/*++ Copyright (c) 1991-1996 Microsoft Corporation Module Name: mmreg.h Abstract: Multimedia Registration Revision History: --*/ // Define the following to skip definitions // // NOMMIDS Multimedia IDs are not defined // NONEWWAVE No new waveform types are defined except WAVEFORMATEX // NONEWRIFF No new RIFF forms are defined // NOJPEGDIB No JPEG DIB definitions // NONEWIC No new Image Compressor types are defined // NOBITMAP No extended bitmap info header definition #ifndef _INC_MMREG /* use version number to verify compatibility */ #define _INC_MMREG 144 // version * 100 + revision #ifndef RC_INVOKED #pragma pack(1) /* Assume byte packing throughout */ //NT #include "pshpack1.h" /* Assume byte packing throughout */ #endif /* RC_INVOKED */ #ifdef __cplusplus extern "C" { /* Assume C declarations for C++ */ #endif /* __cplusplus */ #ifndef NOMMIDS /* manufacturer IDs */ #ifndef MM_MICROSOFT #define MM_MICROSOFT 1 /* Microsoft Corporation */ #endif #define MM_CREATIVE 2 /* Creative Labs, Inc */ #define MM_MEDIAVISION 3 /* Media Vision, Inc. */ #define MM_FUJITSU 4 /* Fujitsu Corp. */ #define MM_ARTISOFT 20 /* Artisoft, Inc. */ #define MM_TURTLE_BEACH 21 /* Turtle Beach, Inc. */ #define MM_IBM 22 /* IBM Corporation */ #define MM_VOCALTEC 23 /* Vocaltec LTD. */ #define MM_ROLAND 24 /* Roland */ #define MM_DSP_SOLUTIONS 25 /* DSP Solutions, Inc. */ #define MM_NEC 26 /* NEC */ #define MM_ATI 27 /* ATI */ #define MM_WANGLABS 28 /* Wang Laboratories, Inc */ #define MM_TANDY 29 /* Tandy Corporation */ #define MM_VOYETRA 30 /* Voyetra */ #define MM_ANTEX 31 /* Antex Electronics Corporation */ #define MM_ICL_PS 32 /* ICL Personal Systems */ #define MM_INTEL 33 /* Intel Corporation */ #define MM_GRAVIS 34 /* Advanced Gravis */ #define MM_VAL 35 /* Video Associates Labs, Inc. */ #define MM_INTERACTIVE 36 /* InterActive Inc */ #define MM_YAMAHA 37 /* Yamaha Corporation of America */ #define MM_EVEREX 38 /* Everex Systems, Inc */ #define MM_ECHO 39 /* Echo Speech Corporation */ #define MM_SIERRA 40 /* Sierra Semiconductor Corp */ #define MM_CAT 41 /* Computer Aided Technologies */ #define MM_APPS 42 /* APPS Software International */ #define MM_DSP_GROUP 43 /* DSP Group, Inc */ #define MM_MELABS 44 /* microEngineering Labs */ #define MM_COMPUTER_FRIENDS 45 /* Computer Friends, Inc. */ #define MM_ESS 46 /* ESS Technology */ #define MM_AUDIOFILE 47 /* Audio, Inc. */ #define MM_MOTOROLA 48 /* Motorola, Inc. */ #define MM_CANOPUS 49 /* Canopus, co., Ltd. */ #define MM_EPSON 50 /* Seiko Epson Corporation */ #define MM_TRUEVISION 51 /* Truevision */ #define MM_AZTECH 52 /* Aztech Labs, Inc. */ #define MM_VIDEOLOGIC 53 /* Videologic */ #define MM_SCALACS 54 /* SCALACS */ #define MM_KORG 55 /* Toshihiko Okuhura, Korg Inc. */ #define MM_APT 56 /* Audio Processing Technology */ #define MM_ICS 57 /* Integrated Circuit Systems, Inc. */ #define MM_ITERATEDSYS 58 /* Iterated Systems, Inc. */ #define MM_METHEUS 59 /* Metheus */ #define MM_LOGITECH 60 /* Logitech, Inc. */ #define MM_WINNOV 61 /* Winnov, Inc. */ #define MM_NCR 62 /* NCR Corporation */ #define MM_EXAN 63 /* EXAN */ #define MM_AST 64 /* AST Research Inc. */ #define MM_WILLOWPOND 65 /* Willow Pond Corporation */ #define MM_SONICFOUNDRY 66 /* Sonic Foundry */ #define MM_VITEC 67 /* Vitec Multimedia */ #define MM_MOSCOM 68 /* MOSCOM Corporation */ #define MM_SILICONSOFT 69 /* Silicon Soft, Inc. */ #define MM_SUPERMAC 73 /* Supermac */ #define MM_AUDIOPT 74 /* Audio Processing Technology */ #define MM_SPEECHCOMP 76 /* Speech Compression */ #define MM_DOLBY 78 /* Dolby Laboratories */ #define MM_OKI 79 /* OKI */ #define MM_AURAVISION 80 /* AuraVision Corporation */ #define MM_OLIVETTI 81 /* Olivetti */ #define MM_IOMAGIC 82 /* I/O Magic Corporation */ #define MM_MATSUSHITA 83 /* Matsushita Electric Industrial Co., LTD. */ #define MM_CONTROLRES 84 /* Control Resources Limited */ #define MM_XEBEC 85 /* Xebec Multimedia Solutions Limited */ #define MM_NEWMEDIA 86 /* New Media Corporation */ #define MM_NMS 87 /* Natural MicroSystems */ #define MM_LYRRUS 88 /* Lyrrus Inc. */ #define MM_COMPUSIC 89 /* Compusic */ #define MM_OPTI 90 /* OPTi Computers Inc. */ #define MM_DIALOGIC 93 /* Dialogic Corporation */ /* MM_MICROSOFT product IDs */ #ifndef MM_MIDI_MAPPER #define MM_MIDI_MAPPER 1 /* Midi Mapper */ #define MM_WAVE_MAPPER 2 /* Wave Mapper */ #define MM_SNDBLST_MIDIOUT 3 /* Sound Blaster MIDI output port */ #define MM_SNDBLST_MIDIIN 4 /* Sound Blaster MIDI input port */ #define MM_SNDBLST_SYNTH 5 /* Sound Blaster internal synth */ #define MM_SNDBLST_WAVEOUT 6 /* Sound Blaster waveform output */ #define MM_SNDBLST_WAVEIN 7 /* Sound Blaster waveform input */ #define MM_ADLIB 9 /* Ad Lib Compatible synth */ #define MM_MPU401_MIDIOUT 10 /* MPU 401 compatible MIDI output port */ #define MM_MPU401_MIDIIN 11 /* MPU 401 compatible MIDI input port */ #define MM_PC_JOYSTICK 12 /* Joystick adapter */ #endif #define MM_PCSPEAKER_WAVEOUT 13 /* PC speaker waveform output */ #define MM_MSFT_WSS_WAVEIN 14 /* MS Audio Board waveform input */ #define MM_MSFT_WSS_WAVEOUT 15 /* MS Audio Board waveform output */ #define MM_MSFT_WSS_FMSYNTH_STEREO 16 /* MS Audio Board Stereo FM synth */ #define MM_MSFT_WSS_MIXER 17 /* MS Audio Board Mixer Driver */ #define MM_MSFT_WSS_OEM_WAVEIN 18 /* MS OEM Audio Board waveform input */ #define MM_MSFT_WSS_OEM_WAVEOUT 19 /* MS OEM Audio Board waveform output */ #define MM_MSFT_WSS_OEM_FMSYNTH_STEREO 20 /* MS OEM Audio Board Stereo FM Synth */ #define MM_MSFT_WSS_AUX 21 /* MS Audio Board Aux. Port */ #define MM_MSFT_WSS_OEM_AUX 22 /* MS OEM Audio Aux Port */ #define MM_MSFT_GENERIC_WAVEIN 23 /* MS Vanilla driver waveform input */ #define MM_MSFT_GENERIC_WAVEOUT 24 /* MS Vanilla driver wavefrom output */ #define MM_MSFT_GENERIC_MIDIIN 25 /* MS Vanilla driver MIDI in */ #define MM_MSFT_GENERIC_MIDIOUT 26 /* MS Vanilla driver MIDI external out */ #define MM_MSFT_GENERIC_MIDISYNTH 27 /* MS Vanilla driver MIDI synthesizer */ #define MM_MSFT_GENERIC_AUX_LINE 28 /* MS Vanilla driver aux (line in) */ #define MM_MSFT_GENERIC_AUX_MIC 29 /* MS Vanilla driver aux (mic) */ #define MM_MSFT_GENERIC_AUX_CD 30 /* MS Vanilla driver aux (CD) */ #define MM_MSFT_WSS_OEM_MIXER 31 /* MS OEM Audio Board Mixer Driver */ #define MM_MSFT_MSACM 32 /* MS Audio Compression Manager */ #define MM_MSFT_ACM_MSADPCM 33 /* MS ADPCM Codec */ #define MM_MSFT_ACM_IMAADPCM 34 /* IMA ADPCM Codec */ #define MM_MSFT_ACM_MSFILTER 35 /* MS Filter */ #define MM_MSFT_ACM_GSM610 36 /* GSM 610 codec */ #define MM_MSFT_ACM_G711 37 /* G.711 codec */ #define MM_MSFT_ACM_PCM 38 /* PCM converter */ // Microsoft Windows Sound System drivers #define MM_WSS_SB16_WAVEIN 39 /* Sound Blaster 16 waveform input */ #define MM_WSS_SB16_WAVEOUT 40 /* Sound Blaster 16 waveform output */ #define MM_WSS_SB16_MIDIIN 41 /* Sound Blaster 16 midi-in */ #define MM_WSS_SB16_MIDIOUT 