Source file Eval.ml
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open Forester_prelude
open Base
open Bwd
module Q = Query
module type I =
sig
val enqueue_latex : string -> string
end
module Make (I : I) =
struct
module Graphs = Forester_graphs.Make ()
module Lex_env = Algaeff.Reader.Make (struct type t = Sem.value Env.t end)
module Dyn_env = Algaeff.Reader.Make (struct type t = Sem.value Env.t end)
module Heap = Algaeff.State.Make (struct type t = Sem.obj Env.t end)
module Emitted_trees = Algaeff.State.Make (struct type t = Sem.tree list end)
module Fm = Algaeff.State.Make (struct type t = Sem.frontmatter end)
module Scope = Algaeff.State.Make (Addr)
let get_transclusion_opts () =
let dynenv = Dyn_env.read () in
let title_override =
Option.bind (Env.find_opt Expand.Builtins.Transclude.title_sym dynenv) @@ function
| Sem.VContent content -> Some content
| _ -> None
in
let taxon_override =
match Env.find_opt Expand.Builtins.Transclude.taxon_sym dynenv with
| Some (VContent [{value = Sem.Text text; _}]) -> Some text
| _ -> None
in
let get_bool key default =
match Env.find_opt key dynenv with
| Some (VContent [{value = Sem.Text "true"; _}]) -> true
| Some (VContent [{value = Sem.Text "false"; _}]) -> false
| _ -> default
in
let expanded = get_bool Expand.Builtins.Transclude.expanded_sym true in
let show_heading = get_bool Expand.Builtins.Transclude.show_heading_sym true in
let toc = get_bool Expand.Builtins.Transclude.toc_sym true in
let numbered = get_bool Expand.Builtins.Transclude.numbered_sym true in
let show_metadata = get_bool Expand.Builtins.Transclude.show_metadata_sym false in
Sem.{title_override; taxon_override; toc; show_heading; expanded; numbered; show_metadata}
module Tape = Tape_effect.Make ()
let rec process_tape () =
match Tape.pop_node_opt () with
| None -> Sem.VContent []
| Some node ->
eval_node node
and eval_tape nodes =
Tape.run ~tape:nodes process_tape
and eval_node node : Sem.value =
match node.value with
| Syn.Var x ->
begin
match Env.find_opt x @@ Lex_env.read () with
| Some v -> focus ?loc:node.loc v
| None ->
Reporter.fatalf ?loc:node.loc Resolution_error
"could not find variable named %a"
Symbol.pp x
end
| Text str ->
emit_content_node {node with value = Sem.Text str}
| Prim p ->
let content = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_content |> Sem.trim_whitespace in
emit_content_node {node with value = Sem.Prim (p, content)}
| Fun (xs, body) ->
let env = Lex_env.read () in
focus_clo env xs body
| Ref ->
let scope = Scope.get () in
let dest = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_addr in
Graphs.add_edge Q.Rel.links ~source:scope ~target:dest;
emit_content_node {node with value = Sem.Ref dest}
| Link {title; dest} ->
let scope = Scope.get () in
let dest = {node with value = dest} |> Range.map eval_tape |> Sem.extract_addr in
Graphs.add_edge Q.Rel.links ~source:scope ~target:dest;
let title =
title |> Option.map @@ fun x ->
Sem.extract_content {node with value = eval_tape x}
in
emit_content_node {node with value = Sem.Link (dest, title, Identity)}
| Math (mmode, body) ->
let body = Sem.extract_content {node with value = eval_tape body} in
emit_content_node {node with value = Sem.Math (mmode, body)}
| Xml_tag (name, attrs, body) ->
let rec process =
function
| [] -> []
| (k,v) :: attrs ->
let processed = process attrs in
if List.mem_assoc k processed then begin
Reporter.emitf ?loc:node.loc Duplicate_attribute
"skipping duplicate XML attribute `%a`" pp_xml_qname k;
processed
end else
(k, Sem.extract_content {node with value = eval_tape v}) :: processed
in
let tag = Sem.Xml_tag (name, process attrs, Sem.extract_content {node with value = eval_tape body}) in
emit_content_node {node with value = tag}
| Query_polarity pol ->
focus ?loc:node.loc @@ VQuery_polarity pol
| Query_mode mode ->
