From f3340ae5f4ac6c60823bf4d14e1fcdbeaaec353c Mon Sep 17 00:00:00 2001 From: Brian Picciano Date: Sat, 21 May 2022 14:07:14 -0600 Subject: Remove old code related to static, it's not needed anymore --- .../2021-03-04-conditionals-in-ginger-errata.md | 195 --------------------- 1 file changed, 195 deletions(-) delete mode 100644 static/src/_posts/2021-03-04-conditionals-in-ginger-errata.md (limited to 'static/src/_posts/2021-03-04-conditionals-in-ginger-errata.md') diff --git a/static/src/_posts/2021-03-04-conditionals-in-ginger-errata.md b/static/src/_posts/2021-03-04-conditionals-in-ginger-errata.md deleted file mode 100644 index b4c0007..0000000 --- a/static/src/_posts/2021-03-04-conditionals-in-ginger-errata.md +++ /dev/null @@ -1,195 +0,0 @@ ---- -title: >- - Conditionals in Ginger, Errata -description: >- - Too clever by half. -series: ginger -tags: tech ---- - -After publishing the last post in the series I walked away from my computer -feeling that I was very clever and had made a good post. This was incorrect. - -To summarize [the previous post][prev], it's not obvious which is the best way -to structure conditionals in a graphical programming language. My favorite -solution looked something like this: - -``` - in -> } -> } -if-> } -0-> } -add-> out -in -1-> } -> } } } -1-> } -sub-> out -in -0-> } } - } - in -lt-> } -``` - -Essentially an `if` operator which accepts a value and a boolean, and which has -two output edges. If the boolean is true then the input value is sent along the -first output edge, and if it's false it's sent along the second. - -This structure is not possible, given the properties of ginger graphs that have -been laid out in [other posts in the series][other]. - -## Nodes, Tuples, and Edges - -A ginger graph, as it has been presented so far, is composed of these three -elements. A node has a value, and its value is unique to the graph; if two nodes -have the same value then they are the same node. Edges connect two nodes or -tuples together, and have a value and direction. Tuples are, in essence, a node -whose value is its input edges. - -The `if` operation above lies on an edge, not a node or tuple. It cannot have -multiple output edges, since it cannot have any edges at all. It _is_ an edge. - -So it's back to the drawing board, to some extent. But luckily I've got some -more ideas in my back pocket. - -## Forks and Junctions - -In an older conception of ginger there was no tuple, but instead there were -forks and junctions. A junction was essentially the same as a tuple, just named -differently: a node whose value is its input edges. A fork was just the -opposite, a node whose value is its output edges. Junctions and forks naturally -complimented each other, but ultimately I didn't find forks to be useful for -much because there weren't cases where it was necessary to have a single edge be -split across multiple output edges directly; any case which appeared to require -a fork could be satisfied by directing the edge into a 1-tuple and using the -output edges of the 1-tuple. - -But now we have such a case. The 1-tuple won't work, because the `if` operator -would only see the 1-tuple, not its edges. It could be supposed that the graph -interpreter could say that an `if` operation must be followed by a 1-tuple, and -that the 1-tuple's output edges have a special meaning in that circumstance. But -making the output edges of a 1-tuple have different meaning in different -circumstances isn't very elegant. - -So a fork might be just the thing here. For the example I will represent a -fork as the opposite of a tuple: a vertical column of `{` characters. - -``` - in -> } -> } -if-> { -0-> } -add-> out -in -1-> } -> } } { -1-> } -sub-> out -in -0-> } } - } - in -lt-> } -``` - -It _looks_ elegant, which is nice. I am curious though if there's any other -possible use-case where a fork might be useful... if there's not then it seems -odd to introduce an entire new element just to support a single operation. Why -not just make that operation itself the new element? - -## Switch it Up - -In most conceptions of a flowchart that I've seen a conditional is usually -represented as a node with a different shape than the other nodes (often a -diamond). Ginger could borrow this idea for itself, and declare a new graph -element, alongside nodes, tuples, and edges, called a switch. - -Let's say a switch is simply represented by a `-<>`, and