/* Title: Pure/Thy/present.scala
Author: Makarius
Theory presentation: HTML and LaTeX documents.
*/
package isabelle
import scala.collection.immutable.SortedMap
object Presentation
{
/* document variants */
object Document_Variant
{
def parse(name: String, tags: String): Document_Variant =
Document_Variant(name, Library.space_explode(',', tags))
def parse(opt: String): Document_Variant =
Library.space_explode('=', opt) match {
case List(name) => Document_Variant(name, Nil)
case List(name, tags) => parse(name, tags)
case _ => error("Malformed document variant: " + quote(opt))
}
}
sealed case class Document_Variant(name: String, tags: List[String], sources: String = "")
{
def print_tags: String = tags.mkString(",")
def print: String = if (tags.isEmpty) name else name + "=" + print_tags
def path: Path = Path.basic(name)
def latex_sty: String =
Library.terminate_lines(
tags.map(tag =>
tag.toList match {
case '/' :: cs => "\\isafoldtag{" + cs.mkString + "}"
case '-' :: cs => "\\isadroptag{" + cs.mkString + "}"
case '+' :: cs => "\\isakeeptag{" + cs.mkString + "}"
case cs => "\\isakeeptag{" + cs.mkString + "}"
}))
def set_sources(s: String): Document_Variant = copy(sources = s)
}
/* SQL data model */
object Data
{
val session_name = SQL.Column.string("session_name").make_primary_key
val name = SQL.Column.string("name").make_primary_key
val tags = SQL.Column.string("tags")
val sources = SQL.Column.string("sources")
val pdf = SQL.Column.bytes("pdf")
val table = SQL.Table("isabelle_documents", List(session_name, name, tags, sources, pdf))
def where_equal(session_name: String, name: String = ""): SQL.Source =
"WHERE " + Data.session_name.equal(session_name) +
(if (name == "") "" else " AND " + Data.name.equal(name))
}
def read_document_variants(db: SQL.Database, session_name: String): List[Document_Variant] =
{
val select =
Data.table.select(List(Data.name, Data.tags, Data.sources), Data.where_equal(session_name))
db.using_statement(select)(stmt =>
stmt.execute_query().iterator(res =>
{
val name = res.string(Data.name)
val tags = res.string(Data.tags)
val sources = res.string(Data.sources)
Document_Variant.parse(name, tags).set_sources(sources)
}).toList)
}
def read_document(db: SQL.Database, session_name: String, name: String)
: Option[(Document_Variant, Bytes)] =
{
val select = Data.table.select(sql = Data.where_equal(session_name, name))
db.using_statement(select)(stmt =>
{
val res = stmt.execute_query()
if (res.next()) {
val name = res.string(Data.name)
val tags = res.string(Data.tags)
val sources = res.string(Data.sources)
val pdf = res.bytes(Data.pdf)
Some(Document_Variant.parse(name, tags).set_sources(sources) -> pdf)
}
else None
})
}
def write_document(db: SQL.Database, session_name: String, doc: Document_Variant, pdf: Bytes)
{
db.using_statement(Data.table.insert())(stmt =>
{
stmt.string(1) = session_name
stmt.string(2) = doc.name
stmt.string(3) = doc.print_tags
stmt.string(4) = doc.sources
stmt.bytes(5) = pdf
stmt.execute()
})
}
/* presentation context */
object Context
{
val none: Context = new Context { def enabled: Boolean = false }
val standard: Context = new Context { def enabled: Boolean = true }
def dir(path: Path): Context =
new Context {
def enabled: Boolean = true
override def dir(store: Sessions.Store): Path = path
}
def make(s: String): Context =
if (s == ":") standard else dir(Path.explode(s))
}
abstract class Context private
{
def enabled: Boolean
def enabled(info: Sessions.Info): Boolean = enabled || info.browser_info
def dir(store: Sessions.Store): Path = store.presentation_dir
def dir(store: Sessions.Store, info: Sessions.Info): Path =
dir(store) + Path.basic(info.chapter) + Path.basic(info.name)
}
/* maintain chapter index -- NOT thread-safe */
private val sessions_path = Path.basic(".sessions")
private def read_sessions(dir: Path): List[(String, String)] =
{
val path = dir + sessions_path
if (path.is_file) {
import XML.Decode._
list(pair(string, string))(Symbol.decode_yxml(File.read(path)))
}
else Nil
}
private def write_sessions(dir: Path, sessions: List[(String, String)])
