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SUMMARY: NESTED | FIELD | CONSTR | METHOD | DETAIL: FIELD | CONSTR | METHOD |
java.lang.Object javax.microedition.lcdui.Graphics
Provides simple 2D geometric rendering capability.
Drawing primitives are provided for text, images, lines, rectangles, and arcs. Rectangles and arcs may also be filled with a solid color. Rectangles may also be specified with rounded corners.
A 24
-bit color model is provided, with
8
bits for each of red, green, and
blue components of a color. Not all devices support a full
24
bits' worth
of color and thus they will map colors requested by the application into
colors available on the device. Facilities are provided in the
Display
class for obtaining device characteristics, such
as
whether color is available and how many distinct gray levels are
available.
Applications may also use getDisplayColor()
to obtain the actual color that would be displayed
for a requested color.
This enables applications to adapt their behavior to a device without
compromising device independence.
For all rendering operations, source pixels are always combined with destination pixels using the Source Over Destination rule [Porter-Duff]. Other schemes for combining source pixels with destination pixels, such as raster-ops, are not provided.
For the text, line, rectangle, and arc drawing and filling primitives, the source pixel is a pixel representing the current color of the graphics object being used for rendering. This pixel is always considered to be fully opaque. With source pixel that is always fully opaque, the Source Over Destination rule has the effect of pixel replacement, where destination pixels are simply replaced with the source pixel from the graphics object.
The drawImage()
and drawRegion()
methods use an image as the source for rendering operations instead of the
current color of the graphics object. In this context, the Source Over
Destination rule has the following properties: a fully opaque pixel in the
source must replace the destination pixel, a fully transparent pixel in the
source must leave the destination pixel unchanged, and a semitransparent
pixel in the source must be alpha blended with the destination pixel.
Alpha blending of semitransparent pixels is required. If an implementation
does not support alpha blending, it must remove all semitransparency from
image source data at the time the image is created. See Alpha Processing for further discussion.
The destinations of all graphics rendering are considered to consist entirely of fully opaque pixels. A property of the Source Over Destination rule is that compositing any pixel with a fully opaque destination pixel always results in a fully opaque destination pixel. This has the effect of confining full and partial transparency to immutable images, which may only be used as the source for rendering operations.
Graphics may be rendered directly to the display or to an off-screen
image buffer. The destination of rendered graphics depends on the
provenance of the graphics object. A graphics object for rendering
to the display is passed to the Canvas
object's
paint()
method. This is the only means by which a graphics object may
be obtained whose destination is the display. Furthermore, applications
may draw using this graphics object only for the duration of the
paint()
method.
A graphics object for rendering to an off-screen image buffer may
be obtained by calling the
getGraphics()
method on the desired image.
A graphics object so obtained may be held indefinitely
by the application, and requests may be issued on this graphics
object at any time.
The default coordinate system's origin is at the upper left-hand corner of the destination. The X-axis direction is positive towards the right, and the Y-axis direction is positive downwards. Applications may assume that horizontal and vertical distances in the coordinate system represent equal distances on the actual device display, that is, pixels are square. A facility is provided for translating the origin of the coordinate system. All coordinates are specified as integers.
The coordinate system represents locations between pixels, not the
pixels themselves. Therefore, the first pixel in the upper left corner
of the display lies in the square bounded by coordinates
(0,0) , (1,0) , (0,1) , (1,1)
.
Under this definition, the semantics for fill operations are clear. Since coordinate grid lines lie between pixels, fill operations affect pixels that lie entirely within the region bounded by the coordinates of the operation. For example, the operation
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paints exactly six pixels. (In this example, and in all subsequent
examples, the variable g
is assumed to contain a
reference to a
Graphics
object.)
Each character of a font contains a set of pixels that forms the shape of
the character. When a character is painted, the pixels forming the
character's shape are filled with the Graphics
object's current color, and
the pixels not part of the character's shape are left untouched.
The text drawing calls
drawChar()
,
drawChars()
,
drawString()
, and
drawSubstring()
all draw text in this manner.
Lines, arcs, rectangles, and rounded rectangles may be drawn with either a
SOLID
or a DOTTED
stroke style, as set by
the setStrokeStyle()
method. The stroke style does not affect fill, text, and
image operations.
For the SOLID
stroke style,
drawing operations are performed with a one-pixel wide pen that fills
the pixel immediately
below and to the right of the specified coordinate. Drawn lines
touch pixels at both endpoints. Thus, the operation
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paints exactly one pixel, the first pixel in the upper left corner of the display.
