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csndsugui is a toolkit for Csound-sugar |
csndsugui is a toolkit for [[Csound]]-[[sugar]] [[Activity]] development |
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== Writing activities using csndsugui == |
== Writing activities using csndsugui == |
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In general, Activities are |
In general, Activities are built according to the basic |
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procedures outlined in [[Activity tutorial]]. |
procedures outlined in [[Activity tutorial]]. |
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== Basics == |
== Basics == |
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*Import the relevant modules |
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import csndsugui |
import csndsugui |
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from sugar.activity import activity |
from sugar.activity import activity |
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*Create an empty activity class such as |
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class MyCsoundActivity(activity.Activity): |
class MyCsoundActivity(activity.Activity): |
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def __init__(self, handle): |
def __init__(self, handle): |
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activity.Activity.__init__(self, handle) |
activity.Activity.__init__(self, handle) |
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*Instantiate a CsoundGUI object, passing the activity instance as an argument: |
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activity instance as an argument: |
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win = csndsugui.CsoundGUI(self) |
win = csndsugui.CsoundGUI(self) |
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*Set and compile Csound code: |
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win.CSD("mycode.csd") |
win.CSD("mycode.csd") |
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| Line 50: | Line 48: | ||
win.slider(1.0,0.25,4.0,90,250,box,"pitch", linear=False) |
win.slider(1.0,0.25,4.0,90,250,box,"pitch", linear=False) |
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== Making the |
== Making the connections == |
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In your Csound code, you can retrieve the value |
In your Csound code, you can retrieve the value |
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| Line 60: | Line 58: | ||
Channel names will be linked to widget labels ("oscil" and |
Channel names will be linked to widget labels ("oscil" and |
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"pitch" in the example above) |
"pitch" in the example above) |
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Most widgets will work within the principles outlined |
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Most widgets will work within the principle outlined |
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above. Important exceptions are: |
above. Important exceptions are: |
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Message button: |
*Message button: |
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mbutton(self,box,mess,title="") |
mbutton(self,box,mess,title="") |
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| Line 71: | Line 68: | ||
but f-statements are also possibilities). |
but f-statements are also possibilities). |
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Callback button: |
*Callback button: |
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cbbutton(self,box,callback,title="") |
cbbutton(self,box,callback,title="") |
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| Line 81: | Line 78: | ||
not captured by the software bus. Instead, they |
not captured by the software bus. Instead, they |
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can control Csound performance, starting, pausing |
can control Csound performance, starting, pausing |
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and |
and resetting Csound performance (they are linked |
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to CsoundGUI.play(), CsoundGUI.pause() and |
to CsoundGUI.play(), CsoundGUI.pause() and |
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CsoundGUI.reset() methods.) |
CsoundGUI.reset() methods.) |
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== A complete example == |
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On-line help can be obtained by importing the |
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csndsugui module and involking help(csndsugui). |
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Here is a complete Activity script of a simple csndsugui example. It uses |
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banks of buttons and sliders: |
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{{ Box File | WavesActivity.py | 2=<pre> |
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import csndsugui |
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from sugar.activity import activity |
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class Waves(activity.Activity): |
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def __init__(self, handle): |
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activity.Activity.__init__(self, handle) |
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# colours |
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red = (0xFFFF,0,0) |
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bg = (0xF000, 0xFF00, 0xFFFF) |
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win = csndsugui.CsoundGUI(self,bg) |
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win.csd("waves.csd") |
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txt = win.text("Making Waves") |
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sfbox = win.box(False) |
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bfbox = win.box(False) |
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sbox = win.framebox("frequencies", False, sfbox, red, 40) |
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bbox = win.framebox("oscillators", False, bfbox, red, 40) |
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win.buttonbank(8,bbox) |
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win.spin(0,0,10,0.5,1,bbox,0, "main_volume") |
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win.vsliderbank(8,400.0,400.0,500.0,80,200,sbox) |
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win.play() |
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</pre> |
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}} |
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The Csound code that goes with it is shown below. It is based |
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on two instruments: instr 1 triggers instances (up to 8) of |
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instr 2, which produces the sound. Instances are trigger on/off |
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depending on button values (0 =not clicked, 1 = clicked): |
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{{ Box File | waves.csd | 2=<pre> |
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<CsoundSynthesizer> |
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<CsOptions> |
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-odac -B2048 -b1024 -d |
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</CsOptions> |
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<CsInstruments> |
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/* button channels */ |
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gkb1 chnexport "B1", 1 |
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gkb2 chnexport "B2", 1 |
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gkb3 chnexport "B3", 1 |
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gkb4 chnexport "B4", 1 |
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gkb5 chnexport "B5", 1 |
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gkb6 chnexport "B6", 1 |
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gkb7 chnexport "B7", 1 |
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gkb8 chnexport "B8", 1 |
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/* this instrument just triggers |
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instr 2 depending on the status |
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of buttons B1-B8 */ |
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instr 1 |
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k1 init 1 |
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k2 init 1 |
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k3 init 1 |
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k4 init 1 |
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k5 init 1 |
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k6 init 1 |
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k7 init 1 |
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k8 init 1 |
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if gkb1 == 1 then |
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if k1 == 1 then |
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event "i", 11.1, 0, -1, 1 |
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k1=0 |
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endif |
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else |
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if k1 == 0 then |
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event "i", -11.1, 0, -1,1 |
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k1=1 |
