OU
/
CWE-ou-minkata
mirror of https://foundry.openuru.org/gitblit/r/CWE-ou-minkata.git
2
1
Fork 0
Code Releases Activity
Browse Source

Convert custom HeadSpin integer types to standard types from stdint.h

Adam Johnson 13 years ago
parent
a0d54e2644
commit
5027b5a4ac
1301 changed files with 14511 additions and 14546 deletions
Whitespace
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
Split View
Diff Options
Show Stats Download Patch File Download Diff File
  1. 38
      Sources/Plasma/Apps/plClient/plClient.cpp
  2. 6
      Sources/Plasma/Apps/plClient/plClient.h
  3. 6
      Sources/Plasma/Apps/plClient/plClientUpdateFormat.h
  4. 68
      Sources/Plasma/Apps/plClient/winmain.cpp
  5. 6
      Sources/Plasma/Apps/plClientKey/plClientKey.cpp
  6. 2
      Sources/Plasma/Apps/plClientKey/plClientKey.h
  7. 80
      Sources/Plasma/Apps/plClientPatcher/UruPlayer.cpp
  8. 2
      Sources/Plasma/Apps/plClientPatcher/UruPlayer.h
  9. 2
      Sources/Plasma/Apps/plFileEncrypt/main.cpp
  10. 20
      Sources/Plasma/Apps/plFileSecure/main.cpp
  11. 12
      Sources/Plasma/Apps/plLogDecrypt/plLogDecrypt.cpp
  12. 4
      Sources/Plasma/Apps/plPageInfo/plPageInfo.cpp
  13. 36
      Sources/Plasma/Apps/plPageOptimizer/plPageOptimizer.cpp
  14. 2
      Sources/Plasma/Apps/plPageOptimizer/plPageOptimizer.h
  15. 2
      Sources/Plasma/Apps/plPlasmaUpdate/plFileGrabber.cpp
  16. 20
      Sources/Plasma/Apps/plPlasmaUpdate/plManifest.cpp
  17. 8
      Sources/Plasma/Apps/plPlasmaUpdate/plManifest.h
  18. 6
      Sources/Plasma/Apps/plPlasmaUpdate/plPlasmaUpdate.cpp
  19. 2
      Sources/Plasma/Apps/plPythonPack/PythonInterface.cpp
  20. 2
      Sources/Plasma/Apps/plPythonPack/PythonInterface.h
  21. 18
      Sources/Plasma/Apps/plPythonPack/main.cpp
  22. 40
      Sources/Plasma/Apps/plUruLauncher/Main.cpp
  23. 24
      Sources/Plasma/Apps/plUruLauncher/SelfPatcher.cpp
  24. 4
      Sources/Plasma/Apps/plUruLauncher/plLauncherInfo.h
  25. 116
      Sources/Plasma/CoreLib/hsBiExpander.h
  26. 18
      Sources/Plasma/CoreLib/hsBitVector.cpp
  27. 74
      Sources/Plasma/CoreLib/hsBitVector.h
  28. 42
      Sources/Plasma/CoreLib/hsBounds.cpp
  29. 22
      Sources/Plasma/CoreLib/hsBounds.h
  30. 16
      Sources/Plasma/CoreLib/hsColorRGBA.h
  31. 4
      Sources/Plasma/CoreLib/hsExceptionStack.h
  32. 12
      Sources/Plasma/CoreLib/hsFixedTypes.h
  33. 46
      Sources/Plasma/CoreLib/hsHashTable.h
  34. 6
      Sources/Plasma/CoreLib/hsMMIOStream.cpp
  35. 6
      Sources/Plasma/CoreLib/hsMMIOStream.h
  36. 2
      Sources/Plasma/CoreLib/hsMatrix44.h
  37. 90
      Sources/Plasma/CoreLib/hsMemory.cpp
  38. 54
      Sources/Plasma/CoreLib/hsMemory.h
  39. 2
      Sources/Plasma/CoreLib/hsPoint2.h
  40. 6
      Sources/Plasma/CoreLib/hsQueue.h
  41. 56
      Sources/Plasma/CoreLib/hsSTLStream.cpp
  42. 40
      Sources/Plasma/CoreLib/hsSTLStream.h
  43. 8
      Sources/Plasma/CoreLib/hsScalar.h
  44. 252
      Sources/Plasma/CoreLib/hsStream.cpp
  45. 294
      Sources/Plasma/CoreLib/hsStream.h
  46. 28
      Sources/Plasma/CoreLib/hsStringTokenizer.cpp
  47. 28
      Sources/Plasma/CoreLib/hsStringTokenizer.h
  48. 22
      Sources/Plasma/CoreLib/hsTempPointer.h
  49. 8
      Sources/Plasma/CoreLib/hsTemplates.cpp
  50. 102
      Sources/Plasma/CoreLib/hsTemplates.h
  51. 12
      Sources/Plasma/CoreLib/hsThread.h
  52. 2
      Sources/Plasma/CoreLib/hsThread_Mac.cpp
  53. 8
      Sources/Plasma/CoreLib/hsThread_Unix.cpp
  54. 2
      Sources/Plasma/CoreLib/hsThread_Win.cpp
  55. 95
      Sources/Plasma/CoreLib/hsTypes.h
  56. 20
      Sources/Plasma/CoreLib/hsUtils.cpp
  57. 8
      Sources/Plasma/CoreLib/hsUtils.h
  58. 98
      Sources/Plasma/CoreLib/hsWide.cpp
  59. 52
      Sources/Plasma/CoreLib/hsWide.h
  60. 2
      Sources/Plasma/CoreLib/pcSmallRect.cpp
  61. 14
      Sources/Plasma/CoreLib/pcSmallRect.h
  62. 2
      Sources/Plasma/CoreLib/plGeneric.cpp
  63. 20
      Sources/Plasma/CoreLib/plLoadMask.cpp
  64. 24
      Sources/Plasma/CoreLib/plLoadMask.h
  65. 6
      Sources/Plasma/CoreLib/plRefCnt.h
  66. 16
      Sources/Plasma/CoreLib/plRenderLevel.h
  67. 22
      Sources/Plasma/CoreLib/plViewTransform.h
  68. 2
      Sources/Plasma/CoreLibExe/hsExeError.cpp
  69. 8
      Sources/Plasma/CoreLibExe/hsExeMalloc.cpp
  70. 4
      Sources/Plasma/FeatureLib/pfAnimation/pfObjectFlocker.cpp
  71. 4
      Sources/Plasma/FeatureLib/pfAnimation/pfObjectFlocker.h
  72. 2
      Sources/Plasma/FeatureLib/pfAnimation/plBlower.cpp
  73. 2
      Sources/Plasma/FeatureLib/pfAnimation/plBlower.h
  74. 6
      Sources/Plasma/FeatureLib/pfAnimation/plFilterCoordInterface.h
  75. 2
      Sources/Plasma/FeatureLib/pfAnimation/plFollowMod.cpp
  76. 10
      Sources/Plasma/FeatureLib/pfAnimation/plFollowMod.h
  77. 8
      Sources/Plasma/FeatureLib/pfAnimation/plLineFollowMod.cpp
  78. 4
      Sources/Plasma/FeatureLib/pfAnimation/plLineFollowMod.h
  79. 16
      Sources/Plasma/FeatureLib/pfAnimation/plRandomCommandMod.h
  80. 2
      Sources/Plasma/FeatureLib/pfAnimation/plStereizer.cpp
  81. 2
      Sources/Plasma/FeatureLib/pfAnimation/plStereizer.h
  82. 2
      Sources/Plasma/FeatureLib/pfAnimation/plViewFaceModifier.cpp
  83. 2
      Sources/Plasma/FeatureLib/pfAnimation/plViewFaceModifier.h
  84. 16
      Sources/Plasma/FeatureLib/pfAudio/plListener.cpp
  85. 8
      Sources/Plasma/FeatureLib/pfAudio/plListener.h
  86. 10
      Sources/Plasma/FeatureLib/pfAudio/plRandomSoundMod.cpp
  87. 18
      Sources/Plasma/FeatureLib/pfAudio/plRandomSoundMod.h
  88. 2
      Sources/Plasma/FeatureLib/pfCamera/pfCameraProxy.cpp
  89. 2
      Sources/Plasma/FeatureLib/pfCamera/pfCameraProxy.h
  90. 6
      Sources/Plasma/FeatureLib/pfCamera/plCameraBrain.h
  91. 2
      Sources/Plasma/FeatureLib/pfCamera/plCameraModifier.h
  92. 2
      Sources/Plasma/FeatureLib/pfCamera/plInterestingModifier.cpp
  93. 8
      Sources/Plasma/FeatureLib/pfCamera/plInterestingModifier.h
  94. 4
      Sources/Plasma/FeatureLib/pfCamera/plVirtualCamNeu.cpp
  95. 32
      Sources/Plasma/FeatureLib/pfCharacter/pfMarkerMgr.cpp
  96. 20
      Sources/Plasma/FeatureLib/pfCharacter/pfMarkerMgr.h
  97. 2
      Sources/Plasma/FeatureLib/pfCharacter/plPlayerModifier.cpp
  98. 2
      Sources/Plasma/FeatureLib/pfCharacter/plPlayerModifier.h
  99. 2
      Sources/Plasma/FeatureLib/pfConditional/plControlEventConditionalObject.cpp
  100. 2
      Sources/Plasma/FeatureLib/pfConditional/plKeyPressConditionalObject.cpp
  101. Some files were not shown because too many files have changed in this diff Show More

38
Sources/Plasma/Apps/plClient/plClient.cpp
Unescape View File

@ -231,7 +231,7 @@ plClient::plClient()
plAgeLoader::SetInstance(TRACKED_NEW plAgeLoader);
// Use it to parse the init directory
wchar initFolder[MAX_PATH];
wchar_t initFolder[MAX_PATH];
PathGetInitDirectory(initFolder, arrsize(initFolder));
pfConsoleDirSrc dirSrc( fConsoleEngine, initFolder, L"*.ini" );
@ -469,7 +469,7 @@ void plClient::InitInputs()
void plClient::ISetGraphicsDefaults()
{
// couldn't find display mode set defaults write to ini file
wchar graphicsIniFile[MAX_PATH];
wchar_t graphicsIniFile[MAX_PATH];
PathGetInitDirectory(graphicsIniFile, arrsize(graphicsIniFile));
PathAddFilename(graphicsIniFile, graphicsIniFile, L"graphics.ini", arrsize(graphicsIniFile));
IWriteDefaultGraphicsSettings(graphicsIniFile);
@ -990,7 +990,7 @@ void plClient::IQueueRoomLoad(const std::vector<plLocation>& locs, bool hold)
bool allSameAge = true;
const char* lastAgeName = nil;
UInt32 numRooms = 0;
uint32_t numRooms = 0;
for (int i = 0; i < locs.size(); i++)
{
const plLocation& loc = locs[i];
@ -1109,7 +1109,7 @@ void plClient::IUnloadRooms(const std::vector<plLocation>& locs)
}
GetKey()->Release(nodeKey); // release notify interest in scene node
UInt32 recFlags = 0;
uint32_t recFlags = 0;
if (roomIdx != -1)
{
recFlags = fRooms[roomIdx].fFlags;
@ -1376,11 +1376,11 @@ public:
LoginNetClientCommCallback() : plNetClientComm::Callback(), fNumCurrentOps(0)
{}
virtual void OperationStarted( UInt32 context )
virtual void OperationStarted( uint32_t context )
{
fNumCurrentOps++;
}
virtual void OperationComplete( UInt32 context, int resultCode )
virtual void OperationComplete( uint32_t context, int resultCode )
{
if (context == kAuth)
{
@ -1393,14 +1393,14 @@ public:
{
if ( hsSucceeded( resultCode ) )
{
UInt32 numPlayers = fCbArgs.GetInt(0);
UInt32 pId = -1;
uint32_t numPlayers = fCbArgs.GetInt(0);
uint32_t pId = -1;
std::string pName;
for (UInt32 i = 0; i < numPlayers; i++)
for (uint32_t i = 0; i < numPlayers; i++)
{
pId = fCbArgs.GetInt((UInt16)(i*3+1));
pName = fCbArgs.GetString((UInt16)(i*3+2));
pId = fCbArgs.GetInt((uint16_t)(i*3+1));
pName = fCbArgs.GetString((uint16_t)(i*3+2));
if (pName == plClient::GetInstance()->fUsername)
{
@ -2114,7 +2114,7 @@ hsG3DDeviceModeRecord plClient::ILoadDevMode(const char* devModeFile)
/// Read the rest in
selMode.Read(&stream);
UInt16 performance = stream.ReadLE16();
uint16_t performance = stream.ReadLE16();
if( performance < 25 )
plBitmap::SetGlobalLevelChopCount( 2 );
@ -2148,7 +2148,7 @@ hsG3DDeviceModeRecord plClient::ILoadDevMode(const char* devModeFile)
{
dmr.GetDevice()->Write(&stream);
dmr.GetMode()->Write(&stream);
stream.WriteLE16((UInt16)(0*100));
stream.WriteLE16((uint16_t)(0*100));
stream.Close();
}
@ -2180,7 +2180,7 @@ void plClient::ResizeDisplayDevice(int Width, int Height, hsBool Windowed)
pfGameGUIMgr::GetInstance()->SetAspectRatio( aspectratio );
UInt32 winStyle, winExStyle;
uint32_t winStyle, winExStyle;
if( Windowed )
{
winStyle = WS_OVERLAPPEDWINDOW;
@ -2193,8 +2193,8 @@ void plClient::ResizeDisplayDevice(int Width, int Height, hsBool Windowed)
SetWindowLong(fWindowHndl, GWL_EXSTYLE, winExStyle);
UInt32 flags = SWP_NOCOPYBITS | SWP_SHOWWINDOW | SWP_FRAMECHANGED;
UInt32 OutsideWidth, OutsideHeight;
uint32_t flags = SWP_NOCOPYBITS | SWP_SHOWWINDOW | SWP_FRAMECHANGED;
uint32_t OutsideWidth, OutsideHeight;
HWND insertAfter;
if( Windowed )
{
@ -2313,7 +2313,7 @@ void plClient::IDetectAudioVideoSettings()
int val = 0;
hsStream *stream = nil;
hsUNIXStream s;
wchar audioIniFile[MAX_PATH], graphicsIniFile[MAX_PATH];
wchar_t audioIniFile[MAX_PATH], graphicsIniFile[MAX_PATH];
PathGetInitDirectory(audioIniFile, arrsize(audioIniFile));
StrCopy(graphicsIniFile, audioIniFile, arrsize(audioIniFile));
PathAddFilename(audioIniFile, audioIniFile, L"audio.ini", arrsize(audioIniFile));
@ -2372,7 +2372,7 @@ void plClient::IDetectAudioVideoSettings()
}
}
void plClient::IWriteDefaultGraphicsSettings(const wchar* destFile)
void plClient::IWriteDefaultGraphicsSettings(const wchar_t* destFile)
{
hsStream *stream = plEncryptedStream::OpenEncryptedFileWrite(destFile);
@ -2450,7 +2450,7 @@ void plClient::IOnAsyncInitComplete () {
/// Now parse final init files (*.fni). These are files just like ini files, only to be run
/// after all hell has broken loose in the client.
wchar initFolder[MAX_PATH];
wchar_t initFolder[MAX_PATH];
PathGetInitDirectory(initFolder, arrsize(initFolder));
pfConsoleDirSrc dirSrc( fConsoleEngine, initFolder, L"net*.fni" ); // connect to net first
#ifndef PLASMA_EXTERNAL_RELEASE

6
Sources/Plasma/Apps/plClient/plClient.h
Unescape View File

@ -94,10 +94,10 @@ protected:
{
public:
plSceneNode *fNode;
UInt32 fFlags;
uint32_t fFlags;
plRoomRec() { fNode = nil; fFlags = 0; }
plRoomRec( plSceneNode *n, UInt32 f ) : fNode( n ), fFlags( f ) {}
plRoomRec( plSceneNode *n, uint32_t f ) : fNode( n ), fFlags( f ) {}
enum Flags
{
@ -293,7 +293,7 @@ public:
void ResetDisplayDevice(int Width, int Height, int ColorDepth, hsBool Windowed, int NumAASamples, int MaxAnisotropicSamples, hsBool VSync = false);
void ResizeDisplayDevice(int Width, int Height, hsBool Windowed);
void IDetectAudioVideoSettings();
void IWriteDefaultGraphicsSettings(const wchar* destFile);
void IWriteDefaultGraphicsSettings(const wchar_t* destFile);
plAnimDebugList *fAnimDebugList;

6
Sources/Plasma/Apps/plClient/plClientUpdateFormat.h
Unescape View File

@ -54,13 +54,13 @@ namespace ClientUpdate
//
// Format of the update stream
//
// UInt8 - type (kUpdate, kShutdown)
// uint8_t - type (kUpdate, kShutdown)
//
// If type is kUpdate:
// UInt32 - number of deleted keys
// uint32_t - number of deleted keys
// plUoid - uoid of deleted key (* num)
//
// UInt32 - number of new creatables
// uint32_t - number of new creatables
// plCreatable - new creatable (* num)
//

68
Sources/Plasma/Apps/plClient/winmain.cpp
Unescape View File

@ -133,14 +133,14 @@ static const unsigned AUTH_FAILED_TIMER = 2;
//============================================================================
#ifdef PLASMA_EXTERNAL_RELEASE
static wchar s_patcherExeName[] = L"UruLauncher.exe";
static wchar_t s_patcherExeName[] = L"UruLauncher.exe";
#endif // PLASMA_EXTERNAL_RELEASE
//============================================================================
// PhysX installer
//============================================================================
static wchar s_physXSetupExeName[] = L"PhysX_Setup.exe";
static wchar_t s_physXSetupExeName[] = L"PhysX_Setup.exe";
//============================================================================
// TRANSGAMING detection & dialog replacement
@ -178,12 +178,12 @@ struct LoginDialogParam {
};
static bool AuthenticateNetClientComm(ENetError* result, HWND parentWnd);
static void GetCryptKey(UInt32* cryptKey, unsigned size);
static void GetCryptKey(uint32_t* cryptKey, unsigned size);
static void SaveUserPass (LoginDialogParam *pLoginParam, char *password);
static void LoadUserPass (LoginDialogParam *pLoginParam);
static void AuthFailedStrings (ENetError authError,
const char **ppStr1, const char **ppStr2,
const wchar **ppWStr);
const wchar_t **ppWStr);
// Detect whether we're running under TRANSGAMING Cider
@ -290,7 +290,7 @@ static bool TGRunLoginDialog (LoginDialogParam *pLoginParam)
if (!cancelled)
{
const char *pStr1, *pStr2;
const wchar *pWStr;
const wchar_t *pWStr;
unsigned int Len;
char *pTmpStr;
@ -361,7 +361,7 @@ void DebugMsgF(const char* format, ...);
LRESULT CALLBACK WndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam)
{
static bool gDragging = false;
static UInt32 keyState=0;
static uint32_t keyState=0;
// Handle messages
switch (message) {
@ -773,7 +773,7 @@ BOOL WinInit(HINSTANCE hInst, int nCmdShow)
/// else, use our normal styles
char windowName[256];
wchar productString[256];
wchar_t productString[256];
StrCopy(productString, ProductLongName(), arrsize(productString));
StrToAnsi(windowName, productString, arrsize(windowName));
@ -837,7 +837,7 @@ void DebugMsgF(const char* format, ...)
static void AuthFailedStrings (ENetError authError,
const char **ppStr1, const char **ppStr2,
const wchar **ppWStr)
const wchar_t **ppWStr)
{
*ppStr1 = NULL;
*ppStr2 = NULL;
@ -895,7 +895,7 @@ BOOL CALLBACK AuthFailedDialogProc( HWND hwndDlg, UINT uMsg, WPARAM wParam, LPAR
{
LoginDialogParam* loginParam = (LoginDialogParam*)lParam;
const char *pStr1, *pStr2;
const wchar *pWStr;
const wchar_t *pWStr;
AuthFailedStrings (loginParam->authError,
&pStr1, &pStr2, &pWStr);
@ -970,12 +970,12 @@ BOOL CALLBACK UruTOSDialogProc( HWND hwndDlg, UINT uMsg, WPARAM wParam, LPARAM l
static void SaveUserPass (LoginDialogParam *pLoginParam, char *password)
{
UInt32 cryptKey[4];
uint32_t cryptKey[4];
ZeroMemory(cryptKey, sizeof(cryptKey));
GetCryptKey(cryptKey, arrsize(cryptKey));
wchar wusername[kMaxAccountNameLength];
wchar wpassword[kMaxPasswordLength];
wchar_t wusername[kMaxAccountNameLength];
wchar_t wpassword[kMaxPasswordLength];
StrToUnicode(wusername, pLoginParam->username, arrsize(wusername));
@ -985,7 +985,7 @@ static void SaveUserPass (LoginDialogParam *pLoginParam, char *password)
{
StrToUnicode(wpassword, password, arrsize(wpassword));
wchar domain[15];
wchar_t domain[15];
PathSplitEmail(wusername, nil, 0, domain, arrsize(domain), nil, 0, nil, 0, 0);
if (StrLen(domain) == 0 || StrCmpI(domain, L"gametap") == 0) {
@ -1012,12 +1012,12 @@ static void SaveUserPass (LoginDialogParam *pLoginParam, char *password)
else
NetCommSetAuthTokenAndOS(nil, L"win");
wchar fileAndPath[MAX_PATH];
wchar_t fileAndPath[MAX_PATH];
PathGetInitDirectory(fileAndPath, arrsize(fileAndPath));
PathAddFilename(fileAndPath, fileAndPath, L"login.dat", arrsize(fileAndPath));
#ifndef PLASMA_EXTERNAL_RELEASE
// internal builds can use the local init directory
wchar localFileAndPath[MAX_PATH];
wchar_t localFileAndPath[MAX_PATH];
StrCopy(localFileAndPath, L"init\\login.dat", arrsize(localFileAndPath));
if (PathDoesFileExist(localFileAndPath))
StrCopy(fileAndPath, localFileAndPath, arrsize(localFileAndPath));
@ -1038,7 +1038,7 @@ static void SaveUserPass (LoginDialogParam *pLoginParam, char *password)
static void LoadUserPass (LoginDialogParam *pLoginParam)
{
UInt32 cryptKey[4];
uint32_t cryptKey[4];
ZeroMemory(cryptKey, sizeof(cryptKey));
GetCryptKey(cryptKey, arrsize(cryptKey));
@ -1046,12 +1046,12 @@ static void LoadUserPass (LoginDialogParam *pLoginParam)
pLoginParam->remember = false;
pLoginParam->username[0] = '\0';
wchar fileAndPath[MAX_PATH];
wchar_t fileAndPath[MAX_PATH];
PathGetInitDirectory(fileAndPath, arrsize(fileAndPath));
PathAddFilename(fileAndPath, fileAndPath, L"login.dat", arrsize(fileAndPath));
#ifndef PLASMA_EXTERNAL_RELEASE
// internal builds can use the local init directory
wchar localFileAndPath[MAX_PATH];
wchar_t localFileAndPath[MAX_PATH];
StrCopy(localFileAndPath, L"init\\login.dat", arrsize(localFileAndPath));
if (PathDoesFileExist(localFileAndPath))
StrCopy(fileAndPath, localFileAndPath, arrsize(localFileAndPath));
@ -1059,7 +1059,7 @@ static void LoadUserPass (LoginDialogParam *pLoginParam)
hsStream* stream = plEncryptedStream::OpenEncryptedFile(fileAndPath, true, cryptKey);
if (stream && !stream->AtEnd())
{
UInt32 savedKey[4];
uint32_t savedKey[4];
stream->Read(sizeof(savedKey), savedKey);
if (memcmp(cryptKey, savedKey, sizeof(savedKey)) == 0)
@ -1166,7 +1166,7 @@ BOOL CALLBACK UruLoginDialogProc( HWND hwndDlg, UINT uMsg, WPARAM wParam, LPARAM
}
char windowName[256];
wchar productString[256];
wchar_t productString[256];
ProductString(productString, arrsize(productString));
StrToAnsi(windowName, productString, arrsize(windowName));
SendMessage(GetDlgItem(hwndDlg, IDC_PRODUCTSTRING), WM_SETTEXT, 0, (LPARAM) windowName);
@ -1251,7 +1251,7 @@ BOOL CALLBACK UruLoginDialogProc( HWND hwndDlg, UINT uMsg, WPARAM wParam, LPARAM
}
else if (HIWORD(wParam) == BN_CLICKED && LOWORD(wParam) == IDC_URULOGIN_GAMETAPLINK)
{
const wchar *signupurl = GetServerSignupUrl();
const wchar_t *signupurl = GetServerSignupUrl();
ShellExecuteW(NULL, L"open", signupurl, NULL, NULL, SW_SHOWNORMAL);
return TRUE;
@ -1380,7 +1380,7 @@ LONG WINAPI plCustomUnhandledExceptionFilter( struct _EXCEPTION_POINTERS *Except
}
char prodName[256];
wchar productString[256];
wchar_t productString[256];
ProductString(productString, arrsize(productString));
StrToAnsi(prodName, productString, arrsize(prodName));
@ -1390,7 +1390,7 @@ LONG WINAPI plCustomUnhandledExceptionFilter( struct _EXCEPTION_POINTERS *Except
/// Print the info out to a log file as well
hsUNIXStream log;
wchar fileAndPath[MAX_PATH];
wchar_t fileAndPath[MAX_PATH];
PathGetLogDirectory(fileAndPath, arrsize(fileAndPath));
PathAddFilename(fileAndPath, fileAndPath, L"stackDump.log", arrsize(fileAndPath));
if( log.Open( fileAndPath, L"wt" ) )
@ -1430,7 +1430,7 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
gDataServerLocal = true;
#endif
const wchar *serverIni = L"server.ini";
const wchar_t *serverIni = L"server.ini";
if (cmdParser.IsSpecified(kArgServerIni))
serverIni = cmdParser.GetString(kArgServerIni);
@ -1458,8 +1458,8 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
ZERO(si);
ZERO(pi);
si.cb = sizeof(si);
wchar cmdLine[MAX_PATH];
const wchar ** addrs;
wchar_t cmdLine[MAX_PATH];
const wchar_t ** addrs;
if (!eventExists) // if it is missing, assume patcher wasn't launched
{
@ -1487,7 +1487,7 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
#endif
// Load an optional general.ini
wchar gipath[MAX_PATH];
wchar_t gipath[MAX_PATH];
PathGetInitDirectory(gipath, arrsize(gipath));
PathAddFilename(gipath, gipath, L"general.ini", arrsize(gipath));
FILE *generalini = _wfopen(gipath, L"rb");
@ -1553,7 +1553,7 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
if (!doIntroDialogs && loginParam.remember) {
ENetError auth;
wchar wusername[kMaxAccountNameLength];
wchar_t wusername[kMaxAccountNameLength];
StrToUnicode(wusername, loginParam.username, arrsize(wusername));
NetCommSetAccountUsernamePassword(wusername, loginParam.namePassHash);
bool cancelled = AuthenticateNetClientComm(&auth, NULL);
@ -1616,7 +1616,7 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
gDebugFile = NULL;
if ( !plStatusLog::fLoggingOff )
{
wchar fileAndPath[MAX_PATH];
wchar_t fileAndPath[MAX_PATH];
PathGetLogDirectory(fileAndPath, arrsize(fileAndPath));
PathAddFilename(fileAndPath, fileAndPath, L"plasmalog.txt", arrsize(fileAndPath));
gDebugFile = _wfopen(fileAndPath, L"wt");
@ -1625,7 +1625,7 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
if (gDebugFile != NULL)
{
char prdName[256];
wchar prdString[256];
wchar_t prdString[256];
ProductString(prdString, arrsize(prdString));
StrToAnsi(prdName, prdString, arrsize(prdName));
fprintf(gDebugFile, "%s\n", prdName);
@ -1635,10 +1635,10 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
// log stackdump.log text if the log exists
char stackDumpText[1024];
wchar stackDumpTextW[1024];
wchar_t stackDumpTextW[1024];
memset(stackDumpText, 0, arrsize(stackDumpText));
memset(stackDumpTextW, 0, arrsize(stackDumpTextW) * sizeof(wchar));
wchar fileAndPath[MAX_PATH];
memset(stackDumpTextW, 0, arrsize(stackDumpTextW) * sizeof(wchar_t));
wchar_t fileAndPath[MAX_PATH];
PathGetLogDirectory(fileAndPath, arrsize(fileAndPath));
PathAddFilename(fileAndPath, fileAndPath, L"stackDump.log", arrsize(fileAndPath));
FILE *stackDumpLog = _wfopen(fileAndPath, L"r");
@ -1758,7 +1758,7 @@ int WINAPI WinMain(HINSTANCE hInst, HINSTANCE hPrevInst, LPSTR lpCmdLine, int nC
return PARABLE_NORMAL_EXIT;
}
static void GetCryptKey(UInt32* cryptKey, unsigned numElements)
static void GetCryptKey(uint32_t* cryptKey, unsigned numElements)
{
char volName[] = "C:\\";
int index = 0;

6
Sources/Plasma/Apps/plClientKey/plClientKey.cpp
Unescape View File

@ -42,9 +42,9 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "plClientKey.h"
#include "hsWindows.h"
typedef const UInt32* (*GETKEY)();
typedef const uint32_t* (*GETKEY)();
const UInt32* plClientKey::GetKey()
const uint32_t* plClientKey::GetKey()
{
HMODULE hDll = LoadLibrary("sp.dll");
if (hDll)
@ -52,7 +52,7 @@ const UInt32* plClientKey::GetKey()
GETKEY getKey = (GETKEY)GetProcAddress(hDll, "GetKey");
if (getKey)
{
static UInt32 key[4];
static uint32_t key[4];
memcpy(key, getKey(), sizeof(key));
FreeLibrary(hDll);
return key;

2
Sources/Plasma/Apps/plClientKey/plClientKey.h
Unescape View File

@ -53,7 +53,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
//
namespace plClientKey
{
const UInt32* GetKey();
const uint32_t* GetKey();
}
#endif // plClientKey_h_inc

80
Sources/Plasma/Apps/plClientPatcher/UruPlayer.cpp
Unescape View File

@ -55,19 +55,19 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
*
***/
#ifndef PLASMA_EXTERNAL_RELEASE
static const wchar s_manifest[] = L"Internal";
static const wchar s_macmanifest[] = L"macInternal";
static const wchar s_thinmanifest[] = L"ThinInternal";
static const wchar_t s_manifest[] = L"Internal";
static const wchar_t s_macmanifest[] = L"macInternal";
static const wchar_t s_thinmanifest[] = L"ThinInternal";
#else
static const wchar s_manifest[] = L"External";
static const wchar s_macmanifest[] = L"macExternal";
static const wchar s_thinmanifest[] = L"ThinExternal";
static const wchar_t s_manifest[] = L"External";
static const wchar_t s_macmanifest[] = L"macExternal";
static const wchar_t s_thinmanifest[] = L"ThinExternal";
#endif
struct ManifestFile
{
LINK(ManifestFile) link;
ManifestFile(const wchar clientName[], const wchar downloadName[], const wchar md5val[], int flags, plLauncherInfo *info)
ManifestFile(const wchar_t clientName[], const wchar_t downloadName[], const wchar_t md5val[], int flags, plLauncherInfo *info)
{
StrCopy(filename, clientName, arrsize(filename));
StrCopy(zipName, downloadName, arrsize(zipName));
@ -77,9 +77,9 @@ struct ManifestFile
md5failed = false;
}
wchar filename[MAX_PATH];
wchar zipName[MAX_PATH];
wchar md5[MAX_PATH];
wchar_t filename[MAX_PATH];
wchar_t zipName[MAX_PATH];
wchar_t md5[MAX_PATH];
int flags;
bool md5failed;
plLauncherInfo *info;
@ -88,13 +88,13 @@ struct ManifestFile
class ProgressStream : public plZlibStream {
public:
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
static plLauncherInfo *info;
static long totalBytes;
static unsigned progress;
// for updating bytes per second
static dword startTime;
static uint32_t startTime;
};
struct ProcessManifestEntryParam {
@ -107,7 +107,7 @@ struct ProcessManifestEntryParam {
};
struct ManifestResult {
wchar group[MAX_PATH];
wchar_t group[MAX_PATH];
ARRAY(NetCliFileManifestEntry) manifest;
long * indicator;
plLauncherInfo * info;
@ -120,7 +120,7 @@ struct ManifestResult {
static void DownloadCallback (
ENetError result,
void * param,
const wchar filename[],
const wchar_t filename[],
hsStream * writer
);
@ -165,7 +165,7 @@ static long s_perf[kNumPerf];
long ProgressStream::totalBytes;
unsigned ProgressStream::progress;
plLauncherInfo * ProgressStream::info;
dword ProgressStream::startTime = 0;
uint32_t ProgressStream::startTime = 0;
long ProcessManifestEntryParam::progress = 0;
long ProcessManifestEntryParam::totalSize = 0;
double ProcessManifestEntryParam::startTime = 0;
@ -181,9 +181,9 @@ double ProcessManifestEntryParam::startTime = 0;
// leaving clients with older patchers "dead in the water", without
// a way to play Uru.
#ifdef PLASMA_EXTERNAL_RELEASE
const wchar kPatcherExeFilename[] = L"UruLauncher.exe";
const wchar_t kPatcherExeFilename[] = L"UruLauncher.exe";
#else
const wchar kPatcherExeFilename[] = L"plUruLauncher.exe";
const wchar_t kPatcherExeFilename[] = L"plUruLauncher.exe";
#endif
@ -192,9 +192,9 @@ const wchar kPatcherExeFilename[] = L"plUruLauncher.exe";
//============================================================================
#ifdef PLASMA_EXTERNAL_RELEASE
#ifdef HS_DEBUGGING
static wchar s_clientExeName[] = L"plClient_dbg.exe";
static wchar_t s_clientExeName[] = L"plClient_dbg.exe";
#else
static wchar s_clientExeName[] = L"UruExplorer.exe";
static wchar_t s_clientExeName[] = L"UruExplorer.exe";
#endif // HS_DEBUGGING
//============================================================================
@ -202,9 +202,9 @@ static wchar s_clientExeName[] = L"UruExplorer.exe";
//============================================================================
#else
#ifdef HS_DEBUGGING
static wchar s_clientExeName[] = L"plClient_dbg.exe";
static wchar_t s_clientExeName[] = L"plClient_dbg.exe";
#else
static wchar s_clientExeName[] = L"plClient.exe";
static wchar_t s_clientExeName[] = L"plClient.exe";
#endif // HS_DEBUGGING
#endif // PLASMA_EXTERNAL_RELEASE
@ -216,14 +216,14 @@ static wchar s_clientExeName[] = L"plClient.exe";
***/
//============================================================================
static void LogHandler (ELogSeverity severity, const wchar msg[]) {
static void LogHandler (ELogSeverity severity, const wchar_t msg[]) {
AsyncLogWriteMsg(L"UruPlayer", severity, msg);
}
//============================================================================
static void NetErrorHandler (ENetProtocol protocol, ENetError error) {
const wchar * srv;
const wchar_t * srv;
switch (protocol) {
case kNetProtocolNil: srv = L"Notify"; break;
case kNetProtocolCli2File: srv = L"File"; break;
@ -287,7 +287,7 @@ static void WaitUruExitProc (void * param) {
*/
//============================================================================
static bool MD5Check (const char filename[], const wchar md5[]) {
static bool MD5Check (const char filename[], const wchar_t md5[]) {
// Do md5 check
char md5copy[MAX_PATH];
plMD5Checksum existingMD5(filename);
@ -315,7 +315,7 @@ static void DecompressOgg (ManifestFile *mf) {
break;
}
UInt32 size = reader->GetDataSize();
uint32_t size = reader->GetDataSize();
delete reader;
ULARGE_INTEGER freeBytesAvailable, totalNumberOfBytes, neededBytes;
@ -355,7 +355,7 @@ static void RequestNextManifestFile () {
return;
s_manifestQueue.Unlink(nextfile);
char path[MAX_PATH];
wchar basePath[MAX_PATH];
wchar_t basePath[MAX_PATH];
StrPrintf(path, arrsize(path), "%s%S", s_workingDir, nextfile->filename);
StrToUnicode(basePath, path, arrsize(basePath));
PathRemoveFilename(basePath, basePath, arrsize(basePath));
@ -384,7 +384,7 @@ static void RequestNextManifestFile () {
static void DownloadCallback (
ENetError result,
void * param,
const wchar filename[],
const wchar_t filename[],
hsStream * writer
) {
s_numConnectFailures = 0;
@ -457,7 +457,7 @@ static void DownloadCallback (
if(s_running)
{
wchar ext[MAX_EXT];
wchar_t ext[MAX_EXT];
PathSplitPath(mf->filename, nil, nil, nil, ext);
if(!StrCmpI(L".ogg", ext))
{
@ -497,7 +497,7 @@ static void ProcessManifestEntry (void * param, ENetError error) {
s_workingDir,
p->mr->manifest[p->index].clientName
);
dword start = (dword)(TimeGetTime() / kTimeIntervalsPerMs);
uint32_t start = (uint32_t)(TimeGetTime() / kTimeIntervalsPerMs);
if(!MD5Check(path, p->mr->manifest[p->index].md5)) {
p->mr->critsect.Enter();
p->mr->indices.Add(p->index);
@ -506,7 +506,7 @@ static void ProcessManifestEntry (void * param, ENetError error) {
}
// if we have a file that was cached the MD5 check will be really fast throwing off our approx time remaining.
dword t = (dword)(TimeGetTime() / kTimeIntervalsPerMs - start);
uint32_t t = (uint32_t)(TimeGetTime() / kTimeIntervalsPerMs - start);
if(t < 25)
{
// cached file
@ -542,7 +542,7 @@ static void ProcessManifestEntry (void * param, ENetError error) {
//============================================================================
static void ProcessManifest (void * param) {
wchar basePath[MAX_PATH];
wchar_t basePath[MAX_PATH];
char path[MAX_PATH];
AtomicAdd(&s_perf[kPerfThreadTaskCount], 1);
@ -662,7 +662,7 @@ static void ProcessManifest (void * param) {
static void ManifestCallback (
ENetError result,
void * param,
const wchar group[],
const wchar_t group[],
const NetCliFileManifestEntry manifest[],
unsigned entryCount
){
@ -725,7 +725,7 @@ static void ManifestCallback (
static void ThinManifestCallback (
ENetError result,
void * param,
const wchar group[],
const wchar_t group[],
const NetCliFileManifestEntry manifest[],
unsigned entryCount
){
@ -788,7 +788,7 @@ static void ThinManifestCallback (
***/
//============================================================================
UInt32 ProgressStream::Write(UInt32 byteCount, const void* buffer) {
uint32_t ProgressStream::Write(uint32_t byteCount, const void* buffer) {
if(!s_running || s_patchError)
return 0;
if(!startTime) {
@ -814,7 +814,7 @@ UInt32 ProgressStream::Write(UInt32 byteCount, const void* buffer) {
info->SetBytesRemaining(totalBytes - progress);
if(TimeGetSecondsSince2001Utc() != startTime)
{
dword bytesPerSec = (progress ) / (TimeGetSecondsSince2001Utc() - startTime);
uint32_t bytesPerSec = (progress ) / (TimeGetSecondsSince2001Utc() - startTime);
info->SetTimeRemaining(bytesPerSec ? (totalBytes - progress) / bytesPerSec : 0);
}
}
@ -826,7 +826,7 @@ UInt32 ProgressStream::Write(UInt32 byteCount, const void* buffer) {
static void FileSrvIpAddressCallback (
ENetError result,
void * param,
const wchar addr[]
const wchar_t addr[]
) {
NetCliGateKeeperDisconnect();
@ -866,7 +866,7 @@ void InitAsyncCore () {
AsyncCoreInitialize();
AsyncLogInitialize(L"Log", false);
wchar productString[256];
wchar_t productString[256];
ProductString(productString, arrsize(productString));
LogMsg(kLogPerf, L"Patcher: %s", productString);
}
@ -902,7 +902,7 @@ void UruPrepProc (void * param) {
s_patchComplete = false;
s_patchError = false;
const wchar ** addrs;
const wchar_t ** addrs;
unsigned count;
count = GetGateKeeperSrvHostnames(&addrs);
@ -974,11 +974,11 @@ void UruStartProc (void * param) {
plLauncherInfo *info = (plLauncherInfo *) param;
wchar workDir[MAX_PATH];
wchar_t workDir[MAX_PATH];
StrPrintf(workDir, arrsize(workDir), L"%s", info->path);
//fprintf(stderr, "URUPlayer StartProc gamePath is:%ws\n", workDir);
wchar cmdLine[MAX_PATH];
wchar_t cmdLine[MAX_PATH];
StrPrintf(cmdLine, arrsize(cmdLine), L"%s%s %s", workDir, s_clientExeName, info->cmdLine);
// Create the named event so the client won't restart us (Windows will clean it up when we exit)

