[rt #82743] fix the Graphics::Magick link

[imager.git] / draw.c

diff --git a/draw.c b/draw.c
index 6cca0a002d7df71f61a98fa55636c774e03e1fa2..b74fe2e6178d077532ca4386df415d56e4e28ac2 100644 (file)
--- a/draw.c
+++ b/draw.c
@@ -1,14 +1,89 @@
-#include "image.h"
+#define IMAGER_NO_CONTEXT
+#include "imager.h"
 #include "draw.h"
 #include "log.h"
-#include "imagei.h"
-
+#include "imageri.h"
+#include "imrender.h"
 #include <limits.h>
 
+int
+i_ppix_norm(i_img *im, i_img_dim x, i_img_dim y, i_color const *col) {
+  i_color src;
+  i_color work;
+  int dest_alpha;
+  int remains;
+
+  if (!col->channel[3])
+    return 0;
+
+  switch (im->channels) {
+  case 1:
+    work = *col;
+    i_adapt_colors(2, 4, &work, 1);
+    i_gpix(im, x, y, &src);
+    remains = 255 - work.channel[1];
+    src.channel[0] = (src.channel[0] * remains
+                     + work.channel[0] * work.channel[1]) / 255;
+    return i_ppix(im, x, y, &src);
+
+  case 2:
+    work = *col;
+    i_adapt_colors(2, 4, &work, 1);
+    i_gpix(im, x, y, &src);
+    remains = 255 - work.channel[1];
+    dest_alpha = work.channel[1] + remains * src.channel[1] / 255;
+    if (work.channel[1] == 255) {
+      return i_ppix(im, x, y, &work);
+    }
+    else {
+      src.channel[0] = (work.channel[1] * work.channel[0]
+                       + remains * src.channel[0] * src.channel[1] / 255) / dest_alpha;
+      src.channel[1] = dest_alpha;
+      return i_ppix(im, x, y, &src);
+    }
+
+  case 3:
+    work = *col;
+    i_gpix(im, x, y, &src);
+    remains = 255 - work.channel[3];
+    src.channel[0] = (src.channel[0] * remains
+                     + work.channel[0] * work.channel[3]) / 255;
+    src.channel[1] = (src.channel[1] * remains
+                     + work.channel[1] * work.channel[3]) / 255;
+    src.channel[2] = (src.channel[2] * remains
+                     + work.channel[2] * work.channel[3]) / 255;
+    return i_ppix(im, x, y, &src);
+
+  case 4:
+    work = *col;
+    i_gpix(im, x, y, &src);
+    remains = 255 - work.channel[3];
+    dest_alpha = work.channel[3] + remains * src.channel[3] / 255;
+    if (work.channel[3] == 255) {
+      return i_ppix(im, x, y, &work);
+    }
+    else {
+      src.channel[0] = (work.channel[3] * work.channel[0]
+                       + remains * src.channel[0] * src.channel[3] / 255) / dest_alpha;
+      src.channel[1] = (work.channel[3] * work.channel[1]
+                       + remains * src.channel[1] * src.channel[3] / 255) / dest_alpha;
+      src.channel[2] = (work.channel[3] * work.channel[2]
+                       + remains * src.channel[2] * src.channel[3] / 255) / dest_alpha;
+      src.channel[3] = dest_alpha;
+      return i_ppix(im, x, y, &src);
+    }
+  }
+  return 0;
+}
+
+static void
+cfill_from_btm(i_img *im, i_fill_t *fill, struct i_bitmap *btm, 
+              i_img_dim bxmin, i_img_dim bxmax, i_img_dim bymin, i_img_dim bymax);
+
 void
-i_mmarray_cr(i_mmarray *ar,int l) {
-  int i;
-  int alloc_size;
+i_mmarray_cr(i_mmarray *ar,i_img_dim l) {
+  i_img_dim i;
+  size_t alloc_size;
 
   ar->lines=l;
   alloc_size = sizeof(minmax) * l;
@@ -28,7 +103,7 @@ i_mmarray_dst(i_mmarray *ar) {
 }
 
 void
-i_mmarray_add(i_mmarray *ar,int x,int y) {
+i_mmarray_add(i_mmarray *ar,i_img_dim x,i_img_dim y) {
   if (y>-1 && y<ar->lines)
     {
       if (x<ar->data[y].min) ar->data[y].min=x;
@@ -37,87 +112,32 @@ i_mmarray_add(i_mmarray *ar,int x,int y) {
 }
 
 int
-i_mmarray_gmin(i_mmarray *ar,int y) {
+i_mmarray_gmin(i_mmarray *ar,i_img_dim y) {
   if (y>-1 && y<ar->lines) return ar->data[y].min;
   else return -1;
 }
 
 int
-i_mmarray_getm(i_mmarray *ar,int y) {
+i_mmarray_getm(i_mmarray *ar,i_img_dim y) {
   if (y>-1 && y<ar->lines) return ar->data[y].max;
   else return MAXINT;
 }
 
+#if 0
+/* unused? */
 void
 i_mmarray_render(i_img *im,i_mmarray *ar,i_color *val) {
-  int i,x;
+  i_img_dim i,x;
   for(i=0;i<ar->lines;i++) if (ar->data[i].max!=-1) for(x=ar->data[i].min;x<ar->data[i].max;x++) i_ppix(im,x,i,val);
 }
-
-void
-i_mmarray_render_fill(i_img *im,i_mmarray *ar,i_fill_t *fill) {
-  int x, w, y;
-  if (im->bits == i_8_bits && fill->fill_with_color) {
-    i_color *line = mymalloc(sizeof(i_color) * im->xsize); /* checked 5jul05 tonyc */
-    i_color *work = NULL;
-    if (fill->combine)
-      work = mymalloc(sizeof(i_color) * im->xsize); /* checked 5jul05 tonyc */
-    for(y=0;y<ar->lines;y++) {
-      if (ar->data[y].max!=-1) {
-        x = ar->data[y].min;
-        w = ar->data[y].max-ar->data[y].min;
-
-        if (fill->combine) {
-          i_glin(im, x, x+w, y, line);
-          (fill->fill_with_color)(fill, x, y, w, im->channels, work);
-          (fill->combine)(line, work, im->channels, w);
-        }
-        else {
-          (fill->fill_with_color)(fill, x, y, w, im->channels, line);
-        }
-        i_plin(im, x, x+w, y, line);
-      }
-    }
-  
-    myfree(line);
-    if (work)
-      myfree(work);
-  }
-  else {
-    i_fcolor *line = mymalloc(sizeof(i_fcolor) * im->xsize); /* checked 5jul05 tonyc */
-    i_fcolor *work = NULL;
-    if (fill->combinef)
-      work = mymalloc(sizeof(i_fcolor) * im->xsize); /* checked 5jul05 tonyc */
-    for(y=0;y<ar->lines;y++) {
-      if (ar->data[y].max!=-1) {
-        x = ar->data[y].min;
-        w = ar->data[y].max-ar->data[y].min;
-
-        if (fill->combinef) {
-          i_glinf(im, x, x+w, y, line);
-          (fill->fill_with_fcolor)(fill, x, y, w, im->channels, work);
-          (fill->combinef)(line, work, im->channels, w);
-        }
-        else {
-          (fill->fill_with_fcolor)(fill, x, y, w, im->channels, line);
-        }
-        i_plinf(im, x, x+w, y, line);
-      }
-    }
-  
-    myfree(line);
-    if (work)
-      myfree(work);
-  }
-}
-
+#endif
 
 static
 void
-i_arcdraw(int x1, int y1, int x2, int y2, i_mmarray *ar) {
+i_arcdraw(i_img_dim x1, i_img_dim y1, i_img_dim x2, i_img_dim y2, i_mmarray *ar) {
   double alpha;
   double dsec;
-  int temp;
+  i_img_dim temp;
   alpha=(double)(y2-y1)/(double)(x2-x1);
   if (fabs(alpha) <= 1) 
     {
@@ -125,7 +145,7 @@ i_arcdraw(int x1, int y1, int x2, int y2, i_mmarray *ar) {
       dsec=y1;
       while(x1<=x2)
        {
-         i_mmarray_add(ar,x1,(int)(dsec+0.5));
+         i_mmarray_add(ar,x1,(i_img_dim)(dsec+0.5));
          dsec+=alpha;
          x1++;
        }
@@ -137,7 +157,7 @@ i_arcdraw(int x1, int y1, int x2, int y2, i_mmarray *ar) {
       dsec=x1;
       while(y1<=y2)
        {
-         i_mmarray_add(ar,(int)(dsec+0.5),y1);
+         i_mmarray_add(ar,(i_img_dim)(dsec+0.5),y1);
          dsec+=alpha;
          y1++;
        }
@@ -146,32 +166,33 @@ i_arcdraw(int x1, int y1, int x2, int y2, i_mmarray *ar) {
 
 void
 i_mmarray_info(i_mmarray *ar) {
-  int i;
+  i_img_dim i;
   for(i=0;i<ar->lines;i++)
-  if (ar->data[i].max!=-1) printf("line %d: min=%d, max=%d.\n",i,ar->data[i].min,ar->data[i].max);
+  if (ar->data[i].max!=-1)
+    printf("line %"i_DF ": min=%" i_DF ", max=%" i_DF ".\n",
+          i_DFc(i), i_DFc(ar->data[i].min), i_DFc(ar->data[i].max));
 }
 
 static void
-i_arc_minmax(i_int_hlines *hlines,int x,int y,float rad,float d1,float d2) {
+i_arc_minmax(i_int_hlines *hlines,i_img_dim x,i_img_dim y, double rad,float d1,float d2) {
   i_mmarray dot;
-  float f,fx,fy;
-  int x1,y1;
-
-  /*mm_log((1,"i_arc(im* 0x%x,x %d,y %d,rad %.2f,d1 %.2f,d2 %.2f,val 0x%x)\n",im,x,y,rad,d1,d2,val));*/
+  double f,fx,fy;
+  i_img_dim x1,y1;
 
   i_mmarray_cr(&dot, hlines->limit_y);
 
