raze/source/sw/src/save.cpp
NY00123 bf0ace3748 SW change breaking compatibility with existing saved games:
Remove startofdynamicinterpolations and short_startofdynamicinterpolations.
2020-05-20 14:43:03 +02:00

1175 lines
35 KiB
C++

//-------------------------------------------------------------------------
/*
Copyright (C) 1997, 2005 - 3D Realms Entertainment
This file is part of Shadow Warrior version 1.2
Shadow Warrior 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.
Original Source: 1997 - Frank Maddin and Jim Norwood
Prepared for public release: 03/28/2005 - Charlie Wiederhold, 3D Realms
*/
//-------------------------------------------------------------------------
#include "ns.h"
#define MAIN
#define QUIET
#include "build.h"
#include "keys.h"
#include "names2.h"
#include "panel.h"
#include "game.h"
#include "tags.h"
#include "lists.h"
#include "interp.h"
#include "network.h"
//#include "save.h"
#include "savedef.h"
#include "jsector.h"
#include "parent.h"
#include "reserve.h"
//#define FILE_TYPE 1
#include "mfile.h"
#include "weapon.h"
#include "cache.h"
#include "colormap.h"
#include "player.h"
#include "i_specialpaths.h"
#include "savegamehelp.h"
#include "z_music.h"
#include "mapinfo.h"
//void TimerFunc(task * Task);
BEGIN_SW_NS
// This cannot have a namespace declaration
#include "saveable.h"
/*
//////////////////////////////////////////////////////////////////////////////
TO DO
//////////////////////////////////////////////////////////////////////////////
*/
extern int lastUpdate;
extern char UserMapName[80];
extern char SaveGameDescr[10][80];
extern int PlayClock;
extern short TotalKillable;
extern short LevelSecrets;
extern short Bunny_Count;
extern SWBOOL NewGame;
extern char CacheLastLevel[];
extern short PlayingLevel;
extern int GodMode;
extern int GameVersion;
//extern short Zombies;
extern SWBOOL serpwasseen;
extern SWBOOL sumowasseen;
extern SWBOOL zillawasseen;
extern short BossSpriteNum[3];
#define PANEL_SAVE 1
#define ANIM_SAVE 1
extern SW_PACKET loc;
extern char LevelName[20];
extern STATE s_NotRestored[];
OrgTileListP otlist[] = {&orgwalllist, &orgwalloverlist, &orgsectorceilinglist, &orgsectorfloorlist};
int PanelSpriteToNdx(PLAYERp pp, PANEL_SPRITEp psprite)
{
short ndx = 0;
PANEL_SPRITEp psp=NULL, next=NULL;
TRAVERSE(&pp->PanelSpriteList, psp, next)
{
if (psp == psprite)
return ndx;
ndx++;
}
// special case for pointing to the list head
if ((LIST)psprite == (LIST)&pp->PanelSpriteList)
return 9999;
return -1;
}
PANEL_SPRITEp PanelNdxToSprite(PLAYERp pp, int ndx)
{
short count = 0;
PANEL_SPRITEp psp, next;
if (ndx == -1)
return NULL;
if (ndx == 9999)
return (PANEL_SPRITEp)&pp->PanelSpriteList;
TRAVERSE(&pp->PanelSpriteList, psp, next)
{
if (count == ndx)
return psp;
count++;
}
return NULL;
}
int SaveSymDataInfo(MFILE_WRITE fil, void *ptr)
{
saveddatasym sym;
if (Saveable_FindDataSym(ptr, &sym))
{
FILE *fp;
assert(false);
fp = fopen("savegame symbols missing.txt", "a");
if (fp)
{
fprintf(fp,"data %p - reference variable xdim at %p\n",ptr, &xdim);
fclose(fp);
}
return 1;
}
MWRITE(&sym, sizeof(sym), 1, fil);
return 0;
}
static int SaveSymCodeInfo_raw(MFILE_WRITE fil, void *ptr)
{
savedcodesym sym;
if (Saveable_FindCodeSym(ptr, &sym))
{
FILE *fp;
assert(false);
fp = fopen("savegame symbols missing.txt", "a");
if (fp)
{
fprintf(fp,"code %p - reference function SaveSymDataInfo at %p\n",ptr, SaveSymDataInfo);
fclose(fp);
}
return 1;
}
MWRITE(&sym, sizeof(sym), 1, fil);
return 0;
}
template <typename T>
static int SaveSymCodeInfo(MFILE_WRITE fil, T * ptr)
{
return SaveSymCodeInfo_raw(fil, (void *)ptr);
}
int LoadSymDataInfo(MFILE_READ fil, void **ptr)
{
saveddatasym sym;
MREAD(&sym, sizeof(sym), 1, fil);
return Saveable_RestoreDataSym(&sym, ptr);
}
int LoadSymCodeInfo(MFILE_READ fil, void **ptr)
{
savedcodesym sym;
MREAD(&sym, sizeof(sym), 1, fil);
return Saveable_RestoreCodeSym(&sym, ptr);
}
bool GameInterface::SaveGame(FSaveGameNode *sv)
{
MFILE_WRITE fil;
int i,j;
short ndx;
PLAYER tp;
PLAYERp pp;
SECT_USERp sectu;
USER tu;
USERp u;
ANIM tanim;
ANIMp a;
PANEL_SPRITE tpanel_sprite;
PANEL_SPRITEp psp,cur,next;
SECTOR_OBJECTp sop;
int saveisshot=0;
OrgTileP otp, next_otp;
Saveable_Init();
// workaround until the level info here has been transitioned.
