File:Buddhabrot-deep.jpg
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File originale (768 × 768 pixel, dimensione del file: 126 KB, tipo MIME: image/jpeg)
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Dettagli
| Descrizione |
English: Self made, deeply iterated Buddhabrot. A version without lossy compression is available at Buddhabrot-deep.png (500 K)
Some relevant code at User:Evercat/Buddhabrot.c |
| Data | |
| Fonte | Trasferito da en.wikipedia su Commons. |
| Autore | Evercat di Wikipedia in inglese |
Licenza
|
Quest'opera è stata rilasciata nel pubblico dominio dal suo autore, Evercat di Wikipedia in inglese. Questa norma si applica in tutto il mondo. In alcuni paesi questo potrebbe non essere legalmente possibile. In tal caso: Evercat garantisce a chiunque il diritto di utilizzare quest'opera per qualsiasi scopo, senza alcuna condizione, a meno che tali condizioni siano richieste dalla legge. |
C src code
// Nebulabrot / Buddhabrot generator.
// Brought to you by Wikipedia...
// Written by User:Evercat
//
// Released under the GNU Free Documentation License
// or the GNU Public License, whichever you prefer:
// November 23, 2004
//
// This code is lame and confusing. I apologise.
// As I like to point out, my C is self-taught.
//
// Note: some folk mention possible improvements on the talk page:
// http://en.wikipedia.org/wiki/User_talk:Evercat/Buddhabrot.c
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#define OUTFILE "buddhabrot"
////////////////////////////////////////////////////////////////////////////////////
#define WIDTH 1024
#define HEIGHT 768
#define CENTRE_X -0.451 // For full set try -0.451 by 0
#define CENTRE_Y 0
#define ZOOM 310 // Try 310
#define SOURCE_COLUMNS (WIDTH * 10) // These lines control the number of source values iterated.
#define SOURCE_ROWS (HEIGHT * 10) // Try WIDTH and HEIGHT * 10
#define UPDATETICK 100 // Report status every nth column reached
#define RED_MULTIPLIER 0.09 // Multiply the number of hits in a pixel by these values
#define GREEN_MULTIPLIER 0.11 // (needs to be lower the greater the number of source
#define BLUE_MULTIPLIER 0.18 // values and iterations, else image will be too bright)
#define COLOUR_OFFSET -230 // This value is added to the number of hits before a pixel is drawn.
// It needs to be lower the more source columns/rows there are.
#define RED_ITERATIONS_LOWER 0
#define RED_ITERATIONS_UPPER 1000
#define GREEN_ITERATIONS_LOWER 0
#define GREEN_ITERATIONS_UPPER 1000
#define BLUE_ITERATIONS_LOWER 0
#define BLUE_ITERATIONS_UPPER 1000
#define SOURCE_LEFT_X -2.102613
#define SOURCE_RIGHT_X 1.200613
#define SOURCE_TOP_Y -1.237710
#define SOURCE_BOTTOM_Y 1.239710
#undef RANDOM_SOURCE
#define OPTIMISE // Don't bother iterating some values obviously in the set.
#define reduce(foo) (foo) // Macro to reduce colours, can use sqrt(n), log(n), etc, or just (n)
////////////////////////////////////////////////////////////////////////////////////
void drawpath(double x, double y, double target_startx, double target_starty, double pixel_width);
double rnd (void);
void drawbmp (char * filename);
////////////////////////////////////////////////////////////////////////////////////
long long redcount[WIDTH][HEIGHT];
long long greencount[WIDTH][HEIGHT];
long long bluecount[WIDTH][HEIGHT];
int iterations;
double red_multiplier = RED_MULTIPLIER;
double green_multiplier = GREEN_MULTIPLIER;
double blue_multiplier = BLUE_MULTIPLIER;
////////////////////////////////////////////////////////////////////////////////////
int main (int argc, char * argv[]) {
int i, j, n; // General purpose counters
double x, y; // Source coordinates of particle being tracked
int source_column, source_row; // Source grid location
double r, s, nextr, nexts; // Values as particle is iterated through the Mandelbrot function
double x_jump, y_jump; // Distances between particles in the source grid
double target_startx, target_starty; // Top-left coordinates of drawn area
double target_endx, target_endy; // Bottom-right coordinates of drawn area
double pixel_width; // Actual distance represented by a pixel in the drawn area
char filename[200];
for (i = 0; i < WIDTH; i++)
{
for (j = 0; j < HEIGHT; j++)
{
redcount[i][j] = 0;
greencount[i][j] = 0;
bluecount[i][j] = 0;
}
}
target_startx = CENTRE_X - ((double) WIDTH / (ZOOM * 2));
target_endx = CENTRE_X + ((double) WIDTH / (ZOOM * 2));
target_starty = CENTRE_Y - ((double) HEIGHT / (ZOOM * 2));
target_endy = CENTRE_Y + ((double) HEIGHT / (ZOOM * 2));
pixel_width = (target_endx - target_startx) / WIDTH;
x_jump = ((double) SOURCE_RIGHT_X - SOURCE_LEFT_X) / SOURCE_COLUMNS;
y_jump = ((double) SOURCE_BOTTOM_Y - SOURCE_TOP_Y) / SOURCE_ROWS;
iterations = RED_ITERATIONS_UPPER;
if (GREEN_ITERATIONS_UPPER > iterations) iterations = GREEN_ITERATIONS_UPPER;
if (BLUE_ITERATIONS_UPPER > iterations) iterations = BLUE_ITERATIONS_UPPER;
// Main bit...
