Vector/Vector3: Difference between revisions
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====Syntax==== | ====Syntax==== | ||
<syntaxhighlight lang="lua">vector3 Vector3 ( float x = 0, float y = 0, float z = 0 )</syntaxhighlight> | <syntaxhighlight lang="lua">vector3 Vector3 ( [ float x = 0, float y = 0, float z = 0 ] )</syntaxhighlight> | ||
=====Optional arguments===== | |||
* '''x''', '''y''' and '''z''': coordinates for the vector. If not specified, they default to 0. | * '''x''', '''y''' and '''z''': coordinates for the vector. If not specified, they default to 0. | ||
* Instead of these three coordinates, a single Vector3 object may be inserted to clone it. | * Instead of these three coordinates, a single Vector3 object may be inserted to clone it. | ||
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===cross=== | ===cross=== | ||
Calculates the cross product of two vectors, A and B, and is written as A × B. The result is another vector which: | |||
* Is orthogonal to both A and B. | |||
* Its direction is determined by the [https://upload.wikimedia.org/wikipedia/commons/d/d2/Right_hand_rule_cross_product.svg right-hand rule]. | |||
* Its length is equal to the area of the parallelogram that A and B form (which in turn is equal to A's length by B's length by the sine of the minimum angle between A and B). | |||
====Syntax==== | |||
<syntaxhighlight lang="lua">vector3 Vector3:cross ( vector3 vector )</syntaxhighlight> | |||
=====Required arguments===== | |||
* '''vector''': a vector3 object to get the cross product with. | |||
====Example==== | |||
This example creates a tiny sun which is always at the right of the vehicle the local player drives. By default it will draw the vectors used to compute the position where it should be, so you can understand what does this function do. Note that the code could be made simpler by simply getting the right component of the vehicle matrix. '''Make sure that you put this code in a resource which has OOP enabled, or it won't work'''. | |||
<section name="Client" class="client" show="true"> | |||
<syntaxhighlight lang="lua">-- OPTIONS -- | |||
local debugMode = true -- If true, the script will draw the vectors used to compute the effect | |||
-- EFFECT CONTROL FUNCTIONS -- | |||
local playerVehicle, lightMarker, light | |||
local function applyDrivingLightEffect() | |||
-- Get the vehicle matrix and use it to get the vehicle and vehicle base position | |||
local vehicleMatrix = playerVehicle.matrix | |||
local vehiclePosition = vehicleMatrix:getPosition() | |||
-- Get the vehicle upwards vector and vehicle forward direction vector | |||
local vehicleUpwardsVector, vehicleForwardVector = vehicleMatrix:getUp(), vehicleMatrix:getForward() | |||
-- Get the normalized cross product of the vehicle forward vector and the vehicleUpwardsVector vector | |||
local crossVector = vehicleForwardVector:cross(vehicleUpwardsVector):getNormalized() | |||
-- Draw all the interesting vectors we have now | |||
if debugMode then | |||
local forwardPoint = vehiclePosition + vehicleForwardVector | |||
dxDrawLine3D(vehiclePosition, forwardPoint, tocolor(255, 0, 0)) | |||
local sx, sy = getScreenFromWorldPosition(forwardPoint) | |||
if sx then | |||
dxDrawText("F", sx, sy) | |||
end | |||
local vehicleUpwardsVectorPoint = vehiclePosition + vehicleUpwardsVector | |||
dxDrawLine3D(vehiclePosition, vehicleUpwardsVectorPoint, tocolor(0, 255, 0)) | |||
local sx, sy = getScreenFromWorldPosition(vehicleUpwardsVectorPoint, 1.1) | |||
if sx then | |||
dxDrawText("U", sx, sy) | |||
end | |||
local crossPoint = vehiclePosition + crossVector | |||
dxDrawLine3D(vehiclePosition, crossPoint, tocolor(0, 0, 255)) | |||
local sx, sy = getScreenFromWorldPosition(crossPoint) | |||
if sx then | |||
dxDrawText("C", sx, sy) | |||
end | |||
end | |||
