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authorDavid Schweinsberg <[email protected]>2007-07-26 11:10:18 +0000
committerDavid Schweinsberg <[email protected]>2007-07-26 11:10:18 +0000
commitaac86805d5ad9ff1cefc6b1919f1d8b349728577 (patch)
tree3983b00a4b93d39c0781f4fe747ef1e3c149f6f8 /src/net
parent9e5f45a7d84a8dd5536d4057b6135219c065d506 (diff)
Initial implementations of lineto and curveto operations.
Diffstat (limited to 'src/net')
-rw-r--r--src/net/java/dev/typecast/t2/T2Interpreter.java324
1 files changed, 266 insertions, 58 deletions
diff --git a/src/net/java/dev/typecast/t2/T2Interpreter.java b/src/net/java/dev/typecast/t2/T2Interpreter.java
index 9b4ce50..6ae59cf 100644
--- a/src/net/java/dev/typecast/t2/T2Interpreter.java
+++ b/src/net/java/dev/typecast/t2/T2Interpreter.java
@@ -1,5 +1,5 @@
/*
- * $Id: T2Interpreter.java,v 1.1 2007-02-21 12:30:48 davidsch Exp $
+ * $Id: T2Interpreter.java,v 1.2 2007-07-26 11:10:18 davidsch Exp $
*
* Typecast - The Font Development Environment
*
@@ -30,7 +30,7 @@ import net.java.dev.typecast.ot.table.CharstringType2;
* Type 2 Charstring Interpreter. Operator descriptions are quoted from
* Adobe's Type 2 Charstring Format document -- 5117.Type2.pdf.
* @author <a href="mailto:[email protected]">David Schweinsberg</a>
- * @version $Id: T2Interpreter.java,v 1.1 2007-02-21 12:30:48 davidsch Exp $
+ * @version $Id: T2Interpreter.java,v 1.2 2007-07-26 11:10:18 davidsch Exp $
*/
public class T2Interpreter {
@@ -90,11 +90,15 @@ public class T2Interpreter {
*/
private void _rlineto() {
int count = getArgCount() / 2;
+ int[] dx = new int[count];
+ int[] dy = new int[count];
+ for (int i = 0; i < count; ++i) {
+ dy[count - i - 1] = popArg().intValue();
+ dx[count - i - 1] = popArg().intValue();
+ }
for (int i = 0; i < count; ++i) {
- int dy = popArg().intValue();
- int dx = popArg().intValue();
Point lastPoint = getLastPoint();
- lineTo(lastPoint.x + dx, lastPoint.y + dy);
+ lineTo(lastPoint.x + dx[i], lastPoint.y + dy[i]);
}
clearArg();
}
@@ -110,18 +114,17 @@ public class T2Interpreter {
* number of arguments on the stack.
*/
private void _hlineto() {
- boolean oddCount = getArgCount() % 2 == 1;
- int count = getArgCount() / 2;
- if (oddCount) {
- for (int i = 0; i < count; ++i) {
- double dxb = popArg().doubleValue();
- double dya = popArg().doubleValue();
- }
- double dx1 = popArg().doubleValue();
- } else {
- for (int i = 0; i < count; ++i) {
- double dyb = popArg().doubleValue();
- double dxa = popArg().doubleValue();
+ int count = getArgCount();
+ Number[] nums = new Number[count];
+ for (int i = 0; i < count; ++i) {
+ nums[count - i - 1] = popArg();
+ }
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ if (i % 2 == 0) {
+ lineTo(lastPoint.x + nums[i].intValue(), lastPoint.y);
+ } else {
+ lineTo(lastPoint.x, lastPoint.y + nums[i].intValue());
}
}
clearArg();
@@ -151,26 +154,11 @@ public class T2Interpreter {
lineTo(lastPoint.x + nums[i].intValue(), lastPoint.y);
}
}
-
-// boolean oddCount = getArgCount() % 2 == 1;
-// int count = getArgCount() / 2;
-// if (oddCount) {
-// for (int i = 0; i < count; ++i) {
-// double dyb = popArg().doubleValue();
-// double dxa = popArg().doubleValue();
-// }
-// double dy1 = popArg().doubleValue();
