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182 lines
5.2 KiB
Markdown
182 lines
5.2 KiB
Markdown
---
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id: seminar-04
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title: 4th seminar
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description: |
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Robot in a maze.
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last_update:
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date: 2023-03-13
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---
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:::caution
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Deadline for the submission of the bonus is **March 23th 24:00**.
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:::
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:::tip
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In case you have any questions, feel free to reach out either by email, Discord
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or just by submitting an issue [here](https://gitlab.fi.muni.cz/xfocko/kb/-/issues/new).
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:::
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For this bonus you can get 3 K₡ and another 0.5 K₡ for the bonus part of it.
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[Source](pathname:///files/c/bonuses/04.tar.gz)
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## Introduction
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In this task you are given a 2D map for a robot. The map contains multiple markers:
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- `^v<>` - which denote the directions the robot will be facing when he steps into
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the cell or starts on it.
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- `K` - denotes the key.
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- `T` - denotes the treasure.
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In case robot lands at the beginning on unknown field, e.g. `.` in the tests, he
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faces the direction that is given through the parameter.
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Your task is to write the `walk` function that returns end result of the walk.
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Walk can end in multiple ways:
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- `FOUND_TREASURE` - when you find the treasure
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- `FOUND_KEY` - when you find the key
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- `OUT_OF_BOUNDS` - when the robot falls off the map
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- `INFINITE_LOOP` - in case you will implement the bonus
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- `NONE` - which is used right now as a default return in the skeleton, has no meaning
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later on
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## Hard requirement
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There is only one hard requirement that tests cannot check.
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**You are not allowed to use any indexing related to map or your current position**
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**in your implementation.**
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Reason for this requirement is for you to get used to working with pointers. And
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for the implementation of this task it is much easier to use just the pointers.
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## Example of run
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For a better understanding of your task, I will describe a simple walk with corresponding
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function call.
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```c
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const char *map = (
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">.v"
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".K<"
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"..."
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);
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walk(map, &map[6], '^', 3, 3);
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```
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For this call, you should return `FOUND_KEY`. Let us walk through the walk ;)
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1. Robot is placed at the bottom left corner, there is no direction specified, so
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he follows the direction given by parameter (upwards, denoted as `N`(orth),
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so that we can differentiate markers on the map with the robot when using printing
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function).
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```
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>.v
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.K<
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N..
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```
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2. Moves up:
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```
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>.v
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NK<
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...
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```
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3. Moves up (now covers `>`), changes direction to right:
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```
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E.v
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.K<
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...
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```
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4. Moves to right:
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```
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>Ev
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.K<
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...
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```
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5. Moves to right, faces south:
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```
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>.S
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.K<
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...
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```
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6. Moves down, faces west:
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```
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>.v
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.KW
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...
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```
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7. Moves left, founds key, returns `FOUND_KEY`:
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```
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>.v
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.W<
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...
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```
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## Bonus part
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For the bonus part you are supposed to return `INFINITE_LOOP` in case the robot
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is stuck in the infinite loop. There are three tests for it. If you pass only the
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easy and medium one, you can get 0.25 K₡ for doing your best and trying it out. :)
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## Easter eggs
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- Statistics
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| Language | Files | Lines | Blanks | Comments | Code | Complexity |
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| ---------------- | ----: | ----: | -----: | -------: | ---: | ---------: |
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| _C_ | 4 | 458 | 34 | 58 | 366 | 33 |
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| `test_maze.c` | | 225 | 9 | 0 | 216 | 4 |
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| `sol.maze.c` | | 141 | 15 | 28 | 98 | 24 |
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| `maze.c` | | 84 | 8 | 30 | 46 | 5 |
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| `main.c` | | 8 | 2 | 0 | 6 | 0 |
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| _C Header_ | 1 | 33 | 3 | 19 | 11 | 0 |
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| `maze.h` | | 33 | 3 | 19 | 11 | 0 |
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| _CMake_ | 1 | 25 | 4 | 6 | 15 | 2 |
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| `CMakeLists.txt` | | 25 | 4 | 6 | 15 | 2 |
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| **Total** | 6 | 516 | 41 | 83 | 392 | 35 |
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- Majority of the line count in solution is caused by the formatting :)
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- Included headers can be interpreted as hints, same goes for the unimplemented
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`static` functions which you can use, but **are not required**.
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- Given `CMakeLists.txt` will generate 2 binaries, `test_maze` and `maze`.
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- `test_maze` runs the tests you are given.
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- `maze` runs the `main.c`, where you can debug, print mazes and whatever else
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you want.
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- I keep only one copy of `cut.h` in my repository, so you need to download it from
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[here](https://gitlab.fi.muni.cz/pb071/cut/-/jobs/159010/artifacts/file/1header/cut.h) and place it into the directory where you have your source code.
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- Or you can use the one you have from the latest homework, git will keep it
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only once, so it doesn't take up more space.
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- I would recommend cloning this repository and copying the `maze` directory to
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your own repository, since there are multiple files and it may be easier for you.
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In case you have any questions, feel free to reach out to me.
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## Submitting
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For submitting the bonus assignment you can follow the same procedure as for
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submitting the homeworks, that is:
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1. On branch `main` add the provided skeleton.
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2. Checkout new branch `seminar-bonus-04`.
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3. Add your solution to the newly created branch.
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4. Create a MR to the `main` branch with me (`@xfocko`) as the reviewer.
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