private void processNode(ReaderNode node) { if (isInBounds(node)) { addNode(node); // analyze node tags for barriers if (node.hasTags()) { long nodeFlags = encodingManager.handleNodeTags(node); if (nodeFlags != 0) getNodeFlagsMap().put(node.getId(), nodeFlags); } locations++; } else { skippedLocations++; } }
private void processNode(ReaderNode node) { if (isInBounds(node)) { addNode(node); // analyze node tags for barriers if (node.hasTags()) { long nodeFlags = encodingManager.handleNodeTags(node); if (nodeFlags != 0) getNodeFlagsMap().put(node.getId(), nodeFlags); } locations++; } else { skippedLocations++; } }
private void processNode(ReaderNode node) { if (isInBounds(node)) { addNode(node); // analyze node tags for barriers if (node.hasTags()) { long nodeFlags = encodingManager.handleNodeTags(node); if (nodeFlags != 0) getNodeFlagsMap().put(node.getId(), nodeFlags); } locations++; } else { skippedLocations++; } }
private void processNode( OSMNode node ) { if (isInBounds(node)) { addNode(node); // analyze node tags for barriers if (node.hasTags()) { long nodeFlags = encodingManager.handleNodeTags(node); if (nodeFlags != 0) getNodeFlagsMap().put(node.getId(), nodeFlags); } locations++; } else { skippedLocations++; } }