[142] | 1 | /* $Id: midipars.cpp 147 2000-04-24 19:45:21Z sandervl $ */
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| 2 |
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| 3 | /* SCCSID = %W% %E% */
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| 4 | /****************************************************************************
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| 5 | * *
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| 6 | * Copyright (c) IBM Corporation 1994 - 1997. *
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| 7 | * *
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| 8 | * The following IBM OS/2 source code is provided to you solely for the *
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| 9 | * the purpose of assisting you in your development of OS/2 device drivers. *
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| 10 | * You may use this code in accordance with the IBM License Agreement *
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| 11 | * provided in the IBM Device Driver Source Kit for OS/2. *
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| 12 | * *
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| 13 | ****************************************************************************/
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| 14 | /**@internal %W%
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| 15 | * Midi parser - parses and interprets incoming Midi stream. Handles timing
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| 16 | * commands by adjusting MIDISTREAM::lwait variable. Handles MIDI channel
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| 17 | * and system commands by calls to MIDI hardware object that this stream is
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| 18 | * associated with.
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| 19 | * @version %I%
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| 20 | * @context
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| 21 | * Unless otherwise noted, all interfaces are Ring-0, 16-bit, kernel stack.
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| 22 | * @notes
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| 23 | * See midimsg.cpp file for description of the IBM Sysex command.
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| 24 | * @history
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| 25 | */
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| 26 |
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| 27 | #ifndef OS2_INCLUDED // Doesn't like being included twice.
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| 28 | extern "C" { // 16-bit header files are not C++ aware
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| 29 | #define INCL_NOPMAPI
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| 30 | #include <os2.h>
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| 31 | }
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| 32 | #endif // end OS2_INCLUDED
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| 33 |
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| 34 | #include <string.h> // _fmemcpy()
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| 35 | #include "midistrm.hpp" // Object definition MIDISTREAM
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| 36 | #include "midimsg.hpp" // Object definition
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| 37 |
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| 38 |
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| 39 | /**@internal parse
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| 40 | * Parse the next byte of the input stream. If we form a complete message,
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| 41 | * then dispatch the message for interpretation.
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| 42 | * @param MIDIBTE bInput - next byte in the input stream
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| 43 | * @return void
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| 44 | * @notes This function reads and updates many of the data members in the
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| 45 | * MIDISTREAM object. A few of the most pertinent ones are listed next.
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| 46 | * @notes reads/updates PARSER_STATE MIDISTREAM::state - current state of
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| 47 | * the parser.
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| 48 | * @notes reads/updates MIDIMSG MIDISTREAM::message - current message that
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| 49 | * we're assembling.
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| 50 | * @notes reads/updates MIDISTREAM::lwait variable, based on receipt of 0xF8
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| 51 | * timing pulses.
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| 52 | */
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| 53 | void MIDISTREAM::parse( MIDIBYTE bInput )
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| 54 | {
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| 55 | MIDIBYTETYPE eInputType; // 'bInput' status byte type.
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| 56 |
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| 57 | //--- Algorithm starts here. First check for 0xF8 status byte
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| 58 | // (timing pulse). If present, then process & return immediately.
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| 59 |
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| 60 | if (bInput == (MIDIBYTE) 0xF8) { // Timing Clock, return.
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| 61 | lWait += ulPerClock;
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| 62 | return;
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| 63 | }
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| 64 |
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| 65 | //--- Not a timing pulse, so continue parse of input stream based
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| 66 | // on state and input.
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| 67 |
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| 68 | eInputType = eMidiByteType( bInput );
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| 69 | // What class of bype did we get?
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| 70 | // Returns member of MBT_* enumerated type.
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| 71 | while (TRUE) {
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| 72 | switch ( state ) {
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| 73 | case S_Init:
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| 74 | message.clear();
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| 75 | message.addByte( bInput );
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| 76 | switch ( eInputType ) {
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| 77 | case MBT_ChannelStatus:
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| 78 | state = S_ChannelMsg;
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| 79 | break;
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| 80 | case MBT_Sysex:
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| 81 | state = S_SysexSignature;
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| 82 | break;
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| 83 | case MBT_SystemCommon:
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| 84 | if (bInput != MidiByte_EOX) { // We discard EOX's in Init state, such EOX's
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| 85 | // mark end of Sysex's that we don't do.
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| 86 | state = S_SystemCommon;
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| 87 | if ( message.isComplete() ) {
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| 88 | dispatch( message );
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| 89 | state = S_Init;
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| 90 | }
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| 91 | }
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| 92 | break;
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| 93 | case MBT_SystemRT: // Always 1 byte messgaes, handle immediately
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| 94 | dispatch( message ); // with no state change.
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| 95 | message.clear();
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| 96 | break;
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| 97 | case MBT_Data: // Discard input, no state change.
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| 98 | default:
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| 99 | break;
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| 100 | } // switch on midi byte type
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| 101 | return; // end S_Init state changes.