focus ?loc:node.loc @@ VQuery_mode mode
| Query_rel ->
let mode = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_mode in
let pol = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_polarity in
let rel = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
let addr = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_addr_expr in
focus ?loc:node.loc @@ VQuery (Query.rel mode pol rel addr)
| Query_isect ->
let queries =
Tape.pop_args () |> List.map @@ fun arg ->
arg |> Range.map eval_tape |> Sem.extract_query_node
in
focus ?loc:node.loc @@ VQuery (Query.isect queries)
| Query_union ->
let queries =
Tape.pop_args () |> List.map @@ fun arg ->
arg |> Range.map eval_tape |> Sem.extract_query_node
in
focus ?loc:node.loc @@ VQuery (Query.union queries)
| Query_compl ->
let q = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_node in
focus ?loc:node.loc @@ VQuery (Complement q)
| Query_isect_fam ->
let q = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_node in
let qfun = Tape.pop_arg ~loc:node.loc in
let x = Symbol.fresh [] in
let qx =
let tape = qfun.value @ [{node with value = Syn.Sym x}] in
Sem.extract_query_node {node with value = eval_tape tape}
in
focus ?loc:node.loc @@ VQuery (Query.isect_fam q x qx)
| Query_union_fam ->
let q = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_node in
let qfun = Tape.pop_arg ~loc:node.loc in
let x = Symbol.fresh [] in
let qx =
let tape = qfun.value @ [{node with value = Syn.Sym x}] in
Sem.extract_query_node {node with value = eval_tape tape}
in
focus ?loc:node.loc @@ VQuery (Query.union_fam q x qx)
| Query_isect_fam_rel ->
let q = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_node in
let mode = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_mode in
let pol = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_polarity in
let rel = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
focus ?loc:node.loc @@ VQuery (Query.isect_fam_rel q mode pol rel)
| Query_union_fam_rel ->
let q = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_node in
let mode = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_mode in
let pol = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_polarity in
let rel = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
focus ?loc:node.loc @@ VQuery (Query.union_fam_rel q mode pol rel)
| Query_builtin builtin ->
let addr = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_addr_expr in
let r =
match builtin with
| `Taxon -> Q.Rel.taxa
| `Author -> Q.Rel.authors
| `Tag -> Q.Rel.tags
in
let q = Query.rel Edges Incoming r addr in
focus ?loc:node.loc @@ VQuery q
| TeX_cs cs ->
emit_content_node {node with value = Sem.TeX_cs cs}
| Transclude ->
let addr = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_addr in
let scope = Scope.get () in
Graphs.add_edge Q.Rel.transclusion ~source:scope ~target:addr;
let opts = get_transclusion_opts () in
emit_content_node {node with value = Sem.Transclude (opts, addr)}
| Subtree (addr, subtree_nodes) ->
let addr =
match addr with
| Some addr -> User_addr addr
| None -> Machine_addr (Oo.id (object end))
in
let scope = Scope.get () in
Graphs.add_edge Q.Rel.transclusion ~source:scope ~target:addr;
let opts = get_transclusion_opts () in
let subtree = eval_tree_inner ~addr subtree_nodes in
let fm = Fm.get () in
let subtree = {subtree with fm = {subtree.fm with physical_parent = Some fm.addr; designated_parent = Some fm.addr}} in
Emitted_trees.modify @@ List.cons subtree;
emit_content_node {node with value = Sem.Subtree (opts, subtree)}
| Query_tree ->
let opts =
let opts = get_transclusion_opts () in
match opts.title_override with
| None -> {opts with show_heading = false; toc = false}
| Some _ -> opts
in
let query = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_query_node |> Query.distill_expr in
emit_content_node {node with value = Sem.Query_tree (opts, query)}
