blob: b42649dc18c16470c183cfc049216fde204bf38f [file] [log] [blame] [edit]
<?php
require_once('test_base.php');
require_once('test_util.php');
use Google\Protobuf\Internal\RepeatedField;
use Google\Protobuf\Internal\MapField;
use Google\Protobuf\Internal\GPBType;
use Bar\TestLegacyMessage;
use Bar\TestLegacyMessage_NestedEnum;
use Bar\TestLegacyMessage_NestedMessage;
use Foo\Test32Fields;
use Foo\TestEnum;
use Foo\TestIncludeNamespaceMessage;
use Foo\TestIncludePrefixMessage;
use Foo\TestMessage;
use Foo\TestMessage\Sub;
use Foo\TestMessage_Sub;
use Foo\TestMessage\NestedEnum;
use Foo\TestReverseFieldOrder;
use Foo\testLowerCaseMessage;
use Foo\testLowerCaseEnum;
use PBEmpty\PBEcho\TestEmptyPackage;
use Php\Test\TestNamespace;
# This is not allowed, but we at least shouldn't crash.
class C extends \Google\Protobuf\Internal\Message {
public function __construct($data = null) {
parent::__construct($data);
}
}
class GeneratedClassTest extends TestBase
{
#########################################################
# Test field accessors.
#########################################################
public function testSetterGetter()
{
$m = new TestMessage();
$m->setOptionalInt32(1);
$this->assertSame(1, $m->getOptionalInt32());
}
#########################################################
# Test int32 field.
#########################################################
public function testInt32Field()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalInt32(MAX_INT32);
$this->assertSame(MAX_INT32, $m->getOptionalInt32());
$m->setOptionalInt32(MIN_INT32);
$this->assertSame(MIN_INT32, $m->getOptionalInt32());
// Set float.
$m->setOptionalInt32(1.1);
$this->assertSame(1, $m->getOptionalInt32());
$m->setOptionalInt32(MAX_INT32_FLOAT);
$this->assertSame(MAX_INT32, $m->getOptionalInt32());
$m->setOptionalInt32(MIN_INT32_FLOAT);
$this->assertSame(MIN_INT32, $m->getOptionalInt32());
// Set string.
$m->setOptionalInt32('2');
$this->assertSame(2, $m->getOptionalInt32());
$m->setOptionalInt32('3.1');
$this->assertSame(3, $m->getOptionalInt32());
$m->setOptionalInt32(MAX_INT32_STRING);
$this->assertSame(MAX_INT32, $m->getOptionalInt32());
$m->setOptionalInt32(MIN_INT32_STRING);
$this->assertSame(MIN_INT32, $m->getOptionalInt32());
}
#########################################################
# Test deprecated int32 field.
#########################################################
public function testDeprecatedInt32Field()
{
$m = new TestMessage();
// temporarily change error handler to capture the deprecated errors
$deprecationCount = 0;
set_error_handler(function ($errno, $errstr) use (&$deprecationCount) {
if ($errstr === 'deprecated_optional_int32 is deprecated.') {
$deprecationCount++;
}
}, E_USER_DEPRECATED);
// default test set
$m->setDeprecatedOptionalInt32(MAX_INT32);
$this->assertSame(MAX_INT32, $m->getDeprecatedOptionalInt32());
$m->setDeprecatedOptionalInt32(MIN_INT32);
$this->assertSame(MIN_INT32, $m->getDeprecatedOptionalInt32());
restore_error_handler();
$this->assertSame(4, $deprecationCount);
}
#########################################################
# Test optional int32 field.
#########################################################
public function testOptionalInt32Field()
{
$m = new TestMessage();
$this->assertFalse($m->hasTrueOptionalInt32());
$this->assertSame(0, $m->getTrueOptionalInt32());
// Set integer.
$m->setTrueOptionalInt32(MAX_INT32);
$this->assertTrue($m->hasTrueOptionalInt32());
$this->assertSame(MAX_INT32, $m->getTrueOptionalInt32());
// Clear integer.
$m->clearTrueOptionalInt32();
$this->assertFalse($m->hasTrueOptionalInt32());
$this->assertSame(0, $m->getTrueOptionalInt32());
}
#########################################################
# Test uint32 field.
#########################################################
public function testUint32Field()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalUint32(MAX_UINT32);
$this->assertSame(-1, $m->getOptionalUint32());
$m->setOptionalUint32(-1);
$this->assertSame(-1, $m->getOptionalUint32());
$m->setOptionalUint32(MIN_UINT32);
$this->assertSame(MIN_INT32, $m->getOptionalUint32());
// Set float.
$m->setOptionalUint32(1.1);
$this->assertSame(1, $m->getOptionalUint32());
$m->setOptionalUint32(MAX_UINT32_FLOAT);
$this->assertSame(-1, $m->getOptionalUint32());
$m->setOptionalUint32(-1.0);
$this->assertSame(-1, $m->getOptionalUint32());
$m->setOptionalUint32(MIN_UINT32_FLOAT);
$this->assertSame(MIN_INT32, $m->getOptionalUint32());
// Set string.
$m->setOptionalUint32('2');
$this->assertSame(2, $m->getOptionalUint32());
$m->setOptionalUint32('3.1');
$this->assertSame(3, $m->getOptionalUint32());
$m->setOptionalUint32(MAX_UINT32_STRING);
$this->assertSame(-1, $m->getOptionalUint32());
$m->setOptionalUint32('-1.0');
$this->assertSame(-1, $m->getOptionalUint32());
$m->setOptionalUint32(MIN_UINT32_STRING);
$this->assertSame(MIN_INT32, $m->getOptionalUint32());
}
#########################################################
# Test int64 field.
#########################################################
public function testInt64Field()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalInt64(MAX_INT64);
$this->assertSame(MAX_INT64, $m->getOptionalInt64());
$m->setOptionalInt64(MIN_INT64);
$this->assertEquals(MIN_INT64, $m->getOptionalInt64());
// Set float.
$m->setOptionalInt64(1.1);
if (PHP_INT_SIZE == 4) {
$this->assertSame('1', $m->getOptionalInt64());
} else {
$this->assertSame(1, $m->getOptionalInt64());
}
// Set string.
$m->setOptionalInt64('2');
if (PHP_INT_SIZE == 4) {
$this->assertSame('2', $m->getOptionalInt64());
} else {
$this->assertSame(2, $m->getOptionalInt64());
}
$m->setOptionalInt64('3.1');
if (PHP_INT_SIZE == 4) {
$this->assertSame('3', $m->getOptionalInt64());
} else {
$this->assertSame(3, $m->getOptionalInt64());
}
$m->setOptionalInt64(MAX_INT64_STRING);
if (PHP_INT_SIZE == 4) {
$this->assertSame(MAX_INT64_STRING, $m->getOptionalInt64());
} else {
$this->assertSame(MAX_INT64, $m->getOptionalInt64());
}
$m->setOptionalInt64(MIN_INT64_STRING);
if (PHP_INT_SIZE == 4) {
$this->assertSame(MIN_INT64_STRING, $m->getOptionalInt64());
} else {
$this->assertSame(MIN_INT64, $m->getOptionalInt64());
}
}
#########################################################
# Test uint64 field.
#########################################################
public function testUint64Field()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalUint64(MAX_UINT64);
if (PHP_INT_SIZE == 4) {
$this->assertSame(MAX_UINT64_STRING, $m->getOptionalUint64());
} else {
$this->assertSame(MAX_UINT64, $m->getOptionalUint64());
}
// Set float.
$m->setOptionalUint64(1.1);
if (PHP_INT_SIZE == 4) {
$this->assertSame('1', $m->getOptionalUint64());
} else {
$this->assertSame(1, $m->getOptionalUint64());
}
// Set string.
$m->setOptionalUint64('2');
if (PHP_INT_SIZE == 4) {
$this->assertSame('2', $m->getOptionalUint64());
} else {
$this->assertSame(2, $m->getOptionalUint64());
}
$m->setOptionalUint64('3.1');
if (PHP_INT_SIZE == 4) {
$this->assertSame('3', $m->getOptionalUint64());
} else {
$this->assertSame(3, $m->getOptionalUint64());
}
$m->setOptionalUint64(MAX_UINT64_STRING);
if (PHP_INT_SIZE == 4) {
$this->assertSame(MAX_UINT64_STRING, $m->getOptionalUint64());
} else {
$this->assertSame(MAX_UINT64, $m->getOptionalUint64());
}
}
#########################################################
# Test enum field.
#########################################################
public function testEnumField()
{
$m = new TestMessage();
// Set enum.
