Resource:Dynamic lighting: Difference between revisions
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<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
This function creates a pixel shader pointlight. | This function creates a pixel shader pointlight. | ||
<syntaxhighlight lang="lua"> | <syntaxhighlight lang="lua">lightElement exports.dynamic_lighting:createPointLight(float posX,posY,posZ,colorR,colorG,colorB,colorA,attenuation,[bool normalShadow = true])</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''float posX, posY, posZ:''' Light position in world. | *'''float posX, posY, posZ:''' Light position in world. | ||
*'''float colorR,colorG,colorB,colorA:''' | *'''float colorR,colorG,colorB,colorA:''' RGBA color emitted by the light (0 - 1 instead of 0-255). | ||
*'''float attenuation:''' Value specifying how the light intensity changes over distance. | *'''float attenuation:''' Value specifying how the light intensity changes over distance. | ||
===Optional Arguments=== | ===Optional Arguments=== | ||
*'''bool normalShadow:''' Determine if the light source should be obscured when lighting a surface on opposite angles. | *'''bool normalShadow:''' Determine if the light source should be obscured when lighting a surface on opposite angles. | ||
===Returns=== | ===Returns=== | ||
The function returns | The function returns lightElement if set successfully, false otherwise. | ||
</section> | </section> | ||
====createSpotLight==== | ====createSpotLight==== | ||
<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
This function creates a pixel shader spotlight. | This function creates a pixel shader spotlight. | ||
<syntaxhighlight lang="lua"> | <syntaxhighlight lang="lua">lightElement exports.dynamic_lighting:createSpotLight(float posX,posY,posZ,colorR,colorG,colorB,colorA,dirX,dirY,dirZ, bool isEuler,float falloff,theta,phi,attenuation,[bool normalShadowing = true])</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''float posX, posY, posZ:''' Light position in world space. | *'''float posX, posY, posZ:''' Light position in world space. | ||
*'''float colorR,colorG,colorB,colorA:''' | *'''float colorR,colorG,colorB,colorA:''' RGBA color emitted by the light (0 - 1 instead of 0-255). | ||
*'''float dirX,dirY,dirZ:''' Direction that the light is pointing in world space. It's a vector as default. | *'''float dirX,dirY,dirZ:''' Direction that the light is pointing in world space. It's a vector as default. | ||
*'''bool isEuler:''' Is the angle set as an "ZXY" euler andgle or a vector. | *'''bool isEuler:''' Is the angle set as an "ZXY" euler andgle or a vector. | ||
*'''float falloff:''' Decrease in illumination between a spotlight's inner cone (the angle specified by Theta) and the outer edge of the outer cone (the angle specified by Phi). | *'''float falloff:''' Decrease in illumination between a spotlight's inner cone (the angle specified by Theta) and the outer edge of the outer cone (the angle specified by Phi). | ||
*'''float theta: (radians)''' Angle, in radians, of a spotlight's inner cone - that is, the fully illuminated spotlight cone. This value must be in the range from 0 through the value specified by Phi. | *'''float theta: (radians)''' Angle, in radians, of a spotlight's inner cone - that is, the fully illuminated spotlight cone. This value must be in the range from 0 through the value specified by Phi. | ||
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*'''bool normalShadow:''' Determine if the light source should be obscured when lighting a surface on opposite angles. | *'''bool normalShadow:''' Determine if the light source should be obscured when lighting a surface on opposite angles. | ||
===Returns=== | ===Returns=== | ||
The function returns | The function returns lightElement if set successfully, false otherwise. | ||
</section> | </section> | ||
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<syntaxhighlight lang="lua">bool exports.dynamic_lighting:destroyLight(element lightElement)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:destroyLight(element lightElement)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
===Returns=== | ===Returns=== | ||
The function returns true if set successfully, false otherwise. | The function returns true if set successfully, false otherwise. | ||
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====setLightDirection==== | ====setLightDirection==== | ||
<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
This function | This function setd light direction values for both a pointlight and a spotlight. | ||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightDirection(element lightElement,float dirX,dirY,dirZ,[bool isEuler = false])</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightDirection(element lightElement,float dirX,dirY,dirZ,[bool isEuler = false])</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float dirX,dirY,dirZ:''' Direction that the light is pointing in world space. It's a vector as default. | *'''float dirX,dirY,dirZ:''' Direction that the light is pointing in world space. It's a vector as default. | ||
===Optional Arguments=== | ===Optional Arguments=== | ||
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====setLightPosition==== | ====setLightPosition==== | ||
<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
