| // Protocol Buffers - Google's data interchange format |
| // Copyright 2008 Google Inc. All rights reserved. |
| // https://developers.google.com/protocol-buffers/ |
| // |
| // Redistribution and use in source and binary forms, with or without |
| // modification, are permitted provided that the following conditions are |
| // met: |
| // |
| // * Redistributions of source code must retain the above copyright |
| // notice, this list of conditions and the following disclaimer. |
| // * Redistributions in binary form must reproduce the above |
| // copyright notice, this list of conditions and the following disclaimer |
| // in the documentation and/or other materials provided with the |
| // distribution. |
| // * Neither the name of Google Inc. nor the names of its |
| // contributors may be used to endorse or promote products derived from |
| // this software without specific prior written permission. |
| // |
| // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
| // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
| // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
| // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
| // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
| // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
| // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| // Author: jschorr@google.com (Joseph Schorr) |
| // Based on original Protocol Buffers design by |
| // Sanjay Ghemawat, Jeff Dean, and others. |
| |
| #include <google/protobuf/text_format.h> |
| |
| #include <math.h> |
| #include <stdlib.h> |
| #include <limits> |
| #include <memory> |
| #ifndef _SHARED_PTR_H |
| #include <google/protobuf/stubs/shared_ptr.h> |
| #endif |
| |
| #include <google/protobuf/stubs/logging.h> |
| #include <google/protobuf/stubs/common.h> |
| #include <google/protobuf/stubs/logging.h> |
| #include <google/protobuf/testing/file.h> |
| #include <google/protobuf/testing/file.h> |
| #include <google/protobuf/test_util.h> |
| #include <google/protobuf/unittest.pb.h> |
| #include <google/protobuf/unittest_mset.pb.h> |
| #include <google/protobuf/unittest_mset_wire_format.pb.h> |
| #include <google/protobuf/io/tokenizer.h> |
| #include <google/protobuf/io/zero_copy_stream_impl.h> |
| #include <google/protobuf/stubs/strutil.h> |
| #include <google/protobuf/stubs/substitute.h> |
| #include <google/protobuf/testing/googletest.h> |
| #include <gtest/gtest.h> |
| #include <google/protobuf/stubs/mathlimits.h> |
| |
| |
| namespace google { |
| namespace protobuf { |
| |
| // Can't use an anonymous namespace here due to brokenness of Tru64 compiler. |
| namespace text_format_unittest { |
| |
| // A basic string with different escapable characters for testing. |
| const string kEscapeTestString = |
| "\"A string with ' characters \n and \r newlines and \t tabs and \001 " |
| "slashes \\ and multiple spaces"; |
| |
| // A representation of the above string with all the characters escaped. |
| const string kEscapeTestStringEscaped = |
| "\"\\\"A string with \\' characters \\n and \\r newlines " |
| "and \\t tabs and \\001 slashes \\\\ and multiple spaces\""; |
| |
| class TextFormatTest : public testing::Test { |
| public: |
| static void SetUpTestCase() { |
| GOOGLE_CHECK_OK(File::GetContents( |
| TestSourceDir() + |
| "/google/protobuf/" |
| "testdata/text_format_unittest_data_oneof_implemented.txt", |
| &static_proto_debug_string_, true)); |
| } |
| |
| TextFormatTest() : proto_debug_string_(static_proto_debug_string_) {} |
| |
| protected: |
| // Debug string read from text_format_unittest_data.txt. |
| const string proto_debug_string_; |
| unittest::TestAllTypes proto_; |
| |
| private: |
| static string static_proto_debug_string_; |
| }; |
| string TextFormatTest::static_proto_debug_string_; |
| |
| class TextFormatExtensionsTest : public testing::Test { |
| public: |
| static void SetUpTestCase() { |
| GOOGLE_CHECK_OK(File::GetContents(TestSourceDir() + |
| "/google/protobuf/testdata/" |
| "text_format_unittest_extensions_data.txt", |
| &static_proto_debug_string_, true)); |
| } |
| |
| TextFormatExtensionsTest() |
| : proto_debug_string_(static_proto_debug_string_) {} |
| |
| protected: |
| // Debug string read from text_format_unittest_data.txt. |
| const string proto_debug_string_; |
| unittest::TestAllExtensions proto_; |
| |
| private: |
| static string static_proto_debug_string_; |
| }; |
| string TextFormatExtensionsTest::static_proto_debug_string_; |
| |
| |
| TEST_F(TextFormatTest, Basic) { |
| TestUtil::SetAllFields(&proto_); |
| EXPECT_EQ(proto_debug_string_, proto_.DebugString()); |
| } |
| |
| TEST_F(TextFormatExtensionsTest, Extensions) { |
| TestUtil::SetAllExtensions(&proto_); |
| EXPECT_EQ(proto_debug_string_, proto_.DebugString()); |
| } |
| |
| TEST_F(TextFormatTest, ShortDebugString) { |
| proto_.set_optional_int32(1); |
| proto_.set_optional_string("hello"); |
| proto_.mutable_optional_nested_message()->set_bb(2); |
| proto_.mutable_optional_foreign_message(); |
| |
| EXPECT_EQ("optional_int32: 1 optional_string: \"hello\" " |
| "optional_nested_message { bb: 2 } " |
| "optional_foreign_message { }", |
| proto_.ShortDebugString()); |
| } |
| |
| TEST_F(TextFormatTest, ShortPrimitiveRepeateds) { |
| proto_.set_optional_int32(123); |
| proto_.add_repeated_int32(456); |
| proto_.add_repeated_int32(789); |
| proto_.add_repeated_string("foo"); |
| proto_.add_repeated_string("bar"); |
| proto_.add_repeated_nested_message()->set_bb(2); |
| proto_.add_repeated_nested_message()->set_bb(3); |
| proto_.add_repeated_nested_enum(unittest::TestAllTypes::FOO); |
| proto_.add_repeated_nested_enum(unittest::TestAllTypes::BAR); |
| |
| TextFormat::Printer printer; |
| printer.SetUseShortRepeatedPrimitives(true); |
| string text; |
| printer.PrintToString(proto_, &text); |
| |
| EXPECT_EQ("optional_int32: 123\n" |
| "repeated_int32: [456, 789]\n" |
| "repeated_string: \"foo\"\n" |
| "repeated_string: \"bar\"\n" |
| "repeated_nested_message {\n bb: 2\n}\n" |
| "repeated_nested_message {\n bb: 3\n}\n" |
| "repeated_nested_enum: [FOO, BAR]\n", |
| text); |
| |
| // Try in single-line mode. |
| printer.SetSingleLineMode(true); |
| printer.PrintToString(proto_, &text); |
| |
| EXPECT_EQ("optional_int32: 123 " |
| "repeated_int32: [456, 789] " |
| "repeated_string: \"foo\" " |
| "repeated_string: \"bar\" " |
| "repeated_nested_message { bb: 2 } " |
| "repeated_nested_message { bb: 3 } " |
| "repeated_nested_enum: [FOO, BAR] ", |
| text); |
| } |
| |
| |
| TEST_F(TextFormatTest, StringEscape) { |
| // Set the string value to test. |
| proto_.set_optional_string(kEscapeTestString); |
| |
| // Get the DebugString from the proto. |
| string debug_string = proto_.DebugString(); |
| string utf8_debug_string = proto_.Utf8DebugString(); |
