From 4dc8f0ba4f47191fdaefad5c6d42b255d0bbc435 Mon Sep 17 00:00:00 2001 From: brunzelchen Date: Mon, 24 May 2010 13:37:22 +0000 Subject: branch to merge video preview in song menu git-svn-id: svn://svn.code.sf.net/p/ultrastardx/svn/branches/experimental@2411 b956fd51-792f-4845-bead-9b4dfca2ff2c --- VideoPreview/src/base/UCommon.pas | 609 ++++++++++++++++++++++++++++++++++++++ 1 file changed, 609 insertions(+) create mode 100644 VideoPreview/src/base/UCommon.pas (limited to 'VideoPreview/src/base/UCommon.pas') diff --git a/VideoPreview/src/base/UCommon.pas b/VideoPreview/src/base/UCommon.pas new file mode 100644 index 00000000..18022337 --- /dev/null +++ b/VideoPreview/src/base/UCommon.pas @@ -0,0 +1,609 @@ +{* UltraStar Deluxe - Karaoke Game + * + * UltraStar Deluxe is the legal property of its developers, whose names + * are too numerous to list here. Please refer to the COPYRIGHT + * file distributed with this source distribution. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; see the file COPYING. If not, write to + * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, + * Boston, MA 02110-1301, USA. + * + * $URL$ + * $Id$ + *} + +unit UCommon; + +interface + +{$IFDEF FPC} + {$MODE Delphi} +{$ENDIF} + +{$I switches.inc} + +uses + SysUtils, + Classes, + {$IFDEF MSWINDOWS} + Windows, + {$ENDIF} + UConfig, + ULog, + UPath; + +type + TStringDynArray = array of string; + TUTF8StringDynArray = array of UTF8String; + +const + SepWhitespace = [#9, #10, #13, ' ']; // tab, lf, cr, space + +{** + * Splits a string into pieces separated by Separators. + * MaxCount specifies the max. number of pieces. If it is <= 0 the number is + * not limited. If > 0 the last array element will hold the rest of the string + * (with leading separators removed). + * + * Examples: + * SplitString(' split me now ', 0) -> ['split', 'me', 'now'] + * SplitString(' split me now ', 1) -> ['split', 'me now'] + *} +function SplitString(const Str: string; MaxCount: integer = 0; Separators: TSysCharSet = SepWhitespace): TStringDynArray; + + +type + TMessageType = (mtInfo, mtError); + +procedure ShowMessage(const msg: string; msgType: TMessageType = mtInfo); + +procedure ConsoleWriteLn(const msg: string); + +{$IFDEF FPC} +function RandomRange(aMin: integer; aMax: integer): integer; +{$ENDIF} + +procedure DisableFloatingPointExceptions(); +procedure SetDefaultNumericLocale(); +procedure RestoreNumericLocale(); + +{$IFNDEF MSWINDOWS} +procedure ZeroMemory(Destination: pointer; Length: dword); +function MakeLong(a, b: word): longint; +{$ENDIF} + +// A stable alternative to TList.Sort() (use TList.Sort() if applicable, see below) +procedure MergeSort(List: TList; CompareFunc: TListSortCompare); + +function GetAlignedMem(Size: cardinal; Alignment: integer): pointer; +procedure FreeAlignedMem(P: pointer); + +function GetArrayIndex(const SearchArray: array of UTF8String; Value: string; CaseInsensitiv: boolean = false): integer; + + +implementation + +uses + Math, + {$IFDEF Delphi} + Dialogs, + {$ENDIF} + sdl, + UFilesystem, + UMain, + UUnicodeUtils; + +function SplitString(const Str: string; MaxCount: integer; Separators: TSysCharSet): TStringDynArray; + + {* + * Adds Str[StartPos..Endpos-1] to the result array. + *} + procedure AddSplit(StartPos, EndPos: integer); + begin + SetLength(Result, Length(Result)+1); + Result[High(Result)] := Copy(Str, StartPos, EndPos-StartPos); + end; + +var + I: integer; + Start: integer; + Last: integer; +begin + Start := 0; + SetLength(Result, 0); + + for I := 1 to Length(Str) do + begin + if (Str[I] in Separators) then + begin + // end of component found + if (Start > 0) then + begin + AddSplit(Start, I); + Start := 0; + end; + end + else if (Start = 0) then + begin + // mark beginning of component + Start := I; + // check if this is the last component + if (Length(Result) = MaxCount-1) then + begin + // find last non-separator char + Last := Length(Str); + while (Str[Last] in Separators) do + Dec(Last); + // add component up to last non-separator + AddSplit(Start, Last); + Exit; + end; + end; + end; + + // last component + if (Start > 0) then + AddSplit(Start, Length(Str)+1); +end; + +// data used by the ...Locale() functions +{$IF Defined(Linux) or Defined(FreeBSD)} + +var + PrevNumLocale: string; + +const + LC_NUMERIC = 1; + +function setlocale(category: integer; locale: pchar): pchar; cdecl; external 'c' name 'setlocale'; + +{$IFEND} + +// In Linux and maybe MacOSX some units (like cwstring) call setlocale(LC_ALL, '') +// to set the language/country specific locale (e.g. charset) for this application. +// Unfortunately, LC_NUMERIC is set by this call too. +// It defines the decimal-separator and other country-specific numeric settings. +// This parameter is used by the C string-to-float parsing functions atof() and strtod(). +// After changing LC_NUMERIC some external C-based libs (like projectM) are not +// able to parse strings correctly +// (e.g. in Germany "0.9" is not recognized as a valid number anymore but "0,9" is). +// So we reset the numeric settings to the default ('C'). +// Note: The behaviour of Pascal parsing functions (e.g. strtofloat()) is not +// changed by this because it doesn't use the locale-settings. +// TODO: +// - Check if this is needed in MacOSX (at least the locale is set in cwstring) +// - Find out which libs are concerned by this problem. +// If only projectM is concerned by this problem set and restore the numeric locale +// for each call to projectM instead of changing it globally. +procedure SetDefaultNumericLocale(); +begin + {$IF Defined(LINUX) or Defined(FreeBSD)} + PrevNumLocale := setlocale(LC_NUMERIC, nil); + setlocale(LC_NUMERIC, 'C'); + {$IFEND} +end; + +procedure RestoreNumericLocale(); +begin + {$IF Defined(LINUX) or Defined(FreeBSD)} + setlocale(LC_NUMERIC, PChar(PrevNumLocale)); + {$IFEND} +end; + +(* + * If an invalid floating point operation was performed the Floating-point unit (FPU) + * generates a Floating-point exception (FPE). Dependending on the settings in + * the FPU's control-register (interrupt mask) the FPE is handled by the FPU itself + * (we will call this as "FPE disabled" later on) or is passed to the application + * (FPE enabled). + * If FPEs are enabled a floating-point division by zero (e.g. 10.0 / 0.0) is + * considered an error and an exception is thrown. Otherwise the FPU will handle + * the error and return the result infinity (INF) (10.0 / 0.0 = INF) without + * throwing an error to the application. + * The same applies to a division by INF that either raises an exception + * (FPE enabled) or returns 0.0 (FPE disabled). + * Normally (as with C-programs), Floating-point exceptions (FPE) are DISABLED + * on program startup (at least with Intel CPUs), but for some strange reasons + * they are ENABLED in pascal (both delphi and FPC) by default. + * Many libs operating with floating-point values rely heavily on the C-specific + * behaviour. So using them in delphi is a ticking time-bomb because sooner or + * later they will crash because of an FPE (this problem occurs massively + * in OpenGL-based libs like projectM). In contrast to this no error will occur + * if the lib is linked to a C-program. + * + * Further info on FPUs: + * For x86 and x86_64 CPUs we have to consider two FPU instruction sets. + * The math co-processor i387 (aka 8087 or x87) set introduced with the i386 + * and SSE (Streaming SIMD Extensions) introduced with the Pentium3. + * Both of them have separate control-registers (x87: FPUControlWord, SSE: MXCSR) + * to control FPEs. Either has (among others) 6bits to enable/disable several + * exception types (Invalid,Denormalized,Zero,Overflow,Underflow,Precision). + * Those exception-types must all be masked (=1) to get the default C behaviour. + * The control-registers can be set with the asm-ops FLDCW (x87) and