2
Sources/Plasma/Apps/plClientPatcher/UruPlayer.h
Unescape View File

@ -64,4 +64,4 @@ void UruStartProc (void * param);
void PlayerTerminateProc (void * param);
void PlayerStopProc (void * param);
extern const wchar kPatcherExeFilename[];
extern const wchar_t kPatcherExeFilename[];

2
Sources/Plasma/Apps/plFileEncrypt/main.cpp
Unescape View File

@ -47,7 +47,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
void EncryptFiles(const char* dir, const char* ext, bool encrypt);
void print_version(){
wchar productString[256];
wchar_t productString[256];
ProductString(productString, arrsize(productString));
printf("%S\n\n", productString);
}

20
Sources/Plasma/Apps/plFileSecure/main.cpp
Unescape View File

@ -49,7 +49,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include <string>
void print_version() {
wchar productString[256];
wchar_t productString[256];
ProductString(productString, arrsize(productString));
printf("%S\n\n", productString);
}
@ -75,40 +75,40 @@ void print_help() {
void GenerateKey(bool useDefault)
{
UInt32 key[4];
uint32_t key[4];
if (useDefault)
{
unsigned memSize = min(arrsize(key), arrsize(plSecureStream::kDefaultKey));
memSize *= sizeof(UInt32);
memSize *= sizeof(uint32_t);
memcpy(key, plSecureStream::kDefaultKey, memSize);
}
else
{
srand((unsigned)time(nil));
double randNum = (double)rand() / (double)RAND_MAX; // converts to 0..1
UInt32 keyNum = (UInt32)(randNum * (double)0xFFFFFFFF); // multiply it by the max unsigned 32-bit int
uint32_t keyNum = (uint32_t)(randNum * (double)0xFFFFFFFF); // multiply it by the max unsigned 32-bit int
key[0] = keyNum;
randNum = (double)rand() / (double)RAND_MAX;
keyNum = (UInt32)(randNum * (double)0xFFFFFFFF);
keyNum = (uint32_t)(randNum * (double)0xFFFFFFFF);
key[1] = keyNum;
randNum = (double)rand() / (double)RAND_MAX;
keyNum = (UInt32)(randNum * (double)0xFFFFFFFF);
keyNum = (uint32_t)(randNum * (double)0xFFFFFFFF);
key[2] = keyNum;
randNum = (double)rand() / (double)RAND_MAX;
keyNum = (UInt32)(randNum * (double)0xFFFFFFFF);
keyNum = (uint32_t)(randNum * (double)0xFFFFFFFF);
key[3] = keyNum;
}
hsUNIXStream out;
out.Open(plFileUtils::kKeyFilename, "wb");
out.Write(sizeof(UInt32) * arrsize(key), (void*)key);
out.Write(sizeof(uint32_t) * arrsize(key), (void*)key);
out.Close();
}
void SecureFiles(std::string dir, std::string ext, UInt32* key)
void SecureFiles(std::string dir, std::string ext, uint32_t* key)
{
char filePath[256];
@ -203,7 +203,7 @@ int main(int argc, char *argv[])
SecureFiles(directory, ext, nil);
else
{
UInt32 key[4];
uint32_t key[4];
plFileUtils::GetSecureEncryptionKey(plFileUtils::kKeyFilename, key, arrsize(key));
SecureFiles(directory, ext, key);
}

12
Sources/Plasma/Apps/plLogDecrypt/plLogDecrypt.cpp
Unescape View File

@ -62,16 +62,16 @@ void IProcessFile(const char *path)
if( fpIn != nil && fpOut != nil)
{
UInt8 line[ 2048 ];
uint8_t line[ 2048 ];
while( !feof( fpIn ) )
{
// Read next string
long pos = ftell(fpIn);
if( pos == -1L )
break;
UInt8 hint = (UInt8)pos;
UInt16 sizeHint = (UInt16)pos;
UInt16 size;
uint8_t hint = (uint8_t)pos;
uint16_t sizeHint = (uint16_t)pos;
uint16_t size;
if( stricmp( path + strlen( path ) - 4, ".log" ) == 0 )
{
@ -81,14 +81,14 @@ void IProcessFile(const char *path)
int c = fgetc( fpIn );
if( c == EOF || c == hint )
break;
line[ i ] = (UInt8)c;
line[ i ] = (uint8_t)c;
}
line[ i ] = 0;
size = i;
}
else
{
// UInt16 line length is encoded first
// uint16_t line length is encoded first
int c = fgetc( fpIn );
if( c == EOF )
break;

4
Sources/Plasma/Apps/plPageInfo/plPageInfo.cpp
Unescape View File

@ -67,7 +67,7 @@ bool DumpSounds();
//// PrintVersion ///////////////////////////////////////////////////////////////
void PrintVersion()
{
wchar productString[256];
wchar_t productString[256];
ProductString(productString, arrsize(productString));
printf("%S\n\n", productString);
}
@ -185,7 +185,7 @@ bool DumpSounds()
const char* filename = buffer->GetFileName();
if (filename)
{
UInt32 flags = 0;
uint32_t flags = 0;
if (stricmp(plFileUtils::GetFileExt(filename), "wav") != 0)
{

36
Sources/Plasma/Apps/plPageOptimizer/plPageOptimizer.cpp
Unescape View File

@ -135,8 +135,8 @@ void plPageOptimizer::Optimize()
if (loaded)
IRewritePage();
UInt32 oldSize = plFileUtils::GetFileSize(fPagePath);
UInt32 newSize = plFileUtils::GetFileSize(fTempPagePath);
uint32_t oldSize = plFileUtils::GetFileSize(fPagePath);
uint32_t newSize = plFileUtils::GetFileSize(fTempPagePath);
if (!loaded)
{
@ -190,19 +190,19 @@ void plPageOptimizer::IWriteKeyData(hsStream* oldPage, hsStream* newPage, plKey
class plUpdateKeyImp : public plKeyImp
{
public:
void SetStartPos(UInt32 startPos) { fStartPos = startPos; }
void SetStartPos(uint32_t startPos) { fStartPos = startPos; }
};
plUpdateKeyImp* keyImp = (plUpdateKeyImp*)(plKeyImp*)key;
UInt32 startPos = keyImp->GetStartPos();
UInt32 len = keyImp->GetDataLen();
uint32_t startPos = keyImp->GetStartPos();
uint32_t len = keyImp->GetDataLen();
oldPage->SetPosition(startPos);
if (len > fBuf.size())
fBuf.resize(len);
oldPage->Read(len, &fBuf[0]);
UInt32 newStartPos = newPage->GetPosition();
uint32_t newStartPos = newPage->GetPosition();
// If we move any buffers, this page wasn't optimized already
if (newStartPos != startPos)
@ -223,7 +223,7 @@ void plPageOptimizer::IRewritePage()
const plPageInfo& pageInfo = fPageNode->GetPageInfo();
UInt32 dataStart = pageInfo.GetDataStart();
uint32_t dataStart = pageInfo.GetDataStart();
fBuf.resize(dataStart);
@ -243,31 +243,31 @@ void plPageOptimizer::IRewritePage()
IWriteKeyData(&oldPage, &newPage, fAllKeys[i]);
}
UInt32 newKeyStart = newPage.GetPosition();
UInt32 oldKeyStart = pageInfo.GetIndexStart();
uint32_t newKeyStart = newPage.GetPosition();
uint32_t oldKeyStart = pageInfo.GetIndexStart();
oldPage.SetPosition(oldKeyStart);
UInt32 numTypes = oldPage.ReadSwap32();
uint32_t numTypes = oldPage.ReadSwap32();
newPage.WriteSwap32(numTypes);
for (UInt32 i = 0; i < numTypes; i++)
for (uint32_t i = 0; i < numTypes; i++)
{
UInt16 classType = oldPage.ReadSwap16();
UInt32 len = oldPage.ReadSwap32();
UInt8 flags = oldPage.ReadByte();
UInt32 numKeys = oldPage.ReadSwap32();
uint16_t classType = oldPage.ReadSwap16();
uint32_t len = oldPage.ReadSwap32();
uint8_t flags = oldPage.ReadByte();
uint32_t numKeys = oldPage.ReadSwap32();
newPage.WriteSwap16(classType);
newPage.WriteSwap32(len);
newPage.WriteByte(flags);
newPage.WriteSwap32(numKeys);
for (UInt32 j = 0; j < numKeys; j++)
for (uint32_t j = 0; j < numKeys; j++)
{
plUoid uoid;
uoid.Read(&oldPage);
UInt32 startPos = oldPage.ReadSwap32();
UInt32 dataLen = oldPage.ReadSwap32();
uint32_t startPos = oldPage.ReadSwap32();
uint32_t dataLen = oldPage.ReadSwap32();
// Get the new start pos
plKeyImp* key = (plKeyImp*)fResMgr->FindKey(uoid);

2
Sources/Plasma/Apps/plPageOptimizer/plPageOptimizer.h
Unescape View File

@ -59,7 +59,7 @@ protected:
KeyVec fKeyLoadOrder; // The order objects were loaded in
KeySet fLoadedKeys; // Keys we've loaded objects for, for quick lookup
KeyVec fAllKeys; // All the keys in the page
std::vector<UInt8> fBuf;
std::vector<uint8_t> fBuf;
bool fOptimized; // True after optimization if the page was already optimized

2
Sources/Plasma/Apps/plPlasmaUpdate/plFileGrabber.cpp
Unescape View File

@ -126,7 +126,7 @@ bool plNetShareFileGrabber::FileToStream(const char* path, hsStream* stream)
if (fileStream.Open(filePath.c_str()))
{
char* buffer = new char[BUFFER_SIZE];
UInt32 streamSize = fileStream.GetSizeLeft();
uint32_t streamSize = fileStream.GetSizeLeft();
while (streamSize > (BUFFER_SIZE))
{
fileStream.Read(BUFFER_SIZE, buffer);

20
Sources/Plasma/Apps/plPlasmaUpdate/plManifest.cpp
Unescape View File

@ -55,9 +55,9 @@ public:
char* fFilename;
plMD5Checksum fSum;
plMD5Checksum fLocalSum;
UInt32 fSize;
UInt32 fCompressedSize;
UInt32 fFlags;
uint32_t fSize;
uint32_t fCompressedSize;
uint32_t fFlags;
};
plManifest::plManifest(LogFunc log) :
@ -175,8 +175,8 @@ void plManifest::DownloadUpdates(ProgressFunc progress, plFileGrabber* grabber)
if (localStream.Open(file->fFilename, "wb"))
{
char dataBuf[1024];
UInt32 sizeLeft = serverStream.GetSizeLeft();
while (UInt32 amtRead = serverStream.Read( (sizeof(dataBuf) > sizeLeft) ? sizeLeft : sizeof(dataBuf), dataBuf))
uint32_t sizeLeft = serverStream.GetSizeLeft();
while (uint32_t amtRead = serverStream.Read( (sizeof(dataBuf) > sizeLeft) ? sizeLeft : sizeof(dataBuf), dataBuf))
{
progress(file->fFilename, amtRead);
@ -228,7 +228,7 @@ void plManifest::IWriteCache()
bool openedFile = false;
UInt32 numFiles = 0;
uint32_t numFiles = 0;
for (int i = 0; i < fFiles.size(); i++)
{
plManifestFile* file = fFiles[i];
@ -278,8 +278,8 @@ void plManifest::IReadCache(ProgressFunc progress)
if (s)
{
UInt32 numCached = s->ReadSwap32();
UInt32 cacheFileVersion = s->ReadSwap32();
uint32_t numCached = s->ReadSwap32();
uint32_t cacheFileVersion = s->ReadSwap32();
if (cacheFileVersion != kCacheFileVersion)
{
@ -294,7 +294,7 @@ void plManifest::IReadCache(ProgressFunc progress)
{
char* name = s->ReadSafeString();
UInt8 checksumBuf[MD5_DIGEST_LENGTH];
uint8_t checksumBuf[MD5_DIGEST_LENGTH];
s->Read(sizeof(checksumBuf), checksumBuf);
plMD5Checksum checksum;
checksum.SetValue(checksumBuf);
@ -349,7 +349,7 @@ bool plManifest::IDecompressSound(plManifestFile* file)
plAudioFileReader* reader = plAudioFileReader::CreateReader(file->fFilename, plAudioCore::kAll, plAudioFileReader::kStreamNative);
if (!reader)
return false;
UInt32 size = reader->GetDataSize();
uint32_t size = reader->GetDataSize();
delete reader;
if (hsCheckBits(file->fFlags, kSndFlagCacheSplit))

8
Sources/Plasma/Apps/plPlasmaUpdate/plManifest.h
Unescape View File

@ -61,8 +61,8 @@ protected:
typedef std::vector<plManifestFile*> FileVec;
FileVec fFiles;
UInt32 fDownloadFiles;
UInt32 fDownloadBytes;
uint32_t fDownloadFiles;
uint32_t fDownloadBytes;
bool fDirtySums;
@ -86,8 +86,8 @@ public:
void DownloadUpdates(ProgressFunc progress, plFileGrabber* grabber);
int NumFiles() { return fFiles.size(); }
UInt32 NumDownloadFiles() { return fDownloadFiles; }
UInt32 DownloadSize() { return fDownloadBytes; }
uint32_t NumDownloadFiles() { return fDownloadFiles; }
uint32_t DownloadSize() { return fDownloadBytes; }
};
#endif // plManifest_h_inc

6
Sources/Plasma/Apps/plPlasmaUpdate/plPlasmaUpdate.cpp
Unescape View File

@ -360,7 +360,7 @@ void plPlasmaUpdate::IUpdateServer()
// Get the manifests
//
bool gotManifests = IGetManifests(serverRoot, external);
UInt32 dlSize = 0;
uint32_t dlSize = 0;
fProgressType = kValidating;
@ -368,7 +368,7 @@ void plPlasmaUpdate::IUpdateServer()
{
int i;
UInt32 numFiles = 0;
uint32_t numFiles = 0;
for (i = 0; i < fManifests.size(); i++)
numFiles += fManifests[i]->NumFiles();
@ -413,7 +413,7 @@ void plPlasmaUpdate::IDownloadUpdates()
int i;
UInt32 dlSize = 0;
uint32_t dlSize = 0;
for (i = 0; i < fManifests.size(); i++)
dlSize += fManifests[i]->DownloadSize();

2
Sources/Plasma/Apps/plPythonPack/PythonInterface.cpp
Unescape View File

@ -152,7 +152,7 @@ PyObject* PythonInterface::CompileString(const char *command, const char* filena
//
// PURPOSE : marshals an object into a char string
//
hsBool PythonInterface::DumpObject(PyObject* pyobj, char** pickle, Int32* size)
hsBool PythonInterface::DumpObject(PyObject* pyobj, char** pickle, int32_t* size)
{
PyObject *s; // the python string object where the marsalled object wil go
// convert object to a marshalled string python object

2
Sources/Plasma/Apps/plPythonPack/PythonInterface.h
Unescape View File

@ -52,7 +52,7 @@ namespace PythonInterface
void addPythonPath(std::string dir);
PyObject* CompileString(const char *command, const char* filename);
hsBool DumpObject(PyObject* pyobj, char** pickle, Int32* size);
hsBool DumpObject(PyObject* pyobj, char** pickle, int32_t* size);
int getOutputAndReset(char** line=nil);
PyObject* CreateModule(const char* module);
hsBool RunPYC(PyObject* code, PyObject* module);

18
Sources/Plasma/Apps/plPythonPack/main.cpp
Unescape View File

@ -91,18 +91,18 @@ void WritePythonFile(std::string fileName, std::string path, hsStream *s)
printf("==Packing %s, ",fileName.c_str());
pyStream.FastFwd();
UInt32 pyFileSize = pyStream.GetPosition();
uint32_t pyFileSize = pyStream.GetPosition();
pyStream.Rewind();
glueStream.FastFwd();
UInt32 glueFileSize = glueStream.GetPosition();
uint32_t glueFileSize = glueStream.GetPosition();
glueStream.Rewind();
UInt32 totalSize = pyFileSize + glueFileSize + 2;
uint32_t totalSize = pyFileSize + glueFileSize + 2;
char *code = new char[totalSize];
UInt32 amountRead = pyStream.Read(pyFileSize, code);
uint32_t amountRead = pyStream.Read(pyFileSize, code);
hsAssert(amountRead == pyFileSize, "Bad read");
code[pyFileSize] = '\n';
@ -189,7 +189,7 @@ void WritePythonFile(std::string fileName, std::string path, hsStream *s)
// make sure that we have code to save
if (pythonCode)
{
Int32 size;
int32_t size;
char* pycode;
PythonInterface::DumpObject(pythonCode,&pycode,&size);
@ -420,21 +420,21 @@ void PackDirectory(std::string dir, std::string rootPath, std::string pakName, s
// set to maximum optimization (includes removing __doc__ strings)
Py_OptimizeFlag = 2;
std::vector<UInt32> filePositions;
std::vector<uint32_t> filePositions;
filePositions.resize(fileNames.size());
for (i = 0; i < fileNames.size(); i++)
{
// strip '.py' from the file name
std::string properFileName = fileNames[i].substr(0, fileNames[i].size()-3);
UInt32 initialPos = s.GetPosition();
uint32_t initialPos = s.GetPosition();
WritePythonFile(properFileName, pathNames[i], &s);
UInt32 endPos = s.GetPosition();
uint32_t endPos = s.GetPosition();
filePositions[i] = initialPos;
}
s.SetPosition(sizeof(UInt32));
s.SetPosition(sizeof(uint32_t));
for (i = 0; i < fileNames.size(); i++)
{
s.WriteSafeString(fileNames[i].c_str());

40
Sources/Plasma/Apps/plUruLauncher/Main.cpp
Unescape View File

@ -151,7 +151,7 @@ static CEvent s_dialogCreateEvent(kEventManualReset);
static CCritSect s_critsect;
static LISTDECL(WndEvent, link) s_eventQ;
static CEvent s_shutdownEvent(kEventManualReset);
static wchar s_workingDir[MAX_PATH];
static wchar_t s_workingDir[MAX_PATH];
static CEvent s_statusEvent(kEventManualReset);
static char s_curlError[CURL_ERROR_SIZE];
@ -202,8 +202,8 @@ static void PostEvent (WndEvent *event) {
}
//============================================================================
static void LogV (ELogSev sev, const wchar fmt[], va_list args) {
static struct { FILE * file; const wchar * pre; } s_log[] = {
static void LogV (ELogSev sev, const wchar_t fmt[], va_list args) {
static struct { FILE * file; const wchar_t * pre; } s_log[] = {
{ stdout, L"Inf" },
{ stderr, L"Err" },
};
@ -218,7 +218,7 @@ static void LogV (ELogSev sev, const wchar fmt[], va_list args) {
}
//============================================================================
static void Log (ELogSev sev, const wchar fmt[], ...) {
static void Log (ELogSev sev, const wchar_t fmt[], ...) {
va_list args;
va_start(args, fmt);
LogV(sev, fmt, args);
@ -227,7 +227,7 @@ static void Log (ELogSev sev, const wchar fmt[], ...) {
//============================================================================
// NOTE: Must use LocalFree() on the return value of this function when finished with the string
static wchar *TranslateErrorCode(DWORD errorCode) {
static wchar_t *TranslateErrorCode(DWORD errorCode) {
LPVOID lpMsgBuf;
FormatMessageW(
@ -236,11 +236,11 @@ static wchar *TranslateErrorCode(DWORD errorCode) {
NULL,
errorCode,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
(wchar *) &lpMsgBuf,
(wchar_t *) &lpMsgBuf,
0,
NULL
);
return (wchar *)lpMsgBuf;
return (wchar_t *)lpMsgBuf;
}
//============================================================================
@ -531,7 +531,7 @@ static void WindowThreadProc(void *) {
SetTimer(s_dialog, kEventTimer, 250, 0);
char productString[256];
wchar productStringW[256];
wchar_t productStringW[256];
ProductString(productStringW, arrsize(productStringW));
StrToAnsi(productString, productStringW, arrsize(productString));
SendMessage(GetDlgItem(s_dialog, IDC_PRODUCTSTRING), WM_SETTEXT, 0, (LPARAM) productString);
@ -740,8 +740,8 @@ int __stdcall WinMain (
){
PF_CONSOLE_INITIALIZE(Core)
wchar token[256];
const wchar *appCmdLine = AppGetCommandLine();
wchar_t token[256];
const wchar_t *appCmdLine = AppGetCommandLine();
StrTokenize(&appCmdLine, token, arrsize(token), WHITESPACE);
while(!StrStr(token, L".exe") && !StrStr(token, L".tmp"))
{
@ -750,8 +750,8 @@ int __stdcall WinMain (
while (*appCmdLine == L' ')
++appCmdLine;
wchar curPatcherFile[MAX_PATH];
wchar newPatcherFile[MAX_PATH];
wchar_t curPatcherFile[MAX_PATH];
wchar_t newPatcherFile[MAX_PATH];
bool isTempPatcher = false;
PathGetProgramName(curPatcherFile, arrsize(curPatcherFile));
@ -780,7 +780,7 @@ int __stdcall WinMain (
curl_global_init(CURL_GLOBAL_ALL);
const wchar *serverIni = L"server.ini";
const wchar_t *serverIni = L"server.ini";
if(cmdParser.IsSpecified(kArgServerIni))
serverIni = cmdParser.GetString(kArgServerIni);
@ -835,9 +835,9 @@ int __stdcall WinMain (
Sleep(1000);
if (!PathDeleteFile(newPatcherFile)) {
wchar error[256];
wchar_t error[256];
DWORD errorCode = GetLastError();
wchar *msg = TranslateErrorCode(errorCode);
wchar_t *msg = TranslateErrorCode(errorCode);
StrPrintf(error, arrsize(error), L"Failed to delete old patcher executable. %s", msg);
MessageBoxW(GetTopWindow(nil), error, L"Error", MB_OK);
@ -845,9 +845,9 @@ int __stdcall WinMain (
break;
}
if (!PathMoveFile(curPatcherFile, newPatcherFile)) {
wchar error[256];
wchar_t error[256];
DWORD errorCode = GetLastError();
wchar *msg = TranslateErrorCode(errorCode);
wchar_t *msg = TranslateErrorCode(errorCode);
StrPrintf(error, arrsize(error), L"Failed to replace old patcher executable. %s", msg);
MessageBoxW(GetTopWindow(nil), error, L"Error", MB_OK);
@ -864,7 +864,7 @@ int __stdcall WinMain (
ZERO(pi);
si.cb = sizeof(si);
wchar cmdline[MAX_PATH];
wchar_t cmdline[MAX_PATH];
StrPrintf(cmdline, arrsize(cmdline), L"%s %s", newPatcherFile, s_launcherInfo.cmdLine);
// we have only successfully patched if we actually launch the new version of the patcher
@ -891,7 +891,7 @@ int __stdcall WinMain (
// Clean up old temp files
ARRAY(PathFind) paths;
wchar fileSpec[MAX_PATH];
wchar_t fileSpec[MAX_PATH];
PathGetProgramDirectory(fileSpec, arrsize(fileSpec));
PathAddFilename(fileSpec, fileSpec, L"*.tmp", arrsize(fileSpec));
PathFindFiles(&paths, fileSpec, kPathFlagFile);
@ -937,7 +937,7 @@ int __stdcall WinMain (
// Self-patch failed
SetText("Self-patch failed. Exiting...");
if (!s_shutdown) {
wchar str[256];
wchar_t str[256];
StrPrintf(str, arrsize(str), L"Patcher update failed. Error %u, %s", selfPatchResult, NetErrorToString(selfPatchResult));
MessageBoxW(GetTopWindow(nil), str, L"Error", MB_OK);
}

24
Sources/Plasma/Apps/plUruLauncher/SelfPatcher.cpp
Unescape View File

@ -56,14 +56,14 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
***/
#ifndef PLASMA_EXTERNAL_RELEASE
static const wchar s_manifest[] = L"InternalPatcher";
static const wchar_t s_manifest[] = L"InternalPatcher";
#else
static const wchar s_manifest[] = L"ExternalPatcher";
static const wchar_t s_manifest[] = L"ExternalPatcher";
#endif
class SelfPatcherStream : public plZlibStream {
public:
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
static plLauncherInfo *info;
static unsigned totalBytes;
static unsigned progress;
@ -76,7 +76,7 @@ static bool s_downloadComplete;
static long s_numFiles;
static ENetError s_patchResult;
static bool s_updated;
static wchar s_newPatcherFile[MAX_PATH];
static wchar_t s_newPatcherFile[MAX_PATH];
/*****************************************************************************
@ -105,7 +105,7 @@ static void NetErrorHandler (ENetProtocol protocol, ENetError error) {
static void DownloadCallback (
ENetError result,
void * param,
const wchar filename[],
const wchar_t filename[],
hsStream * writer
) {
if(IS_NET_ERROR(result)) {
@ -135,7 +135,7 @@ static void DownloadCallback (
}
//============================================================================
static bool MD5Check (const char filename[], const wchar md5[]) {
static bool MD5Check (const char filename[], const wchar_t md5[]) {
// Do md5 check
char md5copy[MAX_PATH];
plMD5Checksum existingMD5(filename);
@ -150,7 +150,7 @@ static bool MD5Check (const char filename[], const wchar md5[]) {
static void ManifestCallback (
ENetError result,
void * param,
const wchar group[],
const wchar_t group[],
const NetCliFileManifestEntry manifest[],
unsigned entryCount
) {
@ -180,7 +180,7 @@ static void ManifestCallback (
// MD5 check current patcher against value in manifest
ASSERT(entryCount == 1);
wchar curPatcherFile[MAX_PATH];
wchar_t curPatcherFile[MAX_PATH];
PathGetProgramName(curPatcherFile, arrsize(curPatcherFile));
StrToAnsi(ansi, curPatcherFile, arrsize(ansi));
if (!MD5Check(ansi, manifest[0].md5)) {
@ -206,7 +206,7 @@ static void ManifestCallback (
static void FileSrvIpAddressCallback (
ENetError result,
void * param,
const wchar addr[]
const wchar_t addr[]
) {
NetCliGateKeeperDisconnect();
@ -236,7 +236,7 @@ static bool SelfPatcherProc (bool * abort, plLauncherInfo *info) {
NetClientInitialize();
NetClientSetErrorHandler(NetErrorHandler);
const wchar ** addrs;
const wchar_t ** addrs;
unsigned count;
count = GetGateKeeperSrvHostnames(&addrs);
@ -267,7 +267,7 @@ static bool SelfPatcherProc (bool * abort, plLauncherInfo *info) {
ZERO(pi);
si.cb = sizeof(si);
wchar cmdline[MAX_PATH];
wchar_t cmdline[MAX_PATH];
StrPrintf(cmdline, arrsize(cmdline), L"%s %s", s_newPatcherFile, info->cmdLine);
// we have only successfully patched if we actually launch the new version of the patcher
@ -300,7 +300,7 @@ static bool SelfPatcherProc (bool * abort, plLauncherInfo *info) {
***/
//============================================================================
UInt32 SelfPatcherStream::Write(UInt32 byteCount, const void* buffer) {
uint32_t SelfPatcherStream::Write(uint32_t byteCount, const void* buffer) {
progress += byteCount;
float p = (float)progress / (float)totalBytes * 100; // progress
SetProgress( (int)p );

4
Sources/Plasma/Apps/plUruLauncher/plLauncherInfo.h
Unescape View File

@ -69,8 +69,8 @@ typedef void (*setTimeRemainingCallback)(unsigned seconds);
typedef void (*setBytesRemainingCallback)(unsigned bytes);
struct plLauncherInfo {
wchar path[MAX_PATH];
wchar cmdLine[512];
wchar_t path[MAX_PATH];
wchar_t cmdLine[512];
unsigned buildId; // buildId override
launcherCallback prepCallback;
launcherCallback initCallback;

