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package org.openjdk.tools.javac.util;

import java.util.EnumSet;
import java.util.Locale;
import java.util.Set;
import java.util.stream.Stream;

import javax.tools.Diagnostic;
import javax.tools.JavaFileObject;

import org.openjdk.tools.javac.api.DiagnosticFormatter;
import org.openjdk.tools.javac.code.Lint.LintCategory;
import org.openjdk.tools.javac.tree.EndPosTable;
import org.openjdk.tools.javac.tree.JCTree;
import org.openjdk.tools.javac.util.DefinedBy.Api;

import static org.openjdk.tools.javac.util.JCDiagnostic.DiagnosticType.*;

/** An abstraction of a diagnostic message generated by the compiler.
 *
 *  

This is NOT part of any supported API. * If you write code that depends on this, you do so at your own risk. * This code and its internal interfaces are subject to change or * deletion without notice. */ public class JCDiagnostic implements Diagnostic { /** A factory for creating diagnostic objects. */ public static class Factory { /** The context key for the diagnostic factory. */ protected static final Context.Key diagnosticFactoryKey = new Context.Key<>(); /** Get the Factory instance for this context. */ public static Factory instance(Context context) { Factory instance = context.get(diagnosticFactoryKey); if (instance == null) instance = new Factory(context); return instance; } DiagnosticFormatter formatter; final String prefix; final Set defaultErrorFlags; /** Create a new diagnostic factory. */ protected Factory(Context context) { this(JavacMessages.instance(context), "compiler"); context.put(diagnosticFactoryKey, this); final Options options = Options.instance(context); initOptions(options); options.addListener(() -> initOptions(options)); } private void initOptions(Options options) { if (options.isSet("onlySyntaxErrorsUnrecoverable")) defaultErrorFlags.add(DiagnosticFlag.RECOVERABLE); } /** Create a new diagnostic factory. */ public Factory(JavacMessages messages, String prefix) { this.prefix = prefix; this.formatter = new BasicDiagnosticFormatter(messages); defaultErrorFlags = EnumSet.of(DiagnosticFlag.MANDATORY); } /** * Create an error diagnostic * @param source The source of the compilation unit, if any, in which to report the error. * @param pos The source position at which to report the error. * @param key The key for the localized error message. * @param args Fields of the error message. */ public JCDiagnostic error( DiagnosticFlag flag, DiagnosticSource source, DiagnosticPosition pos, String key, Object... args) { return error(flag, source, pos, errorKey(key, args)); } /** * Create an error diagnostic * @param source The source of the compilation unit, if any, in which to report the error. * @param pos The source position at which to report the error. * @param errorKey The key for the localized error message. */ public JCDiagnostic error( DiagnosticFlag flag, DiagnosticSource source, DiagnosticPosition pos, Error errorKey) { JCDiagnostic diag = create(null, EnumSet.copyOf(defaultErrorFlags), source, pos, errorKey); if (flag != null) { diag.setFlag(flag); } return diag; } /** * Create a warning diagnostic that will not be hidden by the -nowarn or -Xlint:none options. * @param lc The lint category for the diagnostic * @param source The source of the compilation unit, if any, in which to report the warning. * @param pos The source position at which to report the warning. * @param key The key for the localized warning message. * @param args Fields of the warning message. * @see MandatoryWarningHandler */ public JCDiagnostic mandatoryWarning( LintCategory lc, DiagnosticSource source, DiagnosticPosition pos, String key, Object... args) { return mandatoryWarning(lc, source, pos, warningKey(key, args)); } /** * Create a warning diagnostic that will not be hidden by the -nowarn or -Xlint:none options. * @param lc The lint category for the diagnostic * @param source The source of the compilation unit, if any, in which to report the warning. * @param pos The source position at which to report the warning. * @param warningKey The key for the localized warning message. * @see MandatoryWarningHandler */ public JCDiagnostic mandatoryWarning( LintCategory lc, DiagnosticSource source, DiagnosticPosition pos, Warning warningKey) { return create(lc, EnumSet.of(DiagnosticFlag.MANDATORY), source, pos, warningKey); } /** * Create a warning diagnostic. * @param lc The lint category for the diagnostic * @param source The source of the compilation unit, if any, in which to report the