protobuf/php/tests/generated_class_test.php

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<?php
require_once('generated/NoNamespaceEnum.php');
require_once('generated/NoNamespaceMessage.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\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;
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 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'));
}
/**
* @expectedException UnexpectedValueException
* @expectedExceptionMessage Enum Foo\TestEnum has no name defined for value -1
*/
public function testInvalidEnumValueThrowsException()
{
TestEnum::name(-1);
}
/**
* @expectedException UnexpectedValueException
* @expectedExceptionMessage Enum Foo\TestEnum has no value defined for name DOES_NOT_EXIST
*/
public function testInvalidEnumNameThrowsException()
{
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);
}
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->assertEquals(1.0, $m->getOptionalFloat(), '', MAX_FLOAT_DIFF);
// Set float.
$m->setOptionalFloat(1.1);
$this->assertEquals(1.1, $m->getOptionalFloat(), '', MAX_FLOAT_DIFF);
// Set string.
$m->setOptionalFloat('2');
$this->assertEquals(2.0, $m->getOptionalFloat(), '', MAX_FLOAT_DIFF);
$m->setOptionalFloat('3.1');
$this->assertEquals(3.1, $m->getOptionalFloat(), '', MAX_FLOAT_DIFF);
}
#########################################################
# Test double field.
#########################################################
public function testDoubleField()
{
$m = new TestMessage();
// Set integer.
$m->setOptionalDouble(1);
$this->assertEquals(1.0, $m->getOptionalDouble(), '', MAX_FLOAT_DIFF);
// Set float.
$m->setOptionalDouble(1.1);
$this->assertEquals(1.1, $m->getOptionalDouble(), '', MAX_FLOAT_DIFF);
// Set string.
$m->setOptionalDouble('2');
$this->assertEquals(2.0, $m->getOptionalDouble(), '', MAX_FLOAT_DIFF);
$m->setOptionalDouble('3.1');
$this->assertEquals(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();
$sub_m = new 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 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, 6.1 => 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);
}
#########################################################
Merge 3.2.x branch into master (#2648) * Down-integrate internal changes to github. * Update conformance test failure list. * Explicitly import used class in nano test to avoid random test fail. * Update _GNUC_VER to use the correct implementation of atomic operation on Mac. * maps_test.js: check whether Symbol is defined before using it (#2524) Symbol is not yet available on older versions of Node.js and so this test fails with them. This change just directly checks whether Symbol is available before we try to use it. * Added well_known_types_embed.cc to CLEANFILES so that it gets cleaned up * Updated Makefile.am to fix out-of-tree builds * Added Bazel genrule for generating well_known_types_embed.cc In pull request #2517 I made this change for the CMake and autotools builds but forgot to do it for the Bazel build. * Update _GNUC_VER to use the correct implementation of atomic operation on Mac. * Add new js file in extra dist. * Bump version number to 3.2.0 * Fixed issue with autoloading - Invalid paths (#2538) * PHP fix int64 decoding (#2516) * fix int64 decoding * fix int64 decoding + tests * Fix int64 decoding on 32-bit machines. * Fix warning in compiler/js/embed.cc embed.cc: In function ‘std::string CEscape(const string&)’: embed.cc:51:32: warning: comparison between signed and unsigned integer expressions [-Wsign-compare] for (int i = 0; i < str.size(); ++i) { ^ * Fix include in auto-generated well_known_types_embed.cc Restore include style fix (e3da722) that has been trampled by auto-generation of well_known_types_embed.cc * Fixed cross compilations with the Autotools build Pull request #2517 caused cross compilations to start failing, because the js_embed binary was being built to run on the target platform instead of on the build machine. This change updates the Autotools build to use the AX_PROG_CXX_FOR_BUILD macro to find a suitable compiler for the build machine and always use that when building js_embed. * Minor fix for autocreated object repeated fields and maps. - If setting/clearing a repeated field/map that was objects, check the class before checking the autocreator. - Just to be paranoid, don’t mutate within copy/mutableCopy for the autocreated classes to ensure there is less chance of issues if someone does something really crazy threading wise. - Some more tests for the internal AutocreatedArray/AutocreatedDictionary classes to ensure things are working as expected. - Add Xcode 8.2 to the full_mac_build.sh supported list. * Fix generation of extending nested messages in JavaScript (#2439) * Fix generation of extending nested messages in JavaScript * Added missing test8.proto to build * Fix generated code when there is no namespace but there is enum definition. * Decoding unknown field should succeed. * Add embed.cc in src/Makefile.am to fix dist check. * Fixed "make distcheck" for the Autotools build To make the test pass I needed to fix out-of-tree builds and update EXTRA_DIST and CLEANFILES. * Remove redundent embed.cc from src/Makefile.am * Update version number to 3.2.0-rc.1 (#2578) * Change protoc-artifacts version to 3.2.0-rc.1 * Update version number to 3.2.0rc2 * Update change logs for 3.2.0 release. * Update php README * Update upb, fixes some bugs (including a hash table problem). (#2611) * Update upb, fixes some bugs (including a hash table problem). * Ruby: added a test for the previous hash table corruption. Verified that this triggers the bug in the currently released version. * Ruby: bugfix for SEGV. * Ruby: removed old code for dup'ing defs. * Reverting deployment target to 7.0 (#2618) The Protobuf library doesn’t require the 7.1 deployment target so reverting it back to 7.0 * Fix typo that breaks builds on big-endian (#2632) * Bump version number to 3.2.0
2017-01-31 17:17:32 +00:00
