This may be a very easy question, but I could not find a satisfying answer. After a node is inserted into the red-black tree, three different cases can be encountered :
newly added node = z
Case 1 : z = red, parent of z = red, uncle of z = red
Case 2 : z = red, parent of z = red, z = right child, uncle of z = black
Case 3 : z = red, parent of z = red, z = left child, uncle of z = black
However, I think that we cannot directly enter into case 2 or case 3 because assume that x and y are siblings and red and black respectively. When we insert z under the node x, case 2 or case 3 can be observed without entering into case 1. However, this means that before adding node z, the red-black tree is not balanced because the black-height rule is already broken.
Grandparent
/ \
x(red) y(black)
/ \ / \
nil(b) nil(b) nil(b) nil(b)
The node z can be added into one of the nil pointers of node x, but it is impossible that the tree is like this. After each insertion, the red-black tree must be balanced.
However, my algorithm professor rejected this theory; hence, I cannot ensure this situation. Is it possible to be involved in case 2 or case 3 without case 1 ?
