Counter Strike : Global Offensive Source Code
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//========= Copyright © 1996-2009, Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=====================================================================================//
#include "stdafx.h"
#include "Manifest.h"
#include "CustomMessages.h"
#include "GlobalFunctions.h"
#include "MainFrm.h"
#include "MapDoc.h"
#include "MapSolid.h"
#include "MapWorld.h"
#include "MapInstance.h"
#include "ToolManager.h"
#include "ChunkFile.h"
#include "ManifestDialog.h"
#include "History.h"
#include "HelperFactory.h"
#include "SaveInfo.h"
#include "p4lib/ip4.h"
// memdbgon must be the last include file in a .cpp file!!!
#include <tier0/memdbgon.h>
IMPLEMENT_DYNCREATE(CManifest, CMapDoc)
BEGIN_MESSAGE_MAP(CManifest, CMapDoc)
//{{AFX_MSG_MAP(CManifest)
ON_COMMAND(ID_FILE_SAVE_AS, OnFileSaveAs)
//}}AFX_MSG_MAP
END_MESSAGE_MAP()
IMPLEMENT_MAPCLASS( CManifestInstance )
//-----------------------------------------------------------------------------
// Purpose: default constructor
//-----------------------------------------------------------------------------
CManifestMap::CManifestMap( void )
{
m_Map = NULL;
m_RelativeMapFileName = "";
m_AbsoluteMapFileName = "";
m_FriendlyName = "unnamed";
m_bTopLevelMap = false;
m_bPrimaryMap = false;
m_bProtected = false;
m_bReadOnly = false;
m_bIsVersionControlled = false;
m_bCheckedOut = false;
m_bDefaultCheckin = false;
m_bVisible = true;
m_Entity = NULL;
m_InternalID = 0;
}
//-----------------------------------------------------------------------------
// Purpose: returns true if the manifest map is editable
//-----------------------------------------------------------------------------
bool CManifestMap::IsEditable( void )
{
return ( m_bProtected == false && m_bReadOnly == false && m_bPrimaryMap );
}
//-----------------------------------------------------------------------------
// Purpose: default constructor
//-----------------------------------------------------------------------------
CManifestInstance::CManifestInstance( void ) :
CMapEntity()
{
m_pManifestMap = NULL;
}
//-----------------------------------------------------------------------------
// Purpose: default constructor
//-----------------------------------------------------------------------------
CManifestInstance::CManifestInstance( CManifestMap *pManifestMap ) :
CMapEntity()
{
m_pManifestMap = pManifestMap;
}
//-----------------------------------------------------------------------------
// Purpose: returns true if the manifest map this instance owns is editable
//-----------------------------------------------------------------------------
bool CManifestInstance::IsEditable( void )
{
return m_pManifestMap->IsEditable();
}
//-----------------------------------------------------------------------------
// Purpose: default constructor
//-----------------------------------------------------------------------------
CManifest::CManifest( void ) :
CMapDoc()
{
m_bIsValid = false;
m_bRelocateSave = false;
m_ManifestDir[ 0 ] = 0;
m_pPrimaryMap = NULL;
m_ManifestWorld = NULL;
m_NextInternalID = 1;
m_bManifestChanged = false;
m_bManifestUserPrefsChanged = false;
m_pSaveUndo = m_pUndo;
m_pSaveRedo = m_pRedo;
m_bReadOnly = true;
m_bIsVersionControlled = false;
m_bCheckedOut = false;
m_bDefaultCheckin = false;
}
//-----------------------------------------------------------------------------
// Purpose: default destructor
//-----------------------------------------------------------------------------
CManifest::~CManifest( void )
{
m_Maps.PurgeAndDeleteElements();
}
//-----------------------------------------------------------------------------
// Purpose: this function will parse through the known keys for the manifest map entry
// Input : szKey - the key name
// szValue - the value
// pManifestMap - the manifest map this belongs to
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadKeyInfoCallback( const char *szKey, const char *szValue, CManifest *pDoc )
{
if ( !stricmp( szKey, "NextInternalID" ) )
{
pDoc->m_NextInternalID = atoi( szValue );
}
return ChunkFile_Ok;
}
//-----------------------------------------------------------------------------
// Purpose: this function is responsible for setting up the manifest map about to be read in
// Input : pFile - the chunk file being read
// pDoc - the owning manifest document
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadManifestInfoCallback( CChunkFile *pFile, CManifest *pDoc )
{
ChunkFileResult_t eResult = pFile->ReadChunk( ( KeyHandler_t )LoadKeyInfoCallback, pDoc );
return( eResult );
}
//-----------------------------------------------------------------------------
// Purpose: this function will parse through the known keys for the manifest map entry
// Input : szKey - the key name
// szValue - the value
// pManifestMap - the manifest map this belongs to
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadKeyCallback( const char *szKey, const char *szValue, CManifestMap *pManifestMap )
{
if ( !stricmp( szKey, "InternalID" ) )
{
pManifestMap->m_InternalID = atoi( szValue );
}
else if ( !stricmp( szKey, "Name" ) )
{
pManifestMap->m_FriendlyName = szValue;
}
else if ( !stricmp( szKey, "File" ) )
{
pManifestMap->m_RelativeMapFileName = szValue;
pManifestMap->m_AbsoluteMapFileName += szValue;
if ( !pManifestMap->m_Map->LoadVMF( pManifestMap->m_AbsoluteMapFileName, VMF_LOAD_ACTIVATE | VMF_LOAD_IS_SUBMAP ) )
