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* Moved transition data to the function.

tags/v0.99.beta14
Sam Hocevar sam 18 lat temu
rodzic
commit
7a02aaa1f8
1 zmienionych plików z 62 dodań i 70 usunięć
  1. +62
    -70
      src/cacademo.c

+ 62
- 70
src/cacademo.c Wyświetl plik

@@ -63,21 +63,6 @@ void (*fn[])(enum action, cucul_canvas_t *) =
#define OFFSET_X(i) (i*2)
#define OFFSET_Y(i) (i*2)+1

float star[] = {
0.000000, -1.000000,
0.308000,-0.349000,
0.992000,-0.244000,
0.500000,0.266000,
0.632000,0.998000,
0.008000,0.659000,
-0.601000,0.995000,
-0.496000,0.275000,
-0.997000,-0.244000,
-0.313000,-0.349000
};

float star_rot[sizeof(star)/sizeof(*star)];

/* Global variables */
static int frame = 0;

@@ -211,8 +196,23 @@ end:
/* Transitions */
void do_transition(cucul_canvas_t *mask, int transition, float time)
{
float mulx = time*cucul_get_canvas_width(mask);
float muly = time*cucul_get_canvas_height(mask);
static float const star[] =
{
0.000000, -1.000000,
0.308000, -0.349000,
0.992000, -0.244000,
0.500000, 0.266000,
0.632000, 0.998000,
0.008000, 0.659000,
-0.601000, 0.995000,
-0.496000, 0.275000,
-0.997000, -0.244000,
-0.313000, -0.349000
};
static float star_rot[sizeof(star)/sizeof(*star)];

float mulx = time * cucul_get_canvas_width(mask);
float muly = time * cucul_get_canvas_height(mask);
int w2 = cucul_get_canvas_width(mask) / 2;
int h2 = cucul_get_canvas_height(mask) / 2;
float angle = (time*360)*3.14/180, x,y;
@@ -437,29 +437,29 @@ void metaballs(enum action action, cucul_canvas_t *cv)
static float i = 10.0, j = 17.0, k = 11.0;
static double offset[360 + 80];

int p, angle;
int n, angle;

switch(action)
{
case PREPARE:
/* Make the palette eatable by libcaca */
for(p = 0; p < 256; p++)
r[p] = g[p] = b[p] = a[p] = 0x0;
for(n = 0; n < 256; n++)
r[n] = g[n] = b[n] = a[n] = 0x0;
r[255] = g[255] = b[255] = 0xfff;

/* Generate ball sprite */
create_ball();

for(p = 0; p < METABALLS; p++)
for(n = 0; n < METABALLS; n++)
{
dd[p] = cucul_rand(0, 100);
di[p] = (float)cucul_rand(500, 4000) / 6000.0;
dj[p] = (float)cucul_rand(500, 4000) / 6000.0;
dk[p] = (float)cucul_rand(500, 4000) / 6000.0;
dd[n] = cucul_rand(0, 100);
di[n] = (float)cucul_rand(500, 4000) / 6000.0;
dj[n] = (float)cucul_rand(500, 4000) / 6000.0;
dk[n] = (float)cucul_rand(500, 4000) / 6000.0;
}

for(p = 0; p < 360 + 80; p++)
offset[p] = 1.0 + sin((double)(p * M_PI / 60));
for(n = 0; n < 360 + 80; n++)
offset[n] = 1.0 + sin((double)(n * M_PI / 60));
break;

case INIT:
@@ -474,34 +474,34 @@ void metaballs(enum action action, cucul_canvas_t *cv)
angle = frame % 360;

/* Crop the palette */
for(p = CROPBALL; p < 255; p++)
for(n = CROPBALL; n < 255; n++)
{
int t1, t2, t3;
double c1 = offset[angle];
double c2 = offset[angle + 40];
double c3 = offset[angle + 80];

t1 = p < 0x40 ? 0 : p < 0xc0 ? (p - 0x40) * 0x20 : 0xfff;
t2 = p < 0xe0 ? 0 : (p - 0xe0) * 0x80;
t3 = p < 0x40 ? p * 0x40 : 0xfff;
t1 = n < 0x40 ? 0 : n < 0xc0 ? (n - 0x40) * 0x20 : 0xfff;
t2 = n < 0xe0 ? 0 : (n - 0xe0) * 0x80;
t3 = n < 0x40 ? n * 0x40 : 0xfff;

r[p] = (c1 * t1 + c2 * t2 + c3 * t3) / 4;
g[p] = (c1 * t2 + c2 * t3 + c3 * t1) / 4;
b[p] = (c1 * t3 + c2 * t1 + c3 * t2) / 4;
r[n] = (c1 * t1 + c2 * t2 + c3 * t3) / 4;
g[n] = (c1 * t2 + c2 * t3 + c3 * t1) / 4;
b[n] = (c1 * t3 + c2 * t1 + c3 * t2) / 4;
}

