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//-----------------------------------------------------------------------------
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
//-----------------------------------------------------------------------------
package chalice;
import java.io.BufferedReader
import java.io.InputStreamReader
import java.io.File
import java.io.FileWriter
import scala.util.parsing.input.Position
import collection.mutable.ListBuffer
object Chalice {
def main(args: Array[String]): Unit = {
var boogiePath = "C:\\boogie\\Binaries\\Boogie.exe"
val inputs = new ListBuffer[String]()
var printProgram = false
var vsMode = false;
def ReportError(pos: Position, msg: String) = {
if (vsMode) {
val r = pos.line - 1;
val c = pos.column - 1;
Console.out.println(r + "," + c + "," + r + "," + (c+5) + ":" + msg);
} else {
Console.err.println(pos + ": " + msg)
}
}
var doTypecheck = true
var doTranslate = true
var checkLeaks = false
// level 0 or below: no defaults
// level 1: unfold predicates with receiver this in pre and postconditions
// level 2: unfold predicates and functions with receiver this in pre and postconditions
// level 3 or above: level 2 + autoMagic
var defaults = 0
var autoFold = false
var autoMagic = false
var skipDeadlockChecks = false
var skipTermination = false;
var boogieArgs = " ";
var gen = false;
// closures should be idempotent
val options = Map(
"-print" -> {() => printProgram = true},
"-noTranslate" -> {() => doTranslate = false},
"-noTypecheck"-> {() => doTypecheck = false},
"-vs" -> {() => vsMode = true},
"-checkLeaks" -> {() => checkLeaks = true},
"-noDeadlockChecks" -> {() => skipDeadlockChecks = true},
"-noTermination" -> {() => skipTermination = true},
"-defaults" -> {() => defaults = 3},
"-gen" -> {() => gen = true},
"-autoFold" -> {() => autoFold = true},
"-autoMagic"-> {() => autoMagic = true}
)
lazy val help = options.keys.foldLeft("syntax: chalice")((s, o) => s + " [" + o + "]") +
" [-boogie:path]" +
" [-defaults:int]" +
" [<boogie option>]*" +
" <file.chalice>*";
for (a <- args) {
if (options contains a) options(a)()
else if (a == "-help") {Console.out.println(help); return}
else if (a.startsWith("-boogie:")) boogiePath = a.substring(8)
else if (a.startsWith("-defaults:")) {
try {
defaults = Integer.parseInt(a.substring(10));
if (3<=defaults) { autoMagic = true; }
} catch { case _ => CommandLineError("-defaults takes integer argument", help); }
}
else if (a.startsWith("-") || a.startsWith("/")) boogieArgs += (a + " ") // other arguments starting with "-" or "/" are sent to Boogie.exe
else inputs += a
}
// check that input files exist
var files = for (input <- inputs.toList) yield {
val file = new File(input);
if(! file.exists) {
CommandLineError("input file " + file.getName() + " could not be found", help); return
}
file;
}
// parse programs
val parser = new Parser();
val parseResults = if (files.isEmpty) {
List(parser.parseStdin)
} else for (file <- files) yield {
parser.parseFile(file)
}
// report errors and merge declarations
assert(parseResults.size > 0)
var parseErrors = false;
val program:List[TopLevelDecl] = parseResults.map(result => result match {
case e:parser.NoSuccess =>
parseErrors = true;
if (vsMode)
ReportError(e.next.pos, e.msg);
else
Console.err.println("Error: " + e);
Nil
case parser.Success(prog, _) =>
if (printProgram) PrintProgram.P(prog)
prog
}).flatten;
if (parseErrors) return;
// typecheck program
if (doTypecheck) {
Resolver.Resolve(program) match {
case Resolver.Errors(msgs) =>
if (!vsMode) Console.err.println("The program did not typecheck.");
msgs foreach { msg => ReportError(msg._1, msg._2) }
case Resolver.Success() =>
if (doTranslate) {
// checking if Boogie.exe exists
val boogieFile = new File(boogiePath);
if(! boogieFile.exists() || ! boogieFile.isFile()) {
CommandLineError("Boogie.exe not found at " + boogiePath, help); return
}
// translate program to Boogie
val translator = new Translator();
// set the translation options
TranslationOptions.checkLeaks = checkLeaks;
TranslationOptions.defaults = defaults;
TranslationOptions.autoFold = autoFold;
TranslationOptions.autoMagic = autoMagic;
TranslationOptions.skipDeadlockChecks = skipDeadlockChecks;
TranslationOptions.skipTermination = skipTermination;
val bplProg = translator.translateProgram(program);
// write to out.bpl
Boogie.vsMode = vsMode;
val bplText = TranslatorPrelude.P + (bplProg map Boogie.Print).foldLeft(""){ (a, b) => a + b };
val bplFilename = if (vsMode) "c:\\tmp\\out.bpl" else "out.bpl"
writeFile(bplFilename, bplText);
// run Boogie.exe on out.bpl
val boogie = Runtime.getRuntime.exec(boogiePath + " /errorTrace:0 " + boogieArgs + bplFilename);
// terminate boogie if interrupted
Runtime.getRuntime.addShutdownHook(new Thread(new Runnable() {
def run {
val kill = Runtime.getRuntime.exec("taskkill /T /F /IM Boogie.exe");
kill.waitFor;
// just to be sure
boogie.destroy
}
}))
// the process blocks until we exhaust input and error streams
new Thread(new Runnable() {
def run {
val err = new BufferedReader(new InputStreamReader(boogie.getErrorStream));
var line = err.readLine;
while(line!=null) {Console.err.println(line); Console.err.flush}
}
}).start;
val input = new BufferedReader(new InputStreamReader(boogie.getInputStream));
var line = input.readLine();
var previous_line = null: String;
while(line!=null){
Console.out.println(line);
Console.out.flush;
previous_line = line;
line = input.readLine();
}
boogie.waitFor;
input.close;
// generate code
if(gen && (previous_line != null) && previous_line.endsWith(" 0 errors")) { // hack
val converter = new ChaliceToCSharp();
println("Code generated in out.cs.");
writeFile("out.cs", converter.convertProgram(program));
}
}
}
}
}
def writeFile(filename: String, text: String) {
val writer = new FileWriter(new File(filename));
writer.write(text);
writer.flush();
writer.close();
}
def CommandLineError(msg: String, help: String) = {
Console.err.println("Error: " + msg)
Console.err.println(help);
}
}
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