x = SOURCE_LEFT_X;
for (source_column = 0; source_column < SOURCE_COLUMNS; source_column++, x += x_jump)
{
y = SOURCE_TOP_Y;
for (source_row = 0; source_row < SOURCE_ROWS; source_row++, y += y_jump)
{
#ifdef OPTIMISE
if
(
(x > -1.2 && x <= -1.1 && y > -0.1 && y < 0.1)
|| (x > -1.1 && x <= -0.9 && y > -0.2 && y < 0.2)
|| (x > -0.9 && x <= -0.8 && y > -0.1 && y < 0.1)
|| (x > -0.69 && x <= -0.61 && y > -0.2 && y < 0.2)
|| (x > -0.61 && x <= -0.5 && y > -0.37 && y < 0.37)
|| (x > -0.5 && x <= -0.39 && y > -0.48 && y < 0.48)
|| (x > -0.39 && x <= 0.14 && y > -0.55 && y < 0.55)
|| (x > 0.14 && x < 0.29 && y > -0.42 && y < -0.07)
|| (x > 0.14 && x < 0.29 && y > 0.07 && y < 0.42)
) continue;
#endif
r = 0; s = 0;
for (n = 0; n <= iterations; n++)
{
nextr = ((r * r) - (s * s)) + x;
nexts = (2 * r * s) + y;
r = nextr;
s = nexts;
if (n == iterations)
{
// drawpath(x, y, target_startx, target_starty, pixel_width);
break;
} else if ((r * r) + (s * s) > 4) {
drawpath(x, y, target_startx, target_starty, pixel_width);
break;
}
}
}
if (source_column % UPDATETICK == 0)
{
printf("Reached source column: %d of %d\n", source_column, SOURCE_COLUMNS);
}
}
sprintf(filename, "%s r %d g %d b %d spp %d.bmp", OUTFILE, RED_ITERATIONS_UPPER, GREEN_ITERATIONS_UPPER, BLUE_ITERATIONS_UPPER, (SOURCE_COLUMNS / WIDTH) * (SOURCE_ROWS / HEIGHT));
drawbmp(filename);
printf("Done.\n");
return 0;
}
void drawpath (double x, double y, double target_startx, double target_starty, double pixel_width)
{
double r, s, nextr, nexts;
int n;
int xpixel, ypixel;
r = 0; s = 0;
for (n = 0; n <= iterations; n++)
{
nextr = ((r * r) - (s * s)) + x;
nexts = (2 * r * s) + y;
r = nextr;
s = nexts;
if ((r * r) + (s * s) > 4) return;
xpixel = (r - target_startx) / pixel_width;
ypixel = (s - target_starty) / pixel_width;
if (xpixel > 0 && xpixel < WIDTH && ypixel > 0 && ypixel < HEIGHT)
{
if (n >= RED_ITERATIONS_LOWER && n <= RED_ITERATIONS_UPPER)
{
redcount[xpixel][ypixel] += 1;
}
if (n >= GREEN_ITERATIONS_LOWER && n <= GREEN_ITERATIONS_UPPER)
{
greencount[xpixel][ypixel] += 1;
}
if (n >= BLUE_ITERATIONS_LOWER && n <= BLUE_ITERATIONS_UPPER)
{
bluecount[xpixel][ypixel] += 1;
}
}
}
return;
}
void drawbmp (char * filename) {
unsigned int headers[13];
FILE * outfile;
int extrabytes;
int paddedsize;
int x; int y; int n;
int red, green, blue;
extrabytes = 4 - ((WIDTH * 3) % 4); // How many bytes of padding to add to each
// horizontal line - the size of which must
// be a multiple of 4 bytes.
if (extrabytes == 4)
extrabytes = 0;
paddedsize = ((WIDTH * 3) + extrabytes) * HEIGHT;
// Headers...