| |
| // Hardcode a correct value to test against. |
| string correct_string = "optional_string: " |
| + kEscapeTestStringEscaped |
| + "\n"; |
| |
| // Compare. |
| EXPECT_EQ(correct_string, debug_string); |
| // UTF-8 string is the same as non-UTF-8 because |
| // the protocol buffer contains no UTF-8 text. |
| EXPECT_EQ(correct_string, utf8_debug_string); |
| |
| string expected_short_debug_string = "optional_string: " |
| + kEscapeTestStringEscaped; |
| EXPECT_EQ(expected_short_debug_string, proto_.ShortDebugString()); |
| } |
| |
| TEST_F(TextFormatTest, Utf8DebugString) { |
| // Set the string value to test. |
| proto_.set_optional_string("\350\260\267\346\255\214"); |
| proto_.set_optional_bytes("\350\260\267\346\255\214"); |
| |
| // Get the DebugString from the proto. |
| string debug_string = proto_.DebugString(); |
| string utf8_debug_string = proto_.Utf8DebugString(); |
| |
| // Hardcode a correct value to test against. |
| string correct_utf8_string = |
| "optional_string: " |
| "\"\350\260\267\346\255\214\"" |
| "\n" |
| "optional_bytes: " |
| "\"\\350\\260\\267\\346\\255\\214\"" |
| "\n"; |
| string correct_string = |
| "optional_string: " |
| "\"\\350\\260\\267\\346\\255\\214\"" |
| "\n" |
| "optional_bytes: " |
| "\"\\350\\260\\267\\346\\255\\214\"" |
| "\n"; |
| |
| // Compare. |
| EXPECT_EQ(correct_utf8_string, utf8_debug_string); |
| EXPECT_EQ(correct_string, debug_string); |
| } |
| |
| TEST_F(TextFormatTest, PrintUnknownFields) { |
| // Test printing of unknown fields in a message. |
| |
| unittest::TestEmptyMessage message; |
| UnknownFieldSet* unknown_fields = message.mutable_unknown_fields(); |
| |
| unknown_fields->AddVarint(5, 1); |
| unknown_fields->AddFixed32(5, 2); |
| unknown_fields->AddFixed64(5, 3); |
| unknown_fields->AddLengthDelimited(5, "4"); |
| unknown_fields->AddGroup(5)->AddVarint(10, 5); |
| |
| unknown_fields->AddVarint(8, 1); |
| unknown_fields->AddVarint(8, 2); |
| unknown_fields->AddVarint(8, 3); |
| |
| EXPECT_EQ( |
| "5: 1\n" |
| "5: 0x00000002\n" |
| "5: 0x0000000000000003\n" |
| "5: \"4\"\n" |
| "5 {\n" |
| " 10: 5\n" |
| "}\n" |
| "8: 1\n" |
| "8: 2\n" |
| "8: 3\n", |
| message.DebugString()); |
| } |
| |
| TEST_F(TextFormatTest, PrintUnknownFieldsHidden) { |
| // Test printing of unknown fields in a message when suppressed. |
| |
| unittest::OneString message; |
| message.set_data("data"); |
| UnknownFieldSet* unknown_fields = message.mutable_unknown_fields(); |
| |
| unknown_fields->AddVarint(5, 1); |
| unknown_fields->AddFixed32(5, 2); |
| unknown_fields->AddFixed64(5, 3); |
| unknown_fields->AddLengthDelimited(5, "4"); |
| unknown_fields->AddGroup(5)->AddVarint(10, 5); |
| |
| unknown_fields->AddVarint(8, 1); |
| unknown_fields->AddVarint(8, 2); |
| unknown_fields->AddVarint(8, 3); |
| |
| TextFormat::Printer printer; |
| printer.SetHideUnknownFields(true); |
| string output; |
| printer.PrintToString(message, &output); |
| |
| EXPECT_EQ("data: \"data\"\n", output); |
| } |
| |
| TEST_F(TextFormatTest, PrintUnknownMessage) { |
| // Test heuristic printing of messages in an UnknownFieldSet. |
| |
| protobuf_unittest::TestAllTypes message; |
| |
| // Cases which should not be interpreted as sub-messages. |
| |
| // 'a' is a valid FIXED64 tag, so for the string to be parseable as a message |
| // it should be followed by 8 bytes. Since this string only has two |
| // subsequent bytes, it should be treated as a string. |
| message.add_repeated_string("abc"); |
| |
| // 'd' happens to be a valid ENDGROUP tag. So, |
| // UnknownFieldSet::MergeFromCodedStream() will successfully parse "def", but |
| // the ConsumedEntireMessage() check should fail. |
| message.add_repeated_string("def"); |
| |
| // A zero-length string should never be interpreted as a message even though |
| // it is technically valid as one. |
| message.add_repeated_string(""); |
| |
| // Case which should be interpreted as a sub-message. |
| |
| // An actual nested message with content should always be interpreted as a |
| // nested message. |
| message.add_repeated_nested_message()->set_bb(123); |
| |
| string data; |
| message.SerializeToString(&data); |
| |
| string text; |
| UnknownFieldSet unknown_fields; |
| EXPECT_TRUE(unknown_fields.ParseFromString(data)); |
| EXPECT_TRUE(TextFormat::PrintUnknownFieldsToString(unknown_fields, &text)); |
| EXPECT_EQ( |
| "44: \"abc\"\n" |
| "44: \"def\"\n" |
| "44: \"\"\n" |
| "48 {\n" |
| " 1: 123\n" |
| "}\n", |
| text); |
| } |
| |
| TEST_F(TextFormatTest, PrintMessageWithIndent) { |
| // Test adding an initial indent to printing. |
| |
| protobuf_unittest::TestAllTypes message; |
| |
| message.add_repeated_string("abc"); |
| message.add_repeated_string("def"); |
| message.add_repeated_nested_message()->set_bb(123); |
| |
| string text; |
| TextFormat::Printer printer; |
| printer.SetInitialIndentLevel(1); |
| EXPECT_TRUE(printer.PrintToString(message, &text)); |
| EXPECT_EQ( |
| " repeated_string: \"abc\"\n" |
| " repeated_string: \"def\"\n" |
| " repeated_nested_message {\n" |
| " bb: 123\n" |
| " }\n", |
| text); |
| } |
| |
| TEST_F(TextFormatTest, PrintMessageSingleLine) { |
| // Test printing a message on a single line. |
| |
| protobuf_unittest::TestAllTypes message; |
| |
| message.add_repeated_string("abc"); |
| message.add_repeated_string("def"); |
| message.add_repeated_nested_message()->set_bb(123); |
| |
| string text; |
| TextFormat::Printer printer; |
| printer.SetInitialIndentLevel(1); |
| printer.SetSingleLineMode(true); |
| EXPECT_TRUE(printer.PrintToString(message, &text)); |
| EXPECT_EQ( |
| " repeated_string: \"abc\" repeated_string: \"def\" " |
| "repeated_nested_message { bb: 123 } ", |
| text); |
| } |
| |
| TEST_F(TextFormatTest, PrintBufferTooSmall) { |
| // Test printing a message to a buffer that is too small. |
| |
| protobuf_unittest::TestAllTypes message; |
| |
| message.add_repeated_string("abc"); |
| message.add_repeated_string("def"); |
| |
| char buffer[1] = ""; |
| io::ArrayOutputStream output_stream(buffer, 1); |
| EXPECT_FALSE(TextFormat::Print(message, &output_stream)); |
| EXPECT_EQ(buffer[0], 'r'); |
| EXPECT_EQ(output_stream.ByteCount(), 1); |
| } |
| |
| // A printer that appends 'u' to all unsigned int32. |
| class CustomUInt32FieldValuePrinter : public TextFormat::FieldValuePrinter { |
| public: |
| virtual string PrintUInt32(uint32 val) const { |
| return StrCat(FieldValuePrinter::PrintUInt32(val), "u"); |
| } |
| }; |
| |
| TEST_F(TextFormatTest, DefaultCustomFieldPrinter) { |
| protobuf_unittest::TestAllTypes message; |
| |
| message.set_optional_uint32(42); |
| message.add_repeated_uint32(1); |
| message.add_repeated_uint32(2); |
| message.add_repeated_uint32(3); |
| |
| TextFormat::Printer printer; |
| printer.SetDefaultFieldValuePrinter(new CustomUInt32FieldValuePrinter()); |
