The Particles object can quickly create visual effects by creating and moving many small images independently. It is a versatile object capable of many different kinds of visual effects. There are several examples in the Start dialog, ranging from fire to fountains (search for Particles in the dialog). The image below shows an example of one of the particle effects possible with the object.
The Particles object has many parameters to change the behavior of each particle. Also, it requires a texture used to draw each particle. Often a simple white spot on a black background is sufficient.
The Additive blend mode works especially well with the Particles object. It makes each particle brighten the background rather than pasting its image over the background, and allows particles to blend in to each other as well rather than simply overlapping. This makes particles look more like light sources. The below image shows what the effect does when the texture is a white spot on a black background.
Colored effects can be created using colored particle images. Note that since the Additive effect brightens the background towards white, any objects using an Additive effect will not show up on a white background. The effect works best on dark backgrounds.
For more information about blend modes and effects, see the manual section on Effects.
Particles in the Layout View
The Particles object is represented in the Layout View by two red lines which represent the spray cone (the angle through which particles are fired), with the particle texture in the middle. The Particle object's origin is where particles are created from. An example is shown below on the left, with the effect at runtime on the right.
The size of the particles object in the layout view is not important. The object will automatically size itself at runtime to fit all the particles it has created.
How particle effects work
The particle effect works similarly to using the Bullet behavior on each particle. Initially particles are fired forwards at a given speed and at an angle within the spray cone. Each particle is then individually controlled with different alterations to its speed, angle, opacity and size during its lifetime. The fact particles move independently of the others is often what makes the visual effect interesting. The various properties of the Particles object control exactly how the particles change over time and what random alterations are made. It is worth spending some time changing parameters to see the effect they have for yourself.
There are three different settings for when particles are destroyed, set by the Destroy mode property. The default Fade to invisible will fade each particle's opacity to zero over the Timeout, destroying the particle when it becomes invisible. Timeout expired will simply destroy the particle after an amount of time, without changing its opacity. Particle stopped will destroy the particle when its speed reaches zero, but you must take care to ensure particles slow down with a negative acceleration otherwise they will never be destroyed!
Particle effects are more efficient than creating the same effect with Sprite objects, but not by a large margin. Just like with sprites, you should be aware that creating a large number of particles can have a serious performance impact on your game, especially on mobile. Use the ParticleCount expression to monitor how many particles are being created. On desktop systems, more than a couple of hundred particles is likely to impact the framerate. On mobiles, use of the Particles object is not recommended at all since the framerate is usually already limited by the existing sprites in the game; if absolutely necessary, keep particle counts below 50 on mobile for best performance.
To reduce particle counts, try reducing the rate or shortening the timeout. To compensate, you can try making the particle size larger so the effect does not get thinner.
The Particles object has a relatively many properties, which are split in to three groups: particle spray properties (relating to the Particles object itself), initial particle properties (relating to the creation of each individual particle) and particle lifetime properties (relating to how particles behave after creation).
Particle spray properties
- The number of particles created per second. If Type is One-shot, this is the total number of particles fired. Note that in Continuous spray mode, the overall particle count may be significantly more than the rate depending on the other properties. Also note that in One-shot mode, the rate can only be changed immediately after the object has been created; after the first tick, using the Set rate action will have no effect.
- Spray cone
- The number of degrees through which particles are fired. This is represented by the red lines in the Layout View. Use 360 to fire particles in all directions.
- The Particles object can work in two modes: Continuous spray will create a constant spray of particles (the default). One-shot will create a single blast of particles, the total number set by Rate. Once all particles have been destroyed, the Particles object then destroys itself. This is useful for one-off effects like explosions or impacts.
- Click to open the Image editor to edit the particle image. Try a spot on a transparent background, or on a black background with the Additive effect.
Initial particle properties
- The initial speed each particle is fired at, in pixels per second.
- The initial size of each particle, in pixels. Particles are always shown as squares.
- The initial opacity of each particle, from 0 (transparent) to 100 (opaque).
- Grow rate
- The initial grow rate (change in size over time) for each particle, in pixels per second. 0 means the particle will always stay the same size. A positive value will make particles grow, and a negative value will make particles shrink.
- X randomiser
- Y randomiser
- The initial offset to the particle's position. You can make particles created along a line or in a box with these properties.
- Speed randomiser
- A random adjustment to each particle's initial speed on creation. For example, a value of 100 will change each particle's initial speed by up to 50 pixels per second faster or slower.
- Size randomiser
- A random adjustment to each particle's size on creation. For example, a value of 20 will change each particle's initial size by up to 10 pixels larger or smaller.
- Grow rate randomiser
- A random adjustment to each particle's grow rate on creation. For example, a value of 10 will change each particle's initial grow rate by up to 5 pixels per second greater or less.
Particle lifetime properties
- Change in particle speed over time, in pixels per second per second. A positive value will make particles speed up, and a negative value will make them slow down.
- The acceleration downwards caused by gravity, in pixels per second per second. Useful for making fountain or other falling particle effects. Set to 0 to prevent gravity having any effect on particle movement.
- Angle randomiser
- Maximum random change to each particle's angle during its lifetime, in degrees per second. For example, set to 0 to prevent particles ever changing direction, or set to 10 to allow particles to change up to 5 degrees left or right per second.
- Speed randomiser
- Maximum random change to each particle's speed during its lifetime, in pixels per second per second. For example, set to 0 to prevent the speed changing randomly, or set to 100 to allow particles to speed up or slow down by 50 pixels per second per second.
- Opacity randomiser
- Maximum random change to each particle's opacity during its lifetime. Useful for creating "twinkling" effects.
- Destroy mode
- How each particle is destroyed. There are three modes available: Fade to invisible will fade each particle's opacity to zero over the Timeout. When the particle becomes invisible, it is destroyed. Timeout expired simply destroys each particle after the Timeout has expired, without altering the opacity. Particle stopped destroys each particle when its speed reaches zero. You must take care to use a negative Acceleration, or particles will never be destroyed!
- The time in seconds particles last for before being destroyed, depending on the Destroy mode .
Particle conditions, actions and expressions
Most of the Particle object's actions and expressions simply set or get the above properties. See the above properties for a reference. The other conditions, actions and expressions not relating to the above properties are documented below.
For features in common to other objects, see Common features.
- Is spraying
- True if the particle spray is currently enabled.
- Set spraying
- Enable or disable the spray, when in Continuous spray mode. When disabled, no new particles are created.
- The number of particles the Particles object currently has. This is important to ensure you are not creating too many particles and slowing the game down; see the Optimisation section above. Note that due to the way Construct 2 expressions work, if you have multiple Particle object instances, this will only return the particle count for one of the instances - use a For Each loop to count multiple instance's total particle count.