[phpeclipse.git] / net.sourceforge.phpeclipse / src / net / sourceforge / phpdt / internal / compiler / lookup / LookupEnvironment.java

/*******************************************************************************
 * Copyright (c) 2000, 2003 IBM Corporation and others.
 * All rights reserved. This program and the accompanying materials 
 * are made available under the terms of the Common Public License v1.0
 * which accompanies this distribution, and is available at
 * http://www.eclipse.org/legal/cpl-v10.html
 * 
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *******************************************************************************/
package net.sourceforge.phpdt.internal.compiler.lookup;

import net.sourceforge.phpdt.core.compiler.CharOperation;
import net.sourceforge.phpdt.internal.compiler.env.IBinaryType;
import net.sourceforge.phpdt.internal.compiler.env.INameEnvironment;
import net.sourceforge.phpdt.internal.compiler.env.NameEnvironmentAnswer;
import net.sourceforge.phpdt.internal.compiler.impl.ITypeRequestor;
import net.sourceforge.phpdt.internal.compiler.problem.ProblemReporter;
import net.sourceforge.phpdt.internal.compiler.util.HashtableOfPackage;
import net.sourceforge.phpdt.internal.compiler.util.Util;
import net.sourceforge.phpeclipse.internal.compiler.ast.CompilationUnitDeclaration;

public class LookupEnvironment implements BaseTypes, ProblemReasons, TypeConstants {
//      public CompilerOptions options;
        public ProblemReporter problemReporter;
        public ITypeRequestor typeRequestor;

        PackageBinding defaultPackage;
        ImportBinding[] defaultImports;
        HashtableOfPackage knownPackages;
        static final ProblemPackageBinding TheNotFoundPackage = new ProblemPackageBinding(CharOperation.NO_CHAR, NotFound);
        static final ProblemReferenceBinding TheNotFoundType = new ProblemReferenceBinding(CharOperation.NO_CHAR, NotFound);

        private INameEnvironment nameEnvironment;
        private MethodVerifier verifier;
        private ArrayBinding[][] uniqueArrayBindings;

        private CompilationUnitDeclaration[] units = new CompilationUnitDeclaration[4];
        private int lastUnitIndex = -1;
        private int lastCompletedUnitIndex = -1;

        // indicate in which step on the compilation we are.
        // step 1 : build the reference binding
        // step 2 : conect the hierarchy (connect bindings)
        // step 3 : build fields and method bindings.
        private int stepCompleted;
        final static int BUILD_TYPE_HIERARCHY = 1;
        final static int CHECK_AND_SET_IMPORTS = 2;
        final static int CONNECT_TYPE_HIERARCHY = 3;
        final static int BUILD_FIELDS_AND_METHODS = 4;
public LookupEnvironment(ITypeRequestor typeRequestor,ProblemReporter problemReporter, INameEnvironment nameEnvironment) {
// CompilerOptions options, ProblemReporter problemReporter, INameEnvironment nameEnvironment) {
        this.typeRequestor = typeRequestor;
//      this.options = options;
        this.problemReporter = problemReporter;
        this.defaultPackage = new PackageBinding(this); // assume the default package always exists
        this.defaultImports = null;
        this.nameEnvironment = nameEnvironment;
        this.knownPackages = new HashtableOfPackage();
        this.uniqueArrayBindings = new ArrayBinding[5][];
        this.uniqueArrayBindings[0] = new ArrayBinding[50]; // start off the most common 1 dimension array @ 50
}
/* Ask the oracle for a type which corresponds to the compoundName.
* Answer null if the name cannot be found.
*/

public ReferenceBinding askForType(char[][] compoundName) {
        NameEnvironmentAnswer answer = nameEnvironment.findType(compoundName);
        if (answer == null)
                return null;

        if (answer.isBinaryType())
                // the type was found as a .class file
                typeRequestor.accept(answer.getBinaryType(), computePackageFrom(compoundName));
        else if (answer.isCompilationUnit())
                // the type was found as a .java file, try to build it then search the cache
                typeRequestor.accept(answer.getCompilationUnit());
        else if (answer.isSourceType())
                // the type was found as a source model
                typeRequestor.accept(answer.getSourceTypes(), computePackageFrom(compoundName));

        return getCachedType(compoundName);
}
/* Ask the oracle for a type named name in the packageBinding.
* Answer null if the name cannot be found.
*/

