let sprintf = Printf.sprintf module OSet = OpamPackage.Set type package = OpamPackage.t let packages (switch : OpamFile.SwitchExport.t) = assert (OSet.cardinal switch.selections.sel_pinned = 0); assert (OSet.cardinal switch.selections.sel_compiler = 0); assert (OSet.subset switch.selections.sel_roots switch.selections.sel_installed); switch.selections.sel_installed let root (switch : OpamFile.SwitchExport.t) = assert (OSet.cardinal switch.selections.sel_roots = 1); OSet.choose switch.selections.sel_roots module Name_set = OpamPackage.Name.Set let filtered_formula_to_pkgs (_switch : OpamFile.SwitchExport.t) ?(set = Name_set.empty) formula = OpamFormula.fold_left (fun acc (name, _) -> Name_set.add name acc) set formula let opam_file (switch : OpamFile.SwitchExport.t) pkg_name = OpamPackage.Name.Map.find pkg_name switch.overlays (* TODO depexts *) (* TODO build / dev packages *) (* TODO constraints (os = "linux") *) let direct_dependencies (switch : OpamFile.SwitchExport.t) pkg = let pkg_opam_file = opam_file switch pkg in let set = filtered_formula_to_pkgs switch (OpamFile.OPAM.depends pkg_opam_file) in filtered_formula_to_pkgs switch ~set (OpamFile.OPAM.depopts pkg_opam_file) let transitive_dependencies (switch : OpamFile.SwitchExport.t) pkg = let available = switch.selections.sel_installed in let rec aux pkg seen_pkgs = let opam = opam_file switch pkg in let set = filtered_formula_to_pkgs switch (OpamFile.OPAM.depends opam) in let set = filtered_formula_to_pkgs switch ~set (OpamFile.OPAM.depopts opam) in let transitive_set = let filtered_set = set |> Name_set.filter (fun name -> OpamPackage.Set.exists (fun pkg -> pkg.OpamPackage.name = name) available && not (Name_set.mem name seen_pkgs) ) in let seen_pkgs = Name_set.union seen_pkgs filtered_set in filtered_set |> Name_set.elements |> List.concat_map (fun pkg -> aux pkg seen_pkgs |> Name_set.elements) |> Name_set.of_list in Name_set.union set transitive_set in aux pkg Name_set.empty module Name_map = OpamPackage.Name.Map type graph = { nodes : Name_set.t Name_map.t ; top : OpamPackage.Name.t ; } let add_node graph pkg edges = let nodes = Name_map.add pkg edges graph.nodes in { graph with nodes } let pp_graph ppf graph = Name_map.iter (fun pkg deps -> let top = if pkg = graph.top then "ROOT " else "" in Format.fprintf ppf "%s%s: %s@." top (OpamPackage.Name.to_string pkg) (String.concat ", " (List.map OpamPackage.Name.to_string (Name_set.elements deps)))) graph.nodes let dependencies ~transitive (switch : OpamFile.SwitchExport.t) = let root_pkg = root switch in let top = root_pkg.OpamPackage.name in let graph = { top ; nodes = Name_map.empty } in let available = switch.selections.sel_installed in let rec find_deps graph work = match Name_set.choose_opt work with | None -> graph | Some x -> let deps = match transitive with | true -> transitive_dependencies switch x | false -> direct_dependencies switch x in let deps = deps |> Name_set.filter (fun name -> OpamPackage.Set.exists (fun pkg -> pkg.OpamPackage.name = name) available ) in let graph = add_node graph x deps in let work = Name_set.diff (Name_set.union (Name_set.remove x work) deps) (Name_set.of_list (Name_map.keys graph.nodes)) in find_deps graph work in find_deps graph (Name_set.singleton top) (*!Note the first entry is seen as the root node*) type assoc_node = { name : string; uniqueness_postfix : string; } type assoc_graph = (assoc_node * (assoc_node list)) list module SMap = Map.Make(String) type assoc_stats = int SMap.t let calc_sharing_stats (deps:graph) : assoc_stats = Name_map.fold (fun _pkg deps acc_stats -> Name_set.fold (fun dep acc_stats -> let dep_name = OpamPackage.Name.to_string dep in acc_stats |> SMap.update dep_name (function | None -> Some 1 | Some count -> Some (succ count)) ) deps acc_stats ) deps.nodes SMap.empty module Ui = struct let dependencies ?