504 lines
14 KiB
C++
504 lines
14 KiB
C++
/////////////////////////////////////////////////////////////////////////
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// $Id$
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/////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2001-2015 The Bochs Project
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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/////////////////////////////////////////////////////////////////////////
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// This file (SOUNDWIN.CC) written and donated by Josef Drexler
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// Define BX_PLUGGABLE in files that can be compiled into plugins. For
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// platforms that require a special tag on exported symbols, BX_PLUGGABLE
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// is used to know when we are exporting symbols and when we are importing.
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#define BX_PLUGGABLE
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#include "iodev.h"
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#include "soundlow.h"
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#include "soundwin.h"
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#if BX_HAVE_SOUND_WIN && BX_SUPPORT_SOUNDLOW
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#define LOG_THIS
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// size is the total size of the midi header and buffer and the
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// wave header and buffer, all aligned on a 16-byte boundary
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#define ALIGN(size) ((size + 15) & ~15)
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#define size ALIGN(sizeof(MIDIHDR)) \
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+ ALIGN(sizeof(WAVEHDR)) * 2 \
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+ ALIGN(BX_SOUND_WINDOWS_MAXSYSEXLEN) \
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+ ALIGN(BX_SOUNDLOW_WAVEPACKETSIZE + 64)
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// some data for the wave buffers
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HANDLE DataHandle; // returned by GlobalAlloc()
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Bit8u *DataPointer; // returned by GlobalLock()
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// helper function
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Bit8u* newbuffer(unsigned blksize)
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{
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static unsigned offset = 0;
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Bit8u *ptr;
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ptr = &(DataPointer[offset]);
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if ((offset + ALIGN(blksize)) > size) {
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return NULL;
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} else {
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offset += ALIGN(blksize);
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return ptr;
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}
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}
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// bx_soundlow_waveout_win_c class implemenzation
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bx_soundlow_waveout_win_c::bx_soundlow_waveout_win_c()
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:bx_soundlow_waveout_c()
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{
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WaveOutOpen = 0;
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WaveOutHdr = (LPWAVEHDR) newbuffer(sizeof(WAVEHDR));
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if (WaveOutHdr == NULL)
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BX_PANIC(("Allocated memory was too small!"));
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}
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bx_soundlow_waveout_win_c::~bx_soundlow_waveout_win_c()
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{
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if (WaveOutOpen == 1) {
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waveOutReset(hWaveOut);
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waveOutClose(hWaveOut);
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}
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}
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int bx_soundlow_waveout_win_c::openwaveoutput(const char *wavedev)
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{
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// could make the output device selectable,
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// but currently only the wave mapper is supported
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UNUSED(wavedev);
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BX_DEBUG(("openwaveoutput(%s)", wavedev));
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WaveDevice = (UINT) WAVEMAPPER;
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set_pcm_params(&real_pcm_param);
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pcm_callback_id = register_wave_callback(this, pcm_callback);
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BX_INIT_MUTEX(mixer_mutex);
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start_mixer_thread();
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return BX_SOUNDLOW_OK;
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}
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int bx_soundlow_waveout_win_c::set_pcm_params(bx_pcm_param_t *param)
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{
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UINT ret;
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PCMWAVEFORMAT waveformat;
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BX_DEBUG(("set_pcm_params(): %u, %u, %u, %02x", param->samplerate, param->bits,
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param->channels, param->format));
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if (WaveOutOpen != 0) {
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ret = waveOutReset(hWaveOut);
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ret = waveOutClose(hWaveOut);
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WaveOutOpen = 0;
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}
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// try three times to find a suitable format
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for (int tries = 0; tries < 3; tries++) {
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int frequency = real_pcm_param.samplerate;
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bx_bool stereo = real_pcm_param.channels == 2;
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int bits = real_pcm_param.bits;
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int bps = (bits / 8) * (stereo + 1);
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waveformat.wf.wFormatTag = WAVE_FORMAT_PCM;
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waveformat.wf.nChannels = stereo + 1;
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waveformat.wf.nSamplesPerSec = frequency;
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waveformat.wf.nAvgBytesPerSec = frequency * bps;
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waveformat.wf.nBlockAlign = bps;
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waveformat.wBitsPerSample = bits;
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ret = waveOutOpen(&(hWaveOut), WaveDevice, (LPWAVEFORMATEX)&(waveformat.wf), 0, 0, CALLBACK_NULL);
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if (ret != 0) {
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char errormsg[4*MAXERRORLENGTH+1];
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waveOutGetErrorTextA(ret, errormsg, 4*MAXERRORLENGTH+1);
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BX_DEBUG(("waveOutOpen: %s", errormsg));
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switch (tries) {
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case 0: // maybe try a different frequency
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if (frequency < 15600)
