Decompiled source of Picayune Dreams OST v1.0.0
NAudio.dll
Decompiled 10 months ago
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using System; using System.Collections; using System.Collections.Generic; using System.ComponentModel; using System.Diagnostics; using System.Drawing; using System.Drawing.Drawing2D; using System.Globalization; using System.IO; using System.Linq; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Runtime.InteropServices.ComTypes; using System.Security; using System.Security.Permissions; using System.Text; using System.Text.RegularExpressions; using System.Threading; using System.Windows.Forms; using Microsoft.Win32; using NAudio.CoreAudioApi; using NAudio.CoreAudioApi.Interfaces; using NAudio.Dmo; using NAudio.Dsp; using NAudio.FileFormats.Wav; using NAudio.MediaFoundation; using NAudio.Mixer; using NAudio.Utils; using NAudio.Wave; using NAudio.Wave.Asio; using NAudio.Wave.Compression; using NAudio.Wave.SampleProviders; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints)] [assembly: AssemblyTitle("NAudio")] [assembly: AssemblyDescription("NAudio .NET Audio Library")] [assembly: AssemblyConfiguration("")] [assembly: AssemblyCompany("Mark Heath")] [assembly: AssemblyProduct("NAudio")] [assembly: AssemblyCopyright("© 2001-2017 Mark Heath")] [assembly: AssemblyTrademark("")] [assembly: InternalsVisibleTo("NAudioTests")] [assembly: ComVisible(false)] [assembly: Guid("e82fa7f0-f952-4d93-b7b0-392bbf53b2a4")] [assembly: AssemblyFileVersion("1.8.4.0")] [assembly: SecurityPermission(SecurityAction.RequestMinimum, SkipVerification = true)] [assembly: AssemblyVersion("1.8.4.0")] [module: UnverifiableCode] namespace NAudio { public enum Manufacturers { Microsoft = 1, Creative = 2, Mediavision = 3, Fujitsu = 4, Artisoft = 20, TurtleBeach = 21, Ibm = 22, Vocaltec = 23, Roland = 24, DspSolutions = 25, Nec = 26, Ati = 27, Wanglabs = 28, Tandy = 29, Voyetra = 30, Antex = 31, IclPS = 32, Intel = 33, Gravis = 34, Val = 35, Interactive = 36, Yamaha = 37, Everex = 38, Echo = 39, Sierra = 40, Cat = 41, Apps = 42, DspGroup = 43, Melabs = 44, ComputerFriends = 45, Ess = 46, Audiofile = 47, Motorola = 48, Canopus = 49, Epson = 50, Truevision = 51, Aztech = 52, Videologic = 53, Scalacs = 54, Korg = 55, Apt = 56, Ics = 57, Iteratedsys = 58, Metheus = 59, Logitech = 60, Winnov = 61, Ncr = 62, Exan = 63, Ast = 64, Willowpond = 65, Sonicfoundry = 66, Vitec = 67, Moscom = 68, Siliconsoft = 69, Supermac = 73, Audiopt = 74, Speechcomp = 76, Ahead = 77, Dolby = 78, Oki = 79, Auravision = 80, Olivetti = 81, Iomagic = 82, Matsushita = 83, Controlres = 84, Xebec = 85, Newmedia = 86, Nms = 87, Lyrrus = 88, Compusic = 89, Opti = 90, Adlacc = 91, Compaq = 92, Dialogic = 93, Insoft = 94, Mptus = 95, Weitek = 96, LernoutAndHauspie = 97, Qciar = 98, Apple = 99, Digital = 100, Motu = 101, Workbit = 102, Ositech = 103, Miro = 104, Cirruslogic = 105, Isolution = 106, Horizons = 107, Concepts = 108, Vtg = 109, Radius = 110, Rockwell = 111, Xyz = 112, Opcode = 113, Voxware = 114, NorthernTelecom = 115, Apicom = 116, Grande = 117, Addx = 118, Wildcat = 119, Rhetorex = 120, Brooktree = 121, Ensoniq = 125, Fast = 126, Nvidia = 127, Oksori = 128, Diacoustics = 129, Gulbransen = 130, KayElemetrics = 131, Crystal = 132, SplashStudios = 133, Quarterdeck = 134, Tdk = 135, DigitalAudioLabs = 136, Seersys = 137, Picturetel = 138, AttMicroelectronics = 139, Osprey = 140, Mediatrix = 141, Soundesigns = 142, Aldigital = 143, SpectrumSignalProcessing = 144, Ecs = 145, Amd = 146, Coredynamics = 147, Canam = 148, Softsound = 149, Norris = 150, Ddd = 151, Euphonics = 152, Precept = 153, CrystalNet = 154, Chromatic = 155, Voiceinfo = 156, Viennasys = 157, Connectix = 158, Gadgetlabs = 159, Frontier = 160, Viona = 161, Casio = 162, Diamondmm = 163, S3 = 164, FraunhoferIis = 172 } public class MmException : Exception { private MmResult result; private string function; public MmResult Result => result; public MmException(MmResult result, string function) : base(ErrorMessage(result, function)) { this.result = result; this.function = function; } private static string ErrorMessage(MmResult result, string function) { return $"{result} calling {function}"; } public static void Try(MmResult result, string function) { if (result != 0) { throw new MmException(result, function); } } } public enum MmResult { NoError = 0, UnspecifiedError = 1, BadDeviceId = 2, NotEnabled = 3, AlreadyAllocated = 4, InvalidHandle = 5, NoDriver = 6, MemoryAllocationError = 7, NotSupported = 8, BadErrorNumber = 9, InvalidFlag = 10, InvalidParameter = 11, HandleBusy = 12, InvalidAlias = 13, BadRegistryDatabase = 14, RegistryKeyNotFound = 15, RegistryReadError = 16, RegistryWriteError = 17, RegistryDeleteError = 18, RegistryValueNotFound = 19, NoDriverCallback = 20, MoreData = 21, WaveBadFormat = 32, WaveStillPlaying = 33, WaveHeaderUnprepared = 34, WaveSync = 35, AcmNotPossible = 512, AcmBusy = 513, AcmHeaderUnprepared = 514, AcmCancelled = 515, MixerInvalidLine = 1024, MixerInvalidControl = 1025, MixerInvalidValue = 1026 } } namespace NAudio.Mixer { public class BooleanMixerControl : MixerControl { private MixerInterop.MIXERCONTROLDETAILS_BOOLEAN boolDetails; public bool Value { get { GetControlDetails(); return boolDetails.fValue == 1; } set { boolDetails.fValue = (value ? 1 : 0); mixerControlDetails.paDetails = Marshal.AllocHGlobal(Marshal.SizeOf((object)boolDetails)); Marshal.StructureToPtr((object)boolDetails, mixerControlDetails.paDetails, fDeleteOld: false); MmException.Try(MixerInterop.mixerSetControlDetails(mixerHandle, ref mixerControlDetails, MixerFlags.Mixer | mixerHandleType), "mixerSetControlDetails"); Marshal.FreeHGlobal(mixerControlDetails.paDetails); } } internal BooleanMixerControl(MixerInterop.MIXERCONTROL mixerControl, IntPtr mixerHandle, MixerFlags mixerHandleType, int nChannels) { base.mixerControl = mixerControl; base.mixerHandle = mixerHandle; base.mixerHandleType = mixerHandleType; base.nChannels = nChannels; mixerControlDetails = default(MixerInterop.MIXERCONTROLDETAILS); GetControlDetails(); } protected override void GetDetails(IntPtr pDetails) { boolDetails = (MixerInterop.MIXERCONTROLDETAILS_BOOLEAN)Marshal.PtrToStructure(pDetails, typeof(MixerInterop.MIXERCONTROLDETAILS_BOOLEAN)); } } public class CustomMixerControl : MixerControl { internal CustomMixerControl(MixerInterop.MIXERCONTROL mixerControl, IntPtr mixerHandle, MixerFlags mixerHandleType, int nChannels) { base.mixerControl = mixerControl; base.mixerHandle = mixerHandle; base.mixerHandleType = mixerHandleType; base.nChannels = nChannels; mixerControlDetails = default(MixerInterop.MIXERCONTROLDETAILS); GetControlDetails(); } protected override void GetDetails(IntPtr pDetails) { } } public class ListTextMixerControl : MixerControl { internal ListTextMixerControl(MixerInterop.MIXERCONTROL mixerControl, IntPtr mixerHandle, MixerFlags mixerHandleType, int nChannels) { base.mixerControl = mixerControl; base.mixerHandle = mixerHandle; base.mixerHandleType = mixerHandleType; base.nChannels = nChannels; mixerControlDetails = default(MixerInterop.MIXERCONTROLDETAILS); GetControlDetails(); } protected override void GetDetails(IntPtr pDetails) { } } public class Mixer { private MixerInterop.MIXERCAPS caps; private IntPtr mixerHandle; private MixerFlags mixerHandleType; public static int NumberOfDevices => MixerInterop.mixerGetNumDevs(); public int DestinationCount => (int)caps.cDestinations; public string Name => caps.szPname; public Manufacturers Manufacturer => (Manufacturers)caps.wMid; public int ProductID => caps.wPid; public IEnumerable<MixerLine> Destinations { get { for (int destination = 0; destination < DestinationCount; destination++) { yield return GetDestination(destination); } } } public static IEnumerable<Mixer> Mixers { get { for (int device = 0; device < NumberOfDevices; device++) { yield return new Mixer(device); } } } public Mixer(int mixerIndex) { if (mixerIndex < 0 || mixerIndex >= NumberOfDevices) { throw new ArgumentOutOfRangeException("mixerID"); } caps = default(MixerInterop.MIXERCAPS); MmException.Try(MixerInterop.mixerGetDevCaps((IntPtr)mixerIndex, ref caps, Marshal.SizeOf((object)caps)), "mixerGetDevCaps"); mixerHandle = (IntPtr)mixerIndex; mixerHandleType = MixerFlags.Mixer; } public MixerLine GetDestination(int destinationIndex) { if (destinationIndex < 0 || destinationIndex >= DestinationCount) { throw new ArgumentOutOfRangeException("destinationIndex"); } return new MixerLine(mixerHandle, destinationIndex, mixerHandleType); } } public abstract class MixerControl { internal MixerInterop.MIXERCONTROL mixerControl; internal MixerInterop.MIXERCONTROLDETAILS mixerControlDetails; protected IntPtr mixerHandle; protected int nChannels; protected MixerFlags mixerHandleType; public string Name => mixerControl.szName; public MixerControlType ControlType => mixerControl.dwControlType; public bool IsBoolean => IsControlBoolean(mixerControl.dwControlType); public bool IsListText => IsControlListText(mixerControl.dwControlType); public bool IsSigned => IsControlSigned(mixerControl.dwControlType); public bool IsUnsigned => IsControlUnsigned(mixerControl.dwControlType); public bool IsCustom => IsControlCustom(mixerControl.dwControlType); public static IList<MixerControl> GetMixerControls(IntPtr mixerHandle, MixerLine mixerLine, MixerFlags mixerHandleType) { List<MixerControl> list = new List<MixerControl>(); if (mixerLine.ControlsCount > 0) { int num = Marshal.SizeOf(typeof(MixerInterop.MIXERCONTROL)); MixerInterop.MIXERLINECONTROLS mixerLineControls = default(MixerInterop.MIXERLINECONTROLS); IntPtr intPtr = Marshal.AllocHGlobal(num * mixerLine.ControlsCount); mixerLineControls.cbStruct = Marshal.SizeOf((object)mixerLineControls); mixerLineControls.dwLineID = mixerLine.LineId; mixerLineControls.cControls = mixerLine.ControlsCount; mixerLineControls.pamxctrl = intPtr; mixerLineControls.cbmxctrl = Marshal.SizeOf(typeof(MixerInterop.MIXERCONTROL)); try { MmResult mmResult = MixerInterop.mixerGetLineControls(mixerHandle, ref mixerLineControls, MixerFlags.Mixer | mixerHandleType); if (mmResult != 0) { throw new MmException(mmResult, "mixerGetLineControls"); } for (int i = 0; i < mixerLineControls.cControls; i++) { MixerInterop.MIXERCONTROL mIXERCONTROL = (MixerInterop.MIXERCONTROL)Marshal.PtrToStructure((IntPtr)(intPtr.ToInt64() + num * i), typeof(MixerInterop.MIXERCONTROL)); MixerControl item = GetMixerControl(mixerHandle, mixerLine.LineId, mIXERCONTROL.dwControlID, mixerLine.Channels, mixerHandleType); list.Add(item); } } finally { Marshal.FreeHGlobal(intPtr); } } return list; } public static MixerControl GetMixerControl(IntPtr mixerHandle, int nLineID, int controlId, int nChannels, MixerFlags mixerFlags) { MixerInterop.MIXERLINECONTROLS mixerLineControls = default(MixerInterop.MIXERLINECONTROLS); MixerInterop.MIXERCONTROL mIXERCONTROL = default(MixerInterop.MIXERCONTROL); IntPtr intPtr = Marshal.AllocCoTaskMem(Marshal.SizeOf((object)mIXERCONTROL)); mixerLineControls.cbStruct = Marshal.SizeOf((object)mixerLineControls); mixerLineControls.cControls = 1; mixerLineControls.dwControlID = controlId; mixerLineControls.cbmxctrl = Marshal.SizeOf((object)mIXERCONTROL); mixerLineControls.pamxctrl = intPtr; mixerLineControls.dwLineID = nLineID; MmResult mmResult = MixerInterop.mixerGetLineControls(mixerHandle, ref mixerLineControls, MixerFlags.ListText | mixerFlags); if (mmResult != 0) { Marshal.FreeCoTaskMem(intPtr); throw new MmException(mmResult, "mixerGetLineControls"); } mIXERCONTROL = (MixerInterop.MIXERCONTROL)Marshal.PtrToStructure(mixerLineControls.pamxctrl, typeof(MixerInterop.MIXERCONTROL)); Marshal.FreeCoTaskMem(intPtr); if (IsControlBoolean(mIXERCONTROL.dwControlType)) { return new BooleanMixerControl(mIXERCONTROL, mixerHandle, mixerFlags, nChannels); } if (IsControlSigned(mIXERCONTROL.dwControlType)) { return new SignedMixerControl(mIXERCONTROL, mixerHandle, mixerFlags, nChannels); } if (IsControlUnsigned(mIXERCONTROL.dwControlType)) { return new UnsignedMixerControl(mIXERCONTROL, mixerHandle, mixerFlags, nChannels); } if (IsControlListText(mIXERCONTROL.dwControlType)) { return new ListTextMixerControl(mIXERCONTROL, mixerHandle, mixerFlags, nChannels); } if (IsControlCustom(mIXERCONTROL.dwControlType)) { return new CustomMixerControl(mIXERCONTROL, mixerHandle, mixerFlags, nChannels); } throw new InvalidOperationException($"Unknown mixer control type {mIXERCONTROL.dwControlType}"); } protected void GetControlDetails() { mixerControlDetails.cbStruct = Marshal.SizeOf((object)mixerControlDetails); mixerControlDetails.dwControlID = mixerControl.dwControlID; if (IsCustom) { mixerControlDetails.cChannels = 0; } else if ((mixerControl.fdwControl & (true ? 