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|
//-----------------------------------------------------------------------------
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
//-----------------------------------------------------------------------------
object PrintProgram {
def P(prog: List[TopLevelDecl]) =
for (decl <- prog) decl match {
case cl: Class =>
if (cl.IsExternal) print("external ")
println("class " + cl.id + " module " + cl.module + " {")
cl.members foreach Member
println("}")
case ch: Channel =>
println("channel " + ch.id + " where " + Expr(ch.where) + Semi)
}
def Semi = ";"
def Member(m: Member) = m match {
case MonitorInvariant(e) =>
print(" invariant "); Expr(e); println(Semi)
case f@ Field(id, t) =>
println(" " + (if (f.IsGhost) "ghost " else "") + "var " + id + ": " + t.id + Semi)
case m: Method =>
print(" method " + m.id)
print("("); VarList(m.ins); print(")")
if (m.outs != Nil) {
print(" returns ("); VarList(m.outs); print(")")
}
println
m.spec foreach {
case Precondition(e) => print(" requires "); Expr(e); println(Semi)
case Postcondition(e) => print(" ensures "); Expr(e); println(Semi)
case LockChange(ee) => print(" lockchange "); ExprList(ee); println(Semi)
}
println(" {");
for (s <- m.body) {
print(" "); Stmt(s, 4)
}
println(" }")
case Condition(id, optE) =>
print(" condition " + id)
optE match {
case None =>
case Some(e) => print(" where " + Expr(e))
}
println(Semi)
case Predicate(id, definition) =>
println(" predicate " + id + " { " + Expr(definition) + "}")
case Function(id, ins, out, specs, e) =>
print(" function " + id + "(" + VarList(ins) + ")" + ": " + out.id);
specs foreach {
case Precondition(e) => print(" requires "); Expr(e); println(Semi)
case Postcondition(e) => print(" ensures "); Expr(e); println(Semi)
case LockChange(ee) => print(" lockchange "); ExprList(ee); println(Semi)
}
print(" { " + Expr(e) + "}");
}
def Stmt(s: Statement, indent: int): unit = s match {
case Assert(e) =>
print("assert "); Expr(e); println(Semi)
case Assume(e) =>
print("assume "); Expr(e); println(Semi)
case BlockStmt(ss) =>
PrintBlockStmt(ss, indent); println
case IfStmt(guard, BlockStmt(thn), els) =>
print("if ("); Expr(guard); print(") ")
PrintBlockStmt(thn, indent)
els match {
case None => println
case Some(s) => print(" else "); Stmt(s, indent)
}
case WhileStmt(guard, invs, lkch, body) =>
print("while ("); Expr(guard); println(")")
for (inv <- invs) {
Spaces(indent+2)
print("invariant "); Expr(inv); println(Semi)
}
for (l <- lkch) {
Spaces(indent+2)
print("lockchange "); Expr(l); println(Semi)
}
Spaces(indent); Stmt(body, indent)
case Assign(lhs,rhs) =>
Expr(lhs); print(" := "); Rhs(rhs); println(Semi)
case FieldUpdate(lhs,rhs) =>
Expr(lhs); print(" := "); Rhs(rhs); println(Semi)
case LocalVar(id,t,c,g,rhs) =>
if (g) print("ghost ")
if (c) print("const ") else print("var ")
print(id + ": " + t.id)
rhs match { case None => case Some(rhs) => print(" := "); Rhs(rhs) }
println(Semi)
case Call(_, outs, obj, id, args) =>
print("call ")
outs match {
case Nil =>
case x :: xs => Expr(x); xs foreach { x => print(", "); Expr(x) }; print(" := ")
}
MemberSelect(obj,id,0,false)
print("(")
ExprList(args)
println(");")
case Install(obj,lower,upper) =>
print("reorder ")
Expr(obj)
PrintBounds(lower, upper)
println(Semi)
case Share(obj,lower,upper) =>
print("share ")
Expr(obj)
PrintBounds(lower, upper)
println(Semi)
case Unshare(e) =>
print("unshare "); Expr(e); println(Semi)
case Acquire(e) =>
print("acquire "); Expr(e); println(Semi)
case Release(e) =>
print("release "); Expr(e); println(Semi)
case RdAcquire(e) =>
print("rd acquire "); Expr(e); println(Semi)
case RdRelease(e) =>
print("rd release "); Expr(e); println(Semi)
case Lock(e, b, rdLock) =>
if (rdLock) print("rd lock (") else print("lock (")