{
delete pManifestMap->m_Map;
pManifestMap->m_Map = NULL;
}
pManifestMap->m_bReadOnly = true;
}
else if ( !stricmp( szKey, "TopLevel" ) )
{
pManifestMap->m_bTopLevelMap = ( atoi( szValue ) == 1 );
}
return ChunkFile_Ok;
}
//-----------------------------------------------------------------------------
// Purpose: this function is responsible for setting up the manifest map about to be read in
// Input : pFile - the chunk file being read
// pDoc - the owning manifest document
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadManifestVMFCallback( CChunkFile *pFile, CManifest *pDoc )
{
char FileName[ MAX_PATH ];
strcpy( FileName, pDoc->m_ManifestDir );
CManifestMap *pManifestMap = pDoc->CreateNewMap( FileName, "", false );
SetActiveMapDoc( pManifestMap->m_Map );
ChunkFileResult_t eResult = pFile->ReadChunk( ( KeyHandler_t )LoadKeyCallback, pManifestMap );
if ( pManifestMap->m_Map )
{
pManifestMap->m_Map->SetEditable( false );
}
SetActiveMapDoc( pDoc );
return( eResult );
}
//-----------------------------------------------------------------------------
// Purpose: this function will load the VMF chunk
// Input : pFile - the chunk file being read
// pDoc - the owning manifest document
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadManifestMapsCallback( CChunkFile *pFile, CManifest *pDoc )
{
CChunkHandlerMap Handlers;
Handlers.AddHandler( "VMF", ( ChunkHandler_t )LoadManifestVMFCallback, pDoc );
pFile->PushHandlers(&Handlers);
ChunkFileResult_t eResult = ChunkFile_Ok;
eResult = pFile->ReadChunk();
pFile->PopHandlers();
return( eResult );
}
typedef struct SManifestLoadPrefs
{
CManifest *pDoc;
CManifestMap *pManifestMap;
} TManifestLoadPrefs;
//-----------------------------------------------------------------------------
// Purpose: this function will parse through the known keys for the manifest map entry
// Input : szKey - the key name
// szValue - the value
// pManifestMap - the manifest map this belongs to
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadKeyPrefsCallback( const char *szKey, const char *szValue, TManifestLoadPrefs *pManifestLoadPrefs )
{
if ( !stricmp( szKey, "InternalID" ) )
{
pManifestLoadPrefs->pManifestMap = pManifestLoadPrefs->pDoc->FindMapByID( atoi( szValue ) );
}
else if ( !stricmp( szKey, "IsPrimary" ) )
{
if ( pManifestLoadPrefs->pManifestMap )
{
pManifestLoadPrefs->pManifestMap->m_bPrimaryMap = ( atoi( szValue ) == 1 );
}
}
else if ( !stricmp( szKey, "IsProtected" ) )
{
if ( pManifestLoadPrefs->pManifestMap )
{
pManifestLoadPrefs->pManifestMap->m_bProtected = ( atoi( szValue ) == 1 );
}
}
else if ( !stricmp( szKey, "IsVisible" ) )
{
if ( pManifestLoadPrefs->pManifestMap )
{
pManifestLoadPrefs->pManifestMap->m_bVisible = ( atoi( szValue ) == 1 );
}
}
return ChunkFile_Ok;
}
//-----------------------------------------------------------------------------
// Purpose: this function is responsible for setting up the manifest map about to be read in
// Input : pFile - the chunk file being read
// pDoc - the owning manifest document
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadManifestVMFPrefsCallback( CChunkFile *pFile, CManifest *pDoc )
{
TManifestLoadPrefs ManifestLoadPrefs;
ManifestLoadPrefs.pDoc = pDoc;
ManifestLoadPrefs.pManifestMap = NULL;
ChunkFileResult_t eResult = pFile->ReadChunk( ( KeyHandler_t )LoadKeyPrefsCallback, &ManifestLoadPrefs );
return( eResult );
}
//-----------------------------------------------------------------------------
// Purpose: this function will load the VMF chunk
// Input : pFile - the chunk file being read
// pDoc - the owning manifest document
// Output : ChunkFileResult_t - result of the parsing
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadManifestMapsPrefsCallback( CChunkFile *pFile, CManifest *pDoc )
{
CChunkHandlerMap Handlers;
Handlers.AddHandler( "VMF", ( ChunkHandler_t )LoadManifestVMFPrefsCallback, pDoc );
pFile->PushHandlers(&Handlers);
ChunkFileResult_t eResult = ChunkFile_Ok;
eResult = pFile->ReadChunk();
pFile->PopHandlers();
return( eResult );
}
//-----------------------------------------------------------------------------
// Purpose:
// Input :
// Output :
//-----------------------------------------------------------------------------
ChunkFileResult_t CManifest::LoadManifestCordoningPrefsCallback( CChunkFile *pFile, CManifest *pDoc )
{
CChunkHandlerMap Handlers;
Handlers.AddHandler( "cordons", ( ChunkHandler_t )CMapDoc::LoadCordonsCallback, pDoc );
pFile->PushHandlers(&Handlers);
ChunkFileResult_t eResult = ChunkFile_Ok;
eResult = pFile->ReadChunk();
pFile->PopHandlers();
return( eResult );
}
//-----------------------------------------------------------------------------
// Purpose: This function will load in a vmf manifest
// Input : pszFileName - the file name of the manifest to load
// Output : returns true if the load was successful
//-----------------------------------------------------------------------------
bool CManifest::LoadVMFManifest( const char *pszFileName )
{
FILE *fp = fopen( pszFileName, "rb" );
if ( !fp )
{
return false;
}
V_StripExtension( pszFileName, m_ManifestDir, sizeof( m_ManifestDir ) );
strcat( m_ManifestDir, "\\" );
CChunkFile File;
ChunkFileResult_t eResult = File.Open( pszFileName, ChunkFile_Read );
m_bLoading = true;
if (eResult == ChunkFile_Ok)
{
//
// Set up handlers for the subchunks that we are interested in.
