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Based on the Outlook UDF written by wooltown, we (wooltown and I) decided to extend the functionality of the Outlook UDF. As the OutlookEX UDF ("EX" like "extended") has a completely different approach compared to the Outlook UDF it's a complete rewrite. We would like to discuss the design of the UDF with the community. Every feedback, function request etc. is highly welcome. As soon as the discussion shows that we are on the right track we would like to release an alpha version for everyone to test. So please don't be shy and post what you think of this UDF or what functions you need! Every item in Outlook is uniquely identified by EntryID and StoreID. The default StoreID is your inbox Every item has properties to describe the item (subject, startdate ..) and methods to act upon the item (move, delete …) The search and action functions are now separated. As an example the user first searches for the items to be deleted and then calls the delete function If a method can be used for more than one item type (e.g. mail, calendar and notes) the function is called _OL_ItemXXX else the function is called _OL_CalendarXXX The number of properties you can get or pass to most functions is not limited by the number of parameters defined for the function. Properties can be passed as parameters (up to 10) or in an unlimited array as parameter 1 The UDF allows to access all kind of folders (see the following listing). Folders can be passed by name or as an object to a function A lot of testing is still needed as we have written and tested the functions using Outlook 2002 SP3 and Outlook 2010 "wrapper" or "shortcut" functions will be available to let you do all tasks in one go e.g. _OL_Wrapper_SendMail for all functions above. Documentation: The documentation for this UDF (aside from the docu in the UDF itself) will be placed in the AutoIt Wiki. So we can easily modify the docu without releasing a new version each time. There will be pages describing the UDF in general and pages for individual item types (like mail) with detailed information and a lot of tips & tricks. Tested with Outlook 2003 and 2010. Some users reported that it works with Outlook 2013 as well. Starting point: http://www.autoitscript.com/wiki/OutlookEX_UDF_-_General Download

BASS Function Library This library is a wrapper for the powerful Bass.DLL and add-ons (which increase the functionality of Bass.DLL). Bass.DLL is ideal for use in your applications and scripts if you want an easy way to play a vast range of music and sound files formats while keeping dependency on just Bass.dll and it's add-ons (which in turn maximizes compatibility and minimizes extra requirements for your software to run.), while retaining a small file size. The UDFs included with the release are: Bass The basic Bass library. Required with all (most) add-on libraries. Provides playback of many sound files (and streams). BassASIO (By eukalyptus) BASSASIO is basically a wrapper for ASIO drivers, with the addition of channel joining, format conversion and resampling. BassCD Allows for digital streaming and ripping of audio CDs along with analog playback support. BassFX (By eukalyptus/BrettF) An extension providing several effects, including tempo & pitch control. BassEnc (By eukalyptus) An extension that allows BASS channels to be encoded using any command-line encoder with STDIN support (LAME/OGGENC/etc), or any ACM codec. Also features Shoutcast and Icecast stream sourcing, and PCM/WAV file writing. BassSFX Provides a complete set of functions to include support for winamp, sonique, bassbox, and Windows Media Player visualization plugins. BassTags Provides a simple way to retrieve ID3 tags from stream handles. BassCB/Bass_EXT (ProgAndy) This is for advanced users. BassCB allows the playback of streams in AutoIt. BassVST Allows use of VST effect plugins. Download The download includes all of the wrapper and constants, the original download, examples for all of the previously mentioned add-ons, sample audio files (6 channel audio files also included), sample visualization plugins for BassSFx and more. Current Version: 9 Size: 7360KB AutoIt Version Required: 3.3.2.0 Changelog: /> Fixed _BassRecordGetInputName (updated production versions) +> Added Memory Examples of Bass (Thanks ProgAndy and UEZ) +> Added BassVST (Not 100% complete) +> Added BassFX Examples showing use of most functions: Pitch.au3 Reverse.au3 Tempo.au3 /> Fixed error with calling _BASS_ErrorGetCode in BASSCD.au3 /> Fixed startup functions return the wrong value (Thanks ProgAndy!) +> Added helper functions _BASS_ChannelSetVolume, _BASS_ChannelGetVolume (Thanks ProgAndy) Download Link: https://www.autoitscript.com/forum/files/file/493-basszip/ Previous versions are not supported. Patches: Patch 1 "BASS_ASIO" Fixes issues with BASS ASIO and examples. Patch 2 "BASS_FX/BASS" Fixes issues with BASS FX and BASS.

NEW VERSION: 17 Jun 2013 Ever wondered how to avoid input being so painful? You can type a lot of errors in a GUICtrlCreateInput, for example alphanumeric where you want only numbers and decimals, typing 10 characters where you only want 9, etc. Input masks can make your life easier and Validation can be as simple as this: GuiCtrlCreateLabel("Input Decimal(8,2)", 10, 110, 200, 15) $MyInput = GUICtrlCreateInput("",210,110,110,20) _Inputmask_add($MyInput, $iIM_INTEGER, 0, "", 8, 2) It requires only one additional line per input The UDFexample script demonstrates 13 dynamic input validations. A lot more validations can be made. Up to you to be inventive. _inputmask 1.0.0.5.zip Enhanced: Better input control - The previous versions worked well with blank fields but editing non-blank inputs was really a pain. Now the cursor remains where the edit is occurring. Once the max width is reached, no additional characters can be added. - Added beep on invalid entry. In fact I use soundplay instead of beep because beep gives a cracking sound result on my laptop. You can set beep off (put Global $bBeep = False anywhere in your script) If you prefer a true beep, you can beep it on in line 150. Minor issue: - decimal Numbers after the '.' scroll away when inserting until it bumps to the max allowed decimals. I didn't fix that yet, I don't know how to solve this ... Examples: Example 1 _inputmask - example.au3 (see zip file) Example 2: _Inputmask combining two WM_COMMAND handlers (see zip file) Thanks to Melba23 for his explanation how to combine GUIRegisterMsg WM_COMMAND handlers) If you create your own input mask that could be useful for the AutoIt community, please let me know, I will be glad to add it to the above example. GreenCan

