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{
 "id": 2304,
 "name": "cells_in_a_range_on_an_excel_sheet",
 "difficulty": "Easy",
 "link": "https://leetcode.com/problems/cells-in-a-range-on-an-excel-sheet/",
 "date": "1645920000000",
 "task_description": "A cell `(r, c)` of an excel sheet is represented as a string `\"<col><row>\"` where: `<col>` denotes the column number `c` of the cell. It is represented by **alphabetical letters**. For example, the `1st` column is denoted by `'A'`, the `2nd` by `'B'`, the `3rd` by `'C'`, and so on. `<row>` is the row number `r` of the cell. The `rth` row is represented by the **integer** `r`. You are given a string `s` in the format `\"<col1><row1>:<col2><row2>\"`, where `<col1>` represents the column `c1`, `<row1>` represents the row `r1`, `<col2>` represents the column `c2`, and `<row2>` represents the row `r2`, such that `r1 <= r2` and `c1 <= c2`. Return _the **list of cells**_ `(x, y)` _such that_ `r1 <= x <= r2` _and_ `c1 <= y <= c2`. The cells should be represented as **strings** in the format mentioned above and be sorted in **non-decreasing** order first by columns and then by rows. **Example 1:** ``` **Input:** s = \"K1:L2\" **Output:** [\"K1\",\"K2\",\"L1\",\"L2\"] **Explanation:** The above diagram shows the cells which should be present in the list. The red arrows denote the order in which the cells should be presented. ``` **Example 2:** ``` **Input:** s = \"A1:F1\" **Output:** [\"A1\",\"B1\",\"C1\",\"D1\",\"E1\",\"F1\"] **Explanation:** The above diagram shows the cells which should be present in the list. The red arrow denotes the order in which the cells should be presented. ``` **Constraints:** `s.length == 5` `'A' <= s[0] <= s[3] <= 'Z'` `'1' <= s[1] <= s[4] <= '9'` `s` consists of uppercase English letters, digits and `':'`.",
 "public_test_cases": [
 {
 "label": "Example 1",
 "input": "s = \"K1:L2\"",
 "output": "[\"K1\",\"K2\",\"L1\",\"L2\"] "
 },
 {
 "label": "Example 2",
 "input": "s = \"A1:F1\"",
 "output": "[\"A1\",\"B1\",\"C1\",\"D1\",\"E1\",\"F1\"] "
 }
 ],
 "private_test_cases": [
 {
 "input": "\"C8:D8\"",
 "output": [
 "C8",
 "D8"
 ]
 },
 {
 "input": "\"S9:V9\"",
 "output": [
 "S9",
 "T9",
 "U9",
 "V9"
 ]
 },
 {
 "input": "\"Y6:Y9\"",
 "output": [
 "Y6",
 "Y7",
 "Y8",
 "Y9"
 ]
 },
 {
 "input": "\"U9:W9\"",
 "output": [
 "U9",
 "V9",
 "W9"
 ]
 },
 {
 "input": "\"H2:O7\"",
 "output": [
 "H2",
 "H3",
 "H4",
 "H5",
 "H6",
 "H7",
 "I2",
 "I3",
 "I4",
 "I5",
 "I6",
 "I7",
 "J2",
 "J3",
 "J4",
 "J5",
 "J6",
 "J7",
 "K2",
 "K3",
 "K4",
 "K5",
 "K6",
 "K7",
 "L2",
 "L3",
 "L4",
 "L5",
 "L6",
 "L7",
 "M2",
 "M3",
 "M4",
 "M5",
 "M6",
 "M7",
 "N2",
 "N3",
 "N4",
 "N5",
 "N6",
 "N7",
 "O2",
 "O3",
 "O4",
 "O5",
 "O6",
 "O7"
 ]
 },
 {
 "input": "\"N6:O8\"",
 "output": [
 "N6",
 "N7",
 "N8",
 "O6",
 "O7",
 "O8"
 ]
 },
 {
 "input": "\"Q1:S8\"",
 "output": [
 "Q1",
 "Q2",
 "Q3",
 "Q4",
 "Q5",
 "Q6",
 "Q7",
 "Q8",
 "R1",
 "R2",
 "R3",
 "R4",
 "R5",
 "R6",
 "R7",
 "R8",
 "S1",
 "S2",
 "S3",
 "S4",
 "S5",
 "S6",
 "S7",
 "S8"
 ]
 },
 {
 "input": "K9:T9",
 "output": [
 "K9",
 "L9",
 "M9",
 "N9",
 "O9",
 "P9",
 "Q9",
 "R9",
 "S9",
 "T9"
 ]
 },
 {
 "input": "W6:W8",
 "output": [
 "W6",
 "W7",
 "W8"
 ]
 },
 {
 "input": "O5:S8",
 "output": [
 "O5",
 "O6",
 "O7",
 "O8",
 "P5",
 "P6",
 "P7",
 "P8",
 "Q5",
 "Q6",
 "Q7",
 "Q8",
 "R5",
 "R6",
 "R7",
 "R8",
 "S5",
 "S6",
 "S7",
 "S8"
 ]
 }
 ],
 "haskell_template": "cellsInRange :: String -> [String]\ncellsInRange s ",
 "ocaml_template": "let cellsInRange (s: string) : string list = ",
 "scala_template": "def cellsInRange(s: String): List[String] = { \n \n}",
 "java_template": "public static List<String> cellsInRange(String s) {\n\n}",
 "python_template": "class Solution(object):\n def cellsInRange(self, s):\n \"\"\"\n :type s: str\n :rtype: List[str]\n \"\"\"\n "
}