LDMXCSR (SSE). + * Instead of using assembler code, we can use Set8087CW() provided by delphi and + * FPC to set the x87 control-word. FPC also provides SetSSECSR() for SSE's MXCSR. + * Note that both Delphi and FPC enable FPEs (e.g. for div-by-zero) on program + * startup but only FPC enables FPEs (especially div-by-zero) for SSE too. + * So we have to mask FPEs for x87 in Delphi and FPC and for SSE in FPC only. + * FPC and Delphi both provide a SetExceptionMask() for control of the FPE + * mask. SetExceptionMask() sets the masks for x87 in Delphi and for x87 and SSE + * in FPC (seems as if Delphi [2005] is not SSE aware). So SetExceptionMask() + * is what we need and it even is plattform and CPU independent. + * + * Pascal OpenGL headers (like the Delphi standard ones or JEDI-SDL headers) + * already call Set8087CW() to disable FPEs but due to some bugs in the JEDI-SDL + * headers they do not work properly with FPC. I already patched them, so they + * work at least until they are updated the next time. In addition Set8086CW() + * does not suffice to disable FPEs because the SSE FPEs are not disabled by this. + * FPEs with SSE are a big problem with some libs because many linux distributions + * optimize code for SSE or Pentium3 (for example: int(INF) which convert the + * double value "infinity" to an integer might be automatically optimized by + * using SSE's CVTSD2SI instruction). So SSE FPEs must be turned off in any case + * to make USDX portable. + * + * Summary: + * Call this function on initialization to make sure FPEs are turned off. + * It will solve a lot of errors with FPEs in external libs. + *) +procedure DisableFloatingPointExceptions(); +begin + (* + // We will use SetExceptionMask() instead of Set8087CW()/SetSSECSR(). + // Note: Leave these lines for documentation purposes just in case + // SetExceptionMask() does not work anymore (due to bugs in FPC etc.). + {$IF Defined(CPU386) or Defined(CPUI386) or Defined(CPUX86_64)} + Set8087CW($133F); + {$IFEND} + {$IF Defined(FPC)} + if (has_sse_support) then + SetSSECSR($1F80); + {$IFEND} + *) + + // disable all of the six FPEs (x87 and SSE) to be compatible with C/C++ and + // other libs which rely on the standard FPU behaviour (no div-by-zero FPE anymore). + SetExceptionMask([exInvalidOp, exDenormalized, exZeroDivide, + exOverflow, exUnderflow, exPrecision]); +end; + +{$IFNDEF MSWINDOWS} +procedure ZeroMemory(Destination: pointer; Length: dword); +begin + FillChar(Destination^, Length, 0); +end; + +function MakeLong(A, B: word): longint; +begin + Result := (LongInt(B) shl 16) + A; +end; + +{$ENDIF} + +{$IFDEF FPC} +function RandomRange(aMin: integer; aMax: integer): integer; +begin + RandomRange := Random(aMax - aMin) + aMin ; +end; +{$ENDIF} + + +{$IFDEF FPC} +var + MessageList: TStringList; + ConsoleHandler: TThreadID; + // Note: TRTLCriticalSection is defined in the units System and Libc, use System one + ConsoleCriticalSection: System.TRTLCriticalSection; + ConsoleEvent: PRTLEvent; + ConsoleQuit: boolean; +{$ENDIF} + +(* + * Write to console if one is available. + * It checks if a console is available before output so it will not + * crash on windows if none is available. + * Do not use this function directly because it is not thread-safe, + * use ConsoleWriteLn() instead. + *) +procedure _ConsoleWriteLn(const aString: string); {$IFDEF HasInline}inline;{$ENDIF} +begin + {$IFDEF MSWINDOWS} + // sanity check to avoid crashes with writeln() + if (IsConsole) then + begin + {$ENDIF} + Writeln(aString); + {$IFDEF MSWINDOWS} + end; + {$ENDIF} +end; + +{$IFDEF FPC} +{* + * The console-handlers main-function. + * TODO: create a quit-event on closing. + *} +function ConsoleHandlerFunc(param: pointer): PtrInt; +var + i: integer; + quit: boolean; +begin + quit := false; + while (not quit) do + begin + // wait for new output or quit-request + RTLeventWaitFor(ConsoleEvent); + + System.EnterCriticalSection(ConsoleCriticalSection); + // output