Example #1
0
  @NotNull
  private static Collection<CallableMemberDescriptor> extractMembersOverridableInBothWays(
      @NotNull CallableMemberDescriptor overrider,
      @NotNull Queue<CallableMemberDescriptor> extractFrom,
      @NotNull DescriptorSink sink) {
    Collection<CallableMemberDescriptor> overridable = new ArrayList<CallableMemberDescriptor>();
    overridable.add(overrider);
    for (Iterator<CallableMemberDescriptor> iterator = extractFrom.iterator();
        iterator.hasNext(); ) {
      CallableMemberDescriptor candidate = iterator.next();
      if (overrider == candidate) {
        iterator.remove();
        continue;
      }

      OverrideCompatibilityInfo.Result result1 =
          DEFAULT.isOverridableBy(candidate, overrider).getResult();
      OverrideCompatibilityInfo.Result result2 =
          DEFAULT.isOverridableBy(overrider, candidate).getResult();
      if (result1 == OVERRIDABLE && result2 == OVERRIDABLE) {
        overridable.add(candidate);
        iterator.remove();
      } else if (result1 == CONFLICT || result2 == CONFLICT) {
        sink.conflict(overrider, candidate);
        iterator.remove();
      }
    }
    return overridable;
  }
Example #2
0
  private static Collection<CallableMemberDescriptor> extractAndBindOverridesForMember(
      @NotNull CallableMemberDescriptor fromCurrent,
      @NotNull Collection<? extends CallableMemberDescriptor> descriptorsFromSuper,
      @NotNull ClassDescriptor current,
      @NotNull DescriptorSink sink) {
    Collection<CallableMemberDescriptor> bound =
        new ArrayList<CallableMemberDescriptor>(descriptorsFromSuper.size());
    for (CallableMemberDescriptor fromSupertype : descriptorsFromSuper) {
      OverrideCompatibilityInfo.Result result =
          DEFAULT.isOverridableBy(fromSupertype, fromCurrent).getResult();

      boolean isVisible =
          Visibilities.isVisible(ReceiverValue.IRRELEVANT_RECEIVER, fromSupertype, current);
      switch (result) {
        case OVERRIDABLE:
          if (isVisible) {
            fromCurrent.addOverriddenDescriptor(fromSupertype);
          }
          bound.add(fromSupertype);
          break;
        case CONFLICT:
          if (isVisible) {
            sink.conflict(fromSupertype, fromCurrent);
          }
          bound.add(fromSupertype);
          break;
        case INCOMPATIBLE:
          break;
      }
    }
    return bound;
  }
Example #3
0
  /**
   * @param <H> is something that handles CallableDescriptor inside
   * @return
   */
  @NotNull
  public static <H> Collection<H> extractMembersOverridableInBothWays(
      @NotNull H overrider,
      @NotNull @Mutable Collection<H> extractFrom,
      @NotNull Function1<H, CallableDescriptor> descriptorByHandle,
      @NotNull Function1<H, Unit> onConflict) {
    Collection<H> overridable = new ArrayList<H>();
    overridable.add(overrider);
    CallableDescriptor overriderDescriptor = descriptorByHandle.invoke(overrider);
    for (Iterator<H> iterator = extractFrom.iterator(); iterator.hasNext(); ) {
      H candidate = iterator.next();
      CallableDescriptor candidateDescriptor = descriptorByHandle.invoke(candidate);
      if (overrider == candidate) {
        iterator.remove();
        continue;
      }

      OverrideCompatibilityInfo.Result finalResult =
          getBothWaysOverridability(overriderDescriptor, candidateDescriptor);

      if (finalResult == OVERRIDABLE) {
        overridable.add(candidate);
        iterator.remove();
      } else if (finalResult == CONFLICT) {
        onConflict.invoke(candidate);
        iterator.remove();
      }
    }
    return overridable;
  }
Example #4
0
 /**
  * Given a fake override, finds any declaration of it in the overridden descriptors. Keep in mind
  * that there may be many declarations of the fake override in the supertypes, this method finds
  * just the only one. TODO: probably all call-sites of this method are wrong, they should handle
  * all super-declarations
  */
 @NotNull
 @SuppressWarnings("unchecked")
 public static <D extends CallableMemberDescriptor> D unwrapFakeOverride(@NotNull D descriptor) {
   while (descriptor.getKind() == CallableMemberDescriptor.Kind.FAKE_OVERRIDE) {
     Collection<? extends CallableMemberDescriptor> overridden =
         descriptor.getOverriddenDescriptors();
     if (overridden.isEmpty()) {
       throw new IllegalStateException(
           "Fake override should have at least one overridden descriptor: " + descriptor);
     }
     descriptor = (D) overridden.iterator().next();
   }
   return descriptor;
 }
Example #5
0
  private static boolean allHasSameContainingDeclaration(
      @NotNull Collection<CallableMemberDescriptor> notOverridden) {
    if (notOverridden.size() < 2) return true;