# 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);
Merge 3.2.x branch into master (#2648) * Down-integrate internal changes to github. * Update conformance test failure list. * Explicitly import used class in nano test to avoid random test fail. * Update _GNUC_VER to use the correct implementation of atomic operation on Mac. * maps_test.js: check whether Symbol is defined before using it (#2524) Symbol is not yet available on older versions of Node.js and so this test fails with them. This change just directly checks whether Symbol is available before we try to use it. * Added well_known_types_embed.cc to CLEANFILES so that it gets cleaned up * Updated Makefile.am to fix out-of-tree builds * Added Bazel genrule for generating well_known_types_embed.cc In pull request #2517 I made this change for the CMake and autotools builds but forgot to do it for the Bazel build. * Update _GNUC_VER to use the correct implementation of atomic operation on Mac. * Add new js file in extra dist. * Bump version number to 3.2.0 * Fixed issue with autoloading - Invalid paths (#2538) * PHP fix int64 decoding (#2516) * fix int64 decoding * fix int64 decoding + tests * Fix int64 decoding on 32-bit machines. * Fix warning in compiler/js/embed.cc embed.cc: In function ‘std::string CEscape(const string&)’: embed.cc:51:32: warning: comparison between signed and unsigned integer expressions [-Wsign-compare] for (int i = 0; i < str.size(); ++i) { ^ * Fix include in auto-generated well_known_types_embed.cc Restore include style fix (e3da722) that has been trampled by auto-generation of well_known_types_embed.cc * Fixed cross compilations with the Autotools build Pull request #2517 caused cross compilations to start failing, because the js_embed binary was being built to run on the target platform instead of on the build machine. This change updates the Autotools build to use the AX_PROG_CXX_FOR_BUILD macro to find a suitable compiler for the build machine and always use that when building js_embed. * Minor fix for autocreated object repeated fields and maps. - If setting/clearing a repeated field/map that was objects, check the class before checking the autocreator. - Just to be paranoid, don’t mutate within copy/mutableCopy for the autocreated classes to ensure there is less chance of issues if someone does something really crazy threading wise. - Some more tests for the internal AutocreatedArray/AutocreatedDictionary classes to ensure things are working as expected. - Add Xcode 8.2 to the full_mac_build.sh supported list. * Fix generation of extending nested messages in JavaScript (#2439) * Fix generation of extending nested messages in JavaScript * Added missing test8.proto to build * Fix generated code when there is no namespace but there is enum definition. * Decoding unknown field should succeed. * Add embed.cc in src/Makefile.am to fix dist check. * Fixed "make distcheck" for the Autotools build To make the test pass I needed to fix out-of-tree builds and update EXTRA_DIST and CLEANFILES. * Remove redundent embed.cc from src/Makefile.am * Update version number to 3.2.0-rc.1 (#2578) * Change protoc-artifacts version to 3.2.0-rc.1 * Update version number to 3.2.0rc2 * Update change logs for 3.2.0 release. * Update php README * Update upb, fixes some bugs (including a hash table problem). (#2611) * Update upb, fixes some bugs (including a hash table problem). * Ruby: added a test for the previous hash table corruption. Verified that this triggers the bug in the currently released version. * Ruby: bugfix for SEGV. * Ruby: removed old code for dup'ing defs. * Reverting deployment target to 7.0 (#2618) The Protobuf library doesn’t require the 7.1 deployment target so reverting it back to 7.0 * Fix typo that breaks builds on big-endian (#2632) * Bump version number to 3.2.0
2017-01-31 17:17:32 +00:00
}
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();
2017-05-29 22:30:47 +00:00
$m = new \Foo\PBARRAY();
2017-09-08 22:11:49 +00:00
$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\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\PBnamespace();
$m = new \Lower\PBnew();
$m = new \Lower\PBor();
$m = new \Lower\PBprint();
$m = new \Lower\PBprivate();
$m = new \Lower\PBprotected();
$m = new \Lower\PBpublic();
$m = new \Lower\PBrequire();
$m = new \Lower\PBrequire_once();
$m = new \Lower\PBreturn();
$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\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\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\PBNAMESPACE();
$m = new \Upper\PBNEW();
$m = new \Upper\PBOR();
$m = new \Upper\PBPRINT();
$m = new \Upper\PBPRIVATE();
$m = new \Upper\PBPROTECTED();
$m = new \Upper\PBPUBLIC();
$m = new \Upper\PBREQUIRE();
$m = new \Upper\PBREQUIRE_ONCE();
$m = new \Upper\PBRETURN();
$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\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\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\PBnamespace();
$m = new \Lower_enum\PBnew();
$m = new \Lower_enum\PBor();
$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\PBrequire_once();
$m = new \Lower_enum\PBreturn();
$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\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\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\PBNAMESPACE();
$m = new \Upper_enum\PBNEW();
$m = new \Upper_enum\PBOR();
$m = new \Upper_enum\PBPRINT();
$m = new \Upper_enum\PBPRIVATE();
$m = new \Upper_enum\PBPROTECTED();
$m = new \Upper_enum\PBPUBLIC();
$m = new \Upper_enum\PBREQUIRE();
$m = new \Upper_enum\PBREQUIRE_ONCE();
$m = new \Upper_enum\PBRETURN();
$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\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::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::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::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 = \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::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::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::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;
$this->assertTrue(true);
}
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#########################################################
# Test fluent setters.
#########################################################
public function testFluentSetters()
{
$m = (new TestMessage())
->setOptionalInt32(1)
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->setOptionalUInt32(2);
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$this->assertSame(1, $m->getOptionalInt32());
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$this->assertSame(2, $m->getOptionalUInt32());
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}
#########################################################
# 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);
}
}
#########################################################
# 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]);
}
}