using Google.ProtocolBuffers.DescriptorProtos;
using Google.ProtocolBuffers.Descriptors;
namespace Google.ProtocolBuffers.ProtoGen {
internal class RepeatedEnumFieldGenerator : FieldGeneratorBase, IFieldSourceGenerator {
internal RepeatedEnumFieldGenerator(FieldDescriptor descriptor)
: base(descriptor) {
}
public void GenerateMembers(TextGenerator writer) {
if (Descriptor.IsPacked && Descriptor.File.Options.OptimizeFor == FileOptions.Types.OptimizeMode.SPEED) {
writer.WriteLine("private int {0}MemoizedSerializedSize;", Name);
}
writer.WriteLine("private pbc::PopsicleList<{0}> {1}_ = new pbc::PopsicleList<{0}>();", TypeName, Name);
writer.WriteLine("public scg::IList<{0}> {1}List {{", TypeName, PropertyName);
writer.WriteLine(" get {{ return pbc::Lists.AsReadOnly({0}_); }}", Name);
writer.WriteLine("}");
// TODO(jonskeet): Redundant API calls? Possibly - include for portability though. Maybe create an option.
writer.WriteLine("public int {0}Count {{", PropertyName);
writer.WriteLine(" get {{ return {0}_.Count; }}", Name);
writer.WriteLine("}");
writer.WriteLine("public {0} Get{1}(int index) {{", TypeName, PropertyName);
writer.WriteLine(" return {0}_[index];", Name);
writer.WriteLine("}");
}
public void GenerateBuilderMembers(TextGenerator writer) {
// Note: We can return the original list here, because we make it unmodifiable when we build
// We return it via IPopsicleList so that collection initializers work more pleasantly.
writer.WriteLine("public pbc::IPopsicleList<{0}> {1}List {{", TypeName, PropertyName);
writer.WriteLine(" get {{ return result.{0}_; }}", Name);
writer.WriteLine("}");
writer.WriteLine("public int {0}Count {{", PropertyName);
writer.WriteLine(" get {{ return result.{0}Count; }}", PropertyName);
writer.WriteLine("}");
writer.WriteLine("public {0} Get{1}(int index) {{", TypeName, PropertyName);
writer.WriteLine(" return result.Get{0}(index);", PropertyName);
writer.WriteLine("}");
writer.WriteLine("public Builder Set{0}(int index, {1} value) {{", PropertyName, TypeName);
writer.WriteLine(" result.{0}_[index] = value;", Name);
writer.WriteLine(" return this;");
writer.WriteLine("}");
writer.WriteLine("public Builder Add{0}({1} value) {{", PropertyName, TypeName);
writer.WriteLine(" result.{0}_.Add(value);", Name, TypeName);
writer.WriteLine(" return this;");
writer.WriteLine("}");
writer.WriteLine("public Builder AddRange{0}(scg::IEnumerable<{1}> values) {{", PropertyName, TypeName);
writer.WriteLine(" base.AddRange(values, result.{0}_);", Name);
writer.WriteLine(" return this;");
writer.WriteLine("}");
writer.WriteLine("public Builder Clear{0}() {{", PropertyName);
writer.WriteLine(" result.{0}_.Clear();", Name);
writer.WriteLine(" return this;");
writer.WriteLine("}");
}
public void GenerateMergingCode(TextGenerator writer) {
writer.WriteLine("if (other.{0}_.Count != 0) {{", Name);
writer.WriteLine(" base.AddRange(other.{0}_, result.{0}_);", Name);
writer.WriteLine("}");
}
public void GenerateBuildingCode(TextGenerator writer) {
writer.WriteLine("result.{0}_.MakeReadOnly();", Name);
}
public void GenerateParsingCode(TextGenerator writer) {
// If packed, set up the while loop
if (Descriptor.IsPacked) {
writer.WriteLine("int length = input.ReadInt32();");
writer.WriteLine("int oldLimit = input.PushLimit(length);");
writer.WriteLine("while (!input.ReachedLimit) {");
writer.Indent();
}
// Read and store the enum
// TODO(jonskeet): Make a more efficient way of doing this
writer.WriteLine("int rawValue = input.ReadEnum();");
writer.WriteLine("if (!global::System.Enum.IsDefined(typeof({0}), rawValue)) {{", TypeName);
writer.WriteLine(" if (unknownFields == null) {"); // First unknown field - create builder now
writer.WriteLine(" unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields);");
writer.WriteLine(" }");
writer.WriteLine(" unknownFields.MergeVarintField({0}, (ulong) rawValue);", Number);
writer.WriteLine("} else {");
writer.WriteLine(" Add{0}(({1}) rawValue);", PropertyName, TypeName);
writer.WriteLine("}");
if (Descriptor.IsPacked) {
writer.Outdent();
writer.WriteLine("}");
writer.WriteLine("input.PopLimit(oldLimit);");
}
}
public void GenerateSerializationCode(TextGenerator writer) {
writer.WriteLine("if ({0}_.Count > 0) {{", Name);
writer.Indent();
if (Descriptor.IsPacked) {
writer.WriteLine("output.WriteRawVarint32({0});", WireFormat.MakeTag(Descriptor));
writer.WriteLine("output.WriteRawVarint32((uint) {0}MemoizedSerializedSize);", Name);
writer.WriteLine("foreach (int element in {0}_) {{", Name);
writer.WriteLine(" output.WriteEnumNoTag(element);");
writer.WriteLine("}");
} else {
writer.WriteLine("foreach (int element in {0}_) {{", Name);
writer.WriteLine(" output.WriteEnum({0}, element);", Number);
writer.WriteLine("}");
}
writer.Outdent();
writer.WriteLine("}");
}
public void GenerateSerializedSizeCode(TextGenerator writer) {
writer.WriteLine("{");
writer.Indent();
writer.WriteLine("int dataSize = 0;");
writer.WriteLine("if ({0}_.Count > 0) {{", Name);
writer.Indent();
writer.WriteLine("foreach ({0} element in {1}_) {{", TypeName, Name);
writer.WriteLine(" dataSize += pb::CodedOutputStream.ComputeEnumSizeNoTag((int) element);");
writer.WriteLine("}");
writer.WriteLine("size += dataSize;");
int tagSize = CodedOutputStream.ComputeTagSize(Descriptor.FieldNumber);
if (Descriptor.IsPacked) {
writer.WriteLine("size += {0};", tagSize);
writer.WriteLine("size += pb::CodedOutputStream.ComputeRawVarint32Size((uint) dataSize);");
} else {
writer.WriteLine("size += {0} * {1}_.Count;", tagSize, Name);
}
writer.Outdent();
writer.WriteLine("}");
// cache the data size for packed fields.
if (Descriptor.IsPacked) {
writer.WriteLine("{0}MemoizedSerializedSize = dataSize;", Name);
}
writer.Outdent();
writer.WriteLine("}");
}
}
}