Added wbezier.c, wspoly.c - exercised by examples/wgt33.c, fixed memory alignment issue with lib/mem.c

2024-11-22 02:00:40 +00:00 · 2021-03-19 19:59:27 +00:00 · 2021-03-19 19:59:27 +00:00 · 239a0690e1
commit 239a0690e1
parent f18ad79676
6 changed files with 320 additions and 2 deletions
--- a/part12-wgt/examples/wgt33.c
+++ b/part12-wgt/examples/wgt33.c
@ -0,0 +1,99 @@
 #include "wgt.h"
 #include "include/mem.h"
 // ######## REQUIRED FUNCTIONS ########
 unsigned long state0 = 1000;
 unsigned long state1 = 2000;
 unsigned long rand(void)
 {
    unsigned long s1 = state0;
    unsigned long s0 = state1;
    state0 = s0;
    s1 ^= s1 << 23;
    s1 ^= s1 >> 17;
    s1 ^= s0;
    s1 ^= s0 >> 26;
    state1 = s1;
    return state0 + state1;
 }
 void wait_msec(unsigned int n)
 {
    register unsigned long f, t, r;
    // Get the current counter frequency
    asm volatile ("mrs %0, cntfrq_el0" : "=r"(f));
    // Read the current counter
    asm volatile ("mrs %0, cntpct_el0" : "=r"(t));
    // Calculate expire value for counter
    t+=((f/1000)*n)/1000;
    do{asm volatile ("mrs %0, cntpct_el0" : "=r"(r));}while(r<t);
 }
 // ######## STUB FUNCTIONS ########
 unsigned int kb = 0;
 unsigned int kbhit(void) {
    kb++;
    return kb / 500;
 }
 void getch(void) {
    wait_msec(0x500000);
    kb = 0;
 }
 // ######## WGT EXAMPLES ########
 #define NUM_IN 5       /* number of random points */
 #define NUM_OUT 30     /* number of points of bezier curve */
 /* Fewer points will make more chunky line */
 void wgt33()
 {
  tpolypoint inpoint[NUM_IN];   /* Array with the normal curve points */
  tpolypoint outpoint[NUM_OUT]; /* Array with smooth curve points */
  block other;                  /* Pointer to our second screen */
  int i;			/* Loop counter */
  set_clock_rate(get_max_clock());
  mem_init();
  vga256 ();			/* Initialize graphics mode */
  other = wnewblock (0, 0, 319, 199);	/* Allocate second screen */
  wsetcolor (vgapal[15]);	/* Draw with white */
  do {
    wsetscreen (other);		/* We'll draw on the hidden screen */
    wcls (vgapal[0]);		/* Clear it with black */
    for (i = 0; i < NUM_IN; i++)  /* Randomize the BEZIER control pts */
      {
       inpoint[i].x = rand() % 320;
       inpoint[i].y = rand() % 200;
      }
    wbezier (inpoint, NUM_IN, outpoint, NUM_OUT);	/* Generate line */
    whollowpoly (outpoint, NUM_OUT, 0, 0, OPEN_POLY);
      /* draw the smooth curve */
    wnormscreen ();		/* Reset drawing to visual screen */
    wputblock (0, 0, other, 0);	/* Show the screen */
    getch();
  } while (1);
  wfreeblock (other);		/* Free our screen buffer */
 }
 void main()
 {
    wgt33();
    while (1);
 }
--- a/part12-wgt/lib/mem.c
+++ b/part12-wgt/lib/mem.c
@ -16,8 +16,8 @@ void mem_init()
 {
   // Align the start of heap to an 8-byte boundary
-   if ((long)&HEAP_START % 8 != 0) {
+   if ((long)HEAP_START % 8 != 0) {
-      HEAP_START += 8 - ((long)&HEAP_START % 8);
+      HEAP_START += 8 - ((long)HEAP_START % 8);
