight);
fw->accumulator = (fixed_t) LONG(temp->accumulator);
fw->accDelta = (fixed_t) LONG(temp->accDelta);
fw->targetScale = (fixed_t) LONG(temp->targetScale);
fw->scale = (fixed_t) LONG(temp->scale);
fw->scaleDelta = (fixed_t) LONG(temp->scaleDelta);
fw->ticker = (int) LONG(temp->ticker);
fw->state = (int) LONG(temp->state);
}
//==========================================================================
//
// ManglePolyEvent
//
//==========================================================================
static void ManglePolyEvent(void *arg1, void *arg2)
{
polyevent_t *pe = (polyevent_t *) arg1;
save_polyevent_t *temp = (save_polyevent_t *) arg2;
temp->polyobj = LONG(pe->polyobj);
temp->speed = LONG(pe->speed);
temp->dist = LONG(pe->dist);
temp->angle = LONG(pe->angle);
temp->xSpeed = LONG(pe->xSpeed);
temp->ySpeed = LONG(pe->ySpeed);
}
//==========================================================================
//
// RestorePolyEvent
//
//==========================================================================
static void RestorePolyEvent(void *arg1, void *arg2)
{
polyevent_t *pe = (polyevent_t *) arg1;
save_polyevent_t *temp = (save_polyevent_t *) arg2;
pe->polyobj = (int) LONG(temp->polyobj);
pe->speed = (int) LONG(temp->speed);
pe->dist = (unsigned int) LONG(temp->dist);
pe->angle = (int) LONG(temp->angle);
pe->xSpeed = (fixed_t) LONG(temp->xSpeed);
pe->ySpeed = (fixed_t) LONG(temp->ySpeed);
}
//==========================================================================
//
// ManglePolyDoor
//
//==========================================================================
static void ManglePolyDoor(void *arg1, void *arg2)
{
polydoor_t *pd = (polydoor_t *) arg1;
save_polydoor_t *temp = (save_polydoor_t *) arg2;
temp->polyobj = (int) LONG(pd->polyobj);
temp->speed = (int) LONG(pd->speed);
temp->dist = (int) LONG(pd->dist);
temp->totalDist = (int) LONG(pd->totalDist);
temp->direction = (int) LONG(pd->direction);
temp->xSpeed = (fixed_t) LONG(pd->xSpeed);
temp->ySpeed = (fixed_t) LONG(pd->ySpeed);
temp->tics = (int) LONG(pd->tics);
temp->waitTics = (int) LONG(pd->waitTics);
temp->type = (int) LONG(pd->type);
temp->close = (int) LONG(pd->close);
}
//==========================================================================
//
// RestorePolyEvent
//
//==========================================================================
static void RestorePolyDoor(void *arg1, void *arg2)
{
polydoor_t *pd = (polydoor_t *) arg1;
save_polydoor_t *temp = (save_polydoor_t *) arg2;
pd->polyobj = (int) LONG(temp->polyobj);
pd->speed = (int) LONG(temp->speed);
pd->dist = (int) LONG(temp->dist);
pd->totalDist = (int) LONG(temp->totalDist);
pd->direction = (int) LONG(temp->direction);
pd->xSpeed = (fixed_t) LONG(temp->xSpeed);
pd->ySpeed = (fixed_t) LONG(temp->ySpeed);
pd->tics = (int) LONG(temp->tics);
pd->waitTics = (int) LONG(temp->waitTics);
pd->type = (podoortype_t) LONG(temp->type);
pd->close = !!(LONG(temp->close));
}
//==========================================================================
//
// MangleScript
//
//==========================================================================
static void MangleScript(void *arg1, void *arg2)
{
int i;
acs_t *script = (acs_t *) arg1;
save_acs_t *temp = (save_acs_t *) arg2;
temp->ip_idx = LONG((int32_t)((intptr_t)(script->ip) - (intptr_t)ActionCodeBase));
temp->line_idx = script->line ? LONG((int32_t)(script->line - lines)) : (int32_t)LONG(-1);
temp->activator_idx = (int32_t) LONG(GetMobjNum(script->activator));
temp->side = (int) LONG(script->side);
temp->number = (int) LONG(script->number);
temp->infoIndex = (int) LONG(script->infoIndex);
temp->delayCount = (int) LONG(script->delayCount);
temp->stackPtr = (int) LONG(script->stackPtr);
for (i = 0; i < ACS_STACK_DEPTH; i++)
{
temp->stack[i] = (int) LONG(script->stack[i]);
}
for (i = 0; i < MAX_ACS_SCRIPT_VARS; i++)
{
temp->vars[i] = (int) LONG(script->vars[i]);
}
}
//==========================================================================
//
// RestoreScript
//
//==========================================================================
static void RestoreScript(void *arg1, void *arg2)
{
int i;
acs_t *script = (acs_t *) arg1;
save_acs_t *temp = (save_acs_t *) arg2;
temp->ip_idx = (int32_t) LONG(temp->ip_idx);
temp->line_idx = (int32_t) LONG(temp->line_idx);
temp->activator_idx = (int32_t) LONG(temp->activator_idx);