fil = WriteSavegameChunk("snapshot.sw");
MWRITE(&GameVersion,sizeof(GameVersion),1,fil);
MWRITE(&Level,sizeof(Level),1,fil);
MWRITE(&Skill,sizeof(Skill),1,fil);
MWRITE(&numplayers,sizeof(numplayers),1,fil);
MWRITE(&myconnectindex,sizeof(myconnectindex),1,fil);
MWRITE(&connecthead,sizeof(connecthead),1,fil);
MWRITE(connectpoint2,sizeof(connectpoint2),1,fil);
//save players info
pp = &tp;
for (i = 0; i < numplayers; i++)
{
memcpy(&tp, &Player[i], sizeof(PLAYER));
// this does not point to global data - this is allocated link list based
// save this inside the structure
#if PANEL_SAVE
pp->CurWpn = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->CurWpn);
for (ndx = 0; ndx < MAX_WEAPONS; ndx++)
pp->Wpn[ndx] = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->Wpn[ndx]);
pp->Chops = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->Chops);
for (ndx = 0; ndx < MAX_INVENTORY; ndx++)
pp->InventorySprite[ndx] = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->InventorySprite[ndx]);
pp->InventorySelectionBox = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->InventorySelectionBox);
pp->MiniBarHealthBox = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->MiniBarHealthBox);
pp->MiniBarAmmo = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->MiniBarAmmo);
for (ndx = 0; ndx < (short)SIZ(pp->MiniBarHealthBoxDigit); ndx++)
pp->MiniBarHealthBoxDigit[ndx] = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->MiniBarHealthBoxDigit[ndx]);
for (ndx = 0; ndx < (short)SIZ(pp->MiniBarAmmoDigit); ndx++)
pp->MiniBarAmmoDigit[ndx] = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(&Player[i], pp->MiniBarAmmoDigit[ndx]);
#endif
MWRITE(&tp, sizeof(PLAYER),1,fil);
//////
saveisshot |= SaveSymDataInfo(fil, pp->remote_sprite);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->remote.sop_control);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->sop_remote);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->sop);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->hi_sectp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->lo_sectp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->hi_sp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->lo_sp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->last_camera_sp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->SpriteP);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->UnderSpriteP);
assert(!saveisshot);
saveisshot |= SaveSymCodeInfo(fil, pp->DoPlayerAction);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->sop_control);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, pp->sop_riding);
assert(!saveisshot);
}
#if PANEL_SAVE
// local copy
psp = &tpanel_sprite;
for (i = 0; i < numplayers; i++)
{
unsigned j;
pp = &Player[i];
ndx = 0;
TRAVERSE(&pp->PanelSpriteList, cur, next)
{
// this is a HEADER
MWRITE(&ndx, sizeof(ndx),1,fil);
memcpy(psp, cur, sizeof(PANEL_SPRITE));
// Panel Sprite - save in structure
psp->sibling = (PANEL_SPRITEp)(intptr_t)PanelSpriteToNdx(pp, cur->sibling);
MWRITE(psp, sizeof(PANEL_SPRITE),1,fil);
saveisshot |= SaveSymDataInfo(fil, psp->PlayerP);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, psp->State);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, psp->RetractState);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, psp->PresentState);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, psp->ActionState);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, psp->RestState);
assert(!saveisshot);
saveisshot |= SaveSymCodeInfo(fil, psp->PanelSpriteFunc);
assert(!saveisshot);
for (j = 0; j < SIZ(psp->over); j++)
{
saveisshot |= SaveSymDataInfo(fil, psp->over[j].State);
assert(!saveisshot);
}
ndx++;
}
// store -1 when done for player
ndx = -1;
MWRITE(&ndx, sizeof(ndx),1,fil);
}
#endif
//Sector User information
for (i = 0; i < numsectors; i++)
{
sectu = SectUser[i];
ndx = i;
if (sectu)
{
// write header
