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|
// 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: kenton@google.com (Kenton Varda)
// Based on original Protocol Buffers design by
// Sanjay Ghemawat, Jeff Dean, and others.
#include <google/protobuf/compiler/java/java_helpers.h>
#include <algorithm>
#include <cstdint>
#include <limits>
#include <unordered_set>
#include <vector>
#include <google/protobuf/stubs/stringprintf.h>
#include <google/protobuf/compiler/java/java_name_resolver.h>
#include <google/protobuf/compiler/java/java_names.h>
#include <google/protobuf/descriptor.pb.h>
#include <google/protobuf/wire_format.h>
#include <google/protobuf/stubs/strutil.h>
#include <google/protobuf/stubs/substitute.h>
#include <google/protobuf/stubs/hash.h> // for hash<T *>
namespace google {
namespace protobuf {
namespace compiler {
namespace java {
using internal::WireFormat;
using internal::WireFormatLite;
const char kThickSeparator[] =
"// ===================================================================\n";
const char kThinSeparator[] =
"// -------------------------------------------------------------------\n";
namespace {
const char* kDefaultPackage = "";
// Names that should be avoided as field names.
// Using them will cause the compiler to generate accessors whose names are
// colliding with methods defined in base classes.
const char* kForbiddenWordList[] = {
// message base class:
"cached_size",
"serialized_size",
// java.lang.Object:
"class",
};
const std::unordered_set<TProtoStringType>* kReservedNames =
new std::unordered_set<TProtoStringType>({
"abstract", "assert", "boolean", "break", "byte",
"case", "catch", "char", "class", "const",
"continue", "default", "do", "double", "else",
"enum", "extends", "final", "finally", "float",
"for", "goto", "if", "implements", "import",
"instanceof", "int", "interface", "long", "native",
"new", "package", "private", "protected", "public",
"return", "short", "static", "strictfp", "super",
"switch", "synchronized", "this", "throw", "throws",
"transient", "try", "void", "volatile", "while",
});
bool IsForbidden(const TProtoStringType& field_name) {
for (int i = 0; i < GOOGLE_ARRAYSIZE(kForbiddenWordList); ++i) {
if (field_name == kForbiddenWordList[i]) {
return true;
}
}
return false;
}
TProtoStringType FieldName(const FieldDescriptor* field) {
TProtoStringType field_name;
// Groups are hacky: The name of the field is just the lower-cased name
// of the group type. In Java, though, we would like to retain the original
// capitalization of the type name.
if (GetType(field) == FieldDescriptor::TYPE_GROUP) {
field_name = field->message_type()->name();
} else {
field_name = field->name();
}
if (IsForbidden(field_name)) {
// Append a trailing "#" to indicate that the name should be decorated to
// avoid collision with other names.
field_name += "#";
}
return field_name;
}
} // namespace
void PrintGeneratedAnnotation(io::Printer* printer, char delimiter,
const TProtoStringType& annotation_file) {
if (annotation_file.empty()) {
return;
}
TProtoStringType ptemplate =
"@javax.annotation.Generated(value=\"protoc\", comments=\"annotations:";
ptemplate.push_back(delimiter);
ptemplate.append("annotation_file");
ptemplate.push_back(delimiter);
ptemplate.append("\")\n");
printer->Print(ptemplate.c_str(), "annotation_file", annotation_file);
}
void PrintEnumVerifierLogic(io::Printer* printer,
const FieldDescriptor* descriptor,
const std::map<TProtoStringType, TProtoStringType>& variables,
const char* var_name,
const char* terminating_string, bool enforce_lite) {
TProtoStringType enum_verifier_string =
enforce_lite ? StrCat(var_name, ".internalGetVerifier()")
: StrCat(
"new com.google.protobuf.Internal.EnumVerifier() {\n"
" @java.lang.Override\n"
" public boolean isInRange(int number) {\n"
" return ",
var_name,
".forNumber(number) != null;\n"
" }\n"
" }");
printer->Print(
variables,
StrCat(enum_verifier_string, terminating_string).c_str());
}
TProtoStringType UnderscoresToCamelCase(const TProtoStringType& input,
bool cap_next_letter) {
GOOGLE_CHECK(!input.empty());
TProtoStringType result;
// Note: I distrust ctype.h due to locales.
