package com.sun.tools.javac.resources;
import com.sun.tools.javac.code.Attribute.Compound;
import com.sun.tools.javac.code.Flags.Flag;
import com.sun.tools.javac.code.Kinds.Kind;
import com.sun.tools.javac.code.Kinds.KindName;
import com.sun.tools.javac.code.Source;
import com.sun.tools.javac.code.Symbol;
import com.sun.tools.javac.code.Type;
import com.sun.tools.javac.jvm.Profile;
import com.sun.tools.javac.jvm.Target;
import com.sun.tools.javac.main.Option;
import com.sun.tools.javac.parser.Tokens.TokenKind;
import com.sun.tools.javac.util.JCDiagnostic;
import com.sun.tools.javac.util.Name;
import java.io.File;
import java.net.URL;
import java.nio.file.Path;
import java.util.Collection;
import java.util.List;
import java.util.Set;
import javax.lang.model.SourceVersion;
import javax.lang.model.element.Modifier;
import javax.tools.JavaFileObject;
import com.sun.tools.javac.util.JCDiagnostic.Error;
import com.sun.tools.javac.util.JCDiagnostic.Warning;
import com.sun.tools.javac.util.JCDiagnostic.Note;
import com.sun.tools.javac.util.JCDiagnostic.Fragment;
public class CompilerProperties {
public static class Errors {
compiler.err.abstract.cant.be.accessed.directly=\
abstract {0} {1} in {2} cannot be accessed directly
/**
* compiler.err.abstract.cant.be.accessed.directly=\
* abstract {0} {1} in {2} cannot be accessed directly
*/
public static Error AbstractCantBeAccessedDirectly(KindName arg0, Symbol arg1, Symbol arg2) {
return new Error("compiler", "abstract.cant.be.accessed.directly", arg0, arg1, arg2);
}
compiler.err.abstract.cant.be.instantiated=\
{0} is abstract; cannot be instantiated
/**
* compiler.err.abstract.cant.be.instantiated=\
* {0} is abstract; cannot be instantiated
*/
public static Error AbstractCantBeInstantiated(Symbol arg0) {
return new Error("compiler", "abstract.cant.be.instantiated", arg0);
}
compiler.err.abstract.meth.cant.have.body=\
abstract methods cannot have a body
/**
* compiler.err.abstract.meth.cant.have.body=\
* abstract methods cannot have a body
*/
public static final Error AbstractMethCantHaveBody = new Error("compiler", "abstract.meth.cant.have.body");
compiler.err.add.exports.with.release=\
exporting a package from system module {0} is not allowed with --release
/**
* compiler.err.add.exports.with.release=\
* exporting a package from system module {0} is not allowed with --release
*/
public static Error AddExportsWithRelease(Symbol arg0) {
return new Error("compiler", "add.exports.with.release", arg0);
}
compiler.err.add.reads.with.release=\
adding read edges for system module {0} is not allowed with --release
/**
* compiler.err.add.reads.with.release=\
* adding read edges for system module {0} is not allowed with --release
*/
public static Error AddReadsWithRelease(Symbol arg0) {
return new Error("compiler", "add.reads.with.release", arg0);
}
compiler.err.addmods.all.module.path.invalid=\
--add-modules ALL-MODULE-PATH can only be used when compiling the unnamed module or \
when compiling in the context of an automatic module
/**
* compiler.err.addmods.all.module.path.invalid=\
* --add-modules ALL-MODULE-PATH can only be used when compiling the unnamed module or \
* when compiling in the context of an automatic module
*/
public static final Error AddmodsAllModulePathInvalid = new Error("compiler", "addmods.all.module.path.invalid");
compiler.err.already.annotated=\
{0} {1} has already been annotated
/**
* compiler.err.already.annotated=\
* {0} {1} has already been annotated
*/
public static Error AlreadyAnnotated(KindName arg0, Symbol arg1) {
return new Error("compiler", "already.annotated", arg0, arg1);
}
compiler.err.already.defined=\
{0} {1} is already defined in {2} {3}
/**
* compiler.err.already.defined=\
* {0} {1} is already defined in {2} {3}
*/
public static Error AlreadyDefined(KindName arg0, Symbol arg1, KindName arg2, Symbol arg3) {
return new Error("compiler", "already.defined", arg0, arg1, arg2, arg3);
}
compiler.err.already.defined.in.clinit=\
{0} {1} is already defined in {2} of {3} {4}
/**
* compiler.err.already.defined.in.clinit=\
* {0} {1} is already defined in {2} of {3} {4}
*/
public static Error AlreadyDefinedInClinit(KindName arg0, Symbol arg1, KindName arg2, KindName arg3, Symbol arg4) {
return new Error("compiler", "already.defined.in.clinit", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.already.defined.single.import=\
a type with the same simple name is already defined by the single-type-import of {0}
/**
* compiler.err.already.defined.single.import=\
* a type with the same simple name is already defined by the single-type-import of {0}
*/
public static Error AlreadyDefinedSingleImport(Symbol arg0) {
return new Error("compiler", "already.defined.single.import", arg0);
}
compiler.err.already.defined.static.single.import=\
a type with the same simple name is already defined by the static single-type-import of {0}
/**
* compiler.err.already.defined.static.single.import=\
* a type with the same simple name is already defined by the static single-type-import of {0}
*/
public static Error AlreadyDefinedStaticSingleImport(Symbol arg0) {
return new Error("compiler", "already.defined.static.single.import", arg0);
}
compiler.err.already.defined.this.unit=\
{0} is already defined in this compilation unit
/**
* compiler.err.already.defined.this.unit=\
* {0} is already defined in this compilation unit
*/
public static Error AlreadyDefinedThisUnit(Symbol arg0) {
return new Error("compiler", "already.defined.this.unit", arg0);
}
compiler.err.annotation.decl.not.allowed.here=\
annotation type declaration not allowed here
/**
* compiler.err.annotation.decl.not.allowed.here=\
* annotation type declaration not allowed here
*/
public static final Error AnnotationDeclNotAllowedHere = new Error("compiler", "annotation.decl.not.allowed.here");
compiler.err.annotation.missing.default.value=\
annotation @{0} is missing a default value for the element ''{1}''
/**
* compiler.err.annotation.missing.default.value=\
* annotation @{0} is missing a default value for the element ''{1}''
*/
public static Error AnnotationMissingDefaultValue(Type arg0, List<? extends Name> arg1) {
return new Error("compiler", "annotation.missing.default.value", arg0, arg1);
}
compiler.err.annotation.missing.default.value.1=\
annotation @{0} is missing default values for elements {1}
/**
* compiler.err.annotation.missing.default.value.1=\
* annotation @{0} is missing default values for elements {1}
*/
public static Error AnnotationMissingDefaultValue1(Type arg0, List<? extends Name> arg1) {
return new Error("compiler", "annotation.missing.default.value.1", arg0, arg1);
}
compiler.err.annotation.not.valid.for.type=\
annotation not valid for an element of type {0}
/**
* compiler.err.annotation.not.valid.for.type=\
* annotation not valid for an element of type {0}
*/
public static Error AnnotationNotValidForType(Type arg0) {
return new Error("compiler", "annotation.not.valid.for.type", arg0);
}
compiler.err.annotation.type.not.applicable=\
annotation type not applicable to this kind of declaration
/**
* compiler.err.annotation.type.not.applicable=\
* annotation type not applicable to this kind of declaration
*/
public static final Error AnnotationTypeNotApplicable = new Error("compiler", "annotation.type.not.applicable");
compiler.err.annotation.type.not.applicable.to.type=\
annotation @{0} not applicable in this type context
/**
* compiler.err.annotation.type.not.applicable.to.type=\
* annotation @{0} not applicable in this type context
*/
public static Error AnnotationTypeNotApplicableToType(Type arg0) {
return new Error("compiler", "annotation.type.not.applicable.to.type", arg0);
}
compiler.err.annotation.value.must.be.annotation=\
annotation value must be an annotation
/**
* compiler.err.annotation.value.must.be.annotation=\
* annotation value must be an annotation
*/
public static final Error AnnotationValueMustBeAnnotation = new Error("compiler", "annotation.value.must.be.annotation");
compiler.err.annotation.value.must.be.class.literal=\
annotation value must be a class literal
/**
* compiler.err.annotation.value.must.be.class.literal=\
* annotation value must be a class literal
*/
public static final Error AnnotationValueMustBeClassLiteral = new Error("compiler", "annotation.value.must.be.class.literal");
compiler.err.annotation.value.must.be.name.value=\
annotation values must be of the form ''name=value''
/**
* compiler.err.annotation.value.must.be.name.value=\
* annotation values must be of the form ''name=value''
*/
public static final Error AnnotationValueMustBeNameValue = new Error("compiler", "annotation.value.must.be.name.value");
compiler.err.annotation.value.not.allowable.type=\
annotation value not of an allowable type
/**
* compiler.err.annotation.value.not.allowable.type=\
* annotation value not of an allowable type
*/
public static final Error AnnotationValueNotAllowableType = new Error("compiler", "annotation.value.not.allowable.type");
compiler.err.anon.class.impl.intf.no.args=\
anonymous class implements interface; cannot have arguments
/**
* compiler.err.anon.class.impl.intf.no.args=\
* anonymous class implements interface; cannot have arguments
*/
public static final Error AnonClassImplIntfNoArgs = new Error("compiler", "anon.class.impl.intf.no.args");
compiler.err.anon.class.impl.intf.no.qual.for.new=\
anonymous class implements interface; cannot have qualifier for new
/**
* compiler.err.anon.class.impl.intf.no.qual.for.new=\
* anonymous class implements interface; cannot have qualifier for new
*/
public static final Error AnonClassImplIntfNoQualForNew = new Error("compiler", "anon.class.impl.intf.no.qual.for.new");
compiler.err.anon.class.impl.intf.no.typeargs=\
anonymous class implements interface; cannot have type arguments
/**
* compiler.err.anon.class.impl.intf.no.typeargs=\
* anonymous class implements interface; cannot have type arguments
*/
public static final Error AnonClassImplIntfNoTypeargs = new Error("compiler", "anon.class.impl.intf.no.typeargs");
compiler.err.anonymous.diamond.method.does.not.override.superclass=\
method does not override or implement a method from a supertype\n\
{0}
/**
* compiler.err.anonymous.diamond.method.does.not.override.superclass=\
* method does not override or implement a method from a supertype\n\
* {0}
*/
public static Error AnonymousDiamondMethodDoesNotOverrideSuperclass(JCDiagnostic arg0) {
return new Error("compiler", "anonymous.diamond.method.does.not.override.superclass", arg0);
}
compiler.err.anonymous.diamond.method.does.not.override.superclass=\
method does not override or implement a method from a supertype\n\
{0}
/**
* compiler.err.anonymous.diamond.method.does.not.override.superclass=\
* method does not override or implement a method from a supertype\n\
* {0}
*/
public static Error AnonymousDiamondMethodDoesNotOverrideSuperclass(Fragment arg0) {
return new Error("compiler", "anonymous.diamond.method.does.not.override.superclass", arg0);
}
compiler.err.array.and.receiver =\
legacy array notation not allowed on receiver parameter
/**
* compiler.err.array.and.receiver =\
* legacy array notation not allowed on receiver parameter
*/
public static final Error ArrayAndReceiver = new Error("compiler", "array.and.receiver");
compiler.err.array.and.varargs=\
cannot declare both {0} and {1} in {2}
/**
* compiler.err.array.and.varargs=\
* cannot declare both {0} and {1} in {2}
*/
public static Error ArrayAndVarargs(Symbol arg0, Symbol arg1, Symbol arg2) {
return new Error("compiler", "array.and.varargs", arg0, arg1, arg2);
}
compiler.err.array.dimension.missing=\
array dimension missing
/**
* compiler.err.array.dimension.missing=\
* array dimension missing
*/
public static final Error ArrayDimensionMissing = new Error("compiler", "array.dimension.missing");
compiler.err.array.req.but.found=\
array required, but {0} found
/**
* compiler.err.array.req.but.found=\
* array required, but {0} found
*/
public static Error ArrayReqButFound(Type arg0) {
return new Error("compiler", "array.req.but.found", arg0);
}
compiler.err.assert.as.identifier=\
as of release 1.4, ''assert'' is a keyword, and may not be used as an identifier
/**
* compiler.err.assert.as.identifier=\
* as of release 1.4, ''assert'' is a keyword, and may not be used as an identifier
*/
public static final Error AssertAsIdentifier = new Error("compiler", "assert.as.identifier");
compiler.err.attribute.value.must.be.constant=\
element value must be a constant expression
/**
* compiler.err.attribute.value.must.be.constant=\
* element value must be a constant expression
*/
public static final Error AttributeValueMustBeConstant = new Error("compiler", "attribute.value.must.be.constant");
compiler.err.bad.functional.intf.anno=\
Unexpected @FunctionalInterface annotation
/**
* compiler.err.bad.functional.intf.anno=\
* Unexpected @FunctionalInterface annotation
*/
public static final Error BadFunctionalIntfAnno = new Error("compiler", "bad.functional.intf.anno");
compiler.err.bad.functional.intf.anno.1=\
Unexpected @FunctionalInterface annotation\n\
{0}
/**
* compiler.err.bad.functional.intf.anno.1=\
* Unexpected @FunctionalInterface annotation\n\
* {0}
*/
public static Error BadFunctionalIntfAnno1(JCDiagnostic arg0) {
return new Error("compiler", "bad.functional.intf.anno.1", arg0);
}
compiler.err.bad.functional.intf.anno.1=\
Unexpected @FunctionalInterface annotation\n\
{0}
/**
* compiler.err.bad.functional.intf.anno.1=\
* Unexpected @FunctionalInterface annotation\n\
* {0}
*/
public static Error BadFunctionalIntfAnno1(Fragment arg0) {
return new Error("compiler", "bad.functional.intf.anno.1", arg0);
}
compiler.err.bad.initializer=\
bad initializer for {0}
/**
* compiler.err.bad.initializer=\
* bad initializer for {0}
*/
public static Error BadInitializer(String arg0) {
return new Error("compiler", "bad.initializer", arg0);
}
compiler.err.bad.name.for.option=\
bad name in value for {0} option: ''{1}''
/**
* compiler.err.bad.name.for.option=\
* bad name in value for {0} option: ''{1}''
*/
public static Error BadNameForOption(Option arg0, String arg1) {
return new Error("compiler", "bad.name.for.option", arg0, arg1);
}
compiler.err.bad.value.for.option=\
bad value for {0} option: ''{1}''
/**
* compiler.err.bad.value.for.option=\
* bad value for {0} option: ''{1}''
*/
public static Error BadValueForOption(String arg0, String arg1) {
return new Error("compiler", "bad.value.for.option", arg0, arg1);
}
compiler.err.break.outside.switch.expression=\
attempt to break out of a switch expression
/**
* compiler.err.break.outside.switch.expression=\
* attempt to break out of a switch expression
*/
public static final Error BreakOutsideSwitchExpression = new Error("compiler", "break.outside.switch.expression");
compiler.err.break.outside.switch.loop=\
break outside switch or loop
/**
* compiler.err.break.outside.switch.loop=\
* break outside switch or loop
*/
public static final Error BreakOutsideSwitchLoop = new Error("compiler", "break.outside.switch.loop");
compiler.err.call.must.be.first.stmt.in.ctor=\
call to {0} must be first statement in constructor
/**
* compiler.err.call.must.be.first.stmt.in.ctor=\
* call to {0} must be first statement in constructor
*/
public static Error CallMustBeFirstStmtInCtor(Name arg0) {
return new Error("compiler", "call.must.be.first.stmt.in.ctor", arg0);
}
compiler.err.call.to.super.not.allowed.in.enum.ctor=\
call to super not allowed in enum constructor
/**
* compiler.err.call.to.super.not.allowed.in.enum.ctor=\
* call to super not allowed in enum constructor
*/
public static Error CallToSuperNotAllowedInEnumCtor(Symbol arg0) {
return new Error("compiler", "call.to.super.not.allowed.in.enum.ctor", arg0);
}
compiler.err.cannot.create.array.with.diamond=\
cannot create array with ''<>''
/**
* compiler.err.cannot.create.array.with.diamond=\
* cannot create array with ''<>''
*/
public static final Error CannotCreateArrayWithDiamond = new Error("compiler", "cannot.create.array.with.diamond");
compiler.err.cannot.create.array.with.type.arguments=\
cannot create array with type arguments
/**
* compiler.err.cannot.create.array.with.type.arguments=\
* cannot create array with type arguments
*/
public static final Error CannotCreateArrayWithTypeArguments = new Error("compiler", "cannot.create.array.with.type.arguments");
compiler.err.cannot.generate.class=\
error while generating class {0}\n\
({1})
/**
* compiler.err.cannot.generate.class=\
* error while generating class {0}\n\
* ({1})
*/
public static Error CannotGenerateClass(Symbol arg0, Fragment arg1) {
return new Error("compiler", "cannot.generate.class", arg0, arg1);
}
compiler.err.cant.access=\
cannot access {0}\n\
{1}
/**
* compiler.err.cant.access=\
* cannot access {0}\n\
* {1}
*/
public static Error CantAccess(Symbol arg0, JCDiagnostic arg1) {
return new Error("compiler", "cant.access", arg0, arg1);
}
compiler.err.cant.access=\
cannot access {0}\n\
{1}
/**
* compiler.err.cant.access=\
* cannot access {0}\n\
* {1}
*/
public static Error CantAccess(Symbol arg0, Fragment arg1) {
return new Error("compiler", "cant.access", arg0, arg1);
}
compiler.err.cant.apply.diamond=\
cannot infer type arguments for {0}
/**
* compiler.err.cant.apply.diamond=\
* cannot infer type arguments for {0}
*/
public static Error CantApplyDiamond(JCDiagnostic arg0, Void arg1) {
return new Error("compiler", "cant.apply.diamond", arg0, arg1);
}
compiler.err.cant.apply.diamond=\
cannot infer type arguments for {0}
/**
* compiler.err.cant.apply.diamond=\
* cannot infer type arguments for {0}
*/
public static Error CantApplyDiamond(Fragment arg0, Void arg1) {
return new Error("compiler", "cant.apply.diamond", arg0, arg1);
}
compiler.err.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.err.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Error CantApplyDiamond1(JCDiagnostic arg0, JCDiagnostic arg1) {
return new Error("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.err.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.err.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Error CantApplyDiamond1(JCDiagnostic arg0, Fragment arg1) {
return new Error("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.err.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.err.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Error CantApplyDiamond1(Fragment arg0, JCDiagnostic arg1) {
return new Error("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.err.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.err.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Error CantApplyDiamond1(Fragment arg0, Fragment arg1) {
return new Error("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.err.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.err.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Error CantApplyDiamond1(Type arg0, JCDiagnostic arg1) {
return new Error("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.err.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.err.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Error CantApplyDiamond1(Type arg0, Fragment arg1) {
return new Error("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, List<? extends Type> arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, List<? extends Type> arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, JCDiagnostic arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, JCDiagnostic arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, Fragment arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, Fragment arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, List<? extends Type> arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, List<? extends Type> arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, JCDiagnostic arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, JCDiagnostic arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, Fragment arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, Fragment arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, List<? extends Type> arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, List<? extends Type> arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, JCDiagnostic arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, JCDiagnostic arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, Fragment arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types;\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.err.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types;\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Error CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, Fragment arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Error("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.cant.apply.symbols=\
no suitable {0} found for {1}({2})
/**
* compiler.err.cant.apply.symbols=\
* no suitable {0} found for {1}({2})
*/
public static Error CantApplySymbols(Kind arg0, Name arg1, List<? extends Type> arg2) {
return new Error("compiler", "cant.apply.symbols", arg0, arg1, arg2);
}
compiler.err.cant.assign.val.to.final.var=\
cannot assign a value to final variable {0}
/**
* compiler.err.cant.assign.val.to.final.var=\
* cannot assign a value to final variable {0}
*/
public static Error CantAssignValToFinalVar(Symbol arg0) {
return new Error("compiler", "cant.assign.val.to.final.var", arg0);
}
compiler.err.cant.assign.val.to.this=\
cannot assign to ''this''
/**
* compiler.err.cant.assign.val.to.this=\
* cannot assign to ''this''
*/
public static final Error CantAssignValToThis = new Error("compiler", "cant.assign.val.to.this");
compiler.err.cant.deref=\
{0} cannot be dereferenced
/**
* compiler.err.cant.deref=\
* {0} cannot be dereferenced
*/
public static Error CantDeref(Type arg0) {
return new Error("compiler", "cant.deref", arg0);
}
compiler.err.cant.extend.intf.annotation=\
''extends'' not allowed for @interfaces
/**
* compiler.err.cant.extend.intf.annotation=\
* ''extends'' not allowed for @interfaces
*/
public static final Error CantExtendIntfAnnotation = new Error("compiler", "cant.extend.intf.annotation");
compiler.err.cant.infer.local.var.type=\
cannot infer type for local variable {0}\n\
({1})
/**
* compiler.err.cant.infer.local.var.type=\
* cannot infer type for local variable {0}\n\
* ({1})
*/
public static Error CantInferLocalVarType(Name arg0, JCDiagnostic arg1) {
return new Error("compiler", "cant.infer.local.var.type", arg0, arg1);
}
compiler.err.cant.infer.local.var.type=\
cannot infer type for local variable {0}\n\
({1})
/**
* compiler.err.cant.infer.local.var.type=\
* cannot infer type for local variable {0}\n\
* ({1})
*/
public static Error CantInferLocalVarType(Name arg0, Fragment arg1) {
return new Error("compiler", "cant.infer.local.var.type", arg0, arg1);
}
compiler.err.cant.inherit.diff.arg=\
{0} cannot be inherited with different arguments: <{1}> and <{2}>
/**
* compiler.err.cant.inherit.diff.arg=\
* {0} cannot be inherited with different arguments: <{1}> and <{2}>
*/
public static Error CantInheritDiffArg(Symbol arg0, String arg1, String arg2) {
return new Error("compiler", "cant.inherit.diff.arg", arg0, arg1, arg2);
}
compiler.err.cant.inherit.from.anon=\
cannot inherit from anonymous class
/**
* compiler.err.cant.inherit.from.anon=\
* cannot inherit from anonymous class
*/
public static final Error CantInheritFromAnon = new Error("compiler", "cant.inherit.from.anon");
compiler.err.cant.inherit.from.final=\
cannot inherit from final {0}
/**
* compiler.err.cant.inherit.from.final=\
* cannot inherit from final {0}
*/
public static Error CantInheritFromFinal(Symbol arg0) {
return new Error("compiler", "cant.inherit.from.final", arg0);
}
compiler.err.cant.read.file=\
cannot read: {0}
/**
* compiler.err.cant.read.file=\
* cannot read: {0}
*/
public static final Error CantReadFile = new Error("compiler", "cant.read.file");
compiler.err.cant.ref.before.ctor.called=\
cannot reference {0} before supertype constructor has been called
/**
* compiler.err.cant.ref.before.ctor.called=\
* cannot reference {0} before supertype constructor has been called
*/
public static Error CantRefBeforeCtorCalled(Symbol arg0) {
return new Error("compiler", "cant.ref.before.ctor.called", arg0);
}
compiler.err.cant.ref.before.ctor.called=\
cannot reference {0} before supertype constructor has been called
/**
* compiler.err.cant.ref.before.ctor.called=\
* cannot reference {0} before supertype constructor has been called
*/
public static Error CantRefBeforeCtorCalled(String arg0) {
return new Error("compiler", "cant.ref.before.ctor.called", arg0);
}
compiler.err.cant.ref.non.effectively.final.var=\
local variables referenced from {1} must be final or effectively final
/**
* compiler.err.cant.ref.non.effectively.final.var=\
* local variables referenced from {1} must be final or effectively final
*/
public static Error CantRefNonEffectivelyFinalVar(Symbol arg0, JCDiagnostic arg1) {
return new Error("compiler", "cant.ref.non.effectively.final.var", arg0, arg1);
}
compiler.err.cant.ref.non.effectively.final.var=\
local variables referenced from {1} must be final or effectively final
/**
* compiler.err.cant.ref.non.effectively.final.var=\
* local variables referenced from {1} must be final or effectively final
*/
public static Error CantRefNonEffectivelyFinalVar(Symbol arg0, Fragment arg1) {
return new Error("compiler", "cant.ref.non.effectively.final.var", arg0, arg1);
}
compiler.err.cant.resolve=\
cannot find symbol\n\
symbol: {0} {1}
/**
* compiler.err.cant.resolve=\
* cannot find symbol\n\
* symbol: {0} {1}
*/
public static Error CantResolve(KindName arg0, Name arg1, Void arg2, Void arg3) {
return new Error("compiler", "cant.resolve", arg0, arg1, arg2, arg3);
}
compiler.err.cant.resolve.args=\
cannot find symbol\n\
symbol: {0} {1}({3})
/**
* compiler.err.cant.resolve.args=\
* cannot find symbol\n\
* symbol: {0} {1}({3})
*/
public static Error CantResolveArgs(KindName arg0, Name arg1, Void arg2, List<? extends Type> arg3) {
return new Error("compiler", "cant.resolve.args", arg0, arg1, arg2, arg3);
}
compiler.err.cant.resolve.args.params=\
cannot find symbol\n\
symbol: {0} <{2}>{1}({3})
/**
* compiler.err.cant.resolve.args.params=\
* cannot find symbol\n\
* symbol: {0} <{2}>{1}({3})
*/
public static Error CantResolveArgsParams(KindName arg0, Name arg1, List<? extends Type> arg2, List<? extends Type> arg3) {
return new Error("compiler", "cant.resolve.args.params", arg0, arg1, arg2, arg3);
}
compiler.err.cant.resolve.location=\
cannot find symbol\n\
symbol: {0} {1}\n\
location: {4}
/**
* compiler.err.cant.resolve.location=\
* cannot find symbol\n\
* symbol: {0} {1}\n\
* location: {4}
*/
public static Error CantResolveLocation(KindName arg0, Name arg1, Void arg2, Void arg3, JCDiagnostic arg4) {
return new Error("compiler", "cant.resolve.location", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.cant.resolve.location=\
cannot find symbol\n\
symbol: {0} {1}\n\
location: {4}
/**
* compiler.err.cant.resolve.location=\
* cannot find symbol\n\
* symbol: {0} {1}\n\
* location: {4}
*/
public static Error CantResolveLocation(KindName arg0, Name arg1, Void arg2, Void arg3, Fragment arg4) {
return new Error("compiler", "cant.resolve.location", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.cant.resolve.location.args=\
cannot find symbol\n\
symbol: {0} {1}({3})\n\
location: {4}
/**
* compiler.err.cant.resolve.location.args=\
* cannot find symbol\n\
* symbol: {0} {1}({3})\n\
* location: {4}
*/
public static Error CantResolveLocationArgs(KindName arg0, Name arg1, Void arg2, List<? extends Type> arg3, JCDiagnostic arg4) {
return new Error("compiler", "cant.resolve.location.args", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.cant.resolve.location.args=\
cannot find symbol\n\
symbol: {0} {1}({3})\n\
location: {4}
/**
* compiler.err.cant.resolve.location.args=\
* cannot find symbol\n\
* symbol: {0} {1}({3})\n\
* location: {4}
*/
public static Error CantResolveLocationArgs(KindName arg0, Name arg1, Void arg2, List<? extends Type> arg3, Fragment arg4) {
return new Error("compiler", "cant.resolve.location.args", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.cant.resolve.location.args.params=\
cannot find symbol\n\
symbol: {0} <{2}>{1}({3})\n\
location: {4}
/**
* compiler.err.cant.resolve.location.args.params=\
* cannot find symbol\n\
* symbol: {0} <{2}>{1}({3})\n\
* location: {4}
*/
@SuppressWarnings("rawtypes")
public static Error CantResolveLocationArgsParams(KindName arg0, Name arg1, List<? extends Type> arg2, List arg3, JCDiagnostic arg4) {
return new Error("compiler", "cant.resolve.location.args.params", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.cant.resolve.location.args.params=\
cannot find symbol\n\
symbol: {0} <{2}>{1}({3})\n\
location: {4}
/**
* compiler.err.cant.resolve.location.args.params=\
* cannot find symbol\n\
* symbol: {0} <{2}>{1}({3})\n\
* location: {4}
*/
@SuppressWarnings("rawtypes")
public static Error CantResolveLocationArgsParams(KindName arg0, Name arg1, List<? extends Type> arg2, List arg3, Fragment arg4) {
return new Error("compiler", "cant.resolve.location.args.params", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.cant.select.static.class.from.param.type=\
cannot select a static class from a parameterized type
/**
* compiler.err.cant.select.static.class.from.param.type=\
* cannot select a static class from a parameterized type
*/
public static final Error CantSelectStaticClassFromParamType = new Error("compiler", "cant.select.static.class.from.param.type");
compiler.err.cant.type.annotate.scoping=\
scoping construct cannot be annotated with type-use annotations: {0}
/**
* compiler.err.cant.type.annotate.scoping=\
* scoping construct cannot be annotated with type-use annotations: {0}
*/
public static Error CantTypeAnnotateScoping(List<? extends Compound> arg0) {
return new Error("compiler", "cant.type.annotate.scoping", arg0);
}
compiler.err.cant.type.annotate.scoping.1=\
scoping construct cannot be annotated with type-use annotation: {0}
/**
* compiler.err.cant.type.annotate.scoping.1=\
* scoping construct cannot be annotated with type-use annotation: {0}
*/
public static Error CantTypeAnnotateScoping1(Compound arg0) {
return new Error("compiler", "cant.type.annotate.scoping.1", arg0);
}
compiler.err.catch.without.try=\
''catch'' without ''try''
/**
* compiler.err.catch.without.try=\
* ''catch'' without ''try''
*/
public static final Error CatchWithoutTry = new Error("compiler", "catch.without.try");
compiler.err.clash.with.pkg.of.same.name=\
{0} {1} clashes with package of same name
/**
* compiler.err.clash.with.pkg.of.same.name=\
* {0} {1} clashes with package of same name
*/
public static Error ClashWithPkgOfSameName(KindName arg0, Symbol arg1) {
return new Error("compiler", "clash.with.pkg.of.same.name", arg0, arg1);
}
compiler.err.class.cant.write=\
error while writing {0}: {1}
/**
* compiler.err.class.cant.write=\
* error while writing {0}: {1}
*/
public static Error ClassCantWrite(Symbol arg0, String arg1) {
return new Error("compiler", "class.cant.write", arg0, arg1);
}
compiler.err.class.not.allowed=\
class, interface or enum declaration not allowed here
/**
* compiler.err.class.not.allowed=\
* class, interface or enum declaration not allowed here
*/
public static final Error ClassNotAllowed = new Error("compiler", "class.not.allowed");
compiler.err.class.public.should.be.in.file=\
{0} {1} is public, should be declared in a file named {1}.java
/**
* compiler.err.class.public.should.be.in.file=\
* {0} {1} is public, should be declared in a file named {1}.java
*/
public static Error ClassPublicShouldBeInFile(KindName arg0, Name arg1) {
return new Error("compiler", "class.public.should.be.in.file", arg0, arg1);
}
compiler.err.concrete.inheritance.conflict=\
methods {0} from {1} and {2} from {3} are inherited with the same signature
/**
* compiler.err.concrete.inheritance.conflict=\
* methods {0} from {1} and {2} from {3} are inherited with the same signature
*/
public static Error ConcreteInheritanceConflict(Symbol arg0, Type arg1, Symbol arg2, Type arg3, Type arg4) {
return new Error("compiler", "concrete.inheritance.conflict", arg0, arg1, arg2, arg3, arg4);
}
compiler.err.conflicting.exports=\
duplicate or conflicting exports: {0}
/**
* compiler.err.conflicting.exports=\
* duplicate or conflicting exports: {0}
*/
public static Error ConflictingExports(Symbol arg0) {
return new Error("compiler", "conflicting.exports", arg0);
}
compiler.err.conflicting.exports.to.module=\
duplicate or conflicting exports to module: {0}
/**
* compiler.err.conflicting.exports.to.module=\
* duplicate or conflicting exports to module: {0}
*/
public static Error ConflictingExportsToModule(Symbol arg0) {
return new Error("compiler", "conflicting.exports.to.module", arg0);
}
compiler.err.conflicting.opens=\
duplicate or conflicting opens: {0}
/**
* compiler.err.conflicting.opens=\
* duplicate or conflicting opens: {0}
*/
public static Error ConflictingOpens(Symbol arg0) {
return new Error("compiler", "conflicting.opens", arg0);
}
compiler.err.conflicting.opens.to.module=\
duplicate or conflicting opens to module: {0}
/**
* compiler.err.conflicting.opens.to.module=\
* duplicate or conflicting opens to module: {0}
*/
public static Error ConflictingOpensToModule(Symbol arg0) {
return new Error("compiler", "conflicting.opens.to.module", arg0);
}
compiler.err.const.expr.req=\
constant expression required
/**
* compiler.err.const.expr.req=\
* constant expression required
*/
public static final Error ConstExprReq = new Error("compiler", "const.expr.req");
compiler.err.cont.outside.loop=\
continue outside of loop
/**
* compiler.err.cont.outside.loop=\
* continue outside of loop
*/
public static final Error ContOutsideLoop = new Error("compiler", "cont.outside.loop");
compiler.err.continue.outside.switch.expression=\
attempt to continue out of a switch expression
/**
* compiler.err.continue.outside.switch.expression=\
* attempt to continue out of a switch expression
*/
public static final Error ContinueOutsideSwitchExpression = new Error("compiler", "continue.outside.switch.expression");
compiler.err.cyclic.annotation.element=\
type of element {0} is cyclic
/**
* compiler.err.cyclic.annotation.element=\
* type of element {0} is cyclic
*/
public static Error CyclicAnnotationElement(Symbol arg0) {
return new Error("compiler", "cyclic.annotation.element", arg0);
}
compiler.err.cyclic.inheritance=\
cyclic inheritance involving {0}
/**
* compiler.err.cyclic.inheritance=\
* cyclic inheritance involving {0}
*/
public static Error CyclicInheritance(Symbol arg0) {
return new Error("compiler", "cyclic.inheritance", arg0);
}
compiler.err.cyclic.inheritance=\
cyclic inheritance involving {0}
/**
* compiler.err.cyclic.inheritance=\
* cyclic inheritance involving {0}
*/
public static Error CyclicInheritance(Type arg0) {
return new Error("compiler", "cyclic.inheritance", arg0);
}
compiler.err.cyclic.requires=\
cyclic dependence involving {0}
/**
* compiler.err.cyclic.requires=\
* cyclic dependence involving {0}
*/
public static Error CyclicRequires(Symbol arg0) {
return new Error("compiler", "cyclic.requires", arg0);
}
compiler.err.dc.bad.entity=\
bad HTML entity
/**
* compiler.err.dc.bad.entity=\
* bad HTML entity
*/
public static final Error DcBadEntity = new Error("compiler", "dc.bad.entity");
compiler.err.dc.bad.gt=\
bad use of ''>''
/**
* compiler.err.dc.bad.gt=\
* bad use of ''>''
*/
public static final Error DcBadGt = new Error("compiler", "dc.bad.gt");
compiler.err.dc.bad.inline.tag=\
incorrect use of inline tag
/**
* compiler.err.dc.bad.inline.tag=\
* incorrect use of inline tag
*/
public static final Error DcBadInlineTag = new Error("compiler", "dc.bad.inline.tag");
compiler.err.dc.gt.expected=\
''>'' expected
/**
* compiler.err.dc.gt.expected=\
* ''>'' expected
*/
public static final Error DcGtExpected = new Error("compiler", "dc.gt.expected");
compiler.err.dc.identifier.expected=\
identifier expected
/**
* compiler.err.dc.identifier.expected=\
* identifier expected
*/
public static final Error DcIdentifierExpected = new Error("compiler", "dc.identifier.expected");
compiler.err.dc.malformed.html=\
malformed HTML
/**
* compiler.err.dc.malformed.html=\
* malformed HTML
*/
public static final Error DcMalformedHtml = new Error("compiler", "dc.malformed.html");
compiler.err.dc.missing.semicolon=\
semicolon missing
/**
* compiler.err.dc.missing.semicolon=\
* semicolon missing
*/
public static final Error DcMissingSemicolon = new Error("compiler", "dc.missing.semicolon");
compiler.err.dc.no.content=\
no content
/**
* compiler.err.dc.no.content=\
* no content
*/
public static final Error DcNoContent = new Error("compiler", "dc.no.content");
compiler.err.dc.no.tag.name=\
no tag name after '@'
/**
* compiler.err.dc.no.tag.name=\
* no tag name after '@'
*/
public static final Error DcNoTagName = new Error("compiler", "dc.no.tag.name");
compiler.err.dc.ref.bad.parens=\
'')'' missing in reference
/**
* compiler.err.dc.ref.bad.parens=\
* '')'' missing in reference
*/
public static final Error DcRefBadParens = new Error("compiler", "dc.ref.bad.parens");
compiler.err.dc.ref.syntax.error=\
syntax error in reference
/**
* compiler.err.dc.ref.syntax.error=\
* syntax error in reference
*/
public static final Error DcRefSyntaxError = new Error("compiler", "dc.ref.syntax.error");
compiler.err.dc.ref.unexpected.input=\
unexpected text
/**
* compiler.err.dc.ref.unexpected.input=\
* unexpected text
*/
public static final Error DcRefUnexpectedInput = new Error("compiler", "dc.ref.unexpected.input");
compiler.err.dc.unexpected.content=\
unexpected content
/**
* compiler.err.dc.unexpected.content=\
* unexpected content
*/
public static final Error DcUnexpectedContent = new Error("compiler", "dc.unexpected.content");
compiler.err.dc.unterminated.inline.tag=\
unterminated inline tag
/**
* compiler.err.dc.unterminated.inline.tag=\
* unterminated inline tag
*/
public static final Error DcUnterminatedInlineTag = new Error("compiler", "dc.unterminated.inline.tag");
compiler.err.dc.unterminated.signature=\
unterminated signature
/**
* compiler.err.dc.unterminated.signature=\
* unterminated signature
*/
public static final Error DcUnterminatedSignature = new Error("compiler", "dc.unterminated.signature");
compiler.err.dc.unterminated.string=\
unterminated string
/**
* compiler.err.dc.unterminated.string=\
* unterminated string
*/
public static final Error DcUnterminatedString = new Error("compiler", "dc.unterminated.string");
compiler.err.default.allowed.in.intf.annotation.member=\
default value only allowed in an annotation type declaration
/**
* compiler.err.default.allowed.in.intf.annotation.member=\
* default value only allowed in an annotation type declaration
*/
public static final Error DefaultAllowedInIntfAnnotationMember = new Error("compiler", "default.allowed.in.intf.annotation.member");
compiler.err.default.overrides.object.member=\
default method {0} in {1} {2} overrides a member of java.lang.Object
/**
* compiler.err.default.overrides.object.member=\
* default method {0} in {1} {2} overrides a member of java.lang.Object
*/
public static Error DefaultOverridesObjectMember(Name arg0, KindName arg1, Symbol arg2) {
return new Error("compiler", "default.overrides.object.member", arg0, arg1, arg2);
}
compiler.err.does.not.override.abstract=\
{0} is not abstract and does not override abstract method {1} in {2}
/**
* compiler.err.does.not.override.abstract=\
* {0} is not abstract and does not override abstract method {1} in {2}
*/
public static Error DoesNotOverrideAbstract(Symbol arg0, Symbol arg1, Symbol arg2) {
return new Error("compiler", "does.not.override.abstract", arg0, arg1, arg2);
}
compiler.err.doesnt.exist=\
package {0} does not exist
/**
* compiler.err.doesnt.exist=\
* package {0} does not exist
*/
public static Error DoesntExist(Symbol arg0) {
return new Error("compiler", "doesnt.exist", arg0);
}
compiler.err.dot.class.expected=\
''.class'' expected
/**
* compiler.err.dot.class.expected=\
* ''.class'' expected
*/
public static final Error DotClassExpected = new Error("compiler", "dot.class.expected");
compiler.err.duplicate.annotation.invalid.repeated=\
annotation {0} is not a valid repeatable annotation
/**
* compiler.err.duplicate.annotation.invalid.repeated=\
* annotation {0} is not a valid repeatable annotation
*/
public static Error DuplicateAnnotationInvalidRepeated(Type arg0) {
return new Error("compiler", "duplicate.annotation.invalid.repeated", arg0);
}
compiler.err.duplicate.annotation.member.value=\
duplicate element ''{0}'' in annotation @{1}.
/**
* compiler.err.duplicate.annotation.member.value=\
* duplicate element ''{0}'' in annotation @{1}.
