Class PngOptions
Class PngOptions
Название пространства: Aspose.Imaging.ImageOptions Ассоциация: Aspose.Imaging.dll (25.4.0)
Создание высококачественной портативной сетевой графики (PNG) без трудас нашей API, предлагая персонализированные варианты для уровня компрессии,Биты на пиксельные глубины, и альфа-биты. Бессмысленно обрабатывать контейнеры метаданных XMP,обеспечение всестороннего управления метаданными изображения и предоставление вам возможности адаптироватьPNG изображения до ваших точных спецификаций с легкостью.
public class PngOptions : ImageOptionsBase, IDisposable, IHasXmpData, IHasMetadata, ICloneableInheritance
object ← DisposableObject ← ImageOptionsBase ← PngOptions
Derived
Implements
IDisposable , IHasXmpData , IHasMetadata , ICloneable
Наследованные члены
ImageOptionsBase.Clone() , ImageOptionsBase.ReleaseManagedResources() , ImageOptionsBase.KeepMetadata , ImageOptionsBase.XmpData , ImageOptionsBase.Source , ImageOptionsBase.Palette , ImageOptionsBase.ResolutionSettings , ImageOptionsBase.VectorRasterizationOptions , ImageOptionsBase.BufferSizeHint , ImageOptionsBase.MultiPageOptions , ImageOptionsBase.FullFrame , ImageOptionsBase.ProgressEventHandler , DisposableObject.Dispose() , DisposableObject.ReleaseManagedResources() , DisposableObject.ReleaseUnmanagedResources() , DisposableObject.VerifyNotDisposed() , DisposableObject.Disposed , object.GetType() , object.MemberwiseClone() , object.ToString() , object.Equals(object?) , object.Equals(object?, object?) , object.ReferenceEquals(object?, object?) , object.GetHashCode()
Examples
Этот пример показывает использование различных классов из SaveOptions Namespace для экспорта. изображение типа Gif загружается в примере изображения, а затем экспортируется в несколько форматов.
string dir = "c:\\temp\\";
//Load an existing image (of type Gif) in an instance of Image class
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(dir + "sample.gif"))
{
//Export to BMP file format using the default options
image.Save(dir + "output.bmp", new Aspose.Imaging.ImageOptions.BmpOptions());
//Export to JPEG file format using the default options
image.Save(dir + "output.jpg", new Aspose.Imaging.ImageOptions.JpegOptions());
//Export to PNG file format using the default options
image.Save(dir + "output.png", new Aspose.Imaging.ImageOptions.PngOptions());
//Export to TIFF file format using the default options
image.Save(dir + "output.tif", new Aspose.Imaging.ImageOptions.TiffOptions(Aspose.Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default));
}Следующий пример показывает, как конвертировать мультистраничную векторную картину в PNG-формат в целом без ссылки на конкретный тип изображения.
string dir = "C:\\aspose.imaging\\net\\misc\\ImagingReleaseQATester\\Tests\\testdata\\2548";
string inputFilePath = System.IO.Path.Combine(dir, "Multipage.cdr");
string outputFilePath = System.IO.Path.Combine(dir, "Multipage.cdr.png");
Aspose.Imaging.ImageOptionsBase exportOptions = new Aspose.Imaging.ImageOptions.PngOptions();
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(inputFilePath))
{
exportOptions.MultiPageOptions = null;
// Export only first two pages. In fact, only one page will be rasterized because PNG is not a multi-page format.
