Examples with JCExpression com.sun.tools.javac.tree.JCTree.JCExpression used on opensource projects

Example 96 with JCExpression

use of com.sun.tools.javac.tree.JCTree.JCExpression in project ceylon-compiler by ceylon.

the class ImportScanner method visitTopLevel.

@Override
public void visitTopLevel(JCCompilationUnit that) {
    JCExpression pid = that.pid;
    String pkgName;
    if (pid instanceof JCFieldAccess) {
        pkgName = ((JCFieldAccess) pid).toString();
    } else if (pid instanceof JCIdent) {
        pkgName = ((JCIdent) pid).toString();
    } else {
        // default package
        pkgName = "";
    }
    Package thisPackage = modelLoader.findPackage(pkgName);
    if (thisPackage == null)
        // give up
        return;
    importingModule = thisPackage.getModule();
    // Ugly special case where we skip the test when we're compiling the language module itself
    if (importingModule == modelLoader.getLanguageModule())
        return;
    visit(that.defs);
}

Example 97 with JCExpression

use of com.sun.tools.javac.tree.JCTree.JCExpression in project ceylon-compiler by ceylon.

the class AbstractTransformer method makeVariableBoxDecl.

/**
     * Makes a final {@code VariableBox<T>} (or {@code VariableBoxBoolean}, 
     * {@code VariableBoxLong}, etc) variable decl, so that a variable can 
     * be captured.
     * @param init The initial value 
     * @param The (value/parameter) declaration which is being accessed through the box.
     */
JCVariableDecl makeVariableBoxDecl(JCExpression init, TypedDeclaration declarationModel) {
    List<JCExpression> args = init != null ? List.<JCExpression>of(init) : List.<JCExpression>nil();
    JCExpression newBox = make().NewClass(null, List.<JCExpression>nil(), makeVariableBoxType(declarationModel), args, null);
    String varName = naming.getVariableBoxName(declarationModel);
    JCTree.JCVariableDecl var = make().VarDef(make().Modifiers(FINAL), names().fromString(varName), makeVariableBoxType(declarationModel), newBox);
    return var;
}

Example 98 with JCExpression

use of com.sun.tools.javac.tree.JCTree.JCExpression in project ceylon-compiler by ceylon.

the class AbstractTransformer method makeJavaType.