$m->setOptionalEnum(TestEnum::ONE);
$this->assertEquals(TestEnum::ONE, $m->getOptionalEnum());
// Set integer.
$m->setOptionalEnum(1);
$this->assertEquals(TestEnum::ONE, $m->getOptionalEnum());
// Set float.
$m->setOptionalEnum(1.1);
$this->assertEquals(TestEnum::ONE, $m->getOptionalEnum());
// Set string.
$m->setOptionalEnum("1");
$this->assertEquals(TestEnum::ONE, $m->getOptionalEnum());
// Test Enum methods
$this->assertEquals('ONE', TestEnum::name(1));
$this->assertEquals(1, TestEnum::value('ONE'));
$this->assertEquals('ECHO', TestEnum::name(3));
$this->assertEquals(3, TestEnum::value('ECHO'));
// Backwards compat value lookup by prefixed-name.
$this->assertEquals(3, TestEnum::value('PBECHO'));
}
public function testInvalidEnumValueThrowsException()
{
$this->expectException(UnexpectedValueException::class);
$this->expectExceptionMessage(
'Enum Foo\TestEnum has no name defined for value -1');
TestEnum::name(-1);
}
public function testInvalidEnumNameThrowsException()
{
$this->expectException(UnexpectedValueException::class);
$this->expectExceptionMessage(
'Enum Foo\TestEnum has no value defined for name DOES_NOT_EXIST');
TestEnum::value('DOES_NOT_EXIST');
}
public function testNestedEnum()
{
$m = new TestMessage();
$m->setOptionalNestedEnum(NestedEnum::ZERO);
$this->assertTrue(true);
}
public function testLegacyNestedEnum()
{
$m = new TestMessage();
$m->setOptionalNestedEnum(\Foo\TestMessage_NestedEnum::ZERO);
$this->assertTrue(true);
}
public function testLegacyTypehintWithNestedEnums()
{
$this->legacyEnum(new TestLegacyMessage\NestedEnum);
}
public function testLegacyReadOnlyMessage()
{
$this->assertTrue(class_exists('\Upper\READONLY'));
$this->assertTrue(class_exists('\Lower\readonly'));
$this->assertTrue(class_exists('\Php\Test\TestNamespace\PBEmpty\ReadOnly'));
}
public function testLegacyReadOnlyEnum()
{
$this->assertTrue(class_exists('\Upper_enum\READONLY'));
$this->assertTrue(class_exists('\Lower_enum\readonly'));
}
private function legacyEnum(TestLegacyMessage_NestedEnum $enum)
{
// If we made it here without a PHP Fatal error, the typehint worked
$this->assertTrue(true);
}
#########################################################
# Test float field.
#########################################################
public function testFloatField()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalFloat(1);
$this->assertFloatEquals(1.0, $m->getOptionalFloat(), MAX_FLOAT_DIFF);
// Set float.
$m->setOptionalFloat(1.1);
$this->assertFloatEquals(1.1, $m->getOptionalFloat(), MAX_FLOAT_DIFF);
// Set string.
$m->setOptionalFloat('2');
$this->assertFloatEquals(2.0, $m->getOptionalFloat(), MAX_FLOAT_DIFF);
$m->setOptionalFloat('3.1');
$this->assertFloatEquals(3.1, $m->getOptionalFloat(), MAX_FLOAT_DIFF);
}
#########################################################
# Test double field.
#########################################################
public function testDoubleField()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalDouble(1);
$this->assertFloatEquals(1.0, $m->getOptionalDouble(), MAX_FLOAT_DIFF);
// Set float.
$m->setOptionalDouble(1.1);
$this->assertFloatEquals(1.1, $m->getOptionalDouble(), MAX_FLOAT_DIFF);
// Set string.
$m->setOptionalDouble('2');
$this->assertFloatEquals(2.0, $m->getOptionalDouble(), MAX_FLOAT_DIFF);
$m->setOptionalDouble('3.1');
$this->assertFloatEquals(3.1, $m->getOptionalDouble(), MAX_FLOAT_DIFF);
}
#########################################################
# Test bool field.
#########################################################
public function testBoolField()
{
$m = new TestMessage();
// Set bool.
$m->setOptionalBool(true);
$this->assertSame(true, $m->getOptionalBool());
// Set integer.
$m->setOptionalBool(-1);
$this->assertSame(true, $m->getOptionalBool());
// Set float.
$m->setOptionalBool(1.1);
$this->assertSame(true, $m->getOptionalBool());
// Set string.
$m->setOptionalBool('');
$this->assertSame(false, $m->getOptionalBool());
}
#########################################################
# Test string field.
#########################################################
public function testStringField()
{
$m = new TestMessage();
// Set string.
$m->setOptionalString('abc');
$this->assertSame('abc', $m->getOptionalString());
// Set integer.
$m->setOptionalString(1);
$this->assertSame('1', $m->getOptionalString());
// Set double.
$m->setOptionalString(1.1);
$this->assertSame('1.1', $m->getOptionalString());
// Set bool.
$m->setOptionalString(true);
$this->assertSame('1', $m->getOptionalString());
}
#########################################################
# Test bytes field.
#########################################################
public function testBytesField()
{
$m = new TestMessage();
// Set string.
$m->setOptionalBytes('abc');
$this->assertSame('abc', $m->getOptionalBytes());
// Set integer.
$m->setOptionalBytes(1);
$this->assertSame('1', $m->getOptionalBytes());
// Set double.
$m->setOptionalBytes(1.1);
$this->assertSame('1.1', $m->getOptionalBytes());
// Set bool.
$m->setOptionalBytes(true);
$this->assertSame('1', $m->getOptionalBytes());
}
public function testBytesFieldInvalidUTF8Success()
{
$m = new TestMessage();
$hex = hex2bin("ff");
$m->setOptionalBytes($hex);
$this->assertTrue(true);
}
#########################################################
# Test message field.
#########################################################
public function testMessageField()
{
$m = new TestMessage();
$this->assertNull($m->getOptionalMessage());
$sub_m = new Sub();
$sub_m->setA(1);
$m->setOptionalMessage($sub_m);
$this->assertSame(1, $m->getOptionalMessage()->getA());
$this->assertTrue($m->hasOptionalMessage());
$null = null;
$m->setOptionalMessage($null);
$this->assertNull($m->getOptionalMessage());
$this->assertFalse($m->hasOptionalMessage());
}
public function testLegacyMessageField()
{
$m = new TestMessage();
$sub_m = new TestMessage_Sub();
$sub_m->setA(1);
$m->setOptionalMessage($sub_m);
$this->assertSame(1, $m->getOptionalMessage()->getA());
$null = null;
$m->setOptionalMessage($null);
$this->assertNull($m->getOptionalMessage());
}
public function testLegacyTypehintWithNestedMessages()
{
$this->legacyMessage(new TestLegacyMessage\NestedMessage);
}
private function legacyMessage(TestLegacyMessage_NestedMessage $sub)
{
// If we made it here without a PHP Fatal error, the typehint worked
$this->assertTrue(true);
}
#########################################################
# Test repeated field.
#########################################################
public function testRepeatedField()
{
$m = new TestMessage();
$repeated_int32 = new RepeatedField(GPBType::INT32);
$m->setRepeatedInt32($repeated_int32);
$this->assertSame($repeated_int32, $m->getRepeatedInt32());
}
public function testRepeatedFieldViaArray()
{
$m = new TestMessage();
$arr = array();
$m->setRepeatedInt32($arr);
$this->assertSame(0, count($m->getRepeatedInt32()));
$arr = array(1, 2.1, "3");
$m->setRepeatedInt32($arr);
$this->assertTrue($m->getRepeatedInt32() instanceof RepeatedField);
$this->assertSame("Google\Protobuf\Internal\RepeatedField",
get_class($m->getRepeatedInt32()));
$this->assertSame(3, count($m->getRepeatedInt32()));
$this->assertSame(1, $m->getRepeatedInt32()[0]);
$this->assertSame(2, $m->getRepeatedInt32()[1]);
$this->assertSame(3, $m->getRepeatedInt32()[2]);
$this->assertFalse($arr instanceof RepeatedField);
