rubyx/lib/vm/values.rb

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require_relative "code"
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module Vm
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# Values represent the information as it is processed. Different subclasses for different types,
# each type with different operations.
# The oprerations on values is what makes a machine do things. Operations are captured as
# subclasses of Instruction and saved to Blocks
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# Values are immutable! (that's why they are called values)
# Operations on values _always_ produce new values (conceptionally)
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# Values are a way to reason about (create/validate) instructions.
# In fact a linked lists of values is created by invoking instructions
# the linked list goes from value to instruction to value, backwards
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# Word Values are what fits in a register. Derived classes
# Float, Reference , Integer(s) must fit the same registers
# just a base class for data. not sure how this will be usefull (may just have read too much llvm)
class Value
def class_for clazz
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RegisterMachine.instance.class_for(clazz)
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end
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end
# Just a nice way to write branches
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class BranchCondition < Value
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def initialize operator
@operator = operator
end
attr_accessor :operator
#needed to check the opposite, ie not true
def not_operator
case @operator
when :le
:gt
when :gt
:le
when :lt
:ge
when :eq
:ne
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else
raise "no implemented #{@operator}"
end
end
end
# RegisterUSe is _not_ the name for a register, "only" for a certain use of it.
# In a way it is like a variable name, a storage location. The location is a register off course,
# but which register can be changed, and _all_ instructions sharing the RegisterUse then use that register
# In other words a simple level of indirection, or change from value to reference sematics.
class RegisterUse
attr_accessor :symbol
def initialize r
if( r.is_a? Fixnum)
r = "r#{r}".to_sym
end
raise "wrong type for register init #{r}" unless r.is_a? Symbol
raise "double r #{r}" if r == :rr1
@symbol = r
end
def == other
return false if other.nil?
return false if other.class != RegisterUse
symbol == other.symbol
end
#helper method to calculate with register symbols
def next_reg_use by = 1
int = @symbol[1,3].to_i
sym = "r#{int + by}".to_sym
RegisterUse.new( sym )
end
end
# This is what it is when we don't know what it is. #TODO, better if it were explicitly a different type, not the base
# Must be promoted to A Word-Value to to anything makes is_a chaecking easier
# remembering that our oo machine is typed, no overloading or stuff
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class Word < Value
attr_accessor :used_register
def register_symbol
@used_register.symbol
end
def inspect
"#{self.class.name} (#{register_symbol})"
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end
def to_s
inspect
end
def initialize reg
if reg.is_a? RegisterUse
@used_register = reg
else
@used_register = RegisterUse.new(reg)
end
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end
def length
4
end
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end
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class Unsigned < Word
def plus block , unsigned
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RegisterMachine.instance.unsigned_plus self , unsigned
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end
end
class Integer < Word
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def less_or_equal block , right
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RegisterMachine.instance.integer_less_or_equal block , self , right
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end
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def greater_or_equal block , right
RegisterMachine.instance.integer_greater_or_equal block , self , right
end
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def greater_than block , right
RegisterMachine.instance.integer_greater_than block , self , right
end
def less_than block , right
RegisterMachine.instance.integer_less_than block , self , right
end
# def == other
# code = class_for(CompareInstruction).new(self , other , opcode: :cmp)
# end
# def + other
# class_for(LogicInstruction).new(nil , self , other , opcode: :add)
# end
# def - other
# class_for(LogicInstruction).new(nil , self , other , opcode: :sub )#, update_status: 1 )
# end
def at_index block , left , right
RegisterMachine.instance.integer_at_index block , self , left , right
end
def plus block , first , right
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RegisterMachine.instance.integer_plus block , self , first , right
end
def minus block , first , right
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RegisterMachine.instance.integer_minus block , self , first , right
end
def left_shift block , first , right
RegisterMachine.instance.integer_left_shift block , self , first , right
end
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def equals block , right
RegisterMachine.instance.integer_equals block , self , right
end
def load block , right
if(right.is_a? IntegerConstant)
block.mov( self , right ) #move the value
elsif right.is_a? StringConstant
block.add( self , right , nil) #move the address, by "adding" to pc, ie pc relative
block.mov( Integer.new(self.used_register.next_reg_use) , right.length ) #and the length HACK TODO
elsif right.is_a?(BootClass) or right.is_a?(MetaClass)
block.add( self , right , nil) #move the address, by "adding" to pc, ie pc relative
else
raise "unknown #{right.inspect}"
end
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self
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end
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def move block , right
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block.mov( self , right )
self
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end
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end
end
require_relative "constants"