BlooP and FlooP


and are simple programming languages designed by Douglas Hofstadter to illustrate a point in his book Gödel, Escher, Bach. BlooP is a non-Turing-complete programming language whose main control flow structure is a bounded loop. All programs in the language must terminate, and this language can only express primitive recursive functions.
FlooP is identical to BlooP except that it supports unbounded loops; it is a Turing-complete language and can express all computable functions. For example, it can express the Ackermann function, which cannot be written in BlooP. Borrowing from standard terminology in mathematical logic, Hofstadter calls FlooP's unbounded loops MU-loops. Like all Turing-complete programming languages, FlooP suffers from the halting problem: programs might not terminate, and it is not possible, in general, to decide which programs do.
BlooP and FlooP can be regarded as models of computation, and have sometimes been used in teaching computability.

BlooP examples

The only variables are output and cell. The only operators are , +, ×, <, > and =.
Each program uses only a finite number of cells, but the numbers in the cells can be arbitrarily large. Data structures such as lists or stacks can be handled by interpreting the number in a cell in specific ways, that is, by Gödel numbering the possible structures.
Control flow constructs include bounded loops, conditional statements, ABORT jumps out of loops, and QUIT jumps out of blocks. BlooP does not permit recursion, unrestricted jumps, or anything else that would have the same effect as the unbounded loops of FlooP. Named procedures can be defined, but these can call only previously defined procedures.

Factorial function

Subtraction function

This is not a built-in operation and never gives a negative result. Note that OUTPUT starts at 0, like all the CELLs, and therefore requires no initialization.

FlooP example

The example below, which implements the Ackermann function, relies on simulating a stack using Gödel numbering: that is, on previously defined numerical functions PUSH, POP, and TOP satisfying PUSH > 0, TOP PUSH [N, S = [N, and POP PUSH [N, S = S. Since an unbounded MU-LOOP is used, this is not a legal BlooP program. The QUIT BLOCK instructions in this case [jump to the end of the block and repeat the loop, unlike the ABORT, which exits the loop.