-- Calculate the half length of the vehicle based in its bounding box, and use it to position the light effects at the right | |||
local _, bmy, _, _, bMy = playerVehicle:getBoundingBox() | |||
local newEffectPosition = vehiclePosition + crossVector * (bMy - bmy) / 2 | |||
lightMarker.position = newEffectPosition | |||
light.position = newEffectPosition | |||
end | |||
local function startDrivingLightEffect() | |||
-- Create the effects and start updating them every frame | |||
addEventHandler("onClientPreRender", root, applyDrivingLightEffect) | |||
playerVehicle, lightMarker, light = localPlayer.vehicle, createMarker(0, 0, 0, "corona", 0.5, 255, 255, 0), createLight(0, 0, 0, 0, 8, 255, 255) | |||
-- If we are in debug mode, render the vehicle invisible to see the vectors clearly | |||
if debugMode then | |||
playerVehicle.alpha = 0 | |||
end | |||
end | |||
local function stopDrivingLightEffect() | |||
-- Stop applyDrivingLightEffect from being called and destroy everything created | |||
removeEventHandler("onClientPreRender", root, applyDrivingLightEffect) | |||
destroyElement(lightMarker) | |||
destroyElement(light) | |||
-- If we are in debug mode, reset the vehicle alpha to normal again | |||
if debugMode then | |||
playerVehicle.alpha = 255 | |||
end | |||
playerVehicle, lightMarker, light = nil, nil, nil | |||
end | |||
-- FUNCTIONS THAT MANAGE THE EFFECT -- | |||
-- Start or stop the effect when the player is driving a car | |||
local function manageDrivingLightEffectStatus(_, seat) | |||
if eventName == "onClientPlayerVehicleEnter" then | |||
if seat == 0 then | |||
-- The player has just entered a vehicle as the driver. Start the effect | |||
startDrivingLightEffect() | |||
end | |||
elseif playerVehicle then | |||
-- The player has just exited a vehicle and we were applying the effect. Stop it | |||
stopDrivingLightEffect() | |||
end | |||
end | |||
addEventHandler("onClientPlayerVehicleEnter", localPlayer, manageDrivingLightEffectStatus) | |||
addEventHandler("onClientPlayerVehicleExit", localPlayer, manageDrivingLightEffectStatus) | |||
-- Start the effect when the resource starts if the player is driving a vehicle, and reset vehicle alpha back to normal if necessary | |||
local function handleResourceStartStop() | |||
if eventName == "onClientResourceStart" then | |||
playerVehicle = localPlayer.vehicle or nil | |||
if playerVehicle then | |||
startDrivingLightEffect() | |||
end | |||
elseif playerVehicle then | |||
-- It is not necessary to call this function to just reset the car alpha, but it is a good practise to ALWAYS clean up everything nevertheless | |||
stopDrivingLightEffect() | |||
end | |||
end | |||
addEventHandler("onClientResourceStart", resourceRoot, handleResourceStartStop) | |||
addEventHandler("onClientResourceStop", resourceRoot, handleResourceStartStop)</syntaxhighlight></section> | |||
===dot=== | ===dot=== | ||
Calculates the (standard) dot/scalar product of two vectors. If we call that vectors A and B, the dot product is written as A · B. This can be used to calculate the angle between them. If the standard scalar product is 0, both vectors are orthogonal. | |||
====Syntax==== | |||
<syntaxhighlight lang="lua">float Vector3:dot ( vector3 vector )</syntaxhighlight> | |||
=====Required arguments===== | |||
* '''vector''': a vector3 object to get the dot product with. | |||
====Example==== | |||
This examples illustrates the concept of dot/scalar product and implements a useful function which can be used to get the angle between two vectors. | |||
<section name="Shared" class="both" show="true"> | |||
<syntaxhighlight lang="lua"> | |||
local vec1 = Vector3(1, 0, 0) | |||
local vec2 = Vector3(0, 0, 0) | |||
local dotproduct = vec1:dot(vec2) | |||
if dotproduct == 0 then | |||
outputDebugString("vec1 is orthogonal to vec2") | |||
