Difference between revisions of "LlRotLookAt"
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{{LSL_Function | {{LSL_Function | ||
|inject-2={{Issues/SVC-1903}} | |||
{{LSL Function/damping|damping}} | |||
{{LSL Function/strength|strength}} | |||
{{LSL Function/rotation|target_direction|region=*}} | |||
|func_id=127|func_sleep=0.0|func_energy=10.0 | |func_id=127|func_sleep=0.0|func_energy=10.0 | ||
|func=llRotLookAt|p1_type=rotation|p1_name= | |func=llRotLookAt | ||
|func_footnote | |p1_type=rotation|p1_name=target_direction | ||
|func_desc= | |p2_type=float|p2_name=strength | ||
|p3_type=float|p3_name=damping | |||
|func_footnote=To change the position in the same manner, use [[llMoveToTarget]]. For physical objects a range between .2 and 1 is good for both parameters. | |||
|func_desc=Causes an object to smoothly rotate to {{LSLP|target_direction}} with {{LSLP|strength}} resistance at {{LSLP|damping}} force. | |||
Maintains rotation {{LSLP|target_direction}} until stopped with [[llStopLookAt]]. | |||
|return_text | |return_text | ||
|spec | |spec | ||
|caveats | |caveats= | ||
* In Non-Physical objects this function operates effectively the same as [[llSetLocalRot]]. | |||
* {{LSLP|damping}} seems to be capped at 1.0; greater values are reduced to 1.0 ''(Tested 21 October 2010 on server version 10.10.18.212360)'' | |||
|constants | |constants | ||
|examples | |examples= | ||
|helpers | ==== Point the prim's positive y axis (''<0.0, 1.0, 0.0>'') towards a position on the sim ==== | ||
|also_functions | <source lang="lsl2"> | ||
//-- where vPosTarget is the global position of the object you want to "look" at | |||
llRotLookAt( llRotBetween( <0.0,1.0,0.0>, llVecNorm( vPosTarget - llGetPos() ) ), 1.0, 0.4 ); // Point +Y axis towards vPosTarget | |||
</source> | |||
* '''vPosTarget - llGetPos()''' converts the global coordinates of the objects, to a local distance and direction from the object pointing | |||
* Per [[llRotBetween]] article: | |||
** '''llRotBetween''' returns a scaled rotation, unless both inputs are equal magnitude (e.g. unit vector). | |||
** The use of [[llVecNorm]] reduces the magnitude to 1 (so that both are equal magnitude), preventing errors. | |||
==== Constraining the Rotation to One Axis ==== | |||
<source lang="lsl2"> | |||
vector detected = llDetectedPos( 0 ); | |||
vector pos = llGetPos(); | |||
llRotLookAt( llRotBetween( <0.0, 1.0, 0.0>, llVecNorm( <detected.x, detected.y, pos.z> - pos ) ), 1.0, 0.4 ); | |||
</source> | |||
|helpers= | |||
* If you want a (mostly) smooth ''constant'' (rather than damped) rate of motion in a non-physical object try this | |||
<source lang="lsl2"> | |||
//-- Rotates Object to vRotTarget at vFltRate (in radians per second | |||
//-- vFltRate < ~0.00000003rad/sec, (~0.00002deg/sec) will result in errors (and is just too slow anyway) | |||
//-- vFltRate >= (PI * 5.0)rad/sec, (900deg/sec) will result in a single snap move to vRotTarget | |||
uSteppedRotLookAt( rotation vRotTarget, float vFltRate ){ | |||
if ((integer)(vFltRate = (llAngleBetween( llGetLocalRot(), vRotTarget ) / (vFltRate / 5.0)))){ | |||
rotation vRotStep = llAxisAngle2Rot( llRot2Axis( vRotTarget / llGetLocalRot() ), | |||
(1.0 / vFltRate) * llRot2Angle( vRotTarget / llGetLocalRot() ) ); | |||
vFltRate = (integer)vFltRate; | |||
do{ | |||
llSetLocalRot( vRotStep * llGetLocalRot() ); | |||
}while (--vFltRate); | |||
} | |||
llSetLocalRot( vRotTarget ); | |||
} //-- for fixed time on any rotation try llSetKeyframedMotion | |||
</source> | |||
|also_functions= | |||
{{LSL DefineRow||[[llLookAt]]}} | |||
{{LSL DefineRow||[[llStopLookAt]]}} | |||
{{LSL DefineRow||[[llSetPhysicsMaterial]]}} | |||
{{LSL DefineRow||[[llSetKeyframedMotion]]}} | |||
|also_events | |also_events | ||
|also_tests | |also_tests | ||
| Line 19: | Line 67: | ||
|sort=RotLookAt | |sort=RotLookAt | ||
|cat1=Physics | |cat1=Physics | ||
|cat2= | |cat2=Target | ||
|cat3 | |cat3=Rotation | ||
|cat4 | |cat4 | ||
}} | }} | ||
Revision as of 14:39, 22 January 2015
| LSL Portal | Functions | Events | Types | Operators | Constants | Flow Control | Script Library | Categorized Library | Tutorials |
Summary
Function: llRotLookAt( rotation target_direction, float strength, float damping );| 127 | Function ID |
| 0.0 | Forced Delay |
| 10.0 | Energy |
Causes an object to smoothly rotate to target_direction with strength resistance at damping force.
