242bcbd475
Amancio. There is some SoundSource support here that is primitive and probably doesn't work, but I'll let the two submitters let me know how my integration of that was since I don't have this card to test. I've only tested this on my GUS MAX since it's all I have. This all probably needs to be re-done anyway since we're widely variant from the original VOXWARE source in the current layout. Submitted by: Amancio Hasty and Jim Lowe Obtained from: Hannu Savolainen
143 lines
6.1 KiB
Plaintext
143 lines
6.1 KiB
Plaintext
VoxWare v3.0
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------------
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This is a late alpha/early beta of the VoxWare v3.0 to be relased May/June 95.
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All features of v2.90-2 should work as earlier. There could be some
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omissions but they are unintentional. I started this version thread
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after v2.3 so all features implemented before it are there.
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New features
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============
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There are now two new device interfaces. The /dev/midi## is a raw
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tty like interface to MIDI ports. There is a device file for each MIDI
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port on your system. They are named (/dev/midi00 to /dev/midiNN).
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The second addition is the /dev/music which is higher level interface
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than the old /dev/sequencer. It's intended for writing device independent
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applications like sequencers.
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/dev/midi##
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-----------
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This interface should be usefull for applications like MIDI sysex librarians.
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There are (currently) no timing features so making music could be impossible.
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There are as many /dev/midi## devices as there are MIDI ports in the system.
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The /dev/midi00 is connected to the first one, /dev/midi01 to the second etc.
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These devices work like tty devices in raw mode. Everything written to them is
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sent out to the MIDI port. There is currently an extra delay of at most
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1/100th of sec but it will be removed later.
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The reading algorithm is little bit more complicated. There are two different
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cases:
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1) There is at least one byte in the input buffer.
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The read returns as many bytes as it can without waiting for more bytes.
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For example when a process reads 100 bytes and there are 10 bytes in the
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buffer, the read returns just 10 bytes.
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2) The input buffer is empty when the process calls read.
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The read waits for the first byte and then continues as in case 1. By
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default it waits infinitely but there is an ioctl for setting a timeout
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for this. The ioctl(fd, SNDCTL_MIDI_PRETIME, &time) changes the timeout.
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The time is given in 1/10th of seconds (10 means one second).
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Other ioctl calls:
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ioctl(fd, SNDCTL_MIDI_MPUMODE, &mode) is available for full MPU-401
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compatible devices such as MPU-IPC-T, MQ PC Midi Card or MQX-32.
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It's not available for the so called MPU UART ports of some soundcards
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(PAS16, SB16 etc). By default the MIDI port is in UART mode after open.
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If this ioctl is called with mode=1, the interface is put to the intelligent
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(coprocessor) mode. NOTE! The MIDI port will be reset when this ioctl is called.
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It could have some strange effects if not called immediately after open. This
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vall returns EINVAL if the midi port doesn't support the MPU-401 intelligent
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mode.
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ioctl(fd, SNDCTL_MIDI_MPUCMD, &cmdstruct) is valid only if the MIDI port
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is put to the coprocessor mode using ioctl(SNDCTL_MIDI_MPUMODE). It's used to
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send commands to a MPU-401 compatible MIDI cards. Please refer to the
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MPU-401 Technical Reference Manual (or Music Quest Technical Reference
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Manual) for descriptions of the commands.
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The argument of SNDCTL_MIDI_MPUCOMMAND is of type mpu_command_rec. It
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has the following fields:
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typedef struct {
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unsigned char cmd;
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char nr_args, nr_returns;
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unsigned char data[30];
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} mpu_command_rec;
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where:
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cmd Contains the command number.
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nr_args Number of arguments of the command.
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MUST BE INITIALIZED BEFORE CALL
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nr_returns Number of bytes returned by the command.
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MUST BE INITIALIZED BEFORE CALL
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data Buffer for the command arguments and returned
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data.
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Be extremely carefull with the nr_args and nr_returns fields. They
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must match the command. An incorrect value will put the card and
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the driver out of sync. Refer to the MPU-401/MQX-32M documentation for further
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datails.
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/dev/music (/dev/sequencer2)
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----------------------------
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This device file works much like the /dev/sequencer which has been present
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since the beginning. The main differences are the following:
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- /dev/sequencer makes the MIDI ports to look like the synth devices. In fact
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the result is somewhere between the MIDI specification and the synth devices of
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/dev/sequencer. Both kind of devices are accessed using the SEQ_START_NOTE()
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like macros. The voice number parameters of the API macros have been redefined
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to denote MIDI channels. This means that the driver allocates voices for
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the channels automaticly (this is a responsibility/right of an application
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with /dev/sequencer). The result is that a SEQ_START_NOTE() macro has
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similar effects for a synth channel than on a MIDI port. This kind of
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solution provides better device independence than the /dev/sequencer. The
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drawback is that the new interface doesn't permit so low level access to the
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device as the /dev/sequencer does. An application developer must choose between
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these two interfaces. I think the old /dev/sequencer is better for applications
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like module players while the new one is better for making generic sequencer
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programs.
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- There are no separate MIDI devices with the /dev/sequencer2. The
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ioctl(SNDCTL_SEQ_NRMIDIS) returns always zero. Instead the MIDI ports are
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shown as synth devices. ioctl(SNDCTL_SEQ_NRSYNTHS) on /dev/sequencer2 will
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return sum of internal synthesizers (GUS, OPL3) and MIDI ports in the systems.
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- The new interface is used much like the ordinary /dev/sequencer. The
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event format is new so you have to use the API macros defined in the
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sys/soundcard.h. The interface is will propably change before the final 3.0
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release but using the API macros should ensure compatibility in source level.
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The new event format is not recognized by version 2.X so don't try to
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distribute binaries compiled with soundcard.h of v3.X.
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- The basic API useage is similar to the current one. There are some new
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macros but the older ones should work as earlier. The most important
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incompatibility is that the /dev/sequencer2 driver allocates voices itself.
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The other one is that the application must send SEQ_START_TIMER() as it's
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first event. Otherwise the timer is not started and the application waits
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infinitely.
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There are several new features but I don't document them here. There are
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some info in the soundcard.h (near the end). I have also included some
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sample code in the directory v30. Full documentation will
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appear in the Hacker's Guide later.
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Don't hesitate to contact me in case you have questions or comments.
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Hannu Savolainen
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hannu@voxware.pp.fi
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