/*********************************************************************** A JavaScript tokenizer / parser / beautifier / compressor. https://github.com/mishoo/UglifyJS -------------------------------- (C) --------------------------------- Author: Mihai Bazon http://mihai.bazon.net/blog Distributed under the BSD license: Copyright 2012 (c) Mihai Bazon Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER “AS IS” AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ***********************************************************************/ "use strict"; function Compressor(options, false_by_default) { if (!(this instanceof Compressor)) return new Compressor(options, false_by_default); TreeTransformer.call(this, this.before, this.after); this.options = defaults(options, { arguments : !false_by_default, assignments : !false_by_default, booleans : !false_by_default, collapse_vars : !false_by_default, comparisons : !false_by_default, conditionals : !false_by_default, dead_code : !false_by_default, directives : !false_by_default, drop_console : false, drop_debugger : !false_by_default, evaluate : !false_by_default, expression : false, functions : !false_by_default, global_defs : false, hoist_funs : false, hoist_props : !false_by_default, hoist_vars : false, ie8 : false, if_return : !false_by_default, inline : !false_by_default, join_vars : !false_by_default, keep_fargs : false_by_default || "strict", keep_fnames : false, keep_infinity : false, loops : !false_by_default, negate_iife : !false_by_default, objects : !false_by_default, passes : 1, properties : !false_by_default, pure_getters : !false_by_default && "strict", pure_funcs : null, reduce_funcs : !false_by_default, reduce_vars : !false_by_default, sequences : !false_by_default, side_effects : !false_by_default, strings : !false_by_default, switches : !false_by_default, top_retain : null, toplevel : !!(options && options["top_retain"]), typeofs : !false_by_default, unsafe : false, unsafe_comps : false, unsafe_Function : false, unsafe_math : false, unsafe_proto : false, unsafe_regexp : false, unsafe_undefined: false, unused : !false_by_default, }, true); var evaluate = this.options["evaluate"]; this.eval_threshold = /eager/.test(evaluate) ? 1 / 0 : +evaluate; var global_defs = this.options["global_defs"]; if (typeof global_defs == "object") for (var key in global_defs) { if (/^@/.test(key) && HOP(global_defs, key)) { global_defs[key.slice(1)] = parse(global_defs[key], { expression: true }); } } if (this.options["inline"] === true) this.options["inline"] = 3; var keep_fargs = this.options["keep_fargs"]; this.drop_fargs = keep_fargs == "strict" ? function(lambda, parent) { if (lambda.length_read) return false; var name = lambda.name; if (!name) return parent && parent.TYPE == "Call" && parent.expression === lambda; if (name.fixed_value() !== lambda) return false; var def = name.definition(); if (def.direct_access) return false; var escaped = def.escaped; return escaped && escaped.depth != 1; } : keep_fargs ? return_false : return_true; var pure_funcs = this.options["pure_funcs"]; if (typeof pure_funcs == "function") { this.pure_funcs = pure_funcs; } else if (typeof pure_funcs == "string") { this.pure_funcs = function(node) { return pure_funcs !== node.expression.print_to_string(); }; } else if (Array.isArray(pure_funcs)) { this.pure_funcs = function(node) { return !member(node.expression.print_to_string(), pure_funcs); }; } else { this.pure_funcs = return_true; } var sequences = this.options["sequences"]; this.sequences_limit = sequences == 1 ? 800 : sequences | 0; var top_retain = this.options["top_retain"]; if (top_retain instanceof RegExp) { this.top_retain = function(def) { return top_retain.test(def.name); }; } else if (typeof top_retain == "function") { this.top_retain = top_retain; } else if (top_retain) { if (typeof top_retain == "string") { top_retain = top_retain.split(/,/); } this.top_retain = function(def) { return member(def.name, top_retain); }; } var toplevel = this.options["toplevel"]; this.toplevel = typeof toplevel == "string" ? { funcs: /funcs/.test(toplevel), vars: /vars/.test(toplevel) } : { funcs: toplevel, vars: toplevel }; } Compressor.prototype = new TreeTransformer; merge(Compressor.prototype, { option: function(key) { return this.options[key] }, exposed: function(def) { if (def.global) for (var i = 0; i < def.orig.length; i++) if (!this.toplevel[def.orig[i] instanceof AST_SymbolDefun ? "funcs" : "vars"]) return true; return def.undeclared; }, compress: function(node) { node = node.resolve_defines(this); if (this.option("expression")) { node.process_expression(true); } var passes = +this.options.passes || 1; var min_count = 1 / 0; var stopping = false; var mangle = { ie8: this.option("ie8") }; for (var pass = 0; pass < passes; pass++) { node.figure_out_scope(mangle); if (pass > 0 || this.option("reduce_vars")) node.reset_opt_flags(this); node = node.transform(this); if (passes > 1) { var count = 0; node.walk(new TreeWalker(function() { count++; })); AST_Node.info("pass " + pass + ": last_count: " + min_count + ", count: " + count); if (count < min_count) { min_count = count; stopping = false; } else if (stopping) { break; } else { stopping = true; } } } if (this.option("expression")) { node.process_expression(false); } return node; }, before: function(node, descend, in_list) { if (node._squeezed) return node; var is_scope = node instanceof AST_Scope; if (is_scope) { node.hoist_properties(this); node.hoist_declarations(this); node.process_boolean_returns(this); } // Before https://github.com/mishoo/UglifyJS/pull/1602 AST_Node.optimize() // would call AST_Node.transform() if a different instance of AST_Node is // produced after OPT(). // This corrupts TreeWalker.stack, which cause AST look-ups to malfunction. // Migrate and defer all children's AST_Node.transform() to below, which // will now happen after this parent AST_Node has been properly substituted // thus gives a consistent AST snapshot. descend(node, this); // Existing code relies on how AST_Node.optimize() worked, and omitting the // following replacement call would result in degraded efficiency of both // output and performance. descend(node, this); var opt = node.optimize(this); if (is_scope && opt === node) { opt.drop_unused(this); descend(opt, this); } if (opt === node) opt._squeezed = true; return opt; } }); (function(OPT) { OPT(AST_Node, function(self, compressor) { return self; }); AST_Node.DEFMETHOD("equivalent_to", function(node) { return this.TYPE == node.TYPE && this.print_to_string() == node.print_to_string(); }); AST_Scope.DEFMETHOD("process_expression", function(insert, transform) { var self = this; var tt = new TreeTransformer(function(node) { if (insert && node instanceof AST_SimpleStatement) { return make_node(AST_Return, node, { value: node.body }); } if (!insert && node instanceof AST_Return) { return transform ? transform(node) : make_node(AST_SimpleStatement, node, { body: node.value || make_node(AST_UnaryPrefix, node, { operator: "void", expression: make_node(AST_Number, node, { value: 0 }) }) }); } if (node instanceof AST_Lambda && node !== self) { return node; } if (node instanceof AST_Block) { var index = node.body.length - 1; if (index >= 0) { node.body[index] = node.body[index].transform(tt); } } else if (node instanceof AST_If) { node.body = node.body.transform(tt); if (node.alternative) { node.alternative = node.alternative.transform(tt); } } else if (node instanceof AST_With) { node.body = node.body.transform(tt); } return node; }); self.transform(tt); }); function read_property(obj, node) { var key = node.getProperty(); if (key instanceof AST_Node) return; var value; if (obj instanceof AST_Array) { var elements = obj.elements; if (key == "length") return make_node_from_constant(elements.length, obj); if (typeof key == "number" && key in elements) value = elements[key]; } else if (obj instanceof AST_Lambda) { if (key == "length") { obj.length_read = true; return make_node_from_constant(obj.argnames.length, obj); } } else if (obj instanceof AST_Object) { key = "" + key; var props = obj.properties; for (var i = props.length; --i >= 0;) { var prop = props[i]; if (!(prop instanceof AST_ObjectKeyVal)) return; if (!value && props[i].key === key) value = props[i].value; } } return value instanceof AST_SymbolRef && value.fixed_value() || value; } function is_read_only_fn(value, name) { if (value instanceof AST_Boolean) return native_fns.Boolean[name]; if (value instanceof AST_Number) return native_fns.Number[name]; if (value instanceof AST_String) return native_fns.String[name]; if (name == "valueOf") return false; if (value instanceof AST_Array) return native_fns.Array[name]; if (value instanceof AST_Function) return native_fns.Function[name]; if (value instanceof AST_Object) return native_fns.Object[name]; if (value instanceof AST_RegExp) return native_fns.RegExp[name] && !value.value.global; } function is_modified(compressor, tw, node, value, level, immutable, recursive) { var parent = tw.parent(level); if (compressor.option("unsafe") && parent instanceof AST_Dot && is_read_only_fn(value, parent.property)) { return; } var lhs = is_lhs(node, parent); if (lhs) return lhs; if (parent instanceof AST_Array) return is_modified(compressor, tw, parent, parent, level + 1); if (parent instanceof AST_Call) { return !immutable && parent.expression === node && !parent.is_expr_pure(compressor) && (!(value instanceof AST_Function) || !(parent instanceof AST_New) && value.contains_this()); } if (parent instanceof AST_ForIn) return parent.init === node; if (parent instanceof AST_ObjectKeyVal) { if (parent.value !== node) return; var obj = tw.parent(level + 1); return is_modified(compressor, tw, obj, obj, level + 2); } if (parent instanceof AST_PropAccess) { if (parent.expression !== node) return; var prop = read_property(value, parent); return (!immutable || recursive) && is_modified(compressor, tw, parent, prop, level + 1); } } function is_arguments(def) { if (def.name != "arguments") return false; var orig = def.orig; return orig.length == 1 && orig[0] instanceof AST_SymbolFunarg; } (function(def) { def(AST_Node, noop); function reset_def(tw, compressor, def) { def.assignments = 0; def.bool_fn = 0; def.cross_loop = false; def.direct_access = false; def.escaped = []; def.fixed = !def.scope.pinned() && !compressor.exposed(def) && !(def.init instanceof AST_Function && def.init !== def.scope) && def.init; if (def.fixed instanceof AST_Defun && !all(def.references, function(ref) { var scope = ref.scope; do { if (def.scope === scope) return true; } while (scope instanceof AST_Function && (scope = scope.parent_scope)); })) { tw.defun_ids[def.id] = false; } def.recursive_refs = 0; def.references = []; def.should_replace = undefined; def.single_use = undefined; } function reset_variables(tw, compressor, scope) { scope.variables.each(function(def) { reset_def(tw, compressor, def); if (def.fixed === null) { def.safe_ids = tw.safe_ids; mark(tw, def); } else if (def.fixed) { tw.loop_ids[def.id] = tw.in_loop; mark(tw, def); } }); scope.may_call_this = function() { scope.may_call_this = noop; if (!scope.contains_this()) return; scope.functions.each(function(def) { if (def.init instanceof AST_Defun && !(def.id in tw.defun_ids)) { tw.defun_ids[def.id] = false; } }); }; if (compressor.option("ie8")) scope.variables.each(function(def) { var d = def.orig[0].definition(); if (d !== def) d.fixed = false; }); } function mark_defun(tw, def) { if (def.id in tw.defun_ids) { var marker = tw.defun_ids[def.id]; if (!marker) return; var visited = tw.defun_visited[def.id]; if (marker === tw.safe_ids) { if (!visited) return def.fixed; } else if (visited) { def.init.enclosed.forEach(function(d) { if (def.init.variables.get(d.name) === d) return; if (!safe_to_read(tw, d)) d.fixed = false; }); } else { tw.defun_ids[def.id] = false; } } else { if (!tw.in_loop) { tw.defun_ids[def.id] = tw.safe_ids; return def.fixed; } tw.defun_ids[def.id] = false; } } function walk_defuns(tw, scope) { scope.functions.each(function(def) { if (def.init instanceof AST_Defun && !tw.defun_visited[def.id]) { tw.defun_ids[def.id] = tw.safe_ids; def.init.walk(tw); } }); } function push(tw) { tw.safe_ids = Object.create(tw.safe_ids); } function pop(tw) { tw.safe_ids = Object.getPrototypeOf(tw.safe_ids); } function mark(tw, def) { tw.safe_ids[def.id] = {}; } function push_ref(def, ref) { def.references.push(ref); def.last_ref = ref; } function safe_to_read(tw, def) { if (def.single_use == "m") return false; var safe = tw.safe_ids[def.id]; if (safe) { if (!HOP(tw.safe_ids, def.id)) safe.read = safe.read && safe.read !== tw.safe_ids ? true : tw.safe_ids; if (def.fixed == null) { if (is_arguments(def)) return false; if (def.global && def.name == "arguments") return false; tw.loop_ids[def.id] = null; def.fixed = make_node(AST_Undefined, def.orig[0]); return true; } return !safe.assign || safe.assign === tw.safe_ids; } return def.fixed instanceof AST_Defun; } function safe_to_assign(tw, def) { if (def.fixed === undefined) return true; if (def.fixed === null && def.safe_ids) { def.safe_ids[def.id] = false; delete def.safe_ids; return true; } if (def.fixed === false) return false; var safe = tw.safe_ids[def.id]; if (!HOP(tw.safe_ids, def.id)) { if (!safe) return false; if (safe.read && def.scope !== tw.find_parent(AST_Scope)) return false; safe.assign = safe.assign && safe.assign !== tw.safe_ids ? true : tw.safe_ids; } if (def.fixed != null && safe.read) { if (safe.read !== tw.safe_ids) return false; if (tw.loop_ids[def.id] !== tw.in_loop) return false; } return safe_to_read(tw, def) && all(def.orig, function(sym) { return !(sym instanceof AST_SymbolLambda); }); } function make_ref(ref, fixed) { var node = make_node(AST_SymbolRef, ref, ref); node.fixed = fixed || make_node(AST_Undefined, ref); return node; } function ref_once(compressor, def) { return compressor.option("unused") && !def.scope.pinned() && def.references.length - def.recursive_refs == 1; } function is_immutable(value) { if (!value) return false; return value.is_constant() || value instanceof AST_Lambda || value instanceof AST_This; } function has_escaped(d, node, parent) { if (parent instanceof AST_Assign) return parent.operator == "=" && parent.right === node; if (parent instanceof AST_Call) return parent.expression !== node || parent instanceof AST_New; if (parent instanceof AST_Exit) return parent.value === node && node.scope !== d.scope; if (parent instanceof AST_VarDef) return parent.value === node; } function value_in_use(node, parent) { if (parent instanceof AST_Array) return true; if (parent instanceof AST_Binary) return lazy_op[parent.operator]; if (parent instanceof AST_Conditional) return parent.condition !== node; if (parent instanceof AST_Sequence) return parent.tail_node() === node; } function mark_escaped(tw, d, scope, node, value, level, depth) { var parent = tw.parent(level); if (value && value.is_constant()) return; if (has_escaped(d, node, parent)) { d.escaped.push(parent); if (depth > 1 && !(value && value.is_constant_expression(scope))) depth = 1; if (!d.escaped.depth || d.escaped.depth > depth) d.escaped.depth = depth; return; } else if (value_in_use(node, parent)) { mark_escaped(tw, d, scope, parent, parent, level + 1, depth); } else if (parent instanceof AST_ObjectKeyVal && parent.value === node) { var obj = tw.parent(level + 1); mark_escaped(tw, d, scope, obj, obj, level + 2, depth); } else if (parent instanceof AST_PropAccess && parent.expression === node) { value = read_property(value, parent); mark_escaped(tw, d, scope, parent, value, level + 1, depth + 1); if (value) return; } if (level > 0) return; if (parent instanceof AST_Call && parent.expression === node) return; if (parent instanceof AST_Sequence && parent.tail_node() !== node) return; if (parent instanceof AST_SimpleStatement) return; if (parent instanceof AST_Unary && !unary_side_effects[parent.operator]) return; d.direct_access = true; } function mark_assignment_to_arguments(node) { if (!(node instanceof AST_Sub)) return; var expr = node.expression; if (!(expr instanceof AST_SymbolRef)) return; var def = expr.definition(); if (is_arguments(def) && node.property instanceof AST_Number) def.reassigned = true; } def(AST_Accessor, function(tw, descend, compressor) { push(tw); reset_variables(tw, compressor, this); descend(); pop(tw); walk_defuns(tw, this); return true; }); def(AST_Assign, function(tw, descend, compressor) { var node = this; var eq = node.operator == "="; var sym = node.left; if (eq && sym.equivalent_to(node.right) && !sym.has_side_effects(compressor)) { node.right.walk(tw); walk_prop(sym); node.__drop = true; return true; } if (!(sym instanceof AST_SymbolRef)) { mark_assignment_to_arguments(sym); return; } var d = sym.definition(); d.assignments++; var fixed = d.fixed; var value = eq ? node.right : node; if (is_modified(compressor, tw, node, value, 0)) { d.fixed = false; return; } var safe = eq || safe_to_read(tw, d); node.right.walk(tw); if (safe && safe_to_assign(tw, d)) { push_ref(d, sym); mark(tw, d); if (eq) { tw.loop_ids[d.id] = tw.in_loop; mark_escaped(tw, d, sym.scope, node, value, 0, 1); sym.fixed = d.fixed = function() { return node.right; }; } else { if (d.single_use) d.single_use = false; sym.fixed = d.fixed = function() { return make_node(AST_Binary, node, { operator: node.operator.slice(0, -1), left: make_ref(sym, fixed), right: node.right }); }; } sym.fixed.assigns = eq || !fixed || !fixed.assigns ? [] : fixed.assigns.slice(); sym.fixed.assigns.push(node); } else { sym.walk(tw); d.fixed = false; } return true; function walk_prop(node) { if (node instanceof AST_Dot) { walk_prop(node.expression); } else if (node instanceof AST_Sub) { walk_prop(node.expression); node.property.walk(tw); } else if (node instanceof AST_SymbolRef) { var d = node.definition(); push_ref(d, node); node.fixed = d.fixed; } else { node.walk(tw); } } }); def(AST_Binary, function(tw) { if (!lazy_op[this.operator]) return; this.left.walk(tw); push(tw); this.right.walk(tw); pop(tw); return true; }); def(AST_Call, function(tw, descend) { tw.find_parent(AST_Scope).may_call_this(); var exp = this.expression; if (exp instanceof AST_Function) { this.args.forEach(function(arg) { arg.walk(tw); }); exp.walk(tw); return true; } else if (exp instanceof AST_SymbolRef) { var def = exp.definition(); if (this.TYPE == "Call" && tw.in_boolean_context()) def.bool_fn++; if (!(def.fixed instanceof AST_Defun)) return; var defun = mark_defun(tw, def); if (!defun) return; descend(); defun.walk(tw); return true; } else if (this.TYPE == "Call" && exp instanceof AST_Assign && exp.operator == "=" && exp.left instanceof AST_SymbolRef && tw.in_boolean_context()) { exp.left.definition().bool_fn++; } }); def(AST_Case, function(tw) { push(tw); this.expression.walk(tw); pop(tw); push(tw); walk_body(this, tw); pop(tw); return true; }); def(AST_Conditional, function(tw) { this.condition.walk(tw); push(tw); this.consequent.walk(tw); pop(tw); push(tw); this.alternative.walk(tw); pop(tw); return true; }); def(AST_Default, function(tw, descend) { push(tw); descend(); pop(tw); return true; }); def(AST_Defun, function(tw, descend, compressor) { var id = this.name.definition().id; if (tw.defun_visited[id]) return true; if (tw.defun_ids[id] !== tw.safe_ids) return true; tw.defun_visited[id] = true; this.inlined = false; push(tw); reset_variables(tw, compressor, this); descend(); pop(tw); walk_defuns(tw, this); return true; }); def(AST_Do, function(tw) { var saved_loop = tw.in_loop; tw.in_loop = this; push(tw); this.body.walk(tw); if (has_break_or_continue(this, tw.parent())) { pop(tw); push(tw); } this.condition.walk(tw); pop(tw); tw.in_loop = saved_loop; return true; }); def(AST_For, function(tw) { if (this.init) this.init.walk(tw); var saved_loop = tw.in_loop; tw.in_loop = this; push(tw); if (this.condition) this.condition.walk(tw); this.body.walk(tw); if (this.step) { if (has_break_or_continue(this, tw.parent())) { pop(tw); push(tw); } this.step.walk(tw); } pop(tw); tw.in_loop = saved_loop; return true; }); def(AST_ForIn, function(tw) { this.object.walk(tw); var saved_loop = tw.in_loop; tw.in_loop = this; push(tw); var init = this.init; init.walk(tw); if (init instanceof AST_SymbolRef) { init.definition().fixed = false; } else if (init instanceof AST_Var) { init.definitions[0].name.definition().fixed = false; } this.body.walk(tw); pop(tw); tw.in_loop = saved_loop; return true; }); def(AST_Function, function(tw, descend, compressor) { var fn = this; fn.inlined = false; var iife; if (!fn.name && (iife = tw.parent()) instanceof AST_Call && iife.expression === fn) { var hit = false; var aborts = false; fn.walk(new TreeWalker(function(node) { if (hit) return aborts = true; if (node instanceof AST_Return) return hit = true; if (node instanceof AST_Scope && node !== fn) return true; })); if (aborts) push(tw); reset_variables(tw, compressor, fn); // Virtually turn IIFE parameters into variable definitions: // (function(a,b) {...})(c,d) => (function() {var a=c,b=d; ...})() // So existing transformation rules can work on them. fn.argnames.forEach(function(arg, i) { var d = arg.definition(); if (d.fixed === undefined && (!fn.uses_arguments || tw.has_directive("use strict"))) { mark(tw, d); tw.loop_ids[d.id] = tw.in_loop; var value = iife.args[i]; d.fixed = function() { var j = fn.argnames.indexOf(arg); return (j < 0 ? value : iife.args[j]) || make_node(AST_Undefined, iife); }; } else { d.fixed = false; } }); descend(); var safe_ids = tw.safe_ids; pop(tw); walk_defuns(tw, fn); if (!aborts) tw.safe_ids = safe_ids; } else { push(tw); reset_variables(tw, compressor, fn); descend(); pop(tw); walk_defuns(tw, fn); } return true; }); def(AST_If, function(tw) { this.condition.walk(tw); push(tw); this.body.walk(tw); pop(tw); if (this.alternative) { push(tw); this.alternative.walk(tw); pop(tw); } return true; }); def(AST_LabeledStatement, function(tw) { push(tw); this.body.walk(tw); pop(tw); return true; }); def(AST_SymbolCatch, function() { this.definition().fixed = false; }); def(AST_SymbolRef, function(tw, descend, compressor) { var d = this.definition(); push_ref(d, this); if (d.references.length == 1 && !d.fixed && d.orig[0] instanceof AST_SymbolDefun) { tw.loop_ids[d.id] = tw.in_loop; } var value; if (d.fixed === undefined || !safe_to_read(tw, d)) { d.fixed = false; } else if (d.fixed) { value = this.fixed_value(); var recursive = recursive_ref(tw, d); if (recursive) { d.recursive_refs++; } else if (value && ref_once(compressor, d)) { d.in_loop = tw.loop_ids[d.id] !== tw.in_loop; d.single_use = value instanceof AST_Lambda && !value.pinned() && (!d.in_loop || tw.parent() instanceof AST_Call) || !d.in_loop && d.scope === this.scope && value.is_constant_expression(); } else { d.single_use = false; } if (is_modified(compressor, tw, this, value, 0, is_immutable(value), recursive)) { if (d.single_use) { d.single_use = "m"; } else { d.fixed = false; } } if (d.fixed && tw.loop_ids[d.id] !== tw.in_loop) { d.cross_loop = true; } mark_escaped(tw, d, this.scope, this, value, 0, 1); } this.fixed = d.fixed; var parent; if (d.fixed instanceof AST_Defun && !((parent = tw.parent()) instanceof AST_Call && parent.expression === this)) { var defun = mark_defun(tw, d); if (defun) defun.walk(tw); } }); def(AST_Toplevel, function(tw, descend, compressor) { this.globals.each(function(def) { reset_def(tw, compressor, def); }); push(tw); reset_variables(tw, compressor, this); descend(); pop(tw); walk_defuns(tw, this); return true; }); def(AST_Try, function(tw) { push(tw); walk_body(this, tw); pop(tw); if (this.bcatch) { push(tw); this.bcatch.walk(tw); pop(tw); } if (this.bfinally) this.bfinally.walk(tw); return true; }); def(AST_Unary, function(tw, descend) { var node = this; if (!unary_arithmetic[node.operator]) return; var exp = node.expression; if (!(exp instanceof AST_SymbolRef)) { mark_assignment_to_arguments(exp); return; } var d = exp.definition(); d.assignments++; var fixed = d.fixed; if (safe_to_read(tw, d) && safe_to_assign(tw, d)) { push_ref(d, exp); mark(tw, d); if (d.single_use) d.single_use = false; d.fixed = function() { return make_node(AST_Binary, node, { operator: node.operator.slice(0, -1), left: make_node(AST_UnaryPrefix, node, { operator: "+", expression: make_ref(exp, fixed) }), right: make_node(AST_Number, node, { value: 1 }) }); }; d.fixed.assigns = fixed && fixed.assigns ? fixed.assigns.slice() : []; d.fixed.assigns.push(node); if (node instanceof AST_UnaryPrefix) { exp.fixed = d.fixed; } else { exp.fixed = function() { return make_node(AST_UnaryPrefix, node, { operator: "+", expression: make_ref(exp, fixed) }); }; exp.fixed.assigns = fixed && fixed.assigns; } } else { exp.walk(tw); d.fixed = false; } return true; }); def(AST_VarDef, function(tw, descend) { var node = this; if (!node.value) return; descend(); var d = node.name.definition(); if (safe_to_assign(tw, d)) { mark(tw, d); tw.loop_ids[d.id] = tw.in_loop; d.fixed = function() { return node.value; }; d.fixed.assigns = [ node ]; } else { d.fixed = false; } return true; }); def(AST_While, function(tw, descend) { var saved_loop = tw.in_loop; tw.in_loop = this; push(tw); descend(); pop(tw); tw.in_loop = saved_loop; return true; }); })(function(node, func) { node.DEFMETHOD("reduce_vars", func); }); AST_Toplevel.DEFMETHOD("reset_opt_flags", function(compressor) { var tw = new TreeWalker(compressor.option("reduce_vars") ? function(node, descend) { reset_flags(node); return node.reduce_vars(tw, descend, compressor); } : reset_flags); // Flow control for visiting `AST_Defun`s tw.defun_ids = Object.create(null); tw.defun_visited = Object.create(null); // Record the loop body in which `AST_SymbolDeclaration` is first encountered tw.in_loop = null; tw.loop_ids = Object.create(null); // Stack of look-up tables to keep track of whether a `SymbolDef` has been // properly assigned before use: // - `push()` & `pop()` when visiting conditional branches // - backup & restore via `save_ids` when visiting out-of-order sections tw.safe_ids = Object.create(null); this.walk(tw); function reset_flags(node) { node._squeezed = false; node._optimized = false; delete node.fixed; if (node instanceof AST_Scope) delete node._var_names; } }); AST_Symbol.DEFMETHOD("fixed_value", function() { var fixed = this.definition().fixed; if (!fixed) return fixed; if (this.fixed) fixed = this.fixed; return fixed instanceof AST_Node ? fixed : fixed(); }); AST_SymbolRef.DEFMETHOD("is_immutable", function() { var def = this.definition(); if (def.orig.length != 1) return false; var sym = def.orig[0]; return sym instanceof AST_SymbolLambda && def.scope.name === sym; }); function is_lhs_read_only(lhs, compressor) { if (lhs instanceof AST_This) return true; if (lhs instanceof AST_SymbolRef) { var def = lhs.definition(); return def.lambda || compressor.exposed(def) && identifier_atom[def.name]; } if (lhs instanceof AST_PropAccess) { lhs = lhs.expression; if (lhs instanceof AST_SymbolRef) { if (lhs.is_immutable()) return false; lhs = lhs.fixed_value(); } if (!lhs) return true; if (lhs.is_constant()) return true; return is_lhs_read_only(lhs, compressor); } return false; } function find_variable(compressor, name) { var scope, i = 0; while (scope = compressor.parent(i++)) { if (scope instanceof AST_Scope) break; if (scope instanceof AST_Catch) { scope = scope.argname.definition().scope; break; } } return scope.find_variable(name); } function make_node(ctor, orig, props) { if (!props) props = {}; if (orig) { if (!props.start) props.start = orig.start; if (!props.end) props.end = orig.end; } return new ctor(props); } function make_sequence(orig, expressions) { if (expressions.length == 1) return expressions[0]; return make_node(AST_Sequence, orig, { expressions: expressions.reduce(merge_sequence, []) }); } function make_node_from_constant(val, orig) { switch (typeof val) { case "string": return make_node(AST_String, orig, { value: val }); case "number": if (isNaN(val)) return make_node(AST_NaN, orig); if (isFinite(val)) { return 1 / val < 0 ? make_node(AST_UnaryPrefix, orig, { operator: "-", expression: make_node(AST_Number, orig, { value: -val }) }) : make_node(AST_Number, orig, { value: val }); } return val < 0 ? make_node(AST_UnaryPrefix, orig, { operator: "-", expression: make_node(AST_Infinity, orig) }) : make_node(AST_Infinity, orig); case "boolean": return make_node(val ? AST_True : AST_False, orig); case "undefined": return make_node(AST_Undefined, orig); default: if (val === null) { return make_node(AST_Null, orig, { value: null }); } if (val instanceof RegExp) { return make_node(AST_RegExp, orig, { value: val }); } throw new Error(string_template("Can't handle constant of type: {type}", { type: typeof val })); } } function needs_unbinding(compressor, val) { return val instanceof AST_PropAccess || is_undeclared_ref(val) && val.name == "eval"; } // we shouldn't compress (1,func)(something) to // func(something) because that changes the meaning of // the func (becomes lexical instead of global). function maintain_this_binding(compressor, parent, orig, val) { var wrap = false; if (parent.TYPE == "Call") { wrap = parent.expression === orig && needs_unbinding(compressor, val); } else if (parent instanceof AST_UnaryPrefix) { wrap = parent.operator == "delete" || parent.operator == "typeof" && is_undeclared_ref(val); } return wrap ? make_sequence(orig, [ make_node(AST_Number, orig, { value: 0 }), val ]) : val; } function merge_sequence(array, node) { if (node instanceof AST_Sequence) { array.push.apply(array, node.expressions); } else { array.push(node); } return array; } function as_statement_array(thing) { if (thing === null) return []; if (thing instanceof AST_BlockStatement) return thing.body; if (thing instanceof AST_EmptyStatement) return []; if (thing instanceof AST_Statement) return [ thing ]; throw new Error("Can't convert thing to statement array"); } function is_empty(thing) { if (thing === null) return true; if (thing instanceof AST_EmptyStatement) return true; if (thing instanceof AST_BlockStatement) return thing.body.length == 0; return false; } function has_declarations_only(block) { return all(block.body, function(stat) { return is_empty(stat) || stat instanceof AST_Defun || stat instanceof AST_Var && all(stat.definitions, function(var_def) { return !var_def.value; }); }); } function loop_body(x) { if (x instanceof AST_IterationStatement) { return x.body instanceof AST_BlockStatement ? x.body : x; } return x; } function root_expr(prop) { while (prop instanceof AST_PropAccess) prop = prop.expression; return prop; } function is_iife_call(node) { if (node.TYPE != "Call") return false; return node.expression instanceof AST_Function || is_iife_call(node.expression); } function is_undeclared_ref(node) { return node instanceof AST_SymbolRef && node.definition().undeclared; } function get_rvalue(expr) { return expr[expr instanceof AST_Assign ? "right" : "value"]; } var global_names = makePredicate("Array Boolean clearInterval clearTimeout console Date decodeURI decodeURIComponent encodeURI encodeURIComponent Error escape eval EvalError Function isFinite isNaN JSON Math Number parseFloat parseInt RangeError ReferenceError RegExp Object setInterval setTimeout String SyntaxError TypeError unescape URIError"); AST_SymbolRef.DEFMETHOD("is_declared", function(compressor) { return this.defined || !this.definition().undeclared || compressor.option("unsafe") && global_names[this.name]; }); var identifier_atom = makePredicate("Infinity NaN undefined"); function is_identifier_atom(node) { return node instanceof AST_Infinity || node instanceof AST_NaN || node instanceof AST_Undefined; } function tighten_body(statements, compressor) { var in_loop, in_try, scope; find_loop_scope_try(); var CHANGED, max_iter = 10; do { CHANGED = false; eliminate_spurious_blocks(statements); if (compressor.option("dead_code")) { eliminate_dead_code(statements, compressor); } if (compressor.option("if_return")) { handle_if_return(statements, compressor); } if (compressor.sequences_limit > 0) { sequencesize(statements, compressor); sequencesize_2(statements, compressor); } if (compressor.option("join_vars")) { join_consecutive_vars(statements); } if (compressor.option("collapse_vars")) { collapse(statements, compressor); } } while (CHANGED && max_iter-- > 0); return statements; function find_loop_scope_try() { var node = compressor.self(), level = 0; do { if (node instanceof AST_Catch) { if (!compressor.parent(level).bfinally) level++; } else if (node instanceof AST_Finally) { level++; } else if (node instanceof AST_IterationStatement) { in_loop = true; } else if (node instanceof AST_Scope) { scope = node; break; } else if (node instanceof AST_Try) { if (!in_try) in_try = node; } } while (node = compressor.parent(level++)); } // Search from right to left for assignment-like expressions: // - `var a = x;` // - `a = x;` // - `++a` // For each candidate, scan from left to right for first usage, then try // to fold assignment into the site for compression. // Will not attempt to collapse assignments into or past code blocks // which are not sequentially executed, e.g. loops and conditionals. function collapse(statements, compressor) { if (scope.pinned()) return statements; var args; var assignments = Object.create(null); var candidates = []; var declare_only = Object.create(null); var force_single; var stat_index = statements.length; var scanner = new TreeTransformer(function(node, descend) { if (abort) return node; // Skip nodes before `candidate` as quickly as possible if (!hit) { if (node !