(transitive=true) data : assoc_graph = (*> todo can be made more efficient*) let all_direct_deps = dependencies ~transitive:false data in let root = all_direct_deps.top in let root_str = OpamPackage.Name.to_string root in let direct_deps = all_direct_deps.nodes |> Name_map.find root in let all_transitive_deps = if transitive = false then all_direct_deps else dependencies ~transitive data in let direct_deps_w_transitive_deps = direct_deps |> Name_set.elements |> List.map (fun direct_dep -> let transitive_deps = all_transitive_deps.nodes |> Name_map.find_opt direct_dep |> (function | None -> Name_set.empty | Some v -> v) |> Name_set.elements |> List.map OpamPackage.Name.to_string in let direct_dep = OpamPackage.Name.to_string direct_dep in direct_dep, transitive_deps ) in let uniquified_deps = direct_deps_w_transitive_deps |> List.mapi (fun i (direct_dep, transitive_deps) -> let direct_dep_node = { name = direct_dep; uniqueness_postfix = sprintf "%d" i; } and unique_transitive_deps = transitive_deps |> List.mapi (fun i' transitive_dep -> let uniqueness_postfix = sprintf "%d.%d" i i' in { name = transitive_dep; uniqueness_postfix } ) in direct_dep_node, unique_transitive_deps ) in let unique_direct_deps = uniquified_deps |> List.map fst in let root_node = { name = root_str; uniqueness_postfix = "" } in (root_node, unique_direct_deps) :: uniquified_deps end module Render = struct module Dot = struct type t = Odot.graph let of_graph (graph:graph) : t = let open Odot in let stmt_list = Name_map.fold (fun pkg deps acc -> let stmt = let pkg_id = Double_quoted_id (OpamPackage.Name.to_string pkg) in let pkg_point = Edge_node_id (pkg_id, None) in let deps_points = Name_set.elements deps |> List.map (fun p -> let id = Double_quoted_id (OpamPackage.Name.to_string p) in Edge_node_id (id, None) ) in let edge = pkg_point, deps_points, [] in Stmt_edge edge in stmt :: acc ) graph.nodes [] in { strict = false; (*todo test params*) kind = Digraph; id = None; stmt_list } let id_of_assoc_node node = sprintf "%s_%s" node.name node.uniqueness_postfix let of_assoc (graph:assoc_graph) : t = let open Odot in let stmt_list = graph |> List.fold_left (fun acc (pkg, deps) -> let stmt = let pkg_id = Double_quoted_id (id_of_assoc_node pkg) in let pkg_point = Edge_node_id (pkg_id, None) in let deps_points = deps |> List.map (fun pkg -> let id = Double_quoted_id (id_of_assoc_node pkg) in Edge_node_id (id, None) ) in let edge = pkg_point, deps_points, [] in Stmt_edge edge in stmt :: acc ) [] in { strict = false; (*todo test params*) kind = Digraph; id = None; stmt_list } let pp ppf dot = Format.fprintf ppf "%s" (Odot.string_of_graph dot) end module Svg = struct type t = Tyxml_svg.doc type 'a elt = 'a Tyxml_svg.elt type 'a attr = 'a Tyxml_svg.attrib type ('a, 'b) output = { svg_content : 'a elt list; svg_attr : 'b attr list; css : string; } module Svg = Tyxml_svg let scoped_class s = "deps-"^s (*> goto * change svg width+height to pct again - using vw+vh for development * svg width+height shouldn't be here for compatibility with user css? *) let initial_css = {| .deps-svg-wrap { background : slategrey; } .deps-line { stroke-width: 0.4; stroke: #80746e; } .deps-node { fill: #ccc; } .deps-root { fill: black; } .deps-layer2_deps.deps-bg { fill: url(#gradient_01); } .deps-direct_dep.deps-node:hover { transform: scale(2); } .deps-layer2_dep.deps-node:hover { transform: scale(1.4); } .deps-layer2_dep.deps-hitbox:hover + .deps-node { transform: scale(1.4); } |} (* disabled CSS svg { width : 100vw; height : 100vh; } .layer2_deps.bg { fill: bisque; } .root:hover ~ .node { transform: scale(1.1); } transform-origin: center; stroke-width: 0.009 !important; *) (*< Note the '.layer2_deps.bg' selector... https://steveliles.github.io/a_multi_class_union_css_selector.html*) (* .layer2_deps.bg fills: OCaml: a_fill @@ `Color ("url(#gradient_01)", None); CSS: fill: url(#gradient_01); *) let merge_css cs = String.concat "\n" cs type position = { x : float; y : float; } let center = { x = 50.; y = 50. } let root_radius = 1.5 module Unit = struct let none size = size, None end let make_title ~text = let s = sprintf "%s" text in Svg.(title (txt s)) let make_circle ~pos ~radius = Svg.[ circle ~a:[ a_class [scoped_class "node_circle"]; a_cx @@ Unit.none pos.x; a_cy @@ Unit.none pos.y; a_r @@ Unit.none radius; ] [] ] let make_square ~center_pos ~width = let open Gg in let center_pos = V2.v center_pos.x center_pos.y in let diagonal = V2.v width width in let center_displacement = V2.half diagonal in let pos = V2.(center_pos - center_displacement) in Svg.[ rect ~a:[ (* a_stroke @@ `Color ("black", None); * a_stroke_width @@ Unit.none 0.001; *) a_fill @@ `Color ("rgba(0,0,0,0)", None); (*goto control with css*) a_x @@ Unit.none @@ V2.x pos; a_y @@ Unit.none @@ V2.y pos; a_width @@ Unit.none width; a_height @@ Unit.none width; ] [] ] let make_node ?(with_node_class=true) ~pos ~radius ~text ~classes () = let title = make_title ~text in (*> todo; why is this not in Tyxml - browser support missing?*) let a_transform_origin = Svg.Unsafe.string_attrib "transform-origin" in let classes = if not with_node_class then classes else scoped_class "node" :: classes in let a = Svg.[ a_class classes; a_transform_origin @@ sprintf "%f %f" pos.x pos.y; ] in Svg.g ~a (title :: make_circle ~pos ~radius) let make_line ~pos0 ~pos1 = Svg.(line ~a:[ a_class [ scoped_class "line" ]; a_x1 @@ Unit.none pos0.x; a_y1 @@ Unit.none pos0.y; a_x2 @@ Unit.none pos1.x; a_y2 @@ Unit.none pos1.y; ]) [] let make_edge ~pos0 ~pos1 ~text ~classes = let a = Svg.[ a_class (scoped_class "edge" :: classes) ] in let title = make_title ~text in Svg.g ~a [ title; make_line ~pos0 ~pos1 ] let make_direct_dep_text dep ~layer2_deps ~(sharing_stats:assoc_stats) = sprintf "Direct dependency: %s\n\ Amount of direct dependencies: %d\n\ Amount of reverse dependencies: %d" dep.name (List.length layer2_deps) (SMap.find_opt dep.name sharing_stats |> Option.value ~default:0) (*> todo add amount of direct deps?*) let make_layer2_dep_text dep ~(sharing_stats:assoc_stats) = sprintf "Indirect dependency: %s\n\ Amount of reverse dependencies: %d" dep (SMap.find_opt dep sharing_stats |> Option.value ~default:0) let make_direct_deps_nodes ~deps_w_positions ~(sharing_stats:assoc_stats) = deps_w_positions |> List.map (fun ((dep, pos), layer2_deps) -> let radius = root_radius *. 0.7 and text = make_direct_dep_text dep ~layer2_deps ~sharing_stats and classes = [ scoped_class dep.name; scoped_class "direct_dep" ] in make_node ~pos ~radius ~text ~classes () ) let make_direct_dep_edge_css dep = let dep = scoped_class dep in sprintf {| .deps-direct_dep.deps-edge.%s:hover ~ .deps-direct_dep.deps-node.%s { transform: scale(2); } .deps-direct_dep.deps-edge.%s:hover ~ .deps-layer2_deps.deps-bg.%s { fill: dimgrey; } .deps-direct_dep.deps-node.%s:hover ~ .deps-layer2_deps.deps-bg.