module Ruby
class ProcessError < Exception
attr_reader :node
def initialize(msg , node)
super(msg)
@node = node
end
def message
super + node_tos
end
def node_tos
return "" unless @node
@node.to_s[0 ... 200]
end
end
# This RubyCompiler compiles incoming ruby (string) into a typed
# version of the ast, with the help of the parser gem.
# The parser outputs an abstract ast (nodes)
# that get transformed into concrete, specific classes.
#
# As a second step, it extracts classes, methods, ivars and locals.
#
# The next step is then to go to the vool level, which is
# simpler, and then finally to compile
# to the next level down, MOM (Minimal Object Machine)
class RubyCompiler < AST::Processor
include AST::Sexp
def self.compile(input)
begin
ast = Parser::CurrentRuby.parse( input )
rescue => e
puts "Error parsing #{input}"
end
begin
self.new.process(ast)
rescue => e
puts "Error processing #{ast}"
raise e
end
end
# raise a ProcessError. This means ruby-x doesn't know how to handle it.
# Parser itself throws SyntaxError
def not_implemented(node)
raise ProcessError.new("Not implemented #{node.type}", node)
end
# default to error, so non implemented stuff shows early
def handler_missing(node)
not_implemented(node)
end
def on_class( statement )
name , sup , body = *statement
ClassStatement.new( get_name(name) , get_name(sup) , process(body) )
end
def on_def( statement )
name , args , body = *statement
arg_array = process_all( args )
MethodStatement.new( name , arg_array , process(body) )
end
def on_defs( statement )
me , name , args , body = *statement
raise "only class method implemented, not #{me.type}" unless me.type == :self
arg_array = process_all( args )
ClassMethodStatement.new( name , arg_array , process(body) )
end
def on_arg( arg )
arg.first
end
def on_block(block_node)
puts block_node.to_s
sendd = process(block_node.children[0])
args = process(block_node.children[1])
body = process(block_node.children[2])
RubyBlockStatement.new(sendd , args , body)
end
def on_yield(node)
args = process_all(node.children)
YieldStatement.new(args)
end
def on_args(args)
args.children.collect{|a| process(a)}
end
#basic Values
def on_self exp
SelfExpression.new
end
def on_nil expression
NilConstant.new
end
def on_int expression
IntegerConstant.new(expression.children.first)
end
def on_float expression
FloatConstant.new(expression.children.first)
end
def on_true expression
TrueConstant.new
end
def on_false expression
FalseConstant.new
end
def on_str expression
StringConstant.new(expression.children.first)
end
alias :on_string :on_str
def on_dstr( expression )
not_implemented(expression)
end
alias :on_xstr :on_dstr
def on_sym expression
SymbolConstant.new(expression.children.first)
end
alias :on_string :on_str
def on_dsym(expression)
not_implemented(expression)
end
def on_kwbegin statement
ScopeStatement.new process_all( statement.children )
end
alias :on_begin :on_kwbegin
# Array + Hashes
def on_array expression
ArrayStatement.new expression.children.collect{ |elem| process(elem) }
end
def on_hash expression
hash = HashStatement.new
expression.children.each do |elem|
raise "Hash error, hash contains non pair: #{elem.type}" if elem.type != :pair
hash.add( process(elem.children[0]) , process(elem.children[1]) )
end
hash
end
#Variables
def on_lvar expression
LocalVariable.new(expression.children.first)
end
def on_ivar expression
InstanceVariable.new(instance_name(expression.children.first))
end
def on_cvar expression
ClassVariable.new(expression.children.first.to_s[2 .. -1].to_sym)
end
def on_const expression
scope = expression.children.first
if scope
not_implemented(expression) unless scope.type == :cbase
end
ModuleName.new(expression.children[1])
end
# Assignements
def on_lvasgn expression
name = expression.children[0]
value = process(expression.children[1])
LocalAssignment.new(name,value)
end
def on_ivasgn expression
name = expression.children[0]
value = process(expression.children[1])
IvarAssignment.new(instance_name(name),value)
end
def on_op_asgn(expression)
ass , op , exp = *expression
name = ass.children[0]
a_type = ass.type.to_s[0,3]
rewrite = s( a_type + "sgn" ,
name ,
s(:send , s( a_type + "r" , name ) , op , exp ) )
process(rewrite)
end
def on_return statement
return_value = process(statement.children.first)
ReturnStatement.new( return_value )
end
def on_while statement
condition , statements = *statement
WhileStatement.new( process(condition) , process(statements))
end
def on_if statement
condition , if_true , if_false = *statement
if_true = process(if_true)
if_false = process(if_false)
IfStatement.new( process(condition) , if_true , if_false )
end
def on_send( statement )
kids = statement.children.dup
receiver = process(kids.shift) || SelfExpression.new
name = kids.shift
arguments = process_all(kids)
SendStatement.new( name , receiver , arguments )
end
def on_and expression
name = expression.type
left = process(expression.children[0])
right = process( expression.children[1] )
LogicalStatement.new( name , left , right)
end
alias :on_or :on_and
# this is a call to super without args (z = zero arity)
def on_zsuper exp
SendStatement.new( nil , SuperExpression.new , nil)
end
# this is a call to super with args and
# same name as current method, which is set later
def on_super( statement )
arguments = process_all(statement.children)
SendStatement.new( nil , SuperExpression.new , arguments)
end
def on_assignment statement
name , value = *statement
w = Assignment.new()
w.name = process name
w.value = process(value)
w
end
def handler_missing(node)
not_implemented(node)
end
private
def instance_name sym
sym.to_s[1 .. -1].to_sym
end
def get_name( statement )
return nil unless statement
raise "Not const #{statement}" unless statement.type == :const
name = statement.children[1]
raise "Not symbol #{name}" unless name.is_a? Symbol
name
end
end
end