| // Let's see if that works well together with the repeated primitives: |
| printer.SetUseShortRepeatedPrimitives(true); |
| string text; |
| printer.PrintToString(message, &text); |
| EXPECT_EQ("optional_uint32: 42u\nrepeated_uint32: [1u, 2u, 3u]\n", text); |
| } |
| |
| class CustomInt32FieldValuePrinter : public TextFormat::FieldValuePrinter { |
| public: |
| virtual string PrintInt32(int32 val) const { |
| return StrCat("value-is(", FieldValuePrinter::PrintInt32(val), ")"); |
| } |
| }; |
| |
| TEST_F(TextFormatTest, FieldSpecificCustomPrinter) { |
| protobuf_unittest::TestAllTypes message; |
| |
| message.set_optional_int32(42); // This will be handled by our Printer. |
| message.add_repeated_int32(42); // This will be printed as number. |
| |
| TextFormat::Printer printer; |
| EXPECT_TRUE(printer.RegisterFieldValuePrinter( |
| message.GetDescriptor()->FindFieldByName("optional_int32"), |
| new CustomInt32FieldValuePrinter())); |
| string text; |
| printer.PrintToString(message, &text); |
| EXPECT_EQ("optional_int32: value-is(42)\nrepeated_int32: 42\n", text); |
| } |
| |
| TEST_F(TextFormatTest, ErrorCasesRegisteringFieldValuePrinterShouldFail) { |
| protobuf_unittest::TestAllTypes message; |
| TextFormat::Printer printer; |
| // NULL printer. |
| EXPECT_FALSE(printer.RegisterFieldValuePrinter( |
| message.GetDescriptor()->FindFieldByName("optional_int32"), |
| NULL)); |
| // Because registration fails, the ownership of this printer is never taken. |
| TextFormat::FieldValuePrinter my_field_printer; |
| // NULL field |
| EXPECT_FALSE(printer.RegisterFieldValuePrinter(NULL, &my_field_printer)); |
| } |
| |
| class CustomMessageFieldValuePrinter : public TextFormat::FieldValuePrinter { |
| public: |
| virtual string PrintInt32(int32 v) const { |
| return StrCat(FieldValuePrinter::PrintInt32(v), " # x", strings::Hex(v)); |
| } |
| |
| virtual string PrintMessageStart(const Message& message, |
| int field_index, |
| int field_count, |
| bool single_line_mode) const { |
| if (single_line_mode) { |
| return " { "; |
| } |
| return StrCat( |
| " { # ", message.GetDescriptor()->name(), ": ", field_index, "\n"); |
| } |
| }; |
| |
| TEST_F(TextFormatTest, CustomPrinterForComments) { |
| protobuf_unittest::TestAllTypes message; |
| message.mutable_optional_nested_message(); |
| message.mutable_optional_import_message()->set_d(42); |
| message.add_repeated_nested_message(); |
| message.add_repeated_nested_message(); |
| message.add_repeated_import_message()->set_d(43); |
| message.add_repeated_import_message()->set_d(44); |
| TextFormat::Printer printer; |
| CustomMessageFieldValuePrinter my_field_printer; |
| printer.SetDefaultFieldValuePrinter(new CustomMessageFieldValuePrinter()); |
| string text; |
| printer.PrintToString(message, &text); |
| EXPECT_EQ( |
| "optional_nested_message { # NestedMessage: -1\n" |
| "}\n" |
| "optional_import_message { # ImportMessage: -1\n" |
| " d: 42 # x2a\n" |
| "}\n" |
| "repeated_nested_message { # NestedMessage: 0\n" |
| "}\n" |
| "repeated_nested_message { # NestedMessage: 1\n" |
| "}\n" |
| "repeated_import_message { # ImportMessage: 0\n" |
| " d: 43 # x2b\n" |
| "}\n" |
| "repeated_import_message { # ImportMessage: 1\n" |
| " d: 44 # x2c\n" |
| "}\n", |
| text); |
| } |
| |
| class CustomMultilineCommentPrinter : public TextFormat::FieldValuePrinter { |
| public: |
| virtual string PrintMessageStart(const Message& message, |
| int field_index, |
| int field_count, |
| bool single_line_comment) const { |
| return StrCat(" { # 1\n", " # 2\n"); |
| } |
| }; |
| |
| TEST_F(TextFormatTest, CustomPrinterForMultilineComments) { |
| protobuf_unittest::TestAllTypes message; |
| message.mutable_optional_nested_message(); |
| message.mutable_optional_import_message()->set_d(42); |
| TextFormat::Printer printer; |
| CustomMessageFieldValuePrinter my_field_printer; |
| printer.SetDefaultFieldValuePrinter(new CustomMultilineCommentPrinter()); |
| string text; |
| printer.PrintToString(message, &text); |
| EXPECT_EQ( |
| "optional_nested_message { # 1\n" |
| " # 2\n" |
| "}\n" |
| "optional_import_message { # 1\n" |
| " # 2\n" |
| " d: 42\n" |
| "}\n", |
| text); |
| } |
| |
| TEST_F(TextFormatTest, ParseBasic) { |
| io::ArrayInputStream input_stream(proto_debug_string_.data(), |
| proto_debug_string_.size()); |
| TextFormat::Parse(&input_stream, &proto_); |
| TestUtil::ExpectAllFieldsSet(proto_); |
| } |
| |
| TEST_F(TextFormatExtensionsTest, ParseExtensions) { |
| io::ArrayInputStream input_stream(proto_debug_string_.data(), |
| proto_debug_string_.size()); |
| TextFormat::Parse(&input_stream, &proto_); |
| TestUtil::ExpectAllExtensionsSet(proto_); |
| } |
| |
| TEST_F(TextFormatTest, ParseEnumFieldFromNumber) { |
| // Create a parse string with a numerical value for an enum field. |
| string parse_string = strings::Substitute("optional_nested_enum: $0", |
| unittest::TestAllTypes::BAZ); |
| EXPECT_TRUE(TextFormat::ParseFromString(parse_string, &proto_)); |
| EXPECT_TRUE(proto_.has_optional_nested_enum()); |
| EXPECT_EQ(unittest::TestAllTypes::BAZ, proto_.optional_nested_enum()); |
| } |
| |
| TEST_F(TextFormatTest, ParseEnumFieldFromNegativeNumber) { |
| ASSERT_LT(unittest::SPARSE_E, 0); |
| string parse_string = strings::Substitute("sparse_enum: $0", |
| unittest::SPARSE_E); |
| unittest::SparseEnumMessage proto; |
| EXPECT_TRUE(TextFormat::ParseFromString(parse_string, &proto)); |
| EXPECT_TRUE(proto.has_sparse_enum()); |
| EXPECT_EQ(unittest::SPARSE_E, proto.sparse_enum()); |
| } |
| |
| TEST_F(TextFormatTest, ParseStringEscape) { |
| // Create a parse string with escpaed characters in it. |
| string parse_string = "optional_string: " |
| + kEscapeTestStringEscaped |
| + "\n"; |
| |
| io::ArrayInputStream input_stream(parse_string.data(), |
| parse_string.size()); |
| TextFormat::Parse(&input_stream, &proto_); |
| |
| // Compare. |
| EXPECT_EQ(kEscapeTestString, proto_.optional_string()); |
| } |
| |
| TEST_F(TextFormatTest, ParseConcatenatedString) { |
| // Create a parse string with multiple parts on one line. |
| string parse_string = "optional_string: \"foo\" \"bar\"\n"; |
| |
| io::ArrayInputStream input_stream1(parse_string.data(), |
| parse_string.size()); |
| TextFormat::Parse(&input_stream1, &proto_); |
| |
| // Compare. |
| EXPECT_EQ("foobar", proto_.optional_string()); |
| |
| // Create a parse string with multiple parts on separate lines. |
| parse_string = "optional_string: \"foo\"\n" |
| "\"bar\"\n"; |
| |
| io::ArrayInputStream input_stream2(parse_string.data(), |
| parse_string.size()); |
| TextFormat::Parse(&input_stream2, &proto_); |
| |
| // Compare. |
| EXPECT_EQ("foobar", proto_.optional_string()); |
| } |
| |
| TEST_F(TextFormatTest, ParseFloatWithSuffix) { |