   }
   HEAP_END = (unsigned char *)(HEAP_START + HEAP_SIZE);
@ -28,6 +28,9 @@ void *malloc(unsigned int size)
 {
   if (size > 0) {
      void *allocated = freeptr;
      if ((long)allocated % 8 != 0) {
         allocated += 8 - ((long)allocated % 8);
      }
      if ((unsigned char *)(allocated + size) > HEAP_END) {
         return 0;
--- a/part12-wgt/wbezier.c
+++ b/part12-wgt/wbezier.c
@ -0,0 +1,59 @@
 #include "wgt.h"
 #include "include/mem.h"
 void wbezier (tpolypoint *rawpts, short numraw, tpolypoint *curvepts, short numcurve)
 /* Bezier curve algorithm submitted to us by Claude Morais */
 {
  double *combi;
  double deltat, temp;
  double prod,quot;
  double sumx,sumy;
  short  tmp, count;
  combi = malloc (sizeof(double)*numraw);
  numraw--;
  deltat = 1.0 / (numcurve - 1);
  combi[0] = combi[numraw] = 1.0;
  for  (tmp = 0; tmp <= (numraw - 2); tmp++)
    combi[tmp + 1] = (combi[tmp] * (numraw - tmp)) / (tmp + 1);
  for  (count = 0; count < numcurve; count++)
    {
     if ((temp = count*deltat) <= 0.5)
       {
 	quot = prod = 1.0 - temp;
 	for  (tmp = 1; tmp < numraw; tmp++)
 	  prod *= quot;
 	quot = temp / quot;
 	sumx = rawpts[numraw].x;
 	sumy = rawpts[numraw].y;
 	for  (tmp = numraw - 1; tmp >= 0; tmp--)
 	  {
 	   sumx = combi[tmp]* rawpts[tmp].x + quot* sumx;
 	   sumy = combi[tmp]* rawpts[tmp].y + quot* sumy;
 	  }
       }
     else
       {
 	quot = prod = temp;
 	for (tmp = 1; tmp < numraw; tmp++)
 	  prod *= quot;
 	quot = (1.0 - temp) / quot;
 	sumx = rawpts[0].x;
 	sumy = rawpts[0].y;
 	for (tmp = 1; tmp <= numraw; tmp++)
 	  {
 	   sumx = combi[tmp]* rawpts[tmp].x + quot* sumx;
 	   sumy = combi[tmp]* rawpts[tmp].y + quot* sumy;
 	  }
       }
     curvepts[count].x = (sumx*prod);
     curvepts[count].y = (sumy*prod);
    }
  free (combi);
 }
--- a/part12-wgt/wgt.h
+++ b/part12-wgt/wgt.h
@ -51,6 +51,19 @@ extern unsigned int currentcolor;
 /* Clipping boundaries */
 extern short bx,by,tx,ty;
 /* Polygon point definition */
 typedef struct
 {
  short x,y;   /* Coordinate on the screen */
  short sx,sy; /* Coordinate on the texture if texture is used,
                  otherwise sx = color point */
               /* sx is used for Gouraud shading as well (color of the point) */
 } tpolypoint;
 /* whollowpoly types */
 #define CLOSED_POLY 0
 #define OPEN_POLY 1
 // ######## HELPER FUNCTIONS ########
 void *memset(void *dest, unsigned int val, unsigned len);
@ -126,3 +139,6 @@ void wcopyscreen (short x, short y, short x2, short y2, block source, short dest
 void wsline (short x, short y, short x2, short y2, short *y_array);
 void wwarp (short sx, short ex, short *tpy, short *bty, block ptr, short mode);
 void wresize_column (short x, short y, short y2, block image, short column, short mode);
 void wsolidpoly (tpolypoint *vertexlist, short numvertex, short x, short y, void (*customline)(short, short, short));
 void whollowpoly(tpolypoint *vertexlist, short numvertex, short x, short y, short closemode);