mus++ is a new scripting language written in ASCII which can be typed on most computer keyboards. The whole concept is based on the rules and syntax of written music, so the code can be directly transfered to a standard score without having to calculate the milisecond duration of some complicated binary variant, or having to deal with any other non-musical code elements. The language itself is much better than the interpreter, but that's hopefully going to change in the future. There are some problems which I have not yet managed to solve. Even so, this current interpreter is just about good enough for my own purposes. The deficiencies in the interpreter have no bearing whatsoever on the dynamic flexibility of mus++. #include-once #include <Array.au3> ; Example 1 - Happy Birthday Local $source = "<pno> ;=125 (G -G) Q | ;A G 1, C' | +'B' :| 2, D' | +C DC | Q ;G' E C | 'B' A (F' -F) | ;E C D | +C " _MusPlusPlus($source) Sleep(600) ; Example 2 - Mozart $source = @CRLF & "<fl> ;=146 3/4 |: G | C' E C | G B G | +.C'' | +B' ;G | G -G G ;G |" $source &= @CRLF & "<fl> ;=146 3/4 |: ; | E +G | ;B D' 'B' | -C' 'B' C' D E F# | ;G 'G' B | C' -C 'B' ;C'' |" $source &= @CRLF & "<cl> ;=146 3/4 |: ; | +. | +G ; | +. | +. | ;E' -E D ;E |" $source &= @CRLF & "<tpt> ;=146 3/4 |: 'G | 'C' E C | ;'G ; 'G' | C ; C' | 'G' + | ;G -G G ;G |" $source &= @CRLF & "<timp> ;=146 3/4 |: ''G | +'C ;C | +''G ;G | A A A | G -G G G G | +.G |" $source &= @CRLF ; Line Breaks are represented by empty lines $source &= @CRLF & " ;G -G G ;G | G A B | C'' ; fin :| D' | +'B' ;C' | -D G F# G F G | +'B' ;C' | D ; DC " $source &= @CRLF & " D -D C ;D | 'B' C' D | C ; fin :| 'B' | +G ;A | +. | +G ;A | B ; DC " $source &= @CRLF & " F -F E ;F | 'G' A B | G ; fin :| ; | +.G' | _;G + | +.G' | _;G 'G' DC " $source &= @CRLF & " ;G -G G ;G | 'G G G |'C' ; fin :| ; | 'G G G | +.'G' | ;'G G G | G ; DC " $source &= @CRLF & " G | ;G G G | +''C fin :| ; | +.''G | ;G G G | +.G | ;G G DC " _MusPlusPlus($source) Func _MusPlusPlus($sSource) ; Parse mus++ $sSource = _InitialTidySource($sSource) If @error Then Return SetError(1, 0, 0) Local $iParts = 8, $aSystems = StringSplit($sSource, @LF & @LF, 1) Local $aVoices[$iParts] = ["","","","","","","",""], $aStaves For $i = 1 To $aSystems[0] $aStaves = StringSplit($aSystems[$i], @LF) If $i = 1 And $aStaves[0] <= 8 Then $iParts = $aStaves[0] ReDim $aVoices [$iParts] ElseIf $iParts <> $aStaves[0] Then Return SetError (2, 0, 0) ; Inconsistant number of voices EndIf For $j = 0 To $iParts -1 $aVoices[$j] &= " " & $aStaves[$j +1] Next Next Local $aTimeLine, $aRepeat[1][11], $iInstance, $vCurrInstrument, $vCurrKey, $sCurrNote, $iCurrOctave, $sLookFor, $sSegnoInstrument, _ $sSegnoKey, $iSegnoOctave, $sSegnoNote, $iLatestInstrument, $iLatestKey, $iCurrRepeat, $iEndings, $iSegno, $iDalSegno, $iDaCapo, _ $aAccidentals[7], $sSegnoAccidentals, $sAtTempo, $vCurrTempo, $aNotePart, $sSkipIndex, $sWarnings = "", $sErrors = "", $iTuplet, _ $bTie, $bRest, $iPitch, $iBound =1, $aInstrument[$iParts], $iHangCheck, $iRepeats, $iCurrTime, $aMessage[$iParts][1][2] ;==> voice|instance|params=time/msg Local Enum $iEntry = 0, $iEntryInstrument, $iEntryKey, $iEntryOctave, $iEntryNote, $iFirstExit, $iFirstExitOctave, _ $iFirstExitNote, $iFinalExit, $iFinalExitInstrument, $iFinalExitKey For $i = 0 To $iParts -1 $aInstrument[$i] = 0xC0 Next ; Parsing begins here For $i = 0 To $iParts -1 _ClearAccidentals($aAccidentals) $aVoices[$i] = StringStripWS($aVoices[$i], 3) StringReplace($aVoices[$i], "|:", "") ; Get loop entry points If @extended Then ReDim $aRepeat[@extended +1][11] $iInstance = 0 ; bar repeat sections encountered $vCurrInstrument = "<pno>" ; piano $vCurrKey = "0#" ; C major / A minor $sCurrNote = ";" ; quarter note $iCurrOctave = 4 $sLookFor = "" ; Look for Q or fin within a DC or DS section repeat ; Bar repeat data $aRepeat[$iInstance][$iEntry] = $iInstance $aRepeat[$iInstance][$iEntryInstrument] = $vCurrInstrument $aRepeat[$iInstance][$iEntryKey] = $vCurrKey $aRepeat[$iInstance][$iEntryOctave] = $iCurrOctave $aRepeat[$iInstance][$iEntryNote] = $sCurrNote $aRepeat[$iInstance][$iFirstExit] = $iInstance $aRepeat[$iInstance][$iFirstExitOctave] = $iCurrOctave $aRepeat[$iInstance][$iFirstExitNote] = $sCurrNote $aRepeat[$iInstance][$iFinalExit] = "" $aRepeat[$iInstance][$iFinalExitInstrument] = $vCurrInstrument $aRepeat[$iInstance][$iFinalExitKey] = $vCurrKey $iCurrRepeat = 1 ; First iteration of a bar repeat sequence $iEndings = 1 ; no separate bar repeat endings encountered yet $aTimeLine = StringRegExp($aVoices[$i], "[^\h]+", 3) $aVoices[$i] = "" $sSegnoInstrument = $vCurrInstrument ; Section repeat data $sSegnoKey = $vCurrKey ; Section repeat data => $iSegnoOctave = $iCurrOctave $sSegnoNote = $sCurrNote $sSegnoAccidentals = ",,,,,," ; array is needed when $ occurs after an accidental $iLatestInstrument = 0 ; position in timeline $iLatestKey = 0 ; position in timeline $iSegno = -1 ; position of $ $iDalSegno = -1 ; position of DS $iDaCapo = -1 ; position of DC $sAtTempo = -1 $vCurrTempo = ";=100" $sSkipIndex = "|" For $j = 0 To UBound($aTimeLine) -1 If StringInStr($sSkipIndex, "|" & $j & "|") Then ContinueLoop $iHangCheck = $j -1 Select Case _IsInstrument($aTimeLine[$j]) If $j > $iLatestInstrument Then $iLatestInstrument = $j _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $aTimeLine[$j], $i) $aRepeat[$iInstance][$iEntryInstrument] = $vCurrInstrument ; Temporary Patch Case _IsKeySig($aTimeLine[$j]) If $j > $iLatestKey Then $iLatestKey = $j _UpdateCurrentAttrib($vCurrKey, $aVoices, $aTimeLine[$j], $i) Case _IsTempoMark($aTimeLine[$j]) If Not StringRegExp($aVoices[$i], "[A-Go\+;\-~\\\?]") Then $sAtTempo = $aTimeLine[$j] EndIf _UpdateCurrentAttrib($vCurrTempo, $aVoices, $aTimeLine[$j], $i) Case _IsAtTempo($aTimeLine[$j]) _UpdateCurrentAttrib($vCurrTempo, $aVoices, $sAtTempo, $i) Case _IsSegno($aTimeLine[$j]) $sSegnoKey = $vCurrKey $sSegnoInstrument = $vCurrInstrument $iSegnoOctave = $iCurrOctave $sSegnoNote = $sCurrNote $iSegno = $j $sSegnoAccidentals = "" For $k = 0 To 5 $sSegnoAccidentals &= $aAccidentals[$k] & "," Next $sSegnoAccidentals &= $aAccidentals[6] Case _IsBarLine($aTimeLine[$j]) _ClearAccidentals($aAccidentals) Case _IsStartRepeat($aTimeLine[$j]) _ClearAccidentals($aAccidentals) $iInstance += 1 If $j > $iDaCapo And $j > $iDalSegno Then $aRepeat[$iInstance][$iEntry] = $j $aRepeat[$iInstance][$iEntryInstrument] = $vCurrInstrument $aRepeat[$iInstance][$iEntryKey] = $vCurrKey $aRepeat[$iInstance][$iEntryOctave] = $iCurrOctave $aRepeat[$iInstance][$iEntryNote] = $sCurrNote $iCurrRepeat = 1 $iEndings = 1 EndIf Case _Is2ndTimeRound($aTimeLine[$j]) If $j > $iDaCapo And $j > $iDalSegno Then If $aRepeat[$iInstance][$iFinalExit] = "" Then $aRepeat[$iInstance][$iFirstExit] = $j $aRepeat[$iInstance][$iFirstExitOctave] = $iCurrOctave $aRepeat[$iInstance][$iFirstExitNote] = $sCurrNote EndIf $iRepeats = StringTrimRight($aTimeLine[$j], 1) ; string to number If $iEndings < $iRepeats Then $iEndings = $iRepeats If $iCurrRepeat > $iRepeats Then If $vCurrKey <> $aTimeLine[$iLatestKey] Then If _IsKeySig($aTimeLine[$iLatestKey]) Then $vCurrKey = $aTimeLine[$iLatestKey] $aVoices[$i] &= $vCurrKey & " " EndIf EndIf _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $aTimeLine[$iLatestInstrument], $i) _ClearAccidentals($aAccidentals) $j = $aRepeat[$iInstance][$iFinalExit] ; Go to the next end repeat mark EndIf Else $j = $aRepeat[$iInstance][$iFinalExit] ; Go directly to the last end section _ClearAccidentals($aAccidentals) _UpdateCurrentAttrib($vCurrKey, $aVoices, $aRepeat[$iInstance][$iFinalExitKey], $i) _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $aRepeat[$iInstance][$iFinalExitInstrument], $i) EndIf Case _IsTie($aTimeLine[$j]) Or _IsStartTuplet($aTimeLine[$j]) Or _IsEndTuplet($aTimeLine[$j]) $aVoices[$i] &= $aTimeLine[$j] & " " Case _IsNote($aTimeLine[$j]) $aNotePart = _NoteSplit($aTimeLine[$j]) If $aNotePart[0] <> "" Then $sCurrNote = _GetCurrNote($aNotePart[0]) EndIf If $aNotePart[1] <> "" Then If StringInStr($aNotePart[1], "'") Then $iCurrOctave = _GetOctave($aNotePart[1]) EndIf If StringRegExp($aNotePart[1], "[#bxz]") Then _UpdateAccidentals($aAccidentals, $aNotePart[1]) Else _GetAccidental($aAccidentals, $aNotePart[1]) EndIf EndIf $aVoices[$i] &= $aNotePart[0] & $aNotePart[1] & " " If $sAtTempo = -1 Then $sAtTempo = $vCurrTempo Case _IsEndRepeat($aTimeLine[$j]) If $j > $iDaCapo And $j > $iDalSegno Then _ClearAccidentals($aAccidentals) If $iCurrRepeat = $iEndings Then $aRepeat[$iInstance][$iFinalExit] = $j $aRepeat[$iInstance][$iFinalExitInstrument] = $vCurrInstrument $aRepeat[$iInstance][$iFinalExitKey] = $vCurrKey EndIf If $iCurrRepeat <= $iEndings Then ; Go back to the start of the loop $j = $aRepeat[$iInstance][$iEntry] ; $j will be incremented on the next pass ^^ $iCurrRepeat += 1 _UpdateCurrentAttrib($vCurrKey, $aVoices, $aRepeat[$iInstance][$iEntryKey], $i) _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $aRepeat[$iInstance][$iEntryInstrument], $i) _UpdateCurrentAttrib($iCurrOctave, $aVoices, $aRepeat[$iInstance][$iEntryOctave], $i, "{", "} ") _UpdateCurrentAttrib($sCurrNote, $aVoices, $aRepeat[$iInstance][$iEntryNote], $i, "{", "} ") EndIf EndIf Case _IsDalSegno($aTimeLine[$j]) If $iDalSegno < $j Then If $iSegno = -1 Then $sWarnings &= "Voice " & $i +1 & " Warning => Expected $ sign before DS " & @CRLF ConsoleWrite($sWarnings) ; deal with this later ExitLoop ; further parsing of this voice is meaningless EndIf $iDalSegno = $j $j = $iSegno $sLookFor = "DS" _UpdateCurrentAttrib($vCurrKey, $aVoices, $sSegnoKey, $i) _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $sSegnoInstrument, $i) _UpdateCurrentAttrib($iCurrOctave, $aVoices, $iSegnoOctave, $i, "{", "} ") _UpdateCurrentAttrib($sCurrNote, $aVoices, $sSegnoNote, $i, "{", "} ") $aAccidentals = StringSplit($sSegnoAccidentals, ",", 2) For $iInstance = $iInstance To 0 Step -1 If $iSegno > $aRepeat[$iInstance][$iEntry] Then ExitLoop Next EndIf Case _IsDaCapo($aTimeLine[$j]) If $iDaCapo < $j Then _ClearAccidentals($aAccidentals) $iDaCapo = $j $j = -1 $sLookFor = "DC" $iInstance = 0 _UpdateCurrentAttrib($vCurrKey, $aVoices, $aRepeat[$iInstance][$iEntryKey], $i) _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $aRepeat[$iInstance][$iEntryInstrument], $i) _UpdateCurrentAttrib($iCurrOctave, $aVoices, $aRepeat[$iInstance][$iEntryOctave], $i, "{", "} ") _UpdateCurrentAttrib($sCurrNote, $aVoices, $aRepeat[$iInstance][$iEntryNote], $i, "{", "} ") EndIf Case _IsCoda($aTimeLine[$j]) If ($sLookFor = "DS" And $j < $iDalSegno) Or ($sLookFor = "DC" And $j < $iDaCapo) Then If $iDalSegno > $iDaCapo Then $j = $iDalSegno Else $j = $iDaCapo EndIf _UpdateCurrentAttrib($vCurrKey, $aVoices, $aTimeLine[$iLatestKey], $i) _UpdateCurrentAttrib($vCurrInstrument, $aVoices, $aTimeLine[$iLatestInstrument], $i) EndIf Case _IsFin($aTimeLine[$j]) If ($sLookFor = "DS" And $j < $iDalSegno) Or ($sLookFor = "DC" And $j < $iDaCapo) Then ExitLoop Case Else If _IsTimeSig($aTimeLine[$j]) Or _IsTechnique($aTimeLine[$j]) Or _IsBarRepeat($aTimeLine[$j]) Or _IsAccel($aTimeLine[$j]) Or _IsDynamicMark($aTimeLine[$j]) Then ContinueLoop ; Currently unsupported performance instructions or features Else $sErrors &= "Voice " & $i +1 & " Syntax Error => " & $aTimeLine[$j] & @CRLF $sSkipIndex &= $j & "|" ConsoleWrite("Voice " & $i +1 & " Syntax Error => " & $aTimeLine[$j] & @LF) EndIf EndSelect If $j = $iHangCheck Then $j += 1 ; Recursion correction Next ;ConsoleWrite($aVoices[$i] & @LF) $aTimeLine = StringRegExp($aVoices[$i], "[^\h]+", 3) $iInstance = UBound($aTimeLine)*2 ; upper limit... variable re-usage If $iInstance > UBound($aMessage, 2) Then ReDim $aMessage [$iParts][$iInstance][2] $vCurrInstrument = 0 $iLatestInstrument = 0 $vCurrKey = 0 ; C major / A minor $iLatestKey = 0 ; C major / A minor $vCurrTempo = 100 $iCurrOctave = 4 $sCurrNote = ";" $sLookFor = -1 ; variable re-usage $bTie = False ; variable re-usage $bRest = True $iInstance = 0 ; message count $iCurrTime = 0 $iTuplet = 1 Local $iDuration For $j = 0 To UBound($aTimeLine) -1 Select Case _IsInstrument($aTimeLine[$j]) $aTimeLine[$j] = StringRegExpReplace($aTimeLine[$j], "(_)(pno|box|org|acc|gtr|bass|tpt|sax|hn|drum|bl)", " " & "$2") $iLatestInstrument = _GetInstrument($aTimeLine[$j]) If @error And Not StringInStr($sErrors, $aTimeLine[$j]) Then $sErrors &= "Voice " & $i +1 & " Instrument not recognized => " & $aTimeLine[$j] & @CRLF ConsoleWrite("Voice " & $i +1 & " Instrument not recognized => " & $aTimeLine[$j] & @LF) ElseIf $vCurrInstrument <> $iLatestInstrument Then $vCurrInstrument = $iLatestInstrument $aMessage[$i][$iInstance][0] = $iCurrTime $aMessage[$i][$iInstance][1] = $vCurrInstrument*256 + 0xC0 $iInstance += 1 EndIf $aInstrument[$i] = $vCurrInstrument*256 + 0xC0 Case _IsKeySig($aTimeLine[$j]) $vCurrKey = _GetKey($aTimeLine[$j]) Case _IsTempoMark($aTimeLine[$j]) $vCurrTempo = _GetQuartNoteBPM($aTimeLine[$j]) Case _IsTie($aTimeLine[$j]) $bTie = True Case _IsStartTuplet($aTimeLine[$j]) $iTuplet = StringReplace($aTimeLine[$j], "(", "") If $iTuplet = "" Then $iTuplet = 3 Case _IsOctave($aTimeLine[$j]) $iCurrOctave = StringRegExpReplace($aTimeLine[$j], "[\{\}]", "") Case _IsCurrentNote($aTimeLine[$j]) $sCurrNote = StringRegExpReplace($aTimeLine[$j], "[\{\}]", "") Case _IsNote($aTimeLine[$j]) $aNotePart = _NoteSplit($aTimeLine[$j]) If $aNotePart[0] <> "" Then $sCurrNote = _GetCurrNote($aNotePart[0]) Else $aNotePart[0] = $sCurrNote EndIf $iDuration = _GetDuration($aNotePart[0], $vCurrTempo, $iTuplet) If $aNotePart[1] <> "" Then If StringInStr($aNotePart[1], "'") Then $iCurrOctave = _GetOctave($aNotePart[1]) EndIf If Not $bTie Then $aMessage[$i][$iInstance][0] = $iCurrTime $iPitch = _GetPitch($aNotePart[1], $vCurrKey, $iCurrOctave) $aMessage[$i][$iInstance][1] = BitOr(($iPitch+0x15)*256, 0x90, 0x400000) ; Midi note on $iInstance += 1 Else If Not $bRest And $sLookFor > -1 Then $aMessage[$i][$sLookFor][0] += $iDuration EndIf EndIf $bRest = False Else $bRest = True EndIf $iCurrTime += $iDuration If Not $bRest And Not $bTie Then ; Now turn note off $aMessage[$i][$iInstance][0] = $iCurrTime $aMessage[$i][$iInstance][1] = BitXOR($aMessage[$i][$iInstance -1][1], 0x400000) ; Midi note off $sLookFor = $iInstance $iInstance += 1 EndIf $bTie = False Case _IsEndTuplet($aTimeLine[$j]) $iTuplet = 1 EndSelect Next If $iInstance > $iBound Then $iBound = $iInstance Next ReDim $aMessage[$iParts][$iBound][2] ;_WalkThrough3D($aMessage) ; Debugging - Requires arratf.au3 $sLookFor = "" For $i = 0 To $iParts -1 For $j = 0 To UBound($aMessage, 2) -1 If $aMessage[$i][$j][0] == "" Then ExitLoop If Not StringInStr($sLookFor, "," & $aMessage[$i][$j][0] & ",") Then $sLookFor &= $aMessage[$i][$j][0] & "," EndIf Next Next $aTimeLine = StringSplit(StringTrimRight($sLookFor, 1), ",", 2) _ArraySortByNumber($aTimeLine) If $aTimeLine[1] = 0 Then _ArrayDelete($aTimeLine, 0) Local $aGrid[UBound($aTimeLine)][$iParts*8 +3] For $i = 0 To UBound($aTimeLine) -1 $aGrid[$i][0] = 1 $aGrid[$i][1] = $aTimeLine[$i] Next For $i = $iParts -1 To 0 Step -1 $iInstance = 0 For $j = 0 To UBound($aMessage, 2) -1 If $aMessage[$i][$j][0] == "" Then ExitLoop If $aMessage[$i][$j][0] == $aTimeLine[$iInstance] Then If BitAND($aMessage[$i][$j][1], 0x400000) = 0x400000 Then If $aGrid[$iInstance][$aGrid[$iInstance][0]] <> $aInstrument[$i] Then $aGrid[$iInstance][0] += 1 $aGrid[$iInstance][$aGrid[$iInstance][0]] = $aInstrument[$i] EndIf EndIf $aGrid[$iInstance][0] += 1 $aGrid[$iInstance][$aGrid[$iInstance][0]] = $aMessage[$i][$j][1] ElseIf $aMessage[$i][$j][0] > $aTimeLine[$iInstance] Then $iInstance += 1 If $iInstance > UBound($aTimeLine) -1 Then ExitLoop $j -= 1 EndIf Next Next ;_ArrayDisplay($aGrid) Local $iTimer, $dOpen = _MidiOutOpen() $iInstance = 0 $iTimer = TimerInit() While 1 If TimerDiff($iTimer) >= $aGrid[$iInstance][1] Then For $i = 2 To $aGrid[$iInstance][0] _MidiOutShortMsg($dOpen, $aGrid[$iInstance][$i]) Next $iInstance += 1 Else Sleep(10) EndIf If $iInstance > UBound($aTimeLine) -1 Then ExitLoop WEnd Sleep(600) _MidiOutClose($dOpen) EndFunc ;==> _MusPlusPlus #region ; conditionals Func _IsInstrument($sInstruction) Return StringRegExp($sInstruction, "(?i)(\A<[a-z \-_0-9]+>\z)") EndFunc ;==> _IsInstrument Func _IsKeySig($sInstruction) Return StringRegExp($sInstruction, "(\A[0-7][#b]\z)") EndFunc ;==> _IsKeySig Func _IsTimeSig($sInstruction) ; Requires accentuation / dynamics Return StringRegExp($sInstruction, "(\A\d+/(1|2|4|8|16|32|64)\z)") EndFunc ;==> _IsTimeSig Func _IsTempoMark($sInstruction) Return StringRegExp($sInstruction, "(\A[o\+;\-~\\\?]\.?=\d*\.?\d+\z)") EndFunc ;==> _IsTempoMark Func _IsAtTempo($sInstruction) Return $sInstruction = "@Tempo" ; not case sensitive EndFunc ;==> _IsAtTempo Func _IsSegno($sInstruction) Return $sInstruction = "$" EndFunc ;==> _IsSegno Func _IsBarLine($sInstruction) Return $sInstruction = "|" EndFunc ;==> _IsBarLine Func _IsStartRepeat($sInstruction) Return $sInstruction = "|:" EndFunc ;==> _IsStartRepeat Func _Is2ndTimeRound($sInstruction) Return StringRegExp($sInstruction, "(\A\d+,\z)") EndFunc ;==> _Is2ndTimeRound Func _IsTie($sInstruction) Return $sInstruction = "_" EndFunc ;==> _IsTie Func _IsStartTuplet($sInstruction) Return StringRegExp($sInstruction, "(\A\d*\(\z)") EndFunc ;==> _IsStartTuplet Func _IsNote($sNote) If StringRegExp($sNote, "(\A'*[A-G](#|b|bb|x|z)?'*\z)") Then Return 1 Return StringRegExp($sNote, "(\A[o\+;\-~\\\?\.]+('*[A-G](#|b|bb|x|z)?'*)?\z)") EndFunc ;==> _IsNote Func _IsEndTuplet($sInstruction) Return $sInstruction == ")" EndFunc ;==> _IsEndTuplet Func _IsEndRepeat($sInstruction) Return $sInstruction = ":|" EndFunc ;==> _IsEndRepeat Func _IsCoda($sInstruction) Return $sInstruction == "Q" EndFunc ;==> _IsCoda Func _IsDalSegno($sInstruction) Return $sInstruction == "DS" EndFunc ;==> _IsDalSegno Func _IsDaCapo($sInstruction) Return $sInstruction == "DC" EndFunc ;==> _IsDaCapo Func _IsFin($sInstruction) Return $sInstruction == "fin" EndFunc ;==> _IsFin Func _IsOctave($sInstruction) Return StringRegExp($sInstruction, "\A\{[0-8]\}\z") EndFunc ;==> _IsOctave Func _IsCurrentNote($sInstruction) Return StringRegExp($sInstruction, "\A\{[o+;=~\?]\.