< prev index next >
modules/javafx.graphics/src/main/java/com/sun/marlin/RendererNoAA.java
Print this page
*** 61,70 ****
--- 61,72 ----
private static final float CUB_INC_ERR_SUBPIX
= MarlinProperties.getCubicIncD1() * (1.0f / 8.0f); // 0.4 pixel
// TestNonAARasterization (JDK-8170879): cubics
// bad paths (59294/100000 == 59,29%, 94335 bad pixels (avg = 1,59), 3966 warnings (avg = 0,07)
+ // 2018
+ // 1.0 / 0.2: bad paths (67194/100000 == 67,19%, 117394 bad pixels (avg = 1,75 - max = 9), 4042 warnings (avg = 0,06)
// cubic bind length to decrement step
public static final float CUB_DEC_BND
= 8.0f * CUB_DEC_ERR_SUBPIX;
// cubic bind length to increment step
*** 91,100 ****
--- 93,104 ----
private static final float QUAD_DEC_ERR_SUBPIX
= MarlinProperties.getQuadDecD2() * (1.0f / 8.0f); // 0.5 pixel
// TestNonAARasterization (JDK-8170879): quads
// bad paths (62916/100000 == 62,92%, 103818 bad pixels (avg = 1,65), 6514 warnings (avg = 0,10)
+ // 2018
+ // 0.50px = bad paths (62915/100000 == 62,92%, 103810 bad pixels (avg = 1,65), 6512 warnings (avg = 0,10)
// quadratic bind length to decrement step
public static final float QUAD_DEC_BND
= 8.0f * QUAD_DEC_ERR_SUBPIX;
*** 173,211 ****
if (DO_STATS) {
rdrCtx.stats.stat_rdr_quadBreak_dec.add(count);
}
}
! int nL = 0; // line count
if (count > 1) {
final float icount = 1.0f / count; // dt
final float icount2 = icount * icount; // dt^2
final float ddx = c.dbx * icount2;
final float ddy = c.dby * icount2;
float dx = c.bx * icount2 + c.cx * icount;
float dy = c.by * icount2 + c.cy * icount;
! float x1, y1;
!
! while (--count > 0) {
! x1 = x0 + dx;
! dx += ddx;
! y1 = y0 + dy;
! dy += ddy;
addLine(x0, y0, x1, y1);
-
- if (DO_STATS) { nL++; }
x0 = x1;
y0 = y1;
}
}
addLine(x0, y0, x2, y2);
if (DO_STATS) {
! rdrCtx.stats.stat_rdr_quadBreak.add(nL + 1);
}
}
// x0, y0 and x3,y3 are the endpoints of the curve. We could compute these
// using c.xat(0),c.yat(0) and c.xat(1),c.yat(1), but this might introduce
--- 177,211 ----
if (DO_STATS) {
rdrCtx.stats.stat_rdr_quadBreak_dec.add(count);
}
}
! final int nL = count; // line count
!
if (count > 1) {
final float icount = 1.0f / count; // dt
final float icount2 = icount * icount; // dt^2
final float ddx = c.dbx * icount2;
final float ddy = c.dby * icount2;
float dx = c.bx * icount2 + c.cx * icount;
float dy = c.by * icount2 + c.cy * icount;
! // we use x0, y0 to walk the line
! for (float x1 = x0, y1 = y0; --count > 0; dx += ddx, dy += ddy) {
! x1 += dx;
! y1 += dy;
addLine(x0, y0, x1, y1);
x0 = x1;
y0 = y1;
}
}
addLine(x0, y0, x2, y2);
if (DO_STATS) {
! rdrCtx.stats.stat_rdr_quadBreak.add(nL);
}
}
// x0, y0 and x3,y3 are the endpoints of the curve. We could compute these
// using c.xat(0),c.yat(0) and c.xat(1),c.yat(1), but this might introduce
*** 229,266 ****
ddx = dddx + c.dbx * icount2;
ddy = dddy + c.dby * icount2;
dx = c.ax * icount3 + c.bx * icount2 + c.cx * icount;
dy = c.ay * icount3 + c.by * icount2 + c.cy * icount;
- // we use x0, y0 to walk the line
- float x1 = x0, y1 = y0;
int nL = 0; // line count
final float _DEC_BND = CUB_DEC_BND;
final float _INC_BND = CUB_INC_BND;
! while (count > 0) {
! // divide step by half:
! while (Math.abs(ddx) + Math.abs(ddy) >= _DEC_BND) {
! dddx /= 8.0f;
! dddy /= 8.0f;
! ddx = ddx / 4.0f - dddx;
! ddy = ddy / 4.0f - dddy;
! dx = (dx - ddx) / 2.0f;
! dy = (dy - ddy) / 2.0f;
!