116
Sources/Plasma/CoreLib/hsBiExpander.h
Unescape View File

@ -51,14 +51,14 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
///////////////////////////////////////////////////////////////////////////////
template <class T> class hsExpander {
private:
Int32 fNumPost;
Int32 fNumPostAlloc;
int32_t fNumPost;
int32_t fNumPostAlloc;
T* fArray;
Int32 fGrowBy; // default = 0, to double
Int32 fMinSize; // default = 1, min == 1
int32_t fGrowBy; // default = 0, to double
int32_t fMinSize; // default = 1, min == 1
Int32 fCurrent;
int32_t fCurrent;
hsExpander(const hsExpander& x); // make it passed as ref or pointer
@ -66,29 +66,29 @@ private:
public:
enum { kMissingIndex = -1 };
hsExpander(Int32 minSize = 1, Int32 growBy = 0);
hsExpander(int32_t minSize = 1, int32_t growBy = 0);
virtual ~hsExpander();
hsExpander<T>& operator=(const hsExpander<T>&orig) { return Copy(orig); }
hsExpander<T>& Copy(const hsExpander<T>& orig);
void SetCount(int cnt) { if( cnt >= fNumPostAlloc )IExpand(cnt); fNumPost = cnt; }
Int32 GetCount() const { return fNumPost; }
int32_t GetCount() const { return fNumPost; }
hsBool Empty() const { return GetCount() == 0; }
const T& Get(Int32 index) const;
Int32 Get(Int32 index, Int32 count, T data[]) const;
Int32 Find(const T&) const; // returns kMissingIndex if not found
const T& Get(int32_t index) const;
int32_t Get(int32_t index, int32_t count, T data[]) const;
int32_t Find(const T&) const; // returns kMissingIndex if not found
void SetArray(T* a, Int32 cnt);
void SetArray(T* a, int32_t cnt);
T* GetArray() { return fArray; }
T& operator[]( Int32 index );
Int32 Append(const T&); // returns t's index
T& operator[]( int32_t index );
int32_t Append(const T&); // returns t's index
T* Append();
Int32 Push(const T& t) { return Append(t); }
int32_t Push(const T& t) { return Append(t); }
T* Push() { return Append(); }
T* Top() { return fNumPost ? fArray + fNumPost-1 : nil; }
Int32 Pop(T* t); // returns count of remaining
Int32 Pop();
int32_t Pop(T* t); // returns count of remaining
int32_t Pop();
void Reset(); // clears out everything
T& Head() { return fArray[0]; }
@ -111,7 +111,7 @@ hsExpander<T>& hsExpander<T>::Copy(const hsExpander<T>& orig)
}
template <class T>
void hsExpander<T>::SetArray(T* a, Int32 cnt)
void hsExpander<T>::SetArray(T* a, int32_t cnt)
{
delete [] fArray;
if( a )
@ -122,7 +122,7 @@ void hsExpander<T>::SetArray(T* a, Int32 cnt)
template <class T>
void hsExpander<T>::IExpand(int newSize)
{
Int32 newPostAlloc = fNumPostAlloc;
int32_t newPostAlloc = fNumPostAlloc;
if( !newPostAlloc )
newPostAlloc++;
while( newPostAlloc <= newSize )
@ -137,7 +137,7 @@ void hsExpander<T>::IExpand(int newSize)
}
template <class T>
hsExpander<T>::hsExpander(Int32 minSize, Int32 growBy)
hsExpander<T>::hsExpander(int32_t minSize, int32_t growBy)
{
hsThrowIfBadParam(minSize < 0);
hsThrowIfBadParam(growBy < 0);
@ -170,7 +170,7 @@ void hsExpander<T>::Last()
}
template <class T>
T& hsExpander<T>::operator[]( Int32 index )
T& hsExpander<T>::operator[]( int32_t index )
{
hsDebugCode(hsThrowIfBadParam((index < 0)||(index >= fNumPost));)
@ -178,7 +178,7 @@ T& hsExpander<T>::operator[]( Int32 index )
}
template <class T>
const T& hsExpander<T>::Get( Int32 index ) const
const T& hsExpander<T>::Get( int32_t index ) const
{
hsDebugCode(hsThrowIfBadParam((index < 0)||(index >= fNumPost));)
@ -186,7 +186,7 @@ const T& hsExpander<T>::Get( Int32 index ) const
}
template <class T>
Int32 hsExpander<T>::Get(Int32 index, Int32 count, T data[]) const
int32_t hsExpander<T>::Get(int32_t index, int32_t count, T data[]) const
{
if( count > 0 )
{ hsThrowIfNilParam(data);
@ -201,7 +201,7 @@ Int32 hsExpander<T>::Get(Int32 index, Int32 count, T data[]) const
}
template <class T>
Int32 hsExpander<T>::Find(const T& obj) const
int32_t hsExpander<T>::Find(const T& obj) const
{
for (int i = 0; i < fNumPost; i++)
if (fArray[i] == obj)
@ -210,7 +210,7 @@ Int32 hsExpander<T>::Find(const T& obj) const
}
template <class T>
Int32 hsExpander<T>::Append(const T& obj)
int32_t hsExpander<T>::Append(const T& obj)
{
hsAssert(!(fNumPost >= fNumPostAlloc), "Must be less");
if( fNumPost == fNumPostAlloc-1 )
@ -229,7 +229,7 @@ T* hsExpander<T>::Append()
}
template <class T>
Int32 hsExpander<T>::Pop(T*t)
int32_t hsExpander<T>::Pop(T*t)
{
hsThrowIfBadParam(Empty());
--fNumPost;
@ -239,7 +239,7 @@ Int32 hsExpander<T>::Pop(T*t)
}
template <class T>
Int32 hsExpander<T>::Pop()
int32_t hsExpander<T>::Pop()
{
hsThrowIfBadParam(Empty());
--fNumPost;
@ -257,16 +257,16 @@ void hsExpander<T>::Reset()
///////////////////////////////////////////////////////////////////////////////
template <class T> class hsBiExpander {
private:
Int32 fNumPre;
Int32 fNumPost;
Int32 fNumPreAlloc;
Int32 fNumPostAlloc;
int32_t fNumPre;
int32_t fNumPost;
int32_t fNumPreAlloc;
int32_t fNumPostAlloc;
T* fArray;
Int32 fGrowBy; // default = 0, to double
Int32 fMinSize; // default = 1, min == 1
int32_t fGrowBy; // default = 0, to double
int32_t fMinSize; // default = 1, min == 1
Int32 fCurrent;
int32_t fCurrent;
hsBiExpander<T>& operator=(const hsBiExpander<T>&); // don't allow assignment
hsBiExpander(const hsBiExpander<T>&); // make it passed as ref or pointer
@ -275,26 +275,26 @@ private:
public:
enum { kMissingIndex = -1 };
hsBiExpander(Int32 minSize = 1, Int32 growBy = 0);
hsBiExpander(int32_t minSize = 1, int32_t growBy = 0);
virtual ~hsBiExpander();
Int32 GetFirst() const { return -fNumPre; }
Int32 GetCount() const { return fNumPre + fNumPost; }
int32_t GetFirst() const { return -fNumPre; }
int32_t GetCount() const { return fNumPre + fNumPost; }
hsBool Empty() const { return GetCount() == 0; }
const T& Get(Int32 index) const;
Int32 Get(Int32 index, Int32 count, T data[]) const;
Int32 Find(const T&) const; // returns kMissingIndex if not found
const T& Get(int32_t index) const;
int32_t Get(int32_t index, int32_t count, T data[]) const;
int32_t Find(const T&) const; // returns kMissingIndex if not found
void SetArray(T* a, Int32 cnt, Int32 numPre=0);
void SetArray(T* a, int32_t cnt, int32_t numPre=0);
T** GetArray() { return fArray - fNumPre; }
T& operator[]( Int32 index );
T& operator[]( int32_t index );
T* Append(); // returns t's index
T* Push(); // returns t's index
Int32 Append(const T&); // returns t's index
Int32 Push(const T&); // returns t's index
Int32 Pop(T*t = nil) { return PopHead(t); } // returns count of remaining
Int32 PopHead(T*t = nil); // returns count of remaining
Int32 PopTail(T*t = nil); // returns count of remaining
int32_t Append(const T&); // returns t's index
int32_t Push(const T&); // returns t's index
int32_t Pop(T*t = nil) { return PopHead(t); } // returns count of remaining
int32_t PopHead(T*t = nil); // returns count of remaining
int32_t PopTail(T*t = nil); // returns count of remaining
void Reset(); // clears out everything
T& Head() { return fArray[-fNumPre]; }
@ -308,7 +308,7 @@ public:
};
template <class T>
void hsBiExpander<T>::SetArray(T* a, Int32 cnt, Int32 numPre)
void hsBiExpander<T>::SetArray(T* a, int32_t cnt, int32_t numPre)
{
if( !numPre )
Reset();
@ -323,8 +323,8 @@ void hsBiExpander<T>::SetArray(T* a, Int32 cnt, Int32 numPre)
template <class T>
void hsBiExpander<T>::IExpand(int newSize, hsBool towardEnd)
{
Int32 newPreAlloc = fNumPreAlloc;
Int32 newPostAlloc = fNumPostAlloc;
int32_t newPreAlloc = fNumPreAlloc;
int32_t newPostAlloc = fNumPostAlloc;
if( towardEnd )
{
if( !newPostAlloc )
@ -353,7 +353,7 @@ void hsBiExpander<T>::IExpand(int newSize, hsBool towardEnd)
}
template <class T>
hsBiExpander<T>::hsBiExpander(Int32 minSize, Int32 growBy)
hsBiExpander<T>::hsBiExpander(int32_t minSize, int32_t growBy)
{
hsThrowIfBadParam(minSize < 0);
hsThrowIfBadParam(growBy < 0);
@ -387,7 +387,7 @@ void hsBiExpander<T>::Last()
}
template <class T>
T& hsBiExpander<T>::operator[]( Int32 index )
T& hsBiExpander<T>::operator[]( int32_t index )
{
hsDebugCode(hsThrowIfBadParam((index < -fNumPre)||(index >= fNumPost));)
@ -395,7 +395,7 @@ T& hsBiExpander<T>::operator[]( Int32 index )
}
template <class T>
const T& hsBiExpander<T>::Get( Int32 index ) const
const T& hsBiExpander<T>::Get( int32_t index ) const
{
hsDebugCode(hsThrowIfBadParam((index < -fNumPre)||(index >= fNumPost));)
@ -403,7 +403,7 @@ const T& hsBiExpander<T>::Get( Int32 index ) const
}
template <class T>
Int32 hsBiExpander<T>::Get(Int32 index, Int32 count, T data[]) const
int32_t hsBiExpander<T>::Get(int32_t index, int32_t count, T data[]) const
{
if( count > 0 )
{ hsThrowIfNilParam(data);
@ -418,7 +418,7 @@ Int32 hsBiExpander<T>::Get(Int32 index, Int32 count, T data[]) const
}
template <class T>
Int32 hsBiExpander<T>::Find(const T& obj) const
int32_t hsBiExpander<T>::Find(const T& obj) const
{
for (int i = -fNumPre; i < fNumPost; i++)
if (fArray[i] == obj)
@ -445,7 +445,7 @@ T* hsBiExpander<T>::Push()
}
template <class T>
Int32 hsBiExpander<T>::Append(const T& obj)
int32_t hsBiExpander<T>::Append(const T& obj)
{
hsAssert(!(fNumPost >= fNumPostAlloc), "Must be less");
if( fNumPost == fNumPostAlloc-1 )
@ -455,7 +455,7 @@ Int32 hsBiExpander<T>::Append(const T& obj)
}
template <class T>
Int32 hsBiExpander<T>::Push(const T& obj)
int32_t hsBiExpander<T>::Push(const T& obj)
{
hsAssert(!(fNumPre >= fNumPreAlloc), "Must be less");
if( ++fNumPre == fNumPreAlloc )
@ -465,7 +465,7 @@ Int32 hsBiExpander<T>::Push(const T& obj)
}
template <class T>
Int32 hsBiExpander<T>::PopHead(T*t)
int32_t hsBiExpander<T>::PopHead(T*t)
{
hsThrowIfBadParam(Empty());
if( t )
@ -475,7 +475,7 @@ Int32 hsBiExpander<T>::PopHead(T*t)
}
template <class T>
Int32 hsBiExpander<T>::PopTail(T*t)
int32_t hsBiExpander<T>::PopTail(T*t)
{
hsThrowIfBadParam(Empty());
--fNumPost;

18
Sources/Plasma/CoreLib/hsBitVector.cpp
Unescape View File

@ -62,18 +62,18 @@ hsBitVector::hsBitVector(int b, ...)
va_end( vl );
}
hsBitVector::hsBitVector(const hsTArray<Int16>& src)
hsBitVector::hsBitVector(const hsTArray<int16_t>& src)
: fBitVectors(nil),
fNumBitVectors(0)
{
FromList(src);
}
void hsBitVector::IGrow(UInt32 newNumBitVectors)
void hsBitVector::IGrow(uint32_t newNumBitVectors)
{
hsAssert(newNumBitVectors > fNumBitVectors, "Growing smaller");
UInt32 *old = fBitVectors;
fBitVectors = TRACKED_NEW UInt32[newNumBitVectors];
uint32_t *old = fBitVectors;
fBitVectors = TRACKED_NEW uint32_t[newNumBitVectors];
int i;
for( i = 0; i < fNumBitVectors; i++ )
fBitVectors[i] = old[i];
@ -95,8 +95,8 @@ hsBitVector& hsBitVector::Compact()
for( hiVec = fNumBitVectors-1; (hiVec >= 0)&& !fBitVectors[hiVec]; --hiVec );
if( hiVec >= 0 )
{
UInt32 *old = fBitVectors;
fBitVectors = TRACKED_NEW UInt32[++hiVec];
uint32_t *old = fBitVectors;
fBitVectors = TRACKED_NEW uint32_t[++hiVec];
int i;
for( i = 0; i < hiVec; i++ )
fBitVectors[i] = old[i];
@ -119,7 +119,7 @@ void hsBitVector::Read(hsStream* s)
if( fNumBitVectors )
{
delete [] fBitVectors;
fBitVectors = TRACKED_NEW UInt32[fNumBitVectors];
fBitVectors = TRACKED_NEW uint32_t[fNumBitVectors];
int i;
for( i = 0; i < fNumBitVectors; i++ )
s->LogReadLE(&fBitVectors[i],"BitVector");
@ -135,7 +135,7 @@ void hsBitVector::Write(hsStream* s) const
s->WriteLE32(fBitVectors[i]);
}
hsTArray<Int16>& hsBitVector::Enumerate(hsTArray<Int16>& dst) const
hsTArray<int16_t>& hsBitVector::Enumerate(hsTArray<int16_t>& dst) const
{
dst.SetCount(0);
hsBitIterator iter(*this);
@ -148,7 +148,7 @@ hsTArray<Int16>& hsBitVector::Enumerate(hsTArray<Int16>& dst) const
return dst;
}
hsBitVector& hsBitVector::FromList(const hsTArray<Int16>& src)
hsBitVector& hsBitVector::FromList(const hsTArray<int16_t>& src)
{
Clear();
int i;

74
Sources/Plasma/CoreLib/hsBitVector.h
Unescape View File

@ -51,17 +51,17 @@ class hsStream;
class hsBitVector {
protected:
UInt32* fBitVectors;
UInt32 fNumBitVectors;
uint32_t* fBitVectors;
uint32_t fNumBitVectors;
void IGrow(UInt32 newNumBitVectors);
void IGrow(uint32_t newNumBitVectors);
friend class hsBitIterator;
public:
hsBitVector(const hsBitVector& other);
hsBitVector(UInt32 which) : fBitVectors(nil), fNumBitVectors(0) { SetBit(which); }
hsBitVector(uint32_t which) : fBitVectors(nil), fNumBitVectors(0) { SetBit(which); }
hsBitVector(int b, ...); // list of one or more integer bits to set. -1 (or any negative) terminates the list (e.g. hsBitVector(0,1,4,-1);
hsBitVector(const hsTArray<Int16>& list); // sets bit for each int in list
hsBitVector(const hsTArray<int16_t>& list); // sets bit for each int in list
hsBitVector() : fBitVectors(nil), fNumBitVectors(0) {}
virtual ~hsBitVector() { Reset(); }
@ -73,17 +73,17 @@ public:
int operator!=(const hsBitVector& other) const { return !(*this == other); }
hsBitVector& operator=(const hsBitVector& other); // will wind up identical
hsBool ClearBit(UInt32 which) { return SetBit(which, 0); } // returns previous state
hsBool SetBit(UInt32 which, hsBool on = true); // returns previous state
hsBool IsBitSet(UInt32 which) const; // returns current state
hsBool ToggleBit(UInt32 which); // returns previous state
hsBitVector& RemoveBit(UInt32 which); // removes bit, sliding higher bits down to fill the gap.
hsBool ClearBit(uint32_t which) { return SetBit(which, 0); } // returns previous state
hsBool SetBit(uint32_t which, hsBool on = true); // returns previous state
hsBool IsBitSet(uint32_t which) const; // returns current state
hsBool ToggleBit(uint32_t which); // returns previous state
hsBitVector& RemoveBit(uint32_t which); // removes bit, sliding higher bits down to fill the gap.
friend inline int Overlap(const hsBitVector& lhs, const hsBitVector& rhs) { return lhs.Overlap(rhs); }
hsBool Overlap(const hsBitVector& other) const;
hsBool Empty() const;
hsBool operator[](UInt32 which) const { return IsBitSet(which); }
hsBool operator[](uint32_t which) const { return IsBitSet(which); }
friend inline hsBitVector operator&(const hsBitVector& lhs, const hsBitVector& rhs); // See Overlap()
friend inline hsBitVector operator|(const hsBitVector& lhs, const hsBitVector& rhs);
@ -96,19 +96,19 @@ public:
hsBitVector& operator-=(const hsBitVector& other); // return me w/ other's bits turned off
hsBitVector& Compact();
hsBitVector& SetSize(UInt32 numBits) { ClearBit(numBits+1); return *this; }
UInt32 GetSize() { return fNumBitVectors << 5; }
hsBitVector& SetSize(uint32_t numBits) { ClearBit(numBits+1); return *this; }
uint32_t GetSize() { return fNumBitVectors << 5; }
// integer level access
UInt32 GetNumBitVectors() const { return fNumBitVectors; }
UInt32 GetBitVector(int i) const { return fBitVectors[i]; }
void SetNumBitVectors(UInt32 n) { Reset(); fNumBitVectors=n; fBitVectors = TRACKED_NEW UInt32[n]; }
void SetBitVector(int i, UInt32 val) { fBitVectors[i]=val; }
uint32_t GetNumBitVectors() const { return fNumBitVectors; }
uint32_t GetBitVector(int i) const { return fBitVectors[i]; }
void SetNumBitVectors(uint32_t n) { Reset(); fNumBitVectors=n; fBitVectors = TRACKED_NEW uint32_t[n]; }
void SetBitVector(int i, uint32_t val) { fBitVectors[i]=val; }
// Do dst.SetCount(0), then add each set bit's index into dst, returning dst.
hsTArray<Int16>& Enumerate(hsTArray<Int16>& dst) const;
hsTArray<int16_t>& Enumerate(hsTArray<int16_t>& dst) const;
// this->Clear(), then set all bits listed in src, returning *this.
hsBitVector& FromList(const hsTArray<Int16>& src);
hsBitVector& FromList(const hsTArray<int16_t>& src);
void Read(hsStream* s);
void Write(hsStream* s) const;
@ -118,7 +118,7 @@ inline hsBitVector::hsBitVector(const hsBitVector& other)
{
if( 0 != (fNumBitVectors = other.fNumBitVectors) )
{
fBitVectors = TRACKED_NEW UInt32[fNumBitVectors];
fBitVectors = TRACKED_NEW uint32_t[fNumBitVectors];
int i;
for( i = 0; i < fNumBitVectors; i++ )
fBitVectors[i] = other.fBitVectors[i];
@ -160,7 +160,7 @@ inline hsBitVector& hsBitVector::operator=(const hsBitVector& other)
{
Reset();
fNumBitVectors = other.fNumBitVectors;
fBitVectors = TRACKED_NEW UInt32[fNumBitVectors];
fBitVectors = TRACKED_NEW uint32_t[fNumBitVectors];
}
else
{
@ -295,12 +295,12 @@ inline hsBitVector& hsBitVector::Set(int upToBit)
{
if( upToBit >= 0 )
{
UInt32 major = upToBit >> 5;
UInt32 minor = 1 << (upToBit & 0x1f);
uint32_t major = upToBit >> 5;
uint32_t minor = 1 << (upToBit & 0x1f);
if( major >= fNumBitVectors )
IGrow(major+1);
UInt32 i;
uint32_t i;
for( i = 0; i < major; i++ )
fBitVectors[i] = 0xffffffff;
for( i = 1; i <= minor && i > 0; i <<= 1 )
@ -315,18 +315,18 @@ inline hsBitVector& hsBitVector::Set(int upToBit)
return *this;
}
inline hsBool hsBitVector::IsBitSet(UInt32 which) const
inline hsBool hsBitVector::IsBitSet(uint32_t which) const
{
UInt32 major = which >> 5;
uint32_t major = which >> 5;
return
(major < fNumBitVectors)
&& (0 != (fBitVectors[major] & 1 << (which & 0x1f)));
}
inline hsBool hsBitVector::SetBit(UInt32 which, hsBool on)
inline hsBool hsBitVector::SetBit(uint32_t which, hsBool on)
{
UInt32 major = which >> 5;
UInt32 minor = 1 << (which & 0x1f);
uint32_t major = which >> 5;
uint32_t minor = 1 << (which & 0x1f);
if( major >= fNumBitVectors )
IGrow(major+1);
hsBool ret = 0 != (fBitVectors[major] & minor);
@ -341,10 +341,10 @@ inline hsBool hsBitVector::SetBit(UInt32 which, hsBool on)
return ret;
}
inline hsBool hsBitVector::ToggleBit(UInt32 which)
inline hsBool hsBitVector::ToggleBit(uint32_t which)
{
UInt32 major = which >> 5;
UInt32 minor = 1 << (which & 0x1f);
uint32_t major = which >> 5;
uint32_t minor = 1 << (which & 0x1f);
if( major >= fNumBitVectors )
IGrow(major);
hsBool ret = 0 != (fBitVectors[major] & minor);
@ -355,14 +355,14 @@ inline hsBool hsBitVector::ToggleBit(UInt32 which)
return ret;
}
inline hsBitVector& hsBitVector::RemoveBit(UInt32 which)
inline hsBitVector& hsBitVector::RemoveBit(uint32_t which)
{
UInt32 major = which >> 5;
uint32_t major = which >> 5;
if( major >= fNumBitVectors )
return *this;
UInt32 minor = 1 << (which & 0x1f);
UInt32 lowMask = minor-1;
UInt32 hiMask = ~(lowMask);
uint32_t minor = 1 << (which & 0x1f);
uint32_t lowMask = minor-1;
uint32_t hiMask = ~(lowMask);
fBitVectors[major] = (fBitVectors[major] & lowMask)
| ((fBitVectors[major] >> 1) & hiMask);

42
Sources/Plasma/CoreLib/hsBounds.cpp
Unescape View File

@ -61,7 +61,7 @@ void hsBounds::Read(hsStream *s)
void hsBounds::Write(hsStream *s)
{
s->WriteLE32((Int32)fType);
s->WriteLE32((int32_t)fType);
}
///////////////////////////////////////////////////////////////////////////////////////
@ -230,9 +230,9 @@ void hsBounds3::InscribeSphere()
}
// neg, pos, zero == disjoint, I contain other, overlap
Int32 hsBounds3::TestBound(const hsBounds3& other) const
int32_t hsBounds3::TestBound(const hsBounds3& other) const
{
Int32 retVal = 1;
int32_t retVal = 1;
int i;
for( i = 0; i < 3; i++ )
{
@ -348,7 +348,7 @@ void hsBounds3::MakeTriMeshSphere(hsGTriMesh* tMesh, hsPoint3* cornersIn) const
//
// Allocate and create mesh from bounding box
//
void hsBounds3::MakeTriMesh(hsGTriMesh* tMesh, UInt32 triFlags, hsPoint3* cornersIn) const
void hsBounds3::MakeTriMesh(hsGTriMesh* tMesh, uint32_t triFlags, hsPoint3* cornersIn) const
{
hsAssert(cornersIn || fType == kBoundsNormal,
"Invalid bounds type for hsBounds3::MakeTriMesh ");
@ -551,13 +551,13 @@ hsBool hsBoundsOriented::IsInside(const hsPoint3* pos) const
return true;
}
void hsBoundsOriented::SetNumberPlanes(UInt32 n)
void hsBoundsOriented::SetNumberPlanes(uint32_t n)
{
delete [] fPlanes;
fPlanes = TRACKED_NEW hsPlane3[fNumPlanes = n];
}
void hsBoundsOriented::SetPlane(UInt32 i, hsPlane3 *pln)
void hsBoundsOriented::SetPlane(uint32_t i, hsPlane3 *pln)
{
fType = kBoundsNormal;
if( i >= fNumPlanes )
@ -1030,7 +1030,7 @@ hsBool hsBounds3Ext::IsInside(const hsPoint3 *p) const
}
// neg, pos, zero == disjoint, I contain other, overlap
Int32 hsBounds3Ext::TestBound(const hsBounds3Ext& other) const
int32_t hsBounds3Ext::TestBound(const hsBounds3Ext& other) const
{
if( fExtFlags & kAxisAligned )
return hsBounds3::TestBound(other);
@ -1038,7 +1038,7 @@ Int32 hsBounds3Ext::TestBound(const hsBounds3Ext& other) const
if( !(fExtFlags & kDistsSet) )
IMakeDists();
Int32 retVal = 1;
int32_t retVal = 1;
int i;
for( i = 0; i < 3; i++ )
{
@ -1151,11 +1151,11 @@ void hsBounds3Ext::TestPlane(const hsVector3 &n, const hsVector3 &myVel, hsPoint
}
}
Int32 hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList, const hsVector3 &ptVel) const
int32_t hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList, const hsVector3 &ptVel) const
{
if( fExtFlags & kAxisAligned )
{
Int32 retVal = -1;
int32_t retVal = -1;
int i;
for( i = 0; i < 3; i++ )
{
@ -1167,8 +1167,8 @@ Int32 hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList, const hsVector3 &pt
effMin -= ptVel[i];
int j;
const UInt32 low = 0x1, hi = 0x2;
UInt32 mask = low | hi;
const uint32_t low = 0x1, hi = 0x2;
uint32_t mask = low | hi;
for( j = 0; j < n; j++ )
{
if( pList[j][i] > effMin )
@ -1185,7 +1185,7 @@ Int32 hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList, const hsVector3 &pt
}
else // non-axis aligned case
{
Int32 retVal = -1; // all inside
int32_t retVal = -1; // all inside
if( !(fExtFlags & kDistsSet) )
IMakeDists();
int i;
@ -1228,7 +1228,7 @@ Int32 hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList, const hsVector3 &pt
}
}
Int32 hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList) const
int32_t hsBounds3Ext::TestPoints(int n, const hsPoint3 *pList) const
{
hsBool someIn = false;
hsBool someOut = false;
@ -1397,7 +1397,7 @@ static hsBool ITestDepth(const hsPoint2& other, const hsPoint2& mine,
return true;
}
Int32 hsBounds3Ext::IClosestISect(const hsBounds3Ext& other, const hsVector3& myVel,
int32_t hsBounds3Ext::IClosestISect(const hsBounds3Ext& other, const hsVector3& myVel,
hsScalar* tClose, hsScalar* tImpact) const
{
// Should assert both have their spheres set.
@ -1704,8 +1704,8 @@ hsBool hsBounds3Ext::ISectTriABB(hsBounds3Tri &tri, const hsVector3 &myVel) cons
effMax += myVel[i];
int j;
const UInt32 low = 0x1, hi = 0x2;
UInt32 mask = low | hi;
const uint32_t low = 0x1, hi = 0x2;
uint32_t mask = low | hi;
for( j = 0; j < 3; j++ )
{
if( tri.fVerts[j][i] > effMin )
@ -2940,7 +2940,7 @@ hsBounds3Tri::hsBounds3Tri(hsTriangle3* t, const hsMatrix44& x)
t, x);
}
void hsBounds3Tri::Set(hsPoint3 *v0, hsPoint3 *v1, hsPoint3 *v2, hsVector3 *n, UInt32 triFlags, hsTriangle3 *t)
void hsBounds3Tri::Set(hsPoint3 *v0, hsPoint3 *v1, hsPoint3 *v2, hsVector3 *n, uint32_t triFlags, hsTriangle3 *t)
{
fTriFlags = 0;
@ -2958,7 +2958,7 @@ void hsBounds3Tri::Set(hsPoint3 *v0, hsPoint3 *v1, hsPoint3 *v2, hsVector3 *n, U
fDist = fNormal.InnerProduct(fVerts[0]);
}
hsBounds3Tri::hsBounds3Tri(hsPoint3 *v0, hsPoint3 *v1, hsPoint3 *v2, hsVector3 *n, UInt32 triFlags, hsTriangle3 *t)
hsBounds3Tri::hsBounds3Tri(hsPoint3 *v0, hsPoint3 *v1, hsPoint3 *v2, hsVector3 *n, uint32_t triFlags, hsTriangle3 *t)
{
Set(v0, v1, v2, n, triFlags, t);
}
@ -2995,9 +2995,9 @@ hsBool hsBounds3Tri::ISectCone(const hsPoint3& from, const hsPoint3& to, hsScala
hsScalar radiusSq = distASq * (1-cosThetaSq)/cosThetaSq;
hsScalar minDistSq = 0;
Int32 minVert = 0;
int32_t minVert = 0;
hsBool sect = false;
for (Int32 i=0; i<3; i++)
for (int32_t i=0; i<3; i++)
{
hsPoint3 onLine;
hsScalar t = hsBounds3::ClosestPointToLine(&fVerts[i], &from, &to, &onLine);

22
Sources/Plasma/CoreLib/hsBounds.h
Unescape View File

@ -98,7 +98,7 @@ public:
kIsSphere = 0x2
};
protected:
mutable UInt32 fBounds3Flags;
mutable uint32_t fBounds3Flags;
hsPoint3 fMins;
hsPoint3 fMaxs;
mutable hsPoint3 fCenter;
@ -139,7 +139,7 @@ public:
// Test according to my axes only, doesn't check other's axes
// neg, pos, zero == disjoint, I contain other, overlap
virtual Int32 TestBound(const hsBounds3& other) const;
virtual int32_t TestBound(const hsBounds3& other) const;
static hsScalar ClosestPointToLine(const hsPoint3 *p, const hsPoint3 *v0, const hsPoint3 *v1, hsPoint3 *out);
static hsScalar ClosestPointToInfiniteLine(const hsPoint3* p, const hsVector3* v, hsPoint3* out);
@ -198,7 +198,7 @@ private:
hsBool fCenterValid;
hsPoint3 fCenter;
hsPlane3 *fPlanes;
UInt32 fNumPlanes;
uint32_t fNumPlanes;
public:
hsBoundsOriented() : fPlanes(nil),fNumPlanes(0),fCenterValid(false) {}
virtual ~hsBoundsOriented() { if (fPlanes) delete [] fPlanes; }
@ -209,7 +209,7 @@ public:
void SetCenter(const hsBoundsOriented* b) { fCenter=b->GetCenter(); fCenterValid = true; }
hsPoint3 GetCenter() const;
void SetNumberPlanes(UInt32 n);
void SetNumberPlanes(uint32_t n);
hsPlane3* GetPlane(int i) { return &fPlanes[i]; }
int GetNumPlanes() { return fNumPlanes; }
@ -218,7 +218,7 @@ public:
// These set type to kBounds Normal
//
virtual void Reset(const hsBounds3*);
void SetPlane(UInt32 i, hsPlane3 *p);
void SetPlane(uint32_t i, hsPlane3 *p);
//
// Only valid for kBounds Normal
@ -241,13 +241,13 @@ protected:
kAxisOneZero =(1<<21),
kAxisTwoZero =(1<<22)
};
mutable UInt32 fExtFlags;
mutable uint32_t fExtFlags;
hsPoint3 fCorner;
hsVector3 fAxes[3];
mutable hsPoint2 fDists[3];
mutable hsScalar fRadius;
hsBool IAxisIsZero(UInt32 i) const { return (fExtFlags & (1 << (20+i))) != 0; };
hsBool IAxisIsZero(uint32_t i) const { return (fExtFlags & (1 << (20+i))) != 0; };
void IMakeSphere() const;
void IMakeDists() const;
void IMakeMinsMaxs();
@ -285,21 +285,21 @@ public:
virtual hsBool IsInside(const hsPoint3* pos) const; // ok for full/empty
virtual void TestPlane(const hsVector3 &n, hsPoint2 &depth) const;
virtual Int32 TestPoints(int n, const hsPoint3 *pList) const; // pos,neg,zero == allout, allin, cut
virtual int32_t TestPoints(int n, const hsPoint3 *pList) const; // pos,neg,zero == allout, allin, cut
// Test according to my axes only, doesn't check other's axes
// neg, pos, zero == disjoint, I contain other, overlap
virtual Int32 TestBound(const hsBounds3Ext& other) const;
virtual int32_t TestBound(const hsBounds3Ext& other) const;
virtual void TestPlane(const hsVector3 &n, const hsVector3 &myVel, hsPoint2 &depth) const;
virtual void TestPlane(const hsPlane3 *p, const hsVector3 &myVel, hsPoint2 &depth) const;
virtual Int32 TestPoints(int n, const hsPoint3 *pList, const hsVector3 &ptVel) const; // pos,neg,zero == allout, allin, cut
virtual int32_t TestPoints(int n, const hsPoint3 *pList, const hsVector3 &ptVel) const; // pos,neg,zero == allout, allin, cut
virtual hsBool ISectBB(const hsBounds3Ext &other, const hsVector3 &myVel) const;
virtual hsBool ISectBB(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const;
virtual hsBool ISectABB(const hsBounds3Ext &other, const hsVector3 &myVel) const;
virtual hsBool ISectBS(const hsBounds3Ext &other, const hsVector3 &myVel) const;
virtual Int32 IClosestISect(const hsBounds3Ext& other, const hsVector3& myVel,
virtual int32_t IClosestISect(const hsBounds3Ext& other, const hsVector3& myVel,
hsScalar* tClose, hsScalar* tImpact) const;
virtual hsBool ISectBoxBS(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const;
virtual hsBool ISectBSBox(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const;

16
Sources/Plasma/CoreLib/hsColorRGBA.h
Unescape View File

@ -69,8 +69,8 @@ struct hsColorRGBA {
friend inline hsColorRGBA operator*(const hsScalar s, const hsColorRGBA& c);
hsColorRGBA& operator*=(const hsScalar s);
hsColorRGBA& FromARGB32(UInt32 c);
UInt32 ToARGB32() const;
hsColorRGBA& FromARGB32(uint32_t c);
uint32_t ToARGB32() const;
void Read(hsStream *stream);
void Write(hsStream *stream) const;
@ -91,7 +91,7 @@ inline void hsColorRGBA::Write(hsStream *s) const
s->WriteLEScalar(a);
}
inline hsColorRGBA& hsColorRGBA::FromARGB32(UInt32 c)
inline hsColorRGBA& hsColorRGBA::FromARGB32(uint32_t c)
{
const hsScalar oo255 = 1.f / 255.f;
a = hsScalar((c >> 24) & 0xff) * oo255;
@ -101,12 +101,12 @@ inline hsColorRGBA& hsColorRGBA::FromARGB32(UInt32 c)
return *this;
}
inline UInt32 hsColorRGBA::ToARGB32() const
inline uint32_t hsColorRGBA::ToARGB32() const
{
return (UInt32(a * 255.99f) << 24)
| (UInt32(r * 255.99f) << 16)
| (UInt32(g * 255.99f) << 8)
| (UInt32(b * 255.99f) << 0);
return (uint32_t(a * 255.99f) << 24)
| (uint32_t(r * 255.99f) << 16)
| (uint32_t(g * 255.99f) << 8)
| (uint32_t(b * 255.99f) << 0);
}
inline hsColorRGBA operator+(const hsColorRGBA& s, const hsColorRGBA& t)

4
Sources/Plasma/CoreLib/hsExceptionStack.h
Unescape View File

@ -62,8 +62,8 @@ public:
static hsExceptionStack& Instance();
Int32 GetNumEntries() const { return fEntries.Count(); }
const char* GetEntry(Int32 i) const { return fEntries[i]; }
int32_t GetNumEntries() const { return fEntries.Count(); }
const char* GetEntry(int32_t i) const { return fEntries[i]; }
void Push(const char* str);

12
Sources/Plasma/CoreLib/hsFixedTypes.h
Unescape View File

@ -96,10 +96,10 @@ hsFixed hsFixedCos(hsFixed s);
hsFixed hsFixedASin(hsFixed s);
hsFixed hsFixedACos(hsFixed s);
UInt16 hsSqrt32(UInt32 value);
UInt16 hsCubeRoot32(UInt32 value);
Int32 hsMulDiv32(Int32 numer1, Int32 numer2, Int32 denom);
Int32 hsMagnitude32(Int32 x, Int32 y);
uint16_t hsSqrt32(uint32_t value);
uint16_t hsCubeRoot32(uint32_t value);
int32_t hsMulDiv32(int32_t numer1, int32_t numer2, int32_t denom);
int32_t hsMagnitude32(int32_t x, int32_t y);
#ifdef __cplusplus
}
@ -112,8 +112,8 @@ Int32 hsMagnitude32(Int32 x, Int32 y);
void Set(hsFixed a, hsFixed b, hsFixed c) { fA = a; fB = b; fC = c; }
hsFixed FixEval(hsFixed x, hsFixed y) const { return hsFixMul(fA, x) + hsFixMul(fB, y) + fC; }
Int32 IntEval(Int32 x, Int32 y) const { return fA * x + fB * y + fC; }
void ShiftDown(UInt32 i) { fA >>= i; fB >>= i; fC >>= i;}
int32_t IntEval(int32_t x, int32_t y) const { return fA * x + fB * y + fC; }
void ShiftDown(uint32_t i) { fA >>= i; fB >>= i; fC >>= i;}
};
#endif

46
Sources/Plasma/CoreLib/hsHashTable.h
Unescape View File

@ -51,7 +51,7 @@ class hsHashTableIterator
{
public:
hsHashTableIterator() : fList(nil), fIndex(-1) { }
explicit hsHashTableIterator(hsTArray<T>* list, UInt32 idx) : fList(list), fIndex(idx) { }
explicit hsHashTableIterator(hsTArray<T>* list, uint32_t idx) : fList(list), fIndex(idx) { }
T* operator->() const { return &((*fList)[fIndex]); }
T& operator*() const { return (*fList)[fIndex]; }
@ -67,7 +67,7 @@ public:
private:
hsTArray<T>* fList;
UInt32 fIndex;
uint32_t fIndex;
};
@ -75,7 +75,7 @@ template <class T>
class hsHashTable
{
public:
hsHashTable(UInt32 size=150001, UInt32 step=1);
hsHashTable(uint32_t size=150001, uint32_t step=1);
~hsHashTable();
typedef hsHashTableIterator<T> iterator;
@ -84,25 +84,25 @@ public:
iterator end() { return iterator(&fItemList,0); }
void clear();
UInt32 count() { return fItemList.Count()-1; }
UInt32 size() { return fSize; }
uint32_t count() { return fItemList.Count()-1; }
uint32_t size() { return fSize; }
UInt32 CollisionCount() { return fCollisionCount; }
uint32_t CollisionCount() { return fCollisionCount; }
inline void insert(T& item);
inline void erase(T& item);
inline iterator find(const T& item);
iterator GetItem(UInt32 i);
iterator GetItem(uint32_t i);
private:
hsTArray<T> fItemList;
hsTArray<UInt32> fClearList;
hsTArray<uint32_t> fClearList;
UInt32* fHashTable;
UInt32 fSize;
UInt32 fCollisionStep;
UInt32 fCollisionCount;
uint32_t* fHashTable;
uint32_t fSize;
uint32_t fCollisionStep;
uint32_t fCollisionCount;
// No copy or assignment
hsHashTable(const hsHashTable&);
@ -110,14 +110,14 @@ private:
};
template <class T>
hsHashTable<T>::hsHashTable(UInt32 size, UInt32 step) :
hsHashTable<T>::hsHashTable(uint32_t size, uint32_t step) :
fSize(size),
fCollisionStep(step),
fCollisionCount(0)
{
fItemList.SetCount(1);
fHashTable = TRACKED_NEW UInt32[fSize];
memset(fHashTable,0,fSize*sizeof(UInt32));
fHashTable = TRACKED_NEW uint32_t[fSize];
memset(fHashTable,0,fSize*sizeof(uint32_t));
}
template <class T>
@ -130,7 +130,7 @@ template <class T>
void hsHashTable<T>::clear()
{
fItemList.SetCount(1);
for (Int32 i=0; i<fClearList.Count(); i++)
for (int32_t i=0; i<fClearList.Count(); i++)
fHashTable[ fClearList[i] ] = 0;
fClearList.Reset();
}
@ -139,9 +139,9 @@ template <class T>
void hsHashTable<T>::insert(T& item)
{
hsAssert(fClearList.Count() < fSize,"Hash table overflow! Increase the table size.");
UInt32 h = item.GetHash();
uint32_t h = item.GetHash();
h %= fSize;
while (UInt32 it = fHashTable[h])
while (uint32_t it = fHashTable[h])
{
if ( fItemList[it] == item)
{
@ -160,9 +160,9 @@ void hsHashTable<T>::insert(T& item)
template <class T>
void hsHashTable<T>::erase(T& item)
{
UInt32 h = item.GetHash();
uint32_t h = item.GetHash();
h %= fSize;
while (UInt32 it = fHashTable[h])
while (uint32_t it = fHashTable[h])
{
if ( fItemList[it] == item )
{
@ -175,9 +175,9 @@ void hsHashTable<T>::erase(T& item)
template <class T>
hsHashTableIterator<T> hsHashTable<T>::find(const T& item)
{
UInt32 h = item.GetHash();
uint32_t h = item.GetHash();
h %= fSize;
while (UInt32 it = fHashTable[h])
while (uint32_t it = fHashTable[h])
{
if ( fItemList[it] == item )
{
@ -191,7 +191,7 @@ hsHashTableIterator<T> hsHashTable<T>::find(const T& item)
}
template <class T>
hsHashTableIterator<T> hsHashTable<T>::GetItem(UInt32 i)
hsHashTableIterator<T> hsHashTable<T>::GetItem(uint32_t i)
{
return iterator(&fItemList,i+1);
}