Aspose.Imaging.IMultipageImage multipageImage = image as Aspose.Imaging.IMultipageImage;
if (multipageImage != null && (multipageImage.Pages != null && multipageImage.PageCount > 2))
{
exportOptions.MultiPageOptions = new Aspose.Imaging.ImageOptions.MultiPageOptions(new Aspose.Imaging.IntRange(0, 2));
}
if (image is Aspose.Imaging.VectorImage)
{
exportOptions.VectorRasterizationOptions = (Aspose.Imaging.ImageOptions.VectorRasterizationOptions)image.GetDefaultOptions(new object[] { Aspose.Imaging.Color.White, image.Width, image.Height });
exportOptions.VectorRasterizationOptions.TextRenderingHint = Aspose.Imaging.TextRenderingHint.SingleBitPerPixel;
exportOptions.VectorRasterizationOptions.SmoothingMode = Aspose.Imaging.SmoothingMode.None;
}
image.Save(outputFilePath, exportOptions);
}Для демонстрации работы пример создает новое изображение в формате PNG и рисует примитивные формы на поверхности изображения с использованием методов рисунка, выложенных классом графики.
//Creates an instance of FileStream
using (System.IO.FileStream stream = new System.IO.FileStream(@"C:\temp\output.png", System.IO.FileMode.Create))
{
//Create an instance of PngOptions and set its various properties
Aspose.Imaging.ImageOptions.PngOptions pngOptions = new Aspose.Imaging.ImageOptions.PngOptions();
//Set the Source for PngOptions
pngOptions.Source = new Aspose.Imaging.Sources.StreamSource(stream);
//Create an instance of Image
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Create(pngOptions, 500, 500))
{
//Create and initialize an instance of Graphics class
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
//Clear Graphics surface
graphics.Clear(Aspose.Imaging.Color.Wheat);
//Draw an Arc by specifying the Pen object having Black color,
//a Rectangle surrounding the Arc, Start Angle and Sweep Angle
graphics.DrawArc(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Black, 2), new Aspose.Imaging.Rectangle(200, 200, 100, 200), 0, 300);
//Draw a Bezier by specifying the Pen object having Blue color and co-ordinate Points.
graphics.DrawBezier(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Blue, 2), new Aspose.Imaging.Point(250, 100), new Aspose.Imaging.Point(300, 30), new Aspose.Imaging.Point(450, 100), new Aspose.Imaging.Point(235, 25));
//Draw a Curve by specifying the Pen object having Green color and an array of Points
graphics.DrawCurve(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Green, 2), new[] { new Aspose.Imaging.Point(100, 200), new Aspose.Imaging.Point(100, 350), new Aspose.Imaging.Point(200, 450) });
//Draw an Ellipse using the Pen object and a surrounding Rectangle
graphics.DrawEllipse(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Yellow, 2), new Aspose.Imaging.Rectangle(300, 300, 100, 100));
//Draw a Line
graphics.DrawLine(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Violet, 2), new Aspose.Imaging.Point(100, 100), new Aspose.Imaging.Point(200, 200));
//Draw a Pie segment
graphics.DrawPie(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Silver, 2), new Aspose.Imaging.Rectangle(new Aspose.Imaging.Point(200, 20), new Aspose.Imaging.Size(200, 200)), 0, 45);
//Draw a Polygon by specifying the Pen object having Red color and an array of Points
graphics.DrawPolygon(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Red, 2), new[] { new Aspose.Imaging.Point(20, 100), new Aspose.Imaging.Point(20, 200), new Aspose.Imaging.Point(220, 20) });
//Draw a Rectangle
graphics.DrawRectangle(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Orange, 2), new Aspose.Imaging.Rectangle(new Aspose.Imaging.Point(250, 250), new Aspose.Imaging.Size(100, 100)));
//Create a SolidBrush object and set its various properties
Aspose.Imaging.Brushes.SolidBrush brush = new Aspose.Imaging.Brushes.SolidBrush();
brush.Color = Color.Purple;
brush.Opacity = 100;
//Draw a String using the SolidBrush object and Font, at specific Point
graphics.DrawString("This image is created by Aspose.Imaging API", new Aspose.Imaging.Font("Times New Roman", 16), brush, new Aspose.Imaging.PointF(50, 400));
// save all changes.
image.Save();
}
}Constructors
PngOptions()
Инициализует новую инстанцию класса Aspose.Imaging.ImageOptions.PngOption.
public PngOptions()PngOptions(PngOptions)
Инициализует новую инстанцию класса Aspose.Imaging.ImageOptions.PngOption.
public PngOptions(PngOptions pngOptions)Parameters
pngOptions PngOptions
Опции для PNG.