-// } else {
-// for (int i = 0; i < count; ++i) {
-// double dxb = popArg().doubleValue();
-// double dya = popArg().doubleValue();
-// }
-// }
clearArg();
}
/**
- * Appends a B�zier curve, defined by dxa...dyc, to the current
+ * Appends a Bezier curve, defined by dxa...dyc, to the current
* point. For each subsequent set of six arguments, an additional
* curve is appended to the current point. The number of curve
* segments is determined from the number of arguments on the
@@ -179,32 +167,72 @@ public class T2Interpreter {
*/
private void _rrcurveto() {
int count = getArgCount() / 6;
+ int[] dxa = new int[count];
+ int[] dya = new int[count];
+ int[] dxb = new int[count];
+ int[] dyb = new int[count];
+ int[] dxc = new int[count];
+ int[] dyc = new int[count];
+ for (int i = 0; i < count; ++i) {
+ dyc[count - i - 1] = popArg().intValue();
+ dxc[count - i - 1] = popArg().intValue();
+ dyb[count - i - 1] = popArg().intValue();
+ dxb[count - i - 1] = popArg().intValue();
+ dya[count - i - 1] = popArg().intValue();
+ dxa[count - i - 1] = popArg().intValue();
+ }
for (int i = 0; i < count; ++i) {
- double dyc = popArg().doubleValue();
- double dxc = popArg().doubleValue();
- double dyb = popArg().doubleValue();
- double dxb = popArg().doubleValue();
- double dya = popArg().doubleValue();
- double dxa = popArg().doubleValue();
+ Point lastPoint = getLastPoint();
+ int xa = lastPoint.x + dxa[i];
+ int ya = lastPoint.y + dya[i];
+ int xb = xa + dxb[i];
+ int yb = ya + dyb[i];
+ int xc = xb + dxc[i];
+ int yc = yb + dyc[i];
+ curveTo(xa, ya, xb, yb, xc, yc);
}
clearArg();
}
/**
- * Appends one or more B�zier curves, as described by the
+ * Appends one or more Bezier curves, as described by the
* dxa...dxc set of arguments, to the current point. For each curve,
* if there are 4 arguments, the curve starts and ends horizontal.
* The first curve need not start horizontal (the odd argument
* case). Note the argument order for the odd argument case.
*/
private void _hhcurveto() {
-
+ int count = getArgCount() / 4;
+ int dy1 = 0;
+ int[] dxa = new int[count];
+ int[] dxb = new int[count];
+ int[] dyb = new int[count];
+ int[] dxc = new int[count];
+ for (int i = 0; i < count; ++i) {
+ dxc[count - i - 1] = popArg().intValue();
+ dyb[count - i - 1] = popArg().intValue();
+ dxb[count - i - 1] = popArg().intValue();
+ dxa[count - i - 1] = popArg().intValue();
+ }
+ if (getArgCount() == 1) {
+ dy1 = popArg().intValue();
+ }
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ int xa = lastPoint.x + dxa[i];
+ int ya = lastPoint.y + (i == 0 ? dy1 : 0);
+ int xb = xa + dxb[i];
+ int yb = ya + dyb[i];
+ int xc = xb + dxc[i];
+ int yc = yb;
+ curveTo(xa, ya, xb, yb, xc, yc);
+ }
clearArg();
}
/**
- * Appends one or more B�zier curves to the current point. The
- * tangent for the first B�zier must be horizontal, and the second
+ * Appends one or more Bezier curves to the current point. The
+ * tangent for the first Bezier must be horizontal, and the second
* must be vertical (except as noted below).
* If there is a multiple of four arguments, the curve starts
* horizontal and ends vertical. Note that the curves alternate
@@ -213,7 +241,95 @@ public class T2Interpreter {
* end horizontal/vertical.