6
Sources/Plasma/CoreLib/hsMMIOStream.cpp
Unescape View File

@ -47,7 +47,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "hsExceptions.h"
UInt32 hsMMIOStream::Read(UInt32 bytes, void* buffer)
uint32_t hsMMIOStream::Read(uint32_t bytes, void* buffer)
{
fBytesRead += bytes;
fPosition += bytes;
@ -73,13 +73,13 @@ hsBool hsMMIOStream::AtEnd()
return (::mmioSeek(fHmfr,0,SEEK_CUR)==::mmioSeek(fHmfr,0,SEEK_END));
}
UInt32 hsMMIOStream::Write(UInt32 bytes, const void* buffer)
uint32_t hsMMIOStream::Write(uint32_t bytes, const void* buffer)
{
fPosition += bytes;
return ::mmioWrite(fHmfr,(const char*)buffer,bytes);
}
void hsMMIOStream::Skip(UInt32 delta)
void hsMMIOStream::Skip(uint32_t delta)
{
fBytesRead += delta;
fPosition += delta;

6
Sources/Plasma/CoreLib/hsMMIOStream.h
Unescape View File

@ -57,9 +57,9 @@ public:
virtual hsBool Close() { hsAssert(0, "hsMMIOStream::Close NotImplemented"); return false; }
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void* buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void FastFwd();
virtual void Truncate();

2
Sources/Plasma/CoreLib/hsMatrix44.h
Unescape View File

@ -60,7 +60,7 @@ struct hsMatrix44 {
kView
};
hsScalar fMap[4][4];
UInt32 fFlags;
uint32_t fFlags;
hsMatrix44() : fFlags(0) {}
hsMatrix44(const hsScalarTriple &translate, const hsQuat &rotate);

90
Sources/Plasma/CoreLib/hsMemory.cpp
Unescape View File

@ -49,15 +49,15 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
///////////////////////////////////////////////////////////////////////////////////////////
void HSMemory::BlockMove(const void* src, void* dst, UInt32 length)
void HSMemory::BlockMove(const void* src, void* dst, uint32_t length)
{
memmove(dst, src, length);
}
hsBool HSMemory::EqualBlocks(const void* block1, const void* block2, UInt32 length)
hsBool HSMemory::EqualBlocks(const void* block1, const void* block2, uint32_t length)
{
const Byte* byte1 = (Byte*)block1;
const Byte* byte2 = (Byte*)block2;
const uint8_t* byte1 = (uint8_t*)block1;
const uint8_t* byte2 = (uint8_t*)block2;
while (length--)
if (*byte1++ != *byte2++)
@ -65,17 +65,17 @@ hsBool HSMemory::EqualBlocks(const void* block1, const void* block2, UInt32 leng
return true;
}
void* HSMemory::New(UInt32 size)
void* HSMemory::New(uint32_t size)
{
return TRACKED_NEW UInt32[(size + 3) >> 2];
return TRACKED_NEW uint32_t[(size + 3) >> 2];
}
void HSMemory::Delete(void* block)
{
delete[] (UInt32*)block;
delete[] (uint32_t*)block;
}
void* HSMemory::Copy(UInt32 length, const void* source)
void* HSMemory::Copy(uint32_t length, const void* source)
{
void* destination = HSMemory::New(length);
@ -83,22 +83,22 @@ void* HSMemory::Copy(UInt32 length, const void* source)
return destination;
}
void HSMemory::Clear(void* m, UInt32 byteLen)
void HSMemory::Clear(void* m, uint32_t byteLen)
{
UInt8* mem = (UInt8*)m;
UInt8* memStop = mem + byteLen;
uint8_t* mem = (uint8_t*)m;
uint8_t* memStop = mem + byteLen;
if (byteLen > 8)
{ while (unsigned_ptr(mem) & 3)
{ while (uintptr_t(mem) & 3)
*mem++ = 0;
UInt32* mem32 = (UInt32*)mem;
UInt32* mem32Stop = (UInt32*)(unsigned_ptr(memStop) & ~3);
uint32_t* mem32 = (uint32_t*)mem;
uint32_t* mem32Stop = (uint32_t*)(uintptr_t(memStop) & ~3);
do {
*mem32++ = 0;
} while (mem32 < mem32Stop);
mem = (UInt8*)mem32;
mem = (uint8_t*)mem32;
// fall through to finish any remaining bytes (0..3)
}
while (mem < memStop)
@ -133,12 +133,12 @@ inline template <class T> T* hsSoftNew(T*& obj, unsigned count)
}
#endif
void* HSMemory::SoftNew(UInt32 size)
void* HSMemory::SoftNew(uint32_t size)
{
UInt32* p;
uint32_t* p;
hsTry {
p = TRACKED_NEW UInt32[(size + 3) >> 2];
p = TRACKED_NEW uint32_t[(size + 3) >> 2];
} hsCatch(...) {
p = nil;
}
@ -150,15 +150,15 @@ void* HSMemory::SoftNew(UInt32 size)
struct hsPrivateChunk {
hsPrivateChunk* fNext;
char* fAvailableAddr;
UInt32 fAvailableSize;
uint32_t fAvailableSize;
hsDebugCode(UInt32 fSize;)
hsDebugCode(UInt32 fCount;)
hsDebugCode(uint32_t fSize;)
hsDebugCode(uint32_t fCount;)
static hsPrivateChunk* NewPrivateChunk(hsPrivateChunk* next, UInt32 chunkSize);
static hsPrivateChunk* NewPrivateChunk(hsPrivateChunk* next, uint32_t chunkSize);
};
hsPrivateChunk* hsPrivateChunk::NewPrivateChunk(hsPrivateChunk* next, UInt32 chunkSize)
hsPrivateChunk* hsPrivateChunk::NewPrivateChunk(hsPrivateChunk* next, uint32_t chunkSize)
{
hsPrivateChunk* chunk = (hsPrivateChunk*)HSMemory::New(sizeof(hsPrivateChunk) + chunkSize);
@ -171,7 +171,7 @@ hsPrivateChunk* hsPrivateChunk::NewPrivateChunk(hsPrivateChunk* next, UInt32 chu
return chunk;
}
hsChunkAllocator::hsChunkAllocator(UInt32 chunkSize) : fChunkSize(chunkSize), fChunk(nil)
hsChunkAllocator::hsChunkAllocator(uint32_t chunkSize) : fChunkSize(chunkSize), fChunk(nil)
{
hsDebugCode(fChunkCount = 0;)
}
@ -194,12 +194,12 @@ void hsChunkAllocator::Reset()
hsDebugCode(fChunkCount = 0;)
}
void hsChunkAllocator::SetChunkSize(UInt32 chunkSize)
void hsChunkAllocator::SetChunkSize(uint32_t chunkSize)
{
fChunkSize = chunkSize;
}
void* hsChunkAllocator::Allocate(UInt32 size, const void* data)
void* hsChunkAllocator::Allocate(uint32_t size, const void* data)
{
void* addr;
@ -221,7 +221,7 @@ void* hsChunkAllocator::Allocate(UInt32 size, const void* data)
return addr;
}
void* hsChunkAllocator::SoftAllocate(UInt32 size, const void* data)
void* hsChunkAllocator::SoftAllocate(uint32_t size, const void* data)
{
void* addr;
@ -248,22 +248,22 @@ struct hsAppenderHead {
void* GetStop() const { return fStop; }
void* GetFirst() const { return fFirst; }
void* GetLast(UInt32 elemSize) const { return (char*)fStop - elemSize; }
UInt32 GetSize() const { return (char*)fStop - (char*)fFirst; }
void* GetLast(uint32_t elemSize) const { return (char*)fStop - elemSize; }
uint32_t GetSize() const { return (char*)fStop - (char*)fFirst; }
hsBool CanPrepend() const { return fFirst != this->GetTop(); }
int PrependSize() const { return (char*)fFirst - (char*)this->GetTop(); }
hsBool CanAppend() const { return fStop != this->GetBottom(); }
int AppendSize() const { return (char*)this->GetBottom() - (char*)fStop; }
void* Prepend(UInt32 elemSize)
void* Prepend(uint32_t elemSize)
{
hsAssert(this->CanPrepend(), "bad prepend");
fFirst = (char*)fFirst - elemSize;
hsAssert((char*)fFirst >= (char*)this->GetTop(), "bad elemSize");
return fFirst;
}
void* Append(UInt32 elemSize)
void* Append(uint32_t elemSize)
{
hsAssert(this->CanAppend(), "bad append");
void* data = fStop;
@ -271,7 +271,7 @@ struct hsAppenderHead {
hsAssert((char*)fStop <= (char*)fBottom, "bad elemSize");
return data;
}
hsBool PopHead(UInt32 elemSize, void* data)
hsBool PopHead(uint32_t elemSize, void* data)
{
hsAssert(fFirst != fStop, "Empty");
if( data )
@ -279,7 +279,7 @@ struct hsAppenderHead {
fFirst = (char*)fFirst + elemSize;
return fFirst == fStop;
}
hsBool PopTail(UInt32 elemSize, void* data)
hsBool PopTail(uint32_t elemSize, void* data)
{
hsAssert(fFirst != fStop, "Empty");
fStop = (char*)fStop - elemSize;
@ -288,9 +288,9 @@ struct hsAppenderHead {
return fFirst == fStop;
}
static hsAppenderHead* NewAppend(UInt32 elemSize, UInt32 elemCount, hsAppenderHead* prev)
static hsAppenderHead* NewAppend(uint32_t elemSize, uint32_t elemCount, hsAppenderHead* prev)
{
UInt32 dataSize = elemSize * elemCount;
uint32_t dataSize = elemSize * elemCount;
hsAppenderHead* head = (hsAppenderHead*)HSMemory::New(sizeof(hsAppenderHead) + dataSize);
head->fNext = nil;
@ -300,9 +300,9 @@ struct hsAppenderHead {
head->fBottom = (char*)head->fFirst + dataSize;
return head;
}
static hsAppenderHead* NewPrepend(UInt32 elemSize, UInt32 elemCount, hsAppenderHead* next)
static hsAppenderHead* NewPrepend(uint32_t elemSize, uint32_t elemCount, hsAppenderHead* next)
{
UInt32 dataSize = elemSize * elemCount;
uint32_t dataSize = elemSize * elemCount;
hsAppenderHead* head = (hsAppenderHead*)HSMemory::New(sizeof(hsAppenderHead) + dataSize);
head->fNext = next;
@ -316,7 +316,7 @@ struct hsAppenderHead {
////////////////////////////////////////////////////////////////////////////////////////
hsAppender::hsAppender(UInt32 elemSize, UInt32 elemCount)
hsAppender::hsAppender(uint32_t elemSize, uint32_t elemCount)
: fFirstBlock(nil), fElemSize(elemSize), fElemCount(elemCount), fCount(0)
{
}
@ -326,14 +326,14 @@ hsAppender::~hsAppender()
this->Reset();
}
UInt32 hsAppender::CopyInto(void* data) const
uint32_t hsAppender::CopyInto(void* data) const
{
if (data)
{ const hsAppenderHead* head = fFirstBlock;
hsDebugCode(UInt32 totalSize = 0;)
hsDebugCode(uint32_t totalSize = 0;)
while (head != nil)
{ UInt32 size = head->GetSize();
{ uint32_t size = head->GetSize();
HSMemory::BlockMove(head->GetFirst(), data, size);
data = (char*)data + size;
@ -721,7 +721,7 @@ void SortNDumpUnfreedMemory(const char *nm, bool full) // file name base, and FU
_CrtMemState heap_state;
static UInt32 GrandTotal =0;
static uint32_t GrandTotal =0;
static _CrtMemBlockHeader *cmbh_last; // Remember this header for next incremental check DANGER this
// could break if this is freed...(gives bad report)
_CrtMemBlockHeader *cmbh_last_good;
@ -821,7 +821,7 @@ static _CrtMemBlockHeader *cmbh_last; // Remember this header for next increme
for(int x=len; x < 25; x++)
fputc(' ',DumpLogFile); // make even columns
fprintf(DumpLogFile,"%5ld K\n",(UInt32)( ltb[i].fBytes+500)/1000);//,ltb[i].fAllocs);
fprintf(DumpLogFile,"%5ld K\n",(uint32_t)( ltb[i].fBytes+500)/1000);//,ltb[i].fAllocs);
//allocs += ltb[i].fAllocs;
}
@ -847,11 +847,11 @@ static _CrtMemBlockHeader *cmbh_last; // Remember this header for next increme
if( DumpLogFile)
{ fprintf(DumpLogFile,"%s ",nm);
int len = strlen(nm);
GrandTotal += (UInt32)(normsize+500)/1000;
GrandTotal += (uint32_t)(normsize+500)/1000;
for(int x=len; x < 25; x++)
fputc(' ',DumpLogFile); // make even columns
fprintf(DumpLogFile,"%5ld K %5ld %s\n",(UInt32)(normsize+500)/1000,GrandTotal,errStr);//, allocs);
fprintf(DumpLogFile,"%5ld K %5ld %s\n",(uint32_t)(normsize+500)/1000,GrandTotal,errStr);//, allocs);
fclose(DumpLogFile);
}
}

54
Sources/Plasma/CoreLib/hsMemory.h
Unescape View File

@ -48,24 +48,24 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
class HSMemory {
public:
static void BlockMove(const void* src, void* dst, UInt32 length);
static void Clear(void *m, UInt32 byteLen);
static void ClearMemory(void *m, UInt32 byteLen) { HSMemory::Clear(m, byteLen); }
static void BlockMove(const void* src, void* dst, uint32_t length);
static void Clear(void *m, uint32_t byteLen);
static void ClearMemory(void *m, uint32_t byteLen) { HSMemory::Clear(m, byteLen); }
static hsBool EqualBlocks(const void* block1, const void* block2, UInt32 length);
static hsBool EqualBlocks(const void* block1, const void* block2, uint32_t length);
static void* New(UInt32 size);
static void* New(uint32_t size);
static void Delete(void* block);
static void* Copy(UInt32 length, const void* source);
static void* Copy(uint32_t length, const void* source);
static void* SoftNew(UInt32 size); // returns nil if can't allocate
static void* SoftNew(uint32_t size); // returns nil if can't allocate
};
///////////////////////////////////////////////////////////////////////////////////////////
class hsAllocator {
public:
virtual void* Alloc(UInt32 size) = 0;
virtual void* Alloc(uint32_t size) = 0;
virtual void Free(void* addr) = 0;
};
@ -73,9 +73,9 @@ class hsScratchMem {
enum {
kBufferSize = 32
};
UInt8* fMem;
UInt8 fMemBuffer[kBufferSize];
UInt32 fLength;
uint8_t* fMem;
uint8_t fMemBuffer[kBufferSize];
uint32_t fLength;
public:
hsScratchMem() : fLength(kBufferSize)
{
@ -86,12 +86,12 @@ public:
if (fMem != fMemBuffer)
delete[] fMem;
}
UInt8* GetMem(UInt32 length)
uint8_t* GetMem(uint32_t length)
{
if (length > fLength)
{ if (fMem != fMemBuffer)
delete[] fMem;
fMem = TRACKED_NEW UInt8[length];
fMem = TRACKED_NEW uint8_t[length];
fLength = length;
}
return fMem;
@ -102,36 +102,36 @@ class hsChunkAllocator {
enum {
kDefaultChunkSize = 4096
};
UInt32 fChunkSize;
uint32_t fChunkSize;
struct hsPrivateChunk* fChunk;
hsDebugCode(UInt32 fChunkCount;)
hsDebugCode(uint32_t fChunkCount;)
public:
hsChunkAllocator(UInt32 chunkSize = kDefaultChunkSize);
hsChunkAllocator(uint32_t chunkSize = kDefaultChunkSize);
~hsChunkAllocator();
void Reset();
void SetChunkSize(UInt32 size);
void* Allocate(UInt32 size, const void* data = nil); // throws if fails
void* SoftAllocate(UInt32 size, const void* data = nil); // returns nil if fails
void SetChunkSize(uint32_t size);
void* Allocate(uint32_t size, const void* data = nil); // throws if fails
void* SoftAllocate(uint32_t size, const void* data = nil); // returns nil if fails
};
///////////////////////////////////////////////////////////////////////////////////////////
class hsAppender {
struct hsAppenderHead* fFirstBlock, *fLastBlock;
UInt32 fElemSize, fElemCount, fCount;
uint32_t fElemSize, fElemCount, fCount;
friend class hsAppenderIterator;
public:
hsAppender(UInt32 elemSize, UInt32 minCount = 16);
hsAppender(uint32_t elemSize, uint32_t minCount = 16);
~hsAppender();
UInt32 ElemSize() const { return fElemSize; }
UInt32 Count() const { return fCount; }
uint32_t ElemSize() const { return fElemSize; }
uint32_t Count() const { return fCount; }
hsBool IsEmpty() const { return fCount == 0; }
void Reset();
UInt32 CopyInto(void* data = nil) const; // return size of data array in bytes
uint32_t CopyInto(void* data = nil) const; // return size of data array in bytes
void* PushHead();
void PushHead(const void* data);
@ -185,16 +185,16 @@ public:
template <class T> class hsTAppender : hsAppender {
public:
hsTAppender() : hsAppender(sizeof(T)) {}
hsTAppender(UInt32 minCount) : hsAppender(sizeof(T), minCount) {}
hsTAppender(uint32_t minCount) : hsAppender(sizeof(T), minCount) {}
hsAppender* GetAppender() { return this; }
const hsAppender* GetAppender() const { return this; }
UInt32 Count() const { return hsAppender::Count(); }
uint32_t Count() const { return hsAppender::Count(); }
hsBool IsEmpty() const { return hsAppender::IsEmpty(); }
void Reset() { hsAppender::Reset(); }
UInt32 CopyInto(T copy[]) const { return hsAppender::CopyInto(copy); }
uint32_t CopyInto(T copy[]) const { return hsAppender::CopyInto(copy); }
T* PushHead() { return (T*)hsAppender::PushHead(); }
void PushHead(const T& item) { *this->PushHead() = item; }

2
Sources/Plasma/CoreLib/hsPoint2.h
Unescape View File

@ -45,7 +45,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "hsScalar.h"
#define HS_POINT2_NAME hsIntPoint2
#define HS_POINT2_TYPE Int32
#define HS_POINT2_TYPE int32_t
#include "HS_POINT2.inc"
};

6
Sources/Plasma/CoreLib/hsQueue.h
Unescape View File

@ -341,7 +341,7 @@ class hsMsgQueue {
mqd_t fMQ;
#else
class hsPrivateMQ* fMQ;
UInt32 fAccess;
uint32_t fAccess;
#endif
public:
enum {
@ -353,8 +353,8 @@ public:
hsMsgQueue();
virtual ~hsMsgQueue();
hsBool Create(const char name[], int maxSize, UInt32 access);
hsBool Open(const char name[], UInt32 access);
hsBool Create(const char name[], int maxSize, uint32_t access);
hsBool Open(const char name[], uint32_t access);
void Close();
int GetMaxSize() const { return fMaxSize; }

56
Sources/Plasma/CoreLib/hsSTLStream.cpp
Unescape View File

@ -45,7 +45,7 @@ hsVectorStream::hsVectorStream() : fEnd(0)
{
}
hsVectorStream::hsVectorStream(UInt32 chunkSize)
hsVectorStream::hsVectorStream(uint32_t chunkSize)
{
fVector.reserve(chunkSize);
}
@ -59,7 +59,7 @@ hsBool hsVectorStream::AtEnd()
return (fBytesRead >= fEnd);
}
UInt32 hsVectorStream::Read(UInt32 byteCount, void *buffer)
uint32_t hsVectorStream::Read(uint32_t byteCount, void *buffer)
{
if (fBytesRead + byteCount > fEnd)
{
@ -75,18 +75,18 @@ UInt32 hsVectorStream::Read(UInt32 byteCount, void *buffer)
return byteCount;
}
UInt32 hsVectorStream::Write(UInt32 byteCount, const void* buffer)
uint32_t hsVectorStream::Write(uint32_t byteCount, const void* buffer)
{
// If we are at the end of the vector, we can just do a block insert of the data
if (fPosition == fVector.size())
fVector.insert(fVector.end(), (Byte*)buffer, (Byte*)buffer+byteCount);
fVector.insert(fVector.end(), (uint8_t*)buffer, (uint8_t*)buffer+byteCount);
// If we are in the middle, I don't know how to just overwrite a block of the vector.
// So, we make sure there is enough space and copy the elements one by one
else
{
fVector.reserve(fPosition+byteCount);
for (UInt32 i = 0; i < byteCount; i++)
fVector[fPosition+i] = ((Byte*)buffer)[i];
for (uint32_t i = 0; i < byteCount; i++)
fVector[fPosition+i] = ((uint8_t*)buffer)[i];
}
fPosition += byteCount;
@ -97,7 +97,7 @@ UInt32 hsVectorStream::Write(UInt32 byteCount, const void* buffer)
return byteCount;
}
void hsVectorStream::Skip(UInt32 deltaByteCount)
void hsVectorStream::Skip(uint32_t deltaByteCount)
{
fBytesRead += deltaByteCount;
fPosition += deltaByteCount;
@ -120,7 +120,7 @@ void hsVectorStream::Truncate()
fEnd = fPosition-1;
}
UInt32 hsVectorStream::GetEOF()
uint32_t hsVectorStream::GetEOF()
{
return fEnd;
}
@ -130,7 +130,7 @@ void hsVectorStream::CopyToMem(void* mem)
memcpy(mem, &fVector[0], fEnd);
}
void hsVectorStream::Erase(UInt32 bytes)
void hsVectorStream::Erase(uint32_t bytes)
{
hsAssert(fPosition+bytes <= fEnd, "Erasing past end of stream");
@ -158,7 +158,7 @@ const void *hsVectorStream::GetData()
#ifdef HS_BUILD_FOR_WIN32
hsNamedPipeStream::hsNamedPipeStream(UInt8 flags, UInt32 timeout) :
hsNamedPipeStream::hsNamedPipeStream(uint8_t flags, uint32_t timeout) :
fFlags(flags),
fPipe(INVALID_HANDLE_VALUE),
fReadMode(false),
@ -203,15 +203,15 @@ hsBool hsNamedPipeStream::WaitForClientConnect()
hsBool hsNamedPipeStream::Open(const char *name, const char *mode)
{
wchar* wName = hsStringToWString(name);
wchar* wMode = hsStringToWString(mode);
wchar_t* wName = hsStringToWString(name);
wchar_t* wMode = hsStringToWString(mode);
hsBool ret = Open(wName, wMode);
delete [] wName;
delete [] wMode;
return ret;
}
hsBool hsNamedPipeStream::Open(const wchar *name, const wchar *mode)
hsBool hsNamedPipeStream::Open(const wchar_t *name, const wchar_t *mode)
{
if (wcschr(mode, L'w'))
{
@ -270,7 +270,7 @@ hsBool hsNamedPipeStream::Close()
return true;
}
hsBool hsNamedPipeStream::ICheckOverlappedResult(BOOL result, UInt32 &numTransferred)
hsBool hsNamedPipeStream::ICheckOverlappedResult(BOOL result, uint32_t &numTransferred)
{
// Read/Write succeeded, return now
if (result)
@ -294,7 +294,7 @@ hsBool hsNamedPipeStream::ICheckOverlappedResult(BOOL result, UInt32 &numTransfe
return false;
}
hsBool hsNamedPipeStream::IRead(UInt32 byteCount, void *buffer, UInt32 &numRead)
hsBool hsNamedPipeStream::IRead(uint32_t byteCount, void *buffer, uint32_t &numRead)
{
numRead = 0;
@ -312,7 +312,7 @@ hsBool hsNamedPipeStream::IRead(UInt32 byteCount, void *buffer, UInt32 &numRead)
return false;
}
hsBool hsNamedPipeStream::IWrite(UInt32 byteCount, const void *buffer, UInt32 &numWritten)
hsBool hsNamedPipeStream::IWrite(uint32_t byteCount, const void *buffer, uint32_t &numWritten)
{
numWritten = 0;
@ -330,13 +330,13 @@ hsBool hsNamedPipeStream::IWrite(UInt32 byteCount, const void *buffer, UInt32 &n
return false;
}
UInt32 hsNamedPipeStream::Read(UInt32 byteCount, void *buffer)
uint32_t hsNamedPipeStream::Read(uint32_t byteCount, void *buffer)
{
UInt32 totalRead = 0;
uint32_t totalRead = 0;
// Read until we get all our data or an error
UInt32 numRead = 0;
while (IRead(byteCount-totalRead, (void*)((UInt32)buffer+totalRead), numRead))
uint32_t numRead = 0;
while (IRead(byteCount-totalRead, (void*)((uint32_t)buffer+totalRead), numRead))
{
totalRead += numRead;
@ -347,13 +347,13 @@ UInt32 hsNamedPipeStream::Read(UInt32 byteCount, void *buffer)
return totalRead;
}
UInt32 hsNamedPipeStream::Write(UInt32 byteCount, const void *buffer)
uint32_t hsNamedPipeStream::Write(uint32_t byteCount, const void *buffer)
{
UInt32 totalWritten = 0;
uint32_t totalWritten = 0;
// Write until we get all our data or an error
UInt32 numWritten = 0;
while (IWrite(byteCount-totalWritten, (const void*)((UInt32)buffer+totalWritten), numWritten))
uint32_t numWritten = 0;
while (IWrite(byteCount-totalWritten, (const void*)((uint32_t)buffer+totalWritten), numWritten))
{
totalWritten += numWritten;
@ -368,14 +368,14 @@ UInt32 hsNamedPipeStream::Write(UInt32 byteCount, const void *buffer)
using std::min;
#endif
void hsNamedPipeStream::Skip(UInt32 deltaByteCount)
void hsNamedPipeStream::Skip(uint32_t deltaByteCount)
{
char buf[256];
// Read until we get all our data or an error
UInt32 totalRead = 0;
UInt32 numRead = 0;
while (IRead(min((UInt32)256L, deltaByteCount-totalRead), buf, numRead))
uint32_t totalRead = 0;
uint32_t numRead = 0;
while (IRead(min((uint32_t)256L, deltaByteCount-totalRead), buf, numRead))
{
totalRead += numRead;

40
Sources/Plasma/CoreLib/hsSTLStream.h
Unescape View File

@ -49,38 +49,38 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
class hsVectorStream : public hsStream
{
protected:
std::vector<Byte> fVector;
UInt32 fEnd; // End of file (one past the last byte)
std::vector<uint8_t> fVector;
uint32_t fEnd; // End of file (one past the last byte)
public:
hsVectorStream();
hsVectorStream(UInt32 chunkSize);
hsVectorStream(uint32_t chunkSize);
virtual ~hsVectorStream();
virtual hsBool Open(const char *, const char *) { hsAssert(0, "hsVectorStream::Open Not Implemented"); return false; }
virtual hsBool Open(const wchar *, const wchar *) { hsAssert(0, "hsVectorStream::Open Not Implemented"); return false; }
virtual hsBool Open(const wchar_t *, const wchar_t *) { hsAssert(0, "hsVectorStream::Open Not Implemented"); return false; }
virtual hsBool Close() { hsAssert(0, "hsVectorStream::Close Not Implemented"); return false; }
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void * buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void * buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void FastFwd();
virtual void Truncate();
virtual UInt32 GetEOF();
virtual uint32_t GetEOF();
virtual void CopyToMem(void* mem);
virtual void Reset(); // clears the buffers
// Erase number of bytes at the current position
virtual void Erase(UInt32 bytes);
virtual void Erase(uint32_t bytes);
// A pointer to the beginning of the data in the stream. This is only valid
// until someone modifies the stream.
const void *GetData();
// In case you want to try and be efficient with your memory allocations
void Reserve(UInt32 bytes) { fVector.reserve(bytes); }
void Reserve(uint32_t bytes) { fVector.reserve(bytes); }
};
#ifdef HS_BUILD_FOR_WIN32
@ -93,17 +93,17 @@ protected:
HANDLE fPipe;
OVERLAPPED fOverlap;
hsBool fReadMode; // True for read, false for write
UInt8 fFlags;
UInt32 fTimeout;
uint8_t fFlags;
uint32_t fTimeout;
hsBool ICheckOverlappedResult(BOOL result, UInt32 &numTransferred);
hsBool IRead(UInt32 byteCount, void *buffer, UInt32 &numRead);
hsBool IWrite(UInt32 byteCount, const void *buffer, UInt32 &numWritten);
hsBool ICheckOverlappedResult(BOOL result, uint32_t &numTransferred);
hsBool IRead(uint32_t byteCount, void *buffer, uint32_t &numRead);
hsBool IWrite(uint32_t byteCount, const void *buffer, uint32_t &numWritten);
public:
enum { kThrowOnError = 1 }; // Throws if a read or write operation fails
hsNamedPipeStream(UInt8 flags=0, UInt32 timeout=INFINITE);
hsNamedPipeStream(uint8_t flags=0, uint32_t timeout=INFINITE);
virtual ~hsNamedPipeStream();
// The server (writer) and client (reader) need to open the same file.
@ -111,12 +111,12 @@ public:
// computer name to do it over the network. 'pipeName' is whatever you
// want.
virtual hsBool Open(const char *name, const char *mode);
virtual hsBool Open(const wchar *name, const wchar *mode);
virtual hsBool Open(const wchar_t *name, const wchar_t *mode);
virtual hsBool Close();
virtual UInt32 Read(UInt32 byteCount, void *buffer);
virtual UInt32 Write(UInt32 byteCount, const void *buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void *buffer);
virtual uint32_t Write(uint32_t byteCount, const void *buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
// - For the server (writer) only -

8
Sources/Plasma/CoreLib/hsScalar.h
Unescape View File

@ -133,7 +133,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#define hsScalarToFloat(x) float(x)
#define hsIntToScalar(x) float(x)
#define hsScalarToInt(x) Int32(x)
#define hsScalarToInt(x) int32_t(x)
#define hsFixedToScalar(x) ((hsScalar)(x) / float(hsFixed1))
@ -154,15 +154,15 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#ifndef HS_DEBUGGING /* mf horse testing defines vs inlines for VC++5.0 performance */
#define hsScalarRound(x) Int32((x) + ((x) < 0 ? -hsScalarHalf : hsScalarHalf))
#define hsScalarRound(x) int32_t((x) + ((x) < 0 ? -hsScalarHalf : hsScalarHalf))
#else /* HS_DEBUGGING - use inlines for type-checking etc...and all */
inline Int32 hsScalarRound(float x)
inline int32_t hsScalarRound(float x)
{
float half = hsScalarHalf;
if (x < 0)
half = -half;
return Int32(x + half);
return int32_t(x + half);
}
#endif /* HS_DEBUGGING - use inlines for type-checking etc...and all */