for (int i = 0; i < input.size(); i++) {
if ('a' <= input[i] && input[i] <= 'z') {
if (cap_next_letter) {
result += input[i] + ('A' - 'a');
} else {
result += input[i];
}
cap_next_letter = false;
} else if ('A' <= input[i] && input[i] <= 'Z') {
if (i == 0 && !cap_next_letter) {
// Force first letter to lower-case unless explicitly told to
// capitalize it.
result += input[i] + ('a' - 'A');
} else {
// Capital letters after the first are left as-is.
result += input[i];
}
cap_next_letter = false;
} else if ('0' <= input[i] && input[i] <= '9') {
result += input[i];
cap_next_letter = true;
} else {
cap_next_letter = true;
}
}
// Add a trailing "_" if the name should be altered.
if (input[input.size() - 1] == '#') {
result += '_';
}
return result;
}
TProtoStringType ToCamelCase(const TProtoStringType& input, bool lower_first) {
bool capitalize_next = !lower_first;
TProtoStringType result;
result.reserve(input.size());
for (char i : input) {
if (i == '_') {
capitalize_next = true;
} else if (capitalize_next) {
result.push_back(ToUpperCh(i));
capitalize_next = false;
} else {
result.push_back(i);
}
}
// Lower-case the first letter.
if (lower_first && !result.empty()) {
result[0] = ToLowerCh(result[0]);
}
return result;
}
char ToUpperCh(char ch) {
return (ch >= 'a' && ch <= 'z') ? (ch - 'a' + 'A') : ch;
}
char ToLowerCh(char ch) {
return (ch >= 'A' && ch <= 'Z') ? (ch - 'A' + 'a') : ch;
}
TProtoStringType UnderscoresToCamelCase(const FieldDescriptor* field) {
return UnderscoresToCamelCase(FieldName(field), false);
}
TProtoStringType UnderscoresToCapitalizedCamelCase(const FieldDescriptor* field) {
return UnderscoresToCamelCase(FieldName(field), true);
}
TProtoStringType CapitalizedFieldName(const FieldDescriptor* field) {
return UnderscoresToCapitalizedCamelCase(field);
}
TProtoStringType UnderscoresToCamelCase(const MethodDescriptor* method) {
return UnderscoresToCamelCase(method->name(), false);
}
TProtoStringType UnderscoresToCamelCaseCheckReserved(const FieldDescriptor* field) {
TProtoStringType name = UnderscoresToCamelCase(field);
if (kReservedNames->find(name) != kReservedNames->end()) {
return name + "_";
}
return name;
}
bool IsForbiddenKotlin(const TProtoStringType& field_name) {
// Names that should be avoided as field names in Kotlin.
// All Kotlin hard keywords are in this list.
const std::unordered_set<TProtoStringType>* kKotlinForbiddenNames =
new std::unordered_set<TProtoStringType>({
"as", "as?", "break", "class", "continue", "do",
"else", "false", "for", "fun", "if", "in",
"!in", "interface", "is", "!is", "null", "object",
"package", "return", "super", "this", "throw", "true",
"try", "typealias", "typeof", "val", "var", "when",
"while",
});
return kKotlinForbiddenNames->find(field_name) !=
kKotlinForbiddenNames->end();
}
TProtoStringType UniqueFileScopeIdentifier(const Descriptor* descriptor) {
return "static_" + StringReplace(descriptor->full_name(), ".", "_", true);
}
TProtoStringType CamelCaseFieldName(const FieldDescriptor* field) {
TProtoStringType fieldName = UnderscoresToCamelCase(field);
if ('0' <= fieldName[0] && fieldName[0] <= '9') {
return '_' + fieldName;
}
return fieldName;
}
TProtoStringType FileClassName(const FileDescriptor* file, bool immutable) {
ClassNameResolver name_resolver;
return name_resolver.GetFileClassName(file, immutable);
}
TProtoStringType FileJavaPackage(const FileDescriptor* file, bool immutable) {
TProtoStringType result;
if (file->options().has_java_package()) {
result = file->options().java_package();
} else {
result = kDefaultPackage;
