private Instr[] prepareInstructionsForInterpretation() {
checkRelinearization();
if (linearizedInstrArray != null) return linearizedInstrArray; // Already prepared
try {
buildLinearization(); // FIXME: compiler passes should have done this
depends(linearization());
} catch (RuntimeException e) {
LOG.error("Error linearizing cfg: ", e);
CFG c = cfg();
LOG.error("\nGraph:\n" + c.toStringGraph());
LOG.error("\nInstructions:\n" + c.toStringInstrs());
throw e;
}
// Set up IPCs
HashMap<Label, Integer> labelIPCMap = new HashMap<Label, Integer>();
List<Instr> newInstrs = new ArrayList<Instr>();
int ipc = 0;
for (BasicBlock b : linearizedBBList) {
labelIPCMap.put(b.getLabel(), ipc);
List<Instr> bbInstrs = b.getInstrs();
int bbInstrsLength = bbInstrs.size();
for (int i = 0; i < bbInstrsLength; i++) {
Instr instr = bbInstrs.get(i);
if (instr instanceof Specializeable) {
instr = ((Specializeable) instr).specializeForInterpretation();
bbInstrs.set(i, instr);
}
if (!(instr instanceof ReceiveSelfInstr)) {
newInstrs.add(instr);
ipc++;
}
}
}
// Set up label PCs
setupLabelPCs(labelIPCMap);
// Exit BB ipc
cfg().getExitBB().getLabel().setTargetPC(ipc + 1);
linearizedInstrArray = newInstrs.toArray(new Instr[newInstrs.size()]);
return linearizedInstrArray;
}
/** Run any necessary passes to get the IR ready for compilation */
public Tuple<Instr[], Map<Integer, Label[]>> prepareForCompilation() {
// Build CFG and run compiler passes, if necessary
if (getCFG() == null) runCompilerPasses();
// Add this always since we dont re-JIT a previously
// JIT-ted closure. But, check if there are other
// smarts available to us and eliminate adding this
// code to every closure there is.
//
// Add a global ensure block to catch uncaught breaks
// and throw a LocalJumpError.
if (this instanceof IRClosure && ((IRClosure) this).addGEBForUncaughtBreaks()) {
this.relinearizeCFG = true;
}
try {
buildLinearization(); // FIXME: compiler passes should have done this
depends(linearization());
} catch (RuntimeException e) {
LOG.error("Error linearizing cfg: ", e);
CFG c = cfg();
LOG.error("\nGraph:\n" + c.toStringGraph());
LOG.error("\nInstructions:\n" + c.toStringInstrs());
throw e;
}
// Set up IPCs
// FIXME: Would be nice to collapse duplicate labels; for now, using Label[]
HashMap<Integer, Label[]> ipcLabelMap = new HashMap<Integer, Label[]>();
List<Instr> newInstrs = new ArrayList<Instr>();
int ipc = 0;
for (BasicBlock b : linearizedBBList) {
Label l = b.getLabel();
ipcLabelMap.put(ipc, catLabels(ipcLabelMap.get(ipc), l));
for (Instr i : b.getInstrs()) {
if (!(i instanceof ReceiveSelfInstr)) {
newInstrs.add(i);
ipc++;
}
}
}
return new Tuple<Instr[], Map<Integer, Label[]>>(
newInstrs.toArray(new Instr[newInstrs.size()]), ipcLabelMap);
}
public Object execute(IRScope scope, Object... data) {
scope.buildLinearization();
return null;
}