warning. * @param pos The source position at which to report the warning. * @param key The key for the localized error message. * @param args Fields of the warning message. * @see MandatoryWarningHandler */ public JCDiagnostic warning( LintCategory lc, DiagnosticSource source, DiagnosticPosition pos, String key, Object... args) { return warning(lc, source, pos, warningKey(key, args)); } /** * Create a warning diagnostic. * @param lc The lint category for the diagnostic * @param source The source of the compilation unit, if any, in which to report the warning. * @param pos The source position at which to report the warning. * @param warningKey The key for the localized warning message. * @see MandatoryWarningHandler */ public JCDiagnostic warning( LintCategory lc, DiagnosticSource source, DiagnosticPosition pos, Warning warningKey) { return create(lc, EnumSet.noneOf(DiagnosticFlag.class), source, pos, warningKey); } /** * Create a note diagnostic that will not be hidden by the -nowarn or -Xlint:none options. * @param source The source of the compilation unit, if any, in which to report the warning. * @param key The key for the localized warning message. * @param args Fields of the warning message. * @see MandatoryWarningHandler */ public JCDiagnostic mandatoryNote(DiagnosticSource source, String key, Object... args) { return mandatoryNote(source, noteKey(key, args)); } /** * Create a note diagnostic that will not be hidden by the -nowarn or -Xlint:none options. * @param noteKey The key for the localized note message. * @see MandatoryWarningHandler */ public JCDiagnostic mandatoryNote(DiagnosticSource source, Note noteKey) { return create(null, EnumSet.of(DiagnosticFlag.MANDATORY), source, null, noteKey); } /** * Create a note diagnostic. * @param key The key for the localized error message. * @param args Fields of the message. */ public JCDiagnostic note( DiagnosticSource source, DiagnosticPosition pos, String key, Object... args) { return note(source, pos, noteKey(key, args)); } /** * Create a note diagnostic. * @param source The source of the compilation unit, if any, in which to report the note. * @param pos The source position at which to report the note. * @param noteKey The key for the localized note message. */ public JCDiagnostic note( DiagnosticSource source, DiagnosticPosition pos, Note noteKey) { return create(null, EnumSet.noneOf(DiagnosticFlag.class), source, pos, noteKey); } /** * Create a fragment diagnostic, for use as an argument in other diagnostics * @param key The key for the localized message. * @param args Fields of the message. */ public JCDiagnostic fragment(String key, Object... args) { return fragment(fragmentKey(key, args)); } /** * Create a fragment diagnostic, for use as an argument in other diagnostics * @param fragmentKey The key for the localized subdiagnostic message. */ public JCDiagnostic fragment(Fragment fragmentKey) { return create(null, EnumSet.noneOf(DiagnosticFlag.class), null, null, fragmentKey); } /** * Create a new diagnostic of the given kind, which is not mandatory and which has * no lint category. * @param kind The diagnostic kind * @param source The source of the compilation unit, if any, in which to report the message. * @param pos The source position at which to report the message. * @param key The key for the localized message. * @param args Fields of the message. */ public JCDiagnostic create( DiagnosticType kind, DiagnosticSource source, DiagnosticPosition pos, String key, Object... args) { return create(null, EnumSet.noneOf(DiagnosticFlag.class), source, pos, DiagnosticInfo.of(kind, prefix, key, args)); } /** * Create a new diagnostic of the given kind, which is not mandatory and which has * no lint category. * @param source The source of the compilation unit, if any, in which to report the message. * @param pos The source position at which to report the message. * @param diagnosticInfo The key for the localized message. */ public JCDiagnostic create( DiagnosticSource source, DiagnosticPosition pos, DiagnosticInfo diagnosticInfo) { return create(null, EnumSet.noneOf(DiagnosticFlag.class), source, pos, diagnosticInfo); } /** * Create a new diagnostic of the given kind. * @param kind The diagnostic kind * @param lc The lint category, if applicable, or null * @param flags The set of flags for the diagnostic * @param source The source of the compilation unit, if any, in which to report the message. * @param pos The source position at which to report the message. * @param key The key for the localized