VoxeLibre/mods/ITEMS/vl_projectile/init.lua

647 lines
20 KiB
Lua

vl_projectile = {}
local mod = vl_projectile
local vl_physics_path = minetest.get_modpath("vl_physics")
local DEBUG = false
local YAW_OFFSET = -math.pi/2
local GRAVITY = tonumber(minetest.settings:get("movement_gravity"))
local STUCK_TIMEOUT = 60
local STUCK_RECHECK_TIME = 0.25
local enable_pvp = minetest.settings:get_bool("enable_pvp")
function mod.projectile_physics(obj, entity_def, v, a)
local le = obj:get_luaentity()
if not le then return end
local entity_def = minetest.registered_entities[le.name]
local pos = obj:get_pos()
if not pos then return end
if vl_physics_path then
v,a = vl_physics.apply_entity_environmental_physics(obj)
else
-- Simple physics
v = v or obj:get_velocity()
a = a or vector.zero()
if not entity_def._vl_projectile.ignore_gravity then
a = a + vector.new(0,-GRAVITY,0)
end
if entity_def.liquid_drag then
local def = minetest.registered_nodes[minetest.get_node(pos).name]
if def and def.liquidtype ~= "none" then
-- Slow down arrow in liquids
local visc = def.liquid_viscosity or 0
le._viscosity = visc
local vpenalty = math.max(0.1, 0.98 - 0.1 * visc)
if math.abs(v.x) > 0.001 then
v.x = v.x * vpenalty
end
if math.abs(v.z) > 0.001 then
v.z = v.z * vpenalty
end
end
end
end
-- Pass to entity
if v then obj:set_velocity(v) end
if a then obj:set_acceleration(a) end
-- Update projectile yaw to match velocity direction
if v and le and not le._stuck then
local yaw = minetest.dir_to_yaw(v) + YAW_OFFSET + (entity_def._vl_projectile.yaw_offset or 0)
local pitch = math.asin(vector.normalize(v).y) + (entity_def._vl_projectile.pitch_offset or 0)
obj:set_rotation(vector.new(0,yaw,pitch))
end
end
function mod.update_projectile(self, dtime)
if self._removed then return end
local pos = self.object:get_pos()
if not pos then return end
-- Workaround for randomly occurring velocity change between projectile creation
-- and the first time step
if self._starting_velocity then
local curr_velocity = self.object:get_velocity()
local distance = vector.distance(curr_velocity, self._starting_velocity)
local length = vector.length(self._starting_velocity)
if length / distance > 1 then
self.object:set_velocity(self._starting_velocity)
end
self._starting_velocity = nil
end
local entity_name = self.name
local entity_def = minetest.registered_entities[entity_name] or {}
local entity_vl_projectile = entity_def._vl_projectile or {}
-- Update entity timer and remove expired projectiles
self.timer = (self.timer or 0) + dtime
local maximum_flight_time = entity_vl_projectile.maximum_time or 300
if (self.timer or 0) > maximum_flight_time then
mcl_util.remove_entity(self)
return
end
-- Run behaviors
local behaviors = entity_vl_projectile.behaviors or {}
for i=1,#behaviors do
if behaviors[i](self, dtime, entity_def, entity_vl_projectile) or self._removed then
return
end
end
if not self._stuck then
mod.projectile_physics(self.object, entity_def)
end
-- Update last position
self._last_pos = pos
end
local function damage_particles(pos, is_critical)
if is_critical then
minetest.add_particlespawner({
amount = 15,
time = 0.1,
minpos = vector.offset(pos, -0.5, -0.5, -0.5),
maxpos = vector.offset(pos, 0.5, 0.5, 0.5),
minvel = vector.new(-0.1, -0.1, -0.1),
maxvel = vector.new(0.1, 0.1, 0.1),
minexptime = 1,
maxexptime = 2,
minsize = 1.5,
maxsize = 1.5,
collisiondetection = false,
vertical = false,
texture = "mcl_particles_crit.png^[colorize:#bc7a57:127",
})
end
end
local function random_hit_positions(positions, placement)
if positions == "x" then
return math.random(-4, 4)
elseif positions == "y" then
return math.random(0, 10)
elseif positions == "z" then
if placement == "front" then
return 3
elseif placement == "back" then
return -3
end
end
return 0
end
local function check_hitpoint(hitpoint)
