Index: pkg/compiler/lib/src/constants/expressions.dart |
diff --git a/pkg/compiler/lib/src/constants/expressions.dart b/pkg/compiler/lib/src/constants/expressions.dart |
deleted file mode 100644 |
index ab55c4539d5c0c736248703c0dd82bc18e12739a..0000000000000000000000000000000000000000 |
--- a/pkg/compiler/lib/src/constants/expressions.dart |
+++ /dev/null |
@@ -1,412 +0,0 @@ |
-// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file |
-// for details. All rights reserved. Use of this source code is governed by a |
-// BSD-style license that can be found in the LICENSE file. |
- |
-library dart2js.constants.expressions; |
- |
-import '../dart2jslib.dart' show assertDebugMode; |
-import '../dart_types.dart'; |
-import '../elements/elements.dart' show |
- Element, |
- FunctionElement, |
- VariableElement; |
-import '../universe/universe.dart' show Selector; |
-import 'values.dart'; |
- |
-/// An expression that is a compile-time constant. |
-/// |
-/// Whereas [ConstantValue] represent a compile-time value, a |
-/// [ConstantExpression] represents an expression for creating a constant. |
-/// |
-/// There is no one-to-one mapping between [ConstantExpression] and |
-/// [ConstantValue], because different expressions can denote the same constant. |
-/// For instance, multiple `const` constructors may be used to create the same |
-/// object, and different `const` variables may hold the same value. |
-abstract class ConstantExpression { |
- /// Returns the value of this constant expression. |
- ConstantValue get value; |
- |
- // TODO(johnniwinther): Unify precedence handled between constants, front-end |
- // and back-end. |
- int get precedence => 16; |
- |
- accept(ConstantExpressionVisitor visitor); |
- |
- String getText() { |
- ConstExpPrinter printer = new ConstExpPrinter(); |
- accept(printer); |
- return printer.toString(); |
- } |
- |
- String toString() { |
- assertDebugMode('Use ConstantExpression.getText() instead of ' |
- 'ConstantExpression.toString()'); |
- return getText(); |
- } |
-} |
- |
-/// Boolean, int, double, string, or null constant. |
-class PrimitiveConstantExpression extends ConstantExpression { |
- final PrimitiveConstantValue value; |
- |
- PrimitiveConstantExpression(this.value) { |
- assert(value != null); |
- } |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitPrimitive(this); |
-} |
- |
-/// Literal list constant. |
-class ListConstantExpression extends ConstantExpression { |
- final ListConstantValue value; |
- final InterfaceType type; |
- final List<ConstantExpression> values; |
- |
- ListConstantExpression(this.value, this.type, this.values); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitList(this); |
-} |
- |
-/// Literal map constant. |
-class MapConstantExpression extends ConstantExpression { |
- final MapConstantValue value; |
- final InterfaceType type; |
- final List<ConstantExpression> keys; |
- final List<ConstantExpression> values; |
- |
- MapConstantExpression(this.value, this.type, this.keys, this.values); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitMap(this); |
-} |
- |
-/// Invocation of a const constructor. |
-class ConstructedConstantExpresssion extends ConstantExpression { |
- final ConstantValue value; |
- final InterfaceType type; |
- final FunctionElement target; |
- final Selector selector; |
- final List<ConstantExpression> arguments; |
- |
- ConstructedConstantExpresssion(this.value, |
- this.type, |
- this.target, |
- this.selector, |
- this.arguments) { |
- assert(type.element == target.enclosingClass); |
- } |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitConstructor(this); |
-} |
- |
-/// String literal with juxtaposition and/or interpolations. |
-// TODO(johnniwinther): Do we need this? |
-class ConcatenateConstantExpression extends ConstantExpression { |
- final StringConstantValue value; |
- final List<ConstantExpression> arguments; |
- |
- ConcatenateConstantExpression(this.value, this.arguments); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitConcatenate(this); |
-} |
- |