Fields
DefaultCompressionLevel
Стандартный уровень компрессии.
public const int DefaultCompressionLevel = 6Полевая ценность
Properties
BitDepth
Получает или устанавливает значения глубины бит в диапазоне 1, 2, 4, 8, 16.
Подумайте о следующих границах:
Aspose.Imaging.FileFormats.Png.Type.IndexedColor поддерживает битную глубину 1, 2, 4, 8.
WL17_.FileFormats.Png.pngColorType.Grayscale, _Wl17.ФайлыФормы.Пng PngЦолорТип.ГраискалеWithAlpha поддерживает битовую глубину 8.
WL17_.FileFormats.Png.pngColorType.Truecolor, _Wl17.ФайлыФорматические формы.пнг.ПngКолорТип.ТруецлорВithАлфа поддерживает битовую глубину 8, 16.
public byte BitDepth { get; set; }Стоимость недвижимости
Examples
Этот пример показывает, как создать изображение PNG с указанными опциями, заполнить его линейными градиентными цветами и сохранить его в файл.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.PngOptions createOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// The number of bits per color channel
createOptions.BitDepth = 8;
// Each pixel is a (red, green, blue) triple followed by the alpha component.
createOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// The maximum level of compression.
createOptions.CompressionLevel = 9;
// Usage of filters allows to compress continuous tonal images more effectively.
createOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Sub;
// Use progressive loading
createOptions.Progressive = true;
// Create a PNG image with custom parameters.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(createOptions, 100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with a semi-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
// Save to a file.
pngImage.Save(dir + "output.explicitoptions.png");
}Следующий пример показывает, как сохранить изображение в формате PNG с помощью различных вариантов.
string dir = "c:\\temp\\";
// Create a PNG image of 100x100 px.
// You can also load image of any supported format from a file or a stream.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with the blue-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
Aspose.Imaging.ImageOptions.PngOptions saveOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// Progressive loading.
saveOptions.Progressive = true;
// Set the horizontal and vertical resolution to 96 pixels per inch.
saveOptions.ResolutionSettings = new Aspose.Imaging.ResolutionSetting(96.0, 96.0);
// Each pixel is a (red, green, blue) triple followed by alpha.
saveOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// Set the maximum level of compression.
saveOptions.CompressionLevel = 9;
// This is the best compression, but the slowest execution time.
// Adaptive filtering means that saving process will choose most sutable filter for each data row.
saveOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Adaptive;
// The number of bits per channel.
saveOptions.BitDepth = 8;
// Save to a file.
pngImage.Save(dir + "output.png", saveOptions);
}ColorType
Получает или устанавливает тип цвета.
public PngColorType ColorType { get; set; }Стоимость недвижимости
Examples
Следующий пример показывает, как компрессировать изображение PNG, используя индексированный цвет с лучшей палетой
// Loads png image
string sourceFilePath="OriginalRings.png";
string outputFilePath="OriginalRingsOutput.png";
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(sourceFilePath))
{
image.Save(outputFilePath, new Aspose.Imaging.ImageOptions.PngOptions()
{
Progressive = true,
// Use indexed color type
ColorType = Aspose.Imaging.FileFormats.Png.PngColorType.IndexedColor,
// Use maximal compression
CompressionLevel = 9,
// Get the closest 8-bit color palette which covers as many pixels as possible, so that a palettized image
// is almost visually indistinguishable from a non-palletized one.