ReferenceBinding askForType(PackageBinding packageBinding, char[] name) {
        if (packageBinding == null) {
                if (defaultPackage == null)
                        return null;
                packageBinding = defaultPackage;
        }
        NameEnvironmentAnswer answer = nameEnvironment.findType(name, packageBinding.compoundName);
        if (answer == null)
                return null;

        if (answer.isBinaryType())
                // the type was found as a .class file
                typeRequestor.accept(answer.getBinaryType(), packageBinding);
        else if (answer.isCompilationUnit())
                // the type was found as a .java file, try to build it then search the cache
                typeRequestor.accept(answer.getCompilationUnit());
        else if (answer.isSourceType())
                // the type was found as a source model
                typeRequestor.accept(answer.getSourceTypes(), packageBinding);

        return packageBinding.getType0(name);
}
/* Create the initial type bindings for the compilation unit.
*
* See completeTypeBindings() for a description of the remaining steps
*
* NOTE: This method can be called multiple times as additional source files are needed
*/

public void buildTypeBindings(CompilationUnitDeclaration unit) {
        CompilationUnitScope scope = new CompilationUnitScope(unit, this);
        scope.buildTypeBindings();

        int unitsLength = units.length;
        if (++lastUnitIndex >= unitsLength)
                System.arraycopy(units, 0, units = new CompilationUnitDeclaration[2 * unitsLength], 0, unitsLength);
        units[lastUnitIndex] = unit;
}
/* Cache the binary type since we know it is needed during this compile.
*
* Answer the created BinaryTypeBinding or null if the type is already in the cache.
*/

public BinaryTypeBinding cacheBinaryType(IBinaryType binaryType) {
        return cacheBinaryType(binaryType, true);
}
/* Cache the binary type since we know it is needed during this compile.
*
* Answer the created BinaryTypeBinding or null if the type is already in the cache.
*/

public BinaryTypeBinding cacheBinaryType(IBinaryType binaryType, boolean needFieldsAndMethods) {
        char[][] compoundName = CharOperation.splitOn('/', binaryType.getName());
        ReferenceBinding existingType = getCachedType(compoundName);

        if (existingType == null || existingType instanceof UnresolvedReferenceBinding)
                // only add the binary type if its not already in the cache
                return createBinaryTypeFrom(binaryType, computePackageFrom(compoundName), needFieldsAndMethods);
        return null; // the type already exists & can be retrieved from the cache
}
/*
* 1. Connect the type hierarchy for the type bindings created for parsedUnits.
* 2. Create the field bindings
* 3. Create the method bindings
*/

/* We know each known compilationUnit is free of errors at this point...
*
* Each step will create additional bindings unless a problem is detected, in which
* case either the faulty import/superinterface/field/method will be skipped or a
* suitable replacement will be substituted (such as Object for a missing superclass)
*/

public void completeTypeBindings() {
        stepCompleted = BUILD_TYPE_HIERARCHY;
        
//      for (int i = lastCompletedUnitIndex + 1; i <= lastUnitIndex; i++) {
//              units[i].scope.checkAndSetImports();
//      }
        stepCompleted = CHECK_AND_SET_IMPORTS;

//      for (int i = lastCompletedUnitIndex + 1; i <= lastUnitIndex; i++) {
//              units[i].scope.connectTypeHierarchy();
//      }
        stepCompleted = CONNECT_TYPE_HIERARCHY;

        for (int i = lastCompletedUnitIndex + 1; i <= lastUnitIndex; i++) {
//              units[i].scope.buildFieldsAndMethods();
                units[i] = null; // release unnecessary reference to the parsed unit
        }
        stepCompleted = BUILD_FIELDS_AND_METHODS;
        lastCompletedUnitIndex = lastUnitIndex;
}
/*
* 1. Connect the type hierarchy for the type bindings created for parsedUnits.
* 2. Create the field bindings
* 3. Create the method bindings
*/