== hit_stack[hit_index]) return node; hit_index++; if (hit_index < hit_stack.length) return handle_custom_scan_order(node, scanner); hit = true; stop_after = (value_def ? find_stop_value : find_stop)(node, 0); if (stop_after === node) abort = true; return node; } // Stop immediately if these node types are encountered var parent = scanner.parent(); if (should_stop(node, parent)) { abort = true; return node; } // Stop only if candidate is found within conditional branches if (!stop_if_hit && in_conditional(node, parent)) { stop_if_hit = parent; } // Skip transient nodes caused by single-use variable replacement if (node.single_use && parent instanceof AST_VarDef && parent.value === node) return node; // Replace variable with assignment when found var hit_rhs; if (!(node instanceof AST_SymbolDeclaration) && (scan_lhs && lhs.equivalent_to(node) || scan_rhs && (hit_rhs = scan_rhs(node, this)))) { if (!can_replace || stop_if_hit && (hit_rhs || !lhs_local || !replace_all)) { if (!hit_rhs || !value_def) abort = true; return node; } if (is_lhs(node, parent)) { if (value_def && !hit_rhs) { assign_used = true; replaced++; } return node; } else if (value_def) { if (!hit_rhs) replaced++; return node; } else { replaced++; } CHANGED = abort = true; AST_Node.info("Collapsing {name} [{file}:{line},{col}]", { name: node.print_to_string(), file: node.start.file, line: node.start.line, col: node.start.col }); if (candidate instanceof AST_UnaryPostfix) { if (lhs instanceof AST_SymbolRef) lhs.definition().fixed = false; return make_node(AST_UnaryPrefix, candidate, candidate); } if (candidate instanceof AST_VarDef) { var def = candidate.name.definition(); if (def.references.length - def.replaced == 1 && !compressor.exposed(def)) { def.replaced++; return maintain_this_binding(compressor, parent, node, candidate.value); } return make_node(AST_Assign, candidate, { operator: "=", left: make_node(AST_SymbolRef, candidate.name, candidate.name), right: candidate.value }); } candidate.write_only = false; return candidate; } // These node types have child nodes that execute sequentially, // but are otherwise not safe to scan into or beyond them. if (is_last_node(node, parent) || may_throw(node)) { stop_after = node; if (node instanceof AST_Scope) abort = true; } // Scan but don't replace inside getter/setter if (node instanceof AST_Accessor) { var replace = can_replace; can_replace = false; descend(node, scanner); can_replace = replace; return node; } return handle_custom_scan_order(node, scanner); }, function(node) { if (abort) return; if (stop_after === node) abort = true; if (stop_if_hit === node) stop_if_hit = null; }); var multi_replacer = new TreeTransformer(function(node) { if (abort) return node; // Skip nodes before `candidate` as quickly as possible if (!hit) { if (node !== hit_stack[hit_index]) return node; hit_index++; switch (hit_stack.length - hit_index) { case 0: hit = true; if (assign_used) return node; if (node instanceof AST_VarDef) return node; def.replaced++; var parent = multi_replacer.parent(); if (parent instanceof AST_Sequence && parent.tail_node() !== node) { value_def.replaced++; return List.skip; } return rvalue; case 1: if (!assign_used && node.body === candidate) { hit = true; def.replaced++; value_def.replaced++; return null; } default: return; } } // Replace variable when found if (node instanceof AST_SymbolRef && node.name == def.name) { if (!--replaced) abort = true; if (is_lhs(node, multi_replacer.parent())) return node; def.replaced++; value_def.replaced--; return rvalue.clone(); } // Skip (non-executed) functions and (leading) default case in switch statements if (node instanceof AST_Default || node instanceof AST_Scope) return node; }, patch_sequence); while (--stat_index >= 0) { // Treat parameters as collapsible in IIFE, i.e. // function(a, b){ ... }(x()); // would be translated into equivalent assignments: // var a = x(), b = undefined; if (stat_index == 0 && compressor.option("unused")) extract_args(); // Find collapsible assignments var hit_stack = []; extract_candidates(statements[stat_index]); while (candidates.length > 0) { hit_stack = candidates.pop(); var hit_index = 0; var candidate = hit_stack[hit_stack.length - 1]; var value_def = null; var stop_after = null; var stop_if_hit = null; var lhs = get_lhs(candidate); var side_effects = lhs && lhs.has_side_effects(compressor); var scan_lhs = lhs && !side_effects && !is_lhs_read_only(lhs, compressor); var scan_rhs = foldable(candidate); if (!scan_lhs && !scan_rhs) continue; var read_toplevel = false; var modify_toplevel = false; // Locate symbols which may execute code outside of scanning range var lvalues = get_lvalues(candidate); var lhs_local = is_lhs_local(lhs); var rvalue = get_rvalue(candidate); if (!side_effects) side_effects = value_has_side_effects(); var replace_all = replace_all_symbols(candidate); var may_throw = candidate.may_throw(compressor) ? in_try ? function(node) { return node.has_side_effects(compressor); } : side_effects_external : return_false; var funarg = candidate.name instanceof AST_SymbolFunarg; var hit = funarg; var abort = false; var replaced = 0; var assign_used = false; var can_replace = !args || !hit; if (!can_replace) { for (var j = compressor.self().argnames.lastIndexOf(candidate.name) + 1; !abort && j < args.length; j++) { args[j].transform(scanner); } can_replace = true; } for (var i = stat_index; !abort && i < statements.length; i++) { statements[i].transform(scanner); } if (value_def) { var def = lhs.definition(); var referenced = def.references.length - def.replaced; if (candidate instanceof AST_Assign) referenced--; if (replaced && referenced == replaced) { abort = false; } else { candidates.push(hit_stack); force_single = true; continue; } if (replaced) { hit_index = 0; hit = funarg; for (var i = stat_index; !abort && i < statements.length; i++) { if (!statements[i].transform(multi_replacer)) statements.splice(i--, 1); } if (candidate instanceof AST_VarDef) { replaced = !compressor.exposed(def) && def.references.length == def.replaced; } value_def.single_use = false; } } if (replaced && !remove_candidate(candidate)) statements.splice(stat_index, 1); } } function handle_custom_scan_order(node, tt) { // Skip (non-executed) functions if (node instanceof AST_Scope) return node; // Scan case expressions first in a switch statement if (node instanceof AST_Switch) { node.expression = node.expression.transform(tt); for (var i = 0; !abort && i < node.body.length; i++) { var branch = node.body[i]; if (branch instanceof AST_Case) { if (!hit) { if (branch !== hit_stack[hit_index]) continue; hit_index++; } branch.expression = branch.expression.transform(tt); if (!replace_all) break; scan_rhs = false; } } abort = true; return node; } } function should_stop(node, parent) { if (node === rvalue) return true; if (parent instanceof AST_For) return node !== parent.init; if (node instanceof AST_Assign) { return node.operator != "=" && lhs.equivalent_to(node.left); } if (node instanceof AST_Call) { if (!(lhs instanceof AST_PropAccess)) return false; if (!lhs.equivalent_to(node.expression)) return false; return !(rvalue instanceof AST_Function && !rvalue.contains_this()); } if (node instanceof AST_Debugger) return true; if (node instanceof AST_Defun) return funarg && lhs.name === node.name.name; if (node instanceof AST_IterationStatement) return !(node instanceof AST_For); if (node instanceof AST_LoopControl) return true; if (node instanceof AST_Try) return true; if (node instanceof AST_With) return true; if (replace_all) return false; return node instanceof AST_SymbolRef && !node.is_declared(compressor) && !(parent instanceof AST_Assign && parent.operator == "=" && parent.left === node); } function in_conditional(node, parent) { if (parent instanceof AST_Binary) return lazy_op[parent.operator] && parent.left !== node; if (parent instanceof AST_Case) return parent.expression !== node; if (parent instanceof AST_Conditional) return parent.condition !== node; return parent instanceof AST_If && parent.condition !== node; } function is_last_node(node, parent) { if (node.TYPE == "Binary") return node.operator == "in" && !is_object(node.right); if (node instanceof AST_Call) { var def, fn = node.expression; if (fn instanceof AST_SymbolRef) { def = fn.definition(); fn = fn.fixed_value(); } if (!(fn instanceof AST_Lambda)) return true; if (def && recursive_ref(compressor, def)) return true; if (fn.collapse_scanning) return false; fn.collapse_scanning = true; var replace = can_replace; can_replace = false; var after = stop_after; var if_hit = stop_if_hit; for (var i = 0; !abort && i < fn.body.length; i++) { var stat = fn.body[i]; if (stat instanceof AST_Return) { if (stat.value) stat.value.transform(scanner); break; } stat.transform(scanner); } stop_if_hit = if_hit; stop_after = after; can_replace = replace; delete fn.collapse_scanning; if (!abort) return false; abort = false; return true; } if (node instanceof AST_Exit) { if (in_try) { if (in_try.bfinally) return true; if (in_try.bcatch && node instanceof AST_Throw) return true; } return side_effects || lhs instanceof AST_PropAccess || may_modify(lhs); } if (node instanceof AST_Function) { return compressor.option("ie8") && node.name && lvalues.has(node.name.name); } if (node instanceof AST_PropAccess) { return side_effects || !value_def && node.expression.may_throw_on_access(compressor); } if (node instanceof AST_SymbolRef) { if (symbol_in_lvalues(node, parent)) { return !parent || parent.operator != "=" || parent.left !== node; } return side_effects && may_modify(node); } if (node instanceof AST_This) return symbol_in_lvalues(node, parent); if (node instanceof AST_VarDef) { if (!node.value) return false; return lvalues.has(node.name.name) || side_effects && may_modify(node.name); } var sym = is_lhs(node.left, node); if (sym instanceof AST_PropAccess) return true; if (!(sym instanceof AST_SymbolRef)) return false; return lvalues.has(sym.name) || read_toplevel && compressor.exposed(sym.definition()); } function extract_args() { var iife, fn = compressor.self(); if (fn instanceof AST_Function && !fn.name && !fn.uses_arguments && !fn.pinned() && (iife = compressor.parent()) instanceof AST_Call && iife.expression === fn) { var fn_strict = compressor.has_directive("use strict"); if (fn_strict && !member(fn_strict, fn.body)) fn_strict = false; var len = fn.argnames.length; args = iife.args.slice(len); var names = Object.create(null); for (var i = len; --i >= 0;) { var sym = fn.argnames[i]; var arg = iife.args[i]; args.unshift(make_node(AST_VarDef, sym, { name: sym, value: arg })); if (sym.name in names) continue; names[sym.name] = true; if (!arg) { arg = make_node(AST_Undefined, sym).transform(compressor); } else if (arg instanceof AST_Lambda && arg.pinned()) { arg = null; } else { arg.walk(new TreeWalker(function(node) { if (!arg) return true; if (node instanceof AST_SymbolRef && fn.variables.has(node.name)) { var s = node.definition().scope; if (s !== scope) while (s = s.parent_scope) { if (s === scope) return true; } arg = null; } if (node instanceof AST_This && (fn_strict || !this.find_parent(AST_Scope))) { arg = null; return true; } })); } if (arg) candidates.unshift([ make_node(AST_VarDef, sym, { name: sym, value: arg }) ]); } } } function extract_candidates(expr) { hit_stack.push(expr); if (expr instanceof AST_Array) { expr.elements.forEach(extract_candidates); } else if (expr instanceof AST_Assign) { candidates.push(hit_stack.slice()); extract_candidates(expr.left); extract_candidates(expr.right); if (expr.left instanceof AST_SymbolRef) { assignments[expr.left.name] = (assignments[expr.left.name] || 0) + 1; } } else if (expr instanceof AST_Binary) { extract_candidates(expr.left); extract_candidates(expr.right); } else if (expr instanceof AST_Call) { extract_candidates(expr.expression); expr.args.forEach(extract_candidates); } else if (expr instanceof AST_Case) { extract_candidates(expr.expression); } else if (expr instanceof AST_Conditional) { extract_candidates(expr.condition); extract_candidates(expr.consequent); extract_candidates(expr.alternative); } else if (expr instanceof AST_Definitions) { expr.definitions.forEach(extract_candidates); } else if (expr instanceof AST_Dot) { extract_candidates(expr.expression); } else if (expr instanceof AST_DWLoop) { extract_candidates(expr.condition); if (!(expr.body instanceof AST_Block)) { extract_candidates(expr.body); } } else if (expr instanceof AST_Exit) { if (expr.value) extract_candidates(expr.value); } else if (expr instanceof AST_For) { if (expr.init) extract_candidates(expr.init); if (expr.condition) extract_candidates(expr.condition); if (expr.step) extract_candidates(expr.step); if (!(expr.body instanceof AST_Block)) { extract_candidates(expr.body); } } else if (expr instanceof AST_ForIn) { extract_candidates(expr.object); if (!(expr.body instanceof AST_Block)) { extract_candidates(expr.body); } } else if (expr instanceof AST_If) { extract_candidates(expr.condition); if (!(expr.body instanceof AST_Block)) { extract_candidates(expr.body); } if (expr.alternative && !(expr.alternative instanceof AST_Block)) { extract_candidates(expr.alternative); } } else if (expr instanceof AST_Object) { expr.properties.forEach(function(prop) { if (prop instanceof AST_ObjectKeyVal) { hit_stack.push(prop); extract_candidates(prop.value); hit_stack.pop(); } }); } else if (expr instanceof AST_Sequence) { expr.expressions.forEach(extract_candidates); } else if (expr instanceof AST_SimpleStatement) { extract_candidates(expr.body); } else if (expr instanceof AST_Sub) { extract_candidates(expr.expression); extract_candidates(expr.property); } else if (expr instanceof AST_Switch) { extract_candidates(expr.expression); expr.body.forEach(extract_candidates); } else if (expr instanceof AST_Unary) { if (unary_arithmetic[expr.operator]) { candidates.push(hit_stack.slice()); } else { extract_candidates(expr.expression); } } else if (expr instanceof AST_VarDef) { if (expr.value) { var def = expr.name.definition(); if (def.references.length > def.replaced) { candidates.push(hit_stack.slice()); } extract_candidates(expr.value); } else { declare_only[expr.name.name] = (declare_only[expr.name.name] || 0) + 1; } } hit_stack.pop(); } function find_stop(node, level) { var parent = scanner.parent(level); if (parent instanceof AST_Array) return node; if (parent instanceof AST_Assign) return node; if (parent instanceof AST_Binary) return node; if (parent instanceof AST_Call) return node; if (parent instanceof AST_Case) return node; if (parent instanceof AST_Conditional) return node; if (parent instanceof AST_Definitions) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Exit) return node; if (parent instanceof AST_If) return node; if (parent instanceof AST_IterationStatement) return node; if (parent instanceof AST_ObjectKeyVal) return node; if (parent instanceof AST_PropAccess) return node; if (parent instanceof AST_Sequence) { return (parent.tail_node() === node ? find_stop : find_stop_unused)(parent, level + 1); } if (parent instanceof AST_SimpleStatement) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Switch) return node; if (parent instanceof AST_Unary) return node; if (parent instanceof AST_VarDef) return node; return null; } function find_stop_value(node, level) { var parent = scanner.parent(level); if (parent instanceof AST_Array) return find_stop_value(parent, level + 1); if (parent instanceof AST_Assign) { if (may_throw(parent)) return node; if (parent.left instanceof AST_SymbolRef) { var name = parent.left.name; if (lhs.name == name) return node; if (value_def.name == name) return node; } return find_stop_value(parent, level + 1); } if (parent instanceof AST_Binary) { if (lazy_op[parent.operator] && parent.left !== node) { do { node = parent; parent = scanner.parent(++level); } while (parent instanceof AST_Binary && parent.operator == node.operator); return node; } return find_stop_value(parent, level + 1); } if (parent instanceof AST_Call) return parent; if (parent instanceof AST_Case) { if (parent.expression !== node) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_Conditional) { if (parent.condition !== node) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_Definitions) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Do) return node; if (parent instanceof AST_Exit) return find_stop_unused(parent, level + 1); if (parent instanceof AST_For) { if (parent.init !== node && parent.condition !== node) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_ForIn) { if (parent.init !== node) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_If) { if (parent.condition !== node) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_ObjectKeyVal) { var obj = scanner.parent(level + 1); return all(obj.properties, function(prop) { return prop instanceof AST_ObjectKeyVal; }) ? find_stop_value(obj, level + 2) : obj; } if (parent instanceof AST_PropAccess) return find_stop_value(parent, level + 1); if (parent instanceof AST_Sequence) { return (parent.tail_node() === node ? find_stop_value : find_stop_unused)(parent, level + 1); } if (parent instanceof AST_SimpleStatement) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Switch) { if (parent.expression !== node) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_Unary) { if (parent.operator == "delete") return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_VarDef) { var name = parent.name.name; if (lhs.name == name) return node; if (value_def.name == name) return node; return find_stop_value(parent, level + 1); } if (parent instanceof AST_While) { if (parent.condition !== node) return node; return find_stop_value(parent, level + 1); } return null; } function find_stop_unused(node, level) { var parent = scanner.parent(level); if (is_last_node(node, parent)) return node; if (in_conditional(node, parent)) return node; if (parent instanceof AST_Array) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Assign) { return may_throw(parent) ? node : find_stop_unused(parent, level + 1); } if (parent instanceof AST_Binary) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Call) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Case) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Conditional) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Definitions) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Exit) return find_stop_unused(parent, level + 1); if (parent instanceof AST_If) return find_stop_unused(parent, level + 1); if (parent instanceof AST_IterationStatement) return node; if (parent instanceof AST_ObjectKeyVal) { var obj = scanner.parent(level + 1); return all(obj.properties, function(prop) { return prop instanceof AST_ObjectKeyVal; }) ? find_stop_unused(obj, level + 2) : obj; } if (parent instanceof AST_PropAccess) { var exp = parent.expression; if (exp === node) return find_stop_unused(parent, level + 1); var sym = root_expr(exp); if (!(sym instanceof AST_SymbolRef)) return find_stop_unused(parent, level + 1); var lvalue = lvalues.get(sym.name); return !lvalue || all(lvalue, function(lhs) { return !(lhs instanceof AST_PropAccess); }) ? find_stop_unused(parent, level + 1) : node; } if (parent instanceof AST_Sequence) return find_stop_unused(parent, level + 1); if (parent instanceof AST_SimpleStatement) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Switch) return find_stop_unused(parent, level + 1); if (parent instanceof AST_Unary) return find_stop_unused(parent, level + 1); if (parent instanceof AST_VarDef) { return may_throw(parent) ? node : find_stop_unused(parent, level + 1); } return null; } function mangleable_var(value) { if (force_single) { force_single = false; return; } if (!(value instanceof AST_SymbolRef)) return; var def = value.definition(); if (def.undeclared) return; if (is_arguments(def)) return; return value_def = def; } function get_lhs(expr) { if (expr instanceof AST_VarDef) { var def = expr.name.definition(); if (!member(expr.name, def.orig)) return; var declared = def.orig.length - def.eliminated - (declare_only[def.name] || 0); var referenced = def.references.length - def.replaced - (assignments[def.name] || 0); if (declared > 1 && !(expr.name instanceof AST_SymbolFunarg)) { mangleable_var(expr.value); return make_node(AST_SymbolRef, expr.name, expr.name); } if (mangleable_var(expr.value) || referenced == 1 && !compressor.exposed(def)) { return make_node(AST_SymbolRef, expr.name, expr.name); } } else if (expr instanceof AST_Assign) { var def, lhs = expr.left; if (expr.operator == "=" && lhs instanceof AST_SymbolRef && (def = lhs.definition()).references[0] === lhs && !compressor.exposed(def)) { var referenced = def.references.length - def.replaced; if (referenced > 1) mangleable_var(expr.right); } return lhs; } else { return expr.expression; } } function invariant(expr) { if (expr instanceof AST_Array) return false; if (expr instanceof AST_Binary && lazy_op[expr.operator]) { return invariant(expr.left) && invariant(expr.right); } if (expr instanceof AST_Call) return false; if (expr instanceof AST_Conditional) { return invariant(expr.consequent) && invariant(expr.alternative); } if (expr instanceof AST_Object) return false; return !expr.has_side_effects(compressor); } function foldable(expr) { var lhs_ids = Object.create(null); var marker = new TreeWalker(function(node) { if (node instanceof AST_SymbolRef) lhs_ids[node.definition().id] = true; }); while (expr instanceof AST_Assign && expr.operator == "=") { expr.left.walk(marker); expr = expr.right; } if (expr instanceof AST_SymbolRef) { var value = expr.evaluate(compressor); if (value === expr) return rhs_exact_match; return rhs_fuzzy_match(value, rhs_exact_match); } if (expr instanceof AST_This) return rhs_exact_match; if (expr.is_truthy()) return rhs_fuzzy_match(true, return_false); if (expr.is_constant()) { return rhs_fuzzy_match(expr.evaluate(compressor), rhs_exact_match); } if (!(lhs instanceof AST_SymbolRef)) return false; if (!invariant(expr)) return false; var circular; expr.walk(new TreeWalker(function(node) { if (circular) return true; if (node instanceof AST_SymbolRef && lhs_ids[node.definition().id]) circular = true; })); return !circular && rhs_exact_match; function rhs_exact_match(node) { return expr.equivalent_to(node); } } function rhs_fuzzy_match(value, fallback) { return function(node, tw) { if (tw.in_boolean_context()) { if (value && node.is_truthy() && !node.has_side_effects(compressor)) { return true; } if (node.is_constant()) { return !node.evaluate(compressor) == !value; } } return fallback(node); }; } function may_be_global(node) { if (node instanceof AST_SymbolRef) { node = node.fixed_value(); if (!node) return true; } if (node instanceof AST_Assign) return node.operator == "=" && may_be_global(node.right); return node instanceof AST_PropAccess || node instanceof AST_This; } function get_lvalues(expr) { var lvalues = new Dictionary(); if (expr instanceof AST_VarDef) lvalues.add(expr.name.name, lhs); var find_arguments = scope.uses_arguments && !compressor.has_directive("use strict"); var scan_toplevel = scope instanceof AST_Toplevel; var tw = new TreeWalker(function(node) { var value; if (node instanceof AST_SymbolRef) { value = node.fixed_value() || node; } else if (node instanceof AST_This) { value = node; } if (value) lvalues.add(node.name, is_modified(compressor, tw, node, value, 0)); if (find_arguments && node instanceof AST_Sub) { scope.argnames.forEach(function(argname) { if (!compressor.option("reduce_vars") || argname.definition().assignments) { lvalues.add(argname.name, true); } }); find_arguments = false; } if (!scan_toplevel) return; if (node.TYPE == "Call") { if (modify_toplevel) return; var exp = node.expression; if (exp instanceof AST_PropAccess) return; if (exp instanceof AST_Function && !exp.contains_this()) return; modify_toplevel = true; } else if (node instanceof AST_PropAccess && may_be_global(node.expression)) { if (node === lhs && !(expr instanceof AST_Unary)) { modify_toplevel = true; } else { read_toplevel = true; } } }); expr.walk(tw); return lvalues; } function remove_candidate(expr) { if (expr.name instanceof AST_SymbolFunarg) { var index = compressor.self().argnames.indexOf(expr.name); var args = compressor.parent().args; if (args[index]) { args[index] = make_node(AST_Number, args[index], { value: 0 }); expr.name.definition().fixed = false; } return true; } var end = hit_stack.length - 1; if (hit_stack[end - 1].body === hit_stack[end]) end--; var tt = new TreeTransformer(function(node, descend, in_list) { if (hit) return node; if (node !== hit_stack[hit_index]) return node; hit_index++; if (hit_index <= end) return handle_custom_scan_order(node, tt); hit = true; if (node instanceof AST_VarDef) { node.value = null; declare_only[node.name.name] = (declare_only[node.name.name] || 0) + 1; if (value_def) value_def.replaced++; return node; } return in_list ? List.skip : null; }, patch_sequence); abort = false; hit = false; hit_index = 0; return statements[stat_index].transform(tt); } function patch_sequence(node) { if (node instanceof AST_Sequence) switch (node.expressions.length) { case 0: return null; case 1: return node.expressions[0]; } } function is_lhs_local(lhs) { var sym = root_expr(lhs); return sym instanceof AST_SymbolRef && sym.definition().scope === scope && !(in_loop && (lvalues.has(sym.name) && lvalues.get(sym.name)[0] !== lhs || candidate instanceof AST_Unary || candidate instanceof AST_Assign && candidate.operator != "=")); } function value_has_side_effects() { if (candidate instanceof AST_Unary) return false; return rvalue.has_side_effects(compressor); } function replace_all_symbols(expr) { if (expr instanceof AST_Unary) return false; if (side_effects) return false; if (value_def) return true; if (!(lhs instanceof AST_SymbolRef)) return false; var referenced; if (expr instanceof AST_VarDef) { referenced = 1; } else if (expr.operator == "=") { referenced = 2; } else { return false; } var def = lhs.definition(); return def.references.length - def.replaced == referenced; } function symbol_in_lvalues(sym, parent) { var lvalue = lvalues.get(sym.name); if (!lvalue || all(lvalue, function(lhs) { return !lhs; })) return; if (lvalue[0] !== lhs) return true; scan_rhs = false; } function may_modify(sym) { var def = sym.definition(); if (def.orig.length == 1 && def.orig[0] instanceof AST_SymbolDefun) return false; if (def.scope !== scope) return true; if (modify_toplevel && compressor.exposed(def)) return true; return !all(def.references, function(ref) { return ref.scope.resolve() === scope; }); } function side_effects_external(node, lhs) { if (node instanceof AST_Assign) return side_effects_external(node.left, true); if (node instanceof AST_Unary) return side_effects_external(node.expression, true); if (node instanceof AST_VarDef) return node.value && side_effects_external(node.value); if (lhs) { if (node instanceof AST_Dot) return side_effects_external(node.expression, true); if (node instanceof AST_Sub) return side_effects_external(node.expression, true); if (node instanceof AST_SymbolRef) return node.definition().scope !