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streamlined M. Herweg's animations: now using Bresenham's line algorithm, removed obvious bugs, added some comments, saving 232 bytes

feature/2015
Christian Kroll 13 years ago
parent
commit
1a3239be1d
  1. 362
      animations/mherweg.c
  2. 21
      animations/mherweg.h
  3. 7
      display_loop.c

362
animations/mherweg.c

@ -5,186 +5,186 @@
#include "../util.h"
#define RANDOM8(x) random8(x)
#define PGM(x) pgm_read_byte(&(x))
/*
* The following animations were developed by Martin Herweg (hence the name)
* as a personal aid for getting familiar with programming the Borg.
*
* Although these animations are rarely used among Borg owner's, we left them in
* because of their simplicity in hopes that a novice Borg developer may find
* them useful.
*/
// straight or non straight line from one point to the other
// value=brightness
static void line(pixel p1, pixel p2, unsigned char value)
{
char dx, dy, stepx, stepy, fraction;
// macro for simplifying flash memory access
#define PGM(x) pgm_read_byte(&(x))
dy = p2.y - p1.y;
dx = p2.x - p1.x;
if (dy < 0)
{
dy = -dy;
stepy = -1;
}
else
{
stepy = 1;
}
// use 8 bit operands where feasible
#if NUM_ROWS < 127 && NUM_COLS < 127
typedef signed char operand_t;
#else
typedef int operand_t;
#endif
if (dx < 0)
{
dx = -dx;
stepx = -1;
}
else
{
stepx = 1;
}
dx <<= 1;
dy <<= 1;
/**
* An implementation of Bresenham's line drawing algorithm.
* @param p1 first coordinate of the line
* @param p2 second coordinate of the line
* @param color brightness level of the line
*/
static void line(pixel p1,
pixel const p2,
unsigned char const color)
{
operand_t const dx = p1.x < p2.x ? p2.x - p1.x : p1.x - p2.x;
operand_t const sx = p1.x < p2.x ? 1 : -1;
operand_t const dy = p1.y < p2.y ? p2.y - p1.y : p1.y - p2.y;
operand_t const sy = p1.y < p2.y ? 1 : -1;
operand_t error = dx - dy;
setpixel(p1, value);
if (dx > dy)
while(1)
{
fraction = dy - (dx >> 1);
while (p1.x != p2.x)
setpixel(p1, color);
if ((p1.x == p2.x) && (p1.y == p2.y))
break;
operand_t const error2 = 2 * error;
if (error2 > -dy)
{
if (fraction >= 0)
{
p1.y += stepy;
fraction -= dx;
}
p1.x += stepx;
fraction += dy;
setpixel(p1, value);
error -= dy;
p1.x += sx;
}
}
else
{
fraction = dx - (dy >> 1);
while (p1.y != p2.y)
if (error2 < dx)
{
if (fraction >= 0)
{
p1.x += stepx;
fraction -= dy;
}
p1.y += stepy;
fraction += dx;
setpixel(p1, value);
error += dx;
p1.y += sy;
}
}
}
// filled_rectangle p1=upper right corner, w=width, h=height ,
// value=brightness
static void filled_rectangle(pixel p1,
unsigned char w,
unsigned char h,
unsigned char value)
/**
* Draws a rectangle at the given coordinates.
* @param p coordinate of the rectangle's upper right corner
* @param w width of the rectangle
* @param h height of the rectangle
* @param color brightness level of the rectangle
*/
static void filled_rectangle(pixel p,
unsigned char const w,
unsigned char const h,
unsigned char const color)
{
unsigned char y;
for (y = p1.y; y < (p1.y + h); y++)
// emulate the rectangle via consecutive drawn lines
for (unsigned char y = p.y; y < (p.y + h); ++y)
{
line((pixel){p1.x,y}, (pixel){(p1.x+w-1),y}, value);
line((pixel){p.x, y}, (pixel){p.x + w - 1, y}, color);
}
}
void checkbox()
/**
* Draws a checkbox like figure.
*/
static void checkbox()
{
unsigned char x, delay = 250;
// some parameters regarding appearance and timing
unsigned char const color = NUMPLANE; // brightest color
int const delay = 250, shiftdelay = 30;
// quadrat aus linien
line((pixel){0, 0}, (pixel){7, 0}, 3);
wait (delay);
line ((pixel){7, 0}, (pixel){7, 7}, 3);