| // Test that we can parse a floating-point value with 'f' appended to the |
| // end. This is needed for backwards-compatibility with proto1. |
| |
| // Have it parse a float with the 'f' suffix. |
| string parse_string = "optional_float: 1.0f\n"; |
| |
| io::ArrayInputStream input_stream(parse_string.data(), |
| parse_string.size()); |
| |
| TextFormat::Parse(&input_stream, &proto_); |
| |
| // Compare. |
| EXPECT_EQ(1.0, proto_.optional_float()); |
| } |
| |
| TEST_F(TextFormatTest, ParseShortRepeatedForm) { |
| string parse_string = |
| // Mixed short-form and long-form are simply concatenated. |
| "repeated_int32: 1\n" |
| "repeated_int32: [456, 789]\n" |
| "repeated_nested_enum: [ FOO ,BAR, # comment\n" |
| " 3]\n" |
| // Note that while the printer won't print repeated strings in short-form, |
| // the parser will accept them. |
| "repeated_string: [ \"foo\", 'bar' ]\n" |
| // Repeated message |
| "repeated_nested_message: [ { bb: 1 }, { bb : 2 }]\n" |
| // Repeated group |
| "RepeatedGroup [{ a: 3 },{ a: 4 }]\n"; |
| |
| ASSERT_TRUE(TextFormat::ParseFromString(parse_string, &proto_)); |
| |
| ASSERT_EQ(3, proto_.repeated_int32_size()); |
| EXPECT_EQ(1, proto_.repeated_int32(0)); |
| EXPECT_EQ(456, proto_.repeated_int32(1)); |
| EXPECT_EQ(789, proto_.repeated_int32(2)); |
| |
| ASSERT_EQ(3, proto_.repeated_nested_enum_size()); |
| EXPECT_EQ(unittest::TestAllTypes::FOO, proto_.repeated_nested_enum(0)); |
| EXPECT_EQ(unittest::TestAllTypes::BAR, proto_.repeated_nested_enum(1)); |
| EXPECT_EQ(unittest::TestAllTypes::BAZ, proto_.repeated_nested_enum(2)); |
| |
| ASSERT_EQ(2, proto_.repeated_string_size()); |
| EXPECT_EQ("foo", proto_.repeated_string(0)); |
| EXPECT_EQ("bar", proto_.repeated_string(1)); |
| |
| ASSERT_EQ(2, proto_.repeated_nested_message_size()); |
| EXPECT_EQ(1, proto_.repeated_nested_message(0).bb()); |
| EXPECT_EQ(2, proto_.repeated_nested_message(1).bb()); |
| |
| ASSERT_EQ(2, proto_.repeatedgroup_size()); |
| EXPECT_EQ(3, proto_.repeatedgroup(0).a()); |
| EXPECT_EQ(4, proto_.repeatedgroup(1).a()); |
| } |
| |
| |
| TEST_F(TextFormatTest, Comments) { |
| // Test that comments are ignored. |
| |
| string parse_string = "optional_int32: 1 # a comment\n" |
| "optional_int64: 2 # another comment"; |
| |
| io::ArrayInputStream input_stream(parse_string.data(), |
| parse_string.size()); |
| |
| TextFormat::Parse(&input_stream, &proto_); |
| |
| // Compare. |
| EXPECT_EQ(1, proto_.optional_int32()); |
| EXPECT_EQ(2, proto_.optional_int64()); |
| } |
| |
| TEST_F(TextFormatTest, OptionalColon) { |
| // Test that we can place a ':' after the field name of a nested message, |
| // even though we don't have to. |
| |
| string parse_string = "optional_nested_message: { bb: 1}\n"; |
| |
| io::ArrayInputStream input_stream(parse_string.data(), |
| parse_string.size()); |
| |
| TextFormat::Parse(&input_stream, &proto_); |
| |
| // Compare. |
| EXPECT_TRUE(proto_.has_optional_nested_message()); |
| EXPECT_EQ(1, proto_.optional_nested_message().bb()); |
| } |
| |
| // Some platforms (e.g. Windows) insist on padding the exponent to three |
| // digits when one or two would be just fine. |
| static string RemoveRedundantZeros(string text) { |
| text = StringReplace(text, "e+0", "e+", true); |
| text = StringReplace(text, "e-0", "e-", true); |
| return text; |
| } |
| |
| TEST_F(TextFormatTest, PrintExotic) { |
| unittest::TestAllTypes message; |
| |
| // Note: In C, a negative integer literal is actually the unary negation |
| // operator being applied to a positive integer literal, and |
| // 9223372036854775808 is outside the range of int64. However, it is not |
| // outside the range of uint64. Confusingly, this means that everything |
| // works if we make the literal unsigned, even though we are negating it. |
| message.add_repeated_int64(-GOOGLE_ULONGLONG(9223372036854775808)); |
| message.add_repeated_uint64(GOOGLE_ULONGLONG(18446744073709551615)); |
| message.add_repeated_double(123.456); |
| message.add_repeated_double(1.23e21); |
| message.add_repeated_double(1.23e-18); |
| message.add_repeated_double(std::numeric_limits<double>::infinity()); |
| message.add_repeated_double(-std::numeric_limits<double>::infinity()); |
| message.add_repeated_double(std::numeric_limits<double>::quiet_NaN()); |
| message.add_repeated_string(string("\000\001\a\b\f\n\r\t\v\\\'\"", 12)); |
| |
| // Fun story: We used to use 1.23e22 instead of 1.23e21 above, but this |
| // seemed to trigger an odd case on MinGW/GCC 3.4.5 where GCC's parsing of |
| // the value differed from strtod()'s parsing. That is to say, the |
| // following assertion fails on MinGW: |
| // assert(1.23e22 == strtod("1.23e22", NULL)); |
| // As a result, SimpleDtoa() would print the value as |
| // "1.2300000000000001e+22" to make sure strtod() produce the exact same |
| // result. Our goal is to test runtime parsing, not compile-time parsing, |
| // so this wasn't our problem. It was found that using 1.23e21 did not |
| // have this problem, so we switched to that instead. |
| |
| EXPECT_EQ( |
| "repeated_int64: -9223372036854775808\n" |
| "repeated_uint64: 18446744073709551615\n" |
| "repeated_double: 123.456\n" |
| "repeated_double: 1.23e+21\n" |
| "repeated_double: 1.23e-18\n" |
| "repeated_double: inf\n" |
| "repeated_double: -inf\n" |
| "repeated_double: nan\n" |
| "repeated_string: \"\\000\\001\\007\\010\\014\\n\\r\\t\\013\\\\\\'\\\"\"\n", |
| RemoveRedundantZeros(message.DebugString())); |
| } |
| |
| TEST_F(TextFormatTest, PrintFloatPrecision) { |
| unittest::TestAllTypes message; |
| |
| message.add_repeated_float(1.2); |
| message.add_repeated_float(1.23); |
| message.add_repeated_float(1.234); |
| message.add_repeated_float(1.2345); |
| message.add_repeated_float(1.23456); |
| message.add_repeated_float(1.2e10); |
| message.add_repeated_float(1.23e10); |
| message.add_repeated_float(1.234e10); |
| message.add_repeated_float(1.2345e10); |
| message.add_repeated_float(1.23456e10); |
| message.add_repeated_double(1.2); |
| message.add_repeated_double(1.23); |
| message.add_repeated_double(1.234); |
| message.add_repeated_double(1.2345); |
| message.add_repeated_double(1.23456); |
| message.add_repeated_double(1.234567); |
| message.add_repeated_double(1.2345678); |
| message.add_repeated_double(1.23456789); |
| message.add_repeated_double(1.234567898); |
| message.add_repeated_double(1.2345678987); |
| message.add_repeated_double(1.23456789876); |
| message.add_repeated_double(1.234567898765); |
| message.add_repeated_double(1.2345678987654); |
| message.add_repeated_double(1.23456789876543); |
| message.add_repeated_double(1.2e100); |
| message.add_repeated_double(1.23e100); |
| message.add_repeated_double(1.234e100); |
| message.add_repeated_double(1.2345e100); |
| message.add_repeated_double(1.23456e100); |