}
#########################################################
# Test map field.
#########################################################
public function testMapField()
{
$m = new TestMessage();
$map_int32_int32 = new MapField(GPBType::INT32, GPBType::INT32);
$m->setMapInt32Int32($map_int32_int32);
$this->assertSame($map_int32_int32, $m->getMapInt32Int32());
}
public function testMapFieldViaArray()
{
$m = new TestMessage();
$dict = array();
$m->setMapInt32Int32($dict);
$this->assertSame(0, count($m->getMapInt32Int32()));
$dict = array(5 => 5, 6 => 6.1, "7" => "7");
$m->setMapInt32Int32($dict);
$this->assertTrue($m->getMapInt32Int32() instanceof MapField);
$this->assertSame(3, count($m->getMapInt32Int32()));
$this->assertSame(5, $m->getMapInt32Int32()[5]);
$this->assertSame(6, $m->getMapInt32Int32()[6]);
$this->assertSame(7, $m->getMapInt32Int32()[7]);
$this->assertFalse($dict instanceof MapField);
}
#########################################################
# Test oneof field.
#########################################################
public function testOneofField() {
$m = new TestMessage();
$this->assertSame("", $m->getMyOneof());
$m->setOneofInt32(1);
$this->assertSame(1, $m->getOneofInt32());
$this->assertSame(0.0, $m->getOneofFloat());
$this->assertSame('', $m->getOneofString());
$this->assertSame(NULL, $m->getOneofMessage());
$this->assertSame("oneof_int32", $m->getMyOneof());
$m->setOneofFloat(2.0);
$this->assertSame(0, $m->getOneofInt32());
$this->assertSame(2.0, $m->getOneofFloat());
$this->assertSame('', $m->getOneofString());
$this->assertSame(NULL, $m->getOneofMessage());
$this->assertSame("oneof_float", $m->getMyOneof());
$m->setOneofString('abc');
$this->assertSame(0, $m->getOneofInt32());
$this->assertSame(0.0, $m->getOneofFloat());
$this->assertSame('abc', $m->getOneofString());
$this->assertSame(NULL, $m->getOneofMessage());
$this->assertSame("oneof_string", $m->getMyOneof());
$sub_m = new Sub();
$sub_m->setA(1);
$m->setOneofMessage($sub_m);
$this->assertSame(0, $m->getOneofInt32());
$this->assertSame(0.0, $m->getOneofFloat());
$this->assertSame('', $m->getOneofString());
$this->assertSame(1, $m->getOneofMessage()->getA());
$this->assertSame("oneof_message", $m->getMyOneof());
}
#########################################################
# Test clear method.
#########################################################
public function testMessageClear()
{
$m = new TestMessage();
$this->setFields($m);
$this->expectFields($m);
$m->clear();
$this->expectEmptyFields($m);
}
#########################################################
# Test mergeFrom method.
#########################################################
public function testMessageMergeFrom()
{
$m = new TestMessage();
$this->setFields($m);
$this->expectFields($m);
$arr = $m->getOptionalMessage()->getB();
$arr[] = 1;
$n = new TestMessage();
// Singular
$n->setOptionalInt32(100);
$sub1 = new Sub();
$sub1->setA(101);
$b = $sub1->getB();
$b[] = 102;
$sub1->setB($b);
$n->setOptionalMessage($sub1);
// Repeated
$repeatedInt32 = $n->getRepeatedInt32();
$repeatedInt32[] = 200;
$n->setRepeatedInt32($repeatedInt32);
$repeatedString = $n->getRepeatedString();
$repeatedString[] = 'abc';
$n->setRepeatedString($repeatedString);
$sub2 = new Sub();
$sub2->setA(201);
$repeatedMessage = $n->getRepeatedMessage();
$repeatedMessage[] = $sub2;
$n->setRepeatedMessage($repeatedMessage);
// Map
$mapInt32Int32 = $n->getMapInt32Int32();
$mapInt32Int32[1] = 300;
$mapInt32Int32[-62] = 301;
$n->setMapInt32Int32($mapInt32Int32);
$mapStringString = $n->getMapStringString();
$mapStringString['def'] = 'def';
$n->setMapStringString($mapStringString);
$mapInt32Message = $n->getMapInt32Message();
$mapInt32Message[1] = new Sub();
$mapInt32Message[1]->setA(302);
$mapInt32Message[2] = new Sub();
$mapInt32Message[2]->setA(303);
$n->setMapInt32Message($mapInt32Message);
$m->mergeFrom($n);
$this->assertSame(100, $m->getOptionalInt32());
$this->assertSame(42, $m->getOptionalUint32());
$this->assertSame(101, $m->getOptionalMessage()->getA());
$this->assertSame(2, count($m->getOptionalMessage()->getB()));
$this->assertSame(1, $m->getOptionalMessage()->getB()[0]);
$this->assertSame(102, $m->getOptionalMessage()->getB()[1]);
$this->assertSame(3, count($m->getRepeatedInt32()));
$this->assertSame(200, $m->getRepeatedInt32()[2]);
$this->assertSame(2, count($m->getRepeatedUint32()));
$this->assertSame(3, count($m->getRepeatedString()));
$this->assertSame('abc', $m->getRepeatedString()[2]);
$this->assertSame(3, count($m->getRepeatedMessage()));
$this->assertSame(201, $m->getRepeatedMessage()[2]->getA());
$this->assertSame(2, count($m->getMapInt32Int32()));
$this->assertSame(300, $m->getMapInt32Int32()[1]);
$this->assertSame(301, $m->getMapInt32Int32()[-62]);
$this->assertSame(1, count($m->getMapUint32Uint32()));
$this->assertSame(2, count($m->getMapStringString()));
$this->assertSame('def', $m->getMapStringString()['def']);
$this->assertSame(2, count($m->getMapInt32Message()));
$this->assertSame(302, $m->getMapInt32Message()[1]->getA());
$this->assertSame(303, $m->getMapInt32Message()[2]->getA());
$this->assertSame("", $m->getMyOneof());
// Check sub-messages are copied by value.
$n->getOptionalMessage()->setA(-101);
$this->assertSame(101, $m->getOptionalMessage()->getA());
$repeatedMessage = $n->getRepeatedMessage();
$repeatedMessage[0]->setA(-201);
$n->setRepeatedMessage($repeatedMessage);
$this->assertSame(201, $m->getRepeatedMessage()[2]->getA());
$mapInt32Message = $n->getMapInt32Message();
$mapInt32Message[1]->setA(-302);
$n->setMapInt32Message($mapInt32Message);
$this->assertSame(302, $m->getMapInt32Message()[1]->getA());
// Test merge oneof.
$m = new TestMessage();
$n = new TestMessage();
$n->setOneofInt32(1);
$m->mergeFrom($n);
$this->assertSame(1, $m->getOneofInt32());
$sub = new Sub();
$n->setOneofMessage($sub);
$n->getOneofMessage()->setA(400);
$m->mergeFrom($n);
$this->assertSame(400, $m->getOneofMessage()->getA());
$n->getOneofMessage()->setA(-400);
$this->assertSame(400, $m->getOneofMessage()->getA());
// Test all fields
$m = new TestMessage();
$n = new TestMessage();
$this->setFields($m);
$n->mergeFrom($m);
$this->expectFields($n);
}
#########################################################
# Test message/enum without namespace.
#########################################################
public function testMessageWithoutNamespace()
{
$m = new TestMessage();
$n = new NoNamespaceMessage();
$m->setOptionalNoNamespaceMessage($n);
$repeatedNoNamespaceMessage = $m->getRepeatedNoNamespaceMessage();
$repeatedNoNamespaceMessage[] = new NoNamespaceMessage();
$m->setRepeatedNoNamespaceMessage($repeatedNoNamespaceMessage);
// test nested messages
$sub = new NoNamespaceMessage\NestedMessage();
$n->setNestedMessage($sub);
$this->assertTrue(true);
}
public function testEnumWithoutNamespace()
{
$m = new TestMessage();
$m->setOptionalNoNamespaceEnum(NoNamespaceEnum::VALUE_A);
$repeatedNoNamespaceEnum = $m->getRepeatedNoNamespaceEnum();
$repeatedNoNamespaceEnum[] = NoNamespaceEnum::VALUE_A;
$m->setRepeatedNoNamespaceEnum($repeatedNoNamespaceEnum);
$this->assertTrue(true);