wait (delay);
line ((pixel){7, 7}, (pixel){0, 7}, 3);
wait (delay);
line ((pixel){0, 7}, (pixel){0, 0}, 3);
wait (delay);
// draw a surrounding square
static pixel const square[] = {{0, 0}, {7, 0}, {7, 7}, {0, 7}, {0, 0}};
for (unsigned char i = 0; i < 4; ++i)
{
line(square[i], square[i + 1], color);
wait(delay);
}
// 2 diagonale lininen
line ((pixel){7, 7}, (pixel){0, 0}, 3);
// draw two diagonal lines
line ((pixel){7, 7}, (pixel){0, 0}, color);
wait (delay);
line ((pixel){0, 7}, (pixel){7, 0}, 3);
line ((pixel){0, 7}, (pixel){7, 0}, color);
wait (delay * 3);
for (x = NUM_COLS; x--;)
// shift image to the right (shift_pximap_l() really shifts to right)
for (unsigned char x = NUM_COLS; x--;)
{
// shift image right
shift_pixmap_l ();
wait (30);
shift_pixmap_l();
wait (shiftdelay);
}
}
void movinglines()
/**
* Animated lines walking over the screen.
*/
static void movinglines()
{
unsigned char x, y, n;
line((pixel){NUM_COLS - 1, NUM_ROWS - 1}, (pixel){NUM_COLS - 1, 0}, 3);
// linie wandert nach rechts
for (x = 0; x < NUM_COLS; x++)
// some parameters regarding appearance and timing
unsigned char const color = NUMPLANE; // brightest color
unsigned char const blank = 0;
int const delay = 100;
// a line walking to the right
line((pixel){NUM_COLS - 1, NUM_ROWS - 1}, (pixel){NUM_COLS - 1, 0}, color);
for (unsigned char x = 0; x < NUM_COLS; x++)
{
shift_pixmap_l ();
wait (100);
shift_pixmap_l();
wait (delay);
}
// von unten nach oben
for (y = NUM_ROWS; y--;)
// a line walking from the lower to the upper border
for (unsigned char y = NUM_ROWS; y--;)
{
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, 3);
wait (100);
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, 0);
//wait(10);
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, color);
wait (delay);
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, blank);
}
// eine linie von rechts nach links und 1-8 mal von oben nach unten
// je nach display format das ganze 4 mal
for (n = 0; n < 4; n++)
// quickly moving cross hairs
for (unsigned char n = 0; n < 4; n++)
{
for (x = 0; x < NUM_COLS - 1; x++)
for (unsigned char x = 0; x < NUM_COLS - 1; x++)
{
y = x % NUM_ROWS;
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, 3);
line ((pixel){x, 0}, (pixel){x, NUM_ROWS - 1}, 3);
wait (50);
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, 0);
line ((pixel){x, 0}, (pixel){x, NUM_ROWS - 1}, 0);
//wait(10);
unsigned char y = x % NUM_ROWS;
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, color);
line ((pixel){x, 0}, (pixel){x, NUM_ROWS - 1}, color);
wait (delay / 2);
line ((pixel){0, y}, (pixel){NUM_COLS - 1, y}, blank);
line ((pixel){x, 0}, (pixel){x, NUM_ROWS - 1}, blank);
}
}
}
//rechteckmuster mit helligkeitsstufen
void rectangle1()
/**
* Draws a gradient colored square.
*/
static void rectangle1()
{
unsigned char x, value, xcenter, ycenter, size;
unsigned int delay = 500;
xcenter = NUM_COLS / 2;
ycenter = NUM_ROWS / 2;
// we want a centered square
unsigned char const xcenter = NUM_COLS / 2, ycenter = NUM_ROWS / 2;
// it should be as big as the borg's height
unsigned char size = NUM_ROWS;
// darkest color as a starting point for the gradient
unsigned char color = 0;
// wait about 500 ms between each frame
int const delay = 500;
// create a gradient by drawing shrinking rectangles on top of each other
clear_screen(0);
size = NUM_ROWS;
value = 3;
for (x = 8; x > 0; x--)
for (unsigned char x = 8; x > 0; x--)
{
if (value < NUMPLANE)
value++;
else
value = 0;
// draw the rectangle and wait for a moment
filled_rectangle((pixel){(xcenter - x), (ycenter - x)},
size, size, value);
size, size, color);
wait (delay);
// iterate through all colors periodically
++color;
color %= (NUMPLANE + 1);
// shrink the dimensions of the succeeding rectangle
size -= 2;
}
@ -192,65 +192,93 @@ void rectangle1()
}
// zufallsrechtecke
void rectangles()
/**
* Draws randomly placed rectangles.
*/
static void rectangles()
{
unsigned char value, n, x, y, h, w;
clear_screen(0);
for (n = 0; n < 60; n++)
unsigned char const blank = 0;
clear_screen(blank);
for (unsigned char n = 0; n < 60; n++)
{
x = RANDOM8() % NUM_COLS;
y = RANDOM8() % NUM_ROWS;
h = RANDOM8() % NUM_COLS / 2;
w = RANDOM8() % NUM_ROWS / 2;
value = RANDOM8() % (NUMPLANE + 1);
filled_rectangle((pixel){x, y}, w, h, value);
wait (500 + RANDOM8 () % 3000);
// randomly chosen position, dimension and color
unsigned char const x = random8() % NUM_COLS;
unsigned char const y = random8() % NUM_ROWS;
unsigned char const h = random8() % NUM_COLS / 2;
unsigned char const w = random8() % NUM_ROWS / 2;
unsigned char const color = random8() % (NUMPLANE + 1);
filled_rectangle((pixel){x, y}, w, h, color);
// wait between 500 and 750 ms
wait (500 + random8());
}
}
// schräge linien die aufblitzen
void lines1()
/**
* Draws flashing slanted lines.
*/
static void lines1()
{
unsigned char value, n, x, y, h, w;
unsigned int delay = 500;
clear_screen(0);
for (n = 0; n < 200; n++)
unsigned char const blank = 0;
clear_screen(blank);
for (unsigned char n = 0; n < 200; n++)
{
x = RANDOM8() % NUM_COLS;
y = RANDOM8() % NUM_ROWS;
h = RANDOM8() % NUM_COLS;
w = RANDOM8() % NUM_ROWS;
value = RANDOM8() % (NUMPLANE + 1);
line((pixel){x, y}, (pixel){w, h}, value);
wait (RANDOM8 () % delay);
line ((pixel){x, y}, (pixel){w, h}, 0);
// randomly chosen position, dimension and color
unsigned char const x = random8() % NUM_COLS;
unsigned char const y = random8() % NUM_ROWS;
unsigned char const h = random8() % NUM_COLS;
unsigned char const w = random8() % NUM_ROWS;
unsigned char const color = random8() % (NUMPLANE + 1);
line((pixel){x, y}, (pixel){w, h}, color);
wait(random8()); // wait up to 250 ms
line((pixel){x, y}, (pixel){w, h}, blank);
}
}
// random dots
void dots1()
/**
* Draws randomly placed dots.
*/
static void dots1()
{
unsigned char n, x, y;
clear_screen(0);
// some parameters regarding appearance and timing
int const glimmer_delay = 100;
unsigned char const blank = 0;
clear_screen(blank);
for (n = 50; n--;)
// draw up to 50 dots
for (unsigned char n = 50; n--;)
{
x = RANDOM8() % NUM_COLS;
y = RANDOM8() % NUM_ROWS;
// random coordinates
unsigned char x = random8() % NUM_COLS;
unsigned char y = random8() % NUM_ROWS;
// those dots are glimmering
static unsigned char const color[5] PROGMEM = {1, 2, 3, 2, 1};
for (unsigned char i = 0; i < 5; ++i)
{
setpixel ((pixel){x, y}, PGM(color[i]));
wait(100);
wait(glimmer_delay);
}
wait ((RANDOM8 () % 255) * 10);
// wait up to 2500 ms until the next dot is drawn
wait (random8() * 10);
}
}
/**
* Go through all of Martin's animations.
*/
void mherweg()
{
lines1();
dots1();
movinglines();
checkbox();
rectangle1();
rectangles();
}

21
animations/mherweg.h

@ -1,25 +1,6 @@
#ifndef MHERWEG_H_
#define MHERWEG_H_
void checkbox();
void movinglines();
//rechteckmuster mit helligkeitsstufen
void rectangle1();
// zufallsrechtecke
void rectangles();
// schräge linien die aufblitzen
void lines1();
// random dots
void dots1();
void mherweg();
#endif /* MHERWEG_H_ */

7
display_loop.c

@ -150,12 +150,7 @@ void display_loop(){
#ifdef ANIMATION_MHERWEG
case 13:
lines1();
dots1();
movinglines();
checkbox();
rectangle1();
rectangles();
mherweg();
break;
#endif

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