252
Sources/Plasma/CoreLib/hsStream.cpp
Unescape View File

@ -64,12 +64,12 @@ void hsStream::FastFwd()
hsThrow("FastFwd unimplemented by subclass of stream");
}
UInt32 hsStream::GetPosition() const
uint32_t hsStream::GetPosition() const
{
return fPosition;
}
void hsStream::SetPosition(UInt32 position)
void hsStream::SetPosition(uint32_t position)
{
if (position == fPosition)
return;
@ -82,9 +82,9 @@ void hsStream::Truncate()
hsThrow("Truncate unimplemented by subclass of stream");
}
UInt32 hsStream::GetSizeLeft()
uint32_t hsStream::GetSizeLeft()
{
UInt32 ret = 0;
uint32_t ret = 0;
if (GetPosition() > GetEOF())
{
hsThrow("Position is beyond EOF");
@ -99,7 +99,7 @@ UInt32 hsStream::GetSizeLeft()
//////////////////////////////////////////////////////////////////////////////////
UInt32 hsStream::GetEOF()
uint32_t hsStream::GetEOF()
{
hsThrow( "GetEOF() unimplemented by subclass of stream");
return 0;
@ -116,30 +116,30 @@ hsStream::~hsStream()
{
}
UInt32 hsStream::WriteString(const char cstring[])
uint32_t hsStream::WriteString(const char cstring[])
{
return Write(hsStrlen(cstring), cstring);
}
UInt32 hsStream::WriteFmt(const char * fmt, ...)
uint32_t hsStream::WriteFmt(const char * fmt, ...)
{
va_list av;
va_start( av, fmt );
UInt32 n = WriteFmtV( fmt, av );
uint32_t n = WriteFmtV( fmt, av );
va_end( av );
return n;
}
UInt32 hsStream::WriteFmtV(const char * fmt, va_list av)
uint32_t hsStream::WriteFmtV(const char * fmt, va_list av)
{
std::string buf;
xtl::formatv( buf, fmt, av );
return Write( buf.length(), buf.data() );
}
UInt32 hsStream::WriteSafeStringLong(const char *string)
uint32_t hsStream::WriteSafeStringLong(const char *string)
{
UInt32 len = hsStrlen(string);
uint32_t len = hsStrlen(string);
WriteLE32(len);
if (len > 0)
{
@ -150,7 +150,7 @@ UInt32 hsStream::WriteSafeStringLong(const char *string)
buff[i] = ~string[i];
}
buff[len] = '\0';
UInt32 result = Write(len, buff);
uint32_t result = Write(len, buff);
delete [] buff;
return result;
}
@ -158,9 +158,9 @@ UInt32 hsStream::WriteSafeStringLong(const char *string)
return 0;
}
UInt32 hsStream::WriteSafeWStringLong(const wchar_t *string)
uint32_t hsStream::WriteSafeWStringLong(const wchar_t *string)
{
UInt32 len = wcslen(string);
uint32_t len = wcslen(string);
WriteLE32(len);
if (len > 0)
{
@ -168,9 +168,9 @@ UInt32 hsStream::WriteSafeWStringLong(const wchar_t *string)
for (i=0; i<len; i++)
{
wchar_t buff = ~string[i];
WriteLE16((UInt16)buff);
WriteLE16((uint16_t)buff);
}
WriteLE16((UInt16)L'\0');
WriteLE16((uint16_t)L'\0');
}
return 0;
}
@ -178,7 +178,7 @@ UInt32 hsStream::WriteSafeWStringLong(const wchar_t *string)
char *hsStream::ReadSafeStringLong()
{
char *name = nil;
UInt32 numChars = ReadLE32();
uint32_t numChars = ReadLE32();
if (numChars > 0 && numChars <= GetSizeLeft())
{
name = TRACKED_NEW char[numChars+1];
@ -200,7 +200,7 @@ char *hsStream::ReadSafeStringLong()
wchar_t *hsStream::ReadSafeWStringLong()
{
wchar_t *retVal = nil;
UInt32 numChars = ReadLE32();
uint32_t numChars = ReadLE32();
if (numChars > 0 && numChars <= (GetSizeLeft()/2)) // divide by two because each char is two bytes
{
retVal = TRACKED_NEW wchar_t[numChars+1];
@ -220,7 +220,7 @@ wchar_t *hsStream::ReadSafeWStringLong()
return retVal;
}
UInt32 hsStream::WriteSafeString(const char *string)
uint32_t hsStream::WriteSafeString(const char *string)
{
int len = hsStrlen(string);
hsAssert(len<0xf000, xtl::format("string len of %d is too long for WriteSafeString %s, use WriteSafeStringLong",
@ -236,7 +236,7 @@ UInt32 hsStream::WriteSafeString(const char *string)
buff[i] = ~string[i];
}
buff[len] = '\0';
UInt32 result = Write(len, buff);
uint32_t result = Write(len, buff);
delete [] buff;
return result;
}
@ -244,7 +244,7 @@ UInt32 hsStream::WriteSafeString(const char *string)
return 0;
}
UInt32 hsStream::WriteSafeWString(const wchar_t *string)
uint32_t hsStream::WriteSafeWString(const wchar_t *string)
{
int len = wcslen(string);
hsAssert(len<0xf000, xtl::format("string len of %d is too long for WriteSafeWString, use WriteSafeWStringLong",
@ -257,9 +257,9 @@ UInt32 hsStream::WriteSafeWString(const wchar_t *string)
for (i=0; i<len; i++)
{
wchar_t buff = ~string[i];
WriteLE16((UInt16)buff);
WriteLE16((uint16_t)buff);
}
WriteLE16((UInt16)L'\0');
WriteLE16((uint16_t)L'\0');
}
return 0;
}
@ -267,7 +267,7 @@ UInt32 hsStream::WriteSafeWString(const wchar_t *string)
char *hsStream::ReadSafeString()
{
char *name = nil;
UInt16 numChars = ReadLE16();
uint16_t numChars = ReadLE16();
#ifndef REMOVE_ME_SOON
// Backward compat hack - remove in a week or so (from 6/30/03)
@ -299,7 +299,7 @@ char *hsStream::ReadSafeString()
wchar_t *hsStream::ReadSafeWString()
{
wchar_t *retVal = nil;
UInt32 numChars = ReadLE16();
uint32_t numChars = ReadLE16();
numChars &= ~0xf000;
hsAssert(numChars <= GetSizeLeft()/2, "Bad string");
@ -324,7 +324,7 @@ wchar_t *hsStream::ReadSafeWString()
hsBool hsStream::Read4Bytes(void *pv) // Virtual, faster version in sub classes
{
int knt = this->Read(sizeof(UInt32), pv);
int knt = this->Read(sizeof(uint32_t), pv);
if (knt != 4)
return false;
return true;
@ -361,7 +361,7 @@ void hsStream::ReadBool(int count, hsBool values[])
this->Read(count, values);
if (sizeof(hsBool) > 1)
{ const UInt8* src = (UInt8*)values;
{ const uint8_t* src = (uint8_t*)values;
// go backwards so we don't overwrite ourselves
for (int i = count - 1; i >= 0; --i)
@ -369,11 +369,11 @@ void hsStream::ReadBool(int count, hsBool values[])
}
}
UInt8 hsStream::ReadByte()
uint8_t hsStream::ReadByte()
{
UInt8 value;
uint8_t value;
this->Read(sizeof(UInt8), &value);
this->Read(sizeof(uint8_t), &value);
return value;
}
@ -388,7 +388,7 @@ hsBool hsStream::IsTokenSeparator(char c)
return (isspace(c) || c==',' || c=='=');
}
hsBool hsStream::GetToken(char *s, UInt32 maxLen, const char beginComment, const char endComment)
hsBool hsStream::GetToken(char *s, uint32_t maxLen, const char beginComment, const char endComment)
{
char c;
char endCom;
@ -412,7 +412,7 @@ hsBool hsStream::GetToken(char *s, UInt32 maxLen, const char beginComment, const
}
s[0] = c;
UInt32 k = 1;
uint32_t k = 1;
while( !AtEnd() && !IsTokenSeparator(c = ReadByte()) )
{
if( k < maxLen )
@ -438,7 +438,7 @@ hsBool hsStream::GetToken(char *s, UInt32 maxLen, const char beginComment, const
return true;
}
hsBool hsStream::ReadLn(char *s, UInt32 maxLen, const char beginComment, const char endComment)
hsBool hsStream::ReadLn(char *s, uint32_t maxLen, const char beginComment, const char endComment)
{
char c;
char endCom;
@ -462,7 +462,7 @@ hsBool hsStream::ReadLn(char *s, UInt32 maxLen, const char beginComment, const c
}
s[0] = c;
UInt32 k = 1;
uint32_t k = 1;
while( !AtEnd() && !strchr("\r\n",c = ReadByte()) )
{
if( k < maxLen )
@ -488,39 +488,39 @@ hsBool hsStream::ReadLn(char *s, UInt32 maxLen, const char beginComment, const c
return true;
}
UInt16 hsStream::ReadLE16()
uint16_t hsStream::ReadLE16()
{
UInt16 value;
this->Read(sizeof(UInt16), &value);
uint16_t value;
this->Read(sizeof(uint16_t), &value);
value = hsToLE16(value);
return value;
}
void hsStream::ReadLE16(int count, UInt16 values[])
void hsStream::ReadLE16(int count, uint16_t values[])
{
this->Read(count * sizeof(UInt16), values);
this->Read(count * sizeof(uint16_t), values);
for (int i = 0; i < count; i++)
values[i] = hsToLE16(values[i]);
}
UInt32 hsStream::ReadLE32()
uint32_t hsStream::ReadLE32()
{
UInt32 value;
uint32_t value;
Read4Bytes(&value);
value = hsToLE32(value);
return value;
}
void hsStream::ReadLE32(int count, UInt32 values[])
void hsStream::ReadLE32(int count, uint32_t values[])
{
this->Read(count * sizeof(UInt32), values);
this->Read(count * sizeof(uint32_t), values);
for (int i = 0; i < count; i++)
values[i] = hsToLE32(values[i]);
}
UInt32 hsStream::ReadBE32()
uint32_t hsStream::ReadBE32()
{
UInt32 value;
uint32_t value;
Read4Bytes(&value);
value = hsToBE32(value);
return value;
@ -570,23 +570,23 @@ UInt32 hsStream::ReadBE32()
void hsStream::WriteBool(hsBool value)
{
UInt8 dst = (value != 0);
uint8_t dst = (value != 0);
this->Write(sizeof(UInt8), &dst);
this->Write(sizeof(uint8_t), &dst);
}
void hsStream::Writebool(bool value)
{
UInt8 dst = (value != 0);
uint8_t dst = (value != 0);
this->Write(sizeof(UInt8), &dst);
this->Write(sizeof(uint8_t), &dst);
}
void hsStream::WriteBool(int count, const hsBool values[])
{
if (sizeof(hsBool) > 1)
{ hsTempArray<UInt8> storage(count);
UInt8* dst = (UInt8*)values;
{ hsTempArray<uint8_t> storage(count);
uint8_t* dst = (uint8_t*)values;
for (int i = 0; i < count; i++)
dst[i] = (values[i] != 0);
@ -596,39 +596,39 @@ void hsStream::WriteBool(int count, const hsBool values[])
this->Write(count, values);
}
void hsStream::WriteByte(UInt8 value)
void hsStream::WriteByte(uint8_t value)
{
this->Write(sizeof(UInt8), &value);
this->Write(sizeof(uint8_t), &value);
}
void hsStream::WriteLE16(UInt16 value)
void hsStream::WriteLE16(uint16_t value)
{
value = hsToLE16(value);
this->Write(sizeof(Int16), &value);
this->Write(sizeof(int16_t), &value);
}
void hsStream::WriteLE16(int count, const UInt16 values[])
void hsStream::WriteLE16(int count, const uint16_t values[])
{
for (int i = 0; i < count; i++)
this->WriteLE16(values[i]);
}
void hsStream::WriteLE32(UInt32 value)
void hsStream::WriteLE32(uint32_t value)
{
value = hsToLE32(value);
this->Write(sizeof(Int32), &value);
this->Write(sizeof(int32_t), &value);
}
void hsStream::WriteLE32(int count, const UInt32 values[])
void hsStream::WriteLE32(int count, const uint32_t values[])
{
for (int i = 0; i < count; i++)
this->WriteLE32(values[i]);
}
void hsStream::WriteBE32(UInt32 value)
void hsStream::WriteBE32(uint32_t value)
{
value = hsToBE32(value);
this->Write(sizeof(Int32), &value);
this->Write(sizeof(int32_t), &value);
}
#if HS_CAN_USE_FLOAT
@ -663,16 +663,16 @@ void hsStream::WriteBE32(UInt32 value)
}
#endif
void hsStream::WriteLEAtom(UInt32 tag, UInt32 size)
void hsStream::WriteLEAtom(uint32_t tag, uint32_t size)
{
this->WriteLE32(tag);
this->WriteLE32(size);
}
UInt32 hsStream::ReadLEAtom(UInt32* sizePtr)
uint32_t hsStream::ReadLEAtom(uint32_t* sizePtr)
{
UInt32 tag = this->ReadLE32();
UInt32 size = this->ReadLE32();
uint32_t tag = this->ReadLE32();
uint32_t size = this->ReadLE32();
if (sizePtr)
*sizePtr = size;
@ -689,7 +689,7 @@ hsBool hsFileStream::Open(const char *name, const char *mode)
return false;
}
hsBool hsFileStream::Open(const wchar *name, const wchar *mode)
hsBool hsFileStream::Open(const wchar_t *name, const wchar_t *mode)
{
hsAssert(0, "hsFileStream::Open NotImplemented");
return false;
@ -701,12 +701,12 @@ hsBool hsFileStream::Close ()
return false;
}
UInt32 hsFileStream::GetFileRef()
uint32_t hsFileStream::GetFileRef()
{
return fRef;
}
void hsFileStream::SetFileRef(UInt32 ref)
void hsFileStream::SetFileRef(uint32_t ref)
{
hsAssert(ref != kFileStream_Uninitialized, "bad ref");
fRef = ref;
@ -721,7 +721,7 @@ hsFileStream::~hsFileStream()
{
}
UInt32 hsFileStream::Read(UInt32 bytes, void* buffer)
uint32_t hsFileStream::Read(uint32_t bytes, void* buffer)
{
hsAssert(fRef != kFileStream_Uninitialized, "fRef uninitialized");
@ -729,7 +729,7 @@ UInt32 hsFileStream::Read(UInt32 bytes, void* buffer)
fPosition += bytes;
#if HS_BUILD_FOR_WIN32
UInt32 rBytes;
uint32_t rBytes;
ReadFile((HANDLE)fRef, buffer, bytes, (LPDWORD)&rBytes, nil);
if(bytes == rBytes)
return bytes;
@ -740,7 +740,7 @@ UInt32 hsFileStream::Read(UInt32 bytes, void* buffer)
#endif
}
UInt32 hsFileStream::Write(UInt32 bytes, const void* buffer)
uint32_t hsFileStream::Write(uint32_t bytes, const void* buffer)
{
hsAssert(fRef != kFileStream_Uninitialized, "fRef uninitialized");
@ -748,7 +748,7 @@ UInt32 hsFileStream::Write(UInt32 bytes, const void* buffer)
fPosition += bytes;
#if HS_BUILD_FOR_WIN32
UInt32 wBytes;
uint32_t wBytes;
WriteFile((HANDLE)fRef, buffer, bytes, (LPDWORD)&wBytes, nil);
if(bytes == wBytes)
return bytes;
@ -768,7 +768,7 @@ UInt32 hsFileStream::Write(UInt32 bytes, const void* buffer)
hsBool hsFileStream::AtEnd()
{
#if HS_BUILD_FOR_WIN32
UInt32 bytes;
uint32_t bytes;
PeekNamedPipe((void*)fRef, nil, 0, nil, (LPDWORD)&bytes, nil);
return bytes>0;
#else
@ -777,7 +777,7 @@ hsBool hsFileStream::AtEnd()
#endif
}
void hsFileStream::Skip(UInt32 delta)
void hsFileStream::Skip(uint32_t delta)
{
fBytesRead += delta;
fPosition += delta;
@ -817,7 +817,7 @@ hsBool hsUNIXStream::Open(const char *name, const char *mode)
return (fRef) ? true : false;
}
hsBool hsUNIXStream::Open(const wchar *name, const wchar *mode)
hsBool hsUNIXStream::Open(const wchar_t *name, const wchar_t *mode)
{
fPosition = 0;
fRef = hsWFopen(name, mode);
@ -836,7 +836,7 @@ hsBool hsUNIXStream::Close()
return !rtn;
}
UInt32 hsUNIXStream::Read(UInt32 bytes, void* buffer)
uint32_t hsUNIXStream::Read(uint32_t bytes, void* buffer)
{
if (!fRef || !bytes)
return 0;
@ -868,7 +868,7 @@ hsBool hsUNIXStream::AtEnd()
return rVal;
}
UInt32 hsUNIXStream::Write(UInt32 bytes, const void* buffer)
uint32_t hsUNIXStream::Write(uint32_t bytes, const void* buffer)
{
if (!fRef)
return 0;
@ -876,7 +876,7 @@ UInt32 hsUNIXStream::Write(UInt32 bytes, const void* buffer)
return fwrite(buffer, bytes, 1, fRef);
}
void hsUNIXStream::SetPosition(UInt32 position)
void hsUNIXStream::SetPosition(uint32_t position)
{
if (!fRef || (position == fPosition))
return;
@ -885,7 +885,7 @@ void hsUNIXStream::SetPosition(UInt32 position)
(void)::fseek(fRef, position, SEEK_SET);
}
void hsUNIXStream::Skip(UInt32 delta)
void hsUNIXStream::Skip(uint32_t delta)
{
if (!fRef)
return;
@ -911,14 +911,14 @@ void hsUNIXStream::FastFwd()
fBytesRead = fPosition = ftell(fRef);
}
UInt32 hsUNIXStream::GetEOF()
uint32_t hsUNIXStream::GetEOF()
{
if( !fRef )
return 0;
long oldPos = ftell( fRef );
(void)::fseek( fRef, 0, SEEK_END );
UInt32 end = (UInt32)ftell( fRef );
uint32_t end = (uint32_t)ftell( fRef );
(void)::fseek( fRef, oldPos, SEEK_SET );
return end;
@ -950,7 +950,7 @@ plReadOnlySubStream::~plReadOnlySubStream()
{
}
void plReadOnlySubStream::Open( hsStream *base, UInt32 offset, UInt32 length )
void plReadOnlySubStream::Open( hsStream *base, uint32_t offset, uint32_t length )
{
fBase = base;
fOffset = offset;
@ -972,7 +972,7 @@ hsBool plReadOnlySubStream::AtEnd()
return false;
}
UInt32 plReadOnlySubStream::Read(UInt32 byteCount, void* buffer)
uint32_t plReadOnlySubStream::Read(uint32_t byteCount, void* buffer)
{
if( byteCount > GetSizeLeft() )
{
@ -980,18 +980,18 @@ UInt32 plReadOnlySubStream::Read(UInt32 byteCount, void* buffer)
byteCount = GetSizeLeft();
}
UInt32 read = fBase->Read( byteCount, buffer );
uint32_t read = fBase->Read( byteCount, buffer );
IFixPosition();
return read;
}
UInt32 plReadOnlySubStream::Write(UInt32 byteCount, const void* buffer)
uint32_t plReadOnlySubStream::Write(uint32_t byteCount, const void* buffer)
{
hsAssert( false, "Write not allowed on an plReadOnlySubStream" );
return 0;
}
void plReadOnlySubStream::Skip(UInt32 deltaByteCount)
void plReadOnlySubStream::Skip(uint32_t deltaByteCount)
{
fBase->Skip( deltaByteCount );
IFixPosition();
@ -1014,7 +1014,7 @@ void plReadOnlySubStream::Truncate()
hsAssert( false, "Can't truncate a read-only stream" );
}
UInt32 plReadOnlySubStream::GetEOF()
uint32_t plReadOnlySubStream::GetEOF()
{
return fLength;
}
@ -1028,7 +1028,7 @@ hsRAMStream::hsRAMStream() : fAppender(1, kRAMStreamChunkSize)
fIter.ResetToHead(&fAppender);
}
hsRAMStream::hsRAMStream(UInt32 chunkSize) : fAppender(1, chunkSize)
hsRAMStream::hsRAMStream(uint32_t chunkSize) : fAppender(1, chunkSize)
{
fIter.ResetToHead(&fAppender);
}
@ -1051,7 +1051,7 @@ hsBool hsRAMStream::AtEnd()
return (fBytesRead >= fAppender.Count() * fAppender.ElemSize());
}
UInt32 hsRAMStream::Read(UInt32 byteCount, void * buffer)
uint32_t hsRAMStream::Read(uint32_t byteCount, void * buffer)
{
if (fBytesRead + byteCount > fAppender.Count() * fAppender.ElemSize())
byteCount = (fAppender.Count() * fAppender.ElemSize()) - fBytesRead;
@ -1064,7 +1064,7 @@ UInt32 hsRAMStream::Read(UInt32 byteCount, void * buffer)
return byteCount;
}
UInt32 hsRAMStream::Write(UInt32 byteCount, const void* buffer)
uint32_t hsRAMStream::Write(uint32_t byteCount, const void* buffer)
{
fPosition += byteCount;
@ -1073,7 +1073,7 @@ UInt32 hsRAMStream::Write(UInt32 byteCount, const void* buffer)
return byteCount;
}
void hsRAMStream::Skip(UInt32 deltaByteCount)
void hsRAMStream::Skip(uint32_t deltaByteCount)
{
fPosition += deltaByteCount;
fIter.Next(deltaByteCount, nil);
@ -1091,7 +1091,7 @@ void hsRAMStream::Truncate()
Reset();
}
UInt32 hsRAMStream::GetEOF()
uint32_t hsRAMStream::GetEOF()
{
return fAppender.Count() * fAppender.ElemSize();
}
@ -1103,13 +1103,13 @@ void hsRAMStream::CopyToMem(void* mem)
//////////////////////////////////////////////////////////////////////
UInt32 hsNullStream::Read(UInt32 byteCount, void * buffer)
uint32_t hsNullStream::Read(uint32_t byteCount, void * buffer)
{
hsThrow("hsNullStream: Can't read from this stream!");
return 0;
}
UInt32 hsNullStream::Write(UInt32 byteCount, const void* buffer)
uint32_t hsNullStream::Write(uint32_t byteCount, const void* buffer)
{
fBytesRead += byteCount;
fPosition += byteCount;
@ -1117,7 +1117,7 @@ UInt32 hsNullStream::Write(UInt32 byteCount, const void* buffer)
return byteCount;
}
void hsNullStream::Skip(UInt32 deltaByteCount)
void hsNullStream::Skip(uint32_t deltaByteCount)
{
fBytesRead += deltaByteCount;
fPosition += deltaByteCount;
@ -1140,7 +1140,7 @@ hsBool hsReadOnlyStream::AtEnd()
return fData >= fStop;
}
UInt32 hsReadOnlyStream::Read(UInt32 byteCount, void* buffer)
uint32_t hsReadOnlyStream::Read(uint32_t byteCount, void* buffer)
{
if (fData + byteCount > fStop)
{
@ -1155,13 +1155,13 @@ UInt32 hsReadOnlyStream::Read(UInt32 byteCount, void* buffer)
return byteCount;
}
UInt32 hsReadOnlyStream::Write(UInt32 byteCount, const void* buffer)
uint32_t hsReadOnlyStream::Write(uint32_t byteCount, const void* buffer)
{
hsThrow( "can't write to a readonly stream");
return 0;
}
void hsReadOnlyStream::Skip(UInt32 deltaByteCount)
void hsReadOnlyStream::Skip(uint32_t deltaByteCount)
{
fBytesRead += deltaByteCount;
fPosition += deltaByteCount;
@ -1190,13 +1190,13 @@ void hsReadOnlyStream::CopyToMem(void* mem)
////////////////////////////////////////////////////////////////////////////////////
UInt32 hsWriteOnlyStream::Read(UInt32 byteCount, void* buffer)
uint32_t hsWriteOnlyStream::Read(uint32_t byteCount, void* buffer)
{
hsThrow( "can't read to a writeonly stream");
return 0;
}
UInt32 hsWriteOnlyStream::Write(UInt32 byteCount, const void* buffer)
uint32_t hsWriteOnlyStream::Write(uint32_t byteCount, const void* buffer)
{
if (fData + byteCount > fStop)
hsThrow("Write past end of stream");
@ -1210,7 +1210,7 @@ UInt32 hsWriteOnlyStream::Write(UInt32 byteCount, const void* buffer)
///////////////////////////////////////////////////////////////////////////////////
hsQueueStream::hsQueueStream(Int32 size) :
hsQueueStream::hsQueueStream(int32_t size) :
fSize(size),
fReadCursor(0),
fWriteCursor(0)
@ -1223,12 +1223,12 @@ hsQueueStream::~hsQueueStream()
delete [] fQueue;
}
UInt32 hsQueueStream::Read(UInt32 byteCount, void * buffer)
uint32_t hsQueueStream::Read(uint32_t byteCount, void * buffer)
{
hsAssert(fWriteCursor >= 0 && fWriteCursor < fSize,"hsQueueStream: WriteCursor out of range.");
hsAssert(fReadCursor >= 0 && fReadCursor < fSize,"hsQueueStream: ReadCursor out of range.");
Int32 limit, length, total;
int32_t limit, length, total;
limit = fWriteCursor >= fReadCursor ? fWriteCursor : fSize;
length = hsMinimum(limit-fReadCursor,byteCount);
@ -1249,12 +1249,12 @@ UInt32 hsQueueStream::Read(UInt32 byteCount, void * buffer)
return total;
}
UInt32 hsQueueStream::Write(UInt32 byteCount, const void* buffer)
uint32_t hsQueueStream::Write(uint32_t byteCount, const void* buffer)
{
hsAssert(fWriteCursor >= 0 && fWriteCursor < fSize,"hsQueueStream: WriteCursor out of range.");
hsAssert(fReadCursor >= 0 && fReadCursor < fSize,"hsQueueStream: ReadCursor out of range.");
Int32 length;
int32_t length;
length = hsMinimum(fSize-fWriteCursor,byteCount);
HSMemory::BlockMove(buffer,fQueue+fWriteCursor,length);
@ -1278,9 +1278,9 @@ UInt32 hsQueueStream::Write(UInt32 byteCount, const void* buffer)
return byteCount;
}
void hsQueueStream::Skip(UInt32 deltaByteCount)
void hsQueueStream::Skip(uint32_t deltaByteCount)
{
Int32 limit, length;
int32_t limit, length;
limit = fWriteCursor >= fReadCursor ? fWriteCursor : fSize;
length = hsMinimum(limit-fReadCursor,deltaByteCount);
@ -1318,20 +1318,20 @@ hsBool hsQueueStream::AtEnd()
// hsBufferedStream
///////////////////////////////////////////////////////////////////////////////
inline void FastByteCopy(void* dest, const void* src, UInt32 bytes)
inline void FastByteCopy(void* dest, const void* src, uint32_t bytes)
{
// Don't use memcpy if the read is 4 bytes or less, it's faster to just do a
// direct copy
switch (bytes)
{
case 4:
*((UInt32*)dest) = *((const UInt32*)src);
*((uint32_t*)dest) = *((const uint32_t*)src);
break;
case 2:
*((UInt16*)dest) = *((const UInt16*)src);
*((uint16_t*)dest) = *((const uint16_t*)src);
break;
case 1:
*((UInt8*)dest) = *((const UInt8*)src);
*((uint8_t*)dest) = *((const uint8_t*)src);
break;
default:
memcpy(dest, src, bytes);
@ -1385,9 +1385,9 @@ hsBool hsBufferedStream::Open(const char* name, const char* mode)
return true;
}
hsBool hsBufferedStream::Open(const wchar *name, const wchar *mode)
hsBool hsBufferedStream::Open(const wchar_t *name, const wchar_t *mode)
{
hsAssert(0, "hsFileStream::Open NotImplemented for wchar");
hsAssert(0, "hsFileStream::Open NotImplemented for wchar_t");
return false;
}
@ -1444,13 +1444,13 @@ void hsBufferedStream::SetFileRef(FILE* ref)
fWriteBufferUsed = false;
}
UInt32 hsBufferedStream::Read(UInt32 bytes, void* buffer)
uint32_t hsBufferedStream::Read(uint32_t bytes, void* buffer)
{
hsAssert(fRef, "fRef uninitialized");
if (!fRef || bytes == 0)
return 0;
UInt32 numReadBytes = 0;
uint32_t numReadBytes = 0;
while (bytes > 0 && fPosition < fFileSize)
{
@ -1458,9 +1458,9 @@ UInt32 hsBufferedStream::Read(UInt32 bytes, void* buffer)
if (fBufferLen > 0)
{
// Figure out how much we can copy out of the buffer
UInt32 bufferPos = fPosition % kBufferSize;
UInt32 bytesInBuffer = fBufferLen - bufferPos;
UInt32 cachedReadSize = bytesInBuffer < bytes ? bytesInBuffer : bytes;
uint32_t bufferPos = fPosition % kBufferSize;
uint32_t bytesInBuffer = fBufferLen - bufferPos;
uint32_t cachedReadSize = bytesInBuffer < bytes ? bytesInBuffer : bytes;
FastByteCopy(buffer, &fBuffer[bufferPos], cachedReadSize);
@ -1484,7 +1484,7 @@ UInt32 hsBufferedStream::Read(UInt32 bytes, void* buffer)
// If it is, read as many complete blocks as possible directly into the output buffer.
if (bytes >= kBufferSize && fPosition % kBufferSize == 0)
{
UInt32 directReadSize = bytes - (bytes % kBufferSize);
uint32_t directReadSize = bytes - (bytes % kBufferSize);
hsAssert(ftell(fRef) % kBufferSize == 0 , "read buffer is not in alignment.");
int amtRead = ::fread(buffer, 1, directReadSize, fRef);
fPosition += amtRead;
@ -1519,7 +1519,7 @@ UInt32 hsBufferedStream::Read(UInt32 bytes, void* buffer)
return numReadBytes;
}
UInt32 hsBufferedStream::Write(UInt32 bytes, const void* buffer)
uint32_t hsBufferedStream::Write(uint32_t bytes, const void* buffer)
{
hsAssert(fRef, "fRef uninitialized");
fWriteBufferUsed = true;
@ -1547,7 +1547,7 @@ hsBool hsBufferedStream::AtEnd()
}
}
void hsBufferedStream::Skip(UInt32 delta)
void hsBufferedStream::Skip(uint32_t delta)
{
if (fWriteBufferUsed)
{
@ -1556,15 +1556,15 @@ void hsBufferedStream::Skip(UInt32 delta)
}
else
{
UInt32 blockStart = ((fPosition + delta) / kBufferSize) * kBufferSize;
uint32_t blockStart = ((fPosition + delta) / kBufferSize) * kBufferSize;
// We've got data in the buffer, see if we can just skip in that
if (fBufferLen > 0)
{
Int32 newBufferPos = Int32(fPosition % kBufferSize) + Int32(delta);
int32_t newBufferPos = int32_t(fPosition % kBufferSize) + int32_t(delta);
// If we skipped outside of our buffer, invalidate it
if (newBufferPos < 0 || UInt32(newBufferPos) >= fBufferLen)
if (newBufferPos < 0 || uint32_t(newBufferPos) >= fBufferLen)
{
fBufferLen = 0;
fseek(fRef, blockStart, SEEK_SET);
@ -1591,7 +1591,7 @@ void hsBufferedStream::Rewind()
fPosition = 0;
}
UInt32 hsBufferedStream::GetEOF()
uint32_t hsBufferedStream::GetEOF()
{
if (fWriteBufferUsed)
{
@ -1600,7 +1600,7 @@ UInt32 hsBufferedStream::GetEOF()
long oldPos = ftell(fRef);
fseek(fRef, 0, SEEK_END);
UInt32 end = (UInt32)ftell(fRef);
uint32_t end = (uint32_t)ftell(fRef);
fseek(fRef, oldPos, SEEK_SET);
return end;