end | |||
-- Calculate angle between vec1 and vec2 | |||
function angle(vec1, vec2) | |||
-- Calculate the angle by applying law of cosines | |||
return math.acos(vec1:dot(vec2)/(vec1.length*vec2.length)) | |||
end | |||
outputDebugString("Angle between vec1 and vec2: "..math.deg(angle(vec1, vec2)).."°") | |||
</syntaxhighlight> | |||
</section> | |||
===normalize=== | ===normalize=== | ||
Converts a vector to a unit vector (a vector of length 1). | |||
====Syntax==== | |||
<syntaxhighlight lang="lua">bool Vector3:normalize ( )</syntaxhighlight> | |||
====Example==== | |||
This example slowly moves all the players' camera to look at the Mount Chilliad. | |||
<section name="Client" class="client" show="true"> | |||
<syntaxhighlight lang="lua"> | |||
local targetPosition = Vector3(-2627.32, -1083.2, 433.35) -- Somewhere in Mount Chilliad | |||
local function moveCameraToTarget(deltaTime) | |||
local currentPosition = Vector3(getCameraMatrix()) | |||
local direction = targetPosition - currentPosition | |||
direction:normalize() -- Get a direction vector by normalizing the vector from the current position to the target position | |||
setCameraMatrix(currentPosition + direction * deltaTime * 0.05, -2589.45, -1174.49, 418.09) | |||
end | |||
addEventHandler("onClientPreRender", root, moveCameraToTarget) | |||
</syntaxhighlight> | |||
</section> | |||
===getX and setX=== | ===getX and setX=== | ||
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===getZ and setZ=== | ===getZ and setZ=== | ||
===getNormalized=== | ===getNormalized=== | ||
Returns a normalized vector (of length 1) of the vector it's used on. Differently from the ''Vector3:normalize'' method, this one returns a ''vector3'' and doesn't modify the original vector. | |||
====Syntax==== | |||
<syntaxhighlight lang="lua">vector3 Vector3:getNormalized ( )</syntaxhighlight> | |||
====Example==== | |||
This example slowly moves all the players' camera to look at the Mount Chilliad with a shorter code than the previous example. | |||
<section name="Client" class="client" show="true"> | |||
<syntaxhighlight lang="lua"> | |||
local targetPosition = Vector3(-2627.32, -1083.2, 433.35) -- Somewhere in Mount Chilliad | |||
local function moveCameraToTarget(deltaTime) | |||
local currentPosition = Vector3(getCameraMatrix()) | |||
local direction = (targetPosition - currentPosition):getNormalized() -- Get a direction vector by normalizing the vector from the current position to the target position | |||
setCameraMatrix(currentPosition + direction * deltaTime * 0.05, -2589.45, -1174.49, 418.09) | |||
end | |||
addEventHandler("onClientPreRender", root, moveCameraToTarget) | |||
</syntaxhighlight> | |||
</section> | |||
===getSquaredLength=== | ===getSquaredLength=== | ||
===getLength=== | ===getLength=== | ||
===intersectsSegmentTriangle=== | |||
Returns the intersection of the given triangle, or false if there is no intersection. | |||
====Syntax==== | |||
<syntaxhighlight lang="lua">vector3 Vector3.intersectsSegmentTriangle ( vector3 origin, vector3 segmentDir, vector3 triVert0, vector3 triVert1, vector3 triVert2 )</syntaxhighlight> | |||
<syntaxhighlight lang="lua">vector3 Vector3:intersectsSegmentTriangle ( vector3 segmentDir, vector3 triVert0, vector3 triVert1, vector3 triVert2 )</syntaxhighlight> | |||
[[ru:Vector/Vector3]] | [[ru:Vector/Vector3]] |
Latest revision as of 12:10, 15 January 2022
The vector3 class represents a three-dimensional vector.
Methods
create
This is default constructor for the Vector3 class and returns a Vector3 object.
Syntax
vector3 Vector3 ( [ float x = 0, float y = 0, float z = 0 ] )
Optional arguments
- x, y and z: coordinates for the vector. If not specified, they default to 0.
- Instead of these three coordinates, a single Vector3 object may be inserted to clone it.