1u : 0u)) != 0) { mixerControlDetails.cChannels = 1; } else { mixerControlDetails.cChannels = nChannels; } if ((mixerControl.fdwControl & 2u) != 0) { mixerControlDetails.hwndOwner = (IntPtr)mixerControl.cMultipleItems; } else if (IsCustom) { mixerControlDetails.hwndOwner = IntPtr.Zero; } else { mixerControlDetails.hwndOwner = IntPtr.Zero; } if (IsBoolean) { mixerControlDetails.cbDetails = Marshal.SizeOf((object)default(MixerInterop.MIXERCONTROLDETAILS_BOOLEAN)); } else if (IsListText) { mixerControlDetails.cbDetails = Marshal.SizeOf((object)default(MixerInterop.MIXERCONTROLDETAILS_LISTTEXT)); } else if (IsSigned) { mixerControlDetails.cbDetails = Marshal.SizeOf((object)default(MixerInterop.MIXERCONTROLDETAILS_SIGNED)); } else if (IsUnsigned) { mixerControlDetails.cbDetails = Marshal.SizeOf((object)default(MixerInterop.MIXERCONTROLDETAILS_UNSIGNED)); } else { mixerControlDetails.cbDetails = mixerControl.Metrics.customData; } int num = mixerControlDetails.cbDetails * mixerControlDetails.cChannels; if ((mixerControl.fdwControl & 2u) != 0) { num *= (int)mixerControl.cMultipleItems; } IntPtr intPtr = Marshal.AllocCoTaskMem(num); mixerControlDetails.paDetails = intPtr; MmResult mmResult = MixerInterop.mixerGetControlDetails(mixerHandle, ref mixerControlDetails, MixerFlags.Mixer | mixerHandleType); if (mmResult == MmResult.NoError) { GetDetails(mixerControlDetails.paDetails); } Marshal.FreeCoTaskMem(intPtr); if (mmResult != 0) { throw new MmException(mmResult, "mixerGetControlDetails"); } } protected abstract void GetDetails(IntPtr pDetails); private static bool IsControlBoolean(MixerControlType controlType) { switch (controlType) { case MixerControlType.BooleanMeter: case MixerControlType.Boolean: case MixerControlType.OnOff: case MixerControlType.Mute: case MixerControlType.Mono: case MixerControlType.Loudness: case MixerControlType.StereoEnhance: case MixerControlType.Button: case MixerControlType.SingleSelect: case MixerControlType.Mux: case MixerControlType.MultipleSelect: case MixerControlType.Mixer: return true; default: return false; } } private static bool IsControlListText(MixerControlType controlType) { if (controlType == MixerControlType.Equalizer || (uint)(controlType - 1879113728) <= 1u || (uint)(controlType - 1895890944) <= 1u) { return true; } return false; } private static bool IsControlSigned(MixerControlType controlType) { switch (controlType) { case MixerControlType.SignedMeter: case MixerControlType.PeakMeter: case MixerControlType.Signed: case MixerControlType.Decibels: case MixerControlType.Slider: case MixerControlType.Pan: case MixerControlType.QSoundPan: return true; default: return false; } } private static bool IsControlUnsigned(MixerControlType controlType) { switch (controlType) { case MixerControlType.UnsignedMeter: case MixerControlType.Unsigned: case MixerControlType.Percent: case MixerControlType.Fader: case MixerControlType.Volume: case MixerControlType.Bass: case MixerControlType.Treble: case MixerControlType.Equalizer: case MixerControlType.MicroTime: case MixerControlType.MilliTime: return true; default: return false; } } private static bool IsControlCustom(MixerControlType controlType) { return controlType == MixerControlType.Custom; } public override string ToString() { return $"{Name} {ControlType}"; } } [Flags] internal enum MixerControlClass { Custom = 0, Meter = 0x10000000, Switch = 0x20000000, Number = 0x30000000, Slider = 0x40000000, Fader = 0x50000000, Time = 0x60000000, List = 0x70000000, Mask = 0x70000000 } [Flags] internal enum MixerControlSubclass { SwitchBoolean = 0, SwitchButton = 0x1000000, MeterPolled = 0, TimeMicrosecs = 0, TimeMillisecs = 0x1000000, ListSingle = 0, ListMultiple = 0x1000000, Mask = 0xF000000 } [Flags] internal enum MixerControlUnits { Custom = 0, Boolean = 0x10000, Signed = 0x20000, Unsigned = 0x30000, Decibels = 0x40000, Percent = 0x50000, Mask = 0xFF0000 } public enum MixerControlType { Custom = 0, BooleanMeter = 268500992, SignedMeter = 268566528, PeakMeter = 268566529, UnsignedMeter = 268632064, Boolean = 536936448, OnOff = 536936449, Mute = 536936450, Mono = 536936451, Loudness = 536936452, StereoEnhance = 536936453, Button = 553713664, Decibels = 805568512, Signed = 805437440, Unsigned = 805502976, Percent = 805634048, Slider = 1073872896, Pan = 1073872897, QSoundPan = 1073872898, Fader = 1342373888, Volume = 1342373889, Bass = 1342373890, Treble = 1342373891, Equalizer = 1342373892, SingleSelect = 1879113728, Mux = 1879113729, MultipleSelect = 1895890944, Mixer = 1895890945, MicroTime = 1610809344, MilliTime = 1627586560 } public class MixerLine { private MixerInterop.MIXERLINE mixerLine; private IntPtr mixerHandle; private MixerFlags mixerHandleType; public string Name => mixerLine.szName; public string ShortName => mixerLine.szShortName; public int LineId => mixerLine.dwLineID; public MixerLineComponentType ComponentType => mixerLine.dwComponentType; public string TypeDescription => mixerLine.dwComponentType switch { MixerLineComponentType.DestinationUndefined => "Undefined Destination", MixerLineComponentType.DestinationDigital => "Digital Destination", MixerLineComponentType.DestinationLine => "Line Level Destination", MixerLineComponentType.DestinationMonitor => "Monitor Destination", MixerLineComponentType.DestinationSpeakers => "Speakers Destination", MixerLineComponentType.DestinationHeadphones => "Headphones Destination", MixerLineComponentType.DestinationTelephone => "Telephone Destination", MixerLineComponentType.DestinationWaveIn => "Wave Input Destination", MixerLineComponentType.DestinationVoiceIn => "Voice Recognition Destination", MixerLineComponentType.SourceUndefined => "Undefined Source", MixerLineComponentType.SourceDigital => "Digital Source", MixerLineComponentType.SourceLine => "Line Level Source", MixerLineComponentType.SourceMicrophone => "Microphone Source", MixerLineComponentType.SourceSynthesizer => "Synthesizer Source", MixerLineComponentType.SourceCompactDisc => "Compact Disk Source", MixerLineComponentType.SourceTelephone => "Telephone Source", MixerLineComponentType.SourcePcSpeaker => "PC Speaker Source", MixerLineComponentType.SourceWaveOut => "Wave Out Source", MixerLineComponentType.SourceAuxiliary => "Auxiliary Source", MixerLineComponentType.SourceAnalog => "Analog Source", _ => "Invalid Component Type", }; public int Channels => mixerLine.cChannels; public int SourceCount => mixerLine.cConnections; public int ControlsCount => mixerLine.cControls; public bool IsActive => (mixerLine.fdwLine & MixerInterop.MIXERLINE_LINEF.MIXERLINE_LINEF_ACTIVE) != 0; public bool IsDisconnected => (mixerLine.fdwLine & MixerInterop.MIXERLINE_LINEF.MIXERLINE_LINEF_DISCONNECTED) != 0; public bool IsSource => (mixerLine.fdwLine & MixerInterop.MIXERLINE_LINEF.MIXERLINE_LINEF_SOURCE) != 0; public IEnumerable<MixerControl> Controls => MixerControl.GetMixerControls(mixerHandle, this, mixerHandleType); public IEnumerable<MixerLine> Sources { get { for (int source = 0; source < SourceCount; source++) { yield return GetSource(source); } } } public string TargetName => mixerLine.szPname; public MixerLine(IntPtr mixerHandle, int destinationIndex, MixerFlags mixerHandleType) { this.mixerHandle = mixerHandle; this.mixerHandleType = mixerHandleType; mixerLine = default(MixerInterop.MIXERLINE); mixerLine.cbStruct = Marshal.SizeOf((object)mixerLine); mixerLine.dwDestination = destinationIndex; MmException.Try(MixerInterop.mixerGetLineInfo(mixerHandle, ref mixerLine, mixerHandleType | MixerFlags.Mixer), "mixerGetLineInfo"); } public MixerLine(IntPtr mixerHandle, int destinationIndex, int sourceIndex, MixerFlags mixerHandleType) { this.mixerHandle = mixerHandle; this.mixerHandleType = mixerHandleType; mixerLine = default(MixerInterop.MIXERLINE); mixerLine.cbStruct = Marshal.SizeOf((object)mixerLine); mixerLine.dwDestination = destinationIndex; mixerLine.dwSource = sourceIndex; MmException.Try(MixerInterop.mixerGetLineInfo(mixerHandle, ref mixerLine, mixerHandleType | MixerFlags.ListText), "mixerGetLineInfo"); } public static int GetMixerIdForWaveIn(int waveInDevice) { int mixerID = -1; MmException.Try(MixerInterop.mixerGetID((IntPtr)waveInDevice, out mixerID, MixerFlags.WaveIn), "mixerGetID"); return mixerID; } public MixerLine GetSource(int sourceIndex) { if (sourceIndex < 0 || sourceIndex >= SourceCount) { throw new ArgumentOutOfRangeException("sourceIndex"); } return new MixerLine(mixerHandle, mixerLine.dwDestination, sourceIndex, mixerHandleType); } public override string ToString() { return $"{Name} {TypeDescription} ({ControlsCount} controls, ID={mixerLine.dwLineID})"; } } [Flags] public enum MixerFlags { Handle = int.MinValue, Mixer = 0, MixerHandle = int.MinValue, WaveOut = 0x10000000, WaveOutHandle = -1879048192, WaveIn = 0x20000000, WaveInHandle = -1610612736, MidiOut = 0x30000000, MidiOutHandle = -1342177280, MidiIn = 0x40000000, MidiInHandle = -1073741824, Aux = 0x50000000, Value = 0, ListText = 1, QueryMask = 0xF, All = 0, OneById = 1, OneByType = 2, GetLineInfoOfDestination = 0, GetLineInfoOfSource = 1, GetLineInfoOfLineId = 2, GetLineInfoOfComponentType = 3, GetLineInfoOfTargetType = 4, GetLineInfoOfQueryMask = 0xF } internal class MixerInterop { [StructLayout(LayoutKind.Sequential, CharSet = CharSet.Auto, Pack = 1)] public struct MIXERCONTROLDETAILS { public int cbStruct; public int dwControlID; public int cChannels; public IntPtr hwndOwner; public int cbDetails; public IntPtr paDetails; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct MIXERCAPS { public ushort wMid; public ushort wPid; public uint vDriverVersion; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 32)] public string szPname; public uint fdwSupport; public uint cDestinations; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct MIXERLINECONTROLS { public int cbStruct; public int dwLineID; public int dwControlID; public int cControls; public int cbmxctrl; public IntPtr pamxctrl; } [Flags] public enum MIXERLINE_LINEF { MIXERLINE_LINEF_ACTIVE = 1, MIXERLINE_LINEF_DISCONNECTED = 0x8000, MIXERLINE_LINEF_SOURCE = int.MinValue } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct MIXERLINE { public int cbStruct; public int dwDestination; public int dwSource; public int dwLineID; public MIXERLINE_LINEF fdwLine; public IntPtr dwUser; public MixerLineComponentType dwComponentType; public int cChannels; public int cConnections; public int cControls; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 16)] public string szShortName; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 64)] public string szName; public uint dwType; public uint dwDeviceID; public ushort wMid; public ushort wPid; public uint vDriverVersion; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 32)] public string szPname; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct Bounds { public int minimum; public int maximum; public int reserved2; public int reserved3; public int reserved4; public int reserved5; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct Metrics { public int step; public int customData; public int reserved2; public int reserved3; public int reserved4; public int reserved5; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct MIXERCONTROL { public uint cbStruct; public int dwControlID; public MixerControlType dwControlType; public uint fdwControl; public uint cMultipleItems; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 16)] public string szShortName; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 64)] public string szName; public Bounds Bounds; public Metrics Metrics; } public struct MIXERCONTROLDETAILS_BOOLEAN { public int fValue; } public struct MIXERCONTROLDETAILS_SIGNED { public int lValue; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct MIXERCONTROLDETAILS_LISTTEXT { public uint dwParam1; public uint dwParam2; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 64)] public string szName; } public struct MIXERCONTROLDETAILS_UNSIGNED { public uint dwValue; } public const uint MIXERCONTROL_CONTROLF_UNIFORM = 1u; public const uint MIXERCONTROL_CONTROLF_MULTIPLE = 2u; public const uint MIXERCONTROL_CONTROLF_DISABLED = 2147483648u; public const int MAXPNAMELEN = 32; public const int MIXER_SHORT_NAME_CHARS = 16; public const int MIXER_LONG_NAME_CHARS = 64; [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern int mixerGetNumDevs(); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerOpen(out IntPtr hMixer, int uMxId, IntPtr dwCallback, IntPtr dwInstance, MixerFlags dwOpenFlags); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerClose(IntPtr hMixer); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerGetControlDetails(IntPtr hMixer, ref MIXERCONTROLDETAILS mixerControlDetails, MixerFlags dwDetailsFlags); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerGetDevCaps(IntPtr nMixerID, ref MIXERCAPS mixerCaps, int mixerCapsSize); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerGetID(IntPtr