294
Sources/Plasma/CoreLib/hsStream.h
Unescape View File

@ -80,8 +80,8 @@ enum VDB_Type {// Virtual Database type
kVDB_Mesh
};
protected:
UInt32 fBytesRead;
UInt32 fPosition;
uint32_t fBytesRead;
uint32_t fPosition;
hsBool IsTokenSeparator(char c);
public:
@ -89,25 +89,25 @@ public:
virtual ~hsStream();
virtual hsBool Open(const char *, const char * = "rb")=0;
virtual hsBool Open(const wchar *, const wchar * = L"rb")=0;
virtual hsBool Open(const wchar_t *, const wchar_t * = L"rb")=0;
virtual hsBool Close()=0;
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void * buffer) = 0;
virtual UInt32 Write(UInt32 byteCount, const void* buffer) = 0;
virtual void Skip(UInt32 deltaByteCount) = 0;
virtual uint32_t Read(uint32_t byteCount, void * buffer) = 0;
virtual uint32_t Write(uint32_t byteCount, const void* buffer) = 0;
virtual void Skip(uint32_t deltaByteCount) = 0;
virtual void Rewind() = 0;
virtual void FastFwd();
virtual UInt32 GetPosition() const;
virtual void SetPosition(UInt32 position);
virtual uint32_t GetPosition() const;
virtual void SetPosition(uint32_t position);
virtual void Truncate();
virtual void Flush() {}
#ifdef STREAM_LOGGER
// Logging Reads & Skips
virtual UInt32 LogRead(UInt32 byteCount, void * buffer, const char* desc) { return Read(byteCount,buffer); }
virtual uint32_t LogRead(uint32_t byteCount, void * buffer, const char* desc) { return Read(byteCount,buffer); }
virtual char* LogReadSafeString() { return ReadSafeString(); }
virtual char* LogReadSafeStringLong() { return ReadSafeStringLong(); }
virtual void LogSkip(UInt32 deltaByteCount, const char* desc) { Skip(deltaByteCount); }
virtual void LogSkip(uint32_t deltaByteCount, const char* desc) { Skip(deltaByteCount); }
// Stream Notes for Logging
virtual void LogStringString(const char* s) { }
@ -118,110 +118,110 @@ public:
void LogVoidFunc() { }
// Optimization for small Reads
virtual UInt8 ReadByte();
virtual uint8_t ReadByte();
virtual hsBool Read4Bytes(void *buffer); // Reads 4 bytes, return true if success
virtual hsBool Read8Bytes(void *buffer); // Reads 8 bytes, return true if success
virtual hsBool Read12Bytes(void *buffer); // Reads 12 bytes, return true if success
virtual UInt32 GetEOF();
UInt32 GetSizeLeft();
virtual void CopyToMem(void* mem);
virtual hsBool IsCompressed() { return false; }
virtual uint32_t GetEOF();
uint32_t GetSizeLeft();
virtual void CopyToMem(void* mem);
virtual hsBool IsCompressed() { return false; }
UInt32 WriteString(const char cstring[]);
UInt32 WriteFmt(const char * fmt, ...);
UInt32 WriteFmtV(const char * fmt, va_list av);
uint32_t WriteString(const char cstring[]);
uint32_t WriteFmt(const char * fmt, ...);
uint32_t WriteFmtV(const char * fmt, va_list av);
UInt32 WriteSafeStringLong(const char *string); // uses 4 bytes for length
UInt32 WriteSafeWStringLong(const wchar_t *string);
uint32_t WriteSafeStringLong(const char *string); // uses 4 bytes for length
uint32_t WriteSafeWStringLong(const wchar_t *string);
char * ReadSafeStringLong();
wchar_t * ReadSafeWStringLong();
UInt32 WriteSafeString(const char *string); // uses 2 bytes for length
UInt32 WriteSafeWString(const wchar_t *string);
uint32_t WriteSafeString(const char *string); // uses 2 bytes for length
uint32_t WriteSafeWString(const wchar_t *string);
char * ReadSafeString();
wchar_t * ReadSafeWString();
hsBool GetToken(char *s, UInt32 maxLen=UInt32(-1), const char beginComment=kComment, const char endComment=kEolnCode);
hsBool ReadLn(char* s, UInt32 maxLen=UInt32(-1), const char beginComment=kComment, const char endComment=kEolnCode);
hsBool GetToken(char *s, uint32_t maxLen=uint32_t(-1), const char beginComment=kComment, const char endComment=kEolnCode);
hsBool ReadLn(char* s, uint32_t maxLen=uint32_t(-1), const char beginComment=kComment, const char endComment=kEolnCode);
bool Readbool();
hsBool ReadBool();
void ReadBool(int count, hsBool values[]);
UInt16 ReadLE16();
void ReadLE16(int count, UInt16 values[]);
UInt32 ReadLE32();
void ReadLE32(int count, UInt32 values[]);
UInt32 ReadBE32();
uint16_t ReadLE16();
void ReadLE16(int count, uint16_t values[]);
uint32_t ReadLE32();
void ReadLE32(int count, uint32_t values[]);
uint32_t ReadBE32();
void Writebool(bool value);
void WriteBool(hsBool value);
void WriteBool(int count, const hsBool values[]);
void WriteByte(UInt8 value);
void WriteLE16(UInt16 value);
void WriteLE16(int count, const UInt16 values[]);
void WriteLE32(UInt32 value);
void WriteLE32(int count, const UInt32 values[]);
void WriteBE32(UInt32 value);
void WriteByte(uint8_t value);
void WriteLE16(uint16_t value);
void WriteLE16(int count, const uint16_t values[]);
void WriteLE32(uint32_t value);
void WriteLE32(int count, const uint32_t values[]);
void WriteBE32(uint32_t value);
/* Overloaded Begin (8 & 16 & 32 int)*/
/* yes, swapping an 8 bit value does nothing, just useful*/
void ReadLE(bool* value) { *value = this->ReadByte() ? true : false; }
void ReadLE(UInt8* value) { *value = this->ReadByte(); }
void ReadLE(int count, UInt8 values[]) { this->Read(count, values); }
void ReadLE(UInt16* value) { *value = this->ReadLE16(); }
void ReadLE(int count, UInt16 values[]) { this->ReadLE16(count, values); }
void ReadLE(UInt32* value) { *value = this->ReadLE32(); }
void ReadLE(int count, UInt32 values[]) { this->ReadLE32(count, values); }
void ReadLE(uint8_t* value) { *value = this->ReadByte(); }
void ReadLE(int count, uint8_t values[]) { this->Read(count, values); }
void ReadLE(uint16_t* value) { *value = this->ReadLE16(); }
void ReadLE(int count, uint16_t values[]) { this->ReadLE16(count, values); }
void ReadLE(uint32_t* value) { *value = this->ReadLE32(); }
void ReadLE(int count, uint32_t values[]) { this->ReadLE32(count, values); }
#ifdef STREAM_LOGGER
// Begin LogReadLEs
virtual void LogReadLE(bool* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLE(UInt8* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, UInt8 values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(UInt16* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, UInt16 values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(UInt32* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, UInt32 values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(uint8_t* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, uint8_t values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(uint16_t* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, uint16_t values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(uint32_t* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, uint32_t values[], const char* desc) { this->ReadLE(count, values); }
// End LogReadLEs
#endif
void WriteLE(bool value) { this->Write(1,&value); }
void WriteLE(UInt8 value) { this->Write(1,&value); }
void WriteLE(int count, const UInt8 values[]) { this->Write(count, values); }
void WriteLE(UInt16 value) { this->WriteLE16(value); }
void WriteLE(int count, const UInt16 values[]) { this->WriteLE16(count, values); }
void WriteLE(UInt32 value) { this->WriteLE32(value); }
void WriteLE(int count, const UInt32 values[]) { this->WriteLE32(count, values); }
void ReadLE(Int8* value) { *value = this->ReadByte(); }
void ReadLE(int count, Int8 values[]) { this->Read(count, values); }
void WriteLE(uint8_t value) { this->Write(1,&value); }
void WriteLE(int count, const uint8_t values[]) { this->Write(count, values); }
void WriteLE(uint16_t value) { this->WriteLE16(value); }
void WriteLE(int count, const uint16_t values[]) { this->WriteLE16(count, values); }
void WriteLE(uint32_t value) { this->WriteLE32(value); }
void WriteLE(int count, const uint32_t values[]) { this->WriteLE32(count, values); }
void ReadLE(int8_t* value) { *value = this->ReadByte(); }
void ReadLE(int count, int8_t values[]) { this->Read(count, values); }
void ReadLE(char* value) { *value = (char)this->ReadByte(); }
void ReadLE(int count, char values[]) { this->Read(count, values); }
void ReadLE(Int16* value) { *value = (Int16)this->ReadLE16(); }
void ReadLE(int count, Int16 values[]) { this->ReadLE16(count, (UInt16*)values); }
void ReadLE(Int32* value) { *value = (Int32)this->ReadLE32(); }
void ReadLE(int count, Int32 values[]) { this->ReadLE32(count, (UInt32*)values); }
void ReadLE(int16_t* value) { *value = (int16_t)this->ReadLE16(); }
void ReadLE(int count, int16_t values[]) { this->ReadLE16(count, (uint16_t*)values); }
void ReadLE(int32_t* value) { *value = (int32_t)this->ReadLE32(); }
void ReadLE(int count, int32_t values[]) { this->ReadLE32(count, (uint32_t*)values); }
#ifdef STREAM_LOGGER
// Begin LogReadLEs
virtual void LogReadLE(Int8* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, Int8 values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(int8_t* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, int8_t values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(char* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, char values[], const char* desc) { this->ReadLE(count, values); }
virtual void LogReadLE(Int16* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, Int16 values[], const char* desc) { this->ReadLE(count, (UInt16*)values); }
virtual void LogReadLE(Int32* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, Int32 values[], const char* desc) { this->ReadLE(count, (UInt32*)values); }
virtual void LogReadLE(int16_t* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, int16_t values[], const char* desc) { this->ReadLE(count, (uint16_t*)values); }
virtual void LogReadLE(int32_t* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, int32_t values[], const char* desc) { this->ReadLE(count, (uint32_t*)values); }
virtual void LogReadLE(int* value, const char* desc) { this->ReadLE(value); }
virtual void LogReadLEArray(int count, int values[], const char* desc) { this->ReadLE(count, (UInt32*)values); }
virtual void LogReadLEArray(int count, int values[], const char* desc) { this->ReadLE(count, (uint32_t*)values); }
// End LogReadLEs
#endif
void WriteLE(Int8 value) { this->Write(1,&value); }
void WriteLE(int count, const Int8 values[]) { this->Write(count, values); }
void WriteLE(char value) { this->Write(1,(UInt8*)&value); }
void WriteLE(int count, const char values[]) { this->Write(count, (UInt8*)values); }
void WriteLE(Int16 value) { this->WriteLE16((UInt16)value); }
void WriteLE(int count, const Int16 values[]) { this->WriteLE16(count, (UInt16*)values); }
void WriteLE(Int32 value) { this->WriteLE32((UInt32)value); }
void WriteLE(int count, const Int32 values[]) { this->WriteLE32(count, (UInt32*)values); }
void WriteLE(int8_t value) { this->Write(1,&value); }
void WriteLE(int count, const int8_t values[]) { this->Write(count, values); }
void WriteLE(char value) { this->Write(1,(uint8_t*)&value); }
void WriteLE(int count, const char values[]) { this->Write(count, (uint8_t*)values); }
void WriteLE(int16_t value) { this->WriteLE16((uint16_t)value); }
void WriteLE(int count, const int16_t values[]) { this->WriteLE16(count, (uint16_t*)values); }
void WriteLE(int32_t value) { this->WriteLE32((uint32_t)value); }
void WriteLE(int count, const int32_t values[]) { this->WriteLE32(count, (uint32_t*)values); }
/* Overloaded End */
@ -262,7 +262,7 @@ public:
hsFixed ReadLEScalar() { return (hsFixed)this->ReadLE32(); }
void ReadLEScalar(int count, hsFixed values[])
{
this->ReadLE32(count, (UInt32*)values);
this->ReadLE32(count, (uint32_t*)values);
}
hsFixed ReadBEScalar() { return (hsFixed)this->ReadBE32(); }
@ -270,16 +270,16 @@ public:
void WriteLEScalar(hsFixed value) { this->WriteLE32(value); }
void WriteLEScalar(int count, const hsFixed values[])
{
this->WriteLE32(count, (UInt32*)values);
this->WriteLE32(count, (uint32_t*)values);
}
void WriteBEScalar(hsFixed value) { this->WriteBE32(value); }
/* Overloaded Begin (Scalar) */
void ReadLE(hsFixed* value) { this->ReadLE((UInt32*)value); }
void ReadLE(int count, hsFixed values[]) { this->ReadLE(count, (UInt32*)values); }
void WriteLE(hsFixed value) { this->WriteLE((UInt32)value); }
void WriteLE(int count, const hsFixed values[]) { this->WriteLE(count, (UInt32*)values); }
void ReadLE(hsFixed* value) { this->ReadLE((uint32_t*)value); }
void ReadLE(int count, hsFixed values[]) { this->ReadLE(count, (uint32_t*)values); }
void WriteLE(hsFixed value) { this->WriteLE((uint32_t)value); }
void WriteLE(int count, const hsFixed values[]) { this->WriteLE(count, (uint32_t*)values); }
/* Overloaded End */
#else
@ -297,15 +297,15 @@ public:
void WriteBEScalar(float value) { this->WriteBEFloat(value); }
#endif
void WriteLEAtom(UInt32 tag, UInt32 size);
UInt32 ReadLEAtom(UInt32* size);
void WriteLEAtom(uint32_t tag, uint32_t size);
uint32_t ReadLEAtom(uint32_t* size);
/* Overloaded Begin (Atom)*/
void WriteLE(UInt32* tag, UInt32 size) { WriteLEAtom(*tag, size); }
void ReadLE(UInt32* tag, UInt32 *size) { *tag = ReadLEAtom(size); }
void WriteLE(uint32_t* tag, uint32_t size) { WriteLEAtom(*tag, size); }
void ReadLE(uint32_t* tag, uint32_t *size) { *tag = ReadLEAtom(size); }
/* Overloaded End */
virtual void VirtualSetPosition(UInt32 pos, VDB_Type ){ SetPosition(pos); };
virtual void VirtualSetPosition(uint32_t pos, VDB_Type ){ SetPosition(pos); };
virtual hsPackFileSys::FileEntry *GetFileEntry() { return nil; } // Streams from Packfiles can return a FileEntry
};
@ -314,29 +314,29 @@ class hsStreamable {
public:
virtual void Read(hsStream* stream) = 0;
virtual void Write(hsStream* stream) = 0;
virtual UInt32 GetStreamSize() = 0;
virtual uint32_t GetStreamSize() = 0;
};
class hsFileStream: public hsStream
{
UInt32 fRef;
uint32_t fRef;
public:
hsFileStream();
virtual ~hsFileStream();
virtual hsBool Open(const char *name, const char *mode = "rb");
virtual hsBool Open(const wchar *name, const wchar *mode = L"rb");
virtual hsBool Open(const wchar_t *name, const wchar_t *mode = L"rb");
virtual hsBool Close();
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void* buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void Truncate();
virtual UInt32 GetFileRef();
virtual void SetFileRef(UInt32 refNum);
virtual uint32_t GetFileRef();
virtual void SetFileRef(uint32_t refNum);
};
class hsUNIXStream: public hsStream
@ -348,14 +348,14 @@ public:
hsUNIXStream(): fRef(0), fBuff(nil) {}
~hsUNIXStream();
virtual hsBool Open(const char* name, const char* mode = "rb");
virtual hsBool Open(const wchar *name, const wchar *mode = L"rb");
virtual hsBool Open(const wchar_t *name, const wchar_t *mode = L"rb");
virtual hsBool Close();
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void* buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void SetPosition(UInt32 position);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void SetPosition(uint32_t position);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void FastFwd();
virtual void Truncate();
@ -364,7 +364,7 @@ public:
FILE* GetFILE() { return fRef; }
void SetFILE(FILE* file) { fRef = file; }
virtual UInt32 GetEOF();
virtual uint32_t GetEOF();
};
// Small substream class: give it a base stream, an offset and a length, and it'll
@ -374,7 +374,7 @@ public:
class plReadOnlySubStream: public hsStream
{
hsStream *fBase;
UInt32 fOffset, fLength;
uint32_t fOffset, fLength;
void IFixPosition( void );
@ -383,18 +383,18 @@ public:
~plReadOnlySubStream();
virtual hsBool Open(const char *, const char *) { hsAssert(0, "plReadOnlySubStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar *, const wchar *) { hsAssert(0, "plReadOnlySubStream::Open NotImplemented"); return false; }
void Open( hsStream *base, UInt32 offset, UInt32 length );
virtual hsBool Open(const wchar_t *, const wchar_t *) { hsAssert(0, "plReadOnlySubStream::Open NotImplemented"); return false; }
void Open( hsStream *base, uint32_t offset, uint32_t length );
virtual hsBool Close() { fBase = nil; fOffset = 0; fLength = 0; return true; }
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void* buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void FastFwd();
virtual void Truncate();
virtual UInt32 GetEOF();
virtual uint32_t GetEOF();
};
class hsRAMStream : public hsStream {
@ -402,22 +402,22 @@ class hsRAMStream : public hsStream {
hsAppenderIterator fIter;
public:
hsRAMStream();
hsRAMStream(UInt32 chunkSize);
hsRAMStream(uint32_t chunkSize);
virtual ~hsRAMStream();
virtual hsBool Open(const char *, const char *) { hsAssert(0, "hsRAMStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar *, const wchar *) { hsAssert(0, "hsRAMStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar_t *, const wchar_t *) { hsAssert(0, "hsRAMStream::Open NotImplemented"); return false; }
virtual hsBool Close() { hsAssert(0, "hsRAMStream::Close NotImplemented"); return false; }
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void * buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void * buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void Truncate();
virtual UInt32 GetEOF();
virtual uint32_t GetEOF();
virtual void CopyToMem(void* mem);
void Reset(); // clears the buffers
@ -427,16 +427,16 @@ class hsNullStream : public hsStream {
public:
virtual hsBool Open(const char *, const char *) { return true; }
virtual hsBool Open(const wchar *, const wchar *) { return true; }
virtual hsBool Open(const wchar_t *, const wchar_t *) { return true; }
virtual hsBool Close() { return true; }
virtual UInt32 Read(UInt32 byteCount, void * buffer); // throw's exception
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void * buffer); // throw's exception
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void Truncate();
UInt32 GetBytesWritten() const { return fBytesRead; }
uint32_t GetBytesWritten() const { return fBytesRead; }
void Reset( ) { fBytesRead = 0; }
};
@ -452,16 +452,16 @@ public:
virtual void Init(int size, const void* data) { fStart=((char*)data); fData=((char*)data); fStop=((char*)data + size); }
virtual hsBool Open(const char *, const char *) { hsAssert(0, "hsReadOnlyStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar *, const wchar *) { hsAssert(0, "hsReadOnlyStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar_t *, const wchar_t *) { hsAssert(0, "hsReadOnlyStream::Open NotImplemented"); return false; }
virtual hsBool Close() { hsAssert(0, "hsReadOnlyStream::Close NotImplemented"); return false; }
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void * buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer); // throws exception
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void * buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer); // throws exception
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void Truncate();
virtual UInt32 GetBytesRead() const { return fBytesRead; }
virtual UInt32 GetEOF() { return (UInt32)(fStop-fStart); }
virtual uint32_t GetBytesRead() const { return fBytesRead; }
virtual uint32_t GetEOF() { return (uint32_t)(fStop-fStart); }
virtual void CopyToMem(void* mem);
};
@ -472,61 +472,61 @@ public:
hsWriteOnlyStream() {}
virtual hsBool Open(const char *, const char *) { hsAssert(0, "hsWriteOnlyStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar *, const wchar *) { hsAssert(0, "hsWriteOnlyStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar_t *, const wchar_t *) { hsAssert(0, "hsWriteOnlyStream::Open NotImplemented"); return false; }
virtual hsBool Close() { hsAssert(0, "hsWriteOnlyStream::Close NotImplemented"); return false; }
virtual UInt32 Read(UInt32 byteCount, void * buffer); // throws exception
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual UInt32 GetBytesRead() const { return 0; }
virtual UInt32 GetBytesWritten() const { return fBytesRead; }
virtual uint32_t Read(uint32_t byteCount, void * buffer); // throws exception
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual uint32_t GetBytesRead() const { return 0; }
virtual uint32_t GetBytesWritten() const { return fBytesRead; }
};
// circular queue stream
class hsQueueStream : public hsStream {
private:
char* fQueue;
UInt32 fReadCursor;
UInt32 fWriteCursor;
UInt32 fSize;
uint32_t fReadCursor;
uint32_t fWriteCursor;
uint32_t fSize;
public:
hsQueueStream(Int32 size);
hsQueueStream(int32_t size);
~hsQueueStream();
virtual hsBool Open(const char *, const char *) { hsAssert(0, "hsQueueStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar *, const wchar *) { hsAssert(0, "hsQueueStream::Open NotImplemented"); return false; }
virtual hsBool Open(const wchar_t *, const wchar_t *) { hsAssert(0, "hsQueueStream::Open NotImplemented"); return false; }
virtual hsBool Close() { hsAssert(0, "hsQueueStream::Close NotImplemented"); return false; }
virtual UInt32 Read(UInt32 byteCount, void * buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void * buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void FastFwd();
virtual hsBool AtEnd();
UInt32 GetSize() { return fSize; }
uint32_t GetSize() { return fSize; }
const char* GetQueue() { return fQueue; }
UInt32 GetReadCursor() { return fReadCursor; }
UInt32 GetWriteCursor() { return fWriteCursor; }
uint32_t GetReadCursor() { return fReadCursor; }
uint32_t GetWriteCursor() { return fWriteCursor; }
};
class hsBufferedStream : public hsStream
{
FILE* fRef;
UInt32 fFileSize;
uint32_t fFileSize;
enum { kBufferSize = 2*1024 };
char fBuffer[kBufferSize];
// If the buffer is empty, this is zero. Otherwise it is the size of the
// buffer (if we read a full block), or something less than that if we read
// a partial block at the end of the file.
UInt32 fBufferLen;
uint32_t fBufferLen;
hsBool fWriteBufferUsed;
#ifdef HS_DEBUGGING
// For doing statistics on how efficient we are
int fBufferHits, fBufferMisses;
UInt32 fBufferReadIn, fBufferReadOut, fReadDirect, fLastReadPos;
uint32_t fBufferReadIn, fBufferReadOut, fReadDirect, fLastReadPos;
char* fFilename;
const char* fCloseReason;
#endif
@ -536,16 +536,16 @@ public:
virtual ~hsBufferedStream();
virtual hsBool Open(const char* name, const char* mode = "rb");
virtual hsBool Open(const wchar* name, const wchar* mode = L"rb");
virtual hsBool Open(const wchar_t* name, const wchar_t* mode = L"rb");
virtual hsBool Close();
virtual hsBool AtEnd();
virtual UInt32 Read(UInt32 byteCount, void* buffer);
virtual UInt32 Write(UInt32 byteCount, const void* buffer);
virtual void Skip(UInt32 deltaByteCount);
virtual uint32_t Read(uint32_t byteCount, void* buffer);
virtual uint32_t Write(uint32_t byteCount, const void* buffer);
virtual void Skip(uint32_t deltaByteCount);
virtual void Rewind();
virtual void Truncate();
virtual UInt32 GetEOF();
virtual uint32_t GetEOF();
FILE* GetFileRef();
void SetFileRef(FILE* file);

28
Sources/Plasma/CoreLib/hsStringTokenizer.cpp
Unescape View File

@ -72,7 +72,7 @@ inline hsBool hsStringTokenizer::IsSep(char c)
{
if ( fCheckAlphaNum || !isalnum(c) )
{
for (Int32 i=0; i<fNumSeps; i++)
for (int32_t i=0; i<fNumSeps; i++)
{
if (fSeps[i] == c)
return true;
@ -111,7 +111,7 @@ char *hsStringTokenizer::next()
}
// Slightly more loop-friendly version of next
hsBool hsStringTokenizer::Next( char *token, UInt32 maxTokLen )
hsBool hsStringTokenizer::Next( char *token, uint32_t maxTokLen )
{
char *t = next();
if( t == nil )
@ -142,7 +142,7 @@ void hsStringTokenizer::Reset(const char *string, const char *seps)
fSeps = seps ? hsStrcpy(seps) : nil;
fNumSeps = fSeps ? strlen(fSeps) : 0;
fCheckAlphaNum = false;
for (Int32 i=0; i<fNumSeps; i++)
for (int32_t i=0; i<fNumSeps; i++)
{
if (isalnum(fSeps[i]))
{
@ -169,7 +169,7 @@ void hsStringTokenizer::ParseQuotes(hsBool qAsTok)
///////////////////////////////////////////////////////////////////////////////
// String Tokenizer routines
hsWStringTokenizer::hsWStringTokenizer(const wchar *string, const wchar *seps) :
hsWStringTokenizer::hsWStringTokenizer(const wchar_t *string, const wchar_t *seps) :
fQAsTok(true),
fInQuote(false),
fString(nil),
@ -190,13 +190,13 @@ hsBool hsWStringTokenizer::HasMoreTokens()
return (*fTok != L'\0');
}
inline hsBool hsWStringTokenizer::IsSep(wchar c)
inline hsBool hsWStringTokenizer::IsSep(wchar_t c)
{
if (!fQAsTok || !fInQuote)
{
if ( fCheckAlphaNum || !iswalnum(c) )
{
for (Int32 i=0; i<fNumSeps; i++)
for (int32_t i=0; i<fNumSeps; i++)
{
if (fSeps[i] == c)
return true;
@ -211,12 +211,12 @@ inline hsBool hsWStringTokenizer::IsSep(wchar c)
return false;
}
wchar *hsWStringTokenizer::next()
wchar_t *hsWStringTokenizer::next()
{
if (*fTok == L'\0')
return nil;
wchar *cur = fTok;
wchar_t *cur = fTok;
while (*fTok != L'\0' && !IsSep(*fTok))
fTok++;
@ -235,9 +235,9 @@ wchar *hsWStringTokenizer::next()
}
// Slightly more loop-friendly version of next
hsBool hsWStringTokenizer::Next( wchar *token, UInt32 maxTokLen )
hsBool hsWStringTokenizer::Next( wchar_t *token, uint32_t maxTokLen )
{
wchar *t = next();
wchar_t *t = next();
if( t == nil )
return false;
@ -256,14 +256,14 @@ void hsWStringTokenizer::RestoreLastTerminator( void )
}
}
void hsWStringTokenizer::Reset(const wchar *string, const wchar *seps)
void hsWStringTokenizer::Reset(const wchar_t *string, const wchar_t *seps)
{
if (fString)
delete[] fString;
if (string)
{
int count = wcslen(string);
fString = new wchar[count + 1];
fString = new wchar_t[count + 1];
wcscpy(fString, string);
fString[count] = L'\0';
}
@ -275,7 +275,7 @@ void hsWStringTokenizer::Reset(const wchar *string, const wchar *seps)
if (seps)
{
int count = wcslen(seps);
fSeps = new wchar[count + 1];
fSeps = new wchar_t[count + 1];
wcscpy(fSeps, seps);
fSeps[count] = L'\0';
}
@ -284,7 +284,7 @@ void hsWStringTokenizer::Reset(const wchar *string, const wchar *seps)
fNumSeps = fSeps ? wcslen(fSeps) : 0;
fCheckAlphaNum = false;
for (Int32 i=0; i<fNumSeps; i++)
for (int32_t i=0; i<fNumSeps; i++)
{
if (iswalnum(fSeps[i]))
{

28
Sources/Plasma/CoreLib/hsStringTokenizer.h
Unescape View File

@ -58,7 +58,7 @@ private:
char *fLastTerminator;
char fLastRep;
Int32 fNumSeps;
int32_t fNumSeps;
hsBool fQAsTok;
hsBool fInQuote;
hsBool fCheckAlphaNum;
@ -66,7 +66,7 @@ public:
hsStringTokenizer(const char *string=nil, const char *seps=nil);
~hsStringTokenizer();
char *next();
hsBool Next( char *token, UInt32 maxTokLen );
hsBool Next( char *token, uint32_t maxTokLen );
hsBool HasMoreTokens();
void Reset(const char *string, const char *seps);
void ParseQuotes(hsBool qAsTok);
@ -84,32 +84,32 @@ private:
class hsWStringTokenizer
{
private:
wchar *fSeps;
wchar *fTok;
wchar *fLastTerminator;
wchar fLastRep;
wchar_t *fSeps;
wchar_t *fTok;
wchar_t *fLastTerminator;
wchar_t fLastRep;
Int32 fNumSeps;
int32_t fNumSeps;
hsBool fQAsTok;
hsBool fInQuote;
hsBool fCheckAlphaNum;
public:
hsWStringTokenizer(const wchar *string=nil, const wchar *seps=nil);
hsWStringTokenizer(const wchar_t *string=nil, const wchar_t *seps=nil);
~hsWStringTokenizer();
wchar *next();
hsBool Next( wchar *token, UInt32 maxTokLen );
wchar_t *next();
hsBool Next( wchar_t *token, uint32_t maxTokLen );
hsBool HasMoreTokens();
void Reset(const wchar *string, const wchar *seps);
void Reset(const wchar_t *string, const wchar_t *seps);
void ParseQuotes(hsBool qAsTok);
wchar *GetRestOfString( void ) const { return fTok; }
wchar_t *GetRestOfString( void ) const { return fTok; }
wchar *fString;
wchar_t *fString;
void RestoreLastTerminator( void );
private:
hsBool IsSep(wchar c);
hsBool IsSep(wchar_t c);
};
#endif // _hsStringTokenizer_Included_

22
Sources/Plasma/CoreLib/hsTempPointer.h
Unescape View File

@ -50,14 +50,14 @@ template <class T> class hsTempPointer {
private:
T** fArray;
UInt32 fCurrBlock;
UInt32 fNumBlockAlloc;
uint32_t fCurrBlock;
uint32_t fNumBlockAlloc;
UInt32 fCurrElem;
UInt32 fNumElemAlloc;
uint32_t fCurrElem;
uint32_t fNumElemAlloc;
UInt32 fGrowBy; // def = 0, to double
UInt32 fMinSize; // def = 1
uint32_t fGrowBy; // def = 0, to double
uint32_t fMinSize; // def = 1
hsTempPointer<T>& operator=(const hsTempPointer<T>&);
@ -65,7 +65,7 @@ private:
void IGrow();
public:
hsTempPointer(UInt32 minSize = 1, UInt32 growBy = 0);
hsTempPointer(uint32_t minSize = 1, uint32_t growBy = 0);
~hsTempPointer();
void Reset();
@ -84,7 +84,7 @@ hsTempPointer<T>::~hsTempPointer()
}
template <class T>
hsTempPointer<T>::hsTempPointer(UInt32 minSize, UInt32 growBy)
hsTempPointer<T>::hsTempPointer(uint32_t minSize, uint32_t growBy)
{
fGrowBy = growBy;
fMinSize = minSize;
@ -105,9 +105,9 @@ void hsTempPointer<T>::IConsolidate()
{
hsAssert(fCurrBlock > 0, "Shouldn't consolidate when nothing to do");
UInt32 numUsed = fCurrBlock * fNumElemAlloc + fCurrElem;
uint32_t numUsed = fCurrBlock * fNumElemAlloc + fCurrElem;
UInt32 newSize = fNumElemAlloc;
uint32_t newSize = fNumElemAlloc;
if( !fGrowBy )
{
while( newSize <= numUsed )
@ -155,7 +155,7 @@ template <class T>
T* hsTempPointer<T>::Array(int n)
{
// minSize (on constructor) should be greater than max n
hsDebugCode(hsThrowIfBadParam((UInt32)n > (UInt32)fNumElemAlloc);)
hsDebugCode(hsThrowIfBadParam((uint32_t)n > (uint32_t)fNumElemAlloc);)
if( fCurrElem + n >= fNumElemAlloc )
IGrow();
int idx = fCurrElem;

8
Sources/Plasma/CoreLib/hsTemplates.cpp
Unescape View File

@ -83,8 +83,8 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
hsDlistNode *hsDlistNode::fpFirst=0;
hsDlistNode *hsDlistNode::fpLast=0;
UInt32 hsDlistNode::fcreated=0;
UInt32 hsDlistNode::fdestroyed=0;
uint32_t hsDlistNode::fcreated=0;
uint32_t hsDlistNode::fdestroyed=0;
static int NodeKnt = 0;
void RemoveNode(void *pthing)
@ -302,7 +302,7 @@ void LargeArrayStats() {}
void hsTArrayBase::GrowArraySize(UInt16 newCount)
void hsTArrayBase::GrowArraySize(uint16_t newCount)
{
#if 1
if (newCount < 8)
@ -321,7 +321,7 @@ void hsTArrayBase::GrowArraySize(UInt16 newCount)
#endif
}
void hsLargeArrayBase::GrowArraySize(UInt32 newCount)
void hsLargeArrayBase::GrowArraySize(uint32_t newCount)
{
#if 1
if (newCount < 8)

102
Sources/Plasma/CoreLib/hsTemplates.h
Unescape View File

@ -62,8 +62,8 @@ class hsDlistNode
public:
static hsDlistNode *fpFirst;
static hsDlistNode *fpLast;
static UInt32 fcreated;
static UInt32 fdestroyed;
static uint32_t fcreated;
static uint32_t fdestroyed;
void *fpThing;
hsDlistNode *fpPrev;
@ -127,7 +127,7 @@ public:
// Use this for an array of objects of class T allocated with new[]
template <class T> class hsTempArray {
T* fArray;
UInt32 fCount;
uint32_t fCount;
hsTempArray<T>& operator=(const hsTempArray<T>&);
public:
hsTempArray(long count) : fArray(TRACKED_NEW T[count]), fCount(count)
@ -151,7 +151,7 @@ public:
operator T*() const { return fArray; }
T* GetArray() const { return fArray; }
void Accomodate(UInt32 count)
void Accomodate(uint32_t count)
{
if (count > fCount)
{ delete[] fArray;
@ -224,29 +224,29 @@ public:
template <class T> class hsDynamicArray {
private:
Int32 fCount;
int32_t fCount;
T* fArray;
hsDynamicArray<T>& operator=(const hsDynamicArray<T>&); // don't allow assignment
public:
enum { kMissingIndex = -1 };
hsDynamicArray(Int32 count = 0);
hsDynamicArray(int32_t count = 0);
virtual ~hsDynamicArray();
Int32 GetCount() const { return fCount; }
int32_t GetCount() const { return fCount; }
hsBool IsEmpty() const { return fCount == 0; }
const T& Get(Int32 index) const;
Int32 Get(Int32 index, Int32 count, T data[]) const;
Int32 Find(const T&) const; // returns kMissingIndex if not found
void SetCount(Int32 count);
T& operator[]( Int32 index );
Int32 Append(const T&);
Int32 InsertAtIndex(UInt32 index, const T& obj);
Int32 Push(const T&);
Int32 Pop(T*);
void Remove(Int32);
const T& Get(int32_t index) const;
int32_t Get(int32_t index, int32_t count, T data[]) const;
int32_t Find(const T&) const; // returns kMissingIndex if not found
void SetCount(int32_t count);
T& operator[]( int32_t index );
int32_t Append(const T&);
int32_t InsertAtIndex(uint32_t index, const T& obj);
int32_t Push(const T&);
int32_t Pop(T*);
void Remove(int32_t);
void Reset(); // clears out everything
T* AcquireArray() { return fArray; }
@ -254,9 +254,9 @@ public:
void ReleaseArray(T*) {}
hsDynamicArray<T>* Copy(hsDynamicArray<T>* dst = nil) const;
T* ForEach(Boolean (*proc)(T&));
T* ForEach(Boolean (*proc)(T&, void* p1), void* p1);
T* ForEach(Boolean (*proc)(T&, void* p1, void* p2), void* p1, void* p2);
T* ForEach(bool (*proc)(T&));
T* ForEach(bool (*proc)(T&, void* p1), void* p1);
T* ForEach(bool (*proc)(T&, void* p1, void* p2), void* p1, void* p2);
};
// Use this for block of memory allocated with HSMemory::New()
@ -274,7 +274,7 @@ public:
template <class T>
hsDynamicArray<T>::hsDynamicArray(Int32 count)
hsDynamicArray<T>::hsDynamicArray(int32_t count)
{
fCount = count;
fArray = nil;
@ -289,7 +289,7 @@ hsDynamicArray<T>::~hsDynamicArray()
}
template <class T>
void hsDynamicArray<T>::SetCount(Int32 count)
void hsDynamicArray<T>::SetCount(int32_t count)
{
if (fCount != count)
{ if (count == 0)
@ -310,26 +310,26 @@ void hsDynamicArray<T>::SetCount(Int32 count)
}
}
template <class T> T& hsDynamicArray<T>::operator[]( Int32 index )
template <class T> T& hsDynamicArray<T>::operator[]( int32_t index )
{
hsDebugCode(hsThrowIfBadParam((UInt32)index >= (UInt32)fCount);)
hsDebugCode(hsThrowIfBadParam((uint32_t)index >= (uint32_t)fCount);)
return fArray[index];
}
template <class T> const T& hsDynamicArray<T>::Get( Int32 index ) const
template <class T> const T& hsDynamicArray<T>::Get( int32_t index ) const
{
hsDebugCode(hsThrowIfBadParam((UInt32)index >= (UInt32)fCount);)
hsDebugCode(hsThrowIfBadParam((uint32_t)index >= (uint32_t)fCount);)
return fArray[index];
}
template <class T>
Int32 hsDynamicArray<T>::Get(Int32 index, Int32 count, T data[]) const
int32_t hsDynamicArray<T>::Get(int32_t index, int32_t count, T data[]) const
{
if (count > 0)
{ hsThrowIfNilParam(data);
hsThrowIfBadParam((UInt32)index >= fCount);
hsThrowIfBadParam((uint32_t)index >= fCount);
if (index + count > fCount)
count = fCount - index;
@ -340,7 +340,7 @@ Int32 hsDynamicArray<T>::Get(Int32 index, Int32 count, T data[]) const
}
template <class T>
Int32 hsDynamicArray<T>::Find(const T& obj) const
int32_t hsDynamicArray<T>::Find(const T& obj) const
{
for (int i = 0; i < fCount; i++)
if (fArray[i] == obj)
@ -349,9 +349,9 @@ Int32 hsDynamicArray<T>::Find(const T& obj) const
}
template <class T>
void hsDynamicArray<T>::Remove(Int32 index)
void hsDynamicArray<T>::Remove(int32_t index)
{
hsThrowIfBadParam((UInt32)index >= (UInt32)fCount);
hsThrowIfBadParam((uint32_t)index >= (uint32_t)fCount);
T rVal = fArray[index];
@ -373,7 +373,7 @@ void hsDynamicArray<T>::Remove(Int32 index)
}
template <class T>
Int32 hsDynamicArray<T>::Pop(T *obj)
int32_t hsDynamicArray<T>::Pop(T *obj)
{
hsThrowIfBadParam(this->IsEmpty());
@ -384,7 +384,7 @@ Int32 hsDynamicArray<T>::Pop(T *obj)
template <class T>
Int32 hsDynamicArray<T>::Push(const T& obj)
int32_t hsDynamicArray<T>::Push(const T& obj)
{
if (fArray)
{
@ -404,7 +404,7 @@ Int32 hsDynamicArray<T>::Push(const T& obj)
}
template <class T>
Int32 hsDynamicArray<T>::Append(const T& obj)
int32_t hsDynamicArray<T>::Append(const T& obj)
{
if (fArray)
{ T* newList = TRACKED_NEW T[fCount + 1];
@ -425,17 +425,17 @@ Int32 hsDynamicArray<T>::Append(const T& obj)
template <class T>
Int32 hsDynamicArray<T>::InsertAtIndex(UInt32 index, const T& obj)
int32_t hsDynamicArray<T>::InsertAtIndex(uint32_t index, const T& obj)
{
if (fArray)
{
hsAssert(UInt32(fCount) >= index, "Index too large for array");
hsAssert(uint32_t(fCount) >= index, "Index too large for array");
T* newList = TRACKED_NEW T[fCount + 1];
unsigned i;
for ( i = 0; i < index; i++)
newList[i] = fArray[i];
newList[index] = obj;
for ( i = index; i < UInt32(fCount); i++)
for ( i = index; i < uint32_t(fCount); i++)
newList[i+1] = fArray[i];
delete [] fArray;
@ -475,7 +475,7 @@ hsDynamicArray<T>* hsDynamicArray<T>::Copy(hsDynamicArray<T>* dst) const
return dst;
}
template <class T> T* hsDynamicArray<T>::ForEach(Boolean (*proc)(T&))
template <class T> T* hsDynamicArray<T>::ForEach(bool (*proc)(T&))
{
for (int i = 0; i < fCount; i++)
if (proc(fArray[i]))
@ -483,7 +483,7 @@ template <class T> T* hsDynamicArray<T>::ForEach(Boolean (*proc)(T&))
return nil;
}
template <class T> T* hsDynamicArray<T>::ForEach(Boolean (*proc)(T&, void* p1), void * p1)
template <class T> T* hsDynamicArray<T>::ForEach(bool (*proc)(T&, void* p1), void * p1)
{
for (int i = 0; i < fCount; i++)
if (proc(fArray[i], p1))
@ -491,7 +491,7 @@ template <class T> T* hsDynamicArray<T>::ForEach(Boolean (*proc)(T&, void* p1),
return nil;
}
template <class T> T* hsDynamicArray<T>::ForEach(Boolean (*proc)(T&, void* p1, void* p2), void *p1, void *p2)
template <class T> T* hsDynamicArray<T>::ForEach(bool (*proc)(T&, void* p1, void* p2), void *p1, void *p2)
{
for (int i = 0; i < fCount; i++)
if (proc(fArray[i], p1, p2))
@ -504,10 +504,10 @@ template <class T> T* hsDynamicArray<T>::ForEach(Boolean (*proc)(T&, void* p1, v
class hsTArrayBase
{
protected:
UInt16 fUseCount;
UInt16 fTotalCount;
uint16_t fUseCount;
uint16_t fTotalCount;
void GrowArraySize(UInt16 nSize);
void GrowArraySize(uint16_t nSize);
#ifdef HS_DEBUGTARRAY
hsTArrayBase();
@ -521,7 +521,7 @@ protected:
#endif
public:
UInt16 GetNumAlloc() const { return fTotalCount; }
uint16_t GetNumAlloc() const { return fTotalCount; }
};
template <class T> void hsTArray_CopyForward(const T src[], T dst[], int count);
@ -708,7 +708,7 @@ bool hsTArray<T>::operator==(const hsTArray<T>& src) const
template <class T> void hsTArray<T>::Swap( hsTArray<T>& src )
{
UInt16 use, tot;
uint16_t use, tot;
T *array;
@ -903,10 +903,10 @@ template <class T> T* hsTArray<T>::ForEach(hsBool (*proc)(T&, void* p1, void* p2
class hsLargeArrayBase
{
protected:
UInt32 fUseCount;
UInt32 fTotalCount;
uint32_t fUseCount;
uint32_t fTotalCount;
void GrowArraySize(UInt32 nSize);
void GrowArraySize(uint32_t nSize);
#ifdef HS_DEBUGTARRAY
hsLargeArrayBase();
@ -920,7 +920,7 @@ protected:
#endif
public:
UInt32 GetNumAlloc() const { return fTotalCount; }
uint32_t GetNumAlloc() const { return fTotalCount; }
};
@ -1081,7 +1081,7 @@ template <class T> hsLargeArray<T>& hsLargeArray<T>::operator=(const hsLargeArra
template <class T> void hsLargeArray<T>::Swap( hsLargeArray<T>& src )
{
UInt32 use, tot;
uint32_t use, tot;
T *array;

12
Sources/Plasma/CoreLib/hsThread.h
Unescape View File

@ -44,7 +44,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "hsTypes.h"
typedef UInt32 hsMilliseconds;
typedef uint32_t hsMilliseconds;
#if HS_BUILD_FOR_WIN32
@ -71,7 +71,7 @@ public:
#endif
private:
hsBool fQuit;
UInt32 fStackSize;
uint32_t fStackSize;
#if HS_BUILD_FOR_WIN32
ThreadId fThreadId;
HANDLE fThreadH;
@ -85,7 +85,7 @@ protected:
hsBool GetQuit() const { return hsBool(fQuit); }
void SetQuit(hsBool value) { fQuit = value; }
public:
hsThread(UInt32 stackSize = 0);
hsThread(uint32_t stackSize = 0);
virtual ~hsThread(); // calls Stop()
#if HS_BUILD_FOR_WIN32
ThreadId GetThreadId() { return fThreadId; }
@ -155,7 +155,7 @@ class hsSemaphore {
#else
pthread_mutex_t fPMutex;
pthread_cond_t fPCond;
Int32 fCounter;
int32_t fCounter;
#endif
#endif
public:
@ -200,10 +200,10 @@ class hsSleep
{
public:
#if HS_BUILD_FOR_UNIX
static void Sleep(UInt32 millis);
static void Sleep(uint32_t millis);
#elif HS_BUILD_FOR_WIN32
static void Sleep(UInt32 millis) { ::Sleep(millis); }
static void Sleep(uint32_t millis) { ::Sleep(millis); }
#endif
};

2
Sources/Plasma/CoreLib/hsThread_Mac.cpp
Unescape View File

@ -49,7 +49,7 @@ extern "C" {
}
}
hsThread::hsThread(UInt32 stackSize) : fTaskId(0), fStackSize(stackSize), fQuit(false)
hsThread::hsThread(uint32_t stackSize) : fTaskId(0), fStackSize(stackSize), fQuit(false)
{
if (MPLibraryIsLoaded() == false)
throw "MPLibraryIsLoaded() returned false";

8
Sources/Plasma/CoreLib/hsThread_Unix.cpp
Unescape View File

@ -79,9 +79,9 @@ extern "C" {
}
}
#define kInvalidStackSize UInt32(~0)
#define kInvalidStackSize uint32_t(~0)
hsThread::hsThread(UInt32 stackSize) : fStackSize(stackSize), fQuit(false)
hsThread::hsThread(uint32_t stackSize) : fStackSize(stackSize), fQuit(false)
{
fIsValid = false;
pthread_mutex_init(&fMutex,nil);
@ -541,9 +541,9 @@ void hsEvent::Signal()
#endif
void hsSleep::Sleep(UInt32 millis)
void hsSleep::Sleep(uint32_t millis)
{
UInt32 secs = millis / 1000;
uint32_t secs = millis / 1000;
if (secs > 0)
{
millis %= 1000;

2
Sources/Plasma/CoreLib/hsThread_Win.cpp
Unescape View File

@ -58,7 +58,7 @@ static unsigned int __stdcall gEntryPointBT(void* param)
return ((hsThread*)param)->WinRun();
}
hsThread::hsThread(UInt32 stackSize) : fStackSize(stackSize), fQuit(false), fThreadH(nil), fQuitSemaH(nil)
hsThread::hsThread(uint32_t stackSize) : fStackSize(stackSize), fQuit(false), fThreadH(nil), fQuitSemaH(nil)
{
}

