$TESTING = false unless defined? $TESTING require 'sexp' ## # SexpProcessor provides a uniform interface to process Sexps. # # In order to create your own SexpProcessor subclass you'll need # to call super in the initialize method, then set any of the # Sexp flags you want to be different from the defaults. # # SexpProcessor uses a Sexp's type to determine which process method # to call in the subclass. For Sexp s(:lit, 1) # SexpProcessor will call #process_lit, if it is defined. # # You can also specify a default method to call for any Sexp types # without a process_ method or use the default processor provided to # skip over them. # # Here is a simple example: # # class MyProcessor < SexpProcessor # def initialize # super # self.strict = false # end # # def process_lit(exp) # val = exp.shift # return val # end # end class SexpProcessor VERSION = '3.0.7' ## # Automatically shifts off the Sexp type before handing the # Sexp to process_ attr_accessor :auto_shift_type ## # Return a stack of contexts. Most recent node is first. attr_reader :context ## # A Hash of Sexp types and Regexp. # # Print a debug message if the Sexp type matches the Hash key # and the Sexp's #inspect output matches the Regexp. attr_accessor :debug ## # A default method to call if a process_ method is not found # for the Sexp type. attr_accessor :default_method ## # Expected result class attr_accessor :expected ## # Raise an exception if the Sexp is not empty after processing attr_accessor :require_empty ## # Raise an exception if no process_ method is found for a Sexp. attr_accessor :strict ## # An array that specifies node types that are unsupported by this # processor. SexpProcessor will raise UnsupportedNodeError if you try # to process one of those node types. attr_accessor :unsupported ## # Emit a warning when the method in #default_method is called. attr_accessor :warn_on_default ## # A scoped environment to make you happy. attr_reader :env ## # Creates a new SexpProcessor. Use super to invoke this # initializer from SexpProcessor subclasses, then use the # attributes above to customize the functionality of the # SexpProcessor def initialize @default_method = nil @warn_on_default = true @auto_shift_type = false @strict = false @unsupported = [:alloca, :cfunc, :cref, :ifunc, :last, :memo, :newline, :opt_n, :method] @unsupported_checked = false @debug = {} @expected = Sexp @require_empty = true @exceptions = {} # we do this on an instance basis so we can subclass it for # different processors. @processors = {} @rewriters = {} @context = [] public_methods.each do |name| case name when /^process_(.*)/ then @processors[$1.to_sym] = name.to_sym when /^rewrite_(.*)/ then @rewriters[$1.to_sym] = name.to_sym end end end def assert_empty(meth, exp, exp_orig) unless exp.empty? then msg = "exp not empty after #{self.class}.#{meth} on #{exp.inspect}" msg += " from #{exp_orig.inspect}" if $DEBUG raise NotEmptyError, msg end end def rewrite(exp) type = exp.first in_context type do exp.map! { |sub| Array === sub ? rewrite(sub) : sub } end begin meth = @rewriters[type] exp = self.send(meth, exp) if meth break unless Sexp === exp old_type, type = type, exp.first end until old_type == type exp end ## # Default Sexp processor. Invokes process_ methods matching # the Sexp type given. Performs additional checks as specified by # the initializer. def process(exp) return nil if exp.nil? exp = self.rewrite(exp) if self.context.empty? unless @unsupported_checked then m = public_methods.grep(/^process_/) { |o| o.to_s.sub(/^process_/, '').to_sym } supported = m - (m - @unsupported) raise UnsupportedNodeError, "#{supported.inspect} shouldn't be in @unsupported" unless supported.empty? @unsupported_checked = true end result = self.expected.new type = exp.first raise "type should be a Symbol, not: #{exp.first.inspect}" unless Symbol === type in_context type do if @debug.has_key? type then str = exp.inspect puts "// DEBUG: #{str}" if str =~ @debug[type] end exp_orig = nil exp_orig = exp.deep_clone if $DEBUG or @debug.has_key? type or @exceptions.has_key?