JCExpression makeJavaType(final Type ceylonType, final int flags) {
    Type type = ceylonType;
    if (type == null || type.isUnknown())
        return make().Erroneous();
    if (type.getDeclaration() instanceof Constructor) {
        type = type.getExtendedType();
    }
    // resolve aliases
    if ((flags & JT_CLASS_LITERAL) == 0)
        type = type.resolveAliases();
    if ((flags & __JT_RAW_TP_BOUND) != 0 && type.isTypeParameter()) {
        type = type.getExtendedType();
    }
    if (type.isUnion()) {
        for (Type pt : type.getCaseTypes()) {
            if (pt.getDeclaration().isAnonymous()) {
                // found one, let's try to make it simpler
                Type simplerType = typeFact().denotableType(type);
                if (!simplerType.isNothing() && !simplerType.isUnion()) {
                    type = simplerType;
                } else if (isCeylonBoolean(simplifyType(simplerType))) {
                    type = simplerType;
                }
                break;
            }
        }
    }
    if (type.getDeclaration().isJavaEnum()) {
        type = type.getExtendedType();
    }
    if (type.isTypeConstructor()) {
        return make().QualIdent(syms().ceylonAbstractTypeConstructorType.tsym);
    }
    // ERASURE
    if ((flags & JT_CLASS_LITERAL) == 0 && // literals to the alias class
    willEraseToObject(type)) {
        // - The Ceylon type U|V results in the Java type Object
        if ((flags & JT_SATISFIES) != 0) {
            return null;
        } else {
            return make().Type(syms().objectType);
        }
    } else if (willEraseToAnnotation(type)) {
        return make().Type(syms().annotationType);
    } else if (willEraseToException(type)) {
        if ((flags & JT_CLASS_NEW) != 0 || (flags & JT_EXTENDS) != 0) {
            return makeIdent(syms().ceylonExceptionType);
        } else {
            return make().Type(syms().exceptionType);
        }
    } else if (willEraseToThrowable(type)) {
        if ((flags & JT_CLASS_NEW) != 0 || (flags & JT_EXTENDS) != 0) {
            return makeIdent(syms().throwableType);
        } else {
            return make().Type(syms().throwableType);
        }
    } else if (willEraseToSequence(type)) {
        if ((flags & (JT_CLASS_NEW | JT_EXTENDS | JT_IS)) == 0) {
            Type typeArg = simplifyType(type).getTypeArgumentList().get(0);
            Type seqType = typeFact.getSequenceType(typeArg);
            if (typeFact.isOptionalType(type)) {
                type = typeFact.getOptionalType(seqType);
            } else {
                type = seqType;
            }
        }
    } else if ((flags & (JT_SATISFIES | JT_EXTENDS | JT_NO_PRIMITIVES | JT_CLASS_NEW)) == 0 && ((isCeylonBasicType(type) && !isOptional(type)) || isJavaString(type))) {
        if (isCeylonString(type) || isJavaString(type)) {
            return make().Type(syms().stringType);
        } else if (isCeylonBoolean(type)) {
            return make().TypeIdent(TypeTags.BOOLEAN);
        } else if (isCeylonInteger(type)) {
            if ("short".equals(type.getUnderlyingType())) {
                return make().TypeIdent(TypeTags.SHORT);
            } else if ((flags & JT_SMALL) != 0 || "int".equals(type.getUnderlyingType())) {
                return make().TypeIdent(TypeTags.INT);
            } else {
                return make().TypeIdent(TypeTags.LONG);
            }
        } else if (isCeylonFloat(type)) {
            if ((flags & JT_SMALL) != 0 || "float".equals(type.getUnderlyingType())) {
                return make().TypeIdent(TypeTags.FLOAT);
            } else {
                return make().TypeIdent(TypeTags.DOUBLE);
            }
        } else if (isCeylonCharacter(type)) {
            if ("char".equals(type.getUnderlyingType())) {
                return make().TypeIdent(TypeTags.CHAR);
            } else {
                return make().TypeIdent(TypeTags.INT);
            }
        } else if (isCeylonByte(type)) {
            return make().TypeIdent(TypeTags.BYTE);
        }
    } else if (isCeylonBoolean(type) && !isTypeParameter(type)) {
        //&& (flags & TYPE_ARGUMENT) == 0){
        // special case to get rid of $true and $false types
        type = typeFact.getBooleanType();
    } else if ((flags & JT_VALUE_TYPE) == 0 && isJavaArray(type)) {
        return getJavaArrayElementType(type, flags);
    }
    JCExpression jt = null;
    Type simpleType;
    if ((flags & JT_CLASS_LITERAL) == 0)
        simpleType = simplifyType(type);
    else
        simpleType = type;
    // see if we need to cross methods when looking up container types
    // this is required to properly collect all the type parameters for local interfaces
    // which we pull up to the toplevel and capture all the container type parameters
    boolean needsQualifyingTypeArgumentsFromLocalContainers = Decl.isCeylon(simpleType.getDeclaration()) && simpleType.getDeclaration() instanceof Interface && // this is only valid for interfaces, not for their companion which stay where they are
    (flags & JT_COMPANION) == 0;
    java.util.List<Reference> qualifyingTypes = null;
    Reference qType = simpleType;
    boolean hasTypeParameters = false;
    while (qType != null) {
        hasTypeParameters |= !qType.getTypeArguments().isEmpty();
        if (qualifyingTypes != null)
            qualifyingTypes.add(qType);
        Declaration typeDeclaration = qType.getDeclaration();
        // all the containing type parameters that it captures
        if (// local or anonymous
        (Decl.isLocal(typeDeclaration) || !typeDeclaration.isNamed()) && needsQualifyingTypeArgumentsFromLocalContainers && typeDeclaration instanceof ClassOrInterface) {
            Declaration container = Decl.getDeclarationScope(typeDeclaration.getContainer());
            while (container instanceof Function) {
                qType = ((Function) container).getReference();
                if (qualifyingTypes == null) {
                    qualifyingTypes = new java.util.ArrayList<Reference>();
                    qualifyingTypes.add(simpleType);
                }
                hasTypeParameters = true;
                qualifyingTypes.add(qType);
                container = Decl.getDeclarationScope(container.getContainer());
            }