*/
public static Error DuplicateAnnotationMemberValue(Name arg0, Type arg1) {
return new Error("compiler", "duplicate.annotation.member.value", arg0, arg1);
}
compiler.err.duplicate.annotation.missing.container=\
{0} is not a repeatable annotation type
/**
* compiler.err.duplicate.annotation.missing.container=\
* {0} is not a repeatable annotation type
*/
public static Error DuplicateAnnotationMissingContainer(Type arg0) {
return new Error("compiler", "duplicate.annotation.missing.container", arg0);
}
compiler.err.duplicate.case.label=\
duplicate case label
/**
* compiler.err.duplicate.case.label=\
* duplicate case label
*/
public static final Error DuplicateCaseLabel = new Error("compiler", "duplicate.case.label");
compiler.err.duplicate.class=\
duplicate class: {0}
/**
* compiler.err.duplicate.class=\
* duplicate class: {0}
*/
public static Error DuplicateClass(Name arg0) {
return new Error("compiler", "duplicate.class", arg0);
}
compiler.err.duplicate.default.label=\
duplicate default label
/**
* compiler.err.duplicate.default.label=\
* duplicate default label
*/
public static final Error DuplicateDefaultLabel = new Error("compiler", "duplicate.default.label");
compiler.err.duplicate.module=\
duplicate module: {0}
/**
* compiler.err.duplicate.module=\
* duplicate module: {0}
*/
public static Error DuplicateModule(Symbol arg0) {
return new Error("compiler", "duplicate.module", arg0);
}
compiler.err.duplicate.module.on.path=\
duplicate module on {0}\nmodule in {1}
/**
* compiler.err.duplicate.module.on.path=\
* duplicate module on {0}\nmodule in {1}
*/
public static Error DuplicateModuleOnPath(Fragment arg0, Name arg1) {
return new Error("compiler", "duplicate.module.on.path", arg0, arg1);
}
compiler.err.duplicate.provides=\
duplicate provides: service {0}, implementation {1}
/**
* compiler.err.duplicate.provides=\
* duplicate provides: service {0}, implementation {1}
*/
public static Error DuplicateProvides(Symbol arg0, Symbol arg1) {
return new Error("compiler", "duplicate.provides", arg0, arg1);
}
compiler.err.duplicate.requires=\
duplicate requires: {0}
/**
* compiler.err.duplicate.requires=\
* duplicate requires: {0}
*/
public static Error DuplicateRequires(Symbol arg0) {
return new Error("compiler", "duplicate.requires", arg0);
}
compiler.err.duplicate.uses=\
duplicate uses: {0}
/**
* compiler.err.duplicate.uses=\
* duplicate uses: {0}
*/
public static Error DuplicateUses(Symbol arg0) {
return new Error("compiler", "duplicate.uses", arg0);
}
compiler.err.else.without.if=\
''else'' without ''if''
/**
* compiler.err.else.without.if=\
* ''else'' without ''if''
*/
public static final Error ElseWithoutIf = new Error("compiler", "else.without.if");
compiler.err.empty.A.argument=\
-A requires an argument; use ''-Akey'' or ''-Akey=value''
/**
* compiler.err.empty.A.argument=\
* -A requires an argument; use ''-Akey'' or ''-Akey=value''
*/
public static final Error EmptyAArgument = new Error("compiler", "empty.A.argument");
compiler.err.empty.char.lit=\
empty character literal
/**
* compiler.err.empty.char.lit=\
* empty character literal
*/
public static final Error EmptyCharLit = new Error("compiler", "empty.char.lit");
compiler.err.encl.class.required=\
an enclosing instance that contains {0} is required
/**
* compiler.err.encl.class.required=\
* an enclosing instance that contains {0} is required
*/
public static Error EnclClassRequired(Symbol arg0) {
return new Error("compiler", "encl.class.required", arg0);
}
compiler.err.enum.annotation.must.be.enum.constant=\
an enum annotation value must be an enum constant
/**
* compiler.err.enum.annotation.must.be.enum.constant=\
* an enum annotation value must be an enum constant
*/
public static final Error EnumAnnotationMustBeEnumConstant = new Error("compiler", "enum.annotation.must.be.enum.constant");
compiler.err.enum.as.identifier=\
as of release 5, ''enum'' is a keyword, and may not be used as an identifier
/**
* compiler.err.enum.as.identifier=\
* as of release 5, ''enum'' is a keyword, and may not be used as an identifier
*/
public static final Error EnumAsIdentifier = new Error("compiler", "enum.as.identifier");
compiler.err.enum.cant.be.instantiated=\
enum types may not be instantiated
/**
* compiler.err.enum.cant.be.instantiated=\
* enum types may not be instantiated
*/
public static final Error EnumCantBeInstantiated = new Error("compiler", "enum.cant.be.instantiated");
compiler.err.enum.label.must.be.unqualified.enum=\
an enum switch case label must be the unqualified name of an enumeration constant
/**
* compiler.err.enum.label.must.be.unqualified.enum=\
* an enum switch case label must be the unqualified name of an enumeration constant
*/
public static final Error EnumLabelMustBeUnqualifiedEnum = new Error("compiler", "enum.label.must.be.unqualified.enum");
compiler.err.enum.no.finalize=\
enums cannot have finalize methods
/**
* compiler.err.enum.no.finalize=\
* enums cannot have finalize methods
*/
public static final Error EnumNoFinalize = new Error("compiler", "enum.no.finalize");
compiler.err.enum.no.subclassing=\
classes cannot directly extend java.lang.Enum
/**
* compiler.err.enum.no.subclassing=\
* classes cannot directly extend java.lang.Enum
*/
public static final Error EnumNoSubclassing = new Error("compiler", "enum.no.subclassing");
compiler.err.enum.types.not.extensible=\
enum types are not extensible
/**
* compiler.err.enum.types.not.extensible=\
* enum types are not extensible
*/
public static final Error EnumTypesNotExtensible = new Error("compiler", "enum.types.not.extensible");
compiler.err.enums.must.be.static=\
enum declarations allowed only in static contexts
/**
* compiler.err.enums.must.be.static=\
* enum declarations allowed only in static contexts
*/
public static final Error EnumsMustBeStatic = new Error("compiler", "enums.must.be.static");
compiler.err.error=\
error:\u0020
/**
* compiler.err.error=\
* error:\u0020
*/
public static final Error Error = new Error("compiler", "error");
compiler.err.error.reading.file=\
error reading {0}; {1}
/**
* compiler.err.error.reading.file=\
* error reading {0}; {1}
*/
public static Error ErrorReadingFile(File arg0, String arg1) {
return new Error("compiler", "error.reading.file", arg0, arg1);
}
compiler.err.error.reading.file=\
error reading {0}; {1}
/**
* compiler.err.error.reading.file=\
* error reading {0}; {1}
*/
public static Error ErrorReadingFile(JavaFileObject arg0, String arg1) {
return new Error("compiler", "error.reading.file", arg0, arg1);
}
compiler.err.error.reading.file=\
error reading {0}; {1}
/**
* compiler.err.error.reading.file=\
* error reading {0}; {1}
*/
public static Error ErrorReadingFile(Path arg0, String arg1) {
return new Error("compiler", "error.reading.file", arg0, arg1);
}
compiler.err.error.writing.file=\
error writing {0}; {1}
/**
* compiler.err.error.writing.file=\
* error writing {0}; {1}
*/
public static Error ErrorWritingFile(String arg0, String arg1) {
return new Error("compiler", "error.writing.file", arg0, arg1);
}
compiler.err.except.already.caught=\
exception {0} has already been caught
/**
* compiler.err.except.already.caught=\
* exception {0} has already been caught
*/
public static Error ExceptAlreadyCaught(Type arg0) {
return new Error("compiler", "except.already.caught", arg0);
}
compiler.err.except.never.thrown.in.try=\
exception {0} is never thrown in body of corresponding try statement
/**
* compiler.err.except.never.thrown.in.try=\
* exception {0} is never thrown in body of corresponding try statement
*/
public static Error ExceptNeverThrownInTry(Type arg0) {
return new Error("compiler", "except.never.thrown.in.try", arg0);
}
compiler.err.expected=\
{0} expected
/**
* compiler.err.expected=\
* {0} expected
*/
public static Error Expected(TokenKind arg0) {
return new Error("compiler", "expected", arg0);
}
compiler.err.expected.module=\
expected ''module''
/**
* compiler.err.expected.module=\
* expected ''module''
*/
public static final Error ExpectedModule = new Error("compiler", "expected.module");
compiler.err.expected.module.or.open=\
''module'' or ''open'' expected
/**
* compiler.err.expected.module.or.open=\
* ''module'' or ''open'' expected
*/
public static final Error ExpectedModuleOrOpen = new Error("compiler", "expected.module.or.open");
compiler.err.expected.str=\
{0} expected
/**
* compiler.err.expected.str=\
* {0} expected
*/
public static Error ExpectedStr(String arg0) {
return new Error("compiler", "expected.str", arg0);
}
compiler.err.expected2=\
{0} or {1} expected
/**
* compiler.err.expected2=\
* {0} or {1} expected
*/
public static Error Expected2(TokenKind arg0, TokenKind arg1) {
return new Error("compiler", "expected2", arg0, arg1);
}
compiler.err.expected3=\
{0}, {1}, or {2} expected
/**
* compiler.err.expected3=\
* {0}, {1}, or {2} expected
*/
public static Error Expected3(TokenKind arg0, TokenKind arg1, TokenKind arg2) {
return new Error("compiler", "expected3", arg0, arg1, arg2);
}
compiler.err.expression.not.allowable.as.annotation.value=\
expression not allowed as annotation value
/**
* compiler.err.expression.not.allowable.as.annotation.value=\
* expression not allowed as annotation value
*/
public static final Error ExpressionNotAllowableAsAnnotationValue = new Error("compiler", "expression.not.allowable.as.annotation.value");
compiler.err.feature.not.supported.in.source=\
{0} is not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.err.feature.not.supported.in.source=\
* {0} is not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Error FeatureNotSupportedInSource(JCDiagnostic arg0, String arg1, String arg2) {
return new Error("compiler", "feature.not.supported.in.source", arg0, arg1, arg2);
}
compiler.err.feature.not.supported.in.source=\
{0} is not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.err.feature.not.supported.in.source=\
* {0} is not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Error FeatureNotSupportedInSource(Fragment arg0, String arg1, String arg2) {
return new Error("compiler", "feature.not.supported.in.source", arg0, arg1, arg2);
}
compiler.err.feature.not.supported.in.source.plural=\
{0} are not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.err.feature.not.supported.in.source.plural=\
* {0} are not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Error FeatureNotSupportedInSourcePlural(JCDiagnostic arg0, String arg1, String arg2) {
return new Error("compiler", "feature.not.supported.in.source.plural", arg0, arg1, arg2);
}
compiler.err.feature.not.supported.in.source.plural=\
{0} are not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.err.feature.not.supported.in.source.plural=\
* {0} are not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Error FeatureNotSupportedInSourcePlural(Fragment arg0, String arg1, String arg2) {
return new Error("compiler", "feature.not.supported.in.source.plural", arg0, arg1, arg2);
}
compiler.err.file.not.directory=\
not a directory: {0}
/**
* compiler.err.file.not.directory=\
* not a directory: {0}
*/
public static Error FileNotDirectory(String arg0) {
return new Error("compiler", "file.not.directory", arg0);
}
compiler.err.file.not.file=\
not a file: {0}
/**
* compiler.err.file.not.file=\
* not a file: {0}
*/
public static Error FileNotFile(Object arg0) {
return new Error("compiler", "file.not.file", arg0);
}
compiler.err.file.not.found=\
file not found: {0}
/**
* compiler.err.file.not.found=\
* file not found: {0}
*/
public static Error FileNotFound(String arg0) {
return new Error("compiler", "file.not.found", arg0);
}
compiler.err.file.patched.and.msp=\
file accessible from both --patch-module and --module-source-path, \
but belongs to a different module on each path: {0}, {1}
/**
* compiler.err.file.patched.and.msp=\
* file accessible from both --patch-module and --module-source-path, \
* but belongs to a different module on each path: {0}, {1}
*/
public static Error FilePatchedAndMsp(Name arg0, Name arg1) {
return new Error("compiler", "file.patched.and.msp", arg0, arg1);
}
compiler.err.file.sb.on.source.or.patch.path.for.module=\
file should be on source path, or on patch path for module
/**
* compiler.err.file.sb.on.source.or.patch.path.for.module=\
* file should be on source path, or on patch path for module
*/
public static final Error FileSbOnSourceOrPatchPathForModule = new Error("compiler", "file.sb.on.source.or.patch.path.for.module");
compiler.err.final.parameter.may.not.be.assigned=\
final parameter {0} may not be assigned
/**
* compiler.err.final.parameter.may.not.be.assigned=\
* final parameter {0} may not be assigned
*/
public static Error FinalParameterMayNotBeAssigned(Symbol arg0) {
return new Error("compiler", "final.parameter.may.not.be.assigned", arg0);
}
compiler.err.finally.without.try=\
''finally'' without ''try''
/**
* compiler.err.finally.without.try=\
* ''finally'' without ''try''
*/
public static final Error FinallyWithoutTry = new Error("compiler", "finally.without.try");
compiler.err.foreach.not.applicable.to.type=\
for-each not applicable to expression type\n\
required: {1}\n\
found: {0}
/**
* compiler.err.foreach.not.applicable.to.type=\
* for-each not applicable to expression type\n\
* required: {1}\n\
* found: {0}
*/
public static Error ForeachNotApplicableToType(Type arg0, JCDiagnostic arg1) {
return new Error("compiler", "foreach.not.applicable.to.type", arg0, arg1);
}
compiler.err.foreach.not.applicable.to.type=\
for-each not applicable to expression type\n\
required: {1}\n\
found: {0}
/**
* compiler.err.foreach.not.applicable.to.type=\
* for-each not applicable to expression type\n\
* required: {1}\n\
* found: {0}
*/
public static Error ForeachNotApplicableToType(Type arg0, Fragment arg1) {
return new Error("compiler", "foreach.not.applicable.to.type", arg0, arg1);
}
compiler.err.fp.number.too.large=\
floating point number too large
/**
* compiler.err.fp.number.too.large=\
* floating point number too large
*/
public static final Error FpNumberTooLarge = new Error("compiler", "fp.number.too.large");
compiler.err.fp.number.too.small=\
floating point number too small
/**
* compiler.err.fp.number.too.small=\
* floating point number too small
*/
public static final Error FpNumberTooSmall = new Error("compiler", "fp.number.too.small");
compiler.err.generic.array.creation=\
generic array creation
/**
* compiler.err.generic.array.creation=\
* generic array creation
*/
public static final Error GenericArrayCreation = new Error("compiler", "generic.array.creation");
compiler.err.generic.throwable=\
a generic class may not extend java.lang.Throwable
/**
* compiler.err.generic.throwable=\
* a generic class may not extend java.lang.Throwable
*/
public static final Error GenericThrowable = new Error("compiler", "generic.throwable");
compiler.err.icls.cant.have.static.decl=\
Illegal static declaration in inner class {0}\n\
modifier \''static\'' is only allowed in constant variable declarations
/**
* compiler.err.icls.cant.have.static.decl=\
* Illegal static declaration in inner class {0}\n\
* modifier \''static\'' is only allowed in constant variable declarations
*/
public static Error IclsCantHaveStaticDecl(Symbol arg0) {
return new Error("compiler", "icls.cant.have.static.decl", arg0);
}
compiler.err.illegal.argument.for.option=\
illegal argument for {0}: {1}
/**
* compiler.err.illegal.argument.for.option=\
* illegal argument for {0}: {1}
*/
public static Error IllegalArgumentForOption(String arg0, String arg1) {
return new Error("compiler", "illegal.argument.for.option", arg0, arg1);
}
compiler.err.illegal.array.creation.both.dimension.and.initialization=\
array creation with both dimension expression and initialization is illegal
/**
* compiler.err.illegal.array.creation.both.dimension.and.initialization=\
* array creation with both dimension expression and initialization is illegal
*/
public static final Error IllegalArrayCreationBothDimensionAndInitialization = new Error("compiler", "illegal.array.creation.both.dimension.and.initialization");
compiler.err.illegal.char=\
illegal character: ''{0}''
/**
* compiler.err.illegal.char=\
* illegal character: ''{0}''
*/
public static Error IllegalChar(String arg0) {
return new Error("compiler", "illegal.char", arg0);
}
compiler.err.illegal.char.for.encoding=\
unmappable character (0x{0}) for encoding {1}
/**
* compiler.err.illegal.char.for.encoding=\
* unmappable character (0x{0}) for encoding {1}
*/
public static Error IllegalCharForEncoding(String arg0, String arg1) {
return new Error("compiler", "illegal.char.for.encoding", arg0, arg1);
}
compiler.err.illegal.combination.of.modifiers=\
illegal combination of modifiers: {0} and {1}
/**
* compiler.err.illegal.combination.of.modifiers=\
* illegal combination of modifiers: {0} and {1}
*/
public static Error IllegalCombinationOfModifiers(Set<? extends Flag> arg0, Set<? extends Flag> arg1) {
return new Error("compiler", "illegal.combination.of.modifiers", arg0, arg1);
}
compiler.err.illegal.default.super.call=\
bad type qualifier {0} in default super call\n\
{1}
/**
* compiler.err.illegal.default.super.call=\
* bad type qualifier {0} in default super call\n\
* {1}
*/
public static Error IllegalDefaultSuperCall(Symbol arg0, JCDiagnostic arg1) {
return new Error("compiler", "illegal.default.super.call", arg0, arg1);
}
compiler.err.illegal.default.super.call=\
bad type qualifier {0} in default super call\n\
{1}
/**
* compiler.err.illegal.default.super.call=\
* bad type qualifier {0} in default super call\n\
* {1}
*/
public static Error IllegalDefaultSuperCall(Symbol arg0, Fragment arg1) {
return new Error("compiler", "illegal.default.super.call", arg0, arg1);
}
compiler.err.illegal.default.super.call=\
bad type qualifier {0} in default super call\n\
{1}
/**
* compiler.err.illegal.default.super.call=\
* bad type qualifier {0} in default super call\n\
* {1}
*/
public static Error IllegalDefaultSuperCall(Type arg0, JCDiagnostic arg1) {
return new Error("compiler", "illegal.default.super.call", arg0, arg1);
}
compiler.err.illegal.default.super.call=\
bad type qualifier {0} in default super call\n\
{1}
/**
* compiler.err.illegal.default.super.call=\
* bad type qualifier {0} in default super call\n\
* {1}
*/
public static Error IllegalDefaultSuperCall(Type arg0, Fragment arg1) {
return new Error("compiler", "illegal.default.super.call", arg0, arg1);
}
compiler.err.illegal.dot=\
illegal ''.''
/**
* compiler.err.illegal.dot=\
* illegal ''.''
*/
public static final Error IllegalDot = new Error("compiler", "illegal.dot");
compiler.err.illegal.enum.static.ref=\
illegal reference to static field from initializer
/**
* compiler.err.illegal.enum.static.ref=\
* illegal reference to static field from initializer
*/
public static final Error IllegalEnumStaticRef = new Error("compiler", "illegal.enum.static.ref");
compiler.err.illegal.esc.char=\
illegal escape character
/**
* compiler.err.illegal.esc.char=\
* illegal escape character
*/
public static final Error IllegalEscChar = new Error("compiler", "illegal.esc.char");
compiler.err.illegal.forward.ref=\
illegal forward reference
/**
* compiler.err.illegal.forward.ref=\
* illegal forward reference
*/
public static final Error IllegalForwardRef = new Error("compiler", "illegal.forward.ref");
compiler.err.illegal.generic.type.for.instof=\
illegal generic type for instanceof
/**
* compiler.err.illegal.generic.type.for.instof=\
* illegal generic type for instanceof
*/
public static final Error IllegalGenericTypeForInstof = new Error("compiler", "illegal.generic.type.for.instof");
compiler.err.illegal.initializer.for.type=\
illegal initializer for {0}
/**
* compiler.err.illegal.initializer.for.type=\
* illegal initializer for {0}
*/
public static Error IllegalInitializerForType(Type arg0) {
return new Error("compiler", "illegal.initializer.for.type", arg0);
}
compiler.err.illegal.line.end.in.char.lit=\
illegal line end in character literal
/**
* compiler.err.illegal.line.end.in.char.lit=\
* illegal line end in character literal
*/
public static final Error IllegalLineEndInCharLit = new Error("compiler", "illegal.line.end.in.char.lit");
compiler.err.illegal.nonascii.digit=\
illegal non-ASCII digit
/**
* compiler.err.illegal.nonascii.digit=\
* illegal non-ASCII digit
*/
public static final Error IllegalNonasciiDigit = new Error("compiler", "illegal.nonascii.digit");
compiler.err.illegal.parenthesized.expression=\
illegal parenthesized expression
/**
* compiler.err.illegal.parenthesized.expression=\
* illegal parenthesized expression
*/
public static final Error IllegalParenthesizedExpression = new Error("compiler", "illegal.parenthesized.expression");
compiler.err.illegal.qual.not.icls=\
illegal qualifier; {0} is not an inner class
/**
* compiler.err.illegal.qual.not.icls=\
* illegal qualifier; {0} is not an inner class
*/
public static Error IllegalQualNotIcls(Symbol arg0) {
return new Error("compiler", "illegal.qual.not.icls", arg0);
}
compiler.err.illegal.ref.to.restricted.type=\
illegal reference to restricted type ''{0}''
/**
* compiler.err.illegal.ref.to.restricted.type=\
* illegal reference to restricted type ''{0}''
*/
public static Error IllegalRefToRestrictedType(Name arg0) {
return new Error("compiler", "illegal.ref.to.restricted.type", arg0);
}
compiler.err.illegal.self.ref=\
self-reference in initializer
/**
* compiler.err.illegal.self.ref=\
* self-reference in initializer
*/
public static final Error IllegalSelfRef = new Error("compiler", "illegal.self.ref");
compiler.err.illegal.start.of.expr=\
illegal start of expression
/**
* compiler.err.illegal.start.of.expr=\
* illegal start of expression
*/
public static final Error IllegalStartOfExpr = new Error("compiler", "illegal.start.of.expr");
compiler.err.illegal.start.of.stmt=\
illegal start of statement
/**
* compiler.err.illegal.start.of.stmt=\
* illegal start of statement
*/
public static final Error IllegalStartOfStmt = new Error("compiler", "illegal.start.of.stmt");
compiler.err.illegal.start.of.type=\
illegal start of type
/**
* compiler.err.illegal.start.of.type=\
* illegal start of type
*/
public static final Error IllegalStartOfType = new Error("compiler", "illegal.start.of.type");
compiler.err.illegal.static.intf.meth.call=\
illegal static interface method call\n\
the receiver expression should be replaced with the type qualifier ''{0}''
/**
* compiler.err.illegal.static.intf.meth.call=\
* illegal static interface method call\n\
* the receiver expression should be replaced with the type qualifier ''{0}''
*/
public static Error IllegalStaticIntfMethCall(Type arg0) {
return new Error("compiler", "illegal.static.intf.meth.call", arg0);
}
compiler.err.illegal.text.block.open=\
illegal text block open delimiter sequence, missing line terminator
/**
* compiler.err.illegal.text.block.open=\
* illegal text block open delimiter sequence, missing line terminator
*/
public static final Error IllegalTextBlockOpen = new Error("compiler", "illegal.text.block.open");
compiler.err.illegal.underscore=\
illegal underscore
/**
* compiler.err.illegal.underscore=\
* illegal underscore
*/
public static final Error IllegalUnderscore = new Error("compiler", "illegal.underscore");
compiler.err.illegal.unicode.esc=\
illegal unicode escape
/**
* compiler.err.illegal.unicode.esc=\
* illegal unicode escape
*/
public static final Error IllegalUnicodeEsc = new Error("compiler", "illegal.unicode.esc");
compiler.err.import.requires.canonical=\
import requires canonical name for {0}
/**
* compiler.err.import.requires.canonical=\
* import requires canonical name for {0}
*/
public static Error ImportRequiresCanonical(Symbol arg0) {
return new Error("compiler", "import.requires.canonical", arg0);
}
compiler.err.improperly.formed.type.inner.raw.param=\
improperly formed type, type arguments given on a raw type
/**
* compiler.err.improperly.formed.type.inner.raw.param=\
* improperly formed type, type arguments given on a raw type
*/
public static final Error ImproperlyFormedTypeInnerRawParam = new Error("compiler", "improperly.formed.type.inner.raw.param");
compiler.err.improperly.formed.type.param.missing=\
improperly formed type, some parameters are missing
/**
* compiler.err.improperly.formed.type.param.missing=\
* improperly formed type, some parameters are missing
*/
public static final Error ImproperlyFormedTypeParamMissing = new Error("compiler", "improperly.formed.type.param.missing");
compiler.err.incomparable.types=\
incomparable types: {0} and {1}
/**
* compiler.err.incomparable.types=\
* incomparable types: {0} and {1}
*/
public static Error IncomparableTypes(Type arg0, Type arg1) {
return new Error("compiler", "incomparable.types", arg0, arg1);
}
compiler.err.incompatible.thrown.types.in.mref=\
incompatible thrown types {0} in functional expression
/**
* compiler.err.incompatible.thrown.types.in.mref=\
* incompatible thrown types {0} in functional expression
*/
public static Error IncompatibleThrownTypesInMref(List<? extends Type> arg0) {
return new Error("compiler", "incompatible.thrown.types.in.mref", arg0);
}
compiler.err.incorrect.constructor.receiver.name=\
the receiver name does not match the enclosing outer class type\n\
required: {0}\n\
found: {1}
/**
* compiler.err.incorrect.constructor.receiver.name=\
* the receiver name does not match the enclosing outer class type\n\
* required: {0}\n\
* found: {1}
*/
public static Error IncorrectConstructorReceiverName(Type arg0, Type arg1) {
return new Error("compiler", "incorrect.constructor.receiver.name", arg0, arg1);
}
compiler.err.incorrect.constructor.receiver.type=\
the receiver type does not match the enclosing outer class type\n\
required: {0}\n\
found: {1}
/**
* compiler.err.incorrect.constructor.receiver.type=\
* the receiver type does not match the enclosing outer class type\n\
* required: {0}\n\
* found: {1}
*/
public static Error IncorrectConstructorReceiverType(Type arg0, Type arg1) {
return new Error("compiler", "incorrect.constructor.receiver.type", arg0, arg1);
}
compiler.err.incorrect.receiver.name=\
the receiver name does not match the enclosing class type\n\
required: {0}\n\
found: {1}
/**
* compiler.err.incorrect.receiver.name=\
* the receiver name does not match the enclosing class type\n\
* required: {0}\n\
* found: {1}
*/
public static Error IncorrectReceiverName(Type arg0, Type arg1) {
return new Error("compiler", "incorrect.receiver.name", arg0, arg1);
}
compiler.err.incorrect.receiver.type=\
the receiver type does not match the enclosing class type\n\
required: {0}\n\
found: {1}
/**
* compiler.err.incorrect.receiver.type=\
* the receiver type does not match the enclosing class type\n\
* required: {0}\n\
* found: {1}
*/
public static Error IncorrectReceiverType(Type arg0, Type arg1) {
return new Error("compiler", "incorrect.receiver.type", arg0, arg1);
}
compiler.err.initializer.must.be.able.to.complete.normally=\
initializer must be able to complete normally
/**
* compiler.err.initializer.must.be.able.to.complete.normally=\
* initializer must be able to complete normally
*/
public static final Error InitializerMustBeAbleToCompleteNormally = new Error("compiler", "initializer.must.be.able.to.complete.normally");
compiler.err.initializer.not.allowed=\
initializers not allowed in interfaces
/**
* compiler.err.initializer.not.allowed=\
* initializers not allowed in interfaces
*/
public static final Error InitializerNotAllowed = new Error("compiler", "initializer.not.allowed");
compiler.err.int.number.too.large=\
integer number too large
/**
* compiler.err.int.number.too.large=\
* integer number too large
*/
public static Error IntNumberTooLarge(String arg0) {
return new Error("compiler", "int.number.too.large", arg0);
}
compiler.err.intf.annotation.cant.have.type.params=\
annotation type {0} cannot be generic
/**
* compiler.err.intf.annotation.cant.have.type.params=\
* annotation type {0} cannot be generic
*/
public static Error IntfAnnotationCantHaveTypeParams(Symbol arg0) {
return new Error("compiler", "intf.annotation.cant.have.type.params", arg0);
}
compiler.err.intf.annotation.member.clash=\
annotation type {1} declares an element with the same name as method {0}
/**
* compiler.err.intf.annotation.member.clash=\
* annotation type {1} declares an element with the same name as method {0}
*/
public static Error IntfAnnotationMemberClash(Symbol arg0, Type arg1) {
return new Error("compiler", "intf.annotation.member.clash", arg0, arg1);
}
compiler.err.intf.annotation.members.cant.have.params=\
elements in annotation type declarations cannot declare formal parameters
/**
* compiler.err.intf.annotation.members.cant.have.params=\
* elements in annotation type declarations cannot declare formal parameters
*/
public static final Error IntfAnnotationMembersCantHaveParams = new Error("compiler", "intf.annotation.members.cant.have.params");
compiler.err.intf.annotation.members.cant.have.type.params=\
elements in annotation type declarations cannot be generic methods
/**
* compiler.err.intf.annotation.members.cant.have.type.params=\
* elements in annotation type declarations cannot be generic methods
*/
public static final Error IntfAnnotationMembersCantHaveTypeParams = new Error("compiler", "intf.annotation.members.cant.have.type.params");
compiler.err.intf.expected.here=\
interface expected here
/**
* compiler.err.intf.expected.here=\
* interface expected here
*/
public static final Error IntfExpectedHere = new Error("compiler", "intf.expected.here");
compiler.err.intf.meth.cant.have.body=\
interface abstract methods cannot have body
/**
* compiler.err.intf.meth.cant.have.body=\
* interface abstract methods cannot have body
*/
public static final Error IntfMethCantHaveBody = new Error("compiler", "intf.meth.cant.have.body");
compiler.err.intf.not.allowed.here=\
interface not allowed here
/**
* compiler.err.intf.not.allowed.here=\
* interface not allowed here
*/
public static final Error IntfNotAllowedHere = new Error("compiler", "intf.not.allowed.here");
compiler.err.invalid.A.key=\
key in annotation processor option ''{0}'' is not a dot-separated sequence of identifiers
/**
* compiler.err.invalid.A.key=\
* key in annotation processor option ''{0}'' is not a dot-separated sequence of identifiers
*/
public static Error InvalidAKey(String arg0) {
return new Error("compiler", "invalid.A.key", arg0);
}
compiler.err.invalid.annotation.member.type=\
invalid type for annotation type element
/**
* compiler.err.invalid.annotation.member.type=\
* invalid type for annotation type element
*/
public static final Error InvalidAnnotationMemberType = new Error("compiler", "invalid.annotation.member.type");
compiler.err.invalid.binary.number=\
binary numbers must contain at least one binary digit
/**
* compiler.err.invalid.binary.number=\
* binary numbers must contain at least one binary digit
*/
public static final Error InvalidBinaryNumber = new Error("compiler", "invalid.binary.number");
compiler.err.invalid.flag=\
invalid flag: {0}
/**
* compiler.err.invalid.flag=\
* invalid flag: {0}
*/
public static Error InvalidFlag(String arg0) {
return new Error("compiler", "invalid.flag", arg0);
}
compiler.err.invalid.hex.number=\
hexadecimal numbers must contain at least one hexadecimal digit
/**
* compiler.err.invalid.hex.number=\
* hexadecimal numbers must contain at least one hexadecimal digit
*/
public static final Error InvalidHexNumber = new Error("compiler", "invalid.hex.number");
compiler.err.invalid.lambda.parameter.declaration=\
invalid lambda parameter declaration\n\
({0})
/**
* compiler.err.invalid.lambda.parameter.declaration=\
* invalid lambda parameter declaration\n\
* ({0})
*/
public static Error InvalidLambdaParameterDeclaration(Fragment arg0) {
return new Error("compiler", "invalid.lambda.parameter.declaration", arg0);
}
compiler.err.invalid.meth.decl.ret.type.req=\
invalid method declaration; return type required
/**
* compiler.err.invalid.meth.decl.ret.type.req=\
* invalid method declaration; return type required
*/
public static final Error InvalidMethDeclRetTypeReq = new Error("compiler", "invalid.meth.decl.ret.type.req");
compiler.err.invalid.module.directive=\
module directive keyword or ''}'' expected
/**
* compiler.err.invalid.module.directive=\
* module directive keyword or ''}'' expected
*/
public static final Error InvalidModuleDirective = new Error("compiler", "invalid.module.directive");
compiler.err.invalid.module.specifier=\
module specifier not allowed: {0}
/**
* compiler.err.invalid.module.specifier=\
* module specifier not allowed: {0}
*/
public static Error InvalidModuleSpecifier(String arg0) {
return new Error("compiler", "invalid.module.specifier", arg0);
}
compiler.err.invalid.mref=\
invalid {0} reference\n\
{1}
/**
* compiler.err.invalid.mref=\
* invalid {0} reference\n\
* {1}
*/
public static Error InvalidMref(KindName arg0, JCDiagnostic arg1) {
return new Error("compiler", "invalid.mref", arg0, arg1);
}
compiler.err.invalid.mref=\
invalid {0} reference\n\
{1}
/**
* compiler.err.invalid.mref=\
* invalid {0} reference\n\
* {1}
*/
public static Error InvalidMref(KindName arg0, Fragment arg1) {
return new Error("compiler", "invalid.mref", arg0, arg1);
}
compiler.err.invalid.path=\
Invalid filename: {0}
/**
* compiler.err.invalid.path=\
* Invalid filename: {0}
*/
public static Error InvalidPath(String arg0) {
return new Error("compiler", "invalid.path", arg0);
}
compiler.err.invalid.profile=\
invalid profile: {0}
/**
* compiler.err.invalid.profile=\
* invalid profile: {0}
*/
public static Error InvalidProfile(String arg0) {
return new Error("compiler", "invalid.profile", arg0);
}
compiler.err.invalid.repeatable.annotation=\
duplicate annotation: {0} is annotated with an invalid @Repeatable annotation
/**
* compiler.err.invalid.repeatable.annotation=\
* duplicate annotation: {0} is annotated with an invalid @Repeatable annotation
*/
public static Error InvalidRepeatableAnnotation(Symbol arg0) {
return new Error("compiler", "invalid.repeatable.annotation", arg0);
}
compiler.err.invalid.repeatable.annotation.elem.nondefault=\
containing annotation type ({0}) does not have a default value for element {1}
/**
* compiler.err.invalid.repeatable.annotation.elem.nondefault=\
* containing annotation type ({0}) does not have a default value for element {1}
*/
public static Error InvalidRepeatableAnnotationElemNondefault(Symbol arg0, Symbol arg1) {
return new Error("compiler", "invalid.repeatable.annotation.elem.nondefault", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.elem.nondefault=\
containing annotation type ({0}) does not have a default value for element {1}
/**
* compiler.err.invalid.repeatable.annotation.elem.nondefault=\
* containing annotation type ({0}) does not have a default value for element {1}
*/
public static Error InvalidRepeatableAnnotationElemNondefault(Type arg0, Symbol arg1) {
return new Error("compiler", "invalid.repeatable.annotation.elem.nondefault", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.incompatible.target=\
containing annotation type ({0}) is applicable to more targets than repeatable annotation type ({1})
/**
* compiler.err.invalid.repeatable.annotation.incompatible.target=\
* containing annotation type ({0}) is applicable to more targets than repeatable annotation type ({1})
*/
public static Error InvalidRepeatableAnnotationIncompatibleTarget(Symbol arg0, Symbol arg1) {
return new Error("compiler", "invalid.repeatable.annotation.incompatible.target", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.invalid.value=\
{0} is not a valid @Repeatable: invalid value element
/**
* compiler.err.invalid.repeatable.annotation.invalid.value=\
* {0} is not a valid @Repeatable: invalid value element
*/
public static Error InvalidRepeatableAnnotationInvalidValue(Type arg0) {
return new Error("compiler", "invalid.repeatable.annotation.invalid.value", arg0);
}
compiler.err.invalid.repeatable.annotation.multiple.values=\
{0} is not a valid @Repeatable, {1} element methods named ''value'' declared
/**
* compiler.err.invalid.repeatable.annotation.multiple.values=\
* {0} is not a valid @Repeatable, {1} element methods named ''value'' declared
*/
public static Error InvalidRepeatableAnnotationMultipleValues(Type arg0, int arg1) {
return new Error("compiler", "invalid.repeatable.annotation.multiple.values", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.no.value=\
{0} is not a valid @Repeatable, no value element method declared
/**
* compiler.err.invalid.repeatable.annotation.no.value=\
* {0} is not a valid @Repeatable, no value element method declared
*/
public static Error InvalidRepeatableAnnotationNoValue(Symbol arg0) {
return new Error("compiler", "invalid.repeatable.annotation.no.value", arg0);
}
compiler.err.invalid.repeatable.annotation.no.value=\
{0} is not a valid @Repeatable, no value element method declared
/**
* compiler.err.invalid.repeatable.annotation.no.value=\
* {0} is not a valid @Repeatable, no value element method declared
*/
public static Error InvalidRepeatableAnnotationNoValue(Type arg0) {
return new Error("compiler", "invalid.repeatable.annotation.no.value", arg0);
}
compiler.err.invalid.repeatable.annotation.not.applicable=\
container {0} is not applicable to element {1}
/**
* compiler.err.invalid.repeatable.annotation.not.applicable=\
* container {0} is not applicable to element {1}
*/
public static Error InvalidRepeatableAnnotationNotApplicable(Type arg0, Symbol arg1) {
return new Error("compiler", "invalid.repeatable.annotation.not.applicable", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.not.applicable.in.context=\
container {0} is not applicable in this type context
/**
* compiler.err.invalid.repeatable.annotation.not.applicable.in.context=\
* container {0} is not applicable in this type context
*/
public static Error InvalidRepeatableAnnotationNotApplicableInContext(Type arg0) {
return new Error("compiler", "invalid.repeatable.annotation.not.applicable.in.context", arg0);
}
compiler.err.invalid.repeatable.annotation.not.documented=\
repeatable annotation type ({1}) is @Documented while containing annotation type ({0}) is not
/**
* compiler.err.invalid.repeatable.annotation.not.documented=\
* repeatable annotation type ({1}) is @Documented while containing annotation type ({0}) is not
*/
public static Error InvalidRepeatableAnnotationNotDocumented(Symbol arg0, Symbol arg1) {
return new Error("compiler", "invalid.repeatable.annotation.not.documented", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.not.inherited=\
repeatable annotation type ({1}) is @Inherited while containing annotation type ({0}) is not
/**
* compiler.err.invalid.repeatable.annotation.not.inherited=\
* repeatable annotation type ({1}) is @Inherited while containing annotation type ({0}) is not
*/
public static Error InvalidRepeatableAnnotationNotInherited(Symbol arg0, Symbol arg1) {
return new Error("compiler", "invalid.repeatable.annotation.not.inherited", arg0, arg1);
}
compiler.err.invalid.repeatable.annotation.repeated.and.container.present=\
container {0} must not be present at the same time as the element it contains
/**
* compiler.err.invalid.repeatable.annotation.repeated.and.container.present=\
* container {0} must not be present at the same time as the element it contains
*/
public static Error InvalidRepeatableAnnotationRepeatedAndContainerPresent(Symbol arg0) {
return new Error("compiler", "invalid.repeatable.annotation.repeated.and.container.present", arg0);
}
compiler.err.invalid.repeatable.annotation.retention=\
retention of containing annotation type ({0}) is shorter than the retention of repeatable annotation type ({2})
/**
* compiler.err.invalid.repeatable.annotation.retention=\
* retention of containing annotation type ({0}) is shorter than the retention of repeatable annotation type ({2})
*/
public static Error InvalidRepeatableAnnotationRetention(Symbol arg0, String arg1, Symbol arg2, String arg3) {
return new Error("compiler", "invalid.repeatable.annotation.retention", arg0, arg1, arg2, arg3);
}
compiler.err.invalid.repeatable.annotation.value.return=\
containing annotation type ({0}) must declare an element named ''value'' of type {2}
/**
* compiler.err.invalid.repeatable.annotation.value.return=\
* containing annotation type ({0}) must declare an element named ''value'' of type {2}
*/
public static Error InvalidRepeatableAnnotationValueReturn(Symbol arg0, Type arg1, Type arg2) {
