rubyx/lib/sol/yield_statement.rb

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module Sol
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# A Yield is a lot like a Send, which is why they share the base class CallStatement
# That means it has a receiver (self), arguments and an (implicitly assigned) name
#
# On the ruby side, normalisation works pretty much the same too.
#
# On the way down to SlotMachine, small differences become abvious, as the block that is
# yielded to is an argument. Whereas in a send it is either statically known
# or resolved and cached. Here it is dynamic, but sort of known dynamic.
# All we do before calling it is check that it is the right type.
class YieldStatement < CallStatement
# A Yield breaks down to 2 steps:
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# - Setting up the next message, with receiver, arguments, and (importantly) return address
# - a SimpleCall,
def to_slot( compiler )
@parfait_block = @block.to_slot(compiler) if @block
@receiver = SelfExpression.new(compiler.receiver_type) if @receiver.is_a?(SelfExpression)
yield_call(compiler)
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end
# this breaks into two parts:
# - check the calling method and break to a (not implemented) dynamic version
# - call the block, that is the last argument of the method
def yield_call(compiler)
method_check(compiler) << yield_arg_block(compiler)
end
# check that the calling method is the method that the block was created in.
# In that case variable resolution is reasy and we can prceed to yield
# Note: the else case is not implemented (ie passing lambdas around)
# this needs run-time variable resolution, which is just not done.
# we brace ourselves with the check, and exit (later raise) if . . .
def method_check(compiler)
ok_label = SlotMachine::Label.new(self,"method_ok_#{self.object_id}")
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compile_method = SlotMachine::Slotted.for( compiler.get_method )
runtime_method = SlotMachine::Slotted.for( :message , [ :method] )
check = SlotMachine::NotSameCheck.new(compile_method , runtime_method, ok_label)
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# TODO? Maybe create slot instructions for this
#builder = compiler.builder("yield")
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#Risc::Macro.exit_sequence(builder)
#check << builder.built
check << ok_label
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end
# to call the block (that we know now to be the last arg),
# we do a message setup, arg transfer and the a arg_yield (which is similar to dynamic_call)
def yield_arg_block(compiler)
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arg_index = compiler.get_method.arguments_type.get_length - 1
setup = SlotMachine::MessageSetup.new( arg_index )
slot_receive = @receiver.to_slotted(compiler)
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arg_target = [:message , :next_message ]
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args = []
@arguments.each_with_index do |arg , index| # +1 because of type
args << SlotMachine::SlotLoad.new(self, arg_target + ["arg#{index+1}".to_sym] , arg.to_slotted(compiler))
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end
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setup << SlotMachine::ArgumentTransfer.new( self , slot_receive , args )
setup << SlotMachine::BlockYield.new( self , arg_index )
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end
end
end