Palette = Aspose.Imaging.ColorPaletteHelper.GetCloseImagePalette((Aspose.Imaging.RasterImage)image, 256, Aspose.Imaging.PaletteMiningMethod.Histogram)
});
}
// The output file size should be significantly reducedЭтот пример показывает, как создать изображение PNG с указанными опциями, заполнить его линейными градиентными цветами и сохранить его в файл.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.PngOptions createOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// The number of bits per color channel
createOptions.BitDepth = 8;
// Each pixel is a (red, green, blue) triple followed by the alpha component.
createOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// The maximum level of compression.
createOptions.CompressionLevel = 9;
// Usage of filters allows to compress continuous tonal images more effectively.
createOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Sub;
// Use progressive loading
createOptions.Progressive = true;
// Create a PNG image with custom parameters.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(createOptions, 100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with a semi-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
// Save to a file.
pngImage.Save(dir + "output.explicitoptions.png");
}Следующий пример показывает, как сохранить изображение в формате PNG с помощью различных вариантов.
string dir = "c:\\temp\\";
// Create a PNG image of 100x100 px.
// You can also load image of any supported format from a file or a stream.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with the blue-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
Aspose.Imaging.ImageOptions.PngOptions saveOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// Progressive loading.
saveOptions.Progressive = true;
// Set the horizontal and vertical resolution to 96 pixels per inch.
saveOptions.ResolutionSettings = new Aspose.Imaging.ResolutionSetting(96.0, 96.0);
// Each pixel is a (red, green, blue) triple followed by alpha.
saveOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// Set the maximum level of compression.
saveOptions.CompressionLevel = 9;
// This is the best compression, but the slowest execution time.
// Adaptive filtering means that saving process will choose most sutable filter for each data row.
saveOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Adaptive;
// The number of bits per channel.
saveOptions.BitDepth = 8;
// Save to a file.
pngImage.Save(dir + "output.png", saveOptions);
}CompressionLevel
Получается или устанавливается уровень компрессии Aspose.Imaging.FileFormats.Png.pngImage в диапазоне от 0 до 9.Чем выше стоимость - тем эффективнее она.
public int CompressionLevel { get; set; }Стоимость недвижимости
Examples
Следующий пример показывает, как компрессировать изображение PNG, используя индексированный цвет с лучшей палетой
// Loads png image
string sourceFilePath="OriginalRings.png";
string outputFilePath="OriginalRingsOutput.png";
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(sourceFilePath))
{
image.Save(outputFilePath, new Aspose.Imaging.ImageOptions.PngOptions()
{
Progressive = true,
// Use indexed color type
ColorType = Aspose.Imaging.FileFormats.Png.PngColorType.IndexedColor,
// Use maximal compression
CompressionLevel = 9,
// Get the closest 8-bit color palette which covers as many pixels as possible, so that a palettized image
// is almost visually indistinguishable from a non-palletized one.
Palette = Aspose.Imaging.ColorPaletteHelper.GetCloseImagePalette((Aspose.Imaging.RasterImage)image, 256, Aspose.Imaging.PaletteMiningMethod.Histogram)
});
}
// The output file size should be significantly reducedЭтот пример показывает, как создать изображение PNG с указанными опциями, заполнить его линейными градиентными цветами и сохранить его в файл.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.PngOptions createOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// The number of bits per color channel
createOptions.BitDepth = 8;
// Each pixel is a (red, green, blue) triple followed by the alpha component.
createOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// The maximum level of compression.
createOptions.CompressionLevel = 9;
// Usage of filters allows to compress continuous tonal images more effectively.
createOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Sub;
// Use progressive loading
createOptions.Progressive = true;
// Create a PNG image with custom parameters.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(createOptions, 100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with a semi-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
// Save to a file.
pngImage.Save(dir + "output.explicitoptions.png");
}Следующий пример показывает, как сохранить изображение в формате PNG с помощью различных вариантов.
string dir = "c:\\temp\\";
// Create a PNG image of 100x100 px.
