third_party/protobuf/3.6.1/objectivec/Tests/GPBWellKnownTypesTest.m - bazel - Git at Google

 // Protocol Buffers - Google's data interchange format
 // Copyright 2015 Google Inc.  All rights reserved.
 // https://developers.google.com/protocol-buffers/
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 // notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 // copyright notice, this list of conditions and the following disclaimer
 // in the documentation and/or other materials provided with the
 // distribution.
 //     * Neither the name of Google Inc. nor the names of its
 // contributors may be used to endorse or promote products derived from
 // this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #import "GPBWellKnownTypes.h"

 #import <XCTest/XCTest.h>

 #import "GPBTestUtilities.h"
 #import "google/protobuf/AnyTest.pbobjc.h"

 // Nanosecond time accuracy
 static const NSTimeInterval kTimeAccuracy = 1e-9;

 @interface WellKnownTypesTest : XCTestCase
 @end

 @implementation WellKnownTypesTest

 - (void)testTimeStamp {
   // Test negative and positive values.
   NSTimeInterval values[] = {
       -428027599.483999967, -1234567.0, -0.5, 0, 0.75, 54321.0, 2468086,483999967
   };
   for (size_t i = 0; i < GPBARRAYSIZE(values); ++i) {
     NSTimeInterval value = values[i];

     // Test Creation - date.
     NSDate *date = [NSDate dateWithTimeIntervalSince1970:value];
     GPBTimestamp *timeStamp = [[GPBTimestamp alloc] initWithDate:date];

     XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
                                 @"Offset %f - Date: %@", (double)value, date);
     XCTAssertLessThan(timeStamp.nanos, 1e9,
                       @"Offset %f - Date: %@", (double)value, date);

     // Comparing timeIntervals instead of directly comparing dates because date
     // equality requires the time intervals to be exactly the same, and the
     // timeintervals go through a bit of floating point error as they are
     // converted back and forth from the internal representation.
     XCTAssertEqualWithAccuracy(value, timeStamp.date.timeIntervalSince1970,
                                kTimeAccuracy,
                                @"Offset %f - Date: %@", (double)value, date);
     [timeStamp release];

     // Test Creation - timeIntervalSince1970.
     timeStamp = [[GPBTimestamp alloc] initWithTimeIntervalSince1970:value];

     XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
                                 @"Offset %f - Date: %@", (double)value, date);
     XCTAssertLessThan(timeStamp.nanos, 1e9,
                       @"Offset %f - Date: %@", (double)value, date);

     XCTAssertEqualWithAccuracy(value, timeStamp.timeIntervalSince1970,
                                kTimeAccuracy,
                                @"Offset %f - Date: %@", (double)value, date);
     [timeStamp release];

     // Test Mutation - date.
     timeStamp = [[GPBTimestamp alloc] init];
     timeStamp.date = date;

     XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
                                 @"Offset %f - Date: %@", (double)value, date);
     XCTAssertLessThan(timeStamp.nanos, 1e9,
                       @"Offset %f - Date: %@", (double)value, date);

     XCTAssertEqualWithAccuracy(value, timeStamp.date.timeIntervalSince1970,
                                kTimeAccuracy,
                                @"Offset %f - Date: %@", (double)value, date);
     [timeStamp release];

     // Test Mutation - timeIntervalSince1970.
     timeStamp = [[GPBTimestamp alloc] init];
     timeStamp.timeIntervalSince1970 = value;

     XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
                                 @"Offset %f - Date: %@", (double)value, date);
     XCTAssertLessThan(timeStamp.nanos, 1e9,
                       @"Offset %f - Date: %@", (double)value, date);

     XCTAssertEqualWithAccuracy(value, timeStamp.date.timeIntervalSince1970,
                                kTimeAccuracy,
                                @"Offset %f - Date: %@", (double)value, date);

     [timeStamp release];
   }
 }

 - (void)testDuration {
   // Test negative and positive values.
   NSTimeInterval values[] = { -1000.0001, -500.0, -0.5, 0, 0.75, 1000.0, 2000.0002 };
   for (size_t i = 0; i < GPBARRAYSIZE(values); ++i) {
     NSTimeInterval value = values[i];

     // Test Creation.
     GPBDuration *duration =
         [[GPBDuration alloc] initWithTimeInterval:value];
     XCTAssertEqualWithAccuracy(value, duration.timeInterval, kTimeAccuracy,
                                @"For interval %f", (double)value);
     if (value > 0) {
       XCTAssertGreaterThanOrEqual(duration.seconds, 0,
                                   @"For interval %f", (double)value);
       XCTAssertGreaterThanOrEqual(duration.nanos, 0,
                                   @"For interval %f", (double)value);
     } else {
       XCTAssertLessThanOrEqual(duration.seconds, 0,
                                @"For interval %f", (double)value);
       XCTAssertLessThanOrEqual(duration.nanos, 0,
                                @"For interval %f", (double)value);
     }
     [duration release];

     // Test Mutation.
     duration = [[GPBDuration alloc] init];
     duration.timeInterval = value;
     XCTAssertEqualWithAccuracy(value, duration.timeInterval, kTimeAccuracy,
                                @"For interval %f", (double)value);
     if (value > 0) {
       XCTAssertGreaterThanOrEqual(duration.seconds, 0,
                                   @"For interval %f", (double)value);
       XCTAssertGreaterThanOrEqual(duration.nanos, 0,
                                   @"For interval %f", (double)value);
     } else {
       XCTAssertLessThanOrEqual(duration.seconds, 0,
                                @"For interval %f", (double)value);
       XCTAssertLessThanOrEqual(duration.nanos, 0,
                                @"For interval %f", (double)value);
     }
     [duration release];
   }
 }

 - (void)testAnyHelpers {

   // Set and extract covers most of the code.