42 /* Sound Blaster 16 midi out */ #define MM_WSS_SB16_SYNTH 43 /* Sound Blaster 16 FM Synthesis */ #define MM_WSS_SB16_AUX_LINE 44 /* Sound Blaster 16 aux (line in) */ #define MM_WSS_SB16_AUX_CD 45 /* Sound Blaster 16 aux (CD) */ #define MM_WSS_SB16_MIXER 46 /* Sound Blaster 16 mixer device */ #define MM_WSS_SBPRO_WAVEIN 47 /* Sound Blaster Pro waveform input */ #define MM_WSS_SBPRO_WAVEOUT 48 /* Sound Blaster Pro waveform output */ #define MM_WSS_SBPRO_MIDIIN 49 /* Sound Blaster Pro midi in */ #define MM_WSS_SBPRO_MIDIOUT 50 /* Sound Blaster Pro midi out */ #define MM_WSS_SBPRO_SYNTH 51 /* Sound Blaster Pro FM synthesis */ #define MM_WSS_SBPRO_AUX_LINE 52 /* Sound Blaster Pro aux (line in ) */ #define MM_WSS_SBPRO_AUX_CD 53 /* Sound Blaster Pro aux (CD) */ #define MM_WSS_SBPRO_MIXER 54 /* Sound Blaster Pro mixer */ #define MM_MSFT_WSS_NT_WAVEIN 55 /* WSS NT wave in */ #define MM_MSFT_WSS_NT_WAVEOUT 56 /* WSS NT wave out */ #define MM_MSFT_WSS_NT_FMSYNTH_STEREO 57 /* WSS NT FM synth */ #define MM_MSFT_WSS_NT_MIXER 58 /* WSS NT mixer */ #define MM_MSFT_WSS_NT_AUX 59 /* WSS NT aux */ #define MM_MSFT_SB16_WAVEIN 60 /* Sound Blaster 16 waveform input */ #define MM_MSFT_SB16_WAVEOUT 61 /* Sound Blaster 16 waveform output */ #define MM_MSFT_SB16_MIDIIN 62 /* Sound Blaster 16 midi-in */ #define MM_MSFT_SB16_MIDIOUT 63 /* Sound Blaster 16 midi out */ #define MM_MSFT_SB16_SYNTH 64 /* Sound Blaster 16 FM Synthesis */ #define MM_MSFT_SB16_AUX_LINE 65 /* Sound Blaster 16 aux (line in) */ #define MM_MSFT_SB16_AUX_CD 66 /* Sound Blaster 16 aux (CD) */ #define MM_MSFT_SB16_MIXER 67 /* Sound Blaster 16 mixer device */ #define MM_MSFT_SBPRO_WAVEIN 68 /* Sound Blaster Pro waveform input */ #define MM_MSFT_SBPRO_WAVEOUT 69 /* Sound Blaster Pro waveform output */ #define MM_MSFT_SBPRO_MIDIIN 70 /* Sound Blaster Pro midi in */ #define MM_MSFT_SBPRO_MIDIOUT 71 /* Sound Blaster Pro midi out */ #define MM_MSFT_SBPRO_SYNTH 72 /* Sound Blaster Pro FM synthesis */ #define MM_MSFT_SBPRO_AUX_LINE 73 /* Sound Blaster Pro aux (line in ) */ #define MM_MSFT_SBPRO_AUX_CD 74 /* Sound Blaster Pro aux (CD) */ #define MM_MSFT_SBPRO_MIXER 75 /* Sound Blaster Pro mixer */ #define MM_MSFT_MSOPL_SYNTH 76 /* Yamaha OPL2/OPL3 compatible FM synthesis */ /* MM_CREATIVE product IDs */ #define MM_CREATIVE_SB15_WAVEIN 1 /* SB (r) 1.5 waveform input */ #define MM_CREATIVE_SB20_WAVEIN 2 #define MM_CREATIVE_SBPRO_WAVEIN 3 #define MM_CREATIVE_SBP16_WAVEIN 4 #define MM_CREATIVE_SB15_WAVEOUT 101 #define MM_CREATIVE_SB20_WAVEOUT 102 #define MM_CREATIVE_SBPRO_WAVEOUT 103 #define MM_CREATIVE_SBP16_WAVEOUT 104 #define MM_CREATIVE_MIDIOUT 201 /* SB (r) */ #define MM_CREATIVE_MIDIIN 202 /* SB (r) */ #define MM_CREATIVE_FMSYNTH_MONO 301 /* SB (r) */ #define MM_CREATIVE_FMSYNTH_STEREO 302 /* SB Pro (r) stereo synthesizer */ #define MM_CREATIVE_MIDI_AWE32 303 #define MM_CREATIVE_AUX_CD 401 /* SB Pro (r) aux (CD) */ #define MM_CREATIVE_AUX_LINE 402 /* SB Pro (r) aux (Line in ) */ #define MM_CREATIVE_AUX_MIC 403 /* SB Pro (r) aux (mic) */ #define MM_CREATIVE_AUX_MASTER 404 #define MM_CREATIVE_AUX_PCSPK 405 #define MM_CREATIVE_AUX_WAVE 406 #define MM_CREATIVE_AUX_MIDI 407 #define MM_CREATIVE_SBPRO_MIXER 408 #define MM_CREATIVE_SB16_MIXER 409 /* MM_MEDIAVISION product IDs */ // Pro Audio Spectrum #define MM_MEDIAVISION_PROAUDIO 0x10 #define MM_PROAUD_MIDIOUT (MM_MEDIAVISION_PROAUDIO+1) #define MM_PROAUD_MIDIIN (MM_MEDIAVISION_PROAUDIO+2) #define MM_PROAUD_SYNTH (MM_MEDIAVISION_PROAUDIO+3) #define MM_PROAUD_WAVEOUT (MM_MEDIAVISION_PROAUDIO+4) #define MM_PROAUD_WAVEIN (MM_MEDIAVISION_PROAUDIO+5) #define MM_PROAUD_MIXER (MM_MEDIAVISION_PROAUDIO+6) #define MM_PROAUD_AUX (MM_MEDIAVISION_PROAUDIO+7) // Thunder Board #define MM_MEDIAVISION_THUNDER 0x20 #define MM_THUNDER_SYNTH (MM_MEDIAVISION_THUNDER+3) #define MM_THUNDER_WAVEOUT (MM_MEDIAVISION_THUNDER+4) #define MM_THUNDER_WAVEIN (MM_MEDIAVISION_THUNDER+5) #define MM_THUNDER_AUX (MM_MEDIAVISION_THUNDER+7) // Audio Port #define MM_MEDIAVISION_TPORT 0x40 #define MM_TPORT_WAVEOUT (MM_MEDIAVISION_TPORT+1) #define MM_TPORT_WAVEIN (MM_MEDIAVISION_TPORT+2) #define MM_TPORT_SYNTH (MM_MEDIAVISION_TPORT+3) // Pro Audio Spectrum Plus #define MM_MEDIAVISION_PROAUDIO_PLUS 0x50 #define MM_PROAUD_PLUS_MIDIOUT (MM_MEDIAVISION_PROAUDIO_PLUS+1) #define MM_PROAUD_PLUS_MIDIIN (MM_MEDIAVISION_PROAUDIO_PLUS+2) #define MM_PROAUD_PLUS_SYNTH (MM_MEDIAVISION_PROAUDIO_PLUS+3) #define MM_PROAUD_PLUS_WAVEOUT (MM_MEDIAVISION_PROAUDIO_PLUS+4) #define MM_PROAUD_PLUS_WAVEIN (MM_MEDIAVISION_PROAUDIO_PLUS+5) #define MM_PROAUD_PLUS_MIXER (MM_MEDIAVISION_PROAUDIO_PLUS+6) #define MM_PROAUD_PLUS_AUX (MM_MEDIAVISION_PROAUDIO_PLUS+7) // Pro Audio Spectrum 16 #define MM_MEDIAVISION_PROAUDIO_16 0x60 #define MM_PROAUD_16_MIDIOUT (MM_MEDIAVISION_PROAUDIO_16+1) #define MM_PROAUD_16_MIDIIN (MM_MEDIAVISION_PROAUDIO_16+2) #define MM_PROAUD_16_SYNTH (MM_MEDIAVISION_PROAUDIO_16+3) #define MM_PROAUD_16_WAVEOUT (MM_MEDIAVISION_PROAUDIO_16+4) #define MM_PROAUD_16_WAVEIN (MM_MEDIAVISION_PROAUDIO_16+5) #define MM_PROAUD_16_MIXER (MM_MEDIAVISION_PROAUDIO_16+6) #define MM_PROAUD_16_AUX (MM_MEDIAVISION_PROAUDIO_16+7) // Pro Audio Studio 16 #define MM_MEDIAVISION_PROSTUDIO_16 0x60 #define MM_STUDIO_16_MIDIOUT (MM_MEDIAVISION_PROSTUDIO_16+1) #define MM_STUDIO_16_MIDIIN (MM_MEDIAVISION_PROSTUDIO_16+2) #define MM_STUDIO_16_SYNTH (MM_MEDIAVISION_PROSTUDIO_16+3) #define MM_STUDIO_16_WAVEOUT (MM_MEDIAVISION_PROSTUDIO_16+4) #define MM_STUDIO_16_WAVEIN (MM_MEDIAVISION_PROSTUDIO_16+5) #define MM_STUDIO_16_MIXER (MM_MEDIAVISION_PROSTUDIO_16+6) #define MM_STUDIO_16_AUX (MM_MEDIAVISION_PROSTUDIO_16+7) // CDPC #define MM_MEDIAVISION_CDPC 0x70 #define MM_CDPC_MIDIOUT (MM_MEDIAVISION_CDPC+1) #define MM_CDPC_MIDIIN (MM_MEDIAVISION_CDPC+2) #define MM_CDPC_SYNTH (MM_MEDIAVISION_CDPC+3) #define MM_CDPC_WAVEOUT (MM_MEDIAVISION_CDPC+4) #define MM_CDPC_WAVEIN (MM_MEDIAVISION_CDPC+5) #define MM_CDPC_MIXER (MM_MEDIAVISION_CDPC+6) #define MM_CDPC_AUX (MM_MEDIAVISION_CDPC+7) // Opus MV 1208 Chipsent #define MM_MEDIAVISION_OPUS1208 0x80 #define MM_OPUS401_MIDIOUT (MM_MEDIAVISION_OPUS1208+1) #define MM_OPUS401_MIDIIN (MM_MEDIAVISION_OPUS1208+2) #define MM_OPUS1208_SYNTH (MM_MEDIAVISION_OPUS1208+3) #define MM_OPUS1208_WAVEOUT (MM_MEDIAVISION_OPUS1208+4) #define MM_OPUS1208_WAVEIN (MM_MEDIAVISION_OPUS1208+5) #define MM_OPUS1208_MIXER (MM_MEDIAVISION_OPUS1208+6) #define MM_OPUS1208_AUX (MM_MEDIAVISION_OPUS1208+7) // Opus MV 1216 chipset #define MM_MEDIAVISION_OPUS1216 0x90 #define MM_OPUS1216_MIDIOUT (MM_MEDIAVISION_OPUS1216+1) #define MM_OPUS1216_MIDIIN (MM_MEDIAVISION_OPUS1216+2) #define MM_OPUS1216_SYNTH (MM_MEDIAVISION_OPUS1216+3) #define MM_OPUS1216_WAVEOUT (MM_MEDIAVISION_OPUS1216+4) #define MM_OPUS1216_WAVEIN (MM_MEDIAVISION_OPUS1216+5) #define MM_OPUS1216_MIXER (MM_MEDIAVISION_OPUS1216+6) #define MM_OPUS1216_AUX (MM_MEDIAVISION_OPUS1216+7) /* MM_ARTISOFT