}
#########################################################
# Test message with given namespace.
#########################################################
public function testNestedMessagesAndEnums()
{
$m = new TestMessage();
$n = new TestMessage\Sub();
$m->setOptionalMessage($n);
$m->setOptionalNestedEnum(TestMessage\NestedEnum::ZERO);
$this->assertSame($n, $m->getOptionalMessage());
$this->assertSame(TestMessage\NestedEnum::ZERO, $m->getOptionalNestedEnum());
}
public function testMessagesAndEnumsWithPrefix()
{
// Test message prefix
$m = new TestIncludePrefixMessage();
$n = new PrefixTestPrefix();
$n->setA(1);
$m->setPrefixMessage($n);
$this->assertSame(1, $m->getPrefixMessage()->getA());
// Test nested message prefix
$o = new PrefixTestPrefix();
$p = new PrefixTestPrefix\PrefixNestedMessage();
$o->setNestedMessage($p);
$o->setNestedEnum(PrefixTestPrefix\PrefixNestedEnum::ZERO);
$this->assertSame($p, $o->getNestedMessage());
$this->assertSame(PrefixTestPrefix\PrefixNestedEnum::ZERO, $o->getNestedEnum());
}
public function testMessagesAndEnumsWithPhpNamespace()
{
$m = new TestNamespace();
$n = new TestNamespace\NestedMessage();
$m->setNestedMessage($n);
$m->setNestedEnum(TestNamespace\NestedEnum::ZERO);
$this->assertSame($n, $m->getNestedMessage());
$this->assertSame(TestNamespace\NestedEnum::ZERO, $m->getNestedEnum());
}
public function testMesssagesAndEnumsWithEmptyPhpNamespace()
{
$m = new TestEmptyNamespace();
$n = new TestEmptyNamespace\NestedMessage();
$m->setNestedMessage($n);
$m->setNestedEnum(TestEmptyNamespace\NestedEnum::ZERO);
$this->assertSame($n, $m->getNestedMessage());
$this->assertSame(TestEmptyNamespace\NestedEnum::ZERO, $m->getNestedEnum());
}
public function testMessagesAndEnumsWithNoNamespace()
{
$m = new NoNamespaceMessage();
$n = new NoNamespaceMessage\NestedMessage();
$m->setNestedMessage($n);
$m->setNestedEnum(NoNamespaceMessage\NestedEnum::ZERO);
$this->assertSame($n, $m->getNestedMessage());
$this->assertSame(NoNamespaceMessage\NestedEnum::ZERO, $m->getNestedEnum());
}
public function testReservedWordsInPackageName()
{
$m = new TestEmptyPackage();
$n = new TestEmptyPackage\NestedMessage();
$m->setNestedMessage($n);
$m->setNestedEnum(TestEmptyPackage\NestedEnum::ZERO);
$this->assertSame($n, $m->getNestedMessage());
$this->assertSame(TestEmptyPackage\NestedEnum::ZERO, $m->getNestedEnum());
}
public function testReservedWordsInNamespace()
{
$m = new TestNamespace();
$n = new TestNamespace\PBEmpty();
$o = new TestNamespace\PBEmpty\NestedMessage();
$n->setNestedMessage($o);
$n->setNestedEnum(TestNamespace\PBEmpty\NestedEnum::ZERO);
$m->setReservedName($n);
$this->assertSame($n, $m->getReservedName());
$this->assertSame($o, $n->getNestedMessage());
$this->assertSame(
TestNamespace\PBEmpty\NestedEnum::ZERO,
$n->getNestedEnum()
);
}
#########################################################
# Test prefix for reserved words.
#########################################################
public function testPrefixForReservedWords()
{
$m = new \Foo\TestMessage\PBEmpty();
$m = new \Foo\PBEmpty();
$m = new \PrefixEmpty();
$m = new \Foo\PBARRAY();
$m = new \Lower\PBabstract();
$m = new \Lower\PBand();
$m = new \Lower\PBarray();
$m = new \Lower\PBas();
$m = new \Lower\PBbreak();
$m = new \Lower\PBcallable();
$m = new \Lower\PBcase();
$m = new \Lower\PBcatch();
$m = new \Lower\PBclass();
$m = new \Lower\PBclone();
$m = new \Lower\PBconst();
$m = new \Lower\PBcontinue();
$m = new \Lower\PBdeclare();
$m = new \Lower\PBdefault();
$m = new \Lower\PBdie();
$m = new \Lower\PBdo();
$m = new \Lower\PBecho();
$m = new \Lower\PBelse();
$m = new \Lower\PBelseif();
$m = new \Lower\PBempty();
$m = new \Lower\PBenddeclare();
$m = new \Lower\PBendfor();
$m = new \Lower\PBendforeach();
$m = new \Lower\PBendif();
$m = new \Lower\PBendswitch();
$m = new \Lower\PBendwhile();
$m = new \Lower\PBeval();
$m = new \Lower\PBexit();
$m = new \Lower\PBextends();
$m = new \Lower\PBfinal();
$m = new \Lower\PBfinally();
$m = new \Lower\PBfn();
$m = new \Lower\PBfor();
$m = new \Lower\PBforeach();
$m = new \Lower\PBfunction();
$m = new \Lower\PBglobal();
$m = new \Lower\PBgoto();
$m = new \Lower\PBif();
$m = new \Lower\PBimplements();
$m = new \Lower\PBinclude();
$m = new \Lower\PBinclude_once();
$m = new \Lower\PBinstanceof();
$m = new \Lower\PBinsteadof();
$m = new \Lower\PBinterface();
$m = new \Lower\PBisset();
$m = new \Lower\PBlist();
$m = new \Lower\PBmatch();
$m = new \Lower\PBnamespace();
$m = new \Lower\PBnew();
$m = new \Lower\PBor();
$m = new \Lower\PBparent();
$m = new \Lower\PBprint();
$m = new \Lower\PBprivate();
$m = new \Lower\PBprotected();
$m = new \Lower\PBpublic();
$m = new \Lower\PBreadonly();
$m = new \Lower\PBrequire();
$m = new \Lower\PBrequire_once();
$m = new \Lower\PBreturn();
$m = new \Lower\PBself();
$m = new \Lower\PBstatic();
$m = new \Lower\PBswitch();
$m = new \Lower\PBthrow();
$m = new \Lower\PBtrait();
$m = new \Lower\PBtry();
$m = new \Lower\PBunset();
$m = new \Lower\PBuse();
$m = new \Lower\PBvar();
$m = new \Lower\PBwhile();
$m = new \Lower\PBxor();
$m = new \Lower\PByield();
$m = new \Lower\PBint();
$m = new \Lower\PBfloat();
$m = new \Lower\PBbool();
$m = new \Lower\PBstring();
$m = new \Lower\PBtrue();
$m = new \Lower\PBfalse();
$m = new \Lower\PBnull();
$m = new \Lower\PBvoid();
$m = new \Lower\PBiterable();
$m = new \Upper\PBABSTRACT();
$m = new \Upper\PBAND();
$m = new \Upper\PBARRAY();
$m = new \Upper\PBAS();
$m = new \Upper\PBBREAK();
$m = new \Upper\PBCALLABLE();
$m = new \Upper\PBCASE();
$m = new \Upper\PBCATCH();
$m = new \Upper\PBCLASS();
$m = new \Upper\PBCLONE();
$m = new \Upper\PBCONST();
$m = new \Upper\PBCONTINUE();
$m = new \Upper\PBDECLARE();
$m = new \Upper\PBDEFAULT();
$m = new \Upper\PBDIE();
$m = new \Upper\PBDO();
$m = new \Upper\PBECHO();
$m = new \Upper\PBELSE();
$m = new \Upper\PBELSEIF();
$m = new \Upper\PBEMPTY();
$m = new \Upper\PBENDDECLARE();
$m = new \Upper\PBENDFOR();
$m = new \Upper\PBENDFOREACH();
$m = new \Upper\PBENDIF();
$m = new \Upper\PBENDSWITCH();
$m = new \Upper\PBENDWHILE();
$m = new \Upper\PBEVAL();
$m = new \Upper\PBEXIT();
$m = new \Upper\PBEXTENDS();
$m = new \Upper\PBFINAL();
$m = new \Upper\PBFINALLY();
$m = new \Upper\PBFN();
$m = new \Upper\PBFOR();
$m = new \Upper\PBFOREACH();
$m = new \Upper\PBFUNCTION();
$m = new \Upper\PBGLOBAL();
$m = new \Upper\PBGOTO();
$m = new \Upper\PBIF();
$m = new \Upper\PBIMPLEMENTS();
$m = new \Upper\PBINCLUDE();
$m = new \Upper\PBINCLUDE_ONCE();
$m = new \Upper\PBINSTANCEOF();
$m = new \Upper\PBINSTEADOF();
$m = new \Upper\PBINTERFACE();
$m = new \Upper\PBISSET();
$m = new \Upper\PBLIST();
$m = new \Upper\PBMATCH();
