For quick start see HOW TO RUN.
instructions - 4 bits
| +-- addresses - 4 bits
v v
----***- <- 0 ----
--*-**-* <- 1 ---*
---***-- <- 2 --*-
---***** <- 3 --**
----***- <- 4 -*--
---***-* <- 5 -*-*
----**-- <- 6 -**-
---****- <- 7 -***
-***---* <- 8 *---
-*--**** <- 9 *--*
-------- <- 10 *-*-
-------- <- 11 *-**
-------- <- 12 **--
-------* <- 13 **-*
-------* <- 14 ***-
<OUTPUT> <- 15 ****
- Execution starts at the first address (0).
- Execution stops when program reaches last address (15).
- Whatever gets written to the last address is sent to the printer.
- When reading from the last address (15), we get a random byte value.
- CPU has one 8 bit register.
READ ----
- Copies the value at the specified address into register.WRITE ---*
- Copies value of the register to the specified address.ADD --*-
- Adds value at the specified address to the value of the register, and writes result to the register. If the result is bigger than the maximum possible value (255 = ********) then 255 gets written.SUBTRACT --**
- Subtracts value at the speicfied address from the value of the register, and writes result to the register. If the result is smaller than 0 then 0 gets written.JUMP -*--
- Changes the value of the program counter to the specified address, meaning that in the next cycle execution will continue at that address.IF MAX -*-*
- Jumps to the specified address if register has value 255 =********
.IF MIN -**-
- Jumps to the specified address if register has value 0 =--------
.SHIFT R -***
- Moves every bit of the register one spot to the right. This way rightmost bit gets lost, and a leftmost becomes '-'. This is the only instruction that doesn't use the address part, making the last four bits irrelevant.- Any instruction that is not defined above is interpreted as
READ ----
instruction.
- Install Tiny Core Linux on VirtualBox using this instructions.
- Run the UNIX commands.
$ git clone https://github.com/gto76/comp-cpp.git
$ cd comp-cpp
$ ./run
- Mark II, model with separate address space for code and data, and with more instructions. Programs can be saved and loaded and it can run without the interface (instead of a printer, it then uses stdout). Also input can be piped in.