            if (container instanceof TypeDeclaration) {
                qType = ((TypeDeclaration) container).getType();
            } else {
                qType = null;
            }
        } else if (typeDeclaration.isNamed()) {
            // avoid anonymous types which may pretend that they have a qualifying type
            qType = qType.getQualifyingType();
            if (qType != null && qType.getDeclaration() instanceof ClassOrInterface == false) {
                // sometimes the typechecker throws qualifying intersections at us and
                // we can't make anything of them, since some members may be unrelated to
                // the qualified declaration. This happens with "extends super.Foo()"
                // for example. See https://github.com/ceylon/ceylon-compiler/issues/1478
                qType = ((Type) qType).getSupertype((TypeDeclaration) typeDeclaration.getContainer());
            }
        } else {
            // skip local declaration containers
            qType = null;
        }
        // delayed allocation if we have a qualifying type
        if (qualifyingTypes == null && qType != null) {
            qualifyingTypes = new java.util.ArrayList<Reference>();
            qualifyingTypes.add(simpleType);
        }
    }
    int firstQualifyingTypeWithTypeParameters = qualifyingTypes != null ? qualifyingTypes.size() - 1 : 0;
    // find the first static one, from the right to the left
    if (qualifyingTypes != null) {
        for (Reference pt : qualifyingTypes) {
            Declaration declaration = pt.getDeclaration();
            if (declaration instanceof TypeDeclaration && Decl.isStatic((TypeDeclaration) declaration)) {
                break;
            }
            firstQualifyingTypeWithTypeParameters--;
        }
        if (firstQualifyingTypeWithTypeParameters < 0)
            firstQualifyingTypeWithTypeParameters = 0;
        // put them in outer->inner order
        Collections.reverse(qualifyingTypes);
    }
    if (((flags & JT_RAW) == 0) && hasTypeParameters && !rawSupertype(ceylonType, flags)) {
        // special case for interfaces because we pull them into toplevel types
        if (Decl.isCeylon(simpleType.getDeclaration()) && qualifyingTypes != null && qualifyingTypes.size() > 1 && simpleType.getDeclaration() instanceof Interface && // this is only valid for interfaces, not for their companion which stay where they are
        (flags & JT_COMPANION) == 0) {
            JCExpression baseType;
            TypeDeclaration tdecl = simpleType.getDeclaration();
            // collect all the qualifying type args we'd normally have
            java.util.List<TypeParameter> qualifyingTypeParameters = new java.util.ArrayList<TypeParameter>();
            java.util.Map<TypeParameter, Type> qualifyingTypeArguments = new java.util.HashMap<TypeParameter, Type>();
            collectQualifyingTypeArguments(qualifyingTypeParameters, qualifyingTypeArguments, qualifyingTypes);
            ListBuffer<JCExpression> typeArgs = makeTypeArgs(isCeylonCallable(simpleType), flags, qualifyingTypeArguments, qualifyingTypeParameters, simpleType);
            if (isCeylonCallable(type) && (flags & JT_CLASS_NEW) != 0) {
                baseType = makeIdent(syms().ceylonAbstractCallableType);
            } else {
                baseType = naming.makeDeclarationName(tdecl, DeclNameFlag.QUALIFIED);
            }
            if (typeArgs != null && typeArgs.size() > 0) {
                jt = make().TypeApply(baseType, typeArgs.toList());
            } else {
                jt = baseType;
            }
        } else if ((flags & JT_NON_QUALIFIED) == 0) {
            int index = 0;
            if (qualifyingTypes != null) {
                for (Reference qualifyingType : qualifyingTypes) {
                    jt = makeParameterisedType(qualifyingType.getType(), type, flags, jt, qualifyingTypes, firstQualifyingTypeWithTypeParameters, index);
                    index++;
                }
            } else {
                jt = makeParameterisedType(simpleType, type, flags, jt, qualifyingTypes, firstQualifyingTypeWithTypeParameters, index);
            }
        } else {
            jt = makeParameterisedType(type, type, flags, jt, qualifyingTypes, 0, 0);
        }
    } else {
        TypeDeclaration tdecl = simpleType.getDeclaration();
        // - The Ceylon type T results in the Java type T
        if (isCeylonCallable(type) && (flags & JT_CLASS_NEW) != 0) {
            jt = makeIdent(syms().ceylonAbstractCallableType);
        } else if (tdecl instanceof TypeParameter)
            jt = makeQuotedIdent(tdecl.getName());
        else // don't use underlying type if we want no primitives
        if ((flags & (JT_SATISFIES | JT_NO_PRIMITIVES)) != 0 || simpleType.getUnderlyingType() == null) {
            jt = naming.makeDeclarationName(tdecl, jtFlagsToDeclNameOpts(flags));
        } else
            jt = makeQuotedFQIdent(simpleType.getUnderlyingType());
    }
    return (jt != null) ? jt : makeErroneous(null, "compiler bug: the java type corresponding to " + ceylonType + " could not be computed");
}

Example 99 with JCExpression

use of com.sun.tools.javac.tree.JCTree.JCExpression in project ceylon-compiler by ceylon.

the class AbstractTransformer method unboxOptionalString.

private JCExpression unboxOptionalString(JCExpression value) {
    if (isStringLiteral(value)) {
        // If it's already a String literal, why call .toString on it?
        return value;
    }
    Naming.SyntheticName name = naming.temp();
    JCExpression type = makeJavaType(typeFact().getStringType(), JT_NO_PRIMITIVES);
    JCExpression expr = make().Conditional(make().Binary(JCTree.NE, name.makeIdent(), makeNull()), unboxString(name.makeIdent()), makeNull());
    return makeLetExpr(name, null, type, value, expr);
}

Example 100 with JCExpression

use of com.sun.tools.javac.tree.JCTree.JCExpression in project ceylon-compiler by ceylon.

the class AbstractTransformer method makeNonEmptyTest.

JCExpression makeNonEmptyTest(JCExpression firstTimeExpr) {
    Interface sequence = typeFact().getSequenceDeclaration();
    JCExpression sequenceType = makeJavaType(sequence.getType(), JT_NO_PRIMITIVES | JT_RAW);
    return make().TypeTest(firstTimeExpr, sequenceType);
}