This function sets light position | This function sets light position values for both a pointlight and a spotlight. | ||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightPosition(element lightElement,float posX,posY,posZ)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightPosition(element lightElement,float posX,posY,posZ)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float posX, posY, posZ:''' Light position in world space. | *'''float posX, posY, posZ:''' Light position in world space. | ||
===Returns=== | ===Returns=== | ||
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====setLightColor==== | ====setLightColor==== | ||
<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
This function sets light color | This function sets light color values for both a pointlight and a spotlight. | ||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightColor(element lightElement,float colorR,colorG,colorB,colorA)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightColor(element lightElement,float colorR,colorG,colorB,colorA)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float colorR,colorG,colorB,colorA:''' | *'''float colorR,colorG,colorB,colorA:''' RGBA color emitted by the light (0 - 1 instead of 0-255). | ||
===Returns=== | ===Returns=== | ||
The function returns true if set successfully, false otherwise. | The function returns true if set successfully, false otherwise. | ||
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<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightAttenuation(element lightElement,float attenuation)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightAttenuation(element lightElement,float attenuation)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float attenuation:''' Value specifying how the light intensity changes over distance. | *'''float attenuation:''' Value specifying how the light intensity changes over distance. | ||
===Returns=== | ===Returns=== | ||
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<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightFalloff(element lightElement,float falloff)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightFalloff(element lightElement,float falloff)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float falloff (radians):''' Decrease in illumination between a spotlight's inner cone (the angle specified by Theta) and the outer edge of the outer cone (the angle specified by Phi). | *'''float falloff (radians):''' Decrease in illumination between a spotlight's inner cone (the angle specified by Theta) and the outer edge of the outer cone (the angle specified by Phi). | ||
===Returns=== | ===Returns=== | ||
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<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightTheta(element lightElement,float theta)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightTheta(element lightElement,float theta)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float theta (radians):''' Angle, in radians, of a spotlight's inner cone - that is, the fully illuminated spotlight cone. This value must be in the range from 0 through the value specified by Phi. | *'''float theta (radians):''' Angle, in radians, of a spotlight's inner cone - that is, the fully illuminated spotlight cone. This value must be in the range from 0 through the value specified by Phi. | ||
===Returns=== | ===Returns=== | ||
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<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightPhi(element lightElement,float phi)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightPhi(element lightElement,float phi)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''float phi (radians):''' Angle, in radians, defining the outer edge of the spotlight's outer cone. Points outside this cone are not lit by the spotlight. This value must be between 0 and pi. | *'''float phi (radians):''' Angle, in radians, defining the outer edge of the spotlight's outer cone. Points outside this cone are not lit by the spotlight. This value must be between 0 and pi. | ||
===Returns=== | ===Returns=== | ||
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<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightNormalShadowing(element lightElement,bool normalShadow)</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setLightNormalShadowing(element lightElement,bool normalShadow)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''element lightElement:''' A previously | *'''element lightElement:''' A previously declared light element. | ||
*'''bool normalShadow:''' Determine if the light source should be obscured when lighting a surface on opposite angles. | *'''bool normalShadow:''' Determine if the light source should be obscured when lighting a surface on opposite angles. | ||
===Returns=== | ===Returns=== | ||
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</section> | </section> | ||
==== | ====setShadersLayered==== | ||
<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
Should the main shader effects be created in a separate render pass ? As default only the vehicle effect is layered. | |||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting: | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setShadersLayered(bool isWorld, isVeh, isPed)</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*''' | *'''bool isWorld, isVeh, isPed:''' Should the shader effects be created in a separate render pass. | ||
===Returns=== | ===Returns=== | ||
The function returns true if set successfully, false otherwise. | The function returns true if set successfully, false otherwise. | ||
