Kada radite s obrađivanjem slike u .NET-u, uobičajena je potreba da se više slika – često različitih veličina – spajanje u jedan izlaz. Tipični slučajevi upotrebe uključuju kolage, sprite listove, kontaktne listiće ili marketinške bannere. Ovaj tutorial pokazuje kako se slike koristeći Aspose.Imaging za .Net s preciznom kontrolom rasporeda: osi (horizontalno/vertikalno), usklađivanje (top/center/bottom i lijevo/centro/pravo), vanjski pading, i spazanje među slikama. Također ćemo pokriti siguran, prekogranični pristup koji se temelji na Aspose Graphics Vatra je.
Što ćete izgraditi
- Razvrstavanje: * horizontalno ili vertikalno
- Slijedeći članak: *
Horizontalni raspored → vertikalna usklađenost:
Top,Middle,BottomVertikalno usklađivanje s horizontalnim rasponom:
Left,Center,RightPadding: vanjski pading i inter-item spacing
Background: čvrsta boja za punjenje
Formati: Mješoviti formati opterećenja (JPG, PNG, itd.), osim na png/JPEG
Potpuni primjer
using System;
using System.Collections.Generic;
using System.IO;
using Aspose.Imaging;
using Aspose.Imaging.ImageOptions;
namespace ImagingMergeDemo
{
public enum MergeAxis { Horizontal, Vertical }
public enum VAlign { Top, Middle, Bottom }
public enum HAlign { Left, Center, Right }
public static class ImageMerger
{
/// <summary>
/// Merges input images into a single image with alignment and padding.
/// </summary>
/// <param name="inputPaths">List of source image file paths.</param>
/// <param name="axis">Horizontal or Vertical stacking.</param>
/// <param name="outerPadding">Padding around the whole collage (in pixels).</param>
/// <param name="spacing">Spacing between images (in pixels).</param>
/// <param name="bgColor">Background color for the canvas.</param>
/// <param name="verticalAlign">Only used when axis == Horizontal (Top/Middle/Bottom inside the row).</param>
/// <param name="horizontalAlign">Only used when axis == Vertical (Left/Center/Right inside the column).</param>
/// <param name="outputPath">Destination file path. Extension determines encoder (e.g., .png, .jpg).</param>
public static void Merge(
IReadOnlyList<string> inputPaths,
MergeAxis axis,
int outerPadding,
int spacing,
Color bgColor,
VAlign verticalAlign,
HAlign horizontalAlign,
string outputPath)
{
if (inputPaths is null || inputPaths.Count == 0)
throw new ArgumentException("No input images provided.");
// Load all images first so we can compute canvas size.
var loaded = new List<Image>(inputPaths.Count);
try
{
foreach (var p in inputPaths)
{
var img = Image.Load(p);
loaded.Add(img);
}
// Compute canvas size.
// For horizontal axis: width = sum(widths) + spacings + 2*outerPadding
// height = max(heights) + 2*outerPadding
// For vertical axis: height = sum(heights) + spacings + 2*outerPadding
// width = max(widths) + 2*outerPadding
int totalWidth, totalHeight;
if (axis == MergeAxis.Horizontal)
{
int sumWidths = 0, maxH = 0;
for (int i = 0; i < loaded.Count; i++)
{
sumWidths += loaded[i].Width;
maxH = Math.Max(maxH, loaded[i].Height);
}
totalWidth = sumWidths + ((loaded.Count - 1) * spacing) + 2 * outerPadding;
totalHeight = maxH + 2 * outerPadding;
}
else
{
int sumHeights = 0, maxW = 0;
for (int i = 0; i < loaded.Count; i++)
{
sumHeights += loaded[i].Height;
maxW = Math.Max(maxW, loaded[i].Width);
}
totalHeight = sumHeights + ((loaded.Count - 1) * spacing) + 2 * outerPadding;
totalWidth = maxW + 2 * outerPadding;
}
// Create canvas (use PNG by default for lossless output; you can switch to JPEGOptions)
using var canvas = Image.Create(new PngOptions(), totalWidth, totalHeight);
// Draw on canvas
using var g = new Graphics(canvas);
g.Clear(bgColor);
int cursorX = outerPadding;
int cursorY = outerPadding;
for (int i = 0; i < loaded.Count; i++)
{
var img = loaded[i];
int drawX, drawY;
if (axis == MergeAxis.Horizontal)
{
// X flows left -> right
drawX = cursorX;
// Y depends on vertical alignment vs tallest height
drawY = verticalAlign switch
{
VAlign.Top => outerPadding,
VAlign.Middle => outerPadding + (totalHeight - 2 * outerPadding - img.Height) / 2,