| message.add_repeated_double(1.234567e100); |
| message.add_repeated_double(1.2345678e100); |
| message.add_repeated_double(1.23456789e100); |
| message.add_repeated_double(1.234567898e100); |
| message.add_repeated_double(1.2345678987e100); |
| message.add_repeated_double(1.23456789876e100); |
| message.add_repeated_double(1.234567898765e100); |
| message.add_repeated_double(1.2345678987654e100); |
| message.add_repeated_double(1.23456789876543e100); |
| |
| EXPECT_EQ( |
| "repeated_float: 1.2\n" |
| "repeated_float: 1.23\n" |
| "repeated_float: 1.234\n" |
| "repeated_float: 1.2345\n" |
| "repeated_float: 1.23456\n" |
| "repeated_float: 1.2e+10\n" |
| "repeated_float: 1.23e+10\n" |
| "repeated_float: 1.234e+10\n" |
| "repeated_float: 1.2345e+10\n" |
| "repeated_float: 1.23456e+10\n" |
| "repeated_double: 1.2\n" |
| "repeated_double: 1.23\n" |
| "repeated_double: 1.234\n" |
| "repeated_double: 1.2345\n" |
| "repeated_double: 1.23456\n" |
| "repeated_double: 1.234567\n" |
| "repeated_double: 1.2345678\n" |
| "repeated_double: 1.23456789\n" |
| "repeated_double: 1.234567898\n" |
| "repeated_double: 1.2345678987\n" |
| "repeated_double: 1.23456789876\n" |
| "repeated_double: 1.234567898765\n" |
| "repeated_double: 1.2345678987654\n" |
| "repeated_double: 1.23456789876543\n" |
| "repeated_double: 1.2e+100\n" |
| "repeated_double: 1.23e+100\n" |
| "repeated_double: 1.234e+100\n" |
| "repeated_double: 1.2345e+100\n" |
| "repeated_double: 1.23456e+100\n" |
| "repeated_double: 1.234567e+100\n" |
| "repeated_double: 1.2345678e+100\n" |
| "repeated_double: 1.23456789e+100\n" |
| "repeated_double: 1.234567898e+100\n" |
| "repeated_double: 1.2345678987e+100\n" |
| "repeated_double: 1.23456789876e+100\n" |
| "repeated_double: 1.234567898765e+100\n" |
| "repeated_double: 1.2345678987654e+100\n" |
| "repeated_double: 1.23456789876543e+100\n", |
| RemoveRedundantZeros(message.DebugString())); |
| } |
| |
| |
| TEST_F(TextFormatTest, AllowPartial) { |
| unittest::TestRequired message; |
| TextFormat::Parser parser; |
| parser.AllowPartialMessage(true); |
| EXPECT_TRUE(parser.ParseFromString("a: 1", &message)); |
| EXPECT_EQ(1, message.a()); |
| EXPECT_FALSE(message.has_b()); |
| EXPECT_FALSE(message.has_c()); |
| } |
| |
| TEST_F(TextFormatTest, ParseExotic) { |
| unittest::TestAllTypes message; |
| ASSERT_TRUE(TextFormat::ParseFromString( |
| "repeated_int32: -1\n" |
| "repeated_int32: -2147483648\n" |
| "repeated_int64: -1\n" |
| "repeated_int64: -9223372036854775808\n" |
| "repeated_uint32: 4294967295\n" |
| "repeated_uint32: 2147483648\n" |
| "repeated_uint64: 18446744073709551615\n" |
| "repeated_uint64: 9223372036854775808\n" |
| "repeated_double: 123.0\n" |
| "repeated_double: 123.5\n" |
| "repeated_double: 0.125\n" |
| "repeated_double: 1.23E17\n" |
| "repeated_double: 1.235E+22\n" |
| "repeated_double: 1.235e-18\n" |
| "repeated_double: 123.456789\n" |
| "repeated_double: inf\n" |
| "repeated_double: Infinity\n" |
| "repeated_double: -inf\n" |
| "repeated_double: -Infinity\n" |
| "repeated_double: nan\n" |
| "repeated_double: NaN\n" |
| "repeated_string: \"\\000\\001\\a\\b\\f\\n\\r\\t\\v\\\\\\'\\\"\"\n", |
| &message)); |
| |
| ASSERT_EQ(2, message.repeated_int32_size()); |
| EXPECT_EQ(-1, message.repeated_int32(0)); |
| // Note: In C, a negative integer literal is actually the unary negation |
| // operator being applied to a positive integer literal, and 2147483648 is |
| // outside the range of int32. However, it is not outside the range of |
| // uint32. Confusingly, this means that everything works if we make the |
| // literal unsigned, even though we are negating it. |
| EXPECT_EQ(-2147483648u, message.repeated_int32(1)); |
| |
| ASSERT_EQ(2, message.repeated_int64_size()); |
| EXPECT_EQ(-1, message.repeated_int64(0)); |
| // Note: In C, a negative integer literal is actually the unary negation |
| // operator being applied to a positive integer literal, and |
| // 9223372036854775808 is outside the range of int64. However, it is not |
| // outside the range of uint64. Confusingly, this means that everything |
| // works if we make the literal unsigned, even though we are negating it. |
| EXPECT_EQ(-GOOGLE_ULONGLONG(9223372036854775808), message.repeated_int64(1)); |
| |
| ASSERT_EQ(2, message.repeated_uint32_size()); |
| EXPECT_EQ(4294967295u, message.repeated_uint32(0)); |
| EXPECT_EQ(2147483648u, message.repeated_uint32(1)); |
| |
| ASSERT_EQ(2, message.repeated_uint64_size()); |
| EXPECT_EQ(GOOGLE_ULONGLONG(18446744073709551615), message.repeated_uint64(0)); |
| EXPECT_EQ(GOOGLE_ULONGLONG(9223372036854775808), message.repeated_uint64(1)); |
| |
| ASSERT_EQ(13, message.repeated_double_size()); |
| EXPECT_EQ(123.0 , message.repeated_double(0)); |
| EXPECT_EQ(123.5 , message.repeated_double(1)); |
| EXPECT_EQ(0.125 , message.repeated_double(2)); |
| EXPECT_EQ(1.23E17 , message.repeated_double(3)); |
| EXPECT_EQ(1.235E22 , message.repeated_double(4)); |
| EXPECT_EQ(1.235E-18 , message.repeated_double(5)); |
| EXPECT_EQ(123.456789, message.repeated_double(6)); |
| EXPECT_EQ(message.repeated_double(7), numeric_limits<double>::infinity()); |
| EXPECT_EQ(message.repeated_double(8), numeric_limits<double>::infinity()); |
| EXPECT_EQ(message.repeated_double(9), -numeric_limits<double>::infinity()); |
| EXPECT_EQ(message.repeated_double(10), -numeric_limits<double>::infinity()); |
| EXPECT_TRUE(MathLimits<double>::IsNaN(message.repeated_double(11))); |
| EXPECT_TRUE(MathLimits<double>::IsNaN(message.repeated_double(12))); |
| |
| // Note: Since these string literals have \0's in them, we must explicitly |
| // pass their sizes to string's constructor. |
| ASSERT_EQ(1, message.repeated_string_size()); |
| EXPECT_EQ(string("\000\001\a\b\f\n\r\t\v\\\'\"", 12), |
| message.repeated_string(0)); |
| } |
| |
| TEST_F(TextFormatTest, PrintFieldsInIndexOrder) { |
| protobuf_unittest::TestFieldOrderings message; |
| // Fields are listed in index order instead of field number. |
| message.set_my_string("Test String"); // Field number 11 |
| message.set_my_int(12345); // Field number 1 |
| message.set_my_float(0.999); // Field number 101 |
| TextFormat::Printer printer; |
| string text; |
| |
| // By default, print in field number order. |
| printer.PrintToString(message, &text); |
| EXPECT_EQ("my_int: 12345\nmy_string: \"Test String\"\nmy_float: 0.999\n", |
| text); |
| |
| // Print in index order. |
| printer.SetPrintMessageFieldsInIndexOrder(true); |
| printer.PrintToString(message, &text); |
| EXPECT_EQ("my_string: \"Test String\"\nmy_int: 12345\nmy_float: 0.999\n", |
| text); |
| } |
| |
| class TextFormatParserTest : public testing::Test { |
| protected: |
| void ExpectFailure(const string& input, const string& message, int line, |
| int col) { |
