class Pry class Method class Patcher attr_accessor :method @@source_cache = {} def initialize(method) @method = method end def self.code_for(filename) @@source_cache[filename] end # perform the patch def patch_in_ram(source) if method.alias? with_method_transaction do redefine source end else redefine source end end private def redefine(source) @@source_cache[cache_key] = source TOPLEVEL_BINDING.eval wrap(source), cache_key end def cache_key "pry-redefined(0x#{method.owner.object_id.to_s(16)}##{method.name})" end # Run some code ensuring that at the end target#meth_name will not have changed. # # When we're redefining aliased methods we will overwrite the method at the # unaliased name (so that super continues to work). By wrapping that code in a # transation we make that not happen, which means that alias_method_chains, etc. # continue to work. # def with_method_transaction temp_name = "__pry_#{method.original_name}__" method = self.method method.owner.class_eval do alias_method temp_name, method.original_name yield alias_method method.name, method.original_name alias_method method.original_name, temp_name end ensure method.send(:remove_method, temp_name) rescue nil end # Update the definition line so that it can be eval'd directly on the Method's # owner instead of from the original context. # # In particular this takes `def self.foo` and turns it into `def foo` so that we # don't end up creating the method on the singleton class of the singleton class # by accident. # # This is necessarily done by String manipulation because we can't find out what # syntax is needed for the argument list by ruby-level introspection. # # @param [String] line The original definition line. e.g. def self.foo(bar, baz=1) # @return [String] The new definition line. e.g. def foo(bar, baz=1) def definition_for_owner(line) if line =~ /\Adef (?:.*?\.)?#{Regexp.escape(method.original_name)}(?=[\(\s;]|$)/ "def #{method.original_name}#{$'}" else raise CommandError, "Could not find original `def #{method.original_name}` line to patch." end end # Apply wrap_for_owner and wrap_for_nesting successively to `source` # @param [String] source # @return [String] The wrapped source. def wrap(source) wrap_for_nesting(wrap_for_owner(source)) end # Update the source code so that when it has the right owner when eval'd. # # This (combined with definition_for_owner) is backup for the case that # wrap_for_nesting fails, to ensure that the method will stil be defined in # the correct place. # # @param [String] source The source to wrap # @return [String] def wrap_for_owner(source) Pry.current[:pry_owner] = method.owner owner_source = definition_for_owner(source) visibility_fix = "#{method.visibility} #{method.name.to_sym.inspect}" "Pry.current[:pry_owner].class_eval do; #{owner_source}\n#{visibility_fix}\nend" end # Update the new source code to have the correct Module.nesting. # # This method uses syntactic analysis of the original source file to determine # the new nesting, so that we can tell the difference between: # # class A; def self.b; end; end # class << A; def b; end; end # # The resulting code should be evaluated in the TOPLEVEL_BINDING. # # @param [String] source The source to wrap. # @return [String] def wrap_for_nesting(source) nesting = Pry::Code.from_file(method.source_file).nesting_at(method.source_line) (nesting + [source] + nesting.map { "end" } + [""]).join(";") rescue Pry::Indent::UnparseableNestingError source end end end end