I'm trying to implement my own little flow-based layout engine. It should imitate the behavior of HTML layouting, but only the render-tree, not the DOM part. The base class for elements in the render-tree is the
Node class. It has:
- A link to the element in the DOM (for the ones that build a render-tree with that library)
- A reference to it's parent (which is a
ContainerNodeinstance or None, see later)
- A reference to the layouting-options
- X, Y, width and height (the position is computed in
layout(), after the size has been computed in
compute_size(). While the position is defined by the
layout()method of the parent, the size is defined by the options reference, for instance).
It's methods are:
compute_size()that is intended to compute the width and height of the node.
layout()which is intended to position the sub-nodes of the node, not the node itself.
paint()which is there to be overwritten by the user of the library.
ContainerNode class is implementing the handling of sub-nodes. It provides a new method called
add_node(), which adds the passed node to the containers children. The function also accepts a parameter force which defaults to False, because the container is allowed to deny the passed node, except force is set to True.
These two classes do not implement any layouting algorithm. My aim was to create different classes for the different types of layouts (In CSS, mainly defined by the
display attribute). I did some tests with text-layouting last night and you can find my code from at pastebin.com (requires pygame). You can save it to a python script file and invoke it like this:
python text_test block -c -f "Georgia" -s 15
Note: The code is really really crappy. I appreciate comments on deep lying misconceptions.
InlineNodeRow from the code mentioned above actually represents my idea of how to implement the node that lays out similar to the
display:inline attribute (in combination with the
Problem 1 - Margin & Padding for inline-text
Back to my current approach in the library: A single word from a text would also be represented as a single node (just like in the code above). But I noticed two things about margins and paddings in a
- When margin is set, only horizontal margin is taken in account, the vertical margin is ignored.
- The padding is overflowing the parent container and does not "move" the span node.
I see the problem here: When I want to compute the size of the
InlineNodeBox, I ask a text-node for it's size and add it to the size of the node. But the text-nodes size is including it's margin and padding, which is not included in the HTML renderer's positioning. Therefore the following code would not be right:
def compute_size(self): # Propagates the computation to the child-nodes. super(InlineNodeBox, self).compute_size() self.w = 0 self.h = 0 for node in self.nodes: self.w += node.w if self.h < node.h: self.h = node.h
node.w would include the margin and padding. Next problem I see is, that I for laying out the text-nodes correctly, I wanted to split them into single
TextNodes for each word, but the margin and padding would then be applied to all these nodes, while the margin and padding in HTML is to the
<span> tag only.
I think my current idea of putting each word into a seperate node is not ideal. How to browsers structure their render-tree, or do you have a better idea?
Problem 2 - Word too long, put it into the next line.
InlineNodeBox class currently only organizes a single line. In the code example above, I've created a new
InlineNodeBox from within the
NodeBox when the former refused to accept the node (which means it didn't fit in). I can not to this with my current approach, as I do not want to rebuild the render-tree all over again. When a node was accepted once, but exceeds the
InlineNodeBox on the next reflow, how do I properly manage to put the word into the next line (assuming I keep the idea of the
InlineNodeBox class only organizing a single line of nodes)?
I really hope this all makes sense. Feel free to ask if you do not understand my concept. I'm also very open to criticism and ideas for other concepts, links to resources, documentations, publications and alike.