What is this? ============= This is a small python library for generating SVG drawings used for cutting out boxes or other structures from plywood using a laser cutter. While there are a couple of other box generators they are all very limited in what they can do. This library aims for supporting complicated shapes while offering easy way to do simple things. To achieve this there are several levels of abstactions. Basic Concepts ============== There is basically only one class that takes care of everything. You are supposed to sub class it and implement the render() method (actually just any method that does anything). This Boxes class keeps a cairo canvas object (self.ctx) that all drawing is made on. In addition it keeps a couple of global settings used for various drawing operations. See the __init__ method for the details. Building blocks and coordinates ------------------------------- To avoid too much coordinate calculations the coordinate system is continuously moved to the current point. The most basic functions just do drawings relative to the current coordinate system - without changing the coordinate system. Those are found in the Builing Blocks section. Turtle graphics commands ------------------------ These start at the current positions and move the coordinate system to their end. It is assumed that you are (roughly) drawing into the direction of the x axis, with the inside of the part being above the line. You need to turn counter clockwise (mathematically positive) to get a closed shape. These commands typically produce some sort of edges. Finger joints ............. Finger joints are a simple way of joining two sheets of plywood. They work best at an 90° angle. There are two different sides matching each other. As a third alternative there are holes that the fingers of one sheet can plug into. This allows stable T connections especially useful for inner walls. Dovetail joints ............... Dovetails joints can only be used to join two pieces flatly. This limits their use to closing some round form created with flex areas or for joining several parts to a bigger one. For this use case they are much stronger than simple finger joints and can also bare pulling forces. Whole parts =========== A couple of command can create whole parts like walls. Typically the sizes given are the inner dimmensions not including additional space needed for burn compensation or joints. Callback parameter .................. The callback parameter can take on of the following forms: * A function (or bound method) that expects one parameter: the number of the side the callback is currently called for. * A dict with some of the numbers of the sides as keys and functions without parameters as values. * A list of functions without parameters. The list may contain None as place holder and be shorter than the number of sides. The callback functions are called with the side of the part at the positive x and y axis. If the edge uses up space this space is below the x axis. You do not have to restore the coordinate settings in the callback. Instead of functions it can be handy to use a lambda expression calling the one building block funtion you need (e.g. fingerHolesAt). Edge description ................ Some part building functions take a edges param or have other params describing some edges. These descriptions are one or several character strings. With the following meanings: e : straight edge E : as above but extended outside by one thickness f, F : finger joints h : edge with holes for finger joints d, D : dove tail joints