return new Error("compiler", "invalid.repeatable.annotation.value.return", arg0, arg1, arg2);
}
compiler.err.invalid.repeatable.annotation.value.return=\
containing annotation type ({0}) must declare an element named ''value'' of type {2}
/**
* compiler.err.invalid.repeatable.annotation.value.return=\
* containing annotation type ({0}) must declare an element named ''value'' of type {2}
*/
public static Error InvalidRepeatableAnnotationValueReturn(Type arg0, Type arg1, Type arg2) {
return new Error("compiler", "invalid.repeatable.annotation.value.return", arg0, arg1, arg2);
}
compiler.err.invalid.source=\
invalid source release: {0}
/**
* compiler.err.invalid.source=\
* invalid source release: {0}
*/
public static Error InvalidSource(String arg0) {
return new Error("compiler", "invalid.source", arg0);
}
compiler.err.invalid.target=\
invalid target release: {0}
/**
* compiler.err.invalid.target=\
* invalid target release: {0}
*/
public static Error InvalidTarget(String arg0) {
return new Error("compiler", "invalid.target", arg0);
}
compiler.err.invalid.yield=\
invalid use of a restricted identifier ''yield''\n\
(to invoke a method called yield, qualify the yield with a receiver or type name)
/**
* compiler.err.invalid.yield=\
* invalid use of a restricted identifier ''yield''\n\
* (to invoke a method called yield, qualify the yield with a receiver or type name)
*/
public static final Error InvalidYield = new Error("compiler", "invalid.yield");
compiler.err.io.exception=\
error reading source file: {0}
/**
* compiler.err.io.exception=\
* error reading source file: {0}
*/
public static final Error IoException = new Error("compiler", "io.exception");
compiler.err.label.already.in.use=\
label {0} already in use
/**
* compiler.err.label.already.in.use=\
* label {0} already in use
*/
public static Error LabelAlreadyInUse(Name arg0) {
return new Error("compiler", "label.already.in.use", arg0);
}
compiler.err.lambda.body.neither.value.nor.void.compatible=\
lambda body is neither value nor void compatible
/**
* compiler.err.lambda.body.neither.value.nor.void.compatible=\
* lambda body is neither value nor void compatible
*/
public static final Error LambdaBodyNeitherValueNorVoidCompatible = new Error("compiler", "lambda.body.neither.value.nor.void.compatible");
compiler.err.limit.code=\
code too large
/**
* compiler.err.limit.code=\
* code too large
*/
public static final Error LimitCode = new Error("compiler", "limit.code");
compiler.err.limit.code.too.large.for.try.stmt=\
code too large for try statement
/**
* compiler.err.limit.code.too.large.for.try.stmt=\
* code too large for try statement
*/
public static final Error LimitCodeTooLargeForTryStmt = new Error("compiler", "limit.code.too.large.for.try.stmt");
compiler.err.limit.dimensions=\
array type has too many dimensions
/**
* compiler.err.limit.dimensions=\
* array type has too many dimensions
*/
public static final Error LimitDimensions = new Error("compiler", "limit.dimensions");
compiler.err.limit.locals=\
too many local variables
/**
* compiler.err.limit.locals=\
* too many local variables
*/
public static final Error LimitLocals = new Error("compiler", "limit.locals");
compiler.err.limit.parameters=\
too many parameters
/**
* compiler.err.limit.parameters=\
* too many parameters
*/
public static final Error LimitParameters = new Error("compiler", "limit.parameters");
compiler.err.limit.pool=\
too many constants
/**
* compiler.err.limit.pool=\
* too many constants
*/
public static final Error LimitPool = new Error("compiler", "limit.pool");
compiler.err.limit.pool.in.class=\
too many constants in class {0}
/**
* compiler.err.limit.pool.in.class=\
* too many constants in class {0}
*/
public static final Error LimitPoolInClass = new Error("compiler", "limit.pool.in.class");
compiler.err.limit.stack=\
code requires too much stack
/**
* compiler.err.limit.stack=\
* code requires too much stack
*/
public static final Error LimitStack = new Error("compiler", "limit.stack");
compiler.err.limit.string=\
constant string too long
/**
* compiler.err.limit.string=\
* constant string too long
*/
public static final Error LimitString = new Error("compiler", "limit.string");
compiler.err.limit.string.overflow=\
UTF8 representation for string \"{0}...\" is too long for the constant pool
/**
* compiler.err.limit.string.overflow=\
* UTF8 representation for string \"{0}...\" is too long for the constant pool
*/
public static Error LimitStringOverflow(String arg0) {
return new Error("compiler", "limit.string.overflow", arg0);
}
compiler.err.local.enum=\
enum types must not be local
/**
* compiler.err.local.enum=\
* enum types must not be local
*/
public static final Error LocalEnum = new Error("compiler", "local.enum");
compiler.err.local.var.accessed.from.icls.needs.final=\
local variable {0} is accessed from within inner class; needs to be declared final
/**
* compiler.err.local.var.accessed.from.icls.needs.final=\
* local variable {0} is accessed from within inner class; needs to be declared final
*/
public static Error LocalVarAccessedFromIclsNeedsFinal(Symbol arg0) {
return new Error("compiler", "local.var.accessed.from.icls.needs.final", arg0);
}
compiler.err.locn.bad.module-info=\
problem reading module-info.class in {0}
/**
* compiler.err.locn.bad.module-info=\
* problem reading module-info.class in {0}
*/
public static Error LocnBadModuleInfo(Path arg0) {
return new Error("compiler", "locn.bad.module-info", arg0);
}
compiler.err.locn.cant.get.module.name.for.jar=\
cannot determine module name for {0}
/**
* compiler.err.locn.cant.get.module.name.for.jar=\
* cannot determine module name for {0}
*/
public static Error LocnCantGetModuleNameForJar(Path arg0) {
return new Error("compiler", "locn.cant.get.module.name.for.jar", arg0);
}
compiler.err.locn.cant.read.directory=\
cannot read directory {0}
/**
* compiler.err.locn.cant.read.directory=\
* cannot read directory {0}
*/
public static Error LocnCantReadDirectory(Path arg0) {
return new Error("compiler", "locn.cant.read.directory", arg0);
}
compiler.err.locn.cant.read.file=\
cannot read file {0}
/**
* compiler.err.locn.cant.read.file=\
* cannot read file {0}
*/
public static Error LocnCantReadFile(Path arg0) {
return new Error("compiler", "locn.cant.read.file", arg0);
}
compiler.err.locn.invalid.arg.for.xpatch=\
invalid argument for --patch-module option: {0}
/**
* compiler.err.locn.invalid.arg.for.xpatch=\
* invalid argument for --patch-module option: {0}
*/
public static Error LocnInvalidArgForXpatch(String arg0) {
return new Error("compiler", "locn.invalid.arg.for.xpatch", arg0);
}
compiler.err.locn.module-info.not.allowed.on.patch.path=\
module-info.class not allowed on patch path: {0}
/**
* compiler.err.locn.module-info.not.allowed.on.patch.path=\
* module-info.class not allowed on patch path: {0}
*/
public static Error LocnModuleInfoNotAllowedOnPatchPath(JavaFileObject arg0) {
return new Error("compiler", "locn.module-info.not.allowed.on.patch.path", arg0);
}
compiler.err.malformed.fp.lit=\
malformed floating point literal
/**
* compiler.err.malformed.fp.lit=\
* malformed floating point literal
*/
public static final Error MalformedFpLit = new Error("compiler", "malformed.fp.lit");
compiler.err.method.does.not.override.superclass=\
method does not override or implement a method from a supertype
/**
* compiler.err.method.does.not.override.superclass=\
* method does not override or implement a method from a supertype
*/
public static final Error MethodDoesNotOverrideSuperclass = new Error("compiler", "method.does.not.override.superclass");
compiler.err.missing.meth.body.or.decl.abstract=\
missing method body, or declare abstract
/**
* compiler.err.missing.meth.body.or.decl.abstract=\
* missing method body, or declare abstract
*/
public static final Error MissingMethBodyOrDeclAbstract = new Error("compiler", "missing.meth.body.or.decl.abstract");
compiler.err.missing.ret.stmt=\
missing return statement
/**
* compiler.err.missing.ret.stmt=\
* missing return statement
*/
public static final Error MissingRetStmt = new Error("compiler", "missing.ret.stmt");
compiler.err.mod.not.allowed.here=\
modifier {0} not allowed here
/**
* compiler.err.mod.not.allowed.here=\
* modifier {0} not allowed here
*/
public static Error ModNotAllowedHere(Set<? extends Flag> arg0) {
return new Error("compiler", "mod.not.allowed.here", arg0);
}
compiler.err.modifier.not.allowed.here=\
modifier {0} not allowed here
/**
* compiler.err.modifier.not.allowed.here=\
* modifier {0} not allowed here
*/
public static Error ModifierNotAllowedHere(Name arg0) {
return new Error("compiler", "modifier.not.allowed.here", arg0);
}
compiler.err.module.decl.sb.in.module-info.java=\
module declarations should be in a file named module-info.java
/**
* compiler.err.module.decl.sb.in.module-info.java=\
* module declarations should be in a file named module-info.java
*/
public static final Error ModuleDeclSbInModuleInfoJava = new Error("compiler", "module.decl.sb.in.module-info.java");
compiler.err.module.name.mismatch=\
module name {0} does not match expected name {1}
/**
* compiler.err.module.name.mismatch=\
* module name {0} does not match expected name {1}
*/
public static Error ModuleNameMismatch(Name arg0, Name arg1) {
return new Error("compiler", "module.name.mismatch", arg0, arg1);
}
compiler.err.module.non.zero.opens=\
open module {0} has non-zero opens_count
/**
* compiler.err.module.non.zero.opens=\
* open module {0} has non-zero opens_count
*/
public static Error ModuleNonZeroOpens(Name arg0) {
return new Error("compiler", "module.non.zero.opens", arg0);
}
compiler.err.module.not.found=\
module not found: {0}
/**
* compiler.err.module.not.found=\
* module not found: {0}
*/
public static Error ModuleNotFound(Symbol arg0) {
return new Error("compiler", "module.not.found", arg0);
}
compiler.err.module.not.found.in.module.source.path=\
module {0} not found in module source path
/**
* compiler.err.module.not.found.in.module.source.path=\
* module {0} not found in module source path
*/
public static Error ModuleNotFoundInModuleSourcePath(String arg0) {
return new Error("compiler", "module.not.found.in.module.source.path", arg0);
}
compiler.err.module.not.found.on.module.source.path=\
module not found on module source path
/**
* compiler.err.module.not.found.on.module.source.path=\
* module not found on module source path
*/
public static final Error ModuleNotFoundOnModuleSourcePath = new Error("compiler", "module.not.found.on.module.source.path");
compiler.err.modulesourcepath.must.be.specified.with.dash.m.option=\
module source path must be specified if -m option is used
/**
* compiler.err.modulesourcepath.must.be.specified.with.dash.m.option=\
* module source path must be specified if -m option is used
*/
public static final Error ModulesourcepathMustBeSpecifiedWithDashMOption = new Error("compiler", "modulesourcepath.must.be.specified.with.dash.m.option");
compiler.err.multi-module.outdir.cannot.be.exploded.module=\
in multi-module mode, the output directory cannot be an exploded module: {0}
/**
* compiler.err.multi-module.outdir.cannot.be.exploded.module=\
* in multi-module mode, the output directory cannot be an exploded module: {0}
*/
public static Error MultiModuleOutdirCannotBeExplodedModule(Path arg0) {
return new Error("compiler", "multi-module.outdir.cannot.be.exploded.module", arg0);
}
compiler.err.multicatch.parameter.may.not.be.assigned=\
multi-catch parameter {0} may not be assigned
/**
* compiler.err.multicatch.parameter.may.not.be.assigned=\
* multi-catch parameter {0} may not be assigned
*/
public static Error MulticatchParameterMayNotBeAssigned(Symbol arg0) {
return new Error("compiler", "multicatch.parameter.may.not.be.assigned", arg0);
}
compiler.err.multicatch.types.must.be.disjoint=\
Alternatives in a multi-catch statement cannot be related by subclassing\n\
Alternative {0} is a subclass of alternative {1}
/**
* compiler.err.multicatch.types.must.be.disjoint=\
* Alternatives in a multi-catch statement cannot be related by subclassing\n\
* Alternative {0} is a subclass of alternative {1}
*/
public static Error MulticatchTypesMustBeDisjoint(Type arg0, Type arg1) {
return new Error("compiler", "multicatch.types.must.be.disjoint", arg0, arg1);
}
compiler.err.multiple.values.for.module.source.path=\
--module-source-path specified more than once with a pattern argument
/**
* compiler.err.multiple.values.for.module.source.path=\
* --module-source-path specified more than once with a pattern argument
*/
public static final Error MultipleValuesForModuleSourcePath = new Error("compiler", "multiple.values.for.module.source.path");
compiler.err.name.clash.same.erasure=\
name clash: {0} and {1} have the same erasure
/**
* compiler.err.name.clash.same.erasure=\
* name clash: {0} and {1} have the same erasure
*/
public static Error NameClashSameErasure(Symbol arg0, Symbol arg1) {
return new Error("compiler", "name.clash.same.erasure", arg0, arg1);
}
compiler.err.name.clash.same.erasure.no.hide=\
name clash: {0} in {1} and {2} in {3} have the same erasure, yet neither hides the other
/**
* compiler.err.name.clash.same.erasure.no.hide=\
* name clash: {0} in {1} and {2} in {3} have the same erasure, yet neither hides the other
*/
public static Error NameClashSameErasureNoHide(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Error("compiler", "name.clash.same.erasure.no.hide", arg0, arg1, arg2, arg3);
}
compiler.err.name.clash.same.erasure.no.override=\
name clash: {0}({1}) in {2} and {3}({4}) in {5} have the same erasure, yet neither overrides the other
/**
* compiler.err.name.clash.same.erasure.no.override=\
* name clash: {0}({1}) in {2} and {3}({4}) in {5} have the same erasure, yet neither overrides the other
*/
public static Error NameClashSameErasureNoOverride(Name arg0, List<? extends Type> arg1, Symbol arg2, Name arg3, List<? extends Type> arg4, Symbol arg5) {
return new Error("compiler", "name.clash.same.erasure.no.override", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.err.name.clash.same.erasure.no.override.1=\
name clash: {0} {1} has two methods with the same erasure, yet neither overrides the other\n\
first method: {2}({3}) in {4}\n\
second method: {5}({6}) in {7}
/**
* compiler.err.name.clash.same.erasure.no.override.1=\
* name clash: {0} {1} has two methods with the same erasure, yet neither overrides the other\n\
* first method: {2}({3}) in {4}\n\
* second method: {5}({6}) in {7}
*/
public static Error NameClashSameErasureNoOverride1(String arg0, Name arg1, Name arg2, List<? extends Type> arg3, Symbol arg4, Name arg5, List<? extends Type> arg6, Symbol arg7) {
return new Error("compiler", "name.clash.same.erasure.no.override.1", arg0, arg1, arg2, arg3, arg4, arg5, arg6, arg7);
}
compiler.err.name.reserved.for.internal.use=\
{0} is reserved for internal use
/**
* compiler.err.name.reserved.for.internal.use=\
* {0} is reserved for internal use
*/
public static final Error NameReservedForInternalUse = new Error("compiler", "name.reserved.for.internal.use");
compiler.err.native.meth.cant.have.body=\
native methods cannot have a body
/**
* compiler.err.native.meth.cant.have.body=\
* native methods cannot have a body
*/
public static final Error NativeMethCantHaveBody = new Error("compiler", "native.meth.cant.have.body");
compiler.err.new.not.allowed.in.annotation=\
''new'' not allowed in an annotation
/**
* compiler.err.new.not.allowed.in.annotation=\
* ''new'' not allowed in an annotation
*/
public static final Error NewNotAllowedInAnnotation = new Error("compiler", "new.not.allowed.in.annotation");
compiler.err.no.annotation.member=\
no annotation member {0} in {1}
/**
* compiler.err.no.annotation.member=\
* no annotation member {0} in {1}
*/
public static Error NoAnnotationMember(Name arg0, Type arg1) {
return new Error("compiler", "no.annotation.member", arg0, arg1);
}
compiler.err.no.annotations.on.dot.class=\
no annotations are allowed in the type of a class literal
/**
* compiler.err.no.annotations.on.dot.class=\
* no annotations are allowed in the type of a class literal
*/
public static final Error NoAnnotationsOnDotClass = new Error("compiler", "no.annotations.on.dot.class");
compiler.err.no.encl.instance.of.type.in.scope=\
no enclosing instance of type {0} is in scope
/**
* compiler.err.no.encl.instance.of.type.in.scope=\
* no enclosing instance of type {0} is in scope
*/
public static Error NoEnclInstanceOfTypeInScope(Symbol arg0) {
return new Error("compiler", "no.encl.instance.of.type.in.scope", arg0);
}
compiler.err.no.intf.expected.here=\
no interface expected here
/**
* compiler.err.no.intf.expected.here=\
* no interface expected here
*/
public static final Error NoIntfExpectedHere = new Error("compiler", "no.intf.expected.here");
compiler.err.no.match.entry=\
{0} has no match in entry in {1}; required {2}
/**
* compiler.err.no.match.entry=\
* {0} has no match in entry in {1}; required {2}
*/
public static final Error NoMatchEntry = new Error("compiler", "no.match.entry");
compiler.err.no.opens.unless.strong=\
''opens'' only allowed in strong modules
/**
* compiler.err.no.opens.unless.strong=\
* ''opens'' only allowed in strong modules
*/
public static final Error NoOpensUnlessStrong = new Error("compiler", "no.opens.unless.strong");
compiler.err.no.output.dir=\
no class output directory specified
/**
* compiler.err.no.output.dir=\
* no class output directory specified
*/
public static final Error NoOutputDir = new Error("compiler", "no.output.dir");
compiler.err.no.pkg.in.module-info.java=\
package declarations not allowed in file module-info.java
/**
* compiler.err.no.pkg.in.module-info.java=\
* package declarations not allowed in file module-info.java
*/
public static final Error NoPkgInModuleInfoJava = new Error("compiler", "no.pkg.in.module-info.java");
compiler.err.no.source.files=\
no source files
/**
* compiler.err.no.source.files=\
* no source files
*/
public static final Error NoSourceFiles = new Error("compiler", "no.source.files");
compiler.err.no.source.files.classes=\
no source files or class names
/**
* compiler.err.no.source.files.classes=\
* no source files or class names
*/
public static final Error NoSourceFilesClasses = new Error("compiler", "no.source.files.classes");
compiler.err.no.superclass=\
{0} has no superclass.
/**
* compiler.err.no.superclass=\
* {0} has no superclass.
*/
public static Error NoSuperclass(Type arg0) {
return new Error("compiler", "no.superclass", arg0);
}
compiler.err.no.switch.expression =\
yield outside of switch expression
/**
* compiler.err.no.switch.expression =\
* yield outside of switch expression
*/
public static final Error NoSwitchExpression = new Error("compiler", "no.switch.expression");
compiler.err.no.switch.expression.qualify=\
yield outside of switch expression\n\
(to invoke a method called yield, qualify the yield with a receiver or type name)
/**
* compiler.err.no.switch.expression.qualify=\
* yield outside of switch expression\n\
* (to invoke a method called yield, qualify the yield with a receiver or type name)
*/
public static final Error NoSwitchExpressionQualify = new Error("compiler", "no.switch.expression.qualify");
compiler.err.no.value.for.option=\
no value for {0} option
/**
* compiler.err.no.value.for.option=\
* no value for {0} option
*/
public static Error NoValueForOption(String arg0) {
return new Error("compiler", "no.value.for.option", arg0);
}
compiler.err.no.zipfs.for.archive=\
No file system provider is available to handle this file: {0}
/**
* compiler.err.no.zipfs.for.archive=\
* No file system provider is available to handle this file: {0}
*/
public static Error NoZipfsForArchive(Path arg0) {
return new Error("compiler", "no.zipfs.for.archive", arg0);
}
compiler.err.non-static.cant.be.ref=\
non-static {0} {1} cannot be referenced from a static context
/**
* compiler.err.non-static.cant.be.ref=\
* non-static {0} {1} cannot be referenced from a static context
*/
public static Error NonStaticCantBeRef(Kind arg0, Symbol arg1) {
return new Error("compiler", "non-static.cant.be.ref", arg0, arg1);
}
compiler.err.not.annotation.type=\
{0} is not an annotation type
/**
* compiler.err.not.annotation.type=\
* {0} is not an annotation type
*/
public static Error NotAnnotationType(Type arg0) {
return new Error("compiler", "not.annotation.type", arg0);
}
compiler.err.not.def.access.class.intf.cant.access=\
{1}.{0} is defined in an inaccessible class or interface
/**
* compiler.err.not.def.access.class.intf.cant.access=\
* {1}.{0} is defined in an inaccessible class or interface
*/
public static Error NotDefAccessClassIntfCantAccess(Symbol arg0, Symbol arg1) {
return new Error("compiler", "not.def.access.class.intf.cant.access", arg0, arg1);
}
compiler.err.not.def.access.class.intf.cant.access.reason=\
{1}.{0} in package {2} is not accessible\n\
({3})
/**
* compiler.err.not.def.access.class.intf.cant.access.reason=\
* {1}.{0} in package {2} is not accessible\n\
* ({3})
*/
public static Error NotDefAccessClassIntfCantAccessReason(Symbol arg0, Symbol arg1, Symbol arg2, JCDiagnostic arg3) {
return new Error("compiler", "not.def.access.class.intf.cant.access.reason", arg0, arg1, arg2, arg3);
}
compiler.err.not.def.access.class.intf.cant.access.reason=\
{1}.{0} in package {2} is not accessible\n\
({3})
/**
* compiler.err.not.def.access.class.intf.cant.access.reason=\
* {1}.{0} in package {2} is not accessible\n\
* ({3})
*/
public static Error NotDefAccessClassIntfCantAccessReason(Symbol arg0, Symbol arg1, Symbol arg2, Fragment arg3) {
return new Error("compiler", "not.def.access.class.intf.cant.access.reason", arg0, arg1, arg2, arg3);
}
compiler.err.not.def.access.package.cant.access=\
{0} is not visible\n\
({2})
/**
* compiler.err.not.def.access.package.cant.access=\
* {0} is not visible\n\
* ({2})
*/
public static Error NotDefAccessPackageCantAccess(Symbol arg0, Symbol arg1, JCDiagnostic arg2) {
return new Error("compiler", "not.def.access.package.cant.access", arg0, arg1, arg2);
}
compiler.err.not.def.access.package.cant.access=\
{0} is not visible\n\
({2})
/**
* compiler.err.not.def.access.package.cant.access=\
* {0} is not visible\n\
* ({2})
*/
public static Error NotDefAccessPackageCantAccess(Symbol arg0, Symbol arg1, Fragment arg2) {
return new Error("compiler", "not.def.access.package.cant.access", arg0, arg1, arg2);
}
compiler.err.not.def.public=\
{0} is not public in {1}
/**
* compiler.err.not.def.public=\
* {0} is not public in {1}
*/
public static Error NotDefPublic(Symbol arg0, Symbol arg1) {
return new Error("compiler", "not.def.public", arg0, arg1);
}
compiler.err.not.def.public.cant.access=\
{0} is not public in {1}; cannot be accessed from outside package
/**
* compiler.err.not.def.public.cant.access=\
* {0} is not public in {1}; cannot be accessed from outside package
*/
public static Error NotDefPublicCantAccess(Symbol arg0, Symbol arg1) {
return new Error("compiler", "not.def.public.cant.access", arg0, arg1);
}
compiler.err.not.encl.class=\
not an enclosing class: {0}
/**
* compiler.err.not.encl.class=\
* not an enclosing class: {0}
*/
public static Error NotEnclClass(Symbol arg0) {
return new Error("compiler", "not.encl.class", arg0);
}
compiler.err.not.exhaustive=\
the switch expression does not cover all possible input values
/**
* compiler.err.not.exhaustive=\
* the switch expression does not cover all possible input values
*/
public static final Error NotExhaustive = new Error("compiler", "not.exhaustive");
compiler.err.not.in.module.on.module.source.path=\
not in a module on the module source path
/**
* compiler.err.not.in.module.on.module.source.path=\
* not in a module on the module source path
*/
public static final Error NotInModuleOnModuleSourcePath = new Error("compiler", "not.in.module.on.module.source.path");
compiler.err.not.in.profile=\
{0} is not available in profile ''{1}''
/**
* compiler.err.not.in.profile=\
* {0} is not available in profile ''{1}''
*/
public static Error NotInProfile(Symbol arg0, Object arg1) {
return new Error("compiler", "not.in.profile", arg0, arg1);
}
compiler.err.not.loop.label=\
not a loop label: {0}
/**
* compiler.err.not.loop.label=\
* not a loop label: {0}
*/
public static Error NotLoopLabel(Name arg0) {
return new Error("compiler", "not.loop.label", arg0);
}
compiler.err.not.stmt=\
not a statement
/**
* compiler.err.not.stmt=\
* not a statement
*/
public static final Error NotStmt = new Error("compiler", "not.stmt");
compiler.err.not.within.bounds=\
type argument {0} is not within bounds of type-variable {1}
/**
* compiler.err.not.within.bounds=\
* type argument {0} is not within bounds of type-variable {1}
*/
public static Error NotWithinBounds(Type arg0, Type arg1) {
return new Error("compiler", "not.within.bounds", arg0, arg1);
}
compiler.err.not.within.bounds=\
type argument {0} is not within bounds of type-variable {1}
/**
* compiler.err.not.within.bounds=\
* type argument {0} is not within bounds of type-variable {1}
*/
public static Error NotWithinBounds(Type arg0, Symbol arg1) {
return new Error("compiler", "not.within.bounds", arg0, arg1);
}
compiler.err.operator.cant.be.applied=\
bad operand type {1} for unary operator ''{0}''
/**
* compiler.err.operator.cant.be.applied=\
* bad operand type {1} for unary operator ''{0}''
*/
public static Error OperatorCantBeApplied(Name arg0, Type arg1) {
return new Error("compiler", "operator.cant.be.applied", arg0, arg1);
}
compiler.err.operator.cant.be.applied.1=\
bad operand types for binary operator ''{0}''\n\
first type: {1}\n\
second type: {2}
/**
* compiler.err.operator.cant.be.applied.1=\
* bad operand types for binary operator ''{0}''\n\
* first type: {1}\n\
* second type: {2}
*/
public static Error OperatorCantBeApplied1(Name arg0, Type arg1, Type arg2) {
return new Error("compiler", "operator.cant.be.applied.1", arg0, arg1, arg2);
}
compiler.err.option.not.allowed.with.target=\
option {0} not allowed with target {1}
/**
* compiler.err.option.not.allowed.with.target=\
* option {0} not allowed with target {1}
*/
public static Error OptionNotAllowedWithTarget(Option arg0, Target arg1) {
return new Error("compiler", "option.not.allowed.with.target", arg0, arg1);
}
compiler.err.option.removed.source=\
Source option {0} is no longer supported. Use {1} or later.
/**
* compiler.err.option.removed.source=\
* Source option {0} is no longer supported. Use {1} or later.
*/
public static Error OptionRemovedSource(String arg0, String arg1) {
return new Error("compiler", "option.removed.source", arg0, arg1);
}
compiler.err.option.removed.target=\
Target option {0} is no longer supported. Use {1} or later.
/**
* compiler.err.option.removed.target=\
* Target option {0} is no longer supported. Use {1} or later.
*/
public static Error OptionRemovedTarget(Target arg0, Target arg1) {
return new Error("compiler", "option.removed.target", arg0, arg1);
}
compiler.err.option.too.many=\
option {0} can only be specified once
/**
* compiler.err.option.too.many=\
* option {0} can only be specified once
*/
public static Error OptionTooMany(String arg0) {
return new Error("compiler", "option.too.many", arg0);
}
compiler.err.orphaned=\
orphaned {0}
/**
* compiler.err.orphaned=\
* orphaned {0}
*/
public static Error Orphaned(TokenKind arg0) {
return new Error("compiler", "orphaned", arg0);
}
compiler.err.output.dir.must.be.specified.with.dash.m.option=\
class output directory must be specified if -m option is used
/**
* compiler.err.output.dir.must.be.specified.with.dash.m.option=\
* class output directory must be specified if -m option is used
*/
public static final Error OutputDirMustBeSpecifiedWithDashMOption = new Error("compiler", "output.dir.must.be.specified.with.dash.m.option");
compiler.err.override.incompatible.ret=\
{0}\n\
return type {1} is not compatible with {2}
/**
* compiler.err.override.incompatible.ret=\
* {0}\n\
* return type {1} is not compatible with {2}
*/
public static Error OverrideIncompatibleRet(JCDiagnostic arg0, Type arg1, Type arg2) {
return new Error("compiler", "override.incompatible.ret", arg0, arg1, arg2);
}
compiler.err.override.incompatible.ret=\
{0}\n\
return type {1} is not compatible with {2}
/**
* compiler.err.override.incompatible.ret=\
* {0}\n\
* return type {1} is not compatible with {2}
*/
public static Error OverrideIncompatibleRet(Fragment arg0, Type arg1, Type arg2) {
return new Error("compiler", "override.incompatible.ret", arg0, arg1, arg2);
}
compiler.err.override.meth=\
{0}\n\
overridden method is {1}
/**
* compiler.err.override.meth=\
* {0}\n\
* overridden method is {1}
*/
public static Error OverrideMeth(JCDiagnostic arg0, Set<? extends Flag> arg1) {
return new Error("compiler", "override.meth", arg0, arg1);
}
compiler.err.override.meth=\
{0}\n\
overridden method is {1}
/**
* compiler.err.override.meth=\
* {0}\n\
* overridden method is {1}
*/
public static Error OverrideMeth(Fragment arg0, Set<? extends Flag> arg1) {
return new Error("compiler", "override.meth", arg0, arg1);
}
compiler.err.override.meth.doesnt.throw=\
{0}\n\
overridden method does not throw {1}
/**
* compiler.err.override.meth.doesnt.throw=\
* {0}\n\
* overridden method does not throw {1}
*/
public static Error OverrideMethDoesntThrow(JCDiagnostic arg0, Type arg1) {
return new Error("compiler", "override.meth.doesnt.throw", arg0, arg1);
}
compiler.err.override.meth.doesnt.throw=\
{0}\n\
overridden method does not throw {1}
/**
* compiler.err.override.meth.doesnt.throw=\
* {0}\n\
* overridden method does not throw {1}
*/
public static Error OverrideMethDoesntThrow(Fragment arg0, Type arg1) {
return new Error("compiler", "override.meth.doesnt.throw", arg0, arg1);
}
compiler.err.override.static=\
{0}\n\
overriding method is static
/**
* compiler.err.override.static=\
* {0}\n\
* overriding method is static
*/
public static Error OverrideStatic(JCDiagnostic arg0) {
return new Error("compiler", "override.static", arg0);
}
compiler.err.override.static=\
{0}\n\
overriding method is static
/**
* compiler.err.override.static=\
* {0}\n\
* overriding method is static
*/
public static Error OverrideStatic(Fragment arg0) {
return new Error("compiler", "override.static", arg0);
}
compiler.err.override.weaker.access=\
{0}\n\
attempting to assign weaker access privileges; was {1}
/**
* compiler.err.override.weaker.access=\
* {0}\n\
* attempting to assign weaker access privileges; was {1}
*/
public static Error OverrideWeakerAccess(JCDiagnostic arg0, Set<? extends Flag> arg1) {
return new Error("compiler", "override.weaker.access", arg0, arg1);
}
compiler.err.override.weaker.access=\
{0}\n\
attempting to assign weaker access privileges; was {1}
/**
* compiler.err.override.weaker.access=\
* {0}\n\
* attempting to assign weaker access privileges; was {1}
*/
public static Error OverrideWeakerAccess(JCDiagnostic arg0, String arg1) {
return new Error("compiler", "override.weaker.access", arg0, arg1);
}
compiler.err.override.weaker.access=\
{0}\n\
attempting to assign weaker access privileges; was {1}
/**
* compiler.err.override.weaker.access=\
* {0}\n\
* attempting to assign weaker access privileges; was {1}
*/
public static Error OverrideWeakerAccess(Fragment arg0, Set<? extends Flag> arg1) {
return new Error("compiler", "override.weaker.access", arg0, arg1);
}
compiler.err.override.weaker.access=\
{0}\n\
attempting to assign weaker access privileges; was {1}
/**
* compiler.err.override.weaker.access=\
* {0}\n\
* attempting to assign weaker access privileges; was {1}
*/
public static Error OverrideWeakerAccess(Fragment arg0, String arg1) {
return new Error("compiler", "override.weaker.access", arg0, arg1);
}
compiler.err.package.clash.from.requires=\
module {0} reads package {1} from both {2} and {3}
/**
* compiler.err.package.clash.from.requires=\
* module {0} reads package {1} from both {2} and {3}
*/
public static Error PackageClashFromRequires(Symbol arg0, Name arg1, Symbol arg2, Symbol arg3) {
return new Error("compiler", "package.clash.from.requires", arg0, arg1, arg2, arg3);
}
compiler.err.package.clash.from.requires.in.unnamed=\
the unnamed module reads package {0} from both {1} and {2}
/**
* compiler.err.package.clash.from.requires.in.unnamed=\
* the unnamed module reads package {0} from both {1} and {2}
*/
public static Error PackageClashFromRequiresInUnnamed(Name arg0, Symbol arg1, Symbol arg2) {
return new Error("compiler", "package.clash.from.requires.in.unnamed", arg0, arg1, arg2);
}
compiler.err.package.empty.or.not.found=\
package is empty or does not exist: {0}
/**
* compiler.err.package.empty.or.not.found=\
* package is empty or does not exist: {0}
*/
public static Error PackageEmptyOrNotFound(Symbol arg0) {
return new Error("compiler", "package.empty.or.not.found", arg0);
}
compiler.err.package.in.other.module=\
package exists in another module: {0}
/**
* compiler.err.package.in.other.module=\
* package exists in another module: {0}
*/
public static Error PackageInOtherModule(Symbol arg0) {
return new Error("compiler", "package.in.other.module", arg0);
}
compiler.err.package.not.visible=\
package {0} is not visible\n\
({1})
/**
* compiler.err.package.not.visible=\
* package {0} is not visible\n\
* ({1})
*/
public static Error PackageNotVisible(Symbol arg0, JCDiagnostic arg1) {
return new Error("compiler", "package.not.visible", arg0, arg1);
}
compiler.err.package.not.visible=\
package {0} is not visible\n\
({1})
/**
* compiler.err.package.not.visible=\
* package {0} is not visible\n\
* ({1})
*/
public static Error PackageNotVisible(Symbol arg0, Fragment arg1) {
return new Error("compiler", "package.not.visible", arg0, arg1);
}
compiler.err.pkg.annotations.sb.in.package-info.java=\
package annotations should be in file package-info.java
/**
* compiler.err.pkg.annotations.sb.in.package-info.java=\
* package annotations should be in file package-info.java
*/
public static final Error PkgAnnotationsSbInPackageInfoJava = new Error("compiler", "pkg.annotations.sb.in.package-info.java");
compiler.err.pkg.clashes.with.class.of.same.name=\
package {0} clashes with class of same name
/**
* compiler.err.pkg.clashes.with.class.of.same.name=\
* package {0} clashes with class of same name
*/
public static Error PkgClashesWithClassOfSameName(Symbol arg0) {
return new Error("compiler", "pkg.clashes.with.class.of.same.name", arg0);
}
compiler.err.plugin.not.found=\
plug-in not found: {0}
/**
* compiler.err.plugin.not.found=\
* plug-in not found: {0}
*/
public static Error PluginNotFound(String arg0) {
return new Error("compiler", "plugin.not.found", arg0);
}
compiler.err.premature.eof=\
reached end of file while parsing
/**
* compiler.err.premature.eof=\
* reached end of file while parsing
*/
public static final Error PrematureEof = new Error("compiler", "premature.eof");
compiler.err.preview.feature.disabled=\
{0} is a preview feature and is disabled by default.\n\
(use --enable-preview to enable {0})
/**
* compiler.err.preview.feature.disabled=\
* {0} is a preview feature and is disabled by default.\n\
* (use --enable-preview to enable {0})
*/
public static Error PreviewFeatureDisabled(JCDiagnostic arg0) {
return new Error("compiler", "preview.feature.disabled", arg0);
}
compiler.err.preview.feature.disabled=\
{0} is a preview feature and is disabled by default.\n\
(use --enable-preview to enable {0})
/**
* compiler.err.preview.feature.disabled=\
* {0} is a preview feature and is disabled by default.\n\
* (use --enable-preview to enable {0})
*/
public static Error PreviewFeatureDisabled(Fragment arg0) {
return new Error("compiler", "preview.feature.disabled", arg0);
}
compiler.err.preview.feature.disabled.classfile=\
classfile for {0} uses preview features of Java SE {1}.\n\
(use --enable-preview to allow loading of classfiles which contain preview features)
/**
* compiler.err.preview.feature.disabled.classfile=\
* classfile for {0} uses preview features of Java SE {1}.\n\
* (use --enable-preview to allow loading of classfiles which contain preview features)
*/
public static Error PreviewFeatureDisabledClassfile(JavaFileObject arg0, String arg1) {
return new Error("compiler", "preview.feature.disabled.classfile", arg0, arg1);
}
compiler.err.preview.feature.disabled.plural=\
{0} are a preview feature and are disabled by default.\n\
(use --enable-preview to enable {0})
/**
* compiler.err.preview.feature.disabled.plural=\
* {0} are a preview feature and are disabled by default.\n\
* (use --enable-preview to enable {0})
*/
public static Error PreviewFeatureDisabledPlural(JCDiagnostic arg0) {
return new Error("compiler", "preview.feature.disabled.plural", arg0);
}
compiler.err.preview.feature.disabled.plural=\
{0} are a preview feature and are disabled by default.\n\
(use --enable-preview to enable {0})
/**
* compiler.err.preview.feature.disabled.plural=\
* {0} are a preview feature and are disabled by default.\n\
* (use --enable-preview to enable {0})
*/
public static Error PreviewFeatureDisabledPlural(Fragment arg0) {
return new Error("compiler", "preview.feature.disabled.plural", arg0);
}
compiler.err.preview.not.latest=\
invalid source release {0} with --enable-preview\n\
(preview language features are only supported for release {1})
/**
* compiler.err.preview.not.latest=\
* invalid source release {0} with --enable-preview\n\
* (preview language features are only supported for release {1})
*/
public static Error PreviewNotLatest(String arg0, Source arg1) {
return new Error("compiler", "preview.not.latest", arg0, arg1);
}
compiler.err.preview.without.source.or.release=\
--enable-preview must be used with either -source or --release
/**
* compiler.err.preview.without.source.or.release=\
* --enable-preview must be used with either -source or --release
*/
public static final Error PreviewWithoutSourceOrRelease = new Error("compiler", "preview.without.source.or.release");
compiler.err.prob.found.req=\
incompatible types: {0}
/**
* compiler.err.prob.found.req=\
* incompatible types: {0}
*/
public static Error ProbFoundReq(JCDiagnostic arg0) {
return new Error("compiler", "prob.found.req", arg0);
}
compiler.err.prob.found.req=\
incompatible types: {0}
/**
* compiler.err.prob.found.req=\
* incompatible types: {0}
*/
public static Error ProbFoundReq(Fragment arg0) {
return new Error("compiler", "prob.found.req", arg0);
}
compiler.err.proc.bad.config.file=\
Bad service configuration file, or exception thrown while constructing Processor object: {0}
/**
* compiler.err.proc.bad.config.file=\
* Bad service configuration file, or exception thrown while constructing Processor object: {0}
*/
public static Error ProcBadConfigFile(String arg0) {
return new Error("compiler", "proc.bad.config.file", arg0);
}
compiler.err.proc.cant.access=\
cannot access {0}\n\
{1}\n\
Consult the following stack trace for details.\n\
{2}
/**
* compiler.err.proc.cant.access=\
* cannot access {0}\n\
* {1}\n\
* Consult the following stack trace for details.\n\
* {2}
*/
public static Error ProcCantAccess(Symbol arg0, JCDiagnostic arg1, String arg2) {
return new Error("compiler", "proc.cant.access", arg0, arg1, arg2);
}
compiler.err.proc.cant.access=\
cannot access {0}\n\
{1}\n\
Consult the following stack trace for details.\n\
{2}
/**
* compiler.err.proc.cant.access=\
* cannot access {0}\n\
* {1}\n\
* Consult the following stack trace for details.\n\
* {2}
*/
public static Error ProcCantAccess(Symbol arg0, Fragment arg1, String arg2) {
return new Error("compiler", "proc.cant.access", arg0, arg1, arg2);
}
compiler.err.proc.cant.access.1=\
cannot access {0}\n\
{1}
/**
* compiler.err.proc.cant.access.1=\
* cannot access {0}\n\
* {1}
*/
public static Error ProcCantAccess1(Symbol arg0, JCDiagnostic arg1) {
return new Error("compiler", "proc.cant.access.1", arg0, arg1);
}
compiler.err.proc.cant.access.1=\
cannot access {0}\n\
{1}
/**
* compiler.err.proc.cant.access.1=\
* cannot access {0}\n\
* {1}
*/
public static Error ProcCantAccess1(Symbol arg0, Fragment arg1) {
return new Error("compiler", "proc.cant.access.1", arg0, arg1);
}
compiler.err.proc.cant.create.loader=\
Could not create class loader for annotation processors: {0}
/**
* compiler.err.proc.cant.create.loader=\
* Could not create class loader for annotation processors: {0}
*/
public static final Error ProcCantCreateLoader = new Error("compiler", "proc.cant.create.loader");
compiler.err.proc.cant.find.class=\
Could not find class file for ''{0}''.