product IDs */ #define MM_ARTISOFT_SBWAVEIN 1 /* Artisoft sounding Board waveform input */ #define MM_ARTISOFT_SBWAVEOUT 2 /* Artisoft sounding Board waveform output */ /* MM_IBM product IDs */ #define MM_MMOTION_WAVEAUX 1 /* IBM M-Motion Auxiliary Device */ #define MM_MMOTION_WAVEOUT 2 /* IBM M-Motion Waveform output */ #define MM_MMOTION_WAVEIN 3 /* IBM M-Motion Waveform Input */ #define MM_IBM_PCMCIA_WAVEIN 11 /* IBM waveform input */ #define MM_IBM_PCMCIA_WAVEOUT 12 /* IBM Waveform output */ #define MM_IBM_PCMCIA_SYNTH 13 /* IBM Midi Synthesis */ #define MM_IBM_PCMCIA_MIDIIN 14 /* IBM external MIDI in */ #define MM_IBM_PCMCIA_MIDIOUT 15 /* IBM external MIDI out */ #define MM_IBM_PCMCIA_AUX 16 /* IBM auxiliary control */ /* MM_VOCALTEC product IDs */ #define MM_VOCALTEC_WAVEOUT 1 #define MM_VOCALTEC_WAVEIN 2 /* MM_ROLAND product IDs */ #define MM_ROLAND_MPU401_MIDIOUT 15 #define MM_ROLAND_MPU401_MIDIIN 16 #define MM_ROLAND_SMPU_MIDIOUTA 17 #define MM_ROLAND_SMPU_MIDIOUTB 18 #define MM_ROLAND_SMPU_MIDIINA 19 #define MM_ROLAND_SMPU_MIDIINB 20 #define MM_ROLAND_SC7_MIDIOUT 21 #define MM_ROLAND_SC7_MIDIIN 22 #define MM_ROLAND_SERIAL_MIDIOUT 23 #define MM_ROLAND_SERIAL_MIDIIN 24 /* MM_DSP_SOLUTIONS product IDs */ #define MM_DSP_SOLUTIONS_WAVEOUT 1 #define MM_DSP_SOLUTIONS_WAVEIN 2 #define MM_DSP_SOLUTIONS_SYNTH 3 #define MM_DSP_SOLUTIONS_AUX 4 /* MM_WANGLABS product IDs */ #define MM_WANGLABS_WAVEIN1 1 /* Input audio wave on CPU board models: Exec 4010, 4030, 3450; PC 251/25c, pc 461/25s , pc 461/33c */ #define MM_WANGLABS_WAVEOUT1 2 /* MM_TANDY product IDs */ #define MM_TANDY_VISWAVEIN 1 #define MM_TANDY_VISWAVEOUT 2 #define MM_TANDY_VISBIOSSYNTH 3 #define MM_TANDY_SENS_MMAWAVEIN 4 #define MM_TANDY_SENS_MMAWAVEOUT 5 #define MM_TANDY_SENS_MMAMIDIIN 6 #define MM_TANDY_SENS_MMAMIDIOUT 7 #define MM_TANDY_SENS_VISWAVEOUT 8 #define MM_TANDY_PSSJWAVEIN 9 #define MM_TANDY_PSSJWAVEOUT 10 /* product IDs */ #define MM_INTELOPD_WAVEIN 1 /* HID2 WaveAudio Driver */ #define MM_INTELOPD_WAVEOUT 101 /* HID2 */ #define MM_INTELOPD_AUX 401 /* HID2 for mixing */ /* MM_INTERACTIVE product IDs */ #define MM_INTERACTIVE_WAVEIN 0x45 #define MM_INTERACTIVE_WAVEOUT 0x45 /* MM_YAMAHA product IDs */ #define MM_YAMAHA_GSS_SYNTH 0x01 #define MM_YAMAHA_GSS_WAVEOUT 0x02 #define MM_YAMAHA_GSS_WAVEIN 0x03 #define MM_YAMAHA_GSS_MIDIOUT 0x04 #define MM_YAMAHA_GSS_MIDIIN 0x05 #define MM_YAMAHA_GSS_AUX 0x06 /* MM_EVEREX product IDs */ #define MM_EVEREX_CARRIER 0x01 /* MM_ECHO product IDs */ #define MM_ECHO_SYNTH 0x01 #define MM_ECHO_WAVEOUT 0x02 #define MM_ECHO_WAVEIN 0x03 #define MM_ECHO_MIDIOUT 0x04 #define MM_ECHO_MIDIIN 0x05 #define MM_ECHO_AUX 0x06 /* MM_SIERRA product IDs */ #define MM_SIERRA_ARIA_MIDIOUT 0x14 #define MM_SIERRA_ARIA_MIDIIN 0x15 #define MM_SIERRA_ARIA_SYNTH 0x16 #define MM_SIERRA_ARIA_WAVEOUT 0x17 #define MM_SIERRA_ARIA_WAVEIN 0x18 #define MM_SIERRA_ARIA_AUX 0x19 #define MM_SIERRA_ARIA_AUX2 0x20 /* MM_CAT product IDs */ #define MM_CAT_WAVEOUT 1 /* MM_DSP_GROUP product IDs */ #define MM_DSP_GROUP_TRUESPEECH 0x01 /* MM_MELABS product IDs */ #define MM_MELABS_MIDI2GO 0x01 /* MM_ESS product IDs */ #define MM_ESS_AMWAVEOUT 0x01 #define MM_ESS_AMWAVEIN 0x02 #define MM_ESS_AMAUX 0x03 #define MM_ESS_AMSYNTH 0x04 #define MM_ESS_AMMIDIOUT 0x05 #define MM_ESS_AMMIDIIN 0x06 #define MM_ESS_MIXER 0x07 #define MM_ESS_AUX_CD 0x08 #define MM_ESS_MPU401_MIDIOUT 0x09 #define MM_ESS_MPU401_MIDIIN 0x0A #define MM_ESS_ES488_WAVEOUT 0x10 #define MM_ESS_ES488_WAVEIN 0x11 #define MM_ESS_ES488_MIXER 0x12 #define MM_ESS_ES688_WAVEOUT 0x13 #define MM_ESS_ES688_WAVEIN 0x14 #define MM_ESS_ES688_MIXER 0x15 #define MM_ESS_ES1488_WAVEOUT 0x16 #define MM_ESS_ES1488_WAVEIN 0x17 #define MM_ESS_ES1488_MIXER 0x18 #define MM_ESS_ES1688_WAVEOUT 0x19 #define MM_ESS_ES1688_WAVEIN 0x1A #define MM_ESS_ES1688_MIXER 0x1B /* product IDs */ #define MM_EPS_FMSND 1 /* MM_TRUEVISION product IDs */ #define MM_TRUEVISION_WAVEIN1 1 #define MM_TRUEVISION_WAVEOUT1 2 /* MM_AZTECH product IDs */ #define MM_AZTECH_MIDIOUT 3 #define MM_AZTECH_MIDIIN 4 #define MM_AZTECH_WAVEIN 17 #define MM_AZTECH_WAVEOUT 18 #define MM_AZTECH_FMSYNTH 20 #define MM_AZTECH_MIXER 21 #define MM_AZTECH_PRO16_WAVEIN 33 #define MM_AZTECH_PRO16_WAVEOUT 34 #define MM_AZTECH_PRO16_FMSYNTH 38 #define MM_AZTECH_DSP16_WAVEIN 65 #define MM_AZTECH_DSP16_WAVEOUT 66 #define MM_AZTECH_DSP16_FMSYNTH 68 #define MM_AZTECH_DSP16_WAVESYNTH 70 #define MM_AZTECH_AUX_CD 401 #define MM_AZTECH_AUX_LINE 402 #define MM_AZTECH_AUX_MIC 403 #define MM_AZTECH_AUX 404 #define MM_AZTECH_NOVA16_WAVEIN 71 #define MM_AZTECH_NOVA16_WAVEOUT 72 #define MM_AZTECH_NOVA16_MIXER 73 #define MM_AZTECH_WASH16_WAVEIN 74 #define MM_AZTECH_WASH16_WAVEOUT 75 #define MM_AZTECH_WASH16_MIXER 76 /* MM_VIDEOLOGIC product IDs */ #define MM_VIDEOLOGIC_MSWAVEIN 1 #define MM_VIDEOLOGIC_MSWAVEOUT 2 /* MM_KORG product IDs */ #define MM_KORG_PCIF_MIDIOUT 1 #define MM_KORG_PCIF_MIDIIN 2 /* MM_APT product IDs */ #define MM_APT_ACE100CD 1 /* MM_ICS product IDs */ #define MM_ICS_WAVEDECK_WAVEOUT 1 /* MS WSS compatible card and driver */ #define MM_ICS_WAVEDECK_WAVEIN 2 #define MM_ICS_WAVEDECK_MIXER 3 #define MM_ICS_WAVEDECK_AUX 4 #define MM_ICS_WAVEDECK_SYNTH 5 /* MM_ITERATEDSYS product IDs */ #define MM_ITERATEDSYS_FUFCODEC 1 /* MM_METHEUS product IDs */ #define MM_METHEUS_ZIPPER 1 /* MM_WINNOV product IDs */ #define MM_WINNOV_CAVIAR_WAVEIN 1 #define MM_WINNOV_CAVIAR_WAVEOUT 2 #define MM_WINNOV_CAVIAR_VIDC 3 #define MM_WINNOV_CAVIAR_CHAMPAGNE 4 /* Fourcc is CHAM */ #define MM_WINNOV_CAVIAR_YUV8 5 /* Fourcc is YUV8 */ /* MM_NCR product IDs */ #define MM_NCR_BA_WAVEIN 1 #define MM_NCR_BA_WAVEOUT 2 #define MM_NCR_BA_SYNTH 3 #define MM_NCR_BA_AUX 4 #define MM_NCR_BA_MIXER 5 /* MM_VITEC product IDs */ #define MM_VITEC_VMAKER 1 #define MM_VITEC_VMPRO 2 /* MM_MOSCOM product IDs */ #define MM_MOSCOM_VPC2400 1 /* Four Port Voice Processing / Voice Recognition Board */ /* MM_SILICONSOFT product IDs */ #define MM_SILICONSOFT_SC1_WAVEIN 1 /* Waveform in , high sample rate */ #define MM_SILICONSOFT_SC1_WAVEOUT 2 /* Waveform out , high sample rate */ #define MM_SILICONSOFT_SC2_WAVEIN 3 /* Waveform in 2 channels, high sample rate */ #define MM_SILICONSOFT_SC2_WAVEOUT 4 /* Waveform out 2 channels, high sample rate */ #define MM_SILICONSOFT_SOUNDJR2_WAVEOUT 5 /* Waveform out, self powered, efficient */ #define MM_SILICONSOFT_SOUNDJR2PR_WAVEIN 6 /* Waveform in, self powered, efficient */ #define MM_SILICONSOFT_SOUNDJR2PR_WAVEOUT 7 /* Waveform out 2 channels, self powered, efficient */ #define MM_SILICONSOFT_SOUNDJR3_WAVEOUT 8 /* Waveform in 2 channels, self powered, efficient */ /* MM_OLIVETTI product IDs */ #define MM_OLIVETTI_WAVEIN 1 #define MM_OLIVETTI_WAVEOUT 2 #define MM_OLIVETTI_MIXER 3 #define MM_OLIVETTI_AUX 4 #define MM_OLIVETTI_MIDIIN 5 #define MM_OLIVETTI_MIDIOUT 6 #define MM_OLIVETTI_SYNTH 