message. * @param args Fields of the message. */ public JCDiagnostic create(DiagnosticType kind, LintCategory lc, Set flags, DiagnosticSource source, DiagnosticPosition pos, String key, Object... args) { return create(lc, flags, source, pos, DiagnosticInfo.of(kind, prefix, key, args)); } /** * Create a new diagnostic with given key. * @param lc The lint category, if applicable, or null * @param flags The set of flags for the diagnostic * @param source The source of the compilation unit, if any, in which to report the message. * @param pos The source position at which to report the message. * @param diagnosticInfo The key for the localized message. */ public JCDiagnostic create( LintCategory lc, Set flags, DiagnosticSource source, DiagnosticPosition pos, DiagnosticInfo diagnosticInfo) { return new JCDiagnostic(formatter, normalize(diagnosticInfo), lc, flags, source, pos); } //where DiagnosticInfo normalize(DiagnosticInfo diagnosticInfo) { //replace all nested FragmentKey with full-blown JCDiagnostic objects return DiagnosticInfo.of(diagnosticInfo.type, diagnosticInfo.prefix, diagnosticInfo.code, Stream.of(diagnosticInfo.args).map(o -> { return (o instanceof Fragment) ? fragment((Fragment)o) : o; }).toArray()); } /** * Create a new error key. */ Error errorKey(String code, Object... args) { return (Error)DiagnosticInfo.of(ERROR, prefix, code, args); } /** * Create a new warning key. */ Warning warningKey(String code, Object... args) { return (Warning)DiagnosticInfo.of(WARNING, prefix, code, args); } /** * Create a new note key. */ Note noteKey(String code, Object... args) { return (Note)DiagnosticInfo.of(NOTE, prefix, code, args); } /** * Create a new fragment key. */ Fragment fragmentKey(String code, Object... args) { return (Fragment)DiagnosticInfo.of(FRAGMENT, prefix, code, args); } } /** * Create a fragment diagnostic, for use as an argument in other diagnostics * @param key The key for the localized error message. * @param args Fields of the error message. * */ @Deprecated public static JCDiagnostic fragment(String key, Object... args) { return new JCDiagnostic(getFragmentFormatter(), DiagnosticInfo.of(FRAGMENT, "compiler", key, args), null, EnumSet.noneOf(DiagnosticFlag.class), null, null); } //where @Deprecated public static DiagnosticFormatter getFragmentFormatter() { if (fragmentFormatter == null) { fragmentFormatter = new BasicDiagnosticFormatter(JavacMessages.getDefaultMessages()); } return fragmentFormatter; } /** * A DiagnosticType defines the type of the diagnostic. **/ public enum DiagnosticType { /** A fragment of an enclosing diagnostic. */ FRAGMENT("misc"), /** A note: similar to, but less serious than, a warning. */ NOTE("note"), /** A warning. */ WARNING("warn"), /** An error. */ ERROR("err"); final String key; /** Create a DiagnosticType. * @param key A string used to create the resource key for the diagnostic. */ DiagnosticType(String key) { this.key = key; } } /** * A DiagnosticPosition provides information about the positions in a file * that gave rise to a diagnostic. It always defines a "preferred" position * that most accurately defines the location of the diagnostic, it may also * provide a related tree node that spans that location. */ public static interface DiagnosticPosition { /** Gets the tree node, if any, to which the diagnostic applies. */ JCTree getTree(); /** If there is a tree node, get the start position of the tree node. * Otherwise, just returns the same as getPreferredPosition(). */ int getStartPosition(); /** Get the position within the file that most accurately defines the * location for the diagnostic. */ int getPreferredPosition(); /** If there is a tree node, and if endPositions are available, get * the end position of the tree node. Otherwise, just returns the * same as getPreferredPosition(). */ int getEndPosition(EndPosTable endPosTable); } /** * A DiagnosticPosition that simply identifies a position, but no related * tree node, as the location for a diagnostic. Used for scanner and parser * diagnostics. */ public static class SimpleDiagnosticPosition implements DiagnosticPosition { public SimpleDiagnosticPosition(int pos) { this.pos = pos; } public JCTree getTree() { return null; } public int getStartPosition() { return pos; } public int getPreferredPosition() { return pos; } public int getEndPosition(EndPosTable endPosTable) { return pos; } private final int pos; } public enum DiagnosticFlag { MANDATORY, RESOLVE_ERROR, SYNTAX, RECOVERABLE, NON_DEFERRABLE, COMPRESSED, /** Print multiple errors