| Index: pkg/analyzer_experimental/lib/src/generated/constant.dart
|
| diff --git a/pkg/analyzer_experimental/lib/src/generated/constant.dart b/pkg/analyzer_experimental/lib/src/generated/constant.dart
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..93ddccb83e8172c7f0bf4b954c6e246deb7f5019
|
| --- /dev/null
|
| +++ b/pkg/analyzer_experimental/lib/src/generated/constant.dart
|
| @@ -0,0 +1,1115 @@
|
| +// This code was auto-generated, is not intended to be edited, and is subject to
|
| +// significant change. Please see the README file for more information.
|
| +
|
| +library engine.constant;
|
| +
|
| +import 'java_core.dart';
|
| +import 'source.dart' show Source;
|
| +import 'error.dart' show AnalysisError, ErrorCode, CompileTimeErrorCode;
|
| +import 'scanner.dart' show TokenType;
|
| +import 'ast.dart';
|
| +import 'element.dart';
|
| +
|
| +/**
|
| + * Instances of the class {@code ConstantEvaluator} evaluate constant expressions to produce their
|
| + * compile-time value. According to the Dart Language Specification: <blockquote> A constant
|
| + * expression is one of the following:
|
| + * <ul>
|
| + * <li>A literal number.</li>
|
| + * <li>A literal boolean.</li>
|
| + * <li>A literal string where any interpolated expression is a compile-time constant that evaluates
|
| + * to a numeric, string or boolean value or to {@code null}.</li>
|
| + * <li>{@code null}.</li>
|
| + * <li>A reference to a static constant variable.</li>
|
| + * <li>An identifier expression that denotes a constant variable, a class or a type variable.</li>
|
| + * <li>A constant constructor invocation.</li>
|
| + * <li>A constant list literal.</li>
|
| + * <li>A constant map literal.</li>
|
| + * <li>A simple or qualified identifier denoting a top-level function or a static method.</li>
|
| + * <li>A parenthesized expression {@code (e)} where {@code e} is a constant expression.</li>
|
| + * <li>An expression of one of the forms {@code identical(e1, e2)}, {@code e1 == e2},{@code e1 != e2} where {@code e1} and {@code e2} are constant expressions that evaluate to a
|
| + * numeric, string or boolean value or to {@code null}.</li>
|
| + * <li>An expression of one of the forms {@code !e}, {@code e1 && e2} or {@code e1 || e2}, where{@code e}, {@code e1} and {@code e2} are constant expressions that evaluate to a boolean value or
|
| + * to {@code null}.</li>
|
| + * <li>An expression of one of the forms {@code ~e}, {@code e1 ^ e2}, {@code e1 & e2},{@code e1 | e2}, {@code e1 >> e2} or {@code e1 << e2}, where {@code e}, {@code e1} and {@code e2}are constant expressions that evaluate to an integer value or to {@code null}.</li>
|
| + * <li>An expression of one of the forms {@code -e}, {@code e1 + e2}, {@code e1 - e2},{@code e1 * e2}, {@code e1 / e2}, {@code e1 ~/ e2}, {@code e1 > e2}, {@code e1 < e2},{@code e1 >= e2}, {@code e1 <= e2} or {@code e1 % e2}, where {@code e}, {@code e1} and {@code e2}are constant expressions that evaluate to a numeric value or to {@code null}.</li>
|
| + * </ul>
|
| + * </blockquote> The values returned by instances of this class are therefore {@code null} and
|
| + * instances of the classes {@code Boolean}, {@code BigInteger}, {@code Double}, {@code String}, and{@code DartObject}.
|
| + * <p>
|
| + * In addition, this class defines several values that can be returned to indicate various
|
| + * conditions encountered during evaluation. These are documented with the static field that define
|
| + * those values.
|
| + */
|
| +class ConstantEvaluator {
|
| + /**
|
| + * The source containing the expression(s) that will be evaluated.
|
| + */
|
| + Source _source;
|
| + /**
|
| + * Initialize a newly created evaluator to evaluate expressions in the given source.
|
| + * @param source the source containing the expression(s) that will be evaluated
|
| + */
|
| + ConstantEvaluator(Source source) {
|
| + this._source = source;
|
| + }
|
| + EvaluationResult evaluate(Expression expression) {
|
| + EvaluationResultImpl result = expression.accept(new ConstantVisitor());
|
| + if (result is ValidResult) {
|
| + return EvaluationResult.forValue(((result as ValidResult)).value);
|
| + }
|
| + List<AnalysisError> errors = new List<AnalysisError>();
|
| + for (ErrorResult_ErrorData data in ((result as ErrorResult)).errorData) {
|
| + ASTNode node2 = data.node;
|
| + errors.add(new AnalysisError.con2(_source, node2.offset, node2.length, data.errorCode, []));
|
| + }
|
| + return EvaluationResult.forErrors(new List.from(errors));
|
| + }
|
| +}
|
| +/**
|
| + * Instances of the class {@code EvaluationResult} represent the result of attempting to evaluate an
|
| + * expression.
|
| + */
|
| +class EvaluationResult {
|
| + /**
|
| + * Return an evaluation result representing the result of evaluating an expression that is not a
|
| + * compile-time constant because of the given errors.
|
| + * @param errors the errors that should be reported for the expression(s) that were evaluated
|
| + * @return the result of evaluating an expression that is not a compile-time constant
|
| + */
|
| + static EvaluationResult forErrors(List<AnalysisError> errors) => new EvaluationResult(null, errors);
|
| + /**
|
| + * Return an evaluation result representing the result of evaluating an expression that is a
|
| + * compile-time constant that evaluates to the given value.