MWRITE(&ndx,sizeof(ndx),1,fil);
MWRITE(sectu,sizeof(SECT_USER),1,fil);
}
else
{
// write trailer
ndx = -1;
MWRITE(&ndx,sizeof(ndx),1,fil);
}
}
//User information
for (i = 0; i < MAXSPRITES; i++)
{
ndx = i;
if (User[i])
{
// write header
MWRITE(&ndx,sizeof(ndx),1,fil);
memcpy(&tu, User[i], sizeof(USER));
u = &tu;
MWRITE(u,sizeof(USER),1,fil);
if (u->WallShade)
{
MWRITE(u->WallShade,sizeof(*u->WallShade)*u->WallCount,1,fil);
}
if (u->rotator)
{
MWRITE(u->rotator,sizeof(*u->rotator),1,fil);
if (u->rotator->origx)
MWRITE(u->rotator->origx,sizeof(*u->rotator->origx)*u->rotator->num_walls,1,fil);
if (u->rotator->origy)
MWRITE(u->rotator->origy,sizeof(*u->rotator->origy)*u->rotator->num_walls,1,fil);
}
saveisshot |= SaveSymDataInfo(fil, u->WallP);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->State);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->Rot);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->StateStart);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->StateEnd);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->StateFallOverride);
assert(!saveisshot);
saveisshot |= SaveSymCodeInfo(fil, u->ActorActionFunc);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->ActorActionSet);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->Personality);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->Attrib);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->sop_parent);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->hi_sectp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->lo_sectp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->hi_sp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->lo_sp);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->SpriteP);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->PlayerP);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, u->tgt_sp);
assert(!saveisshot);
}
}
ndx = -1;
MWRITE(&ndx,sizeof(ndx),1,fil);
//
// Sector object
//
MWRITE(SectorObject, sizeof(SectorObject),1,fil);
for (ndx = 0; ndx < (short)SIZ(SectorObject); ndx++)
{
sop = &SectorObject[ndx];
saveisshot |= SaveSymCodeInfo(fil, sop->PreMoveAnimator);
assert(!saveisshot);
saveisshot |= SaveSymCodeInfo(fil, sop->PostMoveAnimator);
assert(!saveisshot);
saveisshot |= SaveSymCodeInfo(fil, sop->Animator);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, sop->controller);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, sop->sp_child);
assert(!saveisshot);
}
MWRITE(SineWaveFloor, sizeof(SineWaveFloor),1,fil);
MWRITE(SineWall, sizeof(SineWall),1,fil);
MWRITE(SpringBoard, sizeof(SpringBoard),1,fil);
//MWRITE(Rotate, sizeof(Rotate),1,fil);
//MWRITE(DoorAutoClose, sizeof(DoorAutoClose),1,fil);
MWRITE(&x_min_bound, sizeof(x_min_bound),1,fil);
MWRITE(&y_min_bound, sizeof(y_min_bound),1,fil);
MWRITE(&x_max_bound, sizeof(x_max_bound),1,fil);
MWRITE(&y_max_bound, sizeof(y_max_bound),1,fil);
MWRITE(Track, sizeof(Track),1,fil);
for (i = 0; i < MAX_TRACKS; i++)
{
ASSERT(Track[i].TrackPoint);
if (Track[i].NumPoints == 0)
MWRITE(Track[i].TrackPoint, sizeof(TRACK_POINT),1,fil);
else
MWRITE(Track[i].TrackPoint, Track[i].NumPoints * sizeof(TRACK_POINT),1,fil);
}
MWRITE(&loc,sizeof(loc),1,fil);
//MWRITE(&oloc,sizeof(oloc),1,fil);
//MWRITE(&fsync,sizeof(fsync),1,fil);
MWRITE(LevelName,sizeof(LevelName),1,fil);
MWRITE(&screenpeek,sizeof(screenpeek),1,fil);
MWRITE(&totalsynctics,sizeof(totalsynctics),1,fil);
// do all sector manipulation structures
#if ANIM_SAVE
#if 1
MWRITE(&AnimCnt,sizeof(AnimCnt),1,fil);
for (i = 0, a = &tanim; i < AnimCnt; i++)
{
intptr_t offset;
memcpy(a,&Anim[i],sizeof(ANIM));
// maintain compatibility with sinking boat which points to user data
for (j=0; j<MAXSPRITES; j++)
{
if (User[j])
{
uint8_t* bp = (uint8_t*)User[j];
if ((uint8_t*)a->ptr >= bp && (uint8_t*)a->ptr < bp + sizeof(USER))
{
offset = (intptr_t)((uint8_t*)a->ptr - bp); // offset from user data
a->ptr = (int *)-2;
break;
}
}
}
