I'm hoping that this is and remains the fastest SGF parser in Ruby. On my desktop, loading the SGF library and parsing Kogo's Joseki dictionary takes a little under six seconds. It's a 3MB file and the average SGF is maybe 10k, so on average it's rather snappy.
Are you using this gem? Is there functionality you wish it had? Is something hard to do? Does the documentation not make sense, and you know how to make it more helpful? Let me know and I'll make it possible, or easier!
SGF: FF4 - may support earlier ones as well, but untested. Ruby: >=2.1
According to the standard, An SGF file holds a Collection
of one or more Gametree
objects. Each of those is made of a tree of Node
objects.
In other words: FILE (1 ↔ 1) Collection (1 ↔ ∞) Gametree (1 ↔ ∞) Node
Simplicity itself:
require 'sgf'
In this implementation, when you parse a file, you get a Collection
back. This object has a root Node
used as the top-level node for all gametrees. The children of that node are the root nodes of the actual games.
Assuming a common SGF file with a single game, you could get to the game by doing this:
SGF.parse(filename).gametrees.first # => <SGF::Game:70180384181460>
If you have a string, instead, then:
SGF::Parser.new.parse sgf_string
Some properties belong on the root node of a game only, such as the identity of the players. For convenience, some human-readable methods are defined on the gametree object itself to reach this information, for instance
gametree.black_player # => "tartrate"
Calling a property that is not defined in the current tree will result in an error. For instance, a property that does not exist in the game of Go:
gametree.black_octisquares # => SGF::NoIdentityError
Since a game is a tree (each node can be the source of many variations), a convenience method is defined to help you traverse the main branch one node at a time.
gametree.current_node # => starts as root node, e.g. #<SGF::Node:70180384857820, Has a parent, 1 Children, 16 Properties>
gametree.next_node # => #<SGF::Node:70180384839420, Has a parent, 1 Children, 4 Properties>
gametree.current_node # => #<SGF::Node:70180384839420, Has a parent, 1 Children, 4 Properties>
Since it's easy to get lost when you're looking at things one node at a time (or because sometimes you don't want to iterate with an index), we also provide a convenience depth
method on a given node to tell you how far down the tree you are.
And since this is Ruby, all of the objects (Collection
, Gametree
and Node
) provide iteration through each
. Note that in this example, we are using a gametree, and iteration on a gametree starts from the gametree's root, so the depth is 1. Iteration on a collection starts from the collection's root, and that node's depth would be 0. Iteration on any node starts from that node and goes through all its children.
NOTE: iteration is done as preorder tree traversal. You shouldn't have to care about this, but you might.
gametree.each do |node|
puts "Node at depth #{node.depth} has #{node.properties.count} properties"
end
=begin
Node at depth 1 has 16 properties
Node at depth 2 has 4 properties
Node at depth 3 has 3 properties
Node at depth 4 has 4 properties
Node at depth 5 has 3 properties
Node at depth 6 has 3 properties
Node at depth 7 has 3 properties
Node at depth 8 has 4 properties
... And so on
=end
There is SGF::Writer
, which you can use starting from any node. There is also a convenience method on collection:
collection.save(filename) # => Shiny new text file
SGF::Writer.new.stringify_tree_from(node) # => Shiny string
SGF::Writer.new.save(node, filename) # => File with tree starting at node
If you need a raw SGF version of your data, you can use to_s
:
node.to_s
gametree.to_s
collection.to_s
WARNING: An implementation requirement is to make sure any closing bracket ']' inside a comment is escaped: '\]'. If this is not done, you will be one sad panda! This library will do this for you upon saving, but will most likely die horribly when parsing anything which does not follow this rule.
The branch used for publishing the gem is the congruence
branch. We chose this word because it has strong connotations for proper integration. This branch is congruent. It means all changes brought into this branch are congruent.