rubyx/lib/risc/standard_allocator.rb

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module Risc
#
# StandardAllocator keeps a list of registers whole names it accuires from the
# Plaform.
#
# It allocates registers by going throught the instructions and dishing
# out sequential registers.
# Before doing that it determines live ranges, so registers can be returned
# when not used anymore, and thus reused.
class StandardAllocator
def initialize( compiler , platform)
@compiler = compiler
@platform = platform
@used_regs = {}
@release_points = Hash.new {|hash , key | hash[key] = [] }
@reg_names = platform.register_names
end
attr_reader :used_regs , :compiler , :platform , :reg_names
# main entry point and the whole reason for the class.
# Allocate regs by changing the names of compiler instructions to
# register names according to platform.
# Ie on arm register names are r0 .. . r15 , so it keeps a list of unused
# regs and frees regs according to live ranges
def allocate_regs
walk_and_mark(@compiler.risc_instructions)
pointer = @compiler.risc_instructions
while(pointer)
names = assign(pointer)
names.each {|name| release_after(pointer, name)}
pointer = pointer.next
end
end
# if the instruction has a release point with the given name, release it
# Release points store the last use of a register (in ssa)
# This method is called after machine registers have been assigned,
# and give us the chance to reclaim any unsued machine regs
# (via the precalculated release_points)
def release_after(instruction , ssa_name)
#puts "release request for #{ssa_name}"
release = @release_points[instruction]
return unless release
return unless release.include?(ssa_name)
#puts "ReleasePoint #{ssa_name} for #{instruction} #{release}"
pois = reverse_used(ssa_name)
release_reg( pois ) if pois
end
def assign(instruction)
names = instruction.register_names
#puts "AT #{instruction}"
names.each do |ssa_name|
# BUG: clearly we do NOT do ssa, because some of the instances of
# RegisterValue are the same. This causes the symbols/names to
# have changed through the previous assign. Hence without next line check
# we assign risc regs to risc reg names. Easily avoided, but not clean
next if @reg_names.include?(ssa_name)
new_reg = get_reg(ssa_name)
instruction.set_registers( ssa_name , new_reg)
#puts "Assign #{new_reg} for #{ssa_name}"
end
names
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end
# determines when registers can be freed
#
# this is done by walking the instructions backwards and saving the first
# occurence of a register name. (The last, as we walk backwards)
#
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# First walk down, and on the way up mark register occurences, unless they
# have been marked already
def walk_and_mark(instruction)
released = []
released = walk_and_mark(instruction.next) if instruction.next
#puts "Walking #{instruction}"
instruction.register_names.each do |ssa_name|
next if released.include?(ssa_name)
@release_points[instruction] << ssa_name
#puts "ADDING #{ssa_name}"
released << ssa_name
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end
released
end
# use the given reg (first) parameter and mark it as assigned to
# it's ssa form, the second parameter.
# forward check is trivial, and reverse_used provides reverse check
def use_reg(reg , ssa_name)
reg = reg.symbol if reg.is_a?(RegisterValue)
raise "Stupid error #{reg}" unless reg.is_a?(Symbol)
#puts "Using #{reg} for #{ssa_name}"
@used_regs[reg] = ssa_name
reg
end
# Check whether a register has been assigned to the given ssa form given.
# Ie a reverse check on the used_regs hash
def reverse_used( ssa_name )
@used_regs.each {|reg,name| return reg if ssa_name == name }
return nil
end
# if a register has been assigned to the given ssa name, return that
#
# otherwise find the first free register by going through the available names
# and checking if it is used
def get_reg(ssa_name)
name = reverse_used( ssa_name )
return name if name
get_next_free(ssa_name)
end
def get_next_free(ssa_name)
reg = platform.assign_reg?( ssa_name )
return use_reg(reg , ssa_name) if reg
@reg_names.each do |name|
return use_reg(name , ssa_name) unless @used_regs.has_key?(name)
end
raise "No more registers #{self}"
end
# releasing a register (accuired by use_reg) makes it available for use again
# thus avoiding possibly using too many registers
def release_reg( reg )
reg = reg.symbol if reg.is_a?(RegisterValue)
raise "not symbol #{reg}:#{reg.class}" unless reg.is_a?(Symbol)
#puts "Releasing #{reg} "
@used_regs.delete(reg)
end
end
end