# Difference between revisions of "Particle System Initializers"

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== Move Particles Between 2 Control Points == | == Move Particles Between 2 Control Points == | ||

− | Moves the particles between 2 control points at a value between the minimum and maximum speed. Can be extremely useful for particle tracers, laser sights/beams, and Halo-esque sniper-rifle trails. | + | Moves the particles between 2 control points at a value between the minimum and maximum speed. Can be extremely useful for particle tracers, laser sights/beams, and Halo-esque sniper-rifle trails. {{note|Normally, this initializer moves particles to the end control point and leaves them there (i.e., if new particles are created, they will spawn at the end control point and immediately vanish). To get around this, add a "Position Along Path Sequential" initializer ABOVE the "Move Particles Between 2 Control Points" entry.}} |

; end control point | ; end control point |

## Revision as of 11:11, 18 October 2012

## Contents

- 1 Alpha Random
- 2 Color Random
- 3 Inherit Velocity
- 4 Lifetime from Sequence
- 5 Lifetime Random
- 6 Lifetime Pre-Age Noise
- 7 Move Particles Between 2 Control Points
- 8 Position Modify Offset Random
- 9 Position Modify Warp Random
- 10 Position Within Box Random
- 11 Position Within Sphere Random
- 12 Radius Random
- 13 Remap Initial Scalar
- 14 Remap Noise to Scalar
- 15 Rotation Random
- 16 Rotation Speed Random
- 17 Sequence Random
- 18 Velocity Noise
- 19 Velocity Repulse from World

**Initializers** set up each particle's initial state. To add one to your system, set the Properties dropdown to "Initializer" and right-click in the window below. This will bring an "add..." popup.

## Alpha Random

Applies a random alpha value. 0 means transparent, 255 means opaque.

- alpha_min
- alpha_max
- Minimum/maximum alpha for the particle.
- alpha_random_exponent
**To do**

## Color Random

Causes each particle's color to be picked from a specified range of values, and/or allows the color of the world's lighting to tint it.

- color1
- color2
- Together define the range of values from which particle may choose its color.
- tint_perc
- The degree to which local lighting affects particle color, as a normalised percentage.
- tint control point
- A single location from which lighting is to be sampled. Disables per-particle lighting if used.
- tint control point movement threshold
- Optimisation. The initializer only updates its tint lighting check if the control point has moved farther than this threshold since the last update.
- tint clamp min/max
- Clamps the lighting sample within the given range. Keeps lighting within an expected variance.

## Inherit Velocity

If the emitter is parented to a moving entity, it will add its own velocity to each particle.

- velocity scale
- Normalised percentage of the velocity to inherit. Can be higher than 100%.

## Lifetime from Sequence

Sets a particle's lifespan based on the animation length of the sequence based at the given framerate. Used when a single particle type consists of many sequences with varying sequence lengths (some have 10 frames, others 60, but all must act appropriately without slow framerate, etc.)

If the 'use animation rate as FPS' flag of Render_Animated_Sprites has the same FPS settings, a particle will map it lifespan and animation together perfectly.

- Frames Per Second
- Sets the desired FPS for the animation. This is mapped to lifespan according to the number of frames in the sequence the particle receives via a sequence_random or other sequence-defining initializer.

## Lifetime Random

Sets the lifetime of a particle within a given range.

- Lifetime_min
- Lifetime_max
- Min/max lifetime for the particle in seconds.

## Lifetime Pre-Age Noise

Treats a particle as if it has already spent part of its lifespan. All operators that test particle lifespan will act appropriately.

