monty: A C repository from softClaws

0x18. C - Stacks, Queues - LIFO, FIFO

0. push, pall mandatory

Implement the push and pall opcodes.

Monty byte code files

Files containing Monty byte codes usually have the .m extension. Most of the industry uses this standard but it is not required by the specification of the language. There is not more than one instruction per line. There can be any number of spaces before or after the opcode and its argument:

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat -e bytecodes/000.m
push 0$
push 1$
push 2$
  push 3$
                   pall    $
push 4$
    push 5    $
      push    6        $
pall$
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

Monty byte code files can contain blank lines (empty or made of spaces only, and any additional text after the opcode or its required argument is not taken into account:

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat -e bytecodes/001.m
push 0 Push 0 onto the stack$
push 1 Push 1 onto the stack$
$
push 2$
  push 3$
                   pall    $
$
$
                           $
push 4$
$
    push 5    $
      push    6        $
$
pall This is the end of our program. Monty is awesome!$
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

The monty program

Usage: monty file
where file is the path to the file containing Monty byte code
If the user does not give any file or more than one argument to your program, print USAGE: monty file, followed by a new line, and exit with the status EXIT_FAILURE
If, for any reason, it's not possible to use read the file, print Error: Can't open file <file>, followed by a new line, and exit with the status EXIT_FAILURE
- where <file> is the name of the file
If the file contains an invalid instruction, print L<line_number>: unknown instruction <opcode>, followed by a new line, and exit with the status EXIT_FAILURE
- where is the line number where the instruction appears. Line numbers always start at 1
The monty program runs the bytecodes line by line and stop if:
- it executed properly every line of the file
- or it finds an error in the file
- or an error occured
If you can't malloc anymore, print Error: malloc failed, followed by a new line, and exit with status EXIT_FAILURE. You have to use malloc and free and are not allowed to use any other function from man malloc

The push opcode

The opcode push pushes an element to the stack.

Usage: push <int>
where <int> is an integer
if <int> is not an integer or if there is no argument to push, print the message L<line_number>: usage: push integer, followed by a new line, and exit with the status EXIT_FAILURE
- where is the line number in the file
You don't have to deal with overflows. Use the atoi function

The pall opcode

The opcode pall prints all the values on the stack, starting from the top of the stack.

Usage pall
Format: see example
If the stack is empty, don't print anything

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat -e bytecodes/00.m
push 1$
push 2$
push 3$
pall$
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/00.m
3
2
1
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

1. pint mandatory

Implement the pint opcode.

The pint opcode

The opcode pint prints the value at the top of the stack, followed by a new line.

Usage: pint
If the stack is empty, print L<line_number>: can't pint, stack empty, followed by a new line, and exit with the status EXIT_FAILURE

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/06.m 
push 1
pint
push 2
pint
push 3
pint
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/06.m 
1
2
3
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

2. pop mandatory

Implement the pop opcode.

The pop opcode

The opcode pop removes the top element of the stack.

Usage: pop
if the stack is empty, print L<line_number>: can't pop an empty stack, followed by a new line, and exit with the status EXIT_FAILURE

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/07.m 
push 1
push 2
push 3
pall
pop
pall
pop
pall
pop
pall
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/07.m 
3
2
1
2
1
1
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

3. swap mandatory

Implement the swap opcode.

The swap opcode

The opcode swap swaps the top two elements of the stack.

Usage: swap
If the stack is less than two element long, print L<line_number>: can't swap, stack too short, followed by a new line, and exit with the status EXIT_FAILURE

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/09.m 
push 1
push 2
push 3
pall
swap
pall
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/09.m 
3
2
1
2
3
1
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

4. add mandatory

Implement the add opcode.

The add opcode

The opcode add adds the top two elements of the stack.

Usage: add
If the stack is less than two element long, print L<line_number>: can't add, stack too short, followed by a new line, and exit with the status EXIT_FAILURE
The result is stored in the second top element of the stack, and the top element is removed, so that at the end:
- the top element of the stack contains the result
- the stack is one element shorter

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/12.m 
push 1
push 2
push 3
pall
add
pall

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/12.m 
3
2
1
5
1
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

5. nop mandatory

Implement the nop opcode.

The nop opcode

The opcode nop doesn't do anything.

Usage: nop

6. sub #advanced

Implement the sub opcode.

The sub opcode

The opcode sub subtracts the top element of the stack from the second top element of the stack.

Usage: sub
If the stack is less than two element long, print L<line_number>: can't sub, stack too short, followed by a new line, and exit with the status EXIT_FAILURE
The result is stored in the second top element of the stack, and the top element is removed, so that at the end:
- the top element of the stack contains the result
- the stack is one element shorter

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/19.m 
push 1
push 2
push 10
push 3
sub
pall
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/19.m 
7
2
1
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

7. div #advanced

Implement the div opcode.

The div opcode

The opcode div divides the second top element of the stack by the top element of the stack.