if hitpoint.type ~= "object" then return false end
-- find the closest object that is in the way of the arrow
-- TODO: change this check when adding mob projectiles
if hitpoint.ref:is_player() and enable_pvp then
return true
end
if not hitpoint.ref:is_player() and hitpoint.ref:get_luaentity() then
if (hitpoint.ref:get_luaentity().is_mob or hitpoint.ref:get_luaentity()._hittable_by_projectile) then
return true
end
end
return false
end
local function handle_player_sticking(self, entity_def, projectile_def, entity)
if self._in_player or self._blocked then return end
if not projectile_def.sticks_in_players then return end
minetest.after(150, function() mcl_util.remove_entity(self) end)
-- Handle blocking projectiles
if mcl_shields.is_blocking(entity) then
self._blocked = true
self.object:set_velocity(vector.multiply(self.object:get_velocity(), -0.25))
return
end
-- Handle when the projectile hits the player
self._placement = math.random(1, 2)
local placement = self._placement == 1 and "front" or "back"
self._rotation_station = self.placement == 1 and -90 or 90
self._in_player = true
self._y_position = random_hit_positions("y", placement)
self._x_position = random_hit_positions("x", placement)
if self._y_position > 6 and self._x_position < 2 and self._x_position > -2 then
self._attach_parent = "Head"
self._y_position = self._y_position - 6
elseif self._x_position > 2 then
self._attach_parent = "Arm_Right"
self._y_position = self._y_position - 3
self._x_position = self._x_position - 2
elseif self._x_position < -2 then
self._attach_parent = "Arm_Left"
self._y_position = self._y_position - 3
self._x_position = self._x_position + 2
else
self._attach_parent = "Body"
end
self._z_rotation = math.random(-30, 30)
self._y_rotation = math.random(-30, 30)
self.object:set_attach(
entity, self._attach_parent,
vector.new(self._x_position, self._y_position, random_hit_positions("z", placement)),
vector.new(0, self._rotation_station + self._y_rotation, self._z_rotation)
)
end
function mod.burns(self, dtime, entity_def, projectile_def)
mcl_burning.tick(self.object, dtime, self)
-- mcl_burning.tick may remove object immediately
local pos = self.object:get_pos()
if not pos then return true end
-- Handle getting set on fire
local node = minetest.get_node(vector.round(pos))
if not node or node.name == "ignore" then return end
local set_on_fire = minetest.get_item_group(node.name, "set_on_fire")
if set_on_fire ~= 0 then
mcl_burning.set_on_fire(self.object, set_on_fire)
end
end
function mod.has_owner_grace_distance(self, dtime, entity_def, projectile_def)
local pos = self.object:get_pos()
self._allow_punch = self._allow_punch or
not self._owner or not self._startpos or
pos and vector.distance(self._startpos, pos) > ( projectile_def.grace_distance or 1.5 )
end
function mod.has_tracer(self, dtime, entity_def, projectile_def)
local hide_tracer = projectile_def.hide_tracer
if hide_tracer and hide_tracer(self) then return end
-- Add tracer
minetest.add_particlespawner({
amount = 20,
time = .2,
minpos = vector.zero(),
maxpos = vector.zero(),
minvel = vector.new(-0.1,-0.1,-0.1),
maxvel = vector.new(0.1,0.1,0.1),
minexptime = 0.5,
maxexptime = 0.5,
minsize = 2,
maxsize = 2,
attached = self.object,
collisiondetection = false,
vertical = false,
texture = projectile_def.tracer_texture or "mobs_mc_arrow_particle.png",
glow = 1,
})
end
function mod.replace_with_item_drop(self, pos, projectile_def)
local item = self._arrow_item
if not item then
projectile_def = projectile_def or self._vl_projectile
if not projectile_def then return end
item = projectile_def.item
end
if item and self._collectable and not minetest.is_creative_enabled("") then
local item = minetest.add_item(pos, item)
item:set_velocity(vector.zero())
item:set_yaw(self.object:get_yaw())
end
mcl_burning.extinguish(self.object)
