g1001_1100.s1041_robot_bounded_in_circle.readme.md Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of leetcode-in-java21 Show documentation
Show all versions of leetcode-in-java21 Show documentation
Java-based LeetCode algorithm problem solutions, regularly updated
1041\. Robot Bounded In Circle
Medium
On an infinite plane, a robot initially stands at `(0, 0)` and faces north. Note that:
* The **north direction** is the positive direction of the y-axis.
* The **south direction** is the negative direction of the y-axis.
* The **east direction** is the positive direction of the x-axis.
* The **west direction** is the negative direction of the x-axis.
The robot can receive one of three instructions:
* `"G"`: go straight 1 unit.
* `"L"`: turn 90 degrees to the left (i.e., anti-clockwise direction).
* `"R"`: turn 90 degrees to the right (i.e., clockwise direction).
The robot performs the `instructions` given in order, and repeats them forever.
Return `true` if and only if there exists a circle in the plane such that the robot never leaves the circle.
**Example 1:**
**Input:** instructions = "GGLLGG"
**Output:** true
**Explanation:** The robot is initially at (0, 0) facing the north direction.
"G": move one step. Position: (0, 1). Direction: North.
"G": move one step. Position: (0, 2). Direction: North.
"L": turn 90 degrees anti-clockwise. Position: (0, 2). Direction: West.
"L": turn 90 degrees anti-clockwise. Position: (0, 2). Direction: South.
"G": move one step. Position: (0, 1). Direction: South.
"G": move one step. Position: (0, 0). Direction: South.
Repeating the instructions, the robot goes into the cycle: (0, 0) --> (0, 1) --> (0, 2) --> (0, 1) --> (0, 0).
Based on that, we return true.
**Example 2:**
**Input:** instructions = "GG"
**Output:** false
**Explanation:** The robot is initially at (0, 0) facing the north direction.
"G": move one step. Position: (0, 1). Direction: North.
"G": move one step. Position: (0, 2). Direction: North.
Repeating the instructions, keeps advancing in the north direction and does not go into cycles.
Based on that, we return false.
**Example 3:**
**Input:** instructions = "GL"
**Output:** true
**Explanation:** The robot is initially at (0, 0) facing the north direction.
"G": move one step. Position: (0, 1). Direction: North.
"L": turn 90 degrees anti-clockwise. Position: (0, 1). Direction: West.
"G": move one step. Position: (-1, 1). Direction: West.
"L": turn 90 degrees anti-clockwise. Position: (-1, 1). Direction: South.
"G": move one step. Position: (-1, 0). Direction: South.
"L": turn 90 degrees anti-clockwise. Position: (-1, 0). Direction: East.
"G": move one step. Position: (0, 0). Direction: East.
"L": turn 90 degrees anti-clockwise. Position: (0, 0). Direction: North.
Repeating the instructions, the robot goes into the cycle: (0, 0) --> (0, 1) --> (-1, 1) --> (-1, 0) --> (0, 0).
Based on that, we return true.
**Constraints:**
* `1 <= instructions.length <= 100`
* `instructions[i]` is `'G'`, `'L'` or, `'R'`.