|
| + * @param value the value of the expression
|
| + * @return the result of evaluating an expression that is a compile-time constant
|
| + */
|
| + static EvaluationResult forValue(Object value) => new EvaluationResult(value, null);
|
| + /**
|
| + * The value of the expression.
|
| + */
|
| + Object _value;
|
| + /**
|
| + * The errors that should be reported for the expression(s) that were evaluated.
|
| + */
|
| + List<AnalysisError> _errors;
|
| + /**
|
| + * Initialize a newly created result object with the given state. Clients should use one of the
|
| + * factory methods: {@link #forErrors(AnalysisError[])} and {@link #forValue(Object)}.
|
| + * @param value the value of the expression
|
| + * @param errors the errors that should be reported for the expression(s) that were evaluated
|
| + */
|
| + EvaluationResult(Object value, List<AnalysisError> errors) {
|
| + this._value = value;
|
| + this._errors = errors;
|
| + }
|
| + /**
|
| + * Return an array containing the errors that should be reported for the expression(s) that were
|
| + * evaluated. If there are no such errors, the array will be empty. The array can be empty even if
|
| + * the expression is not a valid compile time constant if the errors would have been reported by
|
| + * other parts of the analysis engine.
|
| + */
|
| + List<AnalysisError> get errors => _errors == null ? AnalysisError.NO_ERRORS : _errors;
|
| + /**
|
| + * Return the value of the expression, or {@code null} if the expression evaluated to {@code null}or if the expression could not be evaluated, either because it was not a compile-time constant
|
| + * expression or because it would throw an exception when evaluated.
|
| + * @return the value of the expression
|
| + */
|
| + Object get value => _value;
|
| + /**
|
| + * Return {@code true} if the expression is a compile-time constant expression that would not
|
| + * throw an exception when evaluated.
|
| + * @return {@code true} if the expression is a valid compile-time constant expression
|
| + */
|
| + bool isValid() => _errors == null;
|
| +}
|
| +/**
|
| + * Instances of the class {@code ConstantVisitor} evaluate constant expressions to produce their
|
| + * compile-time value. According to the Dart Language Specification: <blockquote> A constant
|
| + * expression is one of the following:
|
| + * <ul>
|
| + * <li>A literal number.</li>
|
| + * <li>A literal boolean.</li>
|
| + * <li>A literal string where any interpolated expression is a compile-time constant that evaluates
|
| + * to a numeric, string or boolean value or to {@code null}.</li>
|
| + * <li>{@code null}.</li>
|
| + * <li>A reference to a static constant variable.</li>
|
| + * <li>An identifier expression that denotes a constant variable, a class or a type variable.</li>
|
| + * <li>A constant constructor invocation.</li>
|
| + * <li>A constant list literal.</li>
|
| + * <li>A constant map literal.</li>
|
| + * <li>A simple or qualified identifier denoting a top-level function or a static method.</li>
|
| + * <li>A parenthesized expression {@code (e)} where {@code e} is a constant expression.</li>
|
| + * <li>An expression of one of the forms {@code identical(e1, e2)}, {@code e1 == e2},{@code e1 != e2} where {@code e1} and {@code e2} are constant expressions that evaluate to a
|
| + * numeric, string or boolean value or to {@code null}.</li>
|
| + * <li>An expression of one of the forms {@code !e}, {@code e1 && e2} or {@code e1 || e2}, where{@code e}, {@code e1} and {@code e2} are constant expressions that evaluate to a boolean value or
|
| + * to {@code null}.</li>
|
| + * <li>An expression of one of the forms {@code ~e}, {@code e1 ^ e2}, {@code e1 & e2},{@code e1 | e2}, {@code e1 >> e2} or {@code e1 << e2}, where {@code e}, {@code e1} and {@code e2}are constant expressions that evaluate to an integer value or to {@code null}.</li>
|
| + * <li>An expression of one of the forms {@code -e}, {@code e1 + e2}, {@code e1 - e2},{@code e1 * e2}, {@code e1 / e2}, {@code e1 ~/ e2}, {@code e1 > e2}, {@code e1 < e2},{@code e1 >= e2}, {@code e1 <= e2} or {@code e1 % e2}, where {@code e}, {@code e1} and {@code e2}are constant expressions that evaluate to a numeric value or to {@code null}.</li>
|
| + * </ul>
|
| + * </blockquote>
|
| + */
|
| +class ConstantVisitor extends GeneralizingASTVisitor<EvaluationResultImpl> {
|
| + /**
|
| + * Initialize a newly created constant visitor.