acts like a node in all -aspects except that it has no value and is not unique to the graph. - -The example presented in the [previous post][prev] would look something like -this: - -``` - in -> } -> } -<> -0-> } -add-> out -in -1-> } -> } } -1-> } -sub-> out -in -0-> } } - } - in -lt-> } -``` - -This isn't the _worst_. Like the fork it's adding a new element, but that -element's existence is required and its usage is very specific to that -requirement, whereas the fork's existence is required but ambiguously useful -outside of that requirement. - -On the other hand, there are macros to consider... - -## Macrophillic - -Ginger will certainly support macros, and as alluded to in the last post I'd -like even conditional operations to be fair game for those who want to construct -their own more complex operators. In the context of the switch `-<>` element, -would someone be able to create something like a pattern matching conditional? -If the builtin conditional is implemented as a new graph element then it seems -that the primary way to implement a custom conditional macro will also involve a -new graph element. - -While I'm not flat out opposed to allowing for custom graph elements, I'm -extremely skeptical that it's necessary, and would like it to be proven -necessary before considering it. So if we can have a basic conditional, _and_ -custom conditional macros built on top of the same broadly useful element, that -seems like the better strategy. - -So all of that said, it seems I'm leaning towards forks as the better strategy -in this. But I'd like a different name. "Fork" was nice as being the compliment -of a "junction", but I like "tuple" way more than "junction" because the term -applies well both to the structural element _and_ to the transformation that -element performs (i.e. a tuple element combines its input edges' values into a -tuple value). But "tuple" and "fork" seem weird together... - -## Many Minutes Later... - -A brief search of the internet reveals no better word than "fork". A place -where a tree's trunk splits into two separate trunks is called a "fork". A -place where a river splits into two separate rivers is called a "fork". -Similarly with roads. And that _is_ what's happening, from the point of view of -the graph's structure: it is an element whose only purpose is to denote multiple -outward edges. - -So "fork" it is. - -## Other considerations - -A 1-tuple is interesting in that it acts essentially as a concatenation of two -edges. A 1-fork could, theoretically, do the same thing: - -``` -a -foo-> } -bar-> b - -c -far-> { -boo-> d -``` - -The top uses a tuple, the bottom a fork. Each is, conceptually, valid, but I -don't like that two different elements can be used for the exact same use-case. - -A 1-tuple is an established concept in data structures, so I am loath to give it -up. A 1-fork, on the other hand, doesn't make sense structurally (would you -point to any random point on a river and call it a "1-fork"?), and fork as a -whole doesn't really have any analog in the realm of data structures. So I'm -prepared to declare 1-forks invalid from the viewpoint of the language -interpreter. - -Another consideration: I already expect that there's going to be confusion as to -when to use a fork and when to use multiple outputs from a node. For example, -here's a graph which uses a fork: - -``` -a -> { -op1-> foo - { -op2-> bar -``` - -and here's a graph which has multiple outputs from the same node: - -``` -a -op1-> foo - -op2-> bar -``` - -Each could be interpreted to mean the same thing: "set `foo` to the result of -passing `a` into `op1`, and set `bar` to the result of passing `a` into `op2`." -As with the 1-tuple vs 1-fork issue, we have another case where the same -task might be accomplished with two different patterns. This case is trickier -though, and I don't have as confident an answer. - -I think an interim rule which could be put in place, subject to review later, is -that multiple edges from a node or tuple indicate that that same value is being -used for multiple operations, while a fork indicates something specific to the -operation on its input edge. It's not a pretty rule, but I think it will do. - -Stay tuned for next week when I realize that actually all of this is wrong and -we start over again! - -[prev]: {% post_url 2021-03-01-conditionals-in-ginger %} -[other]: {% post_url 2021-01-09-ginger %} -- cgit v1.2.3