{
import XML.Encode._
File.write(dir + sessions_path, YXML.string_of_body(list(pair(string, string))(sessions)))
}
def update_chapter_index(browser_info: Path, chapter: String, new_sessions: List[(String, String)])
{
val dir = Isabelle_System.make_directory(browser_info + Path.basic(chapter))
val sessions0 =
try { read_sessions(dir) }
catch { case _: XML.Error => Nil }
val sessions = (SortedMap.empty[String, String] ++ sessions0 ++ new_sessions).toList
write_sessions(dir, sessions)
val title = "Isabelle/" + chapter + " sessions"
HTML.write_document(dir, "index.html",
List(HTML.title(title + " (" + Distribution.version + ")")),
HTML.chapter(title) ::
(if (sessions.isEmpty) Nil
else
List(HTML.div("sessions",
List(HTML.description(
sessions.map({ case (name, description) =>
val descr = Symbol.trim_blank_lines(description)
(List(HTML.link(name + "/index.html", HTML.text(name))),
if (descr == "") Nil
else HTML.break ::: List(HTML.pre(HTML.text(descr)))) })))))))
}
def make_global_index(browser_info: Path)
{
if (!(browser_info + Path.explode("index.html")).is_file) {
Isabelle_System.make_directory(browser_info)
File.copy(Path.explode("~~/lib/logo/isabelle.gif"),
browser_info + Path.explode("isabelle.gif"))
File.write(browser_info + Path.explode("index.html"),
File.read(Path.explode("~~/lib/html/library_index_header.template")) +
File.read(Path.explode("~~/lib/html/library_index_content.template")) +
File.read(Path.explode("~~/lib/html/library_index_footer.template")))
}
}
/* present session */
val session_graph_path = Path.explode("session_graph.pdf")
val readme_path = Path.basic("README.html")
def html_name(name: Document.Node.Name): String = name.theory_base_name + ".html"
def document_html_name(name: Document.Node.Name): String = "document/" + html_name(name)
def theory_link(name: Document.Node.Name): XML.Tree =
HTML.link(html_name(name), HTML.text(name.theory_base_name))
def session_html(
session: String,
deps: Sessions.Deps,
store: Sessions.Store,
presentation: Context): Path =
{
val info = deps.sessions_structure(session)
val options = info.options
val base = deps(session)
val session_dir = presentation.dir(store, info)
val session_fonts = Isabelle_System.make_directory(session_dir + Path.explode("fonts"))
for (entry <- Isabelle_Fonts.fonts(hidden = true))
File.copy(entry.path, session_fonts)
Bytes.write(session_dir + session_graph_path,
graphview.Graph_File.make_pdf(options, base.session_graph_display))
val links =
{
val deps_link =
HTML.link(session_graph_path, HTML.text("theory dependencies"))
val readme_links =
if ((info.dir + readme_path).is_file) {
File.copy(info.dir + readme_path, session_dir + readme_path)
List(HTML.link(readme_path, HTML.text("README")))
}
else Nil
val document_links =
for (doc <- info.documents)
yield HTML.link(doc.path.pdf, HTML.text(doc.name))
Library.separate(HTML.break ::: HTML.nl,
(deps_link :: readme_links ::: document_links).
map(link => HTML.text("View ") ::: List(link))).flatten
}
val theories =
using(Export.open_database_context(deps.sessions_structure, store))(context =>
for {
name <- base.session_theories
entry <- context.try_entry(session, name.theory, document_html_name(name))
} yield name -> entry.uncompressed(cache = store.xz_cache))
val theories_body =
HTML.itemize(for ((name, _) <- theories) yield List(theory_link(name)))
val title = "Session " + session
HTML.write_document(session_dir, "index.html",
List(HTML.title(title + " (" + Distribution.version + ")")),
HTML.div("head", List(HTML.chapter(title), HTML.par(links))) ::
(if (theories.isEmpty) Nil
else List(HTML.div("theories", List(HTML.section("Theories"), theories_body)))))
for ((name, html) <- theories) Bytes.write(session_dir + Path.basic(html_name(name)), html)
session_dir
}
/** preview **/
sealed case class Preview(title: String, content: String)
def preview(
resources: Resources,
snapshot: Document.Snapshot,
plain_text: Boolean = false,
fonts_url: String => String = HTML.fonts_url()): Preview =
{
require(!snapshot.is_outdated)
def output_document(title: String, body: XML.Body): String =
