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path_sum_test.go
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path_sum_test.go
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/*
Problem:
- Given a binary tree and a sum, find if the tree has a path from
root-to-leaf such that the sum of all the node values of that path
equals to the sum.
Example:
- Input: sum=8
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2 3
4 5 6 7
Output: true
Explanation: The path with sum 8 goes through 1, 2 and 5.
- Input: sum=16
1
2 3
4 5 6 7
Output: false
Explanation: There is no path with sum 16.
Approach:
- Traverse the tree in a depth first search fashion.
- At each step, update the new sum by subtracting it with the current
value of the node's we're visiting.
- Once we hit the leaf node, return true if the sum is equal to its
value.
Cost:
- O(n) time, O(n) space.
*/
package gtci
import (
"testing"
"github.com/hoanhan101/algo/common"
)
func TestPathSum(t *testing.T) {
t1 := &common.TreeNode{Left: nil, Value: 1, Right: nil}
t1.Left = &common.TreeNode{Left: nil, Value: 2, Right: nil}
t1.Right = &common.TreeNode{Left: nil, Value: 3, Right: nil}
t1.Left.Left = &common.TreeNode{Left: nil, Value: 4, Right: nil}
t1.Left.Right = &common.TreeNode{Left: nil, Value: 5, Right: nil}
t1.Right.Left = &common.TreeNode{Left: nil, Value: 6, Right: nil}
t1.Right.Right = &common.TreeNode{Left: nil, Value: 7, Right: nil}
tests := []struct {
in1 *common.TreeNode
in2 int
expected bool
}{
{t1, 7, true},
{t1, 8, true},
{t1, 10, true},
{t1, 11, true},
{t1, 16, false},
}
for _, tt := range tests {
common.Equal(
t,
tt.expected,
pathSum(tt.in1, tt.in2),
)
}
}
func pathSum(root *common.TreeNode, sum int) bool {
if root == nil {
return false
}
if root.Value == sum && root.Left == nil && root.Right == nil {
return true
}
return pathSum(root.Left, sum-root.Value) || pathSum(root.Right, sum-root.Value)
}