(type) raise UnsupportedNodeError, "'#{type}' is not a supported node type" if @unsupported.include? type if @debug.has_key? type then str = exp.inspect puts "// DEBUG (rewritten): #{str}" if str =~ @debug[type] end # now do a pass with the real processor (or generic) meth = @processors[type] || @default_method if meth then if @warn_on_default and meth == @default_method then warn "WARNING: Using default method #{meth} for #{type}" end exp.shift if @auto_shift_type and meth != @default_method result = error_handler(type, exp_orig) do self.send(meth, exp) end raise SexpTypeError, "Result must be a #{@expected}, was #{result.class}:#{result.inspect}" unless @expected === result self.assert_empty(meth, exp, exp_orig) if @require_empty else unless @strict then until exp.empty? do sub_exp = exp.shift sub_result = nil if Array === sub_exp then sub_result = error_handler(type, exp_orig) do process(sub_exp) end raise "Result is a bad type" unless Array === sub_exp raise "Result does not have a type in front: #{sub_exp.inspect}" unless Symbol === sub_exp.first unless sub_exp.empty? else sub_result = sub_exp end result << sub_result end # NOTE: this is costly, but we are in the generic processor # so we shouldn't hit it too much with RubyToC stuff at least. #if Sexp === exp and not exp.sexp_type.nil? then begin result.sexp_type = exp.sexp_type rescue Exception # nothing to do, on purpose end else msg = "Bug! Unknown node-type #{type.inspect} to #{self.class}" msg += " in #{exp_orig.inspect} from #{caller.inspect}" if $DEBUG raise UnknownNodeError, msg end end end result end ## # Raises unless the Sexp type for +list+ matches +typ+ def assert_type(list, typ) raise SexpTypeError, "Expected type #{typ.inspect} in #{list.inspect}" if not Array === list or list.first != typ end def error_handler(type, exp=nil) # :nodoc: begin return yield rescue StandardError => err if @exceptions.has_key? type then return @exceptions[type].call(self, exp, err) else warn "#{err.class} Exception thrown while processing #{type} for sexp #{exp.inspect} #{caller.inspect}" if $DEBUG raise end end end ## # Registers an error handler for +node+ def on_error_in(node_type, &block) @exceptions[node_type] = block end ## # A fairly generic processor for a dummy node. Dummy nodes are used # when your processor is doing a complicated rewrite that replaces # the current sexp with multiple sexps. # # Bogus Example: # # def process_something(exp) # return s(:dummy, process(exp), s(:extra, 42)) # end def process_dummy(exp) result = @expected.new(:dummy) rescue @expected.new until exp.empty? do result << self.process(exp.shift) end result end ## # Add a scope level to the current env. Eg: # # def process_defn exp # name = exp.shift # args = process(exp.shift) # scope do # body = process(exp.shift) # # ... # end # end # # env[:x] = 42 # scope do # env[:x] # => 42 # env[:y] = 24 # end # env[:y] # => nil def scope &block env.scope(&block) end def in_context type self.context.unshift type yield self.context.shift end ## # I really hate this here, but I hate subdirs in my lib dir more... # I guess it is kinda like shaving... I'll split this out when it # itches too much... class Environment def initialize @env = [] @env.unshift({}) end def all @env.reverse.inject { |env, scope| env.merge scope } end def depth @env.length end # TODO: depth_of def [] name hash = @env.find { |closure| closure.has_key? name } hash[name] if hash end def []= name, val hash = @env.find { |closure| closure.has_key? name } || @env.first hash[name] = val end def scope @env.unshift({}) begin yield ensure @env.shift raise "You went too far unextending env" if @env.empty? end end end end class Object ## # deep_clone is the usual Marshalling hack to make a deep copy. # It is rather slow, so use it sparingly. Helps with debugging # SexpProcessors since you usually shift off sexps. def deep_clone Marshal.load(Marshal.dump(self)) end end ## # SexpProcessor base exception class. class SexpProcessorError < StandardError; end ## # Raised by SexpProcessor if it sees a node type listed in its # unsupported list. class UnsupportedNodeError < SexpProcessorError; end ## # Raised by SexpProcessor if it is in strict mode and sees a node for # which there is no processor available. class UnknownNodeError < SexpProcessorError; end ## # Raised by SexpProcessor if a processor did not process every node in # a sexp and @require_empty is true. class NotEmptyError < SexpProcessorError; end ## # Raised if assert_type encounters an unexpected sexp type. class SexpTypeError < SexpProcessorError; end