== scope; } return false; } } function eliminate_spurious_blocks(statements) { var seen_dirs = []; for (var i = 0; i < statements.length;) { var stat = statements[i]; if (stat instanceof AST_BlockStatement) { CHANGED = true; eliminate_spurious_blocks(stat.body); [].splice.apply(statements, [i, 1].concat(stat.body)); i += stat.body.length; } else if (stat instanceof AST_EmptyStatement) { CHANGED = true; statements.splice(i, 1); } else if (stat instanceof AST_Directive) { if (!member(stat.value, seen_dirs)) { i++; seen_dirs.push(stat.value); } else { CHANGED = true; statements.splice(i, 1); } } else i++; } } function handle_if_return(statements, compressor) { var self = compressor.self(); var parent = compressor.parent(); var in_lambda = self instanceof AST_Lambda; var in_iife = in_lambda && parent && parent.TYPE == "Call"; var multiple_if_returns = has_multiple_if_returns(statements); for (var i = statements.length; --i >= 0;) { var stat = statements[i]; var j = next_index(i); var next = statements[j]; if (in_lambda && !next && stat instanceof AST_Return) { if (!stat.value) { CHANGED = true; statements.splice(i, 1); continue; } if (stat.value instanceof AST_UnaryPrefix && stat.value.operator == "void") { CHANGED = true; statements[i] = make_node(AST_SimpleStatement, stat, { body: stat.value.expression }); continue; } } if (stat instanceof AST_If) { var ab = aborts(stat.body); if (can_merge_flow(ab)) { if (ab.label) remove(ab.label.thedef.references, ab); CHANGED = true; stat = stat.clone(); stat.condition = stat.condition.negate(compressor); var body = as_statement_array_with_return(stat.body, ab); stat.body = make_node(AST_BlockStatement, stat, { body: as_statement_array(stat.alternative).concat(extract_functions()) }); stat.alternative = make_node(AST_BlockStatement, stat, { body: body }); statements[i] = stat; statements[i] = stat.transform(compressor); continue; } if (ab && !stat.alternative && stat.body instanceof AST_BlockStatement && next instanceof AST_Jump) { var negated = stat.condition.negate(compressor); if (negated.print_to_string().length <= stat.condition.print_to_string().length) { CHANGED = true; stat = stat.clone(); stat.condition = negated; statements[j] = stat.body; stat.body = next; statements[i] = stat; statements[i] = stat.transform(compressor); continue; } } var alt = aborts(stat.alternative); if (can_merge_flow(alt)) { if (alt.label) remove(alt.label.thedef.references, alt); CHANGED = true; stat = stat.clone(); stat.body = make_node(AST_BlockStatement, stat.body, { body: as_statement_array(stat.body).concat(extract_functions()) }); var body = as_statement_array_with_return(stat.alternative, alt); stat.alternative = make_node(AST_BlockStatement, stat.alternative, { body: body }); statements[i] = stat; statements[i] = stat.transform(compressor); continue; } if (compressor.option("typeofs")) { if (ab && !alt) { mark_locally_defined(stat.condition, null, make_node(AST_BlockStatement, self, { body: statements.slice(i + 1) })); } if (!ab && alt) { mark_locally_defined(stat.condition, make_node(AST_BlockStatement, self, { body: statements.slice(i + 1) })); } } } if (stat instanceof AST_If && stat.body instanceof AST_Return) { var value = stat.body.value; var in_bool = stat.body.in_bool || next instanceof AST_Return && next.in_bool; //--- // pretty silly case, but: // if (foo()) return; return; => foo(); return; if (!value && !stat.alternative && (in_lambda && !next || next instanceof AST_Return && !next.value)) { CHANGED = true; statements[i] = make_node(AST_SimpleStatement, stat.condition, { body: stat.condition }); continue; } //--- // if (foo()) return x; return y; => return foo() ? x : y; if ((in_bool || value) && !stat.alternative && next instanceof AST_Return) { CHANGED = true; stat = stat.clone(); stat.alternative = next; statements.splice(i, 1, stat.transform(compressor)); statements.splice(j, 1); continue; } //--- // if (foo()) return x; [ return ; ] => return foo() ? x : undefined; if (!stat.alternative && !next && in_lambda && (in_bool || value && multiple_if_returns)) { CHANGED = true; stat = stat.clone(); stat.alternative = make_node(AST_Return, stat, { value: null }); statements.splice(i, 1, stat.transform(compressor)); continue; } //--- // if (a) return b; if (c) return d; e; => return a ? b : c ? d : void e; // // if sequences is not enabled, this can lead to an endless loop (issue #866). // however, with sequences on this helps producing slightly better output for // the example code. var prev = statements[prev_index(i)]; if (compressor.option("sequences") && in_lambda && !stat.alternative && (!prev && in_iife || prev instanceof AST_If && prev.body instanceof AST_Return) && next_index(j) == statements.length && next instanceof AST_SimpleStatement) { CHANGED = true; stat = stat.clone(); stat.alternative = make_node(AST_BlockStatement, next, { body: [ next, make_node(AST_Return, next, { value: null }) ] }); statements.splice(i, 1, stat.transform(compressor)); statements.splice(j, 1); continue; } } } function has_multiple_if_returns(statements) { var n = 0; for (var i = statements.length; --i >= 0;) { var stat = statements[i]; if (stat instanceof AST_If && stat.body instanceof AST_Return) { if (++n > 1) return true; } } return false; } function is_return_void(value) { return !value || value instanceof AST_UnaryPrefix && value.operator == "void"; } function can_merge_flow(ab) { if (!ab) return false; var lct = ab instanceof AST_LoopControl ? compressor.loopcontrol_target(ab) : null; return ab instanceof AST_Return && in_lambda && is_return_void(ab.value) || ab instanceof AST_Continue && self === loop_body(lct) || ab instanceof AST_Break && lct instanceof AST_BlockStatement && self === lct; } function extract_functions() { var tail = statements.slice(i + 1); statements.length = i + 1; return tail.filter(function(stat) { if (stat instanceof AST_Defun) { statements.push(stat); return false; } return true; }); } function as_statement_array_with_return(node, ab) { var body = as_statement_array(node).slice(0, -1); if (ab.value) { body.push(make_node(AST_SimpleStatement, ab.value, { body: ab.value.expression })); } return body; } function next_index(i) { for (var j = i + 1; j < statements.length; j++) { var stat = statements[j]; if (!(stat instanceof AST_Var && declarations_only(stat))) { break; } } return j; } function prev_index(i) { for (var j = i; --j >= 0;) { var stat = statements[j]; if (!(stat instanceof AST_Var && declarations_only(stat))) { break; } } return j; } } function eliminate_dead_code(statements, compressor) { var has_quit; var self = compressor.self(); for (var i = 0, n = 0, len = statements.length; i < len; i++) { var stat = statements[i]; if (stat instanceof AST_LoopControl) { var lct = compressor.loopcontrol_target(stat); if (stat instanceof AST_Break && !(lct instanceof AST_IterationStatement) && loop_body(lct) === self || stat instanceof AST_Continue && loop_body(lct) === self) { if (stat.label) remove(stat.label.thedef.references, stat); } else { statements[n++] = stat; } } else { statements[n++] = stat; } if (aborts(stat)) { has_quit = statements.slice(i + 1); break; } } statements.length = n; CHANGED = n != len; if (has_quit) has_quit.forEach(function(stat) { extract_declarations_from_unreachable_code(stat, statements); }); } function declarations_only(node) { return all(node.definitions, function(var_def) { return !var_def.value; }); } function sequencesize(statements, compressor) { if (statements.length < 2) return; var seq = [], n = 0; function push_seq() { if (!seq.length) return; var body = make_sequence(seq[0], seq); statements[n++] = make_node(AST_SimpleStatement, body, { body: body }); seq = []; } for (var i = 0, len = statements.length; i < len; i++) { var stat = statements[i]; if (stat instanceof AST_SimpleStatement) { if (seq.length >= compressor.sequences_limit) push_seq(); var body = stat.body; if (seq.length > 0) body = body.drop_side_effect_free(compressor); if (body) merge_sequence(seq, body); } else if (stat instanceof AST_Definitions && declarations_only(stat) || stat instanceof AST_Defun) { statements[n++] = stat; } else { push_seq(); statements[n++] = stat; } } push_seq(); statements.length = n; if (n != len) CHANGED = true; } function to_simple_statement(block, decls) { if (!(block instanceof AST_BlockStatement)) return block; var stat = null; for (var i = 0; i < block.body.length; i++) { var line = block.body[i]; if (line instanceof AST_Var && declarations_only(line)) { decls.push(line); } else if (stat) { return false; } else { stat = line; } } return stat; } function sequencesize_2(statements, compressor) { function cons_seq(right) { n--; CHANGED = true; var left = prev.body; return make_sequence(left, [ left, right ]); } var n = 0, prev; for (var i = 0; i < statements.length; i++) { var stat = statements[i]; if (prev) { if (stat instanceof AST_Exit) { stat.value = cons_seq(stat.value || make_node(AST_Undefined, stat)).transform(compressor); } else if (stat instanceof AST_For) { if (!(stat.init instanceof AST_Definitions)) { var abort = false; prev.body.walk(new TreeWalker(function(node) { if (abort || node instanceof AST_Scope) return true; if (node instanceof AST_Binary && node.operator == "in") { abort = true; return true; } })); if (!abort) { if (stat.init) stat.init = cons_seq(stat.init); else { stat.init = prev.body; n--; CHANGED = true; } } } } else if (stat instanceof AST_ForIn) { stat.object = cons_seq(stat.object); } else if (stat instanceof AST_If) { stat.condition = cons_seq(stat.condition); } else if (stat instanceof AST_Switch) { stat.expression = cons_seq(stat.expression); } else if (stat instanceof AST_With) { stat.expression = cons_seq(stat.expression); } } if (compressor.option("conditionals") && stat instanceof AST_If) { var decls = []; var body = to_simple_statement(stat.body, decls); var alt = to_simple_statement(stat.alternative, decls); if (body !== false && alt !== false && decls.length > 0) { var len = decls.length; decls.push(make_node(AST_If, stat, { condition: stat.condition, body: body || make_node(AST_EmptyStatement, stat.body), alternative: alt })); decls.unshift(n, 1); [].splice.apply(statements, decls); i += len; n += len + 1; prev = null; CHANGED = true; continue; } } statements[n++] = stat; prev = stat instanceof AST_SimpleStatement ? stat : null; } statements.length = n; } function join_assigns(defn, body, keep) { var exprs; if (body instanceof AST_Assign) { exprs = [ body ]; } else if (body instanceof AST_Sequence) { exprs = body.expressions.slice(); } if (!exprs) return; var trimmed = false; for (var i = exprs.length - 1; --i >= 0;) { var expr = exprs[i]; if (!(expr instanceof AST_Assign)) continue; if (expr.operator != "=") continue; if (!(expr.left instanceof AST_SymbolRef)) continue; var tail = exprs.slice(i + 1); if (!trim_assigns(expr.left, expr.right, tail)) continue; trimmed = true; exprs = exprs.slice(0, i + 1).concat(tail); } if (defn instanceof AST_Definitions) { keep = keep || 0; for (var i = defn.definitions.length; --i >= 0;) { var def = defn.definitions[i]; if (!def.value) continue; if (trim_assigns(def.name, def.value, exprs)) trimmed = true; if (merge_conditional_assignments(def, exprs, keep)) trimmed = true; break; } if (join_var_assign(defn.definitions, exprs, keep)) trimmed = true; } return trimmed && exprs; } function merge_conditional_assignments(var_def, exprs, keep) { if (!compressor.option("conditionals")) return; var trimmed = false; var def = var_def.name.definition(); while (exprs.length > keep) { var cond = to_conditional_assignment(compressor, def, var_def.value, exprs[0]); if (!cond) break; var_def.value = cond; exprs.shift(); trimmed = true; } return trimmed; } function join_var_assign(definitions, exprs, keep) { var trimmed = false; while (exprs.length > keep) { var expr = exprs[0]; if (!(expr instanceof AST_Assign)) break; if (expr.operator != "=") break; var lhs = expr.left; if (!(lhs instanceof AST_SymbolRef)) break; if (is_undeclared_ref(lhs)) break; if (lhs.scope !== scope) break; var def = lhs.definition(); if (def.scope !== scope) break; if (def.orig.length > def.eliminated + 1) break; if (def.orig[0].TYPE != "SymbolVar") break; var name = make_node(AST_SymbolVar, lhs, lhs); definitions.push(make_node(AST_VarDef, expr, { name: name, value: expr.right })); def.orig.push(name); def.replaced++; exprs.shift(); trimmed = true; } return trimmed; } function trim_assigns(name, value, exprs) { if (!(value instanceof AST_Object)) return; var trimmed = false; do { var node = exprs[0]; if (!(node instanceof AST_Assign)) break; if (node.operator != "=") break; if (!(node.left instanceof AST_PropAccess)) break; var sym = node.left.expression; if (!(sym instanceof AST_SymbolRef)) break; if (name.name != sym.name) break; if (!node.right.is_constant_expression(scope)) break; var prop = node.left.property; if (prop instanceof AST_Node) { prop = prop.evaluate(compressor); } if (prop instanceof AST_Node) break; prop = "" + prop; var diff = prop == "__proto__" || compressor.has_directive("use strict") ? function(node) { return node.key != prop && node.key.name != prop; } : function(node) { return node.key.name != prop; }; if (!all(value.properties, diff)) break; value.properties.push(make_node(AST_ObjectKeyVal, node, { key: prop, value: node.right })); exprs.shift(); trimmed = true; } while (exprs.length); return trimmed; } function join_consecutive_vars(statements) { var defs; for (var i = 0, j = -1; i < statements.length; i++) { var stat = statements[i]; var prev = statements[j]; if (stat instanceof AST_Definitions) { if (prev && prev.TYPE == stat.TYPE) { prev.definitions = prev.definitions.concat(stat.definitions); CHANGED = true; } else if (defs && defs.TYPE == stat.TYPE && declarations_only(stat)) { defs.definitions = defs.definitions.concat(stat.definitions); CHANGED = true; } else { statements[++j] = stat; defs = stat; } continue; } else if (stat instanceof AST_Exit) { stat.value = join_assigns_expr(stat.value); } else if (stat instanceof AST_For) { var exprs = join_assigns(prev, stat.init); if (exprs) { CHANGED = true; stat.init = exprs.length ? make_sequence(stat.init, exprs) : null; } else if (prev instanceof AST_Var && (!stat.init || stat.init.TYPE == prev.TYPE)) { if (stat.init) { prev.definitions = prev.definitions.concat(stat.init.definitions); } defs = stat.init = prev; statements[j] = merge_defns(stat); CHANGED = true; continue; } else if (defs && stat.init && defs.TYPE == stat.init.TYPE && declarations_only(stat.init)) { defs.definitions = defs.definitions.concat(stat.init.definitions); stat.init = null; CHANGED = true; } else if (stat.init instanceof AST_Definitions) { defs = stat.init; } } else if (stat instanceof AST_ForIn) { if (defs && defs.TYPE == stat.init.TYPE) { defs.definitions = defs.definitions.concat(stat.init.definitions); var name = stat.init.definitions[0].name; var ref = make_node(AST_SymbolRef, name, name); name.definition().references.push(ref); stat.init = ref; CHANGED = true; } stat.object = join_assigns_expr(stat.object); } else if (stat instanceof AST_If) { stat.condition = join_assigns_expr(stat.condition); } else if (stat instanceof AST_SimpleStatement) { var exprs = join_assigns(prev, stat.body); if (exprs) { CHANGED = true; if (!exprs.length) continue; stat.body = make_sequence(stat.body, exprs); } } else if (stat instanceof AST_Switch) { stat.expression = join_assigns_expr(stat.expression); } else if (stat instanceof AST_With) { stat.expression = join_assigns_expr(stat.expression); } statements[++j] = defs ? merge_defns(stat) : stat; } statements.length = j + 1; function join_assigns_expr(value) { var exprs = join_assigns(prev, value, 1); if (!exprs) return value; CHANGED = true; var tail = value.tail_node(); if (exprs[exprs.length - 1] !== tail) exprs.push(tail.left); return make_sequence(value, exprs); } function merge_defns(stat) { return stat.transform(new TreeTransformer(function(node, descend, in_list) { if (node instanceof AST_Definitions) { if (defs === node) return node; if (defs.TYPE != node.TYPE) return node; var parent = this.parent(); if (parent instanceof AST_ForIn && parent.init === node) return node; if (!declarations_only(node)) return node; defs.definitions = defs.definitions.concat(node.definitions); CHANGED = true; if (parent instanceof AST_For && parent.init === node) return null; return in_list ? List.skip : make_node(AST_EmptyStatement, node); } if (node instanceof AST_Scope) return node; if (!(node instanceof AST_Statement)) return node; })); } } } function extract_declarations_from_unreachable_code(stat, target) { if (!(stat instanceof AST_Defun)) { AST_Node.warn("Dropping unreachable code [{file}:{line},{col}]", stat.start); } stat.walk(new TreeWalker(function(node) { if (node instanceof AST_Definitions) { AST_Node.warn("Declarations in unreachable code! [{file}:{line},{col}]", node.start); node.remove_initializers(); target.push(node); return true; } if (node instanceof AST_Defun) { target.push(node); return true; } if (node instanceof AST_Scope) { return true; } })); } function is_undefined(node, compressor) { return node.is_undefined || node instanceof AST_Undefined || node instanceof AST_UnaryPrefix && node.operator == "void" && !node.expression.has_side_effects(compressor); } // is_truthy() // return true if `!!node === true` (function(def) { def(AST_Node, return_false); def(AST_Array, return_true); def(AST_Assign, function() { return this.operator == "=" && this.right.is_truthy(); }); def(AST_Lambda, return_true); def(AST_Object, return_true); def(AST_RegExp, return_true); def(AST_Sequence, function() { return this.tail_node().is_truthy(); }); def(AST_SymbolRef, function() { var fixed = this.fixed_value(); if (!fixed) return false; this.is_truthy = return_false; var result = fixed.is_truthy(); delete this.is_truthy; return result; }); })(function(node, func) { node.DEFMETHOD("is_truthy", func); }); // is_negative_zero() // return true if the node may represent -0 (function(def) { def(AST_Node, return_true); def(AST_Array, return_false); function binary(op, left, right) { switch (op) { case "-": return left.is_negative_zero() && (!(right instanceof AST_Constant) || right.value == 0); case "&&": case "||": return left.is_negative_zero() || right.is_negative_zero(); case "*": case "/": case "%": return true; default: return false; } } def(AST_Assign, function() { var op = this.operator; if (op == "=") return this.right.is_negative_zero(); return binary(op.slice(0, -1), this.left, this.right); }); def(AST_Binary, function() { return binary(this.operator, this.left, this.right); }); def(AST_Constant, function() { return this.value == 0 && 1 / this.value < 0; }); def(AST_Lambda, return_false); def(AST_Object, return_false); def(AST_RegExp, return_false); def(AST_Sequence, function() { return this.tail_node().is_negative_zero(); }); def(AST_SymbolRef, function() { var fixed = this.fixed_value(); if (!fixed) return true; this.is_negative_zero = return_true; var result = fixed.is_negative_zero(); delete this.is_negative_zero; return result; }); def(AST_UnaryPrefix, function() { return this.operator == "+" && this.expression.is_negative_zero() || this.operator == "-"; }); })(function(node, func) { node.DEFMETHOD("is_negative_zero", func); }); // may_throw_on_access() // returns true if this node may be null, undefined or contain `AST_Accessor` (function(def) { AST_Node.DEFMETHOD("may_throw_on_access", function(compressor) { return !compressor.option("pure_getters") || this._dot_throw(compressor); }); function is_strict(compressor) { return /strict/.test(compressor.option("pure_getters")); } def(AST_Node, is_strict); def(AST_Array, return_false); def(AST_Assign, function(compressor) { if (this.operator != "=") return false; var rhs = this.right; if (!rhs._dot_throw(compressor)) return false; var sym = this.left; if (!(sym instanceof AST_SymbolRef)) return true; if (rhs instanceof AST_Binary && rhs.operator == "||" && sym.name == rhs.left.name) { return rhs.right._dot_throw(compressor); } return true; }); def(AST_Binary, function(compressor) { switch (this.operator) { case "&&": return this.left._dot_throw(compressor) || this.right._dot_throw(compressor); case "||": return this.right._dot_throw(compressor); default: return false; } }); def(AST_Conditional, function(compressor) { return this.consequent._dot_throw(compressor) || this.alternative._dot_throw(compressor); }); def(AST_Constant, return_false); def(AST_Dot, function(compressor) { if (!is_strict(compressor)) return false; var exp = this.expression; if (exp instanceof AST_SymbolRef) exp = exp.fixed_value(); return !(exp instanceof AST_Lambda && this.property == "prototype"); }); def(AST_Lambda, return_false); def(AST_Null, return_true); def(AST_Object, function(compressor) { if (!is_strict(compressor)) return false; for (var i = this.properties.length; --i >=0;) if (this.properties[i].value instanceof AST_Accessor) return true; return false; }); def(AST_Sequence, function(compressor) { return this.tail_node()._dot_throw(compressor); }); def(AST_SymbolRef, function(compressor) { if (this.is_undefined) return true; if (!is_strict(compressor)) return false; if (is_undeclared_ref(this) && this.is_declared(compressor)) return false; if (this.is_immutable()) return false; if (is_arguments(this.definition())) return false; var fixed = this.fixed_value(); if (!fixed) return true; this._dot_throw = return_true; var result = fixed._dot_throw(compressor); delete this._dot_throw; return result; }); def(AST_UnaryPrefix, function() { return this.operator == "void"; }); def(AST_UnaryPostfix, return_false); def(AST_Undefined, return_true); })(function(node, func) { node.DEFMETHOD("_dot_throw", func); }); (function(def) { def(AST_Node, return_false); def(AST_Array, return_true); def(AST_Assign, function(compressor) { return this.operator != "=" || this.right.is_defined(compressor); }); def(AST_Binary, function(compressor) { switch (this.operator) { case "&&": return this.left.is_defined(compressor) && this.right.is_defined(compressor); case "||": return this.left.is_truthy() || this.right.is_defined(compressor); default: return true; } }); def(AST_Conditional, function(compressor) { return this.consequent.is_defined(compressor) && this.alternative.is_defined(compressor); }); def(AST_Constant, return_true); def(AST_Lambda, return_true); def(AST_Object, return_true); def(AST_Sequence, function(compressor) { return this.tail_node().is_defined(compressor); }); def(AST_SymbolRef, function(compressor) { if (this.is_undefined) return false; if (is_undeclared_ref(this) && this.is_declared(compressor)) return true; if (this.is_immutable()) return true; var fixed = this.fixed_value(); if (!fixed) return false; this.is_defined = return_false; var result = fixed.is_defined(compressor); delete this.is_defined; return result; }); def(AST_UnaryPrefix, function() { return this.operator != "void"; }); def(AST_UnaryPostfix, return_true); def(AST_Undefined, return_false); })(function(node, func) { node.DEFMETHOD("is_defined", func); }); /* -----[ boolean/negation helpers ]----- */ // methods to determine whether an expression has a boolean result type (function(def) { def(AST_Node, return_false); def(AST_Assign, function(compressor) { return this.operator == "=" && this.right.is_boolean(compressor); }); var binary = makePredicate("in instanceof == != === !== < <= >= >"); def(AST_Binary, function(compressor) { return binary[this.operator] || lazy_op[this.operator] && this.left.is_boolean(compressor) && this.right.is_boolean(compressor); }); def(AST_Boolean, return_true); var fn = makePredicate("every hasOwnProperty isPrototypeOf propertyIsEnumerable some"); def(AST_Call, function(compressor) { if (!compressor.option("unsafe")) return false; var exp = this.expression; return exp instanceof AST_Dot && (fn[exp.property] || exp.property == "test" && exp.expression instanceof AST_RegExp); }); def(AST_Conditional, function(compressor) { return this.consequent.is_boolean(compressor) && this.alternative.is_boolean(compressor); }); def(AST_New, return_false); def(AST_Sequence, function(compressor) { return this.tail_node().is_boolean(compressor); }); def(AST_SymbolRef, function(compressor) { var fixed = this.fixed_value(); if (!fixed) return false; this.is_boolean = return_false; var result = fixed.is_boolean(compressor); delete this.is_boolean; return result; }); var unary = makePredicate("! delete"); def(AST_UnaryPrefix, function() { return unary[this.operator]; }); })(function(node, func) { node.DEFMETHOD("is_boolean", func); }); // methods to determine if an expression has a numeric result type (function(def) { def(AST_Node, return_false); var binary = makePredicate("- * / % & | ^ << >> >>>"); def(AST_Assign, function(compressor) { return binary[this.operator.slice(0, -1)] || this.operator == "=" && this.right.is_number(compressor); }); def(AST_Binary, function(compressor) { if (binary[this.operator]) return true; if (this.operator != "+") return false; return (this.left.is_boolean(compressor) || this.left.is_number(compressor)) && (this.right.is_boolean(compressor) || this.right.is_number(compressor)); }); var fn = makePredicate([ "charCodeAt", "getDate", "getDay", "getFullYear", "getHours", "getMilliseconds", "getMinutes", "getMonth", "getSeconds", "getTime", "getTimezoneOffset", "getUTCDate", "getUTCDay", "getUTCFullYear", "getUTCHours", "getUTCMilliseconds", "getUTCMinutes", "getUTCMonth", "getUTCSeconds", "getYear", "indexOf", "lastIndexOf", "localeCompare", "push", "search", "setDate", "setFullYear", "setHours", "setMilliseconds", "setMinutes", "setMonth", "setSeconds", "setTime", "setUTCDate", "setUTCFullYear", "setUTCHours", "setUTCMilliseconds", "setUTCMinutes", "setUTCMonth", "setUTCSeconds", "setYear", "toExponential", "toFixed", "toPrecision", ]); def(AST_Call, function(compressor) { if (!compressor.option("unsafe")) return false; var exp = this.expression; return exp instanceof AST_Dot && (fn[exp.property] || is_undeclared_ref(exp.expression) && exp.expression.name == "Math"); }); def(AST_Conditional, function(compressor) { return this.consequent.is_number(compressor) && this.alternative.is_number(compressor); }); def(AST_New, return_false); def(AST_Number, return_true); def(AST_Sequence, function(compressor) { return this.tail_node().is_number(compressor); }); def(AST_SymbolRef, function(compressor) { var fixed = this.fixed_value(); if (!fixed) return false; this.is_number = return_false; var result = fixed.is_number(compressor); delete this.is_number; return result; }); var unary = makePredicate("+ - ~ ++ --"); def(AST_Unary, function() { return unary[this.operator]; }); })(function(node, func) { node.DEFMETHOD("is_number", func); }); // methods to determine if an expression has a string result type (function(def) { def(AST_Node, return_false); def(AST_Assign, function(compressor) { return (this.operator == "=" || this.operator == "+=") && this.right.is_string(compressor); }); def(AST_Binary, function(compressor) { return this.operator == "+" && (this.left.is_string(compressor) || this.right.is_string(compressor)); }); var fn = makePredicate([ "charAt", "substr", "substring", "toLowerCase", "toString", "toUpperCase", "trim", ]); def(AST_Call, function(compressor) { if (!compressor.option("unsafe")) return false; var exp = this.expression; return exp instanceof AST_Dot && fn[exp.property]; }); def(AST_Conditional, function(compressor) { return this.consequent.is_string(compressor) && this.alternative.is_string(compressor); }); def(AST_Sequence, function(compressor) { return this.tail_node().is_string(compressor); }); def(AST_String, return_true); def(AST_SymbolRef, function(compressor) { var fixed = this.fixed_value(); if (!fixed) return false; this.is_string = return_false; var result = fixed.is_string(compressor); delete this.is_string; return result; }); def(AST_UnaryPrefix, function() { return this.operator == "typeof"; }); })(function(node, func) { node.DEFMETHOD("is_string", func); }); var lazy_op = makePredicate("&& ||"); var unary_arithmetic = makePredicate("++ --"); var unary_side_effects = makePredicate("delete ++ --"); function is_lhs(node, parent) { if (parent instanceof AST_Unary && unary_side_effects[parent.operator]) return parent.expression; if (parent instanceof AST_Assign && parent.left === node) return node; } (function(def) { function to_node(value, orig) { if (value instanceof AST_Node) return value.clone(true); if (Array.isArray(value)) return make_node(AST_Array, orig, { elements: value.map(function(value) { return to_node(value, orig); }) }); if (value && typeof value == "object") { var props = []; for (var key in value) if (HOP(value, key)) { props.push(make_node(AST_ObjectKeyVal, orig, { key: key, value: to_node(value[key], orig) })); } return make_node(AST_Object, orig, { properties: props }); } return make_node_from_constant(value, orig); } function warn(node) { AST_Node.warn("global_defs " + node.print_to_string() + " redefined [{file}:{line},{col}]", node.start); } AST_Toplevel.DEFMETHOD("resolve_defines", function(compressor) { if (!compressor.option("global_defs")) return this; this.figure_out_scope({ ie8: compressor.option("ie8") }); return this.transform(new TreeTransformer(function(node) { var def = node._find_defs(compressor, ""); if (!def) return; var level = 0, child = node, parent; while (parent = this.parent(level++)) { if (!(parent instanceof AST_PropAccess)) break; if (parent.expression !== child) break; child = parent; } if (is_lhs(child, parent)) { warn(node); return; } return def; })); }); def(AST_Node, noop); def(AST_Dot, function(compressor, suffix) { return this.expression._find_defs(compressor, "." + this.property + suffix); }); def(AST_SymbolDeclaration, function(compressor) { if (!this.definition().global) return; if (HOP(compressor.option("global_defs"), this.name)) warn(this); }); def(AST_SymbolRef, function(compressor, suffix) { if (!this.definition().global) return; var defines = compressor.option("global_defs"); var name = this.name + suffix; if (HOP(defines, name)) return to_node(defines[name], this); }); })(function(node, func) { node.DEFMETHOD("_find_defs", func); }); function best_of_expression(ast1, ast2, threshold) { var delta = ast2.print_to_string().length - ast1.print_to_string().length; return delta < (threshold || 0) ? ast2 : ast1; } function best_of_statement(ast1, ast2, threshold) { return best_of_expression(make_node(AST_SimpleStatement, ast1, { body: ast1 }), make_node(AST_SimpleStatement, ast2, { body: ast2 }), threshold).body; } function best_of(compressor, ast1, ast2, threshold) { return (first_in_statement(compressor) ? best_of_statement : best_of_expression)(ast1, ast2, threshold); } function convert_to_predicate(obj) { var map = Object.create(null); Object.keys(obj).forEach(function(key) { map[key] = makePredicate(obj[key]); }); return map; } AST_Lambda.DEFMETHOD("first_statement", function() { var body = this.body; for (var i = 0; i < body.length; i++) { var stat = body[i]; if (!(stat instanceof AST_Directive)) return stat; } }); function try_evaluate(compressor, node) { var ev = node.evaluate(compressor); if (ev === node) return node; ev = make_node_from_constant(ev, node).optimize(compressor); return best_of(compressor, node, ev, compressor.eval_threshold); } var object_fns = [ "constructor", "toString", "valueOf", ]; var native_fns = convert_to_predicate({ Array: [ "indexOf", "join", "lastIndexOf", "slice", ].concat(object_fns), Boolean: object_fns, Function: object_fns, Number: [ "toExponential", "toFixed", "toPrecision", ].concat(object_fns), Object: object_fns, RegExp: [ "exec", "test", ].concat(object_fns), String: [ "charAt", "charCodeAt", "concat", "indexOf", "italics", "lastIndexOf", "match", "replace", "search", "slice", "split", "substr", "substring", "toLowerCase", "toUpperCase", "trim", ].concat(object_fns), }); var static_fns = convert_to_predicate({ Array: [ "isArray", ], Math: [ "abs", "acos", "asin", "atan", "ceil", "cos", "exp", "floor", "log", "round", "sin", "sqrt", "tan", "atan2", "pow", "max", "min", ], Number: [ "isFinite", "isNaN", ], Object: [ "create", "getOwnPropertyDescriptor", "getOwnPropertyNames", "getPrototypeOf", "isExtensible", "isFrozen", "isSealed", "keys", ], String: [ "fromCharCode", ], }); // methods to evaluate a constant expression (function(def) { // If the node has been successfully reduced to a constant, // then its value is returned; otherwise the element itself // is returned. // // They can be distinguished as constant value is never a // descendant of AST_Node. // // When `ignore_side_effects` is `true`, inspect the constant value // produced without worrying about any side effects caused by said // expression. AST_Node.DEFMETHOD("evaluate", function(compressor, ignore_side_effects) { if (!compressor.option("evaluate")) return this; var cached = []; var val = this._eval(compressor, ignore_side_effects, cached, 1); cached.forEach(function(node) { delete node._eval; }); if (ignore_side_effects) return val; if (!val || val instanceof RegExp) return val; if (typeof val == "function" || typeof val == "object") return this; return val; }); var unaryPrefix = makePredicate("! ~ - + void"); AST_Node.DEFMETHOD("is_constant", function() { // Accomodate when compress option evaluate=false // as well as the common constant expressions !0 and -1 if (this instanceof AST_Constant) { return !(this instanceof AST_RegExp); } else { return this instanceof AST_UnaryPrefix && this.expression instanceof AST_Constant && unaryPrefix[this.operator]; } }); var scan_modified = new TreeWalker(function(node) { if (node instanceof AST_Assign) modified(node.left); if (node instanceof AST_Unary && unary_arithmetic[node.operator]) modified(node.expression); }); function modified(node) { if (node instanceof AST_PropAccess) { modified(node.expression); } else if (node instanceof AST_SymbolRef) { node.definition().references.forEach(function(ref) { delete ref._eval; }); } } def(AST_Statement, function() { throw new Error(string_template("Cannot evaluate a statement [{file}:{line},{col}]", this.start)); }); def(AST_Accessor, return_this); def(AST_Node, return_this); def(AST_Constant, function() { return this.value; }); def(AST_Assign, function(compressor, ignore_side_effects, cached, depth) { var lhs = this.left; if (!ignore_side_effects) { if (!