hMixer, out int mixerID, MixerFlags dwMixerIDFlags); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerGetLineControls(IntPtr hMixer, ref MIXERLINECONTROLS mixerLineControls, MixerFlags dwControlFlags); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerGetLineInfo(IntPtr hMixer, ref MIXERLINE mixerLine, MixerFlags dwInfoFlags); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerMessage(IntPtr hMixer, uint nMessage, IntPtr dwParam1, IntPtr dwParam2); [DllImport("winmm.dll", CharSet = CharSet.Ansi)] public static extern MmResult mixerSetControlDetails(IntPtr hMixer, ref MIXERCONTROLDETAILS mixerControlDetails, MixerFlags dwDetailsFlags); } public enum MixerLineComponentType { DestinationUndefined = 0, DestinationDigital = 1, DestinationLine = 2, DestinationMonitor = 3, DestinationSpeakers = 4, DestinationHeadphones = 5, DestinationTelephone = 6, DestinationWaveIn = 7, DestinationVoiceIn = 8, SourceUndefined = 4096, SourceDigital = 4097, SourceLine = 4098, SourceMicrophone = 4099, SourceSynthesizer = 4100, SourceCompactDisc = 4101, SourceTelephone = 4102, SourcePcSpeaker = 4103, SourceWaveOut = 4104, SourceAuxiliary = 4105, SourceAnalog = 4106 } public class SignedMixerControl : MixerControl { private MixerInterop.MIXERCONTROLDETAILS_SIGNED signedDetails; public int Value { get { GetControlDetails(); return signedDetails.lValue; } set { signedDetails.lValue = value; mixerControlDetails.paDetails = Marshal.AllocHGlobal(Marshal.SizeOf((object)signedDetails)); Marshal.StructureToPtr((object)signedDetails, mixerControlDetails.paDetails, fDeleteOld: false); MmException.Try(MixerInterop.mixerSetControlDetails(mixerHandle, ref mixerControlDetails, MixerFlags.Mixer | mixerHandleType), "mixerSetControlDetails"); Marshal.FreeHGlobal(mixerControlDetails.paDetails); } } public int MinValue => mixerControl.Bounds.minimum; public int MaxValue => mixerControl.Bounds.maximum; public double Percent { get { return 100.0 * (double)(Value - MinValue) / (double)(MaxValue - MinValue); } set { Value = (int)((double)MinValue + value / 100.0 * (double)(MaxValue - MinValue)); } } internal SignedMixerControl(MixerInterop.MIXERCONTROL mixerControl, IntPtr mixerHandle, MixerFlags mixerHandleType, int nChannels) { base.mixerControl = mixerControl; base.mixerHandle = mixerHandle; base.mixerHandleType = mixerHandleType; base.nChannels = nChannels; mixerControlDetails = default(MixerInterop.MIXERCONTROLDETAILS); GetControlDetails(); } protected override void GetDetails(IntPtr pDetails) { signedDetails = (MixerInterop.MIXERCONTROLDETAILS_SIGNED)Marshal.PtrToStructure(mixerControlDetails.paDetails, typeof(MixerInterop.MIXERCONTROLDETAILS_SIGNED)); } public override string ToString() { return $"{base.ToString()} {Percent}%"; } } public class UnsignedMixerControl : MixerControl { private MixerInterop.MIXERCONTROLDETAILS_UNSIGNED[] unsignedDetails; public uint Value { get { GetControlDetails(); return unsignedDetails[0].dwValue; } set { int num = Marshal.SizeOf((object)unsignedDetails[0]); mixerControlDetails.paDetails = Marshal.AllocHGlobal(num * nChannels); for (int i = 0; i < nChannels; i++) { unsignedDetails[i].dwValue = value; long num2 = mixerControlDetails.paDetails.ToInt64() + num * i; Marshal.StructureToPtr((object)unsignedDetails[i], (IntPtr)num2, fDeleteOld: false); } MmException.Try(MixerInterop.mixerSetControlDetails(mixerHandle, ref mixerControlDetails, MixerFlags.Mixer | mixerHandleType), "mixerSetControlDetails"); Marshal.FreeHGlobal(mixerControlDetails.paDetails); } } public uint MinValue => (uint)mixerControl.Bounds.minimum; public uint MaxValue => (uint)mixerControl.Bounds.maximum; public double Percent { get { return 100.0 * (double)(Value - MinValue) / (double)(MaxValue - MinValue); } set { Value = (uint)((double)MinValue + value / 100.0 * (double)(MaxValue - MinValue)); } } internal UnsignedMixerControl(MixerInterop.MIXERCONTROL mixerControl, IntPtr mixerHandle, MixerFlags mixerHandleType, int nChannels) { base.mixerControl = mixerControl; base.mixerHandle = mixerHandle; base.mixerHandleType = mixerHandleType; base.nChannels = nChannels; mixerControlDetails = default(MixerInterop.MIXERCONTROLDETAILS); GetControlDetails(); } protected override void GetDetails(IntPtr pDetails) { unsignedDetails = new MixerInterop.MIXERCONTROLDETAILS_UNSIGNED[nChannels]; for (int i = 0; i < nChannels; i++) { unsignedDetails[i] = (MixerInterop.MIXERCONTROLDETAILS_UNSIGNED)Marshal.PtrToStructure(mixerControlDetails.paDetails, typeof(MixerInterop.MIXERCONTROLDETAILS_UNSIGNED)); } } public override string ToString() { return $"{base.ToString()} {Percent}%"; } } } namespace NAudio.Gui { public class Fader : Control { private int minimum; private int maximum; private float percent; private Orientation orientation; private Container components; private readonly int SliderHeight = 30; private readonly int SliderWidth = 15; private Rectangle sliderRectangle; private bool dragging; private int dragY; public int Minimum { get { return minimum; } set { minimum = value; } } public int Maximum { get { return maximum; } set { maximum = value; } } public int Value { get { return (int)(percent * (float)(maximum - minimum)) + minimum; } set { percent = (float)(value - minimum) / (float)(maximum - minimum); } } public Orientation Orientation { get { //IL_0001: Unknown result type (might be due to invalid IL or missing references) return orientation; } set { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_0002: Unknown result type (might be due to invalid IL or missing references) orientation = value; } } public Fader() { InitializeComponent(); ((Control)this).SetStyle((ControlStyles)73730, true); } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((Control)this).Dispose(disposing); } private void DrawSlider(Graphics g) { //IL_0005: Unknown result type (might be due to invalid IL or missing references) //IL_000b: Expected O, but got Unknown //IL_0010: Unknown result type (might be due to invalid IL or missing references) //IL_0016: Expected O, but got Unknown Brush val = (Brush)new SolidBrush(Color.White); Pen val2 = new Pen(Color.Black); sliderRectangle.X = (((Control)this).Width - SliderWidth) / 2; sliderRectangle.Width = SliderWidth; sliderRectangle.Y = (int)((float)(((Control)this).Height - SliderHeight) * percent); sliderRectangle.Height = SliderHeight; g.FillRectangle(val, sliderRectangle); g.DrawLine(val2, sliderRectangle.Left, sliderRectangle.Top + sliderRectangle.Height / 2, sliderRectangle.Right, sliderRectangle.Top + sliderRectangle.Height / 2); val.Dispose(); val2.Dispose(); } protected override void OnPaint(PaintEventArgs e) { //IL_0008: Unknown result type (might be due to invalid IL or missing references) //IL_000e: Invalid comparison between Unknown and I4 //IL_0015: Unknown result type (might be due to invalid IL or missing references) //IL_001b: Expected O, but got Unknown Graphics graphics = e.Graphics; if ((int)Orientation == 1) { Brush val = (Brush)new SolidBrush(Color.Black); graphics.FillRectangle(val, ((Control)this).Width / 2, SliderHeight / 2, 2, ((Control)this).Height - SliderHeight); val.Dispose(); DrawSlider(graphics); } ((Control)this).OnPaint(e); } protected override void OnMouseDown(MouseEventArgs e) { if (sliderRectangle.Contains(e.X, e.Y)) { dragging = true; dragY = e.Y - sliderRectangle.Y; } ((Control)this).OnMouseDown(e); } protected override void OnMouseMove(MouseEventArgs e) { if (dragging) { int num = e.Y - dragY; if (num < 0) { percent = 0f; } else if (num > ((Control)this).Height - SliderHeight) { percent = 1f; } else { percent = (float)num / (float)(((Control)this).Height - SliderHeight); } ((Control)this).Invalidate(); } ((Control)this).OnMouseMove(e); } protected override void OnMouseUp(MouseEventArgs e) { dragging = false; ((Control)this).OnMouseUp(e); } private void InitializeComponent() { this.components = new System.ComponentModel.Container(); } } public class PanSlider : UserControl { private Container components; private float pan; public float Pan { get { return pan; } set { if (value < -1f) { value = -1f; } if (value > 1f) { value = 1f; } if (value != pan) { pan = value; if (this.PanChanged != null) { this.PanChanged(this, EventArgs.Empty); } ((Control)this).Invalidate(); } } } public event EventHandler PanChanged; public PanSlider() { InitializeComponent(); } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((ContainerControl)this).Dispose(disposing); } private void InitializeComponent() { ((Control)this).Name = "PanSlider"; ((Control)this).Size = new Size(104, 16); } protected override void OnPaint(PaintEventArgs pe) { //IL_0000: Unknown result type (might be due to invalid IL or missing references) //IL_0006: Expected O, but got Unknown StringFormat val = new StringFormat(); val.LineAlignment = (StringAlignment)1; val.Alignment = (StringAlignment)1; string text; if ((double)pan == 0.0) { pe.Graphics.FillRectangle(Brushes.Orange, ((Control)this).Width / 2 - 1, 1, 3, ((Control)this).Height - 2); text = "C"; } else if (pan > 0f) { pe.Graphics.FillRectangle(Brushes.Orange, ((Control)this).Width / 2, 1, (int)((float)(((Control)this).Width / 2) * pan), ((Control)this).Height - 2); text = $"{pan * 100f:F0}%R"; } else { pe.Graphics.FillRectangle(Brushes.Orange, (int)((float)(((Control)this).Width / 2) * (pan + 1f)), 1, (int)((float)(((Control)this).Width / 2) * (0f - pan)), ((Control)this).Height - 2); text = $"{pan * -100f:F0}%L"; } pe.Graphics.DrawRectangle(Pens.Black, 0, 0, ((Control)this).Width - 1, ((Control)this).Height - 1); pe.Graphics.DrawString(text, ((Control)this).Font, Brushes.Black, (RectangleF)((Control)this).ClientRectangle, val); } protected override void OnMouseMove(MouseEventArgs e) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_000b: Invalid comparison between Unknown and I4 if ((int)e.Button == 1048576) { SetPanFromMouse(e.X); } ((Control)this).OnMouseMove(e); } protected override void OnMouseDown(MouseEventArgs e) { SetPanFromMouse(e.X); ((UserControl)this).OnMouseDown(e); } private void SetPanFromMouse(int x) { Pan = (float)x / (float)((Control)this).Width * 2f - 1f; } } public class Pot : UserControl { private double minimum; private double maximum = 1.0; private double value = 0.5; private int beginDragY; private double beginDragValue; private bool dragging; private IContainer components; public double Minimum { get { return minimum; } set { if (value >= maximum) { throw new ArgumentOutOfRangeException("Minimum must be less than maximum"); } minimum = value; if (Value < minimum) { Value = minimum; } } } public double Maximum { get { return maximum; } set { if (value <= minimum) { throw new ArgumentOutOfRangeException("Maximum must be greater than minimum"); } maximum = value; if (Value > maximum) { Value = maximum; } } } public double Value { get { return value; } set { SetValue(value, raiseEvents: false); } } public event EventHandler ValueChanged; public Pot() { ((Control)this).SetStyle((ControlStyles)73730, true); InitializeComponent(); } private void SetValue(double newValue, bool raiseEvents) { if (value != newValue) { value = newValue; if (raiseEvents && this.ValueChanged != null) { this.ValueChanged(this, EventArgs.Empty); } ((Control)this).Invalidate(); } } protected override void OnPaint(PaintEventArgs e) { //IL_0021: Unknown result type (might be due to invalid IL or missing references) //IL_0027: Expected O, but got Unknown int num = Math.Min(((Control)this).Width - 4, ((Control)this).Height - 4); Pen val = new Pen(((Control)this).ForeColor, 3f); val.LineJoin = (LineJoin)2; GraphicsState val2 = e.Graphics.Save(); e.Graphics.TranslateTransform((float)(((Control)this).Width / 2), (float)(((Control)this).Height / 2)); e.Graphics.SmoothingMode = (SmoothingMode)4; e.Graphics.DrawArc(val, new Rectangle(num / -2, num / -2, num, num), 135f, 270f); double num2 = (value - minimum) / (maximum - minimum); double num3 = 135.0 + num2 * 270.0; double num4 = (double)num / 2.0 * Math.Cos(Math.PI * num3 / 180.0); double num5 = (double)num / 2.0 * Math.Sin(Math.PI * num3 / 180.0); e.Graphics.DrawLine(val, 0f, 0f, (float)num4, (float)num5); e.Graphics.Restore(val2); ((Control)this).OnPaint(e); } protected override void OnMouseDown(MouseEventArgs e) { dragging = true; beginDragY = e.Y; beginDragValue = value; ((UserControl)this).OnMouseDown(e); } protected override void OnMouseUp(MouseEventArgs e) { dragging = false; ((Control)this).OnMouseUp(e); } protected override void OnMouseMove(MouseEventArgs e) { if (dragging) { int num = beginDragY - e.Y; double num2 = (maximum - minimum) * ((double)num / 150.0); double num3 = beginDragValue + num2; if (num3 < minimum) { num3 = minimum; } if (num3 > maximum) { num3 = maximum; } SetValue(num3, raiseEvents: true); } ((Control)this).OnMouseMove(e); } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((ContainerControl)this).Dispose(disposing); } private void InitializeComponent() { ((Control)this).SuspendLayout(); ((ContainerControl)this).AutoScaleDimensions = new SizeF(6f, 13f); ((ContainerControl)this).AutoScaleMode = (AutoScaleMode)1; ((Control)this).Name = "Pot"; ((Control)this).Size = new Size(32, 32); ((Control)this).ResumeLayout(false); } } public class VolumeMeter : Control { private Brush foregroundBrush; private float amplitude; private IContainer components; [DefaultValue(-3.0)] public float Amplitude { get { return amplitude; } set { amplitude = value; ((Control)this).Invalidate(); } } [DefaultValue(-60.0)] public float MinDb { get; set; } [DefaultValue(18.0)] public float MaxDb { get; set; } [DefaultValue(/*Could not decode attribute arguments.