Expr(e); print(") ")
Stmt(b, indent)
case Downgrade(e) =>
print("downgrade "); Expr(e); println(Semi)
case Free(e) =>
print("free "); Expr(e); println(Semi)
case Fold(e) =>
print("fold "); Expr(e); println(Semi)
case Unfold(e) =>
print("unfold "); Expr(e); println(Semi)
case CallAsync(declaresLocal, token, obj, name, args) =>
print("call async ");
if (token != null) {
Expr(token); print(" := ");
}
Expr(obj); print("."); print(name); print("("); ExprList(args); print(")");
case JoinAsync(lhs, token) =>
print("join async "); ExprList(lhs); print(" := "); Expr(token);
case Wait(obj, id) =>
print("wait ")
MemberSelect(obj, id, 0, false)
println(Semi)
case Signal(obj, id, all) =>
print("signal "); if (all) { print(" forall") }
MemberSelect(obj, id, 0, false)
println(Semi)
case Send(ch, args) =>
print("send "); Expr(ch); print("("); ExprList(args); print(")"); println(Semi)
case Receive(_, ch, outs) =>
print("receive ")
outs match {
case Nil =>
case x :: xs => Expr(x); xs foreach { x => print(", "); Expr(x) }; print(" := ")
}
Expr(ch); println(Semi)
}
def PrintBounds(lower: List[Expression], upper: List[Expression]) = {
if (lower == Nil && upper == Nil) {
} else if (lower == Nil) {
print(" below "); ExprList(upper)
} else if (upper == Nil) {
print(" above "); ExprList(lower)
} else {
print(" between "); ExprList(lower); print(" and "); ExprList(upper)
}
}
def PrintBlockStmt(ss: List[Statement], indent: int) = {
println("{")
for (s <- ss) { Spaces(indent+2); Stmt(s, indent+2) }
Spaces(indent); print("}")
}
def VarList(vv: List[Variable]) = vv match {
case Nil =>
case v :: rest =>
print(v.id + ": " + v.t.id)
rest foreach { v => print(", " + v.id + ": " + v.t.id) }
}
def ExprList(ee: List[Expression]) = ee match {
case Nil =>
case e :: rest =>
Expr(e)
rest foreach { e => print(", "); Expr(e) }
}
def Rhs(e: RValue) = e match {
case NewRhs(id, initialization, lower, upper) =>
print("new " + id);
if(0 < initialization.length) {
print(" {"); print(initialization(0).id); print(":="); Expr(initialization(0).e); initialization.foreach({ init => print(", "); print(init.id); print(":="); Expr(init.e); }); print("}");
}
PrintBounds(lower, upper)
case e: Expression => Expr(e)
}
def Expr(e: Expression): Unit = Expr(e, 0, false)
def Expr(e: Expression, contextBindingPower: int, fragileContext: boolean): Unit = e match {
case IntLiteral(n) => print(n)
case BoolLiteral(b) => print(b)
case NullLiteral() => print("null")
case MaxLockLiteral() => print("maxlock")
case LockBottomLiteral() => print("lockbottom")
case _:ThisExpr => print("this")
case _:Result => print("result")
case VariableExpr(id) => print(id)
case MemberAccess(e,f) => MemberSelect(e,f,contextBindingPower,fragileContext)
case Access(e,perm) =>
print("acc("); Expr(e)
perm match { case None => case Some(perm) => print(", "); Expr(perm) }
print(")")
case RdAccess(e,p) =>
print("rd("); Expr(e)
p match {
case None => print(")")
case Some(None) => print(", *)")
case Some(Some(e)) => print(", "); Expr(e); print(")")
}
case AccessAll(obj, perm) =>
print("acc("); Expr(obj); print(".*");
perm match { case None => case Some(perm) => print(", "); Expr(perm) }
print(")")
case RdAccessAll(obj, p) =>
print("rd("); Expr(e); print(".*");
p match {
case None => print(")")
case Some(None) => print(", *)")
case Some(Some(e)) => print(", "); Expr(e); print(")")
}
case Credit(e, n) =>
print("credit("); Expr(e)
n match { case None => case Some(n) => print(", "); Expr(n) }
print(")")
case Holds(e) =>
print("holds("); Expr(e); print(")")
case RdHolds(e) =>
print("rd holds("); Expr(e); print(")")
case Assigned(id) => print("assigned(" + id + ")")
case Old(e) =>
print("old("); Expr(e); print(")")
case IfThenElse(con, then, els) =>
print("ite("); Expr(con); print(", "); Expr(then); print(", "); Expr(els); print(")");
