Java 2D - Paint Java

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In computing, Java 2D is an API for drawing two-dimensional graphics using the Java programming language. Every Java 2D drawing operation can ultimately be treated as filling a shape using a paint and compositing the result onto the screen.


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Organization

The Java 2D API and its documentation are available for download as a part of JDK 6. Java 2D API classes are organised into the following packages in JDK 6:

  • java.awt The main package for the Java Abstract Window Toolkit.
  • java.awt.geom The Java standard library of two dimensional geometric shapes such as lines, ellipses, and quadrilaterals.
  • java.awt.font The library for manipulating glyphs in Java.
  • java.awt.color The library dealing with the many different ways that color can be represented.
  • java.awt.image The library for manipulating graphical images.
  • java.awt.print The library of tools for writing to paper.

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Basic concepts

These objects are a necessary part of every Java 2D drawing operation.

Shapes

A shape in Java 2D is a boundary which defines an inside and an outside. Pixels inside the shape are affected by the drawing operation, those outside are not.

Trying to fill a straight line segment will result in no pixels being affected, as such a shape does not contain any pixels itself. Instead, a thin rectangle must be used so that the shape contains some pixels.

Paints

A paint generates the colors to be used for each pixel of the fill operation. The simplest paint is java.awt.Color, which generates the same color for all pixels. More complicated paints may produce gradients, images, or indeed any combination of colors. Filling a circular shape using the color yellow results in a solid yellow circle, while filling the same circular shape using a paint that generates an image produces a circular cutout of the image.

Composites

During any drawing operation, there is a source (the pixels being produced by the paint) and a destination (the pixels already onscreen). Normally, the source pixels simply overwrite the destination pixels, but the composite allows this behavior to be changed.

The composite, given the source and destination pixels, produces the final result that ultimately ends up onscreen. The most common composite is java.awt.AlphaComposite, which can treat the pixels being drawn as partially transparent, so that the destination pixels show through to some degree.

Filling

To fill a shape, the first step is to identify which pixels fall inside the shape. These pixels will be affected by the fill operation. Pixels that are partially inside and partially outside the shape may be affected to a lesser degree if anti-aliasing is enabled.

The paint is then asked to generate a color for each of the pixels to be painted. In the common case of a solid-color fill, each pixel will be set to the same color.

The composite takes the pixels generated by the paint and combines them with the pixels already onscreen to produce the final result.


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Advanced objects

These objects can be viewed as performing their duties in terms of the simpler objects described above.

Transform

Every Java 2D operation is subject to a transform, so that shapes may be translated, rotated, sheared, and scaled as they are drawn. The active transform is most often the identity transform, which does nothing.

Filling using a transform can be viewed as simply creating a new, transformed shape and then filling that shape.

Stroke

In addition to the fill operation, Java 2D provides a draw operation. While fill draws the interior of a shape, draw draws its outline. The outline can be as simple as a thin line, or as complicated as a dashed line with each dash having rounded edges.

The object responsible for generating the outline is the stroke. Given an input shape, the stroke produces a new shape representing its outline. For instance, an infinitely thin line segment (with no interior) might be stroked into a one-pixel-wide rectangle.

A draw operation can therefore be described as creating a new, stroked object and then filling that object.

Technically speaking, the stroke is only required to accept an input shape and produce a new shape. The stroke implementation provided with Java 2D implements the outline rules described above, but a custom-written stroke could produce any shape it wished.


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Optimizations

Conceptually, drawing a straight black line in Java 2D can be thought of as creating a line segment, transforming it according to the current transform, stroking it to create a thin rectangle, querying this shape to compute the pixels being affected, generating the pixels using java.awt.Color.BLACK, and then compositing the results onto the screen.

However, performing this entire sequence of steps for each drawing operation would be very inefficient. Java 2D therefore optimizes common drawing operations so that many of these steps can be skipped. If the paint is a simple solid color, for instance, there is no need to actually command it to generate a list of colors to be painted. Likewise, if the default fully opaque composite is in use, actually asking it to perform the compositing operation is unnecessary and would waste effort.

Java 2D performs the minimum amount of work necessary to make it seem as if it is performing all of these steps for each operation, therefore retaining both great flexibility and high performance.


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Destination

For simplicity, the textual examples provided in this article have assumed that the screen is the destination device. However, the destination can be anything, such as a printer, memory image, or even an object which accepts Java 2D graphics commands and translates them into vector graphic image files.


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Java2D / OpenGL interoperability

Since Java SE 6, Java2D and OpenGL have become interoperable, allowing, for example, the drawing of animated 3D graphics instead of icons on a Button (see JOGL).

Source of the article : Wikipedia



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