(lhs instanceof AST_SymbolRef)) return this; if (!HOP(lhs, "_eval")) { if (!lhs.fixed) return this; var def = lhs.definition(); if (!def.fixed) return this; if (def.undeclared) return this; if (def.last_ref !== lhs) return this; if (def.single_use == "m") return this; } } var op = this.operator; var node; if (!HOP(lhs, "_eval") && lhs instanceof AST_SymbolRef && lhs.fixed && lhs.definition().fixed) { node = lhs; } else if (op == "=") { lhs.walk(scan_modified); node = this.right; } else { node = make_node(AST_Binary, this, { operator: op.slice(0, -1), left: lhs, right: this.right, }); } var value = node._eval(compressor, ignore_side_effects, cached, depth); if (value === node) return this; modified(lhs); return value; }); def(AST_Sequence, function(compressor, ignore_side_effects, cached, depth) { if (!ignore_side_effects) return this; var exprs = this.expressions; for (var i = 0, last = exprs.length - 1; i < last; i++) { exprs[i].walk(scan_modified); } var tail = exprs[last]; var value = tail._eval(compressor, ignore_side_effects, cached, depth); return value === tail ? this : value; }); def(AST_Lambda, function(compressor) { if (compressor.option("unsafe")) { var fn = function() {}; fn.node = this; fn.toString = function() { return "function(){}"; }; return fn; } return this; }); def(AST_Array, function(compressor, ignore_side_effects, cached, depth) { if (compressor.option("unsafe")) { var elements = []; for (var i = 0; i < this.elements.length; i++) { var element = this.elements[i]; if (element instanceof AST_Hole) return this; var value = element._eval(compressor, ignore_side_effects, cached, depth); if (element === value) return this; elements.push(value); } return elements; } return this; }); def(AST_Object, function(compressor, ignore_side_effects, cached, depth) { if (compressor.option("unsafe")) { var val = {}; for (var i = 0; i < this.properties.length; i++) { var prop = this.properties[i]; var key = prop.key; if (key instanceof AST_Symbol) key = key.name; if (prop.value instanceof AST_Function) { if (typeof Object.prototype[key] == "function") return this; continue; } val[key] = prop.value._eval(compressor, ignore_side_effects, cached, depth); if (val[key] === prop.value) return this; } return val; } return this; }); var non_converting_unary = makePredicate("! typeof void"); def(AST_UnaryPrefix, function(compressor, ignore_side_effects, cached, depth) { var e = this.expression; var op = this.operator; // Function would be evaluated to an array and so typeof would // incorrectly return "object". Hence making is a special case. if (compressor.option("typeofs") && op == "typeof" && (e instanceof AST_Lambda || e instanceof AST_SymbolRef && e.fixed_value() instanceof AST_Lambda)) { return typeof function(){}; } var def = e instanceof AST_SymbolRef && e.definition(); if (!non_converting_unary[op] && !(def && def.fixed)) depth++; var v = e._eval(compressor, ignore_side_effects, cached, depth); if (v === e) { if (ignore_side_effects && op == "void") return; return this; } switch (op) { case "!": return !v; case "typeof": // typeof returns "object" or "function" on different platforms // so cannot evaluate reliably if (v instanceof RegExp) return this; return typeof v; case "void": return; case "~": return ~v; case "-": return -v; case "+": return +v; case "++": case "--": if (!def) return this; if (!ignore_side_effects) { if (def.undeclared) return this; if (def.last_ref !== e) return this; } if (HOP(e, "_eval")) v = +(op[0] + 1) + +v; modified(e); return v; } return this; }); def(AST_UnaryPostfix, function(compressor, ignore_side_effects, cached, depth) { var e = this.expression; if (!(e instanceof AST_SymbolRef)) { if (!ignore_side_effects) return this; } else if (!HOP(e, "_eval")) { if (!e.fixed) return this; if (!ignore_side_effects) { var def = e.definition(); if (!def.fixed) return this; if (def.undeclared) return this; if (def.last_ref !== e) return this; } } if (!(e instanceof AST_SymbolRef && e.definition().fixed)) depth++; var v = e._eval(compressor, ignore_side_effects, cached, depth); if (v === e) return this; modified(e); return +v; }); var non_converting_binary = makePredicate("&& || === !=="); def(AST_Binary, function(compressor, ignore_side_effects, cached, depth) { if (!non_converting_binary[this.operator]) depth++; var left = this.left._eval(compressor, ignore_side_effects, cached, depth); if (left === this.left) return this; if (this.operator == (left ? "||" : "&&")) return left; var rhs_ignore_side_effects = ignore_side_effects && !(left && typeof left == "object"); var right = this.right._eval(compressor, rhs_ignore_side_effects, cached, depth); if (right === this.right) return this; var result; switch (this.operator) { case "&&" : result = left && right; break; case "||" : result = left || right; break; case "|" : result = left | right; break; case "&" : result = left & right; break; case "^" : result = left ^ right; break; case "+" : result = left + right; break; case "-" : result = left - right; break; case "*" : result = left * right; break; case "/" : result = left / right; break; case "%" : result = left % right; break; case "<<" : result = left << right; break; case ">>" : result = left >> right; break; case ">>>": result = left >>> right; break; case "==" : result = left == right; break; case "===": result = left === right; break; case "!=" : result = left != right; break; case "!==": result = left !== right; break; case "<" : result = left < right; break; case "<=" : result = left <= right; break; case ">" : result = left > right; break; case ">=" : result = left >= right; break; case "in": if (right && typeof right == "object" && HOP(right, left)) { result = true; break; } default: return this; } if (isNaN(result)) return compressor.find_parent(AST_With) ? this : result; if (compressor.option("unsafe_math") && !ignore_side_effects && result && typeof result == "number" && (this.operator == "+" || this.operator == "-")) { var digits = Math.max(0, decimals(left), decimals(right)); // 53-bit significand => 15.95 decimal places if (digits < 16) return +result.toFixed(digits); } return result; function decimals(operand) { var match = /(\.[0-9]*)?(e.+)?$/.exec(+operand); return (match[1] || ".").length - 1 - (match[2] || "").slice(1); } }); def(AST_Conditional, function(compressor, ignore_side_effects, cached, depth) { var condition = this.condition._eval(compressor, ignore_side_effects, cached, depth); if (condition === this.condition) return this; var node = condition ? this.consequent : this.alternative; var value = node._eval(compressor, ignore_side_effects, cached, depth); return value === node ? this : value; }); function verify_escaped(ref, depth) { var escaped = ref.definition().escaped; switch (escaped.length) { case 0: return true; case 1: var found = false; escaped[0].walk(new TreeWalker(function(node) { if (found) return true; if (node === ref) return found = true; if (node instanceof AST_Scope) return true; })); return found; default: return depth <= escaped.depth; } } def(AST_SymbolRef, function(compressor, ignore_side_effects, cached, depth) { var fixed = this.fixed_value(); if (!fixed) return this; var value; if (HOP(fixed, "_eval")) { value = fixed._eval(); } else { this._eval = return_this; value = fixed._eval(compressor, ignore_side_effects, cached, depth); delete this._eval; if (value === fixed) return this; fixed._eval = function() { return value; }; cached.push(fixed); } return value && typeof value == "object" && !verify_escaped(this, depth) ? this : value; }); var global_objs = { Array: Array, Math: Math, Number: Number, Object: Object, String: String, }; var static_values = convert_to_predicate({ Math: [ "E", "LN10", "LN2", "LOG2E", "LOG10E", "PI", "SQRT1_2", "SQRT2", ], Number: [ "MAX_VALUE", "MIN_VALUE", "NaN", "NEGATIVE_INFINITY", "POSITIVE_INFINITY", ], }); var regexp_props = makePredicate("global ignoreCase multiline source"); def(AST_PropAccess, function(compressor, ignore_side_effects, cached, depth) { if (compressor.option("unsafe")) { var val; var exp = this.expression; if (!is_undeclared_ref(exp)) { val = exp._eval(compressor, ignore_side_effects, cached, depth + 1); if (val == null || val === exp) return this; } var key = this.property; if (key instanceof AST_Node) { key = key._eval(compressor, ignore_side_effects, cached, depth); if (key === this.property) return this; } if (val === undefined) { var static_value = static_values[exp.name]; if (!static_value || !static_value[key]) return this; val = global_objs[exp.name]; } else if (val instanceof RegExp) { if (!regexp_props[key]) return this; } else if (typeof val == "object") { if (!HOP(val, key)) return this; } else if (typeof val == "function") switch (key) { case "name": return val.node.name ? val.node.name.name : ""; case "length": return val.node.argnames.length; default: return this; } return val[key]; } return this; }); def(AST_Call, function(compressor, ignore_side_effects, cached, depth) { var exp = this.expression; var fn = exp instanceof AST_SymbolRef ? exp.fixed_value() : exp; if (fn instanceof AST_Lambda) { if (fn.evaluating) return this; if (fn.name && fn.name.definition().recursive_refs > 0) return this; if (this.is_expr_pure(compressor)) return this; var stat = fn.first_statement(); if (!(stat instanceof AST_Return)) { if (ignore_side_effects) { var found = false; fn.walk(new TreeWalker(function(node) { if (found) return true; if (node instanceof AST_Return) { if (node.value && node.value.evaluate(compressor, true) !== undefined) found = true; return true; } if (node instanceof AST_Scope && node !== fn) return true; })); if (!found) return; } return this; } var args = eval_args(this.args); if (!args && !ignore_side_effects) return this; var val = stat.value; if (!val) return; var cached_args = []; if (!args || all(fn.argnames, function(sym, i) { var value = args[i]; var def = sym.definition(); if (def.orig[def.orig.length - 1] !== sym) return false; def.references.forEach(function(node) { node._eval = function() { return value; }; cached_args.push(node); }); return true; }) || ignore_side_effects) { fn.evaluating = true; val = val._eval(compressor, ignore_side_effects, cached, depth); delete fn.evaluating; } cached_args.forEach(function(node) { delete node._eval; }); return val === stat.value ? this : val; } else if (compressor.option("unsafe") && exp instanceof AST_PropAccess) { var key = exp.property; if (key instanceof AST_Node) { key = key._eval(compressor, ignore_side_effects, cached, depth); if (key === exp.property) return this; } var val; var e = exp.expression; if (is_undeclared_ref(e)) { var static_fn = static_fns[e.name]; if (!static_fn || !static_fn[key]) return this; val = global_objs[e.name]; } else { val = e._eval(compressor, ignore_side_effects, cached, depth + 1); if (val == null || val === e) return this; var native_fn = native_fns[val.constructor.name]; if (!native_fn || !native_fn[key]) return this; if (val instanceof RegExp && val.global && !(e instanceof AST_RegExp)) return this; } var args = eval_args(this.args); if (!args) return this; if (key == "replace" && typeof args[1] == "function") return this; try { return val[key].apply(val, args); } catch (ex) { AST_Node.warn("Error evaluating {code} [{file}:{line},{col}]", { code: this.print_to_string(), file: this.start.file, line: this.start.line, col: this.start.col }); } finally { if (val instanceof RegExp) val.lastIndex = 0; } } return this; function eval_args(args) { var values = []; for (var i = 0; i < args.length; i++) { var arg = args[i]; var value = arg._eval(compressor, ignore_side_effects, cached, depth); if (arg === value) return; values.push(value); } return values; } }); def(AST_New, return_this); })(function(node, func) { node.DEFMETHOD("_eval", func); }); // method to negate an expression (function(def) { function basic_negation(exp) { return make_node(AST_UnaryPrefix, exp, { operator: "!", expression: exp }); } function best(orig, alt, first_in_statement) { var negated = basic_negation(orig); if (first_in_statement) { var stat = make_node(AST_SimpleStatement, alt, { body: alt }); return best_of_expression(negated, stat) === stat ? alt : negated; } return best_of_expression(negated, alt); } def(AST_Node, function() { return basic_negation(this); }); def(AST_Statement, function() { throw new Error("Cannot negate a statement"); }); def(AST_Function, function() { return basic_negation(this); }); def(AST_UnaryPrefix, function() { if (this.operator == "!") return this.expression; return basic_negation(this); }); def(AST_Sequence, function(compressor) { var expressions = this.expressions.slice(); expressions.push(expressions.pop().negate(compressor)); return make_sequence(this, expressions); }); def(AST_Conditional, function(compressor, first_in_statement) { var self = this.clone(); self.consequent = self.consequent.negate(compressor); self.alternative = self.alternative.negate(compressor); return best(this, self, first_in_statement); }); def(AST_Binary, function(compressor, first_in_statement) { var self = this.clone(), op = this.operator; if (compressor.option("unsafe_comps")) { switch (op) { case "<=" : self.operator = ">" ; return self; case "<" : self.operator = ">=" ; return self; case ">=" : self.operator = "<" ; return self; case ">" : self.operator = "<=" ; return self; } } switch (op) { case "==" : self.operator = "!="; return self; case "!=" : self.operator = "=="; return self; case "===": self.operator = "!=="; return self; case "!==": self.operator = "==="; return self; case "&&": self.operator = "||"; self.left = self.left.negate(compressor, first_in_statement); self.right = self.right.negate(compressor); return best(this, self, first_in_statement); case "||": self.operator = "&&"; self.left = self.left.negate(compressor, first_in_statement); self.right = self.right.negate(compressor); return best(this, self, first_in_statement); } return basic_negation(this); }); })(function(node, func) { node.DEFMETHOD("negate", function(compressor, first_in_statement) { return func.call(this, compressor, first_in_statement); }); }); var global_pure_fns = makePredicate("Boolean decodeURI decodeURIComponent Date encodeURI encodeURIComponent Error escape EvalError isFinite isNaN Number Object parseFloat parseInt RangeError ReferenceError String SyntaxError TypeError unescape URIError"); AST_Call.DEFMETHOD("is_expr_pure", function(compressor) { if (compressor.option("unsafe")) { var expr = this.expression; if (is_undeclared_ref(expr) && global_pure_fns[expr.name]) return true; if (expr instanceof AST_Dot && is_undeclared_ref(expr.expression)) { var static_fn = static_fns[expr.expression.name]; return static_fn && static_fn[expr.property]; } } return this.pure || !compressor.pure_funcs(this); }); AST_Node.DEFMETHOD("is_call_pure", return_false); AST_Call.DEFMETHOD("is_call_pure", function(compressor) { if (!compressor.option("unsafe")) return false; var dot = this.expression; if (!(dot instanceof AST_Dot)) return false; var exp = dot.expression; var map; var prop = dot.property; if (exp instanceof AST_Array) { map = native_fns.Array; } else if (exp.is_boolean(compressor)) { map = native_fns.Boolean; } else if (exp.is_number(compressor)) { map = native_fns.Number; } else if (exp instanceof AST_RegExp) { map = native_fns.RegExp; } else if (exp.is_string(compressor)) { map = native_fns.String; if (prop == "replace") { var arg = this.args[1]; if (arg && !arg.is_string(compressor)) return false; } } else if (!dot.may_throw_on_access(compressor)) { map = native_fns.Object; } return map && map[prop]; }); // determine if expression has side effects (function(def) { function any(list, compressor) { for (var i = list.length; --i >= 0;) if (list[i].has_side_effects(compressor)) return true; return false; } def(AST_Node, return_true); def(AST_Array, function(compressor) { return any(this.elements, compressor); }); def(AST_Assign, return_true); def(AST_Binary, function(compressor) { return this.left.has_side_effects(compressor) || this.right.has_side_effects(compressor) || this.operator == "in" && !is_object(this.right); }); def(AST_Block, function(compressor) { return any(this.body, compressor); }); def(AST_Call, function(compressor) { if (!this.is_expr_pure(compressor) && (!this.is_call_pure(compressor) || this.expression.has_side_effects(compressor))) { return true; } return any(this.args, compressor); }); def(AST_Case, function(compressor) { return this.expression.has_side_effects(compressor) || any(this.body, compressor); }); def(AST_Conditional, function(compressor) { return this.condition.has_side_effects(compressor) || this.consequent.has_side_effects(compressor) || this.alternative.has_side_effects(compressor); }); def(AST_Constant, return_false); def(AST_Definitions, function(compressor) { return any(this.definitions, compressor); }); def(AST_Dot, function(compressor) { return this.expression.may_throw_on_access(compressor) || this.expression.has_side_effects(compressor); }); def(AST_EmptyStatement, return_false); def(AST_If, function(compressor) { return this.condition.has_side_effects(compressor) || this.body && this.body.has_side_effects(compressor) || this.alternative && this.alternative.has_side_effects(compressor); }); def(AST_LabeledStatement, function(compressor) { return this.body.has_side_effects(compressor); }); def(AST_Lambda, return_false); def(AST_Object, function(compressor) { return any(this.properties, compressor); }); def(AST_ObjectProperty, function(compressor) { return this.value.has_side_effects(compressor); }); def(AST_Sub, function(compressor) { return this.expression.may_throw_on_access(compressor) || this.expression.has_side_effects(compressor) || this.property.has_side_effects(compressor); }); def(AST_Sequence, function(compressor) { return any(this.expressions, compressor); }); def(AST_SimpleStatement, function(compressor) { return this.body.has_side_effects(compressor); }); def(AST_Switch, function(compressor) { return this.expression.has_side_effects(compressor) || any(this.body, compressor); }); def(AST_SymbolDeclaration, return_false); def(AST_SymbolRef, function(compressor) { return !this.is_declared(compressor); }); def(AST_This, return_false); def(AST_Try, function(compressor) { return any(this.body, compressor) || this.bcatch && this.bcatch.has_side_effects(compressor) || this.bfinally && this.bfinally.has_side_effects(compressor); }); def(AST_Unary, function(compressor) { return unary_side_effects[this.operator] || this.expression.has_side_effects(compressor); }); def(AST_VarDef, function(compressor) { return this.value; }); })(function(node, func) { node.DEFMETHOD("has_side_effects", func); }); // determine if expression may throw (function(def) { def(AST_Node, return_true); def(AST_Constant, return_false); def(AST_EmptyStatement, return_false); def(AST_Lambda, return_false); def(AST_SymbolDeclaration, return_false); def(AST_This, return_false); function any(list, compressor) { for (var i = list.length; --i >= 0;) if (list[i].may_throw(compressor)) return true; return false; } def(AST_Array, function(compressor) { return any(this.elements, compressor); }); def(AST_Assign, function(compressor) { if (this.right.may_throw(compressor)) return true; if (!compressor.has_directive("use strict") && this.operator == "=" && this.left instanceof AST_SymbolRef) { return false; } return this.left.may_throw(compressor); }); def(AST_Binary, function(compressor) { return this.left.may_throw(compressor) || this.right.may_throw(compressor) || this.operator == "in" && !is_object(this.right); }); def(AST_Block, function(compressor) { return any(this.body, compressor); }); def(AST_Call, function(compressor) { if (any(this.args, compressor)) return true; if (this.is_expr_pure(compressor)) return false; if (this.expression.may_throw(compressor)) return true; return !(this.expression instanceof AST_Lambda) || any(this.expression.body, compressor); }); def(AST_Case, function(compressor) { return this.expression.may_throw(compressor) || any(this.body, compressor); }); def(AST_Conditional, function(compressor) { return this.condition.may_throw(compressor) || this.consequent.may_throw(compressor) || this.alternative.may_throw(compressor); }); def(AST_Definitions, function(compressor) { return any(this.definitions, compressor); }); def(AST_Dot, function(compressor) { return this.expression.may_throw_on_access(compressor) || this.expression.may_throw(compressor); }); def(AST_If, function(compressor) { return this.condition.may_throw(compressor) || this.body && this.body.may_throw(compressor) || this.alternative && this.alternative.may_throw(compressor); }); def(AST_LabeledStatement, function(compressor) { return this.body.may_throw(compressor); }); def(AST_Object, function(compressor) { return any(this.properties, compressor); }); def(AST_ObjectProperty, function(compressor) { return this.value.may_throw(compressor); }); def(AST_Return, function(compressor) { return this.value && this.value.may_throw(compressor); }); def(AST_Sequence, function(compressor) { return any(this.expressions, compressor); }); def(AST_SimpleStatement, function(compressor) { return this.body.may_throw(compressor); }); def(AST_Sub, function(compressor) { return this.expression.may_throw_on_access(compressor) || this.expression.may_throw(compressor) || this.property.may_throw(compressor); }); def(AST_Switch, function(compressor) { return this.expression.may_throw(compressor) || any(this.body, compressor); }); def(AST_SymbolRef, function(compressor) { return !this.is_declared(compressor); }); def(AST_Try, function(compressor) { return (this.bcatch ? this.bcatch.may_throw(compressor) : any(this.body, compressor)) || this.bfinally && this.bfinally.may_throw(compressor); }); def(AST_Unary, function(compressor) { if (this.operator == "typeof" && this.expression instanceof AST_SymbolRef) return false; return this.expression.may_throw(compressor); }); def(AST_VarDef, function(compressor) { if (!this.value) return false; return this.value.may_throw(compressor); }); })(function(node, func) { node.DEFMETHOD("may_throw", func); }); // determine if expression is constant (function(def) { function all(list) { for (var i = list.length; --i >= 0;) if (!list[i].is_constant_expression()) return false; return true; } def(AST_Node, return_false); def(AST_Array, function() { return all(this.elements); }); def(AST_Binary, function() { return this.left.is_constant_expression() && this.right.is_constant_expression() && (this.operator != "in" || is_object(this.right)); }); def(AST_Constant, return_true); def(AST_Lambda, function(scope) { var self = this; var result = true; var scopes = []; self.walk(new TreeWalker(function(node, descend) { if (!result) return true; if (node instanceof AST_Catch) { scopes.push(node.argname.scope); descend(); scopes.pop(); return true; } if (node instanceof AST_Scope) { if (node === self) return; scopes.push(node); descend(); scopes.pop(); return true; } if (node instanceof AST_SymbolRef) { if (self.inlined) { result = false; return true; } if (self.variables.has(node.name)) return true; var def = node.definition(); if (member(def.scope, scopes)) return true; if (scope) { var scope_def = scope.find_variable(node); if (def.undeclared ? !scope_def : scope_def === def) { result = "f"; return true; } } result = false; return true; } })); return result; }); def(AST_Object, function() { return all(this.properties); }); def(AST_ObjectProperty, function() { return this.value.is_constant_expression(); }); def(AST_Unary, function() { return this.expression.is_constant_expression(); }); })(function(node, func) { node.DEFMETHOD("is_constant_expression", func); }); // tell me if a statement aborts function aborts(thing) { return thing && thing.aborts(); } (function(def) { def(AST_Statement, return_null); def(AST_Jump, return_this); function block_aborts() { var n = this.body.length; return n > 0 && aborts(this.body[n - 1]); } def(AST_BlockStatement, block_aborts); def(AST_SwitchBranch, block_aborts); def(AST_If, function() { return this.alternative && aborts(this.body) && aborts(this.alternative) && this; }); })(function(node, func) { node.DEFMETHOD("aborts", func); }); /* -----[ optimizers ]----- */ var directives = makePredicate(["use asm", "use strict"]); OPT(AST_Directive, function(self, compressor) { if (compressor.option("directives") && (!directives[self.value] || compressor.has_directive(self.value) !== self)) { return make_node(AST_EmptyStatement, self); } return self; }); OPT(AST_Debugger, function(self, compressor) { if (compressor.option("drop_debugger")) return make_node(AST_EmptyStatement, self); return self; }); OPT(AST_LabeledStatement, function(self, compressor) { if (compressor.option("dead_code") && self.body instanceof AST_Break && compressor.loopcontrol_target(self.body) === self.body) { return make_node(AST_EmptyStatement, self); } return compressor.option("unused") && self.label.references.length == 0 ? self.body : self; }); OPT(AST_Block, function(self, compressor) { self.body = tighten_body(self.body, compressor); return self; }); OPT(AST_BlockStatement, function(self, compressor) { self.body = tighten_body(self.body, compressor); switch (self.body.length) { case 1: return self.body[0]; case 0: return make_node(AST_EmptyStatement, self); } return self; }); OPT(AST_Function, function(self, compressor) { self.body = tighten_body(self.body, compressor); if (compressor.option("inline")) for (var i = 0; i < self.body.length; i++) { var stat = self.body[i]; if (stat instanceof AST_Directive) continue; if (stat instanceof AST_Return) { var call = stat.value; if (!call || call.TYPE != "Call") break; if (call.is_expr_pure(compressor)) break; var fn = call.expression; if (fn instanceof AST_SymbolRef) { if (self.name && self.name.definition() === fn.definition()) break; fn = fn.fixed_value(); } if (!(fn instanceof AST_Lambda)) break; if (fn.uses_arguments) break; if (fn === call.expression) { if (fn.parent_scope !== self) break; if (!all(fn.enclosed, function(def) { return def.scope !== self; })) break; } if (fn.contains_this()) break; var len = fn.argnames.length; if (len > 0 && compressor.option("inline") < 2) break; if (len > self.argnames.length) break; for (var j = 0; j < len; j++) { var arg = call.args[j]; if (!(arg instanceof AST_SymbolRef)) break; if (arg.definition() !== self.argnames[j].definition()) break; } if (j < len) break; for (; j < call.args.length; j++) { if (call.args[j].has_side_effects(compressor)) break; } if (j < call.args.length) break; if (len < self.argnames.length && !compressor.drop_fargs(self, compressor.parent())) { if (!compressor.drop_fargs(fn, call)) break; do { var argname = make_node(AST_SymbolFunarg, fn, { name: fn.make_var_name("argument_" + len), scope: fn }); fn.argnames.push(argname); fn.enclosed.push(fn.def_variable(argname)); } while (++len < self.argnames.length); } return call.expression; } break; } return self; }); AST_Scope.DEFMETHOD("drop_unused", function(compressor) { if (!compressor.option("unused")) return; if (compressor.has_directive("use asm")) return; var self = this; if (self.pinned()) return; var drop_funcs = !(self instanceof AST_Toplevel) || compressor.toplevel.funcs; var drop_vars = !(self instanceof AST_Toplevel) || compressor.toplevel.vars; var assign_as_unused = /keep_assign/.test(compressor.option("unused")) ? return_false : function(node, props) { var sym; if (node instanceof AST_Assign) { if (node.write_only || node.operator == "=") sym = node.left; } else if (node instanceof AST_Unary) { if (node.write_only) sym = node.expression; } if (/strict/.test(compressor.option("pure_getters"))) { while (sym instanceof AST_PropAccess && !sym.expression.may_throw_on_access(compressor)) { if (sym instanceof AST_Sub) props.unshift(sym.property); sym = sym.expression; } } if (!(sym instanceof AST_SymbolRef)) return; if (compressor.exposed(sym.definition())) return; if (!all(sym.definition().orig, function(sym) { return !(sym instanceof AST_SymbolLambda); })) return; return sym; }; var assign_in_use = Object.create(null); var in_use = []; var in_use_ids = Object.create(null); // avoid expensive linear scans of in_use var value_read = Object.create(null); var value_modified = Object.create(null); if (self instanceof AST_Toplevel && compressor.top_retain) { self.variables.each(function(def) { if (compressor.top_retain(def) && !(def.id in in_use_ids)) { in_use_ids[def.id] = true; in_use.push(def); } }); } var assignments = new Dictionary(); var var_defs_by_id = new Dictionary(); var initializations = new Dictionary(); // pass 1: find out which symbols are directly used in // this scope (not in nested scopes). var scope = this; var tw = new TreeWalker(function(node, descend) { if (node instanceof AST_Lambda && node.uses_arguments && !tw.has_directive("use strict")) { node.argnames.forEach(function(argname) { var def = argname.definition(); if (!(def.id in in_use_ids)) { in_use_ids[def.id] = true; in_use.push(def); } }); } if (node === self) return; if (node instanceof AST_Defun) { var node_def = node.name.definition(); if (!drop_funcs && scope === self) { if (!(node_def.id in in_use_ids)) { in_use_ids[node_def.id] = true; in_use.push(node_def); } } initializations.add(node_def.id, node); return true; // don't go in nested scopes } if (node instanceof AST_SymbolFunarg && scope === self) { var_defs_by_id.add(node.definition().id, node); } if (node instanceof AST_Definitions && scope === self) { node.definitions.forEach(function(def) { var node_def = def.name.definition(); var_defs_by_id.add(node_def.id, def); if (!drop_vars) { if (!(node_def.id in in_use_ids)) { in_use_ids[node_def.id] = true; in_use.push(node_def); } } if (def.value) { if (def.value.has_side_effects(compressor)) { def.value.walk(tw); } else { initializations.add(node_def.id, def.value); } assignments.add(node_def.id, def); } }); return true; } return scan_ref_scoped(node, descend, true); }); self.walk(tw); // pass 2: for every used symbol we need to walk its // initialization code to figure out if it uses other // symbols (that may not be in_use). tw = new TreeWalker(scan_ref_scoped); for (var i = 0; i < in_use.length; i++) { var init = initializations.get(in_use[i].id); if (init) init.forEach(function(init) { init.walk(tw); }); } Object.keys(assign_in_use).forEach(function(id) { var assigns = assign_in_use[id]; if (!assigns) { delete assign_in_use[id]; return; } assigns = assigns.reduce(function(in_use, assigns) { assigns.forEach(function(assign) { push_uniq(in_use, assign); }); return in_use; }, []); var in_use = (assignments.get(id) || []).filter(function(node) { return find_if(node instanceof AST_Unary ? function(assign) { return assign === node; } : function(assign) { if (assign === node) return true; if (assign instanceof AST_Unary) return false; return get_rvalue(assign) === get_rvalue(node); }, assigns); }); if (assigns.length == in_use.length) { assign_in_use[id] = in_use; } else { delete assign_in_use[id]; } }); var drop_fn_name = compressor.option("keep_fnames") ? return_false : compressor.option("ie8") ? function(def) { return !compressor.exposed(def) && def.references.length == def.replaced; } : function(def) { // any declarations with same name will overshadow // name of this anonymous function and can therefore // never be used anywhere return !