/*
* Each step will create additional bindings unless a problem is detected, in which
* case either the faulty import/superinterface/field/method will be skipped or a
* suitable replacement will be substituted (such as Object for a missing superclass)
*/

public void completeTypeBindings(CompilationUnitDeclaration parsedUnit) {
        if (stepCompleted == BUILD_FIELDS_AND_METHODS) {
                // This can only happen because the original set of units are completely built and
                // are now being processed, so we want to treat all the additional units as a group
                // until they too are completely processed.
                completeTypeBindings();
        } else {
                if (parsedUnit.scope == null) return; // parsing errors were too severe

//              if (stepCompleted >= CHECK_AND_SET_IMPORTS)
//                      parsedUnit.scope.checkAndSetImports();

                if (stepCompleted >= CONNECT_TYPE_HIERARCHY)
                        parsedUnit.scope.connectTypeHierarchy();
        }
}
/*
* Used by other compiler tools which do not start by calling completeTypeBindings().
*
* 1. Connect the type hierarchy for the type bindings created for parsedUnits.
* 2. Create the field bindings
* 3. Create the method bindings
*/

public void completeTypeBindings(CompilationUnitDeclaration parsedUnit, boolean buildFieldsAndMethods) {
        if (parsedUnit.scope == null) return; // parsing errors were too severe

//      parsedUnit.scope.checkAndSetImports();
        parsedUnit.scope.connectTypeHierarchy();

        if (buildFieldsAndMethods)
                parsedUnit.scope.buildFieldsAndMethods();
}
private PackageBinding computePackageFrom(char[][] constantPoolName) {
        if (constantPoolName.length == 1)
                return defaultPackage;

        PackageBinding packageBinding = getPackage0(constantPoolName[0]);
        if (packageBinding == null || packageBinding == TheNotFoundPackage) {
                packageBinding = new PackageBinding(constantPoolName[0], this);
                knownPackages.put(constantPoolName[0], packageBinding);
        }

        for (int i = 1, length = constantPoolName.length - 1; i < length; i++) {
                PackageBinding parent = packageBinding;
                if ((packageBinding = parent.getPackage0(constantPoolName[i])) == null || packageBinding == TheNotFoundPackage) {
                        packageBinding = new PackageBinding(CharOperation.subarray(constantPoolName, 0, i + 1), parent, this);
                        parent.addPackage(packageBinding);
                }
        }
        return packageBinding;
}
/* Used to guarantee array type identity.
*/

ArrayBinding createArrayType(TypeBinding type, int dimensionCount) {
        if (type instanceof LocalTypeBinding) // cache local type arrays with the local type itself
                return ((LocalTypeBinding) type).createArrayType(dimensionCount);

        // find the array binding cache for this dimension
        int dimIndex = dimensionCount - 1;
        int length = uniqueArrayBindings.length;
        ArrayBinding[] arrayBindings;
        if (dimIndex < length) {
                if ((arrayBindings = uniqueArrayBindings[dimIndex]) == null)
                        uniqueArrayBindings[dimIndex] = arrayBindings = new ArrayBinding[10];
        } else {
                System.arraycopy(
                        uniqueArrayBindings, 0, 
                        uniqueArrayBindings = new ArrayBinding[dimensionCount][], 0, 
                        length); 
                uniqueArrayBindings[dimIndex] = arrayBindings = new ArrayBinding[10];
        }

        // find the cached array binding for this leaf component type (if any)
        int index = -1;
        length = arrayBindings.length;
        while (++index < length) {
                ArrayBinding currentBinding = arrayBindings[index];
                if (currentBinding == null) // no matching array, but space left
                        return arrayBindings[index] = new ArrayBinding(type, dimensionCount);
                if (currentBinding.leafComponentType == type)
                        return currentBinding;
        }

