public void writeInline(EmitContext emitContext, InstructionAdapter mv) {
// Last check for assumption violations
types.verifyFunctionAssumptions(runtimeState);
Label exitLabel = new Label();
for (BasicBlock basicBlock : cfg.getBasicBlocks()) {
if (basicBlock != cfg.getEntry() && basicBlock != cfg.getExit()) {
for (IRLabel label : basicBlock.getLabels()) {
mv.visitLabel(emitContext.getAsmLabel(label));
}
for (Statement stmt : basicBlock.getStatements()) {
try {
if (stmt instanceof ReturnStatement) {
// Instead of returning, just push the return value on the stack
// and jump to the exit point for the function.
stmt.getRHS().load(emitContext, mv);
mv.goTo(exitLabel);
} else {
stmt.emit(emitContext, mv);
}
} catch (NotCompilableException e) {
throw e;
} catch (Exception e) {
throw new InternalCompilerException("Exception compiling statement " + stmt, e);
}
}
}
}
mv.mark(exitLabel);
}
@Override
public int load(EmitContext emitContext, InstructionAdapter mv) {
int stackSizeIncrease =
assertDouble(childAt(0)).load(emitContext, mv)
+ assertDouble(childAt(1)).load(emitContext, mv);
mv.visitMethodInsn(
Opcodes.INVOKESTATIC,
Type.getInternalName(DoubleSequence.class),
"fromTo",
Type.getMethodDescriptor(
Type.getType(AtomicVector.class), Type.DOUBLE_TYPE, Type.DOUBLE_TYPE),
false);
return stackSizeIncrease;
}