%s { fill: dimgrey; } |} dep dep dep dep dep dep (*< goto move generation of node-css to some other place*) (*disabled css: (*> problem: selected other following children as well*) .layer2_dep.hitbox.%s:hover ~ .layer2_dep.node.%s { transform: scale(1.4); } *) let make_triangle ~top ~left ~right = let a = Svg.[ a_points [ top.x, top.y; left.x, left.y; right.x, right.y; ]; a_fill @@ `Color ("rgba(0,0,0,0)", None); (*goto control with css*) (* a_stroke @@ `Color ("black", None); * a_stroke_width @@ Unit.none 0.002; *) ] in Svg.polygon ~a [] let make_hitbox_direct_dep_edge ~pos0 ~pos1 ~n_edges ~text ~classes = let a = Svg.[ a_class (scoped_class "edge" :: scoped_class "hitbox" :: classes) ] in let title = make_title ~text in let left, right = let open Gg in let n_edges = float (max 1 n_edges) in let diff_angle = Float.two_pi /. n_edges in let _pos0, pos1 = V2.(v pos0.x pos0.y, v pos1.x pos1.y) in let center = V2.v center.x center.y in let pos1_rel = V2.(pos1 - center) in let height_triangle = let radius_pos1_rel, _ = V2.(to_polar pos1_rel |> to_tuple) in radius_pos1_rel *. 1.2 in let bottom_width = if diff_angle < Float.pi_div_2 then sin diff_angle *. height_triangle (*Note: Scaling sin by ~ circle-radius*) else height_triangle in let normal_pos1 = V2.(ortho pos1_rel / norm pos1_rel) in let normal'_pos1 = V2.(-1. * normal_pos1) in let right_leg = V2.((0.5 *. bottom_width) * normal_pos1) in let left_leg = V2.((0.5 *. bottom_width) * normal'_pos1) in let pos1_unit = V2.(pos1_rel / norm pos1_rel) in let pos1_extended = V2.(height_triangle * pos1_unit + center) in let right = V2.(right_leg + pos1_extended) and left = V2.(left_leg + pos1_extended) in { x = V2.x left; y = V2.y left }, { x = V2.x right; y = V2.y right } in Svg.g ~a [ title; make_triangle ~top:pos0 ~left ~right ] let make_direct_deps_edges ~deps_w_positions ~(sharing_stats:assoc_stats) = let open Gg in let n_edges = deps_w_positions |> List.length in let svg = deps_w_positions |> List.concat_map (fun ((dep, pos), layer2_deps) -> let pos1 = pos in let pos0, _pos0_angle = (*> Note: Need this because of mix of CSS selectors and SVG paint order*) let center = V2.v center.x center.y in let pos1 = V2.v pos1.x pos1.y in let pos1_rel = V2.(pos1 - center) in let pos1_rel_angle = V2.angle pos1_rel in let pos0_rel = V2.(v root_radius pos1_rel_angle |> of_polar) in let pos0 = V2.(pos0_rel + center) in { x = V2.x pos0; y = V2.y pos0 }, pos1_rel_angle in let text = make_direct_dep_text dep ~layer2_deps ~sharing_stats in let classes = [ scoped_class dep.name; scoped_class "direct_dep" ] in let visual_svg = make_edge ~pos0 ~pos1 ~text ~classes in let hitbox_svg = make_hitbox_direct_dep_edge ~pos0 ~pos1 ~n_edges ~text ~classes in [ visual_svg; hitbox_svg ] ) in let css = deps_w_positions |> List.fold_left (fun acc_css ((dep, _), _) -> let css = make_direct_dep_edge_css dep.name in merge_css [ acc_css; css ] ) "" in svg, css (*goto values might need to be updated to fit new viewbox*) let make_layer2_nodes_spiral ~layer2_deps ~layer2_deps_center ~(sharing_stats:assoc_stats) = let open Gg in let dot_radius = root_radius *. 0.25 in layer2_deps |> List.mapi (fun i' layer2_dep -> let i' = float i' +. 5.5 in let pos_radius = sqrt i' *. 0.007 -. 0.005 in let angle_diff = sqrt i' *. Float.two_pi *. 0.005 +. 0.6 in let pos_angle = i' *. angle_diff in let pos_rel = V2.(v pos_radius pos_angle |> of_polar) in let pos = V2.