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frequency = 11025;
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else if (frequency < 31200)
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frequency = 22050;
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else
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frequency = 44100;
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BX_DEBUG(("Couldn't open wave device (error %d), trying frequency %d", ret, frequency));
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break;
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case 1: // or something else
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frequency = 11025;
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stereo = 0;
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bits = 8;
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bps = 1;
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BX_DEBUG(("Couldn't open wave device again (error %d), trying 11KHz, mono, 8bit", ret));
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break;
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case 2: // nope, doesn't work
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BX_ERROR(("Couldn't open wave output device (error = %d)!", ret));
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return BX_SOUNDLOW_ERR;
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}
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BX_DEBUG(("The format was: wFormatTag=%d, nChannels=%d, nSamplesPerSec=%d,",
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waveformat.wf.wFormatTag, waveformat.wf.nChannels, waveformat.wf.nSamplesPerSec));
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BX_DEBUG((" nAvgBytesPerSec=%d, nBlockAlign=%d, wBitsPerSample=%d",
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waveformat.wf.nAvgBytesPerSec, waveformat.wf.nBlockAlign, waveformat.wBitsPerSample));
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} else {
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WaveOutOpen = 1;
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break;
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}
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}
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return BX_SOUNDLOW_OK;
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}
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int bx_soundlow_waveout_win_c::output(int length, Bit8u data[])
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{
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UINT ret;
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// prepare the wave header
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WaveOutHdr->lpData = (LPSTR)data;
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WaveOutHdr->dwBufferLength = length;
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WaveOutHdr->dwBytesRecorded = length;
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WaveOutHdr->dwUser = 0;
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WaveOutHdr->dwFlags = 0;
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WaveOutHdr->dwLoops = 1;
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ret = waveOutPrepareHeader(hWaveOut, WaveOutHdr, sizeof(*WaveOutHdr));
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if (ret != 0) {
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BX_ERROR(("waveOutPrepareHeader(): error = %d", ret));
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return BX_SOUNDLOW_ERR;
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}
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ret = waveOutWrite(hWaveOut, WaveOutHdr, sizeof(*WaveOutHdr));
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if (ret != 0) {
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char errormsg[4*MAXERRORLENGTH+1];
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waveOutGetErrorTextA(ret, errormsg, 4*MAXERRORLENGTH+1);
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BX_ERROR(("waveOutWrite(): %s", errormsg));
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}
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Sleep(100);
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return BX_SOUNDLOW_OK;
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}
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// bx_soundlow_wavein_win_c class implemenzation
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bx_soundlow_wavein_win_c::bx_soundlow_wavein_win_c()
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:bx_soundlow_wavein_c()
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{
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WaveInOpen = 0;
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WaveInHdr = (LPWAVEHDR) newbuffer(sizeof(WAVEHDR));
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WaveInData = (LPSTR) newbuffer(BX_SOUNDLOW_WAVEPACKETSIZE+64);
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if (WaveInData == NULL)
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BX_PANIC(("Allocated memory was too small!"));
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}
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bx_soundlow_wavein_win_c::~bx_soundlow_wavein_win_c()
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{
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if (WaveInOpen == 1) {
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waveInClose(hWaveIn);
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}
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}
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int bx_soundlow_wavein_win_c::openwaveinput(const char *wavedev, sound_record_handler_t rh)
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{
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UNUSED(wavedev);
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record_handler = rh;
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if (rh != NULL) {
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record_timer_index = bx_pc_system.register_timer(this, record_timer_handler, 1, 1, 0, "soundwin");
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// record timer: inactive, continuous, frequency variable
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}
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recording = 0;
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wavein_param.samplerate = 0;
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return BX_SOUNDLOW_OK;
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}
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int bx_soundlow_wavein_win_c::recordnextpacket()
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{
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MMRESULT result;
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WaveInHdr->lpData = (LPSTR)WaveInData;
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WaveInHdr->dwBufferLength = record_packet_size;
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WaveInHdr->dwBytesRecorded = 0;
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WaveInHdr->dwUser = 0L;
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WaveInHdr->dwFlags = 0L;
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WaveInHdr->dwLoops = 0L;
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waveInPrepareHeader(hWaveIn, WaveInHdr, sizeof(WAVEHDR));
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result = waveInAddBuffer(hWaveIn, WaveInHdr, sizeof(WAVEHDR));
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if (result) {
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BX_ERROR(("Couldn't add buffer for recording (error = %d)", result));
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return BX_SOUNDLOW_ERR;
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} else {
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result = waveInStart(hWaveIn);
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if (result) {
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BX_ERROR(("Couldn't start recording (error = %d)", result));
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return BX_SOUNDLOW_ERR;
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} else {
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recording = 1;
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return BX_SOUNDLOW_OK;