| Embed_tex ->
let as_tex x =
Render_TeX_like.Printer.contents @@
Render_TeX_like.render x
in
let preamble = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_content |> as_tex in
let body = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_content |> as_tex in
let source = LaTeX_template.to_string ~preamble ~body in
let hash = I.enqueue_latex source in
let sources = [
Sem.{type_ = "latex"; part = "preamble"; source = preamble};
Sem.{type_ = "latex"; part = "body"; source = body}
] in
let embed = Sem.Resource {format = "svg+xml"; hash; sources} in
emit_content_node {node with value = embed}
| Object {self; methods} ->
let table =
let env = Lex_env.read () in
let add (name, body) =
let super = Symbol.fresh [] in
Sem.MethodTable.add name Sem.{body; self; super; env}
in
List.fold_right add methods Sem.MethodTable.empty
in
let sym = Symbol.fresh ["obj"] in
Heap.modify @@ Env.add sym Sem.{prototype = None; methods = table};
focus ?loc:node.loc @@ VObject sym
| Patch {obj; self; super; methods} ->
let obj_ptr = {node with value = obj} |> Range.map eval_tape |> Sem.extract_obj_ptr in
let table =
let env = Lex_env.read () in
let add (name, body) =
Sem.MethodTable.add name
Sem.{body; self; super; env}
in
List.fold_right add methods Sem.MethodTable.empty
in
let sym = Symbol.fresh ["obj"] in
Heap.modify @@ Env.add sym Sem.{prototype = Some obj_ptr; methods = table};
focus ?loc:node.loc @@ VObject sym
| Group (d, body) ->
let l, r = Base.delim_to_strings d in
let content =
Range.locate_opt None (Sem.Text l)
:: Sem.extract_content {node with value = eval_tape body}
@ [Range.locate_opt None (Sem.Text r)]
in
focus ?loc:node.loc @@ VContent content
| Call (obj, method_name) ->
let sym = {node with value = obj} |> Range.map eval_tape |> Sem.extract_obj_ptr in
let rec call_method (obj : Sem.obj) =
let proto_val =
obj.prototype |> Option.map @@ fun ptr ->
Sem.VObject ptr
in
match Sem.MethodTable.find_opt method_name obj.methods with
| Some mthd ->
let env =
let env = Env.add mthd.self (Sem.VObject sym) mthd.env in
match proto_val with
| None -> env
| Some proto_val ->
Env.add mthd.super proto_val env
in
Lex_env.run ~env @@ fun () ->
eval_tape mthd.body
| None ->
match obj.prototype with
| Some proto ->
call_method @@ Env.find proto @@ Heap.get ()
| None ->
Reporter.fatalf ?loc:node.loc Type_error
"tried to call unbound method `%s`" method_name
in
let result = call_method @@ Env.find sym @@ Heap.get () in
focus ?loc:node.loc result
| Put (k, v, body) ->
let k = {node with value = k} |> Range.map eval_tape |> Sem.extract_sym in
let body =
Dyn_env.scope (Env.add k @@ eval_tape v) @@ fun () ->
eval_tape body
in
focus ?loc:node.loc body
| Default (k, v, body) ->
let k = {node with value = k} |> Range.map eval_tape |> Sem.extract_sym in
let body =
let upd flenv = if Env.mem k flenv then flenv else Env.add k (eval_tape v) flenv in
Dyn_env.scope upd @@ fun () ->
eval_tape body
in
focus ?loc:node.loc body
| Get k ->
let k = {node with value = k} |> Range.map eval_tape |> Sem.extract_sym in
begin
let env = Dyn_env.read () in
match Env.find_opt k env with
| None ->
Eio.traceln "getting %a from %a" Symbol.pp k (Env.pp Sem.pp_value) env;
Reporter.fatalf ?loc:node.loc Resolution_error
"could not find fluid binding named %a"
Symbol.pp k
| Some v -> focus ?loc:node.loc v
end
| Verbatim str ->
emit_content_node {node with value = Sem.Verbatim str}
| Title ->
let title = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_content in
Fm.modify (fun fm -> {fm with title = Some title});
process_tape ()
| Parent ->
let addr = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_addr in
Fm.modify (fun fm -> {fm with designated_parent = Some addr});
process_tape ()
| Meta ->
let k = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
