-------------------------------------------------------------------------------- -- Code walkers -- "Make everything as simple as possible, but not simpler". -- -- This library offers a generic way to write AST transforming -- functions. Macros can take bits of AST as parameters and generate a -- more complex AST with them; but modifying an AST a posteriori is -- much more difficult; typical tasks requiring code walking are -- transformation such as lazy evaluation or Continuation Passing -- Style, but more mundane operations are required in more macros than -- one would thing, such as "transform all returns which aren't inside -- a nested function into an error throwing". -- -- AST walking is an intrinsically advanced operation, and the -- interface of this library, although it tries to remain as simple as -- possible, is not trivial. You'll probably need to write a couple of -- walkers with it before feeling comfortable. -- -- -- We deal here with 3 important kinds of AST: statements, expressions -- and blocks. Code walkers for these three kinds for AST are called -- [walk.stat (cfg, ast)], [walk.expr (cfg, ast)] and [walk.block -- (cfg, ast)] respectively. the [cfg] parameter describes what shall -- happen as the AST is traversed by the walker, and [ast] is the tree -- itself. -- -- An aparte to fellow functional programmers: although Lua has -- got all the features that constitute a functional language, its -- heart, and in particular it table data, is imperative. It's often -- asking for trouble to work against the host language's nature, so -- code walkers are imperative, cope with it. Or use table.deep_copy() -- if you don't want issues with shared state. -- -- Since walkers are imperative (i.e. they transform the tree in -- place, rather than returning a fresh variant of it), you'll often -- want to override a node, i.e. keep its "pointer identity", but -- replace its content with a new one; this is done by -- table.override(), and is conveniently abbreviated as -- "target <- new_content". -- -- So, [cfg] can contain a series of sub-tables fields 'expr', 'stat', -- 'block'. each of them can contain a function up() and/or a function -- down(). -- -- * down() is called when the walker starts visiting a node of the -- matching kind, i.e. before any of its sub-nodes have been -- visited. down() is allowed to return either the string "break", -- which means "don't go further down this tree, don't try to walk -- its children", or nil, i.e. "please process with the children -- nodes". -- -- There are two reasons why you might want down() to return -- "break": either because you really weren't interested into the -- children nodes,or because you wanted to walk through them in a -- special way, and down() already performed this special walking. -- -- * up() is called just before the node is left, i.e. after all of -- its children nodes have been completely parsed, down and up. This -- is a good place to put treatments which rely on sub-nodes being -- already treated. Notice that if down() returned 'break', up() is -- run immediately after. -- -- In previous versions of this library, there were plenty of fancy -- configurable ways to decide whether an up() or down() functions -- would be triggered or not. Experience suggested that the best way -- is to keep it simpler, as done by the current design: the functions -- in sub-table expr are run on each expression node, and ditto for -- stat and block; the user is expected to use the pattern matching -- extension to decide whether to act or not on a given node. -- -- Advanced features -- ================= -- -- The version above is a strict subset of the truth: there are a -- couple of other, more advanced features in the library. -- -- Paths in visitor functions -- -------------------------- -- First, up() and down() don't take only one node as a parameter, but -- a series thereof: all the nested expr/stat/block nodes on the way -- up to the ast's root. For instance, when a walker works on -- +{ foo(bar*2+1) } an is on the node +{2}, up() and down() are called -- with arguments (+{bar*2}, +{bar*2+1}, +{foo(bar*2+1)}). -- -- `Call