Usage: div
If the stack is less than two element long, print L<line_number>: can't div, stack too short, followed by a new line, and exit with the status EXIT_FAILURE
The result is stored in the second top element of the stack, and the top element is removed, so that at the end:
- the top element of the stack contains the result
- the stack is one element shorter
If the top element of the stack is 0, print L<line_number>: division by zero, followed by a new line, and exit with the status EXIT_FAILURE

8. mul #advanced

Implement the mul opcode.

The mul opcode

The opcode mul multiplies the second top element of the stack with the top element of the stack.

Usage: mul
If the stack is less than two element long, print L<line_number>: can't mul, stack too short, followed by a new line, and exit with the status EXIT_FAILURE
The result is stored in the second top element of the stack, and the top element is removed, so that at the end:
- the top element of the stack contains the result
- the stack is one element shorter

9. mod #advanced

Implement the mod opcode.

The mod opcode

The opcode mod computes the rest of the division of the second top element of the stack by the top element of the stack.

Usage: mod
If the stack is less than two element long, print L<line_number>: can't mod, stack too short, followed by a new line, and exit with the status EXIT_FAILURE
The result is stored in the second top element of the stack, and the top element is removed, so that at the end:
- the top element of the stack contains the result
- the stack is one element shorter
If the top element of the stack is 0, print L<line_number>: division by zero, followed by a new line, and exit with the status EXIT_FAILURE

10. comments #advanced

Every good language comes with the capability of commenting. When the first non-space character of a line is #, treat this line as a comment (don't do anything).

11. pchar #advanced

Implement the pchar opcode.

The pchar opcode

The opcode pchar prints the char at the top of the stack, followed by a new line.

Usage: pchar
The integer stored at the top of the stack is treated as the ascii value of the character to be printed
If the value is not in the ascii table (man ascii) print L<line_number>: can't pchar, value out of range, followed by a new line, and exit with the status EXIT_FAILURE
If the stack is empty, print L<line_number>: can't pchar, stack empty, followed by a new line, and exit with the status EXIT_FAILURE

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/28.m 
push 72
pchar
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/28.m 
H
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

12. pstr #advanced

Implement the pstr opcode.

The pstr opcode

The opcode pstr prints the string starting at the top of the stack, followed by a new line.

Usage: pstr
The integer stored in each element of the stack is treated as the ascii value of the character to be printed
The string stops where:
- the stack is over
- the value of the element is 0
- the value of the element is not in the ascii table
If the stack is empty, print only a new line

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/31.m 
push 1
push 2
push 3
push 4
push 0
push 110
push 0
push 110
push 111
push 116
push 114
push 101
push 98
push 108
push 111
push 72
pstr
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/31.m 
Holberton
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

13. rotl #advanced

Implement the rotl opcode.

The rotl opcode

The opcode rotl rotates the stack to the top.

Usage: rotl
The top element of the stack becomes the last one, and the second top element of the stack becomes the first one
rotl never fails

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/35.m 
push 1
push 2
push 3
push 4
push 5
push 6
push 7
push 8
push 9
push 0
pall
rotl
pall
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/35.m 
0
9
8
7
6
5
4
3
2
1
9
8
7
6
5
4
3
2
1
0
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

14. rotr #advanced

Implement the rotr opcode.

The rotr opcode

The opcode rotr rotates the stack to the bottom.

Usage: rotr
The last element of the stack becomes the top element of the stack
rotr never fails

15. stack, queue #advanced

Implement the stack and queue opcodes.

The stack opcode

The opcode stack sets the format of the data to a stack (LIFO). This is the default behavior of the program.

Usage: stack

The queue opcode

The opcode queue sets the format of the data to a queue (FIFO).

Usage: queue

When switching mode:

the top of the stack becomes the front of the queue
the front of the queue becomes the top of the stack

julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ cat bytecodes/47.m
queue
push 1
push 2
push 3
pall
stack
push 4
push 5
push 6
pall
add
pall
queue
push 11111
add
pall
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$ ./monty bytecodes/47.m
1
2
3
6
5
4
1
2
3
11
4
1
2
3
15
1
2
3
11111
julien@ubuntu:~/0x18. Stack (LIFO) & queue (FIFO)$

16. Holberton #advanced

Write a Brainf*ck script that prints Holberton, followed by a new line.

All your Brainf*ck files should be stored inside the brainfuck sub directory
You can install the bf interpreter to test your code: sudo apt-get install bf
Read: Brainf*ck

julien@ubuntu:~/brainfuck$ bf 1000-holberton.bf 
Holberton
julien@ubuntu:~/brainfuck$

17. Add two digits #advanced

Add two digits given by the user.

Read the two digits from stdin, add them, and print the result
The total of the two digits with be one digit-long (<10)

julien@ubuntu:~/brainfuck$ bf ./1001-add.bf
81
9julien@ubuntu:~/brainfuck$

18. Multiplication #advanced

Multiply two digits given by the user.

Read the two digits from stdin, multiply them, and print the result
The result of the multiplication will be one digit-long (<10)

julien@ubuntu:~/braifuck$ bf 1002-mul.bf
24
8julien@ubuntu:~/braifuck$

19. Multiplication level up #advanced