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jdk.awt.LinearGradientPaint

The LinearGradientPaint class provides a way to fill a Shape with a linear color gradient pattern. The user may specify two or more gradient colors, and this paint will provide an interpolation between each color. The user also specifies start and end points which define where in user space the color gradient should begin and end.

The user must provide an array of floats specifying how to distribute the colors along the gradient. These values should range from 0.0 to 1.0 and act like keyframes along the gradient (they mark where the gradient should be exactly a particular color).

In the event that the user does not set the first keyframe value equal to 0 and/or the last keyframe value equal to 1, keyframes will be created at these positions and the first and last colors will be replicated there. So, if a user specifies the following arrays to construct a gradient:

{Color.BLUE, Color.RED}, {.3f, .7f}

this will be converted to a gradient with the following keyframes:

{Color.BLUE, Color.BLUE, Color.RED, Color.RED}, {0f, .3f, .7f, 1f}

The user may also select what action the LinearGradientPaint object takes when it is filling the space outside the start and end points by setting CycleMethod to either REFLECTION or REPEAT. The distances between any two colors in any of the reflected or repeated copies of the gradient are the same as the distance between those same two colors between the start and end points. Note that some minor variations in distances may occur due to sampling at the granularity of a pixel. If no cycle method is specified, NO_CYCLE will be chosen by default, which means the endpoint colors will be used to fill the remaining area.

The colorSpace parameter allows the user to specify in which colorspace the interpolation should be performed, default sRGB or linearized RGB.

The following code demonstrates typical usage of LinearGradientPaint:

Point2D start = new Point2D.Float(0, 0);
Point2D end = new Point2D.Float(50, 50);
float[] dist = {0.0f, 0.2f, 1.0f};
Color[] colors = {Color.RED, Color.WHITE, Color.BLUE};
LinearGradientPaint p =
    new LinearGradientPaint(start, end, dist, colors);

This code will create a LinearGradientPaint which interpolates between red and white for the first 20% of the gradient and between white and blue for the remaining 80%.

This image demonstrates the example code above for each of the three cycle methods:

The LinearGradientPaint class provides a way to fill
a Shape with a linear color gradient pattern.  The user
may specify two or more gradient colors, and this paint will provide an
interpolation between each color.  The user also specifies start and end
points which define where in user space the color gradient should begin
and end.

The user must provide an array of floats specifying how to distribute the
colors along the gradient.  These values should range from 0.0 to 1.0 and
act like keyframes along the gradient (they mark where the gradient should
be exactly a particular color).

In the event that the user does not set the first keyframe value equal
to 0 and/or the last keyframe value equal to 1, keyframes will be created
at these positions and the first and last colors will be replicated there.
So, if a user specifies the following arrays to construct a gradient:


    {Color.BLUE, Color.RED}, {.3f, .7f}
this will be converted to a gradient with the following keyframes:


    {Color.BLUE, Color.BLUE, Color.RED, Color.RED}, {0f, .3f, .7f, 1f}


The user may also select what action the LinearGradientPaint object
takes when it is filling the space outside the start and end points by
setting CycleMethod to either REFLECTION or REPEAT.
The distances between any two colors in any of the reflected or repeated
copies of the gradient are the same as the distance between those same two
colors between the start and end points.
Note that some minor variations in distances may occur due to sampling at
the granularity of a pixel.
If no cycle method is specified, NO_CYCLE will be chosen by
default, which means the endpoint colors will be used to fill the
remaining area.

The colorSpace parameter allows the user to specify in which colorspace
the interpolation should be performed, default sRGB or linearized RGB.


The following code demonstrates typical usage of
LinearGradientPaint:


    Point2D start = new Point2D.Float(0, 0);
    Point2D end = new Point2D.Float(50, 50);
    float[] dist = {0.0f, 0.2f, 1.0f};
    Color[] colors = {Color.RED, Color.WHITE, Color.BLUE};
    LinearGradientPaint p =
        new LinearGradientPaint(start, end, dist, colors);

This code will create a LinearGradientPaint which interpolates
between red and white for the first 20% of the gradient and between white
and blue for the remaining 80%.


