Example 1 with Alloca
use of org.robovm.compiler.llvm.Alloca in project robovm by robovm.
the class BridgeMethodCompiler method doCompile.
protected Function doCompile(ModuleBuilder moduleBuilder, SootMethod method) {
validateBridgeMethod(method);
AnnotationTag bridgeAnnotation = getAnnotation(method, BRIDGE);
boolean dynamic = readBooleanElem(bridgeAnnotation, "dynamic", false);
boolean optional = readBooleanElem(bridgeAnnotation, "optional", false);
boolean useCWrapper = requiresCWrapper(method);
Function fn = createMethodFunction(method);
moduleBuilder.addFunction(fn);
Type[] parameterTypes = fn.getType().getParameterTypes();
String[] parameterNames = fn.getParameterNames();
ArrayList<Argument> args = new ArrayList<Argument>();
for (int i = 0; i < parameterTypes.length; i++) {
args.add(new Argument(new VariableRef(parameterNames[i], parameterTypes[i])));
}
VariableRef env = fn.getParameterRef(0);
// Load the address of the resolved @Bridge method
Variable targetFn = fn.newVariable(I8_PTR);
if (!dynamic) {
Global targetFnPtr = new Global(Symbols.bridgePtrSymbol(method), _private, new NullConstant(I8_PTR));
moduleBuilder.addGlobal(targetFnPtr);
fn.add(new Load(targetFn, targetFnPtr.ref()));
Label nullLabel = new Label();
Label notNullLabel = new Label();
Variable nullCheck = fn.newVariable(I1);
fn.add(new Icmp(nullCheck, Condition.eq, targetFn.ref(), new NullConstant(I8_PTR)));
fn.add(new Br(nullCheck.ref(), fn.newBasicBlockRef(nullLabel), fn.newBasicBlockRef(notNullLabel)));
fn.newBasicBlock(nullLabel);
call(fn, optional ? BC_THROW_UNSATISIFED_LINK_ERROR_OPTIONAL_BRIDGE_NOT_BOUND : BC_THROW_UNSATISIFED_LINK_ERROR_BRIDGE_NOT_BOUND, env, moduleBuilder.getString(className), moduleBuilder.getString(method.getName()), moduleBuilder.getString(getDescriptor(method)));
fn.add(new Unreachable());
fn.newBasicBlock(notNullLabel);
} else {
// Dynamic @Bridge methods pass the target function pointer as a
// long in the first parameter.
fn.add(new Inttoptr(targetFn, fn.getParameterRef(1), targetFn.getType()));
args.remove(1);
}
// Marshal args
// Remove Env* from args
args.remove(0);
// Save the Object->handle mapping for each marshaled object. We need it
// after the native call to call updateObject() on the marshaler for
// each value. Since the LLVM variables that store these values are used
// after the native call we get the nice side effect that neither the
// Java objects nor the handles can be garbage collected while we're in
// native code.
List<MarshaledArg> marshaledArgs = new ArrayList<MarshaledArg>();
FunctionType targetFnType = getBridgeFunctionType(method, dynamic, false);
Type[] targetParameterTypes = targetFnType.getParameterTypes();
if (!method.isStatic()) {
MarshalerMethod marshalerMethod = config.getMarshalerLookup().findMarshalerMethod(new MarshalSite(method, MarshalSite.RECEIVER));
MarshaledArg marshaledArg = new MarshaledArg();
marshaledArg.paramIndex = MarshalSite.RECEIVER;
marshaledArgs.add(marshaledArg);
Type nativeType = targetParameterTypes[0];
Value nativeValue = marshalObjectToNative(fn, marshalerMethod, marshaledArg, useCWrapper ? I8_PTR : nativeType, env, args.get(0).getValue(), MarshalerFlags.CALL_TYPE_BRIDGE);
args.set(0, new Argument(nativeValue));
}
for (int i = 0, argIdx = 0; i < method.getParameterCount(); i++) {
if (dynamic && i == 0) {
// Skip the target function pointer for dynamic bridge methods.
continue;
}
if (!method.isStatic() && argIdx == 0) {
// Skip the receiver in args. It doesn't correspond to a parameter.
argIdx++;
}
soot.Type type = method.getParameterType(i);
if (needsMarshaler(type)) {
MarshalerMethod marshalerMethod = config.getMarshalerLookup().findMarshalerMethod(new MarshalSite(method, i));
// The return type of the marshaler's toNative() method is derived from the target function type.
