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README
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hexter
======
A Yamaha DX7 modeling software synthesizer
for the DSSI Soft Synth Interface
Introduction
============
hexter is a software synthesizer that models the sound generation of
a Yamaha DX7 synthesizer. It can easily load most DX7 patch bank
files, edit those patches via a built-in editor or MIDI sys-ex
messages (ALSA systems only), and recreate the sound of the DX7 with
greater accuracy than any previous open-source emulation (that the
author is aware of....)
hexter operates as a plugin for the DSSI Soft Synth Interface. DSSI
is a plugin API for software instruments (soft synths) with user
interfaces, permitting them to be hosted in-process by audio
applications. More information on DSSI can be found at:
http://dssi.sourceforge.net/
hexter is written and copyright (c) 2014 by Sean Bolton, and
licensed under the GNU General Public License, version 2 or later.
See the enclosed file COPYING for details. While this software is
'free' within the requirements of this license, I (Sean) would
appreciate any or all of the following should you find hexter
useful:
- an email stating where you're from and how you're using
hexter, sent to <sean /at/ smbolton /dot/ com>.
- copies of or links to music you've created with hexter.
- any favorite patches you create for hexter, or any patches
that work on a real DX7 but not on hexter.
- suggestions for improving hexter.
hexter is indirectly the result of cumulative effort by a large
number of contributors, see the AUTHORS file for details.
Requirements
============
hexter requires the following:
- DSSI version 0.4 or greater, available from the
dssi.sourceforge.net address above.
- liblo version 0.12 or greater (0.23 or greater recommended), a
library implementing the Open Sound Control (OSC) protocol,
available at:
http://liblo.sourceforge.net/
- pkgconfig with PKG_CONFIG_PATH set appropriately to pick up
DSSI and liblo.
- GTK+ version 2.4 or later.
- the LADSPA v1.x SDK.
- the ALSA headers (DSSI plugins use ALSA structures, but not
the actual drivers, so you don't necessarily need the
drivers installed.) Users of non-ALSA systems may use
libdssialsacompat, available at:
http://smbolton.com/linux.html
- a working DSSI host. hexter has been tested with the
jack-dssi-host, available in the DSSI distribution, and with
ghostess, available at:
http://smbolton.com/linux.html
- automake 1.7 and autoconf 2.57 or better if you wish to
recreate the build files.
Installation
============
The generic installation instructions in the enclosed file INSTALL
aren't particularly helpful, so try this instead:
1. Unpack the tar file.
2. Make sure PKG_CONFIG_PATH is set correctly to locate the
dssi.pc and liblo.pc pkgconfig files. On many systems, this
will be:
$ PKG_CONFIG_PATH=/usr/local/lib/pkgconfig
$ export PKG_CONFIG_PATH
3. 'cd' into the package directory and execute './configure'.
configure will add '-Wall' and my favorite optimizations to
CFLAGS for you if you don't include any '-Wall' or '-O' options.
If you're using gcc and wish to provide your own optimization
flags, you MUST at least use '-finline' and a non-zero '-O' flag
to get decent results.
Depending on your hardware, you may wish to add the
'--enable-floating-point' option to the configure cammand line.
See the 'Fixed Point vs. Floating Point Rendering' section
below. (If you're not sure, it is safest to leave it off.)
4. Enable debugging information if you desire: edit the file
src/hexter.h, and define DSSP_DEBUG as explained in the
comments.
5. Do 'make'. Hopefully it should build without warnings (or
errors.)
6. 'make install' will install the following:
<prefix>/lib/dssi/hexter/hexter_gtk
<prefix>/lib/dssi/hexter.so
<prefix>/lib/dssi/hexter.la
<prefix>/share/hexter/dx7_roms.dx7
<prefix>/share/hexter/fb01_roms_converted_12.dx7
<prefix>/share/hexter/fb01_roms_converted_34.dx7
<prefix>/share/hexter/fb01_roms_converted_5.dx7
<prefix>/share/hexter/tx7_roms.dx7
Feedback on your experiences building hexter is appreciated.