   TestAny *subMessage = [TestAny message];
   subMessage.int32Value = 12345;
   TestAny *message = [TestAny message];
   NSError *err = nil;
   message.anyValue = [GPBAny anyWithMessage:subMessage error:&err];
   XCTAssertNil(err);

   NSData *data = message.data;
   XCTAssertNotNil(data);

   TestAny *message2 = [TestAny parseFromData:data error:&err];
   XCTAssertNil(err);
   XCTAssertNotNil(message2);
   XCTAssertTrue(message2.hasAnyValue);

   TestAny *subMessage2 =
       (TestAny *)[message.anyValue unpackMessageClass:[TestAny class]
                                                 error:&err];
   XCTAssertNil(err);
   XCTAssertNotNil(subMessage2);
   XCTAssertEqual(subMessage2.int32Value, 12345);

   // NULL errorPtr in the two calls.

   message.anyValue = [GPBAny anyWithMessage:subMessage error:NULL];
   NSData *data2 = message.data;
   XCTAssertEqualObjects(data2, data);

   TestAny *subMessage3 =
       (TestAny *)[message.anyValue unpackMessageClass:[TestAny class]
                                                 error:NULL];
   XCTAssertNotNil(subMessage3);
   XCTAssertEqualObjects(subMessage2, subMessage3);

   // Try to extract wrong type.

   GPBTimestamp *wrongMessage =
       (GPBTimestamp *)[message.anyValue unpackMessageClass:[GPBTimestamp class]
                                                      error:&err];
   XCTAssertNotNil(err);
   XCTAssertNil(wrongMessage);
   XCTAssertEqualObjects(err.domain, GPBWellKnownTypesErrorDomain);
   XCTAssertEqual(err.code, GPBWellKnownTypesErrorCodeTypeURLMismatch);

   wrongMessage =
       (GPBTimestamp *)[message.anyValue unpackMessageClass:[GPBTimestamp class]
                                                      error:NULL];
   XCTAssertNil(wrongMessage);
 }

 @end
	// Protocol Buffers - Google's data interchange format
	// Copyright 2015 Google Inc. All rights reserved.
	// https://developers.google.com/protocol-buffers/
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following disclaimer
	// in the documentation and/or other materials provided with the
	// distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#import "GPBWellKnownTypes.h"

	#import <XCTest/XCTest.h>

	#import "GPBTestUtilities.h"
	#import "google/protobuf/AnyTest.pbobjc.h"

	// Nanosecond time accuracy
	static const NSTimeInterval kTimeAccuracy = 1e-9;

	@interface WellKnownTypesTest : XCTestCase
	@end

	@implementation WellKnownTypesTest

	- (void)testTimeStamp {
	// Test negative and positive values.
	NSTimeInterval values[] = {
	-428027599.483999967, -1234567.0, -0.5, 0, 0.75, 54321.0, 2468086,483999967
	};
	for (size_t i = 0; i < GPBARRAYSIZE(values); ++i) {
	NSTimeInterval value = values[i];

	// Test Creation - date.
	NSDate *date = [NSDate dateWithTimeIntervalSince1970:value];
	GPBTimestamp *timeStamp = [[GPBTimestamp alloc] initWithDate:date];

	XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
	@"Offset %f - Date: %@", (double)value, date);
	XCTAssertLessThan(timeStamp.nanos, 1e9,
	@"Offset %f - Date: %@", (double)value, date);

	// Comparing timeIntervals instead of directly comparing dates because date
	// equality requires the time intervals to be exactly the same, and the
	// timeintervals go through a bit of floating point error as they are
	// converted back and forth from the internal representation.
	XCTAssertEqualWithAccuracy(value, timeStamp.date.timeIntervalSince1970,
	kTimeAccuracy,
	@"Offset %f - Date: %@", (double)value, date);
	[timeStamp release];

	// Test Creation - timeIntervalSince1970.
	timeStamp = [[GPBTimestamp alloc] initWithTimeIntervalSince1970:value];

	XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
	@"Offset %f - Date: %@", (double)value, date);
	XCTAssertLessThan(timeStamp.nanos, 1e9,
	@"Offset %f - Date: %@", (double)value, date);

	XCTAssertEqualWithAccuracy(value, timeStamp.timeIntervalSince1970,
	kTimeAccuracy,
	@"Offset %f - Date: %@", (double)value, date);
	[timeStamp release];