|
| + */
|
| + ConstantVisitor() : super() {
|
| + }
|
| + EvaluationResultImpl visitAdjacentStrings(AdjacentStrings node) {
|
| + EvaluationResultImpl result = null;
|
| + for (StringLiteral string in node.strings) {
|
| + if (result == null) {
|
| + result = string.accept(this);
|
| + } else {
|
| + result = result.concatenate(node, string.accept(this));
|
| + }
|
| + }
|
| + return result;
|
| + }
|
| + EvaluationResultImpl visitBinaryExpression(BinaryExpression node) {
|
| + EvaluationResultImpl leftResult = node.leftOperand.accept(this);
|
| + EvaluationResultImpl rightResult = node.rightOperand.accept(this);
|
| + while (true) {
|
| + if (node.operator.type == TokenType.AMPERSAND) {
|
| + return leftResult.bitAnd(node, rightResult);
|
| + } else if (node.operator.type == TokenType.AMPERSAND_AMPERSAND) {
|
| + return leftResult.logicalAnd(node, rightResult);
|
| + } else if (node.operator.type == TokenType.BANG_EQ) {
|
| + return leftResult.notEqual(node, rightResult);
|
| + } else if (node.operator.type == TokenType.BAR) {
|
| + return leftResult.bitOr(node, rightResult);
|
| + } else if (node.operator.type == TokenType.BAR_BAR) {
|
| + return leftResult.logicalOr(node, rightResult);
|
| + } else if (node.operator.type == TokenType.CARET) {
|
| + return leftResult.bitXor(node, rightResult);
|
| + } else if (node.operator.type == TokenType.EQ_EQ) {
|
| + return leftResult.equalEqual(node, rightResult);
|
| + } else if (node.operator.type == TokenType.GT) {
|
| + return leftResult.greaterThan(node, rightResult);
|
| + } else if (node.operator.type == TokenType.GT_EQ) {
|
| + return leftResult.greaterThanOrEqual(node, rightResult);
|
| + } else if (node.operator.type == TokenType.GT_GT) {
|
| + return leftResult.shiftRight(node, rightResult);
|
| + } else if (node.operator.type == TokenType.LT) {
|
| + return leftResult.lessThan(node, rightResult);
|
| + } else if (node.operator.type == TokenType.LT_EQ) {
|
| + return leftResult.lessThanOrEqual(node, rightResult);
|
| + } else if (node.operator.type == TokenType.LT_LT) {
|
| + return leftResult.shiftLeft(node, rightResult);
|
| + } else if (node.operator.type == TokenType.MINUS) {
|
| + return leftResult.minus(node, rightResult);
|
| + } else if (node.operator.type == TokenType.PERCENT) {
|
| + return leftResult.remainder(node, rightResult);
|
| + } else if (node.operator.type == TokenType.PLUS) {
|
| + return leftResult.add(node, rightResult);
|
| + } else if (node.operator.type == TokenType.STAR) {
|
| + return leftResult.times(node, rightResult);
|
| + } else if (node.operator.type == TokenType.SLASH) {
|
| + return leftResult.divide(node, rightResult);
|
| + } else if (node.operator.type == TokenType.TILDE_SLASH) {
|
| + return leftResult.integerDivide(node, rightResult);
|
| + }
|
| + break;
|
| + }
|
| + return error(node, null);
|
| + }
|
| + EvaluationResultImpl visitBooleanLiteral(BooleanLiteral node) => node.value ? ValidResult.RESULT_TRUE : ValidResult.RESULT_FALSE;
|
| + EvaluationResultImpl visitDoubleLiteral(DoubleLiteral node) => new ValidResult(node.value);
|
| + EvaluationResultImpl visitInstanceCreationExpression(InstanceCreationExpression node) {
|
| + ConstructorElement constructor = node.element;
|
| + if (constructor != null && constructor.isConst()) {
|
| + node.argumentList.accept(this);
|
| + return ValidResult.RESULT_OBJECT;
|
| + }
|
| + return error(node, null);
|
| + }
|
| + EvaluationResultImpl visitIntegerLiteral(IntegerLiteral node) => new ValidResult(node.value);
|
| + EvaluationResultImpl visitInterpolationExpression(InterpolationExpression node) {
|
| + EvaluationResultImpl result = node.expression.accept(this);
|
| + return result.performToString(node);
|
| + }
|
| + EvaluationResultImpl visitInterpolationString(InterpolationString node) => new ValidResult(node.value);
|
| + EvaluationResultImpl visitListLiteral(ListLiteral node) {
|
| + ErrorResult result = null;
|
| + for (Expression element in node.elements) {
|
| + result = union(result, element.accept(this));
|
| + }
|
| + if (result != null) {
|
| + return result;
|
| + }
|
| + return ValidResult.RESULT_OBJECT;
|
| + }
|
| + EvaluationResultImpl visitMapLiteral(MapLiteral node) {
|
| + ErrorResult result = null;
|
| + for (MapLiteralEntry entry in node.entries) {
|
| + result = union(result, entry.key.accept(this));
|
| + result = union(result, entry.value.accept(this));
|
| + }
|
| + if (result != null) {
|
| + return result;
|
| + }
|
| + return ValidResult.RESULT_OBJECT;
|
| + }
|
| + EvaluationResultImpl visitMethodInvocation(MethodInvocation node) {
|
| + Element element21 = node.methodName.element;
|
| + if (element21 is FunctionElement) {
|
| + FunctionElement function = element21 as FunctionElement;
|
| + if (function.name == "identical") {
|
| + NodeList<Expression> arguments3 = node.argumentList.arguments;
|
| + if (arguments3.length == 2) {
|
| + Element enclosingElement2 = function.enclosingElement;
|
| + if (enclosingElement2 is CompilationUnitElement) {
|
| + LibraryElement library20 = ((enclosingElement2 as CompilationUnitElement)).library;
|
| + if (library20.isDartCore()) {
|
| + EvaluationResultImpl leftArgument = arguments3[0].accept(this);
|
| + EvaluationResultImpl rightArgument = arguments3[1].accept(this);
|
| + return leftArgument.equalEqual(node, rightArgument);
|
| + }
|
| + }
|
| + }
|
| + }
|
| + }
|
| + return error(node, null);
|
| + }
|
| + EvaluationResultImpl visitNode(ASTNode node) => error(node, null);
|
| + EvaluationResultImpl visitNullLiteral(NullLiteral node) => new ValidResult(null);
|
| + EvaluationResultImpl visitParenthesizedExpression(ParenthesizedExpression node) => node.expression.accept(this);
|
| + EvaluationResultImpl visitPrefixedIdentifier(PrefixedIdentifier node) => getConstantValue(node, node.element);
|
| + EvaluationResultImpl visitPrefixExpression(PrefixExpression node) {
|
| + EvaluationResultImpl operand3 = node.operand.accept(this);
|
| + while (true) {
|
| + if (node.operator.type == TokenType.BANG) {
|
| + return operand3.logicalNot(node);
|
| + } else if (node.operator.type == TokenType.TILDE) {
|
| + return operand3.bitNot(node);
|
| + } else if (node.operator.type == TokenType.MINUS) {
|
| + return operand3.negated(node);
|
| + }
|
| + break;
|
| + }
|
| + return error(node, null);
|
| + }
|
| + EvaluationResultImpl visitPropertyAccess(PropertyAccess node) => getConstantValue(node, node.propertyName.element);
|
| + EvaluationResultImpl visitSimpleIdentifier(SimpleIdentifier node) => getConstantValue(node, node.element);
|
| + EvaluationResultImpl visitSimpleStringLiteral(SimpleStringLiteral node) => new ValidResult(node.value);
|
| + EvaluationResultImpl visitStringInterpolation(StringInterpolation node) {
|
| + EvaluationResultImpl result = null;
|
| + for (InterpolationElement element in node.elements) {
|
| + if (result == null) {
|
| + result = element.accept(this);
|
| + } else {
|
| + result = result.concatenate(node, element.accept(this));
|
| + }
|
| + }
|
| + return result;
|
| + }
|
| + /**
|
| + * Return a result object representing an error associated with the given node.
