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Instruments new turn coordinator tube n' ball 2002-02-22 00:26:13 +00:00
747-uiuc-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
747-yasim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
a4-yasim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
beech99-uiuc-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
c172-ifr-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
c172-larcsim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
c172-set.xml Changes from Erik Hofman adding per-aircraft sound-configuration files 2002-02-27 14:22:05 +00:00
c172-uiuc-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
c172-yasim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
c182-set.xml Changes from Erik Hofman adding per-aircraft sound-configuration files 2002-02-27 14:22:05 +00:00
c310-set.xml Changes from Erik Hofman adding per-aircraft sound-configuration files 2002-02-27 14:22:05 +00:00
c310-uiuc-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
c310-yasim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
dc3-yasim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
harrier-yasim-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
README.xmlsound Added Erik Hofman's documentation on sound configuration files. 2002-02-27 14:36:59 +00:00
shuttle-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
X15-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00
x24b-set.xml Modified for Erik's sound-configuration changes. 2002-02-27 14:37:24 +00:00

  
<>
	This is the event seperator. The text inside the brackets
	can be anything. But since the text shows up in the property
	tree it is adviced to give it a meaningfull name like;
	crank, engine, rumble, gear, squeal, flap, wind, stall or click.

	The value can be defined multiple times, thus anything which is
	related may have the same name.

  <name>
	This defines the name of the event. This name is used internally
	and, although it can me defined multiple times, should have a
	unique value unless you realy know what you're doing.

	Defining it multiple times could lead to unexpected behaviour.
	
  <path>
	This defined th path to the sound file. The path is relative to the
	FlightGear root directory but could be specified absolue.

  <property>
	Define which property triggers the event, and reffers to a node
	in the FlightGear property tree.
	 
	The value is converted to an integer value (anything less than 0.5 is
	is considered to be 0) and handled if it were a boolean value
	(0 = false, anything else = true).

	The triger depends on the value of <type>.

  <type>
	This specifies how the event is triggered.
	There are multiple options:

	level: 		events are active if the value is true.
			this is the default behaviour.

	inverted:	events are active if the value is false.

	flipflop:	events are triggered on state changes.
			this is only usefull for samples which are played
			once.

  <mode>
	This defines how the sample should be played:

	once:		the sample is played once.
			this is the default.

	looped:		the sample plays continuesly,
			until the event turns false.

  
  <volume> / <pitch>
	Defines the following subsection.

    <property>
	Defins which property supplies the value for the calculation.
	The value is treatened as a floating point number.

    <type>
	lin:		lineair handling of the property value.
			this is the default.

	ln:		convert the property value to a natural logarithmic
			value before scaling it.

	log:		convert the property value to a true logarithmic
			value before scaling it.

    <scale>(**)
	Defines the multiplication factor for the property value.
	A special condition is when scale is defined as a negative
	value. In this case the result of |<scale>| * <property) will be
	subtracted from <default>

    <default>
	The initial value for this sound. This value is also used as an
	offset value for calulating the end result.

    <min>
	Minimum allowed value.
	This is usefull if sounds start to sound funny. Anything lower
	will be converted to 0.

    <max>

	Maximum allowed value.
	This is usefull if sounds gets to loud. Anything higher will be
	truncated to this value.


Calculations are made the following way:

if (scale < 0)
   value = default - abs(scale) * function(property)
else
   value = default + scale * function(property)

where function can be one of {none, log, log10}.