Type nativeType = targetParameterTypes[argIdx];
if (nativeType instanceof PrimitiveType) {
Value nativeValue = marshalValueObjectToNative(fn, marshalerMethod, nativeType, env, args.get(argIdx).getValue(), MarshalerFlags.CALL_TYPE_BRIDGE);
args.set(argIdx, new Argument(nativeValue));
} else {
ParameterAttribute[] parameterAttributes = new ParameterAttribute[0];
if (isPassByValue(method, i) || isStructRet(method, i)) {
// The parameter must not be null. We assume that Structs
// never have a NULL handle so we just check that the Java
// Object isn't null.
call(fn, CHECK_NULL, env, args.get(argIdx).getValue());
}
MarshaledArg marshaledArg = new MarshaledArg();
marshaledArg.paramIndex = i;
marshaledArgs.add(marshaledArg);
Value nativeValue = marshalObjectToNative(fn, marshalerMethod, marshaledArg, useCWrapper ? I8_PTR : nativeType, env, args.get(argIdx).getValue(), MarshalerFlags.CALL_TYPE_BRIDGE);
args.set(argIdx, new Argument(nativeValue, parameterAttributes));
}
} else {
args.set(argIdx, new Argument(marshalPrimitiveToNative(fn, method, i, args.get(argIdx).getValue())));
}
argIdx++;
}
Variable structResult = null;
Value targetFnRef = null;
if (useCWrapper) {
args.add(0, new Argument(targetFn.ref()));
if (targetFnType.getReturnType() instanceof StructureType) {
// Allocate space on the stack big enough to hold the returned struct
Variable tmp = fn.newVariable(new PointerType(targetFnType.getReturnType()));
fn.add(new Alloca(tmp, targetFnType.getReturnType()));
structResult = fn.newVariable(I8_PTR);
fn.add(new Bitcast(structResult, tmp.ref(), I8_PTR));
args.add(1, new Argument(structResult.ref()));
}
String wrapperName = Symbols.bridgeCSymbol(method);
FunctionType wrapperFnType = getBridgeFunctionType(method, dynamic, true);
getCWrapperFunctions().add(createBridgeCWrapper(targetFnType.getReturnType(), targetFnType.getParameterTypes(), wrapperFnType.getParameterTypes(), wrapperName));
FunctionRef wrapperFnRef = getBridgeCWrapperRef(targetFnType, wrapperName);
moduleBuilder.addFunctionDeclaration(new FunctionDeclaration(wrapperFnRef));
targetFnRef = wrapperFnRef;
} else {
Variable tmp = fn.newVariable(targetFnType);
fn.add(new Bitcast(tmp, targetFn.ref(), targetFnType));
targetFnRef = tmp.ref();
}
// Execute the call to native code
BasicBlockRef bbSuccess = fn.newBasicBlockRef(new Label("success"));
BasicBlockRef bbFailure = fn.newBasicBlockRef(new Label("failure"));
pushNativeFrame(fn);
trycatchAllEnter(fn, env, bbSuccess, bbFailure);
fn.newBasicBlock(bbSuccess.getLabel());
Value result = callWithArguments(fn, targetFnRef, args);
trycatchLeave(fn, env);
popNativeFrame(fn);
updateObject(method, fn, env, MarshalerFlags.CALL_TYPE_BRIDGE, marshaledArgs);
// Marshal the return value
if (needsMarshaler(method.getReturnType())) {
MarshalerMethod marshalerMethod = config.getMarshalerLookup().findMarshalerMethod(new MarshalSite(method));
String targetClassName = getInternalName(method.getReturnType());
if (structResult != null) {
// Copy to the heap.
