{ BASS 2.3 Audio Library, (c) 1999-2007 Ian Luck. Please report bugs/suggestions/etc... to bass@un4seen.com See the BASS.CHM file for more complete documentation How to install ---------------- Copy BASS.PAS to the \LIB subdirectory of your Delphi path or your project dir } unit Bass; interface uses Windows; const BASSVERSION = $203; // API version // Use these to test for error from functions that return a DWORD or QWORD DW_ERROR = Cardinal(-1); // -1 (DWORD) QW_ERROR = Int64(-1); // -1 (QWORD) // Error codes returned by BASS_GetErrorCode() BASS_OK = 0; // all is OK BASS_ERROR_MEM = 1; // memory error BASS_ERROR_FILEOPEN = 2; // can't open the file BASS_ERROR_DRIVER = 3; // can't find a free sound driver BASS_ERROR_BUFLOST = 4; // the sample buffer was lost - please report this! BASS_ERROR_HANDLE = 5; // invalid handle BASS_ERROR_FORMAT = 6; // unsupported sample format BASS_ERROR_POSITION = 7; // invalid playback position BASS_ERROR_INIT = 8; // BASS_Init has not been successfully called BASS_ERROR_START = 9; // BASS_Start has not been successfully called BASS_ERROR_ALREADY = 14; // already initialized/paused/whatever BASS_ERROR_NOPAUSE = 16; // not paused BASS_ERROR_NOCHAN = 18; // can't get a free channel BASS_ERROR_ILLTYPE = 19; // an illegal type was specified BASS_ERROR_ILLPARAM = 20; // an illegal parameter was specified BASS_ERROR_NO3D = 21; // no 3D support BASS_ERROR_NOEAX = 22; // no EAX support BASS_ERROR_DEVICE = 23; // illegal device number BASS_ERROR_NOPLAY = 24; // not playing BASS_ERROR_FREQ = 25; // illegal sample rate BASS_ERROR_NOTFILE = 27; // the stream is not a file stream BASS_ERROR_NOHW = 29; // no hardware voices available BASS_ERROR_EMPTY = 31; // the MOD music has no sequence data BASS_ERROR_NONET = 32; // no internet connection could be opened BASS_ERROR_CREATE = 33; // couldn't create the file BASS_ERROR_NOFX = 34; // effects are not enabled BASS_ERROR_PLAYING = 35; // the channel is playing BASS_ERROR_NOTAVAIL = 37; // requested data is not available BASS_ERROR_DECODE = 38; // the channel is a "decoding channel" BASS_ERROR_DX = 39; // a sufficient DirectX version is not installed BASS_ERROR_TIMEOUT = 40; // connection timedout BASS_ERROR_FILEFORM = 41; // unsupported file format BASS_ERROR_SPEAKER = 42; // unavailable speaker BASS_ERROR_VERSION = 43; // invalid BASS version (used by add-ons) BASS_ERROR_CODEC = 44; // codec is not available/supported BASS_ERROR_UNKNOWN = -1; // some other mystery error // Initialization flags BASS_DEVICE_8BITS = 1; // use 8 bit resolution, else 16 bit BASS_DEVICE_MONO = 2; // use mono, else stereo BASS_DEVICE_3D = 4; // enable 3D functionality { If the BASS_DEVICE_3D flag is not specified when initilizing BASS, then the 3D flags (BASS_SAMPLE_3D and BASS_MUSIC_3D) are ignored when loading/creating a sample/stream/music. } BASS_DEVICE_LATENCY = 256; // calculate device latency (BASS_INFO struct) BASS_DEVICE_SPEAKERS = 2048; // force enabling of speaker assignment BASS_DEVICE_NOSPEAKER = 4096; // ignore speaker arrangement // DirectSound interfaces (for use with BASS_GetDSoundObject) BASS_OBJECT_DS = 1; // IDirectSound BASS_OBJECT_DS3DL = 2; // IDirectSound3DListener // BASS_INFO flags (from DSOUND.H) DSCAPS_CONTINUOUSRATE = $00000010; { supports all sample rates between min/maxrate } DSCAPS_EMULDRIVER = $00000020; { device does NOT have hardware DirectSound support } DSCAPS_CERTIFIED = $00000040; { device driver has been certified by Microsoft } { The following flags tell what type of samples are supported by HARDWARE mixing, all these formats are supported by SOFTWARE mixing } DSCAPS_SECONDARYMONO = $00000100; // mono DSCAPS_SECONDARYSTEREO = $00000200; // stereo DSCAPS_SECONDARY8BIT = $00000400; // 8 bit DSCAPS_SECONDARY16BIT = $00000800; // 16 bit // BASS_RECORDINFO flags (from DSOUND.H) DSCCAPS_EMULDRIVER = DSCAPS_EMULDRIVER; { device does NOT have hardware DirectSound recording support } DSCCAPS_CERTIFIED = DSCAPS_CERTIFIED; { device driver has been certified by Microsoft } // defines for formats field of BASS_RECORDINFO (from MMSYSTEM.H) WAVE_FORMAT_1M08 = $00000001; // 11.025 kHz, Mono, 8-bit WAVE_FORMAT_1S08 = $00000002; // 11.025 kHz, Stereo, 8-bit WAVE_FORMAT_1M16 = $00000004; // 11.025 kHz, Mono, 16-bit WAVE_FORMAT_1S16 = $00000008; // 11.025 kHz, Stereo, 16-bit WAVE_FORMAT_2M08 = $00000010; // 22.05 kHz, Mono, 8-bit WAVE_FORMAT_2S08 = $00000020; // 22.05 kHz, Stereo, 8-bit WAVE_FORMAT_2M16 = $00000040; // 22.05 kHz, Mono, 16-bit WAVE_FORMAT_2S16 = $00000080; // 22.05 kHz, Stereo, 16-bit WAVE_FORMAT_4M08 = $00000100; // 44.1 kHz, Mono, 8-bit WAVE_FORMAT_4S08 = $00000200; // 44.1 kHz, Stereo, 8-bit WAVE_FORMAT_4M16 = $00000400; // 44.1 kHz, Mono, 16-bit WAVE_FORMAT_4S16 = $00000800; // 44.1 kHz, Stereo, 16-bit // Sample info flags BASS_SAMPLE_8BITS = 1; // 8 bit BASS_SAMPLE_FLOAT = 256; // 32-bit floating-point BASS_SAMPLE_MONO = 2; // mono, else stereo