-  x1=(int)(x+0.5+rad*cos(d1*PI/180.0));
-  y1=(int)(y+0.5+rad*sin(d1*PI/180.0));
+  x1=(i_img_dim)(x+0.5+rad*cos(d1*PI/180.0));
+  y1=(i_img_dim)(y+0.5+rad*sin(d1*PI/180.0));
   fx=(float)x1; fy=(float)y1;
 
   /*  printf("x1: %d.\ny1: %d.\n",x1,y1); */
   i_arcdraw(x, y, x1, y1, &dot);
 
-  x1=(int)(x+0.5+rad*cos(d2*PI/180.0));
-  y1=(int)(y+0.5+rad*sin(d2*PI/180.0));
+  x1=(i_img_dim)(x+0.5+rad*cos(d2*PI/180.0));
+  y1=(i_img_dim)(y+0.5+rad*sin(d2*PI/180.0));
 
-  for(f=d1;f<=d2;f+=0.01) i_mmarray_add(&dot,(int)(x+0.5+rad*cos(f*PI/180.0)),(int)(y+0.5+rad*sin(f*PI/180.0)));
+  for(f=d1;f<=d2;f+=0.01)
+    i_mmarray_add(&dot,(i_img_dim)(x+0.5+rad*cos(f*PI/180.0)),(i_img_dim)(y+0.5+rad*sin(f*PI/180.0)));
   
   /*  printf("x1: %d.\ny1: %d.\n",x1,y1); */
   i_arcdraw(x, y, x1, y1, &dot);
@@ -179,7 +200,7 @@ i_arc_minmax(i_int_hlines *hlines,int x,int y,float rad,float d1,float d2) {
   /* render the minmax values onto the hlines */
   for (y = 0; y < dot.lines; y++) {
     if (dot.data[y].max!=-1) {
-      int minx, width;
+      i_img_dim minx, width;
       minx = dot.data[y].min;
       width = dot.data[y].max - dot.data[y].min + 1;
       i_int_hlines_add(hlines, y, minx, width);
@@ -191,7 +212,7 @@ i_arc_minmax(i_int_hlines *hlines,int x,int y,float rad,float d1,float d2) {
 }
 
 static void
-i_arc_hlines(i_int_hlines *hlines,int x,int y,float rad,float d1,float d2) {
+i_arc_hlines(i_int_hlines *hlines,i_img_dim x,i_img_dim y,double rad,float d1,float d2) {
   if (d1 <= d2) {
     i_arc_minmax(hlines, x, y, rad, d1, d2);
   }
@@ -201,9 +222,25 @@ i_arc_hlines(i_int_hlines *hlines,int x,int y,float rad,float d1,float d2) {
   }
 }
 
+/*
+=item i_arc(im, x, y, rad, d1, d2, color)
+
+=category Drawing
+=synopsis i_arc(im, 50, 50, 20, 45, 135, &color);
+
+Fills an arc centered at (x,y) with radius I<rad> covering the range
+of angles in degrees from d1 to d2, with the color.
+
+=cut
+*/
+
 void
-i_arc(i_img *im,int x,int y,float rad,float d1,float d2,i_color *val) {
+i_arc(i_img *im, i_img_dim x, i_img_dim y,double rad,double d1,double d2,const i_color *val) {
   i_int_hlines hlines;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_arc(im %p,(x,y)=(" i_DFp "), rad %f, d1 %f, d2 %f, col %p)",
+         im, i_DFcp(x, y), rad, d1, d2, val));
 
   i_int_init_hlines_img(&hlines, im);
 
@@ -214,12 +251,28 @@ i_arc(i_img *im,int x,int y,float rad,float d1,float d2,i_color *val) {
   i_int_hlines_destroy(&hlines);
 }
 
+/*
+=item i_arc_cfill(im, x, y, rad, d1, d2, fill)
+
+=category Drawing
+=synopsis i_arc_cfill(im, 50, 50, 35, 90, 135, fill);
+
+Fills an arc centered at (x,y) with radius I<rad> covering the range
+of angles in degrees from d1 to d2, with the fill object.
+
+=cut
+*/
+
 #define MIN_CIRCLE_STEPS 8
 #define MAX_CIRCLE_STEPS 360
 
 void
-i_arc_cfill(i_img *im,int x,int y,float rad,float d1,float d2,i_fill_t *fill) {
+i_arc_cfill(i_img *im, i_img_dim x, i_img_dim y,double rad,double d1,double d2,i_fill_t *fill) {
   i_int_hlines hlines;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_arc_cfill(im %p,(x,y)=(" i_DFp "), rad %f, d1 %f, d2 %f, fill %p)",
+         im, i_DFcp(x, y), rad, d1, d2, fill));
 
   i_int_init_hlines_img(&hlines, im);
 
@@ -235,7 +288,7 @@ arc_poly(int *count, double **xvals, double **yvals,
         double x, double y, double rad, double d1, double d2) {
   double d1_rad, d2_rad;
   double circum;
-  int steps, point_count;
+  i_img_dim steps, point_count;
   double angle_inc;
 
   /* normalize the angles */
@@ -277,8 +330,9 @@ arc_poly(int *count, double **xvals, double **yvals,
   angle_inc = 2 * PI / steps;
 
   point_count = steps + 5; /* rough */
-  *xvals = mymalloc(point_count * sizeof(double));
-  *yvals = mymalloc(point_count * sizeof(double));
+  /* point_count is always relatively small, so allocation won't overflow */
+  *xvals = mymalloc(point_count * sizeof(double)); /* checked 17feb2005 tonyc */
+  *yvals = mymalloc(point_count * sizeof(double)); /* checked 17feb2005 tonyc */
 
   /* from centre to edge at d1 */
   (*xvals)[0] = x;
@@ -301,11 +355,27 @@ arc_poly(int *count, double **xvals, double **yvals,
   ++*count;
 }
 
+/*
+=item i_arc_aa(im, x, y, rad, d1, d2, color)
+
+=category Drawing
+=synopsis i_arc_aa(im, 50, 50, 35, 90, 135, &color);
+
+Anti-alias fills an arc centered at (x,y) with radius I<rad> covering
+the range of angles in degrees from d1 to d2, with the color.
+
+=cut
+*/
+
 void
 i_arc_aa(i_img *im, double x, double y, double rad, double d1, double d2,
-        i_color *val) {
+        const i_color *val) {
   double *xvals, *yvals;
   int count;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_arc_aa(im %p,(x,y)=(%f,%f), rad %f, d1 %f, d2 %f, col %p)",
+         im, x, y, rad, d1, d2, val));
 
   arc_poly(&count, &xvals, &yvals, x, y, rad, d1, d2);
 
@@ -315,11 +385,27 @@ i_arc_aa(i_img *im, double x, double y, double rad, double d1, double d2,
   myfree(yvals);
 }
 
+/*
+=item i_arc_aa_cfill(im, x, y, rad, d1, d2, fill)
+
+=category Drawing
+=synopsis i_arc_aa_cfill(im, 50, 50, 35, 90, 135, fill);
+
+Anti-alias fills an arc centered at (x,y) with radius I<rad> covering
+the range of angles in degrees from d1 to d2, with the fill object.
+
+=cut
+*/
+
 void
 i_arc_aa_cfill(i_img *im, double x, double y, double rad, double d1, double d2,
               i_fill_t *fill) {
   double *xvals, *yvals;
   int count;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_arc_aa_cfill(im %p,(x,y)=(%f,%f), rad %f, d1 %f, d2 %f, fill %p)",
+         im, x, y, rad, d1, d2, fill));
 
   arc_poly(&count, &xvals, &yvals, x, y, rad, d1, d2);
 
@@ -332,40 +418,24 @@ i_arc_aa_cfill(i_img *im, double x, double y, double rad, double d1, double d2,
 /* Temporary AA HACK */
 
 
-typedef int frac;
-static  frac float_to_frac(float x) { return (frac)(0.5+x*16.0); }
-static   int frac_sub     (frac x)  { return (x%16); }
-static   int frac_int     (frac x)  { return (x/16); }
-static float frac_to_float(float x) { return (float)x/16.0; }
+typedef i_img_dim frac;
+static  frac float_to_frac(double x) { return (frac)(0.5+x*16.0); }
 
 static 
 void
-polar_to_plane(float cx, float cy, float angle, float radius, frac *x, frac *y) {
+polar_to_plane(double cx, double cy, float angle, double radius, frac *x, frac *y) {
   *x = float_to_frac(cx+radius*cos(angle));
   *y = float_to_frac(cy+radius*sin(angle));
 }
 
 static
 void
-order_pair(frac *x, frac *y) {
-  frac t = *x;
-  if (t>*y) {
-    *x = *y;
-    *y = t;
-  }
-}
-
-
-
-
-static
-void
-make_minmax_list(i_mmarray *dot, float x, float y, float radius) {
+make_minmax_list(pIMCTX, i_mmarray *dot, double x, double y, double radius) {
   float angle = 0.0;
   float astep = radius>0.1 ? .5/radius : 10;
   frac cx, cy, lx, ly, sx, sy;
 
-  mm_log((1, "make_minmax_list(dot %p, x %.2f, y %.2f, radius %.2f)\n", dot, x, y, radius));
+  im_log((aIMCTX, 1, "make_minmax_list(dot %p, x %.2f, y %.2f, radius %.2f)\n", dot, x, y, radius));
 
   polar_to_plane(x, y, angle, radius, &sx, &sy);
   
@@ -405,7 +475,7 @@ make_minmax_list(i_mmarray *dot, float x, float y, float radius) {
 
 static
 int
-i_pixel_coverage(i_mmarray *dot, int x, int y) {
+i_pixel_coverage(i_mmarray *dot, i_img_dim x, i_img_dim y) {
   frac minx = x*16;
   frac maxx = minx+15;
   frac cy;
@@ -425,16 +495,29 @@ i_pixel_coverage(i_mmarray *dot, int x, int y) {
   return cnt;
 }
 