DataLayout dataLayout = config.getDataLayout();
Value heapCopy = call(fn, BC_COPY_STRUCT, env, structResult.ref(), new IntegerConstant(dataLayout.getAllocSize(targetFnType.getReturnType())));
result = marshalNativeToObject(fn, marshalerMethod, null, env, targetClassName, heapCopy, MarshalerFlags.CALL_TYPE_BRIDGE);
} else if (targetFnType.getReturnType() instanceof PrimitiveType) {
result = marshalNativeToValueObject(fn, marshalerMethod, env, targetClassName, result, MarshalerFlags.CALL_TYPE_BRIDGE);
} else {
result = marshalNativeToObject(fn, marshalerMethod, null, env, targetClassName, result, MarshalerFlags.CALL_TYPE_BRIDGE);
}
} else {
result = marshalNativeToPrimitive(fn, method, result);
}
fn.add(new Ret(result));
fn.newBasicBlock(bbFailure.getLabel());
trycatchLeave(fn, env);
popNativeFrame(fn);
Value ex = call(fn, BC_EXCEPTION_CLEAR, env);
// Call Marshaler.updateObject() for each object that was marshaled before
// the call.
updateObject(method, fn, env, MarshalerFlags.CALL_TYPE_BRIDGE, marshaledArgs);
call(fn, BC_THROW, env, ex);
fn.add(new Unreachable());
return fn;
}
Also used :
MarshalSite(org.robovm.compiler.MarshalerLookup.MarshalSite)
ParameterAttribute(org.robovm.compiler.llvm.ParameterAttribute)
Ret(org.robovm.compiler.llvm.Ret)
VariableRef(org.robovm.compiler.llvm.VariableRef)
Variable(org.robovm.compiler.llvm.Variable)
Argument(org.robovm.compiler.llvm.Argument)
ArrayList(java.util.ArrayList)
Label(org.robovm.compiler.llvm.Label)
Inttoptr(org.robovm.compiler.llvm.Inttoptr)
PointerType(org.robovm.compiler.llvm.PointerType)
Global(org.robovm.compiler.llvm.Global)
AnnotationTag(soot.tagkit.AnnotationTag)
Function(org.robovm.compiler.llvm.Function)
FunctionDeclaration(org.robovm.compiler.llvm.FunctionDeclaration)
BasicBlockRef(org.robovm.compiler.llvm.BasicBlockRef)
Unreachable(org.robovm.compiler.llvm.Unreachable)
PrimitiveType(org.robovm.compiler.llvm.PrimitiveType)
FunctionRef(org.robovm.compiler.llvm.FunctionRef)
DataLayout(org.robovm.compiler.llvm.DataLayout)
Load(org.robovm.compiler.llvm.Load)
Alloca(org.robovm.compiler.llvm.Alloca)
FunctionType(org.robovm.compiler.llvm.FunctionType)
NullConstant(org.robovm.compiler.llvm.NullConstant)
IntegerConstant(org.robovm.compiler.llvm.IntegerConstant)
Br(org.robovm.compiler.llvm.Br)
StructureType(org.robovm.compiler.llvm.StructureType)
PointerType(org.robovm.compiler.llvm.PointerType)
LongType(soot.LongType)
Type(org.robovm.compiler.llvm.Type)
PrimitiveType(org.robovm.compiler.llvm.PrimitiveType)
FunctionType(org.robovm.compiler.llvm.FunctionType)
Bitcast(org.robovm.compiler.llvm.Bitcast)
StructureType(org.robovm.compiler.llvm.StructureType)
Value(org.robovm.compiler.llvm.Value)
MarshalerMethod(org.robovm.compiler.MarshalerLookup.MarshalerMethod)
PointerMarshalerMethod(org.robovm.compiler.MarshalerLookup.PointerMarshalerMethod)
Icmp(org.robovm.compiler.llvm.Icmp)
Example 2 with Alloca
use of org.robovm.compiler.llvm.Alloca in project robovm by robovm.
the class MethodCompiler method doCompile.
protected Function doCompile(ModuleBuilder moduleBuilder, SootMethod method) {
function = createMethodFunction(method);
moduleBuilder.addFunction(function);
this.moduleBuilder = moduleBuilder;
env = function.getParameterRef(0);
trapsAt = new HashMap<Unit, List<Trap>>();
Body body = method.retrieveActiveBody();
NopStmt prependedNop = null;
if (method.isStatic() && !body.getUnits().getFirst().getBoxesPointingToThis().isEmpty()) {
// Fix for issue #1. This prevents an NPE in Soot's ArrayBoundsCheckerAnalysis. The NPE
// occurs for static methods which start with a unit that is the target of some other
// unit. We work around this by inserting a nop statement as the first unit in such
// methods. See http://www.sable.mcgill.ca/listarchives/soot-list/msg01397.html.