Example
This example sorts all players in a nice line on the center of the map.
local players = getElementsByType("player") local newPlayerPosition = Vector3(-#players - 1, 0, 10) -- Initialize the position vector for the first player in the list for _, player in ipairs(players) do -- Move each player 1 unit forward in X from the previous one newPlayerPosition.x = newPlayerPosition.x + 1 setElementPosition(player, newPlayerPosition) end
cross
Calculates the cross product of two vectors, A and B, and is written as A × B. The result is another vector which:
- Is orthogonal to both A and B.
- Its direction is determined by the right-hand rule.
- Its length is equal to the area of the parallelogram that A and B form (which in turn is equal to A's length by B's length by the sine of the minimum angle between A and B).
Syntax
vector3 Vector3:cross ( vector3 vector )
Required arguments
- vector: a vector3 object to get the cross product with.
Example
This example creates a tiny sun which is always at the right of the vehicle the local player drives. By default it will draw the vectors used to compute the position where it should be, so you can understand what does this function do. Note that the code could be made simpler by simply getting the right component of the vehicle matrix. Make sure that you put this code in a resource which has OOP enabled, or it won't work.
-- OPTIONS -- local debugMode = true -- If true, the script will draw the vectors used to compute the effect -- EFFECT CONTROL FUNCTIONS -- local playerVehicle, lightMarker, light local function applyDrivingLightEffect() -- Get the vehicle matrix and use it to get the vehicle and vehicle base position local vehicleMatrix = playerVehicle.matrix local vehiclePosition = vehicleMatrix:getPosition() -- Get the vehicle upwards vector and vehicle forward direction vector local vehicleUpwardsVector, vehicleForwardVector = vehicleMatrix:getUp(), vehicleMatrix:getForward() -- Get the normalized cross product of the vehicle forward vector and the vehicleUpwardsVector vector local crossVector = vehicleForwardVector:cross(vehicleUpwardsVector):getNormalized() -- Draw all the interesting vectors we have now if debugMode then local forwardPoint = vehiclePosition + vehicleForwardVector dxDrawLine3D(vehiclePosition, forwardPoint, tocolor(255, 0, 0)) local sx, sy = getScreenFromWorldPosition(forwardPoint) if sx then dxDrawText("F", sx, sy) end local vehicleUpwardsVectorPoint = vehiclePosition + vehicleUpwardsVector dxDrawLine3D(vehiclePosition, vehicleUpwardsVectorPoint, tocolor(0, 255, 0)) local sx, sy = getScreenFromWorldPosition(vehicleUpwardsVectorPoint, 1.1) if sx then dxDrawText("U", sx, sy) end local crossPoint = vehiclePosition + crossVector dxDrawLine3D(vehiclePosition, crossPoint, tocolor(0, 0, 255)) local sx, sy = getScreenFromWorldPosition(crossPoint) if sx then dxDrawText("C", sx, sy) end end -- Calculate the half length of the vehicle based in its bounding box, and use it to position the light effects at the right local _, bmy, _, _, bMy = playerVehicle:getBoundingBox() local newEffectPosition = vehiclePosition + crossVector * (bMy - bmy) / 2 lightMarker.position = newEffectPosition light.position = newEffectPosition end local function startDrivingLightEffect() -- Create the effects and start updating them every frame addEventHandler("onClientPreRender", root, applyDrivingLightEffect) playerVehicle, lightMarker, light = localPlayer.vehicle, createMarker(0, 0, 0, "corona", 0.5, 255, 255, 0), createLight(0, 0, 0, 0, 8, 255, 255) -- If we are in debug mode, render the vehicle invisible to see the vectors clearly if debugMode then playerVehicle.alpha = 0 end end local function stopDrivingLightEffect() -- Stop applyDrivingLightEffect from being called and destroy everything created removeEventHandler("onClientPreRender", root, applyDrivingLightEffect) destroyElement(lightMarker) destroyElement(light) -- If we are in debug mode, reset the vehicle alpha to normal again if debugMode then playerVehicle.alpha = 255 end playerVehicle, lightMarker, light = nil, nil, nil end -- FUNCTIONS THAT MANAGE THE EFFECT -- -- Start or stop the effect when the player is driving a car local function