// Core Part about an Interpreter for
// the Brainf*** language
//==============================================
object CW10a {
// representation of Bf memory
type Mem = Map[Int, Int]
// (1) Write a function that takes a file name as argument and
// and requests the corresponding file from disk. It Returns the
// content of the file as a String. If the file does not exists,
// the function should Return the empty string.
import io.Source
import scala.util._
//def load_bff(name: String) : String = ...
// (2) Complete the functions for safely reading
// and writing brainf*** memory. Safely read should
// Return the value stored in the Map for a given memory
// pointer, provided it exists; otherwise it Returns 0. The
// writing function generates a new Map with the
// same data, except at the given memory pointer the
// value v is stored.
//def sread(mem: Mem, mp: Int) : Int = ...
//def write(mem: Mem, mp: Int, v: Int) : Mem = ...
// (3) Implement the two jumping instructions in the
// brainf*** language. In jumpRight, given a program and
// a program counter move the program counter to the right
// until after the *matching* ]-command. Similarly,
// jumpLeft implements the move to the left to just after
// the *matching* [-command.
//def jumpRight(prog: String, pc: Int, level: Int) : Int = ...
//def jumpLeft(prog: String, pc: Int, level: Int) : Int = ...
// testcases
//jumpRight("""--[..+>--],>,++""", 3, 0) // => 10
//jumpLeft("""--[..+>--],>,++""", 8, 0) // => 3
//jumpRight("""--[..[+>]--],>,++""", 3, 0) // => 12
//jumpRight("""--[..[[-]+>[.]]--],>,++""", 3, 0) // => 18
//jumpRight("""--[..[[-]+>[.]]--,>,++""", 3, 0) // => 22 (outside)
//jumpLeft("""[******]***""", 7, 0) // => -1 (outside)
// (4) Complete the compute function that interprets (runs) a brainf***
// program: the arguments are a program (represented as a string), a program
// counter, a memory counter and a brainf*** memory. It Returns the
// memory at the stage when the execution of the brainf*** program
// finishes. The interpretation finishes once the program counter
// pc is pointing to something outside the program string.
// If the pc points to a character inside the program, the pc,
// memory pointer and memory need to be updated according to
// rules of the brainf*** language. Then, recursively, the compute
// function continues with the command at the new program
// counter.
//
// Implement the run function that calls compute with the program
// counter and memory counter set to 0.
//def compute(prog: String, pc: Int, mp: Int, mem: Mem) : Mem = ...
//def run(prog: String, m: Mem = Map()) = ...
/*
// some sample bf-programs collected from the Internet
//=====================================================
// first some contrived (small) programs
// clears the 0-cell
run("[-]", Map(0 -> 100)) // Map will be 0 -> 0
// copies content of the 0-cell to 1-cell
run("[->+<]", Map(0 -> 10)) // Map will be 0 -> 0, 1 -> 10
// copies content of the 0-cell to 2-cell and 4-cell
run("[>>+>>+<<<<-]", Map(0 -> 42))
// prints out numbers 0 to 9
run("""+++++[->++++++++++<]>--<+++[->>++++++++++<<]>>++<<----------[+>.>.<+<]""")
// some more "useful" programs
// hello world program 1
run("""++++++++[>++++[>++>+++>+++>+<<<<-]>+>+>->>+[<]<-]>>.>---.+++++++
..+++.>>.<-.<.+++.------.--------.>>+.>++.""")
// hello world program 2
run("""++++++++++[>+++++++>++++++++++>+++>+<<<<-]>++.>+.+++++++..+++.>+
+.<<+++++++++++++++.>.+++.------.--------.>+.>.""")
