exports.Scope = class ScopeThe Scope class regulates lexical scoping within CoffeeScript. As you
generate code, you create a tree of scopes in the same shape as the nested
function bodies. Each scope knows about the variables declared within it,
and has a reference to its parent enclosing scope. In this way, we know which
variables are new and need to be declared with var, and which are shared
with external scopes.
exports.Scope = class ScopeInitialize a scope with its parent, for lookups up the chain, as well as a reference to the Block node it belongs to, which is where it should declare its variables, a reference to the function that it belongs to, and a list of variables referenced in the source code and therefore should be avoided when generating variables. Also track comments that should be output as part of variable declarations.
constructor: (@parent, @expressions, @method, @referencedVars) ->
@variables = [{name: 'arguments', type: 'arguments'}]
@comments = {}
@positions = {}
@utilities = {} unless @parentThe @root is the top-level Scope object for a given file.
@root = @parent?.root ? thisAdds a new variable or overrides an existing one.
add: (name, type, immediate) ->
return @parent.add name, type, immediate if @shared and not immediate
if Object::hasOwnProperty.call @positions, name
@variables[@positions[name]].type = type
else
@positions[name] = @variables.push({name, type}) - 1When super is called, we need to find the name of the current method we’re
in, so that we know how to invoke the same method of the parent class. This
can get complicated if super is being called from an inner function.
namedMethod will walk up the scope tree until it either finds the first
function object that has a name filled in, or bottoms out.
namedMethod: ->
return @method if @method?.name or !@parent
@parent.namedMethod()Look up a variable name in lexical scope, and declare it if it does not already exist.
find: (name, type = 'var') ->
return yes if @check name
@add name, type
noReserve a variable name as originating from a function parameter for this
scope. No var required for internal references.
parameter: (name) ->
return if @shared and @parent.check name, yes
@add name, 'param'Just check to see if a variable has already been declared, without reserving, walks up to the root scope.
check: (name) ->
!!(@type(name) or @parent?.check(name))Generate a temporary variable name at the given index.
temporary: (name, index, single=false) ->
if single
startCode = name.charCodeAt(0)
endCode = 'z'.charCodeAt(0)
diff = endCode - startCode
newCode = startCode + index % (diff + 1)
letter = String.fromCharCode(newCode)
num = index // (diff + 1)
"#{letter}#{num or ''}"
else
"#{name}#{index or ''}"Gets the type of a variable.
type: (name) ->
return v.type for v in @variables when v.name is name
nullIf we need to store an intermediate result, find an available name for a
compiler-generated variable. _var, _var2, and so on…
freeVariable: (name, options={}) ->
index = 0
loop
temp = @temporary name, index, options.single
break unless @check(temp) or temp in @root.referencedVars
index++
@add temp, 'var', yes if options.reserve ? true
tempEnsure that an assignment is made at the top of this scope (or at the top-level scope, if requested).
assign: (name, value) ->
@add name, {value, assigned: yes}, yes
@hasAssignments = yesDoes this scope have any declared variables?
hasDeclarations: ->
!!@declaredVariables().lengthReturn the list of variables first declared in this scope.
declaredVariables: ->
(v.name for v in @variables when v.type is 'var').sort()Return the list of assignments that are supposed to be made at the top of this scope.
assignedVariables: ->
"#{v.name} = #{v.type.value}" for v in @variables when v.type.assigned