| google::protobuf::scoped_ptr<unittest::TestAllTypes> proto(new unittest::TestAllTypes); |
| ExpectFailure(input, message, line, col, proto.get()); |
| } |
| |
| void ExpectFailure(const string& input, const string& message, int line, |
| int col, Message* proto) { |
| ExpectMessage(input, message, line, col, proto, false); |
| } |
| |
| void ExpectMessage(const string& input, const string& message, int line, |
| int col, Message* proto, bool expected_result) { |
| TextFormat::Parser parser; |
| MockErrorCollector error_collector; |
| parser.RecordErrorsTo(&error_collector); |
| EXPECT_EQ(expected_result, parser.ParseFromString(input, proto)) |
| << input << " -> " << proto->DebugString(); |
| EXPECT_EQ(SimpleItoa(line) + ":" + SimpleItoa(col) + ": " + message + "\n", |
| error_collector.text_); |
| } |
| |
| void ExpectSuccessAndTree(const string& input, Message* proto, |
| TextFormat::ParseInfoTree* info_tree) { |
| TextFormat::Parser parser; |
| MockErrorCollector error_collector; |
| parser.RecordErrorsTo(&error_collector); |
| parser.WriteLocationsTo(info_tree); |
| |
| EXPECT_TRUE(parser.ParseFromString(input, proto)); |
| } |
| |
| void ExpectLocation(TextFormat::ParseInfoTree* tree, |
| const Descriptor* d, const string& field_name, |
| int index, int line, int column) { |
| TextFormat::ParseLocation location = tree->GetLocation( |
| d->FindFieldByName(field_name), index); |
| EXPECT_EQ(line, location.line); |
| EXPECT_EQ(column, location.column); |
| } |
| |
| // An error collector which simply concatenates all its errors into a big |
| // block of text which can be checked. |
| class MockErrorCollector : public io::ErrorCollector { |
| public: |
| MockErrorCollector() {} |
| ~MockErrorCollector() {} |
| |
| string text_; |
| |
| // implements ErrorCollector ------------------------------------- |
| void AddError(int line, int column, const string& message) { |
| strings::SubstituteAndAppend(&text_, "$0:$1: $2\n", |
| line + 1, column + 1, message); |
| } |
| |
| void AddWarning(int line, int column, const string& message) { |
| AddError(line, column, "WARNING:" + message); |
| } |
| }; |
| }; |
| |
| TEST_F(TextFormatParserTest, ParseInfoTreeBuilding) { |
| google::protobuf::scoped_ptr<unittest::TestAllTypes> message(new unittest::TestAllTypes); |
| const Descriptor* d = message->GetDescriptor(); |
| |
| string stringData = |
| "optional_int32: 1\n" |
| "optional_int64: 2\n" |
| " optional_double: 2.4\n" |
| "repeated_int32: 5\n" |
| "repeated_int32: 10\n" |
| "optional_nested_message <\n" |
| " bb: 78\n" |
| ">\n" |
| "repeated_nested_message <\n" |
| " bb: 79\n" |
| ">\n" |
| "repeated_nested_message <\n" |
| " bb: 80\n" |
| ">"; |
| |
| |
| TextFormat::ParseInfoTree tree; |
| ExpectSuccessAndTree(stringData, message.get(), &tree); |
| |
| // Verify that the tree has the correct positions. |
| ExpectLocation(&tree, d, "optional_int32", -1, 0, 0); |
| ExpectLocation(&tree, d, "optional_int64", -1, 1, 0); |
| ExpectLocation(&tree, d, "optional_double", -1, 2, 2); |
| |
| ExpectLocation(&tree, d, "repeated_int32", 0, 3, 0); |
| ExpectLocation(&tree, d, "repeated_int32", 1, 4, 0); |
| |
| ExpectLocation(&tree, d, "optional_nested_message", -1, 5, 0); |
| ExpectLocation(&tree, d, "repeated_nested_message", 0, 8, 0); |
| ExpectLocation(&tree, d, "repeated_nested_message", 1, 11, 0); |
| |
| // Check for fields not set. For an invalid field, the location returned |
| // should be -1, -1. |
| ExpectLocation(&tree, d, "repeated_int64", 0, -1, -1); |
| ExpectLocation(&tree, d, "repeated_int32", 6, -1, -1); |
| ExpectLocation(&tree, d, "some_unknown_field", -1, -1, -1); |
| |
| // Verify inside the nested message. |
| const FieldDescriptor* nested_field = |
| d->FindFieldByName("optional_nested_message"); |
| |
| TextFormat::ParseInfoTree* nested_tree = |
| tree.GetTreeForNested(nested_field, -1); |
| ExpectLocation(nested_tree, nested_field->message_type(), "bb", -1, 6, 2); |
| |
| // Verify inside another nested message. |
| nested_field = d->FindFieldByName("repeated_nested_message"); |
| nested_tree = tree.GetTreeForNested(nested_field, 0); |
| ExpectLocation(nested_tree, nested_field->message_type(), "bb", -1, 9, 2); |
| |
| nested_tree = tree.GetTreeForNested(nested_field, 1); |
| ExpectLocation(nested_tree, nested_field->message_type(), "bb", -1, 12, 2); |
| |
| // Verify a NULL tree for an unknown nested field. |
| TextFormat::ParseInfoTree* unknown_nested_tree = |
| tree.GetTreeForNested(nested_field, 2); |
| |
| EXPECT_EQ(NULL, unknown_nested_tree); |
| } |
| |
| TEST_F(TextFormatParserTest, ParseFieldValueFromString) { |
| google::protobuf::scoped_ptr<unittest::TestAllTypes> message(new unittest::TestAllTypes); |
| const Descriptor* d = message->GetDescriptor(); |
| |
| #define EXPECT_FIELD(name, value, valuestring) \ |
| EXPECT_TRUE(TextFormat::ParseFieldValueFromString( \ |
| valuestring, d->FindFieldByName("optional_" #name), message.get())); \ |
| EXPECT_EQ(value, message->optional_##name()); \ |
| EXPECT_TRUE(message->has_optional_##name()); |
| |
| #define EXPECT_BOOL_FIELD(name, value, valuestring) \ |
| EXPECT_TRUE(TextFormat::ParseFieldValueFromString( \ |
| valuestring, d->FindFieldByName("optional_" #name), message.get())); \ |
| EXPECT_TRUE(message->optional_##name() == value); \ |
| EXPECT_TRUE(message->has_optional_##name()); |
| |
| #define EXPECT_FLOAT_FIELD(name, value, valuestring) \ |
| EXPECT_TRUE(TextFormat::ParseFieldValueFromString( \ |
| valuestring, d->FindFieldByName("optional_" #name), message.get())); \ |
| EXPECT_FLOAT_EQ(value, message->optional_##name()); \ |
| EXPECT_TRUE(message->has_optional_##name()); |
| |
| #define EXPECT_DOUBLE_FIELD(name, value, valuestring) \ |
| EXPECT_TRUE(TextFormat::ParseFieldValueFromString( \ |
| valuestring, d->FindFieldByName("optional_" #name), message.get())); \ |
| EXPECT_DOUBLE_EQ(value, message->optional_##name()); \ |
| EXPECT_TRUE(message->has_optional_##name()); |
| |
| #define EXPECT_INVALID(name, valuestring) \ |
| EXPECT_FALSE(TextFormat::ParseFieldValueFromString( \ |
| valuestring, d->FindFieldByName("optional_" #name), message.get())); |
| |
| // int32 |
| EXPECT_FIELD(int32, 1, "1"); |
| EXPECT_FIELD(int32, -1, "-1"); |
| EXPECT_FIELD(int32, 0x1234, "0x1234"); |
| EXPECT_INVALID(int32, "a"); |
| EXPECT_INVALID(int32, "999999999999999999999999999999999999"); |
| EXPECT_INVALID(int32, "1,2"); |
| |
| // int64 |
| EXPECT_FIELD(int64, 1, "1"); |
| EXPECT_FIELD(int64, -1, "-1"); |
| EXPECT_FIELD(int64, 0x1234567812345678LL, "0x1234567812345678"); |
| EXPECT_INVALID(int64, "a"); |
| EXPECT_INVALID(int64, "999999999999999999999999999999999999"); |
| EXPECT_INVALID(int64, "1,2"); |
| |
| // uint64 |
| EXPECT_FIELD(uint64, 1, "1"); |
| EXPECT_FIELD(uint64, 0xf234567812345678ULL, "0xf234567812345678"); |