/**
* compiler.err.proc.cant.find.class=\
* Could not find class file for ''{0}''.
*/
public static Error ProcCantFindClass(String arg0) {
return new Error("compiler", "proc.cant.find.class", arg0);
}
compiler.err.proc.cant.load.class=\
Could not load processor class file due to ''{0}''.
/**
* compiler.err.proc.cant.load.class=\
* Could not load processor class file due to ''{0}''.
*/
public static Error ProcCantLoadClass(String arg0) {
return new Error("compiler", "proc.cant.load.class", arg0);
}
compiler.err.proc.messager=\
{0}
/**
* compiler.err.proc.messager=\
* {0}
*/
public static Error ProcMessager(String arg0) {
return new Error("compiler", "proc.messager", arg0);
}
compiler.err.proc.no.explicit.annotation.processing.requested=\
Class names, ''{0}'', are only accepted if annotation processing is explicitly requested
/**
* compiler.err.proc.no.explicit.annotation.processing.requested=\
* Class names, ''{0}'', are only accepted if annotation processing is explicitly requested
*/
public static Error ProcNoExplicitAnnotationProcessingRequested(Collection<? extends String> arg0) {
return new Error("compiler", "proc.no.explicit.annotation.processing.requested", arg0);
}
compiler.err.proc.no.service=\
A ServiceLoader was not usable and is required for annotation processing.
/**
* compiler.err.proc.no.service=\
* A ServiceLoader was not usable and is required for annotation processing.
*/
public static final Error ProcNoService = new Error("compiler", "proc.no.service");
compiler.err.proc.processor.bad.option.name=\
Bad option name ''{0}'' provided by processor ''{1}''
/**
* compiler.err.proc.processor.bad.option.name=\
* Bad option name ''{0}'' provided by processor ''{1}''
*/
public static Error ProcProcessorBadOptionName(String arg0, String arg1) {
return new Error("compiler", "proc.processor.bad.option.name", arg0, arg1);
}
compiler.err.proc.processor.cant.instantiate=\
Could not instantiate an instance of processor ''{0}''
/**
* compiler.err.proc.processor.cant.instantiate=\
* Could not instantiate an instance of processor ''{0}''
*/
public static Error ProcProcessorCantInstantiate(String arg0) {
return new Error("compiler", "proc.processor.cant.instantiate", arg0);
}
compiler.err.proc.processor.not.found=\
Annotation processor ''{0}'' not found
/**
* compiler.err.proc.processor.not.found=\
* Annotation processor ''{0}'' not found
*/
public static Error ProcProcessorNotFound(String arg0) {
return new Error("compiler", "proc.processor.not.found", arg0);
}
compiler.err.proc.processor.wrong.type=\
Annotation processor ''{0}'' does not implement javax.annotation.processing.Processor
/**
* compiler.err.proc.processor.wrong.type=\
* Annotation processor ''{0}'' does not implement javax.annotation.processing.Processor
*/
public static Error ProcProcessorWrongType(String arg0) {
return new Error("compiler", "proc.processor.wrong.type", arg0);
}
compiler.err.proc.service.problem=\
Error creating a service loader to load Processors.
/**
* compiler.err.proc.service.problem=\
* Error creating a service loader to load Processors.
*/
public static final Error ProcServiceProblem = new Error("compiler", "proc.service.problem");
compiler.err.processorpath.no.processormodulepath=\
illegal combination of -processorpath and --processor-module-path
/**
* compiler.err.processorpath.no.processormodulepath=\
* illegal combination of -processorpath and --processor-module-path
*/
public static final Error ProcessorpathNoProcessormodulepath = new Error("compiler", "processorpath.no.processormodulepath");
compiler.err.profile.bootclasspath.conflict=\
profile and bootclasspath options cannot be used together
/**
* compiler.err.profile.bootclasspath.conflict=\
* profile and bootclasspath options cannot be used together
*/
public static final Error ProfileBootclasspathConflict = new Error("compiler", "profile.bootclasspath.conflict");
compiler.err.qualified.new.of.static.class=\
qualified new of static class
/**
* compiler.err.qualified.new.of.static.class=\
* qualified new of static class
*/
public static Error QualifiedNewOfStaticClass(Symbol arg0) {
return new Error("compiler", "qualified.new.of.static.class", arg0);
}
compiler.err.receiver.parameter.not.applicable.constructor.toplevel.class=\
receiver parameter not applicable for constructor of top-level class
/**
* compiler.err.receiver.parameter.not.applicable.constructor.toplevel.class=\
* receiver parameter not applicable for constructor of top-level class
*/
public static final Error ReceiverParameterNotApplicableConstructorToplevelClass = new Error("compiler", "receiver.parameter.not.applicable.constructor.toplevel.class");
compiler.err.recursive.ctor.invocation=\
recursive constructor invocation
/**
* compiler.err.recursive.ctor.invocation=\
* recursive constructor invocation
*/
public static final Error RecursiveCtorInvocation = new Error("compiler", "recursive.ctor.invocation");
compiler.err.ref.ambiguous=\
reference to {0} is ambiguous\n\
both {1} {2} in {3} and {4} {5} in {6} match
/**
* compiler.err.ref.ambiguous=\
* reference to {0} is ambiguous\n\
* both {1} {2} in {3} and {4} {5} in {6} match
*/
public static Error RefAmbiguous(Name arg0, Kind arg1, Symbol arg2, Symbol arg3, Kind arg4, Symbol arg5, Symbol arg6) {
return new Error("compiler", "ref.ambiguous", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.err.release.bootclasspath.conflict=\
option {0} cannot be used together with --release
/**
* compiler.err.release.bootclasspath.conflict=\
* option {0} cannot be used together with --release
*/
public static Error ReleaseBootclasspathConflict(Option arg0) {
return new Error("compiler", "release.bootclasspath.conflict", arg0);
}
compiler.err.repeated.annotation.target=\
repeated annotation target
/**
* compiler.err.repeated.annotation.target=\
* repeated annotation target
*/
public static final Error RepeatedAnnotationTarget = new Error("compiler", "repeated.annotation.target");
compiler.err.repeated.interface=\
repeated interface
/**
* compiler.err.repeated.interface=\
* repeated interface
*/
public static final Error RepeatedInterface = new Error("compiler", "repeated.interface");
compiler.err.repeated.modifier=\
repeated modifier
/**
* compiler.err.repeated.modifier=\
* repeated modifier
*/
public static final Error RepeatedModifier = new Error("compiler", "repeated.modifier");
compiler.err.repeated.provides.for.service=\
multiple ''provides'' for service {0}
/**
* compiler.err.repeated.provides.for.service=\
* multiple ''provides'' for service {0}
*/
public static Error RepeatedProvidesForService(Symbol arg0) {
return new Error("compiler", "repeated.provides.for.service", arg0);
}
compiler.err.repeated.value.for.module.source.path=\
--module-source-path specified more than once for module {0}
/**
* compiler.err.repeated.value.for.module.source.path=\
* --module-source-path specified more than once for module {0}
*/
public static Error RepeatedValueForModuleSourcePath(String arg0) {
return new Error("compiler", "repeated.value.for.module.source.path", arg0);
}
compiler.err.repeated.value.for.patch.module=\
--patch-module specified more than once for module {0}
/**
* compiler.err.repeated.value.for.patch.module=\
* --patch-module specified more than once for module {0}
*/
public static Error RepeatedValueForPatchModule(String arg0) {
return new Error("compiler", "repeated.value.for.patch.module", arg0);
}
compiler.err.report.access=\
{0} has {1} access in {2}
/**
* compiler.err.report.access=\
* {0} has {1} access in {2}
*/
public static Error ReportAccess(Symbol arg0, Set<? extends Modifier> arg1, Symbol arg2) {
return new Error("compiler", "report.access", arg0, arg1, arg2);
}
compiler.err.req.arg=\
{0} requires an argument
/**
* compiler.err.req.arg=\
* {0} requires an argument
*/
public static Error ReqArg(String arg0) {
return new Error("compiler", "req.arg", arg0);
}
compiler.err.restricted.type.not.allowed=\
''{0}'' not allowed here\n\
as of release {1}, ''{0}'' is a restricted type name and cannot be used for type declarations
/**
* compiler.err.restricted.type.not.allowed=\
* ''{0}'' not allowed here\n\
* as of release {1}, ''{0}'' is a restricted type name and cannot be used for type declarations
*/
public static Error RestrictedTypeNotAllowed(Name arg0, Source arg1) {
return new Error("compiler", "restricted.type.not.allowed", arg0, arg1);
}
compiler.err.restricted.type.not.allowed.array=\
''{0}'' is not allowed as an element type of an array
/**
* compiler.err.restricted.type.not.allowed.array=\
* ''{0}'' is not allowed as an element type of an array
*/
public static Error RestrictedTypeNotAllowedArray(Name arg0) {
return new Error("compiler", "restricted.type.not.allowed.array", arg0);
}
compiler.err.restricted.type.not.allowed.compound=\
''{0}'' is not allowed in a compound declaration
/**
* compiler.err.restricted.type.not.allowed.compound=\
* ''{0}'' is not allowed in a compound declaration
*/
public static Error RestrictedTypeNotAllowedCompound(Name arg0) {
return new Error("compiler", "restricted.type.not.allowed.compound", arg0);
}
compiler.err.restricted.type.not.allowed.here=\
''{0}'' is not allowed here
/**
* compiler.err.restricted.type.not.allowed.here=\
* ''{0}'' is not allowed here
*/
public static Error RestrictedTypeNotAllowedHere(Name arg0) {
return new Error("compiler", "restricted.type.not.allowed.here", arg0);
}
compiler.err.ret.outside.meth=\
return outside method
/**
* compiler.err.ret.outside.meth=\
* return outside method
*/
public static final Error RetOutsideMeth = new Error("compiler", "ret.outside.meth");
compiler.err.return.outside.switch.expression=\
attempt to return out of a switch expression
/**
* compiler.err.return.outside.switch.expression=\
* attempt to return out of a switch expression
*/
public static final Error ReturnOutsideSwitchExpression = new Error("compiler", "return.outside.switch.expression");
compiler.err.rule.completes.normally=\
switch rule completes without providing a value\n\
(switch rules in switch expressions must either provide a value or throw)
/**
* compiler.err.rule.completes.normally=\
* switch rule completes without providing a value\n\
* (switch rules in switch expressions must either provide a value or throw)
*/
public static final Error RuleCompletesNormally = new Error("compiler", "rule.completes.normally");
compiler.err.same.binary.name=\
classes: {0} and {1} have the same binary name
/**
* compiler.err.same.binary.name=\
* classes: {0} and {1} have the same binary name
*/
public static Error SameBinaryName(Name arg0, Name arg1) {
return new Error("compiler", "same.binary.name", arg0, arg1);
}
compiler.err.service.definition.is.enum=\
the service definition is an enum: {0}
/**
* compiler.err.service.definition.is.enum=\
* the service definition is an enum: {0}
*/
public static Error ServiceDefinitionIsEnum(Symbol arg0) {
return new Error("compiler", "service.definition.is.enum", arg0);
}
compiler.err.service.implementation.doesnt.have.a.no.args.constructor=\
the service implementation does not have a default constructor: {0}
/**
* compiler.err.service.implementation.doesnt.have.a.no.args.constructor=\
* the service implementation does not have a default constructor: {0}
*/
public static Error ServiceImplementationDoesntHaveANoArgsConstructor(Symbol arg0) {
return new Error("compiler", "service.implementation.doesnt.have.a.no.args.constructor", arg0);
}
compiler.err.service.implementation.is.abstract=\
the service implementation is an abstract class: {0}
/**
* compiler.err.service.implementation.is.abstract=\
* the service implementation is an abstract class: {0}
*/
public static Error ServiceImplementationIsAbstract(Symbol arg0) {
return new Error("compiler", "service.implementation.is.abstract", arg0);
}
compiler.err.service.implementation.is.inner=\
the service implementation is an inner class: {0}
/**
* compiler.err.service.implementation.is.inner=\
* the service implementation is an inner class: {0}
*/
public static Error ServiceImplementationIsInner(Symbol arg0) {
return new Error("compiler", "service.implementation.is.inner", arg0);
}
compiler.err.service.implementation.must.be.subtype.of.service.interface=\
the service implementation type must be a subtype of the service interface type, or \
have a public static no-args method named "provider" returning the service implementation
/**
* compiler.err.service.implementation.must.be.subtype.of.service.interface=\
* the service implementation type must be a subtype of the service interface type, or \
* have a public static no-args method named "provider" returning the service implementation
*/
public static final Error ServiceImplementationMustBeSubtypeOfServiceInterface = new Error("compiler", "service.implementation.must.be.subtype.of.service.interface");
compiler.err.service.implementation.no.args.constructor.not.public=\
the no arguments constructor of the service implementation is not public: {0}
/**
* compiler.err.service.implementation.no.args.constructor.not.public=\
* the no arguments constructor of the service implementation is not public: {0}
*/
public static Error ServiceImplementationNoArgsConstructorNotPublic(Symbol arg0) {
return new Error("compiler", "service.implementation.no.args.constructor.not.public", arg0);
}
compiler.err.service.implementation.not.in.right.module=\
service implementation must be defined in the same module as the provides directive
/**
* compiler.err.service.implementation.not.in.right.module=\
* service implementation must be defined in the same module as the provides directive
*/
public static Error ServiceImplementationNotInRightModule(Symbol arg0) {
return new Error("compiler", "service.implementation.not.in.right.module", arg0);
}
compiler.err.service.implementation.provider.return.must.be.subtype.of.service.interface=\
the "provider" method return type must be a subtype of the service interface type
/**
* compiler.err.service.implementation.provider.return.must.be.subtype.of.service.interface=\
* the "provider" method return type must be a subtype of the service interface type
*/
public static final Error ServiceImplementationProviderReturnMustBeSubtypeOfServiceInterface = new Error("compiler", "service.implementation.provider.return.must.be.subtype.of.service.interface");
compiler.err.signature.doesnt.match.intf=\
signature does not match {0}; incompatible interfaces
/**
* compiler.err.signature.doesnt.match.intf=\
* signature does not match {0}; incompatible interfaces
*/
public static final Error SignatureDoesntMatchIntf = new Error("compiler", "signature.doesnt.match.intf");
compiler.err.signature.doesnt.match.supertype=\
signature does not match {0}; incompatible supertype
/**
* compiler.err.signature.doesnt.match.supertype=\
* signature does not match {0}; incompatible supertype
*/
public static final Error SignatureDoesntMatchSupertype = new Error("compiler", "signature.doesnt.match.supertype");
compiler.err.source.cant.overwrite.input.file=\
error writing source; cannot overwrite input file {0}
/**
* compiler.err.source.cant.overwrite.input.file=\
* error writing source; cannot overwrite input file {0}
*/
public static Error SourceCantOverwriteInputFile(JavaFileObject arg0) {
return new Error("compiler", "source.cant.overwrite.input.file", arg0);
}
compiler.err.sourcepath.modulesourcepath.conflict=\
cannot specify both --source-path and --module-source-path
/**
* compiler.err.sourcepath.modulesourcepath.conflict=\
* cannot specify both --source-path and --module-source-path
*/
public static final Error SourcepathModulesourcepathConflict = new Error("compiler", "sourcepath.modulesourcepath.conflict");
compiler.err.stack.sim.error=\
Internal error: stack sim error on {0}
/**
* compiler.err.stack.sim.error=\
* Internal error: stack sim error on {0}
*/
public static Error StackSimError(Symbol arg0) {
return new Error("compiler", "stack.sim.error", arg0);
}
compiler.err.static.imp.only.classes.and.interfaces=\
static import only from classes and interfaces
/**
* compiler.err.static.imp.only.classes.and.interfaces=\
* static import only from classes and interfaces
*/
public static final Error StaticImpOnlyClassesAndInterfaces = new Error("compiler", "static.imp.only.classes.and.interfaces");
compiler.err.static.methods.cannot.be.annotated.with.override=\
static methods cannot be annotated with @Override
/**
* compiler.err.static.methods.cannot.be.annotated.with.override=\
* static methods cannot be annotated with @Override
*/
public static final Error StaticMethodsCannotBeAnnotatedWithOverride = new Error("compiler", "static.methods.cannot.be.annotated.with.override");
compiler.err.string.const.req=\
constant string expression required
/**
* compiler.err.string.const.req=\
* constant string expression required
*/
public static final Error StringConstReq = new Error("compiler", "string.const.req");
compiler.err.switch.case.unexpected.statement=\
unexpected statement in case, expected is an expression, a block or a throw statement
/**
* compiler.err.switch.case.unexpected.statement=\
* unexpected statement in case, expected is an expression, a block or a throw statement
*/
public static final Error SwitchCaseUnexpectedStatement = new Error("compiler", "switch.case.unexpected.statement");
compiler.err.switch.expression.completes.normally=\
switch expression completes without providing a value\n\
(switch expressions must either provide a value or throw for all possible input values)
/**
* compiler.err.switch.expression.completes.normally=\
* switch expression completes without providing a value\n\
* (switch expressions must either provide a value or throw for all possible input values)
*/
public static final Error SwitchExpressionCompletesNormally = new Error("compiler", "switch.expression.completes.normally");
compiler.err.switch.expression.empty=\
switch expression does not have any case clauses
/**
* compiler.err.switch.expression.empty=\
* switch expression does not have any case clauses
*/
public static final Error SwitchExpressionEmpty = new Error("compiler", "switch.expression.empty");
compiler.err.switch.expression.no.result.expressions=\
switch expression does not have any result expressions
/**
* compiler.err.switch.expression.no.result.expressions=\
* switch expression does not have any result expressions
*/
public static final Error SwitchExpressionNoResultExpressions = new Error("compiler", "switch.expression.no.result.expressions");
compiler.err.switch.mixing.case.types=\
different case kinds used in the switch
/**
* compiler.err.switch.mixing.case.types=\
* different case kinds used in the switch
*/
public static final Error SwitchMixingCaseTypes = new Error("compiler", "switch.mixing.case.types");
compiler.err.switch.null.not.allowed=\
null label in case is not allowed
/**
* compiler.err.switch.null.not.allowed=\
* null label in case is not allowed
*/
public static final Error SwitchNullNotAllowed = new Error("compiler", "switch.null.not.allowed");
compiler.err.this.as.identifier=\
as of release 8, ''this'' is allowed as the parameter name for the receiver type only\n\
which has to be the first parameter, and cannot be a lambda parameter
/**
* compiler.err.this.as.identifier=\
* as of release 8, ''this'' is allowed as the parameter name for the receiver type only\n\
* which has to be the first parameter, and cannot be a lambda parameter
*/
public static final Error ThisAsIdentifier = new Error("compiler", "this.as.identifier");
compiler.err.throws.not.allowed.in.intf.annotation=\
throws clause not allowed in @interface members
/**
* compiler.err.throws.not.allowed.in.intf.annotation=\
* throws clause not allowed in @interface members
*/
public static final Error ThrowsNotAllowedInIntfAnnotation = new Error("compiler", "throws.not.allowed.in.intf.annotation");
compiler.err.too.many.modules=\
too many module declarations found
/**
* compiler.err.too.many.modules=\
* too many module declarations found
*/
public static final Error TooManyModules = new Error("compiler", "too.many.modules");
compiler.err.too.many.patched.modules=\
too many patched modules ({0}), use --module-source-path
/**
* compiler.err.too.many.patched.modules=\
* too many patched modules ({0}), use --module-source-path
*/
public static Error TooManyPatchedModules(Set<? extends String> arg0) {
return new Error("compiler", "too.many.patched.modules", arg0);
}
compiler.err.try.resource.may.not.be.assigned=\
auto-closeable resource {0} may not be assigned
/**
* compiler.err.try.resource.may.not.be.assigned=\
* auto-closeable resource {0} may not be assigned
*/
public static Error TryResourceMayNotBeAssigned(Symbol arg0) {
return new Error("compiler", "try.resource.may.not.be.assigned", arg0);
}
compiler.err.try.with.resources.expr.effectively.final.var=\
variable {0} used as a try-with-resources resource neither final nor effectively final
/**
* compiler.err.try.with.resources.expr.effectively.final.var=\
* variable {0} used as a try-with-resources resource neither final nor effectively final
*/
public static Error TryWithResourcesExprEffectivelyFinalVar(Symbol arg0) {
return new Error("compiler", "try.with.resources.expr.effectively.final.var", arg0);
}
compiler.err.try.with.resources.expr.needs.var=\
the try-with-resources resource must either be a variable declaration or an expression denoting \
a reference to a final or effectively final variable
/**
* compiler.err.try.with.resources.expr.needs.var=\
* the try-with-resources resource must either be a variable declaration or an expression denoting \
*a reference to a final or effectively final variable
*/
public static final Error TryWithResourcesExprNeedsVar = new Error("compiler", "try.with.resources.expr.needs.var");
compiler.err.try.without.catch.finally.or.resource.decls=\
''try'' without ''catch'', ''finally'' or resource declarations
/**
* compiler.err.try.without.catch.finally.or.resource.decls=\
* ''try'' without ''catch'', ''finally'' or resource declarations
*/
public static final Error TryWithoutCatchFinallyOrResourceDecls = new Error("compiler", "try.without.catch.finally.or.resource.decls");
compiler.err.two.class.loaders.1=\
javac is split between multiple class loaders: check your configuration
/**
* compiler.err.two.class.loaders.1=\
* javac is split between multiple class loaders: check your configuration
*/
public static final Error TwoClassLoaders1 = new Error("compiler", "two.class.loaders.1");
compiler.err.two.class.loaders.2=\
javac is split between multiple class loaders:\n\
one class comes from file: {0}\n\
while javac comes from {1}
/**
* compiler.err.two.class.loaders.2=\
* javac is split between multiple class loaders:\n\
* one class comes from file: {0}\n\
* while javac comes from {1}
*/
public static Error TwoClassLoaders2(URL arg0, URL arg1) {
return new Error("compiler", "two.class.loaders.2", arg0, arg1);
}
compiler.err.type.doesnt.take.params=\
type {0} does not take parameters
/**
* compiler.err.type.doesnt.take.params=\
* type {0} does not take parameters
*/
public static Error TypeDoesntTakeParams(Symbol arg0) {
return new Error("compiler", "type.doesnt.take.params", arg0);
}
compiler.err.type.found.req=\
unexpected type\n\
required: {1}\n\
found: {0}
/**
* compiler.err.type.found.req=\
* unexpected type\n\
* required: {1}\n\
* found: {0}
*/
public static Error TypeFoundReq(Object arg0, JCDiagnostic arg1) {
return new Error("compiler", "type.found.req", arg0, arg1);
}
compiler.err.type.found.req=\
unexpected type\n\
required: {1}\n\
found: {0}
/**
* compiler.err.type.found.req=\
* unexpected type\n\
* required: {1}\n\
* found: {0}
*/
public static Error TypeFoundReq(Object arg0, Fragment arg1) {
return new Error("compiler", "type.found.req", arg0, arg1);
}
compiler.err.type.var.cant.be.deref=\
cannot select from a type variable
/**
* compiler.err.type.var.cant.be.deref=\
* cannot select from a type variable
*/
public static final Error TypeVarCantBeDeref = new Error("compiler", "type.var.cant.be.deref");
compiler.err.type.var.may.not.be.followed.by.other.bounds=\
a type variable may not be followed by other bounds
/**
* compiler.err.type.var.may.not.be.followed.by.other.bounds=\
* a type variable may not be followed by other bounds
*/
public static final Error TypeVarMayNotBeFollowedByOtherBounds = new Error("compiler", "type.var.may.not.be.followed.by.other.bounds");
compiler.err.type.var.more.than.once=\
type variable {0} occurs more than once in result type of {1}; cannot be left uninstantiated
/**
* compiler.err.type.var.more.than.once=\
* type variable {0} occurs more than once in result type of {1}; cannot be left uninstantiated
*/
public static final Error TypeVarMoreThanOnce = new Error("compiler", "type.var.more.than.once");
compiler.err.type.var.more.than.once.in.result=\
type variable {0} occurs more than once in type of {1}; cannot be left uninstantiated
/**
* compiler.err.type.var.more.than.once.in.result=\
* type variable {0} occurs more than once in type of {1}; cannot be left uninstantiated
*/
public static final Error TypeVarMoreThanOnceInResult = new Error("compiler", "type.var.more.than.once.in.result");
compiler.err.types.incompatible=\
types {0} and {1} are incompatible;\n\
{2}
/**
* compiler.err.types.incompatible=\
* types {0} and {1} are incompatible;\n\
* {2}
*/
public static Error TypesIncompatible(Type arg0, Type arg1, Fragment arg2) {
return new Error("compiler", "types.incompatible", arg0, arg1, arg2);
}
compiler.err.unclosed.char.lit=\
unclosed character literal
/**
* compiler.err.unclosed.char.lit=\
* unclosed character literal
*/
public static final Error UnclosedCharLit = new Error("compiler", "unclosed.char.lit");
compiler.err.unclosed.comment=\
unclosed comment
/**
* compiler.err.unclosed.comment=\
* unclosed comment
*/
public static final Error UnclosedComment = new Error("compiler", "unclosed.comment");
compiler.err.unclosed.str.lit=\
unclosed string literal
/**
* compiler.err.unclosed.str.lit=\
* unclosed string literal
*/
public static final Error UnclosedStrLit = new Error("compiler", "unclosed.str.lit");
compiler.err.unclosed.text.block=\
unclosed text block
/**
* compiler.err.unclosed.text.block=\
* unclosed text block
*/
public static final Error UnclosedTextBlock = new Error("compiler", "unclosed.text.block");
compiler.err.undef.label=\
undefined label: {0}
/**
* compiler.err.undef.label=\
* undefined label: {0}
*/
public static Error UndefLabel(Name arg0) {
return new Error("compiler", "undef.label", arg0);
}
compiler.err.underscore.as.identifier=\
as of release 9, ''_'' is a keyword, and may not be used as an identifier
/**
* compiler.err.underscore.as.identifier=\
* as of release 9, ''_'' is a keyword, and may not be used as an identifier
*/
public static final Error UnderscoreAsIdentifier = new Error("compiler", "underscore.as.identifier");
compiler.err.underscore.as.identifier.in.lambda=\
''_'' used as an identifier\n\
(use of ''_'' as an identifier is forbidden for lambda parameters)
/**
* compiler.err.underscore.as.identifier.in.lambda=\
* ''_'' used as an identifier\n\
* (use of ''_'' as an identifier is forbidden for lambda parameters)
*/
public static final Error UnderscoreAsIdentifierInLambda = new Error("compiler", "underscore.as.identifier.in.lambda");
compiler.err.unexpected.lambda=\
lambda expression not expected here
/**
* compiler.err.unexpected.lambda=\
* lambda expression not expected here
*/
public static final Error UnexpectedLambda = new Error("compiler", "unexpected.lambda");
compiler.err.unexpected.mref=\
method reference not expected here
/**
* compiler.err.unexpected.mref=\
* method reference not expected here
*/
public static final Error UnexpectedMref = new Error("compiler", "unexpected.mref");
compiler.err.unexpected.type=\
unexpected type\n\
required: {0}\n\
found: {1}
/**
* compiler.err.unexpected.type=\
* unexpected type\n\
* required: {0}\n\
* found: {1}
*/
public static Error UnexpectedType(Set<? extends KindName> arg0, Set<? extends KindName> arg1) {
return new Error("compiler", "unexpected.type", arg0, arg1);
}
compiler.err.unmatched.quote=\
unmatched quote in environment variable {0}
/**
* compiler.err.unmatched.quote=\
* unmatched quote in environment variable {0}
*/
public static Error UnmatchedQuote(String arg0) {
return new Error("compiler", "unmatched.quote", arg0);
}
compiler.err.unnamed.pkg.not.allowed.named.modules=\
unnamed package is not allowed in named modules
/**
* compiler.err.unnamed.pkg.not.allowed.named.modules=\
* unnamed package is not allowed in named modules
*/
public static final Error UnnamedPkgNotAllowedNamedModules = new Error("compiler", "unnamed.pkg.not.allowed.named.modules");
compiler.err.unreachable.stmt=\
unreachable statement
/**
* compiler.err.unreachable.stmt=\
* unreachable statement
*/
public static final Error UnreachableStmt = new Error("compiler", "unreachable.stmt");
compiler.err.unreported.exception.default.constructor=\
unreported exception {0} in default constructor
/**
* compiler.err.unreported.exception.default.constructor=\
* unreported exception {0} in default constructor
*/
public static Error UnreportedExceptionDefaultConstructor(Type arg0) {
return new Error("compiler", "unreported.exception.default.constructor", arg0);
}
compiler.err.unreported.exception.implicit.close=\
unreported exception {0}; must be caught or declared to be thrown\n\
exception thrown from implicit call to close() on resource variable ''{1}''
/**
* compiler.err.unreported.exception.implicit.close=\
* unreported exception {0}; must be caught or declared to be thrown\n\
* exception thrown from implicit call to close() on resource variable ''{1}''
*/
public static Error UnreportedExceptionImplicitClose(Type arg0, Name arg1) {
return new Error("compiler", "unreported.exception.implicit.close", arg0, arg1);
}
compiler.err.unreported.exception.need.to.catch.or.throw=\
unreported exception {0}; must be caught or declared to be thrown
/**
* compiler.err.unreported.exception.need.to.catch.or.throw=\
* unreported exception {0}; must be caught or declared to be thrown
*/
public static Error UnreportedExceptionNeedToCatchOrThrow(Type arg0) {
return new Error("compiler", "unreported.exception.need.to.catch.or.throw", arg0);
}
compiler.err.unsupported.cross.fp.lit=\
hexadecimal floating-point literals are not supported on this VM
/**
* compiler.err.unsupported.cross.fp.lit=\
* hexadecimal floating-point literals are not supported on this VM
*/
public static final Error UnsupportedCrossFpLit = new Error("compiler", "unsupported.cross.fp.lit");
compiler.err.unsupported.encoding=\
unsupported encoding: {0}
/**
* compiler.err.unsupported.encoding=\
* unsupported encoding: {0}
*/
public static Error UnsupportedEncoding(String arg0) {
return new Error("compiler", "unsupported.encoding", arg0);
}
compiler.err.unsupported.release.version=\
release version {0} not supported
/**
* compiler.err.unsupported.release.version=\
* release version {0} not supported
*/
public static Error UnsupportedReleaseVersion(String arg0) {
return new Error("compiler", "unsupported.release.version", arg0);
}
compiler.err.var.might.already.be.assigned=\
variable {0} might already have been assigned
/**
* compiler.err.var.might.already.be.assigned=\
* variable {0} might already have been assigned
*/
public static Error VarMightAlreadyBeAssigned(Symbol arg0) {
return new Error("compiler", "var.might.already.be.assigned", arg0);
}
compiler.err.var.might.be.assigned.in.loop=\
variable {0} might be assigned in loop
/**
* compiler.err.var.might.be.assigned.in.loop=\
* variable {0} might be assigned in loop
*/
public static Error VarMightBeAssignedInLoop(Symbol arg0) {
return new Error("compiler", "var.might.be.assigned.in.loop", arg0);
}
compiler.err.var.might.not.have.been.initialized=\
variable {0} might not have been initialized
/**
* compiler.err.var.might.not.have.been.initialized=\
* variable {0} might not have been initialized
*/
public static Error VarMightNotHaveBeenInitialized(Symbol arg0) {
return new Error("compiler", "var.might.not.have.been.initialized", arg0);
}
compiler.err.var.not.initialized.in.default.constructor=\
variable {0} not initialized in the default constructor
/**
* compiler.err.var.not.initialized.in.default.constructor=\
* variable {0} not initialized in the default constructor
*/
public static Error VarNotInitializedInDefaultConstructor(Symbol arg0) {
return new Error("compiler", "var.not.initialized.in.default.constructor", arg0);
}
compiler.err.varargs.and.old.array.syntax=\
legacy array notation not allowed on variable-arity parameter
/**
* compiler.err.varargs.and.old.array.syntax=\
* legacy array notation not allowed on variable-arity parameter
*/
public static final Error VarargsAndOldArraySyntax = new Error("compiler", "varargs.and.old.array.syntax");
compiler.err.varargs.and.receiver =\
varargs notation not allowed on receiver parameter
/**
* compiler.err.varargs.and.receiver =\
* varargs notation not allowed on receiver parameter
*/
public static final Error VarargsAndReceiver = new Error("compiler", "varargs.and.receiver");
compiler.err.varargs.invalid.trustme.anno=\
Invalid {0} annotation. {1}
/**
* compiler.err.varargs.invalid.trustme.anno=\
* Invalid {0} annotation. {1}
*/
public static Error VarargsInvalidTrustmeAnno(Symbol arg0, JCDiagnostic arg1) {
return new Error("compiler", "varargs.invalid.trustme.anno", arg0, arg1);
}
compiler.err.varargs.invalid.trustme.anno=\
Invalid {0} annotation. {1}
/**
* compiler.err.varargs.invalid.trustme.anno=\
* Invalid {0} annotation. {1}
*/
public static Error VarargsInvalidTrustmeAnno(Symbol arg0, Fragment arg1) {
return new Error("compiler", "varargs.invalid.trustme.anno", arg0, arg1);
}
compiler.err.varargs.must.be.last =\
varargs parameter must be the last parameter
/**
* compiler.err.varargs.must.be.last =\
* varargs parameter must be the last parameter
*/
public static final Error VarargsMustBeLast = new Error("compiler", "varargs.must.be.last");
compiler.err.variable.not.allowed=\
variable declaration not allowed here
/**
* compiler.err.variable.not.allowed=\
* variable declaration not allowed here
*/
public static final Error VariableNotAllowed = new Error("compiler", "variable.not.allowed");
compiler.err.void.not.allowed.here=\
''void'' type not allowed here
/**
* compiler.err.void.not.allowed.here=\
* ''void'' type not allowed here
*/
public static final Error VoidNotAllowedHere = new Error("compiler", "void.not.allowed.here");
compiler.err.warnings.and.werror=\
warnings found and -Werror specified
/**
* compiler.err.warnings.and.werror=\
* warnings found and -Werror specified
*/
public static final Error WarningsAndWerror = new Error("compiler", "warnings.and.werror");
compiler.err.wrong.number.type.args=\
wrong number of type arguments; required {0}
/**
* compiler.err.wrong.number.type.args=\
* wrong number of type arguments; required {0}
*/
public static Error WrongNumberTypeArgs(String arg0) {
return new Error("compiler", "wrong.number.type.args", arg0);
}
compiler.err.wrong.receiver =\
wrong receiver parameter name
/**
* compiler.err.wrong.receiver =\
* wrong receiver parameter name
*/
public static final Error WrongReceiver = new Error("compiler", "wrong.receiver");
}
public static class Warnings {
compiler.warn.access.to.member.from.serializable.element=\
access to member {0} from serializable element can be publicly accessible to untrusted code
/**
* compiler.warn.access.to.member.from.serializable.element=\
* access to member {0} from serializable element can be publicly accessible to untrusted code
*/
public static Warning AccessToMemberFromSerializableElement(Symbol arg0) {
return new Warning("compiler", "access.to.member.from.serializable.element", arg0);
}
compiler.warn.access.to.member.from.serializable.lambda=\
access to member {0} from serializable lambda can be publicly accessible to untrusted code
/**
* compiler.warn.access.to.member.from.serializable.lambda=\
* access to member {0} from serializable lambda can be publicly accessible to untrusted code
*/
public static Warning AccessToMemberFromSerializableLambda(Symbol arg0) {
return new Warning("compiler", "access.to.member.from.serializable.lambda", arg0);
}
compiler.warn.addopens.ignored=\
--add-opens has no effect at compile time
/**
* compiler.warn.addopens.ignored=\
* --add-opens has no effect at compile time
*/
public static final Warning AddopensIgnored = new Warning("compiler", "addopens.ignored");
compiler.warn.annotation.method.not.found=\
Cannot find annotation method ''{1}()'' in type ''{0}''
/**
* compiler.warn.annotation.method.not.found=\
* Cannot find annotation method ''{1}()'' in type ''{0}''
*/
public static Warning AnnotationMethodNotFound(Type arg0, Name arg1) {
return new Warning("compiler", "annotation.method.not.found", arg0, arg1);
}
compiler.warn.annotation.method.not.found.reason=\
Cannot find annotation method ''{1}()'' in type ''{0}'': {2}
/**
* compiler.warn.annotation.method.not.found.reason=\
* Cannot find annotation method ''{1}()'' in type ''{0}'': {2}
*/
public static Warning AnnotationMethodNotFoundReason(Type arg0, Name arg1, JCDiagnostic arg2) {
return new Warning("compiler", "annotation.method.not.found.reason", arg0, arg1, arg2);
}
compiler.warn.annotation.method.not.found.reason=\
Cannot find annotation method ''{1}()'' in type ''{0}'': {2}
/**
* compiler.warn.annotation.method.not.found.reason=\
* Cannot find annotation method ''{1}()'' in type ''{0}'': {2}
*/
public static Warning AnnotationMethodNotFoundReason(Type arg0, Name arg1, Fragment arg2) {
return new Warning("compiler", "annotation.method.not.found.reason", arg0, arg1, arg2);
}
compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
auxiliary class {0} in {1} should not be accessed from outside its own source file
/**
* compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
* auxiliary class {0} in {1} should not be accessed from outside its own source file
*/
public static Warning AuxiliaryClassAccessedFromOutsideOfItsSourceFile(Symbol arg0, File arg1) {
return new Warning("compiler", "auxiliary.class.accessed.from.outside.of.its.source.file", arg0, arg1);
}
compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
auxiliary class {0} in {1} should not be accessed from outside its own source file
/**
* compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
* auxiliary class {0} in {1} should not be accessed from outside its own source file
*/
public static Warning AuxiliaryClassAccessedFromOutsideOfItsSourceFile(Symbol arg0, JavaFileObject arg1) {
return new Warning("compiler", "auxiliary.class.accessed.from.outside.of.its.source.file", arg0, arg1);
}
compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
auxiliary class {0} in {1} should not be accessed from outside its own source file
/**
* compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
* auxiliary class {0} in {1} should not be accessed from outside its own source file
*/
public static Warning AuxiliaryClassAccessedFromOutsideOfItsSourceFile(Symbol arg0, Path arg1) {
return new Warning("compiler", "auxiliary.class.accessed.from.outside.of.its.source.file", arg0, arg1);
}
compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
auxiliary class {0} in {1} should not be accessed from outside its own source file
/**
* compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
* auxiliary class {0} in {1} should not be accessed from outside its own source file
*/
public static Warning AuxiliaryClassAccessedFromOutsideOfItsSourceFile(Type arg0, File arg1) {
return new Warning("compiler", "auxiliary.class.accessed.from.outside.of.its.source.file", arg0, arg1);
}
compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
auxiliary class {0} in {1} should not be accessed from outside its own source file
/**
* compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
* auxiliary class {0} in {1} should not be accessed from outside its own source file
*/
public static Warning AuxiliaryClassAccessedFromOutsideOfItsSourceFile(Type arg0, JavaFileObject arg1) {
return new Warning("compiler", "auxiliary.class.accessed.from.outside.of.its.source.file", arg0, arg1);
}
compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
auxiliary class {0} in {1} should not be accessed from outside its own source file
/**
* compiler.warn.auxiliary.class.accessed.from.outside.of.its.source.file=\
* auxiliary class {0} in {1} should not be accessed from outside its own source file
*/
public static Warning AuxiliaryClassAccessedFromOutsideOfItsSourceFile(Type arg0, Path arg1) {
return new Warning("compiler", "auxiliary.class.accessed.from.outside.of.its.source.file", arg0, arg1);
}
compiler.warn.bad.name.for.option=\
bad name in value for {0} option: ''{1}''
/**
* compiler.warn.bad.name.for.option=\
* bad name in value for {0} option: ''{1}''
*/
public static Warning BadNameForOption(Option arg0, String arg1) {
return new Warning("compiler", "bad.name.for.option", arg0, arg1);
}
compiler.warn.big.major.version=\
{0}: major version {1} is newer than {2}, the highest major version supported by this compiler.\n\
It is recommended that the compiler be upgraded.