7 #define MM_OLIVETTI_JOYSTICK 8 #define MM_OLIVETTI_ACM_GSM 9 #define MM_OLIVETTI_ACM_ADPCM 10 #define MM_OLIVETTI_ACM_CELP 11 #define MM_OLIVETTI_ACM_SBC 12 #define MM_OLIVETTI_ACM_OPR 13 /* MM_IOMAGIC product IDs */ /* The I/O Magic Tempo is a PCMCIA Type 2 audio card featuring wave audio record and playback, FM synthesizer, and MIDI output. The I/O Magic Tempo WaveOut device supports mono and stereo PCM playback at rates of 7350, 11025, 22050, and 44100 samples */ #define MM_IOMAGIC_TEMPO_WAVEOUT 1 #define MM_IOMAGIC_TEMPO_WAVEIN 2 #define MM_IOMAGIC_TEMPO_SYNTH 3 #define MM_IOMAGIC_TEMPO_MIDIOUT 4 #define MM_IOMAGIC_TEMPO_MXDOUT 5 #define MM_IOMAGIC_TEMPO_AUXOUT 6 /* MM_MATSUSHITA product IDs */ #define MM_MATSUSHITA_WAVEIN 1 #define MM_MATSUSHITA_WAVEOUT 2 #define MM_MATSUSHITA_FMSYNTH_STEREO 3 #define MM_MATSUSHITA_MIXER 4 #define MM_MATSUSHITA_AUX 5 /* MM_NEWMEDIA product IDs */ #define MM_NEWMEDIA_WAVJAMMER 1 /* WSS Compatible sound card. */ /* MM_LYRRUS product IDs */ /* Bridge is a MIDI driver that allows the the Lyrrus G-VOX hardware to communicate with Windows base transcription and sequencer applications. The driver also provides a mechanism for the user to configure the system to their personal playing style. */ #define MM_LYRRUS_BRIDGE_GUITAR 1 /* MM_OPTI product IDs */ #define MM_OPTI_M16_FMSYNTH_STEREO 0x0001 #define MM_OPTI_M16_MIDIIN 0x0002 #define MM_OPTI_M16_MIDIOUT 0x0003 #define MM_OPTI_M16_WAVEIN 0x0004 #define MM_OPTI_M16_WAVEOUT 0x0005 #define MM_OPTI_M16_MIXER 0x0006 #define MM_OPTI_M16_AUX 0x0007 #define MM_OPTI_P16_FMSYNTH_STEREO 0x0010 #define MM_OPTI_P16_MIDIIN 0x0011 #define MM_OPTI_P16_MIDIOUT 0x0012 #define MM_OPTI_P16_WAVEIN 0x0013 #define MM_OPTI_P16_WAVEOUT 0x0014 #define MM_OPTI_P16_MIXER 0x0015 #define MM_OPTI_P16_AUX 0x0016 #define MM_OPTI_M32_WAVEIN 0x0020 #define MM_OPTI_M32_WAVEOUT 0x0021 #define MM_OPTI_M32_MIDIIN 0x0022 #define MM_OPTI_M32_MIDIOUT 0x0023 #define MM_OPTI_M32_SYNTH_STEREO 0x0024 #define MM_OPTI_M32_MIXER 0x0025 #define MM_OPTI_M32_AUX 0x0026 #endif // !NOMMIDS /*////////////////////////////////////////////////////////////////////////// */ /* INFO LIST CHUNKS (from the Multimedia Programmer's Reference plus new ones) */ #define RIFFINFO_IARL mmioFOURCC ('I', 'A', 'R', 'L') /*Archival location */ #define RIFFINFO_IART mmioFOURCC ('I', 'A', 'R', 'T') /*Artist */ #define RIFFINFO_ICMS mmioFOURCC ('I', 'C', 'M', 'S') /*Commissioned */ #define RIFFINFO_ICMT mmioFOURCC ('I', 'C', 'M', 'T') /*Comments */ #define RIFFINFO_ICOP mmioFOURCC ('I', 'C', 'O', 'P') /*Copyright */ #define RIFFINFO_ICRD mmioFOURCC ('I', 'C', 'R', 'D') /*Creation date of subject */ #define RIFFINFO_ICRP mmioFOURCC ('I', 'C', 'R', 'P') /*Cropped */ #define RIFFINFO_IDIM mmioFOURCC ('I', 'D', 'I', 'M') /*Dimensions */ #define RIFFINFO_IDPI mmioFOURCC ('I', 'D', 'P', 'I') /*Dots per inch */ #define RIFFINFO_IENG mmioFOURCC ('I', 'E', 'N', 'G') /*Engineer */ #define RIFFINFO_IGNR mmioFOURCC ('I', 'G', 'N', 'R') /*Genre */ #define RIFFINFO_IKEY mmioFOURCC ('I', 'K', 'E', 'Y') /*Keywords */ #define RIFFINFO_ILGT mmioFOURCC ('I', 'L', 'G', 'T') /*Lightness settings */ #define RIFFINFO_IMED mmioFOURCC ('I', 'M', 'E', 'D') /*Medium */ #define RIFFINFO_INAM mmioFOURCC ('I', 'N', 'A', 'M') /*Name of subject */ #define RIFFINFO_IPLT mmioFOURCC ('I', 'P', 'L', 'T') /*Palette Settings. No. of colors requested. */ #define RIFFINFO_IPRD mmioFOURCC ('I', 'P', 'R', 'D') /*Product */ #define RIFFINFO_ISBJ mmioFOURCC ('I', 'S', 'B', 'J') /*Subject description */ #define RIFFINFO_ISFT mmioFOURCC ('I', 'S', 'F', 'T') /*Software. Name of package used to create file. */ #define RIFFINFO_ISHP mmioFOURCC ('I', 'S', 'H', 'P') /*Sharpness. */ #define RIFFINFO_ISRC mmioFOURCC ('I', 'S', 'R', 'C') /*Source. */ #define RIFFINFO_ISRF mmioFOURCC ('I', 'S', 'R', 'F') /*Source Form. ie slide, paper */ #define RIFFINFO_ITCH mmioFOURCC ('I', 'T', 'C', 'H') /*Technician who digitized the subject. */ /* New INFO Chunks as of August 30, 1993: */ #define RIFFINFO_ISMP mmioFOURCC ('I', 'S', 'M', 'P') /*SMPTE time code */ /* ISMP: SMPTE time code of digitization start point expressed as a NULL terminated text string "HH:MM:SS:FF". If performing MCI capture in AVICAP, this chunk will be automatically set based on the MCI start time. */ #define RIFFINFO_IDIT mmioFOURCC ('I', 'D', 'I', 'T') /*Digitization Time */ /* IDIT: "Digitization Time" Specifies the time and date that the digitization commenced. The digitization time is contained in an ASCII string which contains exactly 26 characters and is in the format "Wed Jan 02 02:03:55 1990\n\0". The ctime(), asctime(), functions can be used to create strings in this format. This chunk is automatically added to the capture file based on the current system time at the moment capture is initiated. */ /*Template line for new additions*/ /*#define RIFFINFO_I mmioFOURCC ('I', '', '', '') */ /*/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////*/ #ifndef NONEWWAVE /* WAVE form wFormatTag IDs */ #define WAVE_FORMAT_UNKNOWN 0x0000 /* Microsoft Corporation */ #define WAVE_FORMAT_ADPCM 0x0002 /* Microsoft Corporation */ #define WAVE_FORMAT_IBM_CVSD 0x0005 /* IBM Corporation */ #define WAVE_FORMAT_ALAW 0x0006 /* Microsoft Corporation */ #define WAVE_FORMAT_MULAW 0x0007 /* Microsoft Corporation */ #define WAVE_FORMAT_OKI_ADPCM 0x0010 /* OKI */ #define WAVE_FORMAT_DVI_ADPCM 0x0011 /* Intel Corporation */ #define WAVE_FORMAT_IMA_ADPCM (WAVE_FORMAT_DVI_ADPCM) /* Intel Corporation */ #define WAVE_FORMAT_MEDIASPACE_ADPCM 0x0012 /* Videologic */ #define WAVE_FORMAT_SIERRA_ADPCM 0x0013 /* Sierra Semiconductor Corp */ #define WAVE_FORMAT_G723_ADPCM 0x0014 /* Antex Electronics Corporation */ #define WAVE_FORMAT_DIGISTD 0x0015 /* DSP Solutions, Inc. */ #define WAVE_FORMAT_DIGIFIX 0x0016 /* DSP Solutions, Inc. */ #define WAVE_FORMAT_DIALOGIC_OKI_ADPCM 0x0017 /* Dialogic Corporation */ #define WAVE_FORMAT_YAMAHA_ADPCM 0x0020 /* Yamaha Corporation of America */ #define WAVE_FORMAT_SONARC 0x0021 /* Speech Compression */ #define WAVE_FORMAT_DSPGROUP_TRUESPEECH 0x0022 /* DSP Group, Inc */ #define WAVE_FORMAT_ECHOSC1 0x0023 /* Echo Speech Corporation */ #define WAVE_FORMAT_AUDIOFILE_AF36 0x0024 /* */ #define WAVE_FORMAT_APTX 0x0025 /* Audio Processing Technology */ #define WAVE_FORMAT_AUDIOFILE_AF10 0x0026 /* */ #define WAVE_FORMAT_DOLBY_AC2 0x0030 /* Dolby Laboratories */ #define WAVE_FORMAT_GSM610 0x0031 /* Microsoft Corporation */ #define WAVE_FORMAT_ANTEX_ADPCME 0x0033 /* Antex Electronics Corporation */ #define WAVE_FORMAT_CONTROL_RES_VQLPC 0x0034 /* Control Resources Limited */ #define WAVE_FORMAT_DIGIREAL 0x0035 /* DSP Solutions, Inc. */ #define WAVE_FORMAT_DIGIADPCM 0x0036 /* DSP Solutions, Inc. */ #define WAVE_FORMAT_CONTROL_RES_CR10 0x0037 /* Control Resources Limited */ #define WAVE_FORMAT_NMS_VBXADPCM 0x0038 /* Natural