*\}\z") EndFunc ;==> _IsCurrentNote #endregion ;==> conditionals #region ; currently unsupported features Func _IsTechnique($sInstruction) ; Returns an integer - gliss is currently not supported Return StringInStr(" gliss pizz ", " " & $sInstruction & " ", 1) EndFunc ;==> _IsTechnique Func _IsBarRepeat($sInstruction) ; currently unsupported Return StringRegExp($sInstruction, "(\A%\d*\z)") EndFunc ;==> _IsBarRepeat Func _IsAccel($sInstruction) ; currently unsupported Return StringInStr(" accel rit ", " " & $sInstruction & " ", 1) EndFunc ;==> _IsAccel Func _IsDynamicMark($sInstruction) ; Returns an integer - currently unsupported Return StringInStr(" cres dim ppp pp /p mp mf /f ff fff ", " " & $sInstruction & " ", 1) EndFunc ;==> _IsDynamicMark #endregion ;==> currently unsupported features #region ; data requests Func _GetAccidental($aAccidentals, ByRef $sNote) Local $sAlpha = StringReplace($sNote, "'", "") $sNote = StringReplace($sNote, $sAlpha, $sAlpha & $aAccidentals[Asc($sAlpha) - 65], 0, 1) EndFunc ;==> _GetAccidental Func _GetKey($sKey) Local $iSign = 1 If StringInStr($sKey, "b", 1) Then $iSign = -1 Return StringRegExpReplace($sKey, "[#b]", "")*$iSign EndFunc ;==> _GetKey Func _GetQuartNoteBPM($sTempo) Local $aTempo = StringSplit($sTempo, "=", 2) Local $iNote = StringInStr("?\~-;+o", $aTempo[0]) -5 Return $aTempo[1]*2^$iNote EndFunc ;==> _GetQuartNoteBPM Func _GetCurrNote($sNote) Local $sCurrChr, $sRhythm = "" For $i = StringLen($sNote) To 1 Step -1 $sCurrChr = StringMid($sNote, $i, 1) $sRhythm = $sCurrChr & $sRhythm If StringInStr("o+;-~\?", $sCurrChr, 1) Then ExitLoop Next Return $sRhythm EndFunc ;==> _GetCurrNote Func _GetOctave($sNote) Local $iPos, $iOctave = 4 For $i = 65 To 71 $iPos = StringInStr($sNote, Chr($i), 1) If $iPos Then ExitLoop EndIf Next For $i = 1 To $iPos -1 If StringMid($sNote, $i, 1) = "'" Then $iOctave -= 1 Next For $i = $iPos +1 To StringLen($sNote) If StringMid($sNote, $i, 1) = "'" Then $iOctave += 1 Next Return $iOctave EndFunc ;==> _GetOctave Func _GetPitch($sName, $iKey = 0, $iOctave = 4) Local $iPitch, $sAlpha Select Case StringInStr($sName, "C", 1) $sAlpha = "C" $iPitch = 39 Case StringInStr($sName, "D", 1) $sAlpha = "D" $iPitch = 41 Case StringInStr($sName, "E", 1) $sAlpha = "E" $iPitch = 43 Case StringInStr($sName, "F", 1) $sAlpha = "F" $iPitch = 44 Case StringInStr($sName, "G", 1) $sAlpha = "G" $iPitch = 46 Case StringInStr($sName, "A", 1) $sAlpha = "A" $iPitch = 48 Case StringInStr($sName, "B", 1) $sAlpha = "B" $iPitch = 50 EndSelect Select Case StringInStr($sName, "bb", 1) $iPitch -= 2 Case StringInStr($sName, "b", 1) $iPitch -= 1 Case StringInStr($sName, "z", 1) $iPitch += 0 Case StringInStr($sName, "#", 1) $iPitch += 1 Case StringInStr($sName, "x", 1) $iPitch += 2 Case $iKey If $iKey > 0 Then If StringInStr(StringLeft("FCGDAEB", $iKey), $sAlpha) Then $iPitch += 1 Else If StringInStr(StringRight("FCGDAEB", -$iKey), $sAlpha) Then $iPitch -= 1 EndIf EndSelect $iOctave -= 4 $iPitch += $iOctave*12 If $iPitch < 0 Or $iPitch > 87 Then Return SetError (2, 0, "") ; Out of range pitch Return $iPitch ; values range from 0 to 87 EndFunc ;==> _GetPitch Func _GetDuration($sNote, $iTempo = 100, $iTuplet = 1) Local $sLen = StringLen($sNote) If Not $sLen Then Return Default If StringLeft($sNote, 1) = "." Then Return SetError(1, 0, 0) ; Syntax error - Dot not preceeded by a note value Local $iDuration = 0, $iDots = 0, $sCurrChr = "", $iID, $iNote = 0 For $i = 1 To $sLen $sCurrChr = StringMid($sNote, $i, 1) $iID = StringInStr("?\~-;+o.", $sCurrChr) -1 Switch $iID Case 0 To 6 $iDuration += $iNote $iNote = 6930 * 2^$iID Case 7 While $sCurrChr = "." $iDots += 1 $i += 1 $sCurrChr = StringMid($sNote, $i, 1) WEnd $iNote *= (2^($iDots +1) -1)/2^$iDots $i -= 1 $iDots = 0 EndSwitch Next $iDuration += $iNote If $iTuplet > 1 Then Switch $iTuplet Case 2, 4, 8, 16, 32, 64 ; In mus - only 2 and 4 appear, and then only in compound time $iDuration *= 3/2 ; it's the same result in all cases Case 3 ; triplets are the most common tuplet division $iDuration *= 2/3 Case 5 To 7 $iDuration *= 4/$iTuplet Case 9 To 15 ; In mus - tuplets greater than 12 almost never appear $iDuration *= 8/$iTuplet Case 17 To 31 $iDuration *= 16/$iTuplet Case 33 To 63 $iDuration *= 32/$iTuplet Case 65 To 127 $iDuration *= 64/$iTuplet Case Else Return SetError (2, 0, 0) ; Unsupported out of range tuplet value EndSwitch EndIf Return $iDuration*125/(231*$iTempo) EndFunc ;==> _GetDuration Func _GetInstrument($vInstrument) $vInstrument = StringRegExpReplace($vInstrument, "[<>]", "") Local $aMIDIInst[72][4] _ ; A selection of available MIDI imstruments = _ ; Name , ##,Mn,Mx [["pno" , 0, 0,87], _ ; Acoustic Grand Piano ... KEYBOARDS ["br pno" , 1, 0,87], _ ; Bright Piano ["e pno" , 2, 0,87], _ ; Electric Grand Piano ["h-t pno" , 3, 0,87], _ ; Honky-tonk piano ["hpsd" , 6, 0,87], _ ; Harpsichord ["clav" , 7, 0,87], _ ; Clavichord ["cel" , 8, 0,87], _ ; Celesta ["glock" , 9, 0,87], _ ; Glockenspiel ... PITCHED PERCUSSION ["mus box" , 10, 0,87], _ ; Music Box ["vib" , 11, 0,87], _ ; Vibraphone ["marim" , 12, 0,87], _ ; Marimba ["xyl" , 13, 0,87], _ ; Xylophone ["chimes" , 14, 0,87], _ ; Tubular Bells ["dulc" , 15, 0,87], _ ; Dulcimer ["ham org" , 16, 0,87], _ ; Drawbar Organ ... ORGAN ["perc org" , 17, 0,87], _ ; Percussive Organ ["org" , 19, 0,87], _ ; Church Organ ["harm" , 20, 0,87], _ ; Harmonium Reed Organ ["accord" , 21, 0,87], _ ; Accordion ["mouth org", 22, 0,87], _ ; Harmonica ["tango acc", 23, 0,87], _ ; Bandoneon ["gtr" , 24, 0,87], _ ; Classical Guitar ... GUITAR ["a gtr" , 25, 0,87], _ ; Accoustic Guitar ["jazz gtr" , 26, 0,87], _ ; Jazz Guitar ["e gtr" , 27, 0,87], _ ; Electric Guitar ["mut gtr" , 28, 0,87], _ ; Muted Electric Guitar ["fuzz gtr" , 30, 0,87], _ ; Distortion Guitar ["a bass" , 32, 0,87], _ ; Acoustic Bass ... BASS ["e bass" , 33, 0,87], _ ; Electric Bass ["bass" , 34, 0,87], _ ; Upright Bass ["f bass" , 35, 0,87], _ ; Fretless Bass ["sl bass" , 36, 0,87], _ ; Slap Bass ["vln" , 40, 0,87], _ ; Violin ... STRINGS ["vla" , 41, 0,87], _ ; Viola ["vc" , 42, 0,87], _ ; Cello ["db" , 43, 0,87], _ ; Double Bass ["hp" , 46, 0,87], _ ; Harp ["timp" , 47, 0,87], _ ; Timpani (perc) ["tpt" , 56, 0,87], _ ; Trumpet ... BRASS ["tbn" , 57, 0,87], _ ; Trombone ["tba" , 58, 0,87], _ ; Tuba ["mut tpt" , 59, 0,87], _ ; Muted Trumpet ["hn" , 60, 0,87], _ ; French Horn ["s sax" , 64, 0,87], _ ; Soprano Sax ... REED ["a sax" , 65, 0,87], _ ; Alto Sax ["sax" , 66, 0,87], _ ; Tenor Sax ["b sax" , 67, 0,87], _ ; Baritone Sax ["ob" , 68, 0,87], _ ; Oboe ["eng hn" , 69, 0,87], _ ; English Horn ["bsn" , 70, 0,87], _ ; Bassoon ["cl" , 71, 0,87], _ ; Clarinet ["picc" , 72, 0,87], _ ; Piccolo ... PIPE ["fl" , 73, 0,87], _ ; Flute ["rec" , 74, 0,87], _ ; Recorder ["pan" , 75, 0,87], _ ; Panpipes ["bottle" , 76, 0,87], _ ; Bottle ["shaku" , 77, 0,87], _ ; Shakuhachi ["whistle" , 78, 0,87], _ ; Whistle ["oc" , 79, 