/**
* compiler.warn.big.major.version=\
* {0}: major version {1} is newer than {2}, the highest major version supported by this compiler.\n\
* It is recommended that the compiler be upgraded.
*/
public static Warning BigMajorVersion(File arg0, int arg1, int arg2) {
return new Warning("compiler", "big.major.version", arg0, arg1, arg2);
}
compiler.warn.big.major.version=\
{0}: major version {1} is newer than {2}, the highest major version supported by this compiler.\n\
It is recommended that the compiler be upgraded.
/**
* compiler.warn.big.major.version=\
* {0}: major version {1} is newer than {2}, the highest major version supported by this compiler.\n\
* It is recommended that the compiler be upgraded.
*/
public static Warning BigMajorVersion(JavaFileObject arg0, int arg1, int arg2) {
return new Warning("compiler", "big.major.version", arg0, arg1, arg2);
}
compiler.warn.big.major.version=\
{0}: major version {1} is newer than {2}, the highest major version supported by this compiler.\n\
It is recommended that the compiler be upgraded.
/**
* compiler.warn.big.major.version=\
* {0}: major version {1} is newer than {2}, the highest major version supported by this compiler.\n\
* It is recommended that the compiler be upgraded.
*/
public static Warning BigMajorVersion(Path arg0, int arg1, int arg2) {
return new Warning("compiler", "big.major.version", arg0, arg1, arg2);
}
compiler.warn.constant.SVUID=\
serialVersionUID must be constant in class {0}
/**
* compiler.warn.constant.SVUID=\
* serialVersionUID must be constant in class {0}
*/
public static Warning ConstantSVUID(Symbol arg0) {
return new Warning("compiler", "constant.SVUID", arg0);
}
compiler.warn.deprecated.annotation.has.no.effect=\
@Deprecated annotation has no effect on this {0} declaration
/**
* compiler.warn.deprecated.annotation.has.no.effect=\
* @Deprecated annotation has no effect on this {0} declaration
*/
public static Warning DeprecatedAnnotationHasNoEffect(KindName arg0) {
return new Warning("compiler", "deprecated.annotation.has.no.effect", arg0);
}
compiler.warn.diamond.redundant.args=\
Redundant type arguments in new expression (use diamond operator instead).
/**
* compiler.warn.diamond.redundant.args=\
* Redundant type arguments in new expression (use diamond operator instead).
*/
public static final Warning DiamondRedundantArgs = new Warning("compiler", "diamond.redundant.args");
compiler.warn.dir.path.element.not.directory=\
bad path element "{0}": not a directory
/**
* compiler.warn.dir.path.element.not.directory=\
* bad path element "{0}": not a directory
*/
public static Warning DirPathElementNotDirectory(File arg0) {
return new Warning("compiler", "dir.path.element.not.directory", arg0);
}
compiler.warn.dir.path.element.not.directory=\
bad path element "{0}": not a directory
/**
* compiler.warn.dir.path.element.not.directory=\
* bad path element "{0}": not a directory
*/
public static Warning DirPathElementNotDirectory(JavaFileObject arg0) {
return new Warning("compiler", "dir.path.element.not.directory", arg0);
}
compiler.warn.dir.path.element.not.directory=\
bad path element "{0}": not a directory
/**
* compiler.warn.dir.path.element.not.directory=\
* bad path element "{0}": not a directory
*/
public static Warning DirPathElementNotDirectory(Path arg0) {
return new Warning("compiler", "dir.path.element.not.directory", arg0);
}
compiler.warn.dir.path.element.not.found=\
bad path element "{0}": no such directory
/**
* compiler.warn.dir.path.element.not.found=\
* bad path element "{0}": no such directory
*/
public static Warning DirPathElementNotFound(Path arg0) {
return new Warning("compiler", "dir.path.element.not.found", arg0);
}
compiler.warn.div.zero=\
division by zero
/**
* compiler.warn.div.zero=\
* division by zero
*/
public static final Warning DivZero = new Warning("compiler", "div.zero");
compiler.warn.empty.if=\
empty statement after if
/**
* compiler.warn.empty.if=\
* empty statement after if
*/
public static final Warning EmptyIf = new Warning("compiler", "empty.if");
compiler.warn.file.from.future=\
Modification date is in the future for file {0}
/**
* compiler.warn.file.from.future=\
* Modification date is in the future for file {0}
*/
public static Warning FileFromFuture(File arg0) {
return new Warning("compiler", "file.from.future", arg0);
}
compiler.warn.file.from.future=\
Modification date is in the future for file {0}
/**
* compiler.warn.file.from.future=\
* Modification date is in the future for file {0}
*/
public static Warning FileFromFuture(JavaFileObject arg0) {
return new Warning("compiler", "file.from.future", arg0);
}
compiler.warn.file.from.future=\
Modification date is in the future for file {0}
/**
* compiler.warn.file.from.future=\
* Modification date is in the future for file {0}
*/
public static Warning FileFromFuture(Path arg0) {
return new Warning("compiler", "file.from.future", arg0);
}
compiler.warn.finally.cannot.complete=\
finally clause cannot complete normally
/**
* compiler.warn.finally.cannot.complete=\
* finally clause cannot complete normally
*/
public static final Warning FinallyCannotComplete = new Warning("compiler", "finally.cannot.complete");
compiler.warn.forward.ref=\
reference to variable ''{0}'' before it has been initialized
/**
* compiler.warn.forward.ref=\
* reference to variable ''{0}'' before it has been initialized
*/
public static Warning ForwardRef(Symbol arg0) {
return new Warning("compiler", "forward.ref", arg0);
}
compiler.warn.future.attr=\
{0} attribute introduced in version {1}.{2} class files is ignored in version {3}.{4} class files
/**
* compiler.warn.future.attr=\
* {0} attribute introduced in version {1}.{2} class files is ignored in version {3}.{4} class files
*/
public static Warning FutureAttr(Name arg0, int arg1, int arg2, int arg3, int arg4) {
return new Warning("compiler", "future.attr", arg0, arg1, arg2, arg3, arg4);
}
compiler.warn.has.been.deprecated=\
{0} in {1} has been deprecated
/**
* compiler.warn.has.been.deprecated=\
* {0} in {1} has been deprecated
*/
public static Warning HasBeenDeprecated(Symbol arg0, Symbol arg1) {
return new Warning("compiler", "has.been.deprecated", arg0, arg1);
}
compiler.warn.has.been.deprecated.for.removal=\
{0} in {1} has been deprecated and marked for removal
/**
* compiler.warn.has.been.deprecated.for.removal=\
* {0} in {1} has been deprecated and marked for removal
*/
public static Warning HasBeenDeprecatedForRemoval(Symbol arg0, Symbol arg1) {
return new Warning("compiler", "has.been.deprecated.for.removal", arg0, arg1);
}
compiler.warn.has.been.deprecated.for.removal.module=\
module {0} has been deprecated and marked for removal
/**
* compiler.warn.has.been.deprecated.for.removal.module=\
* module {0} has been deprecated and marked for removal
*/
public static Warning HasBeenDeprecatedForRemovalModule(Symbol arg0) {
return new Warning("compiler", "has.been.deprecated.for.removal.module", arg0);
}
compiler.warn.has.been.deprecated.module=\
module {0} has been deprecated
/**
* compiler.warn.has.been.deprecated.module=\
* module {0} has been deprecated
*/
public static Warning HasBeenDeprecatedModule(Symbol arg0) {
return new Warning("compiler", "has.been.deprecated.module", arg0);
}
compiler.warn.illegal.char.for.encoding=\
unmappable character for encoding {0}
/**
* compiler.warn.illegal.char.for.encoding=\
* unmappable character for encoding {0}
*/
public static final Warning IllegalCharForEncoding = new Warning("compiler", "illegal.char.for.encoding");
compiler.warn.illegal.ref.to.restricted.type=\
illegal reference to restricted type ''{0}''
/**
* compiler.warn.illegal.ref.to.restricted.type=\
* illegal reference to restricted type ''{0}''
*/
public static Warning IllegalRefToRestrictedType(Name arg0) {
return new Warning("compiler", "illegal.ref.to.restricted.type", arg0);
}
compiler.warn.improper.SVUID=\
serialVersionUID must be declared static final in class {0}
/**
* compiler.warn.improper.SVUID=\
* serialVersionUID must be declared static final in class {0}
*/
public static Warning ImproperSVUID(Symbol arg0) {
return new Warning("compiler", "improper.SVUID", arg0);
}
compiler.warn.inconsistent.white.space.indentation=\
inconsistent white space indentation
/**
* compiler.warn.inconsistent.white.space.indentation=\
* inconsistent white space indentation
*/
public static final Warning InconsistentWhiteSpaceIndentation = new Warning("compiler", "inconsistent.white.space.indentation");
compiler.warn.incubating.modules=\
using incubating module(s): {0}
/**
* compiler.warn.incubating.modules=\
* using incubating module(s): {0}
*/
public static Warning IncubatingModules(String arg0) {
return new Warning("compiler", "incubating.modules", arg0);
}
compiler.warn.inexact.non-varargs.call=\
non-varargs call of varargs method with inexact argument type for last parameter;\n\
cast to {0} for a varargs call\n\
cast to {1} for a non-varargs call and to suppress this warning
/**
* compiler.warn.inexact.non-varargs.call=\
* non-varargs call of varargs method with inexact argument type for last parameter;\n\
* cast to {0} for a varargs call\n\
* cast to {1} for a non-varargs call and to suppress this warning
*/
public static Warning InexactNonVarargsCall(Type arg0, Type arg1) {
return new Warning("compiler", "inexact.non-varargs.call", arg0, arg1);
}
compiler.warn.invalid.archive.file=\
Unexpected file on path: {0}
/**
* compiler.warn.invalid.archive.file=\
* Unexpected file on path: {0}
*/
public static Warning InvalidArchiveFile(Path arg0) {
return new Warning("compiler", "invalid.archive.file", arg0);
}
compiler.warn.invalid.path=\
Invalid filename: {0}
/**
* compiler.warn.invalid.path=\
* Invalid filename: {0}
*/
public static Warning InvalidPath(String arg0) {
return new Warning("compiler", "invalid.path", arg0);
}
compiler.warn.invalid.yield=\
''yield'' may become a restricted identifier in a future release\n\
(to invoke a method called yield, qualify the yield with a receiver or type name)
/**
* compiler.warn.invalid.yield=\
* ''yield'' may become a restricted identifier in a future release\n\
* (to invoke a method called yield, qualify the yield with a receiver or type name)
*/
public static final Warning InvalidYield = new Warning("compiler", "invalid.yield");
compiler.warn.leaks.not.accessible=\
{0} {1} in module {2} is not accessible to clients that require this module
/**
* compiler.warn.leaks.not.accessible=\
* {0} {1} in module {2} is not accessible to clients that require this module
*/
public static Warning LeaksNotAccessible(KindName arg0, Symbol arg1, Symbol arg2) {
return new Warning("compiler", "leaks.not.accessible", arg0, arg1, arg2);
}
compiler.warn.leaks.not.accessible.not.required.transitive=\
{0} {1} in module {2} is not indirectly exported using 'requires transitive'
/**
* compiler.warn.leaks.not.accessible.not.required.transitive=\
* {0} {1} in module {2} is not indirectly exported using 'requires transitive'
*/
public static Warning LeaksNotAccessibleNotRequiredTransitive(KindName arg0, Symbol arg1, Symbol arg2) {
return new Warning("compiler", "leaks.not.accessible.not.required.transitive", arg0, arg1, arg2);
}
compiler.warn.leaks.not.accessible.unexported=\
{0} {1} in module {2} is not exported
/**
* compiler.warn.leaks.not.accessible.unexported=\
* {0} {1} in module {2} is not exported
*/
public static Warning LeaksNotAccessibleUnexported(KindName arg0, Symbol arg1, Symbol arg2) {
return new Warning("compiler", "leaks.not.accessible.unexported", arg0, arg1, arg2);
}
compiler.warn.leaks.not.accessible.unexported.qualified=\
{0} {1} in module {2} may not be visible to all clients that require this module
/**
* compiler.warn.leaks.not.accessible.unexported.qualified=\
* {0} {1} in module {2} may not be visible to all clients that require this module
*/
public static Warning LeaksNotAccessibleUnexportedQualified(KindName arg0, Symbol arg1, Symbol arg2) {
return new Warning("compiler", "leaks.not.accessible.unexported.qualified", arg0, arg1, arg2);
}
compiler.warn.lintOption=\
[{0}]\u0020
/**
* compiler.warn.lintOption=\
* [{0}]\u0020
*/
public static Warning LintOption(Option arg0) {
return new Warning("compiler", "lintOption", arg0);
}
compiler.warn.local.redundant.type=\
Redundant type for local variable (replace explicit type with ''var'').
/**
* compiler.warn.local.redundant.type=\
* Redundant type for local variable (replace explicit type with ''var'').
*/
public static final Warning LocalRedundantType = new Warning("compiler", "local.redundant.type");
compiler.warn.locn.unknown.file.on.module.path=\
unknown file on module path: {0}
/**
* compiler.warn.locn.unknown.file.on.module.path=\
* unknown file on module path: {0}
*/
public static Warning LocnUnknownFileOnModulePath(Path arg0) {
return new Warning("compiler", "locn.unknown.file.on.module.path", arg0);
}
compiler.warn.long.SVUID=\
serialVersionUID must be of type long in class {0}
/**
* compiler.warn.long.SVUID=\
* serialVersionUID must be of type long in class {0}
*/
public static Warning LongSVUID(Symbol arg0) {
return new Warning("compiler", "long.SVUID", arg0);
}
compiler.warn.method.redundant.typeargs=\
Redundant type arguments in method call.
/**
* compiler.warn.method.redundant.typeargs=\
* Redundant type arguments in method call.
*/
public static final Warning MethodRedundantTypeargs = new Warning("compiler", "method.redundant.typeargs");
compiler.warn.missing.SVUID=\
serializable class {0} has no definition of serialVersionUID
/**
* compiler.warn.missing.SVUID=\
* serializable class {0} has no definition of serialVersionUID
*/
public static Warning MissingSVUID(Symbol arg0) {
return new Warning("compiler", "missing.SVUID", arg0);
}
compiler.warn.missing.deprecated.annotation=\
deprecated item is not annotated with @Deprecated
/**
* compiler.warn.missing.deprecated.annotation=\
* deprecated item is not annotated with @Deprecated
*/
public static final Warning MissingDeprecatedAnnotation = new Warning("compiler", "missing.deprecated.annotation");
compiler.warn.module.for.option.not.found=\
module name in {0} option not found: {1}
/**
* compiler.warn.module.for.option.not.found=\
* module name in {0} option not found: {1}
*/
public static Warning ModuleForOptionNotFound(Option arg0, Symbol arg1) {
return new Warning("compiler", "module.for.option.not.found", arg0, arg1);
}
compiler.warn.module.not.found=\
module not found: {0}
/**
* compiler.warn.module.not.found=\
* module not found: {0}
*/
public static Warning ModuleNotFound(Symbol arg0) {
return new Warning("compiler", "module.not.found", arg0);
}
compiler.warn.option.obsolete.source=\
source value {0} is obsolete and will be removed in a future release
/**
* compiler.warn.option.obsolete.source=\
* source value {0} is obsolete and will be removed in a future release
*/
public static Warning OptionObsoleteSource(String arg0) {
return new Warning("compiler", "option.obsolete.source", arg0);
}
compiler.warn.option.obsolete.suppression=\
To suppress warnings about obsolete options, use -Xlint:-options.
/**
* compiler.warn.option.obsolete.suppression=\
* To suppress warnings about obsolete options, use -Xlint:-options.
*/
public static final Warning OptionObsoleteSuppression = new Warning("compiler", "option.obsolete.suppression");
compiler.warn.option.obsolete.target=\
target value {0} is obsolete and will be removed in a future release
/**
* compiler.warn.option.obsolete.target=\
* target value {0} is obsolete and will be removed in a future release
*/
public static Warning OptionObsoleteTarget(Target arg0) {
return new Warning("compiler", "option.obsolete.target", arg0);
}
compiler.warn.option.parameters.unsupported=\
-parameters is not supported for target value {0}. Use {1} or later.
/**
* compiler.warn.option.parameters.unsupported=\
* -parameters is not supported for target value {0}. Use {1} or later.
*/
public static Warning OptionParametersUnsupported(Target arg0, Target arg1) {
return new Warning("compiler", "option.parameters.unsupported", arg0, arg1);
}
compiler.warn.outdir.is.in.exploded.module=\
the output directory is within an exploded module: {0}
/**
* compiler.warn.outdir.is.in.exploded.module=\
* the output directory is within an exploded module: {0}
*/
public static Warning OutdirIsInExplodedModule(Path arg0) {
return new Warning("compiler", "outdir.is.in.exploded.module", arg0);
}
compiler.warn.override.bridge=\
{0}; overridden method is a bridge method
/**
* compiler.warn.override.bridge=\
* {0}; overridden method is a bridge method
*/
public static Warning OverrideBridge(JCDiagnostic arg0) {
return new Warning("compiler", "override.bridge", arg0);
}
compiler.warn.override.bridge=\
{0}; overridden method is a bridge method
/**
* compiler.warn.override.bridge=\
* {0}; overridden method is a bridge method
*/
public static Warning OverrideBridge(Fragment arg0) {
return new Warning("compiler", "override.bridge", arg0);
}
compiler.warn.override.equals.but.not.hashcode=\
Class {0} overrides equals, but neither it nor any superclass overrides hashCode method
/**
* compiler.warn.override.equals.but.not.hashcode=\
* Class {0} overrides equals, but neither it nor any superclass overrides hashCode method
*/
public static Warning OverrideEqualsButNotHashcode(Symbol arg0) {
return new Warning("compiler", "override.equals.but.not.hashcode", arg0);
}
compiler.warn.override.unchecked.ret=\
{0}\n\
return type requires unchecked conversion from {1} to {2}
/**
* compiler.warn.override.unchecked.ret=\
* {0}\n\
* return type requires unchecked conversion from {1} to {2}
*/
public static Warning OverrideUncheckedRet(JCDiagnostic arg0, Type arg1, Type arg2) {
return new Warning("compiler", "override.unchecked.ret", arg0, arg1, arg2);
}
compiler.warn.override.unchecked.ret=\
{0}\n\
return type requires unchecked conversion from {1} to {2}
/**
* compiler.warn.override.unchecked.ret=\
* {0}\n\
* return type requires unchecked conversion from {1} to {2}
*/
public static Warning OverrideUncheckedRet(Fragment arg0, Type arg1, Type arg2) {
return new Warning("compiler", "override.unchecked.ret", arg0, arg1, arg2);
}
compiler.warn.override.unchecked.thrown=\
{0}\n\
overridden method does not throw {1}
/**
* compiler.warn.override.unchecked.thrown=\
* {0}\n\
* overridden method does not throw {1}
*/
public static Warning OverrideUncheckedThrown(JCDiagnostic arg0, Type arg1) {
return new Warning("compiler", "override.unchecked.thrown", arg0, arg1);
}
compiler.warn.override.unchecked.thrown=\
{0}\n\
overridden method does not throw {1}
/**
* compiler.warn.override.unchecked.thrown=\
* {0}\n\
* overridden method does not throw {1}
*/
public static Warning OverrideUncheckedThrown(Fragment arg0, Type arg1) {
return new Warning("compiler", "override.unchecked.thrown", arg0, arg1);
}
compiler.warn.override.varargs.extra=\
{0}; overriding method is missing ''...''
/**
* compiler.warn.override.varargs.extra=\
* {0}; overriding method is missing ''...''
*/
public static Warning OverrideVarargsExtra(JCDiagnostic arg0) {
return new Warning("compiler", "override.varargs.extra", arg0);
}
compiler.warn.override.varargs.extra=\
{0}; overriding method is missing ''...''
/**
* compiler.warn.override.varargs.extra=\
* {0}; overriding method is missing ''...''
*/
public static Warning OverrideVarargsExtra(Fragment arg0) {
return new Warning("compiler", "override.varargs.extra", arg0);
}
compiler.warn.override.varargs.missing=\
{0}; overridden method has no ''...''
/**
* compiler.warn.override.varargs.missing=\
* {0}; overridden method has no ''...''
*/
public static Warning OverrideVarargsMissing(JCDiagnostic arg0) {
return new Warning("compiler", "override.varargs.missing", arg0);
}
compiler.warn.override.varargs.missing=\
{0}; overridden method has no ''...''
/**
* compiler.warn.override.varargs.missing=\
* {0}; overridden method has no ''...''
*/
public static Warning OverrideVarargsMissing(Fragment arg0) {
return new Warning("compiler", "override.varargs.missing", arg0);
}
compiler.warn.package.empty.or.not.found=\
package is empty or does not exist: {0}
/**
* compiler.warn.package.empty.or.not.found=\
* package is empty or does not exist: {0}
*/
public static Warning PackageEmptyOrNotFound(Symbol arg0) {
return new Warning("compiler", "package.empty.or.not.found", arg0);
}
compiler.warn.path.element.not.found=\
bad path element "{0}": no such file or directory
/**
* compiler.warn.path.element.not.found=\
* bad path element "{0}": no such file or directory
*/
public static Warning PathElementNotFound(Path arg0) {
return new Warning("compiler", "path.element.not.found", arg0);
}
compiler.warn.pkg-info.already.seen=\
a package-info.java file has already been seen for package {0}
/**
* compiler.warn.pkg-info.already.seen=\
* a package-info.java file has already been seen for package {0}
*/
public static Warning PkgInfoAlreadySeen(Symbol arg0) {
return new Warning("compiler", "pkg-info.already.seen", arg0);
}
compiler.warn.poor.choice.for.module.name=\
module name component {0} should avoid terminal digits
/**
* compiler.warn.poor.choice.for.module.name=\
* module name component {0} should avoid terminal digits
*/
public static Warning PoorChoiceForModuleName(Name arg0) {
return new Warning("compiler", "poor.choice.for.module.name", arg0);
}
compiler.warn.position.overflow=\
Position encoding overflows at line {0}
/**
* compiler.warn.position.overflow=\
* Position encoding overflows at line {0}
*/
public static Warning PositionOverflow(int arg0) {
return new Warning("compiler", "position.overflow", arg0);
}
compiler.warn.possible.fall-through.into.case=\
possible fall-through into case
/**
* compiler.warn.possible.fall-through.into.case=\
* possible fall-through into case
*/
public static final Warning PossibleFallThroughIntoCase = new Warning("compiler", "possible.fall-through.into.case");
compiler.warn.potential.lambda.found=\
This anonymous inner class creation can be turned into a lambda expression.
/**
* compiler.warn.potential.lambda.found=\
* This anonymous inner class creation can be turned into a lambda expression.
*/
public static final Warning PotentialLambdaFound = new Warning("compiler", "potential.lambda.found");
compiler.warn.potentially.ambiguous.overload=\
{0} in {1} is potentially ambiguous with {2} in {3}
/**
* compiler.warn.potentially.ambiguous.overload=\
* {0} in {1} is potentially ambiguous with {2} in {3}
*/
public static Warning PotentiallyAmbiguousOverload(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Warning("compiler", "potentially.ambiguous.overload", arg0, arg1, arg2, arg3);
}
compiler.warn.preview.feature.use=\
{0} is a preview feature and may be removed in a future release.
/**
* compiler.warn.preview.feature.use=\
* {0} is a preview feature and may be removed in a future release.
*/
public static Warning PreviewFeatureUse(JCDiagnostic arg0) {
return new Warning("compiler", "preview.feature.use", arg0);
}
compiler.warn.preview.feature.use=\
{0} is a preview feature and may be removed in a future release.
/**
* compiler.warn.preview.feature.use=\
* {0} is a preview feature and may be removed in a future release.
*/
public static Warning PreviewFeatureUse(Fragment arg0) {
return new Warning("compiler", "preview.feature.use", arg0);
}
compiler.warn.preview.feature.use.classfile=\
classfile for {0} uses preview features of Java SE {1}.
/**
* compiler.warn.preview.feature.use.classfile=\
* classfile for {0} uses preview features of Java SE {1}.
*/
public static Warning PreviewFeatureUseClassfile(JavaFileObject arg0, String arg1) {
return new Warning("compiler", "preview.feature.use.classfile", arg0, arg1);
}
compiler.warn.preview.feature.use.plural=\
{0} are a preview feature and may be removed in a future release.
/**
* compiler.warn.preview.feature.use.plural=\
* {0} are a preview feature and may be removed in a future release.
*/
public static Warning PreviewFeatureUsePlural(JCDiagnostic arg0) {
return new Warning("compiler", "preview.feature.use.plural", arg0);
}
compiler.warn.preview.feature.use.plural=\
{0} are a preview feature and may be removed in a future release.
/**
* compiler.warn.preview.feature.use.plural=\
* {0} are a preview feature and may be removed in a future release.
*/
public static Warning PreviewFeatureUsePlural(Fragment arg0) {
return new Warning("compiler", "preview.feature.use.plural", arg0);
}
compiler.warn.prob.found.req=\
{0}\n\
required: {2}\n\
found: {1}
/**
* compiler.warn.prob.found.req=\
* {0}\n\
* required: {2}\n\
* found: {1}
*/
public static Warning ProbFoundReq(JCDiagnostic arg0, Type arg1, Type arg2) {
return new Warning("compiler", "prob.found.req", arg0, arg1, arg2);
}
compiler.warn.prob.found.req=\
{0}\n\
required: {2}\n\
found: {1}
/**
* compiler.warn.prob.found.req=\
* {0}\n\
* required: {2}\n\
* found: {1}
*/
public static Warning ProbFoundReq(Fragment arg0, Type arg1, Type arg2) {
return new Warning("compiler", "prob.found.req", arg0, arg1, arg2);
}
compiler.warn.proc.annotations.without.processors=\
No processor claimed any of these annotations: {0}
/**
* compiler.warn.proc.annotations.without.processors=\
* No processor claimed any of these annotations: {0}
*/
public static Warning ProcAnnotationsWithoutProcessors(Set<? extends String> arg0) {
return new Warning("compiler", "proc.annotations.without.processors", arg0);
}
compiler.warn.proc.duplicate.option.name=\
Duplicate supported option ''{0}'' returned by annotation processor ''{1}''
/**
* compiler.warn.proc.duplicate.option.name=\
* Duplicate supported option ''{0}'' returned by annotation processor ''{1}''
*/
public static Warning ProcDuplicateOptionName(String arg0, String arg1) {
return new Warning("compiler", "proc.duplicate.option.name", arg0, arg1);
}
compiler.warn.proc.duplicate.supported.annotation=\
Duplicate supported annotation type ''{0}'' returned by annotation processor ''{1}''
/**
* compiler.warn.proc.duplicate.supported.annotation=\
* Duplicate supported annotation type ''{0}'' returned by annotation processor ''{1}''
*/
public static Warning ProcDuplicateSupportedAnnotation(String arg0, String arg1) {
return new Warning("compiler", "proc.duplicate.supported.annotation", arg0, arg1);
}
compiler.warn.proc.file.create.last.round=\
File for type ''{0}'' created in the last round will not be subject to annotation processing.
/**
* compiler.warn.proc.file.create.last.round=\
* File for type ''{0}'' created in the last round will not be subject to annotation processing.
*/
public static Warning ProcFileCreateLastRound(String arg0) {
return new Warning("compiler", "proc.file.create.last.round", arg0);
}
compiler.warn.proc.file.reopening=\
Attempt to create a file for ''{0}'' multiple times
/**
* compiler.warn.proc.file.reopening=\
* Attempt to create a file for ''{0}'' multiple times
*/
public static Warning ProcFileReopening(String arg0) {
return new Warning("compiler", "proc.file.reopening", arg0);
}
compiler.warn.proc.illegal.file.name=\
Cannot create file for illegal name ''{0}''.
/**
* compiler.warn.proc.illegal.file.name=\
* Cannot create file for illegal name ''{0}''.
*/
public static Warning ProcIllegalFileName(String arg0) {
return new Warning("compiler", "proc.illegal.file.name", arg0);
}
compiler.warn.proc.malformed.supported.string=\
Malformed string ''{0}'' for a supported annotation type returned by processor ''{1}''
/**
* compiler.warn.proc.malformed.supported.string=\
* Malformed string ''{0}'' for a supported annotation type returned by processor ''{1}''
*/
public static Warning ProcMalformedSupportedString(String arg0, String arg1) {
return new Warning("compiler", "proc.malformed.supported.string", arg0, arg1);
}
compiler.warn.proc.messager=\
{0}
/**
* compiler.warn.proc.messager=\
* {0}
*/
public static Warning ProcMessager(String arg0) {
return new Warning("compiler", "proc.messager", arg0);
}
compiler.warn.proc.package.does.not.exist=\
package {0} does not exist
/**
* compiler.warn.proc.package.does.not.exist=\
* package {0} does not exist
*/
public static Warning ProcPackageDoesNotExist(String arg0) {
return new Warning("compiler", "proc.package.does.not.exist", arg0);
}
compiler.warn.proc.proc-only.requested.no.procs=\
Annotation processing without compilation requested but no processors were found.
/**
* compiler.warn.proc.proc-only.requested.no.procs=\
* Annotation processing without compilation requested but no processors were found.
*/
public static final Warning ProcProcOnlyRequestedNoProcs = new Warning("compiler", "proc.proc-only.requested.no.procs");
compiler.warn.proc.processor.incompatible.source.version=\
Supported source version ''{0}'' from annotation processor ''{1}'' less than -source ''{2}''
/**
* compiler.warn.proc.processor.incompatible.source.version=\
* Supported source version ''{0}'' from annotation processor ''{1}'' less than -source ''{2}''
*/
public static Warning ProcProcessorIncompatibleSourceVersion(SourceVersion arg0, String arg1, String arg2) {
return new Warning("compiler", "proc.processor.incompatible.source.version", arg0, arg1, arg2);
}
compiler.warn.proc.redundant.types.with.wildcard=\
Annotation processor ''{0}'' redundantly supports both ''*'' and other annotation types
/**
* compiler.warn.proc.redundant.types.with.wildcard=\
* Annotation processor ''{0}'' redundantly supports both ''*'' and other annotation types
*/
public static Warning ProcRedundantTypesWithWildcard(String arg0) {
return new Warning("compiler", "proc.redundant.types.with.wildcard", arg0);
}
compiler.warn.proc.suspicious.class.name=\
Creating file for a type whose name ends in {1}: ''{0}''
/**
* compiler.warn.proc.suspicious.class.name=\
* Creating file for a type whose name ends in {1}: ''{0}''
*/
public static Warning ProcSuspiciousClassName(String arg0, String arg1) {
return new Warning("compiler", "proc.suspicious.class.name", arg0, arg1);
}
compiler.warn.proc.type.already.exists=\
A file for type ''{0}'' already exists on the sourcepath or classpath
/**
* compiler.warn.proc.type.already.exists=\
* A file for type ''{0}'' already exists on the sourcepath or classpath
*/
public static Warning ProcTypeAlreadyExists(String arg0) {
return new Warning("compiler", "proc.type.already.exists", arg0);
}
compiler.warn.proc.type.recreate=\
Attempt to create a file for type ''{0}'' multiple times
/**
* compiler.warn.proc.type.recreate=\
* Attempt to create a file for type ''{0}'' multiple times
*/
public static Warning ProcTypeRecreate(String arg0) {
return new Warning("compiler", "proc.type.recreate", arg0);
}
compiler.warn.proc.unclosed.type.files=\
Unclosed files for the types ''{0}''; these types will not undergo annotation processing
/**
* compiler.warn.proc.unclosed.type.files=\
* Unclosed files for the types ''{0}''; these types will not undergo annotation processing
*/
public static Warning ProcUnclosedTypeFiles(Set<? extends String> arg0) {
return new Warning("compiler", "proc.unclosed.type.files", arg0);
}
compiler.warn.proc.unmatched.processor.options=\
The following options were not recognized by any processor: ''{0}''
/**
* compiler.warn.proc.unmatched.processor.options=\
* The following options were not recognized by any processor: ''{0}''
*/
public static Warning ProcUnmatchedProcessorOptions(String arg0) {
return new Warning("compiler", "proc.unmatched.processor.options", arg0);
}
compiler.warn.proc.use.implicit=\
Implicitly compiled files were not subject to annotation processing.\n\
Use -implicit to specify a policy for implicit compilation.
/**
* compiler.warn.proc.use.implicit=\
* Implicitly compiled files were not subject to annotation processing.\n\
* Use -implicit to specify a policy for implicit compilation.
*/
public static final Warning ProcUseImplicit = new Warning("compiler", "proc.use.implicit");
compiler.warn.proc.use.proc.or.implicit=\
Implicitly compiled files were not subject to annotation processing.\n\
Use -proc:none to disable annotation processing or -implicit to specify a policy for implicit compilation.
/**
* compiler.warn.proc.use.proc.or.implicit=\
* Implicitly compiled files were not subject to annotation processing.\n\
* Use -proc:none to disable annotation processing or -implicit to specify a policy for implicit compilation.
*/
public static final Warning ProcUseProcOrImplicit = new Warning("compiler", "proc.use.proc.or.implicit");
compiler.warn.profile.target.conflict=\
profile {0} is not valid for target release {1}
/**
* compiler.warn.profile.target.conflict=\
* profile {0} is not valid for target release {1}
*/
public static Warning ProfileTargetConflict(Profile arg0, Target arg1) {
return new Warning("compiler", "profile.target.conflict", arg0, arg1);
}
compiler.warn.raw.class.use=\
found raw type: {0}\n\
missing type arguments for generic class {1}
/**
* compiler.warn.raw.class.use=\
* found raw type: {0}\n\
* missing type arguments for generic class {1}
*/
public static Warning RawClassUse(Type arg0, Type arg1) {
return new Warning("compiler", "raw.class.use", arg0, arg1);
}
compiler.warn.redundant.cast=\
redundant cast to {0}
/**
* compiler.warn.redundant.cast=\
* redundant cast to {0}
*/
public static Warning RedundantCast(Type arg0) {
return new Warning("compiler", "redundant.cast", arg0);
}
compiler.warn.requires.automatic=\
requires directive for an automatic module
/**
* compiler.warn.requires.automatic=\
* requires directive for an automatic module
*/
public static final Warning RequiresAutomatic = new Warning("compiler", "requires.automatic");
compiler.warn.requires.transitive.automatic=\
requires transitive directive for an automatic module
/**
* compiler.warn.requires.transitive.automatic=\
* requires transitive directive for an automatic module
*/
public static final Warning RequiresTransitiveAutomatic = new Warning("compiler", "requires.transitive.automatic");
compiler.warn.restricted.type.not.allowed=\
as of release {1}, ''{0}'' is a restricted type name and cannot be used for type declarations or as the element type of an array
/**
* compiler.warn.restricted.type.not.allowed=\
* as of release {1}, ''{0}'' is a restricted type name and cannot be used for type declarations or as the element type of an array
*/
public static Warning RestrictedTypeNotAllowed(Name arg0, Source arg1) {
return new Warning("compiler", "restricted.type.not.allowed", arg0, arg1);
}
compiler.warn.restricted.type.not.allowed.preview=\
''{0}'' may become a restricted type name in a future release and may be unusable for type declarations or as the element type of an array
/**
* compiler.warn.restricted.type.not.allowed.preview=\
* ''{0}'' may become a restricted type name in a future release and may be unusable for type declarations or as the element type of an array
*/
public static Warning RestrictedTypeNotAllowedPreview(Name arg0, Source arg1) {
return new Warning("compiler", "restricted.type.not.allowed.preview", arg0, arg1);
}
compiler.warn.self.ref=\
self-reference in initializer of variable ''{0}''
/**
* compiler.warn.self.ref=\
* self-reference in initializer of variable ''{0}''
*/
public static Warning SelfRef(Symbol arg0) {
return new Warning("compiler", "self.ref", arg0);
}
compiler.warn.service.provided.but.not.exported.or.used=\
service interface provided but not exported or used
/**
* compiler.warn.service.provided.but.not.exported.or.used=\
* service interface provided but not exported or used
*/
public static Warning ServiceProvidedButNotExportedOrUsed(Symbol arg0) {
return new Warning("compiler", "service.provided.but.not.exported.or.used", arg0);
}
compiler.warn.source.no.bootclasspath=\
bootstrap class path not set in conjunction with -source {0}
/**
* compiler.warn.source.no.bootclasspath=\
* bootstrap class path not set in conjunction with -source {0}
*/
public static Warning SourceNoBootclasspath(String arg0) {
return new Warning("compiler", "source.no.bootclasspath", arg0);
}
compiler.warn.source.target.conflict=\
source release {0} requires target release {1}
/**
* compiler.warn.source.target.conflict=\
* source release {0} requires target release {1}
*/
public static Warning SourceTargetConflict(String arg0, Target arg1) {
return new Warning("compiler", "source.target.conflict", arg0, arg1);
}
compiler.warn.static.not.qualified.by.type=\
static {0} should be qualified by type name, {1}, instead of by an expression
/**
* compiler.warn.static.not.qualified.by.type=\
* static {0} should be qualified by type name, {1}, instead of by an expression
*/
public static Warning StaticNotQualifiedByType(KindName arg0, Symbol arg1) {
return new Warning("compiler", "static.not.qualified.by.type", arg0, arg1);
}
compiler.warn.sun.proprietary=\
{0} is internal proprietary API and may be removed in a future release
/**
* compiler.warn.sun.proprietary=\
* {0} is internal proprietary API and may be removed in a future release
*/
public static Warning SunProprietary(Symbol arg0) {
return new Warning("compiler", "sun.proprietary", arg0);
}
compiler.warn.target.default.source.conflict=\
target release {0} conflicts with default source release {1}
/**
* compiler.warn.target.default.source.conflict=\
* target release {0} conflicts with default source release {1}
*/
public static Warning TargetDefaultSourceConflict(String arg0, Target arg1) {
return new Warning("compiler", "target.default.source.conflict", arg0, arg1);
}
compiler.warn.trailing.white.space.will.be.removed=\
trailing white space will be removed
/**
* compiler.warn.trailing.white.space.will.be.removed=\
* trailing white space will be removed
*/
public static final Warning TrailingWhiteSpaceWillBeRemoved = new Warning("compiler", "trailing.white.space.will.be.removed");
compiler.warn.try.explicit.close.call=\
explicit call to close() on an auto-closeable resource
/**
* compiler.warn.try.explicit.close.call=\
* explicit call to close() on an auto-closeable resource
*/
public static final Warning TryExplicitCloseCall = new Warning("compiler", "try.explicit.close.call");
compiler.warn.try.resource.not.referenced=\
auto-closeable resource {0} is never referenced in body of corresponding try statement
/**
* compiler.warn.try.resource.not.referenced=\
* auto-closeable resource {0} is never referenced in body of corresponding try statement
*/
public static Warning TryResourceNotReferenced(Symbol arg0) {
return new Warning("compiler", "try.resource.not.referenced", arg0);
}
compiler.warn.try.resource.throws.interrupted.exc=\
auto-closeable resource {0} has a member method close() that could throw InterruptedException
/**
* compiler.warn.try.resource.throws.interrupted.exc=\
* auto-closeable resource {0} has a member method close() that could throw InterruptedException
*/
public static Warning TryResourceThrowsInterruptedExc(Type arg0) {
return new Warning("compiler", "try.resource.throws.interrupted.exc", arg0);
}
compiler.warn.unchecked.assign=\
unchecked assignment: {0} to {1}
/**
* compiler.warn.unchecked.assign=\
* unchecked assignment: {0} to {1}
*/
public static final Warning UncheckedAssign = new Warning("compiler", "unchecked.assign");
compiler.warn.unchecked.assign.to.var=\
unchecked assignment to variable {0} as member of raw type {1}
/**
* compiler.warn.unchecked.assign.to.var=\
* unchecked assignment to variable {0} as member of raw type {1}
*/
public static Warning UncheckedAssignToVar(Symbol arg0, Type arg1) {
return new Warning("compiler", "unchecked.assign.to.var", arg0, arg1);
}
compiler.warn.unchecked.call.mbr.of.raw.type=\
unchecked call to {0} as a member of the raw type {1}
/**
* compiler.warn.unchecked.call.mbr.of.raw.type=\
* unchecked call to {0} as a member of the raw type {1}
*/
public static Warning UncheckedCallMbrOfRawType(Symbol arg0, Type arg1) {
return new Warning("compiler", "unchecked.call.mbr.of.raw.type", arg0, arg1);
}
compiler.warn.unchecked.cast.to.type=\
unchecked cast to type {0}
/**
* compiler.warn.unchecked.cast.to.type=\
* unchecked cast to type {0}
*/
public static final Warning UncheckedCastToType = new Warning("compiler", "unchecked.cast.to.type");
compiler.warn.unchecked.generic.array.creation=\
unchecked generic array creation for varargs parameter of type {0}
/**
* compiler.warn.unchecked.generic.array.creation=\
* unchecked generic array creation for varargs parameter of type {0}
*/
public static Warning UncheckedGenericArrayCreation(Type arg0) {
return new Warning("compiler", "unchecked.generic.array.creation", arg0);
}
compiler.warn.unchecked.meth.invocation.applied=\
unchecked method invocation: {0} {1} in {4} {5} is applied to given types\n\
required: {2}\n\
found: {3}
/**
* compiler.warn.unchecked.meth.invocation.applied=\
* unchecked method invocation: {0} {1} in {4} {5} is applied to given types\n\
* required: {2}\n\
* found: {3}
*/
public static Warning UncheckedMethInvocationApplied(KindName arg0, Name arg1, Object arg2, Object arg3, KindName arg4, Symbol arg5) {
return new Warning("compiler", "unchecked.meth.invocation.applied", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.warn.unchecked.varargs.non.reifiable.type=\
Possible heap pollution from parameterized vararg type {0}
/**
* compiler.warn.unchecked.varargs.non.reifiable.type=\
* Possible heap pollution from parameterized vararg type {0}
*/
public static Warning UncheckedVarargsNonReifiableType(Type arg0) {
return new Warning("compiler", "unchecked.varargs.non.reifiable.type", arg0);
}
compiler.warn.underscore.as.identifier=\
as of release 9, ''_'' is a keyword, and may not be used as an identifier
/**
* compiler.warn.underscore.as.identifier=\
* as of release 9, ''_'' is a keyword, and may not be used as an identifier
*/
public static final Warning UnderscoreAsIdentifier = new Warning("compiler", "underscore.as.identifier");
compiler.warn.unexpected.archive.file=\
Unexpected extension for archive file: {0}
/**
* compiler.warn.unexpected.archive.file=\
* Unexpected extension for archive file: {0}
*/
public static Warning UnexpectedArchiveFile(Path arg0) {
return new Warning("compiler", "unexpected.archive.file", arg0);
}
compiler.warn.unknown.enum.constant=\
unknown enum constant {1}.{2}
/**
* compiler.warn.unknown.enum.constant=\
* unknown enum constant {1}.{2}
*/
public static Warning UnknownEnumConstant(JavaFileObject arg0, Symbol arg1, Name arg2) {
return new Warning("compiler", "unknown.enum.constant", arg0, arg1, arg2);
}
compiler.warn.unknown.enum.constant.reason=\
unknown enum constant {1}.{2}\n\
reason: {3}
/**
* compiler.warn.unknown.enum.constant.reason=\
* unknown enum constant {1}.{2}\n\
* reason: {3}
*/
public static Warning UnknownEnumConstantReason(JavaFileObject arg0, Symbol arg1, Name arg2, JCDiagnostic arg3) {
return new Warning("compiler", "unknown.enum.constant.reason", arg0, arg1, arg2, arg3);
}
compiler.warn.unknown.enum.constant.reason=\
unknown enum constant {1}.{2}\n\
reason: {3}
/**
* compiler.warn.unknown.enum.constant.reason=\
* unknown enum constant {1}.{2}\n\
* reason: {3}
*/
public static Warning UnknownEnumConstantReason(JavaFileObject arg0, Symbol arg1, Name arg2, Fragment arg3) {
return new Warning("compiler", "unknown.enum.constant.reason", arg0, arg1, arg2, arg3);
}
compiler.warn.unreachable.catch=\
unreachable catch clause\n\
thrown type {0} has already been caught
/**
* compiler.warn.unreachable.catch=\
* unreachable catch clause\n\
* thrown type {0} has already been caught
*/
public static Warning UnreachableCatch(List<? extends Type> arg0) {
return new Warning("compiler", "unreachable.catch", arg0);
}
compiler.warn.unreachable.catch.1=\
unreachable catch clause\n\
thrown types {0} have already been caught
/**
* compiler.warn.unreachable.catch.1=\
* unreachable catch clause\n\
* thrown types {0} have already been caught
*/
public static Warning UnreachableCatch1(List<? extends Type> arg0) {
return new Warning("compiler", "unreachable.catch.1", arg0);
}
compiler.warn.varargs.redundant.trustme.anno=\
Redundant {0} annotation. {1}
/**
* compiler.warn.varargs.redundant.trustme.anno=\
* Redundant {0} annotation. {1}
*/
public static Warning VarargsRedundantTrustmeAnno(Symbol arg0, JCDiagnostic arg1) {
return new Warning("compiler", "varargs.redundant.trustme.anno", arg0, arg1);
}
compiler.warn.varargs.redundant.trustme.anno=\
Redundant {0} annotation. {1}
/**
* compiler.warn.varargs.redundant.trustme.anno=\
* Redundant {0} annotation. {1}
*/
public static Warning VarargsRedundantTrustmeAnno(Symbol arg0, Fragment arg1) {
return new Warning("compiler", "varargs.redundant.trustme.anno", arg0, arg1);
}
compiler.warn.varargs.unsafe.use.varargs.param=\
Varargs method could cause heap pollution from non-reifiable varargs parameter {0}
/**
* compiler.warn.varargs.unsafe.use.varargs.param=\
* Varargs method could cause heap pollution from non-reifiable varargs parameter {0}
*/
public static Warning VarargsUnsafeUseVarargsParam(Symbol arg0) {
return new Warning("compiler", "varargs.unsafe.use.varargs.param", arg0);
}
compiler.warn.warning=\
warning:\u0020
/**
* compiler.warn.warning=\
* warning:\u0020
*/
public static final Warning Warning = new Warning("compiler", "warning");
}
public static class Notes {
compiler.note.compressed.diags=\
Some messages have been simplified; recompile with -Xdiags:verbose to get full output
/**
* compiler.note.compressed.diags=\
* Some messages have been simplified; recompile with -Xdiags:verbose to get full output
*/
public static final Note CompressedDiags = new Note("compiler", "compressed.diags");
compiler.note.deferred.method.inst=\
Deferred instantiation of method {0}\n\
instantiated signature: {1}\n\
target-type: {2}
/**
* compiler.note.deferred.method.inst=\
* Deferred instantiation of method {0}\n\
* instantiated signature: {1}\n\
* target-type: {2}
*/
public static Note DeferredMethodInst(Symbol arg0, Type arg1, Type arg2) {
return new Note("compiler", "deferred.method.inst", arg0, arg1, arg2);
}
compiler.note.deprecated.filename=\
{0} uses or overrides a deprecated API.