$m = new \Upper\PBNAMESPACE();
$m = new \Upper\PBNEW();
$m = new \Upper\PBOR();
$m = new \Upper\PBPARENT();
$m = new \Upper\PBPRINT();
$m = new \Upper\PBPRIVATE();
$m = new \Upper\PBPROTECTED();
$m = new \Upper\PBPUBLIC();
$m = new \Upper\PBREADONLY();
$m = new \Upper\PBREQUIRE();
$m = new \Upper\PBREQUIRE_ONCE();
$m = new \Upper\PBRETURN();
$m = new \Upper\PBSELF();
$m = new \Upper\PBSTATIC();
$m = new \Upper\PBSWITCH();
$m = new \Upper\PBTHROW();
$m = new \Upper\PBTRAIT();
$m = new \Upper\PBTRY();
$m = new \Upper\PBUNSET();
$m = new \Upper\PBUSE();
$m = new \Upper\PBVAR();
$m = new \Upper\PBWHILE();
$m = new \Upper\PBXOR();
$m = new \Upper\PBYIELD();
$m = new \Upper\PBINT();
$m = new \Upper\PBFLOAT();
$m = new \Upper\PBBOOL();
$m = new \Upper\PBSTRING();
$m = new \Upper\PBTRUE();
$m = new \Upper\PBFALSE();
$m = new \Upper\PBNULL();
$m = new \Upper\PBVOID();
$m = new \Upper\PBITERABLE();
$m = new \Lower_enum\PBabstract();
$m = new \Lower_enum\PBand();
$m = new \Lower_enum\PBarray();
$m = new \Lower_enum\PBas();
$m = new \Lower_enum\PBbreak();
$m = new \Lower_enum\PBcallable();
$m = new \Lower_enum\PBcase();
$m = new \Lower_enum\PBcatch();
$m = new \Lower_enum\PBclass();
$m = new \Lower_enum\PBclone();
$m = new \Lower_enum\PBconst();
$m = new \Lower_enum\PBcontinue();
$m = new \Lower_enum\PBdeclare();
$m = new \Lower_enum\PBdefault();
$m = new \Lower_enum\PBdie();
$m = new \Lower_enum\PBdo();
$m = new \Lower_enum\PBecho();
$m = new \Lower_enum\PBelse();
$m = new \Lower_enum\PBelseif();
$m = new \Lower_enum\PBempty();
$m = new \Lower_enum\PBenddeclare();
$m = new \Lower_enum\PBendfor();
$m = new \Lower_enum\PBendforeach();
$m = new \Lower_enum\PBendif();
$m = new \Lower_enum\PBendswitch();
$m = new \Lower_enum\PBendwhile();
$m = new \Lower_enum\PBeval();
$m = new \Lower_enum\PBexit();
$m = new \Lower_enum\PBextends();
$m = new \Lower_enum\PBfinal();
$m = new \Lower_enum\PBfinally();
$m = new \Lower_enum\PBfn();
$m = new \Lower_enum\PBfor();
$m = new \Lower_enum\PBforeach();
$m = new \Lower_enum\PBfunction();
$m = new \Lower_enum\PBglobal();
$m = new \Lower_enum\PBgoto();
$m = new \Lower_enum\PBif();
$m = new \Lower_enum\PBimplements();
$m = new \Lower_enum\PBinclude();
$m = new \Lower_enum\PBinclude_once();
$m = new \Lower_enum\PBinstanceof();
$m = new \Lower_enum\PBinsteadof();
$m = new \Lower_enum\PBinterface();
$m = new \Lower_enum\PBisset();
$m = new \Lower_enum\PBlist();
$m = new \Lower_enum\PBmatch();
$m = new \Lower_enum\PBnamespace();
$m = new \Lower_enum\PBnew();
$m = new \Lower_enum\PBor();
$m = new \Lower_enum\PBparent();
$m = new \Lower_enum\PBprint();
$m = new \Lower_enum\PBprivate();
$m = new \Lower_enum\PBprotected();
$m = new \Lower_enum\PBpublic();
$m = new \Lower_enum\PBrequire();
$m = new \Lower_enum\PBreadonly();
$m = new \Lower_enum\PBrequire_once();
$m = new \Lower_enum\PBreturn();
$m = new \Lower_enum\PBself();
$m = new \Lower_enum\PBstatic();
$m = new \Lower_enum\PBswitch();
$m = new \Lower_enum\PBthrow();
$m = new \Lower_enum\PBtrait();
$m = new \Lower_enum\PBtry();
$m = new \Lower_enum\PBunset();
$m = new \Lower_enum\PBuse();
$m = new \Lower_enum\PBvar();
$m = new \Lower_enum\PBwhile();
$m = new \Lower_enum\PBxor();
$m = new \Lower_enum\PByield();
$m = new \Lower_enum\PBint();
$m = new \Lower_enum\PBfloat();
$m = new \Lower_enum\PBbool();
$m = new \Lower_enum\PBstring();
$m = new \Lower_enum\PBtrue();
$m = new \Lower_enum\PBfalse();
$m = new \Lower_enum\PBnull();
$m = new \Lower_enum\PBvoid();
$m = new \Lower_enum\PBiterable();
$m = new \Upper_enum\PBABSTRACT();
$m = new \Upper_enum\PBAND();
$m = new \Upper_enum\PBARRAY();
$m = new \Upper_enum\PBAS();
$m = new \Upper_enum\PBBREAK();
$m = new \Upper_enum\PBCALLABLE();
$m = new \Upper_enum\PBCASE();
$m = new \Upper_enum\PBCATCH();
$m = new \Upper_enum\PBCLASS();
$m = new \Upper_enum\PBCLONE();
$m = new \Upper_enum\PBCONST();
$m = new \Upper_enum\PBCONTINUE();
$m = new \Upper_enum\PBDECLARE();
$m = new \Upper_enum\PBDEFAULT();
$m = new \Upper_enum\PBDIE();
$m = new \Upper_enum\PBDO();
$m = new \Upper_enum\PBECHO();
$m = new \Upper_enum\PBELSE();
$m = new \Upper_enum\PBELSEIF();
$m = new \Upper_enum\PBEMPTY();
$m = new \Upper_enum\PBENDDECLARE();
$m = new \Upper_enum\PBENDFOR();
$m = new \Upper_enum\PBENDFOREACH();
$m = new \Upper_enum\PBENDIF();
$m = new \Upper_enum\PBENDSWITCH();
$m = new \Upper_enum\PBENDWHILE();
$m = new \Upper_enum\PBEVAL();
$m = new \Upper_enum\PBEXIT();
$m = new \Upper_enum\PBEXTENDS();
$m = new \Upper_enum\PBFINAL();
$m = new \Upper_enum\PBFINALLY();
$m = new \Upper_enum\PBFN();
$m = new \Upper_enum\PBFOR();
$m = new \Upper_enum\PBFOREACH();
$m = new \Upper_enum\PBFUNCTION();
$m = new \Upper_enum\PBGLOBAL();
$m = new \Upper_enum\PBGOTO();
$m = new \Upper_enum\PBIF();
$m = new \Upper_enum\PBIMPLEMENTS();
$m = new \Upper_enum\PBINCLUDE();
$m = new \Upper_enum\PBINCLUDE_ONCE();
$m = new \Upper_enum\PBINSTANCEOF();
$m = new \Upper_enum\PBINSTEADOF();
$m = new \Upper_enum\PBINTERFACE();
$m = new \Upper_enum\PBISSET();
$m = new \Upper_enum\PBLIST();
$m = new \Upper_enum\PBMATCH();
$m = new \Upper_enum\PBNAMESPACE();
$m = new \Upper_enum\PBNEW();
$m = new \Upper_enum\PBOR();
$m = new \Upper_enum\PBPARENT();
$m = new \Upper_enum\PBPRINT();
$m = new \Upper_enum\PBPRIVATE();
$m = new \Upper_enum\PBPROTECTED();
$m = new \Upper_enum\PBPUBLIC();
$m = new \Upper_enum\PBREADONLY();
$m = new \Upper_enum\PBREQUIRE();
$m = new \Upper_enum\PBREQUIRE_ONCE();
$m = new \Upper_enum\PBRETURN();
$m = new \Upper_enum\PBSELF();
$m = new \Upper_enum\PBSTATIC();
$m = new \Upper_enum\PBSWITCH();
$m = new \Upper_enum\PBTHROW();
$m = new \Upper_enum\PBTRAIT();
$m = new \Upper_enum\PBTRY();
$m = new \Upper_enum\PBUNSET();
$m = new \Upper_enum\PBUSE();
$m = new \Upper_enum\PBVAR();
$m = new \Upper_enum\PBWHILE();
$m = new \Upper_enum\PBXOR();
$m = new \Upper_enum\PBYIELD();
$m = new \Upper_enum\PBINT();
$m = new \Upper_enum\PBFLOAT();
$m = new \Upper_enum\PBBOOL();
$m = new \Upper_enum\PBSTRING();
$m = new \Upper_enum\PBTRUE();
$m = new \Upper_enum\PBFALSE();
$m = new \Upper_enum\PBNULL();
$m = new \Upper_enum\PBVOID();
$m = new \Upper_enum\PBITERABLE();
$m = \Lower_enum_value\NotAllowed::PBabstract;
$m = \Lower_enum_value\NotAllowed::PBand;
$m = \Lower_enum_value\NotAllowed::PBarray;
$m = \Lower_enum_value\NotAllowed::PBas;
$m = \Lower_enum_value\NotAllowed::PBbreak;
$m = \Lower_enum_value\NotAllowed::PBcallable;
$m = \Lower_enum_value\NotAllowed::PBcase;
$m = \Lower_enum_value\NotAllowed::PBcatch;
$m = \Lower_enum_value\NotAllowed::PBclass;
$m = \Lower_enum_value\NotAllowed::PBclone;
$m = \Lower_enum_value\NotAllowed::PBconst;
