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//
// Copyright 2020 Electronic Arts Inc.
//
// TiberianDawn.DLL and RedAlert.dll and corresponding source code 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 3 of the License, or (at your option) any later version.
// TiberianDawn.DLL and RedAlert.dll and corresponding source code is distributed
// in the hope that it will be useful, but with permitted additional restrictions
// under Section 7 of the GPL. See the GNU General Public License in LICENSE.TXT
// distributed with this program. You should have received a copy of the
// GNU General Public License along with permitted additional restrictions
// with this program. If not, see https://github.com/electronicarts/CnC_Remastered_Collection
/* $Header: F:\projects\c&c\vcs\code\saveload.cpv 2.18 16 Oct 1995 16:48:44 JOE_BOSTIC $ */
/***********************************************************************************************
*** C O N F I D E N T I A L --- W E S T W O O D S T U D I O S ***
***********************************************************************************************
* *
* Project Name : Command & Conquer *
* *
* File Name : SAVELOAD.CPP *
* *
* Programmer : Joe L. Bostic *
* *
* Start Date : August 23, 1994 *
* *
* Last Update : June 24, 1995 [JLB] *
* *
*---------------------------------------------------------------------------------------------*
* Functions: *
* Code_All_Pointers -- Code all pointers. *
* Decode_All_Pointers -- Decodes all pointers. *
* Get_Savefile_Info -- gets description, scenario #, house *
* Load_Game -- loads a saved game *
* Load_Misc_Values -- Loads miscellaneous variables. *
* Load_Misc_Values -- loads miscellaneous variables *
* Read_Object -- reads an object from disk, in a safe way *
* Save_Game -- saves a game to disk *
* Save_Misc_Values -- saves miscellaneous variables *
* Target_To_TechnoType -- converts TARGET to TechnoTypeClass *
* TechnoType_To_Target -- converts TechnoTypeClass to TARGET *
* Write_Object -- reads an object from disk, in a safe way *
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
#include "function.h"
extern bool DLLSave(FileClass &file);
extern bool DLLLoad(FileClass &file);
/*
********************************** Defines **********************************
*/
#define SAVEGAME_VERSION (DESCRIP_MAX + \
0x01000003 + ( \
sizeof(AircraftClass) + \
sizeof(AircraftTypeClass) + \
sizeof(AnimClass) + \
sizeof(AnimTypeClass) + \
sizeof(BuildingClass) + \
sizeof(BuildingTypeClass) + \
sizeof(BulletClass) + \
sizeof(BulletTypeClass) + \
sizeof(HouseClass) + \
sizeof(HouseTypeClass) + \
sizeof(InfantryClass) + \
sizeof(InfantryTypeClass) + \
sizeof(OverlayClass) + \
sizeof(OverlayTypeClass) + \
sizeof(SmudgeClass) + \
sizeof(SmudgeTypeClass) + \
sizeof(TeamClass) + \
sizeof(TeamTypeClass) + \
sizeof(TemplateClass) + \
sizeof(TemplateTypeClass) + \
sizeof(TerrainClass) + \
sizeof(TerrainTypeClass) + \
sizeof(UnitClass) + \
sizeof(UnitTypeClass) + \
sizeof(MouseClass) + \
sizeof(CellClass) + \
sizeof(FactoryClass) + \
sizeof(BaseClass) + \
sizeof(LayerClass) + \
sizeof(BriefingText) + \
sizeof(Waypoint)))
/***************************************************************************
* Save_Game -- saves a game to disk *
* *
* Saving the Map: *
* DisplayClass::Save() invokes CellClass's Write() for every cell *
* that needs to be saved. A cell needs to be saved if it contains *
* any special data at all, such as a TIcon, or an Occupier. *
* The cell saves its own CellTrigger pointer, converted to a TARGET. *
* *
* Saving game objects: *
* - Any object stored in an ArrayOf class needs to be saved. The ArrayOf*
* Save() routine invokes each object's Write() routine, if that *
* object's IsActive is set. *
* *
* Saving the layers: *
* The Map's Layers (Ground, Air, etc) of things that are on the map, *
* and the Logic's Layer of things to process both need to be saved. *
* LayerClass::Save() writes the entire layer array to disk *
* *
* Saving the houses: *
* Each house needs to be saved, to record its Credits, Power, etc. *
* *
* Saving miscellaneous data: *
* There are a lot of miscellaneous variables to save, such as the *
* map's dimensions, the player's house, etc. *
* *
* INPUT: *
* id numerical ID, for the file extension *
* *
* OUTPUT: *
* true = OK, false = error *
* *
* WARNINGS: *
* none. *
* *
* HISTORY: *
* 12/28/1994 BR : Created. *
*=========================================================================*/
bool Save_Game(int id,char *descr)
{
char name[_MAX_FNAME+_MAX_EXT];
/*
** Generate the filename to save
*/
sprintf(name, "SAVEGAME.%03d", id);
return Save_Game(name, descr);
}
/*
** Version that takes file name. ST - 9/9/2019 11:10AM
*/
bool Save_Game(const char *file_name, const char *descr)
{
RawFileClass file;
int i;
unsigned long version;
unsigned scenario;
HousesType house;
char descr_buf[DESCRIP_MAX];
scenario = Scenario; // get current scenario #
house = PlayerPtr->Class->House; // get current house
/*
** Code everybody's pointers
*/
Code_All_Pointers();
/*
** Open the file
*/
if (!file.Open(file_name, WRITE)) {
Decode_All_Pointers();
return(false);
}
/*
** Save the DLLs variables first, so we can do a version check in the DLL when we begin the load
*/
if (RunningAsDLL) {
if (!DLLSave(file)) {
file.Close();
Decode_All_Pointers();
return false;
