---@meta --- ---The `lovr.headset` module is where all the magical VR functionality is. --- ---With it, you can access connected VR hardware and get information about the available space the player has. --- ---Note that all units are reported in meters. --- ---Position `(0, 0, 0)` is the center of the play area. --- ---@class lovr.headset lovr.headset = {} --- ---Animates a device model to match its current input state. --- ---The buttons and joysticks on a controller will move as they're pressed/moved and hand models will move to match skeletal input. --- ---The model should have been created using `lovr.headset.newModel` with the `animated` flag set to `true`. --- --- ---### NOTE: ---Currently this function is supported for OpenVR controller models and Oculus hand models. --- ---This function may animate using node-based animation or skeletal animation. --- ---`Model:hasJoints` can be used on a Model so you know if a Shader with the `animated` ShaderFlag needs to be used to render the results properly. --- ---It's possible to use models that weren't created with `lovr.headset.newModel` but they need to be set up carefully to have the same structure as the models provided by the headset SDK. --- ---@param device? lovr.Device # The device to use for the animation data. ---@param model lovr.Model # The model to animate. ---@return boolean success # Whether the animation was applied successfully to the Model. If the Model was not compatible or animation data for the device was not available, this will be `false`. function lovr.headset.animate(device, model) end --- ---Returns the current angular velocity of a device. --- ---@param device? lovr.Device # The device to get the velocity of. ---@return number x # The x component of the angular velocity. ---@return number y # The y component of the angular velocity. ---@return number z # The z component of the angular velocity. function lovr.headset.getAngularVelocity(device) end --- ---Get the current state of an analog axis on a device. --- ---Some axes are multidimensional, for example a 2D touchpad or thumbstick with x/y axes. --- ---For multidimensional axes, this function will return multiple values, one number for each axis. --- ---In these cases, it can be useful to use the `select` function built in to Lua to select a particular axis component. --- --- ---### NOTE: ---The axis values will be between 0 and 1 for 1D axes, and between -1 and 1 for each component of a multidimensional axis. --- ---@param device lovr.Device # The device. ---@param axis lovr.DeviceAxis # The axis. function lovr.headset.getAxis(device, axis) end --- ---Returns the depth of the play area, in meters. --- --- ---### NOTE: ---This currently returns 0 on the Quest. --- ---@return number depth # The depth of the play area, in meters. function lovr.headset.getBoundsDepth() end --- ---Returns the size of the play area, in meters. --- --- ---### NOTE: ---This currently returns 0 on the Quest. --- ---@return number width # The width of the play area, in meters. ---@return number depth # The depth of the play area, in meters. function lovr.headset.getBoundsDimensions() end --- ---Returns a list of points representing the boundaries of the play area, or `nil` if the current headset driver does not expose this information. --- ---@param t? table # A table to fill with the points. If `nil`, a new table will be created. ---@return table points # A flat table of 3D points representing the play area boundaries. function lovr.headset.getBoundsGeometry(t) end --- ---Returns the width of the play area, in meters. --- --- ---### NOTE: ---This currently returns 0 on the Quest. --- ---@return number width # The width of the play area, in meters. function lovr.headset.getBoundsWidth() end --- ---Returns the near and far clipping planes used to render to the headset. --- ---Objects closer than the near clipping plane or further than the far clipping plane will be clipped out of view. --- --- ---### NOTE: ---The default near and far clipping planes are 0.1 meters and 100.0 meters. --- ---This is not currently supported by the `vrapi` headset driver. --- ---@return number near # The distance to the near clipping plane, in meters. ---@return number far # The distance to the far clipping plane, in meters. function lovr.headset.getClipDistance() end --- ---Returns the texture dimensions of the headset display (for one eye), in pixels. --- ---@return number width # The width of the display. ---@return number height # The height of the display. function