Drawing operations under the DOTTED
stroke style will
touch a subset of
pixels that would have been touched under the SOLID
stroke style. The
frequency and length of dots is implementation-dependent. The endpoints of
lines and arcs are not guaranteed to be drawn, nor are the corner points of
rectangles guaranteed to be drawn. Dots are drawn by painting with the
current color; spaces between dots are left untouched.
An artifact of the coordinate system is that the area affected by a fill operation differs slightly from the area affected by a draw operation given the same coordinates. For example, consider the operations
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Statement (1) fills a rectangle w
pixels wide and
h
pixels high.
Statement (2) draws a rectangle whose left and top
edges are within the area filled by statement (1). However, the
bottom and right edges lie one pixel outside the filled area.
This is counterintuitive, but it preserves the invariant that
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has an effect identical to statement (2) above.
The exact pixels painted by drawLine()
and
drawArc()
are not
specified. Pixels touched by a fill operation must either
exactly overlap or directly abut pixels touched by the
corresponding draw operation. A fill operation must never leave
a gap between the filled area and the pixels touched by the
corresponding draw operation, nor may the fill operation touch
pixels outside the area bounded by the corresponding draw operation.
The clip is the set of pixels in the destination of the
Graphics
object that may be modified by graphics rendering
operations.
There is a single clip per Graphics
object.
The only pixels modified by graphics operations are those that lie within the
clip. Pixels outside the clip are not modified by any graphics operations.
Operations are provided for intersecting the current clip with a given rectangle and for setting the current clip outright. The application may specify the clip by supplying a clip rectangle using coordinates relative to the current coordinate system.
It is legal to specify a clip rectangle whose width or height is zero or negative. In this case the clip is considered to be empty, that is, no pixels are contained within it. Therefore, if any graphics operations are issued under such a clip, no pixels will be modified.
It is legal to specify a clip rectangle that extends beyond or resides entirely beyond the bounds of the destination. No pixels exist outside the bounds of the destination, and the area of the clip rectangle that is outside the destination is ignored. Only the pixels that lie both within the destination and within the specified clip rectangle are considered to be part of the clip.
Operations on the coordinate system,
such as translate()
,
do not modify the clip.
The methods
getClipX()
,
getClipY()
,
getClipWidth()
and
getClipHeight()
must return a rectangle that,
if passed to setClip
without an intervening change to
the Graphics
object's coordinate system, must result in
the identical set of pixels in the clip.
The rectangle returned from the getClip
family of methods
may differ from the clip rectangle that was requested in
setClip()
.
This can occur if the coordinate system has been changed or if
the implementation has chosen to intersect the clip rectangle
with the bounds of the destination of the Graphics
object.
If a graphics operation is affected by the clip, the pixels
touched by that operation must be the same ones that would be touched
as if the clip did not affect the operation. For example,
consider a clip represented by the rectangle (cx, cy, cw, ch)
and a point (x1, y1)
that
lies outside this rectangle and a point (x2, y2)
that lies within this
rectangle. In the following code fragment,
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The pixels touched by statement (4) must be identical to the pixels
within (cx, cy, cw, ch)
touched by statement (3).
The drawing of text is based on "anchor points".
Anchor points are used to minimize the amount of
computation required when placing text.
For example, in order to center a piece of text,
an application needs to call stringWidth()
or
charWidth()
to get the width and then perform a
combination of subtraction and division to
compute the proper location.
The method to draw text is defined as follows:
public void drawString(String text, int x, int y, int anchor);
This method draws text in the current color,
using the current font
with its anchor point at (x,y)
. The definition
of the anchor point must be one of the
horizontal constants (LEFT, HCENTER, RIGHT)
combined with one of the vertical constants
(TOP, BASELINE, BOTTOM)
using the bit-wise
OR
operator.
Zero may also be used as the value of an anchor point.
Using zero for the anchor point value gives results
identical to using TOP | LEFT
.
Vertical centering of the text is not specified since it is not considered
useful, it is hard to specify, and it is burdensome to implement. Thus,
the VCENTER
value is not allowed in the anchor point
parameter of text
drawing calls.
The actual position of the bounding box
of the text relative to the (x, y)
location is
determined by the anchor point. These anchor
points occur at named locations along the
outer edge of the bounding box. Thus, if f
is g
's current font (as returned by
g.getFont()
, the following calls will all have
identical results:
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For text drawing, the inter-character and inter-line spacing (leading)
specified by the font designer are included as part of the values returned
in the stringWidth()
and getHeight()
calls of class Font
.