(def.id in in_use_ids) || def.orig.length > 1; }; // pass 3: we should drop declarations not in_use var unused_fn_names = []; var calls_to_drop_args = []; var fns_with_marked_args = []; var tt = new TreeTransformer(function(node, descend, in_list) { var parent = tt.parent(); if (drop_vars) { var props = [], sym = assign_as_unused(node, props); if (sym) { var def = sym.definition(); var in_use = def.id in in_use_ids; var value; if (node instanceof AST_Assign) { if (!in_use || node.left === sym && indexOf_assign(def, node) < 0) { value = get_rhs(node); if (node.write_only === true) { value = value.drop_side_effect_free(compressor) || make_node(AST_Number, node, { value: 0 }); } } } else if (!in_use || node.expression === sym && indexOf_assign(def, node) < 0) { value = make_node(AST_Number, node, { value: 0 }); } if (value) { if (parent instanceof AST_Sequence && parent.tail_node() !== node) { value = value.drop_side_effect_free(compressor); } if (value) props.push(value); switch (props.length) { case 0: return List.skip; case 1: return maintain_this_binding(compressor, parent, node, props[0].transform(tt)); default: return make_sequence(node, props.map(function(prop) { return prop.transform(tt); })); } } } } if (node instanceof AST_Call) calls_to_drop_args.push(node); if (scope !== self) return; if (node instanceof AST_Lambda) { if (drop_funcs && node !== self && node instanceof AST_Defun) { var def = node.name.definition(); if (!(def.id in in_use_ids)) { log(node.name, "Dropping unused function {name}"); def.eliminated++; return in_list ? List.skip : make_node(AST_EmptyStatement, node); } } if (node instanceof AST_Function && node.name && drop_fn_name(node.name.definition())) { unused_fn_names.push(node); } if (!(node instanceof AST_Accessor)) { var trim = compressor.drop_fargs(node, parent); for (var a = node.argnames, i = a.length; --i >= 0;) { var sym = a[i]; if (!(sym.definition().id in in_use_ids)) { sym.__unused = true; if (trim) { log(sym, "Dropping unused function argument {name}"); a.pop(); } } else { trim = false; } } fns_with_marked_args.push(node); } } if (node instanceof AST_Definitions && !(parent instanceof AST_ForIn && parent.init === node)) { // place uninitialized names at the start var body = [], head = [], tail = []; // for unused names whose initialization has // side effects, we can cascade the init. code // into the next one, or next statement. var side_effects = []; var duplicated = 0; node.definitions.forEach(function(def) { if (def.value) def.value = def.value.transform(tt); var sym = def.name.definition(); if (!drop_vars || sym.id in in_use_ids) { if (def.value && indexOf_assign(sym, def) < 0) { var write_only = def.value.write_only; var value = def.value.drop_side_effect_free(compressor); if (def.value !== value) { def.value = value && make_sequence(def.value, [ value, make_node(AST_Number, def.value, { value: 0 }), ]); } else if (def.value.write_only !== write_only) { def.value.write_only = write_only; } } var old_def, var_defs = var_defs_by_id.get(sym.id); if (!def.value) { if (var_defs.length > 1) { AST_Node.warn("Dropping duplicated declaration of variable {name} [{file}:{line},{col}]", template(def.name)); remove(var_defs, def); sym.eliminated++; } else { head.push(def); } } else if (compressor.option("functions") && !compressor.option("ie8") && var_defs.length == 1 && sym.assignments == 0 && def.value === def.name.fixed_value() && def.value instanceof AST_Function && (!def.value.name || (old_def = def.value.name.definition()).assignments == 0 && (old_def.name == def.name.name || all(old_def.references, function(ref) { return ref.scope.find_variable(def.name) === def.name.definition(); }))) && can_rename(def.value, def.name.name) && (!compressor.has_directive("use strict") || parent instanceof AST_Scope)) { AST_Node.warn("Declaring {name} as function [{file}:{line},{col}]", template(def.name)); var defun = make_node(AST_Defun, def, def.value); defun.name = make_node(AST_SymbolDefun, def.name, def.name); var name_def = def.name.scope.resolve().def_function(defun.name); if (old_def) old_def.references.forEach(function(node) { node.name = name_def.name; node.thedef = name_def; node.reference({}); }); body.push(defun); } else { if (var_defs.length > 1 && sym.orig.indexOf(def.name) > sym.eliminated) { remove(var_defs, def); duplicated++; } if (side_effects.length > 0) { if (tail.length > 0) { side_effects.push(def.value); def.value = make_sequence(def.value, side_effects); } else { body.push(make_node(AST_SimpleStatement, node, { body: make_sequence(node, side_effects) })); } side_effects = []; } tail.push(def); } } else if (sym.orig[0] instanceof AST_SymbolCatch) { var value = def.value && def.value.drop_side_effect_free(compressor); if (value) side_effects.push(value); var var_defs = var_defs_by_id.get(sym.id); if (var_defs.length > 1) { AST_Node.warn("Dropping duplicated declaration of variable {name} [{file}:{line},{col}]", template(def.name)); remove(var_defs, def); sym.eliminated++; } else { def.value = null; head.push(def); } } else { var value = def.value && !def.value.single_use && def.value.drop_side_effect_free(compressor); if (value) { AST_Node.warn("Side effects in initialization of unused variable {name} [{file}:{line},{col}]", template(def.name)); side_effects.push(value); } else { log(def.name, "Dropping unused variable {name}"); } sym.eliminated++; } function can_rename(fn, name) { var def = fn.variables.get(name); return !def || fn.name && def === fn.name.definition(); } }); if (head.length == 0 && tail.length == duplicated) { [].unshift.apply(side_effects, tail.map(function(def) { AST_Node.warn("Dropping duplicated definition of variable {name} [{file}:{line},{col}]", template(def.name)); var sym = def.name.definition(); var ref = make_node(AST_SymbolRef, def.name, def.name); sym.references.push(ref); var assign = make_node(AST_Assign, def, { operator: "=", left: ref, right: def.value }); var index = indexOf_assign(sym, def); if (index >= 0) assign_in_use[sym.id][index] = assign; sym.eliminated++; return assign; })); } else if (head.length > 0 || tail.length > 0) { node.definitions = head.concat(tail); body.push(node); } if (side_effects.length > 0) { body.push(make_node(AST_SimpleStatement, node, { body: make_sequence(node, side_effects) })); } switch (body.length) { case 0: return in_list ? List.skip : make_node(AST_EmptyStatement, node); case 1: return body[0]; default: return in_list ? List.splice(body) : make_node(AST_BlockStatement, node, { body: body }); } } if (node instanceof AST_LabeledStatement && node.body instanceof AST_For) { // Certain combination of unused name + side effect leads to invalid AST: // https://github.com/mishoo/UglifyJS/issues/1830 // We fix it at this stage by moving the label inwards, back to the `for`. descend(node, tt); if (node.body instanceof AST_BlockStatement) { var block = node.body; node.body = block.body.pop(); block.body.push(node); return in_list ? List.splice(block.body) : block; } return node; } if (node instanceof AST_Scope) { var save_scope = scope; scope = node; descend(node, tt); scope = save_scope; return node; } }, function(node, in_list) { if (node instanceof AST_For) { // Certain combination of unused name + side effect leads to invalid AST: // https://github.com/mishoo/UglifyJS/issues/44 // https://github.com/mishoo/UglifyJS/issues/1838 // https://github.com/mishoo/UglifyJS/issues/3371 // We fix it at this stage by moving the `var` outside the `for`. var block; if (node.init instanceof AST_BlockStatement) { block = node.init; node.init = block.body.pop(); block.body.push(node); } if (node.init instanceof AST_Defun) { if (!block) { block = make_node(AST_BlockStatement, node, { body: [ node ] }); } block.body.splice(-1, 0, node.init); node.init = null; } else if (node.init instanceof AST_SimpleStatement) { node.init = node.init.body; } else if (is_empty(node.init)) { node.init = null; } return !block ? node : in_list ? List.splice(block.body) : block; } else if (node instanceof AST_ForIn) { if (!drop_vars || !compressor.option("loops")) return; if (!is_empty(node.body)) return; var sym = node.init; if (sym instanceof AST_Definitions) { sym = sym.definitions[0].name; } else while (sym instanceof AST_PropAccess) { sym = sym.expression.tail_node(); } var def = sym.definition(); if (!def) return; if (def.id in in_use_ids) return; if (def.scope !== self && member(def, self.enclosed)) return; log(sym, "Dropping unused loop variable {name}"); var value = node.object.drop_side_effect_free(compressor); if (!value) return in_list ? List.skip : make_node(AST_EmptyStatement, node); AST_Node.warn("Side effects in object of for-in loop [{file}:{line},{col}]", value.start); return make_node(AST_SimpleStatement, node, { body: value }); } else if (node instanceof AST_Sequence) { if (node.expressions.length == 1) return node.expressions[0]; } }); tt.push(compressor.parent()); self.transform(tt); if (self instanceof AST_Lambda && self.body.length == 1 && self.body[0] instanceof AST_Directive && self.body[0].value == "use strict") { self.body.length = 0; } unused_fn_names.forEach(function(fn) { fn.name = null; }); calls_to_drop_args.forEach(function(call) { drop_unused_call_args(call, compressor, fns_with_marked_args); }); function log(sym, text) { AST_Node[sym.definition().references.length > 0 ? "info" : "warn"](text + " [{file}:{line},{col}]", template(sym)); } function template(sym) { return { name: sym.name, file: sym.start.file, line: sym.start.line, col : sym.start.col }; } function track_assigns(def, node) { if (def.scope !== self) return false; if (!def.fixed || !node.fixed) assign_in_use[def.id] = false; return assign_in_use[def.id] !== false; } function add_assigns(def, node) { if (!assign_in_use[def.id]) assign_in_use[def.id] = []; if (node.fixed.assigns) push_uniq(assign_in_use[def.id], node.fixed.assigns); } function indexOf_assign(def, node) { var nodes = assign_in_use[def.id]; return nodes && nodes.indexOf(node); } function verify_safe_usage(def, read, modified) { if (def.id in in_use_ids) return; if (read && modified) { in_use_ids[def.id] = true; in_use.push(def); } else { value_read[def.id] = read; value_modified[def.id] = modified; } } function get_rhs(assign) { var rhs = assign.right; if (!assign.write_only) return rhs; if (!(rhs instanceof AST_Binary && lazy_op[rhs.operator])) return rhs; if (!(rhs.left instanceof AST_SymbolRef)) return rhs; if (!(assign.left instanceof AST_SymbolRef)) return rhs; var def = assign.left.definition(); if (rhs.left.definition() !== def) return rhs; if (rhs.right.has_side_effects(compressor)) return rhs; if (track_assigns(def, rhs.left)) add_assigns(def, rhs.left); return rhs.right; } function scan_ref_scoped(node, descend, init) { if (node instanceof AST_Assign && node.left instanceof AST_SymbolRef) { var def = node.left.definition(); if (def.scope === self) assignments.add(def.id, node); } if (node instanceof AST_Unary && node.expression instanceof AST_SymbolRef) { var def = node.expression.definition(); if (def.scope === self) assignments.add(def.id, node); } var node_def, props = [], sym = assign_as_unused(node, props); if (sym && self.variables.get(sym.name) === (node_def = sym.definition())) { props.forEach(function(prop) { prop.walk(tw); }); if (node instanceof AST_Assign) { if (node.write_only === "p" && node.right.may_throw_on_access(compressor)) return; var right = get_rhs(node); if (init && node.write_only === true && node_def.scope === self && !right.has_side_effects(compressor)) { initializations.add(node_def.id, right); } else { right.walk(tw); } if (node.left === sym) { if (!node.write_only) { verify_safe_usage(node_def, true, value_modified[node_def.id]); } } else { var fixed = sym.fixed_value(); if (!fixed || !fixed.is_constant()) { verify_safe_usage(node_def, value_read[node_def.id], true); } } } if (track_assigns(node_def, sym) && is_lhs(sym, node) !== sym) add_assigns(node_def, sym); return true; } if (node instanceof AST_ForIn) { if (!drop_vars || !compressor.option("loops")) return; if (!is_empty(node.body)) return; if (node.init.has_side_effects(compressor)) return; node.object.walk(tw); return true; } if (node instanceof AST_SymbolRef) { node_def = node.definition(); if (!(node_def.id in in_use_ids)) { in_use_ids[node_def.id] = true; in_use.push(node_def); } if (track_assigns(node_def, node)) add_assigns(node_def, node); return true; } if (node instanceof AST_Scope) { var save_scope = scope; scope = node; descend(); scope = save_scope; return true; } } }); AST_Scope.DEFMETHOD("hoist_declarations", function(compressor) { if (compressor.has_directive("use asm")) return; var hoist_funs = compressor.option("hoist_funs"); var hoist_vars = compressor.option("hoist_vars"); var self = this; if (hoist_vars) { // let's count var_decl first, we seem to waste a lot of // space if we hoist `var` when there's only one. var var_decl = 0; self.walk(new TreeWalker(function(node) { if (var_decl > 1) return true; if (node instanceof AST_Scope && node !== self) return true; if (node instanceof AST_Var) { var_decl++; return true; } })); if (var_decl <= 1) hoist_vars = false; } if (!hoist_funs && !hoist_vars) return; var dirs = []; var hoisted = []; var vars = new Dictionary(), vars_found = 0; var tt = new TreeTransformer(function(node) { if (node === self) return; if (node instanceof AST_Directive) { dirs.push(node); return make_node(AST_EmptyStatement, node); } if (hoist_funs && node instanceof AST_Defun && (tt.parent() === self || !compressor.has_directive("use strict"))) { hoisted.push(node); return make_node(AST_EmptyStatement, node); } if (hoist_vars && node instanceof AST_Var) { node.definitions.forEach(function(def) { vars.set(def.name.name, def); ++vars_found; }); var seq = node.to_assignments(compressor); var p = tt.parent(); if (p instanceof AST_ForIn && p.init === node) { if (seq) return seq; var def = node.definitions[0].name; return make_node(AST_SymbolRef, def, def); } if (p instanceof AST_For && p.init === node) return seq; if (!seq) return make_node(AST_EmptyStatement, node); return make_node(AST_SimpleStatement, node, { body: seq }); } if (node instanceof AST_Scope) return node; }); self.transform(tt); if (vars_found > 0) { // collect only vars which don't show up in self's arguments list var defs = []; vars.each(function(def, name) { if (self instanceof AST_Lambda && !all(self.argnames, function(argname) { return argname.name != name; })) { vars.del(name); } else { def = def.clone(); def.value = null; defs.push(def); vars.set(name, def); } }); if (defs.length > 0) { // try to merge in assignments for (var i = 0; i < self.body.length;) { if (self.body[i] instanceof AST_SimpleStatement) { var expr = self.body[i].body, sym, assign; if (expr instanceof AST_Assign && expr.operator == "=" && (sym = expr.left) instanceof AST_Symbol && vars.has(sym.name)) { var def = vars.get(sym.name); if (def.value) break; def.value = expr.right; remove(defs, def); defs.push(def); self.body.splice(i, 1); continue; } if (expr instanceof AST_Sequence && (assign = expr.expressions[0]) instanceof AST_Assign && assign.operator == "=" && (sym = assign.left) instanceof AST_Symbol && vars.has(sym.name)) { var def = vars.get(sym.name); if (def.value) break; def.value = assign.right; remove(defs, def); defs.push(def); self.body[i].body = make_sequence(expr, expr.expressions.slice(1)); continue; } } if (self.body[i] instanceof AST_EmptyStatement) { self.body.splice(i, 1); continue; } if (self.body[i] instanceof AST_BlockStatement) { var tmp = [ i, 1 ].concat(self.body[i].body); self.body.splice.apply(self.body, tmp); continue; } break; } defs = make_node(AST_Var, self, { definitions: defs }); hoisted.push(defs); } } self.body = dirs.concat(hoisted, self.body); }); function scan_local_returns(fn, transform) { fn.walk(new TreeWalker(function(node) { if (node instanceof AST_Return) { transform(node); return true; } if (node instanceof AST_Scope && node !== fn) return true; })); } function map_bool_returns(fn) { var map = Object.create(null); scan_local_returns(fn, function(node) { var value = node.value; if (value) value = value.tail_node(); if (value instanceof AST_SymbolRef) { var id = value.definition().id; map[id] = (map[id] || 0) + 1; } }); return map; } function all_bool(def, bool_returns, compressor) { return def.bool_fn + (bool_returns[def.id] || 0) === def.references.length - def.replaced && !compressor.exposed(def); } function process_boolean_returns(fn, compressor) { scan_local_returns(fn, function(node) { node.in_bool = true; var value = node.value; if (value) { var ev = value.is_truthy() || value.evaluate(compressor, true); if (!ev) { value = value.drop_side_effect_free(compressor); node.value = value ? make_sequence(node.value, [ value, make_node(AST_Number, node.value, { value: 0 }) ]) : null; } else if (ev && !(ev instanceof AST_Node)) { value = value.drop_side_effect_free(compressor); node.value = value ? make_sequence(node.value, [ value, make_node(AST_Number, node.value, { value: 1 }) ]) : make_node(AST_Number, node.value, { value: 1 }); } } }); } AST_Scope.DEFMETHOD("process_boolean_returns", noop); AST_Defun.DEFMETHOD("process_boolean_returns", function(compressor) { if (!compressor.option("booleans")) return; var bool_returns = map_bool_returns(this); if (!all_bool(this.name.definition(), bool_returns, compressor)) return; process_boolean_returns(this, compressor); }); AST_Function.DEFMETHOD("process_boolean_returns", function(compressor) { if (!compressor.option("booleans")) return; var bool_returns = map_bool_returns(this); if (this.name && !all_bool(this.name.definition(), bool_returns, compressor)) return; var parent = compressor.parent(); if (parent instanceof AST_Assign) { if (parent.operator != "=") return; var sym = parent.left; if (!(sym instanceof AST_SymbolRef)) return; if (!all_bool(sym.definition(), bool_returns, compressor)) return; } else if (parent instanceof AST_Call && parent.expression !== this) { var exp = parent.expression; if (exp instanceof AST_SymbolRef) exp = exp.fixed_value(); if (!(exp instanceof AST_Lambda)) return; if (exp.uses_arguments || exp.pinned()) return; var sym = exp.argnames[parent.args.indexOf(this)]; if (sym && !all_bool(sym.definition(), bool_returns, compressor)) return; } else if (parent.TYPE == "Call") { compressor.pop(); var in_bool = compressor.in_boolean_context(); compressor.push(this); if (!in_bool) return; } else return; process_boolean_returns(this, compressor); }); AST_Scope.DEFMETHOD("var_names", function() { var var_names = this._var_names; if (!var_names) { this._var_names = var_names = Object.create(null); this.enclosed.forEach(function(def) { var_names[def.name] = true; }); this.variables.each(function(def, name) { var_names[name] = true; }); } return var_names; }); AST_Scope.DEFMETHOD("make_var_name", function(prefix) { var var_names = this.var_names(); prefix = prefix.replace(/(?:^[^a-z_$]|[^a-z0-9_$])/ig, "_"); var name = prefix; for (var i = 0; var_names[name]; i++) name = prefix + "$" + i; var_names[name] = true; return name; }); AST_Scope.DEFMETHOD("hoist_properties", function(compressor) { if (!compressor.option("hoist_props") || compressor.has_directive("use asm")) return; var self = this; var top_retain = self instanceof AST_Toplevel && compressor.top_retain || return_false; var defs_by_id = Object.create(null); self.transform(new TreeTransformer(function(node, descend) { if (node instanceof AST_Assign) { if (node.operator != "=") return; if (!node.write_only) return; if (node.left.scope !== self) return; if (!can_hoist(node.left, node.right, 1)) return; descend(node, this); var defs = new Dictionary(); var assignments = []; var decls = []; node.right.properties.forEach(function(prop) { var decl = make_sym(node.left, prop.key); decls.push(make_node(AST_VarDef, node, { name: decl, value: null })); var sym = make_node(AST_SymbolRef, node, { name: decl.name, scope: self, thedef: decl.definition() }); sym.reference({}); assignments.push(make_node(AST_Assign, node, { operator: "=", left: sym, right: prop.value })); }); defs_by_id[node.left.definition().id] = defs; self.body.splice(self.body.indexOf(this.stack[1]) + 1, 0, make_node(AST_Var, node, { definitions: decls })); return make_sequence(node, assignments); } if (node instanceof AST_Scope) return node === self ? undefined : node; if (node instanceof AST_VarDef) { if (!can_hoist(node.name, node.value, 0)) return; descend(node, this); var defs = new Dictionary(); var var_defs = []; node.value.properties.forEach(function(prop) { var_defs.push(make_node(AST_VarDef, node, { name: make_sym(node.name, prop.key), value: prop.value })); }); defs_by_id[node.name.definition().id] = defs; return List.splice(var_defs); } function make_sym(sym, key) { var new_var = make_node(AST_SymbolVar, sym, { name: self.make_var_name(sym.name + "_" + key), scope: self }); var def = self.def_variable(new_var); defs.set(key, def); self.enclosed.push(def); return new_var; } })); self.transform(new TreeTransformer(function(node, descend) { if (node instanceof AST_Binary) return replace("right"); if (node instanceof AST_PropAccess) { if (!(node.expression instanceof AST_SymbolRef)) return; var defs = defs_by_id[node.expression.definition().id]; if (!defs) return; var def = defs.get(node.getProperty()); var sym = make_node(AST_SymbolRef, node, { name: def.name, scope: node.expression.scope, thedef: def }); sym.reference({}); return sym; } if (node instanceof AST_Unary) { if (unary_side_effects[node.operator]) return; return replace("expression"); } function replace(prop) { var sym = node[prop]; if (!(sym instanceof AST_SymbolRef)) return; if (!(sym.definition().id in defs_by_id)) return; var opt = node.clone(); opt[prop] = make_node(AST_Object, sym, { properties: [] }); return opt; } })); function can_hoist(sym, right, count) { var def = sym.definition(); if (def.assignments != count) return; if (def.direct_access) return; if (def.escaped.depth == 1) return; if (def.references.length - def.replaced == count) return; if (def.single_use) return; if (top_retain(def)) return; if (sym.fixed_value() !== right) return; return right instanceof AST_Object && right.properties.length > 0 && all(right.properties, function(prop) { return prop instanceof AST_ObjectKeyVal; }) && all(def.references, function(ref) { return ref.fixed_value() === right; }); } }); function safe_to_drop(fn, compressor) { if (!fn.name || !compressor.option("ie8")) return true; var def = fn.name.definition(); if (compressor.exposed(def)) return false; return all(def.references, function(sym) { return !(sym instanceof AST_SymbolRef); }); } // drop_side_effect_free() // remove side-effect-free parts which only affects return value (function(def) { // Drop side-effect-free elements from an array of expressions. // Returns an array of expressions with side-effects or null // if all elements were dropped. Note: original array may be // returned if nothing changed. function trim(nodes, compressor, first_in_statement) { var len = nodes.length; if (!len) return null; var ret = [], changed = false; for (var i = 0; i < len; i++) { var node = nodes[i].drop_side_effect_free(compressor, first_in_statement); changed |= node !== nodes[i]; if (node) { ret.push(node); first_in_statement = false; } } return changed ? ret.length ? ret : null : nodes; } def(AST_Node, return_this); def(AST_Accessor, return_null); def(AST_Array, function(compressor, first_in_statement) { var values = trim(this.elements, compressor, first_in_statement); return values && make_sequence(this, values); }); def(AST_Assign, function(compressor) { var left = this.left; if (left instanceof AST_PropAccess) { var expr = left.expression; if (expr instanceof AST_Assign && expr.operator == "=" && !expr.may_throw_on_access(compressor)) { expr.write_only = "p"; } if (compressor.has_directive("use strict") && expr.is_constant()) return this; } if (left.has_side_effects(compressor)) return this; this.write_only = true; if (root_expr(left).is_constant_expression(compressor.find_parent(AST_Scope))) { return this.right.drop_side_effect_free(compressor); } return this; }); def(AST_Binary, function(compressor, first_in_statement) { if (this.operator == "in" && !is_object(this.right)) { var left = this.left.drop_side_effect_free(compressor, first_in_statement); if (left === this.left) return this; var node = this.clone(); node.left = left || make_node(AST_Number, this.left, { value: 0 }); return node; } var right = this.right.drop_side_effect_free(compressor, first_in_statement); if (!right) return this.left.drop_side_effect_free(compressor, first_in_statement); if (lazy_op[this.operator] && !(right instanceof AST_Function)) { var node = this; if (right !== node.right) { node = this.clone(); node.right = right.drop_side_effect_free(compressor); } return (first_in_statement ? best_of_statement : best_of_expression)(node, make_node(AST_Binary, this, { operator: node.operator == "&&" ? "||" : "&&", left: node.left.negate(compressor, first_in_statement), right: node.right })); } else { var left = this.left.drop_side_effect_free(compressor, first_in_statement); if (!left) return right; return make_sequence(this, [ left, right.drop_side_effect_free(compressor) ]); } }); def(AST_Call, function(compressor, first_in_statement) { if (!this.is_expr_pure(compressor)) { var exp = this.expression; if (this.is_call_pure(compressor)) { var exprs = this.args.slice(); exprs.unshift(exp.expression); exprs = trim(exprs, compressor, first_in_statement); return exprs && make_sequence(this, exprs); } if (exp instanceof AST_Function) { if (exp.name) { var def = exp.name.definition(); if (def.references.length > def.replaced) return this; } exp.process_expression(false, function(node) { var value = node.value && node.value.drop_side_effect_free(compressor, true); return value ? make_node(AST_SimpleStatement, node, { body: value }) : make_node(AST_EmptyStatement, node); }); scan_local_returns(exp, function(node) { if (node.value) node.value = node.value.drop_side_effect_free(compressor); }); // always shallow clone to ensure stripping of negated IIFEs return this.clone(); } return this; } if (this.pure) AST_Node.warn("Dropping __PURE__ call [{file}:{line},{col}]", this.start); var args = trim(this.args, compressor, first_in_statement); return args && make_sequence(this, args); }); def(AST_Conditional, function(compressor) { var consequent = this.consequent.drop_side_effect_free(compressor); var alternative = this.alternative.drop_side_effect_free(compressor); if (consequent === this.consequent && alternative === this.alternative) return this; var exprs; if (compressor.option("ie8")) { exprs = []; if (consequent instanceof AST_Function) { exprs.push(consequent); consequent = null; } if (alternative instanceof AST_Function) { exprs.push(alternative); alternative = null; } } var node; if (!consequent) { node = alternative ? make_node(AST_Binary, this, { operator: "||", left: this.condition, right: alternative }) : this.condition.drop_side_effect_free(compressor); } else if (!alternative) { node = make_node(AST_Binary, this, { operator: "&&", left: this.condition, right: consequent }); } else { node = this.clone(); node.consequent = consequent; node.alternative = alternative; } if (!compressor.option("ie8")) return node; if (node) exprs.push(node); return exprs.length == 0 ? null : make_sequence(this, exprs); }); def(AST_Constant, return_null); def(AST_Dot, function(compressor, first_in_statement) { var expr = this.expression; if (expr.may_throw_on_access(compressor)) return this; return expr.drop_side_effect_free(compressor, first_in_statement); }); def(AST_Function, function(compressor) { return safe_to_drop(this, compressor) ? null : this; }); def(AST_Object, function(compressor, first_in_statement) { var values = trim(this.properties, compressor, first_in_statement); return values && make_sequence(this, values); }); def(AST_ObjectProperty, function(compressor, first_in_statement) { return this.value.drop_side_effect_free(compressor, first_in_statement); }); def(AST_Sequence, function(compressor, first_in_statement) { var expressions = trim(this.expressions, compressor, first_in_statement); if (!expressions) return null; var end = expressions.length - 1; var assign, cond, lhs; if (compressor.option("conditionals") && end > 0 && (assign = expressions[end - 1]) instanceof AST_Assign && assign.operator == "=" && (lhs = assign.left) instanceof AST_SymbolRef && (cond = to_conditional_assignment(compressor, lhs.definition(), assign.right, expressions[end]))) { assign = assign.clone(); assign.right = cond; expressions = expressions.slice(0, -2); expressions.push(assign); } return expressions === this.expressions ? this : make_sequence(this, expressions); }); def(AST_Sub, function(compressor, first_in_statement) { if (this.expression.may_throw_on_access(compressor)) return this; var expression = this.expression.drop_side_effect_free(compressor, first_in_statement); if (!expression) return this.property.drop_side_effect_free(compressor, first_in_statement); var property = this.property.drop_side_effect_free(compressor); if (!property) return expression; return make_sequence(this, [ expression, property ]); }); def(AST_SymbolRef, function(compressor) { return this.is_declared(compressor) ? null : this; }); def(AST_This, return_null); def(AST_Unary, function(compressor, first_in_statement) { if (unary_side_effects[this.operator]) { this.write_only = !this.expression.has_side_effects(compressor); return this; } if (this.operator == "typeof" && this.expression instanceof AST_SymbolRef) return null; var expression = this.expression.drop_side_effect_free(compressor, first_in_statement); if (first_in_statement && expression && is_iife_call(expression)) { if (expression === this.expression && this.operator == "!") return this; return expression.negate(compressor, first_in_statement); } return expression; }); })(function(node, func) { node.DEFMETHOD("drop_side_effect_free", func); }); OPT(AST_SimpleStatement, function(self, compressor) { if (compressor.option("side_effects")) { var body = self.body; var node = body.drop_side_effect_free(compressor, true); if (!node) { AST_Node.warn("Dropping side-effect-free statement [{file}:{line},{col}]", self.start); return make_node(AST_EmptyStatement, self); } if (node !== body) { return make_node(AST_SimpleStatement, self, { body: node }); } } return self; }); OPT(AST_While, function(self, compressor) { return compressor.option("loops") ? make_node(AST_For, self, self).optimize(compressor) : self; }); function has_break_or_continue(loop, parent) { var found = false; var tw = new TreeWalker(function(node) { if (found || node instanceof AST_Scope) return true; if (node instanceof AST_LoopControl && tw.loopcontrol_target(node) === loop) { return found = true; } }); if (parent instanceof AST_LabeledStatement) tw.push(parent); tw.push(loop); loop.body.walk(tw); return found; } OPT(AST_Do, function(self, compressor) { if (!compressor.option("loops")) return self; var cond = self.condition.is_truthy() || self.condition.evaluate(compressor, true); if (!