/**
* compiler.note.deprecated.filename=\
* {0} uses or overrides a deprecated API.
*/
public static Note DeprecatedFilename(File arg0) {
return new Note("compiler", "deprecated.filename", arg0);
}
compiler.note.deprecated.filename=\
{0} uses or overrides a deprecated API.
/**
* compiler.note.deprecated.filename=\
* {0} uses or overrides a deprecated API.
*/
public static Note DeprecatedFilename(JavaFileObject arg0) {
return new Note("compiler", "deprecated.filename", arg0);
}
compiler.note.deprecated.filename=\
{0} uses or overrides a deprecated API.
/**
* compiler.note.deprecated.filename=\
* {0} uses or overrides a deprecated API.
*/
public static Note DeprecatedFilename(Path arg0) {
return new Note("compiler", "deprecated.filename", arg0);
}
compiler.note.deprecated.filename.additional=\
{0} has additional uses or overrides of a deprecated API.
/**
* compiler.note.deprecated.filename.additional=\
* {0} has additional uses or overrides of a deprecated API.
*/
public static Note DeprecatedFilenameAdditional(File arg0) {
return new Note("compiler", "deprecated.filename.additional", arg0);
}
compiler.note.deprecated.filename.additional=\
{0} has additional uses or overrides of a deprecated API.
/**
* compiler.note.deprecated.filename.additional=\
* {0} has additional uses or overrides of a deprecated API.
*/
public static Note DeprecatedFilenameAdditional(JavaFileObject arg0) {
return new Note("compiler", "deprecated.filename.additional", arg0);
}
compiler.note.deprecated.filename.additional=\
{0} has additional uses or overrides of a deprecated API.
/**
* compiler.note.deprecated.filename.additional=\
* {0} has additional uses or overrides of a deprecated API.
*/
public static Note DeprecatedFilenameAdditional(Path arg0) {
return new Note("compiler", "deprecated.filename.additional", arg0);
}
compiler.note.deprecated.plural=\
Some input files use or override a deprecated API.
/**
* compiler.note.deprecated.plural=\
* Some input files use or override a deprecated API.
*/
public static final Note DeprecatedPlural = new Note("compiler", "deprecated.plural");
compiler.note.deprecated.plural.additional=\
Some input files additionally use or override a deprecated API.
/**
* compiler.note.deprecated.plural.additional=\
* Some input files additionally use or override a deprecated API.
*/
public static final Note DeprecatedPluralAdditional = new Note("compiler", "deprecated.plural.additional");
compiler.note.deprecated.recompile=\
Recompile with -Xlint:deprecation for details.
/**
* compiler.note.deprecated.recompile=\
* Recompile with -Xlint:deprecation for details.
*/
public static final Note DeprecatedRecompile = new Note("compiler", "deprecated.recompile");
compiler.note.lambda.stat=\
Translating lambda expression\n\
alternate metafactory = {0}\n\
synthetic method = {1}
/**
* compiler.note.lambda.stat=\
* Translating lambda expression\n\
* alternate metafactory = {0}\n\
* synthetic method = {1}
*/
public static Note LambdaStat(boolean arg0, Symbol arg1) {
return new Note("compiler", "lambda.stat", arg0, arg1);
}
compiler.note.mref.stat=\
Translating method reference\n\
alternate metafactory = {0}\n\
/**
* compiler.note.mref.stat=\
* Translating method reference\n\
* alternate metafactory = {0}\n\
*/
public static Note MrefStat(boolean arg0, Void arg1) {
return new Note("compiler", "mref.stat", arg0, arg1);
}
compiler.note.mref.stat.1=\
Translating method reference\n\
alternate metafactory = {0}\n\
bridge method = {1}
/**
* compiler.note.mref.stat.1=\
* Translating method reference\n\
* alternate metafactory = {0}\n\
* bridge method = {1}
*/
public static Note MrefStat1(boolean arg0, Symbol arg1) {
return new Note("compiler", "mref.stat.1", arg0, arg1);
}
compiler.note.multiple.elements=\
Multiple elements named ''{1}'' in modules ''{2}'' were found by javax.lang.model.util.Elements.{0}.
/**
* compiler.note.multiple.elements=\
* Multiple elements named ''{1}'' in modules ''{2}'' were found by javax.lang.model.util.Elements.{0}.
*/
public static Note MultipleElements(String arg0, String arg1, String arg2) {
return new Note("compiler", "multiple.elements", arg0, arg1, arg2);
}
compiler.note.note=\
Note:\u0020
/**
* compiler.note.note=\
* Note:\u0020
*/
public static final Note Note = new Note("compiler", "note");
compiler.note.preview.filename=\
{0} uses preview language features.
/**
* compiler.note.preview.filename=\
* {0} uses preview language features.
*/
public static Note PreviewFilename(File arg0) {
return new Note("compiler", "preview.filename", arg0);
}
compiler.note.preview.filename=\
{0} uses preview language features.
/**
* compiler.note.preview.filename=\
* {0} uses preview language features.
*/
public static Note PreviewFilename(JavaFileObject arg0) {
return new Note("compiler", "preview.filename", arg0);
}
compiler.note.preview.filename=\
{0} uses preview language features.
/**
* compiler.note.preview.filename=\
* {0} uses preview language features.
*/
public static Note PreviewFilename(Path arg0) {
return new Note("compiler", "preview.filename", arg0);
}
compiler.note.preview.filename.additional=\
{0} has additional uses of preview language features.
/**
* compiler.note.preview.filename.additional=\
* {0} has additional uses of preview language features.
*/
public static Note PreviewFilenameAdditional(File arg0) {
return new Note("compiler", "preview.filename.additional", arg0);
}
compiler.note.preview.filename.additional=\
{0} has additional uses of preview language features.
/**
* compiler.note.preview.filename.additional=\
* {0} has additional uses of preview language features.
*/
public static Note PreviewFilenameAdditional(JavaFileObject arg0) {
return new Note("compiler", "preview.filename.additional", arg0);
}
compiler.note.preview.filename.additional=\
{0} has additional uses of preview language features.
/**
* compiler.note.preview.filename.additional=\
* {0} has additional uses of preview language features.
*/
public static Note PreviewFilenameAdditional(Path arg0) {
return new Note("compiler", "preview.filename.additional", arg0);
}
compiler.note.preview.plural=\
Some input files use preview language features.
/**
* compiler.note.preview.plural=\
* Some input files use preview language features.
*/
public static final Note PreviewPlural = new Note("compiler", "preview.plural");
compiler.note.preview.plural.additional=\
Some input files additionally use preview language features.
/**
* compiler.note.preview.plural.additional=\
* Some input files additionally use preview language features.
*/
public static final Note PreviewPluralAdditional = new Note("compiler", "preview.plural.additional");
compiler.note.preview.recompile=\
Recompile with -Xlint:preview for details.
/**
* compiler.note.preview.recompile=\
* Recompile with -Xlint:preview for details.
*/
public static final Note PreviewRecompile = new Note("compiler", "preview.recompile");
compiler.note.proc.messager=\
{0}
/**
* compiler.note.proc.messager=\
* {0}
*/
public static Note ProcMessager(String arg0) {
return new Note("compiler", "proc.messager", arg0);
}
compiler.note.removal.filename=\
{0} uses or overrides a deprecated API that is marked for removal.
/**
* compiler.note.removal.filename=\
* {0} uses or overrides a deprecated API that is marked for removal.
*/
public static Note RemovalFilename(File arg0) {
return new Note("compiler", "removal.filename", arg0);
}
compiler.note.removal.filename=\
{0} uses or overrides a deprecated API that is marked for removal.
/**
* compiler.note.removal.filename=\
* {0} uses or overrides a deprecated API that is marked for removal.
*/
public static Note RemovalFilename(JavaFileObject arg0) {
return new Note("compiler", "removal.filename", arg0);
}
compiler.note.removal.filename=\
{0} uses or overrides a deprecated API that is marked for removal.
/**
* compiler.note.removal.filename=\
* {0} uses or overrides a deprecated API that is marked for removal.
*/
public static Note RemovalFilename(Path arg0) {
return new Note("compiler", "removal.filename", arg0);
}
compiler.note.removal.filename.additional=\
{0} has additional uses or overrides of a deprecated API that is marked for removal.
/**
* compiler.note.removal.filename.additional=\
* {0} has additional uses or overrides of a deprecated API that is marked for removal.
*/
public static Note RemovalFilenameAdditional(File arg0) {
return new Note("compiler", "removal.filename.additional", arg0);
}
compiler.note.removal.filename.additional=\
{0} has additional uses or overrides of a deprecated API that is marked for removal.
/**
* compiler.note.removal.filename.additional=\
* {0} has additional uses or overrides of a deprecated API that is marked for removal.
*/
public static Note RemovalFilenameAdditional(JavaFileObject arg0) {
return new Note("compiler", "removal.filename.additional", arg0);
}
compiler.note.removal.filename.additional=\
{0} has additional uses or overrides of a deprecated API that is marked for removal.
/**
* compiler.note.removal.filename.additional=\
* {0} has additional uses or overrides of a deprecated API that is marked for removal.
*/
public static Note RemovalFilenameAdditional(Path arg0) {
return new Note("compiler", "removal.filename.additional", arg0);
}
compiler.note.removal.plural=\
Some input files use or override a deprecated API that is marked for removal.
/**
* compiler.note.removal.plural=\
* Some input files use or override a deprecated API that is marked for removal.
*/
public static final Note RemovalPlural = new Note("compiler", "removal.plural");
compiler.note.removal.plural.additional=\
Some input files additionally use or override a deprecated API that is marked for removal.
/**
* compiler.note.removal.plural.additional=\
* Some input files additionally use or override a deprecated API that is marked for removal.
*/
public static final Note RemovalPluralAdditional = new Note("compiler", "removal.plural.additional");
compiler.note.removal.recompile=\
Recompile with -Xlint:removal for details.
/**
* compiler.note.removal.recompile=\
* Recompile with -Xlint:removal for details.
*/
public static final Note RemovalRecompile = new Note("compiler", "removal.recompile");
compiler.note.unchecked.filename=\
{0} uses unchecked or unsafe operations.
/**
* compiler.note.unchecked.filename=\
* {0} uses unchecked or unsafe operations.
*/
public static Note UncheckedFilename(File arg0) {
return new Note("compiler", "unchecked.filename", arg0);
}
compiler.note.unchecked.filename=\
{0} uses unchecked or unsafe operations.
/**
* compiler.note.unchecked.filename=\
* {0} uses unchecked or unsafe operations.
*/
public static Note UncheckedFilename(JavaFileObject arg0) {
return new Note("compiler", "unchecked.filename", arg0);
}
compiler.note.unchecked.filename=\
{0} uses unchecked or unsafe operations.
/**
* compiler.note.unchecked.filename=\
* {0} uses unchecked or unsafe operations.
*/
public static Note UncheckedFilename(Path arg0) {
return new Note("compiler", "unchecked.filename", arg0);
}
compiler.note.unchecked.filename.additional=\
{0} has additional unchecked or unsafe operations.
/**
* compiler.note.unchecked.filename.additional=\
* {0} has additional unchecked or unsafe operations.
*/
public static Note UncheckedFilenameAdditional(File arg0) {
return new Note("compiler", "unchecked.filename.additional", arg0);
}
compiler.note.unchecked.filename.additional=\
{0} has additional unchecked or unsafe operations.
/**
* compiler.note.unchecked.filename.additional=\
* {0} has additional unchecked or unsafe operations.
*/
public static Note UncheckedFilenameAdditional(JavaFileObject arg0) {
return new Note("compiler", "unchecked.filename.additional", arg0);
}
compiler.note.unchecked.filename.additional=\
{0} has additional unchecked or unsafe operations.
/**
* compiler.note.unchecked.filename.additional=\
* {0} has additional unchecked or unsafe operations.
*/
public static Note UncheckedFilenameAdditional(Path arg0) {
return new Note("compiler", "unchecked.filename.additional", arg0);
}
compiler.note.unchecked.plural=\
Some input files use unchecked or unsafe operations.
/**
* compiler.note.unchecked.plural=\
* Some input files use unchecked or unsafe operations.
*/
public static final Note UncheckedPlural = new Note("compiler", "unchecked.plural");
compiler.note.unchecked.plural.additional=\
Some input files additionally use unchecked or unsafe operations.
/**
* compiler.note.unchecked.plural.additional=\
* Some input files additionally use unchecked or unsafe operations.
*/
public static final Note UncheckedPluralAdditional = new Note("compiler", "unchecked.plural.additional");
compiler.note.unchecked.recompile=\
Recompile with -Xlint:unchecked for details.
/**
* compiler.note.unchecked.recompile=\
* Recompile with -Xlint:unchecked for details.
*/
public static final Note UncheckedRecompile = new Note("compiler", "unchecked.recompile");
compiler.note.verbose.l2m.deduplicate=\
deduplicating lambda implementation method {0}
/**
* compiler.note.verbose.l2m.deduplicate=\
* deduplicating lambda implementation method {0}
*/
public static Note VerboseL2mDeduplicate(Symbol arg0) {
return new Note("compiler", "verbose.l2m.deduplicate", arg0);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, List<? extends Type> arg4, List<? extends Type> arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, List<? extends Type> arg4, JCDiagnostic arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, List<? extends Type> arg4, Fragment arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, JCDiagnostic arg4, List<? extends Type> arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, JCDiagnostic arg4, JCDiagnostic arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, JCDiagnostic arg4, Fragment arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, Fragment arg4, List<? extends Type> arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, Fragment arg4, JCDiagnostic arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi=\
resolving method {0} in type {1} to candidate {2}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi=\
* resolving method {0} in type {1} to candidate {2}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti(Name arg0, Symbol arg1, int arg2, String arg3, Fragment arg4, Fragment arg5) {
return new Note("compiler", "verbose.resolve.multi", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, List<? extends Type> arg4, List<? extends Type> arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, List<? extends Type> arg4, JCDiagnostic arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, List<? extends Type> arg4, Fragment arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, JCDiagnostic arg4, List<? extends Type> arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, JCDiagnostic arg4, JCDiagnostic arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, JCDiagnostic arg4, Fragment arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, Fragment arg4, List<? extends Type> arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, Fragment arg4, JCDiagnostic arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.note.verbose.resolve.multi.1=\
erroneous resolution for method {0} in type {1}\n\
phase: {3}\n\
with actuals: {4}\n\
with type-args: {5}\n\
candidates:
/**
* compiler.note.verbose.resolve.multi.1=\
* erroneous resolution for method {0} in type {1}\n\
* phase: {3}\n\
* with actuals: {4}\n\
* with type-args: {5}\n\
* candidates:
*/
public static Note VerboseResolveMulti1(Name arg0, Symbol arg1, Void arg2, String arg3, Fragment arg4, Fragment arg5) {
return new Note("compiler", "verbose.resolve.multi.1", arg0, arg1, arg2, arg3, arg4, arg5);
}
}
public static class Fragments {
compiler.misc.anachronistic.module.info=\
module declaration found in version {0}.{1} classfile
/**
* compiler.misc.anachronistic.module.info=\
* module declaration found in version {0}.{1} classfile
*/
public static Fragment AnachronisticModuleInfo(String arg0, String arg1) {
return new Fragment("compiler", "anachronistic.module.info", arg0, arg1);
}
compiler.misc.anonymous.class=\
/**
* compiler.misc.anonymous.class=\
* <anonymous {0}>
*/
public static Fragment AnonymousClass(Name arg0) {
return new Fragment("compiler", "anonymous.class", arg0);
}
compiler.misc.applicable.method.found=\
/**
* compiler.misc.applicable.method.found=\
*/
public static Fragment ApplicableMethodFound(int arg0, Symbol arg1, Void arg2) {
return new Fragment("compiler", "applicable.method.found", arg0, arg1, arg2);
}
compiler.misc.applicable.method.found.1=\
({2})
/**
* compiler.misc.applicable.method.found.1=\
* ({2})
*/
public static Fragment ApplicableMethodFound1(int arg0, Symbol arg1, JCDiagnostic arg2) {
return new Fragment("compiler", "applicable.method.found.1", arg0, arg1, arg2);
}
compiler.misc.applicable.method.found.1=\
({2})
/**
* compiler.misc.applicable.method.found.1=\
* ({2})
*/
public static Fragment ApplicableMethodFound1(int arg0, Symbol arg1, Fragment arg2) {
return new Fragment("compiler", "applicable.method.found.1", arg0, arg1, arg2);
}
compiler.misc.arg.length.mismatch=\
actual and formal argument lists differ in length
/**
* compiler.misc.arg.length.mismatch=\
* actual and formal argument lists differ in length
*/
public static final Fragment ArgLengthMismatch = new Fragment("compiler", "arg.length.mismatch");
compiler.misc.bad.class.file=\
class file is invalid for class {0}
/**
* compiler.misc.bad.class.file=\
* class file is invalid for class {0}
*/
public static Fragment BadClassFile(Name arg0) {
return new Fragment("compiler", "bad.class.file", arg0);
}
compiler.misc.bad.class.file.header=\
bad class file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the classpath.
/**
* compiler.misc.bad.class.file.header=\
* bad class file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the classpath.
*/
public static Fragment BadClassFileHeader(File arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "bad.class.file.header", arg0, arg1);
}
compiler.misc.bad.class.file.header=\
bad class file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the classpath.
/**
* compiler.misc.bad.class.file.header=\
* bad class file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the classpath.
*/
public static Fragment BadClassFileHeader(File arg0, Fragment arg1) {
return new Fragment("compiler", "bad.class.file.header", arg0, arg1);
}
compiler.misc.bad.class.file.header=\
bad class file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the classpath.
/**
* compiler.misc.bad.class.file.header=\
* bad class file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the classpath.
*/
public static Fragment BadClassFileHeader(JavaFileObject arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "bad.class.file.header", arg0, arg1);
}
compiler.misc.bad.class.file.header=\
bad class file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the classpath.
/**
* compiler.misc.bad.class.file.header=\
* bad class file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the classpath.
*/
public static Fragment BadClassFileHeader(JavaFileObject arg0, Fragment arg1) {
return new Fragment("compiler", "bad.class.file.header", arg0, arg1);
}
compiler.misc.bad.class.file.header=\
bad class file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the classpath.
/**
* compiler.misc.bad.class.file.header=\
* bad class file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the classpath.
*/
public static Fragment BadClassFileHeader(Path arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "bad.class.file.header", arg0, arg1);
}
compiler.misc.bad.class.file.header=\
bad class file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the classpath.
/**
* compiler.misc.bad.class.file.header=\
* bad class file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the classpath.
*/
public static Fragment BadClassFileHeader(Path arg0, Fragment arg1) {
return new Fragment("compiler", "bad.class.file.header", arg0, arg1);
}
compiler.misc.bad.class.signature=\
bad class signature: {0}
/**
* compiler.misc.bad.class.signature=\
* bad class signature: {0}
*/
public static final Fragment BadClassSignature = new Fragment("compiler", "bad.class.signature");
compiler.misc.bad.const.pool.entry=\
bad constant pool entry in {0}\n\
expected {1} at index {2}
/**
* compiler.misc.bad.const.pool.entry=\
* bad constant pool entry in {0}\n\
* expected {1} at index {2}
*/
public static Fragment BadConstPoolEntry(File arg0, String arg1, int arg2) {
return new Fragment("compiler", "bad.const.pool.entry", arg0, arg1, arg2);
}
compiler.misc.bad.const.pool.entry=\
bad constant pool entry in {0}\n\
expected {1} at index {2}
/**
* compiler.misc.bad.const.pool.entry=\
* bad constant pool entry in {0}\n\
* expected {1} at index {2}
*/
public static Fragment BadConstPoolEntry(JavaFileObject arg0, String arg1, int arg2) {
return new Fragment("compiler", "bad.const.pool.entry", arg0, arg1, arg2);
}
compiler.misc.bad.const.pool.entry=\
bad constant pool entry in {0}\n\
expected {1} at index {2}
/**
* compiler.misc.bad.const.pool.entry=\
* bad constant pool entry in {0}\n\
* expected {1} at index {2}
*/
public static Fragment BadConstPoolEntry(Path arg0, String arg1, int arg2) {
return new Fragment("compiler", "bad.const.pool.entry", arg0, arg1, arg2);
}
compiler.misc.bad.const.pool.index=\
bad constant pool index in {0}\n\
index {1} is not within pool size {2}.
/**
* compiler.misc.bad.const.pool.index=\
* bad constant pool index in {0}\n\
* index {1} is not within pool size {2}.
*/
public static Fragment BadConstPoolIndex(File arg0, int arg1, int arg2) {
return new Fragment("compiler", "bad.const.pool.index", arg0, arg1, arg2);
}
compiler.misc.bad.const.pool.index=\
bad constant pool index in {0}\n\
index {1} is not within pool size {2}.
/**
* compiler.misc.bad.const.pool.index=\
* bad constant pool index in {0}\n\
* index {1} is not within pool size {2}.
*/
public static Fragment BadConstPoolIndex(JavaFileObject arg0, int arg1, int arg2) {
return new Fragment("compiler", "bad.const.pool.index", arg0, arg1, arg2);
}
compiler.misc.bad.const.pool.index=\
bad constant pool index in {0}\n\
index {1} is not within pool size {2}.
/**
* compiler.misc.bad.const.pool.index=\
* bad constant pool index in {0}\n\
* index {1} is not within pool size {2}.
*/
public static Fragment BadConstPoolIndex(Path arg0, int arg1, int arg2) {
return new Fragment("compiler", "bad.const.pool.index", arg0, arg1, arg2);
}
compiler.misc.bad.const.pool.tag=\
bad constant pool tag: {0}
/**
* compiler.misc.bad.const.pool.tag=\
* bad constant pool tag: {0}
*/
public static final Fragment BadConstPoolTag = new Fragment("compiler", "bad.const.pool.tag");
compiler.misc.bad.const.pool.tag.at=\
bad constant pool tag: {0} at {1}
/**
* compiler.misc.bad.const.pool.tag.at=\
* bad constant pool tag: {0} at {1}
*/
public static final Fragment BadConstPoolTagAt = new Fragment("compiler", "bad.const.pool.tag.at");
compiler.misc.bad.constant.range=\
constant value ''{0}'' for {1} is outside the expected range for {2}
/**
* compiler.misc.bad.constant.range=\
* constant value ''{0}'' for {1} is outside the expected range for {2}
*/
public static Fragment BadConstantRange(String arg0, Symbol arg1, Type arg2) {
return new Fragment("compiler", "bad.constant.range", arg0, arg1, arg2);
}
compiler.misc.bad.constant.value=\
bad constant value ''{0}'' for {1}, expected {2}
/**
* compiler.misc.bad.constant.value=\
* bad constant value ''{0}'' for {1}, expected {2}
*/
public static Fragment BadConstantValue(String arg0, Symbol arg1, String arg2) {
return new Fragment("compiler", "bad.constant.value", arg0, arg1, arg2);
}
compiler.misc.bad.enclosing.class=\
bad enclosing class for {0}: {1}
/**
* compiler.misc.bad.enclosing.class=\
* bad enclosing class for {0}: {1}
*/
public static final Fragment BadEnclosingClass = new Fragment("compiler", "bad.enclosing.class");
compiler.misc.bad.enclosing.method=\
bad enclosing method attribute for class {0}
/**
* compiler.misc.bad.enclosing.method=\
* bad enclosing method attribute for class {0}
*/
public static Fragment BadEnclosingMethod(Symbol arg0) {
return new Fragment("compiler", "bad.enclosing.method", arg0);
}
compiler.misc.bad.instance.method.in.unbound.lookup=\
unexpected instance {0} {1} found in unbound lookup
/**
* compiler.misc.bad.instance.method.in.unbound.lookup=\
* unexpected instance {0} {1} found in unbound lookup
*/
public static Fragment BadInstanceMethodInUnboundLookup(Kind arg0, Symbol arg1) {
return new Fragment("compiler", "bad.instance.method.in.unbound.lookup", arg0, arg1);
}
compiler.misc.bad.intersection.target.for.functional.expr=\
bad intersection type target for lambda or method reference\n\
{0}
/**
* compiler.misc.bad.intersection.target.for.functional.expr=\
* bad intersection type target for lambda or method reference\n\
* {0}
*/
public static Fragment BadIntersectionTargetForFunctionalExpr(JCDiagnostic arg0) {
return new Fragment("compiler", "bad.intersection.target.for.functional.expr", arg0);
}
compiler.misc.bad.intersection.target.for.functional.expr=\
bad intersection type target for lambda or method reference\n\
{0}
/**
* compiler.misc.bad.intersection.target.for.functional.expr=\
* bad intersection type target for lambda or method reference\n\
* {0}
*/
public static Fragment BadIntersectionTargetForFunctionalExpr(Fragment arg0) {
return new Fragment("compiler", "bad.intersection.target.for.functional.expr", arg0);
}
compiler.misc.bad.module-info.name=\
bad class name
/**
* compiler.misc.bad.module-info.name=\
* bad class name
*/
public static final Fragment BadModuleInfoName = new Fragment("compiler", "bad.module-info.name");
compiler.misc.bad.requires.flag=\
bad requires flag: {0}
/**
* compiler.misc.bad.requires.flag=\
* bad requires flag: {0}
*/
public static final Fragment BadRequiresFlag = new Fragment("compiler", "bad.requires.flag");
compiler.misc.bad.runtime.invisible.param.annotations=\
bad RuntimeInvisibleParameterAnnotations attribute: {0}
/**
* compiler.misc.bad.runtime.invisible.param.annotations=\
* bad RuntimeInvisibleParameterAnnotations attribute: {0}
*/
public static final Fragment BadRuntimeInvisibleParamAnnotations = new Fragment("compiler", "bad.runtime.invisible.param.annotations");
compiler.misc.bad.signature=\
bad signature: {0}
/**
* compiler.misc.bad.signature=\
* bad signature: {0}
*/
public static final Fragment BadSignature = new Fragment("compiler", "bad.signature");
compiler.misc.bad.source.file.header=\
bad source file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the sourcepath.
/**
* compiler.misc.bad.source.file.header=\
* bad source file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the sourcepath.
*/
public static Fragment BadSourceFileHeader(File arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "bad.source.file.header", arg0, arg1);
}
compiler.misc.bad.source.file.header=\
bad source file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the sourcepath.
/**
* compiler.misc.bad.source.file.header=\
* bad source file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the sourcepath.
*/
public static Fragment BadSourceFileHeader(File arg0, Fragment arg1) {
return new Fragment("compiler", "bad.source.file.header", arg0, arg1);
}
compiler.misc.bad.source.file.header=\
bad source file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the sourcepath.
/**
* compiler.misc.bad.source.file.header=\
* bad source file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the sourcepath.
*/
public static Fragment BadSourceFileHeader(JavaFileObject arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "bad.source.file.header", arg0, arg1);
}
compiler.misc.bad.source.file.header=\
bad source file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the sourcepath.
/**
* compiler.misc.bad.source.file.header=\
* bad source file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the sourcepath.
*/
public static Fragment BadSourceFileHeader(JavaFileObject arg0, Fragment arg1) {
return new Fragment("compiler", "bad.source.file.header", arg0, arg1);
}
compiler.misc.bad.source.file.header=\
bad source file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the sourcepath.
/**
* compiler.misc.bad.source.file.header=\
* bad source file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the sourcepath.
*/
public static Fragment BadSourceFileHeader(Path arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "bad.source.file.header", arg0, arg1);
}
compiler.misc.bad.source.file.header=\
bad source file: {0}\n\
{1}\n\
Please remove or make sure it appears in the correct subdirectory of the sourcepath.
/**
* compiler.misc.bad.source.file.header=\
* bad source file: {0}\n\
* {1}\n\
* Please remove or make sure it appears in the correct subdirectory of the sourcepath.