// draws the Sierpinski triangle
run("""++++++++[>+>++++<<-]>++>>+<[-[>>+<<-]+>>]>+[-<<<[
->[+[-]+>++>>>-<<]<[<]>>++++++[<<+++++>>-]+<<++.[-]<<
]>.>+[>>]>+]""")
run(load_bff("sierpinski.bf"))
//fibonacci numbers below 100
run("""+++++++++++
>+>>>>++++++++++++++++++++++++++++++++++++++++++++
>++++++++++++++++++++++++++++++++<<<<<<[>[>>>>>>+>
+<<<<<<<-]>>>>>>>[<<<<<<<+>>>>>>>-]<[>++++++++++[-
<-[>>+>+<<<-]>>>[<<<+>>>-]+<[>[-]<[-]]>[<<[>>>+<<<
-]>>[-]]<<]>>>[>>+>+<<<-]>>>[<<<+>>>-]+<[>[-]<[-]]
>[<<+>>[-]]<<<<<<<]>>>>>[+++++++++++++++++++++++++
+++++++++++++++++++++++.[-]]++++++++++<[->-<]>++++
++++++++++++++++++++++++++++++++++++++++++++.[-]<<
<<<<<<<<<<[>>>+>+<<<<-]>>>>[<<<<+>>>>-]<-[>>.>.<<<
[-]]<<[>>+>+<<<-]>>>[<<<+>>>-]<<[<+>-]>[<+>-]<<<-]""")
//outputs the square numbers up to 10000
run("""++++[>+++++<-]>[<+++++>-]+<+[
>[>+>+<<-]++>>[<<+>>-]>>>[-]++>[-]+
>>>+[[-]++++++>>>]<<<[[<++++++++<++>>-]+<.<[>----<-]<]
<<[>>>>>[>>>[-]+++++++++<[>-<-]+++++++++>[-[<->-]+[<<<]]<[>+<-]>]<<-]<<-]""")
//collatz numbers (needs a number to be typed in)
run(""">,[[----------[
>>>[>>>>]+[[-]+<[->>>>++>>>>+[>>>>]++[->+<<<<<]]<<<]
++++++[>------<-]>--[>>[->>>>]+>+[<<<<]>-],<]>]>>>++>+>>[
<<[>>>>[-]+++++++++<[>-<-]+++++++++>[-[<->-]+[<<<<]]<[>+<-]>]
>[>[>>>>]+[[-]<[+[->>>>]>+<]>[<+>[<<<<]]+<<<<]>>>[->>>>]+>+[<<<<]]
>[[>+>>[<<<<+>>>>-]>]<<<<[-]>[-<<<<]]>>>>>>>
]>>+[[-]++++++>>>>]<<<<[[<++++++++>-]<.[-]<[-]<[-]<]<,]""")
// infinite collatz (never stops)
run(""">>+>+<[[->>[>>]>>>[>>]+[<<]<<<[<<]>[>[>>]>>+>[>>]<+<[<<]<<<[<
<]>-]>[>>]>>[<<<<[<<]>+>[>>]>>-]<<<<[<<]+>>]<<[+++++[>+++++++
+<-]>.<++++++[>--------<-]+<<]>>[>>]+[>>>>[<<+>+>-]<-[>+<-]+<
[<<->>-[<<+>>[-]]]>>>[<<<+<<+>>>>>-]<<<[>>>+<<<-]<<[[-]>+>>->
[<+<[<<+>>-]<[>+<-]<[>+<-]>>>>-]<[>+<-]+<[->[>>]<<[->[<+++>-[
<+++>-[<+++>-[<[-]++>>[-]+>+<<-[<+++>-[<+++>-[<[-]+>>>+<<-[<+
++>-[<+++>-]]]]]]]]]<[>+<-]+<<]>>>+<[->[<+>-[<+>-[<+>-[<+>-[<
+>-[<+>-[<+>-[<+>-[<+>-[<[-]>>[-]+>+<<-[<+>-]]]]]]]]]]]<[>+<-
]+>>]<<[<<]>]<[->>[->+>]<[-[<+>-[<->>+<-[<+>-[<->>+<-[<+>-[<-
>>+<-[<+>-[<->>+<-[<+>-[<->>+<-[<+>-[<->>+<-[<+>-[<->>+<-[<+>
-[<->>+<-[<+>-[<->>+<-[<+>-]]]]]]]]]]]]]]]]]]]>[<+>-]<+<[<+++
+++++++>-]<]>>[<+>->>]<<[>+>+<<-]>[<+>-]+>[<->[-]]<[-<<-]<<[<
<]]++++++[>+++++++<-]>++.------------.[-]>[>>]<<[+++++[>+++++
+++<-]>.<++++++[>--------<-]+<<]+<]>[<+>-]<]>>>[>>]<<[>[-]<-<
<]++++++++++.[-]<<<[<<]>>>+<[->[<+>-[<+>-[<+>-[<+>-[<+>-[<+>-
[<+>-[<+>-[<+>-[<[-]>>[-]+>+<<-]]]]]]]]]]<[>+<-]+>>]<<[<<]>>]""")
// a Mandelbrot set generator in brainf*** written by Erik Bosman
// (http://esoteric.sange.fi/brainfuck/utils/mandelbrot/)
run(load_bff("mandelbrot.bf"))
// a benchmark program (counts down from 'Z' to 'A')
val b1 = """>++[<+++++++++++++>-]<[[>+>+<<-]>[<+>-]++++++++
[>++++++++<-]>.[-]<<>++++++++++[>++++++++++[>++
++++++++[>++++++++++[>++++++++++[>++++++++++[>+
+++++++++[-]<-]<-]<-]<-]<-]<-]<-]++++++++++."""
def time_needed[T](n: Int, code: => T) = {
val start = System.nanoTime()
for (i <- 0 until n) code
val end = System.nanoTime()
(end - start)/(n * 1.0e9)
}
time_needed(1, run(b1))
*/
}