- start age minimum
- start age maximum
- Minimum/maximum age to add to a particle.
- time noise coordinate scale
- This sets the scale of the time part of the noise function - based on particle spawn time. Larger numbers will appear increasingly random, while very small numbers will map to a similar area of the noise and look very similar.
- spatial noise coordinate scale
- This sets the scale of the spatial part of the noise function - based on particle spawn location. Larger numbers will appear increasingly random, while very small numbers will map to a similar area of the noise and look very similar. Time noise is added to spatial noise, so set one or the other to zero in order to receive no effect from that portion of the function.
- time coordinate offset
- This sets the offset on the noise function to draw from. Essentially moves the result of a given time input to a different seed.
- spatial coordinate offset
- This sets the offset on the noise function to draw from. Essentially moves the result of a given spatial input to a different seed.
- absolute value
- Noise returns -1 to 1 which is mapped to the output range. Using absolute value bool (0/1) , the output can have sudden shifts in direction as the number approaches zero and then bounces back into positives instead of going into negatives.
- invert absolute value
- Essentially flips the curve created by using the absolute value flag. So instead of getting sharp valleys, you get sharp peaks. The math is 1 minus the absolute value of the noise.

## Move Particles Between 2 Control Points

Moves the particles between 2 control points at a value between the minimum and maximum speed. Can be extremely useful for particle tracers, laser sights/beams, and Halo-esque sniper-rifle trails.

**Note:**Normally, this initializer moves particles to the end control point and leaves them there (i.e., if new particles are created, they will spawn at the end control point and immediately vanish). To get around this, add a "Position Along Path Sequential" initializer ABOVE the "Move Particles Between 2 Control Points" entry.

- end control point
- The point that the particles are moving to.
- start offset
- Offset of where the particles start relative to the starting control point and direction of movement.
- end spread
- The spread of the particles relative to the end control point. Think of this as how spray works with a gun.
- maximum speed
- The maximum speed the particle travels to the end control point.
- minimum speed
- The minimum speed the particle travels to the end control point.

## Position Modify Offset Random

Moves the initial position of a particle in world or local space relative to its emission point. Can be used to emit particles along a line while still using parts of a sphere emitter or relative to a secondary control point.

- offset min
- XYZ minimum offset.
- offset max
- XYZ maximum offset.
- Offset in local space
- This bool (0/1) sets where to use world or local (emitter) space to do the offset.
- offset relative to radius
- This bool (0/1) sets whether to treat the offset values as an amount relative to the particle's radius. For example, if the offset is set to 0 0 1, and two particles have a radii of 32 and 64, they'd be moved vertically 32 and 64 units respectively.
- control_point_number
- The control point relative to which offset will occur.

## Position Modify Warp Random

Warps the initial position of a particle in world or local space relative to its emission point. Can be used to stretch initial emission shapes. A sphere can be stretched into an ovoid, or smashed. Useful in addition to sphere emissions distance bias and absolute value to create squashed domes, rings (the elongated ring seen in Portal), etc. Warped particles initial speed is also warped by the corresponding amount. So particles that are stretched will have a higher initial velocity, while those that are squashed will have lower.

- warp min
- XYZ minimum warp.
- warp max
- XYZ maximum warp.
- local coordinate space
- This bool (0/1) sets where to use world or local (emitter) space to do the offset.
- control_point_number
- The control point relative to which warp will occur.
- warp transition time
- Treats the min/max as start and end sizes for a warp that takes place over the specified time. So the emission placement of each new particle will be warped over time.
- warp transition start time
- When the warp transition will start
- reverse warp
- In the case of a warp transition, it will make it run backwards (max to min)

## Position Within Box Random

Particles are created at a random location inside a box with the given dimensions.

- x_min
- x_max
- +/- X units
- y_min
- y_max
- +/- Y units
- z_min
- z_max
- +/- Z units

## Position Within Sphere Random

Initializes the particles inside of a sphere with a certain speed.