BASS_SAMPLE_LOOP = 4; // looped BASS_SAMPLE_3D = 8; // 3D functionality enabled BASS_SAMPLE_SOFTWARE = 16; // it's NOT using hardware mixing BASS_SAMPLE_MUTEMAX = 32; // muted at max distance (3D only) BASS_SAMPLE_VAM = 64; // uses the DX7 voice allocation & management BASS_SAMPLE_FX = 128; // old implementation of DX8 effects are enabled BASS_SAMPLE_OVER_VOL = $10000; // override lowest volume BASS_SAMPLE_OVER_POS = $20000; // override longest playing BASS_SAMPLE_OVER_DIST = $30000; // override furthest from listener (3D only) BASS_STREAM_PRESCAN = $20000; // enable pin-point seeking (MP3/MP2/MP1) BASS_MP3_SETPOS = BASS_STREAM_PRESCAN; BASS_STREAM_AUTOFREE = $40000; // automatically free the stream when it stop/ends BASS_STREAM_RESTRATE = $80000; // restrict the download rate of internet file streams BASS_STREAM_BLOCK = $100000;// download/play internet file stream in small blocks BASS_STREAM_DECODE = $200000;// don't play the stream, only decode (BASS_ChannelGetData) BASS_STREAM_STATUS = $800000;// give server status info (HTTP/ICY tags) in DOWNLOADPROC BASS_MUSIC_FLOAT = BASS_SAMPLE_FLOAT; // 32-bit floating-point BASS_MUSIC_MONO = BASS_SAMPLE_MONO; // force mono mixing (less CPU usage) BASS_MUSIC_LOOP = BASS_SAMPLE_LOOP; // loop music BASS_MUSIC_3D = BASS_SAMPLE_3D; // enable 3D functionality BASS_MUSIC_FX = BASS_SAMPLE_FX; // enable old implementation of DX8 effects BASS_MUSIC_AUTOFREE = BASS_STREAM_AUTOFREE; // automatically free the music when it stop/ends BASS_MUSIC_DECODE = BASS_STREAM_DECODE; // don't play the music, only decode (BASS_ChannelGetData) BASS_MUSIC_PRESCAN = BASS_STREAM_PRESCAN; // calculate playback length BASS_MUSIC_CALCLEN = BASS_MUSIC_PRESCAN; BASS_MUSIC_RAMP = $200; // normal ramping BASS_MUSIC_RAMPS = $400; // sensitive ramping BASS_MUSIC_SURROUND = $800; // surround sound BASS_MUSIC_SURROUND2 = $1000; // surround sound (mode 2) BASS_MUSIC_FT2MOD = $2000; // play .MOD as FastTracker 2 does BASS_MUSIC_PT1MOD = $4000; // play .MOD as ProTracker 1 does BASS_MUSIC_NONINTER = $10000; // non-interpolated mixing BASS_MUSIC_POSRESET = $8000; // stop all notes when moving position BASS_MUSIC_POSRESETEX = $400000; // stop all notes and reset bmp/etc when moving position BASS_MUSIC_STOPBACK = $80000; // stop the music on a backwards jump effect BASS_MUSIC_NOSAMPLE = $100000; // don't load the samples // Speaker assignment flags BASS_SPEAKER_FRONT = $1000000; // front speakers BASS_SPEAKER_REAR = $2000000; // rear/side speakers BASS_SPEAKER_CENLFE = $3000000; // center & LFE speakers (5.1) BASS_SPEAKER_REAR2 = $4000000; // rear center speakers (7.1) BASS_SPEAKER_LEFT = $10000000; // modifier: left BASS_SPEAKER_RIGHT = $20000000; // modifier: right BASS_SPEAKER_FRONTLEFT = BASS_SPEAKER_FRONT or BASS_SPEAKER_LEFT; BASS_SPEAKER_FRONTRIGHT = BASS_SPEAKER_FRONT or BASS_SPEAKER_RIGHT; BASS_SPEAKER_REARLEFT = BASS_SPEAKER_REAR or BASS_SPEAKER_LEFT; BASS_SPEAKER_REARRIGHT = BASS_SPEAKER_REAR or BASS_SPEAKER_RIGHT; BASS_SPEAKER_CENTER = BASS_SPEAKER_CENLFE or BASS_SPEAKER_LEFT; BASS_SPEAKER_LFE = BASS_SPEAKER_CENLFE or BASS_SPEAKER_RIGHT; BASS_SPEAKER_REAR2LEFT = BASS_SPEAKER_REAR2 or BASS_SPEAKER_LEFT; BASS_SPEAKER_REAR2RIGHT = BASS_SPEAKER_REAR2 or BASS_SPEAKER_RIGHT; BASS_UNICODE = $80000000; BASS_RECORD_PAUSE = $8000; // start recording paused // DX7 voice allocation flags BASS_VAM_HARDWARE = 1; { Play the sample in hardware. If no hardware voices are available then the "play" call will fail } BASS_VAM_SOFTWARE = 2; { Play the sample in software (ie. non-accelerated). No other VAM flags may be used together with this flag. } // DX7 voice management flags { These flags enable hardware resource stealing... if the hardware has no available voices, a currently playing buffer will be stopped to make room for the new buffer. NOTE: only samples loaded/created with the BASS_SAMPLE_VAM flag are considered for termination by the DX7 voice management. } BASS_VAM_TERM_TIME = 4; { If there are no free hardware voices, the buffer to be terminated will be the one with the least time left to play. } BASS_VAM_TERM_DIST = 8; { If there are no free hardware voices, the buffer to be terminated will be one that was loaded/created with the BASS_SAMPLE_MUTEMAX flag and is beyond it's max distance. If there are no buffers that match this criteria, then the "play" call will fail. } BASS_VAM_TERM_PRIO = 16; { If there are no free hardware voices, the buffer to be terminated will be the one with the lowest priority. } // BASS_CHANNELINFO types BASS_CTYPE_SAMPLE = 1; BASS_CTYPE_RECORD = 2; BASS_CTYPE_STREAM = $10000; BASS_CTYPE_STREAM_OGG = $10002; BASS_CTYPE_STREAM_MP1 = $10003; BASS_CTYPE_STREAM_MP2 = $10004; BASS_CTYPE_STREAM_MP3 = $10005; BASS_CTYPE_STREAM_AIFF = $10006; BASS_CTYPE_STREAM_WAV = $40000; // WAVE flag, LOWORD=codec BASS_CTYPE_STREAM_WAV_PCM = $50001; BASS_CTYPE_STREAM_WAV_FLOAT = $50003; BASS_CTYPE_MUSIC_MOD = $20000; BASS_CTYPE_MUSIC_MTM = $20001; BASS_CTYPE_MUSIC_S3M = $20002; BASS_CTYPE_MUSIC_XM = $20003; BASS_CTYPE_MUSIC_IT = $20004; BASS_CTYPE_MUSIC_MO3 = $00100; // MO3 flag // 3D channel modes BASS_3DMODE_NORMAL = 0; { normal 3D processing } BASS_3DMODE_RELATIVE = 1; { The channel's 3D position (position/velocity/ orientation) are relative to the listener. When the listener's position/velocity/orientation is changed with BASS_Set3DPosition, the channel's position relative to the listener does not change. } BASS_3DMODE_OFF = 2; { Turn off 3D processing on the channel, the sound will be played in the center. } // EAX environments, use with BASS_SetEAXParameters EAX_ENVIRONMENT_GENERIC = 0; EAX_ENVIRONMENT_PADDEDCELL = 1; EAX_ENVIRONMENT_ROOM = 2; EAX_ENVIRONMENT_BATHROOM = 3; EAX_ENVIRONMENT_LIVINGROOM = 4; EAX_ENVIRONMENT_STONEROOM = 5; EAX_ENVIRONMENT_AUDITORIUM = 6; EAX_ENVIRONMENT_CONCERTHALL = 7; EAX_ENVIRONMENT_CAVE = 8; EAX_ENVIRONMENT_ARENA = 9; EAX_ENVIRONMENT_HANGAR = 10; EAX_ENVIRONMENT_CARPETEDHALLWAY = 11; EAX_ENVIRONMENT_HALLWAY = 12; EAX_ENVIRONMENT_STONECORRIDOR = 13; EAX_ENVIRONMENT_ALLEY = 14; EAX_ENVIRONMENT_FOREST = 15; EAX_ENVIRONMENT_CITY = 16; EAX_ENVIRONMENT_MOUNTAINS = 17; EAX_ENVIRONMENT_QUARRY = 18; EAX_ENVIRONMENT_PLAIN = 19; EAX_ENVIRONMENT_PARKINGLOT = 20; EAX_ENVIRONMENT_SEWERPIPE = 21; EAX_ENVIRONMENT_UNDERWATER = 22; EAX_ENVIRONMENT_DRUGGED = 23; EAX_ENVIRONMENT_DIZZY = 24; EAX_ENVIRONMENT_PSYCHOTIC = 25; // total number of environments EAX_ENVIRONMENT_COUNT = 26; // software 3D mixing algorithm modes (used with BASS_Set3DAlgorithm) BASS_3DALG_DEFAULT = 0; { default algorithm (currently translates to BASS_3DALG_OFF) } BASS_3DALG_OFF = 1; { Uses normal left and right panning. The vertical axis is ignored except for scaling of volume due to distance. Doppler shift and volume scaling are still applied, but the 3D filtering is not performed. This is the most CPU efficient software implementation, but provides no virtual 3D audio effect. Head Related Transfer Function processing will not be done. Since only normal stereo panning is used, a channel using this algorithm may be accelerated by a 2D hardware voice if no free 3D hardware voices are available. } BASS_3DALG_FULL = 2; { This algorithm gives the highest quality 3D audio effect, but uses more CPU. Requires Windows 98 2nd Edition or Windows 2000 that uses WDM drivers, if this mode is not available then BASS_3DALG_OFF will be used instead. } BASS_3DALG_LIGHT = 3; { This algorithm gives a good 3D audio effect, and uses less CPU than the FULL mode. Requires Windows 98 2nd Edition or Windows 2000 that uses WDM drivers, if this mode is not available then BASS_3DALG_OFF will be used instead. } { Sync types (with BASS_ChannelSetSync() "param" and SYNCPROC "data" definitions) & flags. } BASS_SYNC_POS = 0; { Sync when a channel reaches a position. param: position in bytes data : not used } BASS_SYNC_END = 2; { Sync when a channel reaches the end. param: not used data : not used } BASS_SYNC_META = 4; { Sync when metadata is received in a stream. param: not used data : pointer to the metadata } BASS_SYNC_SLIDE = 5; { Sync when an attribute slide is completed. param: not used data : the type of slide completed (one of the BASS_SLIDE_xxx values) } BASS_SYNC_STALL = 6; { Sync when playback has stalled. param: not used data : 0=stalled, 1=resumed } BASS_SYNC_DOWNLOAD = 7; { Sync when downloading of an internet (or "buffered" user file) stream has ended. param: not used data : not used } BASS_SYNC_FREE = 8; { Sync when a channel is freed. param: not used data : not used } BASS_SYNC_SETPOS = 11; { Sync when a channel's position is set. param: not used data : 0 = playback buffer not flushed, 1 = playback buffer flushed } BASS_SYNC_MUSICPOS = 10; { Sync when a MOD music reaches an order:row position. param: LOWORD=order (0=first, -1=all) HIWORD=row (0=first, -1=all) data : LOWORD=order HIWORD=row } BASS_SYNC_MUSICINST = 1; { Sync when an instrument (sample for the non-instrument based formats) is played in a MOD music (not including retrigs). param: LOWORD=instrument (1=first) HIWORD=note (0=c0...119=b9, -1=all) data : LOWORD=note HIWORD=volume (0-64) } BASS_SYNC_MUSICFX = 3; { Sync when the "sync" effect (XM/MTM/MOD: E8x/Wxx, IT/S3M: S2x) is used. param: 0:data=pos, 1:data="x" value data : param=0: LOWORD=order HIWORD=row, param=1: "x" value } BASS_SYNC_MESSAGE = $20000000; { FLAG: post a Windows message (instead of callback) When using a window message "callback", the message to post is given in the "proc" parameter of BASS_ChannelSetSync, and is posted to the window specified in the BASS_Init call. The message parameters are: WPARAM = data, LPARAM = user. } BASS_SYNC_MIXTIME = $40000000; { FLAG: sync at mixtime, else at playtime } BASS_SYNC_ONETIME = $80000000; { FLAG: sync only once, else continuously } // BASS_ChannelIsActive return values BASS_ACTIVE_STOPPED = 0; BASS_ACTIVE_PLAYING = 1; BASS_ACTIVE_STALLED = 2; BASS_ACTIVE_PAUSED = 3; // BASS_ChannelIsSliding return flags BASS_SLIDE_FREQ = 1; BASS_SLIDE_VOL = 2; BASS_SLIDE_PAN = 4; // BASS_ChannelGetData flags BASS_DATA_AVAILABLE = 0; // query how much data is buffered BASS_DATA_FLOAT = $40000000; // flag: return floating-point sample data BASS_DATA_FFT512 = $80000000; // 512 sample FFT BASS_DATA_FFT1024 = $80000001; // 1024 FFT BASS_DATA_FFT2048 = $80000002; // 2048 FFT BASS_DATA_FFT4096 = $80000003; // 4096 FFT BASS_DATA_FFT8192 = $80000004; // 8192 FFT BASS_DATA_FFT_INDIVIDUAL = $10; // FFT flag: FFT for each channel, else all combined BASS_DATA_FFT_NOWINDOW = $20; // FFT flag: no Hanning window // BASS_ChannelGetTags types : what's returned BASS_TAG_ID3 = 0; // ID3v1 tags : 128 byte block BASS_TAG_ID3V2 = 1; // ID3v2 tags : variable length block BASS_TAG_OGG = 2; // OGG comments : array of null-terminated strings BASS_TAG_HTTP = 3; // HTTP headers : array of null-terminated strings BASS_TAG_ICY = 4; // ICY headers : array of null-terminated strings BASS_TAG_META = 5; // ICY metadata : null-terminated string BASS_TAG_VENDOR = 9; // OGG encoder : null-terminated string BASS_TAG_LYRICS3 = 10; // Lyric3v2 tag : ASCII string BASS_TAG_RIFF_INFO = $100; // RIFF/WAVE tags : array of null-terminated ANSI strings BASS_TAG_MUSIC_NAME = $10000; // MOD music name : ANSI string BASS_TAG_MUSIC_MESSAGE = $10001; // MOD message : ANSI string BASS_TAG_MUSIC_INST = $10100; // + instrument #, MOD instrument name : ANSI string BASS_TAG_MUSIC_SAMPLE = $10300; // + sample #, MOD sample name : ANSI string BASS_FX_CHORUS = 0; // GUID_DSFX_STANDARD_CHORUS BASS_FX_COMPRESSOR = 1; // GUID_DSFX_STANDARD_COMPRESSOR BASS_FX_DISTORTION = 2; // GUID_DSFX_STANDARD_DISTORTION BASS_FX_ECHO = 3; // GUID_DSFX_STANDARD_ECHO BASS_FX_FLANGER = 4; // GUID_DSFX_STANDARD_FLANGER BASS_FX_GARGLE = 5; // GUID_DSFX_STANDARD_GARGLE BASS_FX_I3DL2REVERB = 6; // GUID_DSFX_STANDARD_I3DL2REVERB BASS_FX_PARAMEQ = 7; // GUID_DSFX_STANDARD_PARAMEQ BASS_FX_REVERB = 8; // GUID_DSFX_WAVES_REVERB BASS_FX_PHASE_NEG_180 = 0; BASS_FX_PHASE_NEG_90 = 1; BASS_FX_PHASE_ZERO = 2; BASS_FX_PHASE_90 = 3; BASS_FX_PHASE_180 = 4; // BASS_RecordSetInput flags BASS_INPUT_OFF = $10000; BASS_INPUT_ON = $20000; BASS_INPUT_LEVEL = $40000; BASS_INPUT_TYPE_MASK = $ff000000; BASS_INPUT_TYPE_UNDEF = $00000000; BASS_INPUT_TYPE_DIGITAL = $01000000; BASS_INPUT_TYPE_LINE = $02000000; BASS_INPUT_TYPE_MIC = $03000000; BASS_INPUT_TYPE_SYNTH = $04000000; BASS_INPUT_TYPE_CD = $05000000; BASS_INPUT_TYPE_PHONE = $06000000; BASS_INPUT_TYPE_SPEAKER = $07000000; BASS_INPUT_TYPE_WAVE = $08000000; BASS_INPUT_TYPE_AUX = $09000000; BASS_INPUT_TYPE_ANALOG = $0a000000; // BASS_SetNetConfig flags BASS_NET_TIMEOUT = 0; BASS_NET_BUFFER = 1; // BASS_StreamGetFilePosition modes BASS_FILEPOS_CURRENT = 0; BASS_FILEPOS_DECODE = BASS_FILEPOS_CURRENT; BASS_FILEPOS_DOWNLOAD = 1; BASS_FILEPOS_END = 2; BASS_FILEPOS_START = 3; BASS_FILEPOS_CONNECTED = 4; // STREAMFILEPROC actions BASS_FILE_CLOSE = 0; BASS_FILE_READ = 1; BASS_FILE_LEN = 3; BASS_FILE_SEEK = 4; BASS_STREAMPROC_END = $80000000; // end of user stream flag // BASS_MusicSet/GetAttribute options BASS_MUSIC_ATTRIB_AMPLIFY = 0; BASS_MUSIC_ATTRIB_PANSEP = 1; BASS_MUSIC_ATTRIB_PSCALER = 2; BASS_MUSIC_ATTRIB_BPM = 3; BASS_MUSIC_ATTRIB_SPEED = 4; BASS_MUSIC_ATTRIB_VOL_GLOBAL = 5; BASS_MUSIC_ATTRIB_VOL_CHAN = $100; // + channel # BASS_MUSIC_ATTRIB_VOL_INST = $200; // + instrument # // BASS_Set/GetConfig options BASS_CONFIG_BUFFER = 0; BASS_CONFIG_UPDATEPERIOD = 1; BASS_CONFIG_MAXVOL = 3; BASS_CONFIG_GVOL_SAMPLE = 4; BASS_CONFIG_GVOL_STREAM = 5; BASS_CONFIG_GVOL_MUSIC = 6; BASS_CONFIG_CURVE_VOL = 7; BASS_CONFIG_CURVE_PAN = 8; BASS_CONFIG_FLOATDSP = 9; BASS_CONFIG_3DALGORITHM = 10; BASS_CONFIG_NET_TIMEOUT = 11; BASS_CONFIG_NET_BUFFER = 12; BASS_CONFIG_PAUSE_NOPLAY = 13; BASS_CONFIG_NET_PREBUF = 15; BASS_CONFIG_NET_AGENT = 16; BASS_CONFIG_NET_PROXY = 17; BASS_CONFIG_NET_PASSIVE = 18; BASS_CONFIG_REC_BUFFER = 19; BASS_CONFIG_NET_PLAYLIST = 21; BASS_CONFIG_MUSIC_VIRTUAL = 22; type DWORD = cardinal; BOOL = LongBool; FLOAT = Single; QWORD = int64; // 64-bit (replace "int64" with "comp" if using Delphi 3) HMUSIC = DWORD; // MOD music handle HSAMPLE = DWORD; // sample handle HCHANNEL = DWORD; // playing sample's channel handle HSTREAM = DWORD; // sample stream handle HRECORD = DWORD; // recording handle HSYNC = DWORD; // synchronizer handle HDSP = DWORD; // DSP handle HFX = DWORD; // DX8 effect handle HPLUGIN = DWORD; // Plugin handle BASS_INFO = record flags: DWORD; // device capabilities (DSCAPS_xxx flags) hwsize: DWORD; // size of total device hardware memory hwfree: DWORD; // size of free device hardware memory freesam: DWORD; // number of free sample slots in the hardware free3d: DWORD; // number of free 3D sample slots in the hardware minrate: DWORD; // min sample rate supported by the hardware maxrate: DWORD; // max