}
}
/*
** Save the description, scenario #, and house
** (scenario # & house are saved separately from the actual Scenario &
** PlayerPtr globals for convenience; we can quickly find out which
** house & scenario this save-game file is for by reading these values.
** Also, PlayerPtr is stored in a coded form in Save_Misc_Values(),
** which may or may not be a HousesType number; so, saving 'house'
** here ensures we can always pull out the house for this file.)
*/
sprintf(descr_buf, "%s\r\n",descr); // put CR-LF after text
descr_buf[strlen(descr_buf) + 1] = 26; // put CTRL-Z after NULL
if (file.Write(descr_buf, DESCRIP_MAX) != DESCRIP_MAX) {
file.Close();
return(false);
}
if (file.Write(&scenario, sizeof(scenario)) != sizeof(scenario)) {
file.Close();
return(false);
}
if (file.Write(&house, sizeof(house)) != sizeof(house)) {
file.Close();
return(false);
}
/*
** Save the save-game version, for loading verification
*/
version = SAVEGAME_VERSION;
if (file.Write(&version, sizeof(version)) != sizeof(version)) {
file.Close();
return(false);
}
Call_Back();
/*
** Save the map. The map must be saved first, since it saves the Theater.
*/
Map.Save(file);
Call_Back();
/*
** Save all game objects. This code saves every object that's stored in a
** TFixedIHeap class.
*/
if (!Houses.Save(file) ||
!TeamTypes.Save(file) ||
!Teams.Save(file) ||
!Triggers.Save(file) ||
!Aircraft.Save(file) ||
!Anims.Save(file) ||
!Buildings.Save(file) ||
!Bullets.Save(file) ||
!Infantry.Save(file) ||
!Overlays.Save(file) ||
!Smudges.Save(file) ||
!Templates.Save(file) ||
!Terrains.Save(file) ||
!Units.Save(file) ||
!Factories.Save(file)) {
file.Close();
Decode_All_Pointers();
return(false);
}
Call_Back();
/*
** Save the Logic & Map layers
*/
if (!Logic.Save(file)) {
file.Close();
Decode_All_Pointers();
return(false);
}
for (i = 0; i < LAYER_COUNT; i++) {
if (!Map.Layer[i].Save(file)) {
file.Close();
Decode_All_Pointers();
return(false);
}
}
/*
** Save the Score
*/
if (!Score.Save(file)) {
file.Close();
Decode_All_Pointers();
return(false);
}
/*
** Save the AI Base
*/
if (!Base.Save(file)) {
file.Close();
Decode_All_Pointers();
return(false);
}
/*
** Save miscellaneous variables.
*/
if (!Save_Misc_Values(file)) {
file.Close();
Decode_All_Pointers();
return(false);
}
Call_Back();
/*
** Close the file; we're done
*/
file.Close();
Decode_All_Pointers();
return(true);
}
/***************************************************************************
* Load_Game -- loads a saved game *
* *
* This routine loads the data in the same way it was saved out. *
* *
* Loading the Map: *
* - DisplayClass::Load() invokes CellClass's Load() for every cell *
* that was saved. *
* - The cell loads its own CellTrigger pointer. *
* *
* Loading game objects: *
* - IHeap's Load() routine loads the # of objects stored, and loads *
* each object. *
* - Triggers: Add themselves to the HouseTriggers if they're associated *
* with a house *
* *
* Loading the layers: *
* LayerClass::Load() reads the entire layer array to disk *
* *
* Loading the houses: *
* Each house is loaded in its entirety. *
* *
* Loading miscellaneous data: *
* There are a lot of miscellaneous variables to load, such as the *
* map's dimensions, the player's house, etc. *
* *
* INPUT: *
* id numerical ID, for the file extension *
* *
* OUTPUT: *
* true = OK, false = error *
* *
* WARNINGS: *
* If this routine returns false, the entire game will be in an *
* unknown state, so the scenario will have to be re-initialized. *
* *
* HISTORY: *
* 12/28/1994 BR : Created. *
*=========================================================================*/
bool Load_Game(int id)
{
char name[_MAX_FNAME+_MAX_EXT];
/*
** Generate the filename to load
*/
sprintf(name, "SAVEGAME.%03d", id);
return Load_Game(name);
}
/*
** Version that takes a file name instead. ST - 9/9/2019 11:13AM
*/
bool Load_Game(const char *file_name)
{
RawFileClass file;
int i;
unsigned long version;
unsigned scenario;
HousesType house;
char descr_buf[DESCRIP_MAX];
/*
** Open the file
*/
if (!file.Open(file_name, READ)) {
return(false);
}
/*
** Load the DLLs variables first, in case we need to do something different based on version
*/
if (RunningAsDLL) {
if (!DLLLoad(file)) {
file.Close();
return false;
}
}
/*
** Read & discard the save-game's header info
*/
if (file.Read(descr_buf, DESCRIP_MAX) != DESCRIP_MAX) {
file.Close();
return(false);
}
if (file.Read(&scenario, sizeof(scenario)) != sizeof(scenario)) {
file.Close();
return(false);
}
if (file.Read(&house, sizeof(house)) != sizeof(house)) {
file.Close();
return(false);
}
Call_Back();
/*
** Clear the scenario so we start fresh; this calls the Init_Clear() routine
** for the Map, and all object arrays. It has the following important
** effects:
** - Every cell is cleared to 0's, via MapClass::Init_Clear()
** - All heap elements' are cleared
** - The Houses are Initialized, which also clears their HouseTriggers
** array
** - The map's Layers & Logic Layer are cleared to empty
** - The list of currently-selected objects is cleared
*/
Clear_Scenario();
/*
** Read in & verify the save-game ID code
*/
if (file.Read(&version,sizeof(version)) != sizeof(version)) {
file.Close();
return(false);
}
if (version != SAVEGAME_VERSION) {
file.Close();
return(false);
}
Call_Back();