lovr.headset.getDisplayDimensions() end --- ---Returns the refresh rate of the headset display, in Hz. --- ---@return number frequency # The frequency of the display, or `nil` if I have no idea what it is. function lovr.headset.getDisplayFrequency() end --- ---Returns the height of the headset display (for one eye), in pixels. --- ---@return number height # The height of the display. function lovr.headset.getDisplayHeight() end --- ---Returns 2D triangle vertices that represent areas of the headset display that will never be seen by the user (due to the circular lenses). --- ---This area can be masked out by rendering it to the depth buffer or stencil buffer. --- ---Then, further drawing operations can skip rendering those pixels using the depth test (`lovr.graphics.setDepthTest`) or stencil test (`lovr.graphics.setStencilTest`), which improves performance. --- ---@return table points # A table of points. Each point is a table with two numbers between 0 and 1. function lovr.headset.getDisplayMask() end --- ---Returns the width of the headset display (for one eye), in pixels. --- ---@return number width # The width of the display. function lovr.headset.getDisplayWidth() end --- ---Returns the `HeadsetDriver` that is currently in use, optionally for a specific device. --- ---The order of headset drivers can be changed using `lovr.conf` to prefer or exclude specific VR APIs. --- ---@overload fun(device: lovr.Device):lovr.HeadsetDriver ---@return lovr.HeadsetDriver driver # The driver of the headset in use, e.g. "OpenVR". function lovr.headset.getDriver() end --- ---Returns a table with all of the currently tracked hand devices. --- --- ---### NOTE: ---The hand paths will *always* be either `hand/left` or `hand/right`. --- ---@return table hands # The currently tracked hand devices. function lovr.headset.getHands() end --- ---Returns a Texture that contains whatever is currently rendered to the headset. --- ---Sometimes this can be `nil` if the current headset driver doesn't have a mirror texture, which can happen if the driver renders directly to the display. --- ---Currently the `desktop`, `webxr`, and `vrapi` drivers do not have a mirror texture. --- ---It also isn't guaranteed that the same Texture will be returned by subsequent calls to this function. --- ---Currently, the `oculus` driver exhibits this behavior. --- ---@return lovr.Texture mirror # The mirror texture. function lovr.headset.getMirrorTexture() end --- ---Returns the name of the headset as a string. --- ---The exact string that is returned depends on the hardware and VR SDK that is currently in use. --- --- ---### NOTE: --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
drivername
desktopSimulator
openvrvaries
openxrvaries
vrapiOculus Quest or Oculus Quest 2
webxralways nil
oculusvaries
picoPico
--- ---@return string name # The name of the headset as a string. function lovr.headset.getName() end --- ---Returns the current orientation of a device, in angle/axis form. --- --- ---### NOTE: ---If the device isn't tracked, all zeroes will be returned. --- ---@param device? lovr.Device # The device to get the orientation of. ---@return number angle # The amount of rotation around the axis of rotation, in radians. ---@return number ax # The x component of the axis of rotation. ---@return number ay # The y component of the axis of rotation. ---@return number az # The z component of the axis of rotation. function lovr.headset.getOrientation(device) end --- ---Returns the type of origin used for the tracking volume. --- ---The different types of origins are explained on the `HeadsetOrigin` page. --- ---@return lovr.HeadsetOrigin origin # The type of origin. function lovr.headset.getOriginType() end --- ---Returns the current position and orientation of a device. --- --- ---### NOTE: ---Units are in meters. --- ---If the device isn't tracked, all zeroes will be returned. --- ---@param device? lovr.Device # The device to get the pose of. ---@return number x # The x position. ---@return number y # The y position. ---@return number z # The z position. ---@return number angle # The amount of rotation around the axis of rotation, in radians. ---@return number ax # The x component of the axis of rotation. ---@return number ay # The y component of the axis of rotation. ---@return number az # The z component of the axis of rotation. function lovr.headset.getPose(device) end --- ---Returns the current position of a device, in meters, relative to the play area. --- --- ---### NOTE: ---If the device isn't tracked, all