and `Invoke as statements -- ------------------------------- -- `Call and `Invoke are normally expressions, but they can also -- appear as statements. In this case, the cfg.expr.xxx() visitors -- aren't called on them. Sometimes you want to consider tham as -- expressions, sometimes not, and it's much easier to add a special -- case in cfg.stat.xxx() visitors than to determine whether we're in -- a statament's context in cfg.expr.xxx(), -- -- Extra walkers -- ------------- -- There are some second class walkers: walk.expr_list() and walk.guess(). -- -- * The first one walks through a list of expressions. Although used -- internally by the other walkers, it remains a second class -- citizen: the list it works on won't appear in the path of nested -- ASTs that's passed to up() and down(). This design choice has -- been made because there's no clear definition of what is or isn't -- an expr list in an AST, and anyway such lists are probably not -- part of metacoders' mental image of an AST, so it's been thought -- best to let people pretend they don't exist. -- -- * walk.guess() tries to guess the type of the AST it receives, -- according to its tag, and runs the appropriate walker. Node which -- can be both stats and exprs (`Call and `Invoke) are considered as -- expr. -- -- These three walkers, although used internally by the other walkers, -- remain second class citizens: the lists they work on won't appear -- in the path of nested ASTs that's passed to up() and down(). -- -- Tag dictionaries -- ---------------- -- There are two public dictionaries, walk.tags.stat and -- walk.tags.expr, which keep the set of all tags that can start a -- statement or an expression AST. They're used by walk.guess, and -- users sometimes need them as well, so they've been kept available. -- -- Binder visitor -- -------------- -- Finally, there's one last field in [cfg]: binder(). This function -- is called on identifiers in a binder position, i.e. `Id{ } nodes -- which create a scoped local variable, in `Function, `Fornum, `Local -- etc. The main use case for that function is to keep track of -- variables, captures, etc. and perform alpha conversions. In many -- cases that work is best done through the library 'walk.id', which -- understands the notions of scope, free variable, bound variable -- etc. -- -- Binder visitors are called just before the variable's scope starts, -- e.g. they're called after the right-hand-side has been visited in a -- `Local node, but before in a `Localrec node. -- -------------------------------------------------------------------------------- -{ extension "match" } walk = { traverse = { }; tags = { }; debug = false } -------------------------------------------------------------------------------- -- Standard tags: can be used to guess the type of an AST, or to check -- that the type of an AST is respected. -------------------------------------------------------------------------------- walk.tags.stat = table.transpose{ 'Do', 'Set', 'While', 'Repeat', 'Local', 'Localrec', 'Return', 'Fornum', 'Forin', 'If', 'Break', 'Goto', 'Label', 'Call', 'Invoke' } walk.tags.expr = table.transpose{ 'Paren', 'Call', 'Invoke', 'Index', 'Op', 'Function', 'Stat', 'Table', 'Nil', 'Dots', 'True', 'False', 'Number', 'String', 'Id' } -------------------------------------------------------------------------------- -- These [walk.traverse.xxx()] functions are in charge of actually going through -- ASTs. At each node, they make sure to call the appropriate walker. -------------------------------------------------------------------------------- function walk.traverse.stat (cfg, x, ...) if walk.debug then printf("traverse stat %s", table.tostring(x)) end local log = {...} local B = |y| walk.block (cfg, y, x, unpack(log)) local S = |y| walk.stat (cfg, y, x, unpack(log)) local E = |y| walk.expr (cfg, y, x, unpack(log)) local EL = |y| walk.expr_list (cfg, y, x, unpack(log)) local I = |y| walk.binder_list (cfg, y, x, unpack(log)) match x with | {...} if x.tag == nil -> for y in ivalues(x) do walk.stat(cfg, y, ...) end -- no tag --> node not inserted in the history log | `Do{...