*/
public static Fragment BadSourceFileHeader(Path arg0, Fragment arg1) {
return new Fragment("compiler", "bad.source.file.header", arg0, arg1);
}
compiler.misc.bad.static.method.in.bound.lookup=\
unexpected static {0} {1} found in bound lookup
/**
* compiler.misc.bad.static.method.in.bound.lookup=\
* unexpected static {0} {1} found in bound lookup
*/
public static Fragment BadStaticMethodInBoundLookup(Kind arg0, Symbol arg1) {
return new Fragment("compiler", "bad.static.method.in.bound.lookup", arg0, arg1);
}
compiler.misc.bad.static.method.in.unbound.lookup=\
unexpected static {0} {1} found in unbound lookup
/**
* compiler.misc.bad.static.method.in.unbound.lookup=\
* unexpected static {0} {1} found in unbound lookup
*/
public static Fragment BadStaticMethodInUnboundLookup(Kind arg0, Symbol arg1) {
return new Fragment("compiler", "bad.static.method.in.unbound.lookup", arg0, arg1);
}
compiler.misc.bad.type.annotation.value=\
bad type annotation target type value: {0}
/**
* compiler.misc.bad.type.annotation.value=\
* bad type annotation target type value: {0}
*/
public static final Fragment BadTypeAnnotationValue = new Fragment("compiler", "bad.type.annotation.value");
compiler.misc.base.membership=\
all your base class are belong to us
/**
* compiler.misc.base.membership=\
* all your base class are belong to us
*/
public static final Fragment BaseMembership = new Fragment("compiler", "base.membership");
compiler.misc.cant.access.inner.cls.constr=\
cannot access constructor {0}({1})\n\
an enclosing instance of type {2} is not in scope
/**
* compiler.misc.cant.access.inner.cls.constr=\
* cannot access constructor {0}({1})\n\
* an enclosing instance of type {2} is not in scope
*/
public static Fragment CantAccessInnerClsConstr(Symbol arg0, List<? extends Type> arg1, Type arg2) {
return new Fragment("compiler", "cant.access.inner.cls.constr", arg0, arg1, arg2);
}
compiler.misc.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.misc.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Fragment CantApplyDiamond1(JCDiagnostic arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.misc.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.misc.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Fragment CantApplyDiamond1(JCDiagnostic arg0, Fragment arg1) {
return new Fragment("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.misc.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.misc.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Fragment CantApplyDiamond1(Fragment arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.misc.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.misc.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Fragment CantApplyDiamond1(Fragment arg0, Fragment arg1) {
return new Fragment("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.misc.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.misc.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Fragment CantApplyDiamond1(Type arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.misc.cant.apply.diamond.1=\
cannot infer type arguments for {0}\n\
reason: {1}
/**
* compiler.misc.cant.apply.diamond.1=\
* cannot infer type arguments for {0}\n\
* reason: {1}
*/
public static Fragment CantApplyDiamond1(Type arg0, Fragment arg1) {
return new Fragment("compiler", "cant.apply.diamond.1", arg0, arg1);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, List<? extends Type> arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, List<? extends Type> arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, JCDiagnostic arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, JCDiagnostic arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, Fragment arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, List<? extends Type> arg2, Fragment arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, List<? extends Type> arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, List<? extends Type> arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, JCDiagnostic arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, JCDiagnostic arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, Fragment arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, JCDiagnostic arg2, Fragment arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, List<? extends Type> arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, List<? extends Type> arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, JCDiagnostic arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, JCDiagnostic arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, Fragment arg3, Kind arg4, Type arg5, JCDiagnostic arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbol=\
{0} {1} in {4} {5} cannot be applied to given types\n\
required: {2}\n\
found: {3}\n\
reason: {6}
/**
* compiler.misc.cant.apply.symbol=\
* {0} {1} in {4} {5} cannot be applied to given types\n\
* required: {2}\n\
* found: {3}\n\
* reason: {6}
*/
public static Fragment CantApplySymbol(Kind arg0, Name arg1, Fragment arg2, Fragment arg3, Kind arg4, Type arg5, Fragment arg6) {
return new Fragment("compiler", "cant.apply.symbol", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.cant.apply.symbols=\
no suitable {0} found for {1}({2})
/**
* compiler.misc.cant.apply.symbols=\
* no suitable {0} found for {1}({2})
*/
public static Fragment CantApplySymbols(Kind arg0, Name arg1, List<? extends Type> arg2) {
return new Fragment("compiler", "cant.apply.symbols", arg0, arg1, arg2);
}
compiler.misc.cant.hide=\
{0} in {1} cannot hide {2} in {3}
/**
* compiler.misc.cant.hide=\
* {0} in {1} cannot hide {2} in {3}
*/
public static Fragment CantHide(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "cant.hide", arg0, arg1, arg2, arg3);
}
compiler.misc.cant.implement=\
{0} in {1} cannot implement {2} in {3}
/**
* compiler.misc.cant.implement=\
* {0} in {1} cannot implement {2} in {3}
*/
public static Fragment CantImplement(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "cant.implement", arg0, arg1, arg2, arg3);
}
compiler.misc.cant.override=\
{0} in {1} cannot override {2} in {3}
/**
* compiler.misc.cant.override=\
* {0} in {1} cannot override {2} in {3}
*/
public static Fragment CantOverride(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "cant.override", arg0, arg1, arg2, arg3);
}
compiler.misc.cant.resolve.args=\
cannot find symbol\n\
symbol: {0} {1}({3})
/**
* compiler.misc.cant.resolve.args=\
* cannot find symbol\n\
* symbol: {0} {1}({3})
*/
public static Fragment CantResolveArgs(KindName arg0, Name arg1, Void arg2, List<? extends Type> arg3) {
return new Fragment("compiler", "cant.resolve.args", arg0, arg1, arg2, arg3);
}
compiler.misc.cant.resolve.location.args=\
cannot find symbol\n\
symbol: {0} {1}({3})\n\
location: {4}
/**
* compiler.misc.cant.resolve.location.args=\
* cannot find symbol\n\
* symbol: {0} {1}({3})\n\
* location: {4}
*/
public static Fragment CantResolveLocationArgs(KindName arg0, Name arg1, Void arg2, List<? extends Type> arg3, JCDiagnostic arg4) {
return new Fragment("compiler", "cant.resolve.location.args", arg0, arg1, arg2, arg3, arg4);
}
compiler.misc.cant.resolve.location.args=\
cannot find symbol\n\
symbol: {0} {1}({3})\n\
location: {4}
/**
* compiler.misc.cant.resolve.location.args=\
* cannot find symbol\n\
* symbol: {0} {1}({3})\n\
* location: {4}
*/
public static Fragment CantResolveLocationArgs(KindName arg0, Name arg1, Void arg2, List<? extends Type> arg3, Fragment arg4) {
return new Fragment("compiler", "cant.resolve.location.args", arg0, arg1, arg2, arg3, arg4);
}
compiler.misc.cant.resolve.location.args.params=\
cannot find symbol\n\
symbol: {0} <{2}>{1}({3})\n\
location: {4}
/**
* compiler.misc.cant.resolve.location.args.params=\
* cannot find symbol\n\
* symbol: {0} <{2}>{1}({3})\n\
* location: {4}
*/
@SuppressWarnings("rawtypes")
public static Fragment CantResolveLocationArgsParams(KindName arg0, Name arg1, List<? extends Type> arg2, List arg3, JCDiagnostic arg4) {
return new Fragment("compiler", "cant.resolve.location.args.params", arg0, arg1, arg2, arg3, arg4);
}
compiler.misc.cant.resolve.location.args.params=\
cannot find symbol\n\
symbol: {0} <{2}>{1}({3})\n\
location: {4}
/**
* compiler.misc.cant.resolve.location.args.params=\
* cannot find symbol\n\
* symbol: {0} <{2}>{1}({3})\n\
* location: {4}
*/
@SuppressWarnings("rawtypes")
public static Fragment CantResolveLocationArgsParams(KindName arg0, Name arg1, List<? extends Type> arg2, List arg3, Fragment arg4) {
return new Fragment("compiler", "cant.resolve.location.args.params", arg0, arg1, arg2, arg3, arg4);
}
compiler.misc.cant.resolve.modules=\
cannot resolve modules
/**
* compiler.misc.cant.resolve.modules=\
* cannot resolve modules
*/
public static final Fragment CantResolveModules = new Fragment("compiler", "cant.resolve.modules");
compiler.misc.captured.type=\
CAP#{0}
/**
* compiler.misc.captured.type=\
* CAP#{0}
*/
public static Fragment CapturedType(int arg0) {
return new Fragment("compiler", "captured.type", arg0);
}
compiler.misc.clashes.with=\
{0} in {1} clashes with {2} in {3}
/**
* compiler.misc.clashes.with=\
* {0} in {1} clashes with {2} in {3}
*/
public static Fragment ClashesWith(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "clashes.with", arg0, arg1, arg2, arg3);
}
compiler.misc.class.file.not.found=\
class file for {0} not found
/**
* compiler.misc.class.file.not.found=\
* class file for {0} not found
*/
public static Fragment ClassFileNotFound(Name arg0) {
return new Fragment("compiler", "class.file.not.found", arg0);
}
compiler.misc.class.file.wrong.class=\
class file contains wrong class: {0}
/**
* compiler.misc.class.file.wrong.class=\
* class file contains wrong class: {0}
*/
public static final Fragment ClassFileWrongClass = new Fragment("compiler", "class.file.wrong.class");
compiler.misc.conditional.target.cant.be.void=\
target-type for conditional expression cannot be void
/**
* compiler.misc.conditional.target.cant.be.void=\
* target-type for conditional expression cannot be void
*/
public static final Fragment ConditionalTargetCantBeVoid = new Fragment("compiler", "conditional.target.cant.be.void");
compiler.misc.count.error=\
{0} error
/**
* compiler.misc.count.error=\
* {0} error
*/
public static Fragment CountError(int arg0) {
return new Fragment("compiler", "count.error", arg0);
}
compiler.misc.count.error.plural=\
{0} errors
/**
* compiler.misc.count.error.plural=\
* {0} errors
*/
public static Fragment CountErrorPlural(int arg0) {
return new Fragment("compiler", "count.error.plural", arg0);
}
compiler.misc.count.error.recompile=\
only showing the first {0} errors, of {1} total; use -Xmaxerrs if you would like to see more
/**
* compiler.misc.count.error.recompile=\
* only showing the first {0} errors, of {1} total; use -Xmaxerrs if you would like to see more
*/
public static Fragment CountErrorRecompile(int arg0, int arg1) {
return new Fragment("compiler", "count.error.recompile", arg0, arg1);
}
compiler.misc.count.warn=\
{0} warning
/**
* compiler.misc.count.warn=\
* {0} warning
*/
public static Fragment CountWarn(int arg0) {
return new Fragment("compiler", "count.warn", arg0);
}
compiler.misc.count.warn.plural=\
{0} warnings
/**
* compiler.misc.count.warn.plural=\
* {0} warnings
*/
public static Fragment CountWarnPlural(int arg0) {
return new Fragment("compiler", "count.warn.plural", arg0);
}
compiler.misc.count.warn.recompile=\
only showing the first {0} warnings, of {1} total; use -Xmaxwarns if you would like to see more
/**
* compiler.misc.count.warn.recompile=\
* only showing the first {0} warnings, of {1} total; use -Xmaxwarns if you would like to see more
*/
public static Fragment CountWarnRecompile(int arg0, int arg1) {
return new Fragment("compiler", "count.warn.recompile", arg0, arg1);
}
compiler.misc.descriptor=\
descriptor: {2} {0}({1})
/**
* compiler.misc.descriptor=\
* descriptor: {2} {0}({1})
*/
public static Fragment Descriptor(Name arg0, List<? extends Type> arg1, Type arg2, List<? extends Type> arg3) {
return new Fragment("compiler", "descriptor", arg0, arg1, arg2, arg3);
}
compiler.misc.descriptor.throws=\
descriptor: {2} {0}({1}) throws {3}
/**
* compiler.misc.descriptor.throws=\
* descriptor: {2} {0}({1}) throws {3}
*/
public static Fragment DescriptorThrows(Name arg0, List<? extends Type> arg1, Type arg2, List<? extends Type> arg3) {
return new Fragment("compiler", "descriptor.throws", arg0, arg1, arg2, arg3);
}
compiler.misc.diamond=\
{0}<>
/**
* compiler.misc.diamond=\
* {0}<>
*/
public static Fragment Diamond(Symbol arg0) {
return new Fragment("compiler", "diamond", arg0);
}
compiler.misc.diamond.and.explicit.params=\
cannot use ''<>'' with explicit type parameters for constructor
/**
* compiler.misc.diamond.and.explicit.params=\
* cannot use ''<>'' with explicit type parameters for constructor
*/
public static Fragment DiamondAndExplicitParams(Type arg0) {
return new Fragment("compiler", "diamond.and.explicit.params", arg0);
}
compiler.misc.diamond.anonymous.methods.implicitly.override=\
(due to <>, every non-private method declared in this anonymous class must override or implement a method from a supertype)
/**
* compiler.misc.diamond.anonymous.methods.implicitly.override=\
* (due to <>, every non-private method declared in this anonymous class must override or implement a method from a supertype)
*/
public static final Fragment DiamondAnonymousMethodsImplicitlyOverride = new Fragment("compiler", "diamond.anonymous.methods.implicitly.override");
compiler.misc.diamond.invalid.arg=\
type argument {0} inferred for {1} is not allowed in this context\n\
inferred argument is not expressible in the Signature attribute
/**
* compiler.misc.diamond.invalid.arg=\
* type argument {0} inferred for {1} is not allowed in this context\n\
* inferred argument is not expressible in the Signature attribute
*/
public static Fragment DiamondInvalidArg(List<? extends Type> arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "diamond.invalid.arg", arg0, arg1);
}
compiler.misc.diamond.invalid.arg=\
type argument {0} inferred for {1} is not allowed in this context\n\
inferred argument is not expressible in the Signature attribute
/**
* compiler.misc.diamond.invalid.arg=\
* type argument {0} inferred for {1} is not allowed in this context\n\
* inferred argument is not expressible in the Signature attribute
*/
public static Fragment DiamondInvalidArg(List<? extends Type> arg0, Fragment arg1) {
return new Fragment("compiler", "diamond.invalid.arg", arg0, arg1);
}
compiler.misc.diamond.invalid.args=\
type arguments {0} inferred for {1} are not allowed in this context\n\
inferred arguments are not expressible in the Signature attribute
/**
* compiler.misc.diamond.invalid.args=\
* type arguments {0} inferred for {1} are not allowed in this context\n\
* inferred arguments are not expressible in the Signature attribute
*/
public static Fragment DiamondInvalidArgs(List<? extends Type> arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "diamond.invalid.args", arg0, arg1);
}
compiler.misc.diamond.invalid.args=\
type arguments {0} inferred for {1} are not allowed in this context\n\
inferred arguments are not expressible in the Signature attribute
/**
* compiler.misc.diamond.invalid.args=\
* type arguments {0} inferred for {1} are not allowed in this context\n\
* inferred arguments are not expressible in the Signature attribute
*/
public static Fragment DiamondInvalidArgs(List<? extends Type> arg0, Fragment arg1) {
return new Fragment("compiler", "diamond.invalid.args", arg0, arg1);
}
compiler.misc.diamond.non.generic=\
cannot use ''<>'' with non-generic class {0}
/**
* compiler.misc.diamond.non.generic=\
* cannot use ''<>'' with non-generic class {0}
*/
public static Fragment DiamondNonGeneric(Type arg0) {
return new Fragment("compiler", "diamond.non.generic", arg0);
}
compiler.misc.eq.bounds=\
equality constraints: {0}
/**
* compiler.misc.eq.bounds=\
* equality constraints: {0}
*/
public static Fragment EqBounds(List<? extends Type> arg0) {
return new Fragment("compiler", "eq.bounds", arg0);
}
compiler.misc.exception.message=\
{0}
/**
* compiler.misc.exception.message=\
* {0}
*/
public static Fragment ExceptionMessage(String arg0) {
return new Fragment("compiler", "exception.message", arg0);
}
compiler.misc.explicit.param.do.not.conform.to.bounds=\
explicit type argument {0} does not conform to declared bound(s) {1}
/**
* compiler.misc.explicit.param.do.not.conform.to.bounds=\
* explicit type argument {0} does not conform to declared bound(s) {1}
*/
public static Fragment ExplicitParamDoNotConformToBounds(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "explicit.param.do.not.conform.to.bounds", arg0, arg1);
}
compiler.misc.fatal.err.cant.close=\
Fatal Error: Cannot close compiler resources
/**
* compiler.misc.fatal.err.cant.close=\
* Fatal Error: Cannot close compiler resources
*/
public static final Fragment FatalErrCantClose = new Fragment("compiler", "fatal.err.cant.close");
compiler.misc.fatal.err.cant.locate.ctor=\
Fatal Error: Unable to find constructor for {0}
/**
* compiler.misc.fatal.err.cant.locate.ctor=\
* Fatal Error: Unable to find constructor for {0}
*/
public static Fragment FatalErrCantLocateCtor(Type arg0) {
return new Fragment("compiler", "fatal.err.cant.locate.ctor", arg0);
}
compiler.misc.fatal.err.cant.locate.field=\
Fatal Error: Unable to find field {0}
/**
* compiler.misc.fatal.err.cant.locate.field=\
* Fatal Error: Unable to find field {0}
*/
public static Fragment FatalErrCantLocateField(Name arg0) {
return new Fragment("compiler", "fatal.err.cant.locate.field", arg0);
}
compiler.misc.fatal.err.cant.locate.meth=\
Fatal Error: Unable to find method {0}
/**
* compiler.misc.fatal.err.cant.locate.meth=\
* Fatal Error: Unable to find method {0}
*/
public static Fragment FatalErrCantLocateMeth(Name arg0) {
return new Fragment("compiler", "fatal.err.cant.locate.meth", arg0);
}
compiler.misc.fatal.err.no.java.lang=\
Fatal Error: Unable to find package java.lang in classpath or bootclasspath
/**
* compiler.misc.fatal.err.no.java.lang=\
* Fatal Error: Unable to find package java.lang in classpath or bootclasspath
*/
public static final Fragment FatalErrNoJavaLang = new Fragment("compiler", "fatal.err.no.java.lang");
compiler.misc.feature.annotations.after.type.params=\
annotations after method type parameters
/**
* compiler.misc.feature.annotations.after.type.params=\
* annotations after method type parameters
*/
public static final Fragment FeatureAnnotationsAfterTypeParams = new Fragment("compiler", "feature.annotations.after.type.params");
compiler.misc.feature.default.methods=\
default methods
/**
* compiler.misc.feature.default.methods=\
* default methods
*/
public static final Fragment FeatureDefaultMethods = new Fragment("compiler", "feature.default.methods");
compiler.misc.feature.diamond=\
diamond operator
/**
* compiler.misc.feature.diamond=\
* diamond operator
*/
public static final Fragment FeatureDiamond = new Fragment("compiler", "feature.diamond");
compiler.misc.feature.diamond.and.anon.class=\
''<>'' with anonymous inner classes
/**
* compiler.misc.feature.diamond.and.anon.class=\
* ''<>'' with anonymous inner classes
*/
public static final Fragment FeatureDiamondAndAnonClass = new Fragment("compiler", "feature.diamond.and.anon.class");
compiler.misc.feature.intersection.types.in.cast=\
intersection types
/**
* compiler.misc.feature.intersection.types.in.cast=\
* intersection types
*/
public static final Fragment FeatureIntersectionTypesInCast = new Fragment("compiler", "feature.intersection.types.in.cast");
compiler.misc.feature.lambda=\
lambda expressions
/**
* compiler.misc.feature.lambda=\
* lambda expressions
*/
public static final Fragment FeatureLambda = new Fragment("compiler", "feature.lambda");
compiler.misc.feature.method.references=\
method references
/**
* compiler.misc.feature.method.references=\
* method references
*/
public static final Fragment FeatureMethodReferences = new Fragment("compiler", "feature.method.references");
compiler.misc.feature.modules=\
modules
/**
* compiler.misc.feature.modules=\
* modules
*/
public static final Fragment FeatureModules = new Fragment("compiler", "feature.modules");
compiler.misc.feature.multiple.case.labels=\
multiple case labels
/**
* compiler.misc.feature.multiple.case.labels=\
* multiple case labels
*/
public static final Fragment FeatureMultipleCaseLabels = new Fragment("compiler", "feature.multiple.case.labels");
compiler.misc.feature.not.supported.in.source=\
{0} is not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.misc.feature.not.supported.in.source=\
* {0} is not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Fragment FeatureNotSupportedInSource(JCDiagnostic arg0, String arg1, String arg2) {
return new Fragment("compiler", "feature.not.supported.in.source", arg0, arg1, arg2);
}
compiler.misc.feature.not.supported.in.source=\
{0} is not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.misc.feature.not.supported.in.source=\
* {0} is not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Fragment FeatureNotSupportedInSource(Fragment arg0, String arg1, String arg2) {
return new Fragment("compiler", "feature.not.supported.in.source", arg0, arg1, arg2);
}
compiler.misc.feature.not.supported.in.source.plural=\
{0} are not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.misc.feature.not.supported.in.source.plural=\
* {0} are not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Fragment FeatureNotSupportedInSourcePlural(JCDiagnostic arg0, String arg1, String arg2) {
return new Fragment("compiler", "feature.not.supported.in.source.plural", arg0, arg1, arg2);
}
compiler.misc.feature.not.supported.in.source.plural=\
{0} are not supported in -source {1}\n\
(use -source {2} or higher to enable {0})
/**
* compiler.misc.feature.not.supported.in.source.plural=\
* {0} are not supported in -source {1}\n\
* (use -source {2} or higher to enable {0})
*/
public static Fragment FeatureNotSupportedInSourcePlural(Fragment arg0, String arg1, String arg2) {
return new Fragment("compiler", "feature.not.supported.in.source.plural", arg0, arg1, arg2);
}
compiler.misc.feature.private.intf.methods=\
private interface methods
/**
* compiler.misc.feature.private.intf.methods=\
* private interface methods
*/
public static final Fragment FeaturePrivateIntfMethods = new Fragment("compiler", "feature.private.intf.methods");
compiler.misc.feature.repeatable.annotations=\
repeated annotations
/**
* compiler.misc.feature.repeatable.annotations=\
* repeated annotations
*/
public static final Fragment FeatureRepeatableAnnotations = new Fragment("compiler", "feature.repeatable.annotations");
compiler.misc.feature.static.intf.method.invoke=\
static interface method invocations
/**
* compiler.misc.feature.static.intf.method.invoke=\
* static interface method invocations
*/
public static final Fragment FeatureStaticIntfMethodInvoke = new Fragment("compiler", "feature.static.intf.method.invoke");
compiler.misc.feature.static.intf.methods=\
static interface methods
/**
* compiler.misc.feature.static.intf.methods=\
* static interface methods
*/
public static final Fragment FeatureStaticIntfMethods = new Fragment("compiler", "feature.static.intf.methods");
compiler.misc.feature.switch.expressions=\
switch expressions
/**
* compiler.misc.feature.switch.expressions=\
* switch expressions
*/
public static final Fragment FeatureSwitchExpressions = new Fragment("compiler", "feature.switch.expressions");
compiler.misc.feature.switch.rules=\
switch rules
/**
* compiler.misc.feature.switch.rules=\
* switch rules
*/
public static final Fragment FeatureSwitchRules = new Fragment("compiler", "feature.switch.rules");
compiler.misc.feature.text.blocks=\
text blocks
/**
* compiler.misc.feature.text.blocks=\
* text blocks
*/
public static final Fragment FeatureTextBlocks = new Fragment("compiler", "feature.text.blocks");
compiler.misc.feature.type.annotations=\
type annotations
/**
* compiler.misc.feature.type.annotations=\
* type annotations
*/
public static final Fragment FeatureTypeAnnotations = new Fragment("compiler", "feature.type.annotations");
compiler.misc.feature.var.in.try.with.resources=\
variables in try-with-resources
/**
* compiler.misc.feature.var.in.try.with.resources=\
* variables in try-with-resources
*/
public static final Fragment FeatureVarInTryWithResources = new Fragment("compiler", "feature.var.in.try.with.resources");
compiler.misc.feature.var.syntax.in.implicit.lambda=\
var syntax in implicit lambdas
/**
* compiler.misc.feature.var.syntax.in.implicit.lambda=\
* var syntax in implicit lambdas
*/
public static final Fragment FeatureVarSyntaxInImplicitLambda = new Fragment("compiler", "feature.var.syntax.in.implicit.lambda");
compiler.misc.file.does.not.contain.module=\
file does not contain module declaration
/**
* compiler.misc.file.does.not.contain.module=\
* file does not contain module declaration
*/
public static final Fragment FileDoesNotContainModule = new Fragment("compiler", "file.does.not.contain.module");
compiler.misc.file.does.not.contain.package=\
file does not contain package {0}
/**
* compiler.misc.file.does.not.contain.package=\
* file does not contain package {0}
*/
public static Fragment FileDoesNotContainPackage(Symbol arg0) {
return new Fragment("compiler", "file.does.not.contain.package", arg0);
}
compiler.misc.file.doesnt.contain.class=\
file does not contain class {0}
/**
* compiler.misc.file.doesnt.contain.class=\
* file does not contain class {0}
*/
public static Fragment FileDoesntContainClass(Name arg0) {
return new Fragment("compiler", "file.doesnt.contain.class", arg0);
}
compiler.misc.illegal.signature=\
illegal signature attribute for type {1}
/**
* compiler.misc.illegal.signature=\
* illegal signature attribute for type {1}
*/
public static Fragment IllegalSignature(Symbol arg0, Type arg1) {
return new Fragment("compiler", "illegal.signature", arg0, arg1);
}
compiler.misc.illegal.start.of.class.file=\
illegal start of class file
/**
* compiler.misc.illegal.start.of.class.file=\
* illegal start of class file
*/
public static final Fragment IllegalStartOfClassFile = new Fragment("compiler", "illegal.start.of.class.file");
compiler.misc.implicit.and.explicit.not.allowed=\
cannot mix implicitly-typed and explicitly-typed parameters
/**
* compiler.misc.implicit.and.explicit.not.allowed=\
* cannot mix implicitly-typed and explicitly-typed parameters
*/
public static final Fragment ImplicitAndExplicitNotAllowed = new Fragment("compiler", "implicit.and.explicit.not.allowed");
compiler.misc.inaccessible.varargs.type=\
formal varargs element type {0} is not accessible from {1} {2}
/**
* compiler.misc.inaccessible.varargs.type=\
* formal varargs element type {0} is not accessible from {1} {2}
*/
public static Fragment InaccessibleVarargsType(Type arg0, Kind arg1, Symbol arg2) {
return new Fragment("compiler", "inaccessible.varargs.type", arg0, arg1, arg2);
}
compiler.misc.inapplicable.method=\
{0} {1}.{2} is not applicable\n\
({3})
/**
* compiler.misc.inapplicable.method=\
* {0} {1}.{2} is not applicable\n\
* ({3})
*/
public static Fragment InapplicableMethod(KindName arg0, Symbol arg1, Symbol arg2, JCDiagnostic arg3) {
return new Fragment("compiler", "inapplicable.method", arg0, arg1, arg2, arg3);
}
compiler.misc.inapplicable.method=\
{0} {1}.{2} is not applicable\n\
({3})
/**
* compiler.misc.inapplicable.method=\
* {0} {1}.{2} is not applicable\n\
* ({3})
*/
public static Fragment InapplicableMethod(KindName arg0, Symbol arg1, Symbol arg2, Fragment arg3) {
return new Fragment("compiler", "inapplicable.method", arg0, arg1, arg2, arg3);
}
compiler.misc.incompatible.abstract.default=\
{0} {1} inherits abstract and default for {2}({3}) from types {4} and {5}
/**
* compiler.misc.incompatible.abstract.default=\
* {0} {1} inherits abstract and default for {2}({3}) from types {4} and {5}
*/
public static Fragment IncompatibleAbstractDefault(KindName arg0, Type arg1, Name arg2, List<? extends Type> arg3, Symbol arg4, Symbol arg5) {
return new Fragment("compiler", "incompatible.abstract.default", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.misc.incompatible.abstracts=\
multiple non-overriding abstract methods found in {0} {1}
/**
* compiler.misc.incompatible.abstracts=\
* multiple non-overriding abstract methods found in {0} {1}
*/
public static Fragment IncompatibleAbstracts(KindName arg0, Symbol arg1) {
return new Fragment("compiler", "incompatible.abstracts", arg0, arg1);
}
compiler.misc.incompatible.arg.types.in.lambda=\
incompatible parameter types in lambda expression
/**
* compiler.misc.incompatible.arg.types.in.lambda=\
* incompatible parameter types in lambda expression
*/
public static final Fragment IncompatibleArgTypesInLambda = new Fragment("compiler", "incompatible.arg.types.in.lambda");
compiler.misc.incompatible.arg.types.in.mref=\
incompatible parameter types in method reference
/**
* compiler.misc.incompatible.arg.types.in.mref=\
* incompatible parameter types in method reference
*/
public static final Fragment IncompatibleArgTypesInMref = new Fragment("compiler", "incompatible.arg.types.in.mref");
compiler.misc.incompatible.bounds=\
inference variable {0} has incompatible bounds\n\
{1}\n\
{2}
/**
* compiler.misc.incompatible.bounds=\
* inference variable {0} has incompatible bounds\n\
* {1}\n\
* {2}
*/
public static Fragment IncompatibleBounds(Type arg0, Fragment arg1, Fragment arg2) {
return new Fragment("compiler", "incompatible.bounds", arg0, arg1, arg2);
}
compiler.misc.incompatible.descs.in.functional.intf=\
incompatible function descriptors found in {0} {1}
/**
* compiler.misc.incompatible.descs.in.functional.intf=\
* incompatible function descriptors found in {0} {1}
*/
public static Fragment IncompatibleDescsInFunctionalIntf(KindName arg0, Symbol arg1) {
return new Fragment("compiler", "incompatible.descs.in.functional.intf", arg0, arg1);
}
compiler.misc.incompatible.diff.ret=\
both define {0}({1}), but with unrelated return types
/**
* compiler.misc.incompatible.diff.ret=\
* both define {0}({1}), but with unrelated return types
*/
public static Fragment IncompatibleDiffRet(Name arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "incompatible.diff.ret", arg0, arg1);
}
compiler.misc.incompatible.eq.bounds=\
inference variable {0} has incompatible equality constraints {1}
/**
* compiler.misc.incompatible.eq.bounds=\
* inference variable {0} has incompatible equality constraints {1}
*/
public static Fragment IncompatibleEqBounds(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "incompatible.eq.bounds", arg0, arg1);
}
compiler.misc.incompatible.ret.type.in.lambda=\
bad return type in lambda expression\n\
{0}
/**
* compiler.misc.incompatible.ret.type.in.lambda=\
* bad return type in lambda expression\n\
* {0}
*/
public static Fragment IncompatibleRetTypeInLambda(JCDiagnostic arg0) {
return new Fragment("compiler", "incompatible.ret.type.in.lambda", arg0);
}
compiler.misc.incompatible.ret.type.in.lambda=\
bad return type in lambda expression\n\
{0}
/**
* compiler.misc.incompatible.ret.type.in.lambda=\
* bad return type in lambda expression\n\
* {0}
*/
public static Fragment IncompatibleRetTypeInLambda(Fragment arg0) {
return new Fragment("compiler", "incompatible.ret.type.in.lambda", arg0);
}
compiler.misc.incompatible.ret.type.in.mref=\
bad return type in method reference\n\
{0}
/**
* compiler.misc.incompatible.ret.type.in.mref=\
* bad return type in method reference\n\
* {0}
*/
public static Fragment IncompatibleRetTypeInMref(JCDiagnostic arg0) {
return new Fragment("compiler", "incompatible.ret.type.in.mref", arg0);
}
compiler.misc.incompatible.ret.type.in.mref=\
bad return type in method reference\n\
{0}
/**
* compiler.misc.incompatible.ret.type.in.mref=\
* bad return type in method reference\n\
* {0}
*/
public static Fragment IncompatibleRetTypeInMref(Fragment arg0) {
return new Fragment("compiler", "incompatible.ret.type.in.mref", arg0);
}
compiler.misc.incompatible.type.in.conditional=\
bad type in conditional expression\n\
{0}
/**
* compiler.misc.incompatible.type.in.conditional=\
* bad type in conditional expression\n\
* {0}
*/
public static Fragment IncompatibleTypeInConditional(JCDiagnostic arg0) {
return new Fragment("compiler", "incompatible.type.in.conditional", arg0);
}
compiler.misc.incompatible.type.in.conditional=\
bad type in conditional expression\n\
{0}
/**
* compiler.misc.incompatible.type.in.conditional=\
* bad type in conditional expression\n\
* {0}
*/
public static Fragment IncompatibleTypeInConditional(Fragment arg0) {
return new Fragment("compiler", "incompatible.type.in.conditional", arg0);
}
compiler.misc.incompatible.type.in.switch.expression=\
bad type in switch expression\n\
{0}
/**
* compiler.misc.incompatible.type.in.switch.expression=\
* bad type in switch expression\n\
* {0}
*/
public static Fragment IncompatibleTypeInSwitchExpression(JCDiagnostic arg0) {
return new Fragment("compiler", "incompatible.type.in.switch.expression", arg0);
}
compiler.misc.incompatible.type.in.switch.expression=\
bad type in switch expression\n\
{0}
/**
* compiler.misc.incompatible.type.in.switch.expression=\
* bad type in switch expression\n\
* {0}
*/
public static Fragment IncompatibleTypeInSwitchExpression(Fragment arg0) {
return new Fragment("compiler", "incompatible.type.in.switch.expression", arg0);
}
compiler.misc.incompatible.unrelated.defaults=\
{0} {1} inherits unrelated defaults for {2}({3}) from types {4} and {5}
/**
* compiler.misc.incompatible.unrelated.defaults=\
* {0} {1} inherits unrelated defaults for {2}({3}) from types {4} and {5}
*/
public static Fragment IncompatibleUnrelatedDefaults(KindName arg0, Type arg1, Name arg2, List<? extends Type> arg3, Symbol arg4, Symbol arg5) {
return new Fragment("compiler", "incompatible.unrelated.defaults", arg0, arg1, arg2, arg3, arg4, arg5);
}
compiler.misc.incompatible.upper.bounds=\
inference variable {0} has incompatible upper bounds {1}
/**
* compiler.misc.incompatible.upper.bounds=\
* inference variable {0} has incompatible upper bounds {1}
*/
public static Fragment IncompatibleUpperBounds(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "incompatible.upper.bounds", arg0, arg1);
}
compiler.misc.inconvertible.types=\
{0} cannot be converted to {1}
/**
* compiler.misc.inconvertible.types=\
* {0} cannot be converted to {1}
*/
public static Fragment InconvertibleTypes(Type arg0, Type arg1) {
return new Fragment("compiler", "inconvertible.types", arg0, arg1);
}
compiler.misc.infer.arg.length.mismatch=\
cannot infer type-variable(s) {0}\n\
(actual and formal argument lists differ in length)
/**
* compiler.misc.infer.arg.length.mismatch=\
* cannot infer type-variable(s) {0}\n\
* (actual and formal argument lists differ in length)
*/
public static Fragment InferArgLengthMismatch(List<? extends Type> arg0) {
return new Fragment("compiler", "infer.arg.length.mismatch", arg0);
}
compiler.misc.infer.no.conforming.assignment.exists=\
cannot infer type-variable(s) {0}\n\
(argument mismatch; {1})
/**
* compiler.misc.infer.no.conforming.assignment.exists=\
* cannot infer type-variable(s) {0}\n\
* (argument mismatch; {1})
*/
public static Fragment InferNoConformingAssignmentExists(List<? extends Type> arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "infer.no.conforming.assignment.exists", arg0, arg1);
}
compiler.misc.infer.no.conforming.assignment.exists=\
cannot infer type-variable(s) {0}\n\
(argument mismatch; {1})
/**
* compiler.misc.infer.no.conforming.assignment.exists=\
* cannot infer type-variable(s) {0}\n\
* (argument mismatch; {1})
*/
public static Fragment InferNoConformingAssignmentExists(List<? extends Type> arg0, Fragment arg1) {
return new Fragment("compiler", "infer.no.conforming.assignment.exists", arg0, arg1);
}
compiler.misc.infer.no.conforming.instance.exists=\
no instance(s) of type variable(s) {0} exist so that {1} conforms to {2}
/**
* compiler.misc.infer.no.conforming.instance.exists=\
* no instance(s) of type variable(s) {0} exist so that {1} conforms to {2}
*/
public static Fragment InferNoConformingInstanceExists(List<? extends Type> arg0, Type arg1, Type arg2) {
return new Fragment("compiler", "infer.no.conforming.instance.exists", arg0, arg1, arg2);
}
compiler.misc.infer.varargs.argument.mismatch=\
cannot infer type-variable(s) {0}\n\
(varargs mismatch; {1})
/**
* compiler.misc.infer.varargs.argument.mismatch=\
* cannot infer type-variable(s) {0}\n\
* (varargs mismatch; {1})
*/
public static Fragment InferVarargsArgumentMismatch(List<? extends Type> arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "infer.varargs.argument.mismatch", arg0, arg1);
}
compiler.misc.infer.varargs.argument.mismatch=\
cannot infer type-variable(s) {0}\n\
(varargs mismatch; {1})
/**
* compiler.misc.infer.varargs.argument.mismatch=\
* cannot infer type-variable(s) {0}\n\
* (varargs mismatch; {1})
*/
public static Fragment InferVarargsArgumentMismatch(List<? extends Type> arg0, Fragment arg1) {
return new Fragment("compiler", "infer.varargs.argument.mismatch", arg0, arg1);
}
compiler.misc.inferred.do.not.conform.to.eq.bounds=\
inferred type does not conform to equality constraint(s)\n\
inferred: {0}\n\
equality constraints(s): {1}
/**
* compiler.misc.inferred.do.not.conform.to.eq.bounds=\
* inferred type does not conform to equality constraint(s)\n\
* inferred: {0}\n\
* equality constraints(s): {1}
*/
public static Fragment InferredDoNotConformToEqBounds(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "inferred.do.not.conform.to.eq.bounds", arg0, arg1);
}
compiler.misc.inferred.do.not.conform.to.lower.bounds=\
inferred type does not conform to lower bound(s)\n\
inferred: {0}\n\
lower bound(s): {1}
/**
* compiler.misc.inferred.do.not.conform.to.lower.bounds=\
* inferred type does not conform to lower bound(s)\n\
* inferred: {0}\n\
* lower bound(s): {1}
*/
public static Fragment InferredDoNotConformToLowerBounds(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "inferred.do.not.conform.to.lower.bounds", arg0, arg1);
}
compiler.misc.inferred.do.not.conform.to.upper.bounds=\
inferred type does not conform to upper bound(s)\n\
inferred: {0}\n\
upper bound(s): {1}
/**
* compiler.misc.inferred.do.not.conform.to.upper.bounds=\
* inferred type does not conform to upper bound(s)\n\
* inferred: {0}\n\
* upper bound(s): {1}
*/
public static Fragment InferredDoNotConformToUpperBounds(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "inferred.do.not.conform.to.upper.bounds", arg0, arg1);
}
compiler.misc.inner.cls=\
an inner class
/**
* compiler.misc.inner.cls=\
* an inner class
*/
public static final Fragment InnerCls = new Fragment("compiler", "inner.cls");
compiler.misc.intersection.type=\
INT#{0}
/**
* compiler.misc.intersection.type=\
* INT#{0}
*/
public static Fragment IntersectionType(int arg0) {
return new Fragment("compiler", "intersection.type", arg0);
}
compiler.misc.invalid.default.interface=\
default method found in version {0}.{1} classfile
/**
* compiler.misc.invalid.default.interface=\
* default method found in version {0}.{1} classfile
*/
public static Fragment InvalidDefaultInterface(String arg0, String arg1) {
return new Fragment("compiler", "invalid.default.interface", arg0, arg1);
}
compiler.misc.invalid.generic.lambda.target=\
invalid functional descriptor for lambda expression\n\
method {0} in {1} {2} is generic
/**
* compiler.misc.invalid.generic.lambda.target=\
* invalid functional descriptor for lambda expression\n\
* method {0} in {1} {2} is generic
*/
public static Fragment InvalidGenericLambdaTarget(Type arg0, KindName arg1, Symbol arg2) {
return new Fragment("compiler", "invalid.generic.lambda.target", arg0, arg1, arg2);
}
compiler.misc.invalid.mref=\
invalid {0} reference\n\
{1}
/**
* compiler.misc.invalid.mref=\
* invalid {0} reference\n\
* {1}
*/
public static Fragment InvalidMref(KindName arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "invalid.mref", arg0, arg1);
}
compiler.misc.invalid.mref=\
invalid {0} reference\n\
{1}
/**
* compiler.misc.invalid.mref=\
* invalid {0} reference\n\
* {1}
*/
public static Fragment InvalidMref(KindName arg0, Fragment arg1) {
return new Fragment("compiler", "invalid.mref", arg0, arg1);
}
compiler.misc.invalid.static.interface=\
static method found in version {0}.{1} classfile
/**
* compiler.misc.invalid.static.interface=\
* static method found in version {0}.{1} classfile
*/
public static Fragment InvalidStaticInterface(String arg0, String arg1) {
return new Fragment("compiler", "invalid.static.interface", arg0, arg1);
}
compiler.misc.kindname.annotation=\
@interface
/**
* compiler.misc.kindname.annotation=\
* @interface
*/
public static final Fragment KindnameAnnotation = new Fragment("compiler", "kindname.annotation");
compiler.misc.kindname.class=\
class
/**
* compiler.misc.kindname.class=\
* class
*/
public static final Fragment KindnameClass = new Fragment("compiler", "kindname.class");
compiler.misc.kindname.constructor=\
constructor
/**
* compiler.misc.kindname.constructor=\
* constructor
*/
public static final Fragment KindnameConstructor = new Fragment("compiler", "kindname.constructor");
compiler.misc.kindname.enum=\
enum
/**
* compiler.misc.kindname.enum=\
* enum
*/
public static final Fragment KindnameEnum = new Fragment("compiler", "kindname.enum");
compiler.misc.kindname.instance.init=\
instance initializer
/**
* compiler.misc.kindname.instance.init=\
* instance initializer
*/
public static final Fragment KindnameInstanceInit = new Fragment("compiler", "kindname.instance.init");
compiler.misc.kindname.interface=\
interface
/**
* compiler.misc.kindname.interface=\
* interface
*/
public static final Fragment KindnameInterface = new Fragment("compiler", "kindname.interface");
compiler.misc.kindname.method=\
method