- distance_min
- Minimum distance to spawn from the center of the sphere.
- distance_max
- Maximum distance to spawn from the center of the sphere.
- distance_bias
- A bias to the distribution of particles in the system in X Y Z relative to each axis. 1 1 0 will create particles only in the X Y plane, while 1 1 10 will create roughly 10 times as many particles near the top and bottom of the sphere as on the X Y parts. Useful for creating discs, rings, and polar effects.
- distance_bias_absolute_value
- Setting any axis to one will eliminate particles from one hemisphere of the distribution. Can be used to create hemispheres, quarter spheres, etc. Use wil distance bias to alter the effect. Use negative values in distance bias to flip the hemisphere from one side to the other.
- bias_in_local_system
- Boolean (0/1) value which sets the biasing to use the local space of the emitter rather than world space.
- control_point_number
- Control point which to spawn relative to.
- speed_min
- Minimum initial speed of the particle emitted outward from the sphere.
- speed_max
- Maximum initial speed of the particle emitted outward from the sphere.
- speed_random_exponent
- The exponent which determines the biasing of particles towards one end or the other of the random range.
- speed_in_local_coordinate_system_min
- Local space minimum initial speed of the particle in x y z.
- speed_in_local_coordinate_system_max
- Local space maximum initial speed of the particle in x y z.

## Radius Random

Initializes the particles with a random radius.

- radius_min
- Minimum radius for the particle.
- radius_max
- Maximum radius for the particle.

## Remap Initial Scalar

Allows you to map any initial scalar to any other. Really useful for mapping creation time of a timed system to something else, like alpha to have a system that over time produces particles of higher or lower alpha for example.

- input field
- The field to read from
- input minimum
- The lower end to map from
- input maximum
- The upper end to map from
- output field
- The field to write to
- output minimum
- The lower end to map to
- output maximum
- The upper end to map to
- output is scalar of initial random range
- Rather than overwriting the original value of the output field, the remapped value is multiplied against the initial output field value

## Remap Noise to Scalar

Allows any scalar parameter to be initialized to a select range via a noise function. The noise function is mapped based on both time and space, each with their own coordinate scales and offsets. This creates a range of results that are non-random but vary based on creation time and position.

- time noise coordinate scale
- This sets the scale of the time part of the noise function - based on particle spawn time. Larger numbers will appear increasingly random, while very small numbers will map to a similar area of the noise and look very similar.
- spatial noise coordinate scale
- This sets the scale of the spatial part of the noise function - based on particle spawn location. Larger numbers will appear increasingly random, while very small numbers will map to a similar area of the noise and look very similar. Time noise is added to spatial noise, so set one or the other to zero in order to receive no effect from that portion of the function.
- output field
- The scalar to set the initial value on. Radius, Roll, Alpha, Life Duration, etc.
- time coordinate offset
- This sets the offset on the noise function to draw from. Two initial scalar noise functions set to different outputs (say alpha and radius) set to the same coordinate scales will behave the same. Offsets allow for the same scale mapping, but at a different part of the noise. So for example all small radius particles may have a high alpha rather than a low one if the offset is used.
- spatial coordinate offset
- This sets the offset on the noise function to draw from. Two initial scalar noise functions set to different outputs (say alpha and radius) set to the same coordinate scales will behave the same. Offsets allow for the same scale mapping, but at a different part of the noise. So for example all small radius particles may have a high alpha rather than a low one if the offset is used.
- absolute value
- Noise returns -1 to 1 which is mapped to the output range. Using absolute value bool (0/1) , the output can have sudden shifts in direction as the number approaches zero and then bounces back into positives instead of going into negatives.
- invert absolute value
- Essentially flips the curve created by using the absolute value flag. So instead of getting sharp valleys, you get sharp peaks. The math is 1 minus the absolute value of the noise.
- output minimum
- The lower boundary to map the noise to. This sets the lower range of what the resulting output will be. So for example, to create smoke with a minimum radius of 12, set this to 12.
- output maximum
- The upper boundary to map the noise to. This sets the upper range of what the resulting output will be. So for example, to create smoke with a maximum radius of 24, set this to 24. In the noted example, smoke radius will range from 12-24 based on the noise function.

## Rotation Random

Starting from a base angle, randomly offsets the particle a certain number of degrees.