sample rate supported by the hardware eax: BOOL; // device supports EAX? (always FALSE if BASS_DEVICE_3D was not used) minbuf: DWORD; // recommended minimum buffer length in ms (requires BASS_DEVICE_LATENCY) dsver: DWORD; // DirectSound version latency: DWORD; // delay (in ms) before start of playback (requires BASS_DEVICE_LATENCY) initflags: DWORD; // "flags" parameter of BASS_Init call speakers: DWORD; // number of speakers available driver: PChar; // driver freq: DWORD; // current output rate (OSX only) end; BASS_RECORDINFO = record flags: DWORD; // device capabilities (DSCCAPS_xxx flags) formats: DWORD; // supported standard formats (WAVE_FORMAT_xxx flags) inputs: DWORD; // number of inputs singlein: BOOL; // only 1 input can be set at a time driver: PChar; // driver freq: DWORD; // current input rate (OSX only) end; BASS_CHANNELINFO = record freq: DWORD; // default playback rate chans: DWORD; // channels flags: DWORD; // BASS_SAMPLE/STREAM/MUSIC/SPEAKER flags ctype: DWORD; // type of channel origres: DWORD; // original resolution plugin: HPLUGIN; // plugin end; BASS_PLUGINFORM = record ctype: DWORD; // channel type name: PChar; // format description exts: PChar; // file extension filter (*.ext1;*.ext2;etc...) end; PBASS_PLUGINFORMS = ^TBASS_PLUGINFORMS; TBASS_PLUGINFORMS = array[0..maxInt div sizeOf(BASS_PLUGINFORM) - 1] of BASS_PLUGINFORM; BASS_PLUGININFO = record version: DWORD; // version (same form as BASS_GetVersion) formatc: DWORD; // number of formats formats: PBASS_PLUGINFORMS; // the array of formats end; PBASS_PLUGININFO = ^BASS_PLUGININFO; // Sample info structure BASS_SAMPLE = record freq: DWORD; // default playback rate volume: DWORD; // default volume (0-100) pan: Integer; // default pan (-100=left, 0=middle, 100=right) flags: DWORD; // BASS_SAMPLE_xxx flags length: DWORD; // length (in samples, not bytes) max: DWORD; // maximum simultaneous playbacks origres: DWORD; // original resolution chans: DWORD; // number of channels mingap: DWORD; // minimum gap (ms) between creating channels { The following are the sample's default 3D attributes (if the sample is 3D, BASS_SAMPLE_3D is in flags) see BASS_ChannelSet3DAttributes } mode3d: DWORD; // BASS_3DMODE_xxx mode mindist: FLOAT; // minimum distance maxdist: FLOAT; // maximum distance iangle: DWORD; // angle of inside projection cone oangle: DWORD; // angle of outside projection cone outvol: DWORD; // delta-volume outside the projection cone { The following are the defaults used if the sample uses the DirectX 7 voice allocation/management features. } vam: DWORD; // voice allocation/management flags (BASS_VAM_xxx) priority: DWORD; // priority (0=lowest, $ffffffff=highest) end; // 3D vector (for 3D positions/velocities/orientations) BASS_3DVECTOR = record x: FLOAT; // +=right, -=left y: FLOAT; // +=up, -=down z: FLOAT; // +=front, -=behind end; BASS_FXCHORUS = record fWetDryMix: FLOAT; fDepth: FLOAT; fFeedback: FLOAT; fFrequency: FLOAT; lWaveform: DWORD; // 0=triangle, 1=sine fDelay: FLOAT; lPhase: DWORD; // BASS_FX_PHASE_xxx end; BASS_FXCOMPRESSOR = record fGain: FLOAT; fAttack: FLOAT; fRelease: FLOAT; fThreshold: FLOAT; fRatio: FLOAT; fPredelay: FLOAT; end; BASS_FXDISTORTION = record fGain: FLOAT; fEdge: FLOAT; fPostEQCenterFrequency: FLOAT; fPostEQBandwidth: FLOAT; fPreLowpassCutoff: FLOAT; end; BASS_FXECHO = record fWetDryMix: FLOAT; fFeedback: FLOAT; fLeftDelay: FLOAT; fRightDelay: FLOAT; lPanDelay: BOOL; end; BASS_FXFLANGER = record fWetDryMix: FLOAT; fDepth: FLOAT; fFeedback: FLOAT; fFrequency: FLOAT; lWaveform: DWORD; // 0=triangle, 1=sine fDelay: FLOAT; lPhase: DWORD; // BASS_FX_PHASE_xxx end; BASS_FXGARGLE = record dwRateHz: DWORD; // Rate of modulation in hz dwWaveShape: DWORD; // 0=triangle, 1=square end; BASS_FXI3DL2REVERB = record lRoom: Longint; // [-10000, 0] default: -1000 mB lRoomHF: Longint; // [-10000, 0] default: 0 mB flRoomRolloffFactor: FLOAT; // [0.0, 10.0] default: 0.0 flDecayTime: FLOAT; // [0.1, 20.0] default: 1.49s flDecayHFRatio: FLOAT; // [0.1, 2.0] default: 0.83 lReflections: Longint; // [-10000, 1000] default: -2602 mB flReflectionsDelay: FLOAT; // [0.0, 0.3] default: 0.007 s lReverb: Longint; // [-10000, 2000] default: 200 mB flReverbDelay: FLOAT; // [0.0, 0.1] default: 0.011 s flDiffusion: FLOAT; // [0.0, 100.0] default: 100.0 % flDensity: FLOAT; // [0.0, 100.0] default: 100.0 % flHFReference: FLOAT; // [20.0, 20000.0] default: 5000.0 Hz end; BASS_FXPARAMEQ = record fCenter: FLOAT; fBandwidth: FLOAT; fGain: FLOAT; end; BASS_FXREVERB = record fInGain: FLOAT; // [-96.0,0.0] default: 0.0 dB fReverbMix: FLOAT; // [-96.0,0.0] default: 0.0 db fReverbTime: FLOAT; // [0.001,3000.0] default: 1000.0 ms fHighFreqRTRatio: FLOAT; // [0.001,0.999] default: 0.001 end; // callback function types STREAMPROC = function(handle: HSTREAM; buffer: Pointer; length: DWORD; user: DWORD): DWORD; stdcall; { User stream callback function. NOTE: A stream