Tutorials > " . "XUL Tutorial"; $pagetitle="3.2 - Window Element Positioning"; $customsidebar = "xultu-sidebar.php"; include "header.php"; ?>
Here we'll look at controlling the position and size of an element.
So far, we know how to position elements either horizontally or vertically inside a box. We will often need more control over the position and size of elements within the box. For this, we first need to look at how a box works.
The position of an element is determined by the layout style of its container. For example, the position of a button in a horizontal box is to the right of the previous button, if any. The size of an element is determined by two factors, the size that the element wants to be and the size you specify. The size that an element wants to be is determined by what is in the element. For example, a button's width is determined by the amount of text inside the button.
An element will generally be as large as it needs to be to hold its contents, and no larger. Some elements, such as textboxes have a default size, which will be used. A box will be large enough to hold the elements inside the box. A horizontal box with three buttons in it will be as wide as the three buttons, plus a small amount of padding.
In the image below, the first two buttons have been given a suitable size to hold their text. The third button is larger because it contains more content. The width of the box containing the buttons is the total width of the buttons plus the padding between them. The height of the buttons is a suitable size to hold the text.
You may need to have more control over the size of an element in a window. There are a number of features that allow you to control the size of an element. The quick way is to simply add the width and height attributes on an element, much like you might do on an HTML img tag. An example is shown below:Example 3.2.1: Source View
<button label="OK" width="100" height="40"/>
However, it is not recommended that you do this. It is not very portable and may not fit in with some themes. A better way is to use style properties, which work similarly to style sheets in HTML. The following CSS properties can be used.
By setting either of the two properties, the element will be created with that width and height. If you specify only one size property, the other is calculated as needed. The size of these style properties should be specified as a number followed by a unit.
The sizes are fairly easy to calculate for non-flexible elements. They simply obey their specified widths and heights, and if the size wasn't specified, the element's default size is just large enough to fit the contents. For flexible elements, the calculation is slightly trickier.
Flexible elements are those that have a flex attribute set to a value greater than 0. Recall that flexible elements grow and shrink to fit the available space. Their default size is still calculated the same as for inflexible elements. The following example demonstrates this:Example 3.2.2: Source View
<window orient="horizontal" xmlns="http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul"> <hbox> <button label="Yes" flex="1"/> <button label="No"/> <button label="I really don't know one way or the other"/> </hbox> </window>
The window will initially appear like in the image earlier. The first two buttons will be sized at a suitable default width and the third button will be larger because it has a longer label. The first button is made flexible and all three elements have been placed inside a box. The width of the box will be set to the initial total width of all three buttons (around 430 pixels in the image).
If you increase the width of the window, elements are checked to see whether they are flexible to fill the blank space that would appear. The button is the only flexible element, but it will not grow wider. This is because the box that the button is inside is not flexible. An inflexible element never changes size even when space is available, so the button can't grow either. Thus, the button won't get wider.
The solution is to make the box flexible also. Then, when you make the window wider, extra space will be available, so the box will grow to fill the extra space. Because the box is larger, more extra space will be created inside it, and the flexible button inside it will grow to fit the available space. This process repeats for as many nested boxes as necessary.
You may want to allow a element to be flexible but constrain the size so that it cannot be larger than a certain size. Or, you may want to set a minimum size. You can set this by using four attributes:
The values are always measured in pixels. You can also use the corresponding CSS properties, min-width, min-height, max-width and max-height.
These properties are only useful for flexible elements. By setting a maximum height, for example, a stretchy button will only grow to a certain maximum height. You will still be able to resize the window beyond that point but the button will stop growing in size. The box the button is inside will also continue to grow, unless you set a maximum height on the box also.
If two buttons are equally flexible, normally both will share the amount of extra space. If one button has a maximum width, the second will still continue to grow and take all of the remaining space.
If a box has a maximum width or height, the children cannot grow larger than that maximum size. If a box has a minimum width or height, the children cannot shrink smaller than that minimum size. Here are some examples of setting widths and heights:
<button label="1" style="width: 100px;"/> <button label="2" style="width: 100em; height: 10px;"/> <button label="3" flex="1" style="min-width: 50px;"/> <button label="4" flex="1" style="min-height: 2ex; max-height: 100px"/> <textbox flex="1" style="max-width: 10em;"/> <html style="max-width: 50px">This is some boring but simple wrapping text.</html>
Example 1: the first button will be displayed with a width of
100 pixels (px means pixels). You need to add the unit or the width will be
Example 2: the second button will be displayed with a height of ten pixels and a width of 100 ems (an em is the size of a character in the current font).
