149 lines
8.7 KiB
Lua
149 lines
8.7 KiB
Lua
---Collision object physics API documentation
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---Collision object physics API documentation
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---@class physics
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physics = {}
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---fixed joint type
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physics.JOINT_TYPE_FIXED = nil
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---hinge joint type
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physics.JOINT_TYPE_HINGE = nil
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---slider joint type
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physics.JOINT_TYPE_SLIDER = nil
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---spring joint type
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physics.JOINT_TYPE_SPRING = nil
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---weld joint type
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physics.JOINT_TYPE_WELD = nil
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---Create a physics joint between two collision object components.
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---Note: Currently only supported in 2D physics.
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---@param joint_type number # the joint type
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---@param collisionobject_a string|hash|url # first collision object
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---@param joint_id string|hash # id of the joint
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---@param position_a vector3 # local position where to attach the joint on the first collision object
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---@param collisionobject_b string|hash|url # second collision object
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---@param position_b vector3 # local position where to attach the joint on the second collision object
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---@param properties table? # optional joint specific properties table See each joint type for possible properties field. The one field that is accepted for all joint types is: - boolean collide_connected: Set this flag to true if the attached bodies should collide.
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function physics.create_joint(joint_type, collisionobject_a, joint_id, position_a, collisionobject_b, position_b, properties) end
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---Destroy an already physics joint. The joint has to be created before a
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---destroy can be issued.
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---Note: Currently only supported in 2D physics.
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---@param collisionobject string|hash|url # collision object where the joint exist
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---@param joint_id string|hash # id of the joint
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function physics.destroy_joint(collisionobject, joint_id) end
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---Get the gravity in runtime. The gravity returned is not global, it will return
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---the gravity for the collection that the function is called from.
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---Note: For 2D physics the z component will always be zero.
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---@return vector3 # gravity vector of collection
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function physics.get_gravity() end
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---Returns the group name of a collision object as a hash.
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---@param url string|hash|url # the collision object to return the group of.
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---@return hash # hash value of the group. local function check_is_enemy() local group = physics.get_group("#collisionobject") return group == hash("enemy") end
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function physics.get_group(url) end
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---Get a table for properties for a connected joint. The joint has to be created before
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---properties can be retrieved.
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---Note: Currently only supported in 2D physics.
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---@param collisionobject string|hash|url # collision object where the joint exist
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---@param joint_id string|hash # id of the joint
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---@return table # properties table. See the joint types for what fields are available, the only field available for all types is:
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function physics.get_joint_properties(collisionobject, joint_id) end
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---Get the reaction force for a joint. The joint has to be created before
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---the reaction force can be calculated.
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---Note: Currently only supported in 2D physics.
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---@param collisionobject string|hash|url # collision object where the joint exist
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---@param joint_id string|hash # id of the joint
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---@return vector3 # reaction force for the joint
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function physics.get_joint_reaction_force(collisionobject, joint_id) end
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---Get the reaction torque for a joint. The joint has to be created before
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---the reaction torque can be calculated.
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---Note: Currently only supported in 2D physics.
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---@param collisionobject string|hash|url # collision object where the joint exist
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---@param joint_id string|hash # id of the joint
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---@return float # the reaction torque on bodyB in N*m.
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function physics.get_joint_reaction_torque(collisionobject, joint_id) end
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---Returns true if the specified group is set in the mask of a collision
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---object, false otherwise.
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---@param url string|hash|url # the collision object to check the mask of.
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---@param group string # the name of the group to check for.
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---@return boolean # boolean value of the maskbit. 'true' if present, 'false' otherwise. local function is_invincible() -- check if the collisionobject would collide with the "bullet" group local invincible = physics.get_maskbit("#collisionobject", "bullet") return invincible end
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function physics.get_maskbit(url, group) end
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---Ray casts are used to test for intersections against collision objects in the physics world.
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---Collision objects of types kinematic, dynamic and static are tested against. Trigger objects
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---do not intersect with ray casts.
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---Which collision objects to hit is filtered by their collision groups and can be configured
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---through groups.
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---@param from vector3 # the world position of the start of the ray
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---@param to vector3 # the world position of the end of the ray
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---@param groups table # a lua table containing the hashed groups for which to test collisions against
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---@param options table # a lua table containing options for the raycast.
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---@return table # It returns a list. If missed it returns nil. See ray_cast_response for details on the returned values.
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function physics.raycast(from, to, groups, options) end
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---Ray casts are used to test for intersections against collision objects in the physics world.
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---Collision objects of types kinematic, dynamic and static are tested against. Trigger objects
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---do not intersect with ray casts.
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---Which collision objects to hit is filtered by their collision groups and can be configured
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---through groups.
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---The actual ray cast will be performed during the physics-update.
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---
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---
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--- * If an object is hit, the result will be reported via a ray_cast_response message.
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---
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--- * If there is no object hit, the result will be reported via a ray_cast_missed message.
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---@param from vector3 # the world position of the start of the ray
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---@param to vector3 # the world position of the end of the ray
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---@param groups table # a lua table containing the hashed groups for which to test collisions against
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---@param request_id number] a number between [0,-255? # . It will be sent back in the response for identification, 0 by default
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function physics.raycast_async(from, to, groups, request_id) end
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---Set the gravity in runtime. The gravity change is not global, it will only affect
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---the collection that the function is called from.
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---Note: For 2D physics the z component of the gravity vector will be ignored.
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---@param gravity vector3 # the new gravity vector
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function physics.set_gravity(gravity) end
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---Updates the group property of a collision object to the specified
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---string value. The group name should exist i.e. have been used in
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---a collision object in the editor.
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---@param url string|hash|url # the collision object affected.
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---@param group string # the new group name to be assigned. local function change_collision_group() physics.set_group("#collisionobject", "enemy") end
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function physics.set_group(url, group) end
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---Flips the collision shapes horizontally for a collision object
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---@param url string|hash|url # the collision object that should flip its shapes
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---@param flip boolean # true if the collision object should flip its shapes, false if not
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function physics.set_hflip(url, flip) end
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---Updates the properties for an already connected joint. The joint has to be created before
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---properties can be changed.
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---Note: Currently only supported in 2D physics.
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---@param collisionobject string|hash|url # collision object where the joint exist
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---@param joint_id string|hash # id of the joint
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---@param properties table # joint specific properties table Note: The collide_connected field cannot be updated/changed after a connection has been made.
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function physics.set_joint_properties(collisionobject, joint_id, properties) end
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---Sets or clears the masking of a group (maskbit) in a collision object.
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---@param url string|hash|url # the collision object to change the mask of.
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---@param group string # the name of the group (maskbit) to modify in the mask.
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---@param maskbit boolean # boolean value of the new maskbit. 'true' to enable, 'false' to disable. local function make_invincible() -- no longer collide with the "bullet" group physics.set_maskbit("#collisionobject", "bullet", false) end
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function physics.set_maskbit(url, group, maskbit) end
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---Flips the collision shapes vertically for a collision object
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---@param url string|hash|url # the collision object that should flip its shapes
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---@param flip boolean # true if the collision object should flip its shapes, false if not
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function physics.set_vflip(url, flip) end
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---Collision objects tend to fall asleep when inactive for a small period of time for
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---efficiency reasons. This function wakes them up.
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---@param url string|hash|url # the collision object to wake. function on_input(self, action_id, action) if action_id == hash("test") and action.pressed then physics.wakeup("#collisionobject") end end
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function physics.wakeup(url) end
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return physics |