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/*
 * Copyright (c) 2016 Google, Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package com.google.common.truth.extensions.proto;

import com.google.protobuf.Descriptors.FieldDescriptor;
import com.google.protobuf.ExtensionRegistry;
import com.google.protobuf.Message;
import com.google.protobuf.TypeRegistry;

/**
 * Fluent API to perform detailed, customizable comparison of iterables of protocol buffers. The
 * same comparison rules are applied to all pairs of protocol buffers which get compared.
 *
 * 

Methods may be chained in any order, but the chain should terminate with a method from {@link * IterableOfProtosUsingCorrespondence}. * *

The state of an {@code IterableOfProtosFluentAssertion} object after each method is called is * left undefined. Users should not retain references to {@code IterableOfProtosFluentAssertion} * instances. */ public interface IterableOfProtosFluentAssertion extends IterableOfProtosUsingCorrespondence { /** * Specifies that the 'has' bit of individual fields should be ignored when comparing for * equality. * *

For version 2 Protocol Buffers, this setting determines whether two protos with the same * value for a field compare equal if one explicitly sets the value, and the other merely * implicitly uses the schema-defined default. This setting also determines whether unknown fields * should be considered in the comparison. By {@code ignoringFieldAbsence()}, unknown fields are * ignored, and value-equal fields as specified above are considered equal. * *

For version 3 Protocol Buffers, this setting does not affect primitive fields, because their * default value is indistinguishable from unset. */ IterableOfProtosFluentAssertion ignoringFieldAbsence(); /** * Specifies that the 'has' bit of these explicitly specified top-level field numbers should be * ignored when comparing for equality. Sub-fields must be specified explicitly (via {@link * FieldDescriptor}) if they are to be ignored as well. * *

Use {@link #ignoringFieldAbsence()} instead to ignore the 'has' bit for all fields. * * @see #ignoringFieldAbsence() for details */ IterableOfProtosFluentAssertion ignoringFieldAbsenceOfFields( int firstFieldNumber, int... rest); /** * Specifies that the 'has' bit of these explicitly specified top-level field numbers should be * ignored when comparing for equality. Sub-fields must be specified explicitly (via {@link * FieldDescriptor}) if they are to be ignored as well. * *

Use {@link #ignoringFieldAbsence()} instead to ignore the 'has' bit for all fields. * * @see #ignoringFieldAbsence() for details */ IterableOfProtosFluentAssertion ignoringFieldAbsenceOfFields(Iterable fieldNumbers); /** * Specifies that the 'has' bit of these explicitly specified field descriptors should be ignored * when comparing for equality. Sub-fields must be specified explicitly if they are to be ignored * as well. * *

Use {@link #ignoringFieldAbsence()} instead to ignore the 'has' bit for all fields. * * @see #ignoringFieldAbsence() for details */ IterableOfProtosFluentAssertion ignoringFieldAbsenceOfFieldDescriptors( FieldDescriptor firstFieldDescriptor, FieldDescriptor... rest); /** * Specifies that the 'has' bit of these explicitly specified field descriptors should be ignored * when comparing for equality. Sub-fields must be specified explicitly if they are to be ignored * as well. * *

Use {@link #ignoringFieldAbsence()} instead to ignore the 'has' bit for all fields. * * @see #ignoringFieldAbsence() for details */ IterableOfProtosFluentAssertion ignoringFieldAbsenceOfFieldDescriptors( Iterable fieldDescriptors); /** * Specifies that the ordering of repeated fields, at all levels, should be ignored when comparing * for equality. * *

This setting applies to all repeated fields recursively, but it does not ignore structure. * For example, with {@link #ignoringRepeatedFieldOrder()}, a repeated {@code int32} field {@code * bar}, set inside a repeated message field {@code foo}, the following protos will all compare * equal: * *

{@code
   * message1: {
   *   foo: {
   *     bar: 1
   *     bar: 2
   *   }
   *   foo: {
   *     bar: 3
   *     bar: 4
   *   }
   * }
   *
   * message2: {
   *   foo: {
   *     bar: 2
   *     bar: 1
   *   }
   *   foo: {
   *     bar: 4
   *     bar: 3
   *   }
   * }
   *
   * message3: {
   *   foo: {
   *     bar: 4
   *     bar: 3
   *   }
   *   foo: {
   *     bar: 2
   *     bar: 1
   *   }
   * }
   * }
* *