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}
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}
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}
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int bx_soundlow_wavein_win_c::startwaverecord(bx_pcm_param_t *param)
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{
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Bit64u timer_val;
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Bit8u shift = 0;
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MMRESULT result;
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if (record_timer_index != BX_NULL_TIMER_HANDLE) {
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if (param->bits == 16) shift++;
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if (param->channels == 2) shift++;
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record_packet_size = (param->samplerate / 10) << shift; // 0.1 sec
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if (record_packet_size > BX_SOUNDLOW_WAVEPACKETSIZE) {
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record_packet_size = BX_SOUNDLOW_WAVEPACKETSIZE;
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}
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timer_val = (Bit64u)record_packet_size * 1000000 / (param->samplerate << shift);
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bx_pc_system.activate_timer(record_timer_index, (Bit32u)timer_val, 1);
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}
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// check if any of the properties have changed
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if (memcmp(param, &wavein_param, sizeof(bx_pcm_param_t)) != 0) {
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wavein_param = *param;
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if (WaveInOpen) {
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waveInClose(hWaveIn);
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}
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// Specify recording parameters
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WAVEFORMATEX pFormat;
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pFormat.wFormatTag = WAVE_FORMAT_PCM;
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pFormat.nChannels = param->channels;
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pFormat.nSamplesPerSec = param->samplerate;
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pFormat.nAvgBytesPerSec = param->samplerate << shift;
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pFormat.nBlockAlign = 1 << shift;
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pFormat.wBitsPerSample = param->bits;
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pFormat.cbSize = 0;
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result = waveInOpen(&hWaveIn, WAVEMAPPER, &pFormat, 0L, 0L, WAVE_FORMAT_DIRECT);
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if (result) {
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BX_ERROR(("Couldn't open wave device for recording (error = %d)", result));
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return BX_SOUNDLOW_ERR;
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} else {
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WaveInOpen = 1;
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}
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}
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return recordnextpacket();
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}
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int bx_soundlow_wavein_win_c::getwavepacket(int length, Bit8u data[])
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{
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if (WaveInOpen && recording) {
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do {} while (waveInUnprepareHeader(hWaveIn, WaveInHdr, sizeof(WAVEHDR)) == WAVERR_STILLPLAYING);
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memcpy(data, WaveInData, length);
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return recordnextpacket();
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} else {
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memset(data, 0, length);
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return BX_SOUNDLOW_OK;
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}
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}
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int bx_soundlow_wavein_win_c::stopwaverecord()
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{
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if (record_timer_index != BX_NULL_TIMER_HANDLE) {
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bx_pc_system.deactivate_timer(record_timer_index);
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}
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if (WaveInOpen && recording) {
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do {} while (waveInUnprepareHeader(hWaveIn, WaveInHdr, sizeof(WAVEHDR)) == WAVERR_STILLPLAYING);
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recording = 0;
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}
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return BX_SOUNDLOW_OK;
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}
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void bx_soundlow_wavein_win_c::record_timer_handler(void *this_ptr)
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{
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bx_soundlow_wavein_win_c *class_ptr = (bx_soundlow_wavein_win_c *) this_ptr;
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class_ptr->record_timer();
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}
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void bx_soundlow_wavein_win_c::record_timer(void)
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{
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record_handler(this, record_packet_size);
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}
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// bx_soundlow_midiout_win_c class implemenzation
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bx_soundlow_midiout_win_c::bx_soundlow_midiout_win_c()
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:bx_soundlow_midiout_c()
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{
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MidiOpen = 0;
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ismidiready = 1;
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MidiHeader = (LPMIDIHDR) newbuffer(sizeof(MIDIHDR));
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MidiData = (LPSTR) newbuffer(BX_SOUND_WINDOWS_MAXSYSEXLEN);
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if (MidiData == NULL)
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BX_PANIC(("Allocated memory was too small!"));
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}
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bx_soundlow_midiout_win_c::~bx_soundlow_midiout_win_c()
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{
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closemidioutput();
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}
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int bx_soundlow_midiout_win_c::openmidioutput(const char *mididev)
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{
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UINT deviceid;
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if (strlen(mididev) == 0) {
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deviceid = (UINT) MIDIMAPPER;
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} else {
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deviceid = atoi(mididev);
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if (((deviceid < 0) || (deviceid >= midiOutGetNumDevs())) &&
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(deviceid != (UINT) MIDIMAPPER)) {
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BX_ERROR(("MIDI device ID out of range - using default MIDI mapper"));
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deviceid = (UINT) MIDIMAPPER;
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}
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}
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MidiOpen = 0;
