LibHac/build/CodeGen/ResultCodegen.cs

585 lines
19 KiB
C#
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using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Reflection;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
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using System.Text;
using CsvHelper;
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using CsvHelper.Configuration;
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using Nuke.Common;
namespace LibHacBuild.CodeGen
{
public static class ResultCodeGen
{
// RyuJIT will always be inlined a function if its CIL size is <= 0x10 bytes
private const int InlineThreshold = 0x10;
public static void Run()
{
ModuleInfo[] modules = ReadResults();
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SetEmptyResultValues(modules);
ValidateResults(modules);
ValidateHierarchy(modules);
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CheckIfAggressiveInliningNeeded(modules);
foreach (ModuleInfo module in modules)
{
string moduleResultFile = PrintModule(module);
WriteOutput(module.Path, moduleResultFile);
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}
byte[] archive = BuildArchive(modules);
string archiveStr = PrintArchive(archive);
WriteOutput("LibHac/ResultNameResolver.Generated.cs", archiveStr);
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}
private static ModuleInfo[] ReadResults()
{
ModuleIndex[] moduleNames = ReadCsv<ModuleIndex>("result_modules.csv");
ModulePath[] modulePaths = ReadCsv<ModulePath>("result_paths.csv");
ResultInfo[] results = ReadCsv<ResultInfo>("results.csv");
var modules = new Dictionary<string, ModuleInfo>();
foreach (ModuleIndex name in moduleNames)
{
var module = new ModuleInfo();
module.Name = name.Name;
module.Index = name.Index;
modules.Add(name.Name, module);
}
foreach (ModulePath path in modulePaths)
{
ModuleInfo module = modules[path.Name];
module.Namespace = path.Namespace;
module.Path = path.Path;
}
foreach (ModuleInfo module in modules.Values)
{
module.Results = results.Where(x => x.Module == module.Index).OrderBy(x => x.DescriptionStart)
.ToArray();
}
return modules.Values.ToArray();
}
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private static void SetEmptyResultValues(ModuleInfo[] modules)
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{
foreach (ModuleInfo module in modules)
{
foreach (ResultInfo result in module.Results)
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{
result.FullName = $"Result{module.Name}{result.Name}";
if (string.IsNullOrWhiteSpace(result.Name))
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{
if (result.IsRange)
{
result.Name += $"Range{result.DescriptionStart}To{result.DescriptionEnd}";
}
else
{
result.Name = $"Result{result.DescriptionStart}";
result.DescriptionEnd = result.DescriptionStart;
}
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}
}
}
}
private static void ValidateResults(ModuleInfo[] modules)
{
foreach (ModuleInfo module in modules)
{
foreach (ResultInfo result in module.Results)
{
// Logic should match Result.Base.ctor
Assert(1 <= result.Module && result.Module < 512, "Invalid Module");
Assert(0 <= result.DescriptionStart && result.DescriptionStart < 8192, "Invalid Description Start");
Assert(0 <= result.DescriptionEnd && result.DescriptionEnd < 8192, "Invalid Description End");
Assert(result.DescriptionStart <= result.DescriptionEnd, "descriptionStart must be <= descriptionEnd");
// ReSharper disable once ParameterOnlyUsedForPreconditionCheck.Local
void Assert(bool condition, string message)
{
if (!condition)
throw new InvalidDataException($"Result {result.Module}-{result.DescriptionStart}: {message}");
}
}
}
}
private static void ValidateHierarchy(ModuleInfo[] modules)
{
foreach (ModuleInfo module in modules)
{
var hierarchy = new Stack<ResultInfo>();
foreach (ResultInfo result in module.Results)
{