zeroes will be returned. --- ---@param device? lovr.Device # The device to get the position of. ---@return number x # The x position of the device. ---@return number y # The y position of the device. ---@return number z # The z position of the device. function lovr.headset.getPosition(device) end --- ---Returns a list of joint poses tracked by a device. --- ---Currently, only hand devices are able to track joints. --- --- ---### NOTE: ---If the Device does not support tracking joints or the poses are unavailable, `nil` is returned. --- ---The joint orientation is similar to the graphics coordinate system: -Z is the forwards direction, pointing towards the fingertips. --- ---The +Y direction is "up", pointing out of the back of the hand. --- ---The +X direction is to the right, perpendicular to X and Z. --- ---Hand joints are returned in the following order: --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---
JointIndex
Palm1
Wrist2
ThumbMetacarpal3
Proximal4
Distal5
Tip6
IndexMetacarpal7
Proximal8
Intermediate9
Distal10
Tip11
MiddleMetacarpal12
Proximal13
Intermediate14
Distal15
Tip16
RingMetacarpal17
Proximal18
Intermediate19
Distal20
Tip21
PinkyMetacarpal22
Proximal23
Intermediate24
Distal25
Tip26
--- ---@overload fun(device: lovr.Device, t: table):table ---@param device lovr.Device # The Device to query. ---@return table poses # A list of joint poses for the device. Each pose is a table with 3 numbers for the position of the joint followed by 4 numbers for the angle/axis orientation of the joint. function lovr.headset.getSkeleton(device) end --- ---Returns the estimated time in the future at which the light from the pixels of the current frame will hit the eyes of the user. --- ---This can be used as a replacement for `lovr.timer.getTime` for timestamps that are used for rendering to get a smoother result that is synchronized with the display of the headset. --- --- ---### NOTE: ---This has a different epoch than `lovr.timer.getTime`, so it is not guaranteed to be close to that value. --- ---@return number time # The predicted display time, in seconds. function lovr.headset.getTime() end --- ---Returns the current linear velocity of a device, in meters per second. --- ---@param device? lovr.Device # The device to get the velocity of. ---@return number vx # The x component of the linear velocity. ---@return number vy # The y component of the linear velocity. ---@return number vz # The z component of the linear velocity. function lovr.headset.getVelocity(device) end --- ---Returns the view angles of one of the headset views. --- ---These can be used with `Mat4:fov` to create a projection matrix. --- ---If tracking data is unavailable for the view or the index is invalid, `nil` is returned. --- ---@param view number # The view index. ---@return number left # The left view angle, in radians. ---@return number right # The right view angle, in radians. ---@return number top # The top view angle, in radians. ---@return number bottom # The bottom view angle, in radians. function lovr.headset.getViewAngles(view) end --- ---Returns the number of views used for rendering. --- ---Each view consists of a pose in space and a set of angle values that determine the field of view. --- ---This is usually 2 for stereo rendering configurations, but it can also be different. --- ---For example, one way of doing foveated rendering uses 2 views for each eye -- one low quality view with a wider field of view, and a high quality view with a narrower field of view. --- ---@return number count # The number of views. function lovr.headset.getViewCount() end --- ---Returns the pose of one of the headset views. --- ---This info can be used to create view matrices or do other eye-dependent calculations. --- ---If tracking data is unavailable for the view or the index is invalid, `nil` is returned. --- ---@param view number # The view index. ---@return number x # The x coordinate of the view position, in meters. ---@return number y # The y coordinate of the view position, in meters. ---@return number z # The z coordinate of the view position, in meters. ---@return number angle # The amount of rotation around the rotation axis, in radians. ---@return number ax # The x component of the axis of rotation. ---@return number ay # The y component of the axis of rotation. ---@return number az # The z component of the axis of rotation. function lovr.headset.getViewPose(view) end --- ---Returns whether a button on a device is pressed. --- ---@param device lovr.Device # The device. ---@param