Difference between revisions of "Template:LSL Constants/Vehicle"
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{{{!}} {{Prettytable}} | {{{!}} {{Prettytable}} | ||
{{!}}- | {{#if:{{{no_header|}}}|| | ||
{{!}}- {{Hl2}} | |||
! | ! Constant | ||
! | ! Value | ||
! | ! Type | ||
! Description}} | |||
{{!}}- | {{!}}- | ||
{{#ifeq:{{{type|float}}}|float|{{!}}- | {{#ifeq:{{{type|float}}}|float|{{!}}- | ||
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{{!}} exponential timescale for the vehicle to align its z-axis to the world z-axis (vertical)}} | {{!}} exponential timescale for the vehicle to align its z-axis to the world z-axis (vertical)}} | ||
{{!}}} | {{!}}} | ||
<noinclude>{{{{FULLPAGENAME}}|type=rotation}}{{{{FULLPAGENAME}}|type=vector}}{{{{FULLPAGENAME}}|type=float}}</noinclude> | <noinclude>{{{{FULLPAGENAME}}|type=rotation}}{{{{FULLPAGENAME}}|type=vector}}{{{{FULLPAGENAME}}|type=float}}{{{{FULLPAGENAME}}|no_header=true}}</noinclude> | ||
Revision as of 12:18, 24 February 2007
| Constant | Value | Type | Description |
|---|---|---|---|
| VEHICLE_ANGULAR_DEFLECTION_EFFICIENCY | 32 | float | slider between 0 (no deflection) and 1 (maximum strength) |
| VEHICLE_ANGULAR_DEFLECTION_TIMESCALE | 33 | float | exponential timescale for the vehicle to achieve full angular deflection |
| VEHICLE_ANGULAR_FRICTION_TIMESCALE | 17 | vector | vector of timescales for exponential decay of angular velocity about the three vehicle axes |
| VEHICLE_ANGULAR_MOTOR_DECAY_TIMESCALE | 35 | float | exponential timescale for the angular motor's effectiveness to decay toward zero |
| VEHICLE_ANGULAR_MOTOR_DIRECTION | 19 | vector | angular velocity that the vehicle will try to achieve |
| VEHICLE_ANGULAR_MOTOR_TIMESCALE | 34 | float | exponential timescale for the vehicle to achive its full angular motor velocity |
| VEHICLE_BANKING_EFFICIENCY | 38 | float | slider between -1 (leans out of turns), 0 (no banking), and +1 (leans into turns) |
| VEHICLE_BANKING_MIX | 39 | float | slider between 0 (static banking) and 1 (dynamic banking) |
| VEHICLE_BANKING_TIMESCALE | 40 | float | exponential timescale for the banking behavior to take full effect |
| VEHICLE_BUOYANCY | 27 | float | slider between -1 (double-gravity) and 1 (full anti-gravity) |
| VEHICLE_HOVER_HEIGHT | 24 | float | height the vehicle will try to hover. |
| VEHICLE_HOVER_EFFICIENCY | 25 | float | slider between 0 (bouncy) and 1 (critically damped) hover behavior |
| VEHICLE_HOVER_TIMESCALE | 26 | float | period of time for the vehicle to achieve its hover height |
| VEHICLE_LINEAR_DEFLECTION_EFFICIENCY | 28 | float | slider between 0 (no deflection) and 1 (maximum strength) |
| VEHICLE_LINEAR_DEFLECTION_TIMESCALE | 29 | float | exponential timescale for the vehicle to redirect its velocity to be along its x-axis |
| VEHICLE_LINEAR_FRICTION_TIMESCALE | 16 | vector | vector of timescales for exponential decay of linear velocity along the three vehicle axes |
| VEHICLE_LINEAR_MOTOR_DECAY_TIMESCALE | 31 | float | exponential timescale for the linear motor's effectiveness to decay toward zero |
| VEHICLE_LINEAR_MOTOR_DIRECTION | 18 | vector | linear velocity that the vehicle will try to achieve |