	// Test Mutation - date.
	timeStamp = [[GPBTimestamp alloc] init];
	timeStamp.date = date;

	XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
	@"Offset %f - Date: %@", (double)value, date);
	XCTAssertLessThan(timeStamp.nanos, 1e9,
	@"Offset %f - Date: %@", (double)value, date);

	XCTAssertEqualWithAccuracy(value, timeStamp.date.timeIntervalSince1970,
	kTimeAccuracy,
	@"Offset %f - Date: %@", (double)value, date);
	[timeStamp release];

	// Test Mutation - timeIntervalSince1970.
	timeStamp = [[GPBTimestamp alloc] init];
	timeStamp.timeIntervalSince1970 = value;

	XCTAssertGreaterThanOrEqual(timeStamp.nanos, 0,
	@"Offset %f - Date: %@", (double)value, date);
	XCTAssertLessThan(timeStamp.nanos, 1e9,
	@"Offset %f - Date: %@", (double)value, date);

	XCTAssertEqualWithAccuracy(value, timeStamp.date.timeIntervalSince1970,
	kTimeAccuracy,
	@"Offset %f - Date: %@", (double)value, date);

	[timeStamp release];
	}
	}

	- (void)testDuration {
	// Test negative and positive values.
	NSTimeInterval values[] = { -1000.0001, -500.0, -0.5, 0, 0.75, 1000.0, 2000.0002 };
	for (size_t i = 0; i < GPBARRAYSIZE(values); ++i) {
	NSTimeInterval value = values[i];

	// Test Creation.
	GPBDuration *duration =
	[[GPBDuration alloc] initWithTimeInterval:value];
	XCTAssertEqualWithAccuracy(value, duration.timeInterval, kTimeAccuracy,
	@"For interval %f", (double)value);
	if (value > 0) {
	XCTAssertGreaterThanOrEqual(duration.seconds, 0,
	@"For interval %f", (double)value);
	XCTAssertGreaterThanOrEqual(duration.nanos, 0,
	@"For interval %f", (double)value);
	} else {
	XCTAssertLessThanOrEqual(duration.seconds, 0,
	@"For interval %f", (double)value);
	XCTAssertLessThanOrEqual(duration.nanos, 0,
	@"For interval %f", (double)value);
	}
	[duration release];

	// Test Mutation.
	duration = [[GPBDuration alloc] init];
	duration.timeInterval = value;
	XCTAssertEqualWithAccuracy(value, duration.timeInterval, kTimeAccuracy,
	@"For interval %f", (double)value);
	if (value > 0) {
	XCTAssertGreaterThanOrEqual(duration.seconds, 0,
	@"For interval %f", (double)value);
	XCTAssertGreaterThanOrEqual(duration.nanos, 0,
	@"For interval %f", (double)value);
	} else {
	XCTAssertLessThanOrEqual(duration.seconds, 0,
	@"For interval %f", (double)value);
	XCTAssertLessThanOrEqual(duration.nanos, 0,
	@"For interval %f", (double)value);
	}
	[duration release];
	}
	}

	- (void)testAnyHelpers {

	// Set and extract covers most of the code.

	TestAny *subMessage = [TestAny message];
	subMessage.int32Value = 12345;
	TestAny *message = [TestAny message];
	NSError *err = nil;
	message.anyValue = [GPBAny anyWithMessage:subMessage error:&err];
	XCTAssertNil(err);

	NSData *data = message.data;
	XCTAssertNotNil(data);

	TestAny *message2 = [TestAny parseFromData:data error:&err];
	XCTAssertNil(err);
	XCTAssertNotNil(message2);
	XCTAssertTrue(message2.hasAnyValue);

	TestAny *subMessage2 =
	(TestAny *)[message.anyValue unpackMessageClass:[TestAny class]
	error:&err];
	XCTAssertNil(err);
	XCTAssertNotNil(subMessage2);
	XCTAssertEqual(subMessage2.int32Value, 12345);

	// NULL errorPtr in the two calls.

	message.anyValue = [GPBAny anyWithMessage:subMessage error:NULL];
	NSData *data2 = message.data;
	XCTAssertEqualObjects(data2, data);

	TestAny *subMessage3 =
	(TestAny *)[message.anyValue unpackMessageClass:[TestAny class]
	error:NULL];
	XCTAssertNotNil(subMessage3);
	XCTAssertEqualObjects(subMessage2, subMessage3);

	// Try to extract wrong type.

	GPBTimestamp *wrongMessage =
	(GPBTimestamp *)[message.anyValue unpackMessageClass:[GPBTimestamp class]
	error:&err];
	XCTAssertNotNil(err);
	XCTAssertNil(wrongMessage);
	XCTAssertEqualObjects(err.domain, GPBWellKnownTypesErrorDomain);
	XCTAssertEqual(err.code, GPBWellKnownTypesErrorCodeTypeURLMismatch);

	wrongMessage =
	(GPBTimestamp *)[message.anyValue unpackMessageClass:[GPBTimestamp class]
	error:NULL];
	XCTAssertNil(wrongMessage);
	}

	@end