+/*
+=item i_circle_aa(im, x, y, rad, color)
+
+=category Drawing
+=synopsis i_circle_aa(im, 50, 50, 45, &color);
+
+Anti-alias fills a circle centered at (x,y) for radius I<rad> with
+color.
+
+=cut
+*/
 void
-i_circle_aa(i_img *im, float x, float y, float rad, i_color *val) {
+i_circle_aa(i_img *im, double x, double y, double rad, const i_color *val) {
   i_mmarray dot;
   i_color temp;
-  int ly;
+  i_img_dim ly;
+  dIMCTXim(im);
 
-  mm_log((1, "i_circle_aa(im %p, x %d, y %d, rad %.2f, val %p)\n", im, x, y, rad, val));
+  im_log((aIMCTX, 1, "i_circle_aa(im %p, centre(" i_DFp "), rad %.2f, val %p)\n",
+         im, i_DFcp(x, y), rad, val));
 
   i_mmarray_cr(&dot,16*im->ysize);
-  make_minmax_list(&dot, x, y, rad);
+  make_minmax_list(aIMCTX, &dot, x, y, rad);
 
   for(ly = 0; ly<im->ysize; ly++) {
     int ix, cy, minx = INT_MAX, maxx = INT_MIN;
@@ -468,15 +551,546 @@ i_circle_aa(i_img *im, float x, float y, float rad, i_color *val) {
   i_mmarray_dst(&dot);
 }
 