button lovr.DeviceButton # The button. ---@return boolean down # Whether the button on the device is currently pressed, or `nil` if the device does not have the specified button. function lovr.headset.isDown(device, button) end --- ---Returns whether a button on a device is currently touched. --- ---@param device lovr.Device # The device. ---@param button lovr.DeviceButton # The button. ---@return boolean touched # Whether the button on the device is currently touched, or `nil` if the device does not have the button or it isn't touch-sensitive. function lovr.headset.isTouched(device, button) end --- ---Returns whether any active headset driver is currently returning pose information for a device. --- --- ---### NOTE: ---If a device is tracked, it is guaranteed to return a valid pose until the next call to `lovr.headset.update`. --- ---@param device? lovr.Device # The device to get the pose of. ---@return boolean tracked # Whether the device is currently tracked. function lovr.headset.isTracked(device) end --- ---Returns a new Model for the specified device. --- --- ---### NOTE: ---This is only supported on the `openvr` and `vrapi` drivers right now. --- ---@param device? lovr.Device # The device to load a model for. ---@param options? {animated: boolean} # Options for loading the model. ---@return lovr.Model model # The new Model, or `nil` if a model could not be loaded. function lovr.headset.newModel(device, options) end --- ---Renders to each eye of the headset using a function. --- ---This function takes care of setting the appropriate graphics transformations to ensure that the scene is rendered as though it is being viewed through each eye of the player. --- ---It also takes care of setting the correct projection for the headset lenses. --- ---If the headset module is enabled, this function is called automatically by `lovr.run` with `lovr.draw` as the callback. --- --- ---### NOTE: ---When using the `pico` headset driver, headset rendering is asynchronous and the callback passed to `lovr.headset.renderTo` will not be called immediately. --- ---At the beginning of the callback, the display is cleared to the background color. --- ---The background color can be changed using `lovr.graphics.setBackgroundColor`. --- ---If the callback is `nil`, an empty frame cleared to current graphics background color will be submitted to the headset. --- ---@param callback function # The function used to render. Any functions called will render to the headset instead of to the window. function lovr.headset.renderTo(callback) end --- ---Sets the near and far clipping planes used to render to the headset. --- ---Objects closer than the near clipping plane or further than the far clipping plane will be clipped out of view. --- --- ---### NOTE: ---The default clip distances are 0.1 and 100.0. --- ---@param near number # The distance to the near clipping plane, in meters. ---@param far number # The distance to the far clipping plane, in meters. function lovr.headset.setClipDistance(near, far) end --- ---Causes the device to vibrate with a custom strength, duration, and frequency, if possible. --- --- ---### NOTE: ---When using the `openvr` headset driver on an HTC Vive, the value for the `duration` currently must be less than .004 seconds. --- ---Call this function several frames in a row for stronger or prolonged vibration patterns. --- ---On the Oculus Quest, devices can only be vibrated once per frame. --- ---Any attempts after the first will return `false`. --- ---@param device? lovr.Device # The device to vibrate. ---@param strength? number # The strength of the vibration (amplitude), between 0 and 1. ---@param duration? number # The duration of the vibration, in seconds. ---@param frequency? number # The frequency of the vibration, in hertz. 0 will use a default frequency. ---@return boolean vibrated # Whether the vibration was successfully triggered by an active headset driver. function lovr.headset.vibrate(device, strength, duration, frequency) end --- ---Returns whether a button on a device was pressed this frame. --- --- ---### NOTE: ---Some headset backends are not able to return pressed/released information. --- ---These drivers will always return false for `lovr.headset.wasPressed` and `lovr.headset.wasReleased`. --- ---Typically the internal `lovr.headset.update` function will update pressed/released status. --- ---@param device lovr.Device # The device. ---@param button lovr.DeviceButton # The button to check. ---@return boolean pressed # Whether the button on