function should obviously be as quick as possible, other streams (and MOD musics) can't be mixed until it's finished. handle : The stream that needs writing buffer : Buffer to write the samples in length : Number of bytes to write user : The 'user' parameter value given when calling BASS_StreamCreate RETURN : Number of bytes written. Set the BASS_STREAMPROC_END flag to end the stream. } STREAMFILEPROC = function(action, param1, param2, user: DWORD): DWORD; stdcall; { User file stream callback function. action : The action to perform, one of BASS_FILE_xxx values. param1 : Depends on "action" param2 : Depends on "action" user : The 'user' parameter value given when calling BASS_StreamCreate RETURN : Depends on "action" } DOWNLOADPROC = procedure(buffer: Pointer; length: DWORD; user: DWORD); stdcall; { Internet stream download callback function. buffer : Buffer containing the downloaded data... NULL=end of download length : Number of bytes in the buffer user : The 'user' parameter value given when calling BASS_StreamCreateURL } SYNCPROC = procedure(handle: HSYNC; channel, data: DWORD; user: DWORD); stdcall; { Sync callback function. NOTE: a sync callback function should be very quick as other syncs cannot be processed until it has finished. If the sync is a "mixtime" sync, then other streams and MOD musics can not be mixed until it's finished either. handle : The sync that has occured channel: Channel that the sync occured in data : Additional data associated with the sync's occurance user : The 'user' parameter given when calling BASS_ChannelSetSync } DSPPROC = procedure(handle: HDSP; channel: DWORD; buffer: Pointer; length: DWORD; user: DWORD); stdcall; { DSP callback function. NOTE: A DSP function should obviously be as quick as possible... other DSP functions, streams and MOD musics can not be processed until it's finished. handle : The DSP handle channel: Channel that the DSP is being applied to buffer : Buffer to apply the DSP to length : Number of bytes in the buffer user : The 'user' parameter given when calling BASS_ChannelSetDSP } RECORDPROC = function(handle: HRECORD; buffer: Pointer; length: DWORD; user: DWORD): BOOL; stdcall; { Recording callback function. handle : The recording handle buffer : Buffer containing the recorded sample data length : Number of bytes user : The 'user' parameter value given when calling BASS_RecordStart RETURN : TRUE = continue recording, FALSE = stop } // Functions const bassdll = 'bass.dll'; function BASS_SetConfig(option, value: DWORD): DWORD; stdcall; external bassdll; function BASS_GetConfig(option: DWORD): DWORD; stdcall; external bassdll; function BASS_GetVersion: DWORD; stdcall; external bassdll; function BASS_GetDeviceDescription(device: DWORD): PChar; stdcall; external bassdll; function BASS_ErrorGetCode: Integer; stdcall; external bassdll; function BASS_Init(device: Integer; freq, flags: DWORD; win: HWND; clsid: PGUID): BOOL; stdcall; external bassdll; function BASS_SetDevice(device: DWORD): BOOL; stdcall; external bassdll; function BASS_GetDevice: DWORD; stdcall; external bassdll; function BASS_Free: BOOL; stdcall; external bassdll; function BASS_GetDSoundObject(obj: DWORD): Pointer; stdcall; external bassdll; function BASS_GetInfo(var info: BASS_INFO): BOOL; stdcall; external bassdll; function BASS_Update: BOOL; stdcall; external bassdll; function BASS_GetCPU: FLOAT; stdcall; external bassdll; function BASS_Start: BOOL; stdcall; external bassdll; function BASS_Stop: BOOL; stdcall; external bassdll; function BASS_Pause: BOOL; stdcall; external bassdll; function BASS_SetVolume(volume: DWORD): BOOL; stdcall; external bassdll; function BASS_GetVolume: Integer; stdcall; external bassdll; function BASS_PluginLoad(filename: PChar; flags: DWORD): HPLUGIN; stdcall; external bassdll; function BASS_PluginFree(handle: HPLUGIN): BOOL; stdcall; external bassdll; function BASS_PluginGetInfo(handle: HPLUGIN): PBASS_PLUGININFO; stdcall; external bassdll; function BASS_Set3DFactors(distf, rollf, doppf: FLOAT): BOOL; stdcall; external bassdll; function BASS_Get3DFactors(var distf, rollf, doppf: FLOAT): BOOL; stdcall; external bassdll; function BASS_Set3DPosition(var pos, vel, front, top: BASS_3DVECTOR): BOOL; stdcall; external bassdll; function BASS_Get3DPosition(var pos, vel, front, top: BASS_3DVECTOR): BOOL; stdcall; external bassdll; procedure BASS_Apply3D; stdcall; external bassdll; function BASS_SetEAXParameters(env: Integer; vol, decay, damp: FLOAT): BOOL; stdcall; external bassdll; function BASS_GetEAXParameters(var env: DWORD; var vol, decay, damp: FLOAT): BOOL; stdcall; external bassdll; function BASS_MusicLoad(mem: BOOL; f: Pointer; offset, length, flags, freq: DWORD): HMUSIC; stdcall; external bassdll; function BASS_MusicFree(handle: HMUSIC): BOOL; stdcall; external bassdll; function BASS_MusicSetAttribute(handle: HMUSIC; attrib,value: DWORD): DWORD; stdcall; external bassdll; function