| VEHICLE_LINEAR_MOTOR_TIMESCALE | 30 | float | exponential timescale for the vehicle to achive its full linear motor velocity |
| VEHICLE_LINEAR_MOTOR_OFFSET | 20 | vector | offset from the center of mass of the vehicle where the linear motor is applied. |
| VEHICLE_REFERENCE_FRAME | 44 | rotation | rotation of vehicle axes relative to local frame |
| VEHICLE_VERTICAL_ATTRACTION_EFFICIENCY | 36 | float | slider between 0 (bouncy) and 1 (critically damped) attraction of vehicle z-axis to world z-axis (vertical) |
| VEHICLE_VERTICAL_ATTRACTION_TIMESCALE | 37 | float | exponential timescale for the vehicle to align its z-axis to the world z-axis (vertical) |
| Constant | Value | Type | Description |
|---|---|---|---|
| VEHICLE_REFERENCE_FRAME | 44 | rotation | rotation of vehicle axes relative to local frame |
| Constant | Value | Type | Description |
|---|---|---|---|
| VEHICLE_ANGULAR_FRICTION_TIMESCALE | 17 | vector | vector of timescales for exponential decay of angular velocity about the three vehicle axes |
| VEHICLE_ANGULAR_MOTOR_DIRECTION | 19 | vector | angular velocity that the vehicle will try to achieve |
| VEHICLE_LINEAR_FRICTION_TIMESCALE | 16 | vector | vector of timescales for exponential decay of linear velocity along the three vehicle axes |
| VEHICLE_LINEAR_MOTOR_DIRECTION | 18 | vector | linear velocity that the vehicle will try to achieve |
| VEHICLE_LINEAR_MOTOR_OFFSET | 20 | vector | offset from the center of mass of the vehicle where the linear motor is applied. |
| Constant | Value | Type | Description |
|---|---|---|---|
| VEHICLE_ANGULAR_DEFLECTION_EFFICIENCY | 32 | float | slider between 0 (no deflection) and 1 (maximum strength) |
| VEHICLE_ANGULAR_DEFLECTION_TIMESCALE | 33 | float | exponential timescale for the vehicle to achieve full angular deflection |
| VEHICLE_ANGULAR_MOTOR_DECAY_TIMESCALE | 35 | float | exponential timescale for the angular motor's effectiveness to decay toward zero |
| VEHICLE_ANGULAR_MOTOR_TIMESCALE | 34 | float | exponential timescale for the vehicle to achive its full angular motor velocity |
| VEHICLE_BANKING_EFFICIENCY | 38 | float | slider between -1 (leans out of turns), 0 (no banking), and +1 (leans into turns) |
| VEHICLE_BANKING_MIX | 39 | float | slider between 0 (static banking) and 1 (dynamic banking) |
| VEHICLE_BANKING_TIMESCALE | 40 | float | exponential timescale for the banking behavior to take full effect |
| VEHICLE_BUOYANCY | 27 | float | slider between -1 (double-gravity) and 1 (full anti-gravity) |
| VEHICLE_HOVER_HEIGHT | 24 | float | height the vehicle will try to hover. |
| VEHICLE_HOVER_EFFICIENCY | 25 | float | slider between 0 (bouncy) and 1 (critically damped) hover behavior |
| VEHICLE_HOVER_TIMESCALE | 26 | float | period of time for the vehicle to achieve its hover height |
| VEHICLE_LINEAR_DEFLECTION_EFFICIENCY | 28 | float | slider between 0 (no deflection) and 1 (maximum strength) |
| VEHICLE_LINEAR_DEFLECTION_TIMESCALE | 29 | float | exponential timescale for the vehicle to redirect its velocity to be along its x-axis |
| VEHICLE_LINEAR_MOTOR_DECAY_TIMESCALE | 31 | float | exponential timescale for the linear motor's effectiveness to decay toward zero |