// You can also load image of any supported format from a file or a stream.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with the blue-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
Aspose.Imaging.ImageOptions.PngOptions saveOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// Progressive loading.
saveOptions.Progressive = true;
// Set the horizontal and vertical resolution to 96 pixels per inch.
saveOptions.ResolutionSettings = new Aspose.Imaging.ResolutionSetting(96.0, 96.0);
// Each pixel is a (red, green, blue) triple followed by alpha.
saveOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// Set the maximum level of compression.
saveOptions.CompressionLevel = 9;
// This is the best compression, but the slowest execution time.
// Adaptive filtering means that saving process will choose most sutable filter for each data row.
saveOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Adaptive;
// The number of bits per channel.
saveOptions.BitDepth = 8;
// Save to a file.
pngImage.Save(dir + "output.png", saveOptions);
}FilterType
Получается или устанавливается тип фильтра, используемый во время процесса сохранения файла png.
public PngFilterType FilterType { get; set; }Стоимость недвижимости
Examples
Этот пример показывает, как создать изображение PNG с указанными опциями, заполнить его линейными градиентными цветами и сохранить его в файл.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.PngOptions createOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// The number of bits per color channel
createOptions.BitDepth = 8;
// Each pixel is a (red, green, blue) triple followed by the alpha component.
createOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// The maximum level of compression.
createOptions.CompressionLevel = 9;
// Usage of filters allows to compress continuous tonal images more effectively.
createOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Sub;
// Use progressive loading
createOptions.Progressive = true;
// Create a PNG image with custom parameters.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(createOptions, 100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with a semi-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
// Save to a file.
pngImage.Save(dir + "output.explicitoptions.png");
}Следующий пример показывает, как разные типы фильтров влияют на размер изображения PNG.
Aspose.Imaging.FileFormats.Png.PngFilterType[] filterTypes = new Aspose.Imaging.FileFormats.Png.PngFilterType[]
{
Aspose.Imaging.FileFormats.Png.PngFilterType.None,
Aspose.Imaging.FileFormats.Png.PngFilterType.Up,
Aspose.Imaging.FileFormats.Png.PngFilterType.Sub,
Aspose.Imaging.FileFormats.Png.PngFilterType.Paeth,
Aspose.Imaging.FileFormats.Png.PngFilterType.Avg,
Aspose.Imaging.FileFormats.Png.PngFilterType.Adaptive,
};
foreach (Aspose.Imaging.FileFormats.Png.PngFilterType filterType in filterTypes)
{
Aspose.Imaging.ImageOptions.PngOptions options = new Aspose.Imaging.ImageOptions.PngOptions();
using (Aspose.Imaging.Image image = Image.Load("c:\\temp\\sample.png"))
{
// Set a filter type
options.FilterType = filterType;
using (System.IO.MemoryStream stream = new System.IO.MemoryStream())
{
image.Save(stream, options);
System.Console.WriteLine("The filter type is {0}, the output image size is {1} bytes.", filterType, stream.Length);
}
}
}
//The output may look like this:
//The filter type is None, the output image size is 116845 bytes.
//The filter type is Up, the output image size is 86360 bytes.
//The filter type is Sub, the output image size is 94907 bytes.
//The filter type is Paeth, the output image size is 86403 bytes.
//The filter type is Avg, the output image size is 89956 bytes.
//The filter type is Adaptive, the output image size is 97248 bytes.Следующий пример показывает, как сохранить изображение в формате PNG с помощью различных вариантов.
string dir = "c:\\temp\\";
// Create a PNG image of 100x100 px.
// You can also load image of any supported format from a file or a stream.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with the blue-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
Aspose.Imaging.ImageOptions.PngOptions saveOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// Progressive loading.
saveOptions.Progressive = true;
// Set the horizontal and vertical resolution to 96 pixels per inch.
saveOptions.ResolutionSettings = new Aspose.Imaging.ResolutionSetting(96.0, 96.0);
// Each pixel is a (red, green, blue) triple followed by alpha.
saveOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// Set the maximum level of compression.
saveOptions.CompressionLevel = 9;
// This is the best compression, but the slowest execution time.