script->ip = ActionCodeBase + temp->ip_idx;
if (temp->line_idx == -1)
{
script->line = NULL;
}
else
{
script->line = &lines[temp->line_idx];
}
script->activator = GetMobjPtr(temp->activator_idx, (intptr_t *)(void *)&script->activator);
script->side = (int) LONG(temp->side);
script->number = (int) LONG(temp->number);
script->infoIndex = (int) LONG(temp->infoIndex);
script->delayCount = (int) LONG(temp->delayCount);
script->stackPtr = (int) LONG(temp->stackPtr);
for (i = 0; i < ACS_STACK_DEPTH; i++)
{
script->stack[i] = (int) LONG(temp->stack[i]);
}
for (i = 0; i < MAX_ACS_SCRIPT_VARS; i++)
{
script->vars[i] = (int) LONG(temp->vars[i]);
}
}
//==========================================================================
//
// ManglePlatRaise
//
//==========================================================================
static void ManglePlatRaise(void *arg1, void *arg2)
{
plat_t *plat = (plat_t *) arg1;
save_plat_t *temp = (save_plat_t *) arg2;
temp->sector_idx = LONG((int32_t)(plat->sector - sectors));
temp->speed = (fixed_t) LONG(plat->speed);
temp->low = (fixed_t) LONG(plat->low);
temp->high = (fixed_t) LONG(plat->high);
temp->wait = (int) LONG(plat->wait);
temp->count = (int) LONG(plat->count);
temp->status = (int) LONG(plat->status);
temp->oldstatus = (int) LONG(plat->oldstatus);
temp->crush = (int) LONG(plat->crush);
temp->tag = (int) LONG(plat->tag);
temp->type = (int) LONG(plat->type);
}
//==========================================================================
//
// RestorePlatRaise
//
//==========================================================================
static void RestorePlatRaise(void *arg1, void *arg2)
{
plat_t *plat = (plat_t *) arg1;
save_plat_t *temp = (save_plat_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
plat->sector = §ors[temp->sector_idx];
plat->sector->specialdata = T_PlatRaise;
plat->speed = (fixed_t) LONG(temp->speed);
plat->low = (fixed_t) LONG(temp->low);
plat->high = (fixed_t) LONG(temp->high);
plat->wait = (int) LONG(temp->wait);
plat->count = (int) LONG(temp->count);
plat->status = (plat_e) LONG(temp->status);
plat->oldstatus = (plat_e) LONG(temp->oldstatus);
plat->crush = (int) LONG(temp->crush);
plat->tag = (int) LONG(temp->tag);
plat->type = (plattype_e) LONG(temp->type);
P_AddActivePlat(plat);
}
//==========================================================================
//
// MangleMoveCeiling
//
//==========================================================================
static void MangleMoveCeiling(void *arg1, void *arg2)
{
ceiling_t *ceiling = (ceiling_t *) arg1;
save_ceiling_t *temp = (save_ceiling_t *) arg2;
temp->sector_idx = LONG((int32_t)(ceiling->sector - sectors));
temp->type = (int) LONG(ceiling->type);
temp->bottomheight = (fixed_t) LONG(ceiling->bottomheight);
temp->topheight = (fixed_t) LONG(ceiling->topheight);
temp->speed = (fixed_t) LONG(ceiling->speed);
temp->crush = (int) LONG(ceiling->crush);
temp->direction = (int) LONG(ceiling->direction);
temp->tag = (int) LONG(ceiling->tag);
temp->olddirection = (int) LONG(ceiling->olddirection);
}
//==========================================================================
//
// RestoreMoveCeiling
//
//==========================================================================
static void RestoreMoveCeiling(void *arg1, void *arg2)
{
ceiling_t *ceiling = (ceiling_t *) arg1;
save_ceiling_t *temp = (save_ceiling_t *) arg2;
temp->sector_idx = LONG(temp->sector_idx);
ceiling->sector = §ors[temp->sector_idx];
ceiling->sector->specialdata = T_MoveCeiling;
ceiling->type = (ceiling_e) LONG(temp->type);
ceiling->bottomheight = (fixed_t) LONG(temp->bottomheight);
ceiling->topheight = (fixed_t) LONG(temp->topheight);
ceiling->speed = (fixed_t) LONG(temp->speed);
ceiling->crush = (int) LONG(temp->crush);
ceiling->direction = (int) LONG(temp->direction);
ceiling->tag = (int) LONG(temp->tag);
ceiling->olddirection = (int) LONG(temp->olddirection);
P_AddActiveCeiling(ceiling);
}
//==========================================================================
//
// ArchiveScripts
//
//==========================================================================
static void ArchiveScripts(void)
{
int i;
StreamOutLong(ASEG_SCRIPTS);
for (i = 0; i < ACScriptCount; i++)
{
StreamOutWord(ACSInfo[i].state);
StreamOutWord(ACSInfo[i].waitValue);
}
for (i = 0; i < MAX_ACS_MAP_VARS; i++)
{
StreamOutLong(MapVars[i]);
}
}