Operation
=========
To run the hexter plugin under the jack-dssi-host provided
in the DSSI distribution, I do the following:
1. Start JACK.
2. Start jack-dssi-host, supplying the correct plugin path
and filename (substitute <prefix> as appropriate):
$ DSSI_PATH=<prefix>/lib/dssi sudo jack-dssi-host hexter.so
jack-dssi-host should start, and moments later the hexter
graphic user interface should appear.
3. Use qjackctl or aconnect to connect jack-dssi-host to a MIDI
source, such as vkeybd.
4. Begin playing sounds! If you get no response, try clicking the
'Send Test Note' button in the hexter GUI. This sends a note
directly via the host to the plugin, so if you hear sound now,
look for a problem between the host and your MIDI source. If
you still don't hear sound, I'd look for a problem between the
host and your output device. If you continue having trouble,
you might recompile with DSSP_DEBUG bit 2 set, which will cause
the plugin to continuously output a quiet buzz to help debug
your outgoing signal path.
hexter starts up with a default set of sound presets, or 'patches',
that you can select either by selecting the GUI 'Patches' tab and
clicking on the patch name, or by sending a MIDI program change from
your MIDI source with the appropriate program number.
Patch Import/Export
===================
hexter can import DX7 patch bank files in several formats:
- The standard 32-voice bulk dump sys-ex format. These are 4104
bytes long, and you can find a million of them by Googling for "dx7
patches". hexter places no restrictions on their filenames.
- The standard single-voice (edit buffer) sys-ex format. These are
163 bytes long.
- Raw packed patch data. These are 128 bytes per patch, and may
contain any number of patches (although hexter can only load up to
128 of them.) Note, though, that if the file is 8192 bytes long and
has any of the filename suffixes ".tx7", ".TX7", ".snd", or ".SND",
the second half of the file will be ignored (Dr. T and Steinberg TX7
formats).
- Standard MIDI files containing either a 32-voice bulk dump sys-ex
message or a single voice dump sys-ex message. If the file contains
more than one qualifying sys-ex message, only the first will be used.
- Two concatenated 32-voice bulk dump sys-ex messages (8208 bytes
long.)
- Steinberg Synthworks format (5216 bytes long).
- Transform XSyn format (8192 bytes long).
- Voyetra SIDEMAN DX/TX and Patchmaster DX7/TX7 formats (9816
or 5663 bytes long).
- Yamaha DX200 editor format (326454 bytes long).</p>
You may use the "Import Patch Bank..." option in the File menu to
import patches. After selecting the filename, you will need to
specify the program number (0 to 127) at which to begin importing
the patches.
Several patch bank files are installed with hexter in
<prefix>/share/hexter/.
You may also export patch banks using the File menu "Export Patch
Bank..." option. You can then select which of the formats to save
in, and what range of patches to export. Finally, select the
filename to which you want to save, and click 'Ok'.
Synthesizer Configuration
=========================
On the 'Configuration' tab of the hexter GUI, there are a number of
controls for configuring hexter:
- tuning: sets the tuning of this instance of the plugin,
as Hz for A-above-middle-C.
- volume: adjusts the output volume for this instance, from -70dB to
+20dB relative to a nominal reference level (-18.1dB per voice,
which permits approximately 8 voice polyphony within -1.0 to
+1.0 float.)
- polyphony (instance): Sets the maximum polyphony for this instance
of the plugin. If you attempt to play more notes than this
setting, already-playing notes will be killed so that newer
notes can be played.
- polyphony (global): Sets the maximum polyphony for all hexter
instances running on this host. If you are getting xruns, try
reducing this setting.
- monophonic modes: sets poly/mono operation for this instance of
the plugin to one of the following:
'Off' - polyphonic operation.
'On' - monophonic operation, where the envelopes are
retriggered upon each incoming note on event.
'Once' - monophonic operation, where the envelopes are triggered
only on the first note on of a legato phrase -- that
is, if you hold one note while playing a second, the
envelopes will not be retriggered for the second note.