if ((intptr_t)a->ptr != -2)
{
for (j=0; j<numsectors; j++)
{
if (SectUser[j])
{
uint8_t* bp = (uint8_t*)SectUser[j];
if ((uint8_t*)a->ptr >= bp && (uint8_t*)a->ptr < bp + sizeof(SECT_USER))
{
offset = (intptr_t)((uint8_t*)a->ptr - bp); // offset from user data
a->ptr = (int *)-3;
break;
}
}
}
}
MWRITE(a,sizeof(ANIM),1,fil);
if ((intptr_t)a->ptr == -2 || (intptr_t)a->ptr == -3)
{
MWRITE(&j, sizeof(j),1,fil);
MWRITE(&offset, sizeof(offset),1,fil);
}
else
{
saveisshot |= SaveSymDataInfo(fil, a->ptr);
assert(!saveisshot);
}
saveisshot |= SaveSymCodeInfo(fil, a->callback);
assert(!saveisshot);
saveisshot |= SaveSymDataInfo(fil, a->callbackdata);
assert(!saveisshot);
}
#else
ndx = 0;
for (i = AnimCnt - 1, a = &tanim; i >= 0; i--)
{
// write header
MWRITE(&ndx,sizeof(ndx),1,fil);
memcpy(a,&Anim[i],sizeof(ANIM));
MWRITE(a,sizeof(ANIM),1,fil);
saveisshot |= SaveSymDataInfo(fil, a->ptr);
saveisshot |= SaveSymCodeInfo(fil, a->callback);
saveisshot |= SaveSymDataInfo(fil, a->callbackdata);
ndx++;
}
// write trailer
ndx = -1;
MWRITE(&ndx,sizeof(ndx),1,fil);
#endif
#endif
MWRITE(&totalclock,sizeof(totalclock),1,fil);
MWRITE(&NormalVisibility,sizeof(NormalVisibility),1,fil);
MWRITE(&BorderInfo,sizeof(BorderInfo),1,fil);
MWRITE(&MoveSkip2,sizeof(MoveSkip2),1,fil);
MWRITE(&MoveSkip4,sizeof(MoveSkip4),1,fil);
MWRITE(&MoveSkip8,sizeof(MoveSkip8),1,fil);
// long interpolations
MWRITE(&numinterpolations,sizeof(numinterpolations),1,fil);
MWRITE(oldipos,sizeof(oldipos),1,fil);
MWRITE(bakipos,sizeof(bakipos),1,fil);
for (i = numinterpolations - 1; i >= 0; i--)
{
saveisshot |= SaveSymDataInfo(fil, curipos[i]);
assert(!saveisshot);
}
// short interpolations
MWRITE(&short_numinterpolations,sizeof(short_numinterpolations),1,fil);
MWRITE(short_oldipos,sizeof(short_oldipos),1,fil);
MWRITE(short_bakipos,sizeof(short_bakipos),1,fil);
for (i = short_numinterpolations - 1; i >= 0; i--)
{
saveisshot |= SaveSymDataInfo(fil, short_curipos[i]);
assert(!saveisshot);
}
// parental lock
for (i = 0; i < (int)SIZ(otlist); i++)
{
ndx = 0;
TRAVERSE(otlist[i], otp, next_otp)
{
MWRITE(&ndx,sizeof(ndx),1,fil);
MWRITE(&otp,sizeof(*otp),1,fil);
ndx++;
}
ndx = -1;
MWRITE(&ndx, sizeof(ndx),1,fil);
}
// mirror
MWRITE(mirror,sizeof(mirror),1,fil);
MWRITE(&mirrorcnt,sizeof(mirrorcnt),1,fil);
MWRITE(&mirrorinview,sizeof(mirrorinview),1,fil);
// queue
MWRITE(&StarQueueHead,sizeof(StarQueueHead),1,fil);
MWRITE(StarQueue,sizeof(StarQueue),1,fil);
MWRITE(&HoleQueueHead,sizeof(HoleQueueHead),1,fil);
MWRITE(HoleQueue,sizeof(HoleQueue),1,fil);
MWRITE(&WallBloodQueueHead,sizeof(WallBloodQueueHead),1,fil);
MWRITE(WallBloodQueue,sizeof(WallBloodQueue),1,fil);
MWRITE(&FloorBloodQueueHead,sizeof(FloorBloodQueueHead),1,fil);
MWRITE(FloorBloodQueue,sizeof(FloorBloodQueue),1,fil);
MWRITE(&GenericQueueHead,sizeof(GenericQueueHead),1,fil);
MWRITE(GenericQueue,sizeof(GenericQueue),1,fil);
MWRITE(&LoWangsQueueHead,sizeof(LoWangsQueueHead),1,fil);
MWRITE(LoWangsQueue,sizeof(LoWangsQueue),1,fil);
MWRITE(&PlayClock,sizeof(PlayClock),1,fil);
MWRITE(&TotalKillable,sizeof(TotalKillable),1,fil);
// game settings
MWRITE(&gNet,sizeof(gNet),1,fil);
MWRITE(&gs,sizeof(gs),1,fil);
for (int i = 0; i < MAXTILES; i++)
{
MWRITE(&picanm[i], sizeof(picanm[i]), 1, fil);
}
MWRITE(&LevelSecrets,sizeof(LevelSecrets),1,fil);
MWRITE(&Bunny_Count,sizeof(Bunny_Count),1,fil);
MWRITE(UserMapName,sizeof(UserMapName),1,fil);
MWRITE(&GodMode,sizeof(GodMode),1,fil);
MWRITE(&serpwasseen, sizeof(serpwasseen), 1, fil);
MWRITE(&sumowasseen, sizeof(sumowasseen), 1, fil);
MWRITE(&zillawasseen, sizeof(zillawasseen), 1, fil);
MWRITE(BossSpriteNum, sizeof(BossSpriteNum), 1, fil);
//MWRITE(&Zombies, sizeof(Zombies), 1, fil);
if (!saveisshot)
return FinishSavegameWrite();
return false;
}
extern SWBOOL LoadGameOutsideMoveLoop;
extern SWBOOL InMenuLevel;
bool GameInterface::CleanupForLoad()
{
// Don't terminate until you've made sure conditions are valid for loading.
