Bitmap/Midpoint circle algorithm: Difference between revisions
Line 296: | Line 296: | ||
testpic := Bitmap.NewImage(32, 32); |
testpic := Bitmap.NewImage(32, 32); |
||
Bitmap.Fill(testpic, Bitmap.White); |
Bitmap.Fill(testpic, Bitmap.White); |
||
Circle.Draw(testpic, Bitmap.Point{16, 16}, |
Circle.Draw(testpic, Bitmap.Point{16, 16}, 10, Bitmap.Black); |
||
PPM.Create("testpic.ppm", testpic); |
PPM.Create("testpic.ppm", testpic); |
||
END Main.</lang> |
END Main.</lang> |
Revision as of 22:21, 22 February 2009
You are encouraged to solve this task according to the task description, using any language you may know.
Using the data storage type defined on this page for raster images, write an implementation of the midpoint circle algorithm (also known as Bresenham's circle algorithm).
(definition on Wikipedia).
Ada
<lang ada> procedure Circle
( Picture : in out Image; Center : Point; Radius : Natural; Color : Pixel ) is F : Integer := 1 - Radius; ddF_X : Integer := 0; ddF_Y : Integer := -2 * Radius; X : Integer := 0; Y : Integer := Radius;
begin
Picture (Center.X, Center.Y + Radius) := Color; Picture (Center.X, Center.Y - Radius) := Color; Picture (Center.X + Radius, Center.Y) := Color; Picture (Center.X - Radius, Center.Y) := Color; while X < Y loop if F >= 0 then Y := Y - 1; ddF_Y := ddF_Y + 2; F := F + ddF_Y; end if; X := X + 1; ddF_X := ddF_X + 2; F := F + ddF_X + 1; Picture (Center.X + X, Center.Y + Y) := Color; Picture (Center.X - X, Center.Y + Y) := Color; Picture (Center.X + X, Center.Y - Y) := Color; Picture (Center.X - X, Center.Y - Y) := Color; Picture (Center.X + Y, Center.Y + X) := Color; Picture (Center.X - Y, Center.Y + X) := Color; Picture (Center.X + Y, Center.Y - X) := Color; Picture (Center.X - Y, Center.Y - X) := Color; end loop;
end Circle; </lang> The following illustrates use: <lang ada>
X : Image (1..16, 1..16);
begin
Fill (X, White); Circle (X, (8, 8), 5, Black); Print (X);
</lang> Sample output:
HHHHH H H H H H H H H H H H H H H H H H H HHHHH
C
<lang c>#define plot(x, y) put_pixel_clip(img, x, y, r, g, b)
void raster_circle(
image img, unsigned int x0, unsigned int y0, unsigned int radius, color_component r, color_component g, color_component b )
{
int f = 1 - radius; int ddF_x = 0; int ddF_y = -2 * radius; int x = 0; int y = radius;
plot(x0, y0 + radius); plot(x0, y0 - radius); plot(x0 + radius, y0); plot(x0 - radius, y0);
while(x < y) { if(f >= 0) { y--; ddF_y += 2; f += ddF_y; } x++; ddF_x += 2; f += ddF_x + 1; plot(x0 + x, y0 + y); plot(x0 - x, y0 + y); plot(x0 + x, y0 - y); plot(x0 - x, y0 - y); plot(x0 + y, y0 + x); plot(x0 - y, y0 + x); plot(x0 + y, y0 - x); plot(x0 - y, y0 - x); }
}
- undef plot</lang>
Forth
: circle { x y r color bmp -- } 1 r - 0 r 2* negate 0 r { f ddx ddy dx dy } color x y r + bmp b! color x y r - bmp b! color x r + y bmp b! color x r - y bmp b! begin dx dy < while f 0< 0= if dy 1- to dy ddy 2 + dup to ddy f + to f then dx 1+ to dx ddx 2 + dup to ddx f 1+ + to f color x dx + y dy + bmp b! color x dx - y dy + bmp b! color x dx + y dy - bmp b! color x dx - y dy - bmp b! color x dy + y dx + bmp b! color x dy - y dx + bmp b! color x dy + y dx - bmp b! color x dy - y dx - bmp b! repeat ;
12 12 bitmap value test 0 test bfill 6 6 5 blue test circle test bshow cr
Fortran
This code should be inside RCImagePrimitive (see here). The private subroutine draw_circle_toch
, which writes to a channel, is used by both draw_circle_rgb
and draw_circle_sc
and the interface allows to use draw_circle
with rgb images and grayscale images.