'Both' - monophonic operation, where the envelopes are
retriggered at each note on, and upon note off when
other keys are still held.
- disable LFO/Mod/Perf (0.5.x compatibility): selecting this check
box will disable the LFO, amplitude modulation, pitch
modulation, and performance parameter enhancements provided by
hexter 0.6.0 and later versions, forcing it to sound just like
the 0.5.9 version. This is provided for backward compatibility
with existing projects that used hexter 0.5.9.
- Sys-Ex Patch Editing: On ALSA systems, hexter has the ability to
receive MIDI system exclusive messages from an external patch
editor/librarian. Any patch edits received are reflected in
hexter's built-in patch editor, and must be saved using the
built-in editor's 'Save Changes into Patch Bank' button (see
below).
Sys-ex patch editing is enabled on the 'Configuration' tab by
depressing the 'Enable Sys-Ex Editing' button. The hexter GUI
then creates an ALSA MIDI client and displays its client and
port number in the status window below the 'Sys-Ex Receive
Channel' slider. Set the channel appropriately and route your
external patch editor to this port using aconnect or similar,
and the hexter instance will be ready to receive patch edits.
Note that hexter only _receives_ MIDI sys-ex messages, and does
not send them. Also, it only receives single patch dumps and
voice parameter changes, so any 'get patch data from synth' or
'send 32 voices to synth' functions of your librarian will not
work.
Performance Parameters
======================
The 'Performance' tab of the hexter GUI contains controls for the
DX7/TX7 Performance Parameters:
- pitch bend range: sets the response to MIDI pitch bend messages,
in semitones.
- portamento time: sets the portamento time. Note that as of
version 0.6.1, the portamento code is still unfinished.
- mod wheel sensitivity: sets the depth of response to MIDI
modulation wheel control change messages (MIDI control change 1).
- mod wheel assign: these three check boxes set which destinations
the modulation wheel affects: selecting 'P' routes the LFO to
pitch modulation (vibrato), 'A' routes the LFO to amplitude
modulation (tremelo or wah), and 'E' routes the modulation wheel
value itself to amplitude modulation.
- foot sensitivity, foot assign, pressure sens., pressure assign,
breath sens., and breath assign: these set the sensitivity and
routing as described above for the foot controller (MIDI CC 4),
for pressure (both channel and key pressure), and for the breath
controller (CC 2), respectively.
Patch Editing
=============
The current patch may be edited by selecting 'Edit Patch...' from
the 'Edit' menu, which opens the patch editor window. All patch
edits accumulate as a temporary 'overlay' replacing the current
patch, but are not saved into the patch bank until you click the
'Save Changes into Patch Bank' button and complete the save process.
(Once you've saved edits into the patch bank, remember to save the
bank to disk using the 'Export Patch Bank...' option of the 'File'
menu!)
Clicking the 'Discard Changes' button or selecting another patch
from the 'Patches' tab will discard any active edits. At any time
the top status line of the editor window will tell you which patch
is being edited, and whether there are any changes in effect.
The editor has two modes of operation, selected by the 'Editor Mode'
combo box near the bottom left of the editor window. One mode,
called 'Widgy', uses standard GTK+ widgets for editing patch
parameters, and displays graphical representations of envelopes and
scaling curves to aid in comprehension of the patch parameters. The
other mode, called 'Retro' is based on text-based editors of decades
past. You may switch between editor modes at any time.
While the 'Retro' mode provides little in terms of visualization
assistance, it can provide the experienced user with more efficient
editing. Both the mouse and cursor keys may be used to select the
parameter to be edited. Generally, the number keys are used to enter
a parameter directly, the '-' key decrements a parameter, the '+' or
'=' keys increment the parameter, and the 'delete' or 'backspace'
key will reset the parameter to a default value. Perhaps most
convient for users without a separate MIDI keyboard, the space bar
can be used to toggle a test note, even while changing patches with
other keys!