// Note that the "BM" identifier in bytes 0 and 1 is NOT included in these "headers".
headers[0] = paddedsize + 54; // bfSize (whole file size)
headers[1] = 0; // bfReserved (both)
headers[2] = 54; // bfOffbits
headers[3] = 40; // biSize
headers[4] = WIDTH; // biWidth
headers[5] = HEIGHT; // biHeight
// Would have biPlanes and biBitCount in position 6, but they're shorts.
// It's easier to write them out separately (see below) than pretend
// they're a single int, especially with endian issues...
headers[7] = 0; // biCompression
headers[8] = paddedsize; // biSizeImage
headers[9] = 0; // biXPelsPerMeter
headers[10] = 0; // biYPelsPerMeter
headers[11] = 0; // biClrUsed
headers[12] = 0; // biClrImportant
outfile = fopen(filename, "wb");
//
// Headers begin...
// When printing ints and shorts, we write out 1 character at a time to avoid endian issues.
//
fprintf(outfile, "BM");
for (n = 0; n <= 5; n++)
{
fprintf(outfile, "%c", headers[n] & 0x000000FF);
fprintf(outfile, "%c", (headers[n] & 0x0000FF00) >> 8);
fprintf(outfile, "%c", (headers[n] & 0x00FF0000) >> 16);
fprintf(outfile, "%c", (headers[n] & (unsigned int) 0xFF000000) >> 24);
}
// These next 4 characters are for the biPlanes and biBitCount fields.
fprintf(outfile, "%c", 1);
fprintf(outfile, "%c", 0);
fprintf(outfile, "%c", 24);
fprintf(outfile, "%c", 0);
for (n = 7; n <= 12; n++)
{
fprintf(outfile, "%c", headers[n] & 0x000000FF);
fprintf(outfile, "%c", (headers[n] & 0x0000FF00) >> 8);
fprintf(outfile, "%c", (headers[n] & 0x00FF0000) >> 16);
fprintf(outfile, "%c", (headers[n] & (unsigned int) 0xFF000000) >> 24);
}
//
// Headers done, now write the data...
//
for (y = HEIGHT - 1; y >= 0; y--) // BMP image format is written from bottom to top...
{
for (x = 0; x <= WIDTH - 1; x++)
{
red = reduce(redcount[x][y] + COLOUR_OFFSET) * red_multiplier;
green = reduce(greencount[x][y] + COLOUR_OFFSET) * green_multiplier;
blue = reduce(bluecount[x][y] + COLOUR_OFFSET) * blue_multiplier;
if (red > 255) red = 255; if (red < 0) red = 0;
if (green > 255) green = 255; if (green < 0) green = 0;
if (blue > 255) blue = 255; if (blue < 0) blue = 0;
// Also, it's written in (b,g,r) format...
fprintf(outfile, "%c", blue);
fprintf(outfile, "%c", green);
fprintf(outfile, "%c", red);
}
if (extrabytes) // See above - BMP lines must be of lengths divisible by 4.
{
for (n = 1; n <= extrabytes; n++)
{
fprintf(outfile, "%c", 0);
}
}
}
fclose(outfile);
return;
}
Registro originale del caricamento
La pagina di descrizione originale era qui. Tutti i nomi utente che seguono sono riferiti a en.wikipedia.
- 2005-02-15 21:28 Evercat 768×768× (234806 bytes) Self made
...
- (cur | prev) 00:13, 9 November 2004 Evercat (talk | contribs | block) (9 bytes) (Self made)
Registro originale del caricamento
Verklaring: (huidig) = huidige afbeelding, (verw) = verwijder de oude versie, (herstel) = breng oude versie terug.
Klik op de datum om de afbeeldingen die geüpload zijn op die datum te zien.
- (verw) (huidig) 10 nov 2004 21:38 . . nl:Gebruiker:Pethan Pethan ( nl:Overleg_gebruiker:Pethan Overleg) . . 768x768 (128603 bytes) (Buddha Mandelbrot)
| date/time | username | edit summary |
|---|---|---|
| 24 nov 2004 15:29 | nl:Gebruiker:82.41.253.249 | (heh) |
| 10 nov 2004 21:42 | nl:Gebruiker:Pethan | (bron) |
| 10 nov 2004 21:38 | nl:Gebruiker:Pethan | (Buddha Mandelbrot) |
nl:Afbeelding:Buddhabrot-deep.jpg
Cronologia del file
Fare clic su un gruppo data/ora per vedere il file come si presentava nel momento indicato.
| Data/Ora | Miniatura | Dimensioni | Utente | Commento | |
|---|---|---|---|---|---|
| attuale | 17:13, 21 gen 2006 | | 768 × 768 (126 KB) | Maksim | La bildo estas kopiita de wikipedia:nl. La originala priskribo estas: Buddha Mandelbrot van en:wikipedia door Evercat {{GFDL}} {| border="1" ! date/time || username || edit summary |---- | 24 nov 2004 15:29 || [[:nl:Gebruiker:82.4 |
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