However, the following message will compare equal to none of these: * *

{@code
   * message4: {
   *   foo: {
   *     bar: 1
   *     bar: 3
   *   }
   *   foo: {
   *     bar: 2
   *     bar: 4
   *   }
   * }
   * }
* *

This setting does not apply to map fields, for which field order is always ignored. The * serialization order of map fields is undefined, and it may change from runtime to runtime. */ IterableOfProtosFluentAssertion ignoringRepeatedFieldOrder(); /** * Specifies that the ordering of repeated fields for these explicitly specified top-level field * numbers should be ignored when comparing for equality. Sub-fields must be specified explicitly * (via {@link FieldDescriptor}) if their orders are to be ignored as well. * *

Use {@link #ignoringRepeatedFieldOrder()} instead to ignore order for all fields. * * @see #ignoringRepeatedFieldOrder() for details. */ IterableOfProtosFluentAssertion ignoringRepeatedFieldOrderOfFields( int firstFieldNumber, int... rest); /** * Specifies that the ordering of repeated fields for these explicitly specified top-level field * numbers should be ignored when comparing for equality. Sub-fields must be specified explicitly * (via {@link FieldDescriptor}) if their orders are to be ignored as well. * *

Use {@link #ignoringRepeatedFieldOrder()} instead to ignore order for all fields. * * @see #ignoringRepeatedFieldOrder() for details. */ IterableOfProtosFluentAssertion ignoringRepeatedFieldOrderOfFields( Iterable fieldNumbers); /** * Specifies that the ordering of repeated fields for these explicitly specified field descriptors * should be ignored when comparing for equality. Sub-fields must be specified explicitly if their * orders are to be ignored as well. * *

Use {@link #ignoringRepeatedFieldOrder()} instead to ignore order for all fields. * * @see #ignoringRepeatedFieldOrder() for details. */ IterableOfProtosFluentAssertion ignoringRepeatedFieldOrderOfFieldDescriptors( FieldDescriptor firstFieldDescriptor, FieldDescriptor... rest); /** * Specifies that the ordering of repeated fields for these explicitly specified field descriptors * should be ignored when comparing for equality. Sub-fields must be specified explicitly if their * orders are to be ignored as well. * *

Use {@link #ignoringRepeatedFieldOrder()} instead to ignore order for all fields. * * @see #ignoringRepeatedFieldOrder() for details. */ IterableOfProtosFluentAssertion ignoringRepeatedFieldOrderOfFieldDescriptors( Iterable fieldDescriptors); /** * Specifies that, for all repeated and map fields, any elements in the 'actual' proto which are * not found in the 'expected' proto are ignored, with the exception of fields in the expected * proto which are empty. To ignore empty repeated fields as well, use {@link * #comparingExpectedFieldsOnly}. * *

This rule is applied independently from {@link #ignoringRepeatedFieldOrder}. If ignoring * repeated field order AND extra repeated field elements, all that is tested is that the expected * elements comprise a subset of the actual elements. If not ignoring repeated field order, but * still ignoring extra repeated field elements, the actual elements must contain a subsequence * that matches the expected elements for the test to pass. (The subsequence rule does not apply * to Map fields, which are always compared by key.) */ IterableOfProtosFluentAssertion ignoringExtraRepeatedFieldElements(); /** * Specifies that extra repeated field elements for these explicitly specified top-level field * numbers should be ignored. Sub-fields must be specified explicitly (via {@link * FieldDescriptor}) if their extra elements are to be ignored as well. * *

Use {@link #ignoringExtraRepeatedFieldElements()} instead to ignore these for all fields. * * @see #ignoringExtraRepeatedFieldElements() for details. */ IterableOfProtosFluentAssertion ignoringExtraRepeatedFieldElementsOfFields( int firstFieldNumber, int... rest); /** * Specifies that extra repeated field elements for these explicitly specified top-level field * numbers should be ignored. Sub-fields must be specified explicitly (via {@link * FieldDescriptor}) if their extra elements are to be ignored as well. * *