MIDI Controller Mapping
=======================
In addition to the performance parameter MIDI messages mentioned
above, hexter responds to MIDI volume (MIDI control change 39),
sustain pedal (MIDI CC 64), and all-sounds-off, all-notes-off, and
reset-controllers control messages (CCs 120, 123, and 121,
respectively).
The operator parameters of the current patch can also be changed via
the following MIDI control change (CC) and non-registered parameter
(NRPN) messages. Messages marked with '*' in the 'Operator' column
will cause an immediate effect on playing notes, while the others
will only affect subsequently-played notes.
CC or NRPN | Operator | Parameter
-------------------------------+----------+------------------------
CC 16 (General Purpose #1 MSB) | * 1 | Frequency Coarse
CC 17 (General Purpose #2 MSB) | * 2 | Frequency Coarse
CC 18 (General Purpose #3 MSB) | * 3 | Frequency Coarse
CC 19 (General Purpose #4 MSB) | * 4 | Frequency Coarse
CC 80 (General Purpose #5) | * 5 | Frequency Coarse
CC 81 (General Purpose #6) | * 6 | Frequency Coarse
NRPN 0 | 6 | Envelope Generator Rate 1
NRPN 1 | 6 | Envelope Generator Rate 2
NRPN 2 | 6 | Envelope Generator Rate 3
NRPN 3 | 6 | Envelope Generator Rate 4
NRPN 4 | 6 | Envelope Generator Level 1
NRPN 5 | 6 | Envelope Generator Level 2
NRPN 6 | 6 | Envelope Generator Level 3
NRPN 7 | 6 | Envelope Generator Level 4
NRPN 8 | 6 | Keyboard Level Scaling Break Point
NRPN 9 | 6 | Keyboard Level Scaling Left Depth
NRPN 10 | 6 | Keyboard Level Scaling Right Depth
NRPN 11 | 6 | Keyboard Level Scaling Left Curve
NRPN 12 | 6 | Keyboard Level Scaling Right Curve
NRPN 13 | 6 | Keyboard Rate Scaling
NRPN 14 | 6 | Amp Mod Sensitivity
NRPN 15 | 6 | Keyboard Velocity Sensitivity
NRPN 16 | 6 | Operator Output Level
NRPN 17 | * 6 | Oscillator Mode
NRPN 18 | * 6 | Oscillator Frequency Coarse
NRPN 19 | * 6 | Oscillator Frequency Fine
NRPN 20 | * 6 | Oscillator Detune
NRPN 21 | 5 | Envelope Generator Rate 1
NRPN 22 | 5 | Envelope Generator Rate 2
NRPN 23 | 5 | Envelope Generator Rate 3
NRPN 24 | 5 | Envelope Generator Rate 4
NRPN 25 | 5 | Envelope Generator Level 1
NRPN 26 | 5 | Envelope Generator Level 2
NRPN 27 | 5 | Envelope Generator Level 3
NRPN 28 | 5 | Envelope Generator Level 4
NRPN 29 | 5 | Keyboard Level Scaling Break Point
NRPN 30 | 5 | Keyboard Level Scaling Left Depth
NRPN 31 | 5 | Keyboard Level Scaling Right Depth
NRPN 32 | 5 | Keyboard Level Scaling Left Curve
NRPN 33 | 5 | Keyboard Level Scaling Right Curve
NRPN 34 | 5 | Keyboard Rate Scaling
NRPN 35 | 5 | Amp Mod Sensitivity
NRPN 36 | 5 | Keyboard Velocity Sensitivity
NRPN 37 | 5 | Operator Output Level
NRPN 38 | * 5 | Oscillator Mode
NRPN 39 | * 5 | Oscillator Frequency Coarse
NRPN 40 | * 5 | Oscillator Frequency Fine
NRPN 41 | * 5 | Oscillator Detune
NRPN 42 | 4 | Envelope Generator Rate 1
NRPN 43 | 4 | Envelope Generator Rate 2
NRPN 44 | 4 | Envelope Generator Rate 3
NRPN 45 | 4 | Envelope Generator Rate 4
NRPN 46 | 4 | Envelope Generator Level 1
NRPN 47 | 4 | Envelope Generator Level 2
NRPN 48 | 4 | Envelope Generator Level 3