For example, given the following code:
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Code fragments (5) and (6) behave similarly if not identically. This
occurs because f.stringWidth()
includes the inter-character spacing. The exact spacing of may differ
between these calls if the system supports font kerning.
Similarly, reasonable vertical spacing may be achieved simply by adding the font height to the Y-position of subsequent lines. For example:
|
draws string1
and string2
on separate lines with
an appropriate amount of inter-line spacing.
The stringWidth()
of the string and the
fontHeight()
of the font in which
it is drawn define the size of the bounding box of a piece of text. As
described above, this box includes inter-line and inter-character spacing.
The implementation is required to put this space below and to right of the
pixels actually belonging to the characters drawn. Applications that wish
to position graphics closely with respect to text (for example, to paint a
rectangle around a string of text) may assume that there is space below and
to the right of a string and that there is no space above
and to the
left of the string.
Anchor points are also used for positioning of images. Similar to text
drawing, the anchor point for an image specifies the point on the bounding
rectangle of the destination that is to positioned at the
(x,y)
location
given in the graphics request. Unlike text, vertical centering of images
is well-defined, and thus the VCENTER
value may be
used within the anchor
point parameter of image drawing requests. Because images have no notion
of a baseline, the BASELINE
value may not be used
within the anchor point
parameter of image drawing requests.
Field Summary | |
static int |
BASELINE
Constant for positioning the anchor point at the baseline of text. |
static int |
BOTTOM
Constant for positioning the anchor point of text and images below the text or image. |
static int |
DOTTED
Constant for the DOTTED stroke style. |
static int |
HCENTER
Constant for centering text and images horizontally around the anchor point |
static int |
LEFT
Constant for positioning the anchor point of text and images to the left of the text or image. |
static int |
RIGHT
Constant for positioning the anchor point of text and images to the right of the text or image. |
static int |
SOLID
Constant for the SOLID stroke style. |
static int |
TOP
Constant for positioning the anchor point of text and images above the text or image. |
static int |
VCENTER
Constant for centering images vertically around the anchor point. |
Method Summary | |
void |
clipRect(int x,
int y,
int width,
int height)
Intersects the current clip with the specified rectangle. |
void |
copyArea(int x_src,
int y_src,
int width,
int height,
int x_dest,
int y_dest,
int anchor)
Copies the contents of a rectangular area (x_src, y_src, width, height) to a destination area,
whose anchor point identified by anchor is located at
(x_dest, y_dest) . |
void |
drawArc(int x,
int y,
int width,
int height,
int startAngle,
int arcAngle)
Draws the outline of a circular or elliptical arc covering the specified rectangle, using the current color and stroke style. |
void |
drawChar(char character,
int x,
int y,
int anchor)
Draws the specified character using the current font and color. |
void |
drawChars(char[] data,
int offset,
int length,
int x,
int y,
int anchor)
Draws the specified characters using the current font and color. |
void |
drawImage(Image img,
int x,
int y,
int anchor)
Draws the specified image by using the anchor point. |
void |
drawLine(int x1,
int y1,
int x2,
int y2)
Draws a line between the coordinates (x1,y1) and
(x2,y2) using
the current color and stroke style. |
void |
drawRect(int x,
int y,
int width,
int height)
Draws the outline of the specified rectangle using the current color and stroke style. |
void |
drawRegion(Image src,
int x_src,
int y_src,
int width,
int height,
int transform,
int x_dest,
int y_dest,
int anchor)
Copies a region of the specified source image to a location within the destination, possibly transforming (rotating and reflecting) the image data using the chosen transform function. |
void |
drawRGB(int[] rgbData,
int offset,
int scanlength,
int x,
int y,
int width,
int height,
boolean processAlpha)
Renders a series of device-independent RGB+transparency values in a specified region. |
void |
drawRoundRect(int x,
int y,
int width,
int height,
int arcWidth,
int arcHeight)
Draws the outline of the specified rounded corner rectangle using the current color and stroke style. |
void |
drawString(String str,
int x,
int y,
int anchor)
Draws the specified String using the current font and color. |
void |
drawSubstring(String str,
int offset,
int len,
int x,
int y,
int anchor)
Draws the specified String using the current font and color. |
void |
fillArc(int x,
int y,
int width,
int height,