mcl_util.remove_entity(self)
end
local function stuck_on_step(self, dtime, entity_def, projectile_def)
-- Don't process objects that have been removed
local pos = self.object:get_pos()
if not pos then return true end
self._stucktimer = (self._stucktimer or 0) + dtime
if self._stucktimer > STUCK_TIMEOUT then
mcl_burning.extinguish(self.object)
mcl_util.remove_entity(self)
return true
end
-- Drop arrow as item when it is no longer stuck
-- TODO: revist after observer rework
self._stuckrechecktimer = (self._stuckrechecktimer or 0) + dtime
if self._stuckrechecktimer > 1 then
self._stuckrechecktimer = 0
if self._stuckin then
local node = minetest.get_node(self._stuckin)
local node_def = minetest.registered_nodes[node.name]
if node_def and node_def.walkable == false then
mod.replace_with_item_drop(self, pos, projectile_def)
return
end
end
end
-- Don't allow players to pick up arrows stuck in them or other players
if self._in_player then return true end
-- Pickup arrow if player is nearby (not in Creative Mode)
if not self._collectable or self._removed then return end
local objects = minetest.get_objects_inside_radius(pos, 1)
for i = 1,#objects do
local obj = objects[i]
if obj:is_player() then
local player_name = obj:get_player_name()
if not minetest.is_creative_enabled(player_name) then
local arrow_item = self._itemstring or self._arrow_item
if arrow_item and minetest.registered_items[arrow_item] and obj:get_inventory():room_for_item("main", arrow_item) then
obj:get_inventory():add_item("main", arrow_item)
self._picked_up = true
end
end
minetest.sound_play("item_drop_pickup", {
pos = pos,
max_hear_distance = 16,
gain = 1.0,
}, true)
mcl_burning.extinguish(self.object)
mcl_util.remove_entity(self)
return true
end
end
end
function mod.sticks(self, dtime, entity_def, projectile_def)
-- Force the projectile to survive collisions (Otherwise, the projectile can't stick in nodes)
projectile_def.survive_collision = true
projectile_def.sticks_in_nodes = true
-- Stuck handling
if self._stuck then
stuck_on_step(self, dtime, entity_def, projectile_def)
return true
end
end
function mod.collides_with_solids(self, dtime, entity_def, projectile_def)
local pos = self.object:get_pos()
-- Don't try to do anything on first update
if not self._last_pos then return end
-- Check if the object can collide with this node
local node = minetest.get_node(pos)
local node_def = minetest.registered_nodes[node.name]
local collides_with = projectile_def.collides_with
if entity_def.physical then
-- Projectile has stopped in one axis, so it probably hit something.
-- This detection is a bit clunky, but sadly, MT does not offer a direct collision detection for us. :-(
local vel = self.object:get_velocity()
if not self._last_velocity then
self._last_velocity = vel
return
end
local delta_v = (vel - self._last_velocity) / vector.length(vel)
if math.abs(delta_v.x) <= 0.1 and math.abs(delta_v.z) <= 0.1 and math.abs(delta_v.y) <= 0.2 then
return
end
self._last_velocity = vel
else
if node_def and not node_def.walkable and (not collides_with or not mcl_util.match_node_to_filter(node.name, collides_with)) then
return
end
end
-- Handle sticking in nodes
if projectile_def.sticks_in_nodes then
local vel = self.object:get_velocity()
local dpos = vector.round(pos) -- digital pos
-- Check for the node to which the arrow is pointing
local dir
if math.abs(vel.y) < 0.00001 then
if self._last_pos.y < pos.y then
dir = vector.new(0, 1, 0)
else
dir = vector.new(0, -1, 0)
end
else
dir = minetest.facedir_to_dir(minetest.dir_to_facedir(minetest.yaw_to_dir(self.object:get_yaw()-YAW_OFFSET)))
end
self._stuckin = vector.add(dpos, dir)
local snode = minetest.get_node(self._stuckin)
local sdef = minetest.registered_nodes[snode.name]
-- If node is non-walkable, unknown or ignore, don't make arrow stuck.