//==========================================================================
//
// UnarchiveScripts
//
//==========================================================================
static void UnarchiveScripts(void)
{
int i;
AssertSegment(ASEG_SCRIPTS);
for (i = 0; i < ACScriptCount; i++)
{
ACSInfo[i].state = GET_WORD();
ACSInfo[i].waitValue = GET_WORD();
}
for (i = 0; i < MAX_ACS_MAP_VARS; i++)
{
MapVars[i] = GET_LONG();
}
}
//==========================================================================
//
// ArchiveMisc
//
//==========================================================================
static void ArchiveMisc(void)
{
int ix;
StreamOutLong(ASEG_MISC);
for (ix = 0; ix < MAXPLAYERS; ix++)
{
StreamOutLong(localQuakeHappening[ix]);
}
}
//==========================================================================
//
// UnarchiveMisc
//
//==========================================================================
static void UnarchiveMisc(void)
{
int ix;
AssertSegment(ASEG_MISC);
for (ix = 0; ix < MAXPLAYERS; ix++)
{
localQuakeHappening[ix] = GET_LONG();
}
}
//==========================================================================
//
// RemoveAllThinkers
//
//==========================================================================
static void RemoveAllThinkers(void)
{
thinker_t *thinker;
thinker_t *nextThinker;
thinker = thinkercap.next;
while (thinker != &thinkercap)
{
nextThinker = thinker->next;
if (thinker->function == P_MobjThinker)
{
P_RemoveMobj((mobj_t *)thinker);
}
else
{
Z_Free(thinker);
}
thinker = nextThinker;
}
P_InitThinkers();
}
//==========================================================================
//
// ArchiveSounds
//
//==========================================================================
static void ArchiveSounds(void)
{
seqnode_t *node;
sector_t *sec;
int difference;
int i;
StreamOutLong(ASEG_SOUNDS);
// Save the sound sequences
StreamOutLong(ActiveSequences);
for (node = SequenceListHead; node; node = node->next)
{
StreamOutLong(node->sequence);
StreamOutLong(node->delayTics);
StreamOutLong(node->volume);
StreamOutLong(SN_GetSequenceOffset(node->sequence, node->sequencePtr));
StreamOutLong(node->currentSoundID);
for (i = 0; i < po_NumPolyobjs; i++)
{
if (node->mobj == (mobj_t *)&polyobjs[i].startSpot)
{
break;
}
}
if (i == po_NumPolyobjs)
{ // Sound is attached to a sector, not a polyobj
sec = R_PointInSubsector(node->mobj->x, node->mobj->y)->sector;
difference = (int)(((byte *)sec - (byte *)§ors[0]) / sizeof(sector_t));
StreamOutLong(0); // 0 -- sector sound origin
}
else
{
StreamOutLong(1); // 1 -- polyobj sound origin
difference = i;
}
StreamOutLong(difference);
}
}
//==========================================================================
//
// UnarchiveSounds
//
//==========================================================================
static void UnarchiveSounds(void)
{
int i;
int numSequences;
int sequence;
int delayTics;
int volume;
int seqOffset;
int soundID;
int polySnd;
int secNum;
mobj_t *sndMobj;
AssertSegment(ASEG_SOUNDS);
// Reload and restart all sound sequences
numSequences = GET_LONG();
i = 0;
while (i < numSequences)
{
sequence = GET_LONG();
delayTics = GET_LONG();
volume = GET_LONG();
seqOffset = GET_LONG();
soundID = GET_LONG();
polySnd = GET_LONG();
secNum = GET_LONG();
if (!polySnd)
{
sndMobj = (mobj_t *)(void *)§ors[secNum].soundorg;
}
else
{
sndMobj = (mobj_t *)&polyobjs[secNum].startSpot;
}
SN_StartSequence(sndMobj, sequence);
SN_ChangeNodeData(i, seqOffset, delayTics, volume, soundID);
i++;
}
}
//==========================================================================
//
// ArchivePolyobjs
//
//==========================================================================
static void ArchivePolyobjs(void)
{
int i;
StreamOutLong(ASEG_POLYOBJS);
StreamOutLong(po_NumPolyobjs);
for (i = 0; i < po_NumPolyobjs; i++)
{
StreamOutLong(polyobjs[i].tag);
StreamOutLong(polyobjs[i].angle);
StreamOutLong(polyobjs[i].startSpot.x);
StreamOutLong(polyobjs[i].startSpot.y);
}
}
//==========================================================================
//
// UnarchivePolyobjs
//
//==========================================================================
static void UnarchivePolyobjs(void)
{
int i;
fixed_t deltaX;
fixed_t deltaY;
AssertSegment(ASEG_POLYOBJS);
if (GET_LONG() != po_NumPolyobjs)
{
I_Error("UnarchivePolyobjs: Bad polyobj count");
}
for (i = 0; i < po_NumPolyobjs; i++)