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<section name="Client" class="client" show="true"> | <section name="Client" class="client" show="true"> | ||
Should the shader effect generate bump normals from texture0. Doesn't work when normal shadowing is set to false. | Should the shader effect generate bump normals from texture0. Doesn't work when normal shadowing is set to false. | ||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setGenerateBumpNormals(bool isTrue,[int textureSize = 512, float normalStrength.x = 1, float normalStrength.y = 1])</syntaxhighlight> | <syntaxhighlight lang="lua">bool exports.dynamic_lighting:setGenerateBumpNormals(bool isTrue,[int textureSize = 512, float normalStrength.x = 1, float normalStrength.y = 1, float normalStrength.z = 1])</syntaxhighlight> | ||
===Required Arguments=== | ===Required Arguments=== | ||
*'''bool isTrue:''' Turn on or off bump mapping. | *'''bool isTrue:''' Turn on or off bump mapping. | ||
===Optional Arguments=== | ===Optional Arguments=== | ||
*'''int textureSize:''' The size of the input texture. | *'''int textureSize:''' The size of the input texture. | ||
*'''float normalStrength. | *'''float normalStrength.xyz:''' How bumpy should the surface be ? | ||
===Returns=== | ===Returns=== | ||
The function returns true if set successfully, false otherwise. | The function returns true if set successfully, false otherwise. | ||
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===Required Arguments=== | ===Required Arguments=== | ||
*'''bool enable:''' Enable or disable gta directional lights for ped (enabled as default) | *'''bool enable:''' Enable or disable gta directional lights for ped (enabled as default) | ||
===Returns=== | |||
The function returns true if set successfully, false otherwise. | |||
</section> | |||
====setDirLightEnable==== | |||
<section name="Client" class="client" show="true"> | |||
This function creates a vertex shader directional light. NOTE: Forcing the effects on or using any other lights is required for directional light to work. | |||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setDirLightEnable(bool enable = false)</syntaxhighlight> | |||
===Required Arguments=== | |||
*'''bool enable:''' Enable or disable the directional light. | |||
===Returns=== | |||
The function returns true if set successfully, false otherwise. | |||
</section> | |||
====setDirLightDirection==== | |||
<section name="Client" class="client" show="true"> | |||
This function sets the directional light direction. | |||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setDirLightDirection(float dirX,dirY,dirZ,[bool isEuler = false])</syntaxhighlight> | |||
===Required Arguments=== | |||
*'''float dirX,dirY,dirZ:''' Direction that the light is pointing in world space. It's a vector as default. | |||
===Optional Arguments=== | |||
*'''bool isEuler:'''Is the angle set as an "ZXY" euler andgle or a vector. | |||
===Returns=== | |||
The function returns true if set successfully, false otherwise. | |||
</section> | |||
====setDirLightColor==== | |||
<section name="Client" class="client" show="true"> | |||
This function sets the directional light color value. | |||
<syntaxhighlight lang="lua">bool exports.dynamic_lighting:setDirLightColor(float colorR,colorG,colorB,colorA)</syntaxhighlight> | |||
===Required Arguments=== | |||
*'''float colorR,colorG,colorB,colorA:''' RGBA color emitted by the light (0 - 1 instead of 0-255). | |||
===Returns=== | ===Returns=== | ||
The function returns true if set successfully, false otherwise. | The function returns true if set successfully, false otherwise. |
Latest revision as of 21:19, 29 July 2015
This resource lets You create dynamic lights in MTA. It gives you a list of exported functions that You can use to create per pixel pointlights and spotlights. It should be considered a preview of what MTA:Eir will offer. The future solution should be more FPS friendly. Yet i see that resource as an example of what the future holds.
Overview
It is easy to use, gives a few options to create per pixel lights in gtasa.
The resource itself adds exported clientside functions:
Exported functions
createPointLight
This function creates a pixel shader pointlight.
lightElement exports.dynamic_lighting:createPointLight(float posX,posY,posZ,colorR,colorG,colorB,colorA,attenuation,[bool normalShadow = true])
Required Arguments
- float posX, posY, posZ: Light position in world.
- float colorR,colorG,colorB,colorA: RGBA color emitted by the light (0 - 1 instead of 0-255).
- float attenuation: Value specifying how the light intensity changes over distance.
Optional Arguments
- bool normalShadow: Determine if the light source should be obscured when lighting a surface on opposite angles.
Returns
The function returns lightElement if set successfully, false otherwise.
createSpotLight
This function creates a pixel shader spotlight.
lightElement exports.dynamic_lighting:createSpotLight(float posX,posY,posZ,colorR,colorG,colorB,colorA,dirX,dirY,dirZ, bool isEuler,float falloff,theta,phi,attenuation,[bool normalShadowing = true])
Required Arguments
- float posX, posY, posZ: Light position in world space.
- float colorR,colorG,colorB,colorA: RGBA color emitted by the light (0 - 1 instead of 0-255).
- float dirX,dirY,dirZ: Direction that the light is pointing in world space. It's a vector as default.
- bool isEuler: Is the angle set as an "ZXY" euler andgle or a vector.