} -> B(x) | `Set{ lhs, rhs } -> EL(lhs); EL(rhs) | `While{ cond, body } -> E(cond); B(body) | `Repeat{ body, cond } -> B(body); E(cond) | `Local{ lhs } -> I(lhs) | `Local{ lhs, rhs } -> EL(rhs); I(lhs) | `Localrec{ lhs, rhs } -> I(lhs); EL(rhs) | `Fornum{ i, a, b, body } -> E(a); E(b); I{i}; B(body) | `Fornum{ i, a, b, c, body } -> E(a); E(b); E(c); I{i}; B(body) | `Forin{ i, rhs, body } -> EL(rhs); I(i); B(body) | `If{...} -> for i=1, #x-1, 2 do E(x[i]); B(x[i+1]) end if #x%2 == 1 then B(x[#x]) end | `Call{...}|`Invoke{...}|`Return{...} -> EL(x) | `Break | `Goto{ _ } | `Label{ _ } -> -- nothing | {...} if walk.tags.stat[x.tag]-> printf("Warning: walk: malformed %s stat node: %s", x.tag, table.tostring(x,80)) | {...} -> print("Warning: walk: unknown stat node: "..table.tostring(x,80)) | _ -> print("Warning: walk: unexpected stat node of type "..type(x) ..": "..table.tostring(x,80)) end end function walk.traverse.expr (cfg, x, ...) if walk.debug then printf("traverse expr %s", table.tostring(x)) end local log = {...} local B = |y| walk.block (cfg, y, x, unpack(log)) local S = |y| walk.stat (cfg, y, x, unpack(log)) local E = |y| walk.expr (cfg, y, x, unpack(log)) local EL = |y| walk.expr_list (cfg, y, x, unpack(log)) local I = |y| walk.binder_list (cfg, y, x, unpack(log)) match x with | `Paren{ e } -> E(e) | `Call{...} | `Invoke{...} -> EL(x) | `Index{ a, b } -> E(a); E(b) | `Op{ opid, ... } -> E(x[2]); if #x==3 then E(x[3]) end | `Function{ params, body } -> I(params); B(body) | `Stat{ b, e } -> B(b); E(e) | `Table{ ... } -> for i = 1, #x do match x[i] with | `Pair{ k, v } -> E(k); E(v) | v -> E(v) end end |`Nil|`Dots|`True|`False|`Number{_}|`String{_}|`Id{_} -> -- nothing | {...} if walk.tags.expr[x.tag]-> printf("Warning: walk: malformed %s expr node: %s", x.tag, table.tostring(x,80)) | {...} -> print("Warning: walk: unknown expr node: "..table.tostring(x,80)) | _ -> print("Warning: walk: unexpected expr node of type "..type(x) ..": "..table.tostring(x,80)) end end function walk.traverse.block (cfg, x, ...) assert(type(x)=='table', "traverse.block() expects a table") for y in ivalues(x) do walk.stat(cfg, y, x, ...) end end function walk.traverse.expr_list (cfg, x, ...) assert(type(x)=='table', "traverse.expr_list() expects a table") -- x doesn't appear in the log for y in ivalues(x) do walk.expr(cfg, y, ...) end end ---------------------------------------------------------------------- -- Generic walker generator. ---------------------------------------------------------------------- local walker_builder = |cfg_field, traverse| function (cfg, x, ...) local sub_cfg = cfg[cfg_field] or { } local broken = false if sub_cfg.down then if sub_cfg.down=='break' then broken='break' else broken = sub_cfg.down (x, ...) end assert(not broken or broken=='break', "Map functions must return 'break' or nil") end if not broken then traverse (cfg, x, ...) end if sub_cfg.up then sub_cfg.up (x, ...) end end ---------------------------------------------------------------------- -- Declare [walk.stat], [walk.expr], [walk.block] and [walk.expr_list] ---------------------------------------------------------------------- for w in values{ "stat", "expr", "block", "expr_list" } do walk[w] = walker_builder (w, walk.traverse[w]) end ---------------------------------------------------------------------- -- Walk a list of `Id{...} (mainly a helper function actually). ---------------------------------------------------------------------- function walk.binder_list (cfg, x, ...) local f = cfg.binder if f then for v in ivalues(x) do f(v, ...) end end end ---------------------------------------------------------------------- -- Tries to guess the type of the AST then choose the right walkker. ---------------------------------------------------------------------- function walk.guess (cfg, x, ...) assert(type(x)=='table', "arg #2 in a walker must be an AST") if walk.tags.expr[x.tag] then return walk.expr(cfg, x, ...) end if walk.tags.stat[x.tag] then return walk.stat(cfg, x, ...) end if not x.tag then return walk.block(cfg, x, ...) end error ("Can't guess the AST type from tag "..(x.tag or '')) end