(cond instanceof AST_Node)) { if (cond) return make_node(AST_For, self, { body: make_node(AST_BlockStatement, self.body, { body: [ self.body, make_node(AST_SimpleStatement, self.condition, { body: self.condition }) ] }) }).optimize(compressor); if (!has_break_or_continue(self, compressor.parent())) { return make_node(AST_BlockStatement, self.body, { body: [ self.body, make_node(AST_SimpleStatement, self.condition, { body: self.condition }) ] }).optimize(compressor); } } if (self.body instanceof AST_SimpleStatement) return make_node(AST_For, self, { condition: make_sequence(self.condition, [ self.body.body, self.condition ]), body: make_node(AST_EmptyStatement, self) }).optimize(compressor); return self; }); function if_break_in_loop(self, compressor) { var first = first_statement(self.body); if (compressor.option("dead_code") && (first instanceof AST_Break || first instanceof AST_Continue && external_target(first) || first instanceof AST_Exit)) { var body = []; if (self.init instanceof AST_Statement) { body.push(self.init); } else if (self.init) { body.push(make_node(AST_SimpleStatement, self.init, { body: self.init })); } var retain = external_target(first) || first instanceof AST_Exit; if (self.condition && retain) { body.push(make_node(AST_If, self, { condition: self.condition, body: first, alternative: null })); } else if (self.condition) { body.push(make_node(AST_SimpleStatement, self.condition, { body: self.condition })); } else if (retain) { body.push(first); } extract_declarations_from_unreachable_code(self.body, body); return make_node(AST_BlockStatement, self, { body: body }); } if (first instanceof AST_If) { var ab = first_statement(first.body); if (ab instanceof AST_Break && !external_target(ab)) { if (self.condition) { self.condition = make_node(AST_Binary, self.condition, { left: self.condition, operator: "&&", right: first.condition.negate(compressor), }); } else { self.condition = first.condition.negate(compressor); } var body = as_statement_array(first.alternative); extract_declarations_from_unreachable_code(first.body, body); return drop_it(body); } ab = first_statement(first.alternative); if (ab instanceof AST_Break && !external_target(ab)) { if (self.condition) { self.condition = make_node(AST_Binary, self.condition, { left: self.condition, operator: "&&", right: first.condition, }); } else { self.condition = first.condition; } var body = as_statement_array(first.body); extract_declarations_from_unreachable_code(first.alternative, body); return drop_it(body); } } return self; function first_statement(body) { return body instanceof AST_BlockStatement ? body.body[0] : body; } function external_target(node) { return compressor.loopcontrol_target(node) !== compressor.self(); } function drop_it(rest) { if (self.body instanceof AST_BlockStatement) { self.body = self.body.clone(); self.body.body = rest.concat(self.body.body.slice(1)); self.body = self.body.transform(compressor); } else { self.body = make_node(AST_BlockStatement, self.body, { body: rest }).transform(compressor); } return if_break_in_loop(self, compressor); } } OPT(AST_For, function(self, compressor) { if (!compressor.option("loops")) return self; if (compressor.option("side_effects")) { if (self.init) self.init = self.init.drop_side_effect_free(compressor); if (self.step) self.step = self.step.drop_side_effect_free(compressor); } if (self.condition) { var cond = self.condition.evaluate(compressor); if (cond instanceof AST_Node) { cond = self.condition.is_truthy() || self.condition.evaluate(compressor, true); } else if (cond) { self.condition = null; } else if (!compressor.option("dead_code")) { var orig = self.condition; self.condition = make_node_from_constant(cond, self.condition); self.condition = best_of_expression(self.condition.transform(compressor), orig); } if (!cond) { if (compressor.option("dead_code")) { var body = []; extract_declarations_from_unreachable_code(self.body, body); if (self.init instanceof AST_Statement) { body.push(self.init); } else if (self.init) { body.push(make_node(AST_SimpleStatement, self.init, { body: self.init })); } body.push(make_node(AST_SimpleStatement, self.condition, { body: self.condition })); return make_node(AST_BlockStatement, self, { body: body }).optimize(compressor); } } else if (self.condition && !(cond instanceof AST_Node)) { self.body = make_node(AST_BlockStatement, self.body, { body: [ make_node(AST_SimpleStatement, self.condition, { body: self.condition }), self.body ] }); self.condition = null; } } return if_break_in_loop(self, compressor); }); function mark_locally_defined(condition, consequent, alternative) { if (!(condition instanceof AST_Binary)) return; if (!(condition.left instanceof AST_String)) { switch (condition.operator) { case "&&": mark_locally_defined(condition.left, consequent); mark_locally_defined(condition.right, consequent); break; case "||": mark_locally_defined(negate(condition.left), alternative); mark_locally_defined(negate(condition.right), alternative); break; } return; } if (!(condition.right instanceof AST_UnaryPrefix)) return; if (condition.right.operator != "typeof") return; var sym = condition.right.expression; if (!is_undeclared_ref(sym)) return; var body; var undef = condition.left.value == "undefined"; switch (condition.operator) { case "==": body = undef ? alternative : consequent; break; case "!=": body = undef ? consequent : alternative; break; default: return; } if (!body) return; var def = sym.definition(); var tw = new TreeWalker(function(node) { if (node instanceof AST_Scope) { var parent = tw.parent(); if (parent instanceof AST_Call && parent.expression === node) return; return true; } if (node instanceof AST_SymbolRef && node.definition() === def) node.defined = true; }); body.walk(tw); function negate(node) { if (!(node instanceof AST_Binary)) return; switch (node.operator) { case "==": node = node.clone(); node.operator = "!="; return node; case "!=": node = node.clone(); node.operator = "=="; return node; } } } OPT(AST_If, function(self, compressor) { if (is_empty(self.alternative)) self.alternative = null; if (!compressor.option("conditionals")) return self; // if condition can be statically determined, warn and drop // one of the blocks. note, statically determined implies // “has no side effects”; also it doesn't work for cases like // `x && true`, though it probably should. var cond = self.condition.evaluate(compressor); if (!compressor.option("dead_code") && !(cond instanceof AST_Node)) { var orig = self.condition; self.condition = make_node_from_constant(cond, orig); self.condition = best_of_expression(self.condition.transform(compressor), orig); } if (compressor.option("dead_code")) { if (cond instanceof AST_Node) { cond = self.condition.is_truthy() || self.condition.evaluate(compressor, true); } if (!cond) { AST_Node.warn("Condition always false [{file}:{line},{col}]", self.condition.start); var body = []; extract_declarations_from_unreachable_code(self.body, body); body.push(make_node(AST_SimpleStatement, self.condition, { body: self.condition })); if (self.alternative) body.push(self.alternative); return make_node(AST_BlockStatement, self, { body: body }).optimize(compressor); } else if (!(cond instanceof AST_Node)) { AST_Node.warn("Condition always true [{file}:{line},{col}]", self.condition.start); var body = []; if (self.alternative) extract_declarations_from_unreachable_code(self.alternative, body); body.push(make_node(AST_SimpleStatement, self.condition, { body: self.condition })); body.push(self.body); return make_node(AST_BlockStatement, self, { body: body }).optimize(compressor); } } var negated = self.condition.negate(compressor); var self_condition_length = self.condition.print_to_string().length; var negated_length = negated.print_to_string().length; var negated_is_best = negated_length < self_condition_length; if (self.alternative && negated_is_best) { negated_is_best = false; // because we already do the switch here. // no need to swap values of self_condition_length and negated_length // here because they are only used in an equality comparison later on. self.condition = negated; var tmp = self.body; self.body = self.alternative || make_node(AST_EmptyStatement, self); self.alternative = tmp; } var body = [], var_defs = [], refs = []; var body_exprs = sequencesize(self.body, body, var_defs, refs); var alt_exprs = sequencesize(self.alternative, body, var_defs, refs); if (body_exprs && alt_exprs) { if (var_defs.length > 0) body.push(make_node(AST_Var, self, { definitions: var_defs })); if (body_exprs.length == 0) { body.push(make_node(AST_SimpleStatement, self.condition, { body: alt_exprs.length > 0 ? make_node(AST_Binary, self, { operator : "||", left : self.condition, right : make_sequence(self.alternative, alt_exprs) }).transform(compressor) : self.condition.clone() }).optimize(compressor)); } else if (alt_exprs.length == 0) { if (self_condition_length === negated_length && !negated_is_best && self.condition instanceof AST_Binary && self.condition.operator == "||") { // although the code length of self.condition and negated are the same, // negated does not require additional surrounding parentheses. // see https://github.com/mishoo/UglifyJS/issues/979 negated_is_best = true; } body.push(make_node(AST_SimpleStatement, self, { body: make_node(AST_Binary, self, { operator : negated_is_best ? "||" : "&&", left : negated_is_best ? negated : self.condition, right : make_sequence(self.body, body_exprs) }).transform(compressor) }).optimize(compressor)); } else { body.push(make_node(AST_SimpleStatement, self, { body: make_node(AST_Conditional, self, { condition : self.condition, consequent : make_sequence(self.body, body_exprs), alternative : make_sequence(self.alternative, alt_exprs) }) }).optimize(compressor)); } refs.forEach(function(ref) { ref.definition().references.push(ref); }); return make_node(AST_BlockStatement, self, { body: body }).optimize(compressor); } if (is_empty(self.body)) { self = make_node(AST_If, self, { condition: negated, body: self.alternative, alternative: null }); } if (self.body instanceof AST_Exit && self.alternative instanceof AST_Exit && self.body.TYPE == self.alternative.TYPE) { var exit = make_node(self.body.CTOR, self, { value: make_node(AST_Conditional, self, { condition : self.condition, consequent : self.body.value || make_node(AST_Undefined, self.body).transform(compressor), alternative : self.alternative.value || make_node(AST_Undefined, self.alternative).transform(compressor) }) }); if (exit instanceof AST_Return) { exit.in_bool = self.body.in_bool || self.alternative.in_bool; } return exit; } if (self.body instanceof AST_If && !self.body.alternative && !self.alternative) { self = make_node(AST_If, self, { condition: make_node(AST_Binary, self.condition, { operator: "&&", left: self.condition, right: self.body.condition }), body: self.body.body, alternative: null }); } if (aborts(self.body)) { if (self.alternative) { var alt = self.alternative; self.alternative = null; return make_node(AST_BlockStatement, self, { body: [ self, alt ] }).optimize(compressor); } } if (aborts(self.alternative)) { var body = self.body; self.body = self.alternative; self.condition = negated_is_best ? negated : self.condition.negate(compressor); self.alternative = null; return make_node(AST_BlockStatement, self, { body: [ self, body ] }).optimize(compressor); } if (compressor.option("typeofs")) mark_locally_defined(self.condition, self.body, self.alternative); return self; function sequencesize(stat, defuns, var_defs, refs) { if (stat == null) return []; if (stat instanceof AST_BlockStatement) { var exprs = []; for (var i = 0; i < stat.body.length; i++) { var line = stat.body[i]; if (line instanceof AST_Defun) { defuns.push(line); } else if (line instanceof AST_EmptyStatement) { continue; } else if (line instanceof AST_SimpleStatement) { if (!compressor.option("sequences") && exprs.length > 0) return; exprs.push(line.body); } else if (line instanceof AST_Var) { if (!compressor.option("sequences") && exprs.length > 0) return; line.definitions.forEach(process_var_def); } else { return; } } return exprs; } if (stat instanceof AST_Defun) { defuns.push(stat); return []; } if (stat instanceof AST_EmptyStatement) return []; if (stat instanceof AST_SimpleStatement) return [ stat.body ]; if (stat instanceof AST_Var) { var exprs = []; stat.definitions.forEach(process_var_def); return exprs; } function process_var_def(var_def) { var_defs.push(make_node(AST_VarDef, var_def, { name: var_def.name, value: null })); if (!var_def.value) return; var ref = make_node(AST_SymbolRef, var_def.name, var_def.name); exprs.push(make_node(AST_Assign, var_def, { operator: "=", left: ref, right: var_def.value })); refs.push(ref); } } }); OPT(AST_Switch, function(self, compressor) { if (!compressor.option("switches")) return self; var branch; var value = self.expression.evaluate(compressor); if (!(value instanceof AST_Node)) { var orig = self.expression; self.expression = make_node_from_constant(value, orig); self.expression = best_of_expression(self.expression.transform(compressor), orig); } if (!compressor.option("dead_code")) return self; if (value instanceof AST_Node) { value = self.expression.evaluate(compressor, true); } var decl = []; var body = []; var default_branch; var exact_match; for (var i = 0, len = self.body.length; i < len && !exact_match; i++) { branch = self.body[i]; if (branch instanceof AST_Default) { var prev = body[body.length - 1]; if (default_branch || is_break(branch.body[0], compressor) && (!prev || aborts(prev))) { eliminate_branch(branch, prev); continue; } else { default_branch = branch; } } else if (!(value instanceof AST_Node)) { var exp = branch.expression.evaluate(compressor); if (!(exp instanceof AST_Node) && exp !== value) { eliminate_branch(branch, body[body.length - 1]); continue; } if (exp instanceof AST_Node) exp = branch.expression.evaluate(compressor, true); if (exp === value) { exact_match = branch; if (default_branch) { var default_index = body.indexOf(default_branch); body.splice(default_index, 1); eliminate_branch(default_branch, body[default_index - 1]); default_branch = null; } } } if (aborts(branch)) { var prev = body[body.length - 1]; if (aborts(prev) && prev.body.length == branch.body.length && make_node(AST_BlockStatement, prev, prev).equivalent_to(make_node(AST_BlockStatement, branch, branch))) { prev.body = []; } } body.push(branch); } while (i < len) eliminate_branch(self.body[i++], body[body.length - 1]); while (branch = body[body.length - 1]) { var stat = branch.body[branch.body.length - 1]; if (is_break(stat, compressor)) branch.body.pop(); if (branch === default_branch) { if (!has_declarations_only(branch)) break; } else if (branch.expression.has_side_effects(compressor)) { break; } else if (default_branch) { if (!has_declarations_only(default_branch)) break; if (body[body.length - 2] !== default_branch) break; default_branch.body = default_branch.body.concat(branch.body); branch.body = []; } else if (!has_declarations_only(branch)) break; eliminate_branch(branch); if (body.pop() === default_branch) default_branch = null; } if (body.length == 0) { return make_node(AST_BlockStatement, self, { body: decl.concat(make_node(AST_SimpleStatement, self.expression, { body: self.expression })) }).optimize(compressor); } body[0].body = decl.concat(body[0].body); self.body = body; if (compressor.option("conditionals")) switch (body.length) { case 1: if (!no_break(body[0])) break; var exp = body[0].expression; var statements = body[0].body.slice(); if (body[0] !== default_branch && body[0] !== exact_match) return make_node(AST_If, self, { condition: make_node(AST_Binary, self, { operator: "===", left: self.expression, right: exp, }), body: make_node(AST_BlockStatement, self, { body: statements, }), alternative: null, }).optimize(compressor); if (exp) statements.unshift(make_node(AST_SimpleStatement, exp, { body: exp, })); statements.unshift(make_node(AST_SimpleStatement, self.expression, { body:self.expression, })); return make_node(AST_BlockStatement, self, { body: statements, }).optimize(compressor); case 2: if (!member(default_branch, body) || !no_break(body[1])) break; var statements = body[0].body.slice(); var exclusive = statements.length && is_break(statements[statements.length - 1], compressor); if (exclusive) statements.pop(); if (!all(statements, no_break)) break; var alternative = body[1].body.length && make_node(AST_BlockStatement, body[1], body[1]); var node = make_node(AST_If, self, { condition: make_node(AST_Binary, self, body[0] === default_branch ? { operator: "!==", left: self.expression, right: body[1].expression, } : { operator: "===", left: self.expression, right: body[0].expression, }), body: make_node(AST_BlockStatement, body[0], { body: statements, }), alternative: exclusive && alternative || null, }); if (!exclusive && alternative) node = make_node(AST_BlockStatement, self, { body: [ node, alternative ], }); return node.optimize(compressor); } return self; function is_break(node, tw) { return node instanceof AST_Break && tw.loopcontrol_target(node) === self; } function no_break(node) { var found = false; var tw = new TreeWalker(function(node) { if (found || node instanceof AST_Lambda || node instanceof AST_SimpleStatement) return true; if (is_break(node, tw)) found = true; }); tw.push(self); node.walk(tw); return !found; } function eliminate_branch(branch, prev) { if (prev && !aborts(prev)) { prev.body = prev.body.concat(branch.body); } else { extract_declarations_from_unreachable_code(branch, decl); } } }); OPT(AST_Try, function(self, compressor) { self.body = tighten_body(self.body, compressor); if (compressor.option("dead_code")) { if (has_declarations_only(self)) { var body = []; if (self.bcatch) { extract_declarations_from_unreachable_code(self.bcatch, body); body.forEach(function(stat) { if (!(stat instanceof AST_Definitions)) return; stat.definitions.forEach(function(var_def) { var def = var_def.name.definition().redefined(); if (!def) return; var_def.name = var_def.name.clone(); var_def.name.thedef = def; }); }); } [].unshift.apply(body, self.body); if (self.bfinally) [].push.apply(body, self.bfinally.body); return make_node(AST_BlockStatement, self, { body: body }).optimize(compressor); } if (self.bfinally && has_declarations_only(self.bfinally)) { var body = self.body.concat(self.bfinally.body); if (!self.bcatch) return make_node(AST_BlockStatement, self, { body: body }).optimize(compressor); self.body = body; self.bfinally = null; } } return self; }); AST_Definitions.DEFMETHOD("remove_initializers", function() { this.definitions.forEach(function(def) { def.value = null; }); }); AST_Definitions.DEFMETHOD("to_assignments", function(compressor) { var reduce_vars = compressor.option("reduce_vars"); var assignments = this.definitions.reduce(function(a, def) { if (def.value) { var name = make_node(AST_SymbolRef, def.name, def.name); a.push(make_node(AST_Assign, def, { operator : "=", left : name, right : def.value })); if (reduce_vars) name.definition().fixed = false; } def = def.name.definition(); def.eliminated++; def.replaced--; return a; }, []); if (assignments.length == 0) return null; return make_sequence(this, assignments); }); OPT(AST_Definitions, function(self, compressor) { return self.definitions.length ? self : make_node(AST_EmptyStatement, self); }); function lift_sequence_in_expression(node, compressor) { var exp = node.expression; if (!(exp instanceof AST_Sequence)) return node; var x = exp.expressions.slice(); var e = node.clone(); e.expression = x.pop(); x.push(e); return make_sequence(node, x); } function drop_unused_call_args(call, compressor, fns_with_marked_args) { var exp = call.expression; var fn = exp instanceof AST_SymbolRef ? exp.fixed_value() : exp; if (!(fn instanceof AST_Lambda)) return; if (fn.uses_arguments) return; if (fn.pinned()) return; if (fns_with_marked_args && fns_with_marked_args.indexOf(fn) < 0) return; var args = call.args; var pos = 0, last = 0; var drop_fargs = fn === exp && !fn.name && compressor.drop_fargs(fn, call); var side_effects = []; for (var i = 0; i < args.length; i++) { var trim = i >= fn.argnames.length; if (trim || fn.argnames[i].__unused) { var node = args[i].drop_side_effect_free(compressor); if (drop_fargs) { fn.argnames.splice(i, 1); args.splice(i, 1); if (node) side_effects.push(node); i--; continue; } else if (node) { side_effects.push(node); args[pos++] = make_sequence(call, side_effects); side_effects = []; } else if (!trim) { if (side_effects.length) { node = make_sequence(call, side_effects); side_effects = []; } else { node = make_node(AST_Number, args[i], { value: 0 }); } args[pos++] = node; continue; } } else { side_effects.push(args[i]); args[pos++] = make_sequence(call, side_effects); side_effects = []; } last = pos; } if (drop_fargs) for (; i < fn.argnames.length; i++) { if (fn.argnames[i].__unused) fn.argnames.splice(i--, 1); } args.length = last; if (!side_effects.length) return; var arg = make_sequence(call, side_effects); args.push(args.length < fn.argnames.length ? make_node(AST_UnaryPrefix, call, { operator: "void", expression: arg }) : arg); } OPT(AST_Call, function(self, compressor) { var exp = self.expression; if (compressor.option("sequences")) { if (exp instanceof AST_PropAccess) { var seq = lift_sequence_in_expression(exp, compressor); if (seq !== exp) { var call = self.clone(); call.expression = seq.expressions.pop(); seq.expressions.push(call); return seq.optimize(compressor); } } else if (!needs_unbinding(compressor, exp.tail_node())) { var seq = lift_sequence_in_expression(self, compressor); if (seq !== self) return seq.optimize(compressor); } } if (compressor.option("unused")) drop_unused_call_args(self, compressor); if (compressor.option("unsafe")) { if (is_undeclared_ref(exp)) switch (exp.name) { case "Array": if (self.args.length == 1) { var first = self.args[0]; if (first instanceof AST_Number) try { var length = first.value; if (length > 6) break; var elements = Array(length); for (var i = 0; i < length; i++) elements[i] = make_node(AST_Hole, self); return make_node(AST_Array, self, { elements: elements }); } catch (ex) { AST_Node.warn("Invalid array length: {length} [{file}:{line},{col}]", { length: length, file: self.start.file, line: self.start.line, col: self.start.col }); break; } if (!first.is_boolean(compressor) && !first.is_string(compressor)) break; } return make_node(AST_Array, self, { elements: self.args }); case "Object": if (self.args.length == 0) { return make_node(AST_Object, self, { properties: [] }); } break; case "String": if (self.args.length == 0) return make_node(AST_String, self, { value: "" }); if (self.args.length <= 1) return make_node(AST_Binary, self, { left: self.args[0], operator: "+", right: make_node(AST_String, self, { value: "" }) }).optimize(compressor); break; case "Number": if (self.args.length == 0) return make_node(AST_Number, self, { value: 0 }); if (self.args.length == 1) return make_node(AST_UnaryPrefix, self, { expression: self.args[0], operator: "+" }).optimize(compressor); case "Boolean": if (self.args.length == 0) return make_node(AST_False, self); if (self.args.length == 1) return make_node(AST_UnaryPrefix, self, { expression: make_node(AST_UnaryPrefix, self, { expression: self.args[0], operator: "!" }), operator: "!" }).optimize(compressor); break; case "RegExp": var params = []; if (all(self.args, function(arg) { var value = arg.evaluate(compressor); params.unshift(value); return arg !== value; })) { try { return best_of(compressor, self, make_node(AST_RegExp, self, { value: RegExp.apply(RegExp, params), })); } catch (ex) { AST_Node.warn("Error converting {expr} [{file}:{line},{col}]", { expr: self.print_to_string(), file: self.start.file, line: self.start.line, col: self.start.col }); } } break; } else if (exp instanceof AST_Dot) switch(exp.property) { case "toString": if (self.args.length == 0 && !exp.expression.may_throw_on_access(compressor)) { return make_node(AST_Binary, self, { left: make_node(AST_String, self, { value: "" }), operator: "+", right: exp.expression }).optimize(compressor); } break; case "join": if (exp.expression instanceof AST_Array) EXIT: { var separator; if (self.args.length > 0) { separator = self.args[0].evaluate(compressor); if (separator === self.args[0]) break EXIT; // not a constant } var elements = []; var consts = []; exp.expression.elements.forEach(function(el) { var value = el.evaluate(compressor); if (value !== el) { consts.push(value); } else { if (consts.length > 0) { elements.push(make_node(AST_String, self, { value: consts.join(separator) })); consts.length = 0; } elements.push(el); } }); if (consts.length > 0) { elements.push(make_node(AST_String, self, { value: consts.join(separator) })); } if (elements.length == 0) return make_node(AST_String, self, { value: "" }); if (elements.length == 1) { if (elements[0].is_string(compressor)) { return elements[0]; } return make_node(AST_Binary, elements[0], { operator : "+", left : make_node(AST_String, self, { value: "" }), right : elements[0] }); } if (separator == "") { var first; if (elements[0].is_string(compressor) || elements[1].is_string(compressor)) { first = elements.shift(); } else { first = make_node(AST_String, self, { value: "" }); } return elements.reduce(function(prev, el) { return make_node(AST_Binary, el, { operator : "+", left : prev, right : el }); }, first).optimize(compressor); } // need this awkward cloning to not affect original element // best_of will decide which one to get through. var node = self.clone(); node.expression = node.expression.clone(); node.expression.expression = node.expression.expression.clone(); node.expression.expression.elements = elements; return best_of(compressor, self, node); } break; case "charAt": if (self.args.length < 2) { var node = make_node(AST_Sub, self, { expression: exp.expression, property: self.args.length ? make_node(AST_Binary, self.args[0], { operator: "|", left: make_node(AST_Number, self, { value: 0 }), right: self.args[0] }) : make_node(AST_Number, self, { value: 0 }) }); node.is_string = return_true; return node.optimize(compressor); } break; case "apply": if (self.args.length == 2 && self.args[1] instanceof AST_Array) { var args = self.args[1].elements.slice(); args.unshift(self.args[0]); return make_node(AST_Call, self, { expression: make_node(AST_Dot, exp, { expression: exp.expression, property: "call" }), args: args }).optimize(compressor); } break; case "call": var func = exp.expression; if (func instanceof AST_SymbolRef) { func = func.fixed_value(); } if (func instanceof AST_Lambda && !func.contains_this()) { return (self.args.length ? make_sequence(this, [ self.args[0], make_node(AST_Call, self, { expression: exp.expression, args: self.args.slice(1) }) ]) : make_node(AST_Call, self, { expression: exp.expression, args: [] })).optimize(compressor); } break; } } if (compressor.option("unsafe_Function") && is_undeclared_ref(exp) && exp.name == "Function") { // new Function() => function(){} if (self.args.length == 0) return make_node(AST_Function, self, { argnames: [], body: [] }); if (all(self.args, function(x) { return x instanceof AST_String; })) { // quite a corner-case, but we can handle it: // https://github.com/mishoo/UglifyJS/issues/203 // if the code argument is a constant, then we can minify it. try { var code = "n(function(" + self.args.slice(0, -1).map(function(arg) { return arg.value; }).join(",") + "){" + self.args[self.args.length - 1].value + "})"; var ast = parse(code); var mangle = { ie8: compressor.option("ie8") }; ast.figure_out_scope(mangle); var comp = new Compressor(compressor.options); ast = ast.transform(comp); ast.figure_out_scope(mangle); ast.compute_char_frequency(mangle); ast.mangle_names(mangle); var fun; ast.walk(new TreeWalker(function(node) { if (fun) return true; if (node instanceof AST_Lambda) { fun = node; return true; } })); var code = OutputStream(); AST_BlockStatement.prototype._codegen.call(fun, code); self.args = [ make_node(AST_String, self, { value: fun.argnames.map(function(arg) { return arg.print_to_string(); }).join(",") }), make_node(AST_String, self.args[self.args.length - 1], { value: code.get().replace(/^\{|\}$/g, "") }) ]; return self; } catch (ex) { if (ex instanceof JS_Parse_Error) { AST_Node.warn("Error parsing code passed to new Function [{file}:{line},{col}]", self.args[self.args.length - 1].start); AST_Node.warn(ex.toString()); } else { throw ex; } } } } var fn = exp instanceof AST_SymbolRef ? exp.fixed_value() : exp; var is_func = fn instanceof AST_Lambda; var stat = is_func && fn.first_statement(); var can_inline = compressor.option("inline") && !self.is_expr_pure(compressor); if (can_inline && stat instanceof AST_Return) { var value = stat.value; if (exp === fn && (!value || value.is_constant_expression())) { var args = self.args.concat(value || make_node(AST_Undefined, self)); return make_sequence(self, args).optimize(compressor); } } if (is_func) { var def, value, var_assigned = false; if (can_inline && !fn.uses_arguments && !fn.pinned() && !(fn.name && fn instanceof AST_Function) && (exp === fn || !recursive_ref(compressor, def = exp.definition()) && fn.is_constant_expression(compressor.find_parent(AST_Scope))) && (value = can_flatten_body(stat)) && !fn.contains_this()) { var replacing = exp === fn || compressor.option("unused") && def.references.length - def.replaced == 1; if (can_substitute_directly()) { var args = self.args.slice(); var refs = []; args.push(value.clone(true).transform(new TreeTransformer(function(node) { if (node instanceof AST_SymbolRef) { var def = node.definition(); if (fn.variables.get(node.name) !== def) { refs.push(node); return node; } var index = resolve_index(def); var arg = args[index]; if (!arg) return make_node(AST_Undefined, self); args[index] = null; var parent = this.parent(); return parent ? maintain_this_binding(compressor, parent, node, arg) : arg; } }))); var node = make_sequence(self, args.filter(function(arg) { return arg; })).optimize(compressor); node = maintain_this_binding(compressor, compressor.parent(), compressor.self(), node); if (replacing || best_of(compressor, self, node) === node) { refs.forEach(function(ref) { var def = ref.definition(); def.references.push(ref); if (replacing) def.replaced++; }); return node; } } var scope, in_loop, level = -1; if (replacing && can_inject_symbols()) { fn._squeezed = true; if (exp !== fn) fn.parent_scope = exp.scope; var node = make_sequence(self, flatten_fn()).optimize(compressor); return maintain_this_binding(compressor, compressor.parent(), compressor.self(), node); } } if (compressor.option("side_effects") && all(fn.body, is_empty) && (fn !== exp || safe_to_drop(fn, compressor))) { var args = self.args.concat(make_node(AST_Undefined, self)); return make_sequence(self, args).optimize(compressor); } } if (compressor.option("drop_console")) { if (exp instanceof AST_PropAccess) { var name = exp.expression; while (name.expression) { name = name.expression; } if (is_undeclared_ref(name) && name.name == "console") { return make_node(AST_Undefined, self).optimize(compressor); } } } if (compressor.option("negate_iife") && compressor.parent() instanceof AST_SimpleStatement && is_iife_call(self)) { return self.negate(compressor, true); } return try_evaluate(compressor, self); function return_value(stat) { if (!stat) return make_node(AST_Undefined, self); if (stat instanceof AST_Return) return stat.value || make_node(AST_Undefined, self); if (stat instanceof AST_SimpleStatement) return make_node(AST_UnaryPrefix, stat, { operator: "void", expression: stat.body }); } function can_flatten_body(stat) { var len = fn.body.length; if (compressor.option("inline") < 3) { return len == 1 && return_value(stat); } stat = null; for (var i = 0; i < len; i++) { var line = fn.body[i]; if (line instanceof AST_Var) { var assigned = var_assigned || !all(line.definitions, function(var_def) { return !var_def.value; }); if (assigned) { var_assigned = true; if (stat) return false; } } else if (line instanceof AST_Defun || line instanceof AST_EmptyStatement) { continue; } else if (stat) { return false; } else { stat = line; } } return return_value(stat); } function resolve_index(def) { for (var i = fn.argnames.length; --i >= 0;) { if (fn.argnames[i].definition() === def) return i; } } function can_substitute_directly() { if (var_assigned) return; if (compressor.option("inline") < 2 && fn.argnames.length) return; if (!fn.variables.all(function(def) { return def.references.length - def.replaced < 2 && def.orig[0] instanceof AST_SymbolFunarg; })) return; var abort = false; var begin; var in_order = []; var side_effects = false; value.walk(new TreeWalker(function(node, descend) { if (abort) return true; if (node instanceof AST_Binary && lazy_op[node.operator] || node instanceof AST_Conditional) { in_order = null; return; } if (node instanceof AST_Scope) return abort = true; if (node instanceof AST_SymbolRef) { var def = node.definition(); if (fn.variables.get(node.name) !