The input contains several test cases, and the first line contains a positive integer $$$T$$$ indicating the number of test cases which is up to $$$10^4$$$.

For each test case, the first line contains two integers $$$r$$$ and $$$c$$$ indicating the number of rows and the number of columns of the honeycomb, where $$$2 \leq r, c \leq 10^3$$$.

The following $$$(4 r + 3)$$$ lines describe the whole given honeycomb, where each line contains at most $$$(6 c + 3)$$$ characters. Odd lines contain grid vertices represented as plus signs ("+") and zero or more horizontal edges, while even lines contain two or more diagonal edges. Specifically, a cell is described as $$$6$$$ vertices and at most $$$6$$$ edges. Its upper boundary or lower boundary is represented as three consecutive minus signs ("-"). Each one of its diagonal edges, if exists, is a single forward slash ("/") or a single backslash ("\") character. All edge characters will be placed exactly between the corresponding vertices. At the center of the starting cell (resp. the destination), a capital "S" (resp. a capital "T") as a special character is used to indicate the special cell. All other characters will be space characters. Note that if any input line could contain trailing whitespace, that whitespace will be omitted.

We guarantee that all outermost wall exist so that the given honeycomb is closed, and exactly one "S" and one "T" appear in the given honeycomb. Besides, the sum of $$$r \cdot c$$$ in all test cases is up to $$$2 \times 10^6$$$.