if (InMenuLevel)
Mus_Stop();
else
{
PauseAction();
TerminateLevel();
}
StopFX();
return true;
}
bool GameInterface::LoadGame(FSaveGameNode* sv)
{
MFILE_READ fil;
int i,j,saveisshot=0;
short ndx,SpriteNum,sectnum;
PLAYERp pp = NULL;
USERp u;
SECTOR_OBJECTp sop;
SECT_USERp sectu;
ANIMp a;
PANEL_SPRITEp psp,next;
OrgTileP otp;
Saveable_Init();
auto filr = ReadSavegameChunk("snapshot.sw");
if (!filr.isOpen()) return false;
fil = &filr;
MREAD(&i,sizeof(i),1,fil);
if (i != GameVersion)
{
MCLOSE_READ(fil);
return false;
}
MREAD(&Level,sizeof(Level),1,fil);
MREAD(&Skill,sizeof(Skill),1,fil);
MREAD(&numplayers, sizeof(numplayers),1,fil);
MREAD(&myconnectindex,sizeof(myconnectindex),1,fil);
MREAD(&connecthead,sizeof(connecthead),1,fil);
MREAD(connectpoint2,sizeof(connectpoint2),1,fil);
//save players
//MREAD(Player,sizeof(PLAYER), numplayers,fil);
//save players info
for (i = 0; i < numplayers; i++)
{
pp = &Player[i];
MREAD(pp, sizeof(*pp), 1, fil);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->remote_sprite);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->remote.sop_control);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->sop_remote);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->sop);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->hi_sectp);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->lo_sectp);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->hi_sp);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->lo_sp);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->last_camera_sp);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->SpriteP);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->UnderSpriteP);
saveisshot |= LoadSymCodeInfo(fil, (void **)&pp->DoPlayerAction);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->sop_control);
saveisshot |= LoadSymDataInfo(fil, (void **)&pp->sop_riding);
if (saveisshot) { MCLOSE_READ(fil); return false; }
}
#if PANEL_SAVE
for (i = 0; i < numplayers; i++)
{
int j;
pp = &Player[i];
INITLIST(&pp->PanelSpriteList);
while (TRUE)
{
MREAD(&ndx, sizeof(ndx),1,fil);
if (ndx == -1)
break;
psp = (PANEL_SPRITEp)CallocMem(sizeof(PANEL_SPRITE), 1);
ASSERT(psp);
MREAD(psp, sizeof(PANEL_SPRITE),1,fil);
INSERT_TAIL(&pp->PanelSpriteList,psp);
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->PlayerP);
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->State);
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->RetractState);
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->PresentState);
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->ActionState);
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->RestState);
saveisshot |= LoadSymCodeInfo(fil, (void **)&psp->PanelSpriteFunc);
if (saveisshot) { MCLOSE_READ(fil); return false; }
for (j = 0; j < (int)SIZ(psp->over); j++)
{
saveisshot |= LoadSymDataInfo(fil, (void **)&psp->over[j].State);
if (saveisshot) { MCLOSE_READ(fil); return false; }
}
}
}
#endif
//Sector User information
for (i = 0; i < numsectors; i++)
{
MREAD(&sectnum,sizeof(sectnum),1,fil);
if (sectnum != -1)
{
SectUser[sectnum] = sectu = (SECT_USERp)CallocMem(sizeof(SECT_USER), 1);
MREAD(sectu,sizeof(SECT_USER),1,fil);
}
}
//User information
memset(User, 0, sizeof(User));
MREAD(&SpriteNum, sizeof(SpriteNum),1,fil);
while (SpriteNum != -1)
{
User[SpriteNum] = u = (USERp)CallocMem(sizeof(USER), 1);