$m = \Lower_enum_value\NotAllowed::PBcontinue;
$m = \Lower_enum_value\NotAllowed::PBdeclare;
$m = \Lower_enum_value\NotAllowed::PBdefault;
$m = \Lower_enum_value\NotAllowed::PBdie;
$m = \Lower_enum_value\NotAllowed::PBdo;
$m = \Lower_enum_value\NotAllowed::PBecho;
$m = \Lower_enum_value\NotAllowed::PBelse;
$m = \Lower_enum_value\NotAllowed::PBelseif;
$m = \Lower_enum_value\NotAllowed::PBempty;
$m = \Lower_enum_value\NotAllowed::PBenddeclare;
$m = \Lower_enum_value\NotAllowed::PBendfor;
$m = \Lower_enum_value\NotAllowed::PBendforeach;
$m = \Lower_enum_value\NotAllowed::PBendif;
$m = \Lower_enum_value\NotAllowed::PBendswitch;
$m = \Lower_enum_value\NotAllowed::PBendwhile;
$m = \Lower_enum_value\NotAllowed::PBeval;
$m = \Lower_enum_value\NotAllowed::PBexit;
$m = \Lower_enum_value\NotAllowed::PBextends;
$m = \Lower_enum_value\NotAllowed::PBfinal;
$m = \Lower_enum_value\NotAllowed::PBfinally;
$m = \Lower_enum_value\NotAllowed::PBfn;
$m = \Lower_enum_value\NotAllowed::PBfor;
$m = \Lower_enum_value\NotAllowed::PBforeach;
$m = \Lower_enum_value\NotAllowed::PBfunction;
$m = \Lower_enum_value\NotAllowed::PBglobal;
$m = \Lower_enum_value\NotAllowed::PBgoto;
$m = \Lower_enum_value\NotAllowed::PBif;
$m = \Lower_enum_value\NotAllowed::PBimplements;
$m = \Lower_enum_value\NotAllowed::PBinclude;
$m = \Lower_enum_value\NotAllowed::PBinclude_once;
$m = \Lower_enum_value\NotAllowed::PBinstanceof;
$m = \Lower_enum_value\NotAllowed::PBinsteadof;
$m = \Lower_enum_value\NotAllowed::PBinterface;
$m = \Lower_enum_value\NotAllowed::PBisset;
$m = \Lower_enum_value\NotAllowed::PBlist;
$m = \Lower_enum_value\NotAllowed::PBmatch;
$m = \Lower_enum_value\NotAllowed::PBnamespace;
$m = \Lower_enum_value\NotAllowed::PBnew;
$m = \Lower_enum_value\NotAllowed::PBor;
$m = \Lower_enum_value\NotAllowed::PBprint;
$m = \Lower_enum_value\NotAllowed::PBprivate;
$m = \Lower_enum_value\NotAllowed::PBprotected;
$m = \Lower_enum_value\NotAllowed::PBpublic;
$m = \Lower_enum_value\NotAllowed::PBrequire;
$m = \Lower_enum_value\NotAllowed::PBrequire_once;
$m = \Lower_enum_value\NotAllowed::PBreturn;
$m = \Lower_enum_value\NotAllowed::PBstatic;
$m = \Lower_enum_value\NotAllowed::PBswitch;
$m = \Lower_enum_value\NotAllowed::PBthrow;
$m = \Lower_enum_value\NotAllowed::PBtrait;
$m = \Lower_enum_value\NotAllowed::PBtry;
$m = \Lower_enum_value\NotAllowed::PBunset;
$m = \Lower_enum_value\NotAllowed::PBuse;
$m = \Lower_enum_value\NotAllowed::PBvar;
$m = \Lower_enum_value\NotAllowed::PBwhile;
$m = \Lower_enum_value\NotAllowed::PBxor;
$m = \Lower_enum_value\NotAllowed::PByield;
$m = \Lower_enum_value\NotAllowed::int;
$m = \Lower_enum_value\NotAllowed::float;
$m = \Lower_enum_value\NotAllowed::bool;
$m = \Lower_enum_value\NotAllowed::string;
$m = \Lower_enum_value\NotAllowed::true;
$m = \Lower_enum_value\NotAllowed::false;
$m = \Lower_enum_value\NotAllowed::null;
$m = \Lower_enum_value\NotAllowed::void;
$m = \Lower_enum_value\NotAllowed::iterable;
$m = \Lower_enum_value\NotAllowed::parent;
$m = \Lower_enum_value\NotAllowed::self;
$m = \Lower_enum_value\NotAllowed::readonly;
$m = \Upper_enum_value\NotAllowed::PBABSTRACT;
$m = \Upper_enum_value\NotAllowed::PBAND;
$m = \Upper_enum_value\NotAllowed::PBARRAY;
$m = \Upper_enum_value\NotAllowed::PBAS;
$m = \Upper_enum_value\NotAllowed::PBBREAK;
$m = \Upper_enum_value\NotAllowed::PBCALLABLE;
$m = \Upper_enum_value\NotAllowed::PBCASE;
$m = \Upper_enum_value\NotAllowed::PBCATCH;
$m = \Upper_enum_value\NotAllowed::PBCLASS;
$m = \Upper_enum_value\NotAllowed::PBCLONE;
$m = \Upper_enum_value\NotAllowed::PBCONST;
$m = \Upper_enum_value\NotAllowed::PBCONTINUE;
$m = \Upper_enum_value\NotAllowed::PBDECLARE;
$m = \Upper_enum_value\NotAllowed::PBDEFAULT;
$m = \Upper_enum_value\NotAllowed::PBDIE;
$m = \Upper_enum_value\NotAllowed::PBDO;
$m = \Upper_enum_value\NotAllowed::PBECHO;
$m = \Upper_enum_value\NotAllowed::PBELSE;
$m = \Upper_enum_value\NotAllowed::PBELSEIF;
$m = \Upper_enum_value\NotAllowed::PBEMPTY;
$m = \Upper_enum_value\NotAllowed::PBENDDECLARE;
$m = \Upper_enum_value\NotAllowed::PBENDFOR;
$m = \Upper_enum_value\NotAllowed::PBENDFOREACH;
$m = \Upper_enum_value\NotAllowed::PBENDIF;
$m = \Upper_enum_value\NotAllowed::PBENDSWITCH;
$m = \Upper_enum_value\NotAllowed::PBENDWHILE;
$m = \Upper_enum_value\NotAllowed::PBEVAL;
$m = \Upper_enum_value\NotAllowed::PBEXIT;
$m = \Upper_enum_value\NotAllowed::PBEXTENDS;
$m = \Upper_enum_value\NotAllowed::PBFINAL;
$m = \Upper_enum_value\NotAllowed::PBFINALLY;
$m = \Upper_enum_value\NotAllowed::PBFN;
$m = \Upper_enum_value\NotAllowed::PBFOR;
$m = \Upper_enum_value\NotAllowed::PBFOREACH;
$m = \Upper_enum_value\NotAllowed::PBFUNCTION;
$m = \Upper_enum_value\NotAllowed::PBGLOBAL;
$m = \Upper_enum_value\NotAllowed::PBGOTO;
$m = \Upper_enum_value\NotAllowed::PBIF;
$m = \Upper_enum_value\NotAllowed::PBIMPLEMENTS;
$m = \Upper_enum_value\NotAllowed::PBINCLUDE;
$m = \Upper_enum_value\NotAllowed::PBINCLUDE_ONCE;
$m = \Upper_enum_value\NotAllowed::PBINSTANCEOF;
$m = \Upper_enum_value\NotAllowed::PBINSTEADOF;
$m = \Upper_enum_value\NotAllowed::PBINTERFACE;
$m = \Upper_enum_value\NotAllowed::PBISSET;
$m = \Upper_enum_value\NotAllowed::PBLIST;
$m = \Upper_enum_value\NotAllowed::PBMATCH;
$m = \Upper_enum_value\NotAllowed::PBNAMESPACE;
$m = \Upper_enum_value\NotAllowed::PBNEW;
$m = \Upper_enum_value\NotAllowed::PBOR;
$m = \Upper_enum_value\NotAllowed::PBPRINT;
$m = \Upper_enum_value\NotAllowed::PBPRIVATE;
$m = \Upper_enum_value\NotAllowed::PBPROTECTED;
$m = \Upper_enum_value\NotAllowed::PBPUBLIC;
$m = \Upper_enum_value\NotAllowed::PBREQUIRE;
$m = \Upper_enum_value\NotAllowed::PBREQUIRE_ONCE;
$m = \Upper_enum_value\NotAllowed::PBRETURN;
$m = \Upper_enum_value\NotAllowed::PBSTATIC;
$m = \Upper_enum_value\NotAllowed::PBSWITCH;
$m = \Upper_enum_value\NotAllowed::PBTHROW;
$m = \Upper_enum_value\NotAllowed::PBTRAIT;
$m = \Upper_enum_value\NotAllowed::PBTRY;
$m = \Upper_enum_value\NotAllowed::PBUNSET;
$m = \Upper_enum_value\NotAllowed::PBUSE;
$m = \Upper_enum_value\NotAllowed::PBVAR;
$m = \Upper_enum_value\NotAllowed::PBWHILE;
$m = \Upper_enum_value\NotAllowed::PBXOR;
$m = \Upper_enum_value\NotAllowed::PBYIELD;
$m = \Upper_enum_value\NotAllowed::INT;
$m = \Upper_enum_value\NotAllowed::FLOAT;
$m = \Upper_enum_value\NotAllowed::BOOL;
$m = \Upper_enum_value\NotAllowed::STRING;
$m = \Upper_enum_value\NotAllowed::TRUE;
$m = \Upper_enum_value\NotAllowed::FALSE;
$m = \Upper_enum_value\NotAllowed::NULL;
$m = \Upper_enum_value\NotAllowed::VOID;
$m = \Upper_enum_value\NotAllowed::ITERABLE;
$m = \Upper_enum_value\NotAllowed::PARENT;
$m = \Upper_enum_value\NotAllowed::SELF;
$m = \Upper_enum_value\NotAllowed::READONLY;
$this->assertTrue(true);