-/// Symbol literal. |
-class SymbolConstantExpression extends ConstantExpression { |
- final ConstructedConstantValue value; |
- final String name; |
- |
- SymbolConstantExpression(this.value, this.name); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitSymbol(this); |
-} |
- |
-/// Type literal. |
-class TypeConstantExpression extends ConstantExpression { |
- final TypeConstantValue value; |
- /// Either [DynamicType] or a raw [GenericType]. |
- final DartType type; |
- |
- TypeConstantExpression(this.value, this.type) { |
- assert(type is GenericType || type is DynamicType); |
- } |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitType(this); |
-} |
- |
-/// Reference to a constant local, top-level, or static variable. |
-class VariableConstantExpression extends ConstantExpression { |
- final ConstantValue value; |
- final VariableElement element; |
- |
- VariableConstantExpression(this.value, this.element); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitVariable(this); |
-} |
- |
-/// Reference to a top-level or static function. |
-class FunctionConstantExpression extends ConstantExpression { |
- final FunctionConstantValue value; |
- final FunctionElement element; |
- |
- FunctionConstantExpression(this.value, this.element); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitFunction(this); |
-} |
- |
-/// A constant binary expression like `a * b` or `identical(a, b)`. |
-class BinaryConstantExpression extends ConstantExpression { |
- final ConstantValue value; |
- final ConstantExpression left; |
- final String operator; |
- final ConstantExpression right; |
- |
- BinaryConstantExpression(this.value, this.left, this.operator, this.right) { |
- assert(PRECEDENCE_MAP[operator] != null); |
- } |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitBinary(this); |
- |
- int get precedence => PRECEDENCE_MAP[operator]; |
- |
- static const Map<String, int> PRECEDENCE_MAP = const { |
- 'identical': 15, |
- '==': 6, |
- '!=': 6, |
- '&&': 5, |
- '||': 4, |
- '^': 9, |
- '&': 10, |
- '|': 8, |
- '>>': 11, |
- '<<': 11, |
- '+': 12, |
- '-': 12, |
- '*': 13, |
- '/': 13, |
- '~/': 13, |
- '>': 7, |
- '<': 7, |
- '>=': 7, |
- '<=': 7, |
- '%': 13, |
- }; |
-} |
- |
-/// A unary constant expression like `-a`. |
-class UnaryConstantExpression extends ConstantExpression { |
- final ConstantValue value; |
- final String operator; |
- final ConstantExpression expression; |
- |
- UnaryConstantExpression(this.value, this.operator, this.expression) { |
- assert(PRECEDENCE_MAP[operator] != null); |
- } |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitUnary(this); |
- |
- int get precedence => PRECEDENCE_MAP[operator]; |
- |
- static const Map<String, int> PRECEDENCE_MAP = const { |
- '!': 14, |
- '~': 14, |
- '-': 14, |
- }; |
-} |
- |
-/// A constant conditional expression like `a ? b : c`. |
-class ConditionalConstantExpression extends ConstantExpression { |
- final ConstantValue value; |
- final ConstantExpression condition; |
- final ConstantExpression trueExp; |
- final ConstantExpression falseExp; |
- |
- ConditionalConstantExpression(this.value, |
- this.condition, |
- this.trueExp, |
- this.falseExp); |
- |
- accept(ConstantExpressionVisitor visitor) => visitor.visitConditional(this); |
- |
- int get precedence => 3; |
-} |
- |
-abstract class ConstantExpressionVisitor<T> { |
- T visit(ConstantExpression constant) => constant.accept(this); |
- |
- T visitPrimitive(PrimitiveConstantExpression exp); |
- T visitList(ListConstantExpression exp); |
- T visitMap(MapConstantExpression exp); |
- T visitConstructor(ConstructedConstantExpresssion exp); |
- T visitConcatenate(ConcatenateConstantExpression exp); |
- T visitSymbol(SymbolConstantExpression exp); |
- T visitType(TypeConstantExpression exp); |
- T visitVariable(VariableConstantExpression exp); |
- T visitFunction(FunctionConstantExpression exp); |
- T visitBinary(BinaryConstantExpression exp); |
- T visitUnary(UnaryConstantExpression exp); |
- T visitConditional(ConditionalConstantExpression exp); |
-} |
- |