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| 102 |
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| 103 | case S_ChannelMsg:
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| 104 | // Currently parsing a channel message. Anything other than a data
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| 105 | // byte will reset us back into Init state. If we have a complete
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| 106 | // message, note that we save the status byte and then re-initialize
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| 107 | // the message with the same status byte. This implements the
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| 108 | // "Running Status" feature of the MIDI definition.
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| 109 |
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| 110 | if ( eInputType != MBT_Data ) {
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| 111 | state = S_Init; // Continue from top of loop
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| 112 | continue; // in S_Init state.
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| 113 | }
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| 114 | else { // Data byte, no state change.
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| 115 | message.addByte( bInput );
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| 116 | if ( message.isComplete() ) {
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| 117 | MIDIBYTE runningStatus = message[0];
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| 118 | dispatch( message );
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| 119 | message.clear();
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| 120 | message.addByte( runningStatus );
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| 121 | // Remain in "ChannelMsg" state.
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| 122 | }
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| 123 | return;
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| 124 | }
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| 125 |
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| 126 | case S_SysexSignature:
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| 127 | if ( eInputType != MBT_Data ) {
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| 128 | // We got a new status byte before receiving enough bytes to
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| 129 | // perform a check for the IBM signature.
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| 130 |
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| 131 | // Flush the message buffer out to the hardware object.
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| 132 | message.flush( (MIDIAUDIO*) pahw);
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| 133 |
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| 134 | // Return to S_Init state. If an EOX, write it out and
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| 135 | // start fresh with next byte; otherwise let's loop back
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| 136 | // and interpret this new status byte.
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| 137 | state = S_Init;
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| 138 | if ( bInput == MidiByte_EOX ) {
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| 139 | ((MIDIAUDIO*) pahw)->writeByte( MidiByte_EOX );
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| 140 | return;
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| 141 | }
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| 142 | else
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| 143 | continue; // Continue from top of loop with same input.
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| 144 | }
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| 145 | else { // Data byte, no state change.
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| 146 | message.addByte( bInput ); // Add byte message.
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| 147 | // If we've got the signature length, figure out if it's ours.
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| 148 | if ( message.length() >= IBMSysexSigLen ) {
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| 149 | if ( message.isIBMSignature() )
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| 150 | state = S_SysexIBM;
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| 151 | else {
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| 152 | // Not IBM Sysex, flush buffered message and change state.
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| 153 | message.flush((MIDIAUDIO*) pahw);
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| 154 | state = S_SysexNotIBM;
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| 155 | }
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| 156 | }
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| 157 | return;
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| 158 | }
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| 159 |
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| 160 | case S_SysexIBM:
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| 161 | // We enter this state after recognizing the IBM Sysex in the message.
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| 162 | if ( eInputType != MBT_Data ) { // Not a data byte?
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| 163 | state = S_Init; // Discard buffered msg, reset to Init state
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| 164 | continue; // and continue from top of loop.
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| 165 | }
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| 166 | message.addByte( bInput ); // Add byte to message.
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| 167 | if (message.isUnsupported()) {
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| 168 | // We haven't implemented this IBM Sysex...
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| 169 | state = S_Init;
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| 170 | return;
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| 171 | }
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| 172 | else if (message.isComplete()) {
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| 173 | // If we've got all the bytes...
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| 174 | dispatch( message ); // Interpret the message
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| 175 | state = S_Init; // Back to Init state.
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| 176 | }
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| 177 | return;
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| 178 |
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| 179 | case S_SysexNotIBM:
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| 180 | // Passthru bytes until we hit a status byte.
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| 181 | if ( eInputType == MBT_Data ) {
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| 182 | ((MIDIAUDIO*) pahw)->writeByte( bInput );
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| 183 | return; // No state change.
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| 184 | }
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| 185 | else if ( bInput == MidiByte_EOX ) {
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| 186 | ((MIDIAUDIO*) pahw)->writeByte( MidiByte_EOX );
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| 187 | state = S_Init;
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| 188 | return; // Sysex completed, start from S_Init when next byte arrives.
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| 189 | }
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| 190 | else { // Unexpected status byte.
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| 191 | state = S_Init; // Continue from top of loop
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| 192 | continue; // in S_Init state.
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| 193 | }
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| 194 |
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| 195 | } // switch (state)
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| 196 | } // while TRUE
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| 197 | }
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| 198 |
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| 199 |
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| 200 | /**@internal dispatch
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| 201 | * Dispatch the MIDI message to the appropriate MIDI hw object.
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| 202 | * @param MIDIMESSAGE message - a complete, well formed MIDI message.
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| 203 | * @return void
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| 204 | * @notes reads/updates MIDISTREAM::lwait variable, based on time
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| 205 | * compression commands.
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| 206 | * @notes Non-IBM Sysex messages are not handled. The parser handles
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| 207 | * these as soon as the non-IBM Sysex is recognized, by passing thru
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| 208 | * the bytes directly to the hardware object.
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| 209 | */
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| 210 | void MIDISTREAM::dispatch( MIDIMSG& message )
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| 211 | {
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| 212 | MIDIBYTE statusByte = message[0];
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| 213 | MIDIBYTE cmdByte; // Used only for Sysex case.
