/traderous

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1 by Josh C
zoetrope 1.4
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-- Class: Emitter
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-- An emitter periodically emits sprites with varying properties --
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-- for example, velocity. These are set with the emitter's min and
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-- max properties. For example, you could set the x velocity of
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-- particles to range between -100 and 100 with these statements:
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--
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-- > emitter.min.velocity.x = -100
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-- > emitter.max.velocity.x = 100
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--
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-- Properties can descend two levels deep at most.
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--
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-- You can specify any property in min and max, and it will be set
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-- on sprites as they are emitted. Mins and maxes can only be used
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-- with numeric properties.
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--
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-- Particles when emitted will appear at a random spot inside the
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-- rectangle defined by the emitter's x, y, width, and height
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-- properties.
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--
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-- Because emitters are <Group> subclasses, all particles appear at
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-- the same z index onscreen. This also means that setting active,
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-- visible, and solid properties on the emitter will affect all particles.
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--
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-- Any sprite may be used as a particle. When a sprite is added as
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-- a particle, its die() method is called. When emitted, revive() is
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-- called on it. If you want a particle to remain invisible after being
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-- emitted, for example, then write an onEmit method on your sprite to do so.
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--
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-- Extends:
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--		<Group>
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--
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-- Event: onEmit
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-- Called on both the parent emitter and the emitted sprite
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-- when it is emitted. If multiple particles are emitted at once, the
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-- emitter will receive multiple onEmit events.
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Emitter = Group:extend{
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	-- Property: x
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	-- The x coordinate of the upper-left corner of the rectangle where particles may appear.
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	x = 0,
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	-- Property: y
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	-- The y coordinate of the upper-left corner of the rectangle where particles may appear.
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	y = 0,
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	-- Property: width
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	-- The width of the rectangle where particles may appear.
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	width = 0,
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	-- Property: height
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	-- The height of the retangle where particles may appear.
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	height = 0,
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	-- Property: emitting
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	-- Boolean whether this emitter is actually emitting particles.
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	emitting = true,
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	-- Property: period
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	-- How long, in seconds, the emitter should wait before emitting.
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	period = math.huge,
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	-- Property: emitCount
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	-- How many particles to emit at once.
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	emitCount = 1,
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	-- Property: min
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	-- Minimum numeric properties for particles.
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	min = {},
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	-- Property: max
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	-- Maximum numeric properties for particles.
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	max = {},
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	-- Property: emitTimer
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	-- Used to keep track of when the next emit should take place.
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	-- To restart the timer, set it to 0. To immediately force a particle
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	-- to be emitted, set it to the emitter's period property. (Although
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	-- you should probably call emit() instead.)
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	emitTimer = 0,
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	-- which particle to emit next
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	_emitIndex = 1,
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	-- Method: loadParticles
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	-- Creates a number of particles to use based on a class.
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	-- This calls new() on the particle class with no arguments.
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	--
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	-- Arguments:
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	--		class - class object to instantiate
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	--		count - number of particles to create
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	--
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	-- Returns:
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	--		nothing
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	loadParticles = function (self, class, count)
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		for i = 1, count do
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			self:add(class:new())
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		end
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	end,
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	-- Method: emit
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	-- Emits one or more particles. This ignores the emitting property.
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	-- If no particles are ready to be emitted, this does nothing. 
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	--
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	-- Arguments:
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	--		count - how many particles to emit, default 1
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	--
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	-- Returns:
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	--		emitted particle
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	emit = function (self, count)
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		count = count or 1
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		if #self.sprites == 0 then return end
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		for i = 1, count do
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			local emitted = self.sprites[self._emitIndex]
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			self._emitIndex = self._emitIndex + 1
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			if self._emitIndex > #self.sprites then self._emitIndex = 1 end
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			-- revive it and set properties
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			emitted:revive()
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			emitted.x = math.random(self.x, self.x + self.width)
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			emitted.y = math.random(self.y, self.y + self.height)
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			for key, _ in pairs(self.min) do
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				if self.max[key] then
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					-- simple case, single value
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					if type(self.min[key]) == 'number' then
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						emitted[key] = self.min[key] + math.random() * (self.max[key] - self.min[key])
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					end
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					-- complicated case, table
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					if type(self.min[key]) == 'table' then
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						for subkey, _ in pairs(self.min[key]) do
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							if type(self.min[key][subkey]) == 'number' then
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								emitted[key][subkey] = self.min[key][subkey] + math.random() *
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													   (self.max[key][subkey] - self.min[key][subkey])
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							end
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						end
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					end
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				end
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			end
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			if emitted.onEmit then emitted:onEmit(self) end
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			if self.onEmit then self:onEmit(emitted) end
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		end
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	end,
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	-- Method: explode
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	-- This emits many particles simultaneously then immediately stops any further
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	-- emissions. If you want to keep the emitter going, call emitter.emit(#emitter.sprites).
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	--
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	-- Arguments:
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	--		count - number of particles to emit, defaults to all of them
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	--
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	-- Returns:
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	--		nothing
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	explode = function (self, count)
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		count = count or #self.sprites
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		self:emit(count)
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		self.emitting = false
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	end,
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	-- Method: extinguish
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	-- This immediately calls die() on all particles, then the emitter itself.
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	-- This differs from a regular die() call in that if you call revive() on the
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	-- emitter later, particles will not appear where they last left off.
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	--
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	-- Arguments:
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	--		none
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	--
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	-- Returns:
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	--		nothing
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	extinguish = function (self)
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		for _, spr in pairs(self.sprites) do
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			spr:die()
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		end
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		self:die()
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	end,
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	update = function (self, elapsed)
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		if not self.active then return end
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		if self.emitting then
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			self.emitTimer = self.emitTimer + elapsed
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			if self.emitTimer > self.period then
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				self:emit(self.emitCount)
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				self.emitTimer = self.emitTimer - self.period
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			end
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		end
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		Group.update(self, elapsed)
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	end,
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	add = function (self, sprite)
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		sprite:die()
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		Group.add(self, sprite)
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	end,
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	__tostring = function (self)
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		local result = 'Emitter (x: ' .. self.x .. ', y: ' .. self.y ..
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					   ', w: ' .. self.width .. ', h: ' .. self.height .. ', '
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		if self.emitting then
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			result = result .. 'emitting with period ' .. self.period .. ', '
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		else
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			result = result .. 'not emitting, '
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		end
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		return result
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	end
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}