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/*
 * Copyright (c) 2014, 2015, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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 * questions.
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package jdk.jshell;

import java.util.Collection;
import java.util.List;

/**
 * Provides analysis utilities for source code input.
 * Optional functionality that provides for a richer interactive experience.
 * Includes completion analysis:
 * Is the input a complete snippet of code?
 * Do I need to prompt for more input?
 * Would adding a semicolon make it complete?
 * Is there more than one snippet?
 * etc.
 * Also includes completion suggestions, as might be used in tab-completion.
 *
 * @since 9
 */
public abstract class SourceCodeAnalysis {

    /**
     * Given an input string, find the first snippet of code (one statement,
     * definition, import, or expression) and evaluate if it is complete.
     * @param input the input source string
     * @return a CompletionInfo instance with location and completeness info
     */
    public abstract CompletionInfo analyzeCompletion(String input);

    /**
     * Compute possible follow-ups for the given input.
     * Uses information from the current {@code JShell} state, including
     * type information, to filter the suggestions.
     * @param input the user input, so far
     * @param cursor the current position of the cursors in the given {@code input} text
     * @param anchor outgoing parameter - when an option will be completed, the text between
     *               the anchor and cursor will be deleted and replaced with the given option
     * @return list of candidate continuations of the given input.
     */
    public abstract List completionSuggestions(String input, int cursor, int[] anchor);

    /**
     * Compute documentation for the given user's input. Multiple {@code Documentation} objects may
     * be returned when multiple elements match the user's input (like for overloaded methods).
     * @param input the snippet the user wrote so far
     * @param cursor the current position of the cursors in the given {@code input} text
     * @param computeJavadoc true if the javadoc for the given input should be computed in
     *                       addition to the signature
     * @return the documentations for the given user's input, if multiple elements match the input,
     *         multiple {@code Documentation} objects are returned.
     */
    public abstract List documentation(String input, int cursor, boolean computeJavadoc);

    /**
     * Infer the type of the given expression. The expression spans from the beginning of {@code code}
     * to the given {@code cursor} position. Returns null if the type of the expression cannot
     * be inferred.
     *
     * @param code the expression for which the type should be inferred
     * @param cursor current cursor position in the given code
     * @return the inferred type, or null if it cannot be inferred
     */
    public abstract String analyzeType(String code, int cursor);

    /**
     * List qualified names known for the simple name in the given code immediately
     * to the left of the given cursor position. The qualified names are gathered by inspecting the
     * classpath used by eval (see {@link JShell#addToClasspath(java.lang.String)}).
     *
     * @param code the expression for which the candidate qualified names should be computed
     * @param cursor current cursor position in the given code
     * @return the known qualified names
     */
    public abstract QualifiedNames listQualifiedNames(String code, int cursor);

    /**
     * Returns the wrapper information for the {@code Snippet}. The wrapper changes as
     * the environment changes, so calls to this method at different times may
     * yield different results.
     *
     * @param snippet the {@code Snippet} from which to retrieve the wrapper
     * @return information on the wrapper
     */
    public abstract SnippetWrapper wrapper(Snippet snippet);

    /**
     * Returns the wrapper information for the snippet within the
     * input source string.
     * 

* Wrapper information for malformed and incomplete * snippets also generate wrappers. The list is in snippet encounter * order. The wrapper changes as the environment changes, so calls to this * method at different times may yield different results. *

* The input should be * exactly one complete snippet of source code, that is, one expression, * statement, variable declaration, method declaration, class declaration, * or import. * To break arbitrary input into individual complete snippets, use * {@link SourceCodeAnalysis#analyzeCompletion(String)}. *