- float falloff: Decrease in illumination between a spotlight's inner cone (the angle specified by Theta) and the outer edge of the outer cone (the angle specified by Phi).
- float theta: (radians) Angle, in radians, of a spotlight's inner cone - that is, the fully illuminated spotlight cone. This value must be in the range from 0 through the value specified by Phi.
- float phi: (radians) Angle, in radians, defining the outer edge of the spotlight's outer cone. Points outside this cone are not lit by the spotlight. This value must be between 0 and pi.
- float attenuation: Value specifying how the light intensity changes over distance.
Optional Arguments
- bool normalShadow: Determine if the light source should be obscured when lighting a surface on opposite angles.
Returns
The function returns lightElement if set successfully, false otherwise.
destroyLight
This function destroys a light element.
bool exports.dynamic_lighting:destroyLight(element lightElement)
Required Arguments
- element lightElement: A previously declared light element.
Returns
The function returns true if set successfully, false otherwise.
setLightDirection
This function setd light direction values for both a pointlight and a spotlight.
bool exports.dynamic_lighting:setLightDirection(element lightElement,float dirX,dirY,dirZ,[bool isEuler = false])
Required Arguments
- element lightElement: A previously declared light element.
- float dirX,dirY,dirZ: Direction that the light is pointing in world space. It's a vector as default.
Optional Arguments
- bool isEuler:Is the angle set as an "ZXY" euler andgle or a vector.
Returns
The function returns true if set successfully, false otherwise.
setLightPosition
This function sets light position values for both a pointlight and a spotlight.
bool exports.dynamic_lighting:setLightPosition(element lightElement,float posX,posY,posZ)
Required Arguments
- element lightElement: A previously declared light element.
- float posX, posY, posZ: Light position in world space.
Returns
The function returns true if set successfully, false otherwise.
setLightColor
This function sets light color values for both a pointlight and a spotlight.
bool exports.dynamic_lighting:setLightColor(element lightElement,float colorR,colorG,colorB,colorA)
Required Arguments
- element lightElement: A previously declared light element.
- float colorR,colorG,colorB,colorA: RGBA color emitted by the light (0 - 1 instead of 0-255).
Returns
The function returns true if set successfully, false otherwise.
setLightAttenuation
This function sets setLightAttenuation value for both a pointlight and a spotlight.
bool exports.dynamic_lighting:setLightAttenuation(element lightElement,float attenuation)
Required Arguments
- element lightElement: A previously declared light element.
- float attenuation: Value specifying how the light intensity changes over distance.
Returns
The function returns true if set successfully, false otherwise.
setLightFalloff
This function sets falloff value for a spotlight.
bool exports.dynamic_lighting:setLightFalloff(element lightElement,float falloff)
Required Arguments
- element lightElement: A previously declared light element.
- float falloff (radians): Decrease in illumination between a spotlight's inner cone (the angle specified by Theta) and the outer edge of the outer cone (the angle specified by Phi).
Returns
The function returns true if set successfully, false otherwise.
setLightTheta
This function sets theta value for a spotlight.
bool exports.dynamic_lighting:setLightTheta(element lightElement,float theta)
Required Arguments
- element lightElement: A previously declared light element.
- float theta (radians): Angle, in radians, of a spotlight's inner cone - that is, the fully illuminated spotlight cone. This value must be in the range from 0 through the value specified by Phi.
Returns
The function returns true if set successfully, false otherwise.
setLightPhi
This function sets phi value for a spotlight.
bool exports.dynamic_lighting:setLightPhi(element lightElement,float phi)
Required Arguments
- element lightElement: A previously declared light element.
- float phi (radians): Angle, in radians, defining the outer edge of the spotlight's outer cone. Points outside this cone are not lit by the spotlight. This value must be between 0 and pi.
Returns
The function returns true if set successfully, false otherwise.
setLightNormalShadowing
Determine if the light source should be obscured when lighting a surface on opposite angles.
bool exports.dynamic_lighting:setLightNormalShadowing(element lightElement,bool normalShadow)
Required Arguments
- element lightElement: A previously declared light element.
- bool normalShadow: Determine if the light source should be obscured when lighting a surface on opposite angles.
Returns
The function returns true if set successfully, false otherwise.
setShadersLayered
Should the main shader effects be created in a separate render pass ? As default only the vehicle effect is layered.
bool exports.dynamic_lighting:setShadersLayered(bool isWorld, isVeh, isPed)
Required Arguments
- bool isWorld, isVeh, isPed: Should the shader effects be created in a separate render pass.