//
CChunkHandlerMap Handlers;
Handlers.AddHandler( "Info", ( ChunkHandler_t )CManifest::LoadManifestInfoCallback, this );
Handlers.AddHandler( "Maps", ( ChunkHandler_t )CManifest::LoadManifestMapsCallback, this );
Handlers.SetErrorHandler( ( ChunkErrorHandler_t )CMapDoc::HandleLoadError, this);
File.PushHandlers(&Handlers);
while (eResult == ChunkFile_Ok)
{
eResult = File.ReadChunk();
}
if (eResult == ChunkFile_EOF)
{
eResult = ChunkFile_Ok;
}
File.PopHandlers();
}
if (eResult == ChunkFile_Ok)
{
}
else
{
GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Error loading manifest!", MB_OK | MB_ICONEXCLAMATION );
}
if ( GetNumMaps() == 0 )
{
GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Manifest file does not contain any maps!", MB_OK | MB_ICONEXCLAMATION );
return false;
}
SetActiveMapDoc( this );
PostloadDocument( pszFileName );
m_ManifestWorld->PostloadWorld();
bool bSetIDs = false;
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
if ( pManifestMap->m_InternalID == 0 )
{
pManifestMap->m_InternalID = m_NextInternalID;
m_NextInternalID++;
bSetIDs = true;
}
if ( pManifestMap->m_Map == NULL || pManifestMap->m_Map->GetMapWorld() == NULL )
{
pManifestMap->m_bPrimaryMap = false;
RemoveSubMap( pManifestMap );
i = -1;
}
}
LoadVMFManifestUserPrefs( pszFileName );
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
if ( pManifestMap->m_bPrimaryMap )
{
SetPrimaryMap( pManifestMap );
}
}
if ( !m_pPrimaryMap )
{
SetPrimaryMap( GetMap( 0 ) );
}
m_bLoading = false;
m_bIsValid = true;
m_bManifestChanged = bSetIDs;
GetMainWnd()->m_ManifestFilterControl.UpdateManifestList();
return true;
}
//-----------------------------------------------------------------------------
// Purpose: this function will load the user prefs for the manifest file.
// Input : pszFileName - the manifest file name.
// Output : true if prefs were loaded.
//-----------------------------------------------------------------------------
bool CManifest::LoadVMFManifestUserPrefs( const char *pszFileName )
{
char UserName[ MAX_PATH ], FileName[ MAX_PATH ], UserPrefsFileName[ MAX_PATH ];
DWORD UserNameSize;
m_bManifestUserPrefsChanged = false;
UserNameSize = sizeof( UserName );
if ( GetUserName( UserName, &UserNameSize ) == 0 )
{
strcpy( UserPrefsFileName, "default" );
}
strcpy( FileName, m_ManifestDir );
sprintf( UserPrefsFileName, "%s.vmm_prefs", UserName );
strcat( FileName, UserPrefsFileName );
FILE *fp = fopen( FileName, "rb" );
if ( !fp )
{
return false;
}
CChunkFile File;
ChunkFileResult_t eResult = File.Open( FileName, ChunkFile_Read );
m_bLoading = true;
if ( eResult == ChunkFile_Ok )
{
//
// Set up handlers for the subchunks that we are interested in.
//
CChunkHandlerMap Handlers;
Handlers.AddHandler( "Maps", ( ChunkHandler_t )CManifest::LoadManifestMapsPrefsCallback, this );
Handlers.AddHandler( "cordoning", ( ChunkHandler_t )CManifest::LoadManifestCordoningPrefsCallback, this );
Handlers.SetErrorHandler( ( ChunkErrorHandler_t )CMapDoc::HandleLoadError, this);
File.PushHandlers(&Handlers);
while( eResult == ChunkFile_Ok )
{
eResult = File.ReadChunk();
}
if ( eResult == ChunkFile_EOF )
{
eResult = ChunkFile_Ok;
}
File.PopHandlers();
}
if ( eResult == ChunkFile_Ok )
{
}
else
{
// no pref message for now
// GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Error loading manifest!", MB_OK | MB_ICONEXCLAMATION );
}
return true;
}
//-----------------------------------------------------------------------------
// Purpose: this function will load in a manifest file ( and its user prefs )
// Input : pszFileName - the name of the manifest file.
// Output : returns true if the manifest was loaded.
//-----------------------------------------------------------------------------
bool CManifest::Load( const char *pszFileName )
{
if ( !LoadVMFManifest( pszFileName ) )
{
return false;
}
return true;
}
//-----------------------------------------------------------------------------
// Purpose: This function will save the manifest, the associated maps, and user prefs.
// Input : pszFileName - the name of the manifest
// bForce - if true, we need to save all files, as we are relocating.
// Output : returns true if all files saved successfully.
//-----------------------------------------------------------------------------
bool CManifest::Save( const char *pszFileName, bool bForce )
{
bool bSuccess = true;
if ( bForce || m_bManifestChanged )
{
if ( !SaveVMFManifest( pszFileName ) )
{
bSuccess = false;
}
}
if ( !SaveVMFManifestMaps( pszFileName ) )
{
bSuccess = false;
}
// if ( bForce || m_bManifestUserPrefsChanged )
{
if ( !SaveVMFManifestUserPrefs( pszFileName ) )
{
bSuccess = false;
}
}
return bSuccess;
}
//-----------------------------------------------------------------------------
// Purpose: this function will save the manifest file and all modified maps. If we are
// relocating the manifest to a new place, all maps will be saved relative to
// the new place
// Input : the file name the manifest should be saved as
// Output : returns true if the save was completely successful. A partial save will
// return false.