This image demonstrates the example code above for each
of the three cycle methods:
raw docstring

->linear-gradient-paintclj

(->linear-gradient-paint start end fractions colors)
(->linear-gradient-paint start end fractions colors cycle-method)
(->linear-gradient-paint start-x start-y end-x end-y fractions colors)
(->linear-gradient-paint start-x
                         start-y
                         end-x
                         end-y
                         fractions
                         colors
                         cycle-method)

Constructor.

Constructs a LinearGradientPaint with a default SRGB color space.

start-x - the X coordinate of the gradient axis start point in user space - float start-y - the Y coordinate of the gradient axis start point in user space - float end-x - the X coordinate of the gradient axis end point in user space - float end-y - the Y coordinate of the gradient axis end point in user space - float fractions - numbers ranging from 0.0 to 1.0 specifying the distribution of colors along the gradient - float[] colors - array of colors corresponding to each fractional value - java.awt.Color[] cycle-method - either NO_CYCLE, REFLECT, or REPEAT - java.awt.MultipleGradientPaint$CycleMethod

throws: java.lang.NullPointerException - if fractions array is null, or colors array is null, or cycleMethod is null

Constructor.

Constructs a LinearGradientPaint with a default SRGB
 color space.

start-x - the X coordinate of the gradient axis start point in user space - `float`
start-y - the Y coordinate of the gradient axis start point in user space - `float`
end-x - the X coordinate of the gradient axis end point in user space - `float`
end-y - the Y coordinate of the gradient axis end point in user space - `float`
fractions - numbers ranging from 0.0 to 1.0 specifying the distribution of colors along the gradient - `float[]`
colors - array of colors corresponding to each fractional value - `java.awt.Color[]`
cycle-method - either NO_CYCLE, REFLECT, or REPEAT - `java.awt.MultipleGradientPaint$CycleMethod`

throws: java.lang.NullPointerException - if fractions array is null, or colors array is null, or cycleMethod is null
raw docstring

create-contextclj

(create-context this cm device-bounds user-bounds transform hints)

Creates and returns a PaintContext used to generate a linear color gradient pattern. See the specification of the method in the Paint interface for information on null parameter handling.

cm - the preferred ColorModel which represents the most convenient format for the caller to receive the pixel data, or null if there is no preference. - java.awt.image.ColorModel device-bounds - the device space bounding box of the graphics primitive being rendered. - java.awt.Rectangle user-bounds - the user space bounding box of the graphics primitive being rendered. - java.awt.geom.Rectangle2D transform - the AffineTransform from user space into device space. - java.awt.geom.AffineTransform hints - the set of hints that the context object can use to choose between rendering alternatives. - java.awt.RenderingHints

returns: the PaintContext for generating color patterns. - java.awt.PaintContext

Creates and returns a PaintContext used to
 generate a linear color gradient pattern.
 See the specification of the
 method in the Paint interface for information
 on null parameter handling.

cm - the preferred ColorModel which represents the most convenient format for the caller to receive the pixel data, or null if there is no preference. - `java.awt.image.ColorModel`
device-bounds - the device space bounding box of the graphics primitive being rendered. - `java.awt.Rectangle`
user-bounds - the user space bounding box of the graphics primitive being rendered. - `java.awt.geom.Rectangle2D`
transform - the AffineTransform from user space into device space. - `java.awt.geom.AffineTransform`
hints - the set of hints that the context object can use to choose between rendering alternatives. - `java.awt.RenderingHints`

returns: the PaintContext for
         generating color patterns. - `java.awt.PaintContext`
raw docstring

get-end-pointclj

(get-end-point this)

Returns a copy of the end point of the gradient axis.

returns: a Point2D object that is a copy of the point that anchors the last color of this LinearGradientPaint - java.awt.geom.Point2D

Returns a copy of the end point of the gradient axis.

returns: a Point2D object that is a copy of the point
 that anchors the last color of this LinearGradientPaint - `java.awt.geom.Point2D`
raw docstring

get-start-pointclj

(get-start-point this)

Returns a copy of the start point of the gradient axis.

returns: a Point2D object that is a copy of the point that anchors the first color of this LinearGradientPaint - java.awt.geom.Point2D

Returns a copy of the start point of the gradient axis.

returns: a Point2D object that is a copy of the point
 that anchors the first color of this LinearGradientPaint - `java.awt.geom.Point2D`
raw docstring

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