}
#########################################################
# Test fluent setters.
#########################################################
public function testFluentSetters()
{
$m = (new TestMessage())
->setOptionalInt32(1)
->setOptionalUInt32(2);
$this->assertSame(1, $m->getOptionalInt32());
$this->assertSame(2, $m->getOptionalUInt32());
}
#########################################################
# Test Reverse Field Order.
#########################################################
public function testReverseFieldOrder()
{
$m = new TestReverseFieldOrder();
$m->setB("abc");
$this->assertSame("abc", $m->getB());
$this->assertNotSame("abc", $m->getA());
}
#########################################################
# Test Reverse Field Order.
#########################################################
public function testLowerCase()
{
$m = new testLowerCaseMessage();
$n = testLowerCaseEnum::VALUE;
$this->assertTrue(true);
}
#########################################################
# Test Array Constructor.
#########################################################
public function testArrayConstructor()
{
$m = new TestMessage([
'optional_int32' => -42,
'optional_int64' => -43,
'optional_uint32' => 42,
'optional_uint64' => 43,
'optional_sint32' => -44,
'optional_sint64' => -45,
'optional_fixed32' => 46,
'optional_fixed64' => 47,
'optional_sfixed32' => -46,
'optional_sfixed64' => -47,
'optional_float' => 1.5,
'optional_double' => 1.6,
'optional_bool' => true,
'optional_string' => 'a',
'optional_bytes' => 'bbbb',
'optional_enum' => TestEnum::ONE,
'optional_message' => new Sub([
'a' => 33
]),
'repeated_int32' => [-42, -52],
'repeated_int64' => [-43, -53],
'repeated_uint32' => [42, 52],
'repeated_uint64' => [43, 53],
'repeated_sint32' => [-44, -54],
'repeated_sint64' => [-45, -55],
'repeated_fixed32' => [46, 56],
'repeated_fixed64' => [47, 57],
'repeated_sfixed32' => [-46, -56],
'repeated_sfixed64' => [-47, -57],
'repeated_float' => [1.5, 2.5],
'repeated_double' => [1.6, 2.6],
'repeated_bool' => [true, false],
'repeated_string' => ['a', 'c'],
'repeated_bytes' => ['bbbb', 'dddd'],
'repeated_enum' => [TestEnum::ZERO, TestEnum::ONE],
'repeated_message' => [new Sub(['a' => 34]),
new Sub(['a' => 35])],
'map_int32_int32' => [-62 => -62],
'map_int64_int64' => [-63 => -63],
'map_uint32_uint32' => [62 => 62],
'map_uint64_uint64' => [63 => 63],
'map_sint32_sint32' => [-64 => -64],
'map_sint64_sint64' => [-65 => -65],
'map_fixed32_fixed32' => [66 => 66],
'map_fixed64_fixed64' => [67 => 67],
'map_sfixed32_sfixed32' => [-68 => -68],
'map_sfixed64_sfixed64' => [-69 => -69],
'map_int32_float' => [1 => 3.5],
'map_int32_double' => [1 => 3.6],
'map_bool_bool' => [true => true],
'map_string_string' => ['e' => 'e'],
'map_int32_bytes' => [1 => 'ffff'],
'map_int32_enum' => [1 => TestEnum::ONE],
'map_int32_message' => [1 => new Sub(['a' => 36])],
]);
TestUtil::assertTestMessage($m);
$this->assertTrue(true);
}
public function testReferenceInArrayConstructor()
{
$keys = [[
'optional_bool' => true,
'repeated_bool' => [true],
'map_bool_bool' => [true => true],
'optional_double' => 1.0,
'repeated_double' => [1.0],
'map_int32_double' => [1 => 1.0],
'optional_int32' => 1,
'repeated_int32' => [1],
'map_int32_int32' => [1 => 1],
'optional_string' => 'a',
'repeated_string' => ['a'],
'map_string_string' => ['a' => 'a'],
'optional_message' => ['a' => 1],
'repeated_message' => [['a' => 1]],
'map_int32_message' => [1 => ['a' => 1]],
]];
foreach ($keys as &$key) {
foreach ($key as $id => &$value) {
if ($id === 'repeated_bool') {
foreach ($value as &$element) {
}
}
if ($id === 'map_bool_bool') {
foreach ($value as $mapKey => &$element) {
}
}
if ($id === 'repeated_double') {
foreach ($value as &$element) {
}
}
if ($id === 'map_int32_double') {
foreach ($value as $mapKey => &$element) {
}
}
if ($id === 'repeated_int32') {
foreach ($value as &$element) {
}
}
if ($id === 'map_int32_int32') {
foreach ($value as $mapKey => &$element) {
}
}
if ($id === 'repeated_string') {
foreach ($value as &$element) {
}
}
if ($id === 'map_string_string') {
foreach ($value as $mapKey => &$element) {
}
}
if ($id === 'optional_message') {
$value = new Sub($value);
}
if ($id === 'repeated_message') {
foreach ($value as &$element) {
$element = new Sub($element);
}
}
if ($id === 'map_int32_message') {
foreach ($value as $mapKey => &$element) {
$element = new Sub($element);
}
}
}
$key = new TestMessage($key);
}
$this->assertTrue(true);
}
public function testOneofMessageInArrayConstructor()
{
$m = new TestMessage([
'oneof_message' => new Sub(),
]);
$this->assertSame('oneof_message', $m->getMyOneof());
$this->assertNotNull($m->getOneofMessage());
$this->assertTrue(true);
}
public function testOneofStringInArrayConstructor()
{
$m = new TestMessage([
'oneof_string' => 'abc',
]);
$this->assertTrue(true);
}
#########################################################
# Test clone.
#########################################################
public function testClone()
{
$m = new TestMessage([
'optional_int32' => -42,
'optional_int64' => -43,
'optional_message' => new Sub([
'a' => 33
]),
'map_int32_message' => [1 => new Sub(['a' => 36])],
]);
$m2 = clone $m;
$this->assertEquals($m->getOptionalInt32(), $m2->getOptionalInt32());
$this->assertEquals($m->getOptionalInt64(), $m2->getOptionalInt64());
$this->assertSame($m->getOptionalMessage(), $m2->getOptionalMessage());
$this->assertSame($m->getMapInt32Message()[1], $m2->getMapInt32Message()[1]);
$this->assertEquals($m->serializeToJsonString(), $m2->serializeToJsonString());