0,87], _ ; Ocarina ["sitar" ,104, 0,87], _ ; Sitar ... OTHER ["banjo" ,105, 0,87], _ ; Banjo ["shamisen" ,106, 0,87], _ ; Shamisen ["koto" ,107, 0,87], _ ; Koto ["kalimba" ,108, 0,87], _ ; Kalimba (perc) ["bagp" ,109, 0,87], _ ; Bagpipe ["fiddle" ,110, 0,87], _ ; Fiddle ["shanai" ,111, 0,87], _ ; Shanai (woodwind) ["bell" ,112, 0,87], _ ; Tinkle Bell ["st drum" ,114, 0,87], _ ; Steel Drums ["w bl" ,115, 0,87], _ ; Woodblock ["taiko" ,116, 0,87], _ ; Taiko Drum ["tom-t" ,117, 0,87]] ; Tom-tom For $i = 0 To 71 If $aMIDIInst[$i][0] = $vInstrument Then $vInstrument = $aMIDIInst[$i][1] ExitLoop EndIf Next $vInstrument = StringRegExpReplace($vInstrument, "[<>]", "") If StringRegExp($vInstrument, "[^\d]") Or $vInstrument < 0 Or $vInstrument > 127 Then Return SetError(1, 0, 0) ; returns Grand Piano Return $vInstrument ; values range from 0 to 117 EndFunc ;==> _GetInstrument #endregion ;==> data requests #region ; miscellaneous functions Func _InitialTidySource($sSource) If _IllegalDotCheck($sSource) Then Return SetError(1, 0, 0) $sSource = StringReplace($sSource, '"', "''") ; Helmholtz-Wilkinson octaves $sSource = StringReplace($sSource, '(', "( ") ; Add spaces after ( $sSource = StringReplace($sSource, ')', " ) ") ; Add spaces before and after ) $sSource = StringRegExpReplace($sSource, "(<\h+)", " <") ; Remove spaces after < $sSource = StringRegExpReplace($sSource, "(\h+>)", "> ") ; Remove spaces before > $sSource = StringReplace($sSource, '_', " _ ") ; Add spaces before and after underscore $sSource = StringReplace($sSource, '|:', "|: ") ; Add spaces after start repeats $sSource = StringReplace($sSource, ':|', " :|") ; Add spaces before end repeats $sSource = StringReplace($sSource, ':|:', ":||:") ; Convert double repeat marks _ $sSource = StringReplace($sSource, '|', " | ") ; Add spaces before and after bar lines $sSource = StringReplace($sSource, '| :', "|:") ; Restore start repeat marks $sSource = StringReplace($sSource, ': |', ":|") ; Restore end repeat marks $sSource = StringReplace($sSource, ' | | ', " || ") ; Restore double bar lines $sSource = StringRegExpReplace($sSource, "(<[\-\w]+)(\h+)(pno|box|org|acc|gtr|bass|tpt|sax|hn|drum|bl)", "$1" & "_" & "$3") $sSource = StringReplace(StringReplace($sSource, @CRLF, @LF), @CR, @LF) ; Replace all breaks with @LF $sSource = StringRegExpReplace($sSource, "(\n\h*)", @LF) ; Remove spaces after breaks $sSource = StringRegExpReplace($sSource, "[\n]{2,}", @LF & @LF) ; Remove duplicate empty lines $sSource = StringRegExpReplace($sSource, "(\A\n*)", "") ; Remove Preceeding breaks $sSource = StringRegExpReplace($sSource, "(\n*\z)", "") ; Remove Trailing breaks Return $sSource EndFunc ;==> _InitialTidySource Func _UpdateCurrentAttrib(ByRef $vCurrAttrib, ByRef $aVoices, $vNewAttrib, $iIndex, $sPadLeft = "", $sPadRight = " ") If $vCurrAttrib <> $vNewAttrib Then $vCurrAttrib = $vNewAttrib $aVoices[$iIndex] &= $sPadLeft & $vCurrAttrib & $sPadRight EndIf EndFunc ;==> _UpdateCurrentAttrib Func _ClearAccidentals(ByRef $aAccidentals) For $i = 0 To 6 $aAccidentals[$i] = "" Next EndFunc ;==> _ClearAccidentals Func _UpdateAccidentals(ByRef $aAccidentals, $sNote) $sNote = StringReplace($sNote, "'", "") Local $sAlpha = StringLeft($sNote, 1) $aAccidentals[Asc($sAlpha) - 65] = StringTrimLeft($sNote, 1) EndFunc ;==> _UpdateAccidentals Func _NoteSplit($sNote) Local $aNotePart[2] = ["", ""] $aNotePart[1] = StringRegExpReplace($sNote, "[o\+;\-~\\\?\.]+", "") ; Remove rhthmic values $aNotePart[0] = StringLeft($sNote, StringLen($sNote) - StringLen($aNotePart[1])) Return $aNotePart EndFunc ;==> _NoteSplit Func _IllegalDotCheck($sVoo) Return StringRegExp($sVoo, "(o\.{7}|\+\.{6}|;\.{5}|\-\.{4}|~\.{3}|\\\.\.|\?\.)") ; Warning - detected an unsupported number of dots after a note EndFunc ;==> _IllegalDotCheck #endregion ;==> miscellaneous functions #region ; MIDI functions ;======================================================= ;Retrieves a MIDI handle and Opens the Device ;Parameters(Optional) - Device ID, Window Callback, ; instance, flags ;Author : Eynstyne ;Library : Microsoft winmm.dll ;======================================================= Func _MidiOutOpen($devid = 0, $callback = 0, $instance = 0, $flags = 0) Local $ret = DllCall("winmm.dll", "long", "midiOutOpen", "handle*", 0, "int", $devid, "dword_ptr", $callback, "dword_ptr", $instance, "long", $flags) If @error Then Return SetError(@error,0,0) If $ret[0] Then Return SetError(-1,$ret[0],0) Return $ret[1] EndFunc ;==>_MidiOutOpen ;======================================================= ;Closes Midi Output/Input devices ;Parameters - MidiHandle ;Author : Eynstyne ;Library : Microsoft winmm.dll ;======================================================= Func _MidiOutClose ($hmidiout) Local $ret = DllCall("winmm.dll", "long", "midiOutClose", "handle", $hmidiout) If @error Then Return SetError(@error,0,0) If $ret[0] Then Return SetError(-1,$ret[0],0) Return $ret[0] EndFunc ;==> _MidiOutClose ;======================================================= ;Gets the Mixer Volume for MIDI ;Parameters - None ;Author : Eynstyne ;Library : Microsoft winmm.dll ;======================================================= Func _MidiOutGetVolume ($devid = 0) Local $ret = DllCall("winmm.dll", "long", "midiOutGetVolume", "handle", $devid, "dword*",0) If @error Then Return SetError(@error,0,0) If $ret[0] Then Return SetError(-1,$ret[0],0) Return $ret[2] EndFunc ;==> _MidiOutGetVolume ;======================================================= ;Sets the Mixer Volume for MIDI ;Parameters - Volume (0 - 65535) ;Author : Eynstyne ;Library : Microsoft winmm.dll ;======================================================= Func _MidiOutSetVolume($iVolume = 65535, $devid = 0) Local $iMixVolume=BitAND($iVolume,0xFFFF)+BitShift(BitAND($iVolume,0xFFFF),-16) ; From Ascend4nt Local $ret = DllCall("winmm.dll", "long", "midiOutSetVolume", "handle", $devid, "int", $iMixVolume) If @error Then Return SetError(@error,0,0) If $ret[0] Then Return SetError(-1,$ret[0],0) Return $ret[0] EndFunc ;==> _MidiOutSetVolume ;======================================================= ;MIDI Message Send Function ;Parameters - Message as Hexcode or Constant ;Author : Eynstyne ;Library : Microsoft winmm.dll ;======================================================= Func _MidiOutShortMsg($hmidiout, $msg) Local $ret = DllCall("winmm.dll", "long", "midiOutShortMsg", "handle", $hmidiout, "long", $msg) If @error Then Return SetError(@error,0,0) If $ret[0] Then Return SetError(-1,$ret[0],0) Return $ret[0] EndFunc ;==> _MidiOutShortMsg #endregion ;==> MIDI functions #region ; functions ripped from arrayf.au3 and stringf.au3 ; #FUNCTION# ==================================================================================================================== ; Name...........: _ArraySortByNumber ; Description ...: Sorts a 1D array numerically ascending. ; Syntax.........: _ArraySortByNumber(ByRef $avArray [, $bVulgarFrac = False]) ; Parameters ....: $avArray - [ByRef] The array to sort ; $bVulgarFrac - [Optional] If set to True, vulgar fractions will be also be sorted numerically ; Return values .: Success - Returns 1 ; Failure - Returns zero and sets @error to the following values: ; |@error = 1 : $avArray is not a one dimensional array ; Author ........: czardas ; Modified.......: ; Remarks .......: The array is sorted first by numbers and then by strings. ; Related .......: _ArraySort, _ArraySortByLen ; Link ..........: ; Example .......: ; =============================================================================================================================== Func _ArraySortByNumber(ByRef $avArray, $bVulgarFrac = False) If Not IsArray($avArray) Or UBound($avArray, 0) > 1 Then Return SetError(1, 0, 0) Local $iBound = UBound($avArray) -1 Local $aTemp[$iBound +1][2] For $i = 0 To $iBound $aTemp[$i][0] = $avArray[$i] If _StringIsNumber($avArray[$i], $bVulgarFrac) Then $aTemp[$i][1] = Execute($avArray[$i]) Else $aTemp[$i][1] = "z" & $avArray[$i] EndIf Next _ArraySort($aTemp, 0, 0, 0, 1) For $i = 0 To $iBound $avArray[$i] = $aTemp[$i][0] Next Return 1 EndFunc ;==> _ArraySortByNumber ; #FUNCTION# ==================================================================================================================== ; Name...........: _StringIsNumber ; Description ...: Checks whether a string is a number as recognised by the AutoIt interpreter ; Syntax.........: _StringIsNumber($sString [, $bVulgarFrac]) ; Parameters ....: $sString - The string to test ; $bVulgarFrac - [Optional] if set to True, vulgar fractions will also return True ; Return values .: True or False ; Author ........: czardas ; Remarks .......: Returns True for integers, floats, hexadecimal and scientific notation. ; Related .......: StringIsDigit, StringIsFloat, StringIsInt, StringIsXDigit ; Link ..........: ; Example .......: MsgBox(0, "1.2e-300 is a number", _StringIsNumber("1.2e-300")) ; =============================================================================================================================== Func _StringIsNumber($sString, $bVulgarFrac = False) Local $bReturn = False If StringIsInt($sString) Or StringIsFloat($sString) Then $bReturn = True ; string is integer or float ElseIf StringRegExp($sString, "(?i)(\A[\+\-]?0x[A-F\d]+\z)") Then $bReturn = True ; string is hexadecimal integer ElseIf StringRegExp($sString, "(?i)(\A[\+\-]?\d*\.?\d+e[\+\-]?\d+\z)") Then $bReturn = True ; exponential (or scientific notation) ElseIf $bVulgarFrac And StringRegExp($sString, "(\A[\+\-]?\d+/\d+\z)") Then $bReturn = True ; string is a vulgar fraction EndIf Return $bReturn EndFunc ; _StringIsNumber #endregion ;==> functions ripped from arrayf.au3 and stringf.au3 #cs ; incomplete and unorganized comments note attributes ==> all new notes inherit attributes from the previous note played with the exception of repeats staff attributes ==> affecting all subsequent new notes (mus) ... key, instrument, time signature performance attributes ==> affecting all subsequent notes played including repeats (mus) tempo settings short lived attributes ==> affecting remaining notes within the bar ... accidentals section repeats ==> DC and DS multiple bar repeats ==> |: and :| o ==> Lower case o ..... Whole note ......... open note + ==> Plus symbol ...... Half note .......... open note with a stem ; ==> Apostrophe ....... Quarter note ....... closed note with a stem - ==> Minus sign ....... Eighth note ........ single flag ~ ==> Tilde ............ Sixteenth note ····· double flag \ ==> Back slash ....... Thirty-second note . tripple flag ? ==> Question mark .... Sixty-fourth note .. quadruple flag (very rare) ' ==> 1 octave (above or below) " ==> 2 octaves (above or below) "' ==> 3 octaves (above or below) "" ==> 4 octaves (above or below) Accidentals # ==> sharp b ==> flat x ==> double sharp bb ==> double flat z ==> natural Other symbols _ ==> tie . ==> dot ( ==> start triplet 5( ==> start quintuplet ) ==> end tuplet | ==> bar line |: ==> start repeat :| ==> end repeat 1, ==> first time round 2, ==> second time round DC ==> da capo $ ==> segno DS ==> dal segno fin ==> fine Q ==> coda @Tempo ==> a tempo <instrument name> ==> instrument time signatutes n/2^n 2/4, 3/4, 6/8 etc... tempo markings ;=100 ==> 100 quarter note beats ber minute Key Signatures with sharps 0# ==> C major ==> C D E F G A B C 1# ==> G major ==> G A B C D E F# G 2# ==> D major ==> D E F# G A B C# D 3# ==> A major ==> A B C# D E F# G# A 4# ==> E major ==> E F# G# A B C# D# E 5# ==> B major ==> B C# D# E F# G# A# B 6# ==> F# major ==> F# G# A# B C# D# E# F# 7# ==> C# major ==> C# D# E# F# G# A# B# C# Key Signatures with flats 0b ··· C major ···· C D E F G A B C 1b ··· F major ···· F G A Bb C D E F 2b ··· Bb major ··· Bb C D Eb F G A Bb 3b ··· Eb major ··· Eb F G Ab Bb C D Eb 4b ··· Ab major ··· Ab Bb C Db Eb F G Ab 5b ··· Db major ··· Db Eb F Gb Ab Bb C Db 6b ··· Gb major ··· Gb Ab Bb C Db Eb Fb G 7b ··· Cb major ··· Cb Db Eb Fb Gb Ab Bb Cb Supported tuplet divisions Note Divisions ····································· 3 5to7 9to15 17to31 33to63 65to127 \ ? ~ \ ? - ~ \ ? ; - ~ \ ? + ; - ~ \ ? o + ; - ~ \ ? Supported tuplets for compound time Note Divisions ································ 2 4 8 16 32 64 \. ? ~. \ ? -. ~ \ ? ;. - ~ \ ? +. ; - ~ \ ? o. + ; - ~ \ ? Dotted notes o. == o+ , o.. == o+; +. == +; , +.. == +;- ;. == ;- , ;.. == ;-~ -. == -~ , -.. == -~\ ~. == ~\ , ~.. == ~\? \. == \? o...... == o+;-~\? Illegal sequences o....... +...... ;..... -.... ~... \.. ?. ""C ==> 4th 8va below = sub-contra octave "'C ==> 3rd 8va below "C ==> 2nd 8va below 'C ==> 1st 8va below 'C' ==> Middle C C' ==> 1st 8va above C" ==> 2nd 8va above C"' ==> 3rd 8va above C"" ==> 4th 