/** * Adjust the given requirements to the CSS width or height if it is specified along the * applicable axis. Return true if the size is exactly specified, false if the span is not * specified in an attribute or the size specified is a percentage. */ static boolean spanSetFromAttributes( int axis, SizeRequirements r, CSS.LengthValue cssWidth, CSS.LengthValue cssHeight) { if (axis == X_AXIS) { if ((cssWidth != null) && (!cssWidth.isPercentage())) { r.minimum = r.preferred = r.maximum = (int) cssWidth.getValue(); return true; } } else { if ((cssHeight != null) && (!cssHeight.isPercentage())) { r.minimum = r.preferred = r.maximum = (int) cssHeight.getValue(); return true; } } return false; }
/** * Performs layout for the minor axis of the box (i.e. the axis orthogonal to the axis that it * represents). The results of the layout (the offset and span for each children) are placed in * the given arrays which represent the allocations to the children along the minor axis. * * @param targetSpan the total span given to the view, which would be used to layout the children. * @param axis the axis being layed out * @param offsets the offsets from the origin of the view for each of the child views; this is a * return value and is filled in by the implementation of this method * @param spans the span of each child view; this is a return value and is filled in by the * implementation of this method */ protected void layoutMinorAxis(int targetSpan, int axis, int[] offsets, int[] spans) { int n = getViewCount(); Object key = (axis == X_AXIS) ? CSS.Attribute.WIDTH : CSS.Attribute.HEIGHT; for (int i = 0; i < n; i++) { View v = getView(i); int min = (int) v.getMinimumSpan(axis); int max; // check for percentage span AttributeSet a = v.getAttributes(); CSS.LengthValue lv = (CSS.LengthValue) a.getAttribute(key); if ((lv != null) && lv.isPercentage()) { // bound the span to the percentage specified min = Math.max((int) lv.getValue(targetSpan), min); max = min; } else { max = (int) v.getMaximumSpan(axis); } // assign the offset and span for the child if (max < targetSpan) { // can't make the child this wide, align it float align = v.getAlignment(axis); offsets[i] = (int) ((targetSpan - max) * align); spans[i] = max; } else { // make it the target width, or as small as it can get. offsets[i] = 0; spans[i] = Math.max(min, targetSpan); } } }