+/*
+=item i_circle_out(im, x, y, r, col)
+
+=category Drawing
+=synopsis i_circle_out(im, 50, 50, 45, &color);
+
+Draw a circle outline centered at (x,y) with radius r,
+non-anti-aliased.
+
+Parameters:
+
+=over
+
+=item *
+
+(x, y) - the center of the circle
+
+=item *
+
+r - the radius of the circle in pixels, must be non-negative
+
+=back
+
+Returns non-zero on success.
+
+Implementation:
+
+=cut
+*/
+
+int
+i_circle_out(i_img *im, i_img_dim xc, i_img_dim yc, i_img_dim r,
+            const i_color *col) {
+  i_img_dim x, y;
+  i_img_dim dx, dy;
+  int error;
+  dIMCTXim(im);
+
+  im_log((aIMCTX, 1, "i_circle_out(im %p, centre(" i_DFp "), rad %" i_DF ", col %p)\n",
+         im, i_DFcp(xc, yc), i_DFc(r), col));
+
+  im_clear_error(aIMCTX);
+
+  if (r < 0) {
+    im_push_error(aIMCTX, 0, "circle: radius must be non-negative");
+    return 0;
+  }
+
+  i_ppix(im, xc+r, yc, col);
+  i_ppix(im, xc-r, yc, col);
+  i_ppix(im, xc, yc+r, col);
+  i_ppix(im, xc, yc-r, col);
+
+  x = 0;
+  y = r;
+  dx = 1;
+  dy = -2 * r;
+  error = 1 - r;
+  while (x < y) {
+    if (error >= 0) {
+      --y;
+      dy += 2;
+      error += dy;
+    }
+    ++x;
+    dx += 2;
+    error += dx;
+
+    i_ppix(im, xc + x, yc + y, col);
+    i_ppix(im, xc + x, yc - y, col);
+    i_ppix(im, xc - x, yc + y, col);
+    i_ppix(im, xc - x, yc - y, col);
+    if (x != y) {
+      i_ppix(im, xc + y, yc + x, col);
+      i_ppix(im, xc + y, yc - x, col);
+      i_ppix(im, xc - y, yc + x, col);
+      i_ppix(im, xc - y, yc - x, col);
+    }
+  }
+
+  return 1;
+}
+
+/*
+=item arc_seg(angle)
+
+Convert an angle in degrees into an angle measure we can generate
+simply from the numbers we have when drawing the circle.
+
+=back
+*/
+
+static i_img_dim
+arc_seg(double angle, int scale) {
+  i_img_dim seg = (angle + 45) / 90;
+  double remains = angle - seg * 90; /* should be in the range [-45,45] */
+
+  while (seg > 4)
+    seg -= 4;
+  if (seg == 4 && remains > 0)
+    seg = 0;
+
+  return scale * (seg * 2 + sin(remains * PI/180));
+}
+
+/*
+=item i_arc_out(im, x, y, r, d1, d2, col)
+
+=category Drawing
+=synopsis i_arc_out(im, 50, 50, 45, 45, 135, &color);
+
+Draw an arc outline centered at (x,y) with radius r, non-anti-aliased
+over the angle range d1 through d2 degrees.
+
+Parameters:
+
+=over
+
+=item *
+
+(x, y) - the center of the circle
+
+=item *
+
+r - the radius of the circle in pixels, must be non-negative
+
+=item *
+
+d1, d2 - the range of angles to draw the arc over, in degrees.
+
+=back
+
+Returns non-zero on success.
+
+Implementation:
+
+=cut
+*/
+
+int
+i_arc_out(i_img *im, i_img_dim xc, i_img_dim yc, i_img_dim r,
+         double d1, double d2, const i_color *col) {
+  i_img_dim x, y;
+  i_img_dim dx, dy;
+  int error;
+  i_img_dim segs[2][2];
+  int seg_count;
+  i_img_dim sin_th;
+  i_img_dim seg_d1, seg_d2;
+  int seg_num;
+  i_img_dim scale = r + 1;
+  i_img_dim seg1 = scale * 2;
+  i_img_dim seg2 = scale * 4;
+  i_img_dim seg3 = scale * 6;
+  i_img_dim seg4 = scale * 8;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_arc_out(im %p,centre(" i_DFp "), rad %" i_DF ", d1 %f, d2 %f, col %p)",
+         im, i_DFcp(xc, yc), i_DFc(r), d1, d2, col));
+
+  im_clear_error(aIMCTX);
+
+  if (r <= 0) {
+    im_push_error(aIMCTX, 0, "arc: radius must be non-negative");
+    return 0;
+  }
+  if (d1 + 360 <= d2)
+    return i_circle_out(im, xc, yc, r, col);
+
+  if (d1 < 0)
+    d1 += 360 * floor((-d1 + 359) / 360);
+  if (d2 < 0)
+    d2 += 360 * floor((-d2 + 359) / 360);
+  d1 = fmod(d1, 360);
+  d2 = fmod(d2, 360);
+  seg_d1 = arc_seg(d1, scale);
+  seg_d2 = arc_seg(d2, scale);
+  if (seg_d2 < seg_d1) {
+    /* split into two segments */
+    segs[0][0] = 0;
+    segs[0][1] = seg_d2;
+    segs[1][0] = seg_d1;
+    segs[1][1] = seg4;
+    seg_count = 2;
+  }
+  else {
+    segs[0][0] = seg_d1;
+    segs[0][1] = seg_d2;
+    seg_count = 1;
+  }
+
+  for (seg_num = 0; seg_num < seg_count; ++seg_num) {
+    i_img_dim seg_start = segs[seg_num][0];
+    i_img_dim seg_end = segs[seg_num][1];
+    if (seg_start == 0)
+      i_ppix(im, xc+r, yc, col);
+    if (seg_start <= seg1 && seg_end >= seg1)
+      i_ppix(im, xc, yc+r, col);
+    if (seg_start <= seg2 && seg_end >= seg2)
+      i_ppix(im, xc-r, yc, col);
+    if (seg_start <= seg3 && seg_end >= seg3)
+      i_ppix(im, xc, yc-r, col);
+
+    y = 0;
+    x = r;
+    dy = 1;
+    dx = -2 * r;
+    error = 1 - r;
+    while (y < x) {
+      if (error >= 0) {
+       --x;
+       dx += 2;
+       error += dx;
+      }
+      ++y;
+      dy += 2;
+      error += dy;
+      
+      sin_th = y;
+      if (seg_start <= sin_th && seg_end >= sin_th)
+       i_ppix(im, xc + x, yc + y, col);
+      if (seg_start <= seg1 - sin_th && seg_end >= seg1 - sin_th)
+       i_ppix(im, xc + y, yc + x, col);
+
+      if (seg_start <= seg1 + sin_th && seg_end >= seg1 + sin_th)
+       i_ppix(im, xc - y, yc + x, col);
+      if (seg_start <= seg2 - sin_th && seg_end >= seg2 - sin_th)
+       i_ppix(im, xc - x, yc + y, col);
+      
+      if (seg_start <= seg2 + sin_th && seg_end >= seg2 + sin_th)
+       i_ppix(im, xc - x, yc - y, col);
+      if (seg_start <= seg3 - sin_th && seg_end >= seg3 - sin_th)
+       i_ppix(im, xc - y, yc - x, col);
+
+      if (seg_start <= seg3 + sin_th && seg_end >= seg3 + sin_th)
+       i_ppix(im, xc + y, yc - x, col);
+      if (seg_start <= seg4 - sin_th && seg_end >= seg4 - sin_th)
+       i_ppix(im, xc + x, yc - y, col);
+    }
+  }
+
+  return 1;
+}
+
+static double
+cover(i_img_dim r, i_img_dim j) {
+  double rjsqrt = sqrt(r*r - j*j);
+
+  return ceil(rjsqrt) - rjsqrt;
+}
+
+/*
+=item i_circle_out_aa(im, xc, yc, r, col)
+
+=synopsis i_circle_out_aa(im, 50, 50, 45, &color);
+
+Draw a circle outline centered at (x,y) with radius r, anti-aliased.
+
+Parameters:
+
+=over
+
+=item *
+
+(xc, yc) - the center of the circle
+
+=item *
+
+r - the radius of the circle in pixels, must be non-negative
+
+=item *
+
+col - an i_color for the color to draw in.
+
+=back
+
+Returns non-zero on success.
+
+=cut
+
+Based on "Fast Anti-Aliased Circle Generation", Xiaolin Wu, Graphics
+Gems.
+
+I use floating point for I<D> since for large circles the precision of
+a [0,255] value isn't sufficient when approaching the end of the
+octant.
+
+*/
+
+int
+i_circle_out_aa(i_img *im, i_img_dim xc, i_img_dim yc, i_img_dim r, const i_color *col) {
+  i_img_dim i, j;
+  double t;
+  i_color workc = *col;
+  int orig_alpha = col->channel[3];
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_circle_out_aa(im %p,centre(" i_DFp "), rad %" i_DF ", col %p)",
+         im, i_DFcp(xc, yc), i_DFc(r), col));
+
+  im_clear_error(aIMCTX);
+  if (r <= 0) {
+    im_push_error(aIMCTX, 0, "arc: radius must be non-negative");
+    return 0;
+  }
+  i = r;
+  j = 0;
+  t = 0;
+  i_ppix_norm(im, xc+i, yc+j, col);
+  i_ppix_norm(im, xc-i, yc+j, col);
+  i_ppix_norm(im, xc+j, yc+i, col);
+  i_ppix_norm(im, xc+j, yc-i, col);
+
+  while (i > j+1) {
+    double d;
+    int cv, inv_cv;
+    j++;
+    d = cover(r, j);
+    cv = (int)(d * 255 + 0.5);
+    inv_cv = 255-cv;
+    if (d < t) {
+      --i;
+    }
+    if (inv_cv) {
+      workc.channel[3] = orig_alpha * inv_cv / 255;
+      i_ppix_norm(im, xc+i, yc+j, &workc);
+      i_ppix_norm(im, xc-i, yc+j, &workc);
+      i_ppix_norm(im, xc+i, yc-j, &workc);
+      i_ppix_norm(im, xc-i, yc-j, &workc);
+
+      if (i != j) {
+       i_ppix_norm(im, xc+j, yc+i, &workc);
+       i_ppix_norm(im, xc-j, yc+i, &workc);
+       i_ppix_norm(im, xc+j, yc-i, &workc);
+       i_ppix_norm(im, xc-j, yc-i, &workc);
+      }
+    }
+    if (cv && i > j) {
+      workc.channel[3] = orig_alpha * cv / 255;
+      i_ppix_norm(im, xc+i-1, yc+j, &workc);
+      i_ppix_norm(im, xc-i+1, yc+j, &workc);
+      i_ppix_norm(im, xc+i-1, yc-j, &workc);
+      i_ppix_norm(im, xc-i+1, yc-j, &workc);
+
+      if (j != i-1) {
+       i_ppix_norm(im, xc+j, yc+i-1, &workc);
+       i_ppix_norm(im, xc-j, yc+i-1, &workc);
+       i_ppix_norm(im, xc+j, yc-i+1, &workc);
+       i_ppix_norm(im, xc-j, yc-i+1, &workc);
+      }
+    }
+    t = d;
+  }
+
+  return 1;
+}
+
+/*
+=item i_arc_out_aa(im, xc, yc, r, d1, d2, col)
+
+=synopsis i_arc_out_aa(im, 50, 50, 45, 45, 125, &color);
+
+Draw a circle arc outline centered at (x,y) with radius r, from angle
+d1 degrees through angle d2 degrees, anti-aliased.
+
+Parameters:
+
+=over
+
+=item *
+
+(xc, yc) - the center of the circle
+
+=item *
+
+r - the radius of the circle in pixels, must be non-negative
+
+=item *
+
+d1, d2 - the range of angle in degrees to draw the arc through.  If
+d2-d1 >= 360 a full circle is drawn.
+
+=back
+
+Returns non-zero on success.
+
+=cut
+
+Based on "Fast Anti-Aliased Circle Generation", Xiaolin Wu, Graphics
+Gems.
+
+*/
+
+int
+i_arc_out_aa(i_img *im, i_img_dim xc, i_img_dim yc, i_img_dim r, double d1, double d2, const i_color *col) {
+  i_img_dim i, j;
+  double t;
+  i_color workc = *col;
+  i_img_dim segs[2][2];
+  int seg_count;
+  i_img_dim sin_th;
+  i_img_dim seg_d1, seg_d2;
+  int seg_num;
+  int orig_alpha = col->channel[3];
+  i_img_dim scale = r + 1;
+  i_img_dim seg1 = scale * 2;
+  i_img_dim seg2 = scale * 4;
+  i_img_dim seg3 = scale * 6;
+  i_img_dim seg4 = scale * 8;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_arc_out_aa(im %p,centre(" i_DFp "), rad %" i_DF ", d1 %f, d2 %f, col %p)",
+         im, i_DFcp(xc, yc), i_DFc(r), d1, d2, col));
+
+  im_clear_error(aIMCTX);
+  if (r <= 0) {
+    im_push_error(aIMCTX, 0, "arc: radius must be non-negative");
+    return 0;
+  }
+  if (d1 + 360 <= d2)
+    return i_circle_out_aa(im, xc, yc, r, col);
+
+  if (d1 < 0)
+    d1 += 360 * floor((-d1 + 359) / 360);
+  if (d2 < 0)
+    d2 += 360 * floor((-d2 + 359) / 360);
+  d1 = fmod(d1, 360);
+  d2 = fmod(d2, 360);
+  seg_d1 = arc_seg(d1, scale);
+  seg_d2 = arc_seg(d2, scale);
+  if (seg_d2 < seg_d1) {
+    /* split into two segments */
+    segs[0][0] = 0;
+    segs[0][1] = seg_d2;
+    segs[1][0] = seg_d1;
+    segs[1][1] = seg4;
+    seg_count = 2;
+  }
+  else {
+    segs[0][0] = seg_d1;
+    segs[0][1] = seg_d2;
+    seg_count = 1;
+  }
+
+  for (seg_num = 0; seg_num < seg_count; ++seg_num) {
+    i_img_dim seg_start = segs[seg_num][0];
+    i_img_dim seg_end = segs[seg_num][1];
+
+    i = r;
+    j = 0;
+    t = 0;
+
+    if (seg_start == 0)
+      i_ppix_norm(im, xc+i, yc+j, col);
+    if (seg_start <= seg1 && seg_end >= seg1)
+      i_ppix_norm(im, xc+j, yc+i, col);
+    if (seg_start <= seg2 && seg_end >= seg2)
+      i_ppix_norm(im, xc-i, yc+j, col);
+    if (seg_start <= seg3 && seg_end >= seg3)
+      i_ppix_norm(im, xc+j, yc-i, col);
+    
+    while (i > j+1) {
+      int cv, inv_cv;
+      double d;
+      j++;
+      d = cover(r, j);
+      cv = (int)(d * 255 + 0.5);
+      inv_cv = 255-cv;
+      if (d < t) {
+       --i;
+      }
+      sin_th = j;
+      if (inv_cv) {
+       workc.channel[3] = orig_alpha * inv_cv / 255;
+
+       if (seg_start <= sin_th && seg_end >= sin_th)
+         i_ppix_norm(im, xc+i, yc+j, &workc);
+       if (seg_start <= seg2 - sin_th && seg_end >= seg2 - sin_th)
+         i_ppix_norm(im, xc-i, yc+j, &workc);
+       if (seg_start <= seg4 - sin_th && seg_end >= seg4 - sin_th)
+         i_ppix_norm(im, xc+i, yc-j, &workc);
+       if (seg_start <= seg2 + sin_th && seg_end >= seg2 + sin_th)
+         i_ppix_norm(im, xc-i, yc-j, &workc);
+       
+       if (i != j) {
+         if (seg_start <= seg1 - sin_th && seg_end >= seg1 - sin_th)
+           i_ppix_norm(im, xc+j, yc+i, &workc);
+         if (seg_start <= seg1 + sin_th && seg_end >= seg1 + sin_th)
+           i_ppix_norm(im, xc-j, yc+i, &workc);
+         if (seg_start <= seg3 + sin_th && seg_end >= seg3 + sin_th)
+           i_ppix_norm(im, xc+j, yc-i, &workc);
+         if (seg_start <= seg3 - sin_th && seg_end >= seg3 - sin_th)
+           i_ppix_norm(im, xc-j, yc-i, &workc);
+       }
+      }
+      if (cv && i > j) {
+       workc.channel[3] = orig_alpha * cv / 255;
+       if (seg_start <= sin_th && seg_end >= sin_th)
+         i_ppix_norm(im, xc+i-1, yc+j, &workc);
+       if (seg_start <= seg2 - sin_th && seg_end >= seg2 - sin_th)
+         i_ppix_norm(im, xc-i+1, yc+j, &workc);
+       if (seg_start <= seg4 - sin_th && seg_end >= seg4 - sin_th)
+         i_ppix_norm(im, xc+i-1, yc-j, &workc);
+       if (seg_start <= seg2 + sin_th && seg_end >= seg2 + sin_th)
+         i_ppix_norm(im, xc-i+1, yc-j, &workc);
+       
+       if (seg_start <= seg1 - sin_th && seg_end >= seg1 - sin_th)
+         i_ppix_norm(im, xc+j, yc+i-1, &workc);
+       if (seg_start <= seg1 + sin_th && seg_end >= seg1 + sin_th)
+         i_ppix_norm(im, xc-j, yc+i-1, &workc);
+       if (seg_start <= seg3 + sin_th && seg_end >= seg3 + sin_th)
+         i_ppix_norm(im, xc+j, yc-i+1, &workc);
+       if (seg_start <= seg3 - sin_th && seg_end >= seg3 - sin_th)
+         i_ppix_norm(im, xc-j, yc-i+1, &workc);
+      }
+      t = d;
+    }
+  }
+
+  return 1;
+}
 
+/*
+=item i_box(im, x1, y1, x2, y2, color)
 
+=category Drawing
+=synopsis i_box(im, 0, 0, im->xsize-1, im->ysize-1, &color).
 
+Outlines the box from (x1,y1) to (x2,y2) inclusive with I<color>.
 