|
| + * @param node the AST node associated with the error
|
| + * @param code the error code indicating the nature of the error
|
| + * @return a result object representing an error associated with the given node
|
| + */
|
| + ErrorResult error(ASTNode node, ErrorCode code) => new ErrorResult.con1(node, code == null ? CompileTimeErrorCode.INVALID_CONSTANT : code);
|
| + /**
|
| + * Return the constant value of the static constant represented by the given element.
|
| + * @param node the node to be used if an error needs to be reported
|
| + * @param element the element whose value is to be returned
|
| + * @return the constant value of the static constant
|
| + */
|
| + EvaluationResultImpl getConstantValue(ASTNode node, Element element) {
|
| + if (element is PropertyAccessorElementImpl) {
|
| + element = ((element as PropertyAccessorElementImpl)).variable;
|
| + }
|
| + if (element is VariableElementImpl) {
|
| + EvaluationResultImpl value = ((element as VariableElementImpl)).evaluationResult;
|
| + if (value != null) {
|
| + return value;
|
| + }
|
| + }
|
| + return error(node, null);
|
| + }
|
| + /**
|
| + * Return the union of the errors encoded in the given results.
|
| + * @param leftResult the first set of errors, or {@code null} if there was no previous collection
|
| + * of errors
|
| + * @param rightResult the errors to be added to the collection, or a valid result if there are no
|
| + * errors to be added
|
| + * @return the union of the errors encoded in the given results
|
| + */
|
| + ErrorResult union(ErrorResult leftResult, EvaluationResultImpl rightResult) {
|
| + if (rightResult is ErrorResult) {
|
| + if (leftResult != null) {
|
| + return new ErrorResult.con2(leftResult, (rightResult as ErrorResult));
|
| + } else {
|
| + return rightResult as ErrorResult;
|
| + }
|
| + }
|
| + return leftResult;
|
| + }
|
| +}
|
| +/**
|
| + * Instances of the class {@code ErrorResult} represent the result of evaluating an expression that
|
| + * is not a valid compile time constant.
|
| + */
|
| +class ErrorResult extends EvaluationResultImpl {
|
| + /**
|
| + * The errors that prevent the expression from being a valid compile time constant.
|
| + */
|
| + List<ErrorResult_ErrorData> _errors = new List<ErrorResult_ErrorData>();
|
| + /**
|
| + * Initialize a newly created result representing the error with the given code reported against
|
| + * the given node.
|
| + * @param node the node against which the error should be reported
|
| + * @param errorCode the error code for the error to be generated
|
| + */
|
| + ErrorResult.con1(ASTNode node, ErrorCode errorCode) {
|
| + _jtd_constructor_156_impl(node, errorCode);
|
| + }
|
| + _jtd_constructor_156_impl(ASTNode node, ErrorCode errorCode) {
|
| + _errors.add(new ErrorResult_ErrorData(node, errorCode));
|
| + }
|
| + /**
|
| + * Initialize a newly created result to represent the union of the errors in the given result
|
| + * objects.