*/)] public Orientation Orientation { get; set; } public VolumeMeter() { ((Control)this).SetStyle((ControlStyles)139266, true); MinDb = -60f; MaxDb = 18f; Amplitude = 0f; Orientation = (Orientation)1; InitializeComponent(); ((Control)this).OnForeColorChanged(EventArgs.Empty); } protected override void OnForeColorChanged(EventArgs e) { //IL_0007: Unknown result type (might be due to invalid IL or missing references) //IL_0011: Expected O, but got Unknown foregroundBrush = (Brush)new SolidBrush(((Control)this).ForeColor); ((Control)this).OnForeColorChanged(e); } protected override void OnPaint(PaintEventArgs pe) { //IL_0089: Unknown result type (might be due to invalid IL or missing references) pe.Graphics.DrawRectangle(Pens.Black, 0, 0, ((Control)this).Width - 1, ((Control)this).Height - 1); double num = 20.0 * Math.Log10(Amplitude); if (num < (double)MinDb) { num = MinDb; } if (num > (double)MaxDb) { num = MaxDb; } double num2 = (num - (double)MinDb) / (double)(MaxDb - MinDb); int num3 = ((Control)this).Width - 2; int num4 = ((Control)this).Height - 2; if ((int)Orientation == 0) { num3 = (int)((double)num3 * num2); pe.Graphics.FillRectangle(foregroundBrush, 1, 1, num3, num4); } else { num4 = (int)((double)num4 * num2); pe.Graphics.FillRectangle(foregroundBrush, 1, ((Control)this).Height - 1 - num4, num3, num4); } } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((Control)this).Dispose(disposing); } private void InitializeComponent() { this.components = new System.ComponentModel.Container(); } } public class VolumeSlider : UserControl { private Container components; private float volume = 1f; private float MinDb = -48f; [DefaultValue(1f)] public float Volume { get { return volume; } set { if (value < 0f) { value = 0f; } if (value > 1f) { value = 1f; } if (volume != value) { volume = value; if (this.VolumeChanged != null) { this.VolumeChanged(this, EventArgs.Empty); } ((Control)this).Invalidate(); } } } public event EventHandler VolumeChanged; public VolumeSlider() { InitializeComponent(); } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((ContainerControl)this).Dispose(disposing); } private void InitializeComponent() { ((Control)this).Name = "VolumeSlider"; ((Control)this).Size = new Size(96, 16); } protected override void OnPaint(PaintEventArgs pe) { //IL_0000: Unknown result type (might be due to invalid IL or missing references) //IL_0006: Expected O, but got Unknown StringFormat val = new StringFormat(); val.LineAlignment = (StringAlignment)1; val.Alignment = (StringAlignment)1; pe.Graphics.DrawRectangle(Pens.Black, 0, 0, ((Control)this).Width - 1, ((Control)this).Height - 1); float num = 20f * (float)Math.Log10(Volume); float num2 = 1f - num / MinDb; pe.Graphics.FillRectangle(Brushes.LightGreen, 1, 1, (int)((float)(((Control)this).Width - 2) * num2), ((Control)this).Height - 2); string text = $"{num:F2} dB"; pe.Graphics.DrawString(text, ((Control)this).Font, Brushes.Black, (RectangleF)((Control)this).ClientRectangle, val); } protected override void OnMouseMove(MouseEventArgs e) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) //IL_000b: Invalid comparison between Unknown and I4 if ((int)e.Button == 1048576) { SetVolumeFromMouse(e.X); } ((Control)this).OnMouseMove(e); } protected override void OnMouseDown(MouseEventArgs e) { SetVolumeFromMouse(e.X); ((UserControl)this).OnMouseDown(e); } private void SetVolumeFromMouse(int x) { float num = (1f - (float)x / (float)((Control)this).Width) * MinDb; if (x <= 0) { Volume = 0f; } else { Volume = (float)Math.Pow(10.0, num / 20f); } } } public class WaveformPainter : Control { private Pen foregroundPen; private List<float> samples = new List<float>(1000); private int maxSamples; private int insertPos; private IContainer components; public WaveformPainter() { ((Control)this).SetStyle((ControlStyles)139266, true); InitializeComponent(); ((Control)this).OnForeColorChanged(EventArgs.Empty); ((Control)this).OnResize(EventArgs.Empty); } protected override void OnResize(EventArgs e) { maxSamples = ((Control)this).Width; ((Control)this).OnResize(e); } protected override void OnForeColorChanged(EventArgs e) { //IL_0007: Unknown result type (might be due to invalid IL or missing references) //IL_0011: Expected O, but got Unknown foregroundPen = new Pen(((Control)this).ForeColor); ((Control)this).OnForeColorChanged(e); } public void AddMax(float maxSample) { if (maxSamples != 0) { if (samples.Count <= maxSamples) { samples.Add(maxSample); } else if (insertPos < maxSamples) { samples[insertPos] = maxSample; } insertPos++; insertPos %= maxSamples; ((Control)this).Invalidate(); } } protected override void OnPaint(PaintEventArgs pe) { ((Control)this).OnPaint(pe); for (int i = 0; i < ((Control)this).Width; i++) { float num = (float)((Control)this).Height * GetSample(i - ((Control)this).Width + insertPos); float num2 = ((float)((Control)this).Height - num) / 2f; pe.Graphics.DrawLine(foregroundPen, (float)i, num2, (float)i, num2 + num); } } private float GetSample(int index) { if (index < 0) { index += maxSamples; } if ((index >= 0) & (index < samples.Count)) { return samples[index]; } return 0f; } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((Control)this).Dispose(disposing); } private void InitializeComponent() { this.components = new System.ComponentModel.Container(); } } public class WaveViewer : UserControl { private Container components; private WaveStream waveStream; private int samplesPerPixel = 128; private long startPosition; private int bytesPerSample; public WaveStream WaveStream { get { return waveStream; } set { waveStream = value; if (waveStream != null) { bytesPerSample = waveStream.WaveFormat.BitsPerSample / 8 * waveStream.WaveFormat.Channels; } ((Control)this).Invalidate(); } } public int SamplesPerPixel { get { return samplesPerPixel; } set { samplesPerPixel = value; ((Control)this).Invalidate(); } } public long StartPosition { get { return startPosition; } set { startPosition = value; } } public WaveViewer() { InitializeComponent(); ((Control)this).DoubleBuffered = true; } protected override void Dispose(bool disposing) { if (disposing && components != null) { components.Dispose(); } ((ContainerControl)this).Dispose(disposing); } protected override void OnPaint(PaintEventArgs e) { if (waveStream != null) { waveStream.Position = 0L; byte[] array = new byte[samplesPerPixel * bytesPerSample]; waveStream.Position = startPosition + e.ClipRectangle.Left * bytesPerSample * samplesPerPixel; for (float num = e.ClipRectangle.X; num < (float)e.ClipRectangle.Right; num += 1f) { short num2 = 0; short num3 = 0; int num4 = waveStream.Read(array, 0, samplesPerPixel * bytesPerSample); if (num4 == 0) { break; } for (int i = 0; i < num4; i += 2) { short num5 = BitConverter.ToInt16(array, i); if (num5 < num2) { num2 = num5; } if (num5 > num3) { num3 = num5; } } float num6 = ((float)num2 - -32768f) / 65535f; float num7 = ((float)num3 - -32768f) / 65535f; e.Graphics.DrawLine(Pens.Black, num, (float)((Control)this).Height * num6, num, (float)((Control)this).Height * num7); } } ((Control)this).OnPaint(e); } private void InitializeComponent() { components = new Container(); } } } namespace NAudio.SoundFont { public class Generator { private GeneratorEnum generatorType; private ushort rawAmount; private Instrument instrument; private SampleHeader sampleHeader; public GeneratorEnum GeneratorType { get { return generatorType; } set { generatorType = value; } } public ushort UInt16Amount { get { return rawAmount; } set { rawAmount = value; } } public short Int16Amount { get { return (short)rawAmount; } set { rawAmount = (ushort)value; } } public byte LowByteAmount { get { return (byte)(rawAmount & 0xFFu); } set { rawAmount &= 65280; rawAmount += value; } } public byte HighByteAmount { get { return (byte)((rawAmount & 0xFF00) >> 8); } set { rawAmount &= 255; rawAmount += (ushort)(value << 8); } } public Instrument Instrument { get { return instrument; } set { instrument = value; } } public SampleHeader SampleHeader { get { return sampleHeader; } set { sampleHeader = value; } } public override string ToString() { if (generatorType == GeneratorEnum.Instrument) { return $"Generator Instrument {instrument.Name}"; } if (generatorType == GeneratorEnum.SampleID) { return $"Generator SampleID {sampleHeader}"; } return $"Generator {generatorType} {rawAmount}"; } } internal class GeneratorBuilder : StructureBuilder<Generator> { public override int Length => 4; public Generator[] Generators => data.ToArray(); public override Generator Read(BinaryReader br) { Generator generator = new Generator(); generator.GeneratorType = (GeneratorEnum)br.ReadUInt16(); generator.UInt16Amount = br.ReadUInt16(); data.Add(generator); return generator; } public override void Write(BinaryWriter bw, Generator o) { } public void Load(Instrument[] instruments) { Generator[] generators = Generators; foreach (Generator generator in generators) { if (generator.GeneratorType == GeneratorEnum.Instrument) { generator.Instrument = instruments[generator.UInt16Amount]; } } } public void Load(SampleHeader[] sampleHeaders) { Generator[] generators = Generators; foreach (Generator generator in generators) { if (generator.GeneratorType == GeneratorEnum.SampleID) { generator.SampleHeader = sampleHeaders[generator.UInt16Amount]; } } } } public enum GeneratorEnum { StartAddressOffset, EndAddressOffset, StartLoopAddressOffset, EndLoopAddressOffset, StartAddressCoarseOffset, ModulationLFOToPitch, VibratoLFOToPitch, ModulationEnvelopeToPitch, InitialFilterCutoffFrequency, InitialFilterQ, ModulationLFOToFilterCutoffFrequency, ModulationEnvelopeToFilterCutoffFrequency, EndAddressCoarseOffset, ModulationLFOToVolume, Unused1, ChorusEffectsSend, ReverbEffectsSend, Pan, Unused2, Unused3, Unused4, DelayModulationLFO, FrequencyModulationLFO, DelayVibratoLFO, FrequencyVibratoLFO, DelayModulationEnvelope, AttackModulationEnvelope, HoldModulationEnvelope, DecayModulationEnvelope, SustainModulationEnvelope, ReleaseModulationEnvelope, KeyNumberToModulationEnvelopeHold, KeyNumberToModulationEnvelopeDecay, DelayVolumeEnvelope, AttackVolumeEnvelope, HoldVolumeEnvelope, DecayVolumeEnvelope, SustainVolumeEnvelope, ReleaseVolumeEnvelope, KeyNumberToVolumeEnvelopeHold, KeyNumberToVolumeEnvelopeDecay, Instrument, Reserved1, KeyRange, VelocityRange, StartLoopAddressCoarseOffset, KeyNumber, Velocity, InitialAttenuation, Reserved2, EndLoopAddressCoarseOffset, CoarseTune, FineTune, SampleID, SampleModes, Reserved3, ScaleTuning, ExclusiveClass, OverridingRootKey, Unused5, UnusedEnd } public class InfoChunk { public SFVersion SoundFontVersion { get; } public string WaveTableSoundEngine { get; set; } public string BankName { get; set; } public string DataROM { get; set; } public string CreationDate { get; set; } public string Author { get; set; } public string TargetProduct { get; set; } public string Copyright { get; set; } public string Comments { get; set; } public string Tools { get; set; } public SFVersion ROMVersion { get; set; } internal InfoChunk(RiffChunk chunk) { bool flag = false; bool flag2 = false; if (chunk.ReadChunkID() != "INFO") { throw new InvalidDataException("Not an INFO chunk"); } RiffChunk nextSubChunk; while ((nextSubChunk = chunk.GetNextSubChunk()) != null) { switch (nextSubChunk.ChunkID) { case "ifil": flag = true; SoundFontVersion = nextSubChunk.GetDataAsStructure(new SFVersionBuilder()); break; case "isng": WaveTableSoundEngine = nextSubChunk.GetDataAsString(); break; case "INAM": flag2 = true; BankName = nextSubChunk.GetDataAsString(); break; case "irom": DataROM = nextSubChunk.GetDataAsString(); break; case "iver": ROMVersion = nextSubChunk.GetDataAsStructure(new SFVersionBuilder()); break; case "ICRD": CreationDate = nextSubChunk.GetDataAsString(); break; case "IENG": Author = nextSubChunk.GetDataAsString(); break; case "IPRD": TargetProduct = nextSubChunk.GetDataAsString(); break; case "ICOP": Copyright = nextSubChunk.GetDataAsString(); break; case "ICMT": Comments = nextSubChunk.GetDataAsString(); break; case "ISFT": Tools = nextSubChunk.GetDataAsString(); break; default: throw new InvalidDataException($"Unknown chunk type {nextSubChunk.ChunkID}"); } } if (!flag) { throw new InvalidDataException("Missing SoundFont version information"); } if (!flag2) { throw new InvalidDataException("Missing SoundFont name information"); } } public override string ToString() { return string.Format("Bank Name: {0}\r\nAuthor: {1}\r\nCopyright: {2}\r\nCreation Date: {3}\r\nTools: {4}\r\nComments: {5}\r\nSound Engine: {6}\r\nSoundFont Version: {7}\r\nTarget Product: {8}\r\nData ROM: {9}\r\nROM Version: {10}", BankName, Author, Copyright, CreationDate, Tools, "TODO-fix comments", WaveTableSoundEngine, SoundFontVersion, TargetProduct, DataROM, ROMVersion); } } public class Instrument { private string name; internal ushort startInstrumentZoneIndex; internal ushort endInstrumentZoneIndex; private Zone[] zones; public string Name { get { return name; } set { name = value; } } public Zone[] Zones { get { return zones; } set { zones = value; } } public override string ToString() { return name; } } internal class InstrumentBuilder : StructureBuilder<Instrument> { private Instrument lastInstrument; public override int Length => 22; public Instrument[] Instruments => data.ToArray(); public override Instrument Read(BinaryReader br) { Instrument instrument = new Instrument(); string text = Encoding.UTF8.GetString(br.ReadBytes(20), 0, 20); if (text.IndexOf('\0') >= 0) { text = text.Substring(0, text.IndexOf('\0')); } instrument.Name = text; instrument.startInstrumentZoneIndex = br.ReadUInt16(); if (lastInstrument != null) { lastInstrument.endInstrumentZoneIndex = (ushort)(instrument.startInstrumentZoneIndex - 1); } data.Add(instrument); lastInstrument = instrument; return instrument; } public override void Write(BinaryWriter bw, Instrument instrument) { } public void LoadZones(Zone[] zones) { for (int i = 0; i < data.Count - 1; i++) { Instrument instrument = data[i]; instrument.Zones = new Zone[instrument.endInstrumentZoneIndex - instrument.startInstrumentZoneIndex + 1]; Array.Copy(zones, instrument.startInstrumentZoneIndex, instrument.Zones, 0, instrument.Zones.Length); } data.RemoveAt(data.Count - 1); } } public enum TransformEnum { Linear } public class Modulator { private ModulatorType sourceModulationData; private GeneratorEnum destinationGenerator; private short amount; private ModulatorType sourceModulationAmount; private TransformEnum sourceTransform; public ModulatorType SourceModulationData { get { return sourceModulationData; } set { sourceModulationData = value; } } public GeneratorEnum DestinationGenerator { get { return destinationGenerator; } set { destinationGenerator = value; } } public short Amount { get { return amount; } set { amount = value; } } public ModulatorType SourceModulationAmount { get { return sourceModulationAmount; } set { sourceModulationAmount = value; } } public TransformEnum SourceTransform { get { return sourceTransform; } set { sourceTransform = value; } } public override string ToString() { return $"Modulator {sourceModulationData} {destinationGenerator} {amount} {sourceModulationAmount} {sourceTransform}"; } } internal class ModulatorBuilder : StructureBuilder<Modulator> { public override int Length => 10; public Modulator[] Modulators => data.ToArray(); public override Modulator Read(BinaryReader br) { Modulator modulator = new Modulator(); modulator.SourceModulationData = new ModulatorType(br.ReadUInt16()); modulator.DestinationGenerator = (GeneratorEnum)br.ReadUInt16(); modulator.Amount = br.ReadInt16(); modulator.SourceModulationAmount = new ModulatorType(br.ReadUInt16()); modulator.SourceTransform = (TransformEnum)br.ReadUInt16(); data.Add(modulator); return modulator; } public override void Write(BinaryWriter bw, Modulator o) { } } public enum ControllerSourceEnum { NoController = 0, NoteOnVelocity = 2, NoteOnKeyNumber = 3, PolyPressure = 10, ChannelPressure = 13, PitchWheel = 14, PitchWheelSensitivity = 16 } public enum SourceTypeEnum { Linear, Concave, Convex, Switch } public class ModulatorType { private bool polarity; private bool direction; private bool midiContinuousController; private ControllerSourceEnum controllerSource; private SourceTypeEnum sourceType; private ushort midiContinuousControllerNumber; internal ModulatorType(ushort raw) { polarity = (raw & 0x200) == 512; direction = (raw & 0x100) == 256; midiContinuousController = (raw & 0x80) == 128; sourceType = (SourceTypeEnum)((raw & 0xFC00) >> 10); controllerSource = (ControllerSourceEnum)(raw & 0x7F); midiContinuousControllerNumber = (ushort)(raw & 0x7Fu); } public override string ToString() { if (midiContinuousController) { return $"{sourceType} CC{midiContinuousControllerNumber}"; } return $"{sourceType} {controllerSource}"; } } public class Preset { private string name; private ushort patchNumber; private ushort bank; internal ushort startPresetZoneIndex; internal ushort endPresetZoneIndex; internal uint library; internal uint genre; internal uint morphology; private Zone[] zones; public string Name { get { return name; } set { name = value; } } public ushort PatchNumber { get { return patchNumber; } set { patchNumber = value; } } public ushort Bank { get { return bank; } set { bank = value; } } public Zone[] Zones { get { return zones; } set { zones = value; } } public override string ToString() { return $"{bank}-{patchNumber} {name}"; } } internal class PresetBuilder : StructureBuilder<Preset> { private Preset lastPreset; public override int Length => 38; public Preset[] Presets => data.ToArray(); public override Preset Read(BinaryReader br) { Preset preset = new Preset(); string text = Encoding.UTF8.GetString(br.ReadBytes(20), 0, 20); if (text.IndexOf('\0') >= 0) { text = text.Substring(0, text.IndexOf('\0')); } preset.Name = text; preset.PatchNumber = br.ReadUInt16(); preset.Bank = br.ReadUInt16(); preset.startPresetZoneIndex = br.ReadUInt16(); preset.library = br.ReadUInt32(); preset.genre = br.ReadUInt32(); preset.morphology = br.ReadUInt32(); if (lastPreset != null) { lastPreset.endPresetZoneIndex = (ushort)(preset.startPresetZoneIndex - 1); } data.Add(preset); lastPreset = preset; return preset; } public override void Write(BinaryWriter bw, Preset preset) { } public void LoadZones(Zone[] presetZones) { for (int i = 0; i < data.Count - 1; i++) { Preset preset = data[i]; preset.Zones = new Zone[preset.endPresetZoneIndex - preset.startPresetZoneIndex + 1]; Array.Copy(presetZones, preset.startPresetZoneIndex, preset.Zones, 0, preset.Zones.Length); } data.RemoveAt(data.Count - 1); } } public class PresetsChunk { private PresetBuilder presetHeaders = new PresetBuilder(); private ZoneBuilder presetZones = new ZoneBuilder(); private ModulatorBuilder presetZoneModulators = new ModulatorBuilder(); private GeneratorBuilder presetZoneGenerators = new GeneratorBuilder(); private InstrumentBuilder instruments = new InstrumentBuilder(); private ZoneBuilder instrumentZones = new ZoneBuilder(); private ModulatorBuilder instrumentZoneModulators = new ModulatorBuilder(); private GeneratorBuilder instrumentZoneGenerators = new GeneratorBuilder(); private SampleHeaderBuilder sampleHeaders = new SampleHeaderBuilder(); public Preset[] Presets => presetHeaders.Presets; public Instrument[] Instruments => instruments.Instruments; public SampleHeader[] SampleHeaders => sampleHeaders.SampleHeaders; internal PresetsChunk(RiffChunk chunk) { string text = chunk.ReadChunkID(); if (text != "pdta") { throw new InvalidDataException($"Not a presets data chunk ({text})"); } RiffChunk nextSubChunk; while ((nextSubChunk = chunk.GetNextSubChunk()) != null) { switch (nextSubChunk.ChunkID) { case "PHDR": case "phdr": nextSubChunk.GetDataAsStructureArray(presetHeaders); break; case "PBAG": case "pbag": nextSubChunk.GetDataAsStructureArray(presetZones); break; case "PMOD": case "pmod": nextSubChunk.GetDataAsStructureArray(presetZoneModulators); break; case "PGEN": case "pgen": nextSubChunk.GetDataAsStructureArray(presetZoneGenerators); break; case "INST": case "inst": nextSubChunk.GetDataAsStructureArray(instruments); break; case "IBAG": case "ibag": nextSubChunk.GetDataAsStructureArray(instrumentZones); break; case "IMOD": case "imod": nextSubChunk.GetDataAsStructureArray(instrumentZoneModulators); break; case "IGEN": case "igen": nextSubChunk.GetDataAsStructureArray(instrumentZoneGenerators); break; case "SHDR": case "shdr": nextSubChunk.GetDataAsStructureArray(sampleHeaders); break; default: throw new InvalidDataException($"Unknown chunk type {nextSubChunk.ChunkID}"); } } instrumentZoneGenerators.Load(sampleHeaders.SampleHeaders); instrumentZones.Load(instrumentZoneModulators.Modulators, instrumentZoneGenerators.Generators); instruments.LoadZones(instrumentZones.Zones); presetZoneGenerators.Load(instruments.Instruments); presetZones.Load(presetZoneModulators.Modulators, presetZoneGenerators.Generators); presetHeaders.LoadZones(presetZones.Zones); sampleHeaders.RemoveEOS(); } public override string ToString() { StringBuilder stringBuilder = new StringBuilder(); stringBuilder.Append("Preset Headers:\r\n"); Preset[] presets = presetHeaders.Presets; foreach (Preset arg in presets) { stringBuilder.AppendFormat("{0}\r\n", arg); } stringBuilder.Append("Instruments:\r\n"); Instrument[] array = instruments.Instruments; foreach (Instrument arg2 in array) { stringBuilder.AppendFormat("{0}\r\n", arg2); } return stringBuilder.ToString(); } } internal class RiffChunk { private string chunkID; private uint chunkSize; private long dataOffset; private BinaryReader riffFile; public string ChunkID { get { return chunkID; } set { if (value == null) { throw new ArgumentNullException("ChunkID may not be null"); } if (value.Length != 4) { throw new ArgumentException("ChunkID must be four characters"); } chunkID = value; } } public uint ChunkSize => chunkSize; public long DataOffset => dataOffset; public static RiffChunk GetTopLevelChunk(BinaryReader file) { RiffChunk riffChunk = new RiffChunk(file); riffChunk.ReadChunk(); return riffChunk; } private RiffChunk(BinaryReader file) { riffFile = file; chunkID = "????"; chunkSize = 0u; dataOffset = 0L; } public string ReadChunkID() { byte[] array = riffFile.ReadBytes(4); if (array.Length != 4) { throw new InvalidDataException("Couldn't read Chunk ID"); } return ByteEncoding.Instance.GetString(array, 0, array.Length); } private void ReadChunk() { chunkID = ReadChunkID(); chunkSize = riffFile.ReadUInt32(); dataOffset = riffFile.BaseStream.Position; } public RiffChunk GetNextSubChunk() { if (riffFile.BaseStream.Position + 8 < dataOffset + chunkSize) { RiffChunk riffChunk = new RiffChunk(riffFile); riffChunk.ReadChunk(); return riffChunk; } return null; } public byte[] GetData() { riffFile.BaseStream.Position = dataOffset; byte[] array = riffFile.ReadBytes((int)chunkSize); if (array.Length != chunkSize) { throw new InvalidDataException($"Couldn't read chunk's data Chunk: {this}, read {array.Length} bytes"); } return array; } public string GetDataAsString() { byte[] data = GetData(); if (data == null) { return null; } return ByteEncoding.Instance.GetString(data, 0, data.Length); } public T GetDataAsStructure<T>(StructureBuilder<T> s) { riffFile.BaseStream.Position = dataOffset; if (s.Length != chunkSize) { throw new InvalidDataException($"Chunk size is: {chunkSize} so can't read structure of: {s.Length}"); } return s.Read(riffFile); } public T[] GetDataAsStructureArray<T>(StructureBuilder<T> s) { riffFile.BaseStream.Position = dataOffset; if (chunkSize % s.Length != 0L) { throw new InvalidDataException($"Chunk size is: {chunkSize} not a multiple of structure size: {s.Length}"); } int num = (int)(chunkSize / s.Length); T[] array = new T[num]; for (int i = 0; i < num; i++) { array[i] = s.Read(riffFile); } return array; } public override string ToString() { return $"RiffChunk ID: {ChunkID} Size: {ChunkSize} Data Offset: {DataOffset}"; } } internal class SampleDataChunk { private byte[] sampleData; public byte[] SampleData => sampleData; public SampleDataChunk(RiffChunk chunk) { string text = chunk.ReadChunkID(); if (text != "sdta") { throw new InvalidDataException($"Not a sample data chunk ({text})"); } sampleData = chunk.GetData(); } } public class SampleHeader { public string SampleName; public uint Start; public uint End; public uint StartLoop; public uint EndLoop; public uint SampleRate; public byte OriginalPitch; public sbyte PitchCorrection; public ushort SampleLink; public SFSampleLink SFSampleLink; public override string ToString() { return SampleName; } } internal class SampleHeaderBuilder : StructureBuilder<SampleHeader> { public override int Length => 46; public SampleHeader[] SampleHeaders => data.ToArray(); public override SampleHeader Read(BinaryReader br) { SampleHeader sampleHeader = new SampleHeader(); byte[] array = br.ReadBytes(20); sampleHeader.SampleName = ByteEncoding.Instance.GetString(array, 0, array.Length); sampleHeader.Start = br.ReadUInt32(); sampleHeader.End = br.ReadUInt32(); sampleHeader.StartLoop = br.ReadUInt32(); sampleHeader.EndLoop = br.ReadUInt32(); sampleHeader.SampleRate = br.ReadUInt32(); sampleHeader.OriginalPitch = br.ReadByte(); sampleHeader.PitchCorrection = br.ReadSByte(); sampleHeader.SampleLink = br.ReadUInt16(); sampleHeader.SFSampleLink = (SFSampleLink)br.ReadUInt16(); data.Add(sampleHeader); return sampleHeader; } public override void Write(BinaryWriter bw, SampleHeader sampleHeader) { } internal void RemoveEOS() { data.RemoveAt(data.Count - 1); } } public enum SampleMode { NoLoop, LoopContinuously, ReservedNoLoop, LoopAndContinue } public enum SFSampleLink : ushort { MonoSample = 1, RightSample = 2, LeftSample = 4, LinkedSample = 8, RomMonoSample = 32769, RomRightSample = 32770, RomLeftSample = 32772, RomLinkedSample = 32776 } public class SFVersion { private short major; private short minor; public short Major { get { return major; } set { major = value; } } public short Minor { get { return minor; } set { minor = value; } } } internal class SFVersionBuilder : StructureBuilder<SFVersion> { public override int Length => 4; public override SFVersion Read(BinaryReader br) { SFVersion sFVersion = new SFVersion(); sFVersion.Major = br.ReadInt16(); sFVersion.Minor = br.ReadInt16(); data.Add(sFVersion); return sFVersion; } public override void Write(BinaryWriter bw, SFVersion v) { bw.Write(v.Major); bw.Write(v.Minor); } } public class SoundFont { private InfoChunk info; private PresetsChunk presetsChunk; private SampleDataChunk sampleData; public InfoChunk FileInfo => info; public Preset[] Presets => presetsChunk.Presets; public Instrument[] Instruments => presetsChunk.Instruments; public SampleHeader[] SampleHeaders => presetsChunk.SampleHeaders; public byte[] SampleData => sampleData.SampleData; public SoundFont(string fileName) : this(new FileStream(fileName, FileMode.Open, FileAccess.Read)) { } public SoundFont(Stream sfFile) { using (sfFile) { RiffChunk topLevelChunk = RiffChunk.GetTopLevelChunk(new BinaryReader(sfFile)); if (topLevelChunk.ChunkID == "RIFF") { string text = topLevelChunk.ReadChunkID(); if (text != "sfbk") { throw new InvalidDataException($"Not a SoundFont ({text})"); } RiffChunk nextSubChunk = topLevelChunk.GetNextSubChunk(); if (nextSubChunk.ChunkID == "LIST") { info = new InfoChunk(nextSubChunk); RiffChunk nextSubChunk2 = topLevelChunk.GetNextSubChunk(); sampleData = new SampleDataChunk(nextSubChunk2); nextSubChunk2 = topLevelChunk.GetNextSubChunk(); presetsChunk = new PresetsChunk(nextSubChunk2); return; } throw new InvalidDataException($"Not info list found ({nextSubChunk.ChunkID})"); } throw new InvalidDataException("Not a RIFF file"); } } public override string ToString() { return $"Info Chunk:\r\n{info}\r\nPresets Chunk:\r\n{presetsChunk}"; } } internal abstract class StructureBuilder<T> { protected List<T> data; public abstract int Length { get; } public T[] Data => data.ToArray(); public StructureBuilder() { Reset(); } public abstract T Read(BinaryReader br); public abstract void Write(BinaryWriter bw, T o); public void Reset() { data = new List<T>(); } } public class Zone { internal ushort generatorIndex; internal ushort modulatorIndex; internal ushort generatorCount; internal ushort modulatorCount; private Modulator[] modulators; private Generator[] generators; public Modulator[] Modulators { get { return modulators; } set { modulators = value; } } public Generator[] Generators { get { return generators; } set { generators = value; } } public override string ToString() { return $"Zone {generatorCount} Gens:{generatorIndex} {modulatorCount} Mods:{modulatorIndex}"; } } internal class ZoneBuilder : StructureBuilder<Zone> { private Zone lastZone; public Zone[] Zones => data.ToArray(); public override int Length => 4; public override Zone Read(BinaryReader br) { Zone zone = new Zone(); zone.generatorIndex = br.ReadUInt16(); zone.modulatorIndex = br.ReadUInt16(); if (lastZone != null) { lastZone.generatorCount = (ushort)(zone.generatorIndex - lastZone.generatorIndex); lastZone.modulatorCount = (ushort)(zone.modulatorIndex - lastZone.modulatorIndex); } data.Add(zone); lastZone = zone; return zone; } public override void Write(BinaryWriter bw, Zone zone) { } public void Load(Modulator[] modulators, Generator[] generators) { for (int i = 0; i < data.Count - 1; i++) { Zone zone = data[i]; zone.Generators = new Generator[zone.generatorCount]; Array.Copy(generators, zone.generatorIndex, zone.Generators, 0, zone.generatorCount); zone.Modulators = new Modulator[zone.modulatorCount]; Array.Copy(modulators, zone.modulatorIndex, zone.Modulators, 0, zone.modulatorCount); } data.RemoveAt(data.Count - 1); } } } namespace NAudio.Dmo { internal class AudioMediaSubtypes { public static readonly Guid MEDIASUBTYPE_PCM = new Guid("00000001-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIASUBTYPE_PCMAudioObsolete = new Guid("e436eb8a-524f-11ce-9f53-0020af0ba770"); public static readonly Guid MEDIASUBTYPE_MPEG1Packet = new Guid("e436eb80-524f-11ce-9f53-0020af0ba770"); public static readonly Guid MEDIASUBTYPE_MPEG1Payload = new Guid("e436eb81-524f-11ce-9f53-0020af0ba770"); public static readonly Guid MEDIASUBTYPE_MPEG2_AUDIO = new Guid("e06d802b-db46-11cf-b4d1-00805f6cbbea"); public static readonly Guid MEDIASUBTYPE_DVD_LPCM_AUDIO = new Guid("e06d8032-db46-11cf-b4d1-00805f6cbbea"); public static readonly Guid MEDIASUBTYPE_DRM_Audio = new Guid("00000009-0000-0010-8000-00aa00389b71"); public static readonly Guid MEDIASUBTYPE_IEEE_FLOAT = new Guid("00000003-0000-0010-8000-00aa00389b71"); public static readonly Guid MEDIASUBTYPE_DOLBY_AC3 = new Guid("e06d802c-db46-11cf-b4d1-00805f6cbbea"); public static readonly Guid MEDIASUBTYPE_DOLBY_AC3_SPDIF = new Guid("00000092-0000-0010-8000-00aa00389b71"); public static readonly Guid MEDIASUBTYPE_RAW_SPORT = new Guid("00000240-0000-0010-8000-00aa00389b71"); public static readonly Guid MEDIASUBTYPE_SPDIF_TAG_241h = new Guid("00000241-0000-0010-8000-00aa00389b71"); public static readonly Guid WMMEDIASUBTYPE_MP3 = new Guid("00000055-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIASUBTYPE_WAVE = new Guid("e436eb8b-524f-11ce-9f53-0020af0ba770"); public static readonly Guid MEDIASUBTYPE_AU = new Guid("e436eb8c-524f-11ce-9f53-0020af0ba770"); public static readonly Guid MEDIASUBTYPE_AIFF = new Guid("e436eb8d-524f-11ce-9f53-0020af0ba770"); public static readonly Guid[] AudioSubTypes = new Guid[13] { MEDIASUBTYPE_PCM, MEDIASUBTYPE_PCMAudioObsolete, MEDIASUBTYPE_MPEG1Packet, MEDIASUBTYPE_MPEG1Payload, MEDIASUBTYPE_MPEG2_AUDIO, MEDIASUBTYPE_DVD_LPCM_AUDIO, MEDIASUBTYPE_DRM_Audio, MEDIASUBTYPE_IEEE_FLOAT, MEDIASUBTYPE_DOLBY_AC3, MEDIASUBTYPE_DOLBY_AC3_SPDIF, MEDIASUBTYPE_RAW_SPORT, MEDIASUBTYPE_SPDIF_TAG_241h, WMMEDIASUBTYPE_MP3 }; public static readonly string[] AudioSubTypeNames = new string[13] { "PCM", "PCM Obsolete", "MPEG1Packet", "MPEG1Payload", "MPEG2_AUDIO", "DVD_LPCM_AUDIO", "DRM_Audio", "IEEE_FLOAT", "DOLBY_AC3", "DOLBY_AC3_SPDIF", "RAW_SPORT", "SPDIF_TAG_241h", "MP3" }; public static string GetAudioSubtypeName(Guid subType) { for (int i = 0; i < AudioSubTypes.Length; i++) { if (subType == AudioSubTypes[i]) { return AudioSubTypeNames[i]; } } return subType.ToString(); } } public class DmoDescriptor { public string Name { get; private set; } public Guid Clsid { get; private set; } public DmoDescriptor(string name, Guid clsid) { Name = name; Clsid = clsid; } } public class DmoEnumerator { public static IEnumerable<DmoDescriptor> GetAudioEffectNames() { return GetDmos(DmoGuids.DMOCATEGORY_AUDIO_EFFECT); } public static IEnumerable<DmoDescriptor> GetAudioEncoderNames() { return GetDmos(DmoGuids.DMOCATEGORY_AUDIO_ENCODER); } public static IEnumerable<DmoDescriptor> GetAudioDecoderNames() { return GetDmos(DmoGuids.DMOCATEGORY_AUDIO_DECODER); } private static IEnumerable<DmoDescriptor> GetDmos(Guid category) { Marshal.ThrowExceptionForHR(DmoInterop.DMOEnum(ref category, DmoEnumFlags.None, 0, null, 0, null, out var enumDmo)); int itemsFetched; do { enumDmo.Next(1, out var clsid, out var name, out itemsFetched); if (itemsFetched == 1) { string name2 = Marshal.PtrToStringUni(name); Marshal.FreeCoTaskMem(name); yield return new DmoDescriptor(name2, clsid); } } while (itemsFetched > 0); } } [Flags] internal enum DmoEnumFlags { None = 0, DMO_ENUMF_INCLUDE_KEYED = 1 } internal static class DmoGuids { public static readonly Guid DMOCATEGORY_AUDIO_DECODER = new Guid("57f2db8b-e6bb-4513-9d43-dcd2a6593125"); public static readonly Guid DMOCATEGORY_AUDIO_ENCODER = new Guid("33D9A761-90C8-11d0-BD43-00A0C911CE86"); public static readonly Guid DMOCATEGORY_VIDEO_DECODER = new Guid("4a69b442-28be-4991-969c-b500adf5d8a8"); public static readonly Guid DMOCATEGORY_VIDEO_ENCODER = new Guid("33D9A760-90C8-11d0-BD43-00A0C911CE86"); public static readonly Guid DMOCATEGORY_AUDIO_EFFECT = new Guid("f3602b3f-0592-48df-a4cd-674721e7ebeb"); public static readonly Guid DMOCATEGORY_VIDEO_EFFECT = new Guid("d990ee14-776c-4723-be46-3da2f56f10b9"); public static readonly Guid DMOCATEGORY_AUDIO_CAPTURE_EFFECT = new Guid("f665aaba-3e09-4920-aa5f-219811148f09"); } internal static class DmoMediaTypeGuids { public static readonly Guid FORMAT_None = new Guid("0F6417D6-C318-11D0-A43F-00A0C9223196"); public static readonly Guid FORMAT_VideoInfo = new Guid("05589f80-c356-11ce-bf01-00aa0055595a"); public static readonly Guid FORMAT_VideoInfo2 = new Guid("F72A76A0-EB0A-11d0-ACE4-0000C0CC16BA"); public static readonly Guid FORMAT_WaveFormatEx = new Guid("05589f81-c356-11ce-bf01-00aa0055595a"); public static readonly Guid FORMAT_MPEGVideo = new Guid("05589f82-c356-11ce-bf01-00aa0055595a"); public static readonly Guid FORMAT_MPEGStreams = new Guid("05589f83-c356-11ce-bf01-00aa0055595a"); public static readonly Guid FORMAT_DvInfo = new Guid("05589f84-c356-11ce-bf01-00aa0055595a"); public static readonly Guid FORMAT_525WSS = new Guid("C7ECF04D-4582-4869-9ABB-BFB523B62EDF"); } internal enum DmoHResults { DMO_E_INVALIDSTREAMINDEX = -2147220991, DMO_E_INVALIDTYPE, DMO_E_TYPE_NOT_SET, DMO_E_NOTACCEPTING, DMO_E_TYPE_NOT_ACCEPTED, DMO_E_NO_MORE_ITEMS } internal static class DmoInterop { [DllImport("msdmo.dll")] public static extern int DMOEnum([In] ref Guid guidCategory, DmoEnumFlags flags, int inTypes, [In] DmoPartialMediaType[] inTypesArray, int outTypes, [In] DmoPartialMediaType[] outTypesArray, out IEnumDmo enumDmo); [DllImport("msdmo.dll")] public static extern int MoFreeMediaType([In] ref DmoMediaType mediaType); [DllImport("msdmo.dll")] public static extern int MoInitMediaType([In][Out] ref DmoMediaType mediaType, int formatBlockBytes); [DllImport("msdmo.dll")] public static extern int DMOGetName([In] ref Guid clsidDMO, [Out] StringBuilder name); } internal struct DmoPartialMediaType { private Guid type; private Guid subtype; public Guid Type { get { return type; } internal set { type = value; } } public Guid Subtype { get { return subtype; } internal set { subtype = value; } } } [ComImport] [SuppressUnmanagedCodeSecurity] [Guid("6d6cbb60-a223-44aa-842f-a2f06750be6d")] [InterfaceType(ComInterfaceType.InterfaceIsIUnknown)] internal interface IMediaParamInfo { [PreserveSig] int GetParamCount(out int paramCount); [PreserveSig] int GetParamInfo(int paramIndex, ref MediaParamInfo paramInfo); [PreserveSig] int GetParamText(int paramIndex, out IntPtr paramText); [PreserveSig] int GetNumTimeFormats(out int numTimeFormats); [PreserveSig] int GetSupportedTimeFormat(int formatIndex, out Guid guidTimeFormat); [PreserveSig] int GetCurrentTimeFormat(out Guid guidTimeFormat, out int mediaTimeData); } [Guid("E7E9984F-F09F-4da4-903F-6E2E0EFE56B5")] [InterfaceType(ComInterfaceType.InterfaceIsIUnknown)] internal interface IWMResamplerProps { int SetHalfFilterLength(int outputQuality); int SetUserChannelMtx([In] float[] channelConversionMatrix); } public class MediaBuffer : IMediaBuffer, IDisposable { private IntPtr buffer; private int length; private readonly int maxLength; public int Length { get { return length; } set { if (length > maxLength) { throw new ArgumentException("Cannot be greater than maximum buffer size"); } length = value; } } public MediaBuffer(int maxLength) { buffer = Marshal.AllocCoTaskMem(maxLength); this.maxLength = maxLength; } public void Dispose() { if (buffer != IntPtr.Zero) { Marshal.FreeCoTaskMem(buffer); buffer = IntPtr.Zero; GC.SuppressFinalize(this); } } ~MediaBuffer() { Dispose(); } int IMediaBuffer.SetLength(int length) { if (length > maxLength) { return -2147483645; } this.length = length; return 0; } int IMediaBuffer.GetMaxLength(out int maxLength) { maxLength = this.maxLength; return 0; } int IMediaBuffer.GetBufferAndLength(IntPtr bufferPointerPointer, IntPtr validDataLengthPointer) { if (bufferPointerPointer != IntPtr.Zero) { Marshal.WriteIntPtr(bufferPointerPointer, buffer); } if (validDataLengthPointer != IntPtr.Zero) { Marshal.WriteInt32(validDataLengthPointer, length); } return 0; } public void LoadData(byte[] data, int bytes) { Length = bytes; Marshal.Copy(data, 0, buffer, bytes); } public void RetrieveData(byte[] data, int offset) { Marshal.Copy(buffer, data, offset, Length); } } public class MediaObject : IDisposable { private IMediaObject mediaObject; private readonly int inputStreams; private readonly int outputStreams; public int InputStreamCount => inputStreams; public int OutputStreamCount => outputStreams; internal MediaObject(IMediaObject mediaObject) { this.mediaObject = mediaObject; mediaObject.GetStreamCount(out inputStreams, out outputStreams); } public DmoMediaType? GetInputType(int inputStream, int inputTypeIndex) { try { if (mediaObject.GetInputType(inputStream, inputTypeIndex, out var mediaType) == 0) { DmoInterop.MoFreeMediaType(ref mediaType); return mediaType; } } catch (COMException exception) { if (exception.GetHResult() != -2147220986) { throw; } } return null; } public DmoMediaType? GetOutputType(int outputStream, int outputTypeIndex) { try { if (mediaObject.GetOutputType(outputStream, outputTypeIndex, out var mediaType) == 0) { DmoInterop.MoFreeMediaType(ref mediaType); return mediaType; } } catch (COMException exception) { if (exception.GetHResult() != -2147220986) { throw; } } return null; } public DmoMediaType GetOutputCurrentType(int outputStreamIndex) { DmoMediaType mediaType; int outputCurrentType = mediaObject.GetOutputCurrentType(outputStreamIndex, out mediaType); switch (outputCurrentType) { case 0: DmoInterop.MoFreeMediaType(ref mediaType); return mediaType; case -2147220989: throw new InvalidOperationException("Media type was not set."); default: throw Marshal.GetExceptionForHR(outputCurrentType); } } public IEnumerable<DmoMediaType> GetInputTypes(int inputStreamIndex) { int typeIndex = 0; while (true) { DmoMediaType? inputType; DmoMediaType? mediaType = (inputType = GetInputType(inputStreamIndex, typeIndex)); inputType = inputType; if (inputType.HasValue) { yield return mediaType.Value; typeIndex++; continue; } break; } } public IEnumerable<DmoMediaType> GetOutputTypes(int outputStreamIndex) { int typeIndex = 0; while (true) { DmoMediaType? outputType; DmoMediaType? mediaType = (outputType = GetOutputType(outputStreamIndex, typeIndex)); outputType = outputType; if (outputType.HasValue) { yield return mediaType.Value; typeIndex++; continue; } break; } } public bool SupportsInputType(int inputStreamIndex, DmoMediaType mediaType) { return SetInputType(inputStreamIndex, mediaType, DmoSetTypeFlags.DMO_SET_TYPEF_TEST_ONLY); } private bool SetInputType(int inputStreamIndex, DmoMediaType mediaType, DmoSetTypeFlags flags) { switch (mediaObject.SetInputType(inputStreamIndex, ref mediaType, flags)) { case -2147220991: throw new ArgumentException("Invalid stream index"); default: _ = -2147220987; return false; case 0: return true; } } public void SetInputType(int inputStreamIndex, DmoMediaType mediaType) { if (!SetInputType(inputStreamIndex, mediaType, DmoSetTypeFlags.None)) { throw new ArgumentException("Media Type not supported"); } } public void SetInputWaveFormat(int inputStreamIndex, WaveFormat waveFormat) { DmoMediaType mediaType = CreateDmoMediaTypeForWaveFormat(waveFormat); bool num = SetInputType(inputStreamIndex, mediaType, DmoSetTypeFlags.None); DmoInterop.MoFreeMediaType(ref mediaType); if (!num) { throw new ArgumentException("Media Type not supported"); } } public bool SupportsInputWaveFormat(int inputStreamIndex, WaveFormat waveFormat) { DmoMediaType mediaType = CreateDmoMediaTypeForWaveFormat(waveFormat); bool result = SetInputType(inputStreamIndex, mediaType, DmoSetTypeFlags.DMO_SET_TYPEF_TEST_ONLY); DmoInterop.MoFreeMediaType(ref mediaType); return result; } private DmoMediaType CreateDmoMediaTypeForWaveFormat(WaveFormat waveFormat) { DmoMediaType mediaType = default(DmoMediaType); int formatBlockBytes = Marshal.SizeOf((object)waveFormat); DmoInterop.MoInitMediaType(ref mediaType, formatBlockBytes); mediaType.SetWaveFormat(waveFormat); return mediaType; } public bool SupportsOutputType(int outputStreamIndex, DmoMediaType mediaType) { return SetOutputType(outputStreamIndex, mediaType, DmoSetTypeFlags.DMO_SET_TYPEF_TEST_ONLY); } public bool SupportsOutputWaveFormat(int outputStreamIndex, WaveFormat waveFormat) { DmoMediaType mediaType = CreateDmoMediaTypeForWaveFormat(waveFormat); bool result = SetOutputType(outputStreamIndex, mediaType, DmoSetTypeFlags.DMO_SET_TYPEF_TEST_ONLY); DmoInterop.MoFreeMediaType(ref mediaType); return result; } private bool SetOutputType(int outputStreamIndex, DmoMediaType mediaType, DmoSetTypeFlags flags) { int num = mediaObject.SetOutputType(outputStreamIndex, ref mediaType, flags); return num switch { -2147220987 => false, 0 => true, _ => throw Marshal.GetExceptionForHR(num), }; } public void SetOutputType(int outputStreamIndex, DmoMediaType mediaType) { if (!SetOutputType(outputStreamIndex, mediaType, DmoSetTypeFlags.None)) { throw new ArgumentException("Media Type not supported"); } } public void SetOutputWaveFormat(int outputStreamIndex, WaveFormat waveFormat) { DmoMediaType mediaType = CreateDmoMediaTypeForWaveFormat(waveFormat); bool num = SetOutputType(outputStreamIndex, mediaType, DmoSetTypeFlags.None); DmoInterop.MoFreeMediaType(ref mediaType); if (!num) { throw new ArgumentException("Media Type not supported"); } } public MediaObjectSizeInfo GetInputSizeInfo(int inputStreamIndex) { Marshal.ThrowExceptionForHR(mediaObject.GetInputSizeInfo(inputStreamIndex, out var size, out var maxLookahead, out var alignment)); return new MediaObjectSizeInfo(size, maxLookahead, alignment); } public MediaObjectSizeInfo GetOutputSizeInfo(int outputStreamIndex) { Marshal.ThrowExceptionForHR(mediaObject.GetOutputSizeInfo(outputStreamIndex, out var size, out var alignment)); return new MediaObjectSizeInfo(size, 0, alignment); } public void ProcessInput(int inputStreamIndex, IMediaBuffer mediaBuffer, DmoInputDataBufferFlags flags, long timestamp, long duration) { Marshal.ThrowExceptionForHR(mediaObject.ProcessInput(inputStreamIndex, mediaBuffer, flags, timestamp, duration)); } public void ProcessOutput(DmoProcessOutputFlags flags, int outputBufferCount, DmoOutputDataBuffer[] outputBuffers) { Marshal.ThrowExceptionForHR(mediaObject.ProcessOutput(flags, outputBufferCount, outputBuffers, out var _)); } public void AllocateStreamingResources() { Marshal.ThrowExceptionForHR(mediaObject.AllocateStreamingResources()); } public void FreeStreamingResources() { Marshal.ThrowExceptionForHR(mediaObject.FreeStreamingResources()); } public long GetInputMaxLatency(int inputStreamIndex) { Marshal.ThrowExceptionForHR(mediaObject.GetInputMaxLatency(inputStreamIndex, out var referenceTimeMaxLatency)); return referenceTimeMaxLatency; } public void Flush() { Marshal.ThrowExceptionForHR(mediaObject.Flush()); } public void Discontinuity(int inputStreamIndex) { Marshal.ThrowExceptionForHR(mediaObject.Discontinuity(inputStreamIndex)); } public bool IsAcceptingData(int inputStreamIndex) { Marshal.ThrowExceptionForHR(mediaObject.GetInputStatus(inputStreamIndex, out var flags)); return (flags & DmoInputStatusFlags.DMO_INPUT_STATUSF_ACCEPT_DATA) == DmoInputStatusFlags.DMO_INPUT_STATUSF_ACCEPT_DATA; } public void Dispose() { if (mediaObject != null) { Marshal.ReleaseComObject(mediaObject); mediaObject = null; } } } public class MediaObjectSizeInfo { public int Size { get; private set; } public int MaxLookahead { get; } public int Alignment { get; } public MediaObjectSizeInfo(int size, int maxLookahead, int alignment) { Size = size; MaxLookahead = maxLookahead; Alignment = alignment; } public override string ToString() { return $"Size: {Size}, Alignment {Alignment}, MaxLookahead {MaxLookahead}"; } } internal struct MediaParamInfo { public MediaParamType mpType; public MediaParamCurveType mopCaps; public float mpdMinValue; public float mpdMaxValue; public float mpdNeutralValue; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 32)] public string szUnitText; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 32)] public string szLabel; } internal enum MediaParamType { Int, Float, Bool, Enum, Max } [Flags] internal enum MediaParamCurveType { MP_CURVE_JUMP = 1, MP_CURVE_LINEAR = 2, MP_CURVE_SQUARE = 4, MP_CURVE_INVSQUARE = 8, MP_CURVE_SINE = 0x10 } internal static class MediaTypes { public static readonly Guid MEDIATYPE_AnalogAudio = new Guid("0482DEE1-7817-11cf-8a03-00aa006ecb65"); public static readonly Guid MEDIATYPE_AnalogVideo = new Guid("0482DDE1-7817-11cf-8A03-00AA006ECB65"); public static readonly Guid MEDIATYPE_Audio = new Guid("73647561-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIATYPE_AUXLine21Data = new Guid("670AEA80-3A82-11d0-B79B-00AA003767A7"); public static readonly Guid MEDIATYPE_File = new Guid("656c6966-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIATYPE_Interleaved = new Guid("73766169-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIATYPE_Midi = new Guid("7364696D-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIATYPE_ScriptCommand = new Guid("73636d64-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIATYPE_Stream = new Guid("e436eb83-524f-11ce-9f53-0020af0ba770"); public static readonly Guid MEDIATYPE_Text = new Guid("73747874-0000-0010-8000-00AA00389B71"); public static readonly Guid MEDIATYPE_Timecode = new Guid("0482DEE3-7817-11cf-8a03-00aa006ecb65"); public static readonly Guid MEDIATYPE_Video = new Guid("73646976-0000-0010-8000-00AA00389B71"); public static readonly Guid[] MajorTypes = new Guid[12] { MEDIATYPE_AnalogAudio, MEDIATYPE_AnalogVideo, MEDIATYPE_Audio, MEDIATYPE_AUXLine21Data, MEDIATYPE_File, MEDIATYPE_Interleaved, MEDIATYPE_Midi, MEDIATYPE_ScriptCommand, MEDIATYPE_Stream, MEDIATYPE_Text, MEDIATYPE_Timecode, MEDIATYPE_Video }; public static readonly string[] MajorTypeNames = new string[12] { "Analog Audio", "Analog Video", "Audio", "AUXLine21Data", "File", "Interleaved", "Midi", "ScriptCommand", "Stream", "Text", "Timecode", "Video" }; public static string GetMediaTypeName(Guid majorType) { for (int i = 0; i < MajorTypes.Length; i++) { if (majorType == MajorTypes[i]) { return MajorTypeNames[i]; } } throw new ArgumentException("Major Type not found"); } } [ComImport] [Guid("bbeea841-0a63-4f52-a7ab-a9b3a84ed38a")] internal class WindowsMediaMp3DecoderComObject { } public class WindowsMediaMp3Decoder : IDisposable { private MediaObject mediaObject; private IPropertyStore propertyStoreInterface; private WindowsMediaMp3DecoderComObject mediaComObject; public MediaObject MediaObject => mediaObject; public WindowsMediaMp3Decoder() { mediaComObject = new WindowsMediaMp3DecoderComObject(); mediaObject = new MediaObject((IMediaObject)mediaComObject); propertyStoreInterface = (IPropertyStore)mediaComObject; } public void Dispose() { if (propertyStoreInterface != null) { Marshal.ReleaseComObject(propertyStoreInterface); propertyStoreInterface = null; } if (mediaObject != null) { mediaObject.Dispose(); mediaObject = null; } if (mediaComObject != null) { Marshal.ReleaseComObject(mediaComObject); mediaComObject = null; } } } [Flags] public enum DmoInputDataBufferFlags { None = 0, SyncPoint = 1, Time = 2, TimeLength = 4 } [Flags] internal enum DmoInputStatusFlags { None = 0, DMO_INPUT_STATUSF_ACCEPT_DATA = 1 } public struct DmoMediaType { private Guid majortype; private Guid subtype; private bool bFixedSizeSamples; private bool bTemporalCompression; private int lSampleSize; private Guid formattype; private IntPtr pUnk; private int cbFormat; private IntPtr pbFormat; public Guid MajorType => majortype; public string MajorTypeName => MediaTypes.GetMediaTypeName(majortype); public Guid SubType => subtype; public string SubTypeName { get { if (majortype == MediaTypes.MEDIATYPE_Audio) { return AudioMediaSubtypes.GetAudioSubtypeName(subtype); } return subtype.ToString(); } } public bool FixedSizeSamples => bFixedSizeSamples; public int SampleSize => lSampleSize; public Guid FormatType => formattype; public string FormatTypeName { get { if (formattype == DmoMediaTypeGuids.FORMAT_None) { return "None"; } if (formattype == Guid.Empty) { return "Null"; } if (formattype == DmoMediaTypeGuids.FORMAT_WaveFormatEx) { return "WaveFormatEx"; } return FormatType.ToString(); } } public WaveFormat GetWaveFormat() { if (formattype == DmoMediaTypeGuids.FORMAT_WaveFormatEx) { return WaveFormat.MarshalFromPtr(pbFormat); } throw new InvalidOperationException("Not a WaveFormat type"); } public void SetWaveFormat(WaveFormat waveFormat) { majortype = MediaTypes.MEDIATYPE_Audio; if (waveFormat is WaveFormatExtensible waveFormatExtensible) { subtype = waveFormatExtensible.SubFormat; } else { switch (waveFormat.Encoding) { case WaveFormatEncoding.Pcm: subtype = AudioMediaSubtypes.MEDIASUBTYPE_PCM; break; case WaveFormatEncoding.IeeeFloat: subtype = AudioMediaSubtypes.MEDIASUBTYPE_IEEE_FLOAT; break; case WaveFormatEncoding.MpegLayer3: subtype = AudioMediaSubtypes.WMMEDIASUBTYPE_MP3; break; default: throw new ArgumentException($"Not a supported encoding {waveFormat.Encoding}"); } } bFixedSizeSamples = SubType == AudioMediaSubtypes.MEDIASUBTYPE_PCM || SubType == AudioMediaSubtypes.MEDIASUBTYPE_IEEE_FLOAT; formattype = DmoMediaTypeGuids.FORMAT_WaveFormatEx; if (cbFormat < Marshal.SizeOf((object)waveFormat)) { throw new InvalidOperationException("Not enough memory assigned for a WaveFormat structure"); } Marshal.StructureToPtr((object)waveFormat, pbFormat, fDeleteOld: false); } } [StructLayout(LayoutKind.Sequential, Pack = 8)] public struct DmoOutputDataBuffer : IDisposable { [MarshalAs(UnmanagedType.Interface)] private IMediaBuffer pBuffer; private DmoOutputDataBufferFlags dwStatus; private long rtTimestamp; private long referenceTimeDuration; public IMediaBuffer MediaBuffer { get { return pBuffer; } internal set { pBuffer = value; } } public int Length => ((MediaBuffer)pBuffer).Length; public DmoOutputDataBufferFlags StatusFlags { get { return dwStatus; } internal set { dwStatus = value; } } public long Timestamp { get { return rtTimestamp; } internal set { rtTimestamp = value; } } public long Duration { get { return referenceTimeDuration; } internal set { referenceTimeDuration = value; } } public bool MoreDataAvailable => (StatusFlags & DmoOutputDataBufferFlags.Incomplete) == DmoOutputDataBufferFlags.Incomplete;