MicroSystems */ #define WAVE_FORMAT_CS_IMAADPCM 0x0039 /* Crystal Semiconductor IMA ADPCM */ #define WAVE_FORMAT_G721_ADPCM 0x0040 /* Antex Electronics Corporation */ #define WAVE_FORMAT_MPEG 0x0050 /* Microsoft Corporation */ #define WAVE_FORMAT_CREATIVE_ADPCM 0x0200 /* Creative Labs, Inc */ #define WAVE_FORMAT_CREATIVE_FASTSPEECH8 0x0202 /* Creative Labs, Inc */ #define WAVE_FORMAT_CREATIVE_FASTSPEECH10 0x0203 /* Creative Labs, Inc */ #define WAVE_FORMAT_FM_TOWNS_SND 0x0300 /* Fujitsu Corp. */ #define WAVE_FORMAT_OLIGSM 0x1000 /* Ing C. Olivetti & C., S.p.A. */ #define WAVE_FORMAT_OLIADPCM 0x1001 /* Ing C. Olivetti & C., S.p.A. */ #define WAVE_FORMAT_OLICELP 0x1002 /* Ing C. Olivetti & C., S.p.A. */ #define WAVE_FORMAT_OLISBC 0x1003 /* Ing C. Olivetti & C., S.p.A. */ #define WAVE_FORMAT_OLIOPR 0x1004 /* Ing C. Olivetti & C., S.p.A. */ // // the WAVE_FORMAT_DEVELOPMENT format tag can be used during the // development phase of a new wave format. Before shipping, you MUST // acquire an official format tag from Microsoft. // #define WAVE_FORMAT_DEVELOPMENT (0xFFFF) #endif /* NONEWWAVE */ #ifndef WAVE_FORMAT_PCM /* general waveform format structure (information common to all formats) */ typedef struct waveformat_tag { WORD wFormatTag; /* format type */ WORD nChannels; /* number of channels (i.e. mono, stereo...) */ DWORD nSamplesPerSec; /* sample rate */ DWORD nAvgBytesPerSec; /* for buffer estimation */ WORD nBlockAlign; /* block size of data */ } WAVEFORMAT; typedef WAVEFORMAT *PWAVEFORMAT; typedef WAVEFORMAT NEAR *NPWAVEFORMAT; typedef WAVEFORMAT FAR *LPWAVEFORMAT; /* flags for wFormatTag field of WAVEFORMAT */ #define WAVE_FORMAT_PCM 1 /* specific waveform format structure for PCM data */ typedef struct pcmwaveformat_tag { WAVEFORMAT wf; WORD wBitsPerSample; } PCMWAVEFORMAT; typedef PCMWAVEFORMAT *PPCMWAVEFORMAT; typedef PCMWAVEFORMAT NEAR *NPPCMWAVEFORMAT; typedef PCMWAVEFORMAT FAR *LPPCMWAVEFORMAT; #endif /* WAVE_FORMAT_PCM */ /* general extended waveform format structure Use this for all NON PCM formats (information common to all formats) */ #ifndef _WAVEFORMATEX_ #define _WAVEFORMATEX_ typedef struct tWAVEFORMATEX { WORD wFormatTag; /* format type */ WORD nChannels; /* number of channels (i.e. mono, stereo...) */ DWORD nSamplesPerSec; /* sample rate */ DWORD nAvgBytesPerSec; /* for buffer estimation */ WORD nBlockAlign; /* block size of data */ WORD wBitsPerSample; /* Number of bits per sample of mono data */ WORD cbSize; /* The count in bytes of the size of extra information (after cbSize) */ } WAVEFORMATEX; typedef WAVEFORMATEX *PWAVEFORMATEX; typedef WAVEFORMATEX NEAR *NPWAVEFORMATEX; typedef WAVEFORMATEX FAR *LPWAVEFORMATEX; #endif /* _WAVEFORMATEX_ */ #ifndef NONEWWAVE /* Define data for MS ADPCM */ typedef struct adpcmcoef_tag { short iCoef1; short iCoef2; } ADPCMCOEFSET; typedef ADPCMCOEFSET *PADPCMCOEFSET; typedef ADPCMCOEFSET NEAR *NPADPCMCOEFSET; typedef ADPCMCOEFSET FAR *LPADPCMCOEFSET; /* * this pragma disables the warning issued by the Microsoft C compiler * when using a zero size array as place holder when compiling for * C++ or with -W4. * */ #ifdef _MSC_VER #pragma warning(disable:4200) #endif typedef struct adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; WORD wNumCoef; ADPCMCOEFSET aCoef[]; } ADPCMWAVEFORMAT; typedef ADPCMWAVEFORMAT *PADPCMWAVEFORMAT; typedef ADPCMWAVEFORMAT NEAR *NPADPCMWAVEFORMAT; typedef ADPCMWAVEFORMAT FAR *LPADPCMWAVEFORMAT; #ifdef _MSC_VER #pragma warning(default:4200) #endif // // Intel's DVI ADPCM structure definitions // // for WAVE_FORMAT_DVI_ADPCM (0x0011) // // typedef struct dvi_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } DVIADPCMWAVEFORMAT; typedef DVIADPCMWAVEFORMAT *PDVIADPCMWAVEFORMAT; typedef DVIADPCMWAVEFORMAT NEAR *NPDVIADPCMWAVEFORMAT; typedef DVIADPCMWAVEFORMAT FAR *LPDVIADPCMWAVEFORMAT; // // IMA endorsed ADPCM structure definitions--note that this is exactly // the same format as Intel's DVI ADPCM. // // for WAVE_FORMAT_IMA_ADPCM (0x0011) // // typedef struct ima_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } IMAADPCMWAVEFORMAT; typedef IMAADPCMWAVEFORMAT *PIMAADPCMWAVEFORMAT; typedef IMAADPCMWAVEFORMAT NEAR *NPIMAADPCMWAVEFORMAT; typedef IMAADPCMWAVEFORMAT FAR *LPIMAADPCMWAVEFORMAT; /* //VideoLogic's Media Space ADPCM Structure definitions // for WAVE_FORMAT_MEDIASPACE_ADPCM (0x0012) // // */ typedef struct mediaspace_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD wRevision; } MEDIASPACEADPCMWAVEFORMAT; typedef MEDIASPACEADPCMWAVEFORMAT *PMEDIASPACEADPCMWAVEFORMAT; typedef MEDIASPACEADPCMWAVEFORMAT NEAR *NPMEDIASPACEADPCMWAVEFORMAT; typedef MEDIASPACEADPCMWAVEFORMAT FAR *LPMEDIASPACEADPCMWAVEFORMAT; // // Sierra Semiconductor // // for WAVE_FORMAT_SIERRA_ADPCM (0x0013) // // typedef struct sierra_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD wRevision; } SIERRAADPCMWAVEFORMAT; typedef SIERRAADPCMWAVEFORMAT *PSIERRAADPCMWAVEFORMAT; typedef SIERRAADPCMWAVEFORMAT NEAR *NPSIERRAADPCMWAVEFORMAT; typedef SIERRAADPCMWAVEFORMAT FAR *LPSIERRAADPCMWAVEFORMAT; // // Antex Electronics structure definitions // // for WAVE_FORMAT_G723_ADPCM (0x0014) // // typedef struct g723_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD cbExtraSize; WORD nAuxBlockSize; } G723_ADPCMWAVEFORMAT; typedef G723_ADPCMWAVEFORMAT *PG723_ADPCMWAVEFORMAT; typedef G723_ADPCMWAVEFORMAT NEAR *NPG723_ADPCMWAVEFORMAT; typedef G723_ADPCMWAVEFORMAT FAR *LPG723_ADPCMWAVEFORMAT; // // DSP Solutions (formerly DIGISPEECH) structure definitions // // for WAVE_FORMAT_DIGISTD (0x0015) // // typedef struct digistdwaveformat_tag { WAVEFORMATEX wfx; } DIGISTDWAVEFORMAT; typedef DIGISTDWAVEFORMAT *PDIGISTDWAVEFORMAT; typedef DIGISTDWAVEFORMAT NEAR *NPDIGISTDWAVEFORMAT; typedef DIGISTDWAVEFORMAT FAR *LPDIGISTDWAVEFORMAT; // // DSP Solutions (formerly DIGISPEECH) structure definitions // // for WAVE_FORMAT_DIGIFIX (0x0016) // // typedef struct digifixwaveformat_tag { WAVEFORMATEX wfx; } DIGIFIXWAVEFORMAT; typedef DIGIFIXWAVEFORMAT *PDIGIFIXWAVEFORMAT; typedef DIGIFIXWAVEFORMAT NEAR *NPDIGIFIXWAVEFORMAT; typedef DIGIFIXWAVEFORMAT FAR *LPDIGIFIXWAVEFORMAT; // // Dialogic Corporation // WAVEFORMAT_DIALOGIC_OKI_ADPCM (0x0017) // typedef struct creative_fastspeechformat_tag{ WAVEFORMATEX ewf; }DIALOGICOKIADPCMWAVEFORMAT; typedef DIALOGICOKIADPCMWAVEFORMAT *PDIALOGICOKIADPCMWAVEFORMAT; typedef DIALOGICOKIADPCMWAVEFORMAT NEAR *NPDIALOGICOKIADPCMWAVEFORMAT; typedef DIALOGICOKIADPCMWAVEFORMAT FAR *LPDIALOGICOKIADPCMWAVEFORMAT; // // Yamaha Compression's ADPCM structure definitions // // for WAVE_FORMAT_YAMAHA_ADPCM (0x0020) // // typedef struct yamaha_adpmcwaveformat_tag { WAVEFORMATEX wfx; } YAMAHA_ADPCMWAVEFORMAT; typedef YAMAHA_ADPCMWAVEFORMAT *PYAMAHA_ADPCMWAVEFORMAT; typedef YAMAHA_ADPCMWAVEFORMAT NEAR *NPYAMAHA_ADPCMWAVEFORMAT; typedef YAMAHA_ADPCMWAVEFORMAT FAR *LPYAMAHA_ADPCMWAVEFORMAT; // // Speech