|
| + * @param firstResult the first set of results being merged
|
| + * @param secondResult the second set of results being merged
|
| + */
|
| + ErrorResult.con2(ErrorResult firstResult, ErrorResult secondResult) {
|
| + _jtd_constructor_157_impl(firstResult, secondResult);
|
| + }
|
| + _jtd_constructor_157_impl(ErrorResult firstResult, ErrorResult secondResult) {
|
| + _errors.addAll(firstResult._errors);
|
| + _errors.addAll(secondResult._errors);
|
| + }
|
| + EvaluationResultImpl add(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.addToError(node, this);
|
| + EvaluationResultImpl bitAnd(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.bitAndError(node, this);
|
| + EvaluationResultImpl bitNot(Expression node) => this;
|
| + EvaluationResultImpl bitOr(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.bitOrError(node, this);
|
| + EvaluationResultImpl bitXor(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.bitXorError(node, this);
|
| + EvaluationResultImpl concatenate(Expression node, EvaluationResultImpl rightOperand) => rightOperand.concatenateError(node, this);
|
| + EvaluationResultImpl divide(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.divideError(node, this);
|
| + EvaluationResultImpl equalEqual(Expression node, EvaluationResultImpl rightOperand) => rightOperand.equalEqualError(node, this);
|
| + List<ErrorResult_ErrorData> get errorData => _errors;
|
| + List<AnalysisError> get errors => new List.from(_errors);
|
| + EvaluationResultImpl greaterThan(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.greaterThanError(node, this);
|
| + EvaluationResultImpl greaterThanOrEqual(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.greaterThanOrEqualError(node, this);
|
| + EvaluationResultImpl integerDivide(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.integerDivideError(node, this);
|
| + EvaluationResultImpl integerDivideValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl lessThan(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.lessThanError(node, this);
|
| + EvaluationResultImpl lessThanOrEqual(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.lessThanOrEqualError(node, this);
|
| + EvaluationResultImpl logicalAnd(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.logicalAndError(node, this);
|
| + EvaluationResultImpl logicalNot(Expression node) => this;
|
| + EvaluationResultImpl logicalOr(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.logicalOrError(node, this);
|
| + EvaluationResultImpl minus(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.minusError(node, this);
|
| + EvaluationResultImpl negated(Expression node) => this;
|
| + EvaluationResultImpl notEqual(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.notEqualError(node, this);
|
| + EvaluationResultImpl performToString(ASTNode node) => this;
|
| + EvaluationResultImpl remainder(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.remainderError(node, this);
|
| + EvaluationResultImpl shiftLeft(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.shiftLeftError(node, this);
|
| + EvaluationResultImpl shiftRight(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.shiftRightError(node, this);
|
| + EvaluationResultImpl times(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.timesError(node, this);
|
| + EvaluationResultImpl addToError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl addToValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl bitAndError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl bitAndValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl bitOrError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl bitOrValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl bitXorError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl bitXorValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl concatenateError(Expression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl concatenateValid(Expression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl divideError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl divideValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl equalEqualError(Expression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl equalEqualValid(Expression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl greaterThanError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl greaterThanOrEqualError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl greaterThanOrEqualValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl greaterThanValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl integerDivideError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl lessThanError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl lessThanOrEqualError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl lessThanOrEqualValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl lessThanValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl logicalAndError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl logicalAndValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl logicalOrError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl logicalOrValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl minusError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl minusValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl notEqualError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl notEqualValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl remainderError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl remainderValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl shiftLeftError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl shiftLeftValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl shiftRightError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl shiftRightValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| + EvaluationResultImpl timesError(BinaryExpression node, ErrorResult leftOperand) => new ErrorResult.con2(this, leftOperand);
|
| + EvaluationResultImpl timesValid(BinaryExpression node, ValidResult leftOperand) => this;
|
| +}
|
| +class ErrorResult_ErrorData {
|
| + /**
|
| + * The node against which the error should be reported.
|
| + */
|
| + ASTNode _node;
|
| + /**
|
| + * The error code for the error to be generated.
|
| + */
|
| + ErrorCode _errorCode;
|
| + /**
|
| + * Initialize a newly created data holder to represent the error with the given code reported
|
| + * against the given node.
|
| + * @param node the node against which the error should be reported
|
| + * @param errorCode the error code for the error to be generated
|
| + */
|
| + ErrorResult_ErrorData(ASTNode node, ErrorCode errorCode) {
|
| + this._node = node;
|
| + this._errorCode = errorCode;
|
| + }
|
| + /**
|
| + * Return the error code for the error to be generated.
|
| + * @return the error code for the error to be generated
|
| + */
|
| + ErrorCode get errorCode => _errorCode;
|
| + /**
|
| + * Return the node against which the error should be reported.
|
| + * @return the node against which the error should be reported
|
| + */
|
| + ASTNode get node => _node;
|
| +}
|
| +/**
|
| + * Instances of the class {@code InternalResult} represent the result of attempting to evaluate a
|
| + * expression.
|
| + */
|
| +abstract class EvaluationResultImpl {
|
| + EvaluationResultImpl add(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl bitAnd(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl bitNot(Expression node);
|
| + EvaluationResultImpl bitOr(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl bitXor(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl concatenate(Expression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl divide(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl equalEqual(Expression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl greaterThan(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl greaterThanOrEqual(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl integerDivide(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl lessThan(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl lessThanOrEqual(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl logicalAnd(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl logicalNot(Expression node);
|
| + EvaluationResultImpl logicalOr(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl minus(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl negated(Expression node);
|
| + EvaluationResultImpl notEqual(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl performToString(ASTNode node);
|
| + EvaluationResultImpl remainder(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl shiftLeft(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl shiftRight(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl times(BinaryExpression node, EvaluationResultImpl rightOperand);
|
| + EvaluationResultImpl addToError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl addToValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl bitAndError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl bitAndValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl bitOrError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl bitOrValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl bitXorError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl bitXorValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl concatenateError(Expression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl concatenateValid(Expression node, ValidResult leftOperand);
|
| + EvaluationResultImpl divideError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl divideValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl equalEqualError(Expression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl equalEqualValid(Expression node, ValidResult leftOperand);
|
| + EvaluationResultImpl greaterThanError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl greaterThanOrEqualError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl greaterThanOrEqualValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl greaterThanValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl integerDivideError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl integerDivideValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl lessThanError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl lessThanOrEqualError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl lessThanOrEqualValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl lessThanValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl logicalAndError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl logicalAndValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl logicalOrError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl logicalOrValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl minusError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl minusValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl notEqualError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl notEqualValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl remainderError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl remainderValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl shiftLeftError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl shiftLeftValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl shiftRightError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl shiftRightValid(BinaryExpression node, ValidResult leftOperand);
|
| + EvaluationResultImpl timesError(BinaryExpression node, ErrorResult leftOperand);
|
| + EvaluationResultImpl timesValid(BinaryExpression node, ValidResult leftOperand);
|
| +}
|
| +/**
|
| + * Instances of the class {@code ValidResult} represent the result of attempting to evaluate a valid
|
| + * compile time constant expression.