    final DeclarationDescriptor containingDeclaration =
        notOverridden.iterator().next().getContainingDeclaration();
    return CollectionsKt.all(
        notOverridden,
        new Function1<CallableMemberDescriptor, Boolean>() {
          @Override
          public Boolean invoke(CallableMemberDescriptor descriptor) {
            return descriptor.getContainingDeclaration() == containingDeclaration;
          }
        });
  }
Example #6
0
 @Nullable
 public static Visibility findMaxVisibility(
     @NotNull Collection<? extends CallableMemberDescriptor> descriptors) {
   if (descriptors.isEmpty()) {
     return Visibilities.DEFAULT_VISIBILITY;
   }
   Visibility maxVisibility = null;
   for (CallableMemberDescriptor descriptor : descriptors) {
     Visibility visibility = descriptor.getVisibility();
     assert visibility != Visibilities.INHERITED
         : "Visibility should have been computed for " + descriptor;
     if (maxVisibility == null) {
       maxVisibility = visibility;
       continue;
     }
     Integer compareResult = Visibilities.compare(visibility, maxVisibility);
     if (compareResult == null) {
       maxVisibility = null;
     } else if (compareResult > 0) {
       maxVisibility = visibility;
     }
   }
   if (maxVisibility == null) {
     return null;
   }
   for (CallableMemberDescriptor descriptor : descriptors) {
     Integer compareResult = Visibilities.compare(maxVisibility, descriptor.getVisibility());
     if (compareResult == null || compareResult < 0) {
       return null;
     }
   }
   return maxVisibility;
 }
Example #7
0
 @Nullable
 private static Visibility findMaxVisibility(
     @NotNull Collection<? extends CallableMemberDescriptor> descriptors) {
   if (descriptors.isEmpty()) {
     return Visibilities.INTERNAL;
   }
   Visibility maxVisibility = null;
   for (CallableMemberDescriptor descriptor : descriptors) {
     Visibility visibility = descriptor.getVisibility();
     assert visibility != Visibilities.INHERITED
         : "Visibility should have been computed for " + descriptor;
     if (maxVisibility == null) {
       maxVisibility = visibility;
       continue;
     }
     Integer compareResult = Visibilities.compare(visibility, maxVisibility);
     if (compareResult == null) {
       maxVisibility = null;
     } else if (compareResult > 0) {
       maxVisibility = visibility;
     }
   }
   // TODO: IDEA seems to issue an incorrect warning here
   //noinspection ConstantConditions
   if (maxVisibility == null) {
     return null;
   }
   for (CallableMemberDescriptor descriptor : descriptors) {
     Integer compareResult = Visibilities.compare(maxVisibility, descriptor.getVisibility());
     if (compareResult == null || compareResult < 0) {
       return null;
     }
   }
   return maxVisibility;
 }
Example #8
0
  private void checkSupertypesForConsistency(@NotNull ClassDescriptor classDescriptor) {
    Multimap<TypeConstructor, TypeProjection> multimap =
        SubstitutionUtils.buildDeepSubstitutionMultimap(classDescriptor.getDefaultType());
    for (Map.Entry<TypeConstructor, Collection<TypeProjection>> entry :
        multimap.asMap().entrySet()) {
      Collection<TypeProjection> projections = entry.getValue();
      if (projections.size() > 1) {
        TypeConstructor typeConstructor = entry.getKey();
        DeclarationDescriptor declarationDescriptor = typeConstructor.getDeclarationDescriptor();
        assert declarationDescriptor instanceof TypeParameterDescriptor : declarationDescriptor;
        TypeParameterDescriptor typeParameterDescriptor =
            (TypeParameterDescriptor) declarationDescriptor;