Unit insertionPoint = body.getUnits().getFirst();
prependedNop = Jimple.v().newNopStmt();
body.getUnits().getNonPatchingChain().insertBefore(prependedNop, insertionPoint);
}
PackManager.v().getPack("jtp").apply(body);
PackManager.v().getPack("jop").apply(body);
PackManager.v().getPack("jap").apply(body);
if (body.getUnits().getFirst() == prependedNop && prependedNop.getBoxesPointingToThis().isEmpty()) {
// Remove the nop we inserted above to work around the bug in Soot's
// ArrayBoundsCheckerAnalysis which has now been run.
body.getUnits().getNonPatchingChain().removeFirst();
}
PatchingChain<Unit> units = body.getUnits();
Map<Unit, List<Unit>> branchTargets = getBranchTargets(body);
Map<Unit, Integer> trapHandlers = getTrapHandlers(body);
Map<Unit, Integer> selChanges = new HashMap<Unit, Integer>();
int multiANewArrayMaxDims = 0;
Set<Local> locals = new HashSet<Local>();
boolean emitCheckStackOverflow = false;
for (Unit unit : units) {
if (unit instanceof DefinitionStmt) {
DefinitionStmt stmt = (DefinitionStmt) unit;
if (stmt.getLeftOp() instanceof Local) {
Local local = (Local) stmt.getLeftOp();
if (!locals.contains(local)) {
Type type = getLocalType(local.getType());
Alloca alloca = new Alloca(function.newVariable(local.getName(), type), type);
alloca.attach(local);
function.add(alloca);
locals.add(local);
}
}
if (stmt.getRightOp() instanceof NewMultiArrayExpr) {
NewMultiArrayExpr expr = (NewMultiArrayExpr) stmt.getRightOp();
multiANewArrayMaxDims = Math.max(multiANewArrayMaxDims, expr.getSizeCount());
}
if (stmt.getRightOp() instanceof InvokeExpr) {
emitCheckStackOverflow = true;
}
}
if (unit instanceof InvokeStmt) {
emitCheckStackOverflow = true;
}
}
dims = null;
if (multiANewArrayMaxDims > 0) {
dims = function.newVariable("dims", new PointerType(new ArrayType(multiANewArrayMaxDims, I32)));
function.add(new Alloca(dims, new ArrayType(multiANewArrayMaxDims, I32)));
}
if (emitCheckStackOverflow) {
call(CHECK_STACK_OVERFLOW);
}
Value trycatchContext = null;
if (!body.getTraps().isEmpty()) {
List<List<Trap>> recordedTraps = new ArrayList<List<Trap>>();
for (Unit unit : units) {
// Calculate the predecessor units of unit
Set<Unit> incoming = new HashSet<Unit>();
if (units.getFirst() != unit && units.getPredOf(unit).fallsThrough()) {
incoming.add(units.getPredOf(unit));
}
if (branchTargets.keySet().contains(unit)) {
incoming.addAll(branchTargets.get(unit));
}
if (unit == units.getFirst() || trapHandlers.containsKey(unit) || trapsDiffer(unit, incoming)) {
List<Trap> traps = getTrapsAt(unit);
if (traps.isEmpty()) {
selChanges.put(unit, 0);
} else {
int index = recordedTraps.indexOf(traps);
if (index == -1) {
index = recordedTraps.size();
recordedTraps.add(traps);
}
selChanges.put(unit, index + 1);
}
}
}
StructureConstantBuilder landingPadsPtrs = new StructureConstantBuilder();
for (List<Trap> traps : recordedTraps) {
StructureConstantBuilder landingPads = new StructureConstantBuilder();
for (Trap trap : traps) {
SootClass exClass = trap.getException();
StructureConstantBuilder landingPad = new StructureConstantBuilder();
if ("java.lang.Throwable".equals(exClass.getName()) || exClass.isPhantom()) {
landingPad.add(new NullConstant(I8_PTR));
} else {
catches.add(getInternalName(exClass));
if (exClass == sootClass) {
/*
* The class being compiled is an exception class
* with a catch clause which catches itself. We
* cannot reference the info struct directly since
* we don't know the type of it and it hasn't been
* emitted by ClassCompiler yet. Use the internal
* i8* alias instead which ClassCompiler will emit.
* See #1007.