case Not(e) => print("!"); Expr(e, 0x80, false)
case FunctionApplication(obj, id, ins) =>
Expr(obj); print("."); print(id); print("("); ExprList(ins); print(")");
case Unfolding(pred, e) =>
print("unfolding "); Expr(pred); print(" in "); Expr(e);
case e:Iff => BinExpr(e, e.OpName, 0x10, false, false, contextBindingPower, fragileContext)
case e:Implies => BinExpr(e, e.OpName, 0x20, true, false, contextBindingPower, fragileContext)
case e:And => BinExpr(e, e.OpName, 0x30, false, false, contextBindingPower, fragileContext)
case e:Or => BinExpr(e, e.OpName, 0x31, false, false, contextBindingPower, fragileContext)
case e:Eq => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:Neq => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:Less => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:AtMost => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:AtLeast => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:Greater => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:LockBelow => BinExpr(e, e.OpName, 0x40, true, true, contextBindingPower, fragileContext)
case e:Plus => BinExpr(e, e.OpName, 0x50, false, false, contextBindingPower, fragileContext)
case e:Minus => BinExpr(e, e.OpName, 0x50, false, true, contextBindingPower, fragileContext)
case e:Times => BinExpr(e, e.OpName, 0x60, false, false, contextBindingPower, fragileContext)
case e:Div => BinExpr(e, e.OpName, 0x60, false, true, contextBindingPower, fragileContext)
case e:Mod => BinExpr(e, e.OpName, 0x60, false, true, contextBindingPower, fragileContext)
case q:Quantification =>
print(q.Quantor + "{");
q.Is match {
case Nil =>
case i :: rest => print(i); rest foreach { v => print(", " + v) }
}
print(" in "); Expr(q.Seq); print("; "); Expr(q.E); print("}");
case EmptySeq(t) =>
print("nil<"); print(t.FullName); print(">");
case ExplicitSeq(es) =>
print("["); ExprList(es); print("]");
case Range(min, max) =>
print("("); Expr(min); print(":"); Expr(max); print(")");
case Length(e)=>
print("|"); Expr(e); print("|");
case e:At =>
BinExpr(e, e.OpName, 0x45, true, true, contextBindingPower, fragileContext)
case e:Append =>
BinExpr(e, e.OpName, 0x45, true, true, contextBindingPower, fragileContext)
case Drop(s, n) =>
Expr(s); print("["); Expr(n); print(" ..]");
case Take(s, n) =>
Expr(s); print("[.. "); Expr(n); print("]");
case Eval(h, e) =>
print("eval("); (h match
{
case AcquireState(obj) => Expr(obj); print(".acquire");
case ReleaseState(obj) => Expr(obj); print(".release");
case CallState(token, obj, id, args) => Expr(token); print(".joinable"); print(", "); Expr(obj); print("." + id + "("); ExprList(args); print(")");
}); print(", "); Expr(e); print(")");
}
def MemberSelect(e: Expression, f: String, contextBindingPower: int, fragileContext: boolean) = e match {
case e:ImplicitThisExpr => print(f)
case _ =>
ParenExpr(0x90, contextBindingPower, fragileContext, { Expr(e,0x90,false); print("." + f) })
}
def BinExpr(bin: BinaryExpr, op: String, power: int, fragileLeft: boolean, fragileRight: boolean,
context: int, fragileContext: boolean) = {
ParenExpr(power, context, fragileContext,
{ Expr(bin.E0, power, fragileLeft); print(" " + op + " "); Expr(bin.E1, power, fragileRight) })
}
def ParenExpr(power: int, context: int, fragileContext: boolean, pe: =>Unit) {
val ap = power & 0xF0;
val cp = context & 0xF0;
val parensNeeded = ap < cp || (ap == cp && (power != context || fragileContext));
if (parensNeeded) { print("(") }
pe
if (parensNeeded) { print(")") }
}
def Spaces(N: int) = {
val abunchaSpaces = " "
var n = N
while (abunchaSpaces.length <= n) {
print(abunchaSpaces)
n = n - abunchaSpaces.length
}
if (0 < n) {
print(abunchaSpaces.substring(0, n))
}
}
}
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