int startAngle,
int arcAngle)
Fills a circular or elliptical arc covering the specified rectangle. |
void |
fillRect(int x,
int y,
int width,
int height)
Fills the specified rectangle with the current color. |
void |
fillRoundRect(int x,
int y,
int width,
int height,
int arcWidth,
int arcHeight)
Fills the specified rounded corner rectangle with the current color. |
void |
fillTriangle(int x1,
int y1,
int x2,
int y2,
int x3,
int y3)
Fills the specified triangle will the current color. |
int |
getBlueComponent()
Gets the blue component of the current color. |
int |
getClipHeight()
Gets the height of the current clipping area. |
int |
getClipWidth()
Gets the width of the current clipping area. |
int |
getClipX()
Gets the X offset of the current clipping area, relative to the coordinate system origin of this graphics context. |
int |
getClipY()
Gets the Y offset of the current clipping area, relative to the coordinate system origin of this graphics context. |
int |
getColor()
Gets the current color. |
int |
getDisplayColor(int color)
Gets the color that will be displayed if the specified color is requested. |
Font |
getFont()
Gets the current font. |
int |
getGrayScale()
Gets the current grayscale value of the color being used for rendering operations. |
int |
getGreenComponent()
Gets the green component of the current color. |
int |
getRedComponent()
Gets the red component of the current color. |
int |
getStrokeStyle()
Gets the stroke style used for drawing operations. |
int |
getTranslateX()
Gets the X coordinate of the translated origin of this graphics context. |
int |
getTranslateY()
Gets the Y coordinate of the translated origin of this graphics context. |
void |
setClip(int x,
int y,
int width,
int height)
Sets the current clip to the rectangle specified by the given coordinates. |
void |
setColor(int RGB)
Sets the current color to the specified RGB values. |
void |
setColor(int red,
int green,
int blue)
Sets the current color to the specified RGB values. |
void |
setFont(Font font)
Sets the font for all subsequent text rendering operations. |
void |
setGrayScale(int value)
Sets the current grayscale to be used for all subsequent rendering operations. |
void |
setStrokeStyle(int style)
Sets the stroke style used for drawing lines, arcs, rectangles, and rounded rectangles. |
void |
translate(int x,
int y)
Translates the origin of the graphics context to the point (x, y) in the current coordinate system. |
Methods inherited from class java.lang.Object |
equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Field Detail |
public static final int HCENTER
Value 1
is assigned to HCENTER
.
public static final int VCENTER
Value 2
is assigned to VCENTER
.
public static final int LEFT
Value 4
is assigned to LEFT
.
public static final int RIGHT
Value 8
is assigned to RIGHT
.
public static final int TOP
Value 16
is assigned to TOP
.
public static final int BOTTOM
Value 32
is assigned to BOTTOM
.
public static final int BASELINE
Value 64
is assigned to BASELINE
.
public static final int SOLID
SOLID
stroke style.
Value 0
is assigned to SOLID
.
public static final int DOTTED
DOTTED
stroke style.
Value 1
is assigned to DOTTED
.
Method Detail |
public void translate(int x, int y)
(x, y)
in the current coordinate system. All coordinates
used in subsequent rendering operations on this graphics
context will be relative to this new origin.
The effect of calls to translate()
are
cumulative. For example, calling
translate(1, 2)
and then translate(3,
4)
results in a translation of
(4, 6)
.
The application can set an absolute origin (ax,
ay)
using the following
technique:
g.translate(ax - g.getTranslateX(), ay - g.getTranslateY())
x
- the x coordinate of the new translation originy
- the y coordinate of the new translation origingetTranslateX()
,
getTranslateY()
public int getTranslateX()
public int getTranslateY()
public int getColor()
0x00RRGGBB
setColor(int, int, int)
public int getRedComponent()
0-255
setColor(int, int, int)
public int getGreenComponent()
0-255
setColor(int, int, int)
public int getBlueComponent()
0-255
setColor(int, int, int)
public int getGrayScale()
setGrayScale()
, that value is simply
returned. If the color was set by one of the methods that allows setting
of the red, green, and blue components, the value returned is
computed from
the RGB color components (possibly in a device-specific fashion)
that best
approximates the brightness of that color.
0-255
setGrayScale(int)
public void setColor(int red, int green, int blue)
red
- the red component of the color being set in range
0-255
green
- the green component of the color being set in range
0-255
blue
- the blue component of the color being set in range
0-255
IllegalArgumentException
- if any of the color components
are outside of range 0-255
getColor()
public void setColor(int RGB)
0x00RRGGBB
. The high
order byte of
this value is ignored.