/**
* compiler.misc.kindname.method=\
* method
*/
public static final Fragment KindnameMethod = new Fragment("compiler", "kindname.method");
compiler.misc.kindname.module=\
module
/**
* compiler.misc.kindname.module=\
* module
*/
public static final Fragment KindnameModule = new Fragment("compiler", "kindname.module");
compiler.misc.kindname.package=\
package
/**
* compiler.misc.kindname.package=\
* package
*/
public static final Fragment KindnamePackage = new Fragment("compiler", "kindname.package");
compiler.misc.kindname.static=\
static
/**
* compiler.misc.kindname.static=\
* static
*/
public static final Fragment KindnameStatic = new Fragment("compiler", "kindname.static");
compiler.misc.kindname.static.init=\
static initializer
/**
* compiler.misc.kindname.static.init=\
* static initializer
*/
public static final Fragment KindnameStaticInit = new Fragment("compiler", "kindname.static.init");
compiler.misc.kindname.type.variable=\
type variable
/**
* compiler.misc.kindname.type.variable=\
* type variable
*/
public static final Fragment KindnameTypeVariable = new Fragment("compiler", "kindname.type.variable");
compiler.misc.kindname.type.variable.bound=\
bound of type variable
/**
* compiler.misc.kindname.type.variable.bound=\
* bound of type variable
*/
public static final Fragment KindnameTypeVariableBound = new Fragment("compiler", "kindname.type.variable.bound");
compiler.misc.kindname.value=\
value
/**
* compiler.misc.kindname.value=\
* value
*/
public static final Fragment KindnameValue = new Fragment("compiler", "kindname.value");
compiler.misc.kindname.variable=\
variable
/**
* compiler.misc.kindname.variable=\
* variable
*/
public static final Fragment KindnameVariable = new Fragment("compiler", "kindname.variable");
compiler.misc.lambda=\
a lambda expression
/**
* compiler.misc.lambda=\
* a lambda expression
*/
public static final Fragment Lambda = new Fragment("compiler", "lambda");
compiler.misc.local.array.missing.target=\
array initializer needs an explicit target-type
/**
* compiler.misc.local.array.missing.target=\
* array initializer needs an explicit target-type
*/
public static final Fragment LocalArrayMissingTarget = new Fragment("compiler", "local.array.missing.target");
compiler.misc.local.cant.infer.null=\
variable initializer is ''null''
/**
* compiler.misc.local.cant.infer.null=\
* variable initializer is ''null''
*/
public static final Fragment LocalCantInferNull = new Fragment("compiler", "local.cant.infer.null");
compiler.misc.local.cant.infer.void=\
variable initializer is ''void''
/**
* compiler.misc.local.cant.infer.void=\
* variable initializer is ''void''
*/
public static final Fragment LocalCantInferVoid = new Fragment("compiler", "local.cant.infer.void");
compiler.misc.local.lambda.missing.target=\
lambda expression needs an explicit target-type
/**
* compiler.misc.local.lambda.missing.target=\
* lambda expression needs an explicit target-type
*/
public static final Fragment LocalLambdaMissingTarget = new Fragment("compiler", "local.lambda.missing.target");
compiler.misc.local.missing.init=\
cannot use ''var'' on variable without initializer
/**
* compiler.misc.local.missing.init=\
* cannot use ''var'' on variable without initializer
*/
public static final Fragment LocalMissingInit = new Fragment("compiler", "local.missing.init");
compiler.misc.local.mref.missing.target=\
method reference needs an explicit target-type
/**
* compiler.misc.local.mref.missing.target=\
* method reference needs an explicit target-type
*/
public static final Fragment LocalMrefMissingTarget = new Fragment("compiler", "local.mref.missing.target");
compiler.misc.local.self.ref=\
cannot use ''var'' on self-referencing variable
/**
* compiler.misc.local.self.ref=\
* cannot use ''var'' on self-referencing variable
*/
public static final Fragment LocalSelfRef = new Fragment("compiler", "local.self.ref");
compiler.misc.location=\
{0} {1}
/**
* compiler.misc.location=\
* {0} {1}
*/
public static Fragment Location(KindName arg0, Type arg1, Void arg2) {
return new Fragment("compiler", "location", arg0, arg1, arg2);
}
compiler.misc.location=\
{0} {1}
/**
* compiler.misc.location=\
* {0} {1}
*/
public static Fragment Location(KindName arg0, Symbol arg1, Void arg2) {
return new Fragment("compiler", "location", arg0, arg1, arg2);
}
compiler.misc.location.1=\
{0} {1} of type {2}
/**
* compiler.misc.location.1=\
* {0} {1} of type {2}
*/
public static Fragment Location1(KindName arg0, Symbol arg1, Type arg2) {
return new Fragment("compiler", "location.1", arg0, arg1, arg2);
}
compiler.misc.locn.module_path=\
application module path
/**
* compiler.misc.locn.module_path=\
* application module path
*/
public static final Fragment LocnModule_path = new Fragment("compiler", "locn.module_path");
compiler.misc.locn.module_source_path=\
module source path
/**
* compiler.misc.locn.module_source_path=\
* module source path
*/
public static final Fragment LocnModule_source_path = new Fragment("compiler", "locn.module_source_path");
compiler.misc.locn.system_modules=\
system modules
/**
* compiler.misc.locn.system_modules=\
* system modules
*/
public static final Fragment LocnSystem_modules = new Fragment("compiler", "locn.system_modules");
compiler.misc.locn.upgrade_module_path=\
upgrade module path
/**
* compiler.misc.locn.upgrade_module_path=\
* upgrade module path
*/
public static final Fragment LocnUpgrade_module_path = new Fragment("compiler", "locn.upgrade_module_path");
compiler.misc.lower.bounds=\
lower bounds: {0}
/**
* compiler.misc.lower.bounds=\
* lower bounds: {0}
*/
public static Fragment LowerBounds(List<? extends Type> arg0) {
return new Fragment("compiler", "lower.bounds", arg0);
}
compiler.misc.malformed.vararg.method=\
class file contains malformed variable arity method: {0}
/**
* compiler.misc.malformed.vararg.method=\
* class file contains malformed variable arity method: {0}
*/
public static final Fragment MalformedVarargMethod = new Fragment("compiler", "malformed.vararg.method");
compiler.misc.missing.ret.val=\
missing return value
/**
* compiler.misc.missing.ret.val=\
* missing return value
*/
public static Fragment MissingRetVal(Type arg0) {
return new Fragment("compiler", "missing.ret.val", arg0);
}
compiler.misc.module.info.invalid.super.class=\
module-info with invalid super class
/**
* compiler.misc.module.info.invalid.super.class=\
* module-info with invalid super class
*/
public static final Fragment ModuleInfoInvalidSuperClass = new Fragment("compiler", "module.info.invalid.super.class");
compiler.misc.module.name.mismatch=\
module name {0} does not match expected name {1}
/**
* compiler.misc.module.name.mismatch=\
* module name {0} does not match expected name {1}
*/
public static Fragment ModuleNameMismatch(Name arg0, Name arg1) {
return new Fragment("compiler", "module.name.mismatch", arg0, arg1);
}
compiler.misc.module.non.zero.opens=\
open module {0} has non-zero opens_count
/**
* compiler.misc.module.non.zero.opens=\
* open module {0} has non-zero opens_count
*/
public static Fragment ModuleNonZeroOpens(Name arg0) {
return new Fragment("compiler", "module.non.zero.opens", arg0);
}
compiler.misc.mref.infer.and.explicit.params=\
cannot use raw constructor reference with explicit type parameters for constructor
/**
* compiler.misc.mref.infer.and.explicit.params=\
* cannot use raw constructor reference with explicit type parameters for constructor
*/
public static final Fragment MrefInferAndExplicitParams = new Fragment("compiler", "mref.infer.and.explicit.params");
compiler.misc.no.abstracts=\
no abstract method found in {0} {1}
/**
* compiler.misc.no.abstracts=\
* no abstract method found in {0} {1}
*/
public static Fragment NoAbstracts(KindName arg0, Symbol arg1) {
return new Fragment("compiler", "no.abstracts", arg0, arg1);
}
compiler.misc.no.args=\
no arguments
/**
* compiler.misc.no.args=\
* no arguments
*/
public static final Fragment NoArgs = new Fragment("compiler", "no.args");
compiler.misc.no.conforming.assignment.exists=\
argument mismatch; {0}
/**
* compiler.misc.no.conforming.assignment.exists=\
* argument mismatch; {0}
*/
public static Fragment NoConformingAssignmentExists(JCDiagnostic arg0) {
return new Fragment("compiler", "no.conforming.assignment.exists", arg0);
}
compiler.misc.no.conforming.assignment.exists=\
argument mismatch; {0}
/**
* compiler.misc.no.conforming.assignment.exists=\
* argument mismatch; {0}
*/
public static Fragment NoConformingAssignmentExists(Fragment arg0) {
return new Fragment("compiler", "no.conforming.assignment.exists", arg0);
}
compiler.misc.no.suitable.functional.intf.inst=\
cannot infer functional interface descriptor for {0}
/**
* compiler.misc.no.suitable.functional.intf.inst=\
* cannot infer functional interface descriptor for {0}
*/
public static Fragment NoSuitableFunctionalIntfInst(Type arg0) {
return new Fragment("compiler", "no.suitable.functional.intf.inst", arg0);
}
compiler.misc.no.unique.maximal.instance.exists=\
no unique maximal instance exists for type variable {0} with upper bounds {1}
/**
* compiler.misc.no.unique.maximal.instance.exists=\
* no unique maximal instance exists for type variable {0} with upper bounds {1}
*/
public static Fragment NoUniqueMaximalInstanceExists(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "no.unique.maximal.instance.exists", arg0, arg1);
}
compiler.misc.no.unique.minimal.instance.exists=\
no unique minimal instance exists for type variable {0} with lower bounds {1}
/**
* compiler.misc.no.unique.minimal.instance.exists=\
* no unique minimal instance exists for type variable {0} with lower bounds {1}
*/
public static Fragment NoUniqueMinimalInstanceExists(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "no.unique.minimal.instance.exists", arg0, arg1);
}
compiler.misc.not.a.functional.intf=\
{0} is not a functional interface
/**
* compiler.misc.not.a.functional.intf=\
* {0} is not a functional interface
*/
public static Fragment NotAFunctionalIntf(Symbol arg0) {
return new Fragment("compiler", "not.a.functional.intf", arg0);
}
compiler.misc.not.a.functional.intf.1=\
{0} is not a functional interface\n\
{1}
/**
* compiler.misc.not.a.functional.intf.1=\
* {0} is not a functional interface\n\
* {1}
*/
public static Fragment NotAFunctionalIntf1(Symbol arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "not.a.functional.intf.1", arg0, arg1);
}
compiler.misc.not.a.functional.intf.1=\
{0} is not a functional interface\n\
{1}
/**
* compiler.misc.not.a.functional.intf.1=\
* {0} is not a functional interface\n\
* {1}
*/
public static Fragment NotAFunctionalIntf1(Symbol arg0, Fragment arg1) {
return new Fragment("compiler", "not.a.functional.intf.1", arg0, arg1);
}
compiler.misc.not.an.intf.component=\
component type {0} is not an interface
/**
* compiler.misc.not.an.intf.component=\
* component type {0} is not an interface
*/
public static Fragment NotAnIntfComponent(Symbol arg0) {
return new Fragment("compiler", "not.an.intf.component", arg0);
}
compiler.misc.not.an.intf.component=\
component type {0} is not an interface
/**
* compiler.misc.not.an.intf.component=\
* component type {0} is not an interface
*/
public static Fragment NotAnIntfComponent(Type arg0) {
return new Fragment("compiler", "not.an.intf.component", arg0);
}
compiler.misc.not.applicable.method.found=\
({2})
/**
* compiler.misc.not.applicable.method.found=\
* ({2})
*/
public static Fragment NotApplicableMethodFound(int arg0, Symbol arg1, JCDiagnostic arg2) {
return new Fragment("compiler", "not.applicable.method.found", arg0, arg1, arg2);
}
compiler.misc.not.applicable.method.found=\
({2})
/**
* compiler.misc.not.applicable.method.found=\
* ({2})
*/
public static Fragment NotApplicableMethodFound(int arg0, Symbol arg1, Fragment arg2) {
return new Fragment("compiler", "not.applicable.method.found", arg0, arg1, arg2);
}
compiler.misc.not.def.access.class.intf.cant.access=\
{1}.{0} is defined in an inaccessible class or interface
/**
* compiler.misc.not.def.access.class.intf.cant.access=\
* {1}.{0} is defined in an inaccessible class or interface
*/
public static Fragment NotDefAccessClassIntfCantAccess(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.access.class.intf.cant.access", arg0, arg1);
}
compiler.misc.not.def.access.class.intf.cant.access.reason=\
{1}.{0} in package {2} is not accessible\n\
({3})
/**
* compiler.misc.not.def.access.class.intf.cant.access.reason=\
* {1}.{0} in package {2} is not accessible\n\
* ({3})
*/
public static Fragment NotDefAccessClassIntfCantAccessReason(Symbol arg0, Symbol arg1, Symbol arg2, JCDiagnostic arg3) {
return new Fragment("compiler", "not.def.access.class.intf.cant.access.reason", arg0, arg1, arg2, arg3);
}
compiler.misc.not.def.access.class.intf.cant.access.reason=\
{1}.{0} in package {2} is not accessible\n\
({3})
/**
* compiler.misc.not.def.access.class.intf.cant.access.reason=\
* {1}.{0} in package {2} is not accessible\n\
* ({3})
*/
public static Fragment NotDefAccessClassIntfCantAccessReason(Symbol arg0, Symbol arg1, Symbol arg2, Fragment arg3) {
return new Fragment("compiler", "not.def.access.class.intf.cant.access.reason", arg0, arg1, arg2, arg3);
}
compiler.misc.not.def.access.does.not.read=\
package {1} is declared in module {2}, but module {0} does not read it
/**
* compiler.misc.not.def.access.does.not.read=\
* package {1} is declared in module {2}, but module {0} does not read it
*/
public static Fragment NotDefAccessDoesNotRead(Symbol arg0, Symbol arg1, Symbol arg2) {
return new Fragment("compiler", "not.def.access.does.not.read", arg0, arg1, arg2);
}
compiler.misc.not.def.access.does.not.read.from.unnamed=\
package {0} is declared in module {1}, which is not in the module graph
/**
* compiler.misc.not.def.access.does.not.read.from.unnamed=\
* package {0} is declared in module {1}, which is not in the module graph
*/
public static Fragment NotDefAccessDoesNotReadFromUnnamed(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.access.does.not.read.from.unnamed", arg0, arg1);
}
compiler.misc.not.def.access.does.not.read.unnamed=\
package {0} is declared in the unnamed module, but module {0} does not read it
/**
* compiler.misc.not.def.access.does.not.read.unnamed=\
* package {0} is declared in the unnamed module, but module {0} does not read it
*/
public static Fragment NotDefAccessDoesNotReadUnnamed(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.access.does.not.read.unnamed", arg0, arg1);
}
compiler.misc.not.def.access.not.exported=\
package {0} is declared in module {1}, which does not export it
/**
* compiler.misc.not.def.access.not.exported=\
* package {0} is declared in module {1}, which does not export it
*/
public static Fragment NotDefAccessNotExported(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.access.not.exported", arg0, arg1);
}
compiler.misc.not.def.access.not.exported.from.unnamed=\
package {0} is declared in module {1}, which does not export it
/**
* compiler.misc.not.def.access.not.exported.from.unnamed=\
* package {0} is declared in module {1}, which does not export it
*/
public static Fragment NotDefAccessNotExportedFromUnnamed(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.access.not.exported.from.unnamed", arg0, arg1);
}
compiler.misc.not.def.access.not.exported.to.module=\
package {0} is declared in module {1}, which does not export it to module {2}
/**
* compiler.misc.not.def.access.not.exported.to.module=\
* package {0} is declared in module {1}, which does not export it to module {2}
*/
public static Fragment NotDefAccessNotExportedToModule(Symbol arg0, Symbol arg1, Symbol arg2) {
return new Fragment("compiler", "not.def.access.not.exported.to.module", arg0, arg1, arg2);
}
compiler.misc.not.def.access.not.exported.to.module.from.unnamed=\
package {0} is declared in module {1}, which does not export it to the unnamed module
/**
* compiler.misc.not.def.access.not.exported.to.module.from.unnamed=\
* package {0} is declared in module {1}, which does not export it to the unnamed module
*/
public static Fragment NotDefAccessNotExportedToModuleFromUnnamed(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.access.not.exported.to.module.from.unnamed", arg0, arg1);
}
compiler.misc.not.def.access.package.cant.access=\
{0} is not visible\n\
({2})
/**
* compiler.misc.not.def.access.package.cant.access=\
* {0} is not visible\n\
* ({2})
*/
public static Fragment NotDefAccessPackageCantAccess(Symbol arg0, Symbol arg1, JCDiagnostic arg2) {
return new Fragment("compiler", "not.def.access.package.cant.access", arg0, arg1, arg2);
}
compiler.misc.not.def.access.package.cant.access=\
{0} is not visible\n\
({2})
/**
* compiler.misc.not.def.access.package.cant.access=\
* {0} is not visible\n\
* ({2})
*/
public static Fragment NotDefAccessPackageCantAccess(Symbol arg0, Symbol arg1, Fragment arg2) {
return new Fragment("compiler", "not.def.access.package.cant.access", arg0, arg1, arg2);
}
compiler.misc.not.def.public.cant.access=\
{0} is not public in {1}; cannot be accessed from outside package
/**
* compiler.misc.not.def.public.cant.access=\
* {0} is not public in {1}; cannot be accessed from outside package
*/
public static Fragment NotDefPublicCantAccess(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "not.def.public.cant.access", arg0, arg1);
}
compiler.misc.overridden.default=\
method {0} is overridden in {1}
/**
* compiler.misc.overridden.default=\
* method {0} is overridden in {1}
*/
public static Fragment OverriddenDefault(Symbol arg0, Type arg1) {
return new Fragment("compiler", "overridden.default", arg0, arg1);
}
compiler.misc.package.not.visible=\
package {0} is not visible\n\
({1})
/**
* compiler.misc.package.not.visible=\
* package {0} is not visible\n\
* ({1})
*/
public static Fragment PackageNotVisible(Symbol arg0, JCDiagnostic arg1) {
return new Fragment("compiler", "package.not.visible", arg0, arg1);
}
compiler.misc.package.not.visible=\
package {0} is not visible\n\
({1})
/**
* compiler.misc.package.not.visible=\
* package {0} is not visible\n\
* ({1})
*/
public static Fragment PackageNotVisible(Symbol arg0, Fragment arg1) {
return new Fragment("compiler", "package.not.visible", arg0, arg1);
}
compiler.misc.partial.inst.sig=\
partially instantiated to: {0}
/**
* compiler.misc.partial.inst.sig=\
* partially instantiated to: {0}
*/
public static Fragment PartialInstSig(Type arg0) {
return new Fragment("compiler", "partial.inst.sig", arg0);
}
compiler.misc.possible.loss.of.precision=\
possible lossy conversion from {0} to {1}
/**
* compiler.misc.possible.loss.of.precision=\
* possible lossy conversion from {0} to {1}
*/
public static Fragment PossibleLossOfPrecision(Type arg0, Type arg1) {
return new Fragment("compiler", "possible.loss.of.precision", arg0, arg1);
}
compiler.misc.prob.found.req=\
incompatible types: {0}
/**
* compiler.misc.prob.found.req=\
* incompatible types: {0}
*/
public static Fragment ProbFoundReq(JCDiagnostic arg0) {
return new Fragment("compiler", "prob.found.req", arg0);
}
compiler.misc.prob.found.req=\
incompatible types: {0}
/**
* compiler.misc.prob.found.req=\
* incompatible types: {0}
*/
public static Fragment ProbFoundReq(Fragment arg0) {
return new Fragment("compiler", "prob.found.req", arg0);
}
compiler.misc.redundant.supertype=\
redundant interface {0} is extended by {1}
/**
* compiler.misc.redundant.supertype=\
* redundant interface {0} is extended by {1}
*/
public static Fragment RedundantSupertype(Symbol arg0, Type arg1) {
return new Fragment("compiler", "redundant.supertype", arg0, arg1);
}
compiler.misc.redundant.supertype=\
redundant interface {0} is extended by {1}
/**
* compiler.misc.redundant.supertype=\
* redundant interface {0} is extended by {1}
*/
public static Fragment RedundantSupertype(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "redundant.supertype", arg0, arg1);
}
compiler.misc.ref.ambiguous=\
reference to {0} is ambiguous\n\
both {1} {2} in {3} and {4} {5} in {6} match
/**
* compiler.misc.ref.ambiguous=\
* reference to {0} is ambiguous\n\
* both {1} {2} in {3} and {4} {5} in {6} match
*/
public static Fragment RefAmbiguous(Name arg0, Kind arg1, Symbol arg2, Symbol arg3, Kind arg4, Symbol arg5, Symbol arg6) {
return new Fragment("compiler", "ref.ambiguous", arg0, arg1, arg2, arg3, arg4, arg5, arg6);
}
compiler.misc.report.access=\
{0} has {1} access in {2}
/**
* compiler.misc.report.access=\
* {0} has {1} access in {2}
*/
public static Fragment ReportAccess(Symbol arg0, Set<? extends Modifier> arg1, Symbol arg2) {
return new Fragment("compiler", "report.access", arg0, arg1, arg2);
}
compiler.misc.resume.abort=\
R)esume, A)bort>
/**
* compiler.misc.resume.abort=\
* R)esume, A)bort>
*/
public static final Fragment ResumeAbort = new Fragment("compiler", "resume.abort");
compiler.misc.source.unavailable=\
(source unavailable)
/**
* compiler.misc.source.unavailable=\
* (source unavailable)
*/
public static final Fragment SourceUnavailable = new Fragment("compiler", "source.unavailable");
compiler.misc.stat.expr.expected=\
lambda body is not compatible with a void functional interface\n\
(consider using a block lambda body, or use a statement expression instead)
/**
* compiler.misc.stat.expr.expected=\
* lambda body is not compatible with a void functional interface\n\
* (consider using a block lambda body, or use a statement expression instead)
*/
public static final Fragment StatExprExpected = new Fragment("compiler", "stat.expr.expected");
compiler.misc.static.mref.with.targs=\
parameterized qualifier on static method reference
/**
* compiler.misc.static.mref.with.targs=\
* parameterized qualifier on static method reference
*/
public static final Fragment StaticMrefWithTargs = new Fragment("compiler", "static.mref.with.targs");
compiler.misc.switch.expression.target.cant.be.void=\
target-type for switch expression cannot be void
/**
* compiler.misc.switch.expression.target.cant.be.void=\
* target-type for switch expression cannot be void
*/
public static final Fragment SwitchExpressionTargetCantBeVoid = new Fragment("compiler", "switch.expression.target.cant.be.void");
compiler.misc.synthetic.name.conflict=\
the symbol {0} conflicts with a compiler-synthesized symbol in {1}
/**
* compiler.misc.synthetic.name.conflict=\
* the symbol {0} conflicts with a compiler-synthesized symbol in {1}
*/
public static Fragment SyntheticNameConflict(Symbol arg0, Symbol arg1) {
return new Fragment("compiler", "synthetic.name.conflict", arg0, arg1);
}
compiler.misc.token.bad-symbol=\
/**
* compiler.misc.token.bad-symbol=\
* <bad symbol>
*/
public static final Fragment TokenBadSymbol = new Fragment("compiler", "token.bad-symbol");
compiler.misc.token.character=\
/**
* compiler.misc.token.character=\
* <character>
*/
public static final Fragment TokenCharacter = new Fragment("compiler", "token.character");
compiler.misc.token.double=\
/**
* compiler.misc.token.double=\
* <double>
*/
public static final Fragment TokenDouble = new Fragment("compiler", "token.double");
compiler.misc.token.end-of-input=\
/**
* compiler.misc.token.end-of-input=\
* <end of input>
*/
public static final Fragment TokenEndOfInput = new Fragment("compiler", "token.end-of-input");
compiler.misc.token.float=\
/**
* compiler.misc.token.float=\
* <float>
*/
public static final Fragment TokenFloat = new Fragment("compiler", "token.float");
compiler.misc.token.identifier=\
/**
* compiler.misc.token.identifier=\
* <identifier>
*/
public static final Fragment TokenIdentifier = new Fragment("compiler", "token.identifier");
compiler.misc.token.integer=\
/**
* compiler.misc.token.integer=\
* <integer>
*/
public static final Fragment TokenInteger = new Fragment("compiler", "token.integer");
compiler.misc.token.long-integer=\
/**
* compiler.misc.token.long-integer=\
* <long integer>
*/
public static final Fragment TokenLongInteger = new Fragment("compiler", "token.long-integer");
compiler.misc.token.string=\
/**
* compiler.misc.token.string=\
* <string>
*/
public static final Fragment TokenString = new Fragment("compiler", "token.string");
compiler.misc.try.not.applicable.to.type=\
try-with-resources not applicable to variable type\n\
({0})
/**
* compiler.misc.try.not.applicable.to.type=\
* try-with-resources not applicable to variable type\n\
* ({0})
*/
public static Fragment TryNotApplicableToType(JCDiagnostic arg0) {
return new Fragment("compiler", "try.not.applicable.to.type", arg0);
}
compiler.misc.try.not.applicable.to.type=\
try-with-resources not applicable to variable type\n\
({0})
/**
* compiler.misc.try.not.applicable.to.type=\
* try-with-resources not applicable to variable type\n\
* ({0})
*/
public static Fragment TryNotApplicableToType(Fragment arg0) {
return new Fragment("compiler", "try.not.applicable.to.type", arg0);
}
compiler.misc.type.captureof=\
capture#{0} of {1}
/**
* compiler.misc.type.captureof=\
* capture#{0} of {1}
*/
public static Fragment TypeCaptureof(Name arg0, Type arg1) {
return new Fragment("compiler", "type.captureof", arg0, arg1);
}
compiler.misc.type.captureof.1=\
capture#{0}
/**
* compiler.misc.type.captureof.1=\
* capture#{0}
*/
public static final Fragment TypeCaptureof1 = new Fragment("compiler", "type.captureof.1");
compiler.misc.type.none=\
/**
* compiler.misc.type.none=\
* <none>
*/
public static final Fragment TypeNone = new Fragment("compiler", "type.none");
compiler.misc.type.null=\
/**
* compiler.misc.type.null=\
* <null>
*/
public static final Fragment TypeNull = new Fragment("compiler", "type.null");
compiler.misc.type.parameter=\
type parameter {0}
/**
* compiler.misc.type.parameter=\
* type parameter {0}
*/
public static Fragment TypeParameter(Type arg0) {
return new Fragment("compiler", "type.parameter", arg0);
}
compiler.misc.type.req.array.or.iterable=\
array or java.lang.Iterable
/**
* compiler.misc.type.req.array.or.iterable=\
* array or java.lang.Iterable
*/
public static final Fragment TypeReqArrayOrIterable = new Fragment("compiler", "type.req.array.or.iterable");
compiler.misc.type.req.class=\
class
/**
* compiler.misc.type.req.class=\
* class
*/
public static final Fragment TypeReqClass = new Fragment("compiler", "type.req.class");
compiler.misc.type.req.class.array=\
class or array
/**
* compiler.misc.type.req.class.array=\
* class or array
*/
public static final Fragment TypeReqClassArray = new Fragment("compiler", "type.req.class.array");
compiler.misc.type.req.exact=\
class or interface without bounds
/**
* compiler.misc.type.req.exact=\
* class or interface without bounds
*/
public static final Fragment TypeReqExact = new Fragment("compiler", "type.req.exact");
compiler.misc.type.req.ref=\
reference
/**
* compiler.misc.type.req.ref=\
* reference
*/
public static final Fragment TypeReqRef = new Fragment("compiler", "type.req.ref");
compiler.misc.type.var=\
{0}#{1}
/**
* compiler.misc.type.var=\
* {0}#{1}
*/
public static Fragment TypeVar(Name arg0, int arg1) {
return new Fragment("compiler", "type.var", arg0, arg1);
}
compiler.misc.unable.to.access.file=\
unable to access file: {0}
/**
* compiler.misc.unable.to.access.file=\
* unable to access file: {0}
*/
public static final Fragment UnableToAccessFile = new Fragment("compiler", "unable.to.access.file");
compiler.misc.unchecked.assign=\
unchecked conversion
/**
* compiler.misc.unchecked.assign=\
* unchecked conversion
*/
public static final Fragment UncheckedAssign = new Fragment("compiler", "unchecked.assign");
compiler.misc.unchecked.cast.to.type=\
unchecked cast
/**
* compiler.misc.unchecked.cast.to.type=\
* unchecked cast
*/
public static final Fragment UncheckedCastToType = new Fragment("compiler", "unchecked.cast.to.type");
compiler.misc.unchecked.clash.with=\
{0} in {1} overrides {2} in {3}
/**
* compiler.misc.unchecked.clash.with=\
* {0} in {1} overrides {2} in {3}
*/
public static Fragment UncheckedClashWith(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "unchecked.clash.with", arg0, arg1, arg2, arg3);
}
compiler.misc.unchecked.implement=\
{0} in {1} implements {2} in {3}
/**
* compiler.misc.unchecked.implement=\
* {0} in {1} implements {2} in {3}
*/
public static Fragment UncheckedImplement(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "unchecked.implement", arg0, arg1, arg2, arg3);
}
compiler.misc.unchecked.override=\
{0} in {1} overrides {2} in {3}
/**
* compiler.misc.unchecked.override=\
* {0} in {1} overrides {2} in {3}
*/
public static Fragment UncheckedOverride(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "unchecked.override", arg0, arg1, arg2, arg3);
}
compiler.misc.undecl.type.var=\
undeclared type variable: {0}
/**
* compiler.misc.undecl.type.var=\
* undeclared type variable: {0}
*/
public static final Fragment UndeclTypeVar = new Fragment("compiler", "undecl.type.var");
compiler.misc.unexpected.ret.val=\
unexpected return value
/**
* compiler.misc.unexpected.ret.val=\
* unexpected return value
*/
public static final Fragment UnexpectedRetVal = new Fragment("compiler", "unexpected.ret.val");
compiler.misc.unicode.str.not.supported=\
unicode string in class file not supported
/**
* compiler.misc.unicode.str.not.supported=\
* unicode string in class file not supported
*/
public static final Fragment UnicodeStrNotSupported = new Fragment("compiler", "unicode.str.not.supported");
compiler.misc.unnamed.module=\
unnamed module
/**
* compiler.misc.unnamed.module=\
* unnamed module
*/
public static final Fragment UnnamedModule = new Fragment("compiler", "unnamed.module");
compiler.misc.unnamed.package=\
unnamed package
/**
* compiler.misc.unnamed.package=\
* unnamed package
*/
public static final Fragment UnnamedPackage = new Fragment("compiler", "unnamed.package");
compiler.misc.upper.bounds=\
lower bounds: {0}
/**
* compiler.misc.upper.bounds=\
* lower bounds: {0}
*/
public static Fragment UpperBounds(List<? extends Type> arg0) {
return new Fragment("compiler", "upper.bounds", arg0);
}
compiler.misc.user.selected.completion.failure=\
user-selected completion failure by class name
/**
* compiler.misc.user.selected.completion.failure=\
* user-selected completion failure by class name
*/
public static final Fragment UserSelectedCompletionFailure = new Fragment("compiler", "user.selected.completion.failure");
compiler.misc.var.and.explicit.not.allowed=\
cannot mix ''var'' and explicitly-typed parameters
/**
* compiler.misc.var.and.explicit.not.allowed=\
* cannot mix ''var'' and explicitly-typed parameters
*/
public static final Fragment VarAndExplicitNotAllowed = new Fragment("compiler", "var.and.explicit.not.allowed");
compiler.misc.var.and.implicit.not.allowed=\
cannot mix ''var'' and implicitly-typed parameters
/**
* compiler.misc.var.and.implicit.not.allowed=\
* cannot mix ''var'' and implicitly-typed parameters
*/
public static final Fragment VarAndImplicitNotAllowed = new Fragment("compiler", "var.and.implicit.not.allowed");
compiler.misc.varargs.argument.mismatch=\
varargs mismatch; {0}
/**
* compiler.misc.varargs.argument.mismatch=\
* varargs mismatch; {0}
*/
public static Fragment VarargsArgumentMismatch(JCDiagnostic arg0) {
return new Fragment("compiler", "varargs.argument.mismatch", arg0);
}
compiler.misc.varargs.argument.mismatch=\
varargs mismatch; {0}
/**
* compiler.misc.varargs.argument.mismatch=\
* varargs mismatch; {0}
*/
public static Fragment VarargsArgumentMismatch(Fragment arg0) {
return new Fragment("compiler", "varargs.argument.mismatch", arg0);
}
compiler.misc.varargs.clash.with=\
{0} in {1} overrides {2} in {3}
/**
* compiler.misc.varargs.clash.with=\
* {0} in {1} overrides {2} in {3}
*/
public static Fragment VarargsClashWith(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "varargs.clash.with", arg0, arg1, arg2, arg3);
}
compiler.misc.varargs.implement=\
{0} in {1} implements {2} in {3}
/**
* compiler.misc.varargs.implement=\
* {0} in {1} implements {2} in {3}
*/
public static Fragment VarargsImplement(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "varargs.implement", arg0, arg1, arg2, arg3);
}
compiler.misc.varargs.override=\
{0} in {1} overrides {2} in {3}
/**
* compiler.misc.varargs.override=\
* {0} in {1} overrides {2} in {3}
*/
public static Fragment VarargsOverride(Symbol arg0, Symbol arg1, Symbol arg2, Symbol arg3) {
return new Fragment("compiler", "varargs.override", arg0, arg1, arg2, arg3);
}
compiler.misc.varargs.trustme.on.non.varargs.meth=\
Method {0} is not a varargs method.
/**
* compiler.misc.varargs.trustme.on.non.varargs.meth=\
* Method {0} is not a varargs method.
*/
public static Fragment VarargsTrustmeOnNonVarargsMeth(Symbol arg0) {
return new Fragment("compiler", "varargs.trustme.on.non.varargs.meth", arg0);
}
compiler.misc.varargs.trustme.on.reifiable.varargs=\
Varargs element type {0} is reifiable.
/**
* compiler.misc.varargs.trustme.on.reifiable.varargs=\
* Varargs element type {0} is reifiable.
*/
public static Fragment VarargsTrustmeOnReifiableVarargs(Type arg0) {
return new Fragment("compiler", "varargs.trustme.on.reifiable.varargs", arg0);
}
compiler.misc.varargs.trustme.on.virtual.varargs=\
Instance method {0} is neither final nor private.
/**
* compiler.misc.varargs.trustme.on.virtual.varargs=\
* Instance method {0} is neither final nor private.
*/
public static Fragment VarargsTrustmeOnVirtualVarargs(Symbol arg0) {
return new Fragment("compiler", "varargs.trustme.on.virtual.varargs", arg0);
}
compiler.misc.varargs.trustme.on.virtual.varargs.final.only=\
Instance method {0} is not final.
/**
* compiler.misc.varargs.trustme.on.virtual.varargs.final.only=\
* Instance method {0} is not final.
*/
public static Fragment VarargsTrustmeOnVirtualVarargsFinalOnly(Symbol arg0) {
return new Fragment("compiler", "varargs.trustme.on.virtual.varargs.final.only", arg0);
}
compiler.misc.verbose.checking.attribution=\
[checking {0}]
/**
* compiler.misc.verbose.checking.attribution=\
* [checking {0}]
*/
public static Fragment VerboseCheckingAttribution(Symbol arg0) {
return new Fragment("compiler", "verbose.checking.attribution", arg0);
}
compiler.misc.verbose.classpath=\
[search path for class files: {0}]
/**
* compiler.misc.verbose.classpath=\
* [search path for class files: {0}]
*/
public static Fragment VerboseClasspath(String arg0) {
return new Fragment("compiler", "verbose.classpath", arg0);
}
compiler.misc.verbose.loading=\
[loading {0}]
/**
* compiler.misc.verbose.loading=\
* [loading {0}]
*/
public static Fragment VerboseLoading(String arg0) {
return new Fragment("compiler", "verbose.loading", arg0);
}
compiler.misc.verbose.parsing.done=\
[parsing completed {0}ms]
/**
* compiler.misc.verbose.parsing.done=\
* [parsing completed {0}ms]
*/
public static Fragment VerboseParsingDone(String arg0) {
return new Fragment("compiler", "verbose.parsing.done", arg0);
}
compiler.misc.verbose.parsing.started=\
[parsing started {0}]
/**
* compiler.misc.verbose.parsing.started=\
* [parsing started {0}]
*/
public static Fragment VerboseParsingStarted(File arg0) {
return new Fragment("compiler", "verbose.parsing.started", arg0);
}
compiler.misc.verbose.parsing.started=\
[parsing started {0}]
/**
* compiler.misc.verbose.parsing.started=\
* [parsing started {0}]
*/
public static Fragment VerboseParsingStarted(JavaFileObject arg0) {
return new Fragment("compiler", "verbose.parsing.started", arg0);
}
compiler.misc.verbose.parsing.started=\
[parsing started {0}]
/**
* compiler.misc.verbose.parsing.started=\
* [parsing started {0}]
*/
public static Fragment VerboseParsingStarted(Path arg0) {
return new Fragment("compiler", "verbose.parsing.started", arg0);
}
compiler.misc.verbose.sourcepath=\
[search path for source files: {0}]
/**
* compiler.misc.verbose.sourcepath=\
* [search path for source files: {0}]
*/
public static Fragment VerboseSourcepath(String arg0) {
return new Fragment("compiler", "verbose.sourcepath", arg0);
}
compiler.misc.verbose.total=\
[total {0}ms]
/**
* compiler.misc.verbose.total=\
* [total {0}ms]
*/
public static Fragment VerboseTotal(String arg0) {
return new Fragment("compiler", "verbose.total", arg0);
}
compiler.misc.verbose.wrote.file=\
[wrote {0}]
/**
* compiler.misc.verbose.wrote.file=\
* [wrote {0}]
*/
public static Fragment VerboseWroteFile(File arg0) {
return new Fragment("compiler", "verbose.wrote.file", arg0);
}
compiler.misc.verbose.wrote.file=\
[wrote {0}]
/**
* compiler.misc.verbose.wrote.file=\
* [wrote {0}]
*/
public static Fragment VerboseWroteFile(JavaFileObject arg0) {
return new Fragment("compiler", "verbose.wrote.file", arg0);
}
compiler.misc.verbose.wrote.file=\
[wrote {0}]
/**
* compiler.misc.verbose.wrote.file=\
* [wrote {0}]
*/
public static Fragment VerboseWroteFile(Path arg0) {
return new Fragment("compiler", "verbose.wrote.file", arg0);
}
compiler.misc.version.not.available=\
(version info not available)
/**
* compiler.misc.version.not.available=\
* (version info not available)
*/
public static final Fragment VersionNotAvailable = new Fragment("compiler", "version.not.available");
compiler.misc.where.captured=\
{0} extends {1} super: {2} from capture of {3}
/**
* compiler.misc.where.captured=\
* {0} extends {1} super: {2} from capture of {3}
*/
public static Fragment WhereCaptured(Type arg0, Type arg1, Type arg2, Type arg3) {
return new Fragment("compiler", "where.captured", arg0, arg1, arg2, arg3);
}
compiler.misc.where.captured.1=\
{0} extends {1} from capture of {3}
/**
* compiler.misc.where.captured.1=\
* {0} extends {1} from capture of {3}
*/
public static Fragment WhereCaptured1(Type arg0, Type arg1, Void arg2, Type arg3) {
return new Fragment("compiler", "where.captured.1", arg0, arg1, arg2, arg3);
}
compiler.misc.where.description.captured=\
where {0} is a fresh type-variable:
/**
* compiler.misc.where.description.captured=\
* where {0} is a fresh type-variable:
*/
public static final Fragment WhereDescriptionCaptured = new Fragment("compiler", "where.description.captured");
compiler.misc.where.description.captured.1=\
where {0} are fresh type-variables:
/**
* compiler.misc.where.description.captured.1=\
* where {0} are fresh type-variables:
*/
public static Fragment WhereDescriptionCaptured1(Set<? extends Type> arg0) {
return new Fragment("compiler", "where.description.captured.1", arg0);
}
compiler.misc.where.description.intersection=\
where {0} is an intersection type:
/**
* compiler.misc.where.description.intersection=\
* where {0} is an intersection type:
*/
public static Fragment WhereDescriptionIntersection(Set<? extends Type> arg0) {
return new Fragment("compiler", "where.description.intersection", arg0);
}
compiler.misc.where.description.intersection.1=\
where {0} are intersection types:
/**
* compiler.misc.where.description.intersection.1=\
* where {0} are intersection types:
*/
public static Fragment WhereDescriptionIntersection1(Set<? extends Type> arg0) {
return new Fragment("compiler", "where.description.intersection.1", arg0);
}
compiler.misc.where.description.typevar=\
where {0} is a type-variable:
/**
* compiler.misc.where.description.typevar=\
* where {0} is a type-variable:
*/
public static Fragment WhereDescriptionTypevar(Set<? extends Type> arg0) {
return new Fragment("compiler", "where.description.typevar", arg0);
}
compiler.misc.where.description.typevar.1=\
where {0} are type-variables:
/**
* compiler.misc.where.description.typevar.1=\
* where {0} are type-variables:
*/
public static Fragment WhereDescriptionTypevar1(Set<? extends Type> arg0) {
return new Fragment("compiler", "where.description.typevar.1", arg0);
}
compiler.misc.where.fresh.typevar=\
{0} extends {1}
/**
* compiler.misc.where.fresh.typevar=\
* {0} extends {1}
*/
public static Fragment WhereFreshTypevar(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "where.fresh.typevar", arg0, arg1);
}
compiler.misc.where.intersection=\
{0} extends {1}
/**
* compiler.misc.where.intersection=\
* {0} extends {1}
*/
public static Fragment WhereIntersection(Type arg0, List<? extends Type> arg1) {
return new Fragment("compiler", "where.intersection", arg0, arg1);
}
compiler.misc.where.typevar=\
{0} extends {1} declared in {2} {3}
/**
* compiler.misc.where.typevar=\
* {0} extends {1} declared in {2} {3}
*/
public static Fragment WhereTypevar(Type arg0, List<? extends Type> arg1, Kind arg2, Symbol arg3) {
return new Fragment("compiler", "where.typevar", arg0, arg1, arg2, arg3);
}
compiler.misc.where.typevar.1=\
{0} declared in {2} {3}
/**
* compiler.misc.where.typevar.1=\
* {0} declared in {2} {3}
*/
public static Fragment WhereTypevar1(Type arg0, List<? extends Type> arg1, Kind arg2, Symbol arg3) {
return new Fragment("compiler", "where.typevar.1", arg0, arg1, arg2, arg3);
}
compiler.misc.wrong.number.type.args=\
wrong number of type arguments; required {0}
/**
* compiler.misc.wrong.number.type.args=\
* wrong number of type arguments; required {0}
*/
public static Fragment WrongNumberTypeArgs(String arg0) {
return new Fragment("compiler", "wrong.number.type.args", arg0);
}
compiler.misc.wrong.version=\
class file has wrong version {0}.{1}, should be {2}.{3}
/**
* compiler.misc.wrong.version=\
* class file has wrong version {0}.{1}, should be {2}.{3}
*/
public static final Fragment WrongVersion = new Fragment("compiler", "wrong.version");
compiler.misc.x.print.processor.info=\
Processor {0} matches {1} and returns {2}.
/**
* compiler.misc.x.print.processor.info=\
* Processor {0} matches {1} and returns {2}.
*/
public static Fragment XPrintProcessorInfo(String arg0, String arg1, boolean arg2) {
return new Fragment("compiler", "x.print.processor.info", arg0, arg1, arg2);
}
compiler.misc.x.print.rounds=\
Round {0}:\n\tinput files: {1}\n\tannotations: {2}\n\tlast round: {3}
/**
* compiler.misc.x.print.rounds=\
* Round {0}:\n\tinput files: {1}\n\tannotations: {2}\n\tlast round: {3}
*/
public static Fragment XPrintRounds(int arg0, String arg1, Set<? extends Symbol> arg2, boolean arg3) {
return new Fragment("compiler", "x.print.rounds", arg0, arg1, arg2, arg3);
}
}
}