8va above Full Range = ""A to C"" After DC and DS all repeat marks are ignored on second run. With separate endings the final section is entered immediately. Q or $ do not belong in a separate ending section. Coda occurs in a section which is skipped |: 1, Q :|2, [incorrect] => will miss the coda altogether The continuation from segno is unclear |: 1, $ :|2, [incorrect] => allow rhythmic corruption The following is fine |: $ 1, :|2, Q :| DS |Q Coda should not be placed before segno | Q | $ | DS | Q [incorrect] When entering the coda section repeat marks are reinstated Before DC or DS ignore $, Q and fin After DC go to the start and continue from there After DS look behind for $ and continue from there After DC or DS stop when you see fin or go to final section when you see Q Search for final section Q after DC or DS (whichever is greater) In the final section Q ignore DC DS Q $ - they do not belong in the coda After DC also look for DS and after DS also look for DC After DC or DS repeat marks are ignored within the repeated sequence With repeats that have separate endings, the final ending is entered immediately All other endings are skipped Repeat marks are reinstated after DC (or DS depending which was last encountered) DC DS $ fin may only be used once Q if used must appear twice Illegal characters {}[]&¬` #ce ;==> incomplete and unorganized comments The interpreter contains some unused code sections, some of which may be used in the future. Here's the mus++ source for the second example: <fl> ;=146 3/4 |: G | C' E C | G B G | +.C'' | +B' ;G | G -G G ;G | <fl> ;=146 3/4 |: ; | E +G | ;B D' 'B' | -C' 'B' C' D E F# | ;G 'G' B | C' -C 'B' ;C'' | <cl> ;=146 3/4 |: ; | +. | +G ; | +. | +. | ;E' -E D ;E | <tpt> ;=146 3/4 |: 'G | 'C' E C | ;'G ; 'G' | C ; C' | 'G' + | ;G -G G ;G | <timp> ;=146 3/4 |: ''G | +'C ;C | +''G ;G | A A A | G -G G G G | +.G | ;G -G G ;G | G A B | C'' ; fin :| D' | +'B' ;C' | -D G F# G F G | +'B' ;C' | D ; DC D -D C ;D | 'B' C' D | C ; fin :| 'B' | +G ;A | +. | +G ;A | B ; DC F -F E ;F | 'G' A B | G ; fin :| ; | +.G' | _;G + | +.G' | _;G 'G' DC ;G -G G ;G | 'G G G |'C' ; fin :| ; | 'G G G | +.'G' | ;'G G G | G ; DC G | ;G G G | +''C fin :| ; | +.''G | ;G G G | +.G | ;G G DC All the features of mus++ will be documented in due course. For now just feed it anything you like and if it doesn't produce any sound it's an error. Other kinds of errors also need work - you'll just have to trust your ear. Multiple voices can sometimes interfere with each other, which is one of the problems with the interpreter I mentioned earlier. I know why this happens.

Validating and parsing are two different things in my book. You ideally should have mentioned your full intentions in your first post.

Great job man!

mus++ for non-musicians It is important to listen to all the examples in this tutorial to understand what is happening. The first thing you need to know is that there are seven letters used to name musical notes A, B, C, D, E, F and G. All note names must be typed using upper case. Let's start with the simplest case. The following note is called A. A This note has a default pitch of 440 Hz and will sound for exactly 600 ms. There are several ways to prolong the duration of our note. Prefixing a plus sign produces a note which lasts twice as long (1200 ms). +A Alternatively a minus sign will shorten the note by half (300 ms). -A All notes inherit the duration of the previous note, so the following sequence will produce four notes lasting 600 ms followed by four faster notes at 300 ms: A A A A -A A A A To return to the default duration you need to use an apostrophe. A A A A -A A A A ;A A A A The symbols used to alter note durations are as follows: o = 2400 ms + = 1200 ms ; = 600 ms default ... quarter note - = 300 ms ~ = 150 ms = 75 ms ? = 37.5 ms In the above list, each note is half the duration of the previous. The values for duration are true when the music is played at the default speed of 100 bpm (100 quarter notes occuring in 1 minute). More about this later. Now lets look at pitch. The following sequence represents a scale (all notes must be separated by at least one space): A B C D E F G A When listening to the scale above, you will notice that the note sequence does not always rise in pitch. To make the notes continue ascending, it is necessary to go up to the next octave. To do this you simply place a single quote after the note name. Each new octave starts with the note C. A B C' D E F G A When there are no quotes attached to a note, it will inherit the octave of the previously encountered note. A quote placed before a note sets the octave range below the default range. G F E D C 'B A To return to the default octave range, use a single quote on both sides of the note name: 'B' as shown below. C D E F G A B +C' ;'B' A G F E D oC In music a note can be raised by a semitone using a sharp (hash sign #): A B C' D E F# G# +A Or lowered by a semitone using the flat symbol (lower case b ). E D 'B Bb G oE Sharps and flats are also attributes inherited from a previous note with the same letter name. In the following sequence all notes containing F will be sharpened. D E F# +G ;F E D C 'B A oG To cancel a sharp or flat you can use a natural sign (lower case z) D E F# +G ;Fz E D C 'B A oG When attached to a note these three symbols (# b z) are called accidentals. Accidentals are cancelled after a bar line - vertical bar |. More about bar lines in the next tutorial. Do not place a single quote between a note and an accidental. 'E'b is incorrect - it should be written 'Eb' Try adding and changing the symbols in the examples and create your own examples using these basic features and you'll quickly be writing mus++. Examples from the above tutorial: _MusPlusPlus("A") Sleep(2000) _MusPlusPlus("+A") Sleep(2000) _MusPlusPlus("-A") Sleep(2000) _MusPlusPlus("A A A A -A A A A") Sleep(2000) _MusPlusPlus("A A A A -A A A A ;A A A A") Sleep(2000) _MusPlusPlus("A B C D E F G A") Sleep(2000) _MusPlusPlus("A B C' D E F G A") Sleep(2000) _MusPlusPlus("G F E D C 'B A") Sleep(2000) _MusPlusPlus("C D E F G A B +C' ;'B' A G F E D oC") Sleep(2000) _MusPlusPlus("A B C' D E F# G# +A") Sleep(2000) _MusPlusPlus("E D 'B Bb G oE") Sleep(2000) _MusPlusPlus("D E F# +G ;F E D C 'B A oG") Sleep(2000) _MusPlusPlus("D E F# +G ;Fz E D C 'B A oG") Sleep(2000)