95
Sources/Plasma/CoreLib/hsTypes.h
Unescape View File

@ -64,61 +64,28 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
/************************** Basic Types *****************************/
#ifdef _MSC_VER
typedef signed __int8 int8_t;
typedef unsigned __int8 uint8_t;
typedef signed __int16 int16_t;
typedef unsigned __int16 uint16_t;
typedef signed __int32 int32_t;
typedef unsigned __int32 uint32_t;
typedef signed __int64 int64_t;
typedef unsigned __int64 uint64_t;
#if defined(_MSC_VER) && _MSC_VER < 1600
typedef signed char int8_t;
typedef unsigned char uint8_t;
typedef signed short int int16_t;
typedef unsigned short int uint16_t;
typedef signed int int32_t;
typedef unsigned int uint32_t;
typedef signed long long int64_t;
typedef unsigned long long uint64_t;
#else
#include <stdint.h>
#endif
typedef uint8_t byte;
typedef uint16_t word;
typedef uint32_t dword;
typedef uint64_t qword;
typedef uintptr_t unsigned_ptr;
typedef wchar_t wchar;
#define kPosInfinity16 (32767)
#define kNegInfinity16 (-32768)
#define kPosInfinity32 (0x7fffffff)
#define kNegInfinity32 (0x80000000)
typedef int8_t Int8;
typedef int16_t Int16;
typedef int32_t Int32;
typedef int64_t Int64;
typedef uint8_t UInt8;
typedef uint16_t UInt16;
typedef uint32_t UInt32;
typedef uint64_t UInt64;
#ifndef Byte
typedef uint8_t Byte;
#endif
#ifndef false
#define false 0
#endif
#ifndef true
#define true 1
#endif
#ifndef Boolean
typedef uint8_t Boolean;
#endif
typedef Int32 hsFixed;
typedef Int32 hsFract;
typedef int32_t hsFixed;
typedef int32_t hsFract;
#ifdef __cplusplus
@ -136,8 +103,8 @@ typedef int hsBool;
#define nil (0)
#endif
typedef Int32 hsError;
typedef UInt32 hsGSeedValue;
typedef int32_t hsError;
typedef uint32_t hsGSeedValue;
#define hsOK 0
#define hsFail -1
@ -153,24 +120,24 @@ typedef UInt32 hsGSeedValue;
#define hsBitTst2Bool(value, mask) (((value) & (mask)) != 0)
#define hsFourByteTag(a, b, c, d) (((UInt32)(a) << 24) | ((UInt32)(b) << 16) | ((UInt32)(c) << 8) | (d))
#define hsFourByteTag(a, b, c, d) (((uint32_t)(a) << 24) | ((uint32_t)(b) << 16) | ((uint32_t)(c) << 8) | (d))
/************************** Swap Macros *****************************/
#ifdef __cplusplus
inline UInt16 hsSwapEndian16(UInt16 value)
inline uint16_t hsSwapEndian16(uint16_t value)
{
return (value >> 8) | (value << 8);
}
inline UInt32 hsSwapEndian32(UInt32 value)
inline uint32_t hsSwapEndian32(uint32_t value)
{
return ((value) << 24) |
((value & 0x0000ff00) << 8) |
((value & 0x00ff0000) >> 8) |
((value) >> 24);
}
inline UInt64 hsSwapEndian64(UInt64 value)
inline uint64_t hsSwapEndian64(uint64_t value)
{
return ((value) << 56) |
((value & 0x000000000000ff00) << 40) |
@ -184,13 +151,13 @@ typedef UInt32 hsGSeedValue;
#if HS_CAN_USE_FLOAT
inline float hsSwapEndianFloat(float fvalue)
{
UInt32 value = *(UInt32*)&fvalue;
uint32_t value = *(uint32_t*)&fvalue;
value = hsSwapEndian32(value);
return *(float*)&value;
}
inline double hsSwapEndianDouble(double dvalue)
{
UInt64 value = *(UInt64*)&dvalue;
uint64_t value = *(uint64_t*)&dvalue;
value = hsSwapEndian64(value);
return *(double*)&value;
}
@ -220,16 +187,16 @@ typedef UInt32 hsGSeedValue;
#define hsToLEDouble(n) hsSwapEndianDouble(n)
#endif
inline void hsSwap(Int32& a, Int32& b)
inline void hsSwap(int32_t& a, int32_t& b)
{
Int32 c = a;
int32_t c = a;
a = b;
b = c;
}
inline void hsSwap(UInt32& a, UInt32& b)
inline void hsSwap(uint32_t& a, uint32_t& b)
{
UInt32 c = a;
uint32_t c = a;
a = b;
b = c;
}
@ -248,20 +215,20 @@ typedef UInt32 hsGSeedValue;
struct hsColor32 {
UInt8 b, g, r, a;
uint8_t b, g, r, a;
#ifdef __cplusplus
void SetARGB(UInt8 aa, UInt8 rr, UInt8 gg, UInt8 bb)
void SetARGB(uint8_t aa, uint8_t rr, uint8_t gg, uint8_t bb)
{
this->a = aa; this->r = rr; this->g = gg; this->b = bb;
}
// Compatibility inlines, should be depricated
void Set(UInt8 rr, UInt8 gg, UInt8 bb)
void Set(uint8_t rr, uint8_t gg, uint8_t bb)
{
this->r = rr; this->g = gg; this->b = bb;
}
void Set(UInt8 aa, UInt8 rr, UInt8 gg, UInt8 bb)
void Set(uint8_t aa, uint8_t rr, uint8_t gg, uint8_t bb)
{
this->SetARGB(aa, rr, gg, bb);
}
@ -269,13 +236,13 @@ struct hsColor32 {
#if 0
friend int operator==(const hsColor32& a, const hsColor32& b)
{
return *(UInt32*)&a == *(UInt32*)&b;
return *(uint32_t*)&a == *(uint32_t*)&b;
}
friend int operator!=(const hsColor32& a, const hsColor32& b) { return !(a == b); }
#else
int operator==(const hsColor32& aa) const
{
return *(UInt32*)&aa == *(UInt32*)this;
return *(uint32_t*)&aa == *(uint32_t*)this;
}
int operator!=(const hsColor32& aa) { return !(aa == *this); }
#endif
@ -436,7 +403,7 @@ void SWAP (T & a, T & b) {
*
***/
#define CONTAINING_STRUCT(a, t, f) ((t *) ((byte *)(a) - (unsigned_ptr)(&((t *)0)->f)))
#define CONTAINING_STRUCT(a, t, f) ((t *) ((uint8_t *)(a) - (uintptr_t)(&((t *)0)->f)))
/****************************************************************************
@ -469,7 +436,7 @@ void SWAP (T & a, T & b) {
#define offsetof(s,m) (size_t)&(((s *)0)->m)
#endif // ifndef offsetof
#define moffsetof(v,f) (((byte *) &((v)->f)) - ((byte *) v))
#define moffsetof(v,f) (((uint8_t *) &((v)->f)) - ((uint8_t *) v))
/****************************************************************************

20
Sources/Plasma/CoreLib/hsUtils.cpp
Unescape View File

@ -83,7 +83,7 @@ char *hsScalarToStr(hsScalar s)
#if HS_CAN_USE_FLOAT
sprintf(hsStrBuf, "%f", hsScalarToFloat(s));
#else
sprintf(hsStrBuf, "%d:%lu", hsFixedToInt(s), (UInt16)s);
sprintf(hsStrBuf, "%d:%lu", hsFixedToInt(s), (uint16_t)s);
#endif
return hsStrBuf;
}
@ -96,7 +96,7 @@ int hsMessageBoxWithOwner(void * owner, const char message[], const char caption
return hsMBoxOk;
#if HS_BUILD_FOR_WIN32
UInt32 flags = 0;
uint32_t flags = 0;
if (kind == hsMessageBoxNormal)
flags |= MB_OK;
@ -150,7 +150,7 @@ int hsMessageBoxWithOwner(void * owner, const wchar_t message[], const wchar_t c
return hsMBoxOk;
#if HS_BUILD_FOR_WIN32
UInt32 flags = 0;
uint32_t flags = 0;
if (kind == hsMessageBoxNormal)
flags |= MB_OK;
@ -256,7 +256,7 @@ char* hsStrcpy(char dst[], const char src[])
return dst;
}
Int32 i;
int32_t i;
for (i = 0; src[i] != 0; i++)
dst[i] = src[i];
dst[i] = 0;
@ -312,10 +312,10 @@ void hsStrLower(char *s)
}
}
char* hsP2CString(const UInt8 pstring[], char cstring[])
char* hsP2CString(const uint8_t pstring[], char cstring[])
{
char* cstr = cstring;
const UInt8* stop = &pstring[1] + pstring[0];
const uint8_t* stop = &pstring[1] + pstring[0];
pstring += 1; // skip length byte
while (pstring < stop)
@ -324,7 +324,7 @@ char* hsP2CString(const UInt8 pstring[], char cstring[])
return cstring;
}
UInt8* hsC2PString(const char cstring[], UInt8 pstring[])
uint8_t* hsC2PString(const char cstring[], uint8_t pstring[])
{
int i;
@ -394,7 +394,7 @@ void hsCPathToMacPath(char* dst, char* fname)
else if(strstr(fname, "\\\\"))
{
prefix = 0;
offset = 2; // copy fname from 2-bytes in. This removes
offset = 2; // copy fname from 2-Bytes in. This removes
// the first two chars...
}
@ -423,7 +423,7 @@ int hsRemove(const char * fname)
}
UInt32 hsPhysicalMemory()
uint32_t hsPhysicalMemory()
{
#define HS_ONE_MEGABYTE 1048576 // 1024 * 1024
@ -436,7 +436,7 @@ UInt32 hsPhysicalMemory()
MemSpec hsMemorySpec()
{
UInt32 mem = hsPhysicalMemory();
uint32_t mem = hsPhysicalMemory();
// Currently adding a little margin of error here
// due to the fact that Windows doesn't seem to

8
Sources/Plasma/CoreLib/hsUtils.h
Unescape View File

@ -76,9 +76,9 @@ char * hsFormatStrV(const char * fmt, va_list args); // You are responsible f
#endif
// A pstring has a length byte at the beginning, and no trailing 0
char* hsP2CString(const UInt8 pstring[], char cstring[]);
UInt8* hsC2PString(const char cstring[], UInt8 pstring[]);
// A pstring has a length uint8_t at the beginning, and no trailing 0
char* hsP2CString(const uint8_t pstring[], char cstring[]);
uint8_t* hsC2PString(const char cstring[], uint8_t pstring[]);
inline char* hsStrcpy(const char src[])
{
@ -178,7 +178,7 @@ enum MemSpec
kOptimal // 256 or greater
};
UInt32 hsPhysicalMemory();
uint32_t hsPhysicalMemory();
MemSpec hsMemorySpec();
inline int hsRandMax() { return 32767; }

98
Sources/Plasma/CoreLib/hsWide.cpp
Unescape View File

@ -43,7 +43,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
/////////////////////////////////////////////////////////////////////////
inline hsBool OverflowAdd(UInt32* sum, UInt32 a, UInt32 b)
inline hsBool OverflowAdd(uint32_t* sum, uint32_t a, uint32_t b)
{
*sum = a + b;
@ -55,19 +55,19 @@ inline hsBool OverflowAdd(UInt32* sum, UInt32 a, UInt32 b)
wide = (high << 32) + (middle << 16) + low
*/
inline hsBool SetWide3(hsWide* target, Int32 high, UInt32 middle, UInt32 low)
inline hsBool SetWide3(hsWide* target, int32_t high, uint32_t middle, uint32_t low)
{
hsAssert(high >= 0, "high is neg");
target->fLo = low + (middle << 16);
target->fHi = high + (middle >> 16) + (((low >> 16) + (UInt16)middle) >> 16);
target->fHi = high + (middle >> 16) + (((low >> 16) + (uint16_t)middle) >> 16);
return target->fHi < 0; // true if overflow
}
/////////////////////////////////////////////////////////////////////////
hsWide* hsWide::Mul(Int32 src1, Int32 src2)
hsWide* hsWide::Mul(int32_t src1, int32_t src2)
{
int neg = 0;
@ -80,10 +80,10 @@ hsWide* hsWide::Mul(Int32 src1, Int32 src2)
neg = ~neg;
}
UInt32 a = src1 >> 16;
UInt32 b = (UInt16)src1;
UInt32 c = src2 >> 16;
UInt32 d = (UInt16)src2;
uint32_t a = src1 >> 16;
uint32_t b = (uint16_t)src1;
uint32_t c = src2 >> 16;
uint32_t d = (uint16_t)src2;
(void)SetWide3(this, a * c, a * d + c * b, b * d);
@ -92,13 +92,13 @@ hsWide* hsWide::Mul(Int32 src1, Int32 src2)
return this;
}
hsWide* hsWide::Mul(Int32 A)
hsWide* hsWide::Mul(int32_t A)
{
int neg = 0;
UInt32 B = fLo;
Int32 C = fHi;
Int32 tmp;
UInt32 clo,blo,bhi,alo;
uint32_t B = fLo;
int32_t C = fHi;
int32_t tmp;
uint32_t clo,blo,bhi,alo;
if (A < 0)
{ A = -A;
@ -109,37 +109,37 @@ hsWide* hsWide::Mul(Int32 A)
neg = ~neg;
}
UInt32 ahi = A >> 16;
UInt32 chi = C >> 16;
uint32_t ahi = A >> 16;
uint32_t chi = C >> 16;
if (ahi != 0 && chi != 0)
goto OVER_FLOW;
alo = (UInt16)A;
alo = (uint16_t)A;
bhi = B >> 16;
blo = (UInt16)B;
clo = (UInt16)C;
blo = (uint16_t)B;
clo = (uint16_t)C;
tmp = alo * clo;
if (tmp < 0 || SetWide3(this, tmp, alo * bhi, alo * blo))
goto OVER_FLOW;
if (chi != 0)
{ UInt32 Vh = alo * chi;
{ uint32_t Vh = alo * chi;
if (Vh >> 15)
goto OVER_FLOW;
if (((this->fHi >> 16) + (UInt16)Vh) >> 15)
if (((this->fHi >> 16) + (uint16_t)Vh) >> 15)
goto OVER_FLOW;
this->fHi += Vh << 16;
}
else // ahi != 0 && chi == 0
{ hsWide w;
UInt32 Vh = ahi * clo;
uint32_t Vh = ahi * clo;
if (Vh >> 16)
goto OVER_FLOW;
tmp = ahi * bhi;
if (tmp < 0 || SetWide3(&w, tmp, ahi * blo, 0))
goto OVER_FLOW;
if (((w.fHi >> 16) + (UInt16)Vh) >> 15)
if (((w.fHi >> 16) + (uint16_t)Vh) >> 15)
goto OVER_FLOW;
w.fHi += Vh << 16;
this->Add(&w);
@ -154,7 +154,7 @@ OVER_FLOW:
return this;
}
hsWide* hsWide::Div(Int32 denom)
hsWide* hsWide::Div(int32_t denom)
{
if (denom == 0)
{ if (this->IsNeg())
@ -169,10 +169,10 @@ hsWide* hsWide::Div(Int32 denom)
}
int neg = 0;
Int32 resultH = 0;
UInt32 resultL = 0;
Int32 numerH = this->fHi;
UInt32 numerL = this->fLo;
int32_t resultH = 0;
uint32_t resultL = 0;
int32_t numerH = this->fHi;
uint32_t numerL = this->fLo;
if (denom < 0)
{ denom = -denom;
@ -185,18 +185,18 @@ hsWide* hsWide::Div(Int32 denom)
WIDE_ADDPOS(numerH, numerL, denom >> 1); // add denom/2 to get a round result
UInt32 curr = (UInt32)numerH >> 31;
uint32_t curr = (uint32_t)numerH >> 31;
for (int i = 0; i < 64; i++)
{
WIDE_SHIFTLEFT(resultH, resultL, resultH, resultL, 1);
if (UInt32(denom) <= curr)
if (uint32_t(denom) <= curr)
{
resultL |= 1;
curr -= denom;
}
WIDE_SHIFTLEFT(numerH, numerL, numerH, numerL, 1);
curr = (curr << 1) | ((UInt32)numerH >> 31);
curr = (curr << 1) | ((uint32_t)numerH >> 31);
}
if (neg)
@ -223,7 +223,7 @@ hsWide* hsWide::Div(const hsWide* denom)
inline int MaxLeftShift(const hsWide* w)
{
Int32 hi = w->fHi;
int32_t hi = w->fHi;
if (hi == 0)
return 31;
@ -274,15 +274,15 @@ hsFract hsWide::FracDiv(const hsWide* denom) const
////////////////////////////////////////////////////////////////////////////////////
Int32 hsWide::Sqrt() const
int32_t hsWide::Sqrt() const
{
int bits = 32;
UInt32 root = 0;
UInt32 valueH = (UInt32)fHi;
UInt32 valueL = fLo;
UInt32 currH = 0;
UInt32 currL = 0;
UInt32 guessH, guessL;
uint32_t root = 0;
uint32_t valueH = (uint32_t)fHi;
uint32_t valueL = fLo;
uint32_t currH = 0;
uint32_t currL = 0;
uint32_t guessH, guessL;
do {
WIDE_SHIFTLEFT(currH, currL, currH, currL, 2);
@ -298,20 +298,20 @@ Int32 hsWide::Sqrt() const
} while (--bits);
#if HS_PIN_MATH_OVERFLOW
if ((Int32)root < 0)
if ((int32_t)root < 0)
return kPosInfinity32;
#endif
return (Int32)root;
return (int32_t)root;
}
Int32 hsWide::CubeRoot() const
int32_t hsWide::CubeRoot() const
{
int bits = 21;
UInt32 root = 0;
UInt32 valueH = (UInt32)fHi;
UInt32 valueL = fLo;
UInt32 currH, currL;
UInt32 guessH, guessL;
uint32_t root = 0;
uint32_t valueH = (uint32_t)fHi;
uint32_t valueL = fLo;
uint32_t currH, currL;
uint32_t guessH, guessL;
hsBool neg = false;
if (WIDE_ISNEG(valueH, valueL))
@ -336,7 +336,7 @@ Int32 hsWide::CubeRoot() const
hsWide w2 = w;
w.ShiftLeft(1)->Add(&w2);
#endif
guessH = (UInt32)w.fHi;
guessH = (uint32_t)w.fHi;
guessL = w.fLo;
if (WIDE_LESSTHAN(guessH, guessL, currH, currL))
@ -347,7 +347,7 @@ Int32 hsWide::CubeRoot() const
} while (--bits);
if (neg)
root = -Int32(root);
return (Int32)root;
root = -int32_t(root);
return (int32_t)root;
}

52
Sources/Plasma/CoreLib/hsWide.h
Unescape View File

@ -45,11 +45,11 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
#include "hsTypes.h"
struct hsWide {
Int32 fHi;
UInt32 fLo;
int32_t fHi;
uint32_t fLo;
hsWide* Set(Int32 lo) { fLo = lo; if (lo < 0) fHi = -1L; else fHi = 0; return this; }
hsWide* Set(Int32 hi, UInt32 lo) { fHi = hi; fLo = lo; return this; }
hsWide* Set(int32_t lo) { fLo = lo; if (lo < 0) fHi = -1L; else fHi = 0; return this; }
hsWide* Set(int32_t hi, uint32_t lo) { fHi = hi; fLo = lo; return this; }
inline hsBool IsNeg() const { return fHi < 0; }
inline hsBool IsPos() const { return fHi > 0 || (fHi == 0 && fLo != 0); }
@ -65,34 +65,34 @@ struct hsWide {
hsBool operator>=(const hsWide& b) const { return !(*this < b); }
inline hsWide* Negate();
inline hsWide* Add(Int32 scaler);
inline hsWide* Add(int32_t scaler);
inline hsWide* Add(const hsWide* a);
inline hsWide* Sub(const hsWide* a);
inline hsWide* ShiftLeft(unsigned shift);
inline hsWide* ShiftRight(unsigned shift);
inline hsWide* RoundRight(unsigned shift);
inline Int32 AsLong() const; // return bits 31-0, checking for over/under flow
inline int32_t AsLong() const; // return bits 31-0, checking for over/under flow
inline hsFixed AsFixed() const; // return bits 47-16, checking for over/under flow
inline hsFract AsFract() const; // return bits 61-30, checking for over/under flow
hsWide* Mul(Int32 a); // this updates the wide
hsWide* Mul(Int32 a, Int32 b); // this sets the wide
hsWide* Div(Int32 denom); // this updates the wide
hsWide* Mul(int32_t a); // this updates the wide
hsWide* Mul(int32_t a, int32_t b); // this sets the wide
hsWide* Div(int32_t denom); // this updates the wide
hsWide* Div(const hsWide* denom); // this updates the wide
hsFixed FixDiv(const hsWide* denom) const;
hsFract FracDiv(const hsWide* denom) const;
Int32 Sqrt() const;
Int32 CubeRoot() const;
int32_t Sqrt() const;
int32_t CubeRoot() const;
#if HS_CAN_USE_FLOAT
double AsDouble() const { return fHi * double(65536) * double(65536) + fLo; }
hsWide* Set(double d)
{
Int32 hi = Int32(d / double(65536) / double(65536));
Int32 lo = Int32(d - double(hi));
int32_t hi = int32_t(d / double(65536) / double(65536));
int32_t lo = int32_t(d - double(hi));
return Set(hi, lo);
}
#endif
@ -104,8 +104,8 @@ const hsWide kNegInfinity64 = { kNegInfinity32, 0 };
/////////////////////// Inline implementations ///////////////////////
#define TOP2BITS(n) (UInt32(n) >> 30)
#define TOP3BITS(n) (UInt32(n) >> 29)
#define TOP2BITS(n) (uint32_t(n) >> 30)
#define TOP3BITS(n) (uint32_t(n) >> 29)
#if HS_PIN_MATH_OVERFLOW && HS_DEBUG_MATH_OVERFLOW
#define hsSignalMathOverflow() hsDebugMessage("Math overflow", 0)
@ -115,11 +115,11 @@ const hsWide kNegInfinity64 = { kNegInfinity32, 0 };
#define hsSignalMathUnderflow()
#endif
#define WIDE_ISNEG(hi, lo) (Int32(hi) < 0)
#define WIDE_ISNEG(hi, lo) (int32_t(hi) < 0)
#define WIDE_LESSTHAN(hi, lo, hi2, lo2) ((hi) < (hi2) || (hi) == (hi2) && (lo) < (lo2))
#define WIDE_SHIFTLEFT(outH, outL, inH, inL, shift) do { (outH) = ((inH) << (shift)) | ((inL) >> (32 - (shift))); (outL) = (inL) << (shift); } while (0)
#define WIDE_NEGATE(hi, lo) do { (hi) = ~(hi); if (((lo) = -Int32(lo)) == 0) (hi) += 1; } while (0)
#define WIDE_ADDPOS(hi, lo, scaler) do { UInt32 tmp = (lo) + (scaler); if (tmp < (lo)) (hi) += 1; (lo) = tmp; } while (0)
#define WIDE_NEGATE(hi, lo) do { (hi) = ~(hi); if (((lo) = -int32_t(lo)) == 0) (hi) += 1; } while (0)
#define WIDE_ADDPOS(hi, lo, scaler) do { uint32_t tmp = (lo) + (scaler); if (tmp < (lo)) (hi) += 1; (lo) = tmp; } while (0)
#define WIDE_SUBWIDE(hi, lo, subhi, sublo) do { (hi) -= (subhi); if ((lo) < (sublo)) (hi) -= 1; (lo) -= (sublo); } while (0)
/////////////////////// Inline implementations ///////////////////////
@ -131,13 +131,13 @@ inline hsWide* hsWide::Negate()
return this;
}
inline hsWide* hsWide::Add(Int32 scaler)
inline hsWide* hsWide::Add(int32_t scaler)
{
if (scaler >= 0)
WIDE_ADDPOS(fHi, fLo, scaler);
else
{ scaler = -scaler;
if (fLo < UInt32(scaler))
if (fLo < uint32_t(scaler))
fHi--;
fLo -= scaler;
}
@ -147,7 +147,7 @@ inline hsWide* hsWide::Add(Int32 scaler)
inline hsWide* hsWide::Add(const hsWide* a)
{
UInt32 newLo = fLo + a->fLo;
uint32_t newLo = fLo + a->fLo;
fHi += a->fHi;
if (newLo < (fLo | a->fLo))
@ -184,24 +184,24 @@ inline hsWide* hsWide::RoundRight(unsigned shift)
return this->Add(1L << (shift - 1))->ShiftRight(shift);
}
inline Int32 hsWide::AsLong() const
inline int32_t hsWide::AsLong() const
{
#if HS_PIN_MATH_OVERFLOW
if (fHi > 0 || (fHi == 0 && (Int32)fLo < 0))
if (fHi > 0 || (fHi == 0 && (int32_t)fLo < 0))
{ hsSignalMathOverflow();
return kPosInfinity32;
}
if (fHi < -1L || (fHi == -1L && (Int32)fLo >= 0))
if (fHi < -1L || (fHi == -1L && (int32_t)fLo >= 0))
{ hsSignalMathOverflow();
return kNegInfinity32;
}
#endif
return (Int32)fLo;
return (int32_t)fLo;
}
inline hsBool hsWide::IsWide() const
{
return (fHi > 0 || (fHi == 0 && (Int32)fLo < 0)) || (fHi < -1L || (fHi == -1L && (Int32)fLo >= 0));
return (fHi > 0 || (fHi == 0 && (int32_t)fLo < 0)) || (fHi < -1L || (fHi == -1L && (int32_t)fLo >= 0));
}
inline hsFixed hsWide::AsFixed() const

2
Sources/Plasma/CoreLib/pcSmallRect.cpp
Unescape View File

@ -41,7 +41,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
*==LICENSE==*/
///////////////////////////////////////////////////////////////////////////////
// //
// pcSmallRect - A tiny Int16-based 2D rectangle class //
// pcSmallRect - A tiny int16_t-based 2D rectangle class //
// //
///////////////////////////////////////////////////////////////////////////////

14
Sources/Plasma/CoreLib/pcSmallRect.h
Unescape View File

@ -41,7 +41,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
*==LICENSE==*/
///////////////////////////////////////////////////////////////////////////////
// //
// pcSmallRect - A tiny Int16-based 2D rectangle class //
// pcSmallRect - A tiny int16_t-based 2D rectangle class //
// //
///////////////////////////////////////////////////////////////////////////////
@ -59,21 +59,21 @@ class hsStream;
class pcSmallRect
{
public:
Int16 fX, fY, fWidth, fHeight;
int16_t fX, fY, fWidth, fHeight;
pcSmallRect() { Empty(); }
pcSmallRect( Int16 x, Int16 y, Int16 w, Int16 h ) { Set( x, y, w, h ); }
pcSmallRect( int16_t x, int16_t y, int16_t w, int16_t h ) { Set( x, y, w, h ); }
void Set( Int16 x, Int16 y, Int16 w, Int16 h ) { fX = x; fY = y; fWidth = w; fHeight = h; }
void Set( int16_t x, int16_t y, int16_t w, int16_t h ) { fX = x; fY = y; fWidth = w; fHeight = h; }
void Empty( void ) { fX = fY = fWidth = fHeight = 0; }
Int16 GetRight( void ) const { return fX + fWidth; }
Int16 GetBottom( void ) const { return fY + fHeight; }
int16_t GetRight( void ) const { return fX + fWidth; }
int16_t GetBottom( void ) const { return fY + fHeight; }
void Read( hsStream *s );
void Write( hsStream *s );
hsBool Contains( Int16 x, Int16 y ) { if( x >= fX && x <= fX + fWidth && y >= fY && y <= fY + fHeight ) return true; return false; }
hsBool Contains( int16_t x, int16_t y ) { if( x >= fX && x <= fX + fWidth && y >= fY && y <= fY + fHeight ) return true; return false; }
};

2
Sources/Plasma/CoreLib/plGeneric.cpp
Unescape View File

@ -141,7 +141,7 @@ plGeneric& plGeneric::operator=(const std::wstring& val)
int plGeneric::Write(hsStream* stream)
{
stream->WriteByte((UInt8)fType);
stream->WriteByte((uint8_t)fType);
switch (fType)
{

20
Sources/Plasma/CoreLib/plLoadMask.cpp
Unescape View File

@ -75,13 +75,13 @@ void plQuality::SetCapability(int c)
const plLoadMask plLoadMask::kAlways;
UInt8 plLoadMask::fGlobalQuality = UInt8(1);
UInt8 plLoadMask::fGlobalCapability = UInt8(0);
uint8_t plLoadMask::fGlobalQuality = uint8_t(1);
uint8_t plLoadMask::fGlobalCapability = uint8_t(0);
void plLoadMask::Read(hsStream* s)
{
// read as packed byte
UInt8 qc;
uint8_t qc;
s->LogReadLE(&qc,"Quality|Capabilty");
fQuality[0] = (qc & 0xf0) >> 4;
@ -95,13 +95,13 @@ void plLoadMask::Read(hsStream* s)
void plLoadMask::Write(hsStream* s) const
{
// write packed into 1 byte
UInt8 qc = (fQuality[0]<<4) | (fQuality[1] & 0xf);
uint8_t qc = (fQuality[0]<<4) | (fQuality[1] & 0xf);
s->WriteLE(qc);
}
UInt32 plLoadMask::ValidateReps(int num, const int quals[], const int caps[])
uint32_t plLoadMask::ValidateReps(int num, const int quals[], const int caps[])
{
UInt32 retVal = 0;
uint32_t retVal = 0;
int i;
for( i = 1; i < num; i++ )
{
@ -118,9 +118,9 @@ UInt32 plLoadMask::ValidateReps(int num, const int quals[], const int caps[])
return retVal;
}
UInt32 plLoadMask::ValidateMasks(int num, plLoadMask masks[])
uint32_t plLoadMask::ValidateMasks(int num, plLoadMask masks[])
{
UInt32 retVal = 0;
uint32_t retVal = 0;
int i;
for( i = 0; i < num; i++ )
{
@ -160,12 +160,12 @@ hsBool plLoadMask::ComputeRepMasks(
{
// Q starts off the bits higher than or equal to 1 << qual.
// I.e. we just turned off all lower quality bits.
UInt8 q = ~( (1 << quals[i]) - 1 );
uint8_t q = ~( (1 << quals[i]) - 1 );
// For this cap level, if we require higher caps,
// turn off our quality (i.e. we won't load at this
// cap for any quality setting.
UInt8 c = caps[i] > kMaxCap ? kMaxCap : caps[i];
uint8_t c = caps[i] > kMaxCap ? kMaxCap : caps[i];
if( c > k )
q = 0;

24
Sources/Plasma/CoreLib/plLoadMask.h
Unescape View File

@ -55,30 +55,30 @@ public:
kMaxCap = 1
};
protected:
static UInt8 fGlobalQuality;
static UInt8 fGlobalCapability;
static uint8_t fGlobalQuality;
static uint8_t fGlobalCapability;
union {
UInt8 fQuality[kMaxCap+1];
UInt16 fMask;
uint8_t fQuality[kMaxCap+1];
uint16_t fMask;
};
static void SetGlobalQuality(int q) { fGlobalQuality = IBitToMask(q); }
static void SetGlobalCapability(int c) { if( c > kMaxCap ) c = kMaxCap; else if( c < 0 ) c = 0; fGlobalCapability = c; }
static UInt8 IBitToMask(int b) { hsAssert(b<8, "LoadMask: bit too large for byte"); return (1 << b); }
static uint8_t IBitToMask(int b) { hsAssert(b<8, "LoadMask: bit too large for uint8_t"); return (1 << b); }
friend class plQuality;
public:
// Change this to a for loop on kMaxCap+1 if we ever get more caps.
plLoadMask() { fQuality[0] = fQuality[1] = 0xff; }
plLoadMask(UInt8 qLo, UInt8 qHi) { fQuality[0] = qLo; fQuality[1] = qHi; }
plLoadMask(uint8_t qLo, uint8_t qHi) { fQuality[0] = qLo; fQuality[1] = qHi; }
~plLoadMask() {}
hsBool DontLoad() const { return !(fQuality[fGlobalCapability] & fGlobalQuality); }
hsBool NeverLoads() const { return !(fQuality[0] && fQuality[1]); }
hsBool IsUsed() const { return (fQuality[0] != UInt8(-1)) || (fQuality[1] != UInt8(-1)); }
hsBool IsUsed() const { return (fQuality[0] != uint8_t(-1)) || (fQuality[1] != uint8_t(-1)); }
hsBool MatchesQuality(int q) const { return (IBitToMask(q) & (fQuality[0] | fQuality[1])) != 0; }
hsBool MatchesCapability(int c) const { return fQuality[c] != 0; }
@ -88,11 +88,11 @@ public:
hsBool MatchesCurrentCapability() const { return MatchesCapability(fGlobalCapability); }
hsBool MatchesCurrent() const { return !DontLoad(); }
UInt8 GetQualityMask(int cap) const { return fQuality[cap]; }
uint8_t GetQualityMask(int cap) const { return fQuality[cap]; }
plLoadMask& SetMask(UInt8 lo, UInt8 hi) { fQuality[0] = lo; fQuality[1] = hi; return *this; }
plLoadMask& SetMask(uint8_t lo, uint8_t hi) { fQuality[0] = lo; fQuality[1] = hi; return *this; }
plLoadMask& SetNever() { return SetMask(0,0); }
plLoadMask& SetAlways() { return SetMask(UInt8(-1), UInt8(-1)); }
plLoadMask& SetAlways() { return SetMask(uint8_t(-1), uint8_t(-1)); }
plLoadMask& operator|=(const plLoadMask& m) { fMask |= m.fMask; return *this; }
plLoadMask& operator&=(const plLoadMask& m) { fMask &= m.fMask; return *this; }
@ -128,8 +128,8 @@ public:
// items in the list had problems, so return of zero means A-OK.
//
static hsBool ComputeRepMasks(int num, const int quals[], const int caps[], plLoadMask masks[]);
static UInt32 ValidateReps(int num, const int quals[], const int caps[]);
static UInt32 ValidateMasks(int num, plLoadMask masks[]);
static uint32_t ValidateReps(int num, const int quals[], const int caps[]);
static uint32_t ValidateMasks(int num, plLoadMask masks[]);
};
#endif // plLoadMask_inc

6
Sources/Plasma/CoreLib/plRefCnt.h
Unescape View File

@ -47,7 +47,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
// plRef count addes refcount abilities to any plCreatable
class plRefCnt
{ UInt32 fRefCnt;
{ uint32_t fRefCnt;
public:
plRefCnt() : fRefCnt(1){}
~plRefCnt(){}
@ -63,12 +63,12 @@ public:
/*
class hsRefCnt {
private:
Int32 fRefCnt;
int32_t fRefCnt;
public:
hsRefCnt() : fRefCnt(1) {}
virtual ~hsRefCnt();
Int32 RefCnt() const { return fRefCnt; }
int32_t RefCnt() const { return fRefCnt; }
virtual void UnRef();
virtual void Ref();
};

16
Sources/Plasma/CoreLib/plRenderLevel.h
Unescape View File

@ -79,8 +79,8 @@ public:
};
public:
plRenderLevel() { Set(kDefRendMajorLevel, kDefRendMinorLevel); }
plRenderLevel(UInt32 l) : fLevel(l) {}
plRenderLevel(UInt32 major, UInt32 minor) { Set(major, minor); }
plRenderLevel(uint32_t l) : fLevel(l) {}
plRenderLevel(uint32_t major, uint32_t minor) { Set(major, minor); }
int operator==(const plRenderLevel& l) const { return fLevel == l.fLevel; }
int operator!=(const plRenderLevel& l) const { return fLevel != l.fLevel; }
@ -89,15 +89,15 @@ public:
int operator>=(const plRenderLevel& l) const { return fLevel >= l.fLevel; }
int operator<=(const plRenderLevel& l) const { return fLevel <= l.fLevel; }
UInt32 Level() const { return fLevel; }
uint32_t Level() const { return fLevel; }
UInt32 Minor() const { return UInt32(fLevel & kMinorLevelMask); }
UInt32 Major() const { return UInt32(fLevel >> kMajorShift); }
uint32_t Minor() const { return uint32_t(fLevel & kMinorLevelMask); }
uint32_t Major() const { return uint32_t(fLevel >> kMajorShift); }
plRenderLevel& Set(UInt32 l) { fLevel = l; return *this; }
plRenderLevel& Set(UInt32 major, UInt32 minor) { fLevel = (UInt32(major) << kMajorShift) | UInt32(minor); return *this; }
plRenderLevel& Set(uint32_t l) { fLevel = l; return *this; }
plRenderLevel& Set(uint32_t major, uint32_t minor) { fLevel = (uint32_t(major) << kMajorShift) | uint32_t(minor); return *this; }
UInt32 fLevel;
uint32_t fLevel;
static plRenderLevel OpaqueRenderLevel() { return plRenderLevel(kOpaqueMajorLevel, kOpaqueMinorLevel); }
};