BASS_MusicGetAttribute(handle: HMUSIC; attrib: DWORD): DWORD; stdcall; external bassdll; function BASS_MusicGetOrders(handle: HMUSIC): DWORD; stdcall; external bassdll; function BASS_MusicGetOrderPosition(handle: HMUSIC): DWORD; stdcall; external bassdll; function BASS_SampleLoad(mem: BOOL; f: Pointer; offset, length, max, flags: DWORD): HSAMPLE; stdcall; external bassdll; function BASS_SampleCreate(length, freq, chans, max, flags: DWORD): Pointer; stdcall; external bassdll; function BASS_SampleCreateDone: HSAMPLE; stdcall; external bassdll; function BASS_SampleFree(handle: HSAMPLE): BOOL; stdcall; external bassdll; function BASS_SampleGetInfo(handle: HSAMPLE; var info: BASS_SAMPLE): BOOL; stdcall; external bassdll; function BASS_SampleSetInfo(handle: HSAMPLE; var info: BASS_SAMPLE): BOOL; stdcall; external bassdll; function BASS_SampleGetChannel(handle: HSAMPLE; onlynew: BOOL): HCHANNEL; stdcall; external bassdll; function BASS_SampleGetChannels(handle: HSAMPLE; channels: Pointer): DWORD; stdcall; external bassdll; function BASS_SampleStop(handle: HSAMPLE): BOOL; stdcall; external bassdll; function BASS_StreamCreate(freq, chans, flags: DWORD; proc: Pointer; user: DWORD): HSTREAM; stdcall; external bassdll; function BASS_StreamCreateFile(mem: BOOL; f: Pointer; offset, length, flags: DWORD): HSTREAM; stdcall; external bassdll; function BASS_StreamCreateURL(url: PChar; offset: DWORD; flags: DWORD; proc: DOWNLOADPROC; user: DWORD):HSTREAM; stdcall; external bassdll; function BASS_StreamCreateFileUser(buffered: BOOL; flags: DWORD; proc: STREAMFILEPROC; user: DWORD): HSTREAM; stdcall; external bassdll; function BASS_StreamFree(handle: HSTREAM): BOOL; stdcall; external bassdll; function BASS_StreamGetFilePosition(handle:HSTREAM; mode:DWORD) : DWORD;stdcall;external bassdll; function BASS_RecordGetDeviceDescription(devnum: DWORD):PChar;stdcall;external bassdll; function BASS_RecordInit(device: Integer):BOOL;stdcall;external bassdll; function BASS_RecordSetDevice(device: DWORD): BOOL; stdcall; external bassdll; function BASS_RecordGetDevice: DWORD; stdcall; external bassdll; function BASS_RecordFree:BOOL;stdcall;external bassdll; function BASS_RecordGetInfo(var info:BASS_RECORDINFO):BOOL;stdcall;external bassdll; function BASS_RecordGetInputName(input:Integer):PChar;stdcall;external bassdll; function BASS_RecordSetInput(input:Integer; setting:DWORD):BOOL;stdcall;external bassdll; function BASS_RecordGetInput(input:Integer):DWORD;stdcall;external bassdll; function BASS_RecordStart(freq,chans,flags:DWORD; proc:RECORDPROC; user:DWORD):HRECORD;stdcall;external bassdll; function BASS_ChannelBytes2Seconds(handle: DWORD; pos: QWORD): FLOAT; stdcall;external bassdll; function BASS_ChannelSeconds2Bytes(handle: DWORD; pos: FLOAT): QWORD; stdcall;external bassdll; function BASS_ChannelGetDevice(handle: DWORD): DWORD; stdcall; external bassdll; function BASS_ChannelSetDevice(handle, device: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelIsActive(handle: DWORD): DWORD; stdcall;external bassdll; function BASS_ChannelGetInfo(handle: DWORD; var info:BASS_CHANNELINFO):BOOL;stdcall;external bassdll; function BASS_ChannelGetTags(handle: HSTREAM; tags : DWORD): PChar; stdcall; external bassdll; function BASS_ChannelSetFlags(handle, flags: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelPreBuf(handle, length: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelPlay(handle: DWORD; restart: BOOL): BOOL; stdcall; external bassdll; function BASS_ChannelStop(handle: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelPause(handle: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelSetAttributes(handle: DWORD; freq, volume, pan: Integer): BOOL; stdcall; external bassdll; function BASS_ChannelGetAttributes(handle: DWORD; var freq, volume: DWORD; var pan: Integer): BOOL; stdcall; external bassdll; function BASS_ChannelSlideAttributes(handle: DWORD; freq, volume, pan: Integer; time: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelIsSliding(handle: DWORD): DWORD; stdcall;external bassdll; function BASS_ChannelSet3DAttributes(handle: DWORD; mode: Integer; min, max: FLOAT; iangle, oangle, outvol: Integer): BOOL; stdcall; external bassdll; function BASS_ChannelGet3DAttributes(handle: DWORD; var mode: DWORD; var min, max: FLOAT; var iangle, oangle, outvol: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelSet3DPosition(handle: DWORD; var pos, orient, vel: BASS_3DVECTOR): BOOL; stdcall; external bassdll; function BASS_ChannelGet3DPosition(handle: DWORD; var pos, orient, vel: BASS_3DVECTOR): BOOL; stdcall; external bassdll; function BASS_ChannelGetLength(handle: DWORD): QWORD; stdcall; external bassdll; function BASS_ChannelSetPosition(handle: DWORD; pos: QWORD): BOOL; stdcall; external bassdll; function BASS_ChannelGetPosition(handle: DWORD): QWORD; stdcall; external bassdll; function BASS_ChannelGetLevel(handle: DWORD): DWORD; stdcall; external