HTML.output_document(
List(
HTML.style(HTML.fonts_css(fonts_url) + "\n\n" + File.read(HTML.isabelle_css)),
HTML.title(title)),
List(HTML.source(body)), css = "", structural = false)
val name = snapshot.node_name
if (plain_text) {
val title = "File " + quote(name.path.file_name)
val content = output_document(title, HTML.text(snapshot.node.source))
Preview(title, content)
}
else {
resources.make_preview(snapshot) match {
case Some(preview) => preview
case None =>
val title =
if (name.is_theory) "Theory " + quote(name.theory_base_name)
else "File " + quote(name.path.file_name)
val content = output_document(title, pide_document(snapshot))
Preview(title, content)
}
}
}
/* PIDE document */
private val document_elements =
Rendering.foreground_elements ++ Rendering.text_color_elements ++ Rendering.markdown_elements +
Markup.NUMERAL + Markup.COMMENT + Markup.LANGUAGE
private val div_elements =
Set(HTML.div.name, HTML.pre.name, HTML.par.name, HTML.list.name, HTML.enum.name,
HTML.descr.name)
private def html_div(html: XML.Body): Boolean =
html exists {
case XML.Elem(markup, body) => div_elements.contains(markup.name) || html_div(body)
case XML.Text(_) => false
}
private def html_class(c: String, html: XML.Body): XML.Tree =
if (html.forall(_ == HTML.no_text)) HTML.no_text
else if (html_div(html)) HTML.div(c, html)
else HTML.span(c, html)
private def make_html(xml: XML.Body): XML.Body =
xml map {
case XML.Elem(Markup(Markup.LANGUAGE, Markup.Name(Markup.Language.DOCUMENT)), body) =>
html_class(Markup.Language.DOCUMENT, make_html(body))
case XML.Elem(Markup(Markup.MARKDOWN_PARAGRAPH, _), body) => HTML.par(make_html(body))
case XML.Elem(Markup(Markup.MARKDOWN_ITEM, _), body) => HTML.item(make_html(body))
case XML.Elem(Markup(Markup.Markdown_Bullet.name, _), _) => HTML.no_text
case XML.Elem(Markup.Markdown_List(kind), body) =>
if (kind == Markup.ENUMERATE) HTML.enum(make_html(body)) else HTML.list(make_html(body))
case XML.Elem(markup, body) =>
val name = markup.name
val html =
markup.properties match {
case Markup.Kind(kind) if kind == Markup.COMMAND || kind == Markup.KEYWORD =>
List(html_class(kind, make_html(body)))
case _ =>
make_html(body)
}
Rendering.foreground.get(name) orElse Rendering.text_color.get(name) match {
case Some(c) => html_class(c.toString, html)
case None => html_class(name, html)
}
case XML.Text(text) =>
XML.Text(Symbol.decode(text))
}
def pide_document(snapshot: Document.Snapshot): XML.Body =
make_html(snapshot.markup_to_XML(Text.Range.full, document_elements))
/** build documents **/
val session_tex_path = Path.explode("session.tex")
def tex_name(name: Document.Node.Name): String = name.theory_base_name + ".tex"
def document_tex_name(name: Document.Node.Name): String = "document/" + tex_name(name)
def build_documents(
session: String,
deps: Sessions.Deps,
store: Sessions.Store,
progress: Progress = new Progress,
verbose: Boolean = false,
verbose_latex: Boolean = false): List[(Document_Variant, Bytes)] =
{
/* session info */
val info = deps.sessions_structure(session)
val options = info.options
val base = deps(session)
val graph_pdf = graphview.Graph_File.make_pdf(options, base.session_graph_display)
/* prepare document directory */
lazy val tex_files =
using(Export.open_database_context(deps.sessions_structure, store))(context =>
for (name <- base.session_theories ::: base.document_theories)
yield {
val entry = context.entry(session, name.theory, document_tex_name(name))
Path.basic(tex_name(name)) -> entry.uncompressed(cache = store.xz_cache)
}
)
def prepare_dir1(dir: Path, doc: Document_Variant): (Path, String) =
{
val doc_dir = dir + Path.basic(doc.name)
Isabelle_System.make_directory(doc_dir)
Isabelle_System.bash("isabelle latex -o sty", cwd = doc_dir.file).check
File.write(doc_dir + Path.explode("isabelletags.sty"), doc.latex_sty)
for ((base_dir, src) <- info.document_files) File.copy_base(info.dir + base_dir, src, doc_dir)
File.write(doc_dir + session_tex_path,
Library.terminate_lines(
base.session_theories.map(name => "\\input{" + tex_name(name) + "}")))