        // Immediate arguments of supertypes cannot be projected
        Set<JetType> conflictingTypes = Sets.newLinkedHashSet();
        for (TypeProjection projection : projections) {
          conflictingTypes.add(projection.getType());
        }
        removeDuplicateTypes(conflictingTypes);
        if (conflictingTypes.size() > 1) {
          DeclarationDescriptor containingDeclaration =
              typeParameterDescriptor.getContainingDeclaration();
          assert containingDeclaration instanceof ClassDescriptor : containingDeclaration;
          JetClassOrObject psiElement =
              (JetClassOrObject) DescriptorToSourceUtils.getSourceFromDescriptor(classDescriptor);
          assert psiElement != null;
          JetDelegationSpecifierList delegationSpecifierList =
              psiElement.getDelegationSpecifierList();
          assert delegationSpecifierList != null;
          //
          // trace.getErrorHandler().genericError(delegationSpecifierList.getNode(), "Type parameter
          // " + typeParameterDescriptor.getName() + " of " + containingDeclaration.getName() + "
          // has inconsistent values: " + conflictingTypes);
          trace.report(
              INCONSISTENT_TYPE_PARAMETER_VALUES.on(
                  delegationSpecifierList,
                  typeParameterDescriptor,
                  (ClassDescriptor) containingDeclaration,
                  conflictingTypes));
        }
      }
    }
  }
Example #9
0
  public static void generateOverridesInFunctionGroup(
      @SuppressWarnings("UnusedParameters") @NotNull
          Name name, // DO NOT DELETE THIS PARAMETER: needed to make sure all descriptors have the
      // same name
      @NotNull Collection<? extends CallableMemberDescriptor> membersFromSupertypes,
      @NotNull Collection<? extends CallableMemberDescriptor> membersFromCurrent,
      @NotNull ClassDescriptor current,
      @NotNull DescriptorSink sink) {
    Collection<CallableMemberDescriptor> notOverridden =
        new LinkedHashSet<CallableMemberDescriptor>(membersFromSupertypes);

    for (CallableMemberDescriptor fromCurrent : membersFromCurrent) {
      Collection<CallableMemberDescriptor> bound =
          extractAndBindOverridesForMember(fromCurrent, membersFromSupertypes, current, sink);
      notOverridden.removeAll(bound);
    }

    createAndBindFakeOverrides(current, notOverridden, sink);
  }
Example #10
0
  private static void createAndBindFakeOverride(
      @NotNull Collection<CallableMemberDescriptor> overridables,
      @NotNull ClassDescriptor current,
      @NotNull DescriptorSink sink) {
    Collection<CallableMemberDescriptor> visibleOverridables =
        filterVisibleFakeOverrides(current, overridables);
    boolean allInvisible = visibleOverridables.isEmpty();
    Collection<CallableMemberDescriptor> effectiveOverridden =
        allInvisible ? overridables : visibleOverridables;

    Modality modality = getMinimalModality(effectiveOverridden);
    Visibility visibility = allInvisible ? Visibilities.INVISIBLE_FAKE : Visibilities.INHERITED;
    CallableMemberDescriptor mostSpecific = selectMostSpecificMemberFromSuper(effectiveOverridden);
    CallableMemberDescriptor fakeOverride =
        mostSpecific.copy(
            current, modality, visibility, CallableMemberDescriptor.Kind.FAKE_OVERRIDE, false);
    for (CallableMemberDescriptor descriptor : effectiveOverridden) {
      fakeOverride.addOverriddenDescriptor(descriptor);
    }
    sink.addFakeOverride(fakeOverride);
  }
Example #11
0
  private static void createAndBindFakeOverride(
      @NotNull Collection<CallableMemberDescriptor> overridables,
      @NotNull ClassDescriptor current,
      @NotNull OverridingStrategy strategy) {
    Collection<CallableMemberDescriptor> visibleOverridables =
        filterVisibleFakeOverrides(current, overridables);
    boolean allInvisible = visibleOverridables.isEmpty();
    Collection<CallableMemberDescriptor> effectiveOverridden =
        allInvisible ? overridables : visibleOverridables;

    Modality modality = determineModality(effectiveOverridden);
    Visibility visibility = allInvisible ? Visibilities.INVISIBLE_FAKE : Visibilities.INHERITED;

