# Relation between DAG and finding path between 2 nodes in a grid

The Hitchhiker's guide to Algorithms discusses the following pointers:

``````1.6 Counting or Optimizing Good Paths
In an n × m grid, we want to go from the left bottom corner to the upper right corner. Each
time we can only take a step to the right, or a step up. The number of ways we can do this
is exactly (n+m)!/(n! * m!).  But what if we forbid some points on the grid? For example, if we
forbid all the points above the line y = x. Some of the problems has answer in closed formula.
But all of them can be solved quickly by dynamic programming.

Problem 1.6 Given a directed acyclic graph, how many paths are there from u to v? What is the longest one if there are weights on the edges?
``````

My question is how are the two problems related? What is the relation between the grid here and a DAG. On stackoverflow itself I read that if we're moving in only two directions in the grid then we can assume it's a DAG. The question may sound very naive, but I'm a beginner and any help will be much appreciated.

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