private ErrorTraceInstr getCorrespondingInst(InstrLocation from, ErrorTraceInstr toInstr, InsertionTrans tinfo)
{
if (from.type.type == InstrTypeEnum.CALL || from.type.type == InstrTypeEnum.ASYNC)
{
// Get callee trace
ErrorTrace calleeTrace = null;
if (toInstr.isCall())
{
calleeTrace = (toInstr as CallInstr).calleeTrace;
}
// recursively mapBack the callee trace
if (calleeTrace != null)
{
calleeTrace = tinfo.mapBackTrace(calleeTrace);
}
return(new CallInstr(from.type.callee, calleeTrace, (from.type.type == InstrTypeEnum.ASYNC ? true : false), toInstr.info));
}
else
{
return(new IntraInstr(toInstr.info));
}
}
private string addTraceRec(ErrorTrace trace)
{
Debug.Assert(trace.Blocks.Count != 0);
// First, construct the procedure declaration: only a name change required
string newName = getNewName(trace.procName);
Procedure proc = nameToProc[trace.procName];
output.AddTopLevelDeclaration(
new Procedure(Token.NoToken, newName, proc.TypeParameters, proc.InParams,
proc.OutParams, proc.Requires, proc.Modifies, proc.Ensures,
proc.Attributes));
// Now to peice together the commands from the implementation. We keep around
// multiple blocks to make sure that trace mapping works out.
var traceBlocks = new List <Block>();
Implementation impl = nameToImpl[trace.procName];
var labelToBlock = BoogieUtil.labelBlockMapping(impl);
// These two need not agree. This happens when impl.Block[0] has
// no commands.
// Debug.Assert(impl.Blocks[0].Label == trace.Blocks[0].blockName);
Debug.Assert(reachableViaEmptyBlocks(impl.Blocks[0].Label, labelToBlock).Contains(trace.Blocks[0].blockName));
for (int i = 0, n = trace.Blocks.Count; i < n; i++)
{
Block curr = labelToBlock[trace.Blocks[i].blockName];
Block traceBlock = new Block();
traceBlock.Cmds = new List <Cmd>();
traceBlock.Label = addIntToString(trace.Blocks[i].blockName, i); // (The "i" is to deal with loops)
if (i != n - 1)
{
traceBlock.TransferCmd = BoogieAstFactory.MkGotoCmd(addIntToString(trace.Blocks[i + 1].blockName, i + 1));
}
else
{
traceBlock.TransferCmd = new ReturnCmd(Token.NoToken);
}
tinfo.addTrans(newName, trace.Blocks[i].blockName, traceBlock.Label);
#region Check consistency
Debug.Assert(curr.Cmds.Count >= trace.Blocks[i].Cmds.Count);
if (trace.Blocks[i].Cmds.Count != curr.Cmds.Count)
{
Debug.Assert((i == n - 1));
}
if (curr.TransferCmd is ReturnCmd)
{
Debug.Assert(i == n - 1);
}
else if (curr.TransferCmd is GotoCmd)
{
List <String> targets = (curr.TransferCmd as GotoCmd).labelNames;
// one of these targets should be the next label
if (i != n - 1)
{
Debug.Assert(reachableViaEmptyBlocks(targets, labelToBlock).Contains(trace.Blocks[i + 1].blockName));
}
}
else
{
throw new InternalError("Unknown transfer command");
}
#endregion
// Index into trace.Blocks[i].Cmds
int instrCount = -1;
foreach (Cmd c in curr.Cmds)
{
instrCount++;
if (instrCount == trace.Blocks[i].Cmds.Count)
{
break;
}
ErrorTraceInstr curr_instr = trace.Blocks[i].Cmds[instrCount];
if (curr_instr.info.isValid)
{
traceBlock.Cmds.Add(InstrumentationConfig.getFixedContextProc(curr_instr.info.executionContext));
newFixedContextProcs.Add(curr_instr.info.executionContext);
}
// Don't keep "fix context value" procs from the input program
if (InstrumentationConfig.getFixedContextValue(c) != -1)
{
traceBlock.Cmds.Add(new AssumeCmd(Token.NoToken, Expr.True));
addedTrans(newName, curr.Label, instrCount, c, traceBlock.Label, traceBlock.Cmds);
continue;
}
// Don't keep "fix raise exception" procs from the input program
if (InstrumentationConfig.isFixedRaiseExceptionProc(c))
{
traceBlock.Cmds.Add(new AssumeCmd(Token.NoToken, Expr.True));
addedTrans(newName, curr.Label, instrCount, c, traceBlock.Label, traceBlock.Cmds);
continue;
}
if (addConcretization && c is HavocCmd && curr_instr.info != null && curr_instr.info.hasIntVar("si_arg") &&
(c as HavocCmd).Vars.Count > 0 && (c as HavocCmd).Vars[0].Decl.TypedIdent.Type.IsInt)
{