bassdll; function BASS_ChannelGetData(handle: DWORD; buffer: Pointer; length: DWORD): DWORD; stdcall; external bassdll; function BASS_ChannelSetSync(handle: DWORD; stype: DWORD; param: QWORD; proc: SYNCPROC; user: DWORD): HSYNC; stdcall; external bassdll; function BASS_ChannelRemoveSync(handle: DWORD; sync: HSYNC): BOOL; stdcall; external bassdll; function BASS_ChannelSetDSP(handle: DWORD; proc: DSPPROC; user: DWORD; priority: Integer): HDSP; stdcall; external bassdll; function BASS_ChannelRemoveDSP(handle: DWORD; dsp: HDSP): BOOL; stdcall; external bassdll; function BASS_ChannelSetEAXMix(handle: DWORD; mix: FLOAT): BOOL; stdcall; external bassdll; function BASS_ChannelGetEAXMix(handle: DWORD; var mix: FLOAT): BOOL; stdcall; external bassdll; function BASS_ChannelSetLink(handle, chan: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelRemoveLink(handle, chan: DWORD): BOOL; stdcall; external bassdll; function BASS_ChannelSetFX(handle, etype: DWORD; priority: Integer): HFX; stdcall; external bassdll; function BASS_ChannelRemoveFX(handle: DWORD; fx: HFX): BOOL; stdcall; external bassdll; function BASS_FXSetParameters(handle: HFX; par: Pointer): BOOL; stdcall; external bassdll; function BASS_FXGetParameters(handle: HFX; par: Pointer): BOOL; stdcall; external bassdll; function BASS_FXReset(handle: HFX): BOOL; stdcall; external bassdll; function BASS_SPEAKER_N(n: DWORD): DWORD; function MAKEMUSICPOS(order,row: DWORD): DWORD; function BASS_SetEAXPreset(env: Integer): BOOL; { This function is defined in the implementation part of this unit. It is not part of BASS.DLL but an extra function which makes it easier to set the predefined EAX environments. env : a EAX_ENVIRONMENT_xxx constant } implementation function BASS_SPEAKER_N(n: DWORD): DWORD; begin Result := n shl 24; end; function MAKEMUSICPOS(order,row: DWORD): DWORD; begin Result := $80000000 or DWORD(MAKELONG(order,row)); end; function BASS_SetEAXPreset(env: Integer): BOOL; begin case (env) of EAX_ENVIRONMENT_GENERIC: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_GENERIC, 0.5, 1.493, 0.5); EAX_ENVIRONMENT_PADDEDCELL: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_PADDEDCELL, 0.25, 0.1, 0); EAX_ENVIRONMENT_ROOM: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_ROOM, 0.417, 0.4, 0.666); EAX_ENVIRONMENT_BATHROOM: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_BATHROOM, 0.653, 1.499, 0.166); EAX_ENVIRONMENT_LIVINGROOM: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_LIVINGROOM, 0.208, 0.478, 0); EAX_ENVIRONMENT_STONEROOM: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_STONEROOM, 0.5, 2.309, 0.888); EAX_ENVIRONMENT_AUDITORIUM: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_AUDITORIUM, 0.403, 4.279, 0.5); EAX_ENVIRONMENT_CONCERTHALL: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_CONCERTHALL, 0.5, 3.961, 0.5); EAX_ENVIRONMENT_CAVE: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_CAVE, 0.5, 2.886, 1.304); EAX_ENVIRONMENT_ARENA: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_ARENA, 0.361, 7.284, 0.332); EAX_ENVIRONMENT_HANGAR: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_HANGAR, 0.5, 10.0, 0.3); EAX_ENVIRONMENT_CARPETEDHALLWAY: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_CARPETEDHALLWAY, 0.153, 0.259, 2.0); EAX_ENVIRONMENT_HALLWAY: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_HALLWAY, 0.361, 1.493, 0); EAX_ENVIRONMENT_STONECORRIDOR: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_STONECORRIDOR, 0.444, 2.697, 0.638); EAX_ENVIRONMENT_ALLEY: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_ALLEY, 0.25, 1.752, 0.776); EAX_ENVIRONMENT_FOREST: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_FOREST, 0.111, 3.145, 0.472); EAX_ENVIRONMENT_CITY: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_CITY, 0.111, 2.767, 0.224); EAX_ENVIRONMENT_MOUNTAINS: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_MOUNTAINS, 0.194, 7.841, 0.472); EAX_ENVIRONMENT_QUARRY: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_QUARRY, 1, 1.499, 0.5); EAX_ENVIRONMENT_PLAIN: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_PLAIN, 0.097, 2.767, 0.224); EAX_ENVIRONMENT_PARKINGLOT: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_PARKINGLOT, 0.208, 1.652, 1.5); EAX_ENVIRONMENT_SEWERPIPE: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_SEWERPIPE, 0.652, 2.886, 0.25); EAX_ENVIRONMENT_UNDERWATER: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_UNDERWATER, 1, 1.499, 0); EAX_ENVIRONMENT_DRUGGED: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_DRUGGED, 0.875, 8.392, 1.388); EAX_ENVIRONMENT_DIZZY: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_DIZZY, 0.139, 17.234, 0.666); EAX_ENVIRONMENT_PSYCHOTIC: Result := BASS_SetEAXParameters(EAX_ENVIRONMENT_PSYCHOTIC, 0.486, 7.563, 0.806); else Result := FALSE; end; end; end. // END OF FILE /////////////////////////////////////////////////////////////////