<lang fortran> interface draw_circle
module procedure draw_circle_sc, draw_circle_rgb end interface
private :: plot, draw_circle_toch</lang>
<lang fortran> subroutine plot(ch, p, v)
integer, dimension(:,:), intent(out) :: ch type(point), intent(in) :: p integer, intent(in) :: v
integer :: cx, cy ! I've kept the default 1-based array, but top-left corner pixel ! is labelled as (0,0). cx = p%x + 1 cy = p%y + 1
if ( (cx > 0) .and. (cx <= ubound(ch,1)) .and. & (cy > 0) .and. (cy <= ubound(ch,2)) ) then ch(cx,cy) = v end if end subroutine plot subroutine draw_circle_toch(ch, c, radius, v) integer, dimension(:,:), intent(out) :: ch type(point), intent(in) :: c integer, intent(in) :: radius, v
integer :: f, ddf_x, ddf_y, x, y
f = 1 - radius ddf_x = 0 ddf_y = -2 * radius x = 0 y = radius
call plot(ch, point(c%x, c%y + radius), v) call plot(ch, point(c%x, c%y - radius), v) call plot(ch, point(c%x + radius, c%y), v) call plot(ch, point(c%x - radius, c%y), v)
do while ( x < y ) if ( f >= 0 ) then y = y - 1 ddf_y = ddf_y + 2 f = f + ddf_y end if x = x + 1 ddf_x = ddf_x + 2 f = f + ddf_x + 1 call plot(ch, point(c%x + x, c%y + y), v) call plot(ch, point(c%x - x, c%y + y), v) call plot(ch, point(c%x + x, c%y - y), v) call plot(ch, point(c%x - x, c%y - y), v) call plot(ch, point(c%x + y, c%y + x), v) call plot(ch, point(c%x - y, c%y + x), v) call plot(ch, point(c%x + y, c%y - x), v) call plot(ch, point(c%x - y, c%y - x), v) end do end subroutine draw_circle_toch
subroutine draw_circle_rgb(img, c, radius, color) type(rgbimage), intent(out) :: img type(point), intent(in) :: c integer, intent(in) :: radius type(rgb), intent(in) :: color call draw_circle_toch(img%red, c, radius, color%red) call draw_circle_toch(img%green, c, radius, color%green) call draw_circle_toch(img%blue, c, radius, color%blue) end subroutine draw_circle_rgb
subroutine draw_circle_sc(img, c, radius, lum) type(scimage), intent(out) :: img type(point), intent(in) :: c integer, intent(in) :: radius, lum call draw_circle_toch(img%channel, c, radius, lum) end subroutine draw_circle_sc</lang>
Modula-3
<lang modula3>INTERFACE Circle;
IMPORT Bitmap;
PROCEDURE Draw(
img: Bitmap.T; center: Bitmap.Point; radius: CARDINAL; color: Bitmap.Pixel);
END Circle.</lang> <lang modula3>MODULE Circle;
IMPORT Bitmap;
PROCEDURE Draw(
img: Bitmap.T; center: Bitmap.Point; radius: CARDINAL; color: Bitmap.Pixel) = VAR f := 1 - radius; ddfx := 0; ddfy := - 2 * radius; x := 0; y := radius; BEGIN Bitmap.SetPixel(img, Bitmap.Point{center.x, center.y + radius}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x, center.y - radius}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x + radius, center.y}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x - radius, center.y}, color); WHILE x < y DO IF f >= 0 THEN y := y - 1; ddfy := ddfy + 2; f := f + ddfy; END; x := x + 1; ddfx := ddfx + 2; f := f + ddfx + 1; Bitmap.SetPixel(img, Bitmap.Point{center.x + x, center.y + y}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x - x, center.y + y}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x + x, center.y - y}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x - x, center.y - y}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x + y, center.y + x}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x - y, center.y + x}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x + y, center.y - x}, color); Bitmap.SetPixel(img, Bitmap.Point{center.x - y, center.y - x}, color); END; END Draw;
BEGIN END Circle.</lang>
Example (outputs a PPM image): <lang modula3>MODULE Main;
IMPORT Circle, Bitmap, PPM;
VAR testpic: Bitmap.T;
BEGIN
testpic := Bitmap.NewImage(32, 32); Bitmap.Fill(testpic, Bitmap.White); Circle.Draw(testpic, Bitmap.Point{16, 16}, 10, Bitmap.Black); PPM.Create("testpic.ppm", testpic);
END Main.</lang>
OCaml
<lang ocaml>let raster_circle ~img ~color ~c:(x0, y0) ~r =
let plot = put_pixel img color in let x = 0 and y = r and m = 5 - 4 * r in let rec loop x y m = plot (x0 + x) (y0 + y); plot (x0 + y) (y0 + x); plot (x0 - x) (y0 + y); plot (x0 - y) (y0 + x); plot (x0 + x) (y0 - y); plot (x0 + y) (y0 - x); plot (x0 - x) (y0 - y); plot (x0 - y) (y0 - x); let y, m = if m > 0 then (y - 1), (m - 8 * y) else y, m in if x <= y then let x = x + 1 in let m = m + 8 * x + 4 in loop x y m in loop x y m
- </lang>
Vedit macro language
<lang vedit> // Draw a circle using Bresenham's circle algorithm. // #21 = center x, #22 = center y; #23 = radius
- DRAW_CIRCLE:
- 30 = 1 - #23 // f
- 31 = 0 // ddF_x
- 32 = -2 * #23 // ddF_y
- 41 = 0 // x
- 42 = #23 // y
while (#41 <= #42) {
#1 = #21+#41; #2 = #22+#42; Call("DRAW_PIXEL") #1 = #21-#41; #2 = #22+#42; Call("DRAW_PIXEL") #1 = #21+#41; #2 = #22-#42; Call("DRAW_PIXEL") #1 = #21-#41; #2 = #22-#42; Call("DRAW_PIXEL") #1 = #21+#42; #2 = #22+#41; Call("DRAW_PIXEL") #1 = #21-#42; #2 = #22+#41; Call("DRAW_PIXEL") #1 = #21+#42; #2 = #22-#41; Call("DRAW_PIXEL") #1 = #21-#42; #2 = #22-#41; Call("DRAW_PIXEL") if (#30 >= 0) {
#42-- #32 += 2 #30 += #32
} #41++ #31 += 2 #30 += #31 + 1
}
return </lang>