+=cut
+*/
 
 void
-i_box(i_img *im,int x1,int y1,int x2,int y2,i_color *val) {
-  int x,y;
-  mm_log((1,"i_box(im* 0x%x,x1 %d,y1 %d,x2 %d,y2 %d,val 0x%x)\n",im,x1,y1,x2,y2,val));
+i_box(i_img *im,i_img_dim x1,i_img_dim y1,i_img_dim x2,i_img_dim y2,const i_color *val) {
+  i_img_dim x,y;
+  dIMCTXim(im);
+
+  im_log((aIMCTX, 1,"i_box(im* %p, p1(" i_DFp "), p2(" i_DFp "),val %p)\n",
+         im, i_DFcp(x1,y1), i_DFcp(x2,y2), val));
   for(x=x1;x<x2+1;x++) {
     i_ppix(im,x,y1,val);
     i_ppix(im,x,y2,val);
@@ -487,16 +1101,145 @@ i_box(i_img *im,int x1,int y1,int x2,int y2,i_color *val) {
   }
 }
 
+/*
+=item i_box_filled(im, x1, y1, x2, y2, color)
+
+=category Drawing
+=synopsis i_box_filled(im, 0, 0, im->xsize-1, im->ysize-1, &color);
+
+Fills the box from (x1,y1) to (x2,y2) inclusive with color.
+
+=cut
+*/
+
 void
-i_box_filled(i_img *im,int x1,int y1,int x2,int y2,i_color *val) {
-  int x,y;
-  mm_log((1,"i_box_filled(im* 0x%x,x1 %d,y1 %d,x2 %d,y2 %d,val 0x%x)\n",im,x1,y1,x2,y2,val));
-  for(x=x1;x<x2+1;x++) for (y=y1;y<y2+1;y++) i_ppix(im,x,y,val);
+i_box_filled(i_img *im,i_img_dim x1,i_img_dim y1,i_img_dim x2,i_img_dim y2, const i_color *val) {
+  i_img_dim x, y, width;
+  i_palidx index;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_box_filled(im* %p, p1(" i_DFp "), p2(" i_DFp "),val %p)\n",
+         im, i_DFcp(x1, y1), i_DFcp(x2,y2) ,val));
+
+  if (x1 > x2 || y1 > y2
+      || x2 < 0 || y2 < 0
+      || x1 >= im->xsize || y1 > im->ysize)
+    return;
+
+  if (x1 < 0)
+    x1 = 0;
+  if (x2 >= im->xsize)
+    x2 = im->xsize - 1;
+  if (y1 < 0)
+    y1 = 0;
+  if (y2 >= im->ysize)
+    y2 = im->ysize - 1;
+
+  width = x2 - x1 + 1;
+
+  if (im->type == i_palette_type
+      && i_findcolor(im, val, &index)) {
+    i_palidx *line = mymalloc(sizeof(i_palidx) * width);
+
+    for (x = 0; x < width; ++x)
+      line[x] = index;
+
+    for (y = y1; y <= y2; ++y)
+      i_ppal(im, x1, x2+1, y, line);
+
+    myfree(line);
+  }
+  else {
+    i_color *line = mymalloc(sizeof(i_color) * width);
+
+    for (x = 0; x < width; ++x)
+      line[x] = *val;
+
+    for (y = y1; y <= y2; ++y)
+      i_plin(im, x1, x2+1, y, line);
+
+    myfree(line);
+  }
+}
+
+/*
+=item i_box_filledf(im, x1, y1, x2, y2, color)
+
+=category Drawing
+=synopsis i_box_filledf(im, 0, 0, im->xsize-1, im->ysize-1, &fcolor);
+
+Fills the box from (x1,y1) to (x2,y2) inclusive with a floating point
+color.
+
+=cut
+*/
+
+int
+i_box_filledf(i_img *im,i_img_dim x1,i_img_dim y1,i_img_dim x2,i_img_dim y2, const i_fcolor *val) {
+  i_img_dim x, y, width;
+  dIMCTXim(im);
+
+  im_log((aIMCTX, 1,"i_box_filledf(im* %p, p1(" i_DFp "), p2(" i_DFp "),val %p)\n",
+         im, i_DFcp(x1, y1), i_DFcp(x2, y2), val));
+
+  if (x1 > x2 || y1 > y2
+      || x2 < 0 || y2 < 0
+      || x1 >= im->xsize || y1 > im->ysize)
+    return 0;
+
+  if (x1 < 0)
+    x1 = 0;
+  if (x2 >= im->xsize)
+    x2 = im->xsize - 1;
+  if (y1 < 0)
+    y1 = 0;
+  if (y2 >= im->ysize)
+    y2 = im->ysize - 1;
+
+  width = x2 - x1 + 1;
+
+  if (im->bits <= 8) {
+    i_color c;
+    c.rgba.r = SampleFTo8(val->rgba.r);
+    c.rgba.g = SampleFTo8(val->rgba.g);
+    c.rgba.b = SampleFTo8(val->rgba.b);
+    c.rgba.a = SampleFTo8(val->rgba.a);
+
+    i_box_filled(im, x1, y1, x2, y2, &c);
+  }
+  else {
+    i_fcolor *line = mymalloc(sizeof(i_fcolor) * width);
+    
+    for (x = 0; x < width; ++x)
+      line[x] = *val;
+    
+    for (y = y1; y <= y2; ++y)
+      i_plinf(im, x1, x2+1, y, line);
+    
+    myfree(line);
+  }
+  
+  return 1;
 }
 
+/*
+=item i_box_cfill(im, x1, y1, x2, y2, fill)
+
+=category Drawing
+=synopsis i_box_cfill(im, 0, 0, im->xsize-1, im->ysize-1, fill);
+
+Fills the box from (x1,y1) to (x2,y2) inclusive with fill.
+
+=cut
+*/
+
 void
-i_box_cfill(i_img *im,int x1,int y1,int x2,int y2,i_fill_t *fill) {
-  mm_log((1,"i_box_cfill(im* 0x%x,x1 %d,y1 %d,x2 %d,y2 %d,fill 0x%x)\n",im,x1,y1,x2,y2,fill));
+i_box_cfill(i_img *im,i_img_dim x1,i_img_dim y1,i_img_dim x2,i_img_dim y2,i_fill_t *fill) {
+  i_render r;
+  dIMCTXim(im);
+
+  im_log((aIMCTX,1,"i_box_cfill(im* %p, p1(" i_DFp "), p2(" i_DFp "), fill %p)\n",
+         im, i_DFcp(x1, y1), i_DFcp(x2,y2), fill));
 
   ++x2;
   if (x1 < 0)
@@ -509,89 +1252,57 @@ i_box_cfill(i_img *im,int x1,int y1,int x2,int y2,i_fill_t *fill) {
     y2 = im->ysize-1;
   if (x1 >= x2 || y1 > y2)
     return;
-  if (im->bits == i_8_bits && fill->fill_with_color) {
-    i_color *line = mymalloc(sizeof(i_color) * (x2 - x1)); /* checked 5jul05 tonyc */
-    i_color *work = NULL;
-    if (fill->combine)
-      work = mymalloc(sizeof(i_color) * (x2-x1)); /* checked 5jul05 tonyc */
-    while (y1 <= y2) {
-      if (fill->combine) {
-        i_glin(im, x1, x2, y1, line);
-        (fill->fill_with_color)(fill, x1, y1, x2-x1, im->channels, work);
-        (fill->combine)(line, work, im->channels, x2-x1);
-      }
-      else {
-        (fill->fill_with_color)(fill, x1, y1, x2-x1, im->channels, line);
-      }
-      i_plin(im, x1, x2, y1, line);
-      ++y1;
-    }
-    myfree(line);
-    if (work)
-      myfree(work);
-  }
-  else {
-    i_fcolor *line = mymalloc(sizeof(i_fcolor) * (x2 - x1)); /* checked 5jul05 tonyc */
-    i_fcolor *work;
-    work = mymalloc(sizeof(i_fcolor) * (x2 - x1)); /* checked 5jul05 tonyc */
-
-    while (y1 <= y2) {
-      if (fill->combine) {
-        i_glinf(im, x1, x2, y1, line);
-        (fill->fill_with_fcolor)(fill, x1, y1, x2-x1, im->channels, work);
-        (fill->combinef)(line, work, im->channels, x2-x1);
-      }
-      else {
-        (fill->fill_with_fcolor)(fill, x1, y1, x2-x1, im->channels, line);
-      }
-      i_plinf(im, x1, x2, y1, line);
-      ++y1;
-    }
-    myfree(line);
-    if (work)
-      myfree(work);
+
+  i_render_init(&r, im, x2-x1);
+  while (y1 <= y2) {
+    i_render_fill(&r, x1, y1, x2-x1, NULL, fill);
+    ++y1;
   }
+  i_render_done(&r);
 }
 
-
 /* 
-=item i_line(im, x1, y1, x2, y2, val, endp)
+=item i_line(C<im>, C<x1>, C<y1>, C<x2>, C<y2>, C<color>, C<endp>)
+
+=category Drawing
 
-Draw a line to image using bresenhams linedrawing algorithm
+=for stopwords Bresenham's
 
-   im   - image to draw to
-   x1   - starting x coordinate
-   y1   - starting x coordinate
-   x2   - starting x coordinate
-   y2   - starting x coordinate
-   val  - color to write to image
-   endp - endpoint flag (boolean)
+Draw a line to image using Bresenham's line drawing algorithm
+
+   im    - image to draw to
+   x1    - starting x coordinate
+   y1    - starting x coordinate
+   x2    - starting x coordinate
+   y2    - starting x coordinate
+   color - color to write to image
+   endp  - endpoint flag (boolean)
 
 =cut
 */
 
 void
-i_line(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
-  int x, y;
-  int dx, dy;
-  int p;
+i_line(i_img *im, i_img_dim x1, i_img_dim y1, i_img_dim x2, i_img_dim y2, const i_color *val, int endp) {
+  i_img_dim x, y;
+  i_img_dim dx, dy;
+  i_img_dim p;
 
   dx = x2 - x1;
   dy = y2 - y1;
 