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UINT ret = midiOutOpen(&MidiOut, deviceid, 0, 0, CALLBACK_NULL);
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if (ret == 0)
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MidiOpen = 1;
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BX_DEBUG(("midiOutOpen() = %d, MidiOpen: %d", ret, MidiOpen));
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return (MidiOpen == 1) ? BX_SOUNDLOW_OK : BX_SOUNDLOW_ERR;
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}
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int bx_soundlow_midiout_win_c::midiready()
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{
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if (ismidiready == 0)
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checkmidiready();
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if (ismidiready == 1)
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return BX_SOUNDLOW_OK;
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else
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return BX_SOUNDLOW_ERR;
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}
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int bx_soundlow_midiout_win_c::sendmidicommand(int delta, int command, int length, Bit8u data[])
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{
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UINT ret;
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if (MidiOpen != 1)
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return BX_SOUNDLOW_ERR;
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if ((command == 0xf0) || (command == 0xf7) || (length > 3))
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{
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BX_DEBUG(("SYSEX started, length %d", length));
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ismidiready = 0; // until the buffer is done
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memcpy(MidiData, data, length);
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MidiHeader->lpData = MidiData;
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MidiHeader->dwBufferLength = BX_SOUND_WINDOWS_MAXSYSEXLEN;
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MidiHeader->dwBytesRecorded = 0;
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MidiHeader->dwUser = 0;
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MidiHeader->dwFlags = 0;
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ret = midiOutPrepareHeader(MidiOut, MidiHeader, sizeof(*MidiHeader));
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if (ret != 0)
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BX_ERROR(("midiOutPrepareHeader(): error = %d", ret));
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ret = midiOutLongMsg(MidiOut, MidiHeader, sizeof(*MidiHeader));
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if (ret != 0)
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BX_ERROR(("midiOutLongMsg(): error = %d", ret));
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}
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else
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{
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DWORD msg = command;
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for (int i = 0; i<length; i++)
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msg |= (data[i] << (8 * (i + 1)));
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ret = midiOutShortMsg(MidiOut, msg);
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BX_DEBUG(("midiOutShortMsg(%x) = %d", msg, ret));
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}
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return (ret == 0) ? BX_SOUNDLOW_OK : BX_SOUNDLOW_ERR;
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}
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int bx_soundlow_midiout_win_c::closemidioutput()
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{
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UINT ret;
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if (MidiOpen == 1) {
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ret = midiOutReset(MidiOut);
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if (ismidiready == 0)
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checkmidiready(); // to clear any pending SYSEX
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ret = midiOutClose(MidiOut);
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BX_DEBUG(("midiOutClose() = %d", ret));
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}
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return BX_SOUNDLOW_OK;
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}
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void bx_soundlow_midiout_win_c::checkmidiready()
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{
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if ((MidiHeader->dwFlags & MHDR_DONE) != 0) {
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BX_DEBUG(("SYSEX message done, midi ready again"));
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midiOutUnprepareHeader(MidiOut, MidiHeader, sizeof(*MidiHeader));
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ismidiready = 1;
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}
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}
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// bx_sound_windows_c class implemenzation
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bx_sound_windows_c::bx_sound_windows_c()
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:bx_sound_lowlevel_c()
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{
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DataHandle = GlobalAlloc(GMEM_MOVEABLE | GMEM_SHARE, size);
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DataPointer = (Bit8u*) GlobalLock(DataHandle);
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if (DataPointer == NULL)
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BX_PANIC(("GlobalLock returned NULL-pointer"));
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#undef size
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#undef ALIGN
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BX_INFO(("Sound lowlevel module 'win' initialized"));
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}
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bx_sound_windows_c::~bx_sound_windows_c()
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{
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GlobalUnlock(DataHandle);
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GlobalFree(DataHandle);
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}
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bx_soundlow_waveout_c* bx_sound_windows_c::get_waveout()
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{
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if (waveout == NULL) {
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waveout = new bx_soundlow_waveout_win_c();
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}
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return waveout;
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}
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bx_soundlow_wavein_c* bx_sound_windows_c::get_wavein()
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{
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if (wavein == NULL) {
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wavein = new bx_soundlow_wavein_win_c();
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}
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return wavein;
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}
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|
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bx_soundlow_midiout_c* bx_sound_windows_c::get_midiout()
|
|
{
|
|
if (midiout == NULL) {
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|
midiout = new bx_soundlow_midiout_win_c();
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|
}
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|
return midiout;
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|
}
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|
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#endif // BX_HAVE_SOUND_WIN
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