require 'parslet' require 'vm/nodes' module Parser class Transform < Parslet::Transform rule(:integer => simple(:value)) { Vm::IntegerExpression.new(value.to_i) } rule(:name => simple(:name)) { Vm::NameExpression.new(name.to_s) } rule(:argument => simple(:argument)) { argument } rule(:argument_list => sequence(:argument_list)) { argument_list } # need TWO transform rules, for one/many arguments (see the[] wrapping in the first) rule(:function_call => simple(:function_call), :argument_list => simple(:argument)) do Vm::FuncallExpression.new(function_call.name, [argument]) end rule( :function_call => simple(:function_call), :argument_list => sequence(:argument_list)) do Vm::FuncallExpression.new(function_call.name, argument_list) end rule(:conditional => simple(:conditional), :if_true => {:expressions => sequence(:if_true)}, :if_false => {:expressions => sequence(:if_false)}) do Vm::ConditionalExpression.new(conditional, if_true, if_false) end rule(:parmeter => simple(:parmeter)) { parmeter } rule(:parmeter_list => sequence(:parmeter_list)) { parmeter_list } # need TWO transform rules, for one/many arguments (see the[] wrapping in the first) rule(:function_definition => simple(:function_definition), :parmeter_list => simple(:parmeter), :expressions => sequence(:expressions)) do Vm::FunctionExpression.new(function_definition.name, [parmeter], expressions) end rule(:function_definition => simple(:function_definition), :parmeter_list => sequence(:parmeter_list), :expressions => sequence(:expressions)) do Vm::FunctionExpression.new(function_definition.name, parmeter_list, expressions) end #shortcut to get the ast tree for a given string # optional second arguement specifies a rule that will be parsed (mainly for testing) def self.ast string , rule = :root syntax = Parser.new.send(rule).parse(string) tree = Transform.new.apply(syntax) tree end end end