the device was pressed this frame. function lovr.headset.wasPressed(device, button) end --- ---Returns whether a button on a device was released this frame. --- --- ---### NOTE: ---Some headset backends are not able to return pressed/released information. --- ---These drivers will always return false for `lovr.headset.wasPressed` and `lovr.headset.wasReleased`. --- ---Typically the internal `lovr.headset.update` function will update pressed/released status. --- ---@param device lovr.Device # The device. ---@param button lovr.DeviceButton # The button to check. ---@return boolean released # Whether the button on the device was released this frame. function lovr.headset.wasReleased(device, button) end --- ---Different types of input devices supported by the `lovr.headset` module. --- ---@alias lovr.Device --- ---The headset. --- ---| '"head"' --- ---The left controller. --- ---| '"hand/left"' --- ---The right controller. --- ---| '"hand/right"' --- ---A shorthand for hand/left. --- ---| '"left"' --- ---A shorthand for hand/right. --- ---| '"right"' --- ---A device tracking the left elbow. --- ---| '"elbow/left"' --- ---A device tracking the right elbow. --- ---| '"elbow/right"' --- ---A device tracking the left shoulder. --- ---| '"shoulder/left"' --- ---A device tracking the right shoulder. --- ---| '"shoulder/right"' --- ---A device tracking the chest. --- ---| '"chest"' --- ---A device tracking the waist. --- ---| '"waist"' --- ---A device tracking the left knee. --- ---| '"knee/left"' --- ---A device tracking the right knee. --- ---| '"knee/right"' --- ---A device tracking the left foot or ankle. --- ---| '"foot/left"' --- ---A device tracking the right foot or ankle. --- ---| '"foot/right"' --- ---A device used as a camera in the scene. --- ---| '"camera"' --- ---A tracked keyboard. --- ---| '"keyboard"' --- ---The left eye. --- ---| '"eye/left"' --- ---The right eye. --- ---| '"eye/right"' --- ---The first tracking device (i.e. lighthouse). --- ---| '"beacon/1"' --- ---The second tracking device (i.e. lighthouse). --- ---| '"beacon/2"' --- ---The third tracking device (i.e. lighthouse). --- ---| '"beacon/3"' --- ---The fourth tracking device (i.e. lighthouse). --- ---| '"beacon/4"' --- ---Axes on an input device. --- ---@alias lovr.DeviceAxis --- ---A trigger (1D). --- ---| '"trigger"' --- ---A thumbstick (2D). --- ---| '"thumbstick"' --- ---A touchpad (2D). --- ---| '"touchpad"' --- ---A grip button or grab gesture (1D). --- ---| '"grip"' --- ---Buttons on an input device. --- ---@alias lovr.DeviceButton --- ---The trigger button. --- ---| '"trigger"' --- ---The thumbstick. --- ---| '"thumbstick"' --- ---The touchpad. --- ---| '"touchpad"' --- ---The grip button. --- ---| '"grip"' --- ---The menu button. --- ---| '"menu"' --- ---The A button. --- ---| '"a"' --- ---The B button. --- ---| '"b"' --- ---The X button. --- ---| '"x"' --- ---The Y button. --- ---| '"y"' --- ---The proximity sensor on a headset. --- ---| '"proximity"' --- ---These are all of the supported VR APIs that LÖVR can use to power the lovr.headset module. --- ---You can change the order of headset drivers using `lovr.conf` to prefer or exclude specific VR APIs. --- ---At startup, LÖVR searches through the list of drivers in order. --- ---One headset driver will be used for rendering to the VR display, and all supported headset drivers will be used for device input. --- ---The way this works is that when poses or button input is requested, the input drivers are queried (in the order they appear in `conf.lua`) to see if any of them currently have data for the specified device. --- ---The first one that returns data will be used to provide the result. This allows projects to support multiple types of hardware devices. --- ---@alias lovr.HeadsetDriver --- ---A VR simulator using keyboard/mouse. --- ---| '"desktop"' --- ---Oculus Desktop SDK. --- ---| '"oculus"' --- ---OpenVR. --- ---| '"openvr"' --- ---OpenXR. --- ---| '"openxr"' --- ---Oculus Mobile SDK. --- ---| '"vrapi"' --- ---Pico. --- ---| '"pico"' --- ---WebXR. --- ---| '"webxr"' --- ---Represents the different types of origins for coordinate spaces. --- ---An origin of "floor" means that the origin is on the floor in the middle of a room-scale play area. --- ---An origin of "head" means that no positional tracking is available, and consequently the origin is always at the position of the headset. --- ---@alias lovr.HeadsetOrigin --- ---The origin is at the head. --- ---| '"head"' --- ---The origin is on the floor. --- ---| '"floor"'