*/
private void _hvcurveto() {
-
+ if (getArgCount() % 8 <= 1) {
+ int count = getArgCount() / 8;
+ int[] dxa = new int[count];
+ int[] dxb = new int[count];
+ int[] dyb = new int[count];
+ int[] dyc = new int[count];
+ int[] dyd = new int[count];
+ int[] dxe = new int[count];
+ int[] dye = new int[count];
+ int[] dxf = new int[count];
+ int dyf = 0;
+ if (getArgCount() % 8 == 1) {
+ dyf = popArg().intValue();
+ }
+ for (int i = 0; i < count; ++i) {
+ dxf[count - i - 1] = popArg().intValue();
+ dye[count - i - 1] = popArg().intValue();
+ dxe[count - i - 1] = popArg().intValue();
+ dyd[count - i - 1] = popArg().intValue();
+ dyc[count - i - 1] = popArg().intValue();
+ dyb[count - i - 1] = popArg().intValue();
+ dxb[count - i - 1] = popArg().intValue();
+ dxa[count - i - 1] = popArg().intValue();
+ }
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ int xa = lastPoint.x + dxa[i];
+ int ya = lastPoint.y;
+ int xb = xa + dxb[i];
+ int yb = ya + dyb[i];
+ int xc = xb;
+ int yc = yb + dyc[i];
+ int xd = xc;
+ int yd = yc + dyd[i];
+ int xe = xd + dxe[i];
+ int ye = yd + dye[i];
+ int xf = xe + dxf[i];
+ int yf = ye + dyf;
+ curveTo(xa, ya, xb, yb, xc, yc);
+ curveTo(xd, yd, xe, ye, xf, yf);
+ }
+ } else {
+ int count = getArgCount() / 8;
+ int[] dya = new int[count];
+ int[] dxb = new int[count];
+ int[] dyb = new int[count];
+ int[] dxc = new int[count];
+ int[] dxd = new int[count];
+ int[] dxe = new int[count];
+ int[] dye = new int[count];
+ int[] dyf = new int[count];
+ int dxf = 0;
+ if (getArgCount() % 8 == 1) {
+ dxf = popArg().intValue();
+ }
+ for (int i = 0; i < count; ++i) {
+ dyf[count - i - 1] = popArg().intValue();
+ dye[count - i - 1] = popArg().intValue();
+ dxe[count - i - 1] = popArg().intValue();
+ dxd[count - i - 1] = popArg().intValue();
+ dxc[count - i - 1] = popArg().intValue();
+ dyb[count - i - 1] = popArg().intValue();
+ dxb[count - i - 1] = popArg().intValue();
+ dya[count - i - 1] = popArg().intValue();
+ }
+ int dy3 = popArg().intValue();
+ int dy2 = popArg().intValue();
+ int dx2 = popArg().intValue();
+ int dx1 = popArg().intValue();
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ int xa = lastPoint.x;
+ int ya = lastPoint.y + dya[i];
+ int xb = xa + dxb[i];
+ int yb = ya + dyb[i];
+ int xc = xb + dxc[i];
+ int yc = yb;
+ int xd = xc + dxd[i];
+ int yd = yc;
+ int xe = xd + dxe[i];
+ int ye = yd + dye[i];
+ int xf = xe + dxf;
+ int yf = ye + dyf[i];
+ curveTo(xa, ya, xb, yb, xc, yc);
+ curveTo(xd, yd, xe, ye, xf, yf);
+
+ // What on earth do we do with dx1, dx2, dy2 and dy3?
+ }
+ }
clearArg();
}
@@ -224,7 +340,36 @@ public class T2Interpreter {
* on the argument stack.
*/
private void _rcurveline() {
-
+ int count = (getArgCount() - 2) / 6;
+ int[] dxa = new int[count];
+ int[] dya = new int[count];
+ int[] dxb = new int[count];
+ int[] dyb = new int[count];
+ int[] dxc = new int[count];
+ int[] dyc = new int[count];
+ int dyd = popArg().intValue();
+ int dxd = popArg().intValue();
+ for (int i = 0; i < count; ++i) {
+ dyc[count - i - 1] = popArg().intValue();
+ dxc[count - i - 1] = popArg().intValue();
+ dyb[count - i - 1] = popArg().intValue();
+ dxb[count - i - 1] = popArg().intValue();
+ dya[count - i - 1] = popArg().intValue();
+ dxa[count - i - 1] = popArg().intValue();
+ }
+ int xc = 0;
+ int yc = 0;
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ int xa = lastPoint.x + dxa[i];
+ int ya = lastPoint.y + dya[i];
+ int xb = xa + dxb[i];
+ int yb = ya + dyb[i];
+ xc = xb + dxc[i];
+ yc = yb + dyc[i];
+ curveTo(xa, ya, xb, yb, xc, yc);
+ }
+ lineTo(xc + dxd, yc + dyd);
clearArg();
}
@@ -235,18 +380,88 @@ public class T2Interpreter {
* items on the argument stack.