22
Sources/Plasma/CoreLib/plViewTransform.h
Unescape View File

@ -110,8 +110,8 @@ public:
hsVector3 GetUp() const { return *((hsVector3*)&GetWorldToCamera().fMap[1]); }
hsVector3 GetAcross() const { return *((hsVector3*)&GetWorldToCamera().fMap[0]); }
UInt16 GetScreenWidth() const { return fWidth; }
UInt16 GetScreenHeight() const { return fHeight; }
uint16_t GetScreenWidth() const { return fWidth; }
uint16_t GetScreenHeight() const { return fHeight; }
void GetViewPort(hsPoint2& mins, hsPoint2& maxs) const;
void GetViewPort(int& loX, int& loY, int& hiX, int& hiY) const;
@ -149,16 +149,16 @@ public:
void SetPerspective(hsBool on) { SetOrthogonal(!on); }
// Next, setting the scree/window/rendertarget size
void SetWidth(UInt16 w) { fWidth = w; }
void SetHeight(UInt16 h) { fHeight = h; }
void SetScreenSize(UInt16 w, UInt16 h) { SetWidth(w); SetHeight(h); }
void SetWidth(uint16_t w) { fWidth = w; }
void SetHeight(uint16_t h) { fHeight = h; }
void SetScreenSize(uint16_t w, uint16_t h) { SetWidth(w); SetHeight(h); }
// Next, setting the viewport. You only need to do this if you want to use the screen functions above.
// If you're passing in and getting out normalized device coordinates, skip this. If you don't set viewport,
// Defaults to 0,0,width,height (i.e. the whole screen).
void SetViewPort(const hsPoint2& mins, const hsPoint2& maxs, hsBool relative=true);
void SetViewPort(float loX, float loY, float hiX, float hiY, hsBool relative=true) { SetViewPort(hsPoint2().Set(loX, loY), hsPoint2().Set(hiX, hiY), relative); }
void SetViewPort(UInt16 left, UInt16 top, UInt16 right, UInt16 bottom) { SetViewPort(hsScalar(left), hsScalar(top), hsScalar(right), hsScalar(bottom), false); }
void SetViewPort(uint16_t left, uint16_t top, uint16_t right, uint16_t bottom) { SetViewPort(hsScalar(left), hsScalar(top), hsScalar(right), hsScalar(bottom), false); }
void SetMapping(const hsPoint3& mins, const hsPoint3& maxs) { SetMapMin(mins); SetMapMax(maxs); }
void SetMapMin(const hsPoint3& mins) { fMapMin = mins; }
@ -292,7 +292,7 @@ protected:
kViewPortRelative = 0x10
};
mutable UInt32 fFlags;
mutable uint32_t fFlags;
hsMatrix44 fCameraToWorld;
hsMatrix44 fWorldToCamera;
@ -301,8 +301,8 @@ protected:
hsPoint3 fMax; // maxTanX/X, maxTanY/Y, yon
// Screen (or rendertarget) dimensions in pixels.
UInt16 fWidth;
UInt16 fHeight;
uint16_t fWidth;
uint16_t fHeight;
// Viewport can be stored as fraction of screen size, so the view transform's viewport
// can be set up independent of the size of the window it's applied to.
@ -334,8 +334,8 @@ protected:
void InvalidateTransforms() { ISetFlag(kCameraToNDCSet|kWorldToNDCSet, false); }
// Flags - generic
hsBool IHasFlag(UInt32 f) const { return 0 != (fFlags & f); }
void ISetFlag(UInt32 f, hsBool on=true) const { if(on) fFlags |= f; else fFlags &= ~f; }
hsBool IHasFlag(uint32_t f) const { return 0 != (fFlags & f); }
void ISetFlag(uint32_t f, hsBool on=true) const { if(on) fFlags |= f; else fFlags &= ~f; }
};

2
Sources/Plasma/CoreLibExe/hsExeError.cpp
Unescape View File

@ -75,7 +75,7 @@ static bool s_options[kNumErrorOptions];
AUTO_INIT_FUNC(hsExeErrorInit) {
// The critical section has to be initialized
// before program startup and never freed
static byte rawMemory[sizeof(CCritSect)];
static uint8_t rawMemory[sizeof(CCritSect)];
s_critsect = new(rawMemory) CCritSect;
}
#endif

8
Sources/Plasma/CoreLibExe/hsExeMalloc.cpp
Unescape View File

@ -368,7 +368,7 @@ static int __cdecl CrtAllocHook (
AUTO_INIT_FUNC(hsExeMallocInit) {
// The critical section has to be initialized
// before program startup and never freed
static byte rawMemory[sizeof CCritSect];
static uint8_t rawMemory[sizeof CCritSect];
s_critsect = new(rawMemory) CCritSect;
SET_CRT_DEBUG_FIELD(_CRTDBG_LEAK_CHECK_DF);
_CrtSetAllocHook(CrtAllocHook);
@ -487,7 +487,7 @@ void * MemAlloc (unsigned bytes, unsigned flags, const char file[], int line) {
// In debug mode ensure that memory is initialized to some freaky value
#ifdef HS_DEBUGGING
if (! (flags & kMemZero))
MemSet(ptr, (byte) ((unsigned_ptr)ptr >> 4), bytes);
MemSet(ptr, (uint8_t) ((uintptr_t)ptr >> 4), bytes);
#endif
#ifdef _MSC_VER
@ -575,14 +575,14 @@ void * MemRealloc (void * ptr, unsigned bytes, unsigned flags, const char file[]
* the memory block may be initialized with garbage instead of zeroes, and the
* realloc call actually copied that memory.
if ((bytes > oldBytes) && (flags & kMemZero))
MemZero((byte *)newPtr + oldBytes, bytes - oldBytes);
MemZero((uint8_t *)newPtr + oldBytes, bytes - oldBytes);
*/
ASSERT(!(flags & kMemZero));
// In debug mode ensure that memory is initialized to some freaky value
#ifdef HS_DEBUGGING
if ((bytes > oldBytes) && !(flags & kMemZero))
MemSet((byte *)newPtr + oldBytes, (byte) ((unsigned_ptr) newPtr >> 4), bytes - oldBytes);
MemSet((uint8_t *)newPtr + oldBytes, (uint8_t) ((uintptr_t) newPtr >> 4), bytes - oldBytes);
#endif
return newPtr;

4
Sources/Plasma/FeatureLib/pfAnimation/pfObjectFlocker.cpp
Unescape View File

@ -924,7 +924,7 @@ pfObjectFlocker::~pfObjectFlocker()
plgDispatch::Dispatch()->UnRegisterForExactType(plEvalMsg::Index(), GetKey());
}
void pfObjectFlocker::SetNumBoids(UInt8 val)
void pfObjectFlocker::SetNumBoids(uint8_t val)
{
fNumBoids = val;
}
@ -979,7 +979,7 @@ hsBool pfObjectFlocker::MsgReceive(plMessage* msg)
return plSingleModifier::MsgReceive(msg);
}
hsBool pfObjectFlocker::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool pfObjectFlocker::IEval(double secs, hsScalar del, uint32_t dirty)
{
fFlock.Update(fTarget, del);

4
Sources/Plasma/FeatureLib/pfAnimation/pfObjectFlocker.h
Unescape View File

@ -408,7 +408,7 @@ public:
virtual void Read(hsStream* stream, hsResMgr* mgr);
virtual void Write(hsStream* stream, hsResMgr* mgr);
void SetNumBoids(UInt8 val);
void SetNumBoids(uint8_t val);
void SetBoidKey(plKey key) { fBoidKey = key; }
float GoalWeight() const {return fFlock.GoalWeight();}
@ -448,7 +448,7 @@ protected:
hsBool fUseTargetRotation;
hsBool fRandomizeAnimationStart;
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
};
#endif

2
Sources/Plasma/FeatureLib/pfAnimation/plBlower.cpp
Unescape View File

@ -145,7 +145,7 @@ void plBlower::IBlow(double secs, hsScalar delSecs)
fCurrDel = del;
}
hsBool plBlower::IEval(double secs, hsScalar delSecs, UInt32 dirty)
hsBool plBlower::IEval(double secs, hsScalar delSecs, uint32_t dirty)
{
const hsScalar kMaxDelSecs = 0.1f;
if( delSecs > kMaxDelSecs )

2
Sources/Plasma/FeatureLib/pfAnimation/plBlower.h
Unescape View File

@ -86,7 +86,7 @@ protected:
void ISetTargetTransform();
void IBlow(double secs, hsScalar delSecs);
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
public:
~plBlower();
plBlower();

6
Sources/Plasma/FeatureLib/pfAnimation/plFilterCoordInterface.h
Unescape View File

@ -58,7 +58,7 @@ public:
kNoNothing = kNoRotation | kNoMove
};
protected:
UInt32 fFilterMask;
uint32_t fFilterMask;
hsMatrix44 fRefParentLocalToWorld;
virtual void IRecalcTransforms();
@ -73,8 +73,8 @@ public:
virtual void Write(hsStream* stream, hsResMgr* mgr);
void SetFilterMask(UInt32 f) { fFilterMask = f; }
UInt32 GetFilterMask() const { return fFilterMask; }
void SetFilterMask(uint32_t f) { fFilterMask = f; }
uint32_t GetFilterMask() const { return fFilterMask; }
void SetRefLocalToWorld(const hsMatrix44& m) { fRefParentLocalToWorld = m; }
const hsMatrix44& GetRefLocalToWorld() const { return fRefParentLocalToWorld; }

2
Sources/Plasma/FeatureLib/pfAnimation/plFollowMod.cpp
Unescape View File

@ -218,7 +218,7 @@ void plFollowMod::IMoveTarget()
GetTarget()->SetTransform(l2w, w2l);
}
hsBool plFollowMod::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool plFollowMod::IEval(double secs, hsScalar del, uint32_t dirty)
{
if( ICheckLeader() )
IMoveTarget();

10
Sources/Plasma/FeatureLib/pfAnimation/plFollowMod.h
Unescape View File

@ -76,8 +76,8 @@ public:
};
protected:
FollowLeaderType fLeaderType;
UInt8 fMode;
UInt8 fLeaderSet;
uint8_t fMode;
uint8_t fLeaderSet;
plSceneObject* fLeader; // may be nil if Leader isn't a sceneobject
@ -87,7 +87,7 @@ protected:
hsBool ICheckLeader();
void IMoveTarget();
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
public:
plFollowMod();
@ -106,8 +106,8 @@ public:
void SetType(FollowLeaderType t) { fLeaderType = t; }
FollowLeaderType GetType() const { return fLeaderType; }
void SetMode(UInt8 m) { fMode = m; }
UInt8 GetMode() const { return fMode; }
void SetMode(uint8_t m) { fMode = m; }
uint8_t GetMode() const { return fMode; }
void Activate();
void Deactivate();

8
Sources/Plasma/FeatureLib/pfAnimation/plLineFollowMod.cpp
Unescape View File

@ -165,10 +165,10 @@ void plLineFollowMod::Read(hsStream* stream, hsResMgr* mgr)
mgr->ReadKeyNotifyMe(stream, TRACKED_NEW plGenRefMsg(GetKey(), plRefMsg::kOnCreate, 0, kRefStereizer), plRefFlags::kPassiveRef);
}
UInt32 f = stream->ReadLE32();
uint32_t f = stream->ReadLE32();
SetFollowMode(FollowMode(f & 0xffff));
fFollowFlags = (UInt16)((f >> 16) & 0xffff);
fFollowFlags = (uint16_t)((f >> 16) & 0xffff);
if( fFollowFlags & kOffset )
{
@ -203,7 +203,7 @@ void plLineFollowMod::Write(hsStream* stream, hsResMgr* mgr)
for( i = 0; i < fStereizers.GetCount(); i++ )
mgr->WriteKey(stream, fStereizers[i]->GetKey());
UInt32 f = UInt32(fFollowMode) | (UInt32(fFollowFlags) << 16);
uint32_t f = uint32_t(fFollowMode) | (uint32_t(fFollowFlags) << 16);
stream->WriteLE32(f);
if( fFollowFlags & kOffset )
@ -337,7 +337,7 @@ void plLineFollowMod::IRegister()
}
}
hsBool plLineFollowMod::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool plLineFollowMod::IEval(double secs, hsScalar del, uint32_t dirty)
{
if( !fPath )
return false;

4
Sources/Plasma/FeatureLib/pfAnimation/plLineFollowMod.h
Unescape View File

@ -81,7 +81,7 @@ public:
};
protected:
FollowMode fFollowMode;
UInt16 fFollowFlags;
uint16_t fFollowFlags;
plAnimPath* fPath;
plSceneObject* fPathParent;
@ -97,7 +97,7 @@ protected:
hsScalar fOffsetClamp;
hsScalar fSpeedClamp;
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
virtual hsBool IGetSearchPos();
virtual void ISetTargetTransform(int iTarg, const hsMatrix44& tgtXfm);

16
Sources/Plasma/FeatureLib/pfAnimation/plRandomCommandMod.h
Unescape View File

@ -66,11 +66,11 @@ protected:
// These are only lightly synched, the only synched state is whether
// they are currently active.
UInt8 fState;
uint8_t fState;
hsBitVector fExcluded;
Int8 fCurrent;
UInt8 fMode; // static, if it becomes dynamic, move to SynchedValue
int8_t fCurrent;
uint8_t fMode; // static, if it becomes dynamic, move to SynchedValue
hsTArray<double> fEndTimes;
hsScalar fMinDelay;
@ -94,7 +94,7 @@ protected:
virtual void IPlayNext() = 0;
// We only act in response to messages.
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty) { return false; }
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty) { return false; }
public:
plRandomCommandMod();
@ -109,11 +109,11 @@ public:
virtual void Write(hsStream* s, hsResMgr* mgr);
// Export only
void SetMode(UInt8 m) { fMode = m; }
UInt8 GetMode() const { return fMode; }
void SetMode(uint8_t m) { fMode = m; }
uint8_t GetMode() const { return fMode; }
void SetState(UInt8 s) { fState = s; }
UInt8 GetState() const { return fState; }
void SetState(uint8_t s) { fState = s; }
uint8_t GetState() const { return fState; }
void SetMinDelay(hsScalar f) { fMinDelay = f; }
hsScalar GetMinDelay() const { return fMinDelay; }

2
Sources/Plasma/FeatureLib/pfAnimation/plStereizer.cpp
Unescape View File

@ -119,7 +119,7 @@ hsBool plStereizer::MsgReceive(plMessage* msg)
return plSingleModifier::MsgReceive(msg);
}
hsBool plStereizer::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool plStereizer::IEval(double secs, hsScalar del, uint32_t dirty)
{
return false;
}

2
Sources/Plasma/FeatureLib/pfAnimation/plStereizer.h
Unescape View File

@ -82,7 +82,7 @@ protected:
hsVector3 fListDirection;
hsVector3 fListUp;
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
hsPoint3 IGetLocalizedPos(const hsVector3& posToList, hsScalar distToList) const;
hsPoint3 IGetAmbientPos() const;

2
Sources/Plasma/FeatureLib/pfAnimation/plViewFaceModifier.cpp
Unescape View File

@ -129,7 +129,7 @@ void plViewFaceModifier::SetTarget(plSceneObject* so)
plgDispatch::Dispatch()->RegisterForExactType(plArmatureUpdateMsg::Index(), GetKey());
}
hsBool plViewFaceModifier::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool plViewFaceModifier::IEval(double secs, hsScalar del, uint32_t dirty)
{
return false;
}

2
Sources/Plasma/FeatureLib/pfAnimation/plViewFaceModifier.h
Unescape View File

@ -84,7 +84,7 @@ protected:
hsBounds3Ext fMaxBounds;
virtual hsBool IFacePoint(plPipeline* pipe, const hsPoint3& at);
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
enum RefType
{

16
Sources/Plasma/FeatureLib/pfAudio/plListener.cpp
Unescape View File

@ -61,7 +61,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
hsBool plListener::fPrintDbgInfo = false;
hsBool plListener::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool plListener::IEval(double secs, hsScalar del, uint32_t dirty)
{
// if (!plgAudioSys::Active())
// return true;
@ -69,7 +69,7 @@ hsBool plListener::IEval(double secs, hsScalar del, UInt32 dirty)
int y = 16 + 12, x = 400;
if( fPrintDbgInfo )
plDebugText::Instance().DrawString( x, 16, "Listener:", (UInt32)0xffffffff, plDebugText::kStyleBold );
plDebugText::Instance().DrawString( x, 16, "Listener:", (uint32_t)0xffffffff, plDebugText::kStyleBold );
// Get the avatar's SceneObject
plKey key = plNetClientMgr::GetInstance()->GetLocalPlayerKey();
@ -80,7 +80,7 @@ hsBool plListener::IEval(double secs, hsScalar del, UInt32 dirty)
{
// We don't have a position to init by, so do NOT eval yet!!!
if( fPrintDbgInfo )
plDebugText::Instance().DrawString( x, y, "Not eval-ing yet", (UInt32)0xffffffff );
plDebugText::Instance().DrawString( x, y, "Not eval-ing yet", (uint32_t)0xffffffff );
return true;
}
@ -165,7 +165,7 @@ hsBool plListener::IEval(double secs, hsScalar del, UInt32 dirty)
if( facingType == kInvalid || posType == kInvalid || velType == kInvalid )
{
if( fPrintDbgInfo )
plDebugText::Instance().DrawString( x, y, "Not eval-ing: missing one or more parameter bases", (UInt32)0xff0000ff );
plDebugText::Instance().DrawString( x, y, "Not eval-ing: missing one or more parameter bases", (uint32_t)0xff0000ff );
return true;
}
@ -184,19 +184,19 @@ hsBool plListener::IEval(double secs, hsScalar del, UInt32 dirty)
{
char str[ 256 ];
sprintf( str, "Direction: (%3.2f,%3.2f,%3.2f) from %s", dir.fX, dir.fY, dir.fZ, ( facingType == kObject ) ? pRefObject->GetKey()->GetUoid().GetObjectName() : "VCam" );
plDebugText::Instance().DrawString( x, y, str, (UInt32)0xffffffff );
plDebugText::Instance().DrawString( x, y, str, (uint32_t)0xffffffff );
y += 12;
sprintf( str, "Up: (%3.2f,%3.2f,%3.2f) from %s", up.fX, up.fY, up.fZ, ( facingType == kObject ) ? pRefObject->GetKey()->GetUoid().GetObjectName() : "VCam" );
plDebugText::Instance().DrawString( x, y, str, (UInt32)0xffffffff );
plDebugText::Instance().DrawString( x, y, str, (uint32_t)0xffffffff );
y += 12;
sprintf( str, "Position: (%3.2f,%3.2f,%3.2f) from %s", position.fX, position.fY, position.fZ, ( posType == kObject ) ? pRefObject->GetKey()->GetUoid().GetObjectName() : "VCam" );
plDebugText::Instance().DrawString( x, y, str, (UInt32)0xffffffff );
plDebugText::Instance().DrawString( x, y, str, (uint32_t)0xffffffff );
y += 12;
sprintf( str, "Velocity: (%3.2f,%3.2f,%3.2f) from %s", velocity.fX, velocity.fY, velocity.fZ, ( velType == kObject ) ? pRefObject->GetKey()->GetUoid().GetObjectName() : "VCam" );
plDebugText::Instance().DrawString( x, y, str, (UInt32)0xffffffff );
plDebugText::Instance().DrawString( x, y, str, (uint32_t)0xffffffff );
y += 12;
}
plgDispatch::MsgSend( msg );

8
Sources/Plasma/FeatureLib/pfAudio/plListener.h
Unescape View File

@ -63,9 +63,9 @@ public:
static void ShowDebugInfo( hsBool s ) { fPrintDbgInfo = s; }
// Get info for which object these things are attached to - camera or refObject
UInt8 GetAttachedPosType() { return (UInt8)fPosRatio; }
UInt8 GetAttachedFacingType() { return (UInt8)fFacingRatio; }
UInt8 GetAttachedVelType() { return (UInt8)fVelRatio; }
uint8_t GetAttachedPosType() { return (uint8_t)fPosRatio; }
uint8_t GetAttachedFacingType() { return (uint8_t)fFacingRatio; }
uint8_t GetAttachedVelType() { return (uint8_t)fVelRatio; }
enum
{
@ -88,7 +88,7 @@ protected:
static hsBool fPrintDbgInfo;
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
void ISetRef( const plKey &ref, hsBool binding, int type );
void ICheckAudio( void ) const;

10
Sources/Plasma/FeatureLib/pfAudio/plRandomSoundMod.cpp
Unescape View File

@ -66,7 +66,7 @@ void plRandomSoundModGroup::Read(hsStream *s)
{
fNumSounds = s->ReadLE16();
fGroupedIdx = s->ReadLE16();
fIndices = TRACKED_NEW UInt16[fNumSounds];
fIndices = TRACKED_NEW uint16_t[fNumSounds];
int i;
for (i = 0; i < fNumSounds; i++)
@ -127,7 +127,7 @@ void plRandomSoundMod::IStop()
else
{
if(fCurrent == -1) return;
UInt16 currentSndIdx = ( fGroups != nil ) ? fGroups[fCurrentGroup].fIndices[fCurrent] : fActiveList[fCurrent];
uint16_t currentSndIdx = ( fGroups != nil ) ? fGroups[fCurrentGroup].fIndices[fCurrent] : fActiveList[fCurrent];
plSoundMsg* snd = TRACKED_NEW plSoundMsg(GetKey(), GetTarget()->GetKey(), nil);
snd->SetCmd(plSoundMsg::kStop);
snd->fIndex = currentSndIdx;
@ -151,7 +151,7 @@ void plRandomSoundMod::IPlayNext()
}
int i;
UInt16 currentSndIdx;
uint16_t currentSndIdx;
int nSounds = (fGroups == nil ? ai->GetNumSounds() : fGroups[fCurrentGroup].fNumSounds);
fEndTimes.ExpandAndZero(nSounds);
plSound *pSound = nil;
@ -276,7 +276,7 @@ void plRandomSoundMod::IPlayNext()
}
}
void plRandomSoundMod::SetCurrentGroup(UInt16 group)
void plRandomSoundMod::SetCurrentGroup(uint16_t group)
{
hsAssert(group < fNumGroups, "Setting an invalid group on a random sound modifier");
@ -319,7 +319,7 @@ void plRandomSoundMod::Write(hsStream *s, hsResMgr *mgr)
void plRandomSoundMod::ForceSoundLoadState( hsBool loaded )
{
UInt16 i, j;
uint16_t i, j;
plAudioInterface* ai = IGetTargetAudioInterface(0);
if( ai == nil )

18
Sources/Plasma/FeatureLib/pfAudio/plRandomSoundMod.h
Unescape View File

@ -51,10 +51,10 @@ class plRandomSoundModGroup
{
public:
hsBitVector fExcluded;
Int8 fCurrent;
UInt16 fNumSounds;
UInt16 *fIndices;
Int16 fGroupedIdx; // Only used if we point to a groupedSound, in which case fIndices are indices into
int8_t fCurrent;
uint16_t fNumSounds;
uint16_t *fIndices;
int16_t fGroupedIdx; // Only used if we point to a groupedSound, in which case fIndices are indices into
// that sound. -1 if unused.
plRandomSoundModGroup();
@ -67,10 +67,10 @@ public:
class plRandomSoundMod : public plRandomCommandMod
{
protected:
UInt16 fCurrentGroup;
UInt16 fNumGroups;
uint16_t fCurrentGroup;
uint16_t fNumGroups;
plRandomSoundModGroup *fGroups;
std::vector<UInt16> fActiveList; // list of sounds we're allowed to choose
std::vector<uint16_t> fActiveList; // list of sounds we're allowed to choose
int fOldPriority; // old sound priority
hsBool fFirstTimePlay;
@ -91,14 +91,14 @@ public:
virtual void Read(hsStream* s, hsResMgr* mgr);
virtual void Write(hsStream* s, hsResMgr* mgr);
void SetCurrentGroup(UInt16 group);
void SetCurrentGroup(uint16_t group);
void ForceSoundLoadState( hsBool loaded );
hsBool MsgReceive(plMessage* msg);
float GetVolume();
// EXPORT ONLY
void SetGroupInfo(UInt16 numGroups, plRandomSoundModGroup *groups) { fNumGroups = numGroups; fGroups = groups; }
void SetGroupInfo(uint16_t numGroups, plRandomSoundModGroup *groups) { fNumGroups = numGroups; fGroups = groups; }
};
#endif // plRandomSoundMod_inc

2
Sources/Plasma/FeatureLib/pfCamera/pfCameraProxy.cpp
Unescape View File

@ -74,7 +74,7 @@ plKey plCameraProxy::IGetNode() const
return nil;
}
plDrawableSpans* plCameraProxy::ICreateProxy(hsGMaterial* mat, hsTArray<UInt32>& idx, plDrawableSpans* addTo)
plDrawableSpans* plCameraProxy::ICreateProxy(hsGMaterial* mat, hsTArray<uint32_t>& idx, plDrawableSpans* addTo)
{
if( fOwner )
{

2
Sources/Plasma/FeatureLib/pfCamera/pfCameraProxy.h
Unescape View File

@ -54,7 +54,7 @@ protected:
plVirtualCam1* fOwner;
virtual plDrawableSpans* ICreateProxy(hsGMaterial* mat, hsTArray<UInt32>& idx, plDrawableSpans* addTo=nil);
virtual plDrawableSpans* ICreateProxy(hsGMaterial* mat, hsTArray<uint32_t>& idx, plDrawableSpans* addTo=nil);
virtual plKey IGetNode() const;
public:
plCameraProxy();

6
Sources/Plasma/FeatureLib/pfCamera/plCameraBrain.h
Unescape View File

@ -362,7 +362,7 @@ public:
kCircleLocalAvatar = 0x40,
};
protected:
UInt32 fCircleFlags;
uint32_t fCircleFlags;
hsPoint3 fCenter;
plSceneObject* fCenterObject; // optional, use instead of fCenter
hsScalar fRadius;
@ -386,14 +386,14 @@ public:
virtual void Update(hsBool forced = false);
virtual hsBool MsgReceive(plMessage* msg);
UInt32 GetCircleFlags() { return fCircleFlags; }
uint32_t GetCircleFlags() { return fCircleFlags; }
hsPoint3* GetCenter() { return &fCenter; } // use GetCenterPoint
hsPoint3 GetCenterPoint();
hsScalar GetRadius() { return fRadius; }
plSceneObject* GetCenterObject() { return fCenterObject; }
void SetCircumferencePerSec(hsScalar h) { fCirPerSec = h; }
void SetCircleFlags(UInt32 f) { fCircleFlags|=f; }
void SetCircleFlags(uint32_t f) { fCircleFlags|=f; }
void SetCenter(hsPoint3* ctr) { fCenter = *ctr; } // Circle lies in the plane z = ctr->z
void SetRadius(hsScalar radius) { fRadius = radius; }
void SetFarCircleCam(hsBool farType) { if (farType) fCircleFlags |= kFarthest; else fCircleFlags &= ~kFarthest; }

2
Sources/Plasma/FeatureLib/pfCamera/plCameraModifier.h
Unescape View File

@ -96,7 +96,7 @@ class plCameraModifier1 : public plSingleModifier
protected:
void Output();
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty) { return true; }
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty) { return true; }
public:

2
Sources/Plasma/FeatureLib/pfCamera/plInterestingModifier.cpp
Unescape View File

@ -56,7 +56,7 @@ hsScalar plInterestingModifier::fInterestRadius = 100.0f;
hsScalar plInterestingModifier::fInterestWeight = 1.0f;
hsBool plInterestingModifier::IEval(double secs, hsScalar del, UInt32 dirty)
hsBool plInterestingModifier::IEval(double secs, hsScalar del, uint32_t dirty)
{
for (int i=0; i < GetNumTargets(); i++)
{

8
Sources/Plasma/FeatureLib/pfCamera/plInterestingModifier.h
Unescape View File

@ -61,13 +61,13 @@ protected:
kTypeLookAtMod,
};
UInt8 fType;
uint8_t fType;
hsScalar fView;
static hsScalar fInterestRadius;
static hsScalar fInterestWeight;
virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
public:
plInterestingModifier(){ fType = kTypeInteresting;}
@ -86,8 +86,8 @@ public:
virtual void AddTarget(plSceneObject* so);
void SetType(UInt8 type) { fType = type; }
UInt8 GetType() { return fType; }
void SetType(uint8_t type) { fType = type; }
uint8_t GetType() { return fType; }
};

4
Sources/Plasma/FeatureLib/pfCamera/plVirtualCamNeu.cpp
Unescape View File

@ -186,7 +186,7 @@ plVirtualCam1::plVirtualCam1()
// only open log file if logging is on
if ( !plStatusLog::fLoggingOff )
{
wchar fileAndPath[MAX_PATH];
wchar_t fileAndPath[MAX_PATH];
PathGetLogDirectory(fileAndPath, arrsize(fileAndPath));
PathAddFilename(fileAndPath, fileAndPath, L"camLog.txt", arrsize(fileAndPath));
foutLog = _wfopen( fileAndPath, L"wt" );
@ -490,7 +490,7 @@ void plVirtualCam1::ICreatePlate()
plMipmap *ourMip = fEffectPlate->CreateMaterial( 16, 16, true );
for( y = 0; y < ourMip->GetHeight(); y++ )
{
UInt32 *pixels = ourMip->GetAddr32( 0, y );
uint32_t *pixels = ourMip->GetAddr32( 0, y );
for( x = 0; x < ourMip->GetWidth(); x++ )
pixels[ x ] = 0xff000000;
}

32
Sources/Plasma/FeatureLib/pfCharacter/pfMarkerMgr.cpp
Unescape View File

@ -56,7 +56,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
////////////////////////////////////////////////////////////////////////////////
pfMarkerMgr* pfMarkerMgr::fInstance = nil;
const UInt32 pfMarkerMgr::kNoMarkerSelected = (UInt32)(-1);
const uint32_t pfMarkerMgr::kNoMarkerSelected = (uint32_t)(-1);
pfMarkerMgr* pfMarkerMgr::Instance()
{
@ -99,7 +99,7 @@ void pfMarkerMgr::IInit()
void pfMarkerMgr::IShutdown()
{
std::map<UInt32, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
std::map<uint32_t, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
while (curMarker != fMarkers.end())
{
curMarker->second->Remove();
@ -112,9 +112,9 @@ void pfMarkerMgr::IShutdown()
UnRegisterAs(kMarkerMgr_KEY);
}
pfMarkerInfo* pfMarkerMgr::IFindMarker(plKey markerKey, UInt32& id)
pfMarkerInfo* pfMarkerMgr::IFindMarker(plKey markerKey, uint32_t& id)
{
std::map<UInt32, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
std::map<uint32_t, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
while (curMarker != fMarkers.end())
{
if (curMarker->second->GetKey() == markerKey)
@ -131,7 +131,7 @@ pfMarkerInfo* pfMarkerMgr::IFindMarker(plKey markerKey, UInt32& id)
void pfMarkerMgr::IUpdate()
{
// Update all markers
std::map<UInt32, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
std::map<uint32_t, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
while (curMarker != fMarkers.end())
{
curMarker->second->Update(hsTimer::GetSeconds());
@ -145,7 +145,7 @@ void pfMarkerMgr::IMarkerHit(plKey markerKey, plKey playerKey)
return; // not the local player, abort
// make sure the marker isn't frozen
UInt32 id;
uint32_t id;
pfMarkerInfo* hitMarker = IFindMarker(markerKey, id);
if (!hitMarker)
return; // abort, something weird is going on
@ -159,7 +159,7 @@ void pfMarkerMgr::IMarkerHit(plKey markerKey, plKey playerKey)
msg->Send();
}
void pfMarkerMgr::AddMarker(double x, double y, double z, UInt32 id, bool justCreated)
void pfMarkerMgr::AddMarker(double x, double y, double z, uint32_t id, bool justCreated)
{
if (fMarkers.find(id) != fMarkers.end())
{
@ -173,7 +173,7 @@ void pfMarkerMgr::AddMarker(double x, double y, double z, UInt32 id, bool justCr
fMarkers[id]->Spawn(pfMarkerInfo::kMarkerOpen);
}
void pfMarkerMgr::RemoveMarker(UInt32 id)
void pfMarkerMgr::RemoveMarker(uint32_t id)
{
if (fMarkers.find(id) == fMarkers.end())
return;
@ -184,7 +184,7 @@ void pfMarkerMgr::RemoveMarker(UInt32 id)
void pfMarkerMgr::RemoveAllMarkers()
{
std::map<UInt32, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
std::map<uint32_t, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
while (curMarker != fMarkers.end())
{
curMarker->second->Remove();
@ -204,7 +204,7 @@ void pfMarkerMgr::ClearSelectedMarker()
}
}
void pfMarkerMgr::SetSelectedMarker(UInt32 id)
void pfMarkerMgr::SetSelectedMarker(uint32_t id)
{
ClearSelectedMarker();
@ -218,13 +218,13 @@ void pfMarkerMgr::SetSelectedMarker(UInt32 id)
}
}
UInt32 pfMarkerMgr::GetSelectedMarker()
uint32_t pfMarkerMgr::GetSelectedMarker()
{
return fSelectedMarker;
}
// for QUEST games (no teams)
void pfMarkerMgr::CaptureMarker(UInt32 id, bool captured)
void pfMarkerMgr::CaptureMarker(uint32_t id, bool captured)
{
if (fMarkers.find(id) == fMarkers.end())
return;
@ -239,7 +239,7 @@ void pfMarkerMgr::CaptureMarker(UInt32 id, bool captured)
}
// for TEAM games (0 = not captured)
void pfMarkerMgr::CaptureMarker(UInt32 id, int team)
void pfMarkerMgr::CaptureMarker(uint32_t id, int team)
{
if (fMarkers.find(id) == fMarkers.end())
return;
@ -263,13 +263,13 @@ void pfMarkerMgr::LocalShowMarkers(bool show)
fShowingLocalMarkers = show;
if (show)
{
std::map<UInt32, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
std::map<uint32_t, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
while (curMarker != fMarkers.end())
curMarker->second->Show(true);
}
else
{
std::map<UInt32, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
std::map<uint32_t, pfMarkerInfo*>::iterator curMarker = fMarkers.begin();
while (curMarker != fMarkers.end())
curMarker->second->Show(false);
}
@ -317,7 +317,7 @@ hsBool pfMarkerMgr::MsgReceive(plMessage* msg)
plKey cloneKey = cloneMsg->GetCloneKey();
if (cloneMsg->GetIsLoading() && cloneKey)
{
UInt32 id;
uint32_t id;
pfMarkerInfo* marker = IFindMarker(cloneKey, id);
marker->InitSpawned(cloneKey);
}

20
Sources/Plasma/FeatureLib/pfCharacter/pfMarkerMgr.h
Unescape View File

@ -68,14 +68,14 @@ protected:
bool fShowingLocalMarkers;
bool fMarkersRespawn;
UInt32 fSelectedMarker;
static const UInt32 kNoMarkerSelected;
std::map<UInt32, pfMarkerInfo*> fMarkers; // key is marker id number
uint32_t fSelectedMarker;
static const uint32_t kNoMarkerSelected;
std::map<uint32_t, pfMarkerInfo*> fMarkers; // key is marker id number
void IInit();
void IShutdown();
pfMarkerInfo* IFindMarker(plKey markerKey, UInt32& id);
pfMarkerInfo* IFindMarker(plKey markerKey, uint32_t& id);
void IUpdate();
void IMarkerHit(plKey markerKey, plKey playerKey);
@ -91,19 +91,19 @@ public:
hsBool MsgReceive(plMessage* msg);
void AddMarker(double x, double y, double z, UInt32 id, bool justCreated);
void RemoveMarker(UInt32 id);
void AddMarker(double x, double y, double z, uint32_t id, bool justCreated);
void RemoveMarker(uint32_t id);
void RemoveAllMarkers();
void ClearSelectedMarker();
void SetSelectedMarker(UInt32 id);
UInt32 GetSelectedMarker();
void SetSelectedMarker(uint32_t id);
uint32_t GetSelectedMarker();
void SetMarkersRespawn(bool respawn) {fMarkersRespawn = respawn;}
bool GetMarkersRespawn() {return fMarkersRespawn;}
void CaptureMarker(UInt32 id, bool captured); // for QUEST games (no teams)
void CaptureMarker(UInt32 id, int team); // for TEAM games (0 = not captured)
void CaptureMarker(uint32_t id, bool captured); // for QUEST games (no teams)
void CaptureMarker(uint32_t id, int team); // for TEAM games (0 = not captured)
// Shows your markers locally, so you can see where they are
void LocalShowMarkers(bool show = true);

2
Sources/Plasma/FeatureLib/pfCharacter/plPlayerModifier.cpp
Unescape View File

@ -277,7 +277,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
//hsPoint3 forceRight(-200,0,0);
//hsPoint3 forceUp(0,0,15);
//
//hsBool plPlayerModifier::IEval(double secs, hsScalar del, UInt32 dirty)
//hsBool plPlayerModifier::IEval(double secs, hsScalar del, uint32_t dirty)
//{
// // setup for local player if necessary
// if (HasFlag(kNeedsLocalSetup))

2
Sources/Plasma/FeatureLib/pfCharacter/plPlayerModifier.h
Unescape View File

@ -129,7 +129,7 @@ You can contact Cyan Worlds, Inc. by email legal@cyan.com
// virtual void RemoveTarget(plSceneObject* so);
//
// hsBool HandleControlInput(plControlEventMsg* pMsg);
// virtual hsBool IEval(double secs, hsScalar del, UInt32 dirty);
// virtual hsBool IEval(double secs, hsScalar del, uint32_t dirty);
//
// void SetMoving(hsBool b);
// hsBool IsMoving() { return bMoving; }

2
Sources/Plasma/FeatureLib/pfConditional/plControlEventConditionalObject.cpp
Unescape View File

@ -78,7 +78,7 @@ void plControlEventConditionalObject::Read(hsStream* stream, hsResMgr* mgr)
void plControlEventConditionalObject::Write(hsStream* stream, hsResMgr* mgr)
{
plConditionalObject::Write(stream, mgr);
stream->WriteLE32((UInt32)fControlEvent);
stream->WriteLE32((uint32_t)fControlEvent);
}

2
Sources/Plasma/FeatureLib/pfConditional/plKeyPressConditionalObject.cpp
Unescape View File

@ -78,7 +78,7 @@ void plKeyPressConditionalObject::Read(hsStream* stream, hsResMgr* mgr)
void plKeyPressConditionalObject::Write(hsStream* stream, hsResMgr* mgr)
{
plConditionalObject::Write(stream, mgr);
stream->WriteLE32((UInt32)fKeyEvent);
stream->WriteLE32((uint32_t)fKeyEvent);
}

Some files were not shown because too many files have changed in this diff Show More

Write Preview
Loading…
Cancel
Save