for same source locations. */ MULTIPLE, /** Flag for not-supported-in-source-X errors. */ SOURCE_LEVEL; } private final DiagnosticSource source; private final DiagnosticPosition position; private final DiagnosticInfo diagnosticInfo; private final Set flags; private final LintCategory lintCategory; /** source line position (set lazily) */ private SourcePosition sourcePosition; /** * This class is used to defer the line/column position fetch logic after diagnostic construction. */ class SourcePosition { private final int line; private final int column; SourcePosition() { int n = (position == null ? Position.NOPOS : position.getPreferredPosition()); if (n == Position.NOPOS || source == null) line = column = -1; else { line = source.getLineNumber(n); column = source.getColumnNumber(n, true); } } public int getLineNumber() { return line; } public int getColumnNumber() { return column; } } /** * A diagnostic key object encapsulates basic properties of a diagnostic, such as the resource key, * the arguments and the kind associated with the diagnostic object. Diagnostic keys can be either * created programmatically (by using the supplied factory method) or obtained through build-time * generated factory methods. */ public static abstract class DiagnosticInfo { /** The diagnostic kind (i.e. error). */ DiagnosticType type; /** The diagnostic prefix (i.e. 'javac'); used to compute full resource key. */ String prefix; /** The diagnostic code (i.e. 'cannot.resolve.sym'); together with {@code prefix} it forms * the full resource key. */ String code; /** The diagnostic arguments. */ Object[] args; private DiagnosticInfo(DiagnosticType type, String prefix, String code, Object... args) { this.type = type; this.prefix = prefix; this.code = code; this.args = args; } /** * Compute the resource key. */ public String key() { return prefix + "." + type.key + "." + code; } /** * Static factory method; build a custom diagnostic key using given kind, prefix, code and args. */ public static DiagnosticInfo of(DiagnosticType type, String prefix, String code, Object... args) { switch (type) { case ERROR: return new Error(prefix, code, args); case WARNING: return new Warning(prefix, code, args); case NOTE: return new Note(prefix, code, args); case FRAGMENT: return new Fragment(prefix, code, args); default: Assert.error("Wrong diagnostic type: " + type); return null; } } } /** * Class representing error diagnostic keys. */ public static final class Error extends DiagnosticInfo { public Error(String prefix, String key, Object... args) { super(DiagnosticType.ERROR, prefix, key, args); } } /** * Class representing warning diagnostic keys. */ public static final class Warning extends DiagnosticInfo { public Warning(String prefix, String key, Object... args) { super(DiagnosticType.WARNING, prefix, key, args); } } /** * Class representing note diagnostic keys. */ public static final class Note extends DiagnosticInfo { public Note(String prefix, String key, Object... args) { super(DiagnosticType.NOTE, prefix, key, args); } } /** * Class representing fragment diagnostic keys. */ public static final class Fragment extends DiagnosticInfo { public Fragment(String prefix, String key, Object... args) { super(DiagnosticType.FRAGMENT, prefix, key, args); } } /** * Create a diagnostic object. * @param formatter the formatter to use for the diagnostic * @param diagnosticInfo the diagnostic key * @param lc the lint category for the diagnostic * @param source the name of the source file, or null if none. * @param pos the character offset within the source file, if given. */ protected JCDiagnostic(DiagnosticFormatter formatter, DiagnosticInfo diagnosticInfo, LintCategory lc, Set flags, DiagnosticSource source, DiagnosticPosition pos) { if (source == null && pos != null && pos.getPreferredPosition() != Position.NOPOS) throw new IllegalArgumentException(); this.defaultFormatter = formatter; this.diagnosticInfo = diagnosticInfo; this.lintCategory = lc; this.flags = flags; this.source = source; this.position = pos; } /** * Get the type of this diagnostic. * @return the type of this diagnostic */ public DiagnosticType getType() { return diagnosticInfo.type; } /** * Get the subdiagnostic list * @return subdiagnostic list */ public List getSubdiagnostics() { return List.nil(); } public boolean isMultiline() { return false; } /** * Check whether or not this diagnostic is required to be shown. * @return true if this diagnostic is required to be shown. */ public boolean isMandatory() { return