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| 214 | MIDIBYTETYPE statusType = eMidiByteType( statusByte );
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| 215 | BYTE mchan; // MIDI channel for Channel cmds.
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| 216 |
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| 217 | switch( statusType ) {
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| 218 | case MBT_ChannelStatus :
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| 219 | mchan = statusByte & (BYTE) 0x0F;
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| 220 | switch( statusByte & (BYTE) 0xF0 ) {
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| 221 |
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| 222 | case 0x80: // Note Off
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| 223 | ((MIDIAUDIO*) pahw)->noteOff( mchan, message[1], message[2] );
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| 224 | _notesOn[ (USHORT) message[1] ] &= ~(_usBitNumber[ mchan ]);
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| 225 | break;
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| 226 |
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| 227 | case 0x90: // Note On
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| 228 | ((MIDIAUDIO*) pahw)->noteOn( mchan, message[1], message[2] );
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| 229 | _notesOn[ (USHORT) message[1] ] |= _usBitNumber[ mchan ];
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| 230 | break;
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| 231 |
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| 232 | case 0xA0: // Polyphonic Key Pressure (Aftertouch)
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| 233 | ((MIDIAUDIO*) pahw)->polyphonicPressure( mchan, message[1], message[2] );
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| 234 | break;
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| 235 |
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| 236 | case 0xB0: // Control Change
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| 237 | ((MIDIAUDIO *) pahw)->controlChange( mchan, message[1], message[2] );
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| 238 | break;
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| 239 |
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| 240 | case 0xC0: // Program Change
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| 241 | ((MIDIAUDIO *) pahw)->programChange( mchan, message[1] );
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| 242 | break;
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| 243 |
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| 244 | case 0xD0: // Channel Pressure (Aftertouch)
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| 245 | ((MIDIAUDIO*) pahw)->channelPressure( mchan, message[1] );
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| 246 | break;
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| 247 |
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| 248 | case 0xE0: // Pitch Bend
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| 249 | ((MIDIAUDIO *) pahw)->pitchBend( mchan, message[1], message[2] );
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| 250 | break;
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| 251 |
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| 252 | default:
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| 253 | //### Should never get here, should log soft error.
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| 254 | break;
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| 255 |
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| 256 | } // End switch() for Channel messages.
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| 257 | break;
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| 258 |
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| 259 | case MBT_SystemRT: // System Real Time: all single byte messages.
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| 260 | ((MIDIAUDIO*) pahw)->writeByte( statusByte );
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| 261 | break;
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| 262 |
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| 263 | case MBT_SystemCommon: // System Common
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| 264 | message.flush((MIDIAUDIO*) pahw);
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| 265 | break;
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| 266 |
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| 267 | case MBT_Sysex: // Must be the IBM sysex
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| 268 | //### Should check relative freq. of each cmd. Currently coded to
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| 269 | //### favor Timing Compression (short), then TC (long), then DD cmds
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| 270 |
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| 271 | message.discardSignature(); // Remove the IBM signature prefix.
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| 272 | cmdByte = message[0]; // 1st cmd byte of the IBM sysex.
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| 273 |
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| 274 | if (cmdByte >= 7) { // Timing Compression (Short) [ 7-127 ]
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[147] | 275 | //SvL: += instead of = (BUGFIX)
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| 276 | lWait += cmdByte * ulPerClock;
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[142] | 277 | }
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| 278 |
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| 279 | else if (cmdByte == 1) { // Timing compression (Long) [ 1 ]
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[147] | 280 | //SvL: += instead of = (BUGFIX)
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| 281 | lWait += (((ULONG) (message[2] << 7)) + ((ULONG) message[1])) * ulPerClock;
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[142] | 282 | }
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| 283 |
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| 284 | // else if (cmdByte != 3) // Sysex (ignored) [0 | 1 | 2 | 4 | 5 | 6]
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| 285 | // pTrace->vLog( MIDISTREAM_SysXIgnored, (BYTE) message[1], (BYTE) message[2] );
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| 286 |
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| 287 | else if (message[1] == 1) { // PPQN Control [ 3 ] [ 1 ] [time ctl] [PPQN value]
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| 288 | usCPQN = message[3];
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| 289 | CalcDelay();
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| 290 | // ### Time control flags in message[2] are ignored
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| 291 | }
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| 292 |
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| 293 | else if (message[1] == 2) { // Tempo Control [ 3 ] [ 2 ] [ lsb ] [ msb ]
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| 294 | ulTempo = (((WORD) message[3]) << 7) + message[2];
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| 295 | CalcDelay();
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| 296 | // ### Tempo fade in message[4] is ignored
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| 297 | }
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| 298 | // else // Sysex (ignored) [ 3 ] ^[ 1 | 2 ]
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| 299 |
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| 300 | break;
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| 301 | // End IBM Sysex message processing.
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| 302 |
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| 303 | default:
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| 304 | // ### Should never get here, should log soft error.
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| 305 | break;
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| 306 | }
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| 307 | }
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