/*
** Set the required CD to be in the drive according to the scenario
** loaded.
*/
if (RequiredCD != -2) {
if (scenario >= 20 && scenario <60 && GameToPlay == GAME_NORMAL) {
RequiredCD = 2;
} else {
if (scenario >= 60){
/*
** This is a gateway bonus scenario
*/
RequiredCD = -1;
}else{
if (house == HOUSE_GOOD) {
RequiredCD = 0;
} else {
RequiredCD = 1;
}
}
}
}
if(!Force_CD_Available(RequiredCD)) {
Prog_End("Load_Game - CD not found", true);
if (!RunningAsDLL) {
exit(EXIT_FAILURE);
}
return false;
}
Call_Back();
/*
** Load the map. The map comes first, since it loads the Theater & init's
** mixfiles. The map calls all the type-class's Init routines, telling them
** what the Theater is; this must be done before any objects are created, so
** they'll be properly created.
*/
Map.Load(file);
Call_Back();
/*
** Load the object data.
*/
if (!Houses.Load(file) ||
!TeamTypes.Load(file) ||
!Teams.Load(file) ||
!Triggers.Load(file) ||
!Aircraft.Load(file) ||
!Anims.Load(file) ||
!Buildings.Load(file) ||
!Bullets.Load(file) ||
!Infantry.Load(file) ||
!Overlays.Load(file) ||
!Smudges.Load(file) ||
!Templates.Load(file) ||
!Terrains.Load(file) ||
!Units.Load(file) ||
!Factories.Load(file)) {
file.Close();
return(false);
}
Call_Back();
/*
** Load the Logic & Map Layers
*/
if (!Logic.Load(file)) {
file.Close();
return(false);
}
for (i = 0; i < LAYER_COUNT; i++) {
if (!Map.Layer[i].Load(file)) {
file.Close();
return(false);
}
}
Call_Back();
/*
** Load the Score
*/
if (!Score.Load(file)) {
file.Close();
return(false);
}
/*
** Load the AI Base
*/
if (!Base.Load(file)) {
file.Close();
return(false);
}
/*
** Load miscellaneous variables, including the map size & the Theater
*/
if (!Load_Misc_Values(file)) {
file.Close();
return(false);
}
file.Close();
Decode_All_Pointers();
Map.Init_IO();
Map.Flag_To_Redraw(true);
Fixup_Scenario();
ScenarioInit = 0;
/*
** Fixup remap tables. ST - 2/28/2020 1:50PM
*/
for (HousesType house = HOUSE_FIRST; house < HOUSE_COUNT; house++) {
HouseClass * hptr = HouseClass::As_Pointer(house);
if (hptr && hptr->IsActive) {
hptr->Init_Data(hptr->RemapColor, hptr->ActLike, hptr->Credits);
}
}
/*
** Re-init unit trackers. They will be garbage pointers after the load
*/
for (HousesType house = HOUSE_FIRST; house < HOUSE_COUNT; house++) {
HouseClass * hptr = HouseClass::As_Pointer(house);
if (hptr && hptr->IsActive) {
hptr->Init_Unit_Trackers();
}
}
#ifdef DEMO
if (Scenario != 10 && Scenario != 1 && Scenario != 6) {
Clear_Scenario();
return(false);
}
#endif
Call_Back();
return(true);
}
/***************************************************************************
* Save_Misc_Values -- saves miscellaneous variables *
* *
* INPUT: *
* file file to use for writing *
* *
* OUTPUT: *
* true = success, false = failure *
* *
* WARNINGS: *
* none. *
* *
* HISTORY: *
* 12/29/1994 BR : Created. *
*=========================================================================*/
bool Save_Misc_Values(FileClass &file)
{
int i, j;
int count; // # ptrs in 'CurrentObject'