(layer2_deps_center + pos_rel) in let pos = { x = V2.x pos; y = V2.y pos } in let text = make_layer2_dep_text layer2_dep.name ~sharing_stats in let classes = [ scoped_class layer2_dep.name; scoped_class "layer2_dep"; ] in make_node ~pos ~radius:dot_radius ~text ~classes () ) let grid_pos ~cell_width i = let open Gg in let north = V2.v 0. cell_width in let west = V2.ortho north in let south = V2.ortho west in let east = V2.ortho south in let rec aux i' len_side consumed_side dir pos_acc = if i = i' then pos_acc else ( match dir with | `East -> if consumed_side = len_side then aux i' len_side 0 `South pos_acc else aux (succ i') len_side (succ consumed_side) dir V2.(east + pos_acc) | `South -> if consumed_side = len_side then aux i' len_side 0 `West pos_acc else aux (succ i') len_side (succ consumed_side) dir V2.(south + pos_acc) | `West -> if consumed_side = len_side then aux i' len_side 0 `North pos_acc else aux (succ i') len_side (succ consumed_side) dir V2.(west + pos_acc) | `North -> if consumed_side = len_side then (*> Note special case of jumping to next 'level'*) aux (succ i') (len_side +2) 1 `East V2.(north + pos_acc) else aux (succ i') len_side (succ consumed_side) dir V2.(north + pos_acc) ) in aux 0 0 0 `East V2.(v 0. 0.) let make_hitbox_square ~center_pos ~width ~text ~classes = let title = make_title ~text in (*> todo; why is this not in Tyxml - browser support missing?*) let a_transform_origin = Svg.Unsafe.string_attrib "transform-origin" in let a = Svg.[ a_class (scoped_class "hitbox" :: classes); a_transform_origin @@ sprintf "%f %f" center_pos.x center_pos.y; ] in Svg.g ~a (title :: make_square ~center_pos ~width) let make_layer2_nodes_grid ~layer2_deps ~layer2_deps_center ~(sharing_stats:assoc_stats) = let open Gg in let dot_radius = 0.5 in let cell_width = dot_radius *. 2.5 in layer2_deps |> List.mapi (fun i layer2_dep -> let pos = V2.(layer2_deps_center + grid_pos ~cell_width i) in let pos = { x = V2.x pos; y = V2.y pos } in let text = make_layer2_dep_text layer2_dep.name ~sharing_stats in let classes = [ scoped_class layer2_dep.name; scoped_class "layer2_dep"; ] in let visual_svg = make_node ~pos ~radius:dot_radius ~text ~classes () in let hitbox_svg = make_hitbox_square ~text ~classes ~center_pos:pos ~width:cell_width in [ hitbox_svg; visual_svg ] ) |> List.flatten let make_layer2_deps ~deps_w_positions ~(sharing_stats:assoc_stats) = let open Gg in deps_w_positions |> List.mapi (fun i ((_dep, direct_dep_pos), layer2_deps) -> let layer2_deps_center = let direct_dep_pos = V2.(v direct_dep_pos.x direct_dep_pos.y) in let center = V2.v center.x center.y in let mult = if i mod 2 = 0 then 2.14 else 1.5 in V2.(mult * (direct_dep_pos - center) + center) in let nodes = make_layer2_nodes_grid ~layer2_deps ~layer2_deps_center ~sharing_stats in let bg = let pos = { x = V2.x layer2_deps_center; y = V2.y layer2_deps_center } and radius = sqrt (float (List.length layer2_deps) +. 1.) *. 1.15 and text = "" and classes = [ scoped_class "layer2_deps"; scoped_class "bg"; ] in make_node ~with_node_class:false ~pos ~radius ~text ~classes () in let edge = let pos0 = direct_dep_pos in let pos1 = { x = V2.x layer2_deps_center; y = V2.y layer2_deps_center } in let text = "" in let classes = [ scoped_class "layer2_deps" ] in make_edge ~pos0 ~pos1 ~text ~classes in edge :: bg :: nodes ) |> List.flatten let make_shared_deps_css_aux ~dep ~shared_deps = shared_deps |> Seq.map (fun shared_dep -> sprintf {| .deps-direct_dep.%s:hover ~ .deps-node.deps-layer2_dep.