diff --git a/src/ImageSharp/Image.Decode.cs b/src/ImageSharp/Image.Decode.cs
index 9d5ceeacfb..94da2c9958 100644
--- a/src/ImageSharp/Image.Decode.cs
+++ b/src/ImageSharp/Image.Decode.cs
@@ -121,7 +121,7 @@ namespace SixLabors.ImageSharp
/// The image stream to read the header from.
/// The configuration.
/// The decoder and the image format or null if none found.
- private static async Task<(IImageDecoder decoder, IImageFormat format)> DiscoverDecoderAsync(Stream stream, Configuration config)
+ private static async Task<(IImageDecoder Decoder, IImageFormat Format)> DiscoverDecoderAsync(Stream stream, Configuration config)
{
IImageFormat format = await InternalDetectFormatAsync(stream, config).ConfigureAwait(false);
diff --git a/src/ImageSharp/Image.FromStream.cs b/src/ImageSharp/Image.FromStream.cs
index 3dde8e77bc..291d6f7cab 100644
--- a/src/ImageSharp/Image.FromStream.cs
+++ b/src/ImageSharp/Image.FromStream.cs
@@ -679,13 +679,13 @@ namespace SixLabors.ImageSharp
/// A new .
public static Image Load(Configuration configuration, Stream stream, out IImageFormat format)
{
- (Image img, IImageFormat format) data = WithSeekableStream(configuration, stream, s => Decode(s, configuration));
+ (Image Img, IImageFormat Format) data = WithSeekableStream(configuration, stream, s => Decode(s, configuration));
- format = data.format;
+ format = data.Format;
- if (data.img != null)
+ if (data.Img != null)
{
- return data.img;
+ return data.Img;
}
var sb = new StringBuilder();
diff --git a/src/ImageSharp/Processing/Processors/Normalization/AdaptiveHistogramEqualizationProcessor{TPixel}.cs b/src/ImageSharp/Processing/Processors/Normalization/AdaptiveHistogramEqualizationProcessor{TPixel}.cs
index 91ed9f5de4..883f85be3b 100644
--- a/src/ImageSharp/Processing/Processors/Normalization/AdaptiveHistogramEqualizationProcessor{TPixel}.cs
+++ b/src/ImageSharp/Processing/Processors/Normalization/AdaptiveHistogramEqualizationProcessor{TPixel}.cs
@@ -70,7 +70,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
{
cdfData.CalculateLookupTables(source, this);
- var tileYStartPositions = new List<(int y, int cdfY)>();
+ var tileYStartPositions = new List<(int Y, int CdfY)>();
int cdfY = 0;
int yStart = halfTileHeight;
for (int tile = 0; tile < tileCount - 1; tile++)
@@ -367,7 +367,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
private readonly struct RowIntervalOperation : IRowIntervalOperation
{
private readonly CdfTileData cdfData;
- private readonly List<(int y, int cdfY)> tileYStartPositions;
+ private readonly List<(int Y, int CdfY)> tileYStartPositions;
private readonly int tileWidth;
private readonly int tileHeight;
private readonly int tileCount;
@@ -380,7 +380,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
[MethodImpl(InliningOptions.ShortMethod)]
public RowIntervalOperation(
CdfTileData cdfData,
- List<(int y, int cdfY)> tileYStartPositions,
+ List<(int Y, int CdfY)> tileYStartPositions,
int tileWidth,
int tileHeight,
int tileCount,
@@ -406,9 +406,9 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
{
for (int index = rows.Min; index < rows.Max; index++)
{
- (int y, int cdfY) tileYStartPosition = this.tileYStartPositions[index];
- int y = tileYStartPosition.y;
- int cdfYY = tileYStartPosition.cdfY;
+ (int Y, int CdfY) tileYStartPosition = this.tileYStartPositions[index];
+ int y = tileYStartPosition.Y;
+ int cdfYY = tileYStartPosition.CdfY;
int cdfX = 0;
int x = this.halfTileWidth;
@@ -473,7 +473,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
private readonly int tileWidth;
private readonly int tileHeight;
private readonly int luminanceLevels;
- private readonly List<(int y, int cdfY)> tileYStartPositions;
+ private readonly List<(int Y, int CdfY)> tileYStartPositions;
public CdfTileData(
Configuration configuration,
@@ -496,7 +496,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
this.pixelsInTile = tileWidth * tileHeight;
// Calculate the start positions and rent buffers.
- this.tileYStartPositions = new List<(int y, int cdfY)>();
+ this.tileYStartPositions = new List<(int Y, int CdfY)>();
int cdfY = 0;
for (int y = 0; y < sourceHeight; y += tileHeight)
{
@@ -556,7 +556,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
private readonly MemoryAllocator allocator;
private readonly Buffer2D cdfMinBuffer2D;
private readonly Buffer2D cdfLutBuffer2D;
- private readonly List<(int y, int cdfY)> tileYStartPositions;
+ private readonly List<(int Y, int CdfY)> tileYStartPositions;
private readonly int tileWidth;
private readonly int tileHeight;
private readonly int luminanceLevels;
@@ -570,7 +570,7 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
MemoryAllocator allocator,
Buffer2D cdfMinBuffer2D,
Buffer2D cdfLutBuffer2D,
- List<(int y, int cdfY)> tileYStartPositions,
+ List<(int Y, int CdfY)> tileYStartPositions,
int tileWidth,
int tileHeight,
int luminanceLevels,
@@ -596,8 +596,8 @@ namespace SixLabors.ImageSharp.Processing.Processors.Normalization
for (int index = rows.Min; index < rows.Max; index++)
{
int cdfX = 0;
- int cdfY = this.tileYStartPositions[index].cdfY;
- int y = this.tileYStartPositions[index].y;
+ int cdfY = this.tileYStartPositions[index].CdfY;
+ int y = this.tileYStartPositions[index].Y;
int endY = Math.Min(y + this.tileHeight, this.sourceHeight);
Span cdfMinSpan = this.cdfMinBuffer2D.GetRowSpan(cdfY);
cdfMinSpan.Clear();