{
if (GET_LONG() != polyobjs[i].tag)
{
I_Error("UnarchivePolyobjs: Invalid polyobj tag");
}
PO_RotatePolyobj(polyobjs[i].tag, (angle_t)GET_LONG());
deltaX = GET_LONG() - polyobjs[i].startSpot.x;
deltaY = GET_LONG() - polyobjs[i].startSpot.y;
PO_MovePolyobj(polyobjs[i].tag, deltaX, deltaY);
}
}
//==========================================================================
//
// AssertSegment
//
//==========================================================================
static void AssertSegment(gameArchiveSegment_t segType)
{
if (GET_LONG() != segType)
{
I_Error("Corrupt save game: Segment [%d] failed alignment check", segType);
}
}
//==========================================================================
//
// ClearSaveSlot
//
// Deletes all save game files associated with a slot number.
//
//==========================================================================
static void ClearSaveSlot(int slot)
{
int i;
char fileName[MAX_OSPATH];
for (i = 0; i < MAX_MAPS; i++)
{
snprintf(fileName, sizeof(fileName), "%shex%d%02d.hxs", basePath, slot, i);
remove(fileName);
}
snprintf(fileName, sizeof(fileName), "%shex%d.hxs", basePath, slot);
remove(fileName);
}
//==========================================================================
//
// CopySaveSlot
//
// Copies all the save game files from one slot to another.
//
//==========================================================================
static void CopySaveSlot(int sourceSlot, int destSlot)
{
int i;
char sourceName[MAX_OSPATH];
char destName[MAX_OSPATH];
for (i = 0; i < MAX_MAPS; i++)
{
snprintf(sourceName, sizeof(sourceName), "%shex%d%02d.hxs", basePath,sourceSlot, i);
if (ExistingFile(sourceName))
{
snprintf(destName, sizeof(destName), "%shex%d%02d.hxs", basePath,destSlot, i);
CopyFile(sourceName, destName);
}
}
snprintf(sourceName, sizeof(sourceName), "%shex%d.hxs", basePath, sourceSlot);
if (ExistingFile(sourceName))
{
snprintf(destName, sizeof(destName), "%shex%d.hxs", basePath, destSlot);
CopyFile(sourceName, destName);
}
}
//==========================================================================
//
// CopyFile
//
//==========================================================================
static void CopyFile(const char *sourceName, const char *destName)
{
int length;
void *buffer;
length = M_ReadFile(sourceName, &buffer);
M_WriteFile(destName, buffer, length);
Z_Free(buffer);
}
//==========================================================================
//
// ExistingFile
//
//==========================================================================
static boolean ExistingFile(const char *name)
{
FILE *fp;
if ((fp = fopen(name, "rb")) != NULL)
{
fclose(fp);
return true;
}
else
{
return false;
}
}
//==========================================================================
//
// OpenStreamOut
//
//==========================================================================
static void OpenStreamOut(const char *fileName)
{
SavingFP = fopen(fileName, "wb");
}
//==========================================================================
//
// CloseStreamOut
//
//==========================================================================
static void CloseStreamOut(void)
{
if (SavingFP)
{
fclose(SavingFP);
}
}
//==========================================================================
//
// StreamOutBuffer
//
//==========================================================================
static void StreamOutBuffer(const void *buffer, size_t size)
{
fwrite(buffer, size, 1, SavingFP);
}
//==========================================================================
//
// StreamOutByte
//
//==========================================================================
static void StreamOutByte(byte val)
{
fwrite(&val, sizeof(byte), 1, SavingFP);
}
//==========================================================================
//
// StreamOutWord
//
//==========================================================================
static void StreamOutWord(uint16_t val)
{
uint16_t tmp = (uint16_t) SHORT(val);
fwrite(&tmp, sizeof(uint16_t), 1, SavingFP);
}
//==========================================================================
//
// StreamOutLong
//
//==========================================================================
static void StreamOutLong(uint32_t val)
{
uint32_t tmp = (uint32_t) LONG(val);
fwrite(&tmp, sizeof(uint32_t), 1, SavingFP);
}