while (hierarchy.Count > 0 && hierarchy.Peek().DescriptionEnd < result.DescriptionStart)
{
hierarchy.Pop();
}
if (result.IsRange)
{
if (hierarchy.Count > 0 && result.DescriptionEnd > hierarchy.Peek().DescriptionEnd)
{
throw new InvalidDataException($"Result {result.Module}-{result.DescriptionStart} is not nested properly.");
}
hierarchy.Push(result);
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}
}
}
}
private static void CheckIfAggressiveInliningNeeded(ModuleInfo[] modules)
{
foreach (ModuleInfo module in modules)
{
module.NeedsAggressiveInlining = module.Results.Any(x => EstimateCilSize(x) > InlineThreshold);
}
}
private static string PrintModule(ModuleInfo module)
{
var sb = new IndentingStringBuilder();
sb.AppendLine(GetHeader());
sb.AppendLine();
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if (module.NeedsAggressiveInlining)
{
sb.AppendLine("using System.Runtime.CompilerServices;");
sb.AppendLine();
}
sb.AppendLine($"namespace {module.Namespace}");
sb.AppendLineAndIncrease("{");
sb.AppendLine($"public static class Result{module.Name}");
sb.AppendLineAndIncrease("{");
sb.AppendLine($"public const int Module{module.Name} = {module.Index};");
sb.AppendLine();
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var hierarchy = new Stack<ResultInfo>();
bool justIndented = false;
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foreach (ResultInfo result in module.Results)
{
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while (hierarchy.Count > 0 && hierarchy.Peek().DescriptionEnd < result.DescriptionStart)
{
hierarchy.Pop();
sb.DecreaseLevel();
sb.AppendSpacerLine();
}
if (!justIndented && result.IsRange)
{
sb.AppendSpacerLine();
}
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PrintResult(sb, module.Name, result);
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if (result.IsRange)
{
hierarchy.Push(result);
sb.IncreaseLevel();
}
justIndented = result.IsRange;
}
while (hierarchy.Count > 0)
{
hierarchy.Pop();
sb.DecreaseLevel();
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}
sb.DecreaseAndAppendLine("}");
sb.DecreaseAndAppendLine("}");
return sb.ToString();
}
private static void PrintResult(IndentingStringBuilder sb, string moduleName, ResultInfo result)
{
string descriptionArgs;
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if (result.IsRange)
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{
descriptionArgs = $"{result.DescriptionStart}, {result.DescriptionEnd}";
}
else
{
descriptionArgs = $"{result.DescriptionStart}";
}
sb.AppendLine(GetXmlDoc(result));
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string resultCtor = $"new Result.Base(Module{moduleName}, {descriptionArgs});";
sb.Append($"public static Result.Base {result.Name} ");
if (EstimateCilSize(result) > InlineThreshold)
{
sb.AppendLine($"{{ [MethodImpl(MethodImplOptions.AggressiveInlining)] get => {resultCtor} }}");
}
else
{
sb.AppendLine($"=> {resultCtor}");
}
}
private static string GetXmlDoc(ResultInfo result)
{
string doc = "/// <summary>";
if (!string.IsNullOrWhiteSpace(result.Summary))
{
doc += $"{result.Summary}<br/>";
}
doc += $"Error code: {result.ErrorCode}";
if (result.IsRange)
{
doc += $"; Range: {result.DescriptionStart}-{result.DescriptionEnd}";
}
doc += $"; Inner value: 0x{result.InnerValue:x}";
doc += "</summary>";
return doc;
}
private static string GetHeader()
{
string nl = Environment.NewLine;
return
"//-----------------------------------------------------------------------------" + nl +
"// This file was automatically generated." + nl +
"// Changes to this file will be lost when the file is regenerated." + nl +
"//" + nl +
"// To change this file, modify /build/CodeGen/results.csv at the root of this" + nl +
"// repo and run the build script." + nl +
"//" + nl +
"// The script can be run with the \"codegen\" option to run only the" + nl +
"// code generation portion of the build." + nl +