//-----------------------------------------------------------------------------
bool CManifest::SaveVMFManifest( const char *pszFileName )
{
bool bSaved = true;
CChunkFile File;
ChunkFileResult_t eResult = File.Open( pszFileName, ChunkFile_Write );
if (eResult != ChunkFile_Ok)
{
GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Error saving Manifest!" , MB_OK | MB_ICONEXCLAMATION );
bSaved = false;
}
else
{
eResult = File.BeginChunk( "Info" );
eResult = File.WriteKeyValueInt( "NextInternalID", m_NextInternalID );
eResult = File.EndChunk();
eResult = File.BeginChunk( "Maps" );
if (eResult == ChunkFile_Ok)
{
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
ChunkFileResult_t eResult = File.BeginChunk("VMF");
if (eResult == ChunkFile_Ok)
{
eResult = File.WriteKeyValue( "Name", pManifestMap->m_FriendlyName );
eResult = File.WriteKeyValue( "File", pManifestMap->m_RelativeMapFileName );
eResult = File.WriteKeyValueInt( "InternalID", pManifestMap->m_InternalID );
if ( pManifestMap->m_bTopLevelMap == true )
{
eResult = File.WriteKeyValue( "TopLevel", "1" );
}
eResult = File.EndChunk();
}
}
}
if (eResult == ChunkFile_Ok)
{
eResult = File.EndChunk();
}
else
{
GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Error saving Manifest!", MB_OK | MB_ICONEXCLAMATION );
bSaved = false;
}
File.Close();
}
V_StripExtension( pszFileName, m_ManifestDir, sizeof( m_ManifestDir ) );
CreateDirectory( m_ManifestDir, NULL );
strcat( m_ManifestDir, "\\" );
if ( bSaved )
{
m_bManifestChanged = false;
}
return bSaved;
}
//-----------------------------------------------------------------------------
// Purpose: This function will save all maps associated with a manifest. Only modified
// maps are saved unless we are relocating the manifest.
// Input : pszFileName - the name of the manifest file
// Output : returns true if the maps were saved successfully.
//-----------------------------------------------------------------------------
bool CManifest::SaveVMFManifestMaps( const char *pszFileName )
{
bool bSaved = true;
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
if ( m_bRelocateSave )
{
char FileName[ MAX_PATH ];
strcpy( FileName, m_ManifestDir );
strcat( FileName, pManifestMap->m_RelativeMapFileName );
pManifestMap->m_AbsoluteMapFileName = FileName;
}
if ( ( pManifestMap->m_Map->IsModified() || m_bRelocateSave ) )
{
if ( pManifestMap->m_Map->SaveVMF( pManifestMap->m_AbsoluteMapFileName, 0 ) == false )
{
bSaved = false;
}
}
}
if ( !bSaved )
{
GetMainWnd()->MessageBox( "Not all pieces of the manifest were saved!", "Error saving Manifest!", MB_OK | MB_ICONEXCLAMATION );
}
return bSaved;
}
//-----------------------------------------------------------------------------
// Purpose: this function will save the user prefs of the manifest.
// Input : pszFileName - the name of the manifest file.
// Output : returns true if the prefs were saved.
//-----------------------------------------------------------------------------
bool CManifest::SaveVMFManifestUserPrefs( const char *pszFileName )
{
bool bSaved = true;
CChunkFile File;
char UserName[ MAX_PATH ], FileName[ MAX_PATH ], UserPrefsFileName[ MAX_PATH ];
DWORD UserNameSize;
UserNameSize = sizeof( UserName );
if ( GetUserName( UserName, &UserNameSize ) == 0 )
{
strcpy( UserPrefsFileName, "default" );
}
strcpy( FileName, m_ManifestDir );
sprintf( UserPrefsFileName, "%s.vmm_prefs", UserName );
strcat( FileName, UserPrefsFileName );
ChunkFileResult_t eResult = File.Open( FileName, ChunkFile_Write );
if (eResult != ChunkFile_Ok)
{
GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Error saving Manifest User Prefs!" , MB_OK | MB_ICONEXCLAMATION );
bSaved = false;
}
else
{
eResult = File.BeginChunk( "Maps" );
if (eResult == ChunkFile_Ok)
{
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
ChunkFileResult_t eResult = File.BeginChunk("VMF");
if (eResult == ChunkFile_Ok)
{
eResult = File.WriteKeyValueInt( "InternalID", pManifestMap->m_InternalID );
if ( pManifestMap->m_bPrimaryMap )
{
eResult = File.WriteKeyValue( "IsPrimary", "1" );
}
if ( pManifestMap->m_bProtected == true )
{
eResult = File.WriteKeyValue( "IsProtected", "1" );
}
if ( pManifestMap->m_bVisible == false )
{
eResult = File.WriteKeyValue( "IsVisible", "0" );
}
eResult = File.EndChunk();
}
}
}
if (eResult == ChunkFile_Ok)
{
eResult = File.EndChunk();
}
else
{
GetMainWnd()->MessageBox( File.GetErrorText( eResult ), "Error saving Manifest User Prefs!", MB_OK | MB_ICONEXCLAMATION );
bSaved = false;
}
eResult = File.BeginChunk( "cordoning" );
eResult = Cordon_SaveVMF( &File, NULL );
if ( m_bIsCordoning )
{
CSaveInfo SaveInfo;
SaveInfo.SetVisiblesOnly( false );
CMapWorld *pCordonWorld = Cordon_CreateWorld();
eResult = pCordonWorld->SaveSolids( &File, &SaveInfo, 0 );
}
eResult = File.EndChunk();
File.Close();
}
if ( bSaved )
{
m_bManifestUserPrefsChanged = false;
}
return bSaved;
}
//-----------------------------------------------------------------------------
// Purpose: this function will initialize the manifest
//-----------------------------------------------------------------------------
void CManifest::Initialize( void )
{
__super::Initialize();
m_ManifestWorld = new CMapWorld( this );
m_ManifestWorld->CullTree_Build();
}
//-----------------------------------------------------------------------------
// Purpose: this function will update the manifest and all of its sub maps
//-----------------------------------------------------------------------------
void CManifest::Update( void )
{
__super::Update();
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
pManifestMap->m_Map->Update();
}
}
//-----------------------------------------------------------------------------
// Purpose: this function allows you to indicate if the user prefs have been modified.