 
   /* choose variable to iterate on */
-  if (abs(dx)>abs(dy)) {
-    int dx2, dy2, cpy;
+  if (i_abs(dx) > i_abs(dy)) {
+    i_img_dim dx2, dy2, cpy;
 
     /* sort by x */
     if (x1 > x2) {
-      int t;
+      i_img_dim t;
       t = x1; x1 = x2; x2 = t;
       t = y1; y1 = y2; y2 = t;
     }
     
-    dx = abs(dx);
+    dx = i_abs(dx);
     dx2 = dx*2;
     dy = y2 - y1;
 
@@ -616,16 +1327,16 @@ i_line(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
       i_ppix(im, x+1, y, val);
     }
   } else {
-    int dy2, dx2, cpx;
+    i_img_dim dy2, dx2, cpx;
 
     /* sort bx y */
     if (y1 > y2) {
-      int t;
+      i_img_dim t;
       t = x1; x1 = x2; x2 = t;
       t = y1; y1 = y2; y2 = t;
     }
     
-    dy = abs(dy);
+    dy = i_abs(dy);
     dx = x2 - x1;
     dy2 = dy*2;
 
@@ -661,124 +1372,50 @@ i_line(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
 
 
 void
-i_line_dda(i_img *im, int x1, int y1, int x2, int y2, i_color *val) {
+i_line_dda(i_img *im, i_img_dim x1, i_img_dim y1, i_img_dim x2, i_img_dim y2, i_color *val) {
 
-  float dy;
-  int x;
+  double dy;
+  i_img_dim x;
   
   for(x=x1; x<=x2; x++) {
-    dy = y1+ (x-x1)/(float)(x2-x1)*(y2-y1);
-    i_ppix(im, x, (int)(dy+0.5), val);
+    dy = y1+ (x-x1)/(double)(x2-x1)*(y2-y1);
+    i_ppix(im, x, (i_img_dim)(dy+0.5), val);
   }
 }
 
+/*
+=item i_line_aa(C<im>, C<x1>, C<x2>, C<y1>, C<y2>, C<color>, C<endp>)
 
+=category Drawing
 
+Anti-alias draws a line from (x1,y1) to (x2, y2) in color.
 
+The point (x2, y2) is drawn only if C<endp> is set.
 
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-void
-i_line_aa3(i_img *im,int x1,int y1,int x2,int y2,i_color *val) {
-  i_color tval;
-  float alpha;
-  float dsec,dfrac;
-  int temp,dx,dy,isec,ch;
-
-  mm_log((1,"i_line_aa(im* 0x%x,x1 %d,y1 %d,x2 %d,y2 %d,val 0x%x)\n",im,x1,y1,x2,y2,val));
-
-  dy=y2-y1;
-  dx=x2-x1;
-
-  if (abs(dx)>abs(dy)) { /* alpha < 1 */
-    if (x2<x1) { temp=x1; x1=x2; x2=temp; temp=y1; y1=y2; y2=temp; }
-    alpha=(float)(y2-y1)/(float)(x2-x1);
-
-    dsec=y1;
-    while(x1<=x2) {
-      isec=(int)dsec;
-      dfrac=dsec-isec;
-      /*      dfrac=1-(1-dfrac)*(1-dfrac); */
-      /* This is something we can play with to try to get better looking lines */
-
-      i_gpix(im,x1,isec,&tval);
-      for(ch=0;ch<im->channels;ch++) tval.channel[ch]=(unsigned char)(dfrac*(float)tval.channel[ch]+(1-dfrac)*(float)val->channel[ch]);
-      i_ppix(im,x1,isec,&tval);
-      
-      i_gpix(im,x1,isec+1,&tval);
-      for(ch=0;ch<im->channels;ch++) tval.channel[ch]=(unsigned char)((1-dfrac)*(float)tval.channel[ch]+dfrac*(float)val->channel[ch]);
-      i_ppix(im,x1,isec+1,&tval);
-      
-      dsec+=alpha;
-      x1++;
-    }
-  } else {
-    if (y2<y1) { temp=y1; y1=y2; y2=temp; temp=x1; x1=x2; x2=temp; }
-    alpha=(float)(x2-x1)/(float)(y2-y1);
-    dsec=x1;
-    while(y1<=y2) {
-      isec=(int)dsec;
-      dfrac=dsec-isec;
-      /*      dfrac=sqrt(dfrac); */
-      /* This is something we can play with */
-      i_gpix(im,isec,y1,&tval);
-      for(ch=0;ch<im->channels;ch++) tval.channel[ch]=(unsigned char)(dfrac*(float)tval.channel[ch]+(1-dfrac)*(float)val->channel[ch]);
-      i_ppix(im,isec,y1,&tval);
-
-      i_gpix(im,isec+1,y1,&tval);
-      for(ch=0;ch<im->channels;ch++) tval.channel[ch]=(unsigned char)((1-dfrac)*(float)tval.channel[ch]+dfrac*(float)val->channel[ch]);
-      i_ppix(im,isec+1,y1,&tval);
-
-      dsec+=alpha;
-      y1++;
-    }
-  }
-}
-
-
-
+=cut
+*/
 
 void
-i_line_aa(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
-  int x, y;
-  int dx, dy;
-  int p;
+i_line_aa(i_img *im, i_img_dim x1, i_img_dim y1, i_img_dim x2, i_img_dim y2, const i_color *val, int endp) {
+  i_img_dim x, y;
+  i_img_dim dx, dy;
+  i_img_dim p;
 
   dx = x2 - x1;
   dy = y2 - y1;
 
   /* choose variable to iterate on */
-  if (abs(dx)>abs(dy)) {
-    int dx2, dy2, cpy;
+  if (i_abs(dx) > i_abs(dy)) {
+    i_img_dim dx2, dy2, cpy;
     
     /* sort by x */
     if (x1 > x2) {
-      int t;
+      i_img_dim t;
       t = x1; x1 = x2; x2 = t;
       t = y1; y1 = y2; y2 = t;
     }
     
-    dx = abs(dx);
+    dx = i_abs(dx);
     dx2 = dx*2;
     dy = y2 - y1;
 
@@ -796,8 +1433,8 @@ i_line_aa(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
     for(x=x1; x<x2-1; x++) {
       int ch;
       i_color tval;
-      float t = (dy) ? -(float)(p)/(float)(dx2) : 1;
-      float t1, t2;
+      double t = (dy) ? -(float)(p)/(float)(dx2) : 1;
+      double t1, t2;
 
       if (t<0) t = 0;
       t1 = 1-t;
@@ -821,16 +1458,16 @@ i_line_aa(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
       }
     }
   } else {
-    int dy2, dx2, cpx;
+    i_img_dim dy2, dx2, cpx;
 
     /* sort bx y */
     if (y1 > y2) {
-      int t;
+      i_img_dim t;
       t = x1; x1 = x2; x2 = t;
       t = y1; y1 = y2; y2 = t;
     }
     
-    dy = abs(dy);
+    dy = i_abs(dy);
     dx = x2 - x1;
     dy2 = dy*2;
 
@@ -848,8 +1485,8 @@ i_line_aa(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
     for(y=y1; y<y2-1; y++) {
       int ch;
       i_color tval;
-      float t = (dx) ? -(float)(p)/(float)(dy2) : 1;
-      float t1, t2;
+      double t = (dx) ? -(double)(p)/(double)(dy2) : 1;
+      double t1, t2;
       
       if (t<0) t = 0;
       t1 = 1-t;
@@ -857,12 +1494,12 @@ i_line_aa(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
 
       i_gpix(im,x,y+1,&tval);
       for(ch=0;ch<im->channels;ch++)
-       tval.channel[ch]=(unsigned char)(t1*(float)tval.channel[ch]+t2*(float)val->channel[ch]);
+       tval.channel[ch]=(unsigned char)(t1*(double)tval.channel[ch]+t2*(double)val->channel[ch]);
       i_ppix(im,x,y+1,&tval);
 
       i_gpix(im,x+cpx,y+1,&tval);
       for(ch=0;ch<im->channels;ch++)
-       tval.channel[ch]=(unsigned char)(t2*(float)tval.channel[ch]+t1*(float)val->channel[ch]);
+       tval.channel[ch]=(unsigned char)(t2*(double)tval.channel[ch]+t1*(double)val->channel[ch]);
       i_ppix(im,x+cpx,y+1,&tval);
 
       if (p<0) {
@@ -887,9 +1524,9 @@ i_line_aa(i_img *im, int x1, int y1, int x2, int y2, i_color *val, int endp) {
 
 
 static double
-perm(int n,int k) {
+perm(i_img_dim n,i_img_dim k) {
   double r;
-  int i;
+  i_img_dim i;
   r=1;
   for(i=k+1;i<=n;i++) r*=i;
   for(i=1;i<=(n-k);i++) r/=i;
@@ -903,11 +1540,11 @@ perm(int n,int k) {
    to get a new level - this may lead to errors who knows lets test it */
 
 void
-i_bezier_multi(i_img *im,int l,double *x,double *y,i_color *val) {
+i_bezier_multi(i_img *im,int l,const double *x,const double *y, const i_color *val) {
   double *bzcoef;
   double t,cx,cy;
   int k,i;
-  int lx = 0,ly = 0;
+  i_img_dim lx = 0,ly = 0;
   int n=l-1;
   double itr,ccoef;
 
@@ -933,11 +1570,11 @@ i_bezier_multi(i_img *im,int l,double *x,double *y,i_color *val) {
     }
     /*    printf("%f -> (%d,%d)\n",t,(int)(0.5+cx),(int)(0.5+cy)); */
     if (i++) { 
-      i_line_aa(im,lx,ly,(int)(0.5+cx),(int)(0.5+cy),val, 1);
+      i_line_aa(im,lx,ly,(i_img_dim)(0.5+cx),(i_img_dim)(0.5+cy),val, 1);
     }
-      /*     i_ppix(im,(int)(0.5+cx),(int)(0.5+cy),val); */
-    lx=(int)(0.5+cx);
-    ly=(int)(0.5+cy);
+      /*     i_ppix(im,(i_img_dim)(0.5+cx),(i_img_dim)(0.5+cy),val); */
+    lx=(i_img_dim)(0.5+cx);
+    ly=(i_img_dim)(0.5+cy);
   }
   ICL_info(val);
   myfree(bzcoef);
@@ -966,9 +1603,9 @@ i_bezier_multi(i_img *im,int l,double *x,double *y,i_color *val) {
 