NRPN 49 | 4 | Envelope Generator Level 4
NRPN 50 | 4 | Keyboard Level Scaling Break Point
NRPN 51 | 4 | Keyboard Level Scaling Left Depth
NRPN 52 | 4 | Keyboard Level Scaling Right Depth
NRPN 53 | 4 | Keyboard Level Scaling Left Curve
NRPN 54 | 4 | Keyboard Level Scaling Right Curve
NRPN 55 | 4 | Keyboard Rate Scaling
NRPN 56 | 4 | Amp Mod Sensitivity
NRPN 57 | 4 | Keyboard Velocity Sensitivity
NRPN 58 | 4 | Operator Output Level
NRPN 59 | * 4 | Oscillator Mode
NRPN 60 | * 4 | Oscillator Frequency Coarse
NRPN 61 | * 4 | Oscillator Frequency Fine
NRPN 62 | * 4 | Oscillator Detune
NRPN 63 | 3 | Envelope Generator Rate 1
NRPN 64 | 3 | Envelope Generator Rate 2
NRPN 65 | 3 | Envelope Generator Rate 3
NRPN 66 | 3 | Envelope Generator Rate 4
NRPN 67 | 3 | Envelope Generator Level 1
NRPN 68 | 3 | Envelope Generator Level 2
NRPN 69 | 3 | Envelope Generator Level 3
NRPN 70 | 3 | Envelope Generator Level 4
NRPN 71 | 3 | Keyboard Level Scaling Break Point
NRPN 72 | 3 | Keyboard Level Scaling Left Depth
NRPN 73 | 3 | Keyboard Level Scaling Right Depth
NRPN 74 | 3 | Keyboard Level Scaling Left Curve
NRPN 75 | 3 | Keyboard Level Scaling Right Curve
NRPN 76 | 3 | Keyboard Rate Scaling
NRPN 77 | 3 | Amp Mod Sensitivity
NRPN 78 | 3 | Keyboard Velocity Sensitivity
NRPN 79 | 3 | Operator Output Level
NRPN 80 | * 3 | Oscillator Mode
NRPN 81 | * 3 | Oscillator Frequency Coarse
NRPN 82 | * 3 | Oscillator Frequency Fine
NRPN 83 | * 3 | Oscillator Detune
NRPN 84 | 2 | Envelope Generator Rate 1
NRPN 85 | 2 | Envelope Generator Rate 2
NRPN 86 | 2 | Envelope Generator Rate 3
NRPN 87 | 2 | Envelope Generator Rate 4
NRPN 88 | 2 | Envelope Generator Level 1
NRPN 89 | 2 | Envelope Generator Level 2
NRPN 90 | 2 | Envelope Generator Level 3
NRPN 91 | 2 | Envelope Generator Level 4
NRPN 92 | 2 | Keyboard Level Scaling Break Point
NRPN 93 | 2 | Keyboard Level Scaling Left Depth
NRPN 94 | 2 | Keyboard Level Scaling Right Depth
NRPN 95 | 2 | Keyboard Level Scaling Left Curve
NRPN 96 | 2 | Keyboard Level Scaling Right Curve
NRPN 97 | 2 | Keyboard Rate Scaling
NRPN 98 | 2 | Amp Mod Sensitivity
NRPN 99 | 2 | Keyboard Velocity Sensitivity
NRPN 100 | 2 | Operator Output Level
NRPN 101 | * 2 | Oscillator Mode
NRPN 102 | * 2 | Oscillator Frequency Coarse
NRPN 103 | * 2 | Oscillator Frequency Fine
NRPN 104 | * 2 | Oscillator Detune
NRPN 105 | 1 | Envelope Generator Rate 1
NRPN 106 | 1 | Envelope Generator Rate 2
NRPN 107 | 1 | Envelope Generator Rate 3
NRPN 108 | 1 | Envelope Generator Rate 4
NRPN 109 | 1 | Envelope Generator Level 1
NRPN 110 | 1 | Envelope Generator Level 2
NRPN 111 | 1 | Envelope Generator Level 3
NRPN 112 | 1 | Envelope Generator Level 4
NRPN 113 | 1 | Keyboard Level Scaling Break Point
NRPN 114 | 1 | Keyboard Level Scaling Left Depth
NRPN 115 | 1 | Keyboard Level Scaling Right Depth
NRPN 116 | 1 | Keyboard Level Scaling Left Curve
NRPN 117 | 1 | Keyboard Level Scaling Right Curve
NRPN 118 | 1 | Keyboard Rate Scaling
NRPN 119 | 1 | Amp Mod Sensitivity
NRPN 120 | 1 | Keyboard Velocity Sensitivity
NRPN 121 | 1 | Operator Output Level