// Input : bModified - the new status of the user prefs
//-----------------------------------------------------------------------------
void CManifest::SetManifestPrefsModifiedFlag( bool bModified )
{
m_bManifestUserPrefsChanged = bModified;
}
//-----------------------------------------------------------------------------
// Purpose: this function handles the routing of the manifest's modified flag down to the primary map
// Input : bModified - the new modified status
//-----------------------------------------------------------------------------
void CManifest::SetModifiedFlag( BOOL bModified )
{
if ( m_pPrimaryMap )
{
m_pPrimaryMap->m_Map->SetModifiedFlag( bModified );
}
if ( bModified == false )
{
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
if ( pManifestMap->m_Map->IsModified() )
{
bModified = true;
break;
}
}
}
if ( bModified != IsModified() )
{
GetMainWnd()->m_ManifestFilterControl.Invalidate();
}
__super::SetModifiedFlag( bModified );
}
//-----------------------------------------------------------------------------
// Purpose: this function will return the full path to a sub map.
// Input : pManifestMapFileName - the relative name of the sub map
// Output : pOutputPath - the full path to the sub map
//-----------------------------------------------------------------------------
void CManifest::GetFullMapPath( const char *pManifestMapFileName, char *pOutputPath )
{
strcpy( pOutputPath, m_ManifestDir );
strcat( pOutputPath, pManifestMapFileName );
}
//-----------------------------------------------------------------------------
// Purpose: this function will attempt to find the manifest map that owns the map doc
// Input : pMap - the map doc to look up
// Output : returns a pointer to the owning manifest map, otherwise NULL
//-----------------------------------------------------------------------------
CManifestMap *CManifest::FindMap( CMapDoc *pMap )
{
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
if ( pManifestMap->m_Map == pMap )
{
return pManifestMap;
}
}
return NULL;
}
//-----------------------------------------------------------------------------
// Purpose: this function will attempt to look up a map by its internal id.
// Input : InternalID - the internal ID.
// Output : returns the manifest map if one is found.
//-----------------------------------------------------------------------------
CManifestMap *CManifest::FindMapByID( int InternalID )
{
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
if ( pManifestMap->m_InternalID == InternalID )
{
return pManifestMap;
}
}
return NULL;
}
//-----------------------------------------------------------------------------
// Purpose: this function will set the manifest map as the primary map. All entity / brush
// operations happen exclusively on the primary map.
// Input : pManifestMap - the manifest map to make primary
//-----------------------------------------------------------------------------
void CManifest::SetPrimaryMap( CManifestMap *pManifestMap )
{
if ( m_pPrimaryMap )
{
m_pPrimaryMap->m_bPrimaryMap = false;
m_pPrimaryMap->m_Map->m_nNextMapObjectID = m_nNextMapObjectID;
m_pPrimaryMap->m_Map->m_nNextMapObjectID = m_nNextNodeID;
m_pPrimaryMap->m_Map->SetEditable( false );
}
ClearSelection();
CheckFileStatus();
m_pPrimaryMap = pManifestMap;
if ( m_pPrimaryMap )
{
m_pPrimaryMap->m_bPrimaryMap = true;
m_pWorld = m_pPrimaryMap->m_Map->GetMapWorld();
m_VisGroups = m_pPrimaryMap->m_Map->m_VisGroups;
m_RootVisGroups = m_pPrimaryMap->m_Map->m_RootVisGroups;
m_nNextMapObjectID = m_pPrimaryMap->m_Map->m_nNextMapObjectID;
m_nNextNodeID = m_pPrimaryMap->m_Map->m_nNextMapObjectID;
m_pPrimaryMap->m_Map->SetEditable( !m_pPrimaryMap->m_bReadOnly );
m_pUndo = m_pPrimaryMap->m_Map->m_pUndo;
m_pRedo = m_pPrimaryMap->m_Map->m_pRedo;
CHistory::SetHistory( m_pPrimaryMap->m_Map->m_pUndo );
// m_pSelection = m_pPrimaryMap->m_Map->m_pSelection;
}
m_bManifestUserPrefsChanged = true;
GetMainWnd()->GlobalNotify( WM_MAPDOC_CHANGED );
GetMainWnd()->m_ManifestFilterControl.Invalidate();
UpdateAllViews( MAPVIEW_UPDATE_SELECTION | MAPVIEW_UPDATE_TOOL | MAPVIEW_RENDER_NOW );
}
//-----------------------------------------------------------------------------
// Purpose: sets the visibility flag of a sub map.
// Input : pManifestMap - the map to set the flag
// bIsVisible - the visiblity status
//-----------------------------------------------------------------------------
void CManifest::SetVisibility( CManifestMap *pManifestMap, bool bIsVisible )
{
pManifestMap->m_bVisible = bIsVisible;
GetMainWnd()->m_ManifestFilterControl.Invalidate();
UpdateAllViews( MAPVIEW_UPDATE_SELECTION | MAPVIEW_UPDATE_TOOL | MAPVIEW_RENDER_NOW );
}
//-----------------------------------------------------------------------------
// Purpose: this function will create and default a new manifest map, add it to the world
// Input : AbsoluteFileName - the full path of the vmf file
// RelativeFileName - the relative path of the vmf file
// Output : returns a pointer to the newly created manifest map.
//-----------------------------------------------------------------------------
CManifestMap *CManifest::CreateNewMap( const char *AbsoluteFileName, const char *RelativeFileName, bool bSetID )
{
CManifestMap *pManifestMap = new CManifestMap();
pManifestMap->m_AbsoluteMapFileName = AbsoluteFileName;
pManifestMap->m_RelativeMapFileName = RelativeFileName;
pManifestMap->m_Map = new CMapDoc();
SetActiveMapDoc( pManifestMap->m_Map );
pManifestMap->m_Map->SetManifest( this );
pManifestMap->m_Map->SetEditable( false );
pManifestMap->m_Entity = new CManifestInstance( pManifestMap );
pManifestMap->m_Entity->SetPlaceholder( true );
pManifestMap->m_Entity->SetOrigin( Vector( 0.0f, 0.0f, 0.0f ) );
pManifestMap->m_Entity->SetClass( "func_instance" );
pManifestMap->m_Entity->SetKeyValue( "classname", "func_instance" );
// ensure we are a pure instance of only the instance helper!
pManifestMap->m_Entity->RemoveAllChildren();
CHelperInfo HI;
HI.SetName( "instance" );
CMapClass *pHelper = CHelperFactory::CreateHelper( &HI, pManifestMap->m_Entity );
if ( pHelper != NULL )
{
pManifestMap->m_Entity->AddHelper( pHelper, false );
}
if ( bSetID )
{
pManifestMap->m_InternalID = m_NextInternalID;
m_NextInternalID++;
}
CMapInstance *pMapInstance = pManifestMap->m_Entity->GetChildOfType( ( CMapInstance * )NULL );
if ( pMapInstance )
{
pMapInstance->SetManifest( pManifestMap );
}
AddManifestObjectToWorld( pManifestMap->m_Entity );
m_Maps.AddToTail( pManifestMap );
m_bManifestChanged = true;
return pManifestMap;
}
//-----------------------------------------------------------------------------
// Purpose: This function will move the selection of the active map to a new sub map.
