rubyx/lib/mom/instruction/slot_load.rb
Torsten Ruger 55832315eb more fix for multilevel constant load
was ignoring first level which is already the second for a constant
as the constant is the first load.
first interpreter test working but looking dodgy
2018-03-22 19:14:22 +02:00

133 lines
5.9 KiB
Ruby

module Mom
# SlotLoad is an abstract base class for moving data into a slot
# A Slot is basically an instance variable, but it must be of known type
#
# The value loaded (the right hand side) can be a constant (Mom::Constant) or come from
# another Slot (SlotDefinition)
#
# The Slot on the left hand side is always a SlotDefinition.
# The only known object (*) for the left side is the current message, which is a bit like
# the oo version of a Stack (Stack Register, Frame Pointer, ..)
# (* off course all class objects are global, and so they are allowed too)
#
# A maybe not immediately obvious corrolar of this design is the total absence of
# general purpose instance variable accessors. Ie only inside an object's functions
# can a method access instance variables, because only inside the method is the type
# guaranteed.
# From the outside a send is neccessary, both for get and set, (which goes through the method
# resolution and guarantees the correct method for a type), in other words perfect data hiding.
#
# @left: A SlotDefinition, or an array that can be passed to the constructor of the
# SlotDefinition (see there)
#
# @right: A SlotDefinition with slots or a Mom::Constant
# original_source: optinally another mom instrucion that wil be passed down to created
# risc instructions. (Because SlotLoad is often used internally in mom)
class SlotLoad < Instruction
attr_reader :left , :right , :original_source
def initialize(left , right, original_source = nil)
@left , @right = left , right
@left = SlotDefinition.new(@left.shift , @left) if @left.is_a? Array
@right = SlotDefinition.new(@right.shift , @right) if @right.is_a? Array
raise "right not Mom, #{@right.to_s}" unless @right.is_a?( SlotDefinition )
@original_source = original_source || self
end
def to_risc(compiler)
const = @right.to_register(compiler , original_source)
left_slots = @left.slots
case @left.known_object
when Symbol
left = Risc.message_reg
left_index = Risc.resolve_to_index(@left.known_object , left_slots.first)
if left_slots.length > 1
# swap the existing target (with a new reg) and update the index
new_left = compiler.use_reg( :int )
const << Risc::SlotToReg.new( original_source , left ,left_index, new_left)
left = new_left
left_index = SlotLoad.resolve_to_index(left_slots[0] , left_slots[1] ,compiler)
if left_slots.length > 2
#same again, once more updating target
new_left = compiler.use_reg( :int )
const << Risc::SlotToReg.new( original_source , left ,left_index, new_left)
left = new_left
left_index = SlotLoad.resolve_to_index(left_slots[1] , left_slots[2] ,compiler)
end
raise "more slots not implemented #{left_slots}" if left_slots.length > 3
end
when Parfait::CacheEntry
left = compiler.use_reg( :int )
left_index = Risc.resolve_to_index(:cache_entry , left_slots.first)
else
raise "We have left #{@left.known_object}"
end
const << Risc.reg_to_slot(original_source, const.register , left, left_index)
compiler.reset_regs
return const
end
def self.resolve_to_index(object , variable_name ,compiler)
return variable_name if variable_name.is_a?(Integer)
case object
when :frame
type = compiler.method.frame
when :message , :next_message
type = Parfait.object_space.get_class_by_name(:Message).instance_type
when :arguments
type = compiler.method.arguments
when :receiver
type = compiler.method.for_type
when Parfait::Object
type = Parfait.object_space.get_class_by_name( object.class.name.split("::").last.to_sym).instance_type
else
raise "Not implemented/found object #{object}"
end
index = type.variable_index(variable_name)
raise "Index not found for #{variable_name} in #{object} of type #{type}" unless index
return index
end
end
class SlotDefinition
attr_reader :known_object , :slots
# is an array of symbols, that specifies the first the object, and then the Slot.
# The first element is either a known type name (Capitalized symbol of the class name) ,
# or the symbol :message
# And subsequent symbols must be instance variables on the previous type.
# Examples: [:message , :receiver] or [:Space , :next_message]
def initialize( object , slots)
@known_object , @slots = object , slots
slot = [slot] unless slot.is_a?(Array)
raise "Not known #{slots}" unless object
raise "No slots #{object}" unless slots
end
def to_register(compiler, instruction)
type = known_object.respond_to?(:ct_type) ? known_object.ct_type : :int
right = compiler.use_reg( type )
case known_object
when Constant , Parfait::Object , Risc::Label
const = Risc.load_constant(instruction, known_object , right)
if slots.length > 0
# desctructively replace the existing value to be loaded if more slots
index = SlotLoad.resolve_to_index(known_object , slots[0] ,compiler)
const << Risc::SlotToReg.new( instruction , right ,index, right)
end
when Symbol
const = Risc::SlotToReg.new( instruction , Risc.resolve_to_register(known_object) ,
Risc.resolve_to_index(:message , slots[0]), right)
else
raise "We have a #{self} #{known_object}"
end
if slots.length > 1
# desctructively replace the existing value to be loaded if more slots
index = SlotLoad.resolve_to_index(slots[0] , slots[1] ,compiler)
const << Risc::SlotToReg.new( instruction , right ,index, right)
raise "more slots not implemented #{slots}" if slots.length > 2
end
const
end
end
end