if (!file->package().empty()) {
if (!result.empty()) result += '.';
result += file->package();
}
}
return result;
}
TProtoStringType FileJavaPackage(const FileDescriptor* file) {
return FileJavaPackage(file, true /* immutable */);
}
TProtoStringType JavaPackageToDir(TProtoStringType package_name) {
TProtoStringType package_dir = StringReplace(package_name, ".", "/", true);
if (!package_dir.empty()) package_dir += "/";
return package_dir;
}
TProtoStringType ClassName(const Descriptor* descriptor) {
ClassNameResolver name_resolver;
return name_resolver.GetClassName(descriptor, true);
}
TProtoStringType ClassName(const EnumDescriptor* descriptor) {
ClassNameResolver name_resolver;
return name_resolver.GetClassName(descriptor, true);
}
TProtoStringType ClassName(const ServiceDescriptor* descriptor) {
ClassNameResolver name_resolver;
return name_resolver.GetClassName(descriptor, true);
}
TProtoStringType ClassName(const FileDescriptor* descriptor) {
ClassNameResolver name_resolver;
return name_resolver.GetClassName(descriptor, true);
}
TProtoStringType ExtraMessageInterfaces(const Descriptor* descriptor) {
TProtoStringType interfaces = "// @@protoc_insertion_point(message_implements:" +
descriptor->full_name() + ")";
return interfaces;
}
TProtoStringType ExtraBuilderInterfaces(const Descriptor* descriptor) {
TProtoStringType interfaces = "// @@protoc_insertion_point(builder_implements:" +
descriptor->full_name() + ")";
return interfaces;
}
TProtoStringType ExtraMessageOrBuilderInterfaces(const Descriptor* descriptor) {
TProtoStringType interfaces = "// @@protoc_insertion_point(interface_extends:" +
descriptor->full_name() + ")";
return interfaces;
}
TProtoStringType FieldConstantName(const FieldDescriptor* field) {
TProtoStringType name = field->name() + "_FIELD_NUMBER";
ToUpper(&name);
return name;
}
FieldDescriptor::Type GetType(const FieldDescriptor* field) {
return field->type();
}
JavaType GetJavaType(const FieldDescriptor* field) {
switch (GetType(field)) {
case FieldDescriptor::TYPE_INT32:
case FieldDescriptor::TYPE_UINT32:
case FieldDescriptor::TYPE_SINT32:
case FieldDescriptor::TYPE_FIXED32:
case FieldDescriptor::TYPE_SFIXED32:
return JAVATYPE_INT;
case FieldDescriptor::TYPE_INT64:
case FieldDescriptor::TYPE_UINT64:
case FieldDescriptor::TYPE_SINT64:
case FieldDescriptor::TYPE_FIXED64:
case FieldDescriptor::TYPE_SFIXED64:
return JAVATYPE_LONG;
case FieldDescriptor::TYPE_FLOAT:
return JAVATYPE_FLOAT;
case FieldDescriptor::TYPE_DOUBLE:
return JAVATYPE_DOUBLE;
case FieldDescriptor::TYPE_BOOL:
return JAVATYPE_BOOLEAN;
case FieldDescriptor::TYPE_STRING:
return JAVATYPE_STRING;
case FieldDescriptor::TYPE_BYTES:
return JAVATYPE_BYTES;
case FieldDescriptor::TYPE_ENUM:
return JAVATYPE_ENUM;
case FieldDescriptor::TYPE_GROUP:
case FieldDescriptor::TYPE_MESSAGE:
return JAVATYPE_MESSAGE;
// No default because we want the compiler to complain if any new
// types are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return JAVATYPE_INT;
}
const char* PrimitiveTypeName(JavaType type) {
switch (type) {
case JAVATYPE_INT:
return "int";
case JAVATYPE_LONG:
return "long";
case JAVATYPE_FLOAT:
return "float";
case JAVATYPE_DOUBLE:
return "double";
case JAVATYPE_BOOLEAN:
return "boolean";
case JAVATYPE_STRING:
return "java.lang.String";
case JAVATYPE_BYTES:
return "com.google.protobuf.ByteString";
case JAVATYPE_ENUM:
return NULL;
case JAVATYPE_MESSAGE:
return NULL;
// No default because we want the compiler to complain if any new
// JavaTypes are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return NULL;