 /*
 struct stc {
-  int mylx,myrx; 
-  int dadlx,dadrx;
-  int myy;
+  i_img_dim mylx,myrx; 
+  i_img_dim dadlx,dadrx;
+  i_img_dim myy;
   int mydirection;
 };
 
@@ -977,9 +1614,9 @@ Not used code???
 
 
 struct stack_element {
-  int myLx,myRx;
-  int dadLx,dadRx;
-  int myY;
+  i_img_dim myLx,myRx;
+  i_img_dim dadLx,dadRx;
+  i_img_dim myY;
   int myDirection;
 };
 
@@ -988,7 +1625,7 @@ struct stack_element {
 
 static
 struct stack_element*
-crdata(int left,int right,int dadl,int dadr,int y, int dir) {
+crdata(i_img_dim left,i_img_dim right,i_img_dim dadl,i_img_dim dadr,i_img_dim y, int dir) {
   struct stack_element *ste;
   ste              = mymalloc(sizeof(struct stack_element)); /* checked 5jul05 tonyc */
   ste->myLx        = left;
@@ -1002,33 +1639,46 @@ crdata(int left,int right,int dadl,int dadr,int y, int dir) {
 
 /* i_ccomp compares two colors and gives true if they are the same */
 
+typedef int (*ff_cmpfunc)(i_color const *c1, i_color const *c2, int channels);
+
 static int
-i_ccomp(i_color *val1,i_color *val2,int ch) {
+i_ccomp_normal(i_color const *val1, i_color const *val2, int ch) {
   int i;
-  for(i=0;i<ch;i++) if (val1->channel[i] !=val2->channel[i]) return 0;
+  for(i = 0; i < ch; i++) 
+    if (val1->channel[i] !=val2->channel[i])
+      return 0;
   return 1;
 }
 
+static int
+i_ccomp_border(i_color const *val1, i_color const *val2, int ch) {
+  int i;
+  for(i = 0; i < ch; i++) 
+    if (val1->channel[i] !=val2->channel[i])
+      return 1;
+  return 0;
+}
 
 static int
-i_lspan(i_img *im, int seedx, int seedy, i_color *val) {
+i_lspan(i_img *im, i_img_dim seedx, i_img_dim seedy, i_color const *val, ff_cmpfunc cmpfunc) {
   i_color cval;
   while(1) {
     if (seedx-1 < 0) break;
     i_gpix(im,seedx-1,seedy,&cval);
-    if (!i_ccomp(val,&cval,im->channels)) break;
+    if (!cmpfunc(val,&cval,im->channels)) 
+      break;
     seedx--;
   }
   return seedx;
 }
 
 static int
-i_rspan(i_img *im, int seedx, int seedy, i_color *val) {
+i_rspan(i_img *im, i_img_dim seedx, i_img_dim seedy, i_color const *val, ff_cmpfunc cmpfunc) {
   i_color cval;
   while(1) {
     if (seedx+1 > im->xsize-1) break;
     i_gpix(im,seedx+1,seedy,&cval);
-    if (!i_ccomp(val,&cval,im->channels)) break;
+    if (!cmpfunc(val,&cval,im->channels)) break;
     seedx++;
   }
   return seedx;
@@ -1057,8 +1707,8 @@ i_rspan(i_img *im, int seedx, int seedy, i_color *val) {
 } while (0)
 
 #define ST_STACK(dir,dadLx,dadRx,lx,rx,y) do {                    \
-  int pushrx = rx+1;                                              \
-  int pushlx = lx-1;                                              \
+  i_img_dim pushrx = rx+1;                                              \
+  i_img_dim pushlx = lx-1;                                              \
   ST_PUSH(lx,rx,pushlx,pushrx,y+dir,dir);                         \
   if (rx > dadRx)                                                 \
     ST_PUSH(dadRx+1,rx,pushlx,pushrx,y-dir,-dir);                 \
@@ -1068,36 +1718,30 @@ i_rspan(i_img *im, int seedx, int seedy, i_color *val) {
 #define SET(x,y) btm_set(btm,x,y)
 
 /* INSIDE returns true if pixel is correct color and we haven't set it before. */
-#define INSIDE(x,y) ((!btm_test(btm,x,y) && ( i_gpix(im,x,y,&cval),i_ccomp(&val,&cval,channels)  ) ))
+#define INSIDE(x,y, seed) ((!btm_test(btm,x,y) && ( i_gpix(im,x,y,&cval),cmpfunc(seed,&cval,channels)  ) ))
 
 
 
 /* The function that does all the real work */
 
 static struct i_bitmap *
-i_flood_fill_low(i_img *im,int seedx,int seedy,
-                 int *bxminp, int *bxmaxp, int *byminp, int *bymaxp) {
-
-  /*
-    int lx,rx;
-    int y;
-    int direction;
-    int dadLx,dadRx;
-    int wasIn=0;
-  */
-  int ltx, rtx;
-  int tx = 0;
+i_flood_fill_low(i_img *im,i_img_dim seedx,i_img_dim seedy,
+                 i_img_dim *bxminp, i_img_dim *bxmaxp, i_img_dim *byminp, i_img_dim *bymaxp,
+                i_color const *seed, ff_cmpfunc cmpfunc) {
+  i_img_dim ltx, rtx;
+  i_img_dim tx = 0;
 
-  int bxmin = seedx;
-  int bxmax = seedx;
-  int bymin = seedy;
-  int bymax = seedy;
+  i_img_dim bxmin = seedx;
+  i_img_dim bxmax = seedx;
+  i_img_dim bymin = seedy;
+  i_img_dim bymax = seedy;
 
   struct llist *st;
   struct i_bitmap *btm;
 
-  int channels,xsize,ysize;
-  i_color cval,val;
+  int channels;
+  i_img_dim xsize,ysize;
+  i_color cval;
 
   channels = im->channels;
   xsize    = im->xsize;
@@ -1106,25 +1750,24 @@ i_flood_fill_low(i_img *im,int seedx,int seedy,
   btm = btm_new(xsize, ysize);
   st  = llist_new(100, sizeof(struct stack_element*));
 
-  /* Get the reference color */
-  i_gpix(im, seedx, seedy, &val);
-
   /* Find the starting span and fill it */
-  ltx = i_lspan(im, seedx, seedy, &val);
-  rtx = i_rspan(im, seedx, seedy, &val);
+  ltx = i_lspan(im, seedx, seedy, seed, cmpfunc);
+  rtx = i_rspan(im, seedx, seedy, seed, cmpfunc);
   for(tx=ltx; tx<=rtx; tx++) SET(tx, seedy);
+  bxmin = ltx;
+  bxmax = rtx;
 
   ST_PUSH(ltx, rtx, ltx, rtx, seedy+1,  1);
   ST_PUSH(ltx, rtx, ltx, rtx, seedy-1, -1);
 
   while(st->count) {
     /* Stack variables */
-    int lx,rx;
-    int dadLx,dadRx;
-    int y;
+    i_img_dim lx,rx;
+    i_img_dim dadLx,dadRx;
+    i_img_dim y;
     int direction;
 
-    int x;
+    i_img_dim x;
     int wasIn=0;
 
     ST_POP(); /* sets lx, rx, dadLx, dadRx, y, direction */
@@ -1136,10 +1779,10 @@ i_flood_fill_low(i_img *im,int seedx,int seedy,
 
 
     x = lx+1;
-    if ( lx >= 0 && (wasIn = INSIDE(lx, y)) ) {
+    if ( lx >= 0 && (wasIn = INSIDE(lx, y, seed)) ) {
       SET(lx, y);
       lx--;
-      while(INSIDE(lx, y) && lx > 0) {
+      while(lx >= 0 && INSIDE(lx, y, seed)) {
        SET(lx,y);
        lx--;
       }
@@ -1150,7 +1793,7 @@ i_flood_fill_low(i_img *im,int seedx,int seedy,
       /*  printf("x=%d\n",x); */
       if (wasIn) {
        
-       if (INSIDE(x, y)) {
+       if (INSIDE(x, y, seed)) {
          /* case 1: was inside, am still inside */
          SET(x,y);
        } else {
@@ -1163,7 +1806,7 @@ i_flood_fill_low(i_img *im,int seedx,int seedy,
        }
       } else {
        if (x > rx) goto EXT;
-       if (INSIDE(x, y)) {
+       if (INSIDE(x, y, seed)) {
          SET(x, y);
          /* case 3: Wasn't inside, am now: just found the start of a new run */
          wasIn = 1;
@@ -1192,23 +1835,43 @@ i_flood_fill_low(i_img *im,int seedx,int seedy,
   return btm;
 }
 
+/*
+=item i_flood_fill(C<im>, C<seedx>, C<seedy>, C<color>)
+
+=category Drawing
+=synopsis i_flood_fill(im, 50, 50, &color);
 
+Flood fills the 4-connected region starting from the point (C<seedx>,
+C<seedy>) with I<color>.
 
