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Re: [ft-devel] Re: possible inefficiency in gray_render_cubic


From: Graham Asher
Subject: Re: [ft-devel] Re: possible inefficiency in gray_render_cubic
Date: Tue, 08 Jun 2010 12:45:18 +0100
User-agent: Thunderbird 2.0.0.24 (Windows/20100228)

Werner,

I think your patch is slightly wrong because you use the same values for mid_x and mid_y for both the comparison and for drawing; however, one set if values needs to go through DownScale() and the other through UpScale(); that's why I calculate separately in my hastily-prepared patch. I'll see if I can come up with something better.

Graham


Werner LEMBERG wrote:
Calculate the midpoint and compare it with start and end: [...]

For me, this looks good.  Thanks for working on this.

I am sceptical about the need to calculate both da and db.  Perhaps
db only will suffice.  I hope that David or Werner can comment.

This is something Ken can probably check: He has a large database for
Ghostscript to compare rendering results, and artifacts introduced by
the simplified shorthand calculation would easily show up, I think.

Below is a patch according to your data (hopefully, I've understood
you correctly).  Please check and test.


    Werner


======================================================================


--- ftgrays.c.orig      2009-07-31 18:45:19.000000000 +0200
+++ ftgrays.c   2010-06-08 09:56:23.000000000 +0200
@@ -1007,45 +1007,40 @@
                               const FT_Vector*  control2,
                               const FT_Vector*  to )
   {
-    TPos        dx, dy, da, db;
+    TPos        dx, dy;
+    TPos        mid_x, mid_y;
     int         top, level;
     int*        levels;
     FT_Vector*  arc;
- dx = DOWNSCALE( ras.x ) + to->x - ( control1->x << 1 );
-    if ( dx < 0 )
-      dx = -dx;
-    dy = DOWNSCALE( ras.y ) + to->y - ( control1->y << 1 );
-    if ( dy < 0 )
-      dy = -dy;
-    if ( dx < dy )
-      dx = dy;
-    da = dx;
+    /* Calculate midpoint and compare it with start and end. */
+    mid_x = ( DOWNSCALE( ras.x ) + to->x +
+              3 * ( control1->x + control2->x ) ) / 8;
+    mid_y = ( DOWNSCALE( ras.y ) + to->y +
+              3 * ( control1->y + control2->y ) ) / 8;
- dx = DOWNSCALE( ras.x ) + to->x - 3 * ( control1->x + control2->x );
+    dx = DOWNSCALE( ras.x ) + to->x - ( mid_x << 1 );
     if ( dx < 0 )
       dx = -dx;
-    dy = DOWNSCALE( ras.y ) + to->y - 3 * ( control1->x + control2->y );
+    dy = DOWNSCALE( ras.y ) + to->y - ( mid_y << 1 );
     if ( dy < 0 )
       dy = -dy;
     if ( dx < dy )
       dx = dy;
-    db = dx;
+ /* Check whether an approximation with straight lines is sufficient. */
     level = 1;
-    da    = da / ras.cubic_level;
-    db    = db / ras.conic_level;
-    while ( da > 0 || db > 0 )
+    dx    = dx / ras.conic_level;
+    while ( dx > 0 )
     {
-      da >>= 2;
-      db >>= 3;
+      dx >>= 3;
       level++;
     }
if ( level <= 1 )
     {
-      TPos   to_x, to_y, mid_x, mid_y;
+      TPos   to_x, to_y;
to_x = UPSCALE( to->x );
@@ -1104,7 +1099,7 @@
Draw:
       {
-        TPos  to_x, to_y, mid_x, mid_y;
+        TPos  to_x, to_y;
to_x = arc[0].x;





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