- rotation_initial
- Initial rotation for the particle (in degrees).
- rotation_offset_min
- Minimum number of degrees to randomly offset the particle.
- rotation_offset_max
- Maximum number of degrees to randomly offset the particle.

## Rotation Speed Random

Used to specify a per-particle rotation speed. Use the operator Rotation Basic to update the particle's rotation based on its rotation speed.

- rotation_speed_constant
- A fixed speed in degrees/second
- rotation_speed_random_min
- Minimum number of degrees/second to randomly spin the particle.
- rotation_speed_random_max
- Maximum number of degrees/second to randomly spin the particle.
- rotation_speed_random_exponent
- Biases the random speed either toward the specified min or max. 1 = equally likely to be min or max. >1 = more often selects values closer to max, <1 = more often selects values closer to min
- randomly_flip_direction
- If 1, causes the spin to randomly be multiplied by -1 (switching between clockwise and counter-clockwise spin)

## Sequence Random

Allows the particles to randomly start at a minimum and maximum supplied frame.

- sequence_min
- The minimum starting sequence
- sequence_max
- The maximum starting sequence

## Velocity Noise

Allows particle velocity to be initialized to a select range via a noise function. The noise function is mapped based on both time and space, each with their own coordinate scales and offsets. This creates a range of results that are non-random but vary based on creation time and position.

- time noise coordinate scale
- This sets the scale of the time part of the noise function - based on particle spawn time. Larger numbers will appear increasingly random, while very small numbers will map to a similar area of the noise and look very similar.
- spatial noise coordinate scale
- This sets the scale of the spatial part of the noise function - based on particle spawn location. Larger numbers will appear increasingly random, while very small numbers will map to a similar area of the noise and look very similar. Time noise is added to spatial noise, so set one or the other to zero in order to receive no effect from that portion of the function.
- time coordinate offset
- This sets the offset on the noise function to draw from. Essentially moves the result of a given time input to a different seed.
- spatial coordinate offset
- This sets the offset on the noise function to draw from. Essentially moves the result of a given spatial input to a different seed.
- absolute value
- Noise returns -1 to 1 which is mapped to the output range. Using absolute value bool (0/1) , the output can have sudden shifts in direction as the number approaches zero and then bounces back into positives instead of going into negatives.
- invert absolute value
- Essentially flips the curve created by using the absolute value flag. So instead of getting sharp valleys, you get sharp peaks. The math is 1 minus the absolute value of the noise.
- output minimum
- The lower boundary to map the noise to. This sets the minimum speed to give to a particle. Of course for particles moving in all directions, XYZ should all be negative.
- output maximum
- The upper boundary to map the noise to. This sets the maximum speed to give to a particle.

## Velocity Repulse from World

Pushes the particles away from any nearby surfaces upon spawn. Traces are shot out in the cardinal directions from the specified control point. Particles receive a push in the most open direction if any nearby directions are blocked. Good for giving the impression of pressure imparted effects in enclosed areas.

- minimum velocity
- The minimum velocity scale that will be imparted on each axis if there is nothing blocking nearby the control point
- maximum velocity
- The maximum velocity scale that will be imparted, pushing away from any blocked directions
- collision group
- The collision group to test against. DEBRIS or NONE recommended.
- control_point_number
- The point to do the tests from.
- Per Particle World Collision Tests
- Will cause each particle to do its own test. SLOW - USE WITH CAUTION.
- Use radius for Per Particle Trace Length
- Makes the trace length of per particle tests the particle's radius
- Trace Length
- The distance to trace each direction.
- Inherit from Parent
- If set to true, the control point number field becomes the field to read data out of. Rather than doing traces, the initializer reads them from the control point. This is used for performance. A parent particle can do the test once, and all children can inherit the data rather than duplicating the same test many times over.
- control points to broadcast to children (n + 1)
- If broadcasting to children, this is the control point to start with. It requires 2 control points to store the data.
- Child Group ID to affect
- When broadcasting the CP, only send to children in this group ID.