RGB
- the color being setgetColor()
public void setGrayScale(int value)
0-255
.
value
- the desired grayscale value
IllegalArgumentException
- if the gray value is out of rangegetGrayScale()
public Font getFont()
Font
,
setFont(javax.microedition.lcdui.Font)
public void setStrokeStyle(int style)
style
- can be SOLID
or DOTTED
IllegalArgumentException
- if the style
is illegalgetStrokeStyle()
public int getStrokeStyle()
SOLID
or DOTTED
setStrokeStyle(int)
public void setFont(Font font)
null
, it is equivalent to
setFont(Font.getDefaultFont())
.
font
- the specified fontFont
,
getFont()
,
drawString(java.lang.String, int, int, int)
,
drawChars(char[], int, int, int, int, int)
public int getClipX()
getClip
operation into two methods returning
integers is more performance and memory efficient than one
getClip()
call returning an object.
clipRect(int, int, int, int)
,
setClip(int, int, int, int)
public int getClipY()
getClip
operation into two methods returning
integers is more performance and memory efficient than one
getClip()
call returning an object.
clipRect(int, int, int, int)
,
setClip(int, int, int, int)
public int getClipWidth()
clipRect(int, int, int, int)
,
setClip(int, int, int, int)
public int getClipHeight()
clipRect(int, int, int, int)
,
setClip(int, int, int, int)
public void clipRect(int x, int y, int width, int height)
setClip
method.
Rendering operations have no effect outside of the clipping area.
x
- the x coordinate of the rectangle to intersect the clip withy
- the y coordinate of the rectangle to intersect the clip withwidth
- the width of the rectangle to intersect the clip withheight
- the height of the rectangle to intersect the clip withsetClip(int, int, int, int)
public void setClip(int x, int y, int width, int height)
x
- the x coordinate of the new clip rectangley
- the y coordinate of the new clip rectanglewidth
- the width of the new clip rectangleheight
- the height of the new clip rectangleclipRect(int, int, int, int)
public void drawLine(int x1, int y1, int x2, int y2)
(x1,y1)
and
(x2,y2)
using
the current color and stroke style.
x1
- the x coordinate of the start of the liney1
- the y coordinate of the start of the linex2
- the x coordinate of the end of the liney2
- the y coordinate of the end of the linepublic void fillRect(int x, int y, int width, int height)
x
- the x coordinate of the rectangle to be filledy
- the y coordinate of the rectangle to be filledwidth
- the width of the rectangle to be filledheight
- the height of the rectangle to be filleddrawRect(int, int, int, int)
public void drawRect(int x, int y, int width, int height)
(width + 1)
pixels wide by (height + 1)
pixels tall.
If either width or height is less than
zero, nothing is drawn.
x
- the x coordinate of the rectangle to be drawny
- the y coordinate of the rectangle to be drawnwidth
- the width of the rectangle to be drawnheight
- the height of the rectangle to be drawnfillRect(int, int, int, int)
public void drawRoundRect(int x, int y, int width, int height, int arcWidth, int arcHeight)
(width +
1)
pixels wide
by (height + 1)
pixels tall.
If either width
or height
is less than
zero, nothing is drawn.
x
- the x coordinate of the rectangle to be drawny
- the y coordinate of the rectangle to be drawnwidth
- the width of the rectangle to be drawnheight
- the height of the rectangle to be drawnarcWidth
- the horizontal diameter of the arc at the four cornersarcHeight
- the vertical diameter of the arc at the four cornersfillRoundRect(int, int, int, int, int, int)
public void fillRoundRect(int x, int y, int width, int height, int arcWidth, int arcHeight)
width
or height
is zero or less,
nothing is drawn.
x
- the x coordinate of the rectangle to be filledy
- the y coordinate of the rectangle to be filledwidth
- the width of the rectangle to be filledheight
- the height of the rectangle to be filledarcWidth
- the horizontal diameter of the arc at the four
cornersarcHeight
- the vertical diameter of the arc at the four cornersdrawRoundRect(int, int, int, int, int, int)
public void fillArc(int x, int y, int width, int height, int startAngle, int arcAngle)
The resulting arc begins at startAngle
and extends
for arcAngle
degrees.
Angles are interpreted such that 0
degrees
is at the 3
o'clock position.