// concretize havoc-ed variable
var val = curr_instr.info.getIntVal("si_arg");
traceBlock.Cmds.Add(BoogieAstFactory.MkVarEqConst((c as HavocCmd).Vars[0].Decl, val));
addedTrans(newName, curr.Label, instrCount, c, traceBlock.Label, traceBlock.Cmds);
continue;
}
if (!(c is CallCmd))
{
if (convertNonFailingAssertsToAssumes && c is AssertCmd && !(curr_instr.info is AssertFailInstrInfo))
{
traceBlock.Cmds.Add(new AssumeCmd(c.tok, (c as AssertCmd).Expr, (c as AssertCmd).Attributes));
}
else
{
traceBlock.Cmds.Add(c);
}
Debug.Assert(!curr_instr.isCall());
addedTrans(newName, curr.Label, instrCount, c, traceBlock.Label, traceBlock.Cmds);
continue;
}
Debug.Assert(curr_instr.isCall());
CallCmd cc = c as CallCmd;
CallInstr call_instr = curr_instr as CallInstr;
if (!nameToImpl.ContainsKey(cc.Proc.Name) || !call_instr.hasCalledTrace)
{
// This is a call to a procedure without implementation; skip;
calledProcsNoImpl.Add(cc.Proc.Name);
traceBlock.Cmds.Add(c);
Debug.Assert(!call_instr.hasCalledTrace);
if (addConcretization && cc.Outs.Count == 1 && call_instr.info.hasVar("si_arg"))
{
if (!addConcretizationAsConstants)
{
if (call_instr.info.hasBoolVar("si_arg"))
{
traceBlock.Cmds.Add(BoogieAstFactory.MkVarEqConst(cc.Outs[0].Decl, call_instr.info.getBoolVal("si_arg")));
}
else if (call_instr.info.hasIntVar("si_arg"))
{
traceBlock.Cmds.Add(BoogieAstFactory.MkVarEqConst(cc.Outs[0].Decl, call_instr.info.getIntVal("si_arg")));
}
else
{
Debug.Assert(false);
}
}
else
{
// create a constant that is equal to this literal, then use the constant
// for concretization
// do we use a specific name for the constant?
var constantName = QKeyValue.FindStringAttribute(cc.Attributes, ConcretizeConstantNameAttr);
if (constantName == null)
{
constantName = "";
}
var constant = new Constant(Token.NoToken, new TypedIdent(Token.NoToken,
string.Format("alloc_{0}__{1}", constantName, const_counter), cc.Outs[0].Decl.TypedIdent.Type), false);
const_counter++;
traceBlock.Cmds.Add(BoogieAstFactory.MkVarEqVar(cc.Outs[0].Decl, constant));
output.AddTopLevelDeclaration(constant);
if (call_instr.info.hasIntVar("si_arg"))
{
output.AddTopLevelDeclaration(new Axiom(Token.NoToken, Expr.Eq(Expr.Ident(constant), Expr.Literal(call_instr.info.getIntVal("si_arg")))));
}
else if (call_instr.info.hasVar("si_arg") && cc.Outs[0].Decl.TypedIdent.Type.IsCtor)
{
uvalueToConstants.InitAndAdd(call_instr.info.getVal("si_arg").ToString(), constant);
}
var id = QKeyValue.FindIntAttribute(cc.Attributes, ConcretizeCallIdAttr, -1);
concretizeConstantToCall.Add(constant.Name, id);
}
}
addedTrans(newName, curr.Label, instrCount, c, traceBlock.Label, traceBlock.Cmds);
continue;
}
Debug.Assert(call_instr.calleeTrace.procName == cc.Proc.Name);
var callee = addTraceRec(call_instr.calleeTrace);
var newcmd = new CallCmd(Token.NoToken, callee, cc.Ins, cc.Outs, cc.Attributes, cc.IsAsync);
traceBlock.Cmds.Add(newcmd);
addedTrans(newName, curr.Label, instrCount, c, traceBlock.Label, traceBlock.Cmds);
}
traceBlocks.Add(traceBlock);
}
Debug.Assert(traceBlocks.Count != 0);
if (trace.raisesException)
{
var exitblk = traceBlocks.Last();
exitblk.Cmds.Add(InstrumentationConfig.getFixedRaiseExceptionProc());
addRaiseExceptionProcDecl = true;
}
// Add the implementation to output
//var block = new Block(Token.NoToken, trace.Blocks[0].blockName, traceCmdSeq, new ReturnCmd(Token.NoToken));
//List<Block> blocks = new List<Block>();
//blocks.Add(block);
//tinfo.addTrans(newName, trace.Blocks[0].blockName, trace.Blocks[0].blockName);
tinfo.addProcNameTrans(trace.procName, newName);
output.AddTopLevelDeclaration(
new Implementation(Token.NoToken, newName, impl.TypeParameters,
impl.InParams, impl.OutParams, impl.LocVars, traceBlocks,
QKeyValue.FindStringAttribute(impl.Attributes, "origRTname") == null ?
new QKeyValue(Token.NoToken, "origRTname", new List <object> {
impl.Name
}, impl.Attributes)
: impl.Attributes));
return(newName);
}