== def) { in_order = null; return; } if (def.init instanceof AST_Defun) return abort = true; if (is_lhs(node, this.parent())) return abort = true; var index = resolve_index(def); if (!(begin < index)) begin = index; if (!in_order) return; if (side_effects) { in_order = null; } else { in_order.push(fn.argnames[index]); } return; } if (node.has_side_effects(compressor)) { descend(); side_effects = true; return true; } })); if (abort) return; var end = self.args.length; if (in_order && fn.argnames.length >= end) { end = fn.argnames.length; while (end-- > begin && fn.argnames[end] === in_order.pop()); end++; } var scope = side_effects && !in_order && compressor.find_parent(AST_Scope); return end <= begin || all(self.args.slice(begin, end), scope ? function(funarg) { return funarg.is_constant_expression(scope); } : function(funarg) { return !funarg.has_side_effects(compressor); }); } function var_exists(defined, name) { return defined[name] || identifier_atom[name] || scope.var_names()[name]; } function can_inject_args(catches, used, safe_to_inject) { for (var i = 0; i < fn.argnames.length; i++) { var arg = fn.argnames[i]; if (arg.__unused) continue; if (!safe_to_inject || var_exists(catches, arg.name)) return false; used[arg.name] = true; if (in_loop) in_loop.push(arg.definition()); } return true; } function can_inject_vars(catches, used, safe_to_inject) { for (var i = 0; i < fn.body.length; i++) { var stat = fn.body[i]; if (stat instanceof AST_Defun) { if (!safe_to_inject || var_exists(used, stat.name.name)) return false; continue; } if (!(stat instanceof AST_Var)) continue; if (!safe_to_inject) return false; for (var j = stat.definitions.length; --j >= 0;) { var name = stat.definitions[j].name; if (var_exists(catches, name.name)) return false; if (in_loop) in_loop.push(name.definition()); } } return true; } function can_inject_symbols() { var catches = Object.create(null); var child; scope = compressor.self(); do { child = scope; scope = compressor.parent(++level); if (scope instanceof AST_Catch) { catches[scope.argname.name] = true; } else if (scope instanceof AST_DWLoop) { in_loop = []; } else if (scope instanceof AST_For) { if (scope.init === child) continue; in_loop = []; } else if (scope instanceof AST_ForIn) { if (scope.init === child) continue; if (scope.object === child) continue; in_loop = []; } else if (scope instanceof AST_SymbolRef) { if (scope.fixed_value() instanceof AST_Scope) return false; } } while (!(scope instanceof AST_Scope)); var safe_to_inject = (!(scope instanceof AST_Toplevel) || compressor.toplevel.vars) && (exp !== fn || fn.parent_scope === compressor.find_parent(AST_Scope)); var inline = compressor.option("inline"); var used = Object.create(catches); if (!can_inject_args(catches, used, inline >= 2 && safe_to_inject)) return false; if (!can_inject_vars(catches, used, inline >= 3 && safe_to_inject)) return false; return !in_loop || in_loop.length == 0 || !is_reachable(fn, in_loop); } function append_var(decls, expressions, name, value) { var def = name.definition(); scope.variables.set(name.name, def); scope.enclosed.push(def); if (!scope.var_names()[name.name]) { scope.var_names()[name.name] = true; decls.push(make_node(AST_VarDef, name, { name: name, value: null })); } var sym = make_node(AST_SymbolRef, name, name); def.references.push(sym); if (value) expressions.push(make_node(AST_Assign, self, { operator: "=", left: sym, right: value })); } function flatten_args(decls, expressions) { var len = fn.argnames.length; for (var i = self.args.length; --i >= len;) { expressions.push(self.args[i]); } for (i = len; --i >= 0;) { var name = fn.argnames[i]; var value = self.args[i]; if (name.__unused || scope.var_names()[name.name]) { if (value) expressions.push(value); } else { var symbol = make_node(AST_SymbolVar, name, name); name.definition().orig.push(symbol); if (!value && in_loop) value = make_node(AST_Undefined, self); append_var(decls, expressions, symbol, value); } } decls.reverse(); expressions.reverse(); } function flatten_vars(decls, expressions) { var pos = expressions.length; for (var i = 0; i < fn.body.length; i++) { var stat = fn.body[i]; if (!(stat instanceof AST_Var)) continue; for (var j = 0; j < stat.definitions.length; j++) { var var_def = stat.definitions[j]; var name = var_def.name; var redef = name.definition().redefined(); if (redef) { name = name.clone(); name.thedef = redef; } append_var(decls, expressions, name, var_def.value); if (in_loop && all(fn.argnames, function(argname) { return argname.name != name.name; })) { var def = fn.variables.get(name.name); var sym = make_node(AST_SymbolRef, name, name); def.references.push(sym); expressions.splice(pos++, 0, make_node(AST_Assign, var_def, { operator: "=", left: sym, right: make_node(AST_Undefined, name) })); } } } } function flatten_fn() { var decls = []; var expressions = []; flatten_args(decls, expressions); flatten_vars(decls, expressions); expressions.push(value); var args = fn.body.filter(function(stat) { if (stat instanceof AST_Defun) { var def = stat.name.definition(); scope.functions.set(def.name, def); scope.variables.set(def.name, def); scope.enclosed.push(def); scope.var_names()[def.name] = true; return true; } }); args.unshift(scope.body.indexOf(compressor.parent(level - 1)) + 1, 0); if (decls.length) args.push(make_node(AST_Var, fn, { definitions: decls })); [].splice.apply(scope.body, args); fn.enclosed.forEach(function(def) { if (scope.var_names()[def.name]) return; scope.enclosed.push(def); scope.var_names()[def.name] = true; }); return expressions; } }); OPT(AST_New, function(self, compressor) { if (compressor.option("sequences")) { var seq = lift_sequence_in_expression(self, compressor); if (seq !== self) return seq.optimize(compressor); } if (compressor.option("unsafe")) { var exp = self.expression; if (is_undeclared_ref(exp)) { switch (exp.name) { case "Object": case "RegExp": case "Function": case "Error": case "Array": return make_node(AST_Call, self, self).transform(compressor); } } } return self; }); // (a = b, x && a = c) => a = x ? c : b // (a = b, x || a = c) => a = x ? b : c function to_conditional_assignment(compressor, def, value, node) { if (!(node instanceof AST_Binary)) return; if (!lazy_op[node.operator]) return; if (!(node.right instanceof AST_Assign)) return; if (node.right.operator != "=") return; if (!(node.right.left instanceof AST_SymbolRef)) return; if (node.right.left.definition() !== def) return; if (value.has_side_effects(compressor)) return; if (!safe_from_assignment(node.left)) return; if (!safe_from_assignment(node.right.right)) return; def.replaced++; return node.operator == "&&" ? make_node(AST_Conditional, node, { condition: node.left, consequent: node.right.right, alternative: value }) : make_node(AST_Conditional, node, { condition: node.left, consequent: value, alternative: node.right.right }); function safe_from_assignment(node) { if (node.has_side_effects(compressor)) return; var hit = false; node.walk(new TreeWalker(function(node) { if (hit) return true; if (node instanceof AST_SymbolRef && node.definition() === def) return hit = true; })); return !hit; } } OPT(AST_Sequence, function(self, compressor) { var expressions = filter_for_side_effects(); var end = expressions.length - 1; merge_conditional_assignments(); trim_right_for_undefined(); if (end == 0) { self = maintain_this_binding(compressor, compressor.parent(), compressor.self(), expressions[0]); if (!(self instanceof AST_Sequence)) self = self.optimize(compressor); return self; } self.expressions = expressions; return self; function filter_for_side_effects() { if (!compressor.option("side_effects")) return self.expressions; var expressions = []; var first = first_in_statement(compressor); var last = self.expressions.length - 1; self.expressions.forEach(function(expr, index) { if (index < last) expr = expr.drop_side_effect_free(compressor, first); if (expr) { merge_sequence(expressions, expr); first = false; } }); return expressions; } function trim_right_for_undefined() { if (!compressor.option("side_effects")) return; while (end > 0 && is_undefined(expressions[end], compressor)) end--; if (end < expressions.length - 1) { expressions[end] = make_node(AST_UnaryPrefix, self, { operator : "void", expression : expressions[end] }); expressions.length = end + 1; } } function merge_conditional_assignments() { if (!compressor.option("conditionals")) return; for (var i = 1; i < end; i++) { var assign = expressions[i - 1]; if (!(assign instanceof AST_Assign)) continue; if (assign.operator != "=") continue; if (!(assign.left instanceof AST_SymbolRef)) continue; var def = assign.left.definition(); var cond = to_conditional_assignment(compressor, def, assign.right, expressions[i]); if (!cond) continue; assign.right = cond; expressions.splice(i, 1); end--; } } }); OPT(AST_UnaryPostfix, function(self, compressor) { if (compressor.option("sequences")) { var seq = lift_sequence_in_expression(self, compressor); if (seq !== self) return seq.optimize(compressor); } return try_evaluate(compressor, self); }); var SIGN_OPS = makePredicate("+ -"); var MULTIPLICATIVE_OPS = makePredicate("* / %"); OPT(AST_UnaryPrefix, function(self, compressor) { var op = self.operator; var exp = self.expression; if (compressor.option("evaluate") && op == "delete" && !(exp instanceof AST_SymbolRef || exp instanceof AST_PropAccess || is_identifier_atom(exp))) { if (exp instanceof AST_Sequence) { exp = exp.expressions.slice(); exp.push(make_node(AST_True, self)); return make_sequence(self, exp).optimize(compressor); } return make_sequence(self, [ exp, make_node(AST_True, self) ]).optimize(compressor); } if (compressor.option("sequences") && !(op == "typeof" && is_undeclared_ref(exp.tail_node()))) { var seq = lift_sequence_in_expression(self, compressor); if (seq !== self) return seq.optimize(compressor); } if (compressor.option("side_effects") && op == "void") { exp = exp.drop_side_effect_free(compressor); if (!exp) return make_node(AST_Undefined, self).optimize(compressor); self.expression = exp; return self; } if (compressor.option("booleans")) { if (op == "!" && exp.is_truthy()) { return make_sequence(self, [ exp, make_node(AST_False, self) ]).optimize(compressor); } else if (compressor.in_boolean_context()) switch (op) { case "!": if (exp instanceof AST_UnaryPrefix && exp.operator == "!") { // !!foo => foo, if we're in boolean context return exp.expression; } if (exp instanceof AST_Binary) { self = best_of(compressor, self, exp.negate(compressor, first_in_statement(compressor))); } break; case "typeof": // typeof always returns a non-empty string, thus it's // always true in booleans AST_Node.warn("Boolean expression always true [{file}:{line},{col}]", self.start); return (exp instanceof AST_SymbolRef ? make_node(AST_True, self) : make_sequence(self, [ exp, make_node(AST_True, self) ])).optimize(compressor); } } if (op == "-" && exp instanceof AST_Infinity) exp = exp.transform(compressor); if (compressor.option("evaluate") && exp instanceof AST_Binary && SIGN_OPS[op] && MULTIPLICATIVE_OPS[exp.operator] && (exp.left.is_constant() || !exp.right.has_side_effects(compressor))) { return make_node(AST_Binary, self, { operator: exp.operator, left: make_node(AST_UnaryPrefix, exp.left, { operator: op, expression: exp.left }), right: exp.right }); } // avoids infinite recursion of numerals return op == "-" && (exp instanceof AST_Number || exp instanceof AST_Infinity) ? self : try_evaluate(compressor, self); }); AST_Binary.DEFMETHOD("lift_sequences", function(compressor) { if (this.left instanceof AST_PropAccess) { if (!(this.left.expression instanceof AST_Sequence)) return this; var x = this.left.expression.expressions.slice(); var e = this.clone(); e.left = e.left.clone(); e.left.expression = x.pop(); x.push(e); return make_sequence(this, x); } if (this.left instanceof AST_Sequence) { var x = this.left.expressions.slice(); var e = this.clone(); e.left = x.pop(); x.push(e); return make_sequence(this, x); } if (this.right instanceof AST_Sequence) { if (this.left.has_side_effects(compressor)) return this; var assign = this.operator == "=" && this.left instanceof AST_SymbolRef; var x = this.right.expressions; var last = x.length - 1; for (var i = 0; i < last; i++) { if (!assign && x[i].has_side_effects(compressor)) break; } if (i == last) { x = x.slice(); var e = this.clone(); e.right = x.pop(); x.push(e); return make_sequence(this, x); } if (i > 0) { var e = this.clone(); e.right = make_sequence(this.right, x.slice(i)); x = x.slice(0, i); x.push(e); return make_sequence(this, x); } } return this; }); var indexFns = makePredicate("indexOf lastIndexOf"); var commutativeOperators = makePredicate("== === != !== * & | ^"); function is_object(node) { while ((node = node.tail_node()) instanceof AST_SymbolRef) { node = node.fixed_value(); if (!node) return false; } return node instanceof AST_Array || node instanceof AST_Lambda || node instanceof AST_New || node instanceof AST_Object; } OPT(AST_Binary, function(self, compressor) { function reversible() { return self.left.is_constant() || self.right.is_constant() || !self.left.has_side_effects(compressor) && !self.right.has_side_effects(compressor); } function reverse(op) { if (reversible()) { if (op) self.operator = op; var tmp = self.left; self.left = self.right; self.right = tmp; } } function swap_chain() { var rhs = self.right; self.left = make_node(AST_Binary, self, { operator: self.operator, left: self.left, right: rhs.left, start: self.left.start, end: rhs.left.end }); self.right = rhs.right; self.left = self.left.transform(compressor); } if (commutativeOperators[self.operator] && self.right.is_constant() && !self.left.is_constant() && !(self.left instanceof AST_Binary && PRECEDENCE[self.left.operator] >= PRECEDENCE[self.operator])) { // if right is a constant, whatever side effects the // left side might have could not influence the // result. hence, force switch. reverse(); } if (compressor.option("sequences")) { var seq = self.lift_sequences(compressor); if (seq !== self) return seq.optimize(compressor); } if (compressor.option("assignments") && lazy_op[self.operator]) { var assign = self.right; // a || (a = x) => a = a || x // a && (a = x) => a = a && x if (self.left instanceof AST_SymbolRef && assign instanceof AST_Assign && assign.operator == "=" && self.left.equivalent_to(assign.left)) { self.right = assign.right; assign.right = self; return assign; } } if (compressor.option("comparisons")) switch (self.operator) { case "===": case "!==": if (is_undefined(self.left, compressor) && self.right.is_defined(compressor)) { AST_Node.warn("Expression always defined [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.right, make_node(self.operator == "===" ? AST_False : AST_True, self) ]).optimize(compressor); } var is_strict_comparison = true; if ((self.left.is_string(compressor) && self.right.is_string(compressor)) || (self.left.is_number(compressor) && self.right.is_number(compressor)) || (self.left.is_boolean(compressor) && self.right.is_boolean(compressor)) || can_self_compare(self.left) && self.left.equivalent_to(self.right)) { self.operator = self.operator.slice(0, 2); } // XXX: intentionally falling down to the next case case "==": case "!=": // void 0 == x => null == x if (!is_strict_comparison && is_undefined(self.left, compressor)) { self.left = make_node(AST_Null, self.left); } // "undefined" == typeof x => undefined === x else if (compressor.option("typeofs") && self.left instanceof AST_String && self.left.value == "undefined" && self.right instanceof AST_UnaryPrefix && self.right.operator == "typeof") { var expr = self.right.expression; if (expr instanceof AST_SymbolRef ? expr.is_declared(compressor) : !(expr instanceof AST_PropAccess && compressor.option("ie8"))) { self.right = expr; self.left = make_node(AST_Undefined, self.left).optimize(compressor); if (self.operator.length == 2) self.operator += "="; } } // obj !== obj => false else if (self.left instanceof AST_SymbolRef && self.right instanceof AST_SymbolRef && self.left.definition() === self.right.definition() && is_object(self.left)) { return make_node(self.operator[0] == "=" ? AST_True : AST_False, self).optimize(compressor); } break; case "&&": case "||": // void 0 !== x && null !== x => null != x // void 0 === x || null === x => null == x var lhs = self.left; if (lhs.operator == self.operator) { lhs = lhs.right; } if (lhs instanceof AST_Binary && lhs.operator == (self.operator == "&&" ? "!==" : "===") && self.right instanceof AST_Binary && lhs.operator == self.right.operator && (is_undefined(lhs.left, compressor) && self.right.left instanceof AST_Null || lhs.left instanceof AST_Null && is_undefined(self.right.left, compressor)) && !lhs.right.has_side_effects(compressor) && lhs.right.equivalent_to(self.right.right)) { var combined = make_node(AST_Binary, self, { operator: lhs.operator.slice(0, -1), left: make_node(AST_Null, self), right: lhs.right }); if (lhs !== self.left) { combined = make_node(AST_Binary, self, { operator: self.operator, left: self.left.left, right: combined }); } return combined; } break; } var in_bool = compressor.option("booleans") && compressor.in_boolean_context(); if (in_bool) switch (self.operator) { case "+": var ll = self.left.evaluate(compressor); var rr = self.right.evaluate(compressor); if (ll && typeof ll == "string") { AST_Node.warn("+ in boolean context always true [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.right, make_node(AST_True, self) ]).optimize(compressor); } if (rr && typeof rr == "string") { AST_Node.warn("+ in boolean context always true [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.left, make_node(AST_True, self) ]).optimize(compressor); } break; case "==": if (self.left instanceof AST_String && self.left.value == "" && self.right.is_string(compressor)) { return make_node(AST_UnaryPrefix, self, { operator: "!", expression: self.right }).optimize(compressor); } break; case "!=": if (self.left instanceof AST_String && self.left.value == "" && self.right.is_string(compressor)) { return self.right.optimize(compressor); } break; } var parent = compressor.parent(); if (compressor.option("comparisons") && self.is_boolean(compressor)) { if (!(parent instanceof AST_Binary) || parent instanceof AST_Assign) { var negated = best_of(compressor, self, make_node(AST_UnaryPrefix, self, { operator: "!", expression: self.negate(compressor, first_in_statement(compressor)) })); if (negated !== self) return negated; } switch (self.operator) { case ">": reverse("<"); break; case ">=": reverse("<="); break; } } // x && (y && z) => x && y && z // x || (y || z) => x || y || z if (compressor.option("conditionals") && lazy_op[self.operator] && self.right instanceof AST_Binary && self.operator == self.right.operator) { swap_chain(); } if (compressor.option("strings") && self.operator == "+") { // "foo" + 42 + "" => "foo" + 42 if (self.right instanceof AST_String && self.right.value == "" && self.left.is_string(compressor)) { return self.left.optimize(compressor); } // "" + ("foo" + 42) => "foo" + 42 if (self.left instanceof AST_String && self.left.value == "" && self.right.is_string(compressor)) { return self.right.optimize(compressor); } // "" + 42 + "foo" => 42 + "foo" if (self.left instanceof AST_Binary && self.left.operator == "+" && self.left.left instanceof AST_String && self.left.left.value == "" && self.right.is_string(compressor)) { self.left = self.left.right; return self.optimize(compressor); } // "x" + (y + "z") => "x" + y + "z" // x + ("y" + z) => x + "y" + z if (self.right instanceof AST_Binary && self.operator == self.right.operator && (self.left.is_string(compressor) && self.right.is_string(compressor) || self.right.left.is_string(compressor) && (self.left.is_constant() || !self.right.right.has_side_effects(compressor)))) { swap_chain(); } } if (compressor.option("evaluate")) { var associative = true; switch (self.operator) { case "&&": var ll = fuzzy_eval(self.left); if (!ll) { AST_Node.warn("Condition left of && always false [{file}:{line},{col}]", self.start); return maintain_this_binding(compressor, parent, compressor.self(), self.left).optimize(compressor); } else if (!(ll instanceof AST_Node)) { AST_Node.warn("Condition left of && always true [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.left, self.right ]).optimize(compressor); } var rr = self.right.evaluate(compressor); if (!rr) { if (in_bool) { AST_Node.warn("Boolean && always false [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.left, make_node(AST_False, self) ]).optimize(compressor); } else self.falsy = true; } else if (!(rr instanceof AST_Node)) { if (in_bool || parent.operator == "&&" && parent.left === compressor.self()) { AST_Node.warn("Dropping side-effect-free && [{file}:{line},{col}]", self.start); return self.left.optimize(compressor); } } // (x || false) && y => x ? y : false if (self.left.operator == "||") { var lr = self.left.right.evaluate(compressor, true); if (!lr) return make_node(AST_Conditional, self, { condition: self.left.left, consequent: self.right, alternative: self.left.right }).optimize(compressor); } break; case "||": var ll = fuzzy_eval(self.left); if (!ll) { AST_Node.warn("Condition left of || always false [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.left, self.right ]).optimize(compressor); } else if (!(ll instanceof AST_Node)) { AST_Node.warn("Condition left of || always true [{file}:{line},{col}]", self.start); return maintain_this_binding(compressor, parent, compressor.self(), self.left).optimize(compressor); } var rr = self.right.evaluate(compressor); if (!rr) { if (in_bool || parent.operator == "||" && parent.left === compressor.self()) { AST_Node.warn("Dropping side-effect-free || [{file}:{line},{col}]", self.start); return self.left.optimize(compressor); } } else if (!(rr instanceof AST_Node)) { if (in_bool) { AST_Node.warn("Boolean || always true [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.left, make_node(AST_True, self) ]).optimize(compressor); } else self.truthy = true; } // x && true || y => x ? true : y if (self.left.operator == "&&") { var lr = self.left.right.is_truthy() || self.left.right.evaluate(compressor, true); if (lr && !(lr instanceof AST_Node)) return make_node(AST_Conditional, self, { condition: self.left.left, consequent: self.left.right, alternative: self.right }).optimize(compressor); } break; case "+": // "foo" + ("bar" + x) => "foobar" + x if (self.left instanceof AST_Constant && self.right instanceof AST_Binary && self.right.operator == "+" && self.right.left instanceof AST_Constant && self.right.is_string(compressor)) { self = make_node(AST_Binary, self, { operator: "+", left: make_node(AST_String, self.left, { value: "" + self.left.value + self.right.left.value, start: self.left.start, end: self.right.left.end }), right: self.right.right }); } // (x + "foo") + "bar" => x + "foobar" if (self.right instanceof AST_Constant && self.left instanceof AST_Binary && self.left.operator == "+" && self.left.right instanceof AST_Constant && self.left.is_string(compressor)) { self = make_node(AST_Binary, self, { operator: "+", left: self.left.left, right: make_node(AST_String, self.right, { value: "" + self.left.right.value + self.right.value, start: self.left.right.start, end: self.right.end }) }); } // (x + "foo") + ("bar" + y) => (x + "foobar") + y if (self.left instanceof AST_Binary && self.left.operator == "+" && self.left.is_string(compressor) && self.left.right instanceof AST_Constant && self.right instanceof AST_Binary && self.right.operator == "+" && self.right.left instanceof AST_Constant && self.right.is_string(compressor)) { self = make_node(AST_Binary, self, { operator: "+", left: make_node(AST_Binary, self.left, { operator: "+", left: self.left.left, right: make_node(AST_String, self.left.right, { value: "" + self.left.right.value + self.right.left.value, start: self.left.right.start, end: self.right.left.end }) }), right: self.right.right }); } // a + -b => a - b if (self.right instanceof AST_UnaryPrefix && self.right.operator == "-" && self.left.is_number(compressor)) { self = make_node(AST_Binary, self, { operator: "-", left: self.left, right: self.right.expression }); break; } // -a + b => b - a if (self.left instanceof AST_UnaryPrefix && self.left.operator == "-" && reversible() && self.right.is_number(compressor)) { self = make_node(AST_Binary, self, { operator: "-", left: self.right, right: self.left.expression }); break; } // (a + b) + 3 => 3 + (a + b) if (compressor.option("unsafe_math") && self.left instanceof AST_Binary && PRECEDENCE[self.left.operator] == PRECEDENCE[self.operator] && self.right.is_constant() && (self.right.is_boolean(compressor) || self.right.is_number(compressor)) && self.left.is_number(compressor) && !self.left.right.is_constant() && (self.left.left.is_boolean(compressor) || self.left.left.is_number(compressor))) { self = make_node(AST_Binary, self, { operator: self.left.operator, left: make_node(AST_Binary, self, { operator: self.operator, left: self.right, right: self.left.left }), right: self.left.right }); break; } case "-": // a - -b => a + b if (self.right instanceof AST_UnaryPrefix && self.right.operator == "-" && self.left.is_number(compressor) && self.right.expression.is_number(compressor)) { self = make_node(AST_Binary, self, { operator: "+", left: self.left, right: self.right.expression }); break; } case "*": case "/": associative = compressor.option("unsafe_math"); // +a - b => a - b // a - +b => a - b if (self.operator != "+") { if (self.left instanceof AST_UnaryPrefix && self.left.operator == "+") { self.left = self.left.expression; } if (self.right instanceof AST_UnaryPrefix && self.right.operator == "+") { self.right = self.right.expression; } } case "&": case "|": case "^": // a + +b => +b + a if (self.operator != "-" && self.operator != "/" && (self.left.is_boolean(compressor) || self.left.is_number(compressor)) && (self.right.is_boolean(compressor) || self.right.is_number(compressor)) && reversible() && !(self.left instanceof AST_Binary && self.left.operator != self.operator && PRECEDENCE[self.left.operator] >= PRECEDENCE[self.operator])) { var reversed = make_node(AST_Binary, self, { operator: self.operator, left: self.right, right: self.left }); if (self.right instanceof AST_Constant && !(self.left instanceof AST_Constant)) { self = best_of(compressor, reversed, self); } else { self = best_of(compressor, self, reversed); } } if (!associative || !self.is_number(compressor)) break; // a + (b + c) => (a + b) + c if (self.right instanceof AST_Binary && self.right.operator != "%" && PRECEDENCE[self.right.operator] == PRECEDENCE[self.operator] && self.right.is_number(compressor) && (self.operator != "+" || self.right.left.is_boolean(compressor) || self.right.left.is_number(compressor)) && (self.operator != "-" || !self.left.is_negative_zero()) && (self.right.left.is_constant_expression() || !self.right.right.has_side_effects(compressor))) { self = make_node(AST_Binary, self, { operator: align(self.operator, self.right.operator), left: make_node(AST_Binary, self.left, { operator: self.operator, left: self.left, right: self.right.left, start: self.left.start, end: self.right.left.end }), right: self.right.right }); if (self.operator == "+" && !self.right.is_boolean(compressor) && !self.right.is_number(compressor)) { self.right = make_node(AST_UnaryPrefix, self.right, { operator: "+", expression: self.right }); } } // (2 * n) * 3 => 6 * n // (n + 2) + 3 => n + 5 if (self.right instanceof AST_Constant && self.left instanceof AST_Binary && self.left.operator != "%" && PRECEDENCE[self.left.operator] == PRECEDENCE[self.operator] && self.left.is_number(compressor)) { if (self.left.left instanceof AST_Constant) { var lhs = make_binary(self.left, self.operator, self.left.left, self.right, self.left.left.start, self.right.end); self = make_binary(self, self.left.operator, lhs, self.left.right); } else if (self.left.right instanceof AST_Constant) { var rhs = make_binary(self.left, align(self.left.operator, self.operator), self.left.right, self.right, self.left.right.start, self.right.end); if (self.left.operator != "-" || !self.right.value || rhs.evaluate(compressor) || !self.left.left.is_negative_zero()) { self = make_binary(self, self.left.operator, self.left.left, rhs); } } } break; } if (!(parent instanceof AST_UnaryPrefix && parent.operator == "delete")) { if (self.left instanceof AST_Number && !self.right.is_constant()) switch (self.operator) { // 0 + n => n case "+": if (self.left.value == 0) { if (self.right.is_boolean(compressor)) return make_node(AST_UnaryPrefix, self, { operator: "+", expression: self.right }).optimize(compressor); if (self.right.is_number(compressor) && !self.right.is_negative_zero()) return self.right; } break; // 1 * n => n case "*": if (self.left.value == 1) { return self.right.is_number(compressor) ? self.right : make_node(AST_UnaryPrefix, self, { operator: "+", expression: self.right }).optimize(compressor); } break; } if (self.right instanceof AST_Number && !self.left.is_constant()) switch (self.operator) { // n + 0 => n case "+": if (self.right.value == 0) { if (self.left.is_boolean(compressor)) return make_node(AST_UnaryPrefix, self, { operator: "+", expression: self.left }).optimize(compressor); if (self.left.is_number(compressor) && !self.left.is_negative_zero()) return self.left; } break; // n - 0 => n case "-": if (self.right.value == 0) { return self.left.is_number(compressor) ? self.left : make_node(AST_UnaryPrefix, self, { operator: "+", expression: self.left }).optimize(compressor); } break; // n / 1 => n case "/": if (self.right.value == 1) { return self.left.is_number(compressor) ? self.left : make_node(AST_UnaryPrefix, self, { operator: "+", expression: self.left }).optimize(compressor); } break; } } } if (compressor.option("typeofs")) switch (self.operator) { case "&&": mark_locally_defined(self.left, self.right, null); break; case "||": mark_locally_defined(self.left, null, self.right); break; } if (compressor.option("unsafe")) { var indexRight = is_indexFn(self.right); if (in_bool && indexRight && (self.operator == "==" || self.operator == "!=") && self.left instanceof AST_Number && self.left.value == 0) { return (self.operator == "==" ? make_node(AST_UnaryPrefix, self, { operator: "!", expression: self.right }) : self.right).optimize(compressor); } var indexLeft = is_indexFn(self.left); if (compressor.option("comparisons") && is_indexOf_match_pattern()) { var node = make_node(AST_UnaryPrefix, self, { operator: "!", expression: make_node(AST_UnaryPrefix, self, { operator: "~", expression: indexLeft ? self.left : self.right }) }); switch (self.operator) { case "<": if (indexLeft) break; case "<=": case "!