*/
landingPad.add(new AliasRef(Symbols.infoStructSymbol(getInternalName(exClass)) + "_i8ptr", I8_PTR));
} else {
Global g = new Global(Symbols.infoStructSymbol(getInternalName(exClass)), I8_PTR, true);
if (!moduleBuilder.hasSymbol(g.getName())) {
moduleBuilder.addGlobal(g);
}
landingPad.add(g.ref());
}
}
landingPad.add(new IntegerConstant(trapHandlers.get(trap.getHandlerUnit()) + 1));
landingPads.add(landingPad.build());
}
landingPads.add(new StructureConstantBuilder().add(new NullConstant(I8_PTR)).add(new IntegerConstant(0)).build());
Global g = moduleBuilder.newGlobal(landingPads.build(), true);
landingPadsPtrs.add(new ConstantBitcast(g.ref(), I8_PTR));
}
Global g = moduleBuilder.newGlobal(landingPadsPtrs.build(), true);
Variable ctx = function.newVariable(TRYCATCH_CONTEXT_PTR);
Variable bcCtx = function.newVariable(BC_TRYCATCH_CONTEXT_PTR);
function.add(new Alloca(bcCtx, BC_TRYCATCH_CONTEXT));
Variable selPtr = function.newVariable(new PointerType(I32));
function.add(new Getelementptr(selPtr, bcCtx.ref(), 0, 0, 1));
function.add(new Store(new IntegerConstant(0), selPtr.ref()));
Variable bcCtxLandingPadsPtr = function.newVariable(I8_PTR_PTR);
function.add(new Getelementptr(bcCtxLandingPadsPtr, bcCtx.ref(), 0, 1));
function.add(new Store(new ConstantBitcast(g.ref(), I8_PTR), bcCtxLandingPadsPtr.ref()));
function.add(new Bitcast(ctx, bcCtx.ref(), TRYCATCH_CONTEXT_PTR));
trycatchContext = ctx.ref();
Value result = call(RVM_TRYCATCH_ENTER, env, trycatchContext);
Map<IntegerConstant, BasicBlockRef> alt = new TreeMap<IntegerConstant, BasicBlockRef>();
for (Entry<Unit, Integer> entry : trapHandlers.entrySet()) {
alt.put(new IntegerConstant(entry.getValue() + 1), function.newBasicBlockRef(new Label(entry.getKey())));
}
function.add(new Switch(result, function.newBasicBlockRef(new Label(units.getFirst())), alt));
if (!branchTargets.containsKey(units.getFirst())) {
function.newBasicBlock(new Label(units.getFirst()));
}
}
if ("<clinit>".equals(method.getName())) {
initializeClassFields();
}
for (Unit unit : units) {
if (branchTargets.containsKey(unit) || trapHandlers.containsKey(unit)) {
BasicBlock oldBlock = function.getCurrentBasicBlock();
function.newBasicBlock(new Label(unit));
if (oldBlock != null) {
Instruction last = oldBlock.last();
if (last == null || !isTerminator(last)) {
oldBlock.add(new Br(function.newBasicBlockRef(new Label(unit))));
}
}
}
if (selChanges.containsKey(unit)) {
int sel = selChanges.get(unit);
// trycatchContext->sel = sel
Variable selPtr = function.newVariable(new PointerType(I32));
function.add(new Getelementptr(selPtr, trycatchContext, 0, 1)).attach(unit);
function.add(new Store(new IntegerConstant(sel), selPtr.ref())).attach(unit);
}
if (unit instanceof DefinitionStmt) {
assign((DefinitionStmt) unit);
} else if (unit instanceof ReturnStmt) {
if (!body.getTraps().isEmpty()) {
trycatchLeave(function);
}
return_((ReturnStmt) unit);
} else if (unit instanceof ReturnVoidStmt) {
if (!body.getTraps().isEmpty()) {
trycatchLeave(function);
}
returnVoid((ReturnVoidStmt) unit);
} else if (unit instanceof IfStmt) {
if_((IfStmt) unit);
} else if (unit instanceof LookupSwitchStmt) {
lookupSwitch((LookupSwitchStmt) unit);
} else if (unit instanceof TableSwitchStmt) {
tableSwitch((TableSwitchStmt) unit);
} else if (unit instanceof GotoStmt) {
goto_((GotoStmt) unit);
} else if (unit instanceof ThrowStmt) {
throw_((ThrowStmt) unit);
} else if (unit instanceof InvokeStmt) {
invoke((InvokeStmt) unit);
} else if (unit instanceof EnterMonitorStmt) {
enterMonitor((EnterMonitorStmt) unit);
} else if (unit instanceof ExitMonitorStmt) {
exitMonitor((ExitMonitorStmt) unit);
} else if (unit instanceof NopStmt) {
nop((NopStmt) unit);
} else {
throw new IllegalArgumentException("Unknown Unit type: " + unit.getClass());
}
}
if (this.className.equals("java/lang/Object") && "<init>".equals(method.getName())) {
// If it is the object will be registered for finalization.