* The wrapper may not match that returned by * {@link SourceCodeAnalysis#wrapper(Snippet) wrapper(Snippet)}, * were the source converted to a {@code Snippet}. * * @param input the source input from which to generate wrappers * @return a list of wrapper information */ public abstract List wrappers(String input); /** * Returns a collection of {@code Snippet}s which might need updating if the * given {@code Snippet} is updated. The returned collection is designed to * be inclusive and may include many false positives. * * @param snippet the {@code Snippet} whose dependents are requested * @return the collection of dependents */ public abstract Collection dependents(Snippet snippet); /** * Internal only constructor */ SourceCodeAnalysis() {} /** * The result of {@code analyzeCompletion(String input)}. * Describes the completeness of the first snippet in the given input. */ public interface CompletionInfo { /** * The analyzed completeness of the input. * * @return an enum describing the completeness of the input string. */ Completeness completeness(); /** * Input remaining after the complete part of the source. * * @return the portion of the input string that remains after the * complete Snippet */ String remaining(); /** * Source code for the first Snippet of code input. For example, first * statement, or first method declaration. Trailing semicolons will be * added, as needed. * * @return the source of the first encountered Snippet */ String source(); } /** * Describes the completeness of the given input. */ public enum Completeness { /** * The input is a complete source snippet (declaration or statement) as is. */ COMPLETE(true), /** * With this addition of a semicolon the input is a complete source snippet. * This will only be returned when the end of input is encountered. */ COMPLETE_WITH_SEMI(true), /** * There must be further source beyond the given input in order for it * to be complete. A semicolon would not complete it. * This will only be returned when the end of input is encountered. */ DEFINITELY_INCOMPLETE(false), /** * A statement with a trailing (non-terminated) empty statement. * Though technically it would be a complete statement * with the addition of a semicolon, it is rare * that that assumption is the desired behavior. * The input is considered incomplete. Comments and white-space are * still considered empty. */ CONSIDERED_INCOMPLETE(false), /** * An empty input. * The input is considered incomplete. Comments and white-space are * still considered empty. */ EMPTY(false), /** * The completeness of the input could not be determined because it * contains errors. Error detection is not a goal of completeness * analysis, however errors interfered with determining its completeness. * The input is considered complete because evaluating is the best * mechanism to get error information. */ UNKNOWN(true); private final boolean isComplete; Completeness(boolean isComplete) { this.isComplete = isComplete; } /** * Indicates whether the first snippet of source is complete. * For example, "{@code x=}" is not * complete, but "{@code x=2}" is complete, even though a subsequent line could * make it "{@code x=2+2}". Already erroneous code is marked complete. * * @return {@code true} if the input is or begins a complete Snippet; * otherwise {@code false} */ public boolean isComplete() { return isComplete; } } /** * A candidate for continuation of the given user's input. */ public interface Suggestion { /** * The candidate continuation of the given user's input. * * @return the continuation string */ String continuation(); /** * Indicates whether input continuation matches the target type and is thus * more likely to be the desired continuation. A matching continuation is * preferred. * * @return {@code true} if this suggested continuation matches the * target type; otherwise {@code false} */ boolean matchesType(); } /** * A documentation for a candidate for continuation of the given user's input. */ public interface Documentation { /** * The signature of the given element. * * @return the signature */ String signature(); /** * The javadoc of the given element. * * @return the javadoc, or null if not found or not requested */ String javadoc(); } /** * List of possible qualified names. */ public static final class QualifiedNames { private final List names; private final int simpleNameLength; private final boolean upToDate; private final boolean resolvable; QualifiedNames(List names, int simpleNameLength, boolean upToDate, boolean resolvable) { this.names = names; this.simpleNameLength = simpleNameLength; this.upToDate = upToDate; this.resolvable = resolvable; } /** * Known qualified names for the given simple name in the original code. * * @return known qualified names */ public List getNames() { return names; } /** * The length of the simple name in the original code for which the * qualified names where gathered. * * @return the length of the simple name; -1 if there is no name immediately left to the cursor for * which the candidates could be computed */ public int getSimpleNameLength() { return simpleNameLength; } /** * Indicates whether the result is based on up-to-date data. The * {@link SourceCodeAnalysis#listQualifiedNames(java.lang.String, int) listQualifiedNames} * method may return before the classpath is fully inspected, in which case this method will * return {@code false}. If the result is based on a fully inspected classpath, this method * will return {@code true}. * * @return {@code true} if the result is based on up-to-date data; * otherwise {@code false} */ public boolean isUpToDate() { return upToDate; } /** * Indicates whether the given simple name in the original code refers * to a resolvable element. * * @return {@code true} if the given simple name in the original code * refers to a resolvable element; otherwise {@code false} */ public boolean isResolvable() { return resolvable; } } /** * The wrapping of a snippet of Java source into valid top-level Java * source. The wrapping will always either be an import or include a * synthetic class at the top-level. If a synthetic class is generated, it * will be proceeded by the package and import declarations, and may contain * synthetic class members. *

* This interface, in addition to the mapped form, provides the context and * position mapping information. */ public interface SnippetWrapper { /** * Returns the input that is wrapped. For * {@link SourceCodeAnalysis#wrappers(java.lang.String) wrappers(String)}, * this is the source of the snippet within the input. A variable * declaration of {@code N} variables will map to {@code N} wrappers * with the source separated. *

* For {@link SourceCodeAnalysis#wrapper(Snippet) wrapper(Snippet)}, * this is {@link Snippet#source() }. * * @return the input source corresponding to the wrapper. */ String source(); /** * Returns a Java class definition that wraps the * {@link SnippetWrapper#source()} or, if an import, the import source. *

* If the input is not a valid Snippet, this will not be a valid * class/import definition. *

* The source may be divided and mapped to different locations within * the wrapped source. * * @return the source wrapped into top-level Java code */ String wrapped(); /** * Returns the fully qualified class name of the * {@link SnippetWrapper#wrapped() } class. * For erroneous input, a best guess is returned. * * @return the name of the synthetic wrapped class; if an import, the * name is not defined */ String fullClassName(); /** * Returns the {@link Snippet.Kind} of the * {@link SnippetWrapper#source()}. * * @return an enum representing the general kind of snippet. */ Snippet.Kind kind(); /** * Maps character position within the source to character position * within the wrapped. * * @param pos the position in {@link SnippetWrapper#source()} * @return the corresponding position in * {@link SnippetWrapper#wrapped() } */ int sourceToWrappedPosition(int pos); /** * Maps character position within the wrapped to character position * within the source. * * @param pos the position in {@link SnippetWrapper#wrapped()} * @return the corresponding position in * {@link SnippetWrapper#source() } */ int wrappedToSourcePosition(int pos); } }





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