Maintains rotation target_direction until stopped with llStopLookAt.
| • rotation | target_direction | |||
| • float | strength | |||
| • float | damping | – | seconds to critically damp in |
To change the position in the same manner, use llMoveToTarget. For physical objects a range between .2 and 1 is good for both parameters.
Caveats
- In Non-Physical objects this function operates effectively the same as llSetLocalRot.
- damping seems to be capped at 1.0; greater values are reduced to 1.0 (Tested 21 October 2010 on server version 10.10.18.212360)
Examples
Point the prim's positive y axis (<0.0, 1.0, 0.0>) towards a position on the sim
//-- where vPosTarget is the global position of the object you want to "look" at
llRotLookAt( llRotBetween( <0.0,1.0,0.0>, llVecNorm( vPosTarget - llGetPos() ) ), 1.0, 0.4 ); // Point +Y axis towards vPosTarget
- vPosTarget - llGetPos() converts the global coordinates of the objects, to a local distance and direction from the object pointing
- Per llRotBetween article:
- llRotBetween returns a scaled rotation, unless both inputs are equal magnitude (e.g. unit vector).
- The use of llVecNorm reduces the magnitude to 1 (so that both are equal magnitude), preventing errors.
Constraining the Rotation to One Axis
vector detected = llDetectedPos( 0 );
vector pos = llGetPos();
llRotLookAt( llRotBetween( <0.0, 1.0, 0.0>, llVecNorm( <detected.x, detected.y, pos.z> - pos ) ), 1.0, 0.4 );
Useful Snippets
- If you want a (mostly) smooth constant (rather than damped) rate of motion in a non-physical object try this
//-- Rotates Object to vRotTarget at vFltRate (in radians per second
//-- vFltRate < ~0.00000003rad/sec, (~0.00002deg/sec) will result in errors (and is just too slow anyway)
//-- vFltRate >= (PI * 5.0)rad/sec, (900deg/sec) will result in a single snap move to vRotTarget
uSteppedRotLookAt( rotation vRotTarget, float vFltRate ){
if ((integer)(vFltRate = (llAngleBetween( llGetLocalRot(), vRotTarget ) / (vFltRate / 5.0)))){
rotation vRotStep = llAxisAngle2Rot( llRot2Axis( vRotTarget / llGetLocalRot() ),
(1.0 / vFltRate) * llRot2Angle( vRotTarget / llGetLocalRot() ) );
vFltRate = (integer)vFltRate;
do{
llSetLocalRot( vRotStep * llGetLocalRot() );
}while (--vFltRate);
}
llSetLocalRot( vRotTarget );
} //-- for fixed time on any rotation try llSetKeyframedMotion
See Also
Functions
| • | llLookAt | |||
| • | llStopLookAt | |||
| • | llSetPhysicsMaterial | |||
| • | llSetKeyframedMotion |
Deep Notes
All Issues
~ Search JIRA for related Issues
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SVC-1903 | A | llRotLookAt & llLookAt do not update the object's bounding box |
Signature |
|---|
function void llRotLookAt( rotation target_direction, float strength, float damping ); |