|
| + */
|
| +class ValidResult extends EvaluationResultImpl {
|
| + /**
|
| + * A result object representing the value 'false'.
|
| + */
|
| + static ValidResult RESULT_FALSE = new ValidResult(false);
|
| + /**
|
| + * A result object representing the an arbitrary object on which no further operations can be
|
| + * performed.
|
| + */
|
| + static ValidResult RESULT_OBJECT = new ValidResult(new Object());
|
| + /**
|
| + * A result object representing the value 'true'.
|
| + */
|
| + static ValidResult RESULT_TRUE = new ValidResult(true);
|
| + /**
|
| + * The value of the expression.
|
| + */
|
| + Object _value;
|
| + /**
|
| + * Initialize a newly created result to represent the given value.
|
| + * @param value the value of the expression
|
| + */
|
| + ValidResult(Object value) {
|
| + this._value = value;
|
| + }
|
| + EvaluationResultImpl add(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.addToValid(node, this);
|
| + EvaluationResultImpl bitAnd(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.bitAndValid(node, this);
|
| + EvaluationResultImpl bitNot(Expression node) {
|
| + if (_value == null) {
|
| + return error(node);
|
| + } else if (_value is int) {
|
| + return valueOf(~((_value as int)));
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl bitOr(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.bitOrValid(node, this);
|
| + EvaluationResultImpl bitXor(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.bitXorValid(node, this);
|
| + EvaluationResultImpl concatenate(Expression node, EvaluationResultImpl rightOperand) => rightOperand.concatenateValid(node, this);
|
| + EvaluationResultImpl divide(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.divideValid(node, this);
|
| + EvaluationResultImpl equalEqual(Expression node, EvaluationResultImpl rightOperand) => rightOperand.equalEqualValid(node, this);
|
| + Object get value => _value;
|
| + EvaluationResultImpl greaterThan(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.greaterThanValid(node, this);
|
| + EvaluationResultImpl greaterThanOrEqual(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.greaterThanOrEqualValid(node, this);
|
| + EvaluationResultImpl integerDivide(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.integerDivideValid(node, this);
|
| + EvaluationResultImpl lessThan(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.lessThanValid(node, this);
|
| + EvaluationResultImpl lessThanOrEqual(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.lessThanOrEqualValid(node, this);
|
| + EvaluationResultImpl logicalAnd(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.logicalAndValid(node, this);
|
| + EvaluationResultImpl logicalNot(Expression node) {
|
| + if (_value == null) {
|
| + return RESULT_TRUE;
|
| + } else if (_value is bool) {
|
| + return ((_value as bool)) ? RESULT_FALSE : RESULT_TRUE;
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl logicalOr(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.logicalOrValid(node, this);
|
| + EvaluationResultImpl minus(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.minusValid(node, this);
|
| + EvaluationResultImpl negated(Expression node) {
|
| + if (_value == null) {
|
| + return error(node);
|
| + } else if (_value is int) {
|
| + return valueOf(-((_value as int)));
|
| + } else if (_value is double) {
|
| + return valueOf3(-((_value as double)));
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl notEqual(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.notEqualValid(node, this);
|
| + EvaluationResultImpl performToString(ASTNode node) {
|
| + if (_value == null) {
|
| + return valueOf4("null");
|
| + } else if (_value is bool) {
|
| + return valueOf4(((_value as bool)).toString());
|
| + } else if (_value is int) {
|
| + return valueOf4(((_value as int)).toString());
|
| + } else if (_value is double) {
|
| + return valueOf4(((_value as double)).toString());
|
| + } else if (_value is String) {
|
| + return this;
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl remainder(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.remainderValid(node, this);
|
| + EvaluationResultImpl shiftLeft(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.shiftLeftValid(node, this);
|
| + EvaluationResultImpl shiftRight(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.shiftRightValid(node, this);
|
| + EvaluationResultImpl times(BinaryExpression node, EvaluationResultImpl rightOperand) => rightOperand.timesValid(node, this);
|
| + String toString() {
|
| + if (_value == null) {
|
| + return "null";
|
| + }
|
| + return _value.toString();
|
| + }
|
| + EvaluationResultImpl addToError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl addToValid(BinaryExpression node, ValidResult leftOperand3) {
|
| + Object leftValue = leftOperand3.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) + (_value as int));
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as int)).toDouble() + ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf3(((leftValue as double)) + ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as double)) + ((_value as double)));
|
| + }
|
| + } else if (leftValue is String) {
|
| + if (_value is String) {
|
| + return valueOf4("${((leftValue as String))}${((_value as String))}");
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl bitAndError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl bitAndValid(BinaryExpression node, ValidResult leftOperand4) {
|
| + Object leftValue = leftOperand4.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) & (_value as int));
|
| + }
|
| + return error(node.leftOperand);
|
| + }
|
| + if (_value is int) {
|
| + return error(node.rightOperand);
|
| + }
|
| + return union(error(node.leftOperand), error(node.rightOperand));
|
| + }
|
| + EvaluationResultImpl bitOrError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl bitOrValid(BinaryExpression node, ValidResult leftOperand5) {
|
| + Object leftValue = leftOperand5.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) | (_value as int));
|
| + }
|
| + return error(node.leftOperand);
|
| + }
|
| + if (_value is int) {
|
| + return error(node.rightOperand);
|
| + }
|
| + return union(error(node.leftOperand), error(node.rightOperand));
|
| + }
|
| + EvaluationResultImpl bitXorError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl bitXorValid(BinaryExpression node, ValidResult leftOperand6) {
|
| + Object leftValue = leftOperand6.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) ^ (_value as int));
|
| + }
|
| + return error(node.leftOperand);
|
| + }
|
| + if (_value is int) {
|
