/*
 * Copyright (c) Facebook, Inc. and its affiliates.
 *
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 */

package codetoanalyze.java.nullsafe_default;

import com.facebook.infer.annotation.PropagatesNullable;
import javax.annotation.Nullable;

// Tests for the annotation @PropagatesNullable
class TestPropagatesNullable {

    class TestOneParameter {

      // means return null iff s is null
      String propagatesNullable(@PropagatesNullable String s) {
        return s;
      }

      @Nullable
      String nullable(@Nullable String s) {
        return s;
      }

      void test(@Nullable String sNullable, String sNonnull) {
        // null constant
        propagatesNullable(null).length(); // BAD: will be NPE
        nullable(null).length(); // BAD: result might be null

        // nullable
        propagatesNullable(sNullable).length(); // BAD: result can be null
        nullable(sNullable).length(); // BAD: result can be null

        // string literal
        propagatesNullable("").length(); // OK: result can not be null
        nullable("").length(); // BAD: typechecker can not figure out that this is safe

        // nonnull
        propagatesNullable(sNonnull).length(); // OK: result can not be null
        nullable(sNonnull).length(); // BAD: typechecker can not figure out that this is safe

        // flow sensitive nonnull FALSE POSITIVE
        if (sNullable != null) {
          // here we know that sNullable is not null, so it should be safe, but it is not the case
          // TODO(T53770056) fix it.
          propagatesNullable(sNullable).length();
          nullable(sNullable).length();
        }
      }

      // limitation: we currently cannot check the body, and just trust the annotation
      String cannotCheckBody(@PropagatesNullable String s) {
        return null; // nothing is reported here
      }

      void illustrateFalseNegativeAsCannotCheckBody() {
        cannotCheckBody("").length(); // this is an NPE but is not found
      }
    }

    class TestSecondParameter {
      // means return null iff s2 is null
      String propagatesNullable(@Nullable String s1, @PropagatesNullable String s2) {
        return s2;
      }

      @Nullable
      String nullable(@Nullable String s1, @Nullable String s2) {
        return s2;
      }

      // Let's ensure that @PropagatesNullable applies only to the parameter
      // that was annotated with it, and not to other params.
      void test(@Nullable String sNullable, String sNonnull) {
        // Both nullable
        propagatesNullable(sNullable, sNullable).length(); // BAD: result can be null
        nullable(sNullable, sNullable).length(); // BAD: result can be null

        // First is nonnull, second is nullable
        propagatesNullable(sNonnull, sNullable).length(); // BAD: result can be null
        nullable(sNonnull, sNullable).length(); // BAD: result can be null

        // First is nullable, second is nonnull
        propagatesNullable(sNullable, sNonnull).length(); // OK: result can not be null
        nullable(sNullable, sNonnull).length(); // BAD: typechecker can not figure this out

        // Both nonnullable
        propagatesNullable(sNonnull, sNonnull).length(); // OK: result can not be null
        nullable(sNonnull, sNonnull).length(); // BAD: typechecker can not figure this out
      }
    }

    class TestBothParams {
      // both parameters are annotated:
      // means return null iff either s1 or s2 is null
      String propagatesNullable(@PropagatesNullable String s1, @PropagatesNullable String s2) {
        return s1 == null ? s1 : s2;
      }

      void testBothParamsShouldBeNonnull(@Nullable String sNullable, String sNonnull) {
        propagatesNullable(sNullable, sNullable).length(); // BAD: result can be null
        propagatesNullable(sNonnull, sNullable).length(); // BAD: result can be null
        propagatesNullable(sNullable, sNonnull).length(); // BAD: result can be null
        propagatesNullable(sNonnull, sNonnull).length(); // OK: result can be null
      }
    }

    // For convenience, we do not require to annotate return type with @Nullable,
    // make sure it is respected.
    class TestReturnValueAnnotationIsAutomaticallyInferred {

      // Ensure that we do not warn with "return not nullable" even if we did not annotate the
      // return with @Nullable

      String notAnnotatingReturnWhenThereIsPropagatesNullableIsOK(@PropagatesNullable String s) {
        return null; // OK: treat is as implicitly nullable
      }

      String notAnnotatingReturnWhenThereAreNoPropagatesNullableIsBAD(@Nullable String s) {
        return null; // BAD: return not nullable
      }

      // Ensure that the behavior remains the same for explicitly and implicitly annotated functions

      @Nullable
      String annotatedReturn(@PropagatesNullable String s) {
        return s;
      }

      String notAnnotatedReturn(@PropagatesNullable String s) {
        return s;
      }

      // 1. Both versions equally catch non-legit usages

      void annotated_dereferencingAfterPassingNullableIsBAD(@Nullable String s) {
        annotatedReturn(s).toString(); // BAD: nullable dereference
      }

      void notAnnotated_dereferencingAfterPassingNullableIsBAD(@Nullable String s) {
        notAnnotatedReturn(s).toString(); // BAD: nullable dereference
      }

      // 2. Both versions equally allow legit usages

      void annotated_dereferencingAfterPassingNonnullIsOK(String s) {
        annotatedReturn(s).toString(); // OK: inferred to be non-nullable
      }

      void notAnnotated_dereferencingAfterPassingNonnullIsOK(String s) {
        notAnnotatedReturn(s).toString(); // OK: inferred to be non-nullable
      }
    }
  }