Use {@link #ignoringExtraRepeatedFieldElements()} instead to ignore these for all fields. * * @see #ignoringExtraRepeatedFieldElements() for details. */ IterableOfProtosFluentAssertion ignoringExtraRepeatedFieldElementsOfFields( Iterable fieldNumbers); /** * Specifies that extra repeated field elements for these explicitly specified field descriptors * should be ignored. Sub-fields must be specified explicitly if their extra elements are to be * ignored as well. * *

Use {@link #ignoringExtraRepeatedFieldElements()} instead to ignore these for all fields. * * @see #ignoringExtraRepeatedFieldElements() for details. */ IterableOfProtosFluentAssertion ignoringExtraRepeatedFieldElementsOfFieldDescriptors( FieldDescriptor firstFieldDescriptor, FieldDescriptor... rest); /** * Specifies that extra repeated field elements for these explicitly specified field descriptors * should be ignored. Sub-fields must be specified explicitly if their extra elements are to be * ignored as well. * *

Use {@link #ignoringExtraRepeatedFieldElements()} instead to ignore these for all fields. * * @see #ignoringExtraRepeatedFieldElements() for details. */ IterableOfProtosFluentAssertion ignoringExtraRepeatedFieldElementsOfFieldDescriptors( Iterable fieldDescriptors); /** * Compares double fields as equal if they are both finite and their absolute difference is less * than or equal to {@code tolerance}. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingDoubleTolerance(double tolerance); /** * Compares double fields with these explicitly specified top-level field numbers using the * provided absolute tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingDoubleToleranceForFields( double tolerance, int firstFieldNumber, int... rest); /** * Compares double fields with these explicitly specified top-level field numbers using the * provided absolute tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingDoubleToleranceForFields( double tolerance, Iterable fieldNumbers); /** * Compares double fields with these explicitly specified fields using the provided absolute * tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingDoubleToleranceForFieldDescriptors( double tolerance, FieldDescriptor firstFieldDescriptor, FieldDescriptor... rest); /** * Compares double fields with these explicitly specified fields using the provided absolute * tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingDoubleToleranceForFieldDescriptors( double tolerance, Iterable fieldDescriptors); /** * Compares float fields as equal if they are both finite and their absolute difference is less * than or equal to {@code tolerance}. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingFloatTolerance(float tolerance); /** * Compares float fields with these explicitly specified top-level field numbers using the * provided absolute tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingFloatToleranceForFields( float tolerance, int firstFieldNumber, int... rest); /** * Compares float fields with these explicitly specified top-level field numbers using the * provided absolute tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingFloatToleranceForFields( float tolerance, Iterable fieldNumbers); /** * Compares float fields with these explicitly specified fields using the provided absolute * tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingFloatToleranceForFieldDescriptors( float tolerance, FieldDescriptor firstFieldDescriptor, FieldDescriptor... rest); /** * Compares float fields with these explicitly specified top-level field numbers using the * provided absolute tolerance. * * @param tolerance A finite, non-negative tolerance. */ IterableOfProtosFluentAssertion usingFloatToleranceForFieldDescriptors( float tolerance, Iterable fieldDescriptors); /** * Limits the comparison of Protocol buffers to the fields set in the expected proto(s). When * multiple protos are specified, the comparison is limited to the union of set fields in all the * expected protos. * *

The "expected proto(s)" are those passed to the method in {@link * IterableOfProtosUsingCorrespondence} at the end of the call-chain. * *

Fields not set in the expected proto(s) are ignored. In particular, proto3 fields which have * their default values are ignored, as these are indistinguishable from unset fields. If you want * to assert that a proto3 message has certain fields with default values, you cannot use this * method. */ IterableOfProtosFluentAssertion comparingExpectedFieldsOnly(); /** * Limits the comparison of Protocol buffers to the defined {@link FieldScope}. * *

This method is additive and has well-defined ordering semantics. If the invoking {@link * IterableOfProtosFluentAssertion} is already scoped to a {@link FieldScope} {@code X}, and this * method is invoked with {@link FieldScope} {@code Y}, the resultant {@link * IterableOfProtosFluentAssertion} is constrained to the intersection of {@link FieldScope}s * {@code X} and {@code Y}. * *

By default, {@link IterableOfProtosFluentAssertion} is constrained to {@link * FieldScopes#all()}, that is, no fields are excluded from comparison. */ IterableOfProtosFluentAssertion withPartialScope(FieldScope fieldScope); /** * Excludes the top-level message fields with the given tag numbers from the comparison. * *