for (BasicBlock bb : function.getBasicBlocks()) {
if (bb.last() instanceof Ret) {
// Insert a call to register_finalizable() before this ret
Call call = new Call(REGISTER_FINALIZABLE, env, function.getParameterRef(1));
call.attach(bb.last().getAttachment(Unit.class));
bb.insertBefore(bb.last(), call);
}
}
}
return function;
}
Also used :
Ret(org.robovm.compiler.llvm.Ret)
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
Label(org.robovm.compiler.llvm.Label)
Store(org.robovm.compiler.llvm.Store)
Unit(soot.Unit)
Instruction(org.robovm.compiler.llvm.Instruction)
Global(org.robovm.compiler.llvm.Global)
ArrayType(org.robovm.compiler.llvm.ArrayType)
TableSwitchStmt(soot.jimple.TableSwitchStmt)
InterfaceInvokeExpr(soot.jimple.InterfaceInvokeExpr)
SpecialInvokeExpr(soot.jimple.SpecialInvokeExpr)
InstanceInvokeExpr(soot.jimple.InstanceInvokeExpr)
VirtualInvokeExpr(soot.jimple.VirtualInvokeExpr)
InvokeExpr(soot.jimple.InvokeExpr)
StaticInvokeExpr(soot.jimple.StaticInvokeExpr)
GotoStmt(soot.jimple.GotoStmt)
ArrayList(java.util.ArrayList)
List(java.util.List)
EnterMonitorStmt(soot.jimple.EnterMonitorStmt)
HashSet(java.util.HashSet)
BasicBlock(org.robovm.compiler.llvm.BasicBlock)
Local(soot.Local)
StructureConstantBuilder(org.robovm.compiler.llvm.StructureConstantBuilder)
IntegerConstant(org.robovm.compiler.llvm.IntegerConstant)
Switch(org.robovm.compiler.llvm.Switch)
Bitcast(org.robovm.compiler.llvm.Bitcast)
ConstantBitcast(org.robovm.compiler.llvm.ConstantBitcast)
Value(org.robovm.compiler.llvm.Value)
DefinitionStmt(soot.jimple.DefinitionStmt)
ReturnStmt(soot.jimple.ReturnStmt)
ThrowStmt(soot.jimple.ThrowStmt)
ExitMonitorStmt(soot.jimple.ExitMonitorStmt)
Variable(org.robovm.compiler.llvm.Variable)
InvokeStmt(soot.jimple.InvokeStmt)
AliasRef(org.robovm.compiler.llvm.AliasRef)
NewMultiArrayExpr(soot.jimple.NewMultiArrayExpr)
ConstantBitcast(org.robovm.compiler.llvm.ConstantBitcast)
ReturnVoidStmt(soot.jimple.ReturnVoidStmt)
PointerType(org.robovm.compiler.llvm.PointerType)
Getelementptr(org.robovm.compiler.llvm.Getelementptr)
BasicBlockRef(org.robovm.compiler.llvm.BasicBlockRef)
Body(soot.Body)
Call(org.robovm.compiler.llvm.Call)
Alloca(org.robovm.compiler.llvm.Alloca)
NullConstant(org.robovm.compiler.llvm.NullConstant)
Trap(soot.Trap)
LookupSwitchStmt(soot.jimple.LookupSwitchStmt)
SootClass(soot.SootClass)
TreeMap(java.util.TreeMap)
Br(org.robovm.compiler.llvm.Br)
FloatingPointType(org.robovm.compiler.llvm.FloatingPointType)
IntegerType(org.robovm.compiler.llvm.IntegerType)
PointerType(org.robovm.compiler.llvm.PointerType)
NullType(soot.NullType)
FunctionType(org.robovm.compiler.llvm.FunctionType)
ArrayType(org.robovm.compiler.llvm.ArrayType)
CharType(soot.CharType)
RefLikeType(soot.RefLikeType)
Type(org.robovm.compiler.llvm.Type)
PrimType(soot.PrimType)
IfStmt(soot.jimple.IfStmt)
NopStmt(soot.jimple.NopStmt)
Example 3 with Alloca
use of org.robovm.compiler.llvm.Alloca in project robovm by robovm.