// Adaptive filtering means that saving process will choose most sutable filter for each data row.
saveOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Adaptive;
// The number of bits per channel.
saveOptions.BitDepth = 8;
// Save to a file.
pngImage.Save(dir + "output.png", saveOptions);
}Progressive
Получается или устанавливается значение, указывающее на то, является ли Aspose.Imaging.FileFormats.Png. PngImage прогрессивным.
public bool Progressive { get; set; }Стоимость недвижимости
Examples
Следующий пример показывает, как компрессировать изображение PNG, используя индексированный цвет с лучшей палетой
// Loads png image
string sourceFilePath="OriginalRings.png";
string outputFilePath="OriginalRingsOutput.png";
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(sourceFilePath))
{
image.Save(outputFilePath, new Aspose.Imaging.ImageOptions.PngOptions()
{
Progressive = true,
// Use indexed color type
ColorType = Aspose.Imaging.FileFormats.Png.PngColorType.IndexedColor,
// Use maximal compression
CompressionLevel = 9,
// Get the closest 8-bit color palette which covers as many pixels as possible, so that a palettized image
// is almost visually indistinguishable from a non-palletized one.
Palette = Aspose.Imaging.ColorPaletteHelper.GetCloseImagePalette((Aspose.Imaging.RasterImage)image, 256, Aspose.Imaging.PaletteMiningMethod.Histogram)
});
}
// The output file size should be significantly reducedЭтот пример показывает, как создать изображение PNG с указанными опциями, заполнить его линейными градиентными цветами и сохранить его в файл.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.PngOptions createOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// The number of bits per color channel
createOptions.BitDepth = 8;
// Each pixel is a (red, green, blue) triple followed by the alpha component.
createOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// The maximum level of compression.
createOptions.CompressionLevel = 9;
// Usage of filters allows to compress continuous tonal images more effectively.
createOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Sub;
// Use progressive loading
createOptions.Progressive = true;
// Create a PNG image with custom parameters.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(createOptions, 100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with a semi-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
// Save to a file.
pngImage.Save(dir + "output.explicitoptions.png");
}Следующий пример показывает, как сохранить изображение в формате PNG с помощью различных вариантов.
string dir = "c:\\temp\\";
// Create a PNG image of 100x100 px.
// You can also load image of any supported format from a file or a stream.
using (Aspose.Imaging.FileFormats.Png.PngImage pngImage = new Aspose.Imaging.FileFormats.Png.PngImage(100, 100))
{
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(pngImage.Width, pngImage.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Transparent);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(pngImage);
// Fill the image with the blue-transparent gradient.
graphics.FillRectangle(gradientBrush, pngImage.Bounds);
Aspose.Imaging.ImageOptions.PngOptions saveOptions = new Aspose.Imaging.ImageOptions.PngOptions();
// Progressive loading.
saveOptions.Progressive = true;
// Set the horizontal and vertical resolution to 96 pixels per inch.
saveOptions.ResolutionSettings = new Aspose.Imaging.ResolutionSetting(96.0, 96.0);
// Each pixel is a (red, green, blue) triple followed by alpha.
saveOptions.ColorType = Imaging.FileFormats.Png.PngColorType.TruecolorWithAlpha;
// Set the maximum level of compression.
saveOptions.CompressionLevel = 9;
// This is the best compression, but the slowest execution time.
// Adaptive filtering means that saving process will choose most sutable filter for each data row.
saveOptions.FilterType = Aspose.Imaging.FileFormats.Png.PngFilterType.Adaptive;
// The number of bits per channel.
saveOptions.BitDepth = 8;
// Save to a file.
pngImage.Save(dir + "output.png", saveOptions);
}