let v = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_content in
Fm.modify (fun fm -> {fm with metas = fm.metas @ [k,v]});
process_tape ()
| Author ->
let addr = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_addr in
let scope = Scope.get () in
Graphs.add_edge Q.Rel.authors ~source:scope ~target:addr;
Fm.modify (fun fm -> {fm with authors = fm.authors @ [addr]});
process_tape ()
| Contributor ->
let addr = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_addr in
let scope = Scope.get () in
Graphs.add_edge Q.Rel.contributors ~source:scope ~target:addr;
Fm.modify (fun fm -> {fm with contributors = fm.contributors @ [addr]});
process_tape ()
| Tag ->
let tag = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
let scope = Scope.get () in
Graphs.add_edge Q.Rel.tags ~source:scope ~target:(User_addr tag);
Fm.modify (fun fm -> {fm with tags = fm.tags @ [tag]});
process_tape ()
| Date ->
let date_str = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
begin
match Date.parse date_str with
| None ->
Reporter.fatalf ?loc:node.loc Parse_error "Invalid date string `%s`" date_str
| Some date ->
Fm.modify (fun fm -> {fm with dates = fm.dates @ [date]});
process_tape ()
end
| Number ->
let num = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
Fm.modify (fun fm -> {fm with number = Some num});
process_tape ()
| Taxon ->
let taxon = Tape.pop_arg ~loc:node.loc |> Range.map eval_tape |> Sem.extract_string in
let scope = Scope.get () in
Graphs.add_edge Q.Rel.taxa ~source:scope ~target:(User_addr taxon);
Fm.modify (fun fm -> {fm with taxon = Some taxon});
process_tape ()
| Sym sym ->
focus ?loc:node.loc @@ VSym sym
and focus ?loc v =
match v with
| VClo (rho, xs, body) ->
focus_clo ?loc rho xs body
| VContent content ->
begin
match process_tape () with
| VContent content' -> VContent (content @ content')
| value -> value
end
| VQuery _ | VQuery_mode _ | VQuery_polarity _ | VSym _ | VObject _ ->
begin
match process_tape () with
| VContent content when Sem.strip_whitespace content = [] -> v
| _ -> Reporter.fatalf ?loc Type_error "Expected solitary node"
end
and focus_clo ?loc rho xs body =
match xs with
| [] ->
focus ?loc @@
Lex_env.run ~env:rho @@ fun () ->
eval_tape body
| (strategy, y) :: ys ->
match Tape.pop_arg_opt () with
| Some arg ->
let yval =
match strategy with
| Strict -> eval_tape arg.value
| Lazy -> VClo (Lex_env.read (), [(Strict, Symbol.fresh [])], arg.value)
in
let rhoy = Env.add y yval rho in
focus_clo ?loc rhoy ys body
| None ->
begin
match process_tape () with
| VContent nodes when Sem.strip_whitespace nodes = [] ->
VClo (rho, xs, body)
| _ ->
Reporter.fatalf ?loc Type_error "Expected %i additional arguments" (List.length xs)
end
and emit_content_node content =
focus ?loc:content.loc @@ VContent [content]
and eval_tree_inner ~addr (tree : Syn.tree) : Sem.tree =
Graphs.register_addr addr;
let scope =
match addr with
| User_addr _ -> addr
| _ -> Scope.get ()
in
Scope.run ~init:scope @@ fun () ->
let outer_fm = Fm.get () in
let fm =
{(Sem.empty_frontmatter ~addr) with
source_path = outer_fm.source_path;
authors = outer_fm.authors;
dates = outer_fm.dates}
in
Fm.run ~init:fm @@ fun () ->
let bm = Sem.default_backmatter ~addr in
let body = Sem.extract_content {value = eval_tape tree; loc = None} in
let fm = Fm.get () in
let open Sem in
{fm; body; bm}
let eval_tree ~addr ~source_path (tree : Syn.tree) : Sem.tree * Sem.tree list =
let fm = {(Sem.empty_frontmatter ~addr) with source_path} in
Fm.run ~init:fm @@ fun () ->
Scope.run ~init:addr @@ fun () ->
Emitted_trees.run ~init:[] @@ fun () ->
Heap.run ~init:Env.empty @@ fun () ->
Lex_env.run ~env:Env.empty @@ fun () ->
Dyn_env.run ~env:Env.empty @@ fun () ->
let tree = eval_tree_inner ~addr tree in
let emitted = Emitted_trees.get () in
tree, emitted
module Query_engine = Query_engine.Make (Graphs)
include Query_engine
end