Divergent/mods/Hideout Furniture/gamedata/scripts/aol_bshape.script

-- Generic Class for handling collisions with a bounding shape
-- supposed to be subclassed into a useful shape (see aol_bbox)
class "bshape_collider"

function bshape_collider:__init(world_origin, local_origin, rotation)
    -- Coordinates of the origin in local space (relative to self.vertices)
    self.local_origin = local_origin or vector():set(0,0,0)

    -- Coordinates of the entire box's origin in world space (relative to game map)
    self.world_origin = world_origin or vector():set(0,0,0)

    self.rotation = rotation
    
    self.is_colliding = false

    -- Coordinates of bbox's vertices in local space
    self.vertices = {}

    -- Coordinates of bbox vertices in world space
    self.world_vertices = {}

    -- Pairs of vertices to perform raycasting between
    self.ray_pairs = {}

    -- Map of ray pair index to it's length
    self.ray_pair_i2length = {}
end

function bshape_collider:UpdateBBox()
    -- Get position of vertices in bounding box in world space
    for i, local_vertex in ipairs(self.vertices) do
        -- local space
        local position = vector():set(local_vertex.x, local_vertex.y, local_vertex.z)

        -- rotate with quaternion
        if self.rotation then
            position = self.rotation:rotate_vector(position)
        end

        -- world space
        position = position:add(self.world_origin)

        -- store vertices coordinates in world space of bbox
        self.world_vertices[i] = position
    end
end

function bshape_collider:UpdateLengths()
    for i, ray_pair in ipairs(self.ray_pairs) do
        local v1 = self.world_vertices[ray_pair[1]]
        local v2 = self.world_vertices[ray_pair[2]]

        local length = v1:distance_to(v2)
        self.ray_pair_i2length[i] = length
    end
end

function bshape_collider:CheckForCollisions()
    -- Check for collisions by ray casting between vertex pairs
    -- Pairs are specified in ray_pairs
    -- Ray cast in both directions in case the ray goes into the world (rays only register collisions when hitting onto a normal plane)
    local collision_found = false
    for i, ray_pair in ipairs(self.ray_pairs) do
        -- Exit early if there is no collision
        if not collision_found then
            local ray_length = self.ray_pair_i2length[i]
            local ray = demonized_geometry_ray.geometry_ray({
                ray_range=4,
                contact_range=ray_length,
                flags=(1+2)})
            local ray_direction = vec_sub(self.world_vertices[ray_pair[1]], self.world_vertices[ray_pair[2]])
            ray_direction = ray_direction:normalize()

            -- Perform raycasts
            local ray_result_rev = ray:get(vec_set(self.world_vertices[ray_pair[1]]), vec_set(ray_direction):invert())
            local ray_result = ray:get(vec_set(self.world_vertices[ray_pair[2]]), vec_set(ray_direction))

            if ray_result.in_contact or ray_result_rev.in_contact then
                collision_found = true
            end
        end
    end

    self.is_colliding = collision_found

    return collision_found
end

-- Setters

function bshape_collider:SetLocalOrigin(new_pos)
    self.local_origin = vec_set(new_pos)

    -- update vertices of bbox in local space
    self:UpdateVertices()

    self:UpdateBBox()
end

function bshape_collider:SetWorldOrigin(new_pos)
    self.world_origin = vec_set(new_pos)
end

-- Functions to be completed by subclasses

function bshape_collider:UpdateVertices()
end


-- Class for rendering bounding boxes with particles
class "bshape_renderer"

function bshape_renderer:__init()
    self.particles = {}
end

function bshape_renderer:DrawBShapeCollider(bshape_collider)
    for i, position in ipairs(bshape_collider.world_vertices) do
        if self.particles[i] == nil then
            self.particles[i] = particles_object("_samples_particles_\\place_indicator")
        end

        local particle = self.particles[i]

        if not particle:playing() then
            particle:play()
        end
        -- Move particles to origin if bbox collides with something
        if bshape_collider.is_colliding then
            particle:move_to(bshape_collider.world_origin, VEC_Z)
        -- Move particles to vertices of bbox if there is no collision
        else
            particle:move_to(position, VEC_Z)
        end
    end
end

function bshape_renderer:Stop()
    for i, particle in ipairs(self.particles) do
        if particle then
            particle:stop_deffered()
        end
    end
end
Modpack Upload 2024-03-17 20:18:03 -04:00			`-- Generic Class for handling collisions with a bounding shape`
			`-- supposed to be subclassed into a useful shape (see aol_bbox)`
			`class "bshape_collider"`

			`function bshape_collider:__init(world_origin, local_origin, rotation)`
			`-- Coordinates of the origin in local space (relative to self.vertices)`
			`self.local_origin = local_origin or vector():set(0,0,0)`

			`-- Coordinates of the entire box's origin in world space (relative to game map)`
			`self.world_origin = world_origin or vector():set(0,0,0)`

			`self.rotation = rotation`

			`self.is_colliding = false`

			`-- Coordinates of bbox's vertices in local space`
			`self.vertices = {}`

			`-- Coordinates of bbox vertices in world space`
			`self.world_vertices = {}`

			`-- Pairs of vertices to perform raycasting between`
			`self.ray_pairs = {}`

			`-- Map of ray pair index to it's length`
			`self.ray_pair_i2length = {}`
			`end`

			`function bshape_collider:UpdateBBox()`
			`-- Get position of vertices in bounding box in world space`
			`for i, local_vertex in ipairs(self.vertices) do`
			`-- local space`
			`local position = vector():set(local_vertex.x, local_vertex.y, local_vertex.z)`

			`-- rotate with quaternion`
			`if self.rotation then`
			`position = self.rotation:rotate_vector(position)`
			`end`

			`-- world space`
			`position = position:add(self.world_origin)`

			`-- store vertices coordinates in world space of bbox`
			`self.world_vertices[i] = position`
			`end`
			`end`

			`function bshape_collider:UpdateLengths()`
			`for i, ray_pair in ipairs(self.ray_pairs) do`
			`local v1 = self.world_vertices[ray_pair[1]]`
			`local v2 = self.world_vertices[ray_pair[2]]`

			`local length = v1:distance_to(v2)`
			`self.ray_pair_i2length[i] = length`
			`end`
			`end`

			`function bshape_collider:CheckForCollisions()`
			`-- Check for collisions by ray casting between vertex pairs`
			`-- Pairs are specified in ray_pairs`
			`-- Ray cast in both directions in case the ray goes into the world (rays only register collisions when hitting onto a normal plane)`
			`local collision_found = false`
			`for i, ray_pair in ipairs(self.ray_pairs) do`
			`-- Exit early if there is no collision`
			`if not collision_found then`
			`local ray_length = self.ray_pair_i2length[i]`
			`local ray = demonized_geometry_ray.geometry_ray({`
			`ray_range=4,`
			`contact_range=ray_length,`
			`flags=(1+2)})`
			`local ray_direction = vec_sub(self.world_vertices[ray_pair[1]], self.world_vertices[ray_pair[2]])`
			`ray_direction = ray_direction:normalize()`

			`-- Perform raycasts`
			`local ray_result_rev = ray:get(vec_set(self.world_vertices[ray_pair[1]]), vec_set(ray_direction):invert())`
			`local ray_result = ray:get(vec_set(self.world_vertices[ray_pair[2]]), vec_set(ray_direction))`

			`if ray_result.in_contact or ray_result_rev.in_contact then`
			`collision_found = true`
			`end`
			`end`
			`end`

			`self.is_colliding = collision_found`

			`return collision_found`
			`end`

			`-- Setters`

			`function bshape_collider:SetLocalOrigin(new_pos)`
			`self.local_origin = vec_set(new_pos)`

			`-- update vertices of bbox in local space`
			`self:UpdateVertices()`

			`self:UpdateBBox()`
			`end`

			`function bshape_collider:SetWorldOrigin(new_pos)`
			`self.world_origin = vec_set(new_pos)`
			`end`

			`-- Functions to be completed by subclasses`

			`function bshape_collider:UpdateVertices()`
			`end`



			`-- Class for rendering bounding boxes with particles`
			`class "bshape_renderer"`

			`function bshape_renderer:__init()`
			`self.particles = {}`
			`end`

			`function bshape_renderer:DrawBShapeCollider(bshape_collider)`
			`for i, position in ipairs(bshape_collider.world_vertices) do`
			`if self.particles[i] == nil then`
			`self.particles[i] = particles_object("_samples_particles_\\place_indicator")`
			`end`

			`local particle = self.particles[i]`

			`if not particle:playing() then`
			`particle:play()`
			`end`
			`-- Move particles to origin if bbox collides with something`
			`if bshape_collider.is_colliding then`
			`particle:move_to(bshape_collider.world_origin, VEC_Z)`
			`-- Move particles to vertices of bbox if there is no collision`
			`else`
			`particle:move_to(position, VEC_Z)`
			`end`
			`end`
			`end`

			`function bshape_renderer:Stop()`
			`for i, particle in ipairs(self.particles) do`
			`if particle then`
			`particle:stop_deffered()`
			`end`
			`end`
			`end`