ObjectClass * ptr; // for saving 'CurrentObject' ptrs
/*
** Player's House.
*/
if (file.Write(&PlayerPtr, sizeof(PlayerPtr)) != sizeof(PlayerPtr)) {
return(false);
}
/*
** Save this scenario number.
*/
if (file.Write(&Scenario, sizeof(Scenario)) != sizeof(Scenario)) {
return(false);
}
/*
** Save frame #.
*/
if (file.Write(&Frame, sizeof(Frame)) != sizeof(Frame)) {
return(false);
}
/*
** Save VQ Movie names.
*/
if (file.Write(WinMovie, sizeof(WinMovie)) != sizeof(WinMovie)) {
return(false);
}
if (file.Write(LoseMovie, sizeof(LoseMovie)) != sizeof(LoseMovie)) {
return(false);
}
/*
** Save currently-selected objects list.
** Save the # of ptrs in the list.
*/
for (i = 0; i < SelectedObjectsType::COUNT; i++) {
DynamicVectorClass<ObjectClass *>& selection = CurrentObject.Raw(i);
count = selection.Count();
if (file.Write(&count, sizeof(count)) != sizeof(count)) {
return(false);
}
/*
** Save the pointers.
*/
for (j = 0; j < count; j++) {
ptr = selection[j];
if (file.Write(&ptr, sizeof(ptr)) != sizeof(ptr)) {
return(false);
}
}
}
/*
** Save the list of waypoints.
*/
if (file.Write(Waypoint, sizeof(Waypoint)) != sizeof(Waypoint)) {
return(false);
}
file.Write(&ScenDir, sizeof(ScenDir));
file.Write(&ScenVar, sizeof(ScenVar));
file.Write(&CarryOverMoney, sizeof(CarryOverMoney));
file.Write(&CarryOverPercent, sizeof(CarryOverPercent));
file.Write(&BuildLevel, sizeof(BuildLevel));
file.Write(BriefMovie, sizeof(BriefMovie));
file.Write(Views, sizeof(Views));
file.Write(&EndCountDown, sizeof(EndCountDown));
file.Write(BriefingText, sizeof(BriefingText));
// This is new...
file.Write(ActionMovie, sizeof(ActionMovie));
return(true);
}
/***********************************************************************************************
* Load_Misc_Values -- Loads miscellaneous variables. *
* *
* INPUT: file -- The file to load the misc values from. *
* *
* OUTPUT: Was the misc load process successful? *
* *
* WARNINGS: none *
* *
* HISTORY: *
* 06/24/1995 BRR : Created. *
*=============================================================================================*/
bool Load_Misc_Values(FileClass &file)
{
int i, j;
int count; // # ptrs in 'CurrentObject'
ObjectClass * ptr; // for loading 'CurrentObject' ptrs
/*
** Player's House.
*/
if (file.Read(&PlayerPtr, sizeof(PlayerPtr)) != sizeof(PlayerPtr)) {
return(false);
}
/*
** Read this scenario number.
*/
if (file.Read(&Scenario,sizeof(Scenario)) != sizeof(Scenario)) {
return(false);
}
/*
** Load frame #.
*/
if (file.Read(&Frame, sizeof(Frame)) != sizeof(Frame)) {
return(false);
}
/*
** Load VQ Movie names.
*/
if (file.Read(WinMovie, sizeof(WinMovie)) != sizeof(WinMovie)) {
return(false);
}
if (file.Read(LoseMovie, sizeof(LoseMovie)) != sizeof(LoseMovie)) {
return(false);
}
for (i = 0; i < SelectedObjectsType::COUNT; i++) {
/*
** Load currently-selected objects list.
** Load the # of ptrs in the list.
*/
DynamicVectorClass<ObjectClass *>& selection = CurrentObject.Raw(i);
if (file.Read(&count, sizeof(count)) != sizeof(count)) {
return(false);
}
/*
** Load the pointers.
*/
for (j = 0; j < count; j++) {
if (file.Read(&ptr, sizeof(ptr)) != sizeof(ptr)) {
return(false);
}
selection.Add(ptr); // add to the list
}
}
/*
** Save the list of waypoints.
*/
if (file.Read(Waypoint, sizeof(Waypoint)) != sizeof(Waypoint)) {
return(false);
}
file.Read(&ScenDir, sizeof(ScenDir));
file.Read(&ScenVar, sizeof(ScenVar));
file.Read(&CarryOverMoney, sizeof(CarryOverMoney));
file.Read(&CarryOverPercent, sizeof(CarryOverPercent));
file.Read(&BuildLevel, sizeof(BuildLevel));
file.Read(BriefMovie, sizeof(BriefMovie));
file.Read(Views, sizeof(Views));
file.Read(&EndCountDown, sizeof(EndCountDown));
file.Read(BriefingText, sizeof(BriefingText));
if (file.Seek(0, SEEK_CUR) < file.Size()) {
file.Read(ActionMovie, sizeof(ActionMovie));
}
return(true);
}
/*
** ST - 9/26/2019 11:43AM
*/
extern void DLL_Code_Pointers(void);
extern void DLL_Decode_Pointers(void);
/***********************************************************************************************
* Code_All_Pointers -- Code all pointers. *
* *
* INPUT: none *
* *
* OUTPUT: none *
* *
* WARNINGS: none *
* *
* HISTORY: *
* 06/24/1995 BRR : Created. *
*=============================================================================================*/
void Code_All_Pointers(void)
{
int i, j;