}
const char* PrimitiveTypeName(const FieldDescriptor* descriptor) {
return PrimitiveTypeName(GetJavaType(descriptor));
}
const char* BoxedPrimitiveTypeName(JavaType type) {
switch (type) {
case JAVATYPE_INT:
return "java.lang.Integer";
case JAVATYPE_LONG:
return "java.lang.Long";
case JAVATYPE_FLOAT:
return "java.lang.Float";
case JAVATYPE_DOUBLE:
return "java.lang.Double";
case JAVATYPE_BOOLEAN:
return "java.lang.Boolean";
case JAVATYPE_STRING:
return "java.lang.String";
case JAVATYPE_BYTES:
return "com.google.protobuf.ByteString";
case JAVATYPE_ENUM:
return NULL;
case JAVATYPE_MESSAGE:
return NULL;
// No default because we want the compiler to complain if any new
// JavaTypes are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return NULL;
}
const char* BoxedPrimitiveTypeName(const FieldDescriptor* descriptor) {
return BoxedPrimitiveTypeName(GetJavaType(descriptor));
}
const char* KotlinTypeName(JavaType type) {
switch (type) {
case JAVATYPE_INT:
return "kotlin.Int";
case JAVATYPE_LONG:
return "kotlin.Long";
case JAVATYPE_FLOAT:
return "kotlin.Float";
case JAVATYPE_DOUBLE:
return "kotlin.Double";
case JAVATYPE_BOOLEAN:
return "kotlin.Boolean";
case JAVATYPE_STRING:
return "kotlin.String";
case JAVATYPE_BYTES:
return "com.google.protobuf.ByteString";
case JAVATYPE_ENUM:
return NULL;
case JAVATYPE_MESSAGE:
return NULL;
// No default because we want the compiler to complain if any new
// JavaTypes are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return NULL;
}
TProtoStringType GetOneofStoredType(const FieldDescriptor* field) {
const JavaType javaType = GetJavaType(field);
switch (javaType) {
case JAVATYPE_ENUM:
return "java.lang.Integer";
case JAVATYPE_MESSAGE:
return ClassName(field->message_type());
default:
return BoxedPrimitiveTypeName(javaType);
}
}
const char* FieldTypeName(FieldDescriptor::Type field_type) {
switch (field_type) {
case FieldDescriptor::TYPE_INT32:
return "INT32";
case FieldDescriptor::TYPE_UINT32:
return "UINT32";
case FieldDescriptor::TYPE_SINT32:
return "SINT32";
case FieldDescriptor::TYPE_FIXED32:
return "FIXED32";
case FieldDescriptor::TYPE_SFIXED32:
return "SFIXED32";
case FieldDescriptor::TYPE_INT64:
return "INT64";
case FieldDescriptor::TYPE_UINT64:
return "UINT64";
case FieldDescriptor::TYPE_SINT64:
return "SINT64";
case FieldDescriptor::TYPE_FIXED64:
return "FIXED64";
case FieldDescriptor::TYPE_SFIXED64:
return "SFIXED64";
case FieldDescriptor::TYPE_FLOAT:
return "FLOAT";
case FieldDescriptor::TYPE_DOUBLE:
return "DOUBLE";
case FieldDescriptor::TYPE_BOOL:
return "BOOL";
case FieldDescriptor::TYPE_STRING:
return "STRING";
case FieldDescriptor::TYPE_BYTES:
return "BYTES";
case FieldDescriptor::TYPE_ENUM:
return "ENUM";
case FieldDescriptor::TYPE_GROUP:
return "GROUP";
case FieldDescriptor::TYPE_MESSAGE:
return "MESSAGE";
// No default because we want the compiler to complain if any new
// types are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return NULL;
}
bool AllAscii(const TProtoStringType& text) {
for (int i = 0; i < text.size(); i++) {
if ((text[i] & 0x80) != 0) {
return false;
}
}
return true;
}
TProtoStringType DefaultValue(const FieldDescriptor* field, bool immutable,
ClassNameResolver* name_resolver) {
// Switch on CppType since we need to know which default_value_* method
// of FieldDescriptor to call.
switch (field->cpp_type()) {
case FieldDescriptor::CPPTYPE_INT32:
return StrCat(field->default_value_int32());
case FieldDescriptor::CPPTYPE_UINT32:
// Need to print as a signed int since Java has no unsigned.
