void constrain() {
//#repeat contentwidth/contentheight colspan/rowspan col/row cols/rows minwidth/minheight \
- // textwidth/textheight maxwidth/maxheight cols/rows
+ // textwidth/textheight maxwidth/maxheight cols/rows rowspan/colspan row/col rows/cols
// FIXME: inefficient
contentwidth = 0;
for(int i=0; i<rows; i++) {
int numkids = 0; for(Box c = firstPackedChild(); c != null; c = c.nextPackedSibling()) numkids++;
//#repeat col/row colspan/rowspan contentwidth/contentheight width/height HSHRINK/VSHRINK \
// maxwidth/maxheight cols/rows minwidth/minheight lp_h/lp_v lp_h/lp_v
- do {
+ if (cols > 1) {
int nc = numkids * 2 + cols * 3 + 1 + 2;
if (coeff == null || nc+1>coeff.length) coeff = new float[nc+1];
lp_h.init(nc);
}
for(int i=0; i<coeff.length; i++) coeff[i] = (float)0.0;
lp_h.solve();
- } while(false);
+ }
//#end
for(Box child = getChild(0); child != null; child = child.nextSibling()) {
// child_width/child_height ALIGN_RIGHT/ALIGN_BOTTOM ALIGN_LEFT/ALIGN_TOP lp_h/lp_v
child_width = 0;
child_x = 0;
- for(int i=0; i < child.col; i++) child_x += Math.round(lp_h.solution[lp_h.rows+i+1]);
- for(int i = child.col; i<child.col + child.colspan; i++) child_width += Math.round(lp_h.solution[lp_h.rows+i+1]);
+ if (cols == 1) {
+ child_x = 0;
+ child_width = width;
+ } else {
+ for(int i=0; i < child.col; i++)
+ child_x += Math.round(lp_h.solution[lp_h.rows+i+1]);
+ for(int i = child.col; i<child.col + child.colspan; i++)
+ child_width += Math.round(lp_h.solution[lp_h.rows+i+1]);
+ }
diff = (child_width - min(child_width, child.test(HSHRINK) ? child.contentwidth : child.maxwidth));
child_x += (child.test(ALIGN_RIGHT) ? diff : child.test(ALIGN_LEFT) ? 0 : diff / 2);
child_width = min(child_width, child.test(HSHRINK) ? child.contentwidth : child.maxwidth);