/* Copyright (C) 1994-1995 Apogee Software, Ltd. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Modifications for JonoF's port by Jonathon Fowler (jonof@edgenetwk.com) */ /********************************************************************** module: MPU401.C author: James R. Dose date: January 1, 1994 Low level routines to support sending of MIDI data to MPU401 compatible MIDI interfaces. (c) Copyright 1994 James R. Dose. All Rights Reserved. **********************************************************************/ #include "mpu401.h" #include "compat.h" #define WIN32_LEAN_AND_MEAN #include #include static HMIDISTRM hmido = (HMIDISTRM)-1; static MIDIOUTCAPS midicaps; static DWORD mididevice = -1; typedef struct { int time; int stream; int event; } MIDIEVENTHEAD; #define PAD(x) ((((x)+3)&(~3))) #define BUFFERLEN (32*4*4) #define NUMBUFFERS 6 static char eventbuf[NUMBUFFERS][BUFFERLEN]; static int eventcnt[NUMBUFFERS]; static MIDIHDR bufferheaders[NUMBUFFERS]; int _MPU_CurrentBuffer = 0; int _MPU_BuffersWaiting = 0; extern unsigned int _MIDI_GlobalPositionInTicks; unsigned int _MPU_LastEvent=0; #define MIDI_NOTE_OFF 0x80 #define MIDI_NOTE_ON 0x90 #define MIDI_POLY_AFTER_TCH 0xA0 #define MIDI_CONTROL_CHANGE 0xB0 #define MIDI_PROGRAM_CHANGE 0xC0 #define MIDI_AFTER_TOUCH 0xD0 #define MIDI_PITCH_BEND 0xE0 #define MIDI_META_EVENT 0xFF #define MIDI_END_OF_TRACK 0x2F #define MIDI_TEMPO_CHANGE 0x51 #define MIDI_MONO_MODE_ON 0x7E #define MIDI_ALL_NOTES_OFF 0x7B /********************************************************************** Memory locked functions: **********************************************************************/ void MPU_FinishBuffer(int buffer) { if (!eventcnt[buffer]) return; ZeroMemory(&bufferheaders[buffer], sizeof(MIDIHDR)); bufferheaders[buffer].lpData = eventbuf[buffer]; bufferheaders[buffer].dwBufferLength = bufferheaders[buffer].dwBytesRecorded = eventcnt[buffer]; midiOutPrepareHeader((HMIDIOUT)hmido, &bufferheaders[buffer], sizeof(MIDIHDR)); midiStreamOut(hmido, &bufferheaders[buffer], sizeof(MIDIHDR)); // printf("Sending %d bytes (buffer %d)\n",eventcnt[buffer],buffer); _MPU_BuffersWaiting++; } void MPU_BeginPlayback(void) { _MPU_LastEvent = _MIDI_GlobalPositionInTicks; if (hmido != (HMIDISTRM)-1) midiStreamRestart(hmido); } void MPU_Pause(void) { if (hmido != (HMIDISTRM)-1) midiStreamPause(hmido); } void MPU_Unpause(void) { if (hmido != (HMIDISTRM)-1) midiStreamRestart(hmido); } void CALLBACK MPU_MIDICallback(HMIDIOUT handle, UINT uMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2) { int i; UNUSED_PARAMETER(dwInstance); UNUSED_PARAMETER(dwParam2); switch (uMsg) { case MOM_DONE: midiOutUnprepareHeader((HMIDIOUT)handle, (MIDIHDR*)dwParam1, sizeof(MIDIHDR)); for (i=0;i BUFFERLEN) { // buffer over-full nextbuffer = MPU_GetNextBuffer(); if (nextbuffer < 0) { // printf("All buffers full!\n"); return; } MPU_FinishBuffer(_MPU_CurrentBuffer); _MPU_CurrentBuffer = nextbuffer; } p = eventbuf[_MPU_CurrentBuffer] + eventcnt[_MPU_CurrentBuffer]; ((int*)p)[0] = _MIDI_GlobalPositionInTicks - _MPU_LastEvent; ((int*)p)[1] = 0; ((int*)p)[2] = (MEVT_SHORTMSG << 24) | ((*((int*)data)) & masks[count-1]); eventcnt[_MPU_CurrentBuffer] += 12; } else { padded = PAD(count); if (eventcnt[_MPU_CurrentBuffer] + 12 + padded > BUFFERLEN) { // buffer over-full nextbuffer = MPU_GetNextBuffer(); if (nextbuffer < 0) { // printf("All buffers full!\n"); return; } MPU_FinishBuffer(_MPU_CurrentBuffer); _MPU_CurrentBuffer = nextbuffer; } p = eventbuf[_MPU_CurrentBuffer] + eventcnt[_MPU_CurrentBuffer]; ((int*)p)[0] = _MIDI_GlobalPositionInTicks - _MPU_LastEvent; ((int*)p)[1] = 0; ((int*)p)[2] = (MEVT_LONGMSG<<24) | (count & 0xffffffl); p+=12; eventcnt[_MPU_CurrentBuffer] += 12; for (; count>0; count--, padded--, eventcnt[_MPU_CurrentBuffer]++) *(p++) = *(data++); for (; padded>0; padded--, eventcnt[_MPU_CurrentBuffer]++) *(p++) = 0; } _MPU_LastEvent = _MIDI_GlobalPositionInTicks; } /*--------------------------------------------------------------------- Function: MPU_SendMidiImmediate Sends a MIDI message immediately to the the music device. ---------------------------------------------------------------------*/ void MPU_SendMidiImmediate(char *data, int count) { MIDIHDR mhdr; static int masks[3] = { 0x00ffffffl, 0x0000ffffl, 0x000000ffl }; if (!count) return; if (count<=3) midiOutShortMsg((HMIDIOUT)hmido, (*((int*)data)) & masks[count-1]); else { ZeroMemory(&mhdr, sizeof(mhdr)); mhdr.lpData = data; mhdr.dwBufferLength = count; midiOutPrepareHeader((HMIDIOUT)hmido, &mhdr, sizeof(MIDIHDR)); midiOutLongMsg((HMIDIOUT)hmido, &mhdr, sizeof(MIDIHDR)); while (!(mhdr.dwFlags & MHDR_DONE)) ; midiOutUnprepareHeader((HMIDIOUT)hmido, &mhdr, sizeof(MIDIHDR)); } } /*--------------------------------------------------------------------- Function: MPU_Reset Resets the MPU401 card. ---------------------------------------------------------------------*/ int MPU_Reset ( void ) { midiStreamStop(hmido); midiStreamClose(hmido); return(MPU_Ok); } /*--------------------------------------------------------------------- Function: MPU_Init Detects and initializes the MPU401 card. ---------------------------------------------------------------------*/ int MPU_Init ( int addr ) { int i; for (i=0;i