/*
** The Map.
*/
Map.Code_Pointers();
/*
** The ArrayOf's.
*/
TeamTypes.Code_Pointers();
Teams.Code_Pointers();
Triggers.Code_Pointers();
Aircraft.Code_Pointers();
Anims.Code_Pointers();
Buildings.Code_Pointers();
Bullets.Code_Pointers();
Infantry.Code_Pointers();
Overlays.Code_Pointers();
Smudges.Code_Pointers();
Templates.Code_Pointers();
Terrains.Code_Pointers();
Units.Code_Pointers();
Factories.Code_Pointers();
/*
** The Layers.
*/
Logic.Code_Pointers();
for (i = 0; i < LAYER_COUNT; i++) {
Map.Layer[i].Code_Pointers();
}
/*
** The Score.
*/
Score.Code_Pointers();
/*
** The Base.
*/
Base.Code_Pointers();
/*
** PlayerPtr.
*/
PlayerPtr = (HouseClass *)(PlayerPtr->Class->House);
/*
** Currently-selected objects.
*/
for (i = 0; i < SelectedObjectsType::COUNT; i++) {
DynamicVectorClass<ObjectClass *>& selection = CurrentObject.Raw(i);
for (j = 0; j < selection.Count(); j++) {
selection[j] = (ObjectClass *)selection[j]->As_Target();
}
}
/*
** DLL data
*/
DLL_Code_Pointers();
/*
** Houses must be coded last, because the Class->House member of the HouseClass
** is used to code HouseClass pointers for all other objects, and if Class is
** coded, it will point to a meaningless value.
*/
Houses.Code_Pointers();
}
/***********************************************************************************************
* Decode_All_Pointers -- Decodes all pointers. *
* *
* INPUT: none *
* *
* OUTPUT: none *
* *
* WARNINGS: none *
* *
* HISTORY: *
* 06/24/1995 BRR : Created. *
*=============================================================================================*/
void Decode_All_Pointers(void)
{
int i, j;
/*
** The Map.
*/
Map.Decode_Pointers();
/*
** Decode houses first, so we can properly decode all other objects'
** House pointers
*/
Houses.Decode_Pointers();
/*
** DLL data
*/
DLL_Decode_Pointers();
/*
** The ArrayOf's.
*/
TeamTypes.Decode_Pointers();
Teams.Decode_Pointers();
Triggers.Decode_Pointers();
Aircraft.Decode_Pointers();
Anims.Decode_Pointers();
Buildings.Decode_Pointers();
Bullets.Decode_Pointers();
Infantry.Decode_Pointers();
Overlays.Decode_Pointers();
Smudges.Decode_Pointers();
Templates.Decode_Pointers();
Terrains.Decode_Pointers();
Units.Decode_Pointers();
Factories.Decode_Pointers();
/*
** The Layers.
*/
Logic.Decode_Pointers();
for (i = 0; i < LAYER_COUNT; i++) {
Map.Layer[i].Decode_Pointers();
}
/*
** The Score.
*/
Score.Decode_Pointers();
/*
** The Base.
*/
Base.Decode_Pointers();
/*
** PlayerPtr.
*/
PlayerPtr = HouseClass::As_Pointer(*((HousesType*)&PlayerPtr));
Whom = PlayerPtr->Class->House;
switch (PlayerPtr->Class->House) {
case HOUSE_GOOD:
ScenPlayer = SCEN_PLAYER_GDI;
break;
case HOUSE_BAD:
ScenPlayer = SCEN_PLAYER_NOD;
break;
case HOUSE_JP:
ScenPlayer = SCEN_PLAYER_JP;
break;
}
Check_Ptr(PlayerPtr,__FILE__,__LINE__);
if (PlayerPtr->ActLike == HOUSE_JP) {
ScenPlayer = SCEN_PLAYER_JP;
}
Set_Scenario_Name(ScenarioName, Scenario, ScenPlayer, ScenDir, ScenVar);
/*
** Currently-selected objects.
*/
for (i = 0; i < SelectedObjectsType::COUNT; i++) {
DynamicVectorClass<ObjectClass *>& selection = CurrentObject.Raw(i);
for (j = 0; j < selection.Count(); j++) {
unsigned long target_as_object_ptr = reinterpret_cast<unsigned long>(selection[j]);
TARGET target = (TARGET)target_as_object_ptr;
selection[j] = As_Object(target);
Check_Ptr(selection[j],__FILE__,__LINE__);