// Input : pManifestMap - the sub map the selection shoud be moved to
// CenterContents - if the contents should be centered
//-----------------------------------------------------------------------------
void CManifest::MoveSelectionToSubmap( CManifestMap *pManifestMap, bool CenterContents )
{
#if 0
if ( s_Clipboard.Objects.Count() != 0 )
{
return false;
}
#endif
CMapDoc *pDoc = CMapDoc::GetActiveMapDoc();
if ( !pDoc )
{
return;
}
pDoc->Copy();
if ( pDoc->GetClipboardCount() == 0 )
{
return;
}
pDoc->Delete();
pManifestMap->m_Map->ManifestPaste( pManifestMap->m_Map->GetMapWorld(), Vector( 0.0f, 0.0f, 0.0f ), QAngle( 0.0f, 0.0f, 0.0f ), NULL, false, NULL );
pManifestMap->m_Entity->CalcBounds( TRUE );
UpdateAllViews( MAPVIEW_UPDATE_SELECTION | MAPVIEW_UPDATE_TOOL | MAPVIEW_RENDER_NOW );
}
//-----------------------------------------------------------------------------
// Purpose: this function will cut the selection and move it into a newly created
// map doc and manifest map.
// Input : FriendlyName - this is the text friendly name that the user can refer
// to the map as
// FileName - The relative file name for this new map to be saved as
// CenterContents - whether or not we should center the contents in the new map
// Output : returns a pointer to the newly created manifest map.
//-----------------------------------------------------------------------------
CManifestMap *CManifest::MoveSelectionToNewSubmap( CString &FriendlyName, CString &FileName, bool CenterContents )
{
#if 0
if ( s_Clipboard.Objects.Count() != 0 )
{
return false;
}
#endif
CMapDoc *pDoc = CMapDoc::GetActiveMapDoc();
if ( !pDoc )
{
return NULL;
}
pDoc->Copy();
if ( pDoc->GetClipboardCount() == 0 )
{
return NULL;
}
char AbsoluteFileName[ MAX_PATH ];
strcpy( AbsoluteFileName, m_ManifestDir );
strcat( AbsoluteFileName, FileName );
CManifestMap *pManifestMap = CreateNewMap( AbsoluteFileName, FileName, true );
pManifestMap->m_FriendlyName = FriendlyName;
pManifestMap->m_Map->Initialize();
if ( pManifestMap->m_Map->SaveVMF( pManifestMap->m_AbsoluteMapFileName, 0 ) == false )
{
m_bLoading = false;
SetActiveMapDoc( this );
delete pManifestMap;
return NULL;
}
pDoc->Delete();
pManifestMap->m_Map->ManifestPaste( pManifestMap->m_Map->GetMapWorld(), Vector( 0.0f, 0.0f, 0.0f ), QAngle( 0.0f, 0.0f, 0.0f ), NULL, false, NULL );
pManifestMap->m_Entity->CalcBounds( TRUE );
SetPrimaryMap( pManifestMap );
SetActiveMapDoc( this );
__super::SetModifiedFlag( true );
pDoc->SetModifiedFlag( true );
pManifestMap->m_Map->SetModifiedFlag( true );
UpdateAllViews( MAPVIEW_UPDATE_SELECTION | MAPVIEW_UPDATE_TOOL | MAPVIEW_RENDER_NOW );
GetMainWnd()->m_ManifestFilterControl.UpdateManifestList();
return pManifestMap;
}
//-----------------------------------------------------------------------------
// Purpose: this function will add a new sub map to the manifest.
// Input : FriendlyName - the friendly name string
// FileName - the file name of the sub map
// Output : returns a pointer to the new manifest map.