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endif |
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endif |
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if gkb2 == 1 then |
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if k2 == 1 then |
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event "i", 11.2, 0, -1, 2 |
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k2=0 |
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endif |
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else |
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if k2 == 0 then |
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event "i", -11.2, 0, -1, 2 |
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k2=1 |
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endif |
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endif |
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if gkb3 == 1 then |
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if k3 == 1 then |
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event "i", 11.3, 0, -1, 3 |
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k3=0 |
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endif |
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else |
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if k3 == 0 then |
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event "i", -11.3, 0, -1, 3 |
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k3=1 |
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endif |
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endif |
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if gkb4 == 1 then |
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if k4 == 1 then |
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event "i", 11.4, 0, -1, 4 |
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k4=0 |
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endif |
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else |
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if k4 == 0 then |
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event "i", -11.4, 0, -1, 4 |
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k4=1 |
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endif |
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endif |
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if gkb5 == 1 then |
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if k5 == 1 then |
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event "i", 11.5, 0, -1, 5 |
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k5=0 |
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endif |
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else |
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if k5 == 0 then |
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event "i", -11.5, 0, -1, 5 |
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k5=1 |
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endif |
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endif |
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if gkb6 == 1 then |
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if k6 == 1 then |
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event "i", 11.6, 0, -1, 6 |
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k6=0 |
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endif |
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else |
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if k6 == 0 then |
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event "i", -11.6, 0, -1, 6 |
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k6=1 |
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endif |
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endif |
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if gkb7 == 1 then |
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if k7 == 1 then |
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event "i", 11.7, 0, -1, 7 |
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k7=0 |
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endif |
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else |
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if k7 == 0 then |
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event "i", -11.7, 0, -1, 7 |
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k7=1 |
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endif |
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endif |
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if gkb8 == 1 then |
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if k8 == 1 then |
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event "i", 11.8, 0, -1, 8 |
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k8=0 |
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endif |
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else |
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if k8 == 0 then |
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event "i", -11.8, 0, -1, 8 |
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k8=1 |
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endif |
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endif |
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endin |
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/* This is the synthesis instrument */ |
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instr 11 |
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/* This concatenates the instance number (p4) |
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and the slider number */ |
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S1 sprintf "S%d", p4 |
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/* This takes in control from sliders S1-S8 */ |
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k1 chnget S1 |
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/* This takes in the main volume control */ |
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k2 chnget "main_volume" |
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/* smoothing the volume control */ |
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kv tonek k2/10, 10 |
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/* amplitude envelope */ |
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ka linenr 2000*kv,0.1,0.1,0.05 |
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/* oscillator */ |
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a1 oscili ka, k1, 1 |
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out a1 |
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endin |
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</CsInstruments> |
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<CsScore> |
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f1 0 1024 10 1 0.5 0.3 0.25 0.2 0.18 0.15 0.13 0.11 0.1 0.09 |
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i1 0 3600 |
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</CsScore> |
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</CsoundSynthesizer> |
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</pre> |
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}} |
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== Further help and where to get it == |
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On-line help can be obtained by using PyDoc. See also examples in the |
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csndsugui repository [http://dev.laptop.org/git/activities/csndsugui] where you |
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can also get the latest code and a PyDoc-generated HTML reference file. |
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[[Category:Audio]] |
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[[Category:Developers]] |
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Latest revision as of 00:38, 15 August 2008
csndsugui is a toolkit for Csound-sugar Activity development
Writing activities using csndsugui
In general, Activities are built according to the basic procedures outlined in Activity tutorial.
Basics
- Import the relevant modules
import csndsugui from sugar.activity import activity
- Create an empty activity class such as
class MyCsoundActivity(activity.Activity):
def __init__(self, handle):
activity.Activity.__init__(self, handle)
- Instantiate a CsoundGUI object, passing the activity instance as an argument:
win = csndsugui.CsoundGUI(self)
- Set and compile Csound code:
win.CSD("mycode.csd")
It is CRUCIAL that Csound compiles successfully before the widgets below are created. Otherwise they will not be assigned channels in the software bus and thus will not communicate with Csound. This method returns 0 if successful.
Adding Widgets
Use boxes to format and contain widgets, child boxes can be contained within parent boxes. The top-level box does not have any parents.
box = win.box()
See the documentation on PyGTK on how boxes are used to set the formatting. CsoundGUI will take care of all the packing for you. You can then add widgets to it, ie:
win.button(box,"oscil") win.slider(1.0,0.25,4.0,90,250,box,"pitch", linear=False)
Making the connections
In your Csound code, you can retrieve the value of each of the controls in channels of the software bus:
kosc chnget "oscil" kpit chnget "pitch"
Channel names will be linked to widget labels ("oscil" and "pitch" in the example above) Most widgets will work within the principles outlined above. Important exceptions are:
- Message button:
mbutton(self,box,mess,title="")
where mess is a RT score event or message to be sent to Csound (in most cases an i-statement, but f-statements are also possibilities).