}
}
/*
** Last-Minute Fixups; to resolve these pointers properly requires all other
** pointers to be loaded & decoded.
*/
if (Map.PendingObjectPtr) {
Map.PendingObject = &Map.PendingObjectPtr->Class_Of();
Check_Ptr((void *)Map.PendingObject, __FILE__, __LINE__);
Map.Set_Cursor_Shape(Map.PendingObject->Occupy_List(true));
} else {
Map.PendingObject = 0;
Map.Set_Cursor_Shape(0);
}
}
/***********************************************************************************************
* Read_Object -- reads an object from a file *
* *
* Replacement for the original code below, which doesn't work with MSVC *
* We now assume that the vtable is 4 bytes, and is at the beginning of the class *
* It's the caller's responsibility to make sure the VTable is correct *
* *
* INPUT: none *
* *
* OUTPUT: none *
* *
* WARNINGS: none *
* *
* HISTORY: *
* 01/10/1995 BR : Created. *
* 9/10/2019 12:34PM ST : Updated for MS compiler *
*=============================================================================================*/
bool Read_Object(void *ptr, int class_size, FileClass & file, bool has_vtable)
{
int size;
/*
** Read size of this chunk.
*/
if (file.Read(&size,sizeof(size)) != sizeof(size)) {
return(false);
}
/*
** Error if incorrect size.
*/
if (size != class_size) {
return false;
}
int vtable_adjust = has_vtable ? 4 : 0;
unsigned char *object_ptr = static_cast<unsigned char *>(ptr);
if (has_vtable) {
/*
** Need to skip the vtable read.
*/
int dummy;
file.Read(&dummy, vtable_adjust);
}
/*
** Read object data.
*/
if (file.Read(object_ptr + vtable_adjust, class_size - vtable_adjust) != (class_size - vtable_adjust)) {
return(false);
}
return true;
}
#if (0)
/***********************************************************************************************
* Write_Object -- writes an object to a file *
* *
* This routine writes an object, skipping the embedded virtual function table pointer. *
* *
* INPUT: *
* ptr pointer to object to write *
* class_size size of the class itself *
* file file to use for I/O *
* *
* OUTPUT: *
* true = OK, false = error *
* *
* WARNINGS: *
* This routine ASSUMES the program modules are compiled with: *
* -Vb- Always make the virtual function table ptr 2 bytes long *
* -Vt Put the virtual function table after the 1st class's data *
* *
* Also see warnings for Read_Object(). *
* *
* HISTORY: *
* 01/10/1995 BR : Created. *
* 9/10/2019 12:34PM ST : Updated for MS compiler *
*=============================================================================================*/
bool Write_Object(void *ptr, int class_size, FileClass & file)
{
/*
** Test assumptions about class size.
*/
class TestClass {
virtual void Test(void) = 0;
};
if (sizeof(TestClass) != 4) {
/*
** Crash.
*/
*((int*)0) = 0;
}
/*
** Save size of this chunk.
*/
if (file.Write(&class_size,sizeof(class_size)) != sizeof(class_size)) {
return(false);
}
/*
** Save object data.
*/
if (file.Write(ptr, class_size) != (class_size)) {
return(false);
}
return(true);
}
#endif
#if (0) //ST - 9/10/2019 12:43PM
/***********************************************************************************************
* Read_Object -- reads an object from disk *
* *
* This routine reads in an object and fills in the virtual function table pointer. *
* *
* INPUT: *
* ptr pointer to object to read *
* base_size size of object's absolute base class *
* class_size size of the class itself *
* file file to use for I/O *
* vtable virtual function table pointer value, NULL if none *
* *
* OUTPUT: *
* true = OK, false = error *
* *
* WARNINGS: *
* This routine ASSUMES the program modules are compiled with: *
* -Vb- Always make the virtual function table ptr 2 bytes long *
* -Vt Put the virtual function table after the 1st class's data *
* *
* ALSO, the class used to compute 'base_size' must come first in a multiple-inheritence *
* hierarchy. AND, if your class multiply-inherits from other classes, only ONE of those *
* classes can contain virtual functions! If you include virtual functions in the other *
* classes, the compiler will generate multiple virtual function tables, and this load/save *
* technique will fail. *
* *
* Each class hierarchy is stored in memory as a chain: first the data for the base-est *
* class, then the virtual function table pointer for this hierarchy, then the data for *
* all derived classes. If any of these derived classes multiply-inherit, the base class *
* for the multiple inheritance is stored as a separate chain following this chain. The *
* new chain will contain its own virtual function table pointer, if the multiply- *
* inherited hierarchy contains any virtual functions. Thus, the declaration *
* class A *
* class B: public A *
* class C: public B, X *
* is stored as: *
* A data *
* A's Virtual Table Pointer *
* B data *
* X data *
* [X's Virtual Table Pointer] *
* C data *
* *
* and *
* class A *
* class B: public A *
* class C: public X, B *
* is stored in memory as: *
* X data *
* [X's Virtual Table Pointer] *
* A data *
* A's Virtual Table Pointer *
* B data *
* C data *
* *
* *
* HISTORY: *
* 01/10/1995 BR : Created. *
*=============================================================================================*/
bool Read_Object(void *ptr, int base_size, int class_size, FileClass & file, void * vtable)
{
int size; // object size in bytes
/*
** Read size of this chunk.
*/
if (file.Read(&size,sizeof(size)) != sizeof(size)) {
return(false);
