@Override public VirtualFrame createVirtualFrame(Object[] arguments, FrameDescriptor frameDescriptor) { return new DefaultVirtualFrame(frameDescriptor, arguments); }
@Override public VirtualFrame createVirtualFrame(Object[] arguments, FrameDescriptor frameDescriptor) { return new DefaultVirtualFrame(frameDescriptor, arguments); }
@Override public VirtualFrame createVirtualFrame(Object[] arguments, FrameDescriptor frameDescriptor) { return new DefaultVirtualFrame(frameDescriptor, arguments); }
@Override public MaterializedFrame createMaterializedFrame(Object[] arguments, FrameDescriptor frameDescriptor) { return new DefaultMaterializedFrame(new DefaultVirtualFrame(frameDescriptor, arguments)); }
@Override public MaterializedFrame createMaterializedFrame(Object[] arguments, FrameDescriptor frameDescriptor) { return new DefaultMaterializedFrame(new DefaultVirtualFrame(frameDescriptor, arguments)); }
@Override public MaterializedFrame createMaterializedFrame(Object[] arguments, FrameDescriptor frameDescriptor) { return new DefaultMaterializedFrame(new DefaultVirtualFrame(frameDescriptor, arguments)); }
@Override public Object call(Object... args) { final VirtualFrame frame = new DefaultVirtualFrame(getRootNode().getFrameDescriptor(), args); FrameInstance oldCurrentFrame = defaultTruffleRuntime().setCurrentFrame(new FrameInstance() { public Frame getFrame(FrameAccess access, boolean slowPath) { return frame; } public boolean isVirtualFrame() { return false; } public Node getCallNode() { return null; } public CallTarget getCallTarget() { return DefaultCallTarget.this; } }); try { return getRootNode().execute(frame); } finally { defaultTruffleRuntime().setCurrentFrame(oldCurrentFrame); } }
@Override public Object call(Object... args) { if (!this.initialized) { initialize(); } final DefaultVirtualFrame frame = new DefaultVirtualFrame(getRootNode().getFrameDescriptor(), args); getRuntime().pushFrame(frame, this); try { return getRootNode().execute(frame); } catch (Throwable t) { getRuntime().getTvmci().onThrowable(null, this, t, frame); throw t; } finally { getRuntime().popFrame(); } }
Object callDirectOrIndirect(final Node callNode, Object... args) { if (!this.initialized) { initialize(); } final DefaultVirtualFrame frame = new DefaultVirtualFrame(getRootNode().getFrameDescriptor(), args); getRuntime().pushFrame(frame, this, callNode); try { return getRootNode().execute(frame); } catch (Throwable t) { getRuntime().getTvmci().onThrowable(callNode, this, t, frame); throw t; } finally { getRuntime().popFrame(); } }
Object callDirectOrIndirect(final Node callNode, Object... args) { if (!this.initialized) { initialize(); } final DefaultVirtualFrame frame = new DefaultVirtualFrame(getRootNode().getFrameDescriptor(), args); getRuntime().pushFrame(frame, this, callNode); try { return getRootNode().execute(frame); } catch (Throwable t) { getRuntime().getTvmci().onThrowable(callNode, this, t, frame); throw t; } finally { getRuntime().popFrame(); } }
@Override public Object call(Object... args) { if (!this.initialized) { initialize(); } final DefaultVirtualFrame frame = new DefaultVirtualFrame(getRootNode().getFrameDescriptor(), args); getRuntime().pushFrame(frame, this); try { return getRootNode().execute(frame); } catch (Throwable t) { getRuntime().getTvmci().onThrowable(null, this, t, frame); throw t; } finally { getRuntime().popFrame(); } }