manageDrivingLightEffectStatus(_, seat) if eventName == "onClientPlayerVehicleEnter" then if seat == 0 then -- The player has just entered a vehicle as the driver. Start the effect startDrivingLightEffect() end elseif playerVehicle then -- The player has just exited a vehicle and we were applying the effect. Stop it stopDrivingLightEffect() end end addEventHandler("onClientPlayerVehicleEnter", localPlayer, manageDrivingLightEffectStatus) addEventHandler("onClientPlayerVehicleExit", localPlayer, manageDrivingLightEffectStatus) -- Start the effect when the resource starts if the player is driving a vehicle, and reset vehicle alpha back to normal if necessary local function handleResourceStartStop() if eventName == "onClientResourceStart" then playerVehicle = localPlayer.vehicle or nil if playerVehicle then startDrivingLightEffect() end elseif playerVehicle then -- It is not necessary to call this function to just reset the car alpha, but it is a good practise to ALWAYS clean up everything nevertheless stopDrivingLightEffect() end end addEventHandler("onClientResourceStart", resourceRoot, handleResourceStartStop) addEventHandler("onClientResourceStop", resourceRoot, handleResourceStartStop)
dot
Calculates the (standard) dot/scalar product of two vectors. If we call that vectors A and B, the dot product is written as A · B. This can be used to calculate the angle between them. If the standard scalar product is 0, both vectors are orthogonal.
Syntax
float Vector3:dot ( vector3 vector )
Required arguments
- vector: a vector3 object to get the dot product with.
Example
This examples illustrates the concept of dot/scalar product and implements a useful function which can be used to get the angle between two vectors.
local vec1 = Vector3(1, 0, 0) local vec2 = Vector3(0, 0, 0) local dotproduct = vec1:dot(vec2) if dotproduct == 0 then outputDebugString("vec1 is orthogonal to vec2") end -- Calculate angle between vec1 and vec2 function angle(vec1, vec2) -- Calculate the angle by applying law of cosines return math.acos(vec1:dot(vec2)/(vec1.length*vec2.length)) end outputDebugString("Angle between vec1 and vec2: "..math.deg(angle(vec1, vec2)).."°")
normalize
Converts a vector to a unit vector (a vector of length 1).
Syntax
bool Vector3:normalize ( )
Example
This example slowly moves all the players' camera to look at the Mount Chilliad.
local targetPosition = Vector3(-2627.32, -1083.2, 433.35) -- Somewhere in Mount Chilliad local function moveCameraToTarget(deltaTime) local currentPosition = Vector3(getCameraMatrix()) local direction = targetPosition - currentPosition direction:normalize() -- Get a direction vector by normalizing the vector from the current position to the target position setCameraMatrix(currentPosition + direction * deltaTime * 0.05, -2589.45, -1174.49, 418.09) end addEventHandler("onClientPreRender", root, moveCameraToTarget)
getX and setX
getY and setY
getZ and setZ
getNormalized
Returns a normalized vector (of length 1) of the vector it's used on. Differently from the Vector3:normalize method, this one returns a vector3 and doesn't modify the original vector.
Syntax
vector3 Vector3:getNormalized ( )
Example
This example slowly moves all the players' camera to look at the Mount Chilliad with a shorter code than the previous example.
local targetPosition = Vector3(-2627.32, -1083.2, 433.35) -- Somewhere in Mount Chilliad local function moveCameraToTarget(deltaTime) local currentPosition = Vector3(getCameraMatrix()) local direction = (targetPosition - currentPosition):getNormalized() -- Get a direction vector by normalizing the vector from the current position to the target position setCameraMatrix(currentPosition + direction * deltaTime * 0.05, -2589.45, -1174.49, 418.09) end addEventHandler("onClientPreRender", root, moveCameraToTarget)
getSquaredLength
getLength
intersectsSegmentTriangle
Returns the intersection of the given triangle, or false if there is no intersection.
Syntax
vector3 Vector3.intersectsSegmentTriangle ( vector3 origin, vector3 segmentDir, vector3 triVert0, vector3 triVert1, vector3 triVert2 )
vector3 Vector3:intersectsSegmentTriangle ( vector3 segmentDir, vector3 triVert0, vector3 triVert1, vector3 triVert2 )