MREAD(u,sizeof(USER),1,fil);
if (u->WallShade)
{
u->WallShade = (int8_t*)CallocMem(u->WallCount * sizeof(*u->WallShade), 1);
MREAD(u->WallShade,sizeof(*u->WallShade)*u->WallCount,1,fil);
}
if (u->rotator)
{
u->rotator = (ROTATORp)CallocMem(sizeof(*u->rotator), 1);
MREAD(u->rotator,sizeof(*u->rotator),1,fil);
if (u->rotator->origx)
{
u->rotator->origx = (int*)CallocMem(u->rotator->num_walls * sizeof(*u->rotator->origx), 1);
MREAD(u->rotator->origx,sizeof(*u->rotator->origx)*u->rotator->num_walls,1,fil);
}
if (u->rotator->origy)
{
u->rotator->origy = (int*)CallocMem(u->rotator->num_walls * sizeof(*u->rotator->origy), 1);
MREAD(u->rotator->origy,sizeof(*u->rotator->origy)*u->rotator->num_walls,1,fil);
}
}
saveisshot |= LoadSymDataInfo(fil, (void **)&u->WallP);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->State);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->Rot);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->StateStart);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->StateEnd);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->StateFallOverride);
saveisshot |= LoadSymCodeInfo(fil, (void **)&u->ActorActionFunc);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->ActorActionSet);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->Personality);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->Attrib);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->sop_parent);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->hi_sectp);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->lo_sectp);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->hi_sp);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->lo_sp);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->SpriteP);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->PlayerP);
saveisshot |= LoadSymDataInfo(fil, (void **)&u->tgt_sp);
if (saveisshot) { MCLOSE_READ(fil); return false; }
MREAD(&SpriteNum,sizeof(SpriteNum),1,fil);
}
MREAD(SectorObject, sizeof(SectorObject),1,fil);
for (ndx = 0; ndx < (short)SIZ(SectorObject); ndx++)
{
sop = &SectorObject[ndx];
saveisshot |= LoadSymCodeInfo(fil, (void **)&sop->PreMoveAnimator);
saveisshot |= LoadSymCodeInfo(fil, (void **)&sop->PostMoveAnimator);
saveisshot |= LoadSymCodeInfo(fil, (void **)&sop->Animator);
saveisshot |= LoadSymDataInfo(fil, (void **)&sop->controller);
saveisshot |= LoadSymDataInfo(fil, (void **)&sop->sp_child);
if (saveisshot) { MCLOSE_READ(fil); return false; }
}
MREAD(SineWaveFloor, sizeof(SineWaveFloor),1,fil);
MREAD(SineWall, sizeof(SineWall),1,fil);
MREAD(SpringBoard, sizeof(SpringBoard),1,fil);
//MREAD(Rotate, sizeof(Rotate),1,fil);
//MREAD(DoorAutoClose, sizeof(DoorAutoClose),1,fil);
MREAD(&x_min_bound, sizeof(x_min_bound),1,fil);
MREAD(&y_min_bound, sizeof(y_min_bound),1,fil);
MREAD(&x_max_bound, sizeof(x_max_bound),1,fil);
MREAD(&y_max_bound, sizeof(y_max_bound),1,fil);
MREAD(Track, sizeof(Track),1,fil);
for (i = 0; i < MAX_TRACKS; i++)
{
if (Track[i].NumPoints == 0)
{
Track[i].TrackPoint = (TRACK_POINTp)CallocMem(sizeof(TRACK_POINT), 1);
MREAD(Track[i].TrackPoint, sizeof(TRACK_POINT),1,fil);
}
else
{
Track[i].TrackPoint = (TRACK_POINTp)CallocMem(Track[i].NumPoints * sizeof(TRACK_POINT), 1);
MREAD(Track[i].TrackPoint, Track[i].NumPoints * sizeof(TRACK_POINT),1,fil);
}
}
MREAD(&loc,sizeof(loc),1,fil);