Returns
The function returns true if set successfully, false otherwise.
setGenerateBumpNormals
Should the shader effect generate bump normals from texture0. Doesn't work when normal shadowing is set to false.
bool exports.dynamic_lighting:setGenerateBumpNormals(bool isTrue,[int textureSize = 512, float normalStrength.x = 1, float normalStrength.y = 1, float normalStrength.z = 1])
Required Arguments
- bool isTrue: Turn on or off bump mapping.
Optional Arguments
- int textureSize: The size of the input texture.
- float normalStrength.xyz: How bumpy should the surface be ?
Returns
The function returns true if set successfully, false otherwise.
setLightsDistFade
Set the Max distance of the light to sync and the distance on which the light starts to fade out.
bool exports.dynamic_lighting:setLightsDistFade(int MaxEffectFade,int MinEffectFade)
Required Arguments
- int MaxEffectFade: Set the Max distance of the light to sync.(Must be greater than MinEffectFade and lower than maxEffectRange).
- int MinEffectFade: Set the distance on which the light starts to fade out.
Returns
The function returns true if set successfully, false otherwise.
setLightsEffectRange
Set the Max distance from the camera the shader effects are applied to.
bool exports.dynamic_lighting:setLightsEffectRange(int maxEffectRange)
Required Arguments
- int maxEffectRange: If non-zero, the shaders will be applied to textures nearer than maxDistance only.
Returns
The function returns true if set successfully, false otherwise.
setShaderForcedOn
Should the shader effect turn off when no lightsources.
bool exports.dynamic_lighting:setShaderForcedOn(bool isShaderForcedOn)
Required Arguments
- bool isShaderForcedOn: Should the shader effect turn off when no lightsources.
Returns
The function returns true if set successfully, false otherwise.
setShaderTimeOut
Should the shader effect turn off after number of seconds (when no lightsources)
bool exports.dynamic_lighting:setShaderTimeOut(int timeOut)
Required Arguments
- int timeOut: Should the shader effect turn off after number of seconds (when no lightsources)
Returns
The function returns true if set successfully, false otherwise.
setShaderNightMod
Enable nightMod effect - requires proper manipulation of setTextureBrightness and SetShaderDayTime, also some additional shaders.
bool exports.dynamic_lighting:setShaderNightMod(bool enable)
Required Arguments
- bool enable: Enable or disable nightMod effect
Returns
The function returns true if set successfully, false otherwise.
setShaderDayTime
Another additional variable to control texture colors - requires setShaderNightMod(true)
bool exports.dynamic_lighting:setShaderDayTime(float dayTime)
Required Arguments
- float dayTime: Another additional variable to control texture colors - requires setShaderNightMod(true) set 1 as default
Returns
The function returns true if set successfully, false otherwise.
setShaderPedDiffuse
Enable or disable gta directional lights for ped.
bool exports.dynamic_lighting:setShaderPedDiffuse(bool enable)
Required Arguments
- bool enable: Enable or disable gta directional lights for ped (enabled as default)
Returns
The function returns true if set successfully, false otherwise.
setDirLightEnable
This function creates a vertex shader directional light. NOTE: Forcing the effects on or using any other lights is required for directional light to work.
bool exports.dynamic_lighting:setDirLightEnable(bool enable = false)
Required Arguments
- bool enable: Enable or disable the directional light.
Returns
The function returns true if set successfully, false otherwise.
setDirLightDirection
This function sets the directional light direction.
bool exports.dynamic_lighting:setDirLightDirection(float dirX,dirY,dirZ,[bool isEuler = false])
Required Arguments
- float dirX,dirY,dirZ: Direction that the light is pointing in world space. It's a vector as default.
Optional Arguments
- bool isEuler:Is the angle set as an "ZXY" euler andgle or a vector.
Returns
The function returns true if set successfully, false otherwise.
setDirLightColor
This function sets the directional light color value.
bool exports.dynamic_lighting:setDirLightColor(float colorR,colorG,colorB,colorA)
Required Arguments
- float colorR,colorG,colorB,colorA: RGBA color emitted by the light (0 - 1 instead of 0-255).
Returns
The function returns true if set successfully, false otherwise.
Examples
exports.dynamic_lighting:createPointLight(0,0,5,1,0,0,1,15)
This creates a red pointlight in world position (0,0,5)
Of course when you want to use these functions in your resources you have to include the dynamic_lighting resource in meta.