        // no matching array, no space left
        System.arraycopy(
                arrayBindings, 0,
                (arrayBindings = new ArrayBinding[length * 2]), 0,
                length); 
        uniqueArrayBindings[dimIndex] = arrayBindings;
        return arrayBindings[length] = new ArrayBinding(type, dimensionCount);
}
public BinaryTypeBinding createBinaryTypeFrom(IBinaryType binaryType, PackageBinding packageBinding) {
        return createBinaryTypeFrom(binaryType, packageBinding, true);
}
public BinaryTypeBinding createBinaryTypeFrom(IBinaryType binaryType, PackageBinding packageBinding, boolean needFieldsAndMethods) {
        BinaryTypeBinding binaryBinding = new BinaryTypeBinding(packageBinding, binaryType, this);

        // resolve any array bindings which reference the unresolvedType
        ReferenceBinding cachedType = packageBinding.getType0(binaryBinding.compoundName[binaryBinding.compoundName.length - 1]);
        if (cachedType != null) {
                if (cachedType.isBinaryBinding()) // sanity check before the cast... at this point the cache should ONLY contain unresolved types
                        return (BinaryTypeBinding) cachedType;

                UnresolvedReferenceBinding unresolvedType = (UnresolvedReferenceBinding) cachedType;
                unresolvedType.resolvedType = binaryBinding;
                updateArrayCache(unresolvedType, binaryBinding);
        }

        packageBinding.addType(binaryBinding);
        binaryBinding.cachePartsFrom(binaryType, needFieldsAndMethods);
        return binaryBinding;
}
/* Used to create packages from the package statement.
*/

PackageBinding createPackage(char[][] compoundName) {
    return null;
//      PackageBinding packageBinding = getPackage0(compoundName[0]);
//      if (packageBinding == null || packageBinding == TheNotFoundPackage) {
//              packageBinding = new PackageBinding(compoundName[0], this);
//              knownPackages.put(compoundName[0], packageBinding);
//      }
//
//      for (int i = 1, length = compoundName.length; i < length; i++) {
//              // check to see if it collides with a known type...
//              // this case can only happen if the package does not exist as a directory in the file system
//              // otherwise when the source type was defined, the correct error would have been reported
//              // unless its an unresolved type which is referenced from an inconsistent class file
//              ReferenceBinding type = packageBinding.getType0(compoundName[i]);
//              if (type != null && type != TheNotFoundType && !(type instanceof UnresolvedReferenceBinding))
//                      return null;
//
//              PackageBinding parent = packageBinding;
//              if ((packageBinding = parent.getPackage0(compoundName[i])) == null || packageBinding == TheNotFoundPackage) {
//                      // if the package is unknown, check to see if a type exists which would collide with the new package
//                      // catches the case of a package statement of: package java.lang.Object;
//                      // since the package can be added after a set of source files have already been compiled, we need
//                      // whenever a package statement is encountered
//                      if (nameEnvironment.findType(compoundName[i], parent.compoundName) != null)
//                              return null;
//
//                      packageBinding = new PackageBinding(CharOperation.subarray(compoundName, 0, i + 1), parent, this);
//                      parent.addPackage(packageBinding);
//              }
//      }
//      return packageBinding;
}
/* Answer the type for the compoundName if it exists in the cache.
* Answer theNotFoundType if it could not be resolved the first time
* it was looked up, otherwise answer null.
*
* NOTE: Do not use for nested types... the answer is NOT the same for a.b.C or a.b.C.D.E
* assuming C is a type in both cases. In the a.b.C.D.E case, null is the answer.
*/

public ReferenceBinding getCachedType(char[][] compoundName) {
        if (compoundName.length == 1) {
                if (defaultPackage == null)
                        return null;
                return defaultPackage.getType0(compoundName[0]);
        }