"//-----------------------------------------------------------------------------";
}
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// Write the file only if it has changed
// Preserve the UTF-8 BOM usage if the file already exists
private static void WriteOutput(string relativePath, string text)
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{
if (string.IsNullOrWhiteSpace(relativePath))
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return;
string rootPath = FindProjectDirectory();
string fullPath = Path.Combine(rootPath, relativePath);
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// Default is true because Visual Studio saves .cs files with the BOM by default
bool hasBom = true;
byte[] bom = Encoding.UTF8.GetPreamble();
byte[] oldFile = null;
if (File.Exists(fullPath))
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{
oldFile = File.ReadAllBytes(fullPath);
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if (oldFile.Length >= 3)
hasBom = oldFile.AsSpan(0, 3).SequenceEqual(bom);
}
byte[] newFile = (hasBom ? bom : new byte[0]).Concat(Encoding.UTF8.GetBytes(text)).ToArray();
if (oldFile?.SequenceEqual(newFile) == true)
{
Logger.Normal($"{relativePath} is already up-to-date");
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return;
}
Logger.Normal($"Generated file {relativePath}");
File.WriteAllBytes(fullPath, newFile);
}
private static byte[] BuildArchive(ModuleInfo[] modules)
{
var builder = new ResultArchiveBuilder();
foreach (ModuleInfo module in modules.OrderBy(x => x.Index))
{
foreach (ResultInfo result in module.Results.OrderBy(x => x.DescriptionStart))
{
builder.Add(result);
}
}
return builder.Build();
}
private static string PrintArchive(ReadOnlySpan<byte> data)
{
var sb = new IndentingStringBuilder();
sb.AppendLine(GetHeader());
sb.AppendLine();
sb.AppendLine("using System;");
sb.AppendLine();
sb.AppendLine("namespace LibHac");
sb.AppendLineAndIncrease("{");
sb.AppendLine("internal partial class ResultNameResolver");
sb.AppendLineAndIncrease("{");
sb.AppendLine("private static ReadOnlySpan<byte> ArchiveData => new byte[]");
sb.AppendLineAndIncrease("{");
for (int i = 0; i < data.Length; i++)
{
if (i % 16 != 0) sb.Append(" ");
sb.Append($"0x{data[i]:x2}");
if (i != data.Length - 1)
{
sb.Append(",");
if (i % 16 == 15) sb.AppendLine();
}
}
sb.AppendLine();
sb.DecreaseAndAppendLine("};");
sb.DecreaseAndAppendLine("}");
sb.DecreaseAndAppendLine("}");
return sb.ToString();
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}
private static T[] ReadCsv<T>(string name)
{
using (var csv = new CsvReader(new StreamReader(GetResource(name)), CultureInfo.InvariantCulture))
{
csv.Configuration.AllowComments = true;
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if (typeof(T) == typeof(ResultInfo))
{
csv.Configuration.RegisterClassMap<ResultMap>();
}
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return csv.GetRecords<T>().ToArray();
}
}
private static Stream GetResource(string name)
{
var assembly = Assembly.GetExecutingAssembly();
string path = $"LibHacBuild.CodeGen.{name}";
Stream stream = assembly.GetManifestResourceStream(path);
if (stream == null) throw new FileNotFoundException($"Resource {path} was not found.");
return stream;
}
private static string FindProjectDirectory()
{
string currentDir = Environment.CurrentDirectory;
while (currentDir != null)
{
if (File.Exists(Path.Combine(currentDir, "LibHac.sln")))
{
break;
}
currentDir = Path.GetDirectoryName(currentDir);
}
if (currentDir == null)
throw new DirectoryNotFoundException("Unable to find project directory.");
return Path.Combine(currentDir, "src");
}
private static int EstimateCilSize(ResultInfo result)
{
int size = 0;
size += GetLoadSize(result.Module);
size += GetLoadSize(result.DescriptionStart);
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if (result.IsRange)
size += GetLoadSize(result.DescriptionEnd);
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size += 5; // newobj