OriginalSoundTrack.dll
Decompiled 10 months agousing System; using System.Collections; using System.Collections.Generic; using System.Diagnostics; using System.Globalization; using System.IO; using System.Linq; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.Versioning; using System.Xml; using BepInEx; using EntityStates.Missions.BrotherEncounter; using NAudio.Wave; using NAudio.Wave.SampleProviders; using On.EntityStates.Missions.BrotherEncounter; using On.RoR2; using On.RoR2.UI; using RoR2; using RoR2.ConVar; using RoR2.UI; using UnityEngine; using UnityEngine.SceneManagement; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints)] [assembly: TargetFramework(".NETStandard,Version=v2.0", FrameworkDisplayName = "")] [assembly: AssemblyCompany("OriginalSoundTrack")] [assembly: AssemblyConfiguration("Release")] [assembly: AssemblyFileVersion("1.0.0.0")] [assembly: AssemblyInformationalVersion("1.0.0")] [assembly: AssemblyProduct("OriginalSoundTrack")] [assembly: AssemblyTitle("OriginalSoundTrack")] [assembly: AssemblyVersion("1.0.0.0")] namespace OriginalSoundTrack; [BepInDependency(/*Could not decode attribute arguments.*/)] [BepInPlugin("com.kylepaulsen.originalsoundtrack", "OriginalSoundTrack", "1.2.0")] public class OriginalSoundTrack : BaseUnityPlugin { [Serializable] [CompilerGenerated] private sealed class <>c { public static readonly <>c <>9 = new <>c(); public static Func<string, string> <>9__14_7; public static hook_OnEnter <>9__14_5; public static Func<FileInfo, bool> <>9__15_0; internal string <Awake>b__14_7(string str) { return str.Trim(); } internal void <Awake>b__14_5(orig_OnEnter orig, EncounterFinished self) { orig.Invoke(self); Debug.Log((object)"====================== FINAL BOSS FIGHT DONE ======================"); } internal bool <SearchForAudioFiles>b__15_0(FileInfo f) { if (!(Path.GetExtension(f.Name) == ".mp3")) { return Path.GetExtension(f.Name) == ".wav"; } return true; } } private FadeInOutSampleProvider fader; private WaveOutEvent outputDevice; private FileInfo[] soundFiles; private List<Music> musics = new List<Music>(); private AudioFileReader currentSong; private string currentSongFullName = ""; private bool startedTeleporterEvent; private bool songPaused; private float globalMusicVolume = 0.5f; private bool shouldLoop = true; private string oldMusicVolume = ""; private string currentScene = ""; private Random rnd = new Random(); private XmlElement settings; public void Awake() { //IL_02a6: Unknown result type (might be due to invalid IL or missing references) //IL_02b0: Expected O, but got Unknown //IL_02b7: Unknown result type (might be due to invalid IL or missing references) //IL_02c1: Expected O, but got Unknown //IL_02c8: Unknown result type (might be due to invalid IL or missing references) //IL_02d2: Expected O, but got Unknown //IL_02d9: Unknown result type (might be due to invalid IL or missing references) //IL_02e3: Expected O, but got Unknown //IL_02ea: Unknown result type (might be due to invalid IL or missing references) //IL_02f4: Expected O, but got Unknown //IL_0295: Unknown result type (might be due to invalid IL or missing references) //IL_029f: Expected O, but got Unknown //IL_0308: Unknown result type (might be due to invalid IL or missing references) //IL_030d: Unknown result type (might be due to invalid IL or missing references) //IL_0313: Expected O, but got Unknown string directoryName = Path.GetDirectoryName(Assembly.GetExecutingAssembly().Location); string text = directoryName; try { XmlDocument xmlDocument = new XmlDocument(); xmlDocument.Load(directoryName + "/settings.xml"); settings = xmlDocument["settings"]; globalMusicVolume = float.Parse(settings["volume"].InnerText, CultureInfo.InvariantCulture); shouldLoop = settings["loop"].InnerText.ToLower() == "true"; if (settings["music-path"] != null) { text = settings["music-path"].InnerText; } soundFiles = SearchForAudioFiles(text); foreach (XmlNode childNode in settings["music"].ChildNodes) { if (childNode.NodeType == XmlNodeType.Comment) { continue; } Music music = new Music(); music.name = GetAttribute(childNode, "name"); music.scenes = (from str in GetAttribute(childNode, "scenes").Split(new char[1] { ',' }) select str.Trim()).ToArray(); music.boss = GetAttribute(childNode, "boss").ToLower() == "true"; music.volume = 1f; string attribute = GetAttribute(childNode, "volume"); if (attribute != "") { music.volume = float.Parse(attribute, CultureInfo.InvariantCulture); } FileInfo[] array = soundFiles; foreach (FileInfo fileInfo in array) { if (fileInfo.Name == music.name) { music.fullName = fileInfo.FullName; break; } } musics.Add(music); } } catch (Exception ex) { Debug.LogWarning((object)"!!!!! OriginalSoundTrack Mod: Failed to parse settings.xml !!!!!"); Debug.Log((object)"OriginalSoundTrack Mod: Music will be randomly selected from what is found in the plugin dir."); Debug.Log((object)ex); } if (soundFiles == null) { text = directoryName; soundFiles = SearchForAudioFiles(text); } if (soundFiles.Length == 0) { Debug.LogError((object)"!!!!! OriginalSoundTrack Mod: No audio files found. Exiting. !!!!!"); Debug.LogError((object)("OriginalSoundTrack Mod: Looked for .mp3 and .wav files in: " + text)); return; } if (outputDevice == null) { outputDevice = new WaveOutEvent(); } TeleporterInteraction.OnInteractionBegin += (hook_OnInteractionBegin)delegate(orig_OnInteractionBegin orig, TeleporterInteraction self, Interactor activator) { orig.Invoke(self, activator); if (!startedTeleporterEvent) { startedTeleporterEvent = true; PickOutMusic(isForTeleporter: true); } }; TeleporterInteraction.RpcClientOnActivated += (hook_RpcClientOnActivated)delegate(orig_RpcClientOnActivated orig, TeleporterInteraction self, GameObject activator) { orig.Invoke(self, activator); if (!startedTeleporterEvent) { startedTeleporterEvent = true; PickOutMusic(isForTeleporter: true); } }; PauseScreenController.OnEnable += (hook_OnEnable)delegate(orig_OnEnable orig, PauseScreenController self) { //IL_0015: Unknown result type (might be due to invalid IL or missing references) //IL_001b: Invalid comparison between Unknown and I4 orig.Invoke(self); if (outputDevice != null && (int)outputDevice.PlaybackState == 1) { outputDevice.Pause(); songPaused = true; } }; PauseScreenController.OnDisable += (hook_OnDisable)delegate(orig_OnDisable orig, PauseScreenController self) { orig.Invoke(self); if (outputDevice != null && songPaused) { outputDevice.Play(); songPaused = false; } }; Phase1.OnEnter += (hook_OnEnter)delegate(orig_OnEnter orig, Phase1 self) { orig.Invoke(self); Debug.Log((object)"====================== FINAL BOSS FIGHT START ======================"); PickOutMusic(isForTeleporter: true); }; object obj = <>c.<>9__14_5; if (obj == null) { hook_OnEnter val = delegate(orig_OnEnter orig, EncounterFinished self) { orig.Invoke(self); Debug.Log((object)"====================== FINAL BOSS FIGHT DONE ======================"); }; <>c.<>9__14_5 = val; obj = (object)val; } EncounterFinished.OnEnter += (hook_OnEnter)obj; SceneManager.sceneLoaded += delegate(Scene scene, LoadSceneMode mode) { if (currentScene != ((Scene)(ref scene)).name) { currentScene = ((Scene)(ref scene)).name; startedTeleporterEvent = false; PickOutMusic(); } }; } private FileInfo[] SearchForAudioFiles(string path) { DirectoryInfo directoryInfo = new DirectoryInfo(path); if (directoryInfo.Exists) { return (from f in directoryInfo.GetFiles() where Path.GetExtension(f.Name) == ".mp3" || Path.GetExtension(f.Name) == ".wav" select f).ToArray(); } return new FileInfo[0]; } private string GetAttribute(XmlNode node, string attribute) { if (node.Attributes != null) { XmlNode namedItem = node.Attributes.GetNamedItem(attribute); if (namedItem != null) { return namedItem.Value; } } return ""; } private bool sceneMostlyMatches(string[] scenes) { foreach (string value in scenes) { if (currentScene.Contains(value)) { return true; } } return false; } private void PickOutMusic(bool isForTeleporter = false) { Music[] array = musics.Where(delegate(Music music) { bool flag = isForTeleporter == music.boss; return music.fullName != null && flag && sceneMostlyMatches(music.scenes); }).ToArray(); string fullName = currentSongFullName; Music music2 = null; int num = 0; if (array.Length != 0) { while (fullName == currentSongFullName && num < 10) { music2 = array[rnd.Next(array.Length)]; fullName = music2.fullName; num++; } ((MonoBehaviour)this).StartCoroutine((IEnumerator)PlayMusic(fullName, music2.volume)); } else { num = 0; while (fullName == currentSongFullName && num < 10) { fullName = soundFiles[rnd.Next(soundFiles.Length)].FullName; num++; } ((MonoBehaviour)this).StartCoroutine((IEnumerator)PlayMusic(fullName)); } } private IEnumerator<WaitForSeconds> PlayMusic(string file, float volume = 1f) { if (file != currentSongFullName) { currentSongFullName = file; if ((int)outputDevice.PlaybackState == 1) { fader.BeginFadeOut(1500.0); yield return new WaitForSeconds(1.5f); outputDevice.Stop(); currentSong = null; } currentSong = new AudioFileReader(file); currentSong.Volume = volume * globalMusicVolume; LoopStream loopStream = new LoopStream((WaveStream)(object)currentSong, shouldLoop); fader = new FadeInOutSampleProvider((ISampleProvider)new WaveToSampleProvider((IWaveProvider)(object)loopStream), false); WaveExtensionMethods.Init((IWavePlayer)(object)outputDevice, (ISampleProvider)(object)fader, false); outputDevice.Play(); songPaused = false; } } public void Update() { if (oldMusicVolume == "" && (Object)(object)Console.instance != (Object)null) { BaseConVar val = Console.instance.FindConVar("volume_music"); if (val != null) { oldMusicVolume = val.GetString(); val.SetString("0"); } } } private void FixedUpdate() { if (currentSong != null && ((Stream)(object)currentSong).Position >= ((Stream)(object)currentSong).Length && !shouldLoop) { outputDevice.Stop(); ((Stream)(object)currentSong).Position = ((Stream)(object)currentSong).Length - 1; PickOutMusic(startedTeleporterEvent); } } private void OnDestroy() { BaseConVar val = Console.instance.FindConVar("volume_music"); if (val != null) { val.SetString(oldMusicVolume); } } } public class Music { public string name; public string fullName; public string[] scenes; public bool boss; public float volume = 1f; } public class LoopStream : WaveStream { private WaveStream sourceStream; private bool EnableLooping = true; public override WaveFormat WaveFormat => sourceStream.WaveFormat; public override long Position { get { return ((Stream)(object)sourceStream).Position; } set { ((Stream)(object)sourceStream).Position = value; } } public override long Length => ((Stream)(object)sourceStream).Length; public LoopStream(WaveStream sourceStream, bool shouldLoop) { this.sourceStream = sourceStream; EnableLooping = shouldLoop; } public override int Read(byte[] buffer, int offset, int count) { int i; int num2; for (i = 0; i < count; i += num2) { int num = count - i; num2 = ((Stream)(object)sourceStream).Read(buffer, offset + i, num); if (num2 < num || ((Stream)(object)sourceStream).Position >= ((Stream)(object)sourceStream).Length) { if (!EnableLooping) { break; } ((Stream)(object)sourceStream).Position = 0L; } } return i; } }