}
/*
** Error if incorrect size.
*/
if (size != class_size) {
return(false);
}
/*
** Read object data.
*/
if (file.Read(ptr, class_size) != (class_size)) {
return(false);
}
/*
** Fill in VTable.
*/
if (vtable) {
((void **)(((char *)ptr) + base_size - 4))[0] = vtable;
}
return(true);
}
#endif
/***********************************************************************************************
* Write_Object -- reads an object from disk, in a safe way *
* *
* This routine writes an object in 2 pieces, skipping the embedded *
* virtual function table pointer. *
* *
* INPUT: *
* ptr pointer to object to write *
* class_size size of the class itself *
* file file to use for I/O *
* *
* OUTPUT: *
* true = OK, false = error *
* *
* WARNINGS: *
* This routine ASSUMES the program modules are compiled with: *
* -Vb- Always make the virtual function table ptr 2 bytes long *
* -Vt Put the virtual function table after the 1st class's data *
* *
* Also see warnings for Read_Object(). *
* *
* HISTORY: *
* 01/10/1995 BR : Created. *
*=============================================================================================*/
bool Write_Object(void *ptr, int class_size, FileClass & file)
{
/*
** Save size of this chunk.
*/
if (file.Write(&class_size,sizeof(class_size)) != sizeof(class_size)) {
return(false);
}
/*
** Save object data.
*/
if (file.Write(ptr, class_size) != (class_size)) {
return(false);
}
return(true);
}
/***************************************************************************
* Get_Savefile_Info -- gets description, scenario #, house *
* *
* INPUT: *
* id numerical ID, for the file extension *
* buf buffer to store description in *
* scenp ptr to variable to hold scenario *
* housep ptr to variable to hold house *
* *
* OUTPUT: *
* true = OK, false = error (save-game file invalid) *
* *
* WARNINGS: *
* none. *
* *
* HISTORY: *
* 01/12/1995 BR : Created. *
*=========================================================================*/
bool Get_Savefile_Info(int id, char *buf, unsigned *scenp, HousesType *housep)
{
RawFileClass file;
char name[_MAX_FNAME+_MAX_EXT];
unsigned long version;
char descr_buf[DESCRIP_MAX];
/*
** Generate the filename to load
*/
sprintf(name, "SAVEGAME.%03d", id);
/*
** If the file opens OK, read the file
*/
if (file.Open(name, READ)) {
/*
** Read in the description, scenario #, and the house
*/
if (file.Read(descr_buf, DESCRIP_MAX) != DESCRIP_MAX) {
file.Close();
return(false);
}
descr_buf[strlen(descr_buf) - 2] = '\0'; // trim off CR/LF
strcpy(buf, descr_buf);
if (file.Read(scenp, sizeof(unsigned)) != sizeof(unsigned)) {
file.Close();
return(false);
}
if (file.Read(housep, sizeof(HousesType)) != sizeof(HousesType)) {
file.Close();
return(false);
}
/*
** Read & verify the save-game version #
*/
if (file.Read(&version,sizeof(version)) != sizeof(version)) {
file.Close();
return(false);
}
if (version!=SAVEGAME_VERSION) {
file.Close();
return(false);
}
file.Close();
return(true);
}
return(false);
}
/***************************************************************************
* TechnoType_To_Target -- converts TechnoTypeClass to TARGET *
* *
* INPUT: *
* ptr pointer to convert *
* *
* OUTPUT: *
* target value *
* *
* WARNINGS: *
* Be certain that you only use the returned target value by passing *
* it to Target_To_TechnoType; do NOT call As_Techno, or you'll get *
* a totally invalid pointer. *
* *
* HISTORY: *
* 01/12/1995 BR : Created. *
*=========================================================================*/
TARGET TechnoType_To_Target(TechnoTypeClass const * ptr)
{
TARGET target;
switch (ptr->What_Am_I()) {
case RTTI_INFANTRYTYPE:
target = Build_Target(KIND_INFANTRY, ((InfantryTypeClass const *)ptr)->Type);
break;
case RTTI_UNITTYPE:
target = Build_Target(KIND_UNIT, ((UnitTypeClass const *)ptr)->Type);
break;
case RTTI_AIRCRAFTTYPE:
target = Build_Target(KIND_AIRCRAFT, ((AircraftTypeClass const *)ptr)->Type);
break;
case RTTI_BUILDINGTYPE:
target = Build_Target(KIND_BUILDING, ((BuildingTypeClass const *)ptr)->Type);
break;
default:
target = 0;
break;
}
return(target);
}
/***************************************************************************
* Target_To_TechnoType -- converts TARGET to TechnoTypeClass *
* *
* INPUT: *
* target TARGET value to convert *
* *
* OUTPUT: *
* pointer to the TechnoTypeClass for this target value *
* *
* WARNINGS: *
* The TARGET value MUST have been generated with TechnoType_To_Target;*
* If you give this routine a target generated by an As_Target() *
* routine, it will return a bogus pointer. *
* *
* HISTORY: *
* 01/12/1995 BR : Created. *
*=========================================================================*/
TechnoTypeClass const * Target_To_TechnoType(TARGET target)
{
switch (Target_Kind(target)) {
case KIND_INFANTRY:
return(&InfantryTypeClass::As_Reference((InfantryType)Target_Value(target)));
case KIND_UNIT:
return(&UnitTypeClass::As_Reference((UnitType)Target_Value(target)));
case KIND_AIRCRAFT:
return(&AircraftTypeClass::As_Reference((AircraftType)Target_Value(target)));
case KIND_BUILDING:
return(&BuildingTypeClass::As_Reference((StructType)Target_Value(target)));
}
return(NULL);
}
/***************************************************************************
* Get_VTable -- gets the VTable pointer for the given object *
* *
* INPUT: *
* ptr pointer to check *
* *
* OUTPUT: *
* none *
* *
* WARNINGS: *
* none *
* *
* HISTORY: *
* 01/12/1995 BR : Created. *
*=========================================================================*/
void * Get_VTable(void *ptr, int base_size)
{
return(((void **)(((char *)ptr) + base_size - 4))[0]);