size += 1; // ret
return size;
static int GetLoadSize(int value)
{
if (value >= -1 && value <= 8)
return 1; // ldc.i4.X
if (value >= sbyte.MinValue && value <= sbyte.MaxValue)
return 2; // ldc.i4.s XX
return 5; // ldc.i4 XXXXXXXX
}
}
}
public class ResultArchiveBuilder
{
private List<ResultInfo> Results = new List<ResultInfo>();
public void Add(ResultInfo result)
{
Results.Add(result);
}
public byte[] Build()
{
int tableOffset = CalculateNameTableOffset();
var archive = new byte[tableOffset + CalculateNameTableSize()];
ref HeaderStruct header = ref Unsafe.As<byte, HeaderStruct>(ref archive[0]);
Span<Element> elements = MemoryMarshal.Cast<byte, Element>(
archive.AsSpan(Unsafe.SizeOf<HeaderStruct>(), Results.Count * Unsafe.SizeOf<Element>()));
Span<byte> nameTable = archive.AsSpan(tableOffset);
header.ElementCount = Results.Count;
header.NameTableOffset = tableOffset;
int curNameOffset = 0;
for (int i = 0; i < Results.Count; i++)
{
ResultInfo result = Results[i];
ref Element element = ref elements[i];
element.NameOffset = curNameOffset;
element.Module = (short)result.Module;
element.DescriptionStart = (short)result.DescriptionStart;
element.DescriptionEnd = (short)result.DescriptionEnd;
Span<byte> utf8Name = Encoding.UTF8.GetBytes(result.FullName);
utf8Name.CopyTo(nameTable.Slice(curNameOffset));
nameTable[curNameOffset + utf8Name.Length] = 0;
curNameOffset += utf8Name.Length + 1;
}
return archive;
}
private int CalculateNameTableOffset()
{
return Unsafe.SizeOf<HeaderStruct>() + Unsafe.SizeOf<Element>() * Results.Count;
}
private int CalculateNameTableSize()
{
int size = 0;
Encoding encoding = Encoding.UTF8;
foreach (ResultInfo result in Results)
{
size += encoding.GetByteCount(result.FullName) + 1;
}
return size;
}
// ReSharper disable NotAccessedField.Local
private struct HeaderStruct
{
public int ElementCount;
public int NameTableOffset;
}
private struct Element
{
public int NameOffset;
public short Module;
public short DescriptionStart;
public short DescriptionEnd;
}
// ReSharper restore NotAccessedField.Local
}
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public class ModuleIndex
{
public string Name { get; set; }
public int Index { get; set; }
}
public class ModulePath
{
public string Name { get; set; }
public string Namespace { get; set; }
public string Path { get; set; }
}
[DebuggerDisplay("{" + nameof(Name) + ",nq}")]
public class ModuleInfo
{
public string Name { get; set; }
public int Index { get; set; }
public string Namespace { get; set; }
public string Path { get; set; }
public bool NeedsAggressiveInlining { get; set; }
public ResultInfo[] Results { get; set; }
}
[DebuggerDisplay("{" + nameof(Name) + ",nq}")]
public class ResultInfo
{
public int Module { get; set; }
public int DescriptionStart { get; set; }
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public int DescriptionEnd { get; set; }
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public string Name { get; set; }
public string FullName { get; set; }
public string Summary { get; set; }
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public bool IsRange => DescriptionStart != DescriptionEnd;
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public string ErrorCode => $"{2000 + Module:d4}-{DescriptionStart:d4}";
public int InnerValue => Module & 0x1ff | ((DescriptionStart & 0x7ffff) << 9);
}
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public sealed class ResultMap : ClassMap<ResultInfo>
{
public ResultMap()
{
Map(m => m.Module);
Map(m => m.Name);
Map(m => m.Summary);
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Map(m => m.DescriptionStart);
Map(m => m.DescriptionEnd).ConvertUsing(row =>
{
string field = row.GetField("DescriptionEnd");
if (string.IsNullOrWhiteSpace(field))
field = row.GetField("DescriptionStart");
return int.Parse(field);
});
}
}
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}