1 files changed, 95 insertions, 94 deletions
diff --git a/source/blender/compositor/nodes/COM_DefocusNode.cpp b/source/blender/compositor/nodes/COM_DefocusNode.cpp
index 371921ff345..5e83372a70a 100644
--- a/source/blender/compositor/nodes/COM_DefocusNode.cpp
+++ b/source/blender/compositor/nodes/COM_DefocusNode.cpp
@@ -32,109 +32,110 @@
 
 DefocusNode::DefocusNode(bNode *editorNode) : Node(editorNode)
 {
-	/* pass */
+  /* pass */
 }
 
-void DefocusNode::convertToOperations(NodeConverter &converter, const CompositorContext &context) const
+void DefocusNode::convertToOperations(NodeConverter &converter,
+                                      const CompositorContext &context) const
 {
-	bNode *node = this->getbNode();
-	NodeDefocus *data = (NodeDefocus *)node->storage;
-	Scene *scene = node->id ? (Scene *)node->id : context.getScene();
-	Object *camob = scene ? scene->camera : NULL;
-
-	NodeOperation *radiusOperation;
-	if (data->no_zbuf) {
-		MathMultiplyOperation *multiply = new MathMultiplyOperation();
-		SetValueOperation *multiplier = new SetValueOperation();
-		multiplier->setValue(data->scale);
-		SetValueOperation *maxRadius = new SetValueOperation();
-		maxRadius->setValue(data->maxblur);
-		MathMinimumOperation *minimize = new MathMinimumOperation();
-
-		converter.addOperation(multiply);
-		converter.addOperation(multiplier);
-		converter.addOperation(maxRadius);
-		converter.addOperation(minimize);
-
-		converter.mapInputSocket(getInputSocket(1), multiply->getInputSocket(0));
-		converter.addLink(multiplier->getOutputSocket(), multiply->getInputSocket(1));
-		converter.addLink(multiply->getOutputSocket(), minimize->getInputSocket(0));
-		converter.addLink(maxRadius->getOutputSocket(), minimize->getInputSocket(1));
-
-		radiusOperation = minimize;
-	}
-	else {
-		ConvertDepthToRadiusOperation *radius_op = new ConvertDepthToRadiusOperation();
-		radius_op->setCameraObject(camob);
-		radius_op->setfStop(data->fstop);
-		radius_op->setMaxRadius(data->maxblur);
-		converter.addOperation(radius_op);
-
-		converter.mapInputSocket(getInputSocket(1), radius_op->getInputSocket(0));
-
-		FastGaussianBlurValueOperation *blur = new FastGaussianBlurValueOperation();
-		/* maintain close pixels so far Z values don't bleed into the foreground */
-		blur->setOverlay(FAST_GAUSS_OVERLAY_MIN);
-		converter.addOperation(blur);
-
-		converter.addLink(radius_op->getOutputSocket(0), blur->getInputSocket(0));
-		radius_op->setPostBlur(blur);
-
-		radiusOperation = blur;
-	}
-
-	NodeBokehImage *bokehdata = new NodeBokehImage();
-	bokehdata->angle = data->rotation;
-	bokehdata->rounding = 0.0f;
-	bokehdata->flaps = data->bktype;
-	if (data->bktype < 3) {
-		bokehdata->flaps = 5;
-		bokehdata->rounding = 1.0f;
-	}
-	bokehdata->catadioptric = 0.0f;
-	bokehdata->lensshift = 0.0f;
-
-	BokehImageOperation *bokeh = new BokehImageOperation();
-	bokeh->setData(bokehdata);
-	bokeh->deleteDataOnFinish();
-	converter.addOperation(bokeh);
+  bNode *node = this->getbNode();
+  NodeDefocus *data = (NodeDefocus *)node->storage;
+  Scene *scene = node->id ? (Scene *)node->id : context.getScene();
+  Object *camob = scene ? scene->camera : NULL;
+
+  NodeOperation *radiusOperation;
+  if (data->no_zbuf) {
+    MathMultiplyOperation *multiply = new MathMultiplyOperation();
+    SetValueOperation *multiplier = new SetValueOperation();
+    multiplier->setValue(data->scale);
+    SetValueOperation *maxRadius = new SetValueOperation();
+    maxRadius->setValue(data->maxblur);
+    MathMinimumOperation *minimize = new MathMinimumOperation();
+
+    converter.addOperation(multiply);
+    converter.addOperation(multiplier);
+    converter.addOperation(maxRadius);
+    converter.addOperation(minimize);
+
+    converter.mapInputSocket(getInputSocket(1), multiply->getInputSocket(0));
+    converter.addLink(multiplier->getOutputSocket(), multiply->getInputSocket(1));
+    converter.addLink(multiply->getOutputSocket(), minimize->getInputSocket(0));
+    converter.addLink(maxRadius->getOutputSocket(), minimize->getInputSocket(1));
+
+    radiusOperation = minimize;
+  }
+  else {
+    ConvertDepthToRadiusOperation *radius_op = new ConvertDepthToRadiusOperation();
+    radius_op->setCameraObject(camob);
+    radius_op->setfStop(data->fstop);
+    radius_op->setMaxRadius(data->maxblur);
+    converter.addOperation(radius_op);
+
+    converter.mapInputSocket(getInputSocket(1), radius_op->getInputSocket(0));
+
+    FastGaussianBlurValueOperation *blur = new FastGaussianBlurValueOperation();
+    /* maintain close pixels so far Z values don't bleed into the foreground */
+    blur->setOverlay(FAST_GAUSS_OVERLAY_MIN);
+    converter.addOperation(blur);
+
+    converter.addLink(radius_op->getOutputSocket(0), blur->getInputSocket(0));
+    radius_op->setPostBlur(blur);
+
+    radiusOperation = blur;
+  }
+
+  NodeBokehImage *bokehdata = new NodeBokehImage();
+  bokehdata->angle = data->rotation;
+  bokehdata->rounding = 0.0f;
+  bokehdata->flaps = data->bktype;
+  if (data->bktype < 3) {
+    bokehdata->flaps = 5;
+    bokehdata->rounding = 1.0f;
+  }
+  bokehdata->catadioptric = 0.0f;
+  bokehdata->lensshift = 0.0f;
+
+  BokehImageOperation *bokeh = new BokehImageOperation();
+  bokeh->setData(bokehdata);
+  bokeh->deleteDataOnFinish();
+  converter.addOperation(bokeh);
 