| + return error(node.rightOperand);
|
| + }
|
| + return union(error(node.leftOperand), error(node.rightOperand));
|
| + }
|
| + EvaluationResultImpl concatenateError(Expression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl concatenateValid(Expression node, ValidResult leftOperand) {
|
| + Object leftValue = leftOperand.value;
|
| + if (leftValue is String && _value is String) {
|
| + return valueOf4("${((leftValue as String))}${((_value as String))}");
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl divideError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl divideValid(BinaryExpression node, ValidResult leftOperand7) {
|
| + Object leftValue = leftOperand7.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + if (((_value as int)) == 0) {
|
| + return error2(node.rightOperand, CompileTimeErrorCode.COMPILE_TIME_CONSTANT_RAISES_EXCEPTION_DIVIDE_BY_ZERO);
|
| + }
|
| + return valueOf(((leftValue as int)) ~/ (_value as int));
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as int)).toDouble() / ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf3(((leftValue as double)) / ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as double)) / ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl equalEqualError(Expression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl equalEqualValid(Expression node, ValidResult leftOperand) {
|
| + Object leftValue = leftOperand.value;
|
| + if (leftValue == null) {
|
| + return valueOf2(_value == null);
|
| + } else if (leftValue is bool) {
|
| + if (_value is bool) {
|
| + return valueOf2(identical(((leftValue as bool)), ((_value as bool))));
|
| + }
|
| + return RESULT_FALSE;
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as int)) == _value);
|
| + } else if (_value is double) {
|
| + return valueOf2(toDouble((leftValue as int)) == _value);
|
| + }
|
| + return RESULT_FALSE;
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as double)) == toDouble((_value as int)));
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as double)) == _value);
|
| + }
|
| + return RESULT_FALSE;
|
| + } else if (leftValue is String) {
|
| + if (_value is String) {
|
| + return valueOf2(((leftValue as String)) == _value);
|
| + }
|
| + return RESULT_FALSE;
|
| + }
|
| + return RESULT_FALSE;
|
| + }
|
| + EvaluationResultImpl greaterThanError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl greaterThanOrEqualError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl greaterThanOrEqualValid(BinaryExpression node, ValidResult leftOperand8) {
|
| + Object leftValue = leftOperand8.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as int)).compareTo((_value as int)) >= 0);
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as int)).toDouble() >= ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as double)) >= ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as double)) >= ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl greaterThanValid(BinaryExpression node, ValidResult leftOperand9) {
|
| + Object leftValue = leftOperand9.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as int)).compareTo((_value as int)) > 0);
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as int)).toDouble() > ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as double)) > ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as double)) > ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl integerDivideError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl integerDivideValid(BinaryExpression node, ValidResult leftOperand10) {
|
| + Object leftValue = leftOperand10.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + if (((_value as int)) == 0) {
|
| + return error2(node.rightOperand, CompileTimeErrorCode.COMPILE_TIME_CONSTANT_RAISES_EXCEPTION_DIVIDE_BY_ZERO);
|
| + }
|
| + return valueOf(((leftValue as int)) ~/ (_value as int));
|
| + } else if (_value is double) {
|
| + double result = ((leftValue as int)).toDouble() / ((_value as double));
|
| + return valueOf((result as int));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + double result = ((leftValue as double)) / ((_value as int)).toDouble();
|
| + return valueOf((result as int));
|
| + } else if (_value is double) {
|
| + double result = ((leftValue as double)) / ((_value as double));
|
| + return valueOf((result as int));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl lessThanError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl lessThanOrEqualError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl lessThanOrEqualValid(BinaryExpression node, ValidResult leftOperand11) {
|
| + Object leftValue = leftOperand11.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as int)).compareTo((_value as int)) <= 0);
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as int)).toDouble() <= ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as double)) <= ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as double)) <= ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl lessThanValid(BinaryExpression node, ValidResult leftOperand12) {
|
| + Object leftValue = leftOperand12.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as int)).compareTo((_value as int)) < 0);
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as int)).toDouble() < ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as double)) < ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as double)) < ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl logicalAndError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl logicalAndValid(BinaryExpression node, ValidResult leftOperand) {
|
| + Object leftValue = leftOperand.value;
|
| + if (leftValue is bool && ((leftValue as bool))) {
|
| + return booleanConversion(node.rightOperand, _value);
|
| + }
|
| + return RESULT_FALSE;
|
| + }
|
| + EvaluationResultImpl logicalOrError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl logicalOrValid(BinaryExpression node, ValidResult leftOperand) {
|
| + Object leftValue = leftOperand.value;
|
| + if (leftValue is bool && ((leftValue as bool))) {
|
| + return RESULT_TRUE;
|
| + }
|
| + return booleanConversion(node.rightOperand, _value);
|
| + }
|
| + EvaluationResultImpl minusError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl minusValid(BinaryExpression node, ValidResult leftOperand13) {
|
| + Object leftValue = leftOperand13.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) - (_value as int));