This method adds on any previous {@link FieldScope} related settings, overriding previous * changes to ensure the specified fields are ignored recursively. All sub-fields of these field * numbers are ignored, and all sub-messages of type {@code M} will also have these field numbers * ignored. * *

If an invalid field number is supplied, the terminal comparison operation will throw a * runtime exception. */ IterableOfProtosFluentAssertion ignoringFields(int firstFieldNumber, int... rest); /** * Excludes the top-level message fields with the given tag numbers from the comparison. * *

This method adds on any previous {@link FieldScope} related settings, overriding previous * changes to ensure the specified fields are ignored recursively. All sub-fields of these field * numbers are ignored, and all sub-messages of type {@code M} will also have these field numbers * ignored. * *

If an invalid field number is supplied, the terminal comparison operation will throw a * runtime exception. */ IterableOfProtosFluentAssertion ignoringFields(Iterable fieldNumbers); /** * Excludes all message fields matching the given {@link FieldDescriptor}s from the comparison. * *

This method adds on any previous {@link FieldScope} related settings, overriding previous * changes to ensure the specified fields are ignored recursively. All sub-fields of these field * descriptors are ignored, no matter where they occur in the tree. * *

If a field descriptor which does not, or cannot occur in the proto structure is supplied, it * is silently ignored. */ IterableOfProtosFluentAssertion ignoringFieldDescriptors( FieldDescriptor firstFieldDescriptor, FieldDescriptor... rest); /** * Excludes all message fields matching the given {@link FieldDescriptor}s from the comparison. * *

This method adds on any previous {@link FieldScope} related settings, overriding previous * changes to ensure the specified fields are ignored recursively. All sub-fields of these field * descriptors are ignored, no matter where they occur in the tree. * *

If a field descriptor which does not, or cannot occur in the proto structure is supplied, it * is silently ignored. */ IterableOfProtosFluentAssertion ignoringFieldDescriptors( Iterable fieldDescriptors); /** * Excludes all specific field paths under the argument {@link FieldScope} from the comparison. * *

This method is additive and has well-defined ordering semantics. If the invoking {@link * IterableOfProtosFluentAssertion} is already scoped to a {@link FieldScope} {@code X}, and this * method is invoked with {@link FieldScope} {@code Y}, the resultant {@link * IterableOfProtosFluentAssertion} is constrained to the subtraction of {@code X - Y}. * *

By default, {@link IterableOfProtosFluentAssertion} is constrained to {@link * FieldScopes#all()}, that is, no fields are excluded from comparison. */ IterableOfProtosFluentAssertion ignoringFieldScope(FieldScope fieldScope); /** * If set, in the event of a comparison failure, the error message printed will list only those * specific fields that did not match between the actual and expected values. Useful for very * large protocol buffers. * *

This a purely cosmetic setting, and it has no effect on the behavior of the test. */ IterableOfProtosFluentAssertion reportingMismatchesOnly(); /** * Specifies the {@link TypeRegistry} and {@link ExtensionRegistry} to use for {@link * com.google.protobuf.Any Any} messages. * *

To compare the value of an {@code Any} message, ProtoTruth looks in the given type registry * for a descriptor for the message's type URL: * *

    *
  • If ProtoTruth finds a descriptor, it unpacks the value and compares it against the * expected value, respecting any configuration methods used for the assertion. *
  • If ProtoTruth does not find a descriptor (or if the value can't be deserialized with the * descriptor), it compares the raw, serialized bytes of the expected and actual values. *
* *

When ProtoTruth unpacks a value, it is parsing a serialized proto. That proto may contain * extensions. To look up those extensions, ProtoTruth uses the provided {@link * ExtensionRegistry}. * * @since 1.1 */ IterableOfProtosFluentAssertion unpackingAnyUsing( TypeRegistry typeRegistry, ExtensionRegistry extensionRegistry); /** * @deprecated Do not call {@code equals()} on a {@code IterableOfProtosFluentAssertion}. * @see com.google.common.truth.Subject#equals(Object) */ @Override @Deprecated boolean equals(Object o); /** * @deprecated {@code IterableOfProtosFluentAssertion} does not support {@code hashCode()}. * @see com.google.common.truth.Subject#hashCode() */ @Override @Deprecated int hashCode(); }





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