for ((path, tex) <- tex_files) Bytes.write(doc_dir + path, tex)
val root1 = "root_" + doc.name
val root = if ((doc_dir + Path.explode(root1).tex).is_file) root1 else "root"
(doc_dir, root)
}
def prepare_dir2(dir: Path, doc: Document_Variant): Unit =
{
val doc_dir = dir + Path.basic(doc.name)
// non-deterministic, but irrelevant
Bytes.write(doc_dir + session_graph_path, graph_pdf)
}
/* produce documents */
val doc_output = info.document_output
val documents =
for (doc <- info.documents)
yield {
Isabelle_System.with_tmp_dir("document")(tmp_dir =>
{
// prepare sources
val (doc_dir, root) = prepare_dir1(tmp_dir, doc)
val digests = File.find_files(doc_dir.file, follow_links = true).map(SHA1.digest)
val sources = SHA1.digest(cat_lines(digests.map(_.toString).sorted)).toString
prepare_dir2(tmp_dir, doc)
doc_output.foreach(prepare_dir1(_, doc))
doc_output.foreach(prepare_dir2(_, doc))
// old document from database
val old_document =
using(store.open_database(session))(db =>
for {
document@(doc, pdf) <- read_document(db, session, doc.name)
if doc.sources == sources
}
yield {
Bytes.write(doc_dir + doc.path.pdf, pdf)
document
})
old_document getOrElse {
// bash scripts
def root_bash(ext: String): String = Bash.string(root + "." + ext)
def latex_bash(fmt: String = "pdf", ext: String = "tex"): String =
"isabelle latex -o " + Bash.string(fmt) + " " + Bash.string(root + "." + ext)
def bash(items: String*): Process_Result =
progress.bash(items.mkString(" && "), cwd = doc_dir.file,
echo = verbose_latex, watchdog = Time.seconds(0.5))
// prepare document
val result =
if ((doc_dir + Path.explode("build")).is_file) {
bash("./build pdf " + Bash.string(doc.name))
}
else {
bash(
latex_bash(),
"{ [ ! -f " + root_bash("bib") + " ] || " + latex_bash("bbl") + "; }",
"{ [ ! -f " + root_bash("idx") + " ] || " + latex_bash("idx") + "; }",
latex_bash(),
latex_bash())
}
// result
val root_pdf = Path.basic(root).pdf
val result_path = doc_dir + root_pdf
if (!result.ok) {
cat_error(
Library.trim_line(result.err),
cat_lines(Latex.latex_errors(doc_dir, root) ::: Bibtex.bibtex_errors(doc_dir, root)),
"Failed to build document " + quote(doc.name))
}
else if (!result_path.is_file) {
error("Bad document result: expected to find " + root_pdf)
}
else doc.set_sources(sources) -> Bytes.read(result_path)
}
})
}
for (dir <- doc_output; (doc, pdf) <- documents) {
val path = dir + doc.path.pdf
Bytes.write(path, pdf)
progress.echo_document(path)
}
documents
}
/* Isabelle tool wrapper */
val isabelle_tool =
Isabelle_Tool("document", "prepare session theory document", args =>
{
var verbose_latex = false
var dirs: List[Path] = Nil
var options = Options.init()
var verbose_build = false
val getopts = Getopts(
"""
Usage: isabelle document [OPTIONS] SESSION
Options are:
-O set option "document_output", relative to current directory
-V verbose latex
-d DIR include session directory
-o OPTION override Isabelle system OPTION (via NAME=VAL or NAME)
-v verbose build
Prepare the theory document of a session.
""",
"O:" -> (arg => options += ("document_output=" + Path.explode(arg).absolute.implode)),
"V" -> (_ => verbose_latex = true),
"d:" -> (arg => dirs = dirs ::: List(Path.explode(arg))),
"o:" -> (arg => options = options + arg),
"v" -> (_ => verbose_build = true))
val more_args = getopts(args)
val session =
more_args match {
case List(a) => a
case _ => getopts.usage()
}
val progress = new Console_Progress(verbose = verbose_build)
val store = Sessions.store(options)
progress.interrupt_handler {
val res =
Build.build(options, selection = Sessions.Selection.session(session),
dirs = dirs, progress = progress, verbose = verbose_build)
if (!res.ok) error("Failed to build session " + quote(session))
val deps =
Sessions.load_structure(options + "document=pdf", dirs = dirs).
selection_deps(Sessions.Selection.session(session))
if (deps.sessions_structure(session).document_output.isEmpty) {
progress.echo_warning("No document_output")
}
build_documents(session, deps, store, progress = progress,
verbose = true, verbose_latex = verbose_latex)
}
})
}