    // FIXME doesn't work as expected for flexible types: should create a refined signature.
    // Current algorithm produces bad results in presence of annotated Java signatures such as:
    //      J: foo(s: String!): String -- @NotNull String foo(String s);
    //      K: foo(s: String): String?
    //  --> 'foo(s: String!): String' as an inherited signature with most specific return type.
    // This is bad because it can be overridden by 'foo(s: String?): String', which is not
    // override-equivalent with K::foo above.
    // Should be 'foo(s: String): String'.
    CallableMemberDescriptor mostSpecific =
        selectMostSpecificMember(
            effectiveOverridden,
            new Function1<CallableMemberDescriptor, CallableDescriptor>() {
              @Override
              public CallableMemberDescriptor invoke(CallableMemberDescriptor descriptor) {
                return descriptor;
              }
            });
    CallableMemberDescriptor fakeOverride =
        mostSpecific.copy(
            current, modality, visibility, CallableMemberDescriptor.Kind.FAKE_OVERRIDE, false);
    strategy.setOverriddenDescriptors(fakeOverride, effectiveOverridden);
    assert !fakeOverride.getOverriddenDescriptors().isEmpty()
        : "Overridden descriptors should be set for " + CallableMemberDescriptor.Kind.FAKE_OVERRIDE;
    strategy.addFakeOverride(fakeOverride);
  }
Example #12
0
  @NotNull
  public static <H> H selectMostSpecificMember(
      @NotNull Collection<H> overridables,
      @NotNull Function1<H, CallableDescriptor> descriptorByHandle) {
    assert !overridables.isEmpty() : "Should have at least one overridable descriptor";

    if (overridables.size() == 1) {
      return CollectionsKt.first(overridables);
    }

    Collection<H> candidates = new ArrayList<H>(2);
    List<CallableDescriptor> callableMemberDescriptors =
        CollectionsKt.map(overridables, descriptorByHandle);

    H transitivelyMostSpecific = CollectionsKt.first(overridables);
    CallableDescriptor transitivelyMostSpecificDescriptor =
        descriptorByHandle.invoke(transitivelyMostSpecific);

    for (H overridable : overridables) {
      CallableDescriptor descriptor = descriptorByHandle.invoke(overridable);
      if (isMoreSpecificThenAllOf(descriptor, callableMemberDescriptors)) {
        candidates.add(overridable);
      }
      if (isMoreSpecific(descriptor, transitivelyMostSpecificDescriptor)
          && !isMoreSpecific(transitivelyMostSpecificDescriptor, descriptor)) {
        transitivelyMostSpecific = overridable;
      }
    }

    if (candidates.isEmpty()) {
      return transitivelyMostSpecific;
    } else if (candidates.size() == 1) {
      return CollectionsKt.first(candidates);
    }

    H firstNonFlexible = null;
    for (H candidate : candidates) {
      //noinspection ConstantConditions
      if (!FlexibleTypesKt.isFlexible(descriptorByHandle.invoke(candidate).getReturnType())) {
        firstNonFlexible = candidate;
        break;
      }
    }
    if (firstNonFlexible != null) {
      return firstNonFlexible;
    }

    return CollectionsKt.first(candidates);
  }
Example #13
0
  private static Collection<CallableMemberDescriptor> extractAndBindOverridesForMember(
      @NotNull CallableMemberDescriptor fromCurrent,
      @NotNull Collection<? extends CallableMemberDescriptor> descriptorsFromSuper,
      @NotNull ClassDescriptor current,
      @NotNull OverridingStrategy strategy) {
    Collection<CallableMemberDescriptor> bound =
        new ArrayList<CallableMemberDescriptor>(descriptorsFromSuper.size());
    Collection<CallableMemberDescriptor> overridden = SmartSet.create();
    for (CallableMemberDescriptor fromSupertype : descriptorsFromSuper) {
      OverrideCompatibilityInfo.Result result =
          DEFAULT.isOverridableBy(fromSupertype, fromCurrent, current).getResult();

      boolean isVisibleForOverride = isVisibleForOverride(fromCurrent, fromSupertype);

      switch (result) {
        case OVERRIDABLE:
          if (isVisibleForOverride) {
            overridden.add(fromSupertype);
          }
          bound.add(fromSupertype);
          break;
        case CONFLICT:
          if (isVisibleForOverride) {
            strategy.overrideConflict(fromSupertype, fromCurrent);
          }
          bound.add(fromSupertype);
          break;
        case INCOMPATIBLE:
          break;
      }
    }

    strategy.setOverriddenDescriptors(fromCurrent, overridden);

    return bound;
  }