Example 3: the third button is flexible so it will grow based on the size of the box the button is in. However, the button will never shrink to be less than 50 pixels. Other flexible components such as spacers will absorb the remaining space, breaking the flex ratio.
Example 4: the fourth button is flexible and will never have a height that is smaller than 2 ex (an ex is usually the height of the letter x in the current font) or larger than 100 pixels.
Example 5: the text input is flexible but will never grow to be larger than 10 ems. You will often want to use ems when specifying sizes with text in them. This unit is useful for textboxes so that the font can change and the textboxes would always be a suitable size, even if the font is very large.
Example 6: the description element is constrained to have a maximum width of 50 pixels. The text inside will wrap to the next line, after fifty pixels.
Let's add some of these styles to the find files dialog. We'll make it so that the textbox will resize to fit the entire window.
<textbox id="find-text" flex="1" style="min-width: 15em;"/>
Here, the text input has been made flexible. This way, it will grow if the user changes the size of the dialog. This is useful if the user wants to enter a long string of text. Also, a minimum width of 15 ems has been set so that the text box will always show at least 15 characters. If the user resizes the dialog to be very small, the text input will not shrink past 15 ems. It will be drawn as if it extends past the edge of the window. Notice in the image below that the text input has grown to extend to the full size of the window.
Let's say you have a box with two child elements, both of which are not flexible, but the box is flexible. For example:Example 3.2.3: Source View
<box flex="1"> <button label="Happy"/> <button label="Sad"/> </box>
If you resize the window, the box will stretch to fit the window size. The buttons are not flexible, so they will not change their widths. The result is extra space that will appear on the right side of the window, inside the box. You may wish, however, for the extra space to appear on the left side instead, so that the buttons stay right aligned in the window.
You could accomplish this by placing a spacer inside the box, but that gets messy when you have to do it numerous times. A better way is to use an additional attribute pack on the box. This attribute indicates how to pack the child elements inside the box. For horizontally oriented boxes, it controls the horizonal positioning of the children. For vertically oriented boxes, it controls the vertical positioning of the children. You can use the following values:
The pack attribute applies to the box containing the elements to be packed, not to the elements themselves.
We can change the earlier example to center the elements as follows:Example 3.2.4: Source View
<box flex="1" pack="center"> <button label="Happy"/> <button label="Sad"/> </box>
Now, when the window is resized, the buttons center themselves horizontally. Compare this behavior to that of the previous example.
If you resize the window in the Happy-Sad example above horizontally, the box will grow in width. If you resize the window vertically however, you will note that the buttons grow in height. This is because the flexibility is assumed by default in the other direction.
You can control this behavior with the align attribute. For horizontal boxes, it controls the position of the children vertically. For vertical boxes, it controls the position of the children horizontally. The possible values are similar to the pack.
As with the pack attribute, the align attribute applies to the box containing the elements to be aligned, not to the elements themselves.
For example, the first box below will have its children stretch, because that is the default. The second box has an align attribute, so its children will be placed centered.Example 3.2.5: Source View
<?xml version="1.0"?> <?xml-stylesheet href="chrome://global/skin/" type="text/css"?> <window id="yesno" title="Question" orient="horizontal" xmlns="http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul"> <hbox> <button label="Yes"/> <button label="No"/> </hbox> <hbox align="center"> <button label="Maybe"/> <button label="Perhaps"/> </hbox> </window>
You can also use the style properties -moz-box-pack and -moz-box-align instead of specifying attributes.
You could potentially create a button element that contains a label that is larger than the maximum width of the button. Of course, a solution would be to increase the size of the button. However, buttons (and other elements with a label) have a special attribute called crop that allows you to specify how the text may be cropped if it is too big.
If the text is cropped, an ellipsis (...) will appear on the button where the text was taken out. Four possible values are valid:
This attribute is really only useful when a dialog has been designed to be useful at any size. The crop attribute can also be used with the description element and other elements that use the label attribute for labels. The following shows this attribute in use:Example 3.2.6: Source View
<button label="Push Me Please!" crop="right" flex="1"/>
Notice how the text on the button has had the right side of it cropped after the window is made smaller.
(Next) Next, a summary and some additional details of the box model are described.
Examples: 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6
Find files example so far: Source View