# frozen_string_literal: true require_relative 'context/attribute_context' require_relative 'context/class_context' require_relative 'context/ghost_context' require_relative 'context/method_context' require_relative 'context/module_context' require_relative 'context/root_context' require_relative 'context/send_context' require_relative 'context/singleton_attribute_context' require_relative 'context/singleton_method_context' require_relative 'ast/node' module Reek # # Traverses an abstract syntax tree and fires events whenever it encounters # specific node types. # # TODO: This class is responsible for statements and reference # counting. Ideally `ContextBuilder` would only build up the context tree and leave the # statement and reference counting to the contexts. # # :reek:TooManyMethods: { max_methods: 31 } # :reek:UnusedPrivateMethod: { exclude: [ !ruby/regexp /process_/ ] } # :reek:DataClump class ContextBuilder attr_reader :context_tree def initialize(syntax_tree) @exp = syntax_tree @current_context = Context::RootContext.new(exp) @context_tree = build(exp) end private attr_accessor :current_context attr_reader :exp # Processes the given AST, memoizes it and returns a tree of nested # contexts. # # For example this ruby code: # # class Car; def drive; end; end # # would get compiled into this AST: # # (class # (const nil :Car) nil # (def :drive # (args) nil)) # # Processing this AST would result in a context tree where each node # contains the outer context, the AST and the child contexts. The top # node is always Reek::Context::RootContext. Using the example above, # the tree would look like this: # # RootContext -> children: 1 ModuleContext -> children: 1 MethodContext # # @return [Reek::Context::RootContext] tree of nested contexts def build(exp, parent_exp = nil) context_processor = "process_#{exp.type}" if context_processor_exists?(context_processor) send(context_processor, exp, parent_exp) else process exp end current_context end # Handles every node for which we have no context_processor. # def process(exp) exp.children.grep(AST::Node).each { |child| build(child, exp) } end # Handles `module` and `class` nodes. # def process_module(exp, _parent) inside_new_context(Context::ModuleContext, exp) do process(exp) end end alias process_class process_module # Handles `sclass` nodes # # An input example that would trigger this method would be: # # class << self # end # def process_sclass(exp, _parent) inside_new_context(Context::GhostContext, exp) do process(exp) end end # Handles `casgn` ("class assign") nodes. # # An input example that would trigger this method would be: # # Foo = Class.new Bar # def process_casgn(exp, parent) if exp.defines_module? process_module(exp, parent) else process(exp) end end # Handles `def` nodes. # # An input example that would trigger this method would be: # # def call_me; foo = 2; bar = 5; end # # Given the above example we would count 2 statements overall. # def process_def(exp, parent) inside_new_context(current_context.method_context_class, exp, parent) do increase_statement_count_by(exp.body) process(exp) end end # Handles `defs` nodes ("define singleton"). # # An input example that would trigger this method would be: # # def self.call_me; foo = 2; bar = 5; end # # Given the above example we would count 2 statements overall. # def process_defs(exp, parent) inside_new_context(Context::SingletonMethodContext, exp, parent) do increase_statement_count_by(exp.body) process(exp) end end # Handles `send` nodes a.k.a. method calls. # # An input example that would trigger this method would be: # # call_me() # # Besides checking if it's a visibility modifier or an attribute writer # we also record to what the method call is referring to # which we later use for smell detectors like FeatureEnvy. # def process_send(exp, _parent) process(exp) case current_context when Context::ModuleContext handle_send_for_modules exp when Context::MethodContext handle_send_for_methods exp end end # Handles `op_asgn` nodes a.k.a. Ruby's assignment operators. # # An input example that would trigger this method would be: # # x += 5 # # or # # x *= 3 # # We record one reference to `x` given the example above. # def process_op_asgn(exp, _parent) current_context.record_call_to(exp) process(exp) end # Handles `ivasgn` and `ivar` nodes a.k.a. nodes related to instance variables. # # An input example that would trigger this method would be: # # @item = 5 # # for instance assignments (`ivasgn`) and # # call_me(@item) # # for just using instance variables (`ivar`). # # We record one reference to `self`. # def process_ivar(exp, _parent) current_context.record_use_of_self process(exp) end alias process_ivasgn process_ivar # Handles `self` nodes. # # An input example that would trigger this method would be: # # def self.foo; end # def process_self(_, _parent) current_context.record_use_of_self end # Handles `zsuper` nodes a.k.a. calls to `super` without any arguments but a block possibly. # # An input example that would trigger this method would be: # # def call_me; super; end # # or # # def call_me; super do end; end # # but not # # def call_me; super(); end # # We record one reference to `self`. # def process_zsuper(_, _parent) current_context.record_use_of_self end # Handles `super` nodes a.k.a. calls to `super` with arguments # # An input example that would trigger this method would be: # # def call_me; super(); end # # or # # def call_me; super(bar); end # # but not # # def call_me; super; end # # and not # # def call_me; super do end; end # # We record one reference to `self`. # def process_super(exp, _parent) current_context.record_use_of_self process(exp) end # Handles `block` nodes. # # An input example that would trigger this method would be: # # list.map { |element| puts element } # # Counts non-empty blocks as one statement. # def process_block(exp, _parent) increase_statement_count_by(exp.block) process(exp) end # Handles `begin` and `kwbegin` nodes. `begin` nodes are created implicitly # e.g. when parsing method bodies (see example below), `kwbegin` nodes are created # by explicitly using the `begin` keyword. # # An input example that would trigger this method would be: # # def foo; call_me(); @x = 5; end # # In this case the whole method body would be hanging below the `begin` node. # # Counts all statements in the method body. # # At the end we subtract one statement because the surrounding context was already counted # as one (e.g. via `process_def`). # def process_begin(exp, _parent) increase_statement_count_by(exp.children) decrease_statement_count process(exp) end alias process_kwbegin process_begin # Handles `if` nodes. # # An input example that would trigger this method would be: # # if a > 5 && b < 3 # puts 'bingo' # else # 3 # end # # Counts the `if` body as one statement and the `else` body as another statement. # # At the end we subtract one statement because the surrounding context was already counted # as one (e.g. via `process_def`). # # `children[1]` refers to the `if` body (so `puts 'bingo'` from above) and # `children[2]` to the `else` body (so `3` from above), which might be nil. # def process_if(exp, _parent) children = exp.children increase_statement_count_by(children[1]) increase_statement_count_by(children[2]) decrease_statement_count process(exp) end # Handles `while` and `until` nodes. # # An input example that would trigger this method would be: # # while x < 5 # puts 'bingo' # end # # Counts the `while` body as one statement. # # At the end we subtract one statement because the surrounding context was already counted # as one (e.g. via `process_def`). # # `children[1]` below refers to the `while` body (so `puts 'bingo'` from above) # def process_while(exp, _parent) increase_statement_count_by(exp.children[1]) decrease_statement_count process(exp) end alias process_until process_while # Handles `for` nodes. # # An input example that would trigger this method would be: # # for i in [1,2,3,4] # puts i # end # # Counts the `for` body as one statement. # # At the end we subtract one statement because the surrounding context was already counted # as one (e.g. via `process_def`). # # `children[2]` below refers to the `while` body (so `puts i` from above) # def process_for(exp, _parent) increase_statement_count_by(exp.children[2]) decrease_statement_count process(exp) end # Handles `rescue` nodes. # # An input example that would trigger this method would be: # # def simple # raise ArgumentError, 'raising...' # rescue => e # puts 'rescued!' # end # # Counts everything before the `rescue` body as one statement. # # At the end we subtract one statement because the surrounding context was already counted # as one (e.g. via `process_def`). # # `exp.children.first` below refers to everything before the actual `rescue` # which would be the # # raise ArgumentError, 'raising...' # # in the example above. # `exp` would be the whole method body wrapped under a `rescue` node. # See `process_resbody` for additional reference. # def process_rescue(exp, _parent) increase_statement_count_by(exp.children.first) decrease_statement_count process(exp) end # Handles `resbody` nodes. # # An input example that would trigger this method would be: # # def simple # raise ArgumentError, 'raising...' # rescue => e # puts 'rescued!' # end # # Counts the exception capturing and every statement related to it. # # So `exp.children[1..-1]` from the code below would be an array with the following 2 elements: # [ # (lvasgn :e), # (send nil :puts (str "rescued!")) # ] # # which thus counts as 2 statements. # `exp` would be the whole `rescue` body. # See `process_rescue` for additional reference. # def process_resbody(exp, _parent) increase_statement_count_by(exp.children[1..-1].compact) process(exp) end # Handles `case` nodes. # # An input example that would trigger this method would be: # # foo = 5 # case foo # when 1..100 # puts 'In between' # else # puts 'Not sure what I got here' # end # # Counts the `else` body. # # At the end we subtract one statement because the surrounding context was already counted # as one (e.g. via `process_def`). # def process_case(exp, _parent) increase_statement_count_by(exp.else_body) decrease_statement_count process(exp) end # Handles `when` nodes. # # An input example that would trigger this method would be: # # foo = 5 # case foo # when (1..100) # puts 'In between' # else # puts 'Not sure what I got here' # end # # Note that input like # # if foo then :holla else :nope end # # does not trigger this method. # # Counts the `when` body. # def process_when(exp, _parent) increase_statement_count_by(exp.body) process(exp) end def context_processor_exists?(name) self.class.private_method_defined?(name) end # :reek:ControlParameter def increase_statement_count_by(sexp) current_context.statement_counter.increase_by sexp end def decrease_statement_count current_context.statement_counter.decrease_by 1 end # Stores a reference to the current context, creates a nested new one, # yields to the given block and then restores the previous context. # # @param klass [Context::*Context] - context class # @param args - arguments for the class initializer # @yield block # def inside_new_context(klass, *args) new_context = append_new_context(klass, *args) orig, self.current_context = current_context, new_context yield self.current_context = orig end # Appends a new child context to the current context but does not change # the current context. # # @param klass [Context::*Context] - context class # @param args - arguments for the class initializer # # @return [Context::*Context] - the context that was appended # def append_new_context(klass, *args) klass.new(*args).tap do |new_context| new_context.register_with_parent(current_context) end end def handle_send_for_modules(exp) arg_names = exp.args.map { |arg| arg.children.first } current_context.track_visibility(exp.name, arg_names) register_attributes(exp) end def handle_send_for_methods(exp) append_new_context(Context::SendContext, exp, exp.name) current_context.record_call_to(exp) end def register_attributes(exp) return unless exp.attribute_writer? klass = current_context.attribute_context_class exp.args.each do |arg| append_new_context(klass, arg, exp) end end end end