for graph display, prefer graph data structure over list with dependencies;
pragmatic distinction between (historically evolved) "session" nodes and (more abstract) "content" nodes
--- a/src/Pure/General/graph_display.ML Wed Dec 31 14:13:11 2014 +0100
+++ b/src/Pure/General/graph_display.ML Wed Dec 31 14:15:52 2014 +0100
@@ -6,10 +6,10 @@
signature GRAPH_DISPLAY =
sig
- type node =
- {name: string, ident: string, directory: string, unfold: bool,
- path: string, parents: string list, content: Pretty.T list}
- type graph = node list
+ type node
+ val content_node: string -> Pretty.T list -> node
+ val session_node: {name: string, unfold: bool, directory: string, path: string} -> node
+ type graph = string list * node Graph.T
val write_graph_browser: Path.T -> graph -> unit
val browserN: string
val graphviewN: string
@@ -20,13 +20,19 @@
structure Graph_Display: GRAPH_DISPLAY =
struct
-(* external graph representation *)
+(* abstract graph representation *)
+
+type node = {name: string, content: Pretty.T list,
+ unfold: bool, directory: string, path: string};
-type node =
- {name: string, ident: string, directory: string, unfold: bool,
- path: string, parents: string list, content: Pretty.T list};
+type graph = string list * node Graph.T;
+ (*partial explicit order in left argument*)
-type graph = node list;
+fun content_node name content =
+ {name = name, content = content, unfold = true, directory = "", path = ""};
+
+fun session_node {name: string, unfold: bool, directory: string, path: string} =
+ {name = name, content = [], unfold = unfold, directory = directory, path = path};
(* print modes *)
@@ -43,20 +49,21 @@
(* encode graph *)
-fun encode_browser (graph: graph) =
- cat_lines (map (fn {name, ident, directory, unfold, path, parents, ...} =>
- "\"" ^ name ^ "\" \"" ^ ident ^ "\" \"" ^ directory ^ (if unfold then "\" + \"" else "\" \"") ^
- path ^ "\" > " ^ space_implode " " (map quote parents) ^ " ;") graph);
+fun encode_browser ((keys, gr) : graph) =
+ fold_rev (update (op =)) (Graph.keys gr) keys
+ |> map (fn key => case Graph.get_node gr key of {name, unfold, content, directory, path} =>
+ "\"" ^ name ^ "\" \"" ^ key ^ "\" \"" ^ directory ^ (if unfold then "\" + \"" else "\" \"") ^
+ path ^ "\" > " ^ space_implode " " (map quote (Graph.immediate_succs gr key)) ^ " ;")
+ |> cat_lines;
fun write_graph_browser path graph = File.write path (encode_browser graph);
val encode_content = YXML.parse_body o Pretty.symbolic_string_of o Pretty.chunks;
-fun encode_graphview (graph: graph) =
- Graph.empty
- |> fold (fn {ident, name, content, ...} => Graph.new_node (ident, (name, content))) graph
- |> fold (fn {ident = a, parents = bs, ...} => fold (fn b => Graph.add_edge (b, a)) bs) graph
+fun encode_graphview ((_, gr): graph) =
+ gr
+ |> Graph.map (fn _ => fn {name, content, ...} => (name, content))
|> let open XML.Encode in Graph.encode string (pair string encode_content) end;
@@ -80,4 +87,3 @@
in () end;
end;
-
--- a/src/Pure/Isar/isar_cmd.ML Wed Dec 31 14:13:11 2014 +0100
+++ b/src/Pure/Isar/isar_cmd.ML Wed Dec 31 14:15:52 2014 +0100
@@ -275,25 +275,26 @@
val thy = Toplevel.theory_of state;
val thy_session = Present.session_name thy;
- val graph = rev (Theory.nodes_of thy) |> map (fn node =>
+ val gr_nodes = rev (Theory.nodes_of thy) |> map (fn node =>
let
val name = Context.theory_name node;
val parents = map Context.theory_name (Theory.parents_of node);
val session = Present.session_name node;
val unfold = (session = thy_session);
in
- {name = name, ident = name, parents = parents, directory = session,
- unfold = unfold, path = "", content = []}
+ ((name, Graph_Display.session_node
+ {name = name, directory = session, unfold = unfold, path = ""}), parents)
end);
- in Graph_Display.display_graph graph end);
+ in Graph_Display.display_graph (map (fst o fst) gr_nodes, Graph.make gr_nodes) end);
val locale_deps = Toplevel.unknown_theory o Toplevel.keep (fn state =>
let