return StrCat(static_cast<int32_t>(field->default_value_uint32()));
case FieldDescriptor::CPPTYPE_INT64:
return StrCat(field->default_value_int64()) + "L";
case FieldDescriptor::CPPTYPE_UINT64:
return StrCat(static_cast<int64_t>(field->default_value_uint64())) +
"L";
case FieldDescriptor::CPPTYPE_DOUBLE: {
double value = field->default_value_double();
if (value == std::numeric_limits<double>::infinity()) {
return "Double.POSITIVE_INFINITY";
} else if (value == -std::numeric_limits<double>::infinity()) {
return "Double.NEGATIVE_INFINITY";
} else if (value != value) {
return "Double.NaN";
} else {
return SimpleDtoa(value) + "D";
}
}
case FieldDescriptor::CPPTYPE_FLOAT: {
float value = field->default_value_float();
if (value == std::numeric_limits<float>::infinity()) {
return "Float.POSITIVE_INFINITY";
} else if (value == -std::numeric_limits<float>::infinity()) {
return "Float.NEGATIVE_INFINITY";
} else if (value != value) {
return "Float.NaN";
} else {
return SimpleFtoa(value) + "F";
}
}
case FieldDescriptor::CPPTYPE_BOOL:
return field->default_value_bool() ? "true" : "false";
case FieldDescriptor::CPPTYPE_STRING:
if (GetType(field) == FieldDescriptor::TYPE_BYTES) {
if (field->has_default_value()) {
// See comments in Internal.java for gory details.
return strings::Substitute(
"com.google.protobuf.Internal.bytesDefaultValue(\"$0\")",
CEscape(field->default_value_string()));
} else {
return "com.google.protobuf.ByteString.EMPTY";
}
} else {
if (AllAscii(field->default_value_string())) {
// All chars are ASCII. In this case CEscape() works fine.
return "\"" + CEscape(field->default_value_string()) + "\"";
} else {
// See comments in Internal.java for gory details.
return strings::Substitute(
"com.google.protobuf.Internal.stringDefaultValue(\"$0\")",
CEscape(field->default_value_string()));
}
}
case FieldDescriptor::CPPTYPE_ENUM:
return name_resolver->GetClassName(field->enum_type(), immutable) + "." +
field->default_value_enum()->name();
case FieldDescriptor::CPPTYPE_MESSAGE:
return name_resolver->GetClassName(field->message_type(), immutable) +
".getDefaultInstance()";
// No default because we want the compiler to complain if any new
// types are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return "";
}
bool IsDefaultValueJavaDefault(const FieldDescriptor* field) {
// Switch on CppType since we need to know which default_value_* method
// of FieldDescriptor to call.
switch (field->cpp_type()) {
case FieldDescriptor::CPPTYPE_INT32:
return field->default_value_int32() == 0;
case FieldDescriptor::CPPTYPE_UINT32:
return field->default_value_uint32() == 0;
case FieldDescriptor::CPPTYPE_INT64:
return field->default_value_int64() == 0L;
case FieldDescriptor::CPPTYPE_UINT64:
return field->default_value_uint64() == 0L;
case FieldDescriptor::CPPTYPE_DOUBLE:
return field->default_value_double() == 0.0;
case FieldDescriptor::CPPTYPE_FLOAT:
return field->default_value_float() == 0.0;
case FieldDescriptor::CPPTYPE_BOOL:
return field->default_value_bool() == false;
case FieldDescriptor::CPPTYPE_ENUM:
return field->default_value_enum()->number() == 0;
case FieldDescriptor::CPPTYPE_STRING:
case FieldDescriptor::CPPTYPE_MESSAGE:
return false;
// No default because we want the compiler to complain if any new
// types are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return false;
}
bool IsByteStringWithCustomDefaultValue(const FieldDescriptor* field) {
return GetJavaType(field) == JAVATYPE_BYTES &&
field->default_value_string() != "";
}
const char* bit_masks[] = {
"0x00000001", "0x00000002", "0x00000004", "0x00000008",
"0x00000010", "0x00000020", "0x00000040", "0x00000080",
"0x00000100", "0x00000200", "0x00000400", "0x00000800",
"0x00001000", "0x00002000", "0x00004000", "0x00008000",
"0x00010000", "0x00020000", "0x00040000", "0x00080000",