MREAD(LevelName,sizeof(LevelName),1,fil);
MREAD(&screenpeek,sizeof(screenpeek),1,fil);
MREAD(&totalsynctics,sizeof(totalsynctics),1,fil); // same as kens lockclock
// do all sector manipulation structures
#if ANIM_SAVE
#if 1
MREAD(&AnimCnt,sizeof(AnimCnt),1,fil);
for (i = 0; i < AnimCnt; i++)
{
a = &Anim[i];
MREAD(a,sizeof(ANIM),1,fil);
if ((intptr_t)a->ptr == -2)
{
// maintain compatibility with sinking boat which points to user data
int offset;
MREAD(&j, sizeof(j),1,fil);
MREAD(&offset, sizeof(offset),1,fil);
a->ptr = (int *)(((char *)User[j]) + offset);
}
else if ((intptr_t)a->ptr == -3)
{
// maintain compatibility with sinking boat which points to user data
int offset;
MREAD(&j, sizeof(j),1,fil);
MREAD(&offset, sizeof(offset),1,fil);
a->ptr = (int *)(((char *)SectUser[j]) + offset);
}
else
{
saveisshot |= LoadSymDataInfo(fil, (void **)&a->ptr);
}
saveisshot |= LoadSymCodeInfo(fil, (void **)&a->callback);
saveisshot |= LoadSymDataInfo(fil, (void **)&a->callbackdata);
if (saveisshot) { MCLOSE_READ(fil); return false; }
}
#else
AnimCnt = 0;
for (i = MAXANIM - 1; i >= 0; i--)
{
a = &Anim[i];
MREAD(&ndx,sizeof(ndx),1,fil);
if (ndx == -1)
break;
AnimCnt++;
MREAD(a,sizeof(ANIM),1,fil);
saveisshot |= LoadSymDataInfo(fil, (void **)&a->ptr);
saveisshot |= LoadSymCodeInfo(fil, (void **)&a->callback);
saveisshot |= LoadSymDataInfo(fil, (void **)&a->callbackdata);
if (saveisshot) { MCLOSE_READ(fil); return false; }
}
#endif
#endif
MREAD(&totalclock,sizeof(totalclock),1,fil);
MREAD(&NormalVisibility,sizeof(NormalVisibility),1,fil);
MREAD(&BorderInfo,sizeof(BorderInfo),1,fil);
MREAD(&MoveSkip2,sizeof(MoveSkip2),1,fil);
MREAD(&MoveSkip4,sizeof(MoveSkip4),1,fil);
MREAD(&MoveSkip8,sizeof(MoveSkip8),1,fil);
// long interpolations
MREAD(&numinterpolations,sizeof(numinterpolations),1,fil);
MREAD(oldipos,sizeof(oldipos),1,fil);
MREAD(bakipos,sizeof(bakipos),1,fil);
for (i = numinterpolations - 1; i >= 0; i--)
saveisshot |= LoadSymDataInfo(fil, (void **)&curipos[i]);
if (saveisshot) { MCLOSE_READ(fil); return false; }
// short interpolations
MREAD(&short_numinterpolations,sizeof(short_numinterpolations),1,fil);
MREAD(short_oldipos,sizeof(short_oldipos),1,fil);
MREAD(short_bakipos,sizeof(short_bakipos),1,fil);
for (i = short_numinterpolations - 1; i >= 0; i--)
saveisshot |= LoadSymDataInfo(fil, (void **)&short_curipos[i]);
if (saveisshot) { MCLOSE_READ(fil); return false; }
// parental lock
for (i = 0; i < (int)SIZ(otlist); i++)
{
INITLIST(otlist[i]);
while (TRUE)
{
MREAD(&ndx, sizeof(ndx),1,fil);
if (ndx == -1)
break;
otp = (OrgTileP)CallocMem(sizeof(*otp), 1);
ASSERT(otp);
MREAD(otp, sizeof(*otp),1,fil);
INSERT_TAIL(otlist[i],otp);
}
}
// mirror
MREAD(mirror,sizeof(mirror),1,fil);
MREAD(&mirrorcnt,sizeof(mirrorcnt),1,fil);
MREAD(&mirrorinview,sizeof(mirrorinview),1,fil);
// queue
MREAD(&StarQueueHead,sizeof(StarQueueHead),1,fil);
MREAD(StarQueue,sizeof(StarQueue),1,fil);
MREAD(&HoleQueueHead,sizeof(HoleQueueHead),1,fil);
MREAD(HoleQueue,sizeof(HoleQueue),1,fil);
MREAD(&WallBloodQueueHead,sizeof(WallBloodQueueHead),1,fil);
MREAD(WallBloodQueue,sizeof(WallBloodQueue),1,fil);
MREAD(&FloorBloodQueueHead,sizeof(FloorBloodQueueHead),1,fil);
MREAD(FloorBloodQueue,sizeof(FloorBloodQueue),1,fil);
MREAD(&GenericQueueHead,sizeof(GenericQueueHead),1,fil);
MREAD(GenericQueue,sizeof(GenericQueue),1,fil);