%s { fill: #5454ff; filter: brightness(1.0) !important; } |} (scoped_class dep.name) (scoped_class shared_dep) ) |> List.of_seq |> merge_css let make_shared_deps_css ~deps_w_positions = let module SSet = Set.Make(String) in let sset_of_deps deps = deps |> List.map (fun dep -> dep.name) |> SSet.of_list in let layer2_deps_sets = deps_w_positions |> List.map (fun (_, layer2_deps) -> layer2_deps |> sset_of_deps ) in deps_w_positions |> List.map (fun ((dep, _), layer2_deps) -> let layer2_deps = sset_of_deps layer2_deps in let shared_deps = layer2_deps_sets |> List.fold_left (fun acc layer2_deps' -> SSet.(union acc (inter layer2_deps layer2_deps')) ) SSet.empty |> SSet.to_seq in make_shared_deps_css_aux ~dep ~shared_deps ) |> merge_css let make_deps ~(sharing_stats:assoc_stats) (deps:assoc_graph) = let deps_w_positions = let open Gg in let len_deps = List.length deps in let diff_angle = Float.two_pi /. float len_deps in deps |> List.mapi (fun i (dep, layer2_deps) -> let angle = diff_angle *. float i in let dist_center = 20. in let x = cos angle *. dist_center +. center.x and y = sin angle *. dist_center +. center.y in ((dep, { x; y }), layer2_deps) ) in let direct_deps_edges, direct_deps_edges_css = make_direct_deps_edges ~deps_w_positions ~sharing_stats and direct_deps_nodes = make_direct_deps_nodes ~sharing_stats ~deps_w_positions and layer2_deps = make_layer2_deps ~deps_w_positions ~sharing_stats and shared_deps_css = make_shared_deps_css ~deps_w_positions in let svg = direct_deps_edges @ direct_deps_nodes @ layer2_deps in let css = merge_css [ direct_deps_edges_css; shared_deps_css ] in svg, css let svg_defs = Svg.[ defs [ radialGradient ~a:[ a_id "gradient_01"; a_cx @@ Unit.none 0.5; a_cy @@ Unit.none 0.5; a_r @@ Unit.none 0.5; ] [ stop ~a:[ a_offset @@ `Percentage 0.; a_stop_color "#80746e"; (* "bisque" *) ] []; stop ~a:[ a_offset @@ `Percentage 100.; a_stop_color "#80746e"; (* "bisque" *) a_stop_opacity 0. ] [] ] ]] let make_deps_sharing_css (sharing_stats:assoc_stats) = let max_count = (*> todo; would be more correct to use the count of nodes in dep-graph*) SMap.fold (fun _pkg count max_count -> Int.max max_count count) sharing_stats 0 |> float |> ( *. ) 0.2 in SMap.fold (fun pkg count acc -> let pct_count = Float.min 1. (float count /. max_count) in let css = sprintf "\ .%s.%s {\ filter: brightness(%f);\ }\ " (scoped_class "node") (scoped_class pkg) pct_count in css :: acc ) sharing_stats [] |> merge_css let of_assoc ~(sharing_stats:assoc_stats) (graph:assoc_graph) : _ output = match graph with | [] -> { svg_content = []; svg_attr = []; css = "" } | (root_pkg, direct_deps) :: layer2_deps -> let root_svg = let pos = center and radius = root_radius and text = sprintf "%s\nDirect dependencies: %d" root_pkg.name (List.length direct_deps) and classes = [ scoped_class root_pkg.name; scoped_class "root" ] in make_node ~pos ~radius ~text ~classes () in let deps_svgs, deps_css = make_deps ~sharing_stats layer2_deps in let deps_sharing_css = make_deps_sharing_css sharing_stats in let svg_attr = Svg.[ a_viewBox (0., 0., 100., 100.); a_class [ scoped_class "svg-wrap" ]; ] in let svg_content = svg_defs @ (root_svg :: deps_svgs) in let css = merge_css [ initial_css; deps_css; deps_sharing_css ] in { svg_content; svg_attr; css } let pp ppf html = Format.fprintf ppf "%a@." (Tyxml_svg.pp ()) html end module Html = struct module H = Tyxml_html type t = H.doc let merge_css = String.concat "\n" let of_assoc ?(override_css="") ?(sharing_stats:assoc_stats=SMap.empty) (graph:assoc_graph) : t = let svg = Svg.of_assoc ~sharing_stats graph in H.html (H.head (H.title (H.txt "Dependencies")) [H.style [H.Unsafe.data @@ merge_css [ svg.css; override_css ]]] ) (H.body [ H.svg ~a:svg.svg_attr svg.svg_content ]) let pp ppf html = Format.fprintf ppf "%a@." (Tyxml_html.pp ()) html end end