Пример #1
0
 private <D extends CallableDescriptor> OverloadResolutionResults<D> resolveFunctionArguments(
     @NotNull BasicCallResolutionContext context,
     @NotNull OverloadResolutionResultsImpl<D> results) {
   if (results.isSingleResult()) {
     argumentTypeResolver.checkTypesForFunctionArguments(
         context, results.getResultingCall().getCallToCompleteTypeArgumentInference());
   } else {
     argumentTypeResolver.checkTypesForFunctionArgumentsWithNoCallee(context);
   }
   return results;
 }
Пример #2
0
 private <D extends CallableDescriptor> void completeTypeInferenceDependentOnFunctionLiterals(
     @NotNull BasicCallResolutionContext context,
     @NotNull OverloadResolutionResultsImpl<D> results,
     @NotNull TracingStrategy tracing) {
   if (!results.isSingleResult()) {
     if (results.getResultCode() == INCOMPLETE_TYPE_INFERENCE) {
       argumentTypeResolver.checkTypesWithNoCallee(context, RESOLVE_FUNCTION_ARGUMENTS);
     }
     return;
   }
   CallCandidateResolutionContext<D> candidateContext =
       CallCandidateResolutionContext.createForCallBeingAnalyzed(
           results.getResultingCall().getCallToCompleteTypeArgumentInference(), context, tracing);
   candidateResolver.completeTypeInferenceDependentOnFunctionLiteralsForCall(candidateContext);
 }
Пример #3
0
  @NotNull
  private <D extends CallableDescriptor, F extends D>
      OverloadResolutionResultsImpl<F> performResolution(
          @NotNull ResolutionTask<D, F> task, @NotNull CallTransformer<D, F> callTransformer) {

    for (ResolutionCandidate<D> resolutionCandidate : task.getCandidates()) {
      TemporaryBindingTrace candidateTrace =
          TemporaryBindingTrace.create(task.trace, "trace to resolve candidate");
      Collection<CallCandidateResolutionContext<D>> contexts =
          callTransformer.createCallContexts(resolutionCandidate, task, candidateTrace);
      for (CallCandidateResolutionContext<D> context : contexts) {

        candidateResolver.performResolutionForCandidateCall(context, task);

        /* important for 'variable as function case': temporary bind reference to descriptor (will be rewritten)
        to have a binding to variable while 'invoke' call resolve */
        task.tracing.bindReference(context.candidateCall.getTrace(), context.candidateCall);

        Collection<ResolvedCallWithTrace<F>> calls =
            callTransformer.transformCall(context, this, task);

        for (ResolvedCallWithTrace<F> call : calls) {
          task.tracing.bindReference(call.getTrace(), call);
          task.tracing.bindResolvedCall(call.getTrace(), call);
          task.getResolvedCalls().add(call);
        }
      }
    }

    OverloadResolutionResultsImpl<F> results =
        ResolutionResultsHandler.INSTANCE.computeResultAndReportErrors(
            task.trace, task.tracing, task.getResolvedCalls());
    if (!results.isSingleResult() && !results.isIncomplete()) {
      argumentTypeResolver.checkTypesWithNoCallee(task.toBasic());
    }
    return results;
  }
Пример #4
0
  private <D extends CallableDescriptor>
      OverloadResolutionResultsImpl<D> completeTypeInferenceDependentOnExpectedType(
          @NotNull BasicCallResolutionContext context,
          @NotNull OverloadResolutionResultsImpl<D> results,
          @NotNull TracingStrategy tracing) {
    if (results.isSingleResult()) {
      argumentTypeResolver.checkUnmappedArgumentTypes(
          context,
          results
              .getResultingCall()
              .getCallToCompleteTypeArgumentInference()
              .getUnmappedArguments());
    }

    if (!results.isSingleResult()) return results;

    ResolvedCallImpl<D> resolvedCall =
        results.getResultingCall().getCallToCompleteTypeArgumentInference();

    if (!resolvedCall.hasIncompleteTypeParameters()) {
      CallCandidateResolutionContext<D> callCandidateResolutionContext =
          CallCandidateResolutionContext.createForCallBeingAnalyzed(resolvedCall, context, tracing);
      candidateResolver.completeNestedCallsInference(callCandidateResolutionContext);
      candidateResolver.checkValueArgumentTypes(callCandidateResolutionContext);
      return results;
    }
    ResolvedCallImpl<D> copy = CallResolverUtil.copy(resolvedCall, context);
    CallCandidateResolutionContext<D> callCandidateResolutionContext =
        CallCandidateResolutionContext.createForCallBeingAnalyzed(copy, context, tracing);
    candidateResolver.completeTypeInferenceDependentOnExpectedTypeForCall(
        callCandidateResolutionContext, false);

