more tight thread attributes, based in internal word arithmetic instead of symbolic datatypes: measurable performance improvement;
/* Title: Pure/Tools/ml_process.scala
Author: Makarius
The raw ML process.
*/
package isabelle
import java.io.{File => JFile}
object ML_Process
{
def apply(options: Options,
logic: String = "",
args: List[String] = Nil,
dirs: List[Path] = Nil,
modes: List[String] = Nil,
raw_ml_system: Boolean = false,
cwd: JFile = null,
env: Map[String, String] = Isabelle_System.settings(),
redirect: Boolean = false,
cleanup: () => Unit = () => (),
channel: Option[System_Channel] = None,
tree: Option[Sessions.Tree] = None,
store: Sessions.Store = Sessions.store()): Bash.Process =
{
val logic_name = Isabelle_System.default_logic(logic)
val heaps: List[String] =
if (raw_ml_system) Nil
else {
val (_, session_tree) =
tree.getOrElse(Sessions.load(options, dirs)).selection(sessions = List(logic_name))
(session_tree.ancestors(logic_name) ::: List(logic_name)).
map(a => File.platform_path(store.heap(a)))
}
val eval_init =
if (heaps.isEmpty) {
List(
"""
fun chapter (_: string) = ();
fun section (_: string) = ();
fun subsection (_: string) = ();
fun subsubsection (_: string) = ();
fun paragraph (_: string) = ();
fun subparagraph (_: string) = ();
val ML_file = PolyML.use;
""",
if (Isabelle_System.getenv("ML_SYSTEM") == "polyml-5.6")
"""
structure FixedInt = IntInf;
structure RunCall =
struct
open RunCall
val loadWord: word * word -> word =
run_call2 RuntimeCalls.POLY_SYS_load_word;
val storeWord: word * word * word -> unit =
run_call3 RuntimeCalls.POLY_SYS_assign_word;
end;
"""
else "",
if (Platform.is_windows)
"fun exit 0 = OS.Process.exit OS.Process.success" +
" | exit 1 = OS.Process.exit OS.Process.failure" +
" | exit rc = OS.Process.exit (RunCall.unsafeCast (Word8.fromInt rc))"
else
"fun exit rc = Posix.Process.exit (Word8.fromInt rc)",
"PolyML.Compiler.prompt1 := \"Poly/ML> \"",
"PolyML.Compiler.prompt2 := \"Poly/ML# \"")
}
else
List(
"(PolyML.SaveState.loadHierarchy " +
ML_Syntax.print_list(ML_Syntax.print_string0)(heaps) +
"; PolyML.print_depth 0) handle exn => (TextIO.output (TextIO.stdErr, General.exnMessage exn ^ " +
ML_Syntax.print_string0(": " + logic_name + "\n") +
"); OS.Process.exit OS.Process.failure)")
val eval_modes =
if (modes.isEmpty) Nil
else List("Print_Mode.add_modes " + ML_Syntax.print_list(ML_Syntax.print_string0)(modes))
// options
val isabelle_process_options = Isabelle_System.tmp_file("options")
File.write(isabelle_process_options, YXML.string_of_body(options.encode))
val env_options = Map("ISABELLE_PROCESS_OPTIONS" -> File.standard_path(isabelle_process_options))
val eval_options = if (heaps.isEmpty) Nil else List("Options.load_default ()")
val eval_process =
if (heaps.isEmpty)
List("PolyML.print_depth " + ML_Syntax.print_int(options.int("ML_print_depth")))
else
channel match {
case None =>
List("Isabelle_Process.init_options ()")
case Some(ch) =>
List("Isabelle_Process.init_protocol " + ML_Syntax.print_string0(ch.server_name))
}
// ISABELLE_TMP
val isabelle_tmp = Isabelle_System.tmp_dir("process")
val env_tmp = Map("ISABELLE_TMP" -> File.standard_path(isabelle_tmp))
val ml_runtime_options =
{
val ml_options = Word.explode(Isabelle_System.getenv("ML_OPTIONS"))
if (ml_options.exists(_.containsSlice("gcthreads"))) ml_options
else ml_options ::: List("--gcthreads", options.int("threads").toString)
}
// bash
val bash_args =
ml_runtime_options :::
(eval_init ::: eval_modes ::: eval_options ::: eval_process).
map(eval => List("--eval", eval)).flatten ::: args
Bash.process(
"exec " + options.string("ML_process_policy") + """ "$ML_HOME/poly" -q """ +
Bash.strings(bash_args),
cwd = cwd,
env =
Isabelle_System.library_path(env ++ env_options ++ env_tmp,
Isabelle_System.getenv_strict("ML_HOME")),
redirect = redirect,
cleanup = () =>
{
isabelle_process_options.delete
Isabelle_System.rm_tree(isabelle_tmp)
cleanup()
})
}
/* Isabelle tool wrapper */
val isabelle_tool = Isabelle_Tool("process", "raw ML process (batch mode)", args =>
{
var dirs: List[Path] = Nil
var eval_args: List[String] = Nil
var logic = Isabelle_System.getenv("ISABELLE_LOGIC")
var modes: List[String] = Nil
var options = Options.init()
val getopts = Getopts("""
Usage: isabelle process [OPTIONS]
Options are:
-T THEORY load theory
-d DIR include session directory
-e ML_EXPR evaluate ML expression on startup
-f ML_FILE evaluate ML file on startup
-l NAME logic session name (default ISABELLE_LOGIC=""" + quote(logic) + """)
-m MODE add print mode for output
-o OPTION override Isabelle system OPTION (via NAME=VAL or NAME)
Run the raw Isabelle ML process in batch mode.
""",
"T:" -> (arg =>
eval_args = eval_args ::: List("--eval", "use_thy " + ML_Syntax.print_string0(arg))),
"d:" -> (arg => dirs = dirs ::: List(Path.explode(arg))),
"e:" -> (arg => eval_args = eval_args ::: List("--eval", arg)),
"f:" -> (arg => eval_args = eval_args ::: List("--use", arg)),
"l:" -> (arg => logic = arg),
"m:" -> (arg => modes = arg :: modes),
"o:" -> (arg => options = options + arg))
val more_args = getopts(args)
if (args.isEmpty || !more_args.isEmpty) getopts.usage()
val rc = ML_Process(options, logic = logic, args = eval_args, dirs = dirs, modes = modes).
result().print_stdout.rc
sys.exit(rc)
})
}