-- This causes a deflection in the engine.
if not sdef or sdef.walkable == false or snode.name == "ignore" then
self._stuckin = nil
if self._deflection_cooloff <= 0 then
-- Lose 1/3 of velocity on deflection
local newvel = vector.multiply(vel, 0.6667)
self.object:set_velocity(newvel)
-- Reset deflection cooloff timer to prevent many deflections happening in quick succession
self._deflection_cooloff = 1.0
end
return
end
-- Node was walkable, make arrow stuck
self._stuck = true
self._stucktimer = 0
self._stuckrechecktimer = 0
self.object:set_velocity(vector.zero())
self.object:set_acceleration(vector.zero())
-- Trigger hits on the node the projectile hit
local hook = sdef._vl_projectile and sdef._vl_projectile.on_collide
if hook then hook(self, self._stuckin, snode, sdef) end
end
-- Call entity collied hook
local hook = projectile_def.on_collide_with_solid
if hook then hook(self, pos, node, node_def) end
-- Call node collided hook
local hook = node_def and node_def._vl_projectile and node_def._vl_projectile.on_collide
if hook then hook(self, pos, node, node_def) end
-- Play sounds
local sounds = projectile_def.sounds or {}
local sound = sounds.on_solid_collision or sounds.on_collision
if type(sound) == "function" then sound = sound(self, entity_def, projectile_def, "node", pos, node, node_def) end
if sound then
local arg2 = table.copy(sound[2])
arg2.pos = pos
minetest.sound_play(sound[1], arg2, sound[3])
end
-- Normally objects should be removed on collision with solids
local survive_collision = projectile_def.survive_collision
if type(survive_collision) == "function" then
survive_collision = survive_collision(self, entity_def, projectile_def, "node", node, node_def)
end
if not survive_collision then
mcl_util.remove_entity(self)
end
-- Done with behaviors
return true
end
local function handle_entity_collision(self, entity_def, projectile_def, object)
local pos = self.object:get_pos()
local dir = vector.normalize(self.object:get_velocity())
-- Check if this is allowed
local allow_punching = projectile_def.allow_punching or true
if type(allow_punching) == "function" then
allow_punching = allow_punching(self, entity_def, projectile_def, object)
end
if self._in_player then allow_punching = false end
if not allow_punching then return end
local object_lua = object:get_luaentity()
-- Normally objects should be removed on collision with entities
local survive_collision = projectile_def.survive_collision
-- Apply damage
-- Note: Damage blocking for shields is handled in mcl_shields with an mcl_damage modifier
local do_damage = false
if object:is_player() and projectile_def.damages_players then
do_damage = true
handle_player_sticking(self, entity_def, projectile_def, object)
survive_collision = true
elseif object_lua and (object_lua.is_mob or object_lua._hittable_by_projectile) then
do_damage = true
end
if do_damage then
-- Get damage
local dmg = projectile_def.damage_groups or 0
if type(dmg) == "function" then
dmg = dmg(self, entity_def, projectile_def, object)
end
object:punch(self.object, 1.0, projectile_def.tool or { full_punch_interval = 1.0, damage_groups = dmg }, dir )
-- Guard against crashes when projectiles get destroyed in response to what it punched
if not self.object:get_pos() then return true end
-- Indicate damage
damage_particles(vector.add(pos, vector.multiply(self.object:get_velocity(), 0.1)), self._is_critical)
-- Light things on fire
if mcl_burning.is_burning(self.object) then
mcl_burning.set_on_fire(object, 5)
end
end
-- Call entity collision hook
local hook = projectile_def.on_collide_with_entity
if hook then hook(self, pos, object) end
-- Call reverse entity collision hook
local other_entity_def = minetest.registered_entities[object.name] or {}
local other_entity_vl_projectile = other_entity_def._vl_projectile or {}
local hook = other_entity_vl_projectile and other_entity_vl_projectile.on_collide
if hook then hook(object, self) end