}
#########################################################
# Test message equals.
#########################################################
public function testMessageEquals()
{
$m = new TestMessage();
TestUtil::setTestMessage($m);
$n = new TestMessage();
TestUtil::setTestMessage($n);
$this->assertEquals($m, $n);
}
#########################################################
# Test reference of value
#########################################################
public function testValueIsReference()
{
// Bool element
$values = [true];
array_walk($values, function (&$value) {});
$m = new TestMessage();
$m->setOptionalBool($values[0]);
// Int32 element
$values = [1];
array_walk($values, function (&$value) {});
$m = new TestMessage();
$m->setOptionalInt32($values[0]);
// Double element
$values = [1.0];
array_walk($values, function (&$value) {});
$m = new TestMessage();
$m->setOptionalDouble($values[0]);
// String element
$values = ['a'];
array_walk($values, function (&$value) {});
$m = new TestMessage();
$m->setOptionalString($values[0]);
$this->assertTrue(true);
}
#########################################################
# Test equality
#########################################################
public function testShallowEquality()
{
$m1 = new TestMessage([
'optional_int32' => -42,
'optional_int64' => -43,
'optional_uint32' => 42,
'optional_uint64' => 43,
'optional_sint32' => -44,
'optional_sint64' => -45,
'optional_fixed32' => 46,
'optional_fixed64' => 47,
'optional_sfixed32' => -46,
'optional_sfixed64' => -47,
'optional_float' => 1.5,
'optional_double' => 1.6,
'optional_bool' => true,
'optional_string' => 'a',
'optional_bytes' => 'bbbb',
'optional_enum' => TestEnum::ONE,
]);
$data = $m1->serializeToString();
$m2 = new TestMessage();
$m2->mergeFromString($data);
$this->assertTrue($m1 == $m2);
$m1->setOptionalInt32(1234);
$this->assertTrue($m1 != $m2);
}
public function testDeepEquality()
{
$m1 = new TestMessage([
'optional_int32' => -42,
'optional_int64' => -43,
'optional_uint32' => 42,
'optional_uint64' => 43,
'optional_sint32' => -44,
'optional_sint64' => -45,
'optional_fixed32' => 46,
'optional_fixed64' => 47,
'optional_sfixed32' => -46,
'optional_sfixed64' => -47,
'optional_float' => 1.5,
'optional_double' => 1.6,
'optional_bool' => true,
'optional_string' => 'a',
'optional_bytes' => 'bbbb',
'optional_enum' => TestEnum::ONE,
'optional_message' => new Sub([
'a' => 33
]),
'repeated_int32' => [-42, -52],
'repeated_int64' => [-43, -53],
'repeated_uint32' => [42, 52],
'repeated_uint64' => [43, 53],
'repeated_sint32' => [-44, -54],
'repeated_sint64' => [-45, -55],
'repeated_fixed32' => [46, 56],
'repeated_fixed64' => [47, 57],
'repeated_sfixed32' => [-46, -56],
'repeated_sfixed64' => [-47, -57],
'repeated_float' => [1.5, 2.5],
'repeated_double' => [1.6, 2.6],
'repeated_bool' => [true, false],
'repeated_string' => ['a', 'c'],
'repeated_bytes' => ['bbbb', 'dddd'],
'repeated_enum' => [TestEnum::ZERO, TestEnum::ONE],
'repeated_message' => [new Sub(['a' => 34]),
new Sub(['a' => 35])],
'map_int32_int32' => [-62 => -62],
'map_int64_int64' => [-63 => -63],
'map_uint32_uint32' => [62 => 62],
'map_uint64_uint64' => [63 => 63],
'map_sint32_sint32' => [-64 => -64],
'map_sint64_sint64' => [-65 => -65],
'map_fixed32_fixed32' => [66 => 66],
'map_fixed64_fixed64' => [67 => 67],
'map_sfixed32_sfixed32' => [-68 => -68],
'map_sfixed64_sfixed64' => [-69 => -69],
'map_int32_float' => [1 => 3.5],
'map_int32_double' => [1 => 3.6],
'map_bool_bool' => [true => true],
'map_string_string' => ['e' => 'e'],
'map_int32_bytes' => [1 => 'ffff'],
'map_int32_enum' => [1 => TestEnum::ONE],
'map_int32_message' => [1 => new Sub(['a' => 36])],
]);
$data = $m1->serializeToString();
$m2 = new TestMessage();
$m2->mergeFromString($data);
$this->assertTrue($m1 == $m2);
# Nested sub-message is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getOptionalMessage()->setA(1234);
$this->assertTrue($m1 != $m2);
# Repeated field element is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getRepeatedInt32()[0] = 1234;
$this->assertTrue($m1 != $m2);
# Repeated field length is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getRepeatedInt32()[] = 1234;
$this->assertTrue($m1 != $m2);
# SubMessage inside repeated field is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getRepeatedMessage()[0]->setA(1234);
$this->assertTrue($m1 != $m2);
# Map value is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getMapInt32Int32()[-62] = 1234;
$this->assertTrue($m1 != $m2);
# Map size is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getMapInt32Int32()[1234] = 1234;
$this->assertTrue($m1 != $m2);
# SubMessage inside map field is checked.
$m2 = new TestMessage();
$m2->mergeFromString($data);
$m2->getMapInt32Message()[1]->setA(1234);
$this->assertTrue($m1 != $m2);
# TODO: what about unknown fields?
}
#########################################################
# Test hasOneof<Field> methods exists and working
#########################################################
public function testHasOneof() {
$m = new TestMessage();
$this->assertFalse($m->hasOneofInt32());
$m->setOneofInt32(42);
$this->assertTrue($m->hasOneofInt32());
$m->setOneofString("bar");
$this->assertFalse($m->hasOneofInt32());
$this->assertTrue($m->hasOneofString());
$m->clear();
$this->assertFalse($m->hasOneofInt32());
$this->assertFalse($m->hasOneofString());
$sub_m = new Sub();
$sub_m->setA(1);
$m->setOneofMessage($sub_m);
$this->assertTrue($m->hasOneofMessage());
$m->setOneofMessage(null);
$this->assertFalse($m->hasOneofMessage());
}
#########################################################
# Test that we don't crash if users create their own messages.
#########################################################
public function testUserDefinedClass() {
if (getenv("USE_ZEND_ALLOC") === "0") {
// We're running a memory test. This test appears to leak in a way
// we cannot control, PHP bug?
//
// TODO: investigate further.
$this->markTestSkipped();
return;
}
# This is not allowed, but at least we shouldn't crash.
$this->expectException(Exception::class);
new C();
}
#########################################################
# Test no segfault when error happens
#########################################################
function throwIntendedException()
{
throw new Exception('Intended');
}
public function testNoSegfaultWithError()
{
if (getenv("USE_ZEND_ALLOC") === "0") {
// We're running a memory test. This test appears to leak in a way
// we cannot control, PHP bug?
//
// TODO: investigate further.
$this->markTestSkipped();
return;
}
$this->expectException(Exception::class);
new TestMessage(['optional_int32' => $this->throwIntendedException()]);
}
public function testNoExceptionWithVarDump()
{
$m = new Sub(['a' => 1]);
/*
* This line currently segfaults on macOS with:
*
* frame #0: 0x00000001029936cc xdebug.so`xdebug_zend_hash_is_recursive + 4
* frame #1: 0x00000001029a6736 xdebug.so`xdebug_var_export_text_ansi + 1006
* frame #2: 0x00000001029a715d xdebug.so`xdebug_get_zval_value_text_ansi + 273
* frame #3: 0x000000010298a441 xdebug.so`zif_xdebug_var_dump + 297
* frame #4: 0x000000010298d558 xdebug.so`xdebug_execute_internal + 640
* frame #5: 0x000000010046d47f php`ZEND_DO_FCALL_SPEC_RETVAL_UNUSED_HANDLER + 364
* frame #6: 0x000000010043cabc php`execute_ex + 44
* frame #7: 0x000000010298d151 xdebug.so`xdebug_execute_ex + 1662
* frame #8: 0x000000010046d865 php`ZEND_DO_FCALL_SPEC_RETVAL_USED_HANDLER + 426
*
* The value we are passing to var_dump() appears to be corrupt somehow.
*/
/* var_dump($m); */
$this->assertTrue(true);
}
public function testIssue9440()
{
$m = new Test32Fields();
$m->setId(8);
$this->assertEquals(8, $m->getId());
$m->setVersion('1');
$this->assertEquals(8, $m->getId());
}
}