A positive value indicates a counter-clockwise rotation
while a negative value indicates a clockwise rotation.
The center of the arc is the center of the rectangle whose origin
is (x, y) and whose size is specified by the
width
and height
arguments.
If either width
or height
is zero or less,
nothing is drawn.
The filled region consists of the "pie wedge"
region bounded
by the arc
segment as if drawn by drawArc()
, the radius extending from
the center to
this arc at startAngle
degrees, and radius extending
from the
center to this arc at startAngle + arcAngle
degrees.
The angles are specified relative to the non-square extents of
the bounding rectangle such that 45
degrees always
falls on the
line from the center of the ellipse to the upper right corner of
the bounding rectangle. As a result, if the bounding rectangle is
noticeably longer in one axis than the other, the angles to the
start and end of the arc segment will be skewed farther along the
longer axis of the bounds.
x
- the x coordinate of the upper-left corner of
the arc to be filled.y
- the y coordinate of the upper-left corner of the
arc to be filled.width
- the width of the arc to be filledheight
- the height of the arc to be filledstartAngle
- the beginning angle.arcAngle
- the angular extent of the arc,
relative to the start angle.drawArc(int, int, int, int, int, int)
public void drawArc(int x, int y, int width, int height, int startAngle, int arcAngle)
The resulting arc begins at startAngle
and extends
for arcAngle
degrees, using the current color.
Angles are interpreted such that 0
degrees
is at the 3
o'clock position.
A positive value indicates a counter-clockwise rotation
while a negative value indicates a clockwise rotation.
The center of the arc is the center of the rectangle whose origin
is (x, y) and whose size is specified by the
width
and height
arguments.
The resulting arc covers an area
width + 1
pixels wide
by height + 1
pixels tall.
If either width
or height
is less than zero,
nothing is drawn.
The angles are specified relative to the non-square extents of
the bounding rectangle such that 45
degrees always
falls on the
line from the center of the ellipse to the upper right corner of
the bounding rectangle. As a result, if the bounding rectangle is
noticeably longer in one axis than the other, the angles to the
start and end of the arc segment will be skewed farther along the
longer axis of the bounds.
x
- the x coordinate of the upper-left corner
of the arc to be drawny
- the y coordinate of the upper-left corner
of the arc to be drawnwidth
- the width of the arc to be drawnheight
- the height of the arc to be drawnstartAngle
- the beginning anglearcAngle
- the angular extent of the arc, relative to
the start anglefillArc(int, int, int, int, int, int)
public void drawString(String str, int x, int y, int anchor)
String
using the current font and color.
The x,y
position is the position of the anchor point.
See anchor points.
str
- the String
to be drawnx
- the x coordinate of the anchor pointy
- the y coordinate of the anchor pointanchor
- the anchor point for positioning the text
NullPointerException
- if str
is null
IllegalArgumentException
- if anchor is not a legal valuedrawChars(char[], int, int, int, int, int)
public void drawSubstring(String str, int offset, int len, int x, int y, int anchor)
String
using the current font and color.
The x,y
position is the position of the anchor point.
See anchor points.
The offset
and len
parameters must
specify a valid range of characters within
the string str
.
The offset
parameter must be within the
range [0..(str.length())]
, inclusive.
The len
parameter
must be a non-negative integer such that
(offset + len) <= str.length()
.
str
- the String
to be drawnoffset
- zero-based index of first character in the substringlen
- length of the substringx
- the x coordinate of the anchor pointy
- the y coordinate of the anchor pointanchor
- the anchor point for positioning the text
StringIndexOutOfBoundsException
- if offset
and length
do not specify
a valid range within the String
str
IllegalArgumentException
- if anchor
is not a legal value
NullPointerException
- if str
is null
drawString(String, int, int, int).
public void drawChar(char character, int x, int y, int anchor)
character
- the character to be drawnx
- the x coordinate of the anchor pointy
- the y coordinate of the anchor pointanchor
- the anchor point for positioning the text; see
anchor points
IllegalArgumentException
- if anchor
is not a legal valuedrawString(java.lang.String, int, int, int)
,
drawChars(char[], int, int, int, int, int)
public void drawChars(char[] data, int offset, int length, int x, int y, int anchor)
The offset
and length
parameters must
specify a valid range of characters within
the character array data
.
The offset
parameter must be within the
range [0..(data.length)]
, inclusive.