        PackageBinding packageBinding = getPackage0(compoundName[0]);
        if (packageBinding == null || packageBinding == TheNotFoundPackage)
                return null;

        for (int i = 1, packageLength = compoundName.length - 1; i < packageLength; i++)
                if ((packageBinding = packageBinding.getPackage0(compoundName[i])) == null || packageBinding == TheNotFoundPackage)
                        return null;
        return packageBinding.getType0(compoundName[compoundName.length - 1]);
}
/* Answer the top level package named name if it exists in the cache.
* Answer theNotFoundPackage if it could not be resolved the first time
* it was looked up, otherwise answer null.
*
* NOTE: Senders must convert theNotFoundPackage into a real problem
* package if its to returned.
*/

PackageBinding getPackage0(char[] name) {
        return knownPackages.get(name);
}
/* Answer the top level package named name.
* Ask the oracle for the package if its not in the cache.
* Answer null if the package cannot be found.
*/

PackageBinding getTopLevelPackage(char[] name) {
        PackageBinding packageBinding = getPackage0(name);
        if (packageBinding != null) {
                if (packageBinding == TheNotFoundPackage)
                        return null;
                else
                        return packageBinding;
        }

        if (nameEnvironment.isPackage(null, name)) {
                knownPackages.put(name, packageBinding = new PackageBinding(name, this));
                return packageBinding;
        }

        knownPackages.put(name, TheNotFoundPackage); // saves asking the oracle next time
        return null;
}
/* Answer the type corresponding to the compoundName.
* Ask the oracle for the type if its not in the cache.
* Answer null if the type cannot be found... likely a fatal error.
*/

public ReferenceBinding getType(char[][] compoundName) {
        ReferenceBinding referenceBinding;

        if (compoundName.length == 1) {
                if (defaultPackage == null)
                        return null;

                if ((referenceBinding = defaultPackage.getType0(compoundName[0])) == null) {
                        PackageBinding packageBinding = getPackage0(compoundName[0]);
                        if (packageBinding != null && packageBinding != TheNotFoundPackage)
                                return null; // collides with a known package... should not call this method in such a case
                        referenceBinding = askForType(defaultPackage, compoundName[0]);
                }
        } else {
                PackageBinding packageBinding = getPackage0(compoundName[0]);
                if (packageBinding == TheNotFoundPackage)
                        return null;

                if (packageBinding != null) {
                        for (int i = 1, packageLength = compoundName.length - 1; i < packageLength; i++) {
                                if ((packageBinding = packageBinding.getPackage0(compoundName[i])) == null)
                                        break;
                                if (packageBinding == TheNotFoundPackage)
                                        return null;
                        }
                }

                if (packageBinding == null)
                        referenceBinding = askForType(compoundName);
                else if ((referenceBinding = packageBinding.getType0(compoundName[compoundName.length - 1])) == null)
                        referenceBinding = askForType(packageBinding, compoundName[compoundName.length - 1]);
        }

        if (referenceBinding == null || referenceBinding == TheNotFoundType)
                return null;
        if (referenceBinding instanceof UnresolvedReferenceBinding)
                referenceBinding = ((UnresolvedReferenceBinding) referenceBinding).resolve(this);

        // compoundName refers to a nested type incorrectly (for example, package1.A$B)
        if (referenceBinding.isNestedType())
                return new ProblemReferenceBinding(compoundName, InternalNameProvided);
        else
                return referenceBinding;
}
/* Answer the type corresponding to the name from the binary file.
* Does not ask the oracle for the type if its not found in the cache... instead an
* unresolved type is returned which must be resolved before used.
*
* NOTE: Does NOT answer base types nor array types!
*
* NOTE: Aborts compilation if the class file cannot be found.
*/

