module Liquid # Context keeps the variable stack and resolves variables, as well as keywords # # context['variable'] = 'testing' # context['variable'] #=> 'testing' # context['true'] #=> true # context['10.2232'] #=> 10.2232 # # context.stack do # context['bob'] = 'bobsen' # end # # context['bob'] #=> nil class Context class Context attr_reader :scopes, :errors, :registers, :environments, :resource_limits attr_accessor :exception_renderer, :template_name, :partial, :global_filter, :strict_variables, :strict_filters def initialize(environments = {}, outer_scope = {}, registers = {}, rethrow_errors = false, resource_limits = nil) @environments = [environments].flatten @scopes = [(outer_scope || {})] @registers = registers @errors = [] @partial = false @strict_variables = false @resource_limits = resource_limits || ResourceLimits.new(Template.default_resource_limits) squash_instance_assigns_with_environments @this_stack_used = false self.exception_renderer = Template.default_exception_renderer if rethrow_errors self.exception_renderer = ->(e) { raise } end @interrupts = [] @filters = [] @global_filter = nil end def warnings @warnings ||= [] end def strainer @strainer ||= Strainer.create(self, @filters) end # Adds filters to this context. # # Note that this does not register the filters with the main Template object. see Template.register_filter # for that def add_filters(filters) filters = [filters].flatten.compact @filters += filters @strainer = nil end def apply_global_filter(obj) global_filter.nil? ? obj : global_filter.call(obj) end # are there any not handled interrupts? def interrupt? !@interrupts.empty? end # push an interrupt to the stack. this interrupt is considered not handled. def push_interrupt(e) @interrupts.push(e) end # pop an interrupt from the stack def pop_interrupt @interrupts.pop end def handle_error(e, line_number = nil) e = internal_error unless e.is_a?(Liquid::Error) e.template_name ||= template_name e.line_number ||= line_number errors.push(e) exception_renderer.call(e).to_s end def invoke(method, *args) strainer.invoke(method, *args).to_liquid end # Push new local scope on the stack. use Context#stack instead def push(new_scope = {}) @scopes.unshift(new_scope) raise StackLevelError, "Nesting too deep".freeze if @scopes.length > Block::MAX_DEPTH end # Merge a hash of variables in the current local scope def merge(new_scopes) @scopes[0].merge!(new_scopes) end # Pop from the stack. use Context#stack instead def pop raise ContextError if @scopes.size == 1 @scopes.shift end # Pushes a new local scope on the stack, pops it at the end of the block # # Example: # context.stack do # context['var'] = 'hi' # end # # context['var] #=> nil def stack(new_scope = nil) old_stack_used = @this_stack_used if new_scope push(new_scope) @this_stack_used = true else @this_stack_used = false end yield ensure pop if @this_stack_used @this_stack_used = old_stack_used end def clear_instance_assigns @scopes[0] = {} end # Only allow String, Numeric, Hash, Array, Proc, Boolean or Liquid::Drop def []=(key, value) unless @this_stack_used @this_stack_used = true push({}) end @scopes[0][key] = value end # Look up variable, either resolve directly after considering the name. We can directly handle # Strings, digits, floats and booleans (true,false). # If no match is made we lookup the variable in the current scope and # later move up to the parent blocks to see if we can resolve the variable somewhere up the tree. # Some special keywords return symbols. Those symbols are to be called on the rhs object in expressions # # Example: # products == empty #=> products.empty? def [](expression) evaluate(Expression.parse(expression)) end def key?(key) self[key] != nil end def evaluate(object) object.respond_to?(:evaluate) ? object.evaluate(self) : object end # Fetches an object starting at the local scope and then moving up the hierachy def find_variable(key, raise_on_not_found: true) # This was changed from find() to find_index() because this is a very hot # path and find_index() is optimized in MRI to reduce object allocation index = @scopes.find_index { |s| s.key?(key) } scope = @scopes[index] if index variable = nil if scope.nil? @environments.each do |e| variable = lookup_and_evaluate(e, key, raise_on_not_found: raise_on_not_found) # When lookup returned a value OR there is no value but the lookup also did not raise # then it is the value we are looking for. if !variable.nil? || @strict_variables && raise_on_not_found scope = e break end end end scope ||= @environments.last || @scopes.last variable ||= lookup_and_evaluate(scope, key, raise_on_not_found: raise_on_not_found) variable = variable.to_liquid variable.context = self if variable.respond_to?(:context=) variable end def lookup_and_evaluate(obj, key, raise_on_not_found: true) if @strict_variables && raise_on_not_found && obj.respond_to?(:key?) && !obj.key?(key) raise Liquid::UndefinedVariable, "undefined variable #{key}" end value = obj[key] if value.is_a?(Proc) && obj.respond_to?(:[]=) obj[key] = (value.arity == 0) ? value.call : value.call(self) else value end end private def internal_error # raise and catch to set backtrace and cause on exception raise Liquid::InternalError, 'internal' rescue Liquid::InternalError => exc exc end def squash_instance_assigns_with_environments @scopes.last.each_key do |k| @environments.each do |env| if env.key?(k) scopes.last[k] = lookup_and_evaluate(env, k) break end end end end # squash_instance_assigns_with_environments end # Context end # Liquid