# Author: Jeff Grimmett (grimmtoo@softhome.net), adapted from original
# .wdr-derived demo
#
-# Created: 01/02/04
+# Created: 02-Jan-2004
# RCS-ID: $Id$
# Copyright:
# Licence: wxWindows license
import math
import wx
+haveJoystick = True
+if wx.Platform == "__WXMAC__":
+ haveJoystick = False
+
#----------------------------------------------------------------------------
-# For convenience
-spacer = (10, 10)
+# Once all supported versions of Python support 32-bit integers on all
+# platforms, this can go up to 32.
MAX_BUTTONS = 16
#----------------------------------------------------------------------------
#----------------------------------------------------------------------------
def runTest(frame, nb, log):
- win = JoystickDemoPanel(nb, log)
- return win
+ if haveJoystick:
+ win = JoystickDemoPanel(nb, log)
+ return win
+ else:
+ dlg = wx.MessageDialog(
+ frame, 'wx.Joystick is not available on this platform.',
+ 'Sorry', wx.OK | wx.ICON_INFORMATION
+ )
+ dlg.ShowModal()
+ dlg.Destroy()
+
#----------------------------------------------------------------------------
overview = """\
-
-
+<html>
+<body>
+<h1>wx.Joystick</h1>
+This demo illustrates the use of the wx.Joystick class, which is an interface to
+one or more joysticks attached to your system.
+
+<p>The data that can be retrieved from the joystick comes in four basic flavors.
+All of these are illustrated in the demo. In fact, this demo illustrates everything
+you <b>can</b> get from the wx.Joystick control.
+
+<ul>
+<li>Static information such as Manufacturer ID and model name,
+<li>Analog input from up to six axes, including X and Y for the actual stick,
+<li>Button input from the fire button and any other buttons that the stick has,
+<li>and the POV control (a kind of mini-joystick on top of the joystick) that many sticks come with.
+</ul>
+
+<p>Getting data from the joystick can be event-driven thanks to four event types associated
+with wx.JoystickEvent, or the joystick can be polled programatically to get data on
+a regular basis.
+
+<h2>Data types</h2>
+
+Data from the joystick comes in two flavors: that which defines the boundaries, and that
+which defines the current state of the stick. Thus, we have Get*Max() and Get*Min()
+methods for all axes, the max number of axes, the max number of buttons, and so on. In
+general, this data can be read once and stored to speed computation up.
+
+<h3>Analog Input</h3>
+
+Analog input (the axes) is delivered as a whole, positive number. If you need to know
+if the axis is at zero (centered) or not, you will first have to calculate that center
+based on the max and min values. The demo shows a bar graph for each axis expressed
+in native numerical format, plus a 'centered' X-Y axis compass showing the relationship
+of that input to the calculated stick position.
+
+Analog input may be jumpy and spurious, so the control has a means of 'smoothing' the
+analog data by setting a movement threshold. This demo sets the threshold to 10, but
+you can set it at any valid value between the min and max.
+
+<h3>Button Input</h3>
+
+Button state is retrieved as one int that contains each button state mapped to a bit.
+You get the state of a button by AND-ing its bit against the returned value, in the form
+
+<pre>
+ # assume buttonState is what the stick returned, and buttonBit
+ # is the bit you want to examine
+
+ if (buttonState & ( 1 << buttonBit )) :
+ # button pressed, do something with it
+</pre>
+
+<p>The problem here is that some OSs return a 32-bit value for up to 32 buttons
+(imagine <i>that</i> stick!). Python V2.3 will generate an exception for bit
+values over 30. For that reason, this demo is limited to 16 buttons.
+
+<p>Note that more than one button can be pressed at a time, so be sure to check all of them!
+
+
+<h3>POV Input</h3>
+
+POV hats come in two flavors: four-way, and continuous. four-way POVs are restricted to
+the cardinal points of the compass; continuous, or CTS POV hats can deliver input in
+.01 degree increments, theoreticaly. The data is returned as a whole number; the last
+two digits are considered to be to the right of the decimal point, so in order to
+use this information, you need to divide by 100 right off the bat.
+
+<p>Different methods are provided to retrieve the POV data for a CTS hat
+versus a four-way hat.
+
+<h2>Caveats</h2>
+
+The wx.Joystick control is in many ways incomplete at the C++ library level, but it is
+not insurmountable. In short, while the joystick interface <i>can</i> be event-driven,
+the wx.JoystickEvent class lacks event binders for all event types. Thus, you cannot
+rely on wx.JoystickEvents to tell you when something has changed, necessarilly.
+
+<ul>
+<li>There are no events associated with the POV control.
+<li>There are no events associated with the Rudder
+<li>There are no events associated with the U and V axes.
+</ul>
+
+<p>Fortunately, there is an easy workaround. In the top level frame, create a wx.Timer
+that will poll the stick at a set interval. Of course, if you do this, you might as
+well forgo catching wxEVT_JOYSTICK_* events at all and rely on the timer to do the
+polling.
+
+<p>Ideally, the timer should be a one-shot; after it fires, collect and process data as
+needed, then re-start the timer, possibly using wx.CallAfter().
+
+</body>
+</html>
"""
#----------------------------------------------------------------------------
if __name__ == '__main__':
import sys,os
import run
- run.main(['', os.path.basename(sys.argv[0])])
+ run.main(['', os.path.basename(sys.argv[0])] + sys.argv[1:])
projects / wxWidgets.git / blobdiff