-/// Represents the declaration of a constant [element] with value [expression]. |
-// TODO(johnniwinther): Where does this class belong? |
-class ConstDeclaration { |
- final VariableElement element; |
- final ConstantExpression expression; |
- |
- ConstDeclaration(this.element, this.expression); |
-} |
- |
-class ConstExpPrinter extends ConstantExpressionVisitor { |
- final StringBuffer sb = new StringBuffer(); |
- |
- write(ConstantExpression parent, |
- ConstantExpression child, |
- {bool leftAssociative: true}) { |
- if (child.precedence < parent.precedence || |
- !leftAssociative && child.precedence == parent.precedence) { |
- sb.write('('); |
- child.accept(this); |
- sb.write(')'); |
- } else { |
- child.accept(this); |
- } |
- } |
- |
- writeTypeArguments(InterfaceType type) { |
- if (type.treatAsRaw) return; |
- sb.write('<'); |
- bool needsComma = false; |
- for (DartType value in type.typeArguments) { |
- if (needsComma) { |
- sb.write(', '); |
- } |
- sb.write(value); |
- needsComma = true; |
- } |
- sb.write('>'); |
- } |
- |
- visitPrimitive(PrimitiveConstantExpression exp) { |
- sb.write(exp.value.unparse()); |
- } |
- |
- visitList(ListConstantExpression exp) { |
- sb.write('const '); |
- writeTypeArguments(exp.type); |
- sb.write('['); |
- bool needsComma = false; |
- for (ConstantExpression value in exp.values) { |
- if (needsComma) { |
- sb.write(', '); |
- } |
- visit(value); |
- needsComma = true; |
- } |
- sb.write(']'); |
- } |
- |
- visitMap(MapConstantExpression exp) { |
- sb.write('const '); |
- writeTypeArguments(exp.type); |
- sb.write('{'); |
- for (int index = 0; index < exp.keys.length; index++) { |
- if (index > 0) { |
- sb.write(', '); |
- } |
- visit(exp.keys[index]); |
- sb.write(': '); |
- visit(exp.values[index]); |
- } |
- sb.write('}'); |
- } |
- |
- visitConstructor(ConstructedConstantExpresssion exp) { |
- sb.write('const '); |
- sb.write(exp.target.enclosingClass.name); |
- if (exp.target.name != '') { |
- sb.write('.'); |
- sb.write(exp.target.name); |
- } |
- writeTypeArguments(exp.type); |
- sb.write('('); |
- bool needsComma = false; |
- |
- int namedOffset = exp.selector.positionalArgumentCount; |
- for (int index = 0; index < namedOffset; index++) { |
- if (needsComma) { |
- sb.write(', '); |
- } |
- visit(exp.arguments[index]); |
- needsComma = true; |
- } |
- for (int index = 0; index < exp.selector.namedArgumentCount; index++) { |
- if (needsComma) { |
- sb.write(', '); |
- } |
- sb.write(exp.selector.namedArguments[index]); |
- sb.write(': '); |
- visit(exp.arguments[namedOffset + index]); |
- needsComma = true; |
- } |
- sb.write(')'); |
- } |
- |
- visitConcatenate(ConcatenateConstantExpression exp) { |
- sb.write(exp.value.unparse()); |
- } |
- |
- visitSymbol(SymbolConstantExpression exp) { |
- sb.write('#'); |
- sb.write(exp.name); |
- } |
- |
- visitType(TypeConstantExpression exp) { |
- sb.write(exp.type.name); |
- } |
- |
- visitVariable(VariableConstantExpression exp) { |
- if (exp.element.isStatic) { |
- sb.write(exp.element.enclosingClass.name); |
- sb.write('.'); |
- } |
- sb.write(exp.element.name); |
- } |
- |
- visitFunction(FunctionConstantExpression exp) { |
- if (exp.element.isStatic) { |
- sb.write(exp.element.enclosingClass.name); |
- sb.write('.'); |
- } |
- sb.write(exp.element.name); |
- } |
- |
- visitBinary(BinaryConstantExpression exp) { |
- if (exp.operator == 'identical') { |
- sb.write('identical('); |
- visit(exp.left); |
- sb.write(', '); |
- visit(exp.right); |
- sb.write(')'); |
- } else { |
- write(exp, exp.left); |
- sb.write(' '); |
- sb.write(exp.operator); |
- sb.write(' '); |
- write(exp, exp.right); |
- } |
- } |
- |
- visitUnary(UnaryConstantExpression exp) { |
- sb.write(exp.operator); |
- write(exp, exp.expression); |
- } |
- |
- visitConditional(ConditionalConstantExpression exp) { |
- write(exp, exp.condition, leftAssociative: false); |
- sb.write(' ? '); |
- write(exp, exp.trueExp); |
- sb.write(' : '); |
- write(exp, exp.falseExp); |
- } |
- |
- String toString() => sb.toString(); |
-} |