| EXPECT_INVALID(uint64, "-1"); |
| EXPECT_INVALID(uint64, "a"); |
| EXPECT_INVALID(uint64, "999999999999999999999999999999999999"); |
| EXPECT_INVALID(uint64, "1,2"); |
| |
| // fixed32 |
| EXPECT_FIELD(fixed32, 1, "1"); |
| EXPECT_FIELD(fixed32, 0x12345678, "0x12345678"); |
| EXPECT_INVALID(fixed32, "-1"); |
| EXPECT_INVALID(fixed32, "a"); |
| EXPECT_INVALID(fixed32, "999999999999999999999999999999999999"); |
| EXPECT_INVALID(fixed32, "1,2"); |
| |
| // fixed64 |
| EXPECT_FIELD(fixed64, 1, "1"); |
| EXPECT_FIELD(fixed64, 0x1234567812345678ULL, "0x1234567812345678"); |
| EXPECT_INVALID(fixed64, "-1"); |
| EXPECT_INVALID(fixed64, "a"); |
| EXPECT_INVALID(fixed64, "999999999999999999999999999999999999"); |
| EXPECT_INVALID(fixed64, "1,2"); |
| |
| // bool |
| EXPECT_BOOL_FIELD(bool, true, "true"); |
| EXPECT_BOOL_FIELD(bool, false, "false"); |
| EXPECT_BOOL_FIELD(bool, true, "1"); |
| EXPECT_BOOL_FIELD(bool, true, "t"); |
| EXPECT_BOOL_FIELD(bool, false, "0"); |
| EXPECT_BOOL_FIELD(bool, false, "f"); |
| EXPECT_FIELD(bool, true, "True"); |
| EXPECT_FIELD(bool, false, "False"); |
| EXPECT_INVALID(bool, "tRue"); |
| EXPECT_INVALID(bool, "faLse"); |
| EXPECT_INVALID(bool, "2"); |
| EXPECT_INVALID(bool, "-0"); |
| EXPECT_INVALID(bool, "on"); |
| EXPECT_INVALID(bool, "a"); |
| |
| // float |
| EXPECT_FIELD(float, 1, "1"); |
| EXPECT_FLOAT_FIELD(float, 1.5, "1.5"); |
| EXPECT_FLOAT_FIELD(float, 1.5e3, "1.5e3"); |
| EXPECT_FLOAT_FIELD(float, -4.55, "-4.55"); |
| EXPECT_INVALID(float, "a"); |
| EXPECT_INVALID(float, "1,2"); |
| |
| // double |
| EXPECT_FIELD(double, 1, "1"); |
| EXPECT_FIELD(double, -1, "-1"); |
| EXPECT_DOUBLE_FIELD(double, 2.3, "2.3"); |
| EXPECT_DOUBLE_FIELD(double, 3e5, "3e5"); |
| EXPECT_INVALID(double, "a"); |
| EXPECT_INVALID(double, "1,2"); |
| // Rejects hex and oct numbers for a double field. |
| EXPECT_INVALID(double, "0xf"); |
| EXPECT_INVALID(double, "012"); |
| |
| // string |
| EXPECT_FIELD(string, "hello", "\"hello\""); |
| EXPECT_FIELD(string, "-1.87", "'-1.87'"); |
| EXPECT_INVALID(string, "hello"); // without quote for value |
| |
| // enum |
| EXPECT_FIELD(nested_enum, unittest::TestAllTypes::BAR, "BAR"); |
| EXPECT_FIELD(nested_enum, unittest::TestAllTypes::BAZ, |
| SimpleItoa(unittest::TestAllTypes::BAZ)); |
| EXPECT_INVALID(nested_enum, "FOOBAR"); |
| |
| // message |
| EXPECT_TRUE(TextFormat::ParseFieldValueFromString( |
| "<bb:12>", d->FindFieldByName("optional_nested_message"), message.get())); |
| EXPECT_EQ(12, message->optional_nested_message().bb()); \ |
| EXPECT_TRUE(message->has_optional_nested_message()); |
| EXPECT_INVALID(nested_message, "any"); |
| |
| #undef EXPECT_FIELD |
| #undef EXPECT_BOOL_FIELD |
| #undef EXPECT_FLOAT_FIELD |
| #undef EXPECT_DOUBLE_FIELD |
| #undef EXPECT_INVALID |
| } |
| |
| |
| TEST_F(TextFormatParserTest, InvalidToken) { |
| ExpectFailure("optional_bool: true\n-5\n", "Expected identifier.", |
| 2, 1); |
| |
| ExpectFailure("optional_bool: true!\n", "Expected identifier.", 1, 20); |
| ExpectFailure("\"some string\"", "Expected identifier.", 1, 1); |
| } |
| |
| TEST_F(TextFormatParserTest, InvalidFieldName) { |
| ExpectFailure( |
| "invalid_field: somevalue\n", |
| "Message type \"protobuf_unittest.TestAllTypes\" has no field named " |
| "\"invalid_field\".", |
| 1, 14); |
| } |
| |
| TEST_F(TextFormatParserTest, InvalidCapitalization) { |
| // We require that group names be exactly as they appear in the .proto. |
| ExpectFailure( |
| "optionalgroup {\na: 15\n}\n", |
| "Message type \"protobuf_unittest.TestAllTypes\" has no field named " |
| "\"optionalgroup\".", |
| 1, 15); |
| ExpectFailure( |
| "OPTIONALgroup {\na: 15\n}\n", |
| "Message type \"protobuf_unittest.TestAllTypes\" has no field named " |
| "\"OPTIONALgroup\".", |
| 1, 15); |
| ExpectFailure( |
| "Optional_Double: 10.0\n", |
| "Message type \"protobuf_unittest.TestAllTypes\" has no field named " |
| "\"Optional_Double\".", |
| 1, 16); |
| } |
| |
| TEST_F(TextFormatParserTest, AllowIgnoreCapitalizationError) { |
| TextFormat::Parser parser; |
| protobuf_unittest::TestAllTypes proto; |
| |
| // These fields have a mismatching case. |
| EXPECT_FALSE(parser.ParseFromString("Optional_Double: 10.0", &proto)); |
| EXPECT_FALSE(parser.ParseFromString("oPtIoNaLgRoUp { a: 15 }", &proto)); |
| |
| // ... but are parsed correctly if we match case insensitive. |
| parser.AllowCaseInsensitiveField(true); |
| EXPECT_TRUE(parser.ParseFromString("Optional_Double: 10.0", &proto)); |
| EXPECT_EQ(10.0, proto.optional_double()); |
| EXPECT_TRUE(parser.ParseFromString("oPtIoNaLgRoUp { a: 15 }", &proto)); |
| EXPECT_EQ(15, proto.optionalgroup().a()); |
| } |
| |
| TEST_F(TextFormatParserTest, InvalidFieldValues) { |
| // Invalid values for a double/float field. |
| ExpectFailure("optional_double: \"hello\"\n", "Expected double.", 1, 18); |
| ExpectFailure("optional_double: true\n", "Expected double.", 1, 18); |
| ExpectFailure("optional_double: !\n", "Expected double.", 1, 18); |
| ExpectFailure("optional_double {\n \n}\n", "Expected \":\", found \"{\".", |
| 1, 17); |
| |
| // Invalid values for a signed integer field. |
| ExpectFailure("optional_int32: \"hello\"\n", "Expected integer.", 1, 17); |
| ExpectFailure("optional_int32: true\n", "Expected integer.", 1, 17); |
| ExpectFailure("optional_int32: 4.5\n", "Expected integer.", 1, 17); |
| ExpectFailure("optional_int32: !\n", "Expected integer.", 1, 17); |
| ExpectFailure("optional_int32 {\n \n}\n", "Expected \":\", found \"{\".", |
| 1, 16); |
| ExpectFailure("optional_int32: 0x80000000\n", |
| "Integer out of range.", 1, 17); |
| ExpectFailure("optional_int64: 0x8000000000000000\n", |
| "Integer out of range.", 1, 17); |
| ExpectFailure("optional_int32: -0x80000001\n", |
| "Integer out of range.", 1, 18); |
| ExpectFailure("optional_int64: -0x8000000000000001\n", |
| "Integer out of range.", 1, 18); |
| |
| // Invalid values for an unsigned integer field. |
| ExpectFailure("optional_uint64: \"hello\"\n", "Expected integer.", 1, 18); |
| ExpectFailure("optional_uint64: true\n", "Expected integer.", 1, 18); |
| ExpectFailure("optional_uint64: 4.5\n", "Expected integer.", 1, 18); |
| ExpectFailure("optional_uint64: -5\n", "Expected integer.", 1, 18); |
| ExpectFailure("optional_uint64: !\n", "Expected integer.", 1, 18); |
| ExpectFailure("optional_uint64 {\n \n}\n", "Expected \":\", found \"{\".", |
| 1, 17); |
| ExpectFailure("optional_uint32: 0x100000000\n", |
| "Integer out of range.", 1, 18); |
| ExpectFailure("optional_uint64: 0x10000000000000000\n", |
| "Integer out of range.", 1, 18); |
| |
| // Invalid values for a boolean field. |
| ExpectFailure("optional_bool: \"hello\"\n", "Expected identifier.", 1, 16); |
| ExpectFailure("optional_bool: 5\n", "Integer out of range.", 1, 16); |