The length
parameter
must be a non-negative integer such that
(offset + length) <= data.length
.
data
- the array of characters to be drawnoffset
- the start offset in the datalength
- the number of characters to be drawnx
- the x coordinate of the anchor pointy
- the y coordinate of the anchor pointanchor
- the anchor point for positioning the text; see
anchor points
ArrayIndexOutOfBoundsException
- if offset
and length
do not specify a valid range within the data array
IllegalArgumentException
- if anchor is not a legal value
NullPointerException
- if data
is null
drawString(java.lang.String, int, int, int)
public void drawImage(Image img, int x, int y, int anchor)
If the source image contains transparent pixels, the corresponding pixels in the destination image must be left untouched. If the source image contains partially transparent pixels, a compositing operation must be performed with the destination pixels, leaving all pixels of the destination image fully opaque.
If img
is the same as the destination of this Graphics
object, the result is undefined. For copying areas within an
Image
, copyArea
should be used instead.
img
- the specified image to be drawnx
- the x coordinate of the anchor pointy
- the y coordinate of the anchor pointanchor
- the anchor point for positioning the image
IllegalArgumentException
- if anchor
is not a legal value
NullPointerException
- if img
is null
Image
public void drawRegion(Image src, int x_src, int y_src, int width, int height, int transform, int x_dest, int y_dest, int anchor)
The destination, if it is an image, must not be the same image as the source image. If it is, an exception is thrown. This restriction is present in order to avoid ill-defined behaviors that might occur if overlapped, transformed copies were permitted.
The transform function used must be one of the following, as defined
in the Sprite
class:
Sprite.TRANS_NONE
- causes the specified image
region to be copied unchanged
Sprite.TRANS_ROT90
- causes the specified image
region to be rotated clockwise by 90 degrees.
Sprite.TRANS_ROT180
- causes the specified image
region to be rotated clockwise by 180 degrees.
Sprite.TRANS_ROT270
- causes the specified image
region to be rotated clockwise by 270 degrees.
Sprite.TRANS_MIRROR
- causes the specified image
region to be reflected about its vertical center.
Sprite.TRANS_MIRROR_ROT90
- causes the specified image
region to be reflected about its vertical center and then rotated
clockwise by 90 degrees.
Sprite.TRANS_MIRROR_ROT180
- causes the specified image
region to be reflected about its vertical center and then rotated
clockwise by 180 degrees.
Sprite.TRANS_MIRROR_ROT270
- causes the specified image
region to be reflected about its vertical center and then rotated
clockwise by 270 degrees.
If the source region contains transparent pixels, the corresponding pixels in the destination region must be left untouched. If the source region contains partially transparent pixels, a compositing operation must be performed with the destination pixels, leaving all pixels of the destination region fully opaque.
The (x_src, y_src)
coordinates are relative to
the upper left
corner of the source image. The x_src
,
y_src
, width
, and height
parameters specify a rectangular region of the source image. It is
illegal for this region to extend beyond the bounds of the source
image. This requires that:
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The (x_dest, y_dest)
coordinates are relative to
the coordinate
system of this Graphics object. It is legal for the destination
area to extend beyond the bounds of the Graphics
object. Pixels
outside of the bounds of the Graphics
object will
not be drawn.
The transform is applied to the image data from the region of the
source image, and the result is rendered with its anchor point
positioned at location (x_dest, y_dest)
in the
destination.
src
- the source image to copy fromx_src
- the x coordinate of the upper left corner of the region
within the source image to copyy_src
- the y coordinate of the upper left corner of the region
within the source image to copywidth
- the width of the region to copyheight
- the height of the region to copytransform
- the desired transformation for the selected region
being copiedx_dest
- the x coordinate of the anchor point in the
destination drawing areay_dest
- the y coordinate of the anchor point in the
destination drawing areaanchor
- the anchor point for positioning the region within
the destination image
IllegalArgumentException
- if src
is the
same image as the
destination of this Graphics
object
NullPointerException
- if src
is null
IllegalArgumentException
- if transform
is invalid
IllegalArgumentException
- if anchor
is invalid
IllegalArgumentException
- if the region to be copied exceeds
the bounds of the source imagepublic void copyArea(int x_src, int y_src, int width, int height, int x_dest, int y_dest, int anchor)
(x_src, y_src, width, height)
to a destination area,
whose anchor point identified by anchor is located at
(x_dest, y_dest)
. The effect must be that the
destination area
contains an exact copy of the contents of the source area
immediately prior to the invocation of this method. This result must
occur even if the source and destination areas overlap.