the class BroMethodCompiler method createStackCopy.
protected Value createStackCopy(Function fn, Value value) {
Variable stackCopy = fn.newVariable(new PointerType(value.getType()));
fn.add(new Alloca(stackCopy, value.getType()));
fn.add(new Store(value, stackCopy.ref()));
return stackCopy.ref();
}
Also used :
Variable(org.robovm.compiler.llvm.Variable)
Alloca(org.robovm.compiler.llvm.Alloca)
Store(org.robovm.compiler.llvm.Store)
PointerType(org.robovm.compiler.llvm.PointerType)
Example 4 with Alloca
use of org.robovm.compiler.llvm.Alloca in project robovm by robovm.
the class Functions method trycatchAllEnter.
public static void trycatchAllEnter(Function fn, Value env, BasicBlockRef onNoException, BasicBlockRef onException) {
Variable ctx = fn.newVariable(TRYCATCH_CONTEXT_PTR);
fn.add(new Alloca(ctx, TRYCATCH_CONTEXT));
Variable selPtr = fn.newVariable(new PointerType(I32));
fn.add(new Getelementptr(selPtr, ctx.ref(), 0, 1));
fn.add(new Store(new IntegerConstant(-1), selPtr.ref()));
Value result = call(fn, RVM_TRYCATCH_ENTER, env, ctx.ref());
fn.add(new Switch(result, onException, new IntegerConstant(0), onNoException));
}
Also used :
Variable(org.robovm.compiler.llvm.Variable)
Alloca(org.robovm.compiler.llvm.Alloca)
Switch(org.robovm.compiler.llvm.Switch)
Value(org.robovm.compiler.llvm.Value)
Store(org.robovm.compiler.llvm.Store)
PointerType(org.robovm.compiler.llvm.PointerType)
Getelementptr(org.robovm.compiler.llvm.Getelementptr)
IntegerConstant(org.robovm.compiler.llvm.IntegerConstant)
Example 5 with Alloca
use of org.robovm.compiler.llvm.Alloca in project robovm by robovm.
the class Functions method pushCallbackFrame.
public static void pushCallbackFrame(Function fn, Value env) {
Variable gwFrame = fn.newVariable(GATEWAY_FRAME_PTR);
fn.add(new Alloca(gwFrame, GATEWAY_FRAME));
Value frameAddress = call(fn, LLVM_FRAMEADDRESS, new IntegerConstant(0));
call(fn, BC_PUSH_CALLBACK_FRAME, env, gwFrame.ref(), frameAddress);
}
Also used :
Variable(org.robovm.compiler.llvm.Variable)
Alloca(org.robovm.compiler.llvm.Alloca)
Value(org.robovm.compiler.llvm.Value)
IntegerConstant(org.robovm.compiler.llvm.IntegerConstant)
Aggregations
Alloca (org.robovm.compiler.llvm.Alloca)5
Variable (org.robovm.compiler.llvm.Variable)5
IntegerConstant (org.robovm.compiler.llvm.IntegerConstant)4
PointerType (org.robovm.compiler.llvm.PointerType)4
Value (org.robovm.compiler.llvm.Value)4
Store (org.robovm.compiler.llvm.Store)3
ArrayList (java.util.ArrayList)2
BasicBlockRef (org.robovm.compiler.llvm.BasicBlockRef)2
Bitcast (org.robovm.compiler.llvm.Bitcast)2
Br (org.robovm.compiler.llvm.Br)2
FunctionType (org.robovm.compiler.llvm.FunctionType)2
Getelementptr (org.robovm.compiler.llvm.Getelementptr)2
Global (org.robovm.compiler.llvm.Global)2
Label (org.robovm.compiler.llvm.Label)2
NullConstant (org.robovm.compiler.llvm.NullConstant)2
Ret (org.robovm.compiler.llvm.Ret)2
Type (org.robovm.compiler.llvm.Type)2
HashMap (java.util.HashMap)1
HashSet (java.util.HashSet)1
List (java.util.List)1