- Callback button:
cbbutton(self,box,callback,title="")
where callback is a Python function that will be invoked when the button is clicked.
Special button names: "play", "pause" and "reset". These are assigned special messages that are not captured by the software bus. Instead, they can control Csound performance, starting, pausing and resetting Csound performance (they are linked to CsoundGUI.play(), CsoundGUI.pause() and CsoundGUI.reset() methods.)
A complete example
Here is a complete Activity script of a simple csndsugui example. It uses banks of buttons and sliders:
| File: WavesActivity.py |
import csndsugui
from sugar.activity import activity
class Waves(activity.Activity):
def __init__(self, handle):
activity.Activity.__init__(self, handle)
# colours
red = (0xFFFF,0,0)
bg = (0xF000, 0xFF00, 0xFFFF)
win = csndsugui.CsoundGUI(self,bg)
win.csd("waves.csd")
txt = win.text("Making Waves")
sfbox = win.box(False)
bfbox = win.box(False)
sbox = win.framebox("frequencies", False, sfbox, red, 40)
bbox = win.framebox("oscillators", False, bfbox, red, 40)
win.buttonbank(8,bbox)
win.spin(0,0,10,0.5,1,bbox,0, "main_volume")
win.vsliderbank(8,400.0,400.0,500.0,80,200,sbox)
win.play()
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The Csound code that goes with it is shown below. It is based
on two instruments: instr 1 triggers instances (up to 8) of
instr 2, which produces the sound. Instances are trigger on/off
depending on button values (0 =not clicked, 1 = clicked):
| File: waves.csd |
<CsoundSynthesizer>
<CsOptions>
-odac -B2048 -b1024 -d
</CsOptions>
<CsInstruments>
/* button channels */
gkb1 chnexport "B1", 1
gkb2 chnexport "B2", 1
gkb3 chnexport "B3", 1
gkb4 chnexport "B4", 1
gkb5 chnexport "B5", 1
gkb6 chnexport "B6", 1
gkb7 chnexport "B7", 1
gkb8 chnexport "B8", 1
/* this instrument just triggers
instr 2 depending on the status
of buttons B1-B8 */
instr 1
k1 init 1
k2 init 1
k3 init 1
k4 init 1
k5 init 1
k6 init 1
k7 init 1
k8 init 1
if gkb1 == 1 then
if k1 == 1 then
event "i", 11.1, 0, -1, 1
k1=0
endif
else
if k1 == 0 then
event "i", -11.1, 0, -1,1
k1=1
endif
endif
if gkb2 == 1 then
if k2 == 1 then
event "i", 11.2, 0, -1, 2
k2=0
endif
else
if k2 == 0 then
event "i", -11.2, 0, -1, 2
k2=1
endif
endif
if gkb3 == 1 then
if k3 == 1 then
event "i", 11.3, 0, -1, 3
k3=0
endif
else
if k3 == 0 then
event "i", -11.3, 0, -1, 3
k3=1
endif
endif
if gkb4 == 1 then
if k4 == 1 then
event "i", 11.4, 0, -1, 4
k4=0
endif
else
if k4 == 0 then
event "i", -11.4, 0, -1, 4
k4=1
endif
endif
if gkb5 == 1 then
if k5 == 1 then
event "i", 11.5, 0, -1, 5
k5=0
endif
else
if k5 == 0 then
event "i", -11.5, 0, -1, 5
k5=1
endif
endif
if gkb6 == 1 then
if k6 == 1 then
event "i", 11.6, 0, -1, 6
k6=0
endif
else
if k6 == 0 then
event "i", -11.6, 0, -1, 6
k6=1
endif
endif
if gkb7 == 1 then
if k7 == 1 then
event "i", 11.7, 0, -1, 7
k7=0
endif
else
if k7 == 0 then
event "i", -11.7, 0, -1, 7
k7=1
endif
endif
if gkb8 == 1 then
if k8 == 1 then
event "i", 11.8, 0, -1, 8
k8=0
endif
else
if k8 == 0 then
event "i", -11.8, 0, -1, 8
k8=1
endif
endif
endin
/* This is the synthesis instrument */
instr 11
/* This concatenates the instance number (p4)
and the slider number */
S1 sprintf "S%d", p4
/* This takes in control from sliders S1-S8 */
k1 chnget S1
/* This takes in the main volume control */
k2 chnget "main_volume"
/* smoothing the volume control */
kv tonek k2/10, 10
/* amplitude envelope */
ka linenr 2000*kv,0.1,0.1,0.05
/* oscillator */
a1 oscili ka, k1, 1
out a1
endin
</CsInstruments>
<CsScore>
f1 0 1024 10 1 0.5 0.3 0.25 0.2 0.18 0.15 0.13 0.11 0.1 0.09
i1 0 3600
</CsScore>
</CsoundSynthesizer>
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Further help and where to get it
On-line help can be obtained by using PyDoc. See also examples in the csndsugui repository [1] where you can also get the latest code and a PyDoc-generated HTML reference file.