NRPN 122 | * 1 | Oscillator Mode
NRPN 123 | * 1 | Oscillator Frequency Coarse
NRPN 124 | * 1 | Oscillator Frequency Fine
NRPN 125 | * 1 | Oscillator Detune
Fixed Point vs. Floating Point Rendering
========================================
hexter can be compiled to do its sound rendering using either
fixed-point math or floating-point math. The difference in sound
quality should not be audible, so the question of which type of math
to use becomes which type of math is faster. On many older
processors (e.g. PowerPC G4), the fixed-point math is substantially
faster. With newer processors, the speed of each type of math
depends on several factors, including the particular processor, the
compiler and the compiler options used. It is often surprising
which is faster for a given configuration!
On fairly normal posix systems (like Linux or OS X), you can compile
a small test program, to test which type of math is the fastest on
your processor. To do this, unpack the hexter tarball, cd into the
'fptest' directory, type 'make', then type './fptest'. After 30-60
seconds, you should see a summary of the test results.
By default, hexter is built to use fixed-point rendering. If your
test results say that floating-point is faster, then you can
configure hexter to use floating-point with the
'--enable-floating-point' configure option.
Here are some test results from a few machines. Lower percentages
indicate the faster mode.
Processor Fixed Point Floating Point
------------------------------------- ----------- --------------
PowerPC G4 800MHz 49.5% 100.0%
PowerPC G4 1.07GHz 49.8% 100.0%
Pentium III (Coppermine) 933MHz 100.0% 95.2%
Intel Core Duo 1.83GHz, OS X 10.4.9 100.0% 92.9%
Intel Core 2 Duo 2.4GHz, Linux 3.2 100.0% 96.1% *
Intel Core 2 Duo 2.4GHz, OS X 10.4.11 100.0% 91.4% *
Intel Core 2 Duo 2.4GHz, OS X 10.6.8 61.5% 100.0% *
Intel Core 2 Duo 2.5GHz, OS X 10.6.7 62.0% 100.0%
Intel Core i7, OS X 10.7 52.0% 100.0%
* These three all come from the same machine!
Frequently Asked Questions
==========================
Q. The plugin seems to work fine, but the GUI never appears. Why?
A. Make sure the hostname of your machine is resolvable (if not, the
OSC messages can't be sent between host and GUI). If your machine's
hostname is 'foo.bar.net', make sure you either have an entry for
'foo.bar.net' in /etc/hosts, or that your DNS server can resolve it.
Test this with e.g. 'ping foo.bar.net'. To test that the GUI itself
works, you can start it by itself (without a DSSI host) by giving it
the '-test' option, for example:
$ <prefix>/lib/dssi/hexter/hexter_gtk -test
Resources:
==========
http://en.wikipedia.org/wiki/Yamaha_DX7
The Wikipedia Yamaha DX7 page.
http://homepage.ntlworld.com/steve.sims/
Steve Sims' site with lots of information, patches, and links.
http://homepages.abdn.ac.uk/mth192/pages/html/dx7.html
Dave Benson's DX7 page, has much info as well as links to patch
files.
http://www.synthzone.com/yamaha.htm
The Synth Zone's collection of Yamaha links, which contains quite
a few links to patch file collections.