val thy = Toplevel.theory_of state;
- val graph = Locale.pretty_locale_deps thy |> map (fn {name, parents, body} =>
- {name = Locale.extern thy name, ident = name, parents = parents,
- directory = "", unfold = true, path = "", content = [body]});
- in Graph_Display.display_graph graph end);
+ val gr = Locale.pretty_locale_deps thy
+ |> map (fn {name, parents, body} => ((name,
+ Graph_Display.content_node (Locale.extern thy name) [body]), parents))
+ |> Graph.make;
+ in Graph_Display.display_graph ([], gr) end);
(* print theorems, terms, types etc. *)
--- a/src/Pure/Thy/present.ML Wed Dec 31 14:13:11 2014 +0100
+++ b/src/Pure/Thy/present.ML Wed Dec 31 14:15:52 2014 +0100
@@ -76,6 +76,9 @@
end;
(*retrieve graph data from initial collection of theories*)
+type browser_node = {name: string, ident: string, parents: string list,
+ unfold: bool, directory: string, path: string}
+
fun init_graph (curr_chapter, curr_session) = rev o map (fn thy =>
let
val {chapter, name = session_name} = Browser_Info.get thy;
@@ -84,18 +87,17 @@
(case theory_link (curr_chapter, curr_session) thy of
NONE => ""
| SOME p => Path.implode p);
- val entry =
+ val graph_entry =
{name = thy_name,
ident = ID_of [chapter, session_name] thy_name,
directory = session_name,
path = path,
unfold = false,
- parents = map ID_of_thy (Theory.parents_of thy),
- content = []};
- in (0, entry) end);
+ parents = map ID_of_thy (Theory.parents_of thy)};
+ in (0, graph_entry) end);
-fun ins_graph_entry (i, entry as {ident, ...}) (gr: (int * Graph_Display.node) list) =
- (i, entry) :: filter_out (fn (_, entry') => #ident entry' = ident) gr;
+fun ins_graph_entry (i, entry as {ident, ...}) (graph: (int * browser_node) list) =
+ (i, entry) :: filter_out (fn (_, entry') => #ident entry' = ident) graph;
@@ -118,7 +120,7 @@
{theories: theory_info Symtab.table,
tex_index: (int * string) list,
html_index: (int * string) list,
- graph: (int * Graph_Display.node) list};
+ graph: (int * browser_node) list};
fun make_browser_info (theories, tex_index, html_index, graph) : browser_info =
{theories = theories, tex_index = tex_index, html_index = html_index, graph = graph};
@@ -276,6 +278,14 @@
(* finish session -- output all generated text *)
+fun finalize_graph (nodes : (int * browser_node) list) =
+ nodes
+ |> map (fn (_, {ident, parents, name, unfold, directory, path}) =>
+ ((ident, Graph_Display.session_node
+ {name = name, unfold = unfold, directory = directory, path = path}), parents))
+ |> Graph.make
+ |> pair (map (#ident o snd) (sort (int_ord o apply2 fst) (rev nodes)));
+
fun sorted_index index = map snd (sort (int_ord o apply2 fst) (rev index));
fun index_buffer index = Buffer.add (implode (sorted_index index)) Buffer.empty;
@@ -298,10 +308,10 @@
fun finish_html (a, {html_source, ...}: theory_info) =
File.write (Path.append session_prefix (html_path a)) html_source;
- val sorted_graph = sorted_index graph;
+ val graph' = finalize_graph graph;
val opt_graphs =
if doc_graph andalso not (null documents) then
- SOME (isabelle_browser sorted_graph)
+ SOME (isabelle_browser graph')
else NONE;
val _ =
@@ -310,7 +320,7 @@
File.write_buffer (Path.append session_prefix index_path)
(index_buffer html_index |> Buffer.add HTML.end_document);
(case readme of NONE => () | SOME path => Isabelle_System.copy_file path session_prefix);
- Graph_Display.write_graph_browser (Path.append session_prefix graph_path) sorted_graph;
+ Graph_Display.write_graph_browser (Path.append session_prefix graph_path) graph';
Isabelle_System.isabelle_tool "browser" "-b";
Isabelle_System.copy_file (Path.explode "~~/lib/browser/GraphBrowser.jar") session_prefix;
List.app (fn (a, txt) => File.write (Path.append session_prefix (Path.basic a)) txt)
@@ -387,8 +397,7 @@
directory = session_name,
unfold = true,
path = Path.implode (html_path name),
- parents = map ID_of_thy parents,
- content = []};
+ parents = map ID_of_thy parents};
in
init_theory_info name (make_theory_info ("", html_source));