Compression's Sonarc structure definitions // // for WAVE_FORMAT_SONARC (0x0021) // // typedef struct sonarcwaveformat_tag { WAVEFORMATEX wfx; WORD wCompType; } SONARCWAVEFORMAT; typedef SONARCWAVEFORMAT *PSONARCWAVEFORMAT; typedef SONARCWAVEFORMAT NEAR *NPSONARCWAVEFORMAT; typedef SONARCWAVEFORMAT FAR *LPSONARCWAVEFORMAT; // // DSP Groups's TRUESPEECH structure definitions // // for WAVE_FORMAT_DSPGROUP_TRUESPEECH (0x0022) // // typedef struct truespeechwaveformat_tag { WAVEFORMATEX wfx; WORD wRevision; WORD nSamplesPerBlock; BYTE abReserved[28]; } TRUESPEECHWAVEFORMAT; typedef TRUESPEECHWAVEFORMAT *PTRUESPEECHWAVEFORMAT; typedef TRUESPEECHWAVEFORMAT NEAR *NPTRUESPEECHWAVEFORMAT; typedef TRUESPEECHWAVEFORMAT FAR *LPTRUESPEECHWAVEFORMAT; // // Echo Speech Corp structure definitions // // for WAVE_FORMAT_ECHOSC1 (0x0023) // // typedef struct echosc1waveformat_tag { WAVEFORMATEX wfx; } ECHOSC1WAVEFORMAT; typedef ECHOSC1WAVEFORMAT *PECHOSC1WAVEFORMAT; typedef ECHOSC1WAVEFORMAT NEAR *NPECHOSC1WAVEFORMAT; typedef ECHOSC1WAVEFORMAT FAR *LPECHOSC1WAVEFORMAT; // // Audiofile Inc.structure definitions // // for WAVE_FORMAT_AUDIOFILE_AF36 (0x0024) // // typedef struct audiofile_af36waveformat_tag { WAVEFORMATEX wfx; } AUDIOFILE_AF36WAVEFORMAT; typedef AUDIOFILE_AF36WAVEFORMAT *PAUDIOFILE_AF36WAVEFORMAT; typedef AUDIOFILE_AF36WAVEFORMAT NEAR *NPAUDIOFILE_AF36WAVEFORMAT; typedef AUDIOFILE_AF36WAVEFORMAT FAR *LPAUDIOFILE_AF36WAVEFORMAT; // // Audio Processing Technology structure definitions // // for WAVE_FORMAT_APTX (0x0025) // // typedef struct aptxwaveformat_tag { WAVEFORMATEX wfx; } APTXWAVEFORMAT; typedef APTXWAVEFORMAT *PAPTXWAVEFORMAT; typedef APTXWAVEFORMAT NEAR *NPAPTXWAVEFORMAT; typedef APTXWAVEFORMAT FAR *LPAPTXWAVEFORMAT; // // Audiofile Inc.structure definitions // // for WAVE_FORMAT_AUDIOFILE_AF10 (0x0026) // // typedef struct audiofile_af10waveformat_tag { WAVEFORMATEX wfx; } AUDIOFILE_AF10WAVEFORMAT; typedef AUDIOFILE_AF10WAVEFORMAT *PAUDIOFILE_AF10WAVEFORMAT; typedef AUDIOFILE_AF10WAVEFORMAT NEAR *NPAUDIOFILE_AF10WAVEFORMAT; typedef AUDIOFILE_AF10WAVEFORMAT FAR *LPAUDIOFILE_AF10WAVEFORMAT; // /* Dolby's AC-2 wave format structure definition WAVE_FORMAT_DOLBY_AC2 (0x0030)*/ // typedef struct dolbyac2waveformat_tag { WAVEFORMATEX wfx; WORD nAuxBitsCode; } DOLBYAC2WAVEFORMAT; /*Microsoft's */ // WAVE_FORMAT_GSM 610 0x0031 // typedef struct gsm610waveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } GSM610WAVEFORMAT; typedef GSM610WAVEFORMAT *PGSM610WAVEFORMAT; typedef GSM610WAVEFORMAT NEAR *NPGSM610WAVEFORMAT; typedef GSM610WAVEFORMAT FAR *LPGSM610WAVEFORMAT; // // Antex Electronics Corp // // for WAVE_FORMAT_ADPCME (0x0033) // // typedef struct adpcmewaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } ADPCMEWAVEFORMAT; typedef ADPCMEWAVEFORMAT *PADPCMEWAVEFORMAT; typedef ADPCMEWAVEFORMAT NEAR *NPADPCMEWAVEFORMAT; typedef ADPCMEWAVEFORMAT FAR *LPADPCMEWAVEFORMAT; /* Control Resources Limited */ // WAVE_FORMAT_CONTROL_RES_VQLPC 0x0034 // typedef struct contres_vqlpcwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } CONTRESVQLPCWAVEFORMAT; typedef CONTRESVQLPCWAVEFORMAT *PCONTRESVQLPCWAVEFORMAT; typedef CONTRESVQLPCWAVEFORMAT NEAR *NPCONTRESVQLPCWAVEFORMAT; typedef CONTRESVQLPCWAVEFORMAT FAR *LPCONTRESVQLPCWAVEFORMAT; // // // // for WAVE_FORMAT_DIGIREAL (0x0035) // // typedef struct digirealwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } DIGIREALWAVEFORMAT; typedef DIGIREALWAVEFORMAT *PDIGIREALWAVEFORMAT; typedef DIGIREALWAVEFORMAT NEAR *NPDIGIREALWAVEFORMAT; typedef DIGIREALWAVEFORMAT FAR *LPDIGIREALWAVEFORMAT; // // DSP Solutions // // for WAVE_FORMAT_DIGIADPCM (0x0036) // // typedef struct digiadpcmmwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } DIGIADPCMWAVEFORMAT; typedef DIGIADPCMWAVEFORMAT *PDIGIADPCMWAVEFORMAT; typedef DIGIADPCMWAVEFORMAT NEAR *NPDIGIADPCMWAVEFORMAT; typedef DIGIADPCMWAVEFORMAT FAR *LPDIGIADPCMWAVEFORMAT; /* Control Resources Limited */ // WAVE_FORMAT_CONTROL_RES_CR10 0x0037 // typedef struct contres_cr10waveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } CONTRESCR10WAVEFORMAT; typedef CONTRESCR10WAVEFORMAT *PCONTRESCR10WAVEFORMAT; typedef CONTRESCR10WAVEFORMAT NEAR *NPCONTRESCR10WAVEFORMAT; typedef CONTRESCR10WAVEFORMAT FAR *LPCONTRESCR10WAVEFORMAT; // // Natural Microsystems // // for WAVE_FORMAT_NMS_VBXADPCM (0x0038) // // typedef struct nms_vbxadpcmmwaveformat_tag { WAVEFORMATEX wfx; WORD wSamplesPerBlock; } NMS_VBXADPCMWAVEFORMAT; typedef NMS_VBXADPCMWAVEFORMAT *PNMS_VBXADPCMWAVEFORMAT; typedef NMS_VBXADPCMWAVEFORMAT NEAR *NPNMS_VBXADPCMWAVEFORMAT; typedef NMS_VBXADPCMWAVEFORMAT FAR *LPNMS_VBXADPCMWAVEFORMAT; // // Antex Electronics structure definitions // // for WAVE_FORMAT_G721_ADPCM (0x0040) // // typedef struct g721_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD nAuxBlockSize; } G721_ADPCMWAVEFORMAT; typedef G721_ADPCMWAVEFORMAT *PG721_ADPCMWAVEFORMAT; typedef G721_ADPCMWAVEFORMAT NEAR *NPG721_ADPCMWAVEFORMAT; typedef G721_ADPCMWAVEFORMAT FAR *LPG721_ADPCMWAVEFORMAT; // // // Microsoft MPEG audio WAV definition // /* MPEG-1 audio wave format (audio layer only). (0x0050) */ typedef struct mpeg1waveformat_tag { WAVEFORMATEX wfx; WORD fwHeadLayer; DWORD dwHeadBitrate; WORD fwHeadMode; WORD fwHeadModeExt; WORD wHeadEmphasis; WORD fwHeadFlags; DWORD dwPTSLow; DWORD dwPTSHigh; } MPEG1WAVEFORMAT; typedef MPEG1WAVEFORMAT *PMPEG1WAVEFORMAT; typedef MPEG1WAVEFORMAT NEAR *NPMPEG1WAVEFORMAT; typedef MPEG1WAVEFORMAT FAR *LPMPEG1WAVEFORMAT; #define ACM_MPEG_LAYER1 (0x0001) #define ACM_MPEG_LAYER2 (0x0002) #define ACM_MPEG_LAYER3 (0x0004) #define ACM_MPEG_STEREO (0x0001) #define ACM_MPEG_JOINTSTEREO (0x0002) #define ACM_MPEG_DUALCHANNEL (0x0004) #define ACM_MPEG_SINGLECHANNEL (0x0008) #define ACM_MPEG_PRIVATEBIT (0x0001) #define ACM_MPEG_COPYRIGHT (0x0002) #define ACM_MPEG_ORIGINALHOME (0x0004) #define ACM_MPEG_PROTECTIONBIT (0x0008) #define ACM_MPEG_ID_MPEG1 (0x0010) // // Creative's ADPCM structure definitions // // for WAVE_FORMAT_CREATIVE_ADPCM (0x0200) // // typedef struct creative_adpcmwaveformat_tag { WAVEFORMATEX wfx; WORD wRevision; } CREATIVEADPCMWAVEFORMAT; typedef CREATIVEADPCMWAVEFORMAT *PCREATIVEADPCMWAVEFORMAT; typedef CREATIVEADPCMWAVEFORMAT NEAR *NPCREATIVEADPCMWAVEFORMAT; typedef CREATIVEADPCMWAVEFORMAT FAR *LPCREATIVEADPCMWAVEFORMAT; // // Creative FASTSPEECH // WAVEFORMAT_CREATIVE_FASTSPEECH8 (0x0202) // typedef struct creative_fastspeech8format_tag { WAVEFORMATEX wfx; WORD wRevision; } CREATIVEFASTSPEECH8WAVEFORMAT; typedef CREATIVEFASTSPEECH8WAVEFORMAT *PCREATIVEFASTSPEECH8WAVEFORMAT; typedef CREATIVEFASTSPEECH8WAVEFORMAT NEAR *NPCREATIVEFASTSPEECH8WAVEFORMAT; typedef CREATIVEFASTSPEECH8WAVEFORMAT FAR *LPCREATIVEFASTSPEECH8WAVEFORMAT; // // Creative FASTSPEECH // WAVEFORMAT_CREATIVE_FASTSPEECH10 (0x0203) // typedef struct creative_fastspeech10format_tag { WAVEFORMATEX wfx; WORD wRevision; } CREATIVEFASTSPEECH10WAVEFORMAT; typedef CREATIVEFASTSPEECH10WAVEFORMAT *PCREATIVEFASTSPEECH10WAVEFORMAT; typedef CREATIVEFASTSPEECH10WAVEFORMAT NEAR *NPCREATIVEFASTSPEECH10WAVEFORMAT; typedef CREATIVEFASTSPEECH10WAVEFORMAT FAR *LPCREATIVEFASTSPEECH10WAVEFORMAT; // // Fujitsu FM Towns 'SND' structure // // for WAVE_FORMAT_FMMTOWNS_SND (0x0300) // // typedef struct fmtowns_snd_waveformat_tag { WAVEFORMATEX wfx; WORD wRevision; } FMTOWNS_SND_WAVEFORMAT; typedef FMTOWNS_SND_WAVEFORMAT *PFMTOWNS_SND_WAVEFORMAT; typedef FMTOWNS_SND_WAVEFORMAT NEAR *NPFMTOWNS_SND_WAVEFORMAT; typedef FMTOWNS_SND_WAVEFORMAT FAR *LPFMTOWNS_SND_WAVEFORMAT; // // Olivetti structure // // for WAVE_FORMAT_OLIGSM (0x1000) // // typedef struct oligsmwaveformat_tag { WAVEFORMATEX wfx; } OLIGSMWAVEFORMAT; typedef OLIGSMWAVEFORMAT *POLIGSMWAVEFORMAT; typedef OLIGSMWAVEFORMAT NEAR *NPOLIGSMWAVEFORMAT; typedef OLIGSMWAVEFORMAT FAR *LPOLIGSMWAVEFORMAT; // // Olivetti structure // // for WAVE_FORMAT_OLIADPCM (0x1001) // // typedef struct oliadpcmwaveformat_tag { WAVEFORMATEX wfx; } OLIADPCMWAVEFORMAT; typedef OLIADPCMWAVEFORMAT *POLIADPCMWAVEFORMAT; typedef OLIADPCMWAVEFORMAT NEAR *NPOLIADPCMWAVEFORMAT ; typedef OLIADPCMWAVEFORMAT FAR *LPOLIADPCMWAVEFORMAT; // // Olivetti structure // // for WAVE_FORMAT_OLICELP (0x1002) // // typedef struct olicelpwaveformat_tag { WAVEFORMATEX wfx; } OLICELPWAVEFORMAT; typedef OLICELPWAVEFORMAT *POLICELPWAVEFORMAT; typedef OLICELPWAVEFORMAT NEAR *NPOLICELPWAVEFORMAT ; typedef OLICELPWAVEFORMAT FAR *LPOLICELPWAVEFORMAT; // // Olivetti structure // // for WAVE_FORMAT_OLISBC (0x1003) // // typedef struct olisbcwaveformat_tag { WAVEFORMATEX wfx; } OLISBCWAVEFORMAT; typedef OLISBCWAVEFORMAT *POLISBCWAVEFORMAT; typedef OLISBCWAVEFORMAT NEAR *NPOLISBCWAVEFORMAT ; typedef OLISBCWAVEFORMAT FAR *LPOLISBCWAVEFORMAT; // // Olivetti structure // // for WAVE_FORMAT_OLIOPR (0x1004) // // typedef struct olioprwaveformat_tag { WAVEFORMATEX wfx; } OLIOPRWAVEFORMAT; typedef OLIOPRWAVEFORMAT *POLIOPRWAVEFORMAT; typedef OLIOPRWAVEFORMAT NEAR *NPOLIOPRWAVEFORMAT ; typedef OLIOPRWAVEFORMAT FAR *LPOLIOPRWAVEFORMAT; // // Crystal Semiconductor IMA ADPCM format // // for WAVE_FORMAT_CS_IMAADPCM (0x0039) // // typedef struct csimaadpcmwaveformat_tag { WAVEFORMATEX wfx; } CSIMAADPCMWAVEFORMAT; typedef CSIMAADPCMWAVEFORMAT *PCSIMAADPCMWAVEFORMAT; typedef CSIMAADPCMWAVEFORMAT NEAR *NPCSIMAADPCMWAVEFORMAT ; typedef CSIMAADPCMWAVEFORMAT FAR *LPCSIMAADPCMWAVEFORMAT; //==========================================================================; // // ACM Wave Filters // // //==========================================================================; #ifndef _ACM_WAVEFILTER #define _ACM_WAVEFILTER #define WAVE_FILTER_UNKNOWN 0x0000 #define WAVE_FILTER_DEVELOPMENT (0xFFFF) typedef struct wavefilter_tag { DWORD cbStruct; /* Size of the filter in bytes */ DWORD dwFilterTag; /* filter type */ DWORD fdwFilter; /* Flags for the filter (Universal Dfns) */ DWORD dwReserved[5]; /* Reserved for system use */ } WAVEFILTER; typedef WAVEFILTER *PWAVEFILTER; typedef WAVEFILTER NEAR *NPWAVEFILTER; typedef WAVEFILTER FAR *LPWAVEFILTER; #endif /* _ACM_WAVEFILTER */ #ifndef WAVE_FILTER_VOLUME #define WAVE_FILTER_VOLUME 0x0001 typedef struct wavefilter_volume_tag { WAVEFILTER wfltr; DWORD dwVolume; } VOLUMEWAVEFILTER; typedef VOLUMEWAVEFILTER *PVOLUMEWAVEFILTER; typedef VOLUMEWAVEFILTER NEAR *NPVOLUMEWAVEFILTER; typedef VOLUMEWAVEFILTER FAR *LPVOLUMEWAVEFILTER; #endif /* WAVE_FILTER_VOLUME */ #ifndef WAVE_FILTER_ECHO #define WAVE_FILTER_ECHO 0x0002 typedef struct wavefilter_echo_tag { WAVEFILTER wfltr; DWORD dwVolume; DWORD dwDelay; } ECHOWAVEFILTER; typedef ECHOWAVEFILTER *PECHOWAVEFILTER; typedef ECHOWAVEFILTER NEAR *NPECHOWAVEFILTER; typedef ECHOWAVEFILTER FAR *LPECHOWAVEFILTER; #endif /* WAVEFILTER_ECHO */ /*////////////////////////////////////////////////////////////////////////// // // New RIFF WAVE Chunks // */ #define RIFFWAVE_inst mmioFOURCC('i','n','s','t') struct tag_s_RIFFWAVE_inst { BYTE bUnshiftedNote; char chFineTune; char chGain; BYTE bLowNote; BYTE bHighNote; BYTE bLowVelocity; BYTE bHighVelocity; }; typedef struct tag_s_RIFFWAVE_INST s_RIFFWAVE_inst; #endif /*////////////////////////////////////////////////////////////////////////// // // New RIFF Forms // */ #ifndef NONEWRIFF /* RIFF AVI */ // // AVI file format is specified in a seperate file (AVIFMT.H), // which is available in the VfW and Win 32 SDK // /* RIFF CPPO */ #define RIFFCPPO mmioFOURCC('C','P','P','O') #define RIFFCPPO_objr mmioFOURCC('o','b','j','r') #define RIFFCPPO_obji mmioFOURCC('o','b','j','i') #define RIFFCPPO_clsr mmioFOURCC('c','l','s','r') #define RIFFCPPO_clsi mmioFOURCC('c','l','s','i') #define RIFFCPPO_mbr mmioFOURCC('m','b','r',' ') #define RIFFCPPO_char mmioFOURCC('c','h','a','r') #define RIFFCPPO_byte mmioFOURCC('b','y','t','e') #define RIFFCPPO_int mmioFOURCC('i','n','t',' ') #define RIFFCPPO_word mmioFOURCC('w','o','r','d') #define RIFFCPPO_long mmioFOURCC('l','o','n','g') #define RIFFCPPO_dwrd mmioFOURCC('d','w','r','d') #define RIFFCPPO_flt mmioFOURCC('f','l','t',' ') #define RIFFCPPO_dbl mmioFOURCC('d','b','l',' ') #define RIFFCPPO_str mmioFOURCC('s','t','r',' ') #endif /* ////////////////////////////////////////////////////////////////////////// // // DIB Compression Defines // */ #ifndef BI_BITFIELDS #define BI_BITFIELDS 3 #endif #ifndef QUERYDIBSUPPORT #define QUERYDIBSUPPORT 3073 #define QDI_SETDIBITS 0x0001 #define QDI_GETDIBITS 0x0002 #define QDI_DIBTOSCREEN 0x0004 #define QDI_STRETCHDIB 0x0008 #endif #ifndef NOBITMAP /* Structure definitions */ typedef struct tagEXBMINFOHEADER { BITMAPINFOHEADER bmi; /* extended BITMAPINFOHEADER fields */ DWORD biExtDataOffset; /* Other stuff will go here */ /* ... */ /* Format-specific information */ /* biExtDataOffset points here */ } EXBMINFOHEADER; #endif //NOBITMAP /* New DIB Compression Defines */ #define BICOMP_IBMULTIMOTION mmioFOURCC('U', 'L', 'T', 'I') #define BICOMP_IBMPHOTOMOTION mmioFOURCC('P', 'H', 'M', 'O') #define BICOMP_CREATIVEYUV mmioFOURCC('c', 'y', 'u', 'v') #ifndef NOJPEGDIB /* New DIB Compression Defines */ #define JPEG_DIB mmioFOURCC('J','P','E','G') /* Still image JPEG DIB biCompression */ #define MJPG_DIB mmioFOURCC('M','J','P','G') /* Motion JPEG DIB biCompression */ /* JPEGProcess Definitions */ #define JPEG_PROCESS_BASELINE 0 /* Baseline DCT */ /* AVI File format extensions */ #define AVIIF_CONTROLFRAME 0x00000200L /* This is a control frame */ /* JIF Marker byte pairs in JPEG Interchange Format sequence */ #define JIFMK_SOF0 0xFFC0 /* SOF Huff - Baseline DCT*/ #define JIFMK_SOF1 0xFFC1 /* SOF Huff - Extended sequential DCT*/ #define JIFMK_SOF2 0xFFC2 /* SOF Huff - Progressive DCT*/ #define JIFMK_SOF3 0xFFC3 /* SOF Huff - Spatial (sequential) lossless*/ #define JIFMK_SOF5 0xFFC5 /* SOF Huff - Differential sequential DCT*/ #define JIFMK_SOF6 0xFFC6 /* SOF Huff - Differential progressive DCT*/ #define JIFMK_SOF7 0xFFC7 /* SOF Huff - Differential spatial*/ #define JIFMK_JPG 0xFFC8 /* SOF Arith - Reserved for JPEG extensions*/ #define JIFMK_SOF9 0xFFC9 /* SOF Arith - Extended sequential DCT*/ #define JIFMK_SOF10 0xFFCA /* SOF Arith - Progressive DCT*/ #define JIFMK_SOF11 0xFFCB /* SOF Arith - Spatial (sequential) lossless*/ #define JIFMK_SOF13 0xFFCD /* SOF Arith - Differential sequential DCT*/ #define JIFMK_SOF14 0xFFCE /* SOF Arith - Differential progressive DCT*/ #define JIFMK_SOF15 0xFFCF /* SOF Arith - Differential spatial*/ #define JIFMK_DHT 0xFFC4 /* Define Huffman Table(s) */ #define JIFMK_DAC 0xFFCC /* Define Arithmetic coding conditioning(s) */ #define JIFMK_RST0 0xFFD0 /* Restart with modulo 8 count 0 */ #define JIFMK_RST1 0xFFD1 /* Restart with modulo 8 count 1 */ #define JIFMK_RST2 0xFFD2 /* Restart with modulo 8 count 2 */ #define JIFMK_RST3 0xFFD3 /* Restart with modulo 8 count 3 */ #define JIFMK_RST4 0xFFD4 /* Restart with modulo 8 count 4 */ #define JIFMK_RST5 0xFFD5 /* Restart with modulo 8 count 5 */ #define JIFMK_RST6 0xFFD6 /* Restart with modulo 8 count 6 */ #define JIFMK_RST7 0xFFD7 /* Restart with modulo 8 count 7 */ #define JIFMK_SOI 0xFFD8 /* Start of Image */ #define JIFMK_EOI 0xFFD9 /* End of Image */ #define JIFMK_SOS 0xFFDA /* Start of Scan */ #define JIFMK_DQT 0xFFDB /* Define quantization Table(s) */ #define JIFMK_DNL 0xFFDC /* Define Number of Lines */ #define JIFMK_DRI 0xFFDD /* Define Restart Interval */ #define JIFMK_DHP 0xFFDE /* Define Hierarchical progression */ #define JIFMK_EXP 0xFFDF /* Expand Reference Component(s) */ #define JIFMK_APP0 0xFFE0 /* Application Field 0*/ #define JIFMK_APP1 0xFFE1 /* Application Field 1*/ #define JIFMK_APP2 0xFFE2 /* Application Field 2*/ #define JIFMK_APP3 0xFFE3 /* Application Field 3*/ #define JIFMK_APP4 0xFFE4 /* Application Field 4*/ #define JIFMK_APP5 0xFFE5 /* Application Field 5*/ #define JIFMK_APP6 0xFFE6 /* Application Field 6*/ #define JIFMK_APP7 0xFFE7 /* Application Field 7*/ #define JIFMK_JPG0 0xFFF0 /* Reserved for JPEG extensions */ #define JIFMK_JPG1 0xFFF1 /* Reserved for JPEG extensions */ #define JIFMK_JPG2 0xFFF2 /* Reserved for JPEG extensions */ #define JIFMK_JPG3 0xFFF3 /* Reserved for JPEG extensions */ #define JIFMK_JPG4 0xFFF4 /* Reserved for JPEG extensions */ #define JIFMK_JPG5 0xFFF5 /* Reserved for JPEG extensions */ #define JIFMK_JPG6 0xFFF6 /* Reserved for JPEG extensions */ #define JIFMK_JPG7 0xFFF7 /* Reserved for JPEG extensions */ #define JIFMK_JPG8 0xFFF8 /* Reserved for JPEG extensions */ #define JIFMK_JPG9 0xFFF9 /* Reserved for JPEG extensions */ #define JIFMK_JPG10 0xFFFA /* Reserved for JPEG extensions */ #define JIFMK_JPG11 0xFFFB /* Reserved for JPEG extensions */ #define JIFMK_JPG12 0xFFFC /* Reserved for JPEG extensions */ #define JIFMK_JPG13 0xFFFD /* Reserved for JPEG extensions */ #define JIFMK_COM 0xFFFE /* Comment */ #define JIFMK_TEM 0xFF01 /* for temp private use arith code */ #define JIFMK_RES 0xFF02 /* Reserved */ #define JIFMK_00 0xFF00 /* Zero stuffed byte - entropy data */ #define JIFMK_FF 0xFFFF /* Fill byte */ /* JPEGColorSpaceID Definitions */ #define JPEG_Y 1 /* Y only component of YCbCr */ #define JPEG_YCbCr 2 /* YCbCr as define by CCIR 601 */ #define JPEG_RGB 3 /* 3 component RGB */ /* Structure definitions */ typedef struct tagJPEGINFOHEADER { /* compression-specific fields */ /* these fields are defined for 'JPEG' and 'MJPG' */ DWORD JPEGSize; DWORD JPEGProcess; /* Process specific fields */ DWORD JPEGColorSpaceID; DWORD JPEGBitsPerSample; DWORD JPEGHSubSampling; DWORD JPEGVSubSampling; } JPEGINFOHEADER; #ifdef MJPGDHTSEG_STORAGE /* Default DHT Segment */ MJPGHDTSEG_STORAGE BYTE MJPGDHTSeg[0x1A4] = { /* JPEG DHT Segment for YCrCb omitted from MJPG data */ 0xFF,0xC4,0x01,0xA2, 0x00,0x00,0x01,0x05,0x01,0x01,0x01,0x01,0x01,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0A,0x0B,0x01,0x00,0x03,0x01,0x01,0x01,0x01, 0x01,0x01,0x01,0x01,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07, 0x08,0x09,0x0A,0x0B,0x10,0x00,0x02,0x01,0x03,0x03,0x02,0x04,0x03,0x05,0x05,0x04,0x04,0x00, 0x00,0x01,0x7D,0x01,0x02,0x03,0x00,0x04,0x11,0x05,0x12,0x21,0x31,0x41,0x06,0x13,0x51,0x61, 0x07,0x22,0x71,0x14,0x32,0x81,0x91,0xA1,0x08,0x23,0x42,0xB1,0xC1,0x15,0x52,0xD1,0xF0,0x24, 0x33,0x62,0x72,0x82,0x09,0x0A,0x16,0x17,0x18,0x19,0x1A,0x25,0x26,0x27,0x28,0x29,0x2A,0x34, 0x35,0x36,0x37,0x38,0x39,0x3A,0x43,0x44,0x45,0x46,0x47,0x48,0x49,0x4A,0x53,0x54,0x55,0x56, 0x57,0x58,0x59,0x5A,0x63,0x64,0x65,0x66,0x67,0x68,0x69,0x6A,0x73,0x74,0x75,0x76,0x77,0x78, 0x79,0x7A,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99, 0x9A,0xA2,0xA3,0xA4,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9, 0xBA,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9, 0xDA,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7, 0xF8,0xF9,0xFA,0x11,0x00,0x02,0x01,0x02,0x04,0x04,0x03,0x04,0x07,0x05,0x04,0x04,0x00,0x01, 0x02,0x77,0x00,0x01,0x02,0x03,0x11,0x04,0x05,0x21,0x31,0x06,0x12,0x41,0x51,0x07,0x61,0x71, 0x13,0x22,0x32,0x81,0x08,0x14,0x42,0x91,0xA1,0xB1,0xC1,0x09,0x23,0x33,0x52,0xF0,0x15,0x62, 0x72,0xD1,0x0A,0x16,0x24,0x34,0xE1,0x25,0xF1,0x17,0x18,0x19,0x1A,0x26,0x27,0x28,0x29,0x2A, 0x35,0x36,0x37,0x38,0x39,0x3A,0x43,0x44,0x45,0x46,0x47,0x48,0x49,0x4A,0x53,0x54,0x55,0x56, 0x57,0x58,0x59,0x5A,0x63,0x64,0x65,0x66,0x67,0x68,0x69,0x6A,0x73,0x74,0x75,0x76,0x77,0x78, 0x79,0x7A,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x92,0x93,0x94,0x95,0x96,0x97,0x98, 0x99,0x9A,0xA2,0xA3,0xA4,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8, 0xB9,0xBA,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8, 0xD9,0xDA,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8, 0xF9,0xFA }; /* End DHT default */ #endif /* End JPEG */ #endif /*////////////////////////////////////////////////////////////////////////// // // Defined IC types */ #ifndef NONEWIC #ifndef ICTYPE_VIDEO #define ICTYPE_VIDEO mmioFOURCC('v', 'i', 'd', 'c') #define ICTYPE_AUDIO mmioFOURCC('a', 'u', 'd', 'c') #endif #endif /* // Misc. FOURCC registration */ /* Sierra Semiconductor: RDSP- Confidential RIFF file format // for the storage and downloading of DSP // code for Audio and communications devices. */ #define FOURCC_RDSP mmioFOURCC('R', 'D', 'S', 'P') #ifndef MMNOMIXER #define MIXERCONTROL_CONTROLTYPE_SRS_MTS (MIXERCONTROL_CONTROLTYPE_BOOLEAN + 6) #define MIXERCONTROL_CONTROLTYPE_SRS_ONOFF (MIXERCONTROL_CONTROLTYPE_BOOLEAN + 7) #define MIXERCONTROL_CONTROLTYPE_SRS_SYNTHSELECT (MIXERCONTROL_CONTROLTYPE_BOOLEAN + 8) #endif #ifndef RC_INVOKED #pragma pack() /* Revert to default packing */ //NT #include "poppack.h" /* Revert to default packing */ #endif /* RC_INVOKED */ #ifdef __cplusplus } /* End of extern "C" { */ #endif /* __cplusplus */ #endif /* _INC_MMREG */