! count <<= 1;
! if (DO_STATS) {
! rdrCtx.stats.stat_rdr_curveBreak_dec.add(count);
! }
! }
! // double step:
// can only do this on even "count" values, because we must divide count by 2
! while (count % 2 == 0
! && Math.abs(dx) + Math.abs(dy) <= _INC_BND)
! {
dx = 2.0f * dx + ddx;
dy = 2.0f * dy + ddy;
ddx = 4.0f * (ddx + dddx);
ddy = 4.0f * (ddy + dddy);
dddx *= 8.0f;
--- 229,251 ----
ddx = dddx + c.dbx * icount2;
ddy = dddy + c.dby * icount2;
dx = c.ax * icount3 + c.bx * icount2 + c.cx * icount;
dy = c.ay * icount3 + c.by * icount2 + c.cy * icount;
int nL = 0; // line count
final float _DEC_BND = CUB_DEC_BND;
final float _INC_BND = CUB_INC_BND;
! // we use x0, y0 to walk the line
! for (float x1 = x0, y1 = y0; count > 0; ) {
! // inc / dec => ratio ~ 5 to minimize upscale / downscale but minimize edges
! // float step:
// can only do this on even "count" values, because we must divide count by 2
! while ((count % 2 == 0)
! && ((Math.abs(ddx) + Math.abs(ddy)) <= _INC_BND)) {
dx = 2.0f * dx + ddx;
dy = 2.0f * dy + ddy;
ddx = 4.0f * (ddx + dddx);
ddy = 4.0f * (ddy + dddy);
dddx *= 8.0f;
*** 269,298 ****
count >>= 1;
if (DO_STATS) {
rdrCtx.stats.stat_rdr_curveBreak_inc.add(count);
}
}
! if (--count > 0) {
! x1 += dx;
! dx += ddx;
! ddx += dddx;
! y1 += dy;
! dy += ddy;
! ddy += dddy;
! } else {
! x1 = x3;
! y1 = y3;
}
! addLine(x0, y0, x1, y1);
! if (DO_STATS) { nL++; }
x0 = x1;
y0 = y1;
}
if (DO_STATS) {
! rdrCtx.stats.stat_rdr_curveBreak.add(nL);
}
}
private void addLine(float x1, float y1, float x2, float y2) {
if (DO_MONITORS) {
--- 254,297 ----
count >>= 1;
if (DO_STATS) {
rdrCtx.stats.stat_rdr_curveBreak_inc.add(count);
}
}
!
! // divide step by half:
! while ((Math.abs(ddx) + Math.abs(ddy)) >= _DEC_BND) {
! dddx /= 8.0f;
! dddy /= 8.0f;
! ddx = ddx / 4.0f - dddx;
! ddy = ddy / 4.0f - dddy;
! dx = (dx - ddx) / 2.0f;
! dy = (dy - ddy) / 2.0f;
!
! count <<= 1;
! if (DO_STATS) {
! rdrCtx.stats.stat_rdr_curveBreak_dec.add(count);
! }
! }
! if (--count == 0) {
! break;
}
! x1 += dx;
! y1 += dy;
! dx += ddx;
! dy += ddy;
! ddx += dddx;
! ddy += dddy;
! addLine(x0, y0, x1, y1);
x0 = x1;
y0 = y1;
}
+ addLine(x0, y0, x3, y3);
+
if (DO_STATS) {
! rdrCtx.stats.stat_rdr_curveBreak.add(nL + 1);
}
}
private void addLine(float x1, float y1, float x2, float y2) {
if (DO_MONITORS) {
*** 670,681 ****
final float pix_x2, final float pix_y2,
final float pix_x3, final float pix_y3)
{
final float xe = tosubpixx(pix_x3);
final float ye = tosubpixy(pix_y3);
! curve.set(x0, y0, tosubpixx(pix_x1), tosubpixy(pix_y1),
! tosubpixx(pix_x2), tosubpixy(pix_y2), xe, ye);
curveBreakIntoLinesAndAdd(x0, y0, curve, xe, ye);
x0 = xe;
y0 = ye;
}
--- 669,682 ----
final float pix_x2, final float pix_y2,
final float pix_x3, final float pix_y3)
{
final float xe = tosubpixx(pix_x3);
final float ye = tosubpixy(pix_y3);
! curve.set(x0, y0,
! tosubpixx(pix_x1), tosubpixy(pix_y1),
! tosubpixx(pix_x2), tosubpixy(pix_y2),
! xe, ye);
curveBreakIntoLinesAndAdd(x0, y0, curve, xe, ye);
x0 = xe;
y0 = ye;
}
*** 683,693 ****
public void quadTo(final float pix_x1, final float pix_y1,
final float pix_x2, final float pix_y2)
{
final float xe = tosubpixx(pix_x2);
final float ye = tosubpixy(pix_y2);
! curve.set(x0, y0, tosubpixx(pix_x1), tosubpixy(pix_y1), xe, ye);
quadBreakIntoLinesAndAdd(x0, y0, curve, xe, ye);
x0 = xe;
y0 = ye;
}
--- 684,696 ----
public void quadTo(final float pix_x1, final float pix_y1,
final float pix_x2, final float pix_y2)
{
final float xe = tosubpixx(pix_x2);
final float ye = tosubpixy(pix_y2);
! curve.set(x0, y0,
! tosubpixx(pix_x1), tosubpixy(pix_y1),
! xe, ye);
quadBreakIntoLinesAndAdd(x0, y0, curve, xe, ye);
x0 = xe;
y0 = ye;
}
< prev index next >