Filenames changes, spelling and puctuation fixes, wording fixes.

This commit is contained in:
Len Ovens 2015-08-04 17:06:04 -07:00
parent 31f905f631
commit 5073a2bef0
6 changed files with 66 additions and 49 deletions

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@ -22,8 +22,8 @@ menu_title: Mackie/Logic Control Devices
<p>
From the selector at the top, choose the type of device you are using.
(<a
href="/using-control-surfaces/devices-using-mackielogic-control-protocol/devices_not_listed.html">
What do do if your device is not listed</a>).
href="/using-control-surfaces/devices-using-mackielogic-control-protocol/devices-not-listed/">
What to do if your device is not listed</a>).
</p>
<p>
Once your setup is complete, click "OK" to close the dialog. Now click

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@ -1,8 +1,8 @@
---
layout: default
title: What to if your Device is not Listed
title: What to do if your Device is not Listed
menu_title: Unlisted devices
---
---
<p>
All Mackie Control devices are based on the original Logic Control and the

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@ -0,0 +1,50 @@
---
layout: default
title: Working With Extenders
menu_title: Working With Extenders
---
<p>
Extenders will require a custom file as there are no combinations listed
at this time. The best way is to start with the mc.device file and copy it
to a new name such as xt+mc.device and then edit that file. It is best to
name the file with the order the devices are expected to be used in as
the position of the master device is specified in this file.
</p>
<p>
The two lines of interest are:
<p>
<pre>
&lt;Extenders value="0"/&gt;
&lt;MasterPosition value="0"/&gt;
</pre>
<p>
Add these two lines if they are not present. The <code>Extenders</code>
value is the number of extenders used and should not include the master in
that number.
</p>
<p>
When an <code>Extenders</code> value of greater than 0 is used, extra midi
ports will appear for the extenders to be connected to. <code>mackie
control</code> will remain always the leftmost controller. The MIDI ports
for any extra controlers will be named <code>mackie control #2</code> and
up. The numbers will go from left to right.
</p>
<p>
The <code>MasterPosition</code> value is the number of positions from
left to where the master unit (with the master fader) is. So if there are
three surfaces, <code>&lt;MasterPosition value="1"/&gt;</code> will expect
the master on the left, <code>&lt;MasterPosition value="2"/&gt;</code>
would be master in the middle and <code>&lt;MasterPosition
value="3"/&gt;</code> would be master on the right. So the position
matches the port name.
</p>
<p class="note">
The default value of <code>&lt;MasterPosition value="0"/&gt;</code> has
the same effect as <code>&lt;MasterPosition value="1"/&gt;</code>.
</p>
<p>
If the <code>MasterPosition</code> value does not properly match the
physcal position and MIDI port, the master fader and global controls will
not work. The master unit will act like an extender.
</p>

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@ -1,36 +0,0 @@
---
layout: default
title: Working With Extenders
menu_title: Working With Extenders
---
<p>
Extenders will require a custom file as there are no combinations listed
at this time. The best way is to start with the mc.device file and copy it
to a new name such as xt+mc.device and then edit that file. It is best to
name the file with the order the devices are expected to be used in as
the position of the master device is specified in this file.
</p>
<p>
The two lines of interest are:
<p>
<pre>
&gt;Extenders value="0"/&gt;
&gt;MasterPosition value="0"/&gt;
</pre>
<p>
Add these two lines if they are not present. The <code>Extenders</code>
value is the number of extenders used and should not include the master in
that number. That is, it should be the total number of units minus 1. The
<code>MasterPosition</code> value is the position from left to right where
the master unit (with the master fader) is, starting at 0. So if there are
three surfaces, <code>MasterPosition</code> with value 0 would be master
on the left, <code>MasterPosition</code> with value 1 would be master in
the middle and <code>MasterPosition</code> with value 2 would be master on
the right.
</p>
<p>
If the <code>MasterPosition</code> value does not properly match the
physcal position and MIDI port, the master fader and global controls will
not work. The master unit will act like an extender.
</p>

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@ -119,8 +119,10 @@ bindings"&gt;
<code>enc-b</code> may be used for surfaces that have encoders that send
offsets rather than values. These accept Continuous Controller messages
but treat them as offsets. These are good for banked controls as they are
always at the right spot to start adjusting. See the link at the bottom of
the page for a longer explanation.
always at the right spot to start adjusting. (
<a href="/using-control-surfaces/midi-binding-maps/working-with-encoders/">
Learn more about working with encoders
</a>)
</p>
<p>
You can also bind sysex messages:

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@ -7,12 +7,12 @@ menu_title: Working With Encoders
<p>
Encoders are showing up more frequently on controllers. However, they use
the same MIDI events as Continuous Controllers and they have no standard
way of working. Ardour has implemented 4 of the more common ways of
sending encoder information.
way of sending that information as MIDI events. Ardour has implemented 4 of
the more common ways of sending encoder information.
</p>
<p>
Encoders that send the same continuous values as a pot would are not
discussed here as they work the same.
discussed here as they are already supported by <code>ctl</code>.
</p>
<P>
Encoders as this page talks about them send direction and offset that the
@ -23,27 +23,28 @@ menu_title: Working With Encoders
</p>
<ul>
<li>
enc-r - On the bcr/bcf2000 this is called "Relative Signed Bit". The most
enc-r: On the bcr/bcf2000 this is called "Relative Signed Bit". The most
significant bit sets positive and the lower 6 signifcant bits are the
offset.
</li>
<li>
enc-l - The bcr2000 calls this "Relative Signed Bit 2". The most
enc-l: The bcr2000 calls this "Relative Signed Bit 2". The most
significant bit sets negative and the lower 6 signifcant bits are the
offset. If you are using one of these two and the values are right but
reversed, use the other. This one is the one the Mackie Control Protocol
uses.
</li>
<li>
enc-2 - The bcr2000 calls this one "Relative 2s Complement". Positive
enc-2: The bcr2000 calls this one "Relative 2s Complement". Positive
offsets are sent as normal from 1 to 64 and negative offsets are sent as
2s complement negative numbers.
</li>
<li>
enc-b - The bcr2000 calls this one "Relative Binary Offset". Positive
enc-b: The bcr2000 calls this one "Relative Binary Offset". Positive
offsets are sent as offset plus 64 and negative offsets are sent as 64
minus offset.
</li>
</ul>
<p>
If the wrong one is chosen, either the positive or negative side will act
incorrectly. It is not really possible to auto detect which one the