improvements to documentation

host_usb_mixer_control/README

@@ -59,7 +59,7 @@ Get the weight value in the mixer. The second argument should
 correspond to the values shown by the --display-unit command. Values
 can range from -127db to +128db with the special value -inf for mute.
 
-    --set-mixer-souces  mixer_id, dst_channel_id, src_channel_id
+    --set-mixer-source  mixer_id, dst_channel_id, src_channel_id
 
 Allows the selection of the mixer inputs.  Sets mixer input (dst) to src
 

host_usb_mixer_control/Win32/global.h

@@ -51,9 +51,11 @@
 // version defs
 //#include "version.h"
 
-
+// libwn.h pulls in windows.h
+#include "libwn.h"
 // TUSBAUDIO driver API
 #include "tusbaudioapi.h"
+#include "TUsbAudioApiDll.h"
 
 
 #endif  // __global_h__

host_usb_mixer_control/Win32/usb_mixer.cpp

@@ -4,14 +4,6 @@
 #include "usb_mixer.h"
 #include "global.h"
 
-
-//########## Thesycon .dll ##########
-// libwn.h pulls in windows.h
-#include "libwn.h"
-// TUSBAUDIO driver API
-#include "tusbaudioapi.h"
-#include "TUsbAudioApiDll.h"
-
 //driver interface
 TUsbAudioApiDll gDrvApi;
 

lib_xua/doc/rst/sw_mixer.rst

@@ -104,76 +104,127 @@ The main requirements of this control utility are to
 Whilst using the XMOS Host control example application, consider the example of setting the
 mixer to perform a loop-back from analogue inputs 1 and 2 to analogue outputs 1 and 2. 
 
+.. note::
+
+    The command outputs shown are examples, actual output will depend on the mixer configuration.
+
 Firstly consider the inputs to the mixer. The following will displays which channels are mapped 
 to which mixer inputs:: 
 
-  ./xmos_mixer --display-aud-channel-map 0
+  $ ./xmos_mixer --display-aud-channel-map
+
+    Audio Output Channel Map
+    ------------------------
+  
+  0 (DEVICE OUT - Analogue 1) source is  0 (DAW OUT - Analogue 1)
+  1 (DEVICE OUT - Analogue 2) source is  1 (DAW OUT - Analogue 2)
+  2 (DEVICE OUT - SPDIF 1) source is  8 (DAW OUT - SPDIF 1)
+  3 (DEVICE OUT - SPDIF 2) source is  9 (DAW OUT - SPDIF 1)
+  $ _
+
+This displays which channels are mapped to which outputs. By default all
+of these bypass the mixer.
 
 The following command will displays which channels could possibly be mapped to mixer inputs. Notice
 that analogue inputs 1 and 2 are on mixer inputs 10 and 11::
 
-./xmos_mixer --display-aud-channel-map-sources 0
+  $ ./xmos_mixer --display-aud-channel-map-sources
 
-Now examine the audio output mapping using the following command::
+    Audio Output Channel Map Source List
+    ------------------------------------
 
-  ./xmos_mixer --display-aud-channel-map 0
+  0 (DAW OUT - Analogue 1)
+  1 (DAW OUT - Analogue 2)
+  2 (DAW OUT - SPDIF 1)
+  3 (DAW OUT - SPDIF 2)
+  4 (DEVICE IN - Analogue 1)
+  5 (DEVICE IN - Analogue 2)
+  6 (MIX - Mix 1)
+  7 (MIX - Mix 2)
+  $ _
 
-This displays which channels are mapped to which outputs. By default all
-of these bypass the mixer. We can also see what all the possible
-mappings are with the following command::
+Using the indexes output from the previous command, we will now map the first two mixer outputs to physical outputs 1 and 2::
 
-  ./xmos_mixer --display-aud-channel-map-sources 0
-
-We will now map the first two mixer outputs to physical outputs 1 and 2::
-
-  ./xmos_mixer --set-aud-channel-map 0 26
-  ./xmos_mixer --set-aud-channel-map 1 27
+  $ ./xmos_mixer --set-aud-channel-map 0 6
+  $ ./xmos_mixer --set-aud-channel-map 1 7
+  $ _
 
 You can confirm the effect of this by re-checking the map::
 
-  ./xmos_mixer --display-aud-channel-map 0
+  $ ./xmos_mixer --display-aud-channel-map
+
+    Audio Output Channel Map
+    ------------------------
+  
+  0 (DEVICE OUT - Analogue 1) source is  0 (MIX - Mix 1)
+  1 (DEVICE OUT - Analogue 2) source is  1 (MIX - Mix 2)
+  2 (DEVICE OUT - SPDIF 1) source is  8 (DAW OUT - SPDIF 1)
+  3 (DEVICE OUT - SPDIF 2) source is  9 (DAW OUT - SPDIF 1)
+  $ _
 
 This now derives analogue outputs 1 and 2 from the mixer, rather than directly from USB. However,
 since the mixer is still mapped to pass the USB channels through to the outputs there will be no
 functional change.
 