-- Play sounds
local sounds = projectile_def.sounds or {}
local sound = sounds.on_entity_collion or sounds.on_collision
if type(sound) == "function" then sound = sound(self, entity_def, projectile_def, "entity", object) end
if sound then
local arg2 = table.copy(sound[2])
arg2.pos = pos
minetest.sound_play(sound[1], arg2, sound[3])
end
-- Remove the projectile if it didn't survive
if type(survive_collision) == "function" then
survive_collision = survive_collision(self, entity_def, projectile_def, "entity", object)
end
if not survive_collision then
mcl_util.remove_entity(self)
end
return true
end
function mod.collides_with_entities(self, dtime, entity_def, projectile_def)
local pos = self.object:get_pos()
local objects = minetest.get_objects_inside_radius(pos, 1.5)
for i = 1,#objects do
local object = objects[i]
local entity = object:get_luaentity()
if object ~= self.object and (not entity or entity.name ~= self.name) then
if object:is_player() then
return handle_entity_collision(self, entity_def, projectile_def, object)
elseif (entity.is_mob or entity._hittable_by_projectile) then
return handle_entity_collision(self, entity_def, projectile_def, object)
end
end
end
end
function mod.raycast_collides_with_entities(self, dtime, entity_def, projectile_def)
local closest_object, closest_distance
local pos = self.object:get_pos()
if not pos then return end
local arrow_dir = self.object:get_velocity()
--create a raycast from the arrow based on the velocity of the arrow to deal with lag
local raycast = minetest.raycast(pos, vector.add(pos, vector.multiply(arrow_dir, 0.1)), true, false)
for hitpoint in raycast do
if check_hitpoint(hitpoint) then
local hitpoint_ref = hitpoint.ref
local dist = vector.distance(hitpoint_ref:get_pos(), pos)
if not closest_distance or dist < closest_distance then
closest_object = hitpoint_ref
closest_distance = dist
end
end
end
if closest_object then
return handle_entity_collision(self, entity_def, projectile_def, closest_object)
end
end
function mod.create(entity_id, options)
local pos = options.pos
local obj = minetest.add_entity(pos, entity_id, options.staticdata)
-- Set initial velocity and acceleration
local a, v
if options.dir then
v = vector.multiply(options.dir, options.velocity or 0)
a = vector.multiply(v, -math.abs(options.drag or 0))
else
a = vector.zero()
v = a
end
local entity_def = minetest.registered_entities[entity_id]
mod.projectile_physics(obj, entity_def, v, a)
-- Update projectile parameters
local luaentity = obj:get_luaentity()
if options.owner_id then
luaentity._owner = options.owner_id
elseif options.owner then
luaentity._owner = mcl_util.get_entity_id(options.owner)
end
luaentity._starting_velocity = obj:get_velocity()
luaentity._startpos = pos
luaentity._vl_projectile = {
extra = options.extra,
}
-- And provide the caller with the created object
return obj
end
function mod.register(name, def)
def_vl_projectile = def._vl_projectile
assert(def_vl_projectile, "vl_projectile.register() requires definition to define _vl_projectile")
local behaviors = def_vl_projectile.behaviors
assert(behaviors, "vl_projectile.register() requires definition to define _vl_projectile.behaviors")
for i = 1,#behaviors do
assert(behaviors[i] and type(behaviors[i]) == "function", "def._vl_projectile.behaviors["..i.." is malformed")
if behaviors[i] == vl_projectile.has_owner_grace_distance then
local old_allow_punching = def_vl_projectile.allow_punching
if old_allow_punching then
def_vl_projectile.allow_punching = function(self, ...)
if not self._allow_punch then return false end
return old_allow_punching(self, ...)
end
else
def_vl_projectile.allow_punching = function(self, ...)
if not self._allow_punch then return false end
return true
end
end
end
end
if not def.on_step then
def.on_step = mod.update_projectile
end
def._thrower = nil
def._shooter = nil
def._last_pos = nil
minetest.register_entity(name, def)
end