diff --git a/content/blog/05_compiler_execution.md b/content/blog/05_compiler_execution.md index 5b4bc1d..3e1a868 100644 --- a/content/blog/05_compiler_execution.md +++ b/content/blog/05_compiler_execution.md @@ -272,8 +272,29 @@ the thing we apply it to. We then create a new node on the heap that is an `NApp` node, with its two children being the nodes we popped off. Finally, we push it onto the stack. -Let's try use these instructions to get a feel for it. -{{< todo >}}Add an example, probably without notation.{{< /todo >}} +Let's try use these instructions to get a feel for it. In +order to conserve space, let's use \\(\\text{G}\\) for PushGlobal, +\\(\\text{I}\\) for PushInt, and \\(\\text{A}\\) for PushApp. +Let's say we want to construct a graph for `double 326`. We'll +use the instructions \\(\\text{I} \; 326\\), \\(\\text{G} \; \\text{double}\\), +and \\(\\text{A}\\). Let's watch these instructions play out: +$$ +\\begin{align} +[\\text{I} \; 326, \\text{G} \; \text{double}, \\text{A}] & \\quad s \\quad & d \\quad & h \\quad & m[\\text{double} : a\_d] \\\\\\ +[\\text{G} \; \text{double}, \\text{A}] & \\quad a\_1 : s \\quad & d \\quad & h[a\_1 : \\text{NInt} \; 326] \\quad & m[\\text{double} : a\_d] \\\\\\ +[\\text{A}] & \\quad a\_d, a\_1 : s \\quad & d \\quad & h[a\_1 : \\text{NInt} \; 326] \\quad & m[\\text{double} : a\_d] \\\\\\ +[] & \\quad a\_2 : s \\quad & d \\quad & h[\\substack{\\begin{aligned}a\_1 & : \\text{NInt} \; 326 \\\\ a\_2 & : \\text{NApp} \; a\_d \; a\_1 \\end{aligned}}] \\quad & m[\\text{double} : a\_d] \\\\\\ +\\end{align} +$$ +How did we come up with these instructions? We'll answer this question with +more generality later, but let's take a look at this particular expression +right now. We know it's an application, so we'll be using MkApp eventually. +We also know that MkApp expects two values on top of the stack from +which to make an application. The node on top has to be the function, and the next +node is the value to be passed into that function. Since a stack is first-in-last-out, +for the function (`double`, in our case) to be on top, we need +to push it last. Thus, we push `double` first, then 326. Finally, +we call MkApp now that the stack is in the right state. Having defined instructions to __build__ graphs, it's now time to move on to instructions to __reduce__ graphs - after all, @@ -566,6 +587,9 @@ We can allocate an indirection on the stack, and call Update on it when we've constructed a node. While we're constructing the tree, we can refer to the indirection when a self-reference is required. -That's it for the instructions. Next up, we have to convert our expression -trees into such instructions. However, this has already gotten pretty long, -so we'll do it in the next post. +That's it for the instructions. Knowing them, however, doesn't +tell us what to do with our `ast` structs. We'll need to define +rules to translate trees into these instructions, and I've already +alluded to this when we went over `double 326`. +However, this has already gotten pretty long, +so we'll do it in the next post: (link me!)