 #ifdef COM_DEFOCUS_SEARCH
-	InverseSearchRadiusOperation *search = new InverseSearchRadiusOperation();
-	search->setMaxBlur(data->maxblur);
-	converter.addOperation(search);
+  InverseSearchRadiusOperation *search = new InverseSearchRadiusOperation();
+  search->setMaxBlur(data->maxblur);
+  converter.addOperation(search);
 
-	converter.addLink(radiusOperation->getOutputSocket(0), search->getInputSocket(0));
+  converter.addLink(radiusOperation->getOutputSocket(0), search->getInputSocket(0));
 #endif
 
-	VariableSizeBokehBlurOperation *operation = new VariableSizeBokehBlurOperation();
-	if (data->preview)
-		operation->setQuality(COM_QUALITY_LOW);
-	else
-		operation->setQuality(context.getQuality());
-	operation->setMaxBlur(data->maxblur);
-	operation->setThreshold(data->bthresh);
-	converter.addOperation(operation);
-
-	converter.addLink(bokeh->getOutputSocket(), operation->getInputSocket(1));
-	converter.addLink(radiusOperation->getOutputSocket(), operation->getInputSocket(2));
+  VariableSizeBokehBlurOperation *operation = new VariableSizeBokehBlurOperation();
+  if (data->preview)
+    operation->setQuality(COM_QUALITY_LOW);
+  else
+    operation->setQuality(context.getQuality());
+  operation->setMaxBlur(data->maxblur);
+  operation->setThreshold(data->bthresh);
+  converter.addOperation(operation);
+
+  converter.addLink(bokeh->getOutputSocket(), operation->getInputSocket(1));
+  converter.addLink(radiusOperation->getOutputSocket(), operation->getInputSocket(2));
 #ifdef COM_DEFOCUS_SEARCH
-	converter.addLink(search->getOutputSocket(), operation->getInputSocket(3));
+  converter.addLink(search->getOutputSocket(), operation->getInputSocket(3));
 #endif
 
-	if (data->gamco) {
-		GammaCorrectOperation *correct = new GammaCorrectOperation();
-		converter.addOperation(correct);
-		GammaUncorrectOperation *inverse = new GammaUncorrectOperation();
-		converter.addOperation(inverse);
-
-		converter.mapInputSocket(getInputSocket(0), correct->getInputSocket(0));
-		converter.addLink(correct->getOutputSocket(), operation->getInputSocket(0));
-		converter.addLink(operation->getOutputSocket(), inverse->getInputSocket(0));
-		converter.mapOutputSocket(getOutputSocket(), inverse->getOutputSocket());
-	}
-	else {
-		converter.mapInputSocket(getInputSocket(0), operation->getInputSocket(0));
-		converter.mapOutputSocket(getOutputSocket(), operation->getOutputSocket());
-	}
+  if (data->gamco) {
+    GammaCorrectOperation *correct = new GammaCorrectOperation();
+    converter.addOperation(correct);
+    GammaUncorrectOperation *inverse = new GammaUncorrectOperation();
+    converter.addOperation(inverse);
+
+    converter.mapInputSocket(getInputSocket(0), correct->getInputSocket(0));
+    converter.addLink(correct->getOutputSocket(), operation->getInputSocket(0));
+    converter.addLink(operation->getOutputSocket(), inverse->getInputSocket(0));
+    converter.mapOutputSocket(getOutputSocket(), inverse->getOutputSocket());
+  }
+  else {
+    converter.mapInputSocket(getInputSocket(0), operation->getInputSocket(0));
+    converter.mapOutputSocket(getOutputSocket(), operation->getOutputSocket());
+  }
 }