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* Added squared transition to cacademo

tags/v0.99.beta14
Jean-Yves Lamoureux jylam pirms 18 gadiem
vecāks
revīzija
927ab4638c
2 mainītis faili ar 39 papildinājumiem un 5 dzēšanām
  1. +2
    -2
      build-kernel
  2. +37
    -3
      src/cacademo.c

+ 2
- 2
build-kernel Parādīt failu

@@ -33,6 +33,6 @@ gcc $LDFLAGS -o src/cacademo kernel/multiboot.o kernel/kernel.o src/cacademo.o c
objcopy -O binary src/cacademo cacademo.boot

# For further development: create floppy images using the kernel
#gcc -traditional -c -o bootsect.o /usr/src/linux/arch/i386/boot/bootsect.S
#ld -Ttext 0x0 -s --oformat binary bootsect.o -o cacademo.img
gcc -traditional -c -o bootsect.o /usr/src/linux/arch/i386/boot/bootsect.S
ld -Ttext 0x0 -s --oformat binary bootsect.o -o cacademo.img


+ 37
- 3
src/cacademo.c Parādīt failu

@@ -52,10 +52,10 @@ void (*fn[])(enum action, cucul_canvas_t *) =
#define DEMO_FRAMES cucul_rand(500, 1000)
#define TRANSITION_FRAMES 40

#define TRANSITION_COUNT 2
#define TRANSITION_COUNT 3
#define TRANSITION_CIRCLE 0
#define TRANSITION_STAR 1
#define TRANSITION_SQUARE 2

/* Common macros for dither-based demos */
#define XSIZ 256
@@ -210,6 +210,16 @@ void transition(cucul_canvas_t *mask, int tmode, int completed)
};
static float star_rot[sizeof(star)/sizeof(*star)];


static float const square[] =
{
-1, -1,
1, -1,
1, 1,
-1, 1
};
static float square_rot[sizeof(square)/sizeof(*square)];

float mulx = 0.0075f * completed * cucul_get_canvas_width(mask);
float muly = 0.0075f * completed * cucul_get_canvas_height(mask);
int w2 = cucul_get_canvas_width(mask) / 2;
@@ -219,6 +229,30 @@ void transition(cucul_canvas_t *mask, int tmode, int completed)

switch(tmode)
{
case TRANSITION_SQUARE:
/* Compute rotated coordinates */
for(i = 0; i < (sizeof(square) / sizeof(*square)) / 2; i++)
{
x = square[i * 2];
y = square[i * 2 + 1];

square_rot[i * 2] = x * cos(angle) - y * sin(angle);
square_rot[i * 2 + 1] = y * cos(angle) + x * sin(angle);
}

mulx *= 1.8;
muly *= 1.8;
cucul_fill_triangle(mask,
square_rot[0*2] * mulx + w2, square_rot[0*2+1] * muly + h2, \
square_rot[1*2] * mulx + w2, square_rot[1*2+1] * muly + h2, \
square_rot[2*2] * mulx + w2, square_rot[2*2+1] * muly + h2, '#');
cucul_fill_triangle(mask,
square_rot[0*2] * mulx + w2, square_rot[0*2+1] * muly + h2, \
square_rot[2*2] * mulx + w2, square_rot[2*2+1] * muly + h2, \
square_rot[3*2] * mulx + w2, square_rot[3*2+1] * muly + h2, '#');
break;


case TRANSITION_STAR:
/* Compute rotated coordinates */
for(i = 0; i < (sizeof(star) / sizeof(*star)) / 2; i++)
@@ -552,7 +586,7 @@ void moire(enum action action, cucul_canvas_t *cv)
{
draw_line(dx / 3, dy / 3, (i / DISCTHICKNESS) % 2);
draw_line(dy / 3, dx / 3, (i / DISCTHICKNESS) % 2);
t += t > 0 ? dx - dy-- : dx;
}
}


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