//-----------------------------------------------------------------------------
CManifestMap *CManifest::AddNewSubmap( CString &FriendlyName, CString &FileName )
{
char AbsoluteFileName[ MAX_PATH ];
strcpy( AbsoluteFileName, m_ManifestDir );
strcat( AbsoluteFileName, FileName );
CManifestMap *pManifestMap = CreateNewMap( AbsoluteFileName, FileName, true );
pManifestMap->m_FriendlyName = FriendlyName;
pManifestMap->m_Map->Initialize();
pManifestMap->m_Entity->CalcBounds( TRUE );
if ( pManifestMap->m_Map->SaveVMF( pManifestMap->m_AbsoluteMapFileName, 0 ) == false )
{
m_bLoading = false;
SetActiveMapDoc( this );
delete pManifestMap;
return NULL;
}
SetPrimaryMap( pManifestMap );
SetActiveMapDoc( this );
__super::SetModifiedFlag( true );
UpdateAllViews( MAPVIEW_UPDATE_SELECTION | MAPVIEW_UPDATE_TOOL | MAPVIEW_RENDER_NOW );
GetMainWnd()->m_ManifestFilterControl.UpdateManifestList();
return pManifestMap;
}
//-----------------------------------------------------------------------------
// Purpose: This function add an external vmf file to the manifest
// Input : pszFileName - the absolute file name of the vmf file
// bFromInstance - if the map is coming from a func_instance somewhere
// Output : returns true if the map could be loaded and the manifest was created
//-----------------------------------------------------------------------------
bool CManifest::AddExistingMap( const char *pszFileName, bool bFromInstance )
{
char AbsoluteFileName[ MAX_PATH ], RelativeFileName[ MAX_PATH ];
char FileExt[ MAX_PATH ];
_splitpath_s( pszFileName, NULL, 0, NULL, 0, RelativeFileName, sizeof( RelativeFileName ), FileExt, sizeof( FileExt ) );
strcat( RelativeFileName, FileExt );
strcpy( AbsoluteFileName, m_ManifestDir );
strcat( AbsoluteFileName, RelativeFileName );
CManifestMap *pManifestMap = CreateNewMap( AbsoluteFileName, RelativeFileName, true );
m_bLoading = true;
if ( !pManifestMap->m_Map->LoadVMF( pszFileName, VMF_LOAD_ACTIVATE | VMF_LOAD_IS_SUBMAP ) )
{
m_bLoading = false;
SetActiveMapDoc( this );
delete pManifestMap;
return false;
}
if ( pManifestMap->m_Map->SaveVMF( pManifestMap->m_AbsoluteMapFileName, 0 ) == false )
{
m_bLoading = false;
SetActiveMapDoc( this );
delete pManifestMap;
return false;
}
pManifestMap->m_Map->GetMapWorld()->CullTree_Build();
pManifestMap->m_Entity->PostUpdate( Notify_Changed );
if ( m_Maps.Count() == 1 )
{
pManifestMap->m_bTopLevelMap = true;
}
SetPrimaryMap( pManifestMap );
m_bLoading = false;
SetActiveMapDoc( this );
__super::SetModifiedFlag( true );
GetMainWnd()->m_ManifestFilterControl.UpdateManifestList();
if ( GetPathName().GetLength() == 0 )
{
char ManifestFile[ MAX_PATH ];
strcpy( ManifestFile, pszFileName );
V_SetExtension( ManifestFile, ".vmm", sizeof( ManifestFile ) );
m_bRelocateSave = true;
OnSaveDocument( ManifestFile );
m_bRelocateSave = false;
SetPathName( ManifestFile, false );
}
return true;
}
//-----------------------------------------------------------------------------
// Purpose: This function will allow the user to browse to an exist map to add to the manifest.
//-----------------------------------------------------------------------------
bool CManifest::AddExistingMap( void )
{
char szInitialDir[ MAX_PATH ];
strcpy( szInitialDir, GetPathName() );
if ( szInitialDir[ 0 ] == '\0' )
{
strcpy( szInitialDir, g_pGameConfig->szMapDir );
}
CFileDialog dlg( TRUE, NULL, NULL, OFN_LONGNAMES | OFN_HIDEREADONLY | OFN_NOCHANGEDIR, "Valve Map Files (*.vmf)|*.vmf||" );
dlg.m_ofn.lpstrInitialDir = szInitialDir;
int iRvl = dlg.DoModal();
if ( iRvl == IDCANCEL )
{
return false;
}
//
// Get the directory they browsed to for next time.
//
CString str = dlg.GetPathName();
int nSlash = str.ReverseFind( '\\' );
if ( nSlash != -1 )
{
strcpy( szInitialDir, str.Left( nSlash ) );
}
if ( str.Find('.') == -1 )
{
switch ( dlg.m_ofn.nFilterIndex )
{
case 1:
str += ".vmf";
break;
}
}
return AddExistingMap( str, false );
}
//-----------------------------------------------------------------------------
// Purpose: This function will remove the sub map from the manifest
// Input : pManifestMap - the sub map to be removed
// Output : returns true if it was successful
//-----------------------------------------------------------------------------
bool CManifest::RemoveSubMap( CManifestMap *pManifestMap )
{
if ( m_Maps.Count() > 1 )
{
m_Maps.FindAndRemove( pManifestMap );
const CMapObjectList *pChildren = m_ManifestWorld->GetChildren();
FOR_EACH_OBJ( *pChildren, pos )
{
CMapClass *pChild = (CUtlReference< CMapClass >)pChildren->Element( pos );
CMapEntity *pEntity = dynamic_cast< CMapEntity * >( pChild );
if ( pEntity && stricmp( pEntity->GetClassName(), "func_instance" ) == 0 )
{
CMapInstance *pMapInstance = pEntity->GetChildOfType( ( CMapInstance * )NULL );
if ( pMapInstance )
{
if ( pMapInstance->GetManifestMap() == pManifestMap )
{
m_ManifestWorld->RemoveObjectFromWorld( pChild, true );
break;
}
}
}
}
delete pManifestMap;
return true;
}
return false;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input :
// Output :
//-----------------------------------------------------------------------------
bool CManifest::CheckOut( )
{
if ( !p4 )
{
return false;
}
if ( !p4->OpenFileForEdit( GetPathName() ) )
{
return false;
}
CheckFileStatus();
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input :
// Output :
//-----------------------------------------------------------------------------
bool CManifest::AddToVersionControl( )
{
if ( !p4 )
{
return false;
}
if ( !p4->OpenFileForAdd( GetPathName() ) )
{
return false;
}
CheckFileStatus();
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input :
// Output :
//-----------------------------------------------------------------------------
void CManifest::CheckFileStatus( void )
{
P4File_t FileInfo;
m_bReadOnly = !g_pFullFileSystem->IsFileWritable( GetPathName() );
m_bCheckedOut = false;
m_bIsVersionControlled = false;
if ( p4 != NULL && p4->GetFileInfo( GetPathName(), &FileInfo ) == true )
{
m_bIsVersionControlled = true;
if ( FileInfo.m_eOpenState == P4FILE_OPENED_FOR_ADD || FileInfo.m_eOpenState == P4FILE_OPENED_FOR_EDIT )