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as int)).toDouble() - ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf3(((leftValue as double)) - ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as double)) - ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl notEqualError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl notEqualValid(BinaryExpression node, ValidResult leftOperand) {
|
| + Object leftValue = leftOperand.value;
|
| + if (leftValue == null) {
|
| + return valueOf2(_value != null);
|
| + } else if (leftValue is bool) {
|
| + if (_value is bool) {
|
| + return valueOf2(((leftValue as bool)) != ((_value as bool)));
|
| + }
|
| + return RESULT_TRUE;
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as int)) != _value);
|
| + } else if (_value is double) {
|
| + return valueOf2(toDouble((leftValue as int)) != _value);
|
| + }
|
| + return RESULT_TRUE;
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf2(((leftValue as double)) != toDouble((_value as int)));
|
| + } else if (_value is double) {
|
| + return valueOf2(((leftValue as double)) != _value);
|
| + }
|
| + return RESULT_TRUE;
|
| + } else if (leftValue is String) {
|
| + if (_value is String) {
|
| + return valueOf2(((leftValue as String)) != _value);
|
| + }
|
| + return RESULT_TRUE;
|
| + }
|
| + return RESULT_TRUE;
|
| + }
|
| + EvaluationResultImpl remainderError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl remainderValid(BinaryExpression node, ValidResult leftOperand14) {
|
| + Object leftValue = leftOperand14.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (((_value as int)) == 0) {
|
| + return error2(node.rightOperand, CompileTimeErrorCode.COMPILE_TIME_CONSTANT_RAISES_EXCEPTION_DIVIDE_BY_ZERO);
|
| + }
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)).remainder((_value as int)));
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as int)).toDouble() % ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf3(((leftValue as double)) % ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as double)) % ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + EvaluationResultImpl shiftLeftError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl shiftLeftValid(BinaryExpression node, ValidResult leftOperand15) {
|
| + Object leftValue = leftOperand15.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) << ((_value as int)));
|
| + }
|
| + return error(node.rightOperand);
|
| + }
|
| + if (_value is int) {
|
| + return error(node.leftOperand);
|
| + }
|
| + return union(error(node.leftOperand), error(node.rightOperand));
|
| + }
|
| + EvaluationResultImpl shiftRightError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl shiftRightValid(BinaryExpression node, ValidResult leftOperand16) {
|
| + Object leftValue = leftOperand16.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) >> ((_value as int)));
|
| + }
|
| + return error(node.rightOperand);
|
| + }
|
| + if (_value is int) {
|
| + return error(node.leftOperand);
|
| + }
|
| + return union(error(node.leftOperand), error(node.rightOperand));
|
| + }
|
| + EvaluationResultImpl timesError(BinaryExpression node, ErrorResult leftOperand) => leftOperand;
|
| + EvaluationResultImpl timesValid(BinaryExpression node, ValidResult leftOperand17) {
|
| + Object leftValue = leftOperand17.value;
|
| + if (leftValue == null) {
|
| + return error(node.leftOperand);
|
| + } else if (_value == null) {
|
| + return error(node.rightOperand);
|
| + } else if (leftValue is int) {
|
| + if (_value is int) {
|
| + return valueOf(((leftValue as int)) * (_value as int));
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as int)).toDouble() * ((_value as double)));
|
| + }
|
| + } else if (leftValue is double) {
|
| + if (_value is int) {
|
| + return valueOf3(((leftValue as double)) * ((_value as int)).toDouble());
|
| + } else if (_value is double) {
|
| + return valueOf3(((leftValue as double)) * ((_value as double)));
|
| + }
|
| + }
|
| + return error(node);
|
| + }
|
| + /**
|
| + * Return the result of applying boolean conversion to the given value.
|
| + * @param node the node against which errors should be reported
|
| + * @param value the value to be converted to a boolean
|
| + * @return the result of applying boolean conversion to the given value
|
| + */
|
| + EvaluationResultImpl booleanConversion(ASTNode node, Object value) {
|
| + if (value == null) {
|
| + return error(node);
|
| + } else if (value is bool && ((value as bool))) {
|
| + return RESULT_TRUE;
|
| + }
|
| + return RESULT_FALSE;
|
| + }
|
| + ErrorResult error(ASTNode node) => error2(node, CompileTimeErrorCode.INVALID_CONSTANT);
|
| + /**
|
| + * Return a result object representing an error associated with the given node.
|
| + * @param node the AST node associated with the error
|
| + * @param code the error code indicating the nature of the error
|
| + * @return a result object representing an error associated with the given node
|
| + */
|
| + ErrorResult error2(ASTNode node, ErrorCode code) => new ErrorResult.con1(node, code);
|
| + double toDouble(int value) => value.toDouble();
|
| + /**
|
| + * Return an error result that is the union of the two given error results.
|
| + * @param firstError the first error to be combined
|
| + * @param secondError the second error to be combined
|
| + * @return an error result that is the union of the two given error results
|
| + */
|
| + ErrorResult union(ErrorResult firstError, ErrorResult secondError) => new ErrorResult.con2(firstError, secondError);
|
| + /**
|
| + * Return a result object representing the given value.
|
| + * @param value the value to be represented as a result object
|
| + * @return a result object representing the given value
|
| + */
|
| + ValidResult valueOf(int value) => new ValidResult(value);
|
| + /**
|
| + * Return a result object representing the given value.
|
| + * @param value the value to be represented as a result object
|
| + * @return a result object representing the given value
|
| + */
|
| + ValidResult valueOf2(bool value) => value ? RESULT_TRUE : RESULT_FALSE;
|
| + /**
|
| + * Return a result object representing the given value.
|
| + * @param value the value to be represented as a result object
|
| + * @return a result object representing the given value
|
| + */
|
| + ValidResult valueOf3(double value) => new ValidResult(value);
|
| + /**
|
| + * Return a result object representing the given value.
|
| + * @param value the value to be represented as a result object
|
| + * @return a result object representing the given value
|
| + */
|
| + ValidResult valueOf4(String value) => new ValidResult(value);
|
| +}
|
|
|
Chromium Code Reviews
Issue 12838003:
Rename analyzer-experimental to analyzer_experimental. (Closed)
Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart