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local glm = require 'honey.glm'
local Vec3 = glm.Vec3
local Mat4 = glm.Mat4
local Quaternion = glm.Quaternion
local ode = honey.ode
local module = {}
setmetatable(module, {__index=_G})
setfenv(1, module)
-- create a new mass
local function createMass(tbl)
local mass = ode.MassCreate()
local class = tbl.class
if not class then
-- configure mass manually
elseif class == "sphere" then
ode.MassSetSphere(
mass,
tbl.density,
tbl.radius
)
elseif class == "capsule" then
ode.MassSetCapsule(
mass,
tbl.density,
tbl.direction,
tbl.radius,
tbl.length
)
end
return mass
end
-- create a new physics body
local function createPhysicsBody(db, world, id, component)
-- initialize the body with garbage collector
print("add component body for "..id)
local body = ode.BodyCreate(world)
component._gc = honey.util.gc_canary(function()
print("releasing component body for " .. id)
ode.BodyDestroy(body)
body = nil
end)
-- connect the body with a collision geom
local collision = db:getComponent(id, "collision")
if collision then
print(id, collision.class)
ode.GeomSetBody(collision._geom, body)
end
-- set the mass of the body
ode.BodySetMass(body, createMass(component.mass))
-- set the transform of the body
local m = db:getComponent(id, "node").matrix
ode.BodySetPosition(
body,
m[1][4], m[2][4], m[3][4]
)
ode.BodySetRotation(
body,
m[1][1], m[1][2], m[1][3],
m[2][1], m[2][2], m[2][3],
m[3][1], m[3][2], m[3][3]
)
-- set the linear velocity
local vel = component.velocity or Vec3{0,0,0}
ode.BodySetLinearVel(
body, vel[1], vel[2], vel[3]
)
component.velocity = vel
-- set the angular velocity
local avel = component.angularVelocity or Vec3{0,0,0}
ode.BodySetAngularVel(
body, avel[1], avel[2], avel[3]
)
component.angularVelocity = avel
-- optionally set a maximum angular speed
if component.maxAngularSpeed then
ode.BodySetMaxAngularSpeed(body, component.maxAngularSpeed)
end
-- put the body into the physics component
component._body = body
end
--===== physics =====--
system = function(params)
local interval = params.interval or 0.016
local groupSize = params.groupSize or 20
local refs = {}
return {
db=params.db,
space=params.space,
world=params.world,
contactGroup=ode.JointGroupCreate(groupSize),
time=interval,
priority=1,
update=function(self, dt)
for i, ref in ipairs(refs) do
print(i, ref.tbl, ref.physics)
end
local query = self.db:queryComponent("physics")
-- check for new physics entities
for id, physics in pairs(query) do
if not physics._body then
createPhysicsBody(self.db, self.world, id, physics)
end
end
self.time = self.time + dt
-- only run the update every [interval] seconds
if self.time > interval then
self.time = self.time - interval
-- check for near collisions between geoms
ode.SpaceCollide(self.space, function(a, b)
-- check for actual collisions
local collisions = ode.Collide(a, b, 1)
if #collisions > 0 then
-- set up the joint params
local contact = ode.CreateContact{ surface={
mode = ode.ContactBounce + ode.ContactSoftCFM,
mu = ode.Infinity,
bounce = 0.90,
bounce_vel = 0.1,
soft_cfm = 0.001,
}}
ode.ContactSetGeom(contact, collisions[1])
-- create the joint
local joint = ode.JointCreateContact(
self.world,
self.contactGroup,
contact
)
-- attach the two bodies
local bodyA = ode.GeomGetBody(a)
local bodyB = ode.GeomGetBody(b)
ode.JointAttach(joint, bodyA, bodyB)
end
end)
-- update the world
ode.WorldQuickStep(self.world, interval)
-- remove all contact joints
ode.JointGroupEmpty(self.contactGroup)
-- update entity nodes
for id, physics in pairs(query) do
local x,y,z = ode.BodyGetPosition(physics._body)
local d,a,b,c = ode.BodyGetQuaternion(physics._body)
local node = self.db:getComponent(id, "node")
local q = Quaternion{a,b,c,d}
node.matrix
:identity()
:translate(Vec3{x,y,z})
:mul(Quaternion{a,b,c,d}:toMat4())
local vel = physics.velocity
vel[1], vel[2], vel[3] = ode.BodyGetLinearVel(physics._body)
local avel = physics.angularVelocity
avel[1], avel[2], avel[3] = ode.BodyGetAngularVel(physics._body)
end
end
end,
}
end
return module
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