+Returns false if (C<seedx>, C<seedy>) are outside the image.
+
+=cut
+*/
 
 undef_int
-i_flood_fill(i_img *im, int seedx, int seedy, i_color *dcol) {
-  int bxmin, bxmax, bymin, bymax;
+i_flood_fill(i_img *im, i_img_dim seedx, i_img_dim seedy, const i_color *dcol) {
+  i_img_dim bxmin, bxmax, bymin, bymax;
   struct i_bitmap *btm;
-  int x, y;
+  i_img_dim x, y;
+  i_color val;
+  dIMCTXim(im);
 
-  i_clear_error();
+  im_log((aIMCTX, 1, "i_flood_fill(im %p, seed(" i_DFp "), col %p)",
+          im, i_DFcp(seedx, seedy), dcol));
+
+  im_clear_error(aIMCTX);
   if (seedx < 0 || seedx >= im->xsize ||
       seedy < 0 || seedy >= im->ysize) {
-    i_push_error(0, "i_flood_cfill: Seed pixel outside of image");
+    im_push_error(aIMCTX, 0, "i_flood_cfill: Seed pixel outside of image");
     return 0;
   }
 
-  btm = i_flood_fill_low(im, seedx, seedy, &bxmin, &bxmax, &bymin, &bymax);
+  /* Get the reference color */
+  i_gpix(im, seedx, seedy, &val);
+
+  btm = i_flood_fill_low(im, seedx, seedy, &bxmin, &bxmax, &bymin, &bymax,
+                        &val, i_ccomp_normal);
 
   for(y=bymin;y<=bymax;y++)
     for(x=bxmin;x<=bxmax;x++)
@@ -1218,98 +1881,161 @@ i_flood_fill(i_img *im, int seedx, int seedy, i_color *dcol) {
   return 1;
 }
 
+/*
+=item i_flood_cfill(C<im>, C<seedx>, C<seedy>, C<fill>)
+
+=category Drawing
+=synopsis i_flood_cfill(im, 50, 50, fill);
+
+Flood fills the 4-connected region starting from the point (C<seedx>,
+C<seedy>) with C<fill>.
 
+Returns false if (C<seedx>, C<seedy>) are outside the image.
+
+=cut
+*/
 
 undef_int
-i_flood_cfill(i_img *im, int seedx, int seedy, i_fill_t *fill) {
-  int bxmin, bxmax, bymin, bymax;
+i_flood_cfill(i_img *im, i_img_dim seedx, i_img_dim seedy, i_fill_t *fill) {
+  i_img_dim bxmin, bxmax, bymin, bymax;
   struct i_bitmap *btm;
-  int x, y;
-  int start;
+  i_color val;
+  dIMCTXim(im);
+
+  im_log((aIMCTX, 1, "i_flood_cfill(im %p, seed(" i_DFp "), fill %p)",
+          im, i_DFcp(seedx, seedy), fill));
 
-  i_clear_error();
+  im_clear_error(aIMCTX);
   
   if (seedx < 0 || seedx >= im->xsize ||
       seedy < 0 || seedy >= im->ysize) {
-    i_push_error(0, "i_flood_cfill: Seed pixel outside of image");
+    im_push_error(aIMCTX, 0, "i_flood_cfill: Seed pixel outside of image");
     return 0;
   }
 
-  btm = i_flood_fill_low(im, seedx, seedy, &bxmin, &bxmax, &bymin, &bymax);
-
-  if (im->bits == i_8_bits && fill->fill_with_color) {
-    /* bxmax/bxmin are inside the image, hence this won't overflow */
-    i_color *line = mymalloc(sizeof(i_color) * (bxmax - bxmin)); /* checked 5jul05 tonyc */
-    i_color *work = NULL;
-    if (fill->combine)
-      work = mymalloc(sizeof(i_color) * (bxmax - bxmin)); /* checked 5jul05 tonyc */
-
-    for(y=bymin; y<=bymax; y++) {
-      x = bxmin;
-      while (x < bxmax) {
-        while (x < bxmax && !btm_test(btm, x, y)) {
-          ++x;
-        }
-        if (btm_test(btm, x, y)) {
-          start = x;
-          while (x < bxmax && btm_test(btm, x, y)) {
-            ++x;
-          }
-          if (fill->combine) {
-            i_glin(im, start, x, y, line);
-            (fill->fill_with_color)(fill, start, y, x-start, im->channels, 
-                                    work);
-            (fill->combine)(line, work, im->channels, x-start);
-          }
-          else {
-            (fill->fill_with_color)(fill, start, y, x-start, im->channels, 
-                                    line);
-          }
-          i_plin(im, start, x, y, line);
-        }
-      }
-    }
-    myfree(line);
-    if (work)
-      myfree(work);
+  /* Get the reference color */
+  i_gpix(im, seedx, seedy, &val);
+
+  btm = i_flood_fill_low(im, seedx, seedy, &bxmin, &bxmax, &bymin, &bymax,
+                        &val, i_ccomp_normal);
+
+  cfill_from_btm(im, fill, btm, bxmin, bxmax, bymin, bymax);
+
+  btm_destroy(btm);
+  return 1;
+}
+
+/*
+=item i_flood_fill_border(C<im>, C<seedx>, C<seedy>, C<color>, C<border>)
+
+=category Drawing
+=synopsis i_flood_fill_border(im, 50, 50, &color, &border);
+
+Flood fills the 4-connected region starting from the point (C<seedx>,
+C<seedy>) with C<color>, fill stops when the fill reaches a pixels
+with color C<border>.
+
+Returns false if (C<seedx>, C<seedy>) are outside the image.
+
+=cut
+*/
+
+undef_int
+i_flood_fill_border(i_img *im, i_img_dim seedx, i_img_dim seedy, const i_color *dcol,
+                   const i_color *border) {
+  i_img_dim bxmin, bxmax, bymin, bymax;
+  struct i_bitmap *btm;
+  i_img_dim x, y;
+  dIMCTXim(im);
+
+  im_log((aIMCTX, 1, "i_flood_cfill(im %p, seed(" i_DFp "), dcol %p, border %p)",
+          im, i_DFcp(seedx, seedy), dcol, border));
+
+  im_clear_error(aIMCTX);
+  if (seedx < 0 || seedx >= im->xsize ||
+      seedy < 0 || seedy >= im->ysize) {
+    im_push_error(aIMCTX, 0, "i_flood_cfill: Seed pixel outside of image");
+    return 0;
   }
-  else {
-    /* bxmax/bxmin are inside the image, hence this won't overflow */
-    i_fcolor *line = mymalloc(sizeof(i_fcolor) * (bxmax - bxmin)); /* checked 5jul05 tonyc */
-    i_fcolor *work = NULL;
-    if (fill->combinef)
-      work = mymalloc(sizeof(i_fcolor) * (bxmax - bxmin)); /* checked 5jul05 tonyc */
-    
-    for(y=bymin;y<=bymax;y++) {
-      x = bxmin;
-      while (x < bxmax) {
-        while (x < bxmax && !btm_test(btm, x, y)) {
-          ++x;
-        }
-        if (btm_test(btm, x, y)) {
-          start = x;
-          while (x < bxmax && btm_test(btm, x, y)) {
-            ++x;
-          }
-          if (fill->combinef) {
-            i_glinf(im, start, x, y, line);
-            (fill->fill_with_fcolor)(fill, start, y, x-start, im->channels, 
-                                    work);
-            (fill->combinef)(line, work, im->channels, x-start);
-          }
-          else {
-            (fill->fill_with_fcolor)(fill, start, y, x-start, im->channels, 
-                                    line);
-          }
-          i_plinf(im, start, x, y, line);
-        }
-      }
-    }
-    myfree(line);
-    if (work)
-      myfree(work);
+
+  btm = i_flood_fill_low(im, seedx, seedy, &bxmin, &bxmax, &bymin, &bymax,
+                        border, i_ccomp_border);
+
+  for(y=bymin;y<=bymax;y++)
+    for(x=bxmin;x<=bxmax;x++)
+      if (btm_test(btm,x,y)) 
+       i_ppix(im,x,y,dcol);
+  btm_destroy(btm);
+  return 1;
+}
+
+/*
+=item i_flood_cfill_border(C<im>, C<seedx>, C<seedy>, C<fill>, C<border>)
+
+=category Drawing
+=synopsis i_flood_cfill_border(im, 50, 50, fill, border);
+
+Flood fills the 4-connected region starting from the point (C<seedx>,
+C<seedy>) with C<fill>, the fill stops when it reaches pixels of color
+C<border>.
+
+Returns false if (C<seedx>, C<seedy>) are outside the image.
+
+=cut
+*/
+
+undef_int
+i_flood_cfill_border(i_img *im, i_img_dim seedx, i_img_dim seedy, i_fill_t *fill,
+                    const i_color *border) {
+  i_img_dim bxmin, bxmax, bymin, bymax;
+  struct i_bitmap *btm;
+  dIMCTXim(im);
+
+  im_log((aIMCTX, 1, "i_flood_cfill_border(im %p, seed(" i_DFp "), fill %p, border %p)",
+          im, i_DFcp(seedx, seedy), fill, border));
+
+  im_clear_error(aIMCTX);
+  
+  if (seedx < 0 || seedx >= im->xsize ||
+      seedy < 0 || seedy >= im->ysize) {
+    im_push_error(aIMCTX, 0, "i_flood_cfill_border: Seed pixel outside of image");
+    return 0;
   }
 
+  btm = i_flood_fill_low(im, seedx, seedy, &bxmin, &bxmax, &bymin, &bymax,
+                        border, i_ccomp_border);
+
+  cfill_from_btm(im, fill, btm, bxmin, bxmax, bymin, bymax);
+
   btm_destroy(btm);
+
   return 1;
 }
+
+static void
+cfill_from_btm(i_img *im, i_fill_t *fill, struct i_bitmap *btm, 
+              i_img_dim bxmin, i_img_dim bxmax, i_img_dim bymin, i_img_dim bymax) {
+  i_img_dim x, y;
+  i_img_dim start;
+
+  i_render r;
+
+  i_render_init(&r, im, bxmax - bxmin + 1);
+
+  for(y=bymin; y<=bymax; y++) {
+    x = bxmin;
+    while (x <= bxmax) {
+      while (x <= bxmax && !btm_test(btm, x, y)) {
+       ++x;
+      }
+      if (btm_test(btm, x, y)) {
+       start = x;
+       while (x <= bxmax && btm_test(btm, x, y)) {
+         ++x;
+       }
+       i_render_fill(&r, start, y, x-start, NULL, fill);
+      }
+    }
+  }
+  i_render_done(&r);
+}