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Ryujinx/src/Spv.Generator/Instruction.cs
TSRBerry eb528ae0f0
Add workflow to automatically check code style issues for PRs (#4670)
* Add workflow to perform automated checks for PRs

* Downgrade Microsoft.CodeAnalysis to 4.4.0

This is a workaround to fix issues with dotnet-format.
See:
- https://github.com/dotnet/format/issues/1805
- https://github.com/dotnet/format/issues/1800

* Adjust editorconfig to be more compatible with Ryujinx code-style

* Adjust .editorconfig line endings to match .gitattributes

* Disable 'prefer switch expression' rule

* Remove naming styles

These are the default rules, so we don't need to override them.

* Silence IDE0060 in .editorconfig

* Slightly adjust .editorconfig

* Add lost workflow changes

* Move .editorconfig comment to the top

* .editorconfig: private static readonly fields should be _lowerCamelCase

* .editorconfig: Remove alignment for declarations as well

* editorconfig: Add rule for local constants

* Disable CA1822 for HLE services

* Disable CA1822 for ViewModels

Bindings won't work with static members, but this issue is silently ignored.

* Run dotnet format for the whole solution

* Check result code of SDL_GetDisplayBounds

* Fix dotnet format style issues

* Add missing trailing commas

* Update Microsoft.CodeAnalysis.CSharp to 4.6.0

Skipping 4.5.0 since it breaks dotnet format

* Restore old default naming rules for dotnet format

* Add naming rule exception for CPU tests

* checks: Include all files before excluding paths

* Fix dotnet format issues

* Check dotnet format version

* checks: Run dotnet format with severity info again

* checks: Disable naming style rules until they won't crash the process anymore

* Remove unread private member

* checks: Attempt to run analyzers 3 times before giving up

* checks: Enable naming style rules again with the new retry logic
2023-07-24 18:35:04 +02:00

247 lines
6.7 KiB
C#

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
namespace Spv.Generator
{
public sealed class Instruction : IOperand, IEquatable<Instruction>
{
public const uint InvalidId = uint.MaxValue;
public Specification.Op Opcode { get; private set; }
private Instruction _resultType;
private InstructionOperands _operands;
public uint Id { get; set; }
public Instruction() { }
public void Set(Specification.Op opcode, uint id = InvalidId, Instruction resultType = null)
{
Opcode = opcode;
Id = id;
_resultType = resultType;
_operands = new InstructionOperands();
}
public void SetId(uint id)
{
Id = id;
}
public OperandType Type => OperandType.Instruction;
public ushort GetTotalWordCount()
{
ushort result = WordCount;
if (Id != InvalidId)
{
result++;
}
if (_resultType != null)
{
result += _resultType.WordCount;
}
Span<IOperand> operands = _operands.AsSpan();
for (int i = 0; i < operands.Length; i++)
{
result += operands[i].WordCount;
}
return result;
}
public ushort WordCount => 1;
public void AddOperand(IOperand value)
{
Debug.Assert(value != null);
_operands.Add(value);
}
public void AddOperand(IOperand[] value)
{
foreach (IOperand instruction in value)
{
AddOperand(instruction);
}
}
public void AddOperand(LiteralInteger[] value)
{
foreach (LiteralInteger instruction in value)
{
AddOperand(instruction);
}
}
public void AddOperand(LiteralInteger value)
{
AddOperand((IOperand)value);
}
public void AddOperand(Instruction[] value)
{
foreach (Instruction instruction in value)
{
AddOperand(instruction);
}
}
public void AddOperand(Instruction value)
{
AddOperand((IOperand)value);
}
public void AddOperand(string value)
{
AddOperand(new LiteralString(value));
}
public void AddOperand<T>(T value) where T : Enum
{
AddOperand(LiteralInteger.CreateForEnum(value));
}
public void Write(BinaryWriter writer)
{
// Word 0
writer.Write((ushort)Opcode);
writer.Write(GetTotalWordCount());
_resultType?.WriteOperand(writer);
if (Id != InvalidId)
{
writer.Write(Id);
}
Span<IOperand> operands = _operands.AsSpan();
for (int i = 0; i < operands.Length; i++)
{
operands[i].WriteOperand(writer);
}
}
public void WriteOperand(BinaryWriter writer)
{
Debug.Assert(Id != InvalidId);
if (Id == InvalidId)
{
string methodToCall;
if (Opcode == Specification.Op.OpVariable)
{
methodToCall = "AddLocalVariable or AddGlobalVariable";
}
else if (Opcode == Specification.Op.OpLabel)
{
methodToCall = "AddLabel";
}
else
{
throw new InvalidOperationException("Internal error");
}
throw new InvalidOperationException($"Id wasn't bound to the module, please make sure to call {methodToCall}");
}
writer.Write(Id);
}
public override bool Equals(object obj)
{
return obj is Instruction instruction && Equals(instruction);
}
public bool Equals(Instruction cmpObj)
{
bool result = Type == cmpObj.Type && Id == cmpObj.Id;
if (result)
{
if (_resultType != null && cmpObj._resultType != null)
{
result &= _resultType.Equals(cmpObj._resultType);
}
else if (_resultType != null || cmpObj._resultType != null)
{
return false;
}
}
if (result)
{
result &= EqualsContent(cmpObj);
}
return result;
}
public bool EqualsContent(Instruction cmpObj)
{
Span<IOperand> thisOperands = _operands.AsSpan();
Span<IOperand> cmpOperands = cmpObj._operands.AsSpan();
if (thisOperands.Length != cmpOperands.Length)
{
return false;
}
for (int i = 0; i < thisOperands.Length; i++)
{
if (!thisOperands[i].Equals(cmpOperands[i]))
{
return false;
}
}
return true;
}
public bool EqualsResultType(Instruction cmpObj)
{
return _resultType.Opcode == cmpObj._resultType.Opcode && _resultType.EqualsContent(cmpObj._resultType);
}
public int GetHashCodeContent()
{
return DeterministicHashCode.Combine<IOperand>(_operands.AsSpan());
}
public int GetHashCodeResultType()
{
return DeterministicHashCode.Combine(_resultType.Opcode, _resultType.GetHashCodeContent());
}
public override int GetHashCode()
{
return DeterministicHashCode.Combine(Opcode, Id, _resultType, DeterministicHashCode.Combine<IOperand>(_operands.AsSpan()));
}
public bool Equals(IOperand obj)
{
return obj is Instruction instruction && Equals(instruction);
}
private static readonly Dictionary<Specification.Op, string[]> _operandLabels = new()
{
{ Specification.Op.OpConstant, new [] { "Value" } },
{ Specification.Op.OpTypeInt, new [] { "Width", "Signed" } },
{ Specification.Op.OpTypeFloat, new [] { "Width" } },
};
public override string ToString()
{
var labels = _operandLabels.TryGetValue(Opcode, out var opLabels) ? opLabels : Array.Empty<string>();
var result = _resultType == null ? string.Empty : $"{_resultType} ";
return $"{result}{Opcode}{_operands.ToString(labels)}";
}
}
}