 void wbezier (tpolypoint *rawpts, short numraw, tpolypoint *curvepts, short numcurve);
--- a/part12-wgt/winitply.c
+++ b/part12-wgt/winitply.c
@ -0,0 +1,41 @@
 #include "wgt.h"
 #include "include/mem.h"
 short *pinit_array;
 short *pstartx;
 short *pendx;
 short *pinten1;
 short *pinten2;
 short *polyx2;
 short *polyy2;
 short polygon_buffer_size;
 void winitpoly (short maxrows)
 {
  int bytes;
  int ctr;
  polygon_buffer_size = maxrows;
  bytes = 2 * maxrows;
  pstartx = malloc (bytes);
  pendx = malloc (bytes);
  pinten1 = malloc (bytes);
  pinten2 = malloc (bytes);
  polyx2 = malloc (bytes);
  polyy2 = malloc (bytes);
  pinit_array = malloc (bytes);
  for (ctr = 0; ctr < maxrows; ctr++)
    pinit_array[ctr] = -16000;
 }
 void wdeinitpoly (void)
 {
  free (pstartx);
  free (pendx);
  free (pinten1);
  free (pinten2);
  free (polyx2);
  free (polyy2);
  free (pinit_array);
 }
--- a/part12-wgt/wspoly.c
+++ b/part12-wgt/wspoly.c
@ -0,0 +1,100 @@
 #include "wgt.h"
 extern short *pinit_array;
 extern short *pstartx;
 extern short *pendx;
 extern short polygon_buffer_size;
 static void wspolyline (short x1, short y1, short x2, short y2)
 {
 short tmx, tmy, y;
 long x, m;
 if (y2 != y1)
   {
    if (y2 < y1)
      {
       tmy = y1;
       y1 = y2;
       y2 = tmy;
       tmx = x1;
       x1 = x2;
       x2 = tmx;
      }
    x = (long)x1 << 8;
    m = ((long)(x2 - x1) << 8) / ((long)(y2 - y1));
    x++;
    y1++;
    for (y = y1; y <= y2; y++)
      {
       if ((y >= 0) && (y < WGT_SYS.yres)) {
 	 if (pstartx[y] == -16000) {
 	   pstartx[y] = x >> 8;
 	 } else {
 	   pendx[y] = x >> 8;
         }
       }
       x += m;
      }
   }
 }
 void wsolidpoly (tpolypoint *vertexlist, short numvertex, short x, short y, void (*customline)(short, short, short))
 {
 short i;
 tpolypoint *curpt, *nextpt;
  if (customline == NULL)
    customline = whline;
  curpt = vertexlist;
  nextpt = vertexlist + 1;
  memcpy (pstartx, pinit_array, polygon_buffer_size << 1);
  memcpy (pendx, pinit_array, polygon_buffer_size << 1);
  for (i = 0; i < numvertex - 1; i++)
    {
     wspolyline (curpt->x + x, curpt->y + y, nextpt->x + x, nextpt->y + y);
     curpt++;
     nextpt++;
    }
  nextpt = vertexlist;
  wspolyline (curpt->x + x, curpt->y + y, nextpt->x + x, nextpt->y + y);
  for (i = 0; i < WGT_SYS.yres; i++)
    {
     if (pstartx[i] != -16000)
       {
 	if (pendx[i] == -16000)
 	  pendx[i] = pstartx[i];
 	(*customline)(pstartx[i], pendx[i], i);
    }
  }
 }
 void whollowpoly(tpolypoint *vertexlist, short numvertex, short x, short y, short closemode)
 {
 short i;
 tpolypoint *curpt, *nextpt;
  curpt = vertexlist;
  nextpt = vertexlist + 1;
  for (i = 0; i < numvertex - 1; i++)
    {
     wline (curpt->x + x, curpt->y + y, nextpt->x + x, nextpt->y + y);
     curpt++;
     nextpt++;
    }
  if (closemode == CLOSED_POLY)
    {
     nextpt = vertexlist;
     wline (curpt->x + x, curpt->y + y, nextpt->x + x, nextpt->y + y);
    }
 }