"0x00100000", "0x00200000", "0x00400000", "0x00800000",
"0x01000000", "0x02000000", "0x04000000", "0x08000000",
"0x10000000", "0x20000000", "0x40000000", "0x80000000",
};
TProtoStringType GetBitFieldName(int index) {
TProtoStringType varName = "bitField";
varName += StrCat(index);
varName += "_";
return varName;
}
TProtoStringType GetBitFieldNameForBit(int bitIndex) {
return GetBitFieldName(bitIndex / 32);
}
namespace {
TProtoStringType GenerateGetBitInternal(const TProtoStringType& prefix, int bitIndex) {
TProtoStringType varName = prefix + GetBitFieldNameForBit(bitIndex);
int bitInVarIndex = bitIndex % 32;
TProtoStringType mask = bit_masks[bitInVarIndex];
TProtoStringType result = "((" + varName + " & " + mask + ") != 0)";
return result;
}
TProtoStringType GenerateSetBitInternal(const TProtoStringType& prefix, int bitIndex) {
TProtoStringType varName = prefix + GetBitFieldNameForBit(bitIndex);
int bitInVarIndex = bitIndex % 32;
TProtoStringType mask = bit_masks[bitInVarIndex];
TProtoStringType result = varName + " |= " + mask;
return result;
}
} // namespace
TProtoStringType GenerateGetBit(int bitIndex) {
return GenerateGetBitInternal("", bitIndex);
}
TProtoStringType GenerateSetBit(int bitIndex) {
return GenerateSetBitInternal("", bitIndex);
}
TProtoStringType GenerateClearBit(int bitIndex) {
TProtoStringType varName = GetBitFieldNameForBit(bitIndex);
int bitInVarIndex = bitIndex % 32;
TProtoStringType mask = bit_masks[bitInVarIndex];
TProtoStringType result = varName + " = (" + varName + " & ~" + mask + ")";
return result;
}
TProtoStringType GenerateGetBitFromLocal(int bitIndex) {
return GenerateGetBitInternal("from_", bitIndex);
}
TProtoStringType GenerateSetBitToLocal(int bitIndex) {
return GenerateSetBitInternal("to_", bitIndex);
}
TProtoStringType GenerateGetBitMutableLocal(int bitIndex) {
return GenerateGetBitInternal("mutable_", bitIndex);
}
TProtoStringType GenerateSetBitMutableLocal(int bitIndex) {
return GenerateSetBitInternal("mutable_", bitIndex);
}
bool IsReferenceType(JavaType type) {
switch (type) {
case JAVATYPE_INT:
return false;
case JAVATYPE_LONG:
return false;
case JAVATYPE_FLOAT:
return false;
case JAVATYPE_DOUBLE:
return false;
case JAVATYPE_BOOLEAN:
return false;
case JAVATYPE_STRING:
return true;
case JAVATYPE_BYTES:
return true;
case JAVATYPE_ENUM:
return true;
case JAVATYPE_MESSAGE:
return true;
// No default because we want the compiler to complain if any new
// JavaTypes are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return false;
}
const char* GetCapitalizedType(const FieldDescriptor* field, bool immutable) {
switch (GetType(field)) {
case FieldDescriptor::TYPE_INT32:
return "Int32";
case FieldDescriptor::TYPE_UINT32:
return "UInt32";
case FieldDescriptor::TYPE_SINT32:
return "SInt32";
case FieldDescriptor::TYPE_FIXED32:
return "Fixed32";
case FieldDescriptor::TYPE_SFIXED32:
return "SFixed32";
case FieldDescriptor::TYPE_INT64:
return "Int64";
case FieldDescriptor::TYPE_UINT64:
return "UInt64";
case FieldDescriptor::TYPE_SINT64:
return "SInt64";
case FieldDescriptor::TYPE_FIXED64:
return "Fixed64";
case FieldDescriptor::TYPE_SFIXED64:
return "SFixed64";
case FieldDescriptor::TYPE_FLOAT:
return "Float";
case FieldDescriptor::TYPE_DOUBLE:
return "Double";
case FieldDescriptor::TYPE_BOOL:
return "Bool";
case FieldDescriptor::TYPE_STRING:
return "String";
case FieldDescriptor::TYPE_BYTES: {
return "Bytes";
}
case FieldDescriptor::TYPE_ENUM:
return "Enum";
case FieldDescriptor::TYPE_GROUP:
return "Group";
case FieldDescriptor::TYPE_MESSAGE:
return "Message";
// No default because we want the compiler to complain if any new
// types are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return NULL;
}
// For encodings with fixed sizes, returns that size in bytes. Otherwise
// returns -1.