| VEHICLE_LINEAR_MOTOR_TIMESCALE | 30 | float | exponential timescale for the vehicle to achive its full linear motor velocity |
| VEHICLE_VERTICAL_ATTRACTION_EFFICIENCY | 36 | float | slider between 0 (bouncy) and 1 (critically damped) attraction of vehicle z-axis to world z-axis (vertical) |
| VEHICLE_VERTICAL_ATTRACTION_TIMESCALE | 37 | float | exponential timescale for the vehicle to align its z-axis to the world z-axis (vertical) |
| VEHICLE_ANGULAR_DEFLECTION_EFFICIENCY | 32 | float | slider between 0 (no deflection) and 1 (maximum strength) |
| VEHICLE_ANGULAR_DEFLECTION_TIMESCALE | 33 | float | exponential timescale for the vehicle to achieve full angular deflection |
| VEHICLE_ANGULAR_FRICTION_TIMESCALE | 17 | vector | vector of timescales for exponential decay of angular velocity about the three vehicle axes |
| VEHICLE_ANGULAR_MOTOR_DECAY_TIMESCALE | 35 | float | exponential timescale for the angular motor's effectiveness to decay toward zero |
| VEHICLE_ANGULAR_MOTOR_DIRECTION | 19 | vector | angular velocity that the vehicle will try to achieve |
| VEHICLE_ANGULAR_MOTOR_TIMESCALE | 34 | float | exponential timescale for the vehicle to achive its full angular motor velocity |
| VEHICLE_BANKING_EFFICIENCY | 38 | float | slider between -1 (leans out of turns), 0 (no banking), and +1 (leans into turns) |
| VEHICLE_BANKING_MIX | 39 | float | slider between 0 (static banking) and 1 (dynamic banking) |
| VEHICLE_BANKING_TIMESCALE | 40 | float | exponential timescale for the banking behavior to take full effect |
| VEHICLE_BUOYANCY | 27 | float | slider between -1 (double-gravity) and 1 (full anti-gravity) |
| VEHICLE_HOVER_HEIGHT | 24 | float | height the vehicle will try to hover. |
| VEHICLE_HOVER_EFFICIENCY | 25 | float | slider between 0 (bouncy) and 1 (critically damped) hover behavior |
| VEHICLE_HOVER_TIMESCALE | 26 | float | period of time for the vehicle to achieve its hover height |
| VEHICLE_LINEAR_DEFLECTION_EFFICIENCY | 28 | float | slider between 0 (no deflection) and 1 (maximum strength) |
| VEHICLE_LINEAR_DEFLECTION_TIMESCALE | 29 | float | exponential timescale for the vehicle to redirect its velocity to be along its x-axis |
| VEHICLE_LINEAR_FRICTION_TIMESCALE | 16 | vector | vector of timescales for exponential decay of linear velocity along the three vehicle axes |
| VEHICLE_LINEAR_MOTOR_DECAY_TIMESCALE | 31 | float | exponential timescale for the linear motor's effectiveness to decay toward zero |
| VEHICLE_LINEAR_MOTOR_DIRECTION | 18 | vector | linear velocity that the vehicle will try to achieve |
| VEHICLE_LINEAR_MOTOR_TIMESCALE | 30 | float | exponential timescale for the vehicle to achive its full linear motor velocity |
| VEHICLE_LINEAR_MOTOR_OFFSET | 20 | vector | offset from the center of mass of the vehicle where the linear motor is applied. |
| VEHICLE_REFERENCE_FRAME | 44 | rotation | rotation of vehicle axes relative to local frame |
| VEHICLE_VERTICAL_ATTRACTION_EFFICIENCY | 36 | float | slider between 0 (bouncy) and 1 (critically damped) attraction of vehicle z-axis to world z-axis (vertical) |
| VEHICLE_VERTICAL_ATTRACTION_TIMESCALE | 37 | float | exponential timescale for the vehicle to align its z-axis to the world z-axis (vertical) |