{
m_bCheckedOut = true;
}
}
for( int i = 0; i < GetNumMaps(); i++ )
{
CManifestMap *pManifestMap = GetMap( i );
pManifestMap->m_bReadOnly = !g_pFullFileSystem->IsFileWritable( pManifestMap->m_AbsoluteMapFileName );
pManifestMap->m_bCheckedOut = false;
pManifestMap->m_bIsVersionControlled = false;
if ( p4 != NULL && p4->GetFileInfo( pManifestMap->m_AbsoluteMapFileName, &FileInfo ) == true )
{
pManifestMap->m_bIsVersionControlled = true;
if ( FileInfo.m_eOpenState == P4FILE_OPENED_FOR_ADD || FileInfo.m_eOpenState == P4FILE_OPENED_FOR_EDIT )
{
pManifestMap->m_bCheckedOut = true;
}
}
}
}
//-----------------------------------------------------------------------------
// Purpose: This function will clear the selection
//-----------------------------------------------------------------------------
void CManifest::ClearSelection( void )
{
SelectFace( NULL, 0, scClear | scSaveChanges );
SelectObject( NULL, scClear | scSaveChanges );
}
//-----------------------------------------------------------------------------
// Purpose: This function will add the object to the primary map of the manifest
// Input : pObject - a pointer to the object to be added
// pParent - a pointer to the parent of this object
//-----------------------------------------------------------------------------
void CManifest::AddObjectToWorld(CMapClass *pObject, CMapClass *pParent)
{
m_pPrimaryMap->m_Map->AddObjectToWorld( pObject, pParent );
m_pPrimaryMap->m_Entity->PostUpdate( Notify_Changed );
}
//-----------------------------------------------------------------------------
// Purpose: This function will pass on the notification that a map has been updated
// Input : pInstanceMapDoc - the map that was updated
//-----------------------------------------------------------------------------
void CManifest::UpdateInstanceMap( CMapDoc *pInstanceMapDoc )
{
const CMapObjectList *pChildren = m_ManifestWorld->GetChildren();
FOR_EACH_OBJ( *pChildren, pos )
{
CMapClass *pChild = (CUtlReference< CMapClass >)pChildren->Element( pos );
CMapEntity *pEntity = dynamic_cast< CMapEntity * >( pChild );
if ( pEntity && stricmp( pEntity->GetClassName(), "func_instance" ) == 0 )
{
CMapInstance *pMapInstance = pEntity->GetChildOfType( ( CMapInstance * )NULL );
if ( pMapInstance )
{
if ( pMapInstance->GetInstancedMap() == pInstanceMapDoc )
{
pMapInstance->UpdateInstanceMap();
m_ManifestWorld->UpdateChild( pMapInstance );
}
}
}
}
}
//-----------------------------------------------------------------------------
// Purpose: this function will add the object to the local manifest world. the
// only objects that should be added are ManifestInstance.
// Input : pObject - a pointer to the object to be added
// pParent - a pointer to the parent of this object
//-----------------------------------------------------------------------------
void CManifest::AddManifestObjectToWorld( CMapClass *pObject, CMapClass *pParent )
{
m_ManifestWorld->AddObjectToWorld( pObject, pParent );
}
//-----------------------------------------------------------------------------
// Purpose: Removes an object from the manifest world.
// Input : pObject - object to remove from the world.
// bChildren - whether we're removing the object's children as well.
//-----------------------------------------------------------------------------
void CManifest::RemoveManifestObjectFromWorld( CMapClass *pObject, bool bRemoveChildren )
{
m_ManifestWorld->RemoveObjectFromWorld( pObject, bRemoveChildren );
}
//-----------------------------------------------------------------------------
// Purpose: this function will start the loading process for a manifest
// Input : lpszPathName - the absoltue path of the manifest file
// Output : Returns TRUE on success, FALSE on failure.
//-----------------------------------------------------------------------------
BOOL CManifest::OnOpenDocument(LPCTSTR lpszPathName)
{
Initialize();
if (!SelectDocType())
{
return FALSE;
}
//
// Call any per-class PreloadWorld functions here.
//
CMapSolid::PreloadWorld();
if ( !Load( lpszPathName ) )
{
return FALSE;
}
SetModifiedFlag( FALSE );
Msg( mwStatus, "Opened %s", lpszPathName );
SetActiveMapDoc( this );
//
// We set the active doc before loading for displacements (and maybe other
// things), but visgroups aren't available until after map load. We have to refresh
// the visgroups here or they won't be correct.
//
GetMainWnd()->GlobalNotify( WM_MAPDOC_CHANGED );
m_pToolManager->SetTool( TOOL_POINTER );
return(TRUE);
}
//-----------------------------------------------------------------------------
// Purpose: This function will save out the manifest
// Input : lpszPathName - the absolute filename of the manifest
// Output : Returns TRUE on success, FALSE on failure.
//-----------------------------------------------------------------------------
BOOL CManifest::OnSaveDocument(LPCTSTR lpszPathName)
{
if ( !Save( lpszPathName, m_bRelocateSave ) )
{
return FALSE;
}
SetModifiedFlag( FALSE );
return TRUE;
}
//-----------------------------------------------------------------------------
// Purpose: this function will be called when the use select Save As. This will
// allow all of the submaps to be relocated relative to a new save location
// of the manifest itself. Directories should be created automatically.
//-----------------------------------------------------------------------------
void CManifest::OnFileSaveAs(void)
{
m_bRelocateSave = true;
__super::OnFileSaveAs();
m_bRelocateSave = false;
}
//-----------------------------------------------------------------------------
// Purpose: this function will delete the manifest world and rest of the contents.
//-----------------------------------------------------------------------------
void CManifest::DeleteContents( void )
{
m_pSelection->RemoveAll();
if ( m_ManifestWorld )
{
delete m_ManifestWorld;
m_ManifestWorld = NULL;
}
m_pWorld = NULL;
m_VisGroups = NULL;
m_RootVisGroups = NULL;
m_pUndo = m_pSaveUndo;
m_pRedo = m_pSaveRedo;
__super::DeleteContents();
}
#include <tier0/memdbgoff.h>