int FixedSize(FieldDescriptor::Type type) {
switch (type) {
case FieldDescriptor::TYPE_INT32:
return -1;
case FieldDescriptor::TYPE_INT64:
return -1;
case FieldDescriptor::TYPE_UINT32:
return -1;
case FieldDescriptor::TYPE_UINT64:
return -1;
case FieldDescriptor::TYPE_SINT32:
return -1;
case FieldDescriptor::TYPE_SINT64:
return -1;
case FieldDescriptor::TYPE_FIXED32:
return WireFormatLite::kFixed32Size;
case FieldDescriptor::TYPE_FIXED64:
return WireFormatLite::kFixed64Size;
case FieldDescriptor::TYPE_SFIXED32:
return WireFormatLite::kSFixed32Size;
case FieldDescriptor::TYPE_SFIXED64:
return WireFormatLite::kSFixed64Size;
case FieldDescriptor::TYPE_FLOAT:
return WireFormatLite::kFloatSize;
case FieldDescriptor::TYPE_DOUBLE:
return WireFormatLite::kDoubleSize;
case FieldDescriptor::TYPE_BOOL:
return WireFormatLite::kBoolSize;
case FieldDescriptor::TYPE_ENUM:
return -1;
case FieldDescriptor::TYPE_STRING:
return -1;
case FieldDescriptor::TYPE_BYTES:
return -1;
case FieldDescriptor::TYPE_GROUP:
return -1;
case FieldDescriptor::TYPE_MESSAGE:
return -1;
// No default because we want the compiler to complain if any new
// types are added.
}
GOOGLE_LOG(FATAL) << "Can't get here.";
return -1;
}
// Sort the fields of the given Descriptor by number into a new[]'d array
// and return it. The caller should delete the returned array.
const FieldDescriptor** SortFieldsByNumber(const Descriptor* descriptor) {
const FieldDescriptor** fields =
new const FieldDescriptor*[descriptor->field_count()];
for (int i = 0; i < descriptor->field_count(); i++) {
fields[i] = descriptor->field(i);
}
std::sort(fields, fields + descriptor->field_count(),
FieldOrderingByNumber());
return fields;
}
// Returns true if the message type has any required fields. If it doesn't,
// we can optimize out calls to its isInitialized() method.
//
// already_seen is used to avoid checking the same type multiple times
// (and also to protect against recursion).
bool HasRequiredFields(const Descriptor* type,
std::unordered_set<const Descriptor*>* already_seen) {
if (already_seen->count(type) > 0) {
// The type is already in cache. This means that either:
// a. The type has no required fields.
// b. We are in the midst of checking if the type has required fields,
// somewhere up the stack. In this case, we know that if the type
// has any required fields, they'll be found when we return to it,
// and the whole call to HasRequiredFields() will return true.
// Therefore, we don't have to check if this type has required fields
// here.
return false;
}
already_seen->insert(type);
// If the type has extensions, an extension with message type could contain
// required fields, so we have to be conservative and assume such an
// extension exists.
if (type->extension_range_count() > 0) return true;
for (int i = 0; i < type->field_count(); i++) {
const FieldDescriptor* field = type->field(i);
if (field->is_required()) {
return true;
}
if (GetJavaType(field) == JAVATYPE_MESSAGE) {
if (HasRequiredFields(field->message_type(), already_seen)) {
return true;
}
}
}
return false;
}
bool HasRequiredFields(const Descriptor* type) {
std::unordered_set<const Descriptor*> already_seen;
return HasRequiredFields(type, &already_seen);
}
bool HasRepeatedFields(const Descriptor* descriptor) {
for (int i = 0; i < descriptor->field_count(); ++i) {
const FieldDescriptor* field = descriptor->field(i);
if (field->is_repeated()) {
return true;
}
}
return false;
}
// Encode an unsigned 32-bit value into a sequence of UTF-16 characters.
//
// If the value is in [0x0000, 0xD7FF], we encode it with a single character
// with the same numeric value.
//
// If the value is larger than 0xD7FF, we encode its lowest 13 bits into a
// character in the range [0xE000, 0xFFFF] by combining these 13 bits with
// 0xE000 using logic-or. Then we shift the value to the right by 13 bits, and
// encode the remaining value by repeating this same process until we get to
// a value in [0x0000, 0xD7FF] where we will encode it using a character with
// the same numeric value.
//
// Note that we only use code points in [0x0000, 0xD7FF] and [0xE000, 0xFFFF].
// There will be no surrogate pairs in the encoded character sequence.
void WriteUInt32ToUtf16CharSequence(uint32_t number,
std::vector<uint16_t>* output) {
// For values in [0x0000, 0xD7FF], only use one char to encode it.
if (number < 0xD800) {
output->push_back(static_cast<uint16_t>(number));
return;
}
// Encode into multiple chars. All except the last char will be in the range
// [0xE000, 0xFFFF], and the last char will be in the range [0x0000, 0xD7FF].