}
/***************************************************************************
* Set_VTable -- sets the VTable pointer for the given object *
* *
* INPUT: *
* ptr pointer to check *
* base_size size of base class *
* vtable value of VTable to plug in *
* *
* OUTPUT: *
* none *
* *
* WARNINGS: *
* none *
* *
* HISTORY: *
* 01/12/1995 BR : Created. *
*=========================================================================*/
void Set_VTable(void *ptr, int base_size, void *vtable)
{
((void **)(((char *)ptr) + base_size - 4))[0] = vtable;
}
#if 0
/****************************************************************************
Dump routine: prints everything about everything related to the Save/Load
process (OK, not exactly everything, but lots of stuff)
****************************************************************************/
void Dump(void)
{
int i,j;
FILE *fp;
char *layername[] = {
"Ground",
"Air",
"Top"
};
/*
------------------------------- Open file --------------------------------
*/
fp = fopen("dump.txt","wt");
/*
------------------------------ Logic Layer -------------------------------
*/
fprintf(fp,"--------------------- Logic Layer ---------------------\n");
fprintf(fp,"Count: %d\n",Logic.Count());
for (j = 0; j < Logic.Count(); j++) {
fprintf(fp, "Entry %d: %x \n",j,Logic[j]);
}
fprintf(fp,"\n");
/*
------------------------------- Map Layers -------------------------------
*/
for (i = 0; i < LAYER_COUNT; i++) {
fprintf(fp,"----------------- Map Layer %s ---------------------\n",
layername[i]);
fprintf(fp,"Count: %d\n",Map.Layer[i].Count());
for (j = 0; j < Map.Layer[i].Count(); j++) {
fprintf(fp, "Entry %d: %x \n",j,Map.Layer[i][j]);
}
}
fprintf(fp,"\n");
fprintf(fp,"------------------ TeamTypes --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",TeamTypes.ActiveCount);
for (i = 0; i < TEAMTYPE_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d Name:%s\n",i,TeamTypes[i].IsActive,
TeamTypes[i].Get_Name());
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Teams --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Teams.ActiveCount);
for (i = 0; i < TEAM_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d Name:%s\n",i,Teams[i].IsActive,
Teams[i].Class->Get_Name());
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Triggers --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Triggers.ActiveCount);
for (i = 0; i < TRIGGER_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d Name:%s\n",i,Triggers[i].IsActive,
Triggers[i].Get_Name());
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Aircraft --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Aircraft.ActiveCount);
for (i = 0; i < AIRCRAFT_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Aircraft[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Anims --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Anims.ActiveCount);
for (i = 0; i < ANIM_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Anims[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Buildings --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Buildings.ActiveCount);
for (i = 0; i < BUILDING_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Buildings[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Bullets --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Bullets.ActiveCount);
for (i = 0; i < BULLET_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Bullets[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Infantry --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Infantry.ActiveCount);
for (i = 0; i < INFANTRY_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Infantry[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Overlays --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Overlays.ActiveCount);
for (i = 0; i < OVERLAY_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Overlays[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Reinforcements --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Reinforcements.ActiveCount);
for (i = 0; i < REINFORCEMENT_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Reinforcements[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Smudges --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Smudges.ActiveCount);
for (i = 0; i < SMUDGE_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Smudges[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Templates --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Templates.ActiveCount);
for (i = 0; i < TEMPLATE_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Templates[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Terrains --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Terrains.ActiveCount);
for (i = 0; i < TERRAIN_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Terrains[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Units --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Units.ActiveCount);
for (i = 0; i < UNIT_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Units[i].IsActive);
}
fprintf(fp,"\n");
fprintf(fp,"------------------ Factories --------------------------\n");
fprintf(fp,"ActiveCount: %d\n",Factories.ActiveCount);
for (i = 0; i < FACTORY_MAX; i++) {
fprintf(fp,"Entry %d: Active:%d \n",i,Factories[i].IsActive);
}
fprintf(fp,"\n");
fclose(fp);
/*
---------------------------- Flush the cache -----------------------------
*/
fp = fopen("dummy.bin","wt");
for (i = 0; i < 100; i++) {
fprintf(fp,"xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx\n");
}
fclose(fp);
}
#endif
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