-The mixer nodes need to be individually set. They can be displayed
+The mixer nodes need to be individually set. The nodes in mixer_id 0 can be displayed
 with the following command::
 
-  ./xmos_mixer --display-mixer-nodes 0
+  $ ./xmos_mixer --display-mixer-nodes 0
 
-To get the audio from the analogue inputs to outputs 1 and 2, nodes 80
-and 89 need to be set::
+    Mixer Values (0)
+    ----------------
 
-  ./xmos_mixer --set-value 0 80 0
-  ./xmos_mixer --set-value 0 89 0
+                         Mixer outputs
+                                  1              2
+    DAW - Analogue 1       0:[0000.000]   1:[  -inf  ]
+    DAW - Analogue 2       2:[  -inf  ]   3:[0000.000]
+    DAW - SPDIF 1          4:[  -inf  ]   5:[  -inf  ]
+    DAW - SPDIF 1          6:[  -inf  ]   7:[  -inf  ]
+    AUD - Analogue 1       8:[  -inf  ]   9:[  -inf  ]
+    AUD - Analogue 2      10:[  -inf  ]  11:[  -inf  ]
+  $ _
+
+To get the audio from the analogue inputs to outputs 1 and 2, mixer_id 0 node 8
+and node 11 need to be set to 0::
+
+  $ ./xmos_mixer --set-value 0 8 0
+  $ ./xmos_mixer --set-value 0 11 0
+  $ _
 
 At the same time, the original mixer outputs can be muted::
 
-  ./xmos_mixer --set-value 0 0 -inf
-  ./xmos_mixer --set-value 0 9 -inf
+  $ ./xmos_mixer --set-value 0 0 -inf
+  $ ./xmos_mixer --set-value 0 3 -inf
+  $ _
 
-Now audio inputs on analogue 1/2 should be heard on outputs 1/2. 
+Now audio inputs on analogue 1 and 2 should be heard on outputs 1 and 2 respectively. 
 
-As mentioned above, the flexibility of the mixer is such that there will be multiple ways to create
-a particular mix. Another option to create the same routing would be to change the mixer sources
-such that mixer 1/2 outputs come from the analogue inputs. 
+.. As mentioned above, the flexibility of the mixer is such that there will be multiple ways to create
+.. a particular mix. Another option to create the same routing would be to change the mixer sources
+.. such that mixer outputs 1 and 2 come from the analogue inputs 1 and 2. 
 
-To demonstrate this, firstly undo the changes above (or simply reset the device)::
+.. To demonstrate this, firstly undo the changes above (or simply reset the device)::
 
-  ./xmos_mixer --set-value 0 80 -inf
-  ./xmos_mixer --set-value 0 89 -inf
-  ./xmos_mixer --set-value 0 0 0
-  ./xmos_mixer --set-value 0 9 0
+..   $ ./xmos_mixer --set-value 0 8 -inf
+..   $ ./xmos_mixer --set-value 0 11 -inf
+..   $ ./xmos_mixer --set-value 0 0 0
+..   $ ./xmos_mixer --set-value 0 3 0
+..   $ _
 
-The mixer should now have the default values. The sources for mixer 1/2 can now be changed::
+.. The mixer should now have the default values. The sources for mixer 0 output 1 and 2 can now be changed 
+.. using indices from the Audio Output Channel Map Source List::
 
-  ./xmos_mixer --set-mixer-source 0 0 10
-  ./xmos_mixer --set-mixer-source 0 1 11
+..   $ ./xmos_mixer --set-mixer-source 0 0 4
 
-If you re-run the following command then the first column now has "AUD - Analogue 1 and 2" rather
-than "DAW (Digital Audio Workstation i.e. the host) - Analogue 1 and 2" confirming the new mapping. 
-Again, by playing audio into analogue inputs 1/2 this can be heard looped through to analogue outputs 1/2::
+..      Set mixer(0) input 0 to device input 4 (AUD - Analogue 1)
+..   $ ./xmos_mixer --set-mixer-source 0 1 5
+
+..      Set mixer(0) input 1 to device input 5 (AUD - Analogue 2)
+..   $ _
+
+.. If you re-run the following command then the first column now has "AUD - Analogue 1 and 2" rather
+.. than "DAW (Digital Audio Workstation i.e. the host) - Analogue 1 and 2" confirming the new mapping. 
+.. Again, by playing audio into analogue inputs 1/2 this can be heard looped through to analogue outputs 1/2::
   
-    ./xmos_mixer --display-mixer-nodes 0
+..   $ ./xmos_mixer --display-mixer-nodes 0