pending messages + for i := 0 to MessageList.Count - 1 do + begin + _ConsoleWriteLn(MessageList[i]); + end; + MessageList.Clear(); + + // use local quit-variable to avoid accessing + // ConsoleQuit outside of the critical section + if (ConsoleQuit) then + quit := true; + + RTLeventResetEvent(ConsoleEvent); + System.LeaveCriticalSection(ConsoleCriticalSection); + end; + result := 0; +end; +{$ENDIF} + +procedure InitConsoleOutput(); +begin + {$IFDEF FPC} + // init thread-safe output + MessageList := TStringList.Create(); + System.InitCriticalSection(ConsoleCriticalSection); + ConsoleEvent := RTLEventCreate(); + ConsoleQuit := false; + // must be a thread managed by FPC. Otherwise (e.g. SDL-thread) + // it will crash when using Writeln. + ConsoleHandler := BeginThread(@ConsoleHandlerFunc); + {$ENDIF} +end; + +procedure FinalizeConsoleOutput(); +begin + {$IFDEF FPC} + // terminate console-handler + System.EnterCriticalSection(ConsoleCriticalSection); + ConsoleQuit := true; + RTLeventSetEvent(ConsoleEvent); + System.LeaveCriticalSection(ConsoleCriticalSection); + WaitForThreadTerminate(ConsoleHandler, 0); + // free data + System.DoneCriticalsection(ConsoleCriticalSection); + RTLeventDestroy(ConsoleEvent); + MessageList.Free(); + {$ENDIF} +end; + +{* + * FPC uses threadvars (TLS) managed by FPC for console output locking. + * Using WriteLn() from external threads (like in SDL callbacks) + * will crash the program as those threadvars have never been initialized. + * The solution is to create an FPC-managed thread which has the TLS data + * and use it to handle the console-output (hence it is called Console-Handler) + *} +procedure ConsoleWriteLn(const msg: string); +begin +{$IFDEF CONSOLE} + {$IFDEF FPC} + // TODO: check for the main-thread and use a simple _ConsoleWriteLn() then? + //GetCurrentThreadThreadId(); + System.EnterCriticalSection(ConsoleCriticalSection); + MessageList.Add(msg); + RTLeventSetEvent(ConsoleEvent); + System.LeaveCriticalSection(ConsoleCriticalSection); + {$ELSE} + _ConsoleWriteLn(msg); + {$ENDIF} +{$ENDIF} +end; + +procedure ShowMessage(const msg: String; msgType: TMessageType); +{$IFDEF MSWINDOWS} +var Flags: cardinal; +{$ENDIF} +begin +{$IF Defined(MSWINDOWS)} + case msgType of + mtInfo: Flags := MB_ICONINFORMATION or MB_OK; + mtError: Flags := MB_ICONERROR or MB_OK; + else Flags := MB_OK; + end; + MessageBox(0, PChar(msg), PChar(USDXVersionStr()), Flags); +{$ELSE} + ConsoleWriteln(msg); +{$IFEND} +end; + +(* + * Recursive part of the MergeSort algorithm. + * OutList will be either InList or TempList and will be swapped in each + * depth-level of recursion. By doing this it we can directly merge into the + * output-list. If we only had In- and OutList parameters we had to merge into + * InList after the recursive calls and copy the data to the OutList afterwards. + *) +procedure _MergeSort(InList, TempList, OutList: TList; StartPos, BlockSize: integer; + CompareFunc: TListSortCompare); +var + LeftSize, RightSize: integer; // number of elements in left/right block + LeftEnd, RightEnd: integer; // Index after last element in left/right block + MidPos: integer; // index of first element in right block + Pos: integer; // position in output list +begin + LeftSize := BlockSize div 2; + RightSize := BlockSize - LeftSize; + MidPos := StartPos + LeftSize; + + // sort left and right halves of this block by recursive calls of this function + if (LeftSize >= 2) then + _MergeSort(InList, OutList, TempList, StartPos, LeftSize, CompareFunc) + else + TempList[StartPos] := InList[StartPos]; + if (RightSize >= 2) then + _MergeSort(InList, OutList, TempList, MidPos, RightSize, CompareFunc) + else + TempList[MidPos] := InList[MidPos]; + + // merge sorted left and right sub-lists into output-list + LeftEnd := MidPos; + RightEnd := StartPos + BlockSize; + Pos := StartPos; + while ((StartPos < LeftEnd) and (MidPos < RightEnd)) do + begin + if (CompareFunc(TempList[StartPos], TempList[MidPos]) <= 0) then + begin + OutList[Pos] := TempList[StartPos]; + Inc(StartPos); + end + else + begin + OutList[Pos] := TempList[MidPos]; + Inc(MidPos); + end; + Inc(Pos); + end; + + // copy remaining elements to output-list + while (StartPos < LeftEnd) do + begin + OutList[Pos] := TempList[StartPos]; + Inc(StartPos); + Inc(Pos); + end; + while (MidPos < RightEnd) do + begin + OutList[Pos] := TempList[MidPos]; + Inc(MidPos); + Inc(Pos); + end; +end; + +(* + * Stable alternative to the instable TList.Sort() (uses QuickSort) implementation. + * A stable sorting algorithm preserves preordered items. E.g. if sorting by + * songs by title first and artist afterwards, the songs of each artist will + * be ordered by title. In contrast to this an unstable algorithm (like QuickSort) + * may destroy an existing order, so the songs of an artist will not be ordered + * by title anymore after sorting by artist in the previous example. + * If you do not need a stable algorithm, use TList.Sort() instead. + *) +procedure MergeSort(List: TList; CompareFunc: TListSortCompare); +var + TempList: TList; +begin + TempList := TList.Create(); + TempList.Count := List.Count; + if (List.Count >= 2) then + _MergeSort(List, TempList, List, 0, List.Count, CompareFunc); + TempList.Free; +end; + +(** + * Returns the index of Value in SearchArray + * or -1 if Value is not in SearchArray. + *) +function GetArrayIndex(const SearchArray: array of UTF8String; Value: string; + CaseInsensitiv: boolean = false): integer; +var + i: integer; +begin + Result := -1; + + for i := 0 to High(SearchArray) do + begin + if (SearchArray[i] = Value) or + (CaseInsensitiv and (CompareText(SearchArray[i], Value) = 0)) then + begin + Result := i; + Break; + end; + end; +end; + + +type + // stores the unaligned pointer of data allocated by GetAlignedMem() + PMemAlignHeader = ^TMemAlignHeader; + TMemAlignHeader = pointer; + +(** + * Use this function to assure that allocated memory is aligned on a specific + * byte boundary. + * Alignment must be a power of 2. + * + * Important: Memory allocated with GetAlignedMem() MUST be freed with + * FreeAlignedMem(), FreeMem() will cause a segmentation fault. + * + * Hint: If you do not need dynamic memory, consider to allocate memory + * statically and use the {$ALIGN x} compiler directive. Note that delphi + * supports an alignment "x" of up to 8 bytes only whereas FPC supports + * alignments on 16 and 32 byte boundaries too. + *) +{$WARNINGS OFF} +function GetAlignedMem(Size: cardinal; Alignment: integer): pointer; +var + OrigPtr: pointer; +const + MIN_ALIGNMENT = 16; +begin + // Delphi and FPC (tested with 2.2.0) align memory blocks allocated with + // GetMem() at least on 8 byte boundaries. Delphi uses a minimal alignment + // of either 8 or 16 bytes depending on the size of the requested block + // (see System.GetMinimumBlockAlignment). As we do not want to change the + // boundary for the worse, we align at least on MIN_ALIGN. + if (Alignment < MIN_ALIGNMENT) then + Alignment := MIN_ALIGNMENT; + + // allocate unaligned memory + GetMem(OrigPtr, SizeOf(TMemAlignHeader) + Size + Alignment); + if (OrigPtr = nil) then + begin + Result := nil; + Exit; + end; + + // reserve space for the header + Result := pointer(PtrUInt(OrigPtr) + SizeOf(TMemAlignHeader)); + // align memory + Result := pointer(PtrUInt(Result) + Alignment - PtrUInt(Result) mod Alignment); + + // set header with info on old pointer for FreeMem + PMemAlignHeader(PtrUInt(Result) - SizeOf(TMemAlignHeader))^ := OrigPtr; +end; +{$WARNINGS ON} + +{$WARNINGS OFF} +procedure FreeAlignedMem(P: pointer); +begin + if (P <> nil) then + FreeMem(PMemAlignHeader(PtrUInt(P) - SizeOf(TMemAlignHeader))^); +end; +{$WARNINGS ON} + + +initialization + InitConsoleOutput(); + +finalization + FinalizeConsoleOutput(); + +end. -- cgit v1.2.3