    if (copy.getStatus().isSuccess()) {
      return OverloadResolutionResultsImpl.success(copy);
    }
    return OverloadResolutionResultsImpl.incompleteTypeInference(copy);
  }
Пример #5
0
  @NotNull
  private <D extends CallableDescriptor, F extends D>
      OverloadResolutionResultsImpl<F> doResolveCall(
          @NotNull BasicCallResolutionContext context,
          @NotNull List<ResolutionTask<D, F>> prioritizedTasks, // high to low priority
          @NotNull CallTransformer<D, F> callTransformer,
          @NotNull JetReferenceExpression reference) {

    ResolutionDebugInfo.Data debugInfo = ResolutionDebugInfo.create();
    context.trace.record(
        ResolutionDebugInfo.RESOLUTION_DEBUG_INFO, context.call.getCallElement(), debugInfo);
    context.trace.record(RESOLUTION_SCOPE, context.call.getCalleeExpression(), context.scope);

    if (context.dataFlowInfo.hasTypeInfoConstraints()) {
      context.trace.record(
          NON_DEFAULT_EXPRESSION_DATA_FLOW,
          context.call.getCalleeExpression(),
          context.dataFlowInfo);
    }

    debugInfo.set(ResolutionDebugInfo.TASKS, prioritizedTasks);

    if (context.checkArguments == CheckValueArgumentsMode.ENABLED) {
      argumentTypeResolver.analyzeArgumentsAndRecordTypes(context);
    }

    TemporaryBindingTrace traceForFirstNonemptyCandidateSet = null;
    OverloadResolutionResultsImpl<F> resultsForFirstNonemptyCandidateSet = null;
    for (ResolutionTask<D, F> task : prioritizedTasks) {
      TemporaryBindingTrace taskTrace =
          TemporaryBindingTrace.create(
              context.trace, "trace to resolve a task for", task.reference);
      OverloadResolutionResultsImpl<F> results =
          performResolutionGuardedForExtraFunctionLiteralArguments(
              task.replaceBindingTrace(taskTrace), callTransformer);
      if (results.isSuccess() || results.isAmbiguity()) {
        taskTrace.commit();

        if (results.isSuccess()) {
          debugInfo.set(ResolutionDebugInfo.RESULT, results.getResultingCall());
        }

        resolveFunctionArguments(context, results);
        return results;
      }
      if (results.getResultCode() == INCOMPLETE_TYPE_INFERENCE) {
        results.setTrace(taskTrace);
        return results;
      }
      boolean updateResults =
          traceForFirstNonemptyCandidateSet == null
              || (resultsForFirstNonemptyCandidateSet.getResultCode()
                      == CANDIDATES_WITH_WRONG_RECEIVER
                  && results.getResultCode() != CANDIDATES_WITH_WRONG_RECEIVER);
      if (!task.getCandidates().isEmpty() && !results.isNothing() && updateResults) {
        traceForFirstNonemptyCandidateSet = taskTrace;
        resultsForFirstNonemptyCandidateSet = results;
      }
    }
    if (traceForFirstNonemptyCandidateSet != null) {
      traceForFirstNonemptyCandidateSet.commit();
      if (resultsForFirstNonemptyCandidateSet.isSingleResult()) {

        debugInfo.set(
            ResolutionDebugInfo.RESULT, resultsForFirstNonemptyCandidateSet.getResultingCall());
      }
      resolveFunctionArguments(context, resultsForFirstNonemptyCandidateSet);
    } else {
      context.trace.report(UNRESOLVED_REFERENCE.on(reference, reference));
      argumentTypeResolver.checkTypesWithNoCallee(context, RESOLVE_FUNCTION_ARGUMENTS);
    }
    return resultsForFirstNonemptyCandidateSet != null
        ? resultsForFirstNonemptyCandidateSet
        : OverloadResolutionResultsImpl.<F>nameNotFound();
  }
Пример #6
0
 private <D extends CallableDescriptor> OverloadResolutionResultsImpl<D> checkArgumentTypesAndFail(
     BasicCallResolutionContext context) {
   argumentTypeResolver.checkTypesWithNoCallee(context);
   return OverloadResolutionResultsImpl.nameNotFound();
 }