The points (x_src, y_src)
and (x_dest,
y_dest)
are both specified
relative to the coordinate system of the Graphics
object. It is
illegal for the source region to extend beyond the bounds of the
graphic object. This requires that:
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where tx
and ty
represent the X and Y
coordinates of the translated origin of this graphics object, as
returned by getTranslateX()
and
getTranslateY()
, respectively.
However, it is legal for the destination area to extend beyond
the bounds of the Graphics
object. Pixels outside
of the bounds of
the Graphics
object will not be drawn.
The copyArea
method is allowed on all
Graphics
objects except those
whose destination is the actual display device. This restriction is
necessary because allowing a copyArea
method on
the display would
adversely impact certain techniques for implementing
double-buffering.
Like other graphics operations, the copyArea
method uses the Source
Over Destination rule for combining pixels. However, since it is
defined only for mutable images, which can contain only fully opaque
pixels, this is effectively the same as pixel replacement.
x_src
- the x coordinate of upper left corner of source areay_src
- the y coordinate of upper left corner of source areawidth
- the width of the source areaheight
- the height of the source areax_dest
- the x coordinate of the destination anchor pointy_dest
- the y coordinate of the destination anchor pointanchor
- the anchor point for positioning the region within
the destination image
IllegalStateException
- if the destination of this
Graphics
object is the display device
IllegalArgumentException
- if the region to be copied exceeds
the bounds of the source imagepublic void fillTriangle(int x1, int y1, int x2, int y2, int x3, int y3)
x1
- the x coordinate of the first vertex of the triangley1
- the y coordinate of the first vertex of the trianglex2
- the x coordinate of the second vertex of the triangley2
- the y coordinate of the second vertex of the trianglex3
- the x coordinate of the third vertex of the triangley3
- the y coordinate of the third vertex of the trianglepublic void drawRGB(int[] rgbData, int offset, int scanlength, int x, int y, int width, int height, boolean processAlpha)
rgbData
in a format
with 24
bits of RGB and an eight-bit alpha value
(0xAARRGGBB
),
with the first value stored at the specified offset. The
scanlength
specifies the relative offset within the array between the
corresponding pixels of consecutive rows. Any value for
scanlength
is acceptable (even negative values)
provided that all resulting references are within the
bounds of the rgbData
array. The ARGB data is
rasterized horizontally from left to right within each row.
The ARGB values are
rendered in the region specified by x
,
y
, width
and height
, and
the operation is subject to the current clip region
and translation for this Graphics
object.
Consider P(a,b)
to be the value of the pixel
located at column a
and row b
of the
Image, where rows and columns are numbered downward from the
top starting at zero, and columns are numbered rightward from
the left starting at zero. This operation can then be defined
as:
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for
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This capability is provided in the Graphics
class so that it can be
used to render both to the screen and to offscreen
Image
objects. The
ability to retrieve ARGB values is provided by the Image.getRGB(int[], int, int, int, int, int, int)
method.
If processAlpha
is true
, the
high-order byte of the ARGB format
specifies opacity; that is, 0x00RRGGBB
specifies a
fully transparent
pixel and 0xFFRRGGBB
specifies a fully opaque
pixel. Intermediate
alpha values specify semitransparency. If the implementation does not
support alpha blending for image rendering operations, it must remove
any semitransparency from the source data prior to performing any
rendering. (See Alpha Processing for
further discussion.)
If processAlpha
is false
, the alpha
values are ignored and all pixels
must be treated as completely opaque.
The mapping from ARGB values to the device-dependent pixels is platform-specific and may require significant computation.
rgbData
- an array of ARGB values in the format
0xAARRGGBB
offset
- the array index of the first ARGB valuescanlength
- the relative array offset between the
corresponding pixels in consecutive rows in the
rgbData
arrayx
- the horizontal location of the region to be renderedy
- the vertical location of the region to be renderedwidth
- the width of the region to be renderedheight
- the height of the region to be renderedprocessAlpha
- true
if rgbData
has an alpha channel,
false if all pixels are fully opaque
ArrayIndexOutOfBoundsException
- if the requested operation
will attempt to access an element of rgbData
whose index is either negative or beyond its length
NullPointerException
- if rgbData
is null
public int getDisplayColor(int color)
0xFFFFFF
(white) or 0x000000
(black)
depending on the brightness of the specified color.
color
- the desired color (in 0x00RRGGBB
format, the high-order
byte is ignored)
0x00RRGGBB
format)
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