ReferenceBinding getTypeFromConstantPoolName(char[] signature, int start, int end) {
        if (end == -1)
                end = signature.length;

        char[][] compoundName = CharOperation.splitOn('/', signature, start, end);
        ReferenceBinding binding = getCachedType(compoundName);
        if (binding == null) {
                PackageBinding packageBinding = computePackageFrom(compoundName);
                binding = new UnresolvedReferenceBinding(compoundName, packageBinding);
                packageBinding.addType(binding);
        } else if (binding == TheNotFoundType) {
                problemReporter.isClassPathCorrect(compoundName, null);
                return null; // will not get here since the above error aborts the compilation
        }
        return binding;
}
/* Answer the type corresponding to the signature from the binary file.
* Does not ask the oracle for the type if its not found in the cache... instead an
* unresolved type is returned which must be resolved before used.
*
* NOTE: Does answer base types & array types.
*
* NOTE: Aborts compilation if the class file cannot be found.
*/

TypeBinding getTypeFromSignature(char[] signature, int start, int end) {
        int dimension = 0;
        while (signature[start] == '[') {
                start++;
                dimension++;
        }
        if (end == -1)
                end = signature.length - 1;

        // Just switch on signature[start] - the L case is the else
        TypeBinding binding = null;
        if (start == end) {
                switch (signature[start]) {
                        case 'I' :
                                binding = IntBinding;
                                break;
                        case 'Z' :
                                binding = BooleanBinding;
                                break;
                        case 'V' :
                                binding = VoidBinding;
                                break;
                        case 'C' :
                                binding = CharBinding;
                                break;
                        case 'D' :
                                binding = DoubleBinding;
                                break;
                        case 'B' :
                                binding = ByteBinding;
                                break;
                        case 'F' :
                                binding = FloatBinding;
                                break;
                        case 'J' :
                                binding = LongBinding;
                                break;
                        case 'S' :
                                binding = ShortBinding;
                                break;
                        default :
                                throw new Error(Util.bind("error.undefinedBaseType",String.valueOf(signature[start]))); //$NON-NLS-1$
                }
        } else {
                binding = getTypeFromConstantPoolName(signature, start + 1, end);
        }

        if (dimension == 0)
                return binding;
        else
                return createArrayType(binding, dimension);
}
/* Ask the oracle if a package exists named name in the package named compoundName.
*/

boolean isPackage(char[][] compoundName, char[] name) {
        if (compoundName == null || compoundName.length == 0)
                return nameEnvironment.isPackage(null, name);
        else
                return nameEnvironment.isPackage(compoundName, name);
}
// The method verifier is lazily initialized to guarantee the receiver, the compiler & the oracle are ready.

public MethodVerifier methodVerifier() {
        if (verifier == null)
                verifier = new MethodVerifier(this);
        return verifier;
}
public void reset() {
        this.defaultPackage = new PackageBinding(this); // assume the default package always exists
        this.defaultImports = null;
        this.knownPackages = new HashtableOfPackage();

        this.verifier = null;
        for (int i = this.uniqueArrayBindings.length; --i >= 0;)
                this.uniqueArrayBindings[i] = null;
        this.uniqueArrayBindings[0] = new ArrayBinding[50]; // start off the most common 1 dimension array @ 50

        for (int i = this.units.length; --i >= 0;)
                this.units[i] = null;
        this.lastUnitIndex = -1;
        this.lastCompletedUnitIndex = -1;
        
        // name environment has a longer life cycle, and must be reset in
        // the code which created it.
}
void updateArrayCache(UnresolvedReferenceBinding unresolvedType, ReferenceBinding resolvedType) {
        nextDimension : for (int i = 0, length = uniqueArrayBindings.length; i < length; i++) {
                ArrayBinding[] arrayBindings = uniqueArrayBindings[i];
                if (arrayBindings != null) {
                        for (int j = 0, max = arrayBindings.length; j < max; j++) {
                                ArrayBinding currentBinding = arrayBindings[j];
                                if (currentBinding == null)
                                        continue nextDimension;
                                if (currentBinding.leafComponentType == unresolvedType) {
                                        currentBinding.leafComponentType = resolvedType;
                                        continue nextDimension;
                                }
                        }
                }
        }
}
}