// Note that we don't use any value in range [0xD800, 0xDFFF] because they
// have to come in pairs and the encoding is just more space-efficient w/o
// them.
while (number >= 0xD800) {
// [0xE000, 0xFFFF] can represent 13 bits of info.
output->push_back(static_cast<uint16_t>(0xE000 | (number & 0x1FFF)));
number >>= 13;
}
output->push_back(static_cast<uint16_t>(number));
}
int GetExperimentalJavaFieldTypeForSingular(const FieldDescriptor* field) {
// j/c/g/protobuf/FieldType.java lists field types in a slightly different
// order from FieldDescriptor::Type so we can't do a simple cast.
//
// TODO(xiaofeng): Make j/c/g/protobuf/FieldType.java follow the same order.
int result = field->type();
if (result == FieldDescriptor::TYPE_GROUP) {
return 17;
} else if (result < FieldDescriptor::TYPE_GROUP) {
return result - 1;
} else {
return result - 2;
}
}
int GetExperimentalJavaFieldTypeForRepeated(const FieldDescriptor* field) {
if (field->type() == FieldDescriptor::TYPE_GROUP) {
return 49;
} else {
return GetExperimentalJavaFieldTypeForSingular(field) + 18;
}
}
int GetExperimentalJavaFieldTypeForPacked(const FieldDescriptor* field) {
int result = field->type();
if (result < FieldDescriptor::TYPE_STRING) {
return result + 34;
} else if (result > FieldDescriptor::TYPE_BYTES) {
return result + 30;
} else {
GOOGLE_LOG(FATAL) << field->full_name() << " can't be packed.";
return 0;
}
}
int GetExperimentalJavaFieldType(const FieldDescriptor* field) {
static const int kMapFieldType = 50;
static const int kOneofFieldTypeOffset = 51;
static const int kRequiredBit = 0x100;
static const int kUtf8CheckBit = 0x200;
static const int kCheckInitialized = 0x400;
static const int kMapWithProto2EnumValue = 0x800;
static const int kHasHasBit = 0x1000;
int extra_bits = field->is_required() ? kRequiredBit : 0;
if (field->type() == FieldDescriptor::TYPE_STRING && CheckUtf8(field)) {
extra_bits |= kUtf8CheckBit;
}
if (field->is_required() || (GetJavaType(field) == JAVATYPE_MESSAGE &&
HasRequiredFields(field->message_type()))) {
extra_bits |= kCheckInitialized;
}
if (HasHasbit(field)) {
extra_bits |= kHasHasBit;
}
if (field->is_map()) {
if (!SupportUnknownEnumValue(field)) {
const FieldDescriptor* value =
field->message_type()->FindFieldByName("value");
if (GetJavaType(value) == JAVATYPE_ENUM) {
extra_bits |= kMapWithProto2EnumValue;
}
}
return kMapFieldType | extra_bits;
} else if (field->is_packed()) {
return GetExperimentalJavaFieldTypeForPacked(field);
} else if (field->is_repeated()) {
return GetExperimentalJavaFieldTypeForRepeated(field) | extra_bits;
} else if (IsRealOneof(field)) {
return (GetExperimentalJavaFieldTypeForSingular(field) +
kOneofFieldTypeOffset) |
extra_bits;
} else {
return GetExperimentalJavaFieldTypeForSingular(field) | extra_bits;
}
}
// Escape a UTF-16 character to be embedded in a Java string.
void EscapeUtf16ToString(uint16_t code, TProtoStringType* output) {
if (code == '\t') {
output->append("\\t");
} else if (code == '\b') {
output->append("\\b");
} else if (code == '\n') {
output->append("\\n");
} else if (code == '\r') {
output->append("\\r");
} else if (code == '\f') {
output->append("\\f");
} else if (code == '\'') {
output->append("\\'");
} else if (code == '\"') {
output->append("\\\"");
} else if (code == '\\') {
output->append("\\\\");
} else if (code >= 0x20 && code <= 0x7f) {
output->push_back(static_cast<char>(code));
} else {
output->append(StringPrintf("\\u%04x", code));
}
}
} // namespace java
} // namespace compiler
} // namespace protobuf
} // namespace google
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