/* Set the palette */
cucul_set_dither_palette(cucul_dither, r, g, b, a);

/* Silly paths for our balls */
for(p = 0; p < METABALLS; p++)
for(n = 0; n < METABALLS; n++)
{
float u = di[p] * i + dj[p] * j + dk[p] * sin(di[p] * k);
float v = dd[p] + di[p] * j + dj[p] * k + dk[p] * sin(dk[p] * i);
float u = di[n] * i + dj[n] * j + dk[n] * sin(di[n] * k);
float v = dd[n] + di[n] * j + dj[n] * k + dk[n] * sin(dk[n] * i);
u = sin(i + u * 2.1) * (1.0 + sin(u));
v = sin(j + v * 1.9) * (1.0 + sin(v));
x[p] = (XSIZ - METASIZE) / 2 + u * (XSIZ - METASIZE) / 4;
y[p] = (YSIZ - METASIZE) / 2 + v * (YSIZ - METASIZE) / 4;
x[n] = (XSIZ - METASIZE) / 2 + u * (XSIZ - METASIZE) / 4;
y[n] = (YSIZ - METASIZE) / 2 + v * (YSIZ - METASIZE) / 4;
}

i += 0.011;
@@ -510,10 +510,8 @@ void metaballs(enum action action, cucul_canvas_t *cv)

memset(screen, 0, XSIZ * YSIZ);

/* Here is all the trick. Maybe if you're that
* clever you'll understand. */
for(p = 0; p < METABALLS; p++)
draw_ball(screen, x[p], y[p]);
for(n = 0; n < METABALLS; n++)
draw_ball(screen, x[n], y[n]);
break;

case RENDER:
@@ -530,8 +528,6 @@ void metaballs(enum action action, cucul_canvas_t *cv)
}
}

/* Generate ball sprite
* You should read the comments, I already wrote that before ... */
static void create_ball(void)
{
int x, y;
@@ -547,7 +543,6 @@ static void create_ball(void)
}
}

/* You missed the trick ? */
static void draw_ball(uint8_t *screen, unsigned int bx, unsigned int by)
{
unsigned int color;
@@ -578,7 +573,6 @@ static void draw_ball(uint8_t *screen, unsigned int bx, unsigned int by)
static uint8_t disc[DISCSIZ * DISCSIZ];

static void put_disc(uint8_t *, int, int);
static void draw_disc(int, char);
static void draw_line(int, int, char);

void moire(enum action action, cucul_canvas_t *cv)
@@ -601,7 +595,17 @@ void moire(enum action action, cucul_canvas_t *cv)

/* Fill the circle */
for(i = DISCSIZ * 2; i > 0; i -= DISCTHICKNESS)
draw_disc(i, (i / DISCTHICKNESS) % 2);
{
int t, dx, dy;

for(t = 0, dx = 0, dy = i; dx <= dy; dx++)
{
draw_line(dx / 3, dy / 3, (i / DISCTHICKNESS) % 2);
draw_line(dy / 3, dx / 3, (i / DISCTHICKNESS) % 2);
t += t > 0 ? dx - dy-- : dx;
}
}

break;

@@ -660,19 +664,6 @@ static void put_disc(uint8_t *screen, int x, int y)
}
}

static void draw_disc(int r, char color)
{
int t, dx, dy;

for(t = 0, dx = 0, dy = r; dx <= dy; dx++)
{
draw_line(dx / 3, dy / 3, color);
draw_line(dy / 3, dx / 3, color);

t += t > 0 ? dx - dy-- : dx;
}
}

static void draw_line(int x, int y, char color)
{
if(x == 0 || y == 0 || y > DISCSIZ / 2)
@@ -780,18 +771,16 @@ void langton(enum action action, cucul_canvas_t *cv)
#define MINLEN 15
#define MAXLEN 30

struct drop
{
int x, y, speed, len;
char str[MAXLEN];
}
drop[MAXDROPS];

void matrix(enum action action, cucul_canvas_t *cv)
{
static int w, h;
static struct drop
{
int x, y, speed, len;
char str[MAXLEN];
}
drop[MAXDROPS];

int i, j;
int w, h, i, j;

switch(action)
{
@@ -826,6 +815,9 @@ void matrix(enum action action, cucul_canvas_t *cv)
break;

case RENDER:
w = cucul_get_canvas_width(cv);
h = cucul_get_canvas_height(cv);

cucul_set_color(cv, CUCUL_COLOR_BLACK, CUCUL_COLOR_BLACK);
cucul_clear_canvas(cv);



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