VAlign.Bottom => outerPadding + (totalHeight - 2 * outerPadding - img.Height),
_ => outerPadding
};
// Draw and move X cursor
g.DrawImage(img, new Rectangle(drawX, drawY, img.Width, img.Height));
cursorX += img.Width + spacing;
}
else
{
// Y flows top -> bottom
drawY = cursorY;
// X depends on horizontal alignment vs widest width
drawX = horizontalAlign switch
{
HAlign.Left => outerPadding,
HAlign.Center => outerPadding + (totalWidth - 2 * outerPadding - img.Width) / 2,
HAlign.Right => outerPadding + (totalWidth - 2 * outerPadding - img.Width),
_ => outerPadding
};
// Draw and move Y cursor
g.DrawImage(img, new Rectangle(drawX, drawY, img.Width, img.Height));
cursorY += img.Height + spacing;
}
}
// Save with encoder that matches extension
SaveByExtension(canvas, outputPath);
}
finally
{
// Dispose loaded images
foreach (var img in loaded)
img.Dispose();
}
}
private static void SaveByExtension(Image image, string outputPath)
{
var ext = Path.GetExtension(outputPath).ToLowerInvariant();
ImageOptionsBase opts = ext switch
{
".jpg" or ".jpeg" => new JpegOptions { Quality = 90 },
".png" => new PngOptions(),
_ => new PngOptions() // default to PNG
};
image.Save(outputPath, opts);
}
}
// Example usage
public class Program
{
public static void Main()
{
var inputs = new List<string>
{
"image1.jpg",
"image2.png",
"image3.jpg"
};
// Horizontal strip, vertically centered, with padding/spacing
ImageMerger.Merge(
inputPaths: inputs,
axis: MergeAxis.Horizontal,
outerPadding: 20,
spacing: 10,
bgColor: Color.White,
verticalAlign: VAlign.Middle,
horizontalAlign: HAlign.Center, // ignored for horizontal axis
outputPath: "merged_horizontal.png"
);
// Vertical stack, horizontally right-aligned
ImageMerger.Merge(
inputPaths: inputs,
axis: MergeAxis.Vertical,
outerPadding: 20,
spacing: 12,
bgColor: Color.FromArgb(255, 245, 245, 245),
verticalAlign: VAlign.Middle, // ignored for vertical axis
horizontalAlign: HAlign.Right,
outputPath: "merged_vertical.jpg"
);
}
}
}
korak po korak vodič
Korak 1: Preuzmite slike
Preuzmite sve ulazne slike s Image.Load(path)Držite ih živima sve dok nakon crtanja, a zatim uklonite.
Korak 2: Određivanje veličine
- Horizontalna rasporeda: širina = suma širine + prostorije + vanjsko padanje; visina - maksimalna višina + izvanjskog padanja.
- Vertikalni raspored: visina = iznos visine + prostorije + vanjsko padanje; širina - maksimalna širina + izvanjski pad.
Korak 3: Kreirajte izlazne kanve
Stvoriti korištenje Image.Create(new PngOptions(), width, height) (ili JpegOptions ako preferirate gubitni proizvod). jasno s bojom pozadine.
Korak 4: Konfigurirajte Alignment & Padding
- Horizontalna fuzja → izračunati Y po
Top / Middle / Bottom. - Vertikalno spajanje → izračunati X po
Left / Center / Right. - Apply
outerPaddingispacingi dosljedno.
Korak 5: Napravite svaku sliku
Korištenje Graphics.DrawImage(image, new Rectangle(x, y, image.Width, image.Height)).
Korak 6: Sačuvajte rezultat
Odaberite koder na temelju proširenja izlaznog imena datoteke (na primjer, .png → PngOptions, .jpg → JpegOptions { Quality = … }).
Najbolje prakse
- Normalizirajte formate: Ako trebate transparentne pozadine, sačuvajte kao PNG. Za manje datoteke bez transparentnosti, koristite JPEG i tune
Quality. - Guardrails: Validirajte popis ulazaka, upravljajte nestalim datotekama i uzmite u obzir maksimalne dimenzije kanve kako biste izbjegli OOM.
- Na raspolaganju *:
Image,GraphicsDostupno - korištenjeusingilitry/finally. - Sjednakost boja: Ako ulaznici imaju mješovite boje, ovisite o defaultima Aspose ili izričito pretvorite kada je to potrebno.
- Batching: Za velike setove, protok izlaza dok idete ili stvaranje više ploča/strana.
More in this category
- Optimizacija animiranih GIF-a u .NET-u pomoću Aspose.Imaging
- Optimizacija multi-page TIFF-a za arhiviranje u .NET-u s Aspose-om
- Animacije na temelju podataka u .NET-u s Aspose.Imaging
- Bez gubitaka i kvalitetno definirana kompresija slike u .NET-u s Aspose.Imaging
- HEIC na JPEG/PNG Konverzija s Aspose.Imaging za .NET