=": node = make_node(AST_UnaryPrefix, self, { operator: "!", expression: node }); break; } return node.optimize(compressor); } } return try_evaluate(compressor, self); function can_self_compare(node) { if (node instanceof AST_Dot) return can_self_compare(node.expression); if (node instanceof AST_Sub) return can_self_compare(node.expression) && can_self_compare(node.property); if (node instanceof AST_Symbol) return true; return !node.has_side_effects(compressor); } function align(ref, op) { switch (ref) { case "-": return op == "+" ? "-" : "+"; case "/": return op == "*" ? "/" : "*"; default: return op; } } function make_binary(orig, op, left, right, start, end) { if (op == "+") { if (!left.is_boolean(compressor) && !left.is_number(compressor)) { left = make_node(AST_UnaryPrefix, left, { operator: "+", expression: left }); } if (!right.is_boolean(compressor) && !right.is_number(compressor)) { right = make_node(AST_UnaryPrefix, right, { operator: "+", expression: right }); } } return make_node(AST_Binary, orig, { operator: op, left: left, right: right, start: start, end: end }); } function fuzzy_eval(node) { if (node.truthy) return true; if (node.falsy) return false; if (node.is_truthy()) return true; return node.evaluate(compressor, true); } function is_indexFn(node) { return node.TYPE == "Call" && node.expression instanceof AST_Dot && indexFns[node.expression.property]; } function is_indexOf_match_pattern() { switch (self.operator) { case "<=": // 0 <= array.indexOf(string) => !!~array.indexOf(string) return indexRight && self.left instanceof AST_Number && self.left.value == 0; case "<": // array.indexOf(string) < 0 => !~array.indexOf(string) if (indexLeft && self.right instanceof AST_Number && self.right.value == 0) return true; // -1 < array.indexOf(string) => !!~array.indexOf(string) case "==": case "!=": // -1 == array.indexOf(string) => !~array.indexOf(string) // -1 != array.indexOf(string) => !!~array.indexOf(string) if (!indexRight) return false; return self.left instanceof AST_Number && self.left.value == -1 || self.left instanceof AST_UnaryPrefix && self.left.operator == "-" && self.left.expression instanceof AST_Number && self.left.expression.value == 1; } } }); function recursive_ref(compressor, def) { var level = 0, node = compressor.self(); do { if (node instanceof AST_Lambda && node.name && node.name.definition() === def) return node; } while (node = compressor.parent(level++)); } OPT(AST_SymbolRef, function(self, compressor) { if (!compressor.option("ie8") && is_undeclared_ref(self) // testing against `self.scope.uses_with` is an optimization && !(self.scope.uses_with && compressor.find_parent(AST_With))) { switch (self.name) { case "undefined": return make_node(AST_Undefined, self).optimize(compressor); case "NaN": return make_node(AST_NaN, self).optimize(compressor); case "Infinity": return make_node(AST_Infinity, self).optimize(compressor); } } var parent = compressor.parent(); if (compressor.option("reduce_vars") && is_lhs(compressor.self(), parent) !== compressor.self()) { var def = self.definition(); var fixed = self.fixed_value(); var single_use = def.single_use && !(parent instanceof AST_Call && parent.is_expr_pure(compressor)); if (single_use) { if (fixed instanceof AST_Lambda) { if ((def.scope !== self.scope || def.in_loop) && (!compressor.option("reduce_funcs") || def.escaped.depth == 1 || fixed.inlined)) { single_use = false; } else if (recursive_ref(compressor, def)) { single_use = false; } else if (compressor.option("ie8") && fixed.name && def !== fixed.name.definition()) { single_use = false; } else if (def.scope !== self.scope || def.orig[0] instanceof AST_SymbolFunarg) { single_use = fixed.is_constant_expression(self.scope); if (single_use == "f") { var scope = self.scope; do if (scope instanceof AST_Defun || scope instanceof AST_Function) { scope.inlined = true; } while (scope = scope.parent_scope); } } if (single_use) fixed.parent_scope = self.scope; } else if (!fixed || !fixed.is_constant_expression()) { single_use = false; } } if (single_use) { def.single_use = false; fixed._squeezed = true; fixed.single_use = true; if (fixed instanceof AST_Defun) { fixed = make_node(AST_Function, fixed, fixed); fixed.name = make_node(AST_SymbolLambda, fixed.name, fixed.name); } if (fixed instanceof AST_Lambda) { var scope = self.scope; fixed.enclosed.forEach(function(def) { if (fixed.variables.has(def.name)) return; if (scope.var_names()[def.name]) return; scope.enclosed.push(def); scope.var_names()[def.name] = true; }); } var value; if (def.recursive_refs > 0) { value = fixed.clone(true); var defun_def = value.name.definition(); var lambda_def = value.variables.get(value.name.name); var name = lambda_def && lambda_def.orig[0]; if (!(name instanceof AST_SymbolLambda)) { name = make_node(AST_SymbolLambda, value.name, value.name); name.scope = value; value.name = name; lambda_def = value.def_function(name); lambda_def.recursive_refs = def.recursive_refs; } value.walk(new TreeWalker(function(node) { if (!(node instanceof AST_SymbolRef)) return; var def = node.definition(); if (def === defun_def) { node.thedef = lambda_def; lambda_def.references.push(node); } else { def.single_use = false; var fn = node.fixed_value(); if (!(fn instanceof AST_Lambda)) return; if (!fn.name) return; if (fn.name.definition() !== def) return; if (def.scope !== fn.name.scope) return; if (fixed.variables.get(fn.name.name) !== def) return; fn.name = fn.name.clone(); var value_def = value.variables.get(fn.name.name) || value.def_function(fn.name); node.thedef = value_def; value_def.references.push(node); } })); } else { value = fixed.optimize(compressor); if (value === fixed) value = value.transform(new TreeTransformer(function(node, descend) { if (node instanceof AST_Scope) return node; node = node.clone(); descend(node, this); return node; })); } def.replaced++; return value; } var local = self.fixed !== def.fixed; if (fixed && (local || def.should_replace !== false)) { var init; if (fixed instanceof AST_This) { if (!(def.orig[0] instanceof AST_SymbolFunarg) && same_scope(def)) { init = fixed; } } else { var ev = fixed.evaluate(compressor, true); if (ev !== fixed && typeof ev != "function" && (typeof ev != "object" || ev instanceof RegExp && compressor.option("unsafe_regexp") && !def.cross_loop && same_scope(def))) { init = make_node_from_constant(ev, fixed); } } if (init) { if (!local && def.should_replace === undefined) { var value_length = init.optimize(compressor).print_to_string().length; if (!has_symbol_ref(fixed)) { value_length = Math.min(value_length, fixed.print_to_string().length); } var name_length = def.name.length; if (compressor.option("unused") && !compressor.exposed(def)) { var referenced = def.references.length - def.replaced; name_length += (name_length + 2 + value_length) / (referenced - def.assignments); } var delta = value_length - Math.floor(name_length); def.should_replace = delta < compressor.eval_threshold; } if (local || def.should_replace) { var value; if (has_symbol_ref(fixed)) { value = init.optimize(compressor); if (value === init) value = value.clone(true); } else { value = best_of_expression(init.optimize(compressor), fixed); if (value === init || value === fixed) value = value.clone(true); } def.replaced++; return value; } } } } return self; function same_scope(def) { var scope = def.scope.resolve(); return all(def.references, function(ref) { return scope === ref.scope.resolve(); }); } function has_symbol_ref(value) { var found; value.walk(new TreeWalker(function(node) { if (node instanceof AST_SymbolRef) found = true; if (found) return true; })); return found; } }); function is_atomic(lhs, self) { return lhs instanceof AST_SymbolRef || lhs.TYPE === self.TYPE; } OPT(AST_Undefined, function(self, compressor) { if (compressor.option("unsafe_undefined")) { var undef = find_variable(compressor, "undefined"); if (undef) { var ref = make_node(AST_SymbolRef, self, { name : "undefined", scope : undef.scope, thedef : undef }); ref.is_undefined = true; return ref; } } var lhs = is_lhs(compressor.self(), compressor.parent()); if (lhs && is_atomic(lhs, self)) return self; return make_node(AST_UnaryPrefix, self, { operator: "void", expression: make_node(AST_Number, self, { value: 0 }) }); }); OPT(AST_Infinity, function(self, compressor) { var lhs = is_lhs(compressor.self(), compressor.parent()); if (lhs && is_atomic(lhs, self)) return self; if (compressor.option("keep_infinity") && !(lhs && !is_atomic(lhs, self)) && !find_variable(compressor, "Infinity")) return self; return make_node(AST_Binary, self, { operator: "/", left: make_node(AST_Number, self, { value: 1 }), right: make_node(AST_Number, self, { value: 0 }) }); }); OPT(AST_NaN, function(self, compressor) { var lhs = is_lhs(compressor.self(), compressor.parent()); if (lhs && !is_atomic(lhs, self) || find_variable(compressor, "NaN")) { return make_node(AST_Binary, self, { operator: "/", left: make_node(AST_Number, self, { value: 0 }), right: make_node(AST_Number, self, { value: 0 }) }); } return self; }); function is_reachable(self, defs) { var reachable = false; var find_ref = new TreeWalker(function(node) { if (reachable) return true; if (node instanceof AST_SymbolRef && member(node.definition(), defs)) { return reachable = true; } }); var scan_scope = new TreeWalker(function(node) { if (reachable) return true; if (node instanceof AST_Scope && node !== self) { var parent = scan_scope.parent(); if (parent instanceof AST_Call && parent.expression === node) return; node.walk(find_ref); return true; } }); self.walk(scan_scope); return reachable; } var ASSIGN_OPS = makePredicate("+ - * / % >> << >>> | ^ &"); var ASSIGN_OPS_COMMUTATIVE = makePredicate("* | ^ &"); OPT(AST_Assign, function(self, compressor) { if (compressor.option("dead_code")) { if (self.left instanceof AST_PropAccess) { if (self.operator == "=") { if (self.__drop) { var exprs = [ self.left.expression ]; if (self.left instanceof AST_Sub) exprs.push(self.left.property); exprs.push(self.right); return make_sequence(self, exprs).optimize(compressor); } if (self.left.equivalent_to(self.right) && !self.left.has_side_effects(compressor)) { return self.right; } var exp = self.left.expression; if (exp instanceof AST_Lambda || !compressor.has_directive("use strict") && exp instanceof AST_Constant && !exp.may_throw_on_access(compressor)) { return self.left instanceof AST_Dot ? self.right : make_sequence(self, [ self.left.property, self.right ]).optimize(compressor); } } } else if (self.left instanceof AST_SymbolRef) { var parent; if (self.operator == "=" && self.left.equivalent_to(self.right) && !((parent = compressor.parent()) instanceof AST_UnaryPrefix && parent.operator == "delete")) { return self.right; } if (self.left.is_immutable()) return strip_assignment(); var def = self.left.definition(); var scope = def.scope.resolve(); var local = scope === compressor.find_parent(AST_Lambda); var level = 0, node; parent = self; do { node = parent; parent = compressor.parent(level++); if (parent instanceof AST_Assign) { if (parent.left instanceof AST_PropAccess) break; if (!(parent.left instanceof AST_SymbolRef)) continue; if (parent.left.definition() !== def) continue; if (in_try(level, parent)) break; def.fixed = false; return strip_assignment(); } else if (parent instanceof AST_Exit) { if (!local) break; if (in_try(level, parent)) break; if (is_reachable(scope, [ def ])) break; def.fixed = false; return strip_assignment(); } else if (parent instanceof AST_VarDef) { if (parent.name.definition() !== def) continue; if (in_try(level, parent)) break; def.fixed = false; return strip_assignment(); } } while (parent instanceof AST_Binary && parent.right === node || parent instanceof AST_Sequence && parent.tail_node() === node || parent instanceof AST_UnaryPrefix); } } if (compressor.option("sequences")) { var seq = self.lift_sequences(compressor); if (seq !== self) return seq.optimize(compressor); } if (compressor.option("assignments")) { if (self.operator == "=" && self.left instanceof AST_SymbolRef && self.right instanceof AST_Binary) { // x = expr1 OP expr2 if (self.right.left instanceof AST_SymbolRef && self.right.left.name == self.left.name && ASSIGN_OPS[self.right.operator]) { // x = x - 2 => x -= 2 return make_node(AST_Assign, self, { operator: self.right.operator + "=", left: self.left, right: self.right.right, }).optimize(compressor); } else if (self.right.right instanceof AST_SymbolRef && self.right.right.name == self.left.name && ASSIGN_OPS_COMMUTATIVE[self.right.operator] && !self.right.left.has_side_effects(compressor)) { // x = 2 & x => x &= 2 return make_node(AST_Assign, self, { operator: self.right.operator + "=", left: self.left, right: self.right.left, }).optimize(compressor); } } if ((self.operator == "-=" || self.operator == "+=" && (self.left.is_boolean(compressor) || self.left.is_number(compressor))) && self.right instanceof AST_Number && self.right.value == 1) { var op = self.operator.slice(0, -1); return make_node(AST_UnaryPrefix, self, { operator: op + op, expression: self.left }); } } return try_evaluate(compressor, self); function in_try(level, node) { var right = self.right; self.right = make_node(AST_Null, right); var may_throw = node.may_throw(compressor); self.right = right; var parent; while (parent = compressor.parent(level++)) { if (parent === scope) return false; if (parent instanceof AST_Try) { if (parent.bfinally) return true; if (may_throw && parent.bcatch) return true; } } } function strip_assignment() { return (self.operator != "=" ? make_node(AST_Binary, self, { operator: self.operator.slice(0, -1), left: self.left, right: self.right }) : maintain_this_binding(compressor, compressor.parent(), self, self.right)).optimize(compressor); } }); OPT(AST_Conditional, function(self, compressor) { if (!compressor.option("conditionals")) return self; // This looks like lift_sequences(), should probably be under "sequences" if (self.condition instanceof AST_Sequence) { var expressions = self.condition.expressions.slice(); self.condition = expressions.pop(); expressions.push(self); return make_sequence(self, expressions); } var condition = self.condition.is_truthy() || self.condition.evaluate(compressor, true); if (!condition) { AST_Node.warn("Condition always false [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.condition, self.alternative ]).optimize(compressor); } else if (!(condition instanceof AST_Node)) { AST_Node.warn("Condition always true [{file}:{line},{col}]", self.start); return make_sequence(self, [ self.condition, self.consequent ]).optimize(compressor); } var negated = condition.negate(compressor, first_in_statement(compressor)); if (best_of(compressor, condition, negated) === negated) { self = make_node(AST_Conditional, self, { condition: negated, consequent: self.alternative, alternative: self.consequent }); negated = condition; condition = self.condition; } var consequent = self.consequent; var alternative = self.alternative; // x ? x : y => x || y if (condition instanceof AST_SymbolRef && consequent instanceof AST_SymbolRef && condition.definition() === consequent.definition()) { return make_node(AST_Binary, self, { operator: "||", left: condition, right: alternative }); } // if (foo) exp = something; else exp = something_else; // | // v // exp = foo ? something : something_else; var seq_tail = consequent.tail_node(); if (seq_tail instanceof AST_Assign) { var is_eq = seq_tail.operator == "="; var alt_tail = is_eq ? alternative.tail_node() : alternative; if ((is_eq || consequent === seq_tail) && alt_tail instanceof AST_Assign && seq_tail.operator == alt_tail.operator && seq_tail.left.equivalent_to(alt_tail.left) && (is_eq && seq_tail.left instanceof AST_SymbolRef || !condition.has_side_effects(compressor) && can_shift_lhs_of_tail(consequent) && can_shift_lhs_of_tail(alternative))) { return make_node(AST_Assign, self, { operator: seq_tail.operator, left: seq_tail.left, right: make_node(AST_Conditional, self, { condition: condition, consequent: pop_lhs(consequent), alternative: pop_lhs(alternative) }) }); } } // x ? y : y => x, y if (consequent.equivalent_to(alternative)) return make_sequence(self, [ condition, consequent ]).optimize(compressor); if (consequent instanceof AST_Call && alternative.TYPE === consequent.TYPE && consequent.args.length == alternative.args.length) { var arg_index = arg_diff(); // x ? y(a) : z(a) => (x ? y : z)(a) if (arg_index == -1 && !(consequent.expression instanceof AST_PropAccess) && !(alternative.expression instanceof AST_PropAccess)) { var node = consequent.clone(); node.expression = make_node(AST_Conditional, self, { condition: condition, consequent: consequent.expression, alternative: alternative.expression }); return node; } // x ? y(a) : y(b) => y(x ? a : b) if (arg_index >= 0 && consequent.expression.equivalent_to(alternative.expression) && !condition.has_side_effects(compressor) && !consequent.expression.has_side_effects(compressor)) { var node = consequent.clone(); node.args[arg_index] = make_node(AST_Conditional, self, { condition: condition, consequent: consequent.args[arg_index], alternative: alternative.args[arg_index] }); return node; } } // x ? (y ? a : b) : b => x && y ? a : b if (consequent instanceof AST_Conditional && consequent.alternative.equivalent_to(alternative)) { return make_node(AST_Conditional, self, { condition: make_node(AST_Binary, self, { left: condition, operator: "&&", right: consequent.condition }), consequent: consequent.consequent, alternative: alternative }); } // x ? (y ? a : b) : a => !x || y ? a : b if (consequent instanceof AST_Conditional && consequent.consequent.equivalent_to(alternative)) { return make_node(AST_Conditional, self, { condition: make_node(AST_Binary, self, { left: negated, operator: "||", right: consequent.condition }), consequent: alternative, alternative: consequent.alternative }); } // x ? a : (y ? a : b) => x || y ? a : b if (alternative instanceof AST_Conditional && consequent.equivalent_to(alternative.consequent)) { return make_node(AST_Conditional, self, { condition: make_node(AST_Binary, self, { left: condition, operator: "||", right: alternative.condition }), consequent: consequent, alternative: alternative.alternative }); } // x ? b : (y ? a : b) => !x && y ? a : b if (alternative instanceof AST_Conditional && consequent.equivalent_to(alternative.alternative)) { return make_node(AST_Conditional, self, { condition: make_node(AST_Binary, self, { left: negated, operator: "&&", right: alternative.condition }), consequent: alternative.consequent, alternative: consequent }); } // x ? (a, c) : (b, c) => x ? a : b, c if ((consequent instanceof AST_Sequence || alternative instanceof AST_Sequence) && consequent.tail_node().equivalent_to(alternative.tail_node())) { return make_sequence(self, [ make_node(AST_Conditional, self, { condition: condition, consequent: pop_seq(consequent), alternative: pop_seq(alternative) }), consequent.tail_node() ]).optimize(compressor); } // x ? y && a : a => (!x || y) && a if (consequent instanceof AST_Binary && consequent.operator == "&&" && consequent.right.equivalent_to(alternative)) { return make_node(AST_Binary, self, { operator: "&&", left: make_node(AST_Binary, self, { operator: "||", left: negated, right: consequent.left }), right: alternative }).optimize(compressor); } // x ? y || a : a => x && y || a if (consequent instanceof AST_Binary && consequent.operator == "||" && consequent.right.equivalent_to(alternative)) { return make_node(AST_Binary, self, { operator: "||", left: make_node(AST_Binary, self, { operator: "&&", left: condition, right: consequent.left }), right: alternative }).optimize(compressor); } // x ? a : y && a => (x || y) && a if (alternative instanceof AST_Binary && alternative.operator == "&&" && alternative.right.equivalent_to(consequent)) { return make_node(AST_Binary, self, { operator: "&&", left: make_node(AST_Binary, self, { operator: "||", left: condition, right: alternative.left }), right: consequent }).optimize(compressor); } // x ? a : y || a => !x && y || a if (alternative instanceof AST_Binary && alternative.operator == "||" && alternative.right.equivalent_to(consequent)) { return make_node(AST_Binary, self, { operator: "||", left: make_node(AST_Binary, self, { operator: "&&", left: negated, right: alternative.left }), right: consequent }).optimize(compressor); } var in_bool = compressor.option("booleans") && compressor.in_boolean_context(); if (is_true(consequent)) { if (is_false(alternative)) { // c ? true : false => !!c return booleanize(condition); } // c ? true : x => !!c || x return make_node(AST_Binary, self, { operator: "||", left: booleanize(condition), right: alternative }); } if (is_false(consequent)) { if (is_true(alternative)) { // c ? false : true => !c return booleanize(condition.negate(compressor)); } // c ? false : x => !c && x return make_node(AST_Binary, self, { operator: "&&", left: booleanize(condition.negate(compressor)), right: alternative }); } if (is_true(alternative)) { // c ? x : true => !c || x return make_node(AST_Binary, self, { operator: "||", left: booleanize(condition.negate(compressor)), right: consequent }); } if (is_false(alternative)) { // c ? x : false => !!c && x return make_node(AST_Binary, self, { operator: "&&", left: booleanize(condition), right: consequent }); } if (compressor.option("typeofs")) mark_locally_defined(condition, consequent, alternative); return self; function booleanize(node) { if (node.is_boolean(compressor)) return node; // !!expression return make_node(AST_UnaryPrefix, node, { operator: "!", expression: node.negate(compressor) }); } // AST_True or !0 function is_true(node) { return node instanceof AST_True || in_bool && node instanceof AST_Constant && node.value || (node instanceof AST_UnaryPrefix && node.operator == "!" && node.expression instanceof AST_Constant && !node.expression.value); } // AST_False or !1 or void 0 function is_false(node) { return node instanceof AST_False || in_bool && (node instanceof AST_Constant && !node.value || node instanceof AST_UnaryPrefix && node.operator == "void" && !node.expression.has_side_effects(compressor)) || (node instanceof AST_UnaryPrefix && node.operator == "!" && node.expression instanceof AST_Constant && node.expression.value); } function arg_diff() { var a = consequent.args; var b = alternative.args; for (var i = 0, len = a.length; i < len; i++) { if (!a[i].equivalent_to(b[i])) { for (var j = i + 1; j < len; j++) { if (!a[j].equivalent_to(b[j])) return -2; } return i; } } return -1; } function can_shift_lhs_of_tail(node) { return node === node.tail_node() || all(node.expressions.slice(0, -1), function(expr) { return !expr.has_side_effects(compressor); }); } function pop_lhs(node) { if (!(node instanceof AST_Sequence)) return node.right; var exprs = node.expressions.slice(); exprs.push(exprs.pop().right); return make_sequence(node, exprs); } function pop_seq(node) { if (!(node instanceof AST_Sequence)) return make_node(AST_Number, node, { value: 0 }); return make_sequence(node, node.expressions.slice(0, -1)); } }); OPT(AST_Boolean, function(self, compressor) { if (!compressor.option("booleans")) return self; if (compressor.in_boolean_context()) return make_node(AST_Number, self, { value: +self.value }); var p = compressor.parent(); if (p instanceof AST_Binary && (p.operator == "==" || p.operator == "!=")) { AST_Node.warn("Non-strict equality against boolean: {operator} {value} [{file}:{line},{col}]", { operator : p.operator, value : self.value, file : p.start.file, line : p.start.line, col : p.start.col, }); return make_node(AST_Number, self, { value: +self.value }); } return make_node(AST_UnaryPrefix, self, { operator: "!", expression: make_node(AST_Number, self, { value: 1 - self.value }) }); }); function safe_to_flatten(value, compressor) { if (value instanceof AST_SymbolRef) { value = value.fixed_value(); } if (!value) return false; if (!(value instanceof AST_Lambda)) return true; var parent = compressor.parent(); if (parent.TYPE != "Call") return true; if (parent.expression !== compressor.self()) return true; return !value.contains_this(); } OPT(AST_Sub, function(self, compressor) { var expr = self.expression; var prop = self.property; if (compressor.option("properties")) { var key = prop.evaluate(compressor); if (key !== prop) { if (typeof key == "string") { if (key == "undefined") { key = undefined; } else { var value = parseFloat(key); if (value.toString() == key) { key = value; } } } prop = self.property = best_of_expression(prop, make_node_from_constant(key, prop).transform(compressor)); var property = "" + key; if (is_identifier_string(property) && property.length <= prop.print_to_string().length + 1) { return make_node(AST_Dot, self, { expression: expr, property: property }).optimize(compressor); } } } var parent = compressor.parent(); var def, fn, fn_parent; if (compressor.option("arguments") && expr instanceof AST_SymbolRef && is_arguments(def = expr.definition()) && prop instanceof AST_Number && (fn = expr.scope) === find_lambda()) { var index = prop.value; if (parent instanceof AST_UnaryPrefix && parent.operator == "delete") { if (!def.deleted) def.deleted = []; def.deleted[index] = true; } var argname = fn.argnames[index]; if (def.deleted && def.deleted[index]) { argname = null; } else if (argname && (compressor.has_directive("use strict") || !(fn_parent instanceof AST_Call && index < fn_parent.args.length))) { var arg_def = argname.definition(); if (!compressor.option("reduce_vars") || def.reassigned || arg_def.assignments || arg_def.orig.length > 1) { argname = null; } } else if (!argname && index < fn.argnames.length + 5 && compressor.drop_fargs(fn, fn_parent)) { while (index >= fn.argnames.length) { argname = make_node(AST_SymbolFunarg, fn, { name: fn.make_var_name("argument_" + fn.argnames.length), scope: fn }); fn.argnames.push(argname); fn.enclosed.push(fn.def_variable(argname)); } } if (argname && find_if(function(node) { return node.name === argname.name; }, fn.argnames) === argname) { def.reassigned = false; var sym = make_node(AST_SymbolRef, self, argname); sym.reference({}); delete argname.__unused; return sym; } } if (is_lhs(compressor.self(), parent)) return self; if (compressor.option("sequences") && parent.TYPE != "Call" && !(parent instanceof AST_ForIn && parent.init === self)) { var seq = lift_sequence_in_expression(self, compressor); if (seq !== self) return seq.optimize(compressor); } if (key !== prop) { var sub = self.flatten_object(property, compressor); if (sub) { expr = self.expression = sub.expression; prop = self.property = sub.property; } } if (compressor.option("properties") && compressor.option("side_effects") && prop instanceof AST_Number && expr instanceof AST_Array) { var index = prop.value; var elements = expr.elements; var retValue = elements[index]; if (safe_to_flatten(retValue, compressor)) { var is_hole = retValue instanceof AST_Hole; var flatten = !is_hole; var values = []; for (var i = elements.length; --i > index;) { var value = elements[i].drop_side_effect_free(compressor); if (value) { values.unshift(value); if (flatten && value.has_side_effects(compressor)) flatten = false; } } if (!flatten) values.unshift(retValue); while (--i >= 0) { var value = elements[i].drop_side_effect_free(compressor); if (value) { values.unshift(value); } else if (is_hole) { values.unshift(make_node(AST_Hole, elements[i])); } else { index--; } } if (flatten) { values.push(retValue); return make_sequence(self, values).optimize(compressor); } else return make_node(AST_Sub, self, { expression: make_node(AST_Array, expr, { elements: values }), property: make_node(AST_Number, prop, { value: index }) }); } } return try_evaluate(compressor, self); function find_lambda() { var i = 0, p; while (p = compressor.parent(i++)) { if (p instanceof AST_Lambda) { fn_parent = compressor.parent(i); return p; } } } }); AST_Scope.DEFMETHOD("contains_this", function() { var result; var self = this; self.walk(new TreeWalker(function(node) { if (result) return true; if (node instanceof AST_This) return result = true; if (node !== self && node instanceof AST_Scope) return true; })); return result; }); AST_PropAccess.DEFMETHOD("flatten_object", function(key, compressor) { if (!compressor.option("properties")) return; var expr = this.expression; if (expr instanceof AST_Object) { var props = expr.properties; for (var i = props.length; --i >= 0;) { var prop = props[i]; if ("" + prop.key == key) { if (!all(props, function(prop) { return prop instanceof AST_ObjectKeyVal; })) break; if (!safe_to_flatten(prop.value, compressor)) break; return make_node(AST_Sub, this, { expression: make_node(AST_Array, expr, { elements: props.map(function(prop) { return prop.value; }) }), property: make_node(AST_Number, this, { value: i }) }); } } } }); OPT(AST_Dot, function(self, compressor) { if (self.property == "arguments" || self.property == "caller") { AST_Node.warn("Function.prototype.{prop} not supported [{file}:{line},{col}]", { prop: self.property, file: self.start.file, line: self.start.line, col: self.start.col }); } var parent = compressor.parent(); if (is_lhs(compressor.self(), parent)) return self; if (compressor.option("sequences") && parent.TYPE != "Call" && !(parent instanceof AST_ForIn && parent.init === self)) { var seq = lift_sequence_in_expression(self, compressor); if (seq !== self) return seq.optimize(compressor); } if (compressor.option("unsafe_proto") && self.expression instanceof AST_Dot && self.expression.property == "prototype") { var exp = self.expression.expression; if (is_undeclared_ref(exp)) switch (exp.name) { case "Array": self.expression = make_node(AST_Array, self.expression, { elements: [] }); break; case "Function": self.expression = make_node(AST_Function, self.expression, { argnames: [], body: [] }); break; case "Number": self.expression = make_node(AST_Number, self.expression, { value: 0 }); break; case "Object": self.expression = make_node(AST_Object, self.expression, { properties: [] }); break; case "RegExp": self.expression = make_node(AST_RegExp, self.expression, { value: /t/ }); break; case "String": self.expression = make_node(AST_String, self.expression, { value: "" }); break; } } var sub = self.flatten_object(self.property, compressor); if (sub) return sub.optimize(compressor); return try_evaluate(compressor, self); }); OPT(AST_Object, function(self, compressor) { if (!compressor.option("objects") || compressor.has_directive("use strict")) return self; var keys = new Dictionary(); var values = []; self.properties.forEach(function(prop) { if (typeof prop.key != "string") { flush(); values.push(prop); return; } if (prop.value.has_side_effects(compressor)) { flush(); } keys.add(prop.key, prop.value); }); flush(); if (self.properties.length != values.length) { return make_node(AST_Object, self, { properties: values }); } return self; function flush() { keys.each(function(expressions, key) { values.push(make_node(AST_ObjectKeyVal, self, { key: key, value: make_sequence(self, expressions) })); }); keys = new Dictionary(); } }); OPT(AST_Return, function(self, compressor) { if (self.value && is_undefined(self.value, compressor)) { self.value = null; } return self; }); })(function(node, optimizer) { node.DEFMETHOD("optimize", function(compressor) { var self = this; if (self._optimized) return self; if (compressor.has_directive("use asm")) return self; var opt = optimizer(self, compressor); opt._optimized = true; return opt; }); });