| ExpectFailure("optional_bool: -7.5\n", "Expected identifier.", 1, 16); |
| ExpectFailure("optional_bool: !\n", "Expected identifier.", 1, 16); |
| |
| ExpectFailure( |
| "optional_bool: meh\n", |
| "Invalid value for boolean field \"optional_bool\". Value: \"meh\".", |
| 2, 1); |
| |
| ExpectFailure("optional_bool {\n \n}\n", "Expected \":\", found \"{\".", |
| 1, 15); |
| |
| // Invalid values for a string field. |
| ExpectFailure("optional_string: true\n", "Expected string.", 1, 18); |
| ExpectFailure("optional_string: 5\n", "Expected string.", 1, 18); |
| ExpectFailure("optional_string: -7.5\n", "Expected string.", 1, 18); |
| ExpectFailure("optional_string: !\n", "Expected string.", 1, 18); |
| ExpectFailure("optional_string {\n \n}\n", "Expected \":\", found \"{\".", |
| 1, 17); |
| |
| // Invalid values for an enumeration field. |
| ExpectFailure("optional_nested_enum: \"hello\"\n", |
| "Expected integer or identifier.", 1, 23); |
| |
| // Valid token, but enum value is not defined. |
| ExpectFailure("optional_nested_enum: 5\n", |
| "Unknown enumeration value of \"5\" for field " |
| "\"optional_nested_enum\".", 2, 1); |
| // We consume the negative sign, so the error position starts one character |
| // later. |
| ExpectFailure("optional_nested_enum: -7.5\n", "Expected integer.", 1, 24); |
| ExpectFailure("optional_nested_enum: !\n", |
| "Expected integer or identifier.", 1, 23); |
| |
| ExpectFailure( |
| "optional_nested_enum: grah\n", |
| "Unknown enumeration value of \"grah\" for field " |
| "\"optional_nested_enum\".", 2, 1); |
| |
| ExpectFailure( |
| "optional_nested_enum {\n \n}\n", |
| "Expected \":\", found \"{\".", 1, 22); |
| } |
| |
| TEST_F(TextFormatParserTest, MessageDelimiters) { |
| // Non-matching delimiters. |
| ExpectFailure("OptionalGroup <\n \n}\n", "Expected \">\", found \"}\".", |
| 3, 1); |
| |
| // Invalid delimiters. |
| ExpectFailure("OptionalGroup [\n \n]\n", "Expected \"{\", found \"[\".", |
| 1, 15); |
| |
| // Unending message. |
| ExpectFailure("optional_nested_message {\n \nbb: 118\n", |
| "Expected identifier.", |
| 4, 1); |
| } |
| |
| TEST_F(TextFormatParserTest, UnknownExtension) { |
| // Non-matching delimiters. |
| ExpectFailure("[blahblah]: 123", |
| "Extension \"blahblah\" is not defined or is not an " |
| "extension of \"protobuf_unittest.TestAllTypes\".", |
| 1, 11); |
| } |
| |
| TEST_F(TextFormatParserTest, MissingRequired) { |
| unittest::TestRequired message; |
| ExpectFailure("a: 1", |
| "Message missing required fields: b, c", |
| 0, 1, &message); |
| } |
| |
| TEST_F(TextFormatParserTest, ParseDuplicateRequired) { |
| unittest::TestRequired message; |
| ExpectFailure("a: 1 b: 2 c: 3 a: 1", |
| "Non-repeated field \"a\" is specified multiple times.", |
| 1, 17, &message); |
| } |
| |
| TEST_F(TextFormatParserTest, ParseDuplicateOptional) { |
| unittest::ForeignMessage message; |
| ExpectFailure("c: 1 c: 2", |
| "Non-repeated field \"c\" is specified multiple times.", |
| 1, 7, &message); |
| } |
| |
| TEST_F(TextFormatParserTest, MergeDuplicateRequired) { |
| unittest::TestRequired message; |
| TextFormat::Parser parser; |
| EXPECT_TRUE(parser.MergeFromString("a: 1 b: 2 c: 3 a: 4", &message)); |
| EXPECT_EQ(4, message.a()); |
| } |
| |
| TEST_F(TextFormatParserTest, MergeDuplicateOptional) { |
| unittest::ForeignMessage message; |
| TextFormat::Parser parser; |
| EXPECT_TRUE(parser.MergeFromString("c: 1 c: 2", &message)); |
| EXPECT_EQ(2, message.c()); |
| } |
| |
| TEST_F(TextFormatParserTest, ExplicitDelimiters) { |
| unittest::TestRequired message; |
| EXPECT_TRUE(TextFormat::ParseFromString("a:1,b:2;c:3", &message)); |
| EXPECT_EQ(1, message.a()); |
| EXPECT_EQ(2, message.b()); |
| EXPECT_EQ(3, message.c()); |
| } |
| |
| TEST_F(TextFormatParserTest, PrintErrorsToStderr) { |
| vector<string> errors; |
| |
| { |
| ScopedMemoryLog log; |
| unittest::TestAllTypes proto; |
| EXPECT_FALSE(TextFormat::ParseFromString("no_such_field: 1", &proto)); |
| errors = log.GetMessages(ERROR); |
| } |
| |
| ASSERT_EQ(1, errors.size()); |
| EXPECT_EQ("Error parsing text-format protobuf_unittest.TestAllTypes: " |
| "1:14: Message type \"protobuf_unittest.TestAllTypes\" has no field " |
| "named \"no_such_field\".", |
| errors[0]); |
| } |
| |
| TEST_F(TextFormatParserTest, FailsOnTokenizationError) { |
| vector<string> errors; |
| |
| { |
| ScopedMemoryLog log; |
| unittest::TestAllTypes proto; |
| EXPECT_FALSE(TextFormat::ParseFromString("\020", &proto)); |
| errors = log.GetMessages(ERROR); |
| } |
| |
| ASSERT_EQ(1, errors.size()); |
| EXPECT_EQ("Error parsing text-format protobuf_unittest.TestAllTypes: " |
| "1:1: Invalid control characters encountered in text.", |
| errors[0]); |
| } |
| |
| TEST_F(TextFormatParserTest, ParseDeprecatedField) { |
| unittest::TestDeprecatedFields message; |
| ExpectMessage("deprecated_int32: 42", |
| "WARNING:text format contains deprecated field " |
| "\"deprecated_int32\"", 1, 21, &message, true); |
| } |
| |
| class TextFormatMessageSetTest : public testing::Test { |
| protected: |
| static const char proto_debug_string_[]; |
| }; |
| const char TextFormatMessageSetTest::proto_debug_string_[] = |
| "message_set {\n" |
| " [protobuf_unittest.TestMessageSetExtension1] {\n" |
| " i: 23\n" |
| " }\n" |
| " [protobuf_unittest.TestMessageSetExtension2] {\n" |
| " str: \"foo\"\n" |
| " }\n" |
| "}\n"; |
| |
| |
| TEST_F(TextFormatMessageSetTest, Serialize) { |
| protobuf_unittest::TestMessageSetContainer proto; |
| protobuf_unittest::TestMessageSetExtension1* item_a = |
| proto.mutable_message_set()->MutableExtension( |
| protobuf_unittest::TestMessageSetExtension1::message_set_extension); |
| item_a->set_i(23); |
| protobuf_unittest::TestMessageSetExtension2* item_b = |
| proto.mutable_message_set()->MutableExtension( |
| protobuf_unittest::TestMessageSetExtension2::message_set_extension); |
| item_b->set_str("foo"); |
| EXPECT_EQ(proto_debug_string_, proto.DebugString()); |
| } |
| |
| TEST_F(TextFormatMessageSetTest, Deserialize) { |
| protobuf_unittest::TestMessageSetContainer proto; |
| ASSERT_TRUE(TextFormat::ParseFromString(proto_debug_string_, &proto)); |
| EXPECT_EQ(23, proto.message_set().GetExtension( |
| protobuf_unittest::TestMessageSetExtension1::message_set_extension).i()); |
| EXPECT_EQ("foo", proto.message_set().GetExtension( |
| protobuf_unittest::TestMessageSetExtension2::message_set_extension).str()); |
| |
| // Ensure that these are the only entries present. |
| vector<const FieldDescriptor*> descriptors; |
| proto.message_set().GetReflection()->ListFields( |
| proto.message_set(), &descriptors); |
| EXPECT_EQ(2, descriptors.size()); |
| } |
| |
| |
| } // namespace text_format_unittest |
| } // namespace protobuf |
| } // namespace google |