using System; using System.Buffers; using System.Diagnostics; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; namespace Ryujinx.Common.Extensions { public static class SequenceReaderExtensions { /// /// Dumps the entire to a file, restoring its previous location afterward. /// Useful for debugging purposes. /// /// The to write to a file /// The path and name of the file to create and dump to public static void DumpToFile(this ref SequenceReader reader, string fileFullName) { var initialConsumed = reader.Consumed; reader.Rewind(initialConsumed); using (var fileStream = System.IO.File.Create(fileFullName, 4096, System.IO.FileOptions.None)) { while (reader.End == false) { var span = reader.CurrentSpan; fileStream.Write(span); reader.Advance(span.Length); } } reader.SetConsumed(initialConsumed); } /// /// Returns a reference to the desired value. This ref should always be used. The argument passed in should never be used, as this is only used for storage if the value /// must be copied from multiple segments held by the . /// /// Type to get /// The to read from /// A location used as storage if (and only if) the value to be read spans multiple segments /// A reference to the desired value, either directly to memory in the , or to if it has been used for copying the value in to /// /// DO NOT use after calling this method, as it will only /// contain a value if the value couldn't be referenced directly because it spans multiple segments. /// To discourage use, it is recommended to to call this method like the following: /// /// ref readonly MyStruct value = ref sequenceReader.GetRefOrRefToCopy{MyStruct}(out _); /// /// /// The does not contain enough data to read a value of type public static ref readonly T GetRefOrRefToCopy(this scoped ref SequenceReader reader, out T copyDestinationIfRequiredDoNotUse) where T : unmanaged { int lengthRequired = Unsafe.SizeOf(); ReadOnlySpan span = reader.UnreadSpan; if (lengthRequired <= span.Length) { reader.Advance(lengthRequired); copyDestinationIfRequiredDoNotUse = default; ReadOnlySpan spanOfT = MemoryMarshal.Cast(span); return ref spanOfT[0]; } else { copyDestinationIfRequiredDoNotUse = default; Span valueSpan = MemoryMarshal.CreateSpan(ref copyDestinationIfRequiredDoNotUse, 1); Span valueBytesSpan = MemoryMarshal.AsBytes(valueSpan); if (!reader.TryCopyTo(valueBytesSpan)) { throw new ArgumentOutOfRangeException(nameof(reader), "The sequence is not long enough to read the desired value."); } reader.Advance(lengthRequired); return ref valueSpan[0]; } } /// /// Reads an as little endian. /// /// The to read from /// A location to receive the read value /// Thrown if there wasn't enough data for an [MethodImpl(MethodImplOptions.AggressiveInlining)] public static void ReadLittleEndian(this ref SequenceReader reader, out int value) { if (!reader.TryReadLittleEndian(out value)) { throw new ArgumentOutOfRangeException(nameof(value), "The sequence is not long enough to read the desired value."); } } /// /// Reads the desired unmanaged value by copying it to the specified . /// /// Type to read /// The to read from /// The target that will receive the read value /// The does not contain enough data to read a value of type [MethodImpl(MethodImplOptions.AggressiveInlining)] public static void ReadUnmanaged(this ref SequenceReader reader, out T value) where T : unmanaged { if (!reader.TryReadUnmanaged(out value)) { throw new ArgumentOutOfRangeException(nameof(value), "The sequence is not long enough to read the desired value."); } } /// /// Sets the reader's position as bytes consumed. /// /// The to set the position /// The number of bytes consumed public static void SetConsumed(ref this SequenceReader reader, long consumed) { reader.Rewind(reader.Consumed); reader.Advance(consumed); } /// /// Try to read the given type out of the buffer if possible. Warning: this is dangerous to use with arbitrary /// structs - see remarks for full details. /// /// Type to read /// /// IMPORTANT: The read is a straight copy of bits. If a struct depends on specific state of it's members to /// behave correctly this can lead to exceptions, etc. If reading endian specific integers, use the explicit /// overloads such as /// /// /// True if successful. will be default if failed (due to lack of space). /// [MethodImpl(MethodImplOptions.AggressiveInlining)] public static unsafe bool TryReadUnmanaged(ref this SequenceReader reader, out T value) where T : unmanaged { ReadOnlySpan span = reader.UnreadSpan; if (span.Length < sizeof(T)) { return TryReadUnmanagedMultiSegment(ref reader, out value); } value = Unsafe.ReadUnaligned(ref MemoryMarshal.GetReference(span)); reader.Advance(sizeof(T)); return true; } private static unsafe bool TryReadUnmanagedMultiSegment(ref SequenceReader reader, out T value) where T : unmanaged { Debug.Assert(reader.UnreadSpan.Length < sizeof(T)); // Not enough data in the current segment, try to peek for the data we need. T buffer = default; Span tempSpan = new Span(&buffer, sizeof(T)); if (!reader.TryCopyTo(tempSpan)) { value = default; return false; } value = Unsafe.ReadUnaligned(ref MemoryMarshal.GetReference(tempSpan)); reader.Advance(sizeof(T)); return true; } } }