add_graph_entry (update_time, graph_entry);
--- a/src/Pure/Tools/class_deps.ML Wed Dec 31 14:13:11 2014 +0100
+++ b/src/Pure/Tools/class_deps.ML Wed Dec 31 14:15:52 2014 +0100
@@ -24,14 +24,11 @@
SOME sub => fn class => Sorts.sort_le original_algebra (sub, [class]);
val (_, algebra) = Sorts.subalgebra (Context.pretty ctxt)
(le_super andf sub_le) (K NONE) original_algebra;
- val classes = Sorts.classes_of algebra;
- fun entry (c, (i, (_, cs))) =
- (i, {name = Name_Space.extern ctxt space c, ident = c, parents = Graph.Keys.dest cs,
- directory = "", unfold = true, path = "", content = []});
- val graph =
- Graph.fold (cons o entry) classes []
- |> sort (int_ord o apply2 #1) |> map #2;
- in Graph_Display.display_graph graph end;
+ val gr =
+ Sorts.classes_of algebra
+ |> Graph.map (fn c => fn _ =>
+ Graph_Display.content_node (Name_Space.extern ctxt space c) [])
+ in Graph_Display.display_graph ([], gr) end;
val visualize = gen_visualize (Type.cert_sort o Proof_Context.tsig_of);
val visualize_cmd = gen_visualize Syntax.read_sort;
--- a/src/Pure/Tools/thm_deps.ML Wed Dec 31 14:13:11 2014 +0100
+++ b/src/Pure/Tools/thm_deps.ML Wed Dec 31 14:15:52 2014 +0100
@@ -31,18 +31,15 @@
| session => [session])
| NONE => [])
| _ => ["global"]);
+ val directory = space_implode "/" (session @ prefix);
val parents = filter_out (fn s => s = "") (map (#1 o #2) thms');
- val entry =
- {name = Long_Name.base_name name,
- ident = name,
- directory = space_implode "/" (session @ prefix),
- unfold = false,
- path = "",
- parents = parents,
- content = []};
- in cons entry end;
- val deps = Proofterm.fold_body_thms add_dep (Thm.proof_bodies_of thms) [];
- in Graph_Display.display_graph (sort_wrt #ident deps) end;
+ in
+ cons ((name, Graph_Display.session_node
+ {name = Long_Name.base_name name, directory = directory,
+ unfold = false, path = ""}), parents)
+ end;
+ val gr = Proofterm.fold_body_thms add_dep (Thm.proof_bodies_of thms) [];
+ in Graph_Display.display_graph (sort_wrt I (map (fst o fst) gr), Graph.make gr) end;
val _ =
Outer_Syntax.command @{command_spec "thm_deps"} "visualize theorem dependencies"
--- a/src/Tools/Code/code_thingol.ML Wed Dec 31 14:13:11 2014 +0100
+++ b/src/Tools/Code/code_thingol.ML Wed Dec 31 14:15:52 2014 +0100
@@ -911,25 +911,28 @@
fun code_thms ctxt = Pretty.writeln o Code_Preproc.pretty ctxt o code_depgr ctxt;
+fun join_strong_conn gr =
+ let
+ val xss = Graph.strong_conn gr;
+ val xss_zs = map (fn xs => (xs, commas xs)) xss;
+ val z_for = the o AList.lookup (op =) (maps (fn (xs, z) => map (fn x => (x, z)) xs) xss_zs);
+ val succs = map (fn (xs, z) => (z, (map z_for o maps (Graph.immediate_succs gr)) xs)) xss_zs;
+ in
+ Graph.empty
+ |> fold (fn (xs, z) => Graph.new_node (z, map (Graph.get_node gr) xs)) xss_zs
+ |> fold (fn (z, succs) => fold (fn w => Graph.add_edge (z, w)) succs) succs
+ end;
+
fun code_deps ctxt consts =
let
val thy = Proof_Context.theory_of ctxt;
- val eqngr = code_depgr ctxt consts;
- val constss = Graph.strong_conn eqngr;
- val mapping = Symtab.empty |> fold (fn consts => fold (fn const =>
- Symtab.update (const, consts)) consts) constss;
- fun succs consts = consts
- |> maps (Graph.immediate_succs eqngr)
- |> subtract (op =) consts
- |> map (the o Symtab.lookup mapping)
- |> distinct (op =);
- val conn = [] |> fold (fn consts => cons (consts, succs consts)) constss;
- fun namify consts = map (Code.string_of_const thy) consts
- |> commas;
- val graph = map (fn (consts, constss) =>
- { name = namify consts, ident = namify consts, directory = "", unfold = true,
- path = "", parents = map namify constss, content = [] }) conn;
- in Graph_Display.display_graph graph end;
+ val namify = commas o map (Code.string_of_const thy);
+ val gr =
+ code_depgr ctxt consts
+ |> Graph.map (fn c => fn _ => c)
+ |> join_strong_conn
+ |> Graph.map (fn _ => fn cs => Graph_Display.content_node (namify cs) [])
+ in Graph_Display.display_graph ([], gr) end;
local