MREAD(&LoWangsQueueHead,sizeof(LoWangsQueueHead),1,fil);
MREAD(LoWangsQueue,sizeof(LoWangsQueue),1,fil);
// init timing vars before PlayClock is read
MREAD(&PlayClock,sizeof(PlayClock),1,fil);
MREAD(&TotalKillable,sizeof(TotalKillable),1,fil);
// game settings
MREAD(&gNet,sizeof(gNet),1,fil);
MREAD(&gs,sizeof(gs),1,fil);
for (int i = 0; i < MAXTILES; i++)
{
MREAD(&picanm[i], sizeof(picanm[i]), 1, fil);
}
MREAD(&LevelSecrets,sizeof(LevelSecrets),1,fil);
MREAD(&Bunny_Count,sizeof(Bunny_Count),1,fil);
MREAD(UserMapName,sizeof(UserMapName),1,fil);
MREAD(&GodMode,sizeof(GodMode),1,fil);
MREAD(&serpwasseen, sizeof(serpwasseen), 1, fil);
MREAD(&sumowasseen, sizeof(sumowasseen), 1, fil);
MREAD(&zillawasseen, sizeof(zillawasseen), 1, fil);
MREAD(BossSpriteNum, sizeof(BossSpriteNum), 1, fil);
//MREAD(&Zombies, sizeof(Zombies), 1, fil);
MCLOSE_READ(fil);
//!!IMPORTANT - this POST stuff will not work here now becaus it does actual reads
//
// POST processing of info MREAD in
//
#if PANEL_SAVE
for (i = 0; i < numplayers; i++)
{
pp = &Player[i];
TRAVERSE(&pp->PanelSpriteList, psp, next)
{
// dont need to set Next and Prev this was done
// when sprites were inserted
// sibling is the only PanelSprite (malloced ptr) in the PanelSprite struct
psp->sibling = PanelNdxToSprite(pp, (int)(intptr_t)psp->sibling);
}
}
#endif
if (Bstrcasecmp(CacheLastLevel, LevelName) != 0)
{
SetupPreCache();
DoTheCache();
}
// what is this for? don't remember
totalclock = totalsynctics;
ototalclock = totalsynctics;
// this is ok - just duplicating sector list with pointers
for (sop = SectorObject; sop < &SectorObject[SIZ(SectorObject)]; sop++)
{
for (i = 0; i < sop->num_sectors; i++)
sop->sectp[i] = &sector[sop->sector[i]];
}
//!!Again this will not work here
//restore players info
for (i = 0; i < numplayers; i++)
{
#if PANEL_SAVE
pp->CurWpn = PanelNdxToSprite(pp, (int)(intptr_t)pp->CurWpn);
for (ndx = 0; ndx < MAX_WEAPONS; ndx++)
pp->Wpn[ndx] = PanelNdxToSprite(pp, (int)(intptr_t)pp->Wpn[ndx]);
for (ndx = 0; ndx < MAX_INVENTORY; ndx++)
pp->InventorySprite[ndx] = PanelNdxToSprite(pp, (int)(intptr_t)pp->InventorySprite[ndx]);
pp->Chops = PanelNdxToSprite(pp, (int)(intptr_t)pp->Chops);
pp->InventorySelectionBox = PanelNdxToSprite(pp, (int)(intptr_t)pp->InventorySelectionBox);
pp->MiniBarHealthBox = PanelNdxToSprite(pp, (int)(intptr_t)pp->MiniBarHealthBox);
pp->MiniBarAmmo = PanelNdxToSprite(pp, (int)(intptr_t)pp->MiniBarAmmo);
for (ndx = 0; ndx < (short)SIZ(pp->MiniBarHealthBoxDigit); ndx++)
pp->MiniBarHealthBoxDigit[ndx] = PanelNdxToSprite(pp, (int)(intptr_t)pp->MiniBarHealthBoxDigit[ndx]);
for (ndx = 0; ndx < (short)SIZ(pp->MiniBarAmmoDigit); ndx++)
pp->MiniBarAmmoDigit[ndx] = PanelNdxToSprite(pp, (int)(intptr_t)pp->MiniBarAmmoDigit[ndx]);
#endif
}
{
int SavePlayClock = PlayClock;
InitTimingVars();
PlayClock = SavePlayClock;
}
InitNetVars();
SetupAspectRatio();
SetRedrawScreen(Player + myconnectindex);
screenpeek = myconnectindex;
PlayingLevel = Level;
Mus_ResumeSaved();
if (snd_ambience)
StartAmbientSound();
TRAVERSE_CONNECT(i)
{
Player[i].StartColor = 0;
}
// this is not a new game
NewGame = FALSE;
DoPlayerDivePalette(Player+myconnectindex);
DoPlayerNightVisionPalette(Player+myconnectindex);
hud_size.Callback();
LoadGameOutsideMoveLoop = TRUE;
if (!InMenuLevel)
{
ready2send = 1;
}
else ExitLevel = TRUE;
return true;
}
END_SW_NS