flags.contains(DiagnosticFlag.MANDATORY); } /** * Check whether this diagnostic has an associated lint category. */ public boolean hasLintCategory() { return (lintCategory != null); } /** * Get the associated lint category, or null if none. */ public LintCategory getLintCategory() { return lintCategory; } /** * Get the name of the source file referred to by this diagnostic. * @return the name of the source referred to with this diagnostic, or null if none */ @DefinedBy(Api.COMPILER) public JavaFileObject getSource() { if (source == null) return null; else return source.getFile(); } /** * Get the source referred to by this diagnostic. * @return the source referred to with this diagnostic, or null if none */ public DiagnosticSource getDiagnosticSource() { return source; } protected int getIntStartPosition() { return (position == null ? Position.NOPOS : position.getStartPosition()); } protected int getIntPosition() { return (position == null ? Position.NOPOS : position.getPreferredPosition()); } protected int getIntEndPosition() { return (position == null ? Position.NOPOS : position.getEndPosition(source.getEndPosTable())); } @DefinedBy(Api.COMPILER) public long getStartPosition() { return getIntStartPosition(); } @DefinedBy(Api.COMPILER) public long getPosition() { return getIntPosition(); } @DefinedBy(Api.COMPILER) public long getEndPosition() { return getIntEndPosition(); } public DiagnosticPosition getDiagnosticPosition() { return position; } /** * Get the line number within the source referred to by this diagnostic. * @return the line number within the source referred to by this diagnostic */ @DefinedBy(Api.COMPILER) public long getLineNumber() { if (sourcePosition == null) { sourcePosition = new SourcePosition(); } return sourcePosition.getLineNumber(); } /** * Get the column number within the line of source referred to by this diagnostic. * @return the column number within the line of source referred to by this diagnostic */ @DefinedBy(Api.COMPILER) public long getColumnNumber() { if (sourcePosition == null) { sourcePosition = new SourcePosition(); } return sourcePosition.getColumnNumber(); } /** * Get the arguments to be included in the text of the diagnostic. * @return the arguments to be included in the text of the diagnostic */ public Object[] getArgs() { return diagnosticInfo.args; } /** * Get the prefix string associated with this type of diagnostic. * @return the prefix string associated with this type of diagnostic */ public String getPrefix() { return getPrefix(diagnosticInfo.type); } /** * Get the prefix string associated with a particular type of diagnostic. * @return the prefix string associated with a particular type of diagnostic */ public String getPrefix(DiagnosticType dt) { return defaultFormatter.formatKind(this, Locale.getDefault()); } /** * Return the standard presentation of this diagnostic. */ @Override public String toString() { return defaultFormatter.format(this, Locale.getDefault()); } private DiagnosticFormatter defaultFormatter; @Deprecated private static DiagnosticFormatter fragmentFormatter; // Methods for javax.tools.Diagnostic @DefinedBy(Api.COMPILER) public Diagnostic.Kind getKind() { switch (diagnosticInfo.type) { case NOTE: return Diagnostic.Kind.NOTE; case WARNING: return flags.contains(DiagnosticFlag.MANDATORY) ? Diagnostic.Kind.MANDATORY_WARNING : Diagnostic.Kind.WARNING; case ERROR: return Diagnostic.Kind.ERROR; default: return Diagnostic.Kind.OTHER; } } @DefinedBy(Api.COMPILER) public String getCode() { return diagnosticInfo.key(); } @DefinedBy(Api.COMPILER) public String getMessage(Locale locale) { return defaultFormatter.formatMessage(this, locale); } public void setFlag(DiagnosticFlag flag) { flags.add(flag); if (diagnosticInfo.type == DiagnosticType.ERROR) { switch (flag) { case SYNTAX: flags.remove(DiagnosticFlag.RECOVERABLE); break; case RESOLVE_ERROR: flags.add(DiagnosticFlag.RECOVERABLE); break; } } } public boolean isFlagSet(DiagnosticFlag flag) { return flags.contains(flag); } public static class MultilineDiagnostic extends JCDiagnostic { private final List subdiagnostics; public MultilineDiagnostic(JCDiagnostic other, List subdiagnostics) { super(other.defaultFormatter, other.diagnosticInfo, other.getLintCategory(), other.flags, other.getDiagnosticSource(), other.position); this.subdiagnostics = subdiagnostics; } @Override public List getSubdiagnostics() { return subdiagnostics; } @Override public boolean isMultiline() { return true; } } }





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