*/
private void _rlinecurve() {
-
+ int count = (getArgCount() - 6) / 2;
+ int[] dxa = new int[count];
+ int[] dya = new int[count];
+ int dyd = popArg().intValue();
+ int dxd = popArg().intValue();
+ int dyc = popArg().intValue();
+ int dxc = popArg().intValue();
+ int dyb = popArg().intValue();
+ int dxb = popArg().intValue();
+ for (int i = 0; i < count; ++i) {
+ dya[count - i - 1] = popArg().intValue();
+ dxa[count - i - 1] = popArg().intValue();
+ }
+ int xa = 0;
+ int ya = 0;
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ xa = lastPoint.x + dxa[i];
+ ya = lastPoint.y + dya[i];
+ lineTo(xa, ya);
+ }
+ int xb = xa + dxb;
+ int yb = ya + dyb;
+ int xc = xb + dxc;
+ int yc = yb + dyc;
+ int xd = xc + dxd;
+ int yd = yc + dyd;
+ curveTo(xb, yb, xc, yc, xd, yd);
clearArg();
}
/**
- * Appends one or more B�zier curves to the current point, where
+ * Appends one or more Bezier curves to the current point, where
* the first tangent is vertical and the second tangent is horizontal.
* This command is the complement of hvcurveto; see the
* description of hvcurveto for more information.
*/
private void _vhcurveto() {
-
+ if (getArgCount() % 8 <= 1) {
+ int count = getArgCount() / 8;
+ int[] dya = new int[count];
+ int[] dxb = new int[count];
+ int[] dyb = new int[count];
+ int[] dxc = new int[count];
+ int[] dxd = new int[count];
+ int[] dxe = new int[count];
+ int[] dye = new int[count];
+ int[] dyf = new int[count];
+ int dxf = 0;
+ if (getArgCount() % 8 == 1) {
+ dxf = popArg().intValue();
+ }
+ for (int i = 0; i < count; ++i) {
+ dyf[count - i - 1] = popArg().intValue();
+ dye[count - i - 1] = popArg().intValue();
+ dxe[count - i - 1] = popArg().intValue();
+ dxd[count - i - 1] = popArg().intValue();
+ dxc[count - i - 1] = popArg().intValue();
+ dyb[count - i - 1] = popArg().intValue();
+ dxb[count - i - 1] = popArg().intValue();
+ dya[count - i - 1] = popArg().intValue();
+ }
+ for (int i = 0; i < count; ++i) {
+ Point lastPoint = getLastPoint();
+ int xa = lastPoint.x;
+ int ya = lastPoint.y + dya[i];
+ int xb = xa + dxb[i];
+ int yb = ya + dyb[i];
+ int xc = xb + dxc[i];
+ int yc = yb;
+ int xd = xc + dxd[i];
+ int yd = yc;
+ int xe = xd + dxe[i];
+ int ye = yd + dye[i];
+ int xf = xe + dxf;
+ int yf = ye + dyf[i];
+ curveTo(xa, ya, xb, yb, xc, yc);
+ curveTo(xd, yd, xe, ye, xf, yf);
+ }
+ } else {
+ int foo = 0;
+ }
clearArg();
}
@@ -813,16 +1028,9 @@ public class T2Interpreter {
_points.add(new Point(x, y, true, false));
}
- private void curveTo(int dcx1, int dcy1, int dcx2, int dcy2, int dx, int dy) {
- Point lastPoint = getLastPoint();
- int x = lastPoint.x + dcx1;
- int y = lastPoint.y + dcy1;
- _points.add(new Point(x, y, false, false));
- x += dcx2;
- y += dcy2;
- _points.add(new Point(x, y, false, false));
- x += dx;
- y += dy;
+ private void curveTo(int cx1, int cy1, int cx2, int cy2, int x, int y) {
+ _points.add(new Point(cx1, cy1, false, false));
+ _points.add(new Point(cx2, cy2, false, false));
_points.add(new Point(x, y, true, false));
}
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