# Chessboard program: you type in moves in algebraic notation, and it'll
# display the position after each move.
# recipes are mu's names for functions
recipe main [
open-console # take control of screen, keyboard and mouse
# The chessboard recipe takes keyboard and screen objects as 'ingredients'.
#
# In mu it is good form (though not required) to explicitly show the
# hardware you rely on.
#
# The chessboard also returns the same keyboard and screen objects. In mu it
# is good form to not modify ingredients of a recipe unless they are also
# results. Here we clearly modify both keyboard and screen, so we return
# both.
#
# Here the console and screen are both 0, which usually indicates real
# hardware rather than a fake for testing as you'll see below.
0/screen, 0/console <- chessboard 0/screen, 0/console
close-console # cleanup screen, keyboard and mouse
]
## But enough about mu. Here's what it looks like to run the chessboard program.
scenario print-board-and-read-move [
$close-trace # administrivia: most scenarios save and check traces, but this one gets too large/slow
# we'll make the screen really wide because the program currently prints out a long line
assume-screen 120/width, 20/height
# initialize keyboard to type in a move
assume-console [
type [a2-a4
]
]
run [
screen:address, console:address <- chessboard screen:address, console:address
# icon for the cursor
screen <- print-character screen, 9251/␣
]
screen-should-contain [
# 1 2 3 4 5 6 7 8 9 10 11
# 012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789
.Stupid text-mode chessboard. White pieces in uppercase; black pieces in lowercase. No checking for legal moves. .
. .
.8 | r n b q k b n r .
.7 | p p p p p p p p .
.6 | .
.5 | .
.4 | P .
.3 | .
.2 | P P P P P P P .
.1 | R N B Q K B N R .
. +---------------- .
. a b c d e f g h .
. .
.Type in your move as <from square>-<to square>. For example: 'a2-a4'. Then press <enter>. .
. .
.Hit 'q' to exit. .
. .
.move: ␣ .
. .
. .
]
]
## Here's how 'chessboard' is implemented.
recipe chessboard [
local-scope
screen:address <- next-ingredient
console:address <- next-ingredient
board:address:array:address:array:character <- initial-position
# hook up stdin
stdin:address:channel <- new-channel 10/capacity
start-running send-keys-to-channel:recipe, console, stdin, screen
# buffer lines in stdin
buffered-stdin:address:channel <- new-channel 10/capacity
start-running buffer-lines:recipe, stdin, buffered-stdin
{
msg:address:array:character <- new [Stupid text-mode chessboard. White pieces in uppercase; black pieces in lowercase. No checking for legal moves.
]
print-string screen, msg
cursor-to-next-line screen
print-board screen, board
cursor-to-next-line screen
msg <- new [Type in your move as <from square>-<to square>. For example: 'a2-a4'. Then press <enter>.
]
print-string screen, msg
cursor-to-next-line screen
msg <- new [Hit 'q' to exit.
]
print-string screen, msg
{
cursor-to-next-line screen
msg <- new [move: ]
print-string screen, msg
m:address:move, quit:boolean, error:boolean <- read-move buffered-stdin, screen
break-if quit, +quit:label
buffered-stdin <- clear-channel buffered-stdin # cleanup after error. todo: test this?
loop-if error
}
board <- make-move board, m
clear-screen screen
loop
}
+quit
]
## a board is an array of files, a file is an array of characters (squares)
recipe new-board [
local-scope
initial-position:address:array:number <- next-ingredient
# assert(length(initial-position) == 64)
len:number <- length *initial-position
correct-length?:boolean <- equal len, 64
assert correct-length?, [chessboard had incorrect size]
# board is an array of pointers to files; file is an array of characters
board:address:array:address:array:character <- new location:type, 8
col:number <- copy 0
{
done?:boolean <- equal col, 8
break-if done?
file:address:address:array:character <- index-address *board, col
*file <- new-file initial-position, col
col <- add col, 1
loop
}
reply board
]
recipe new-file [
local-scope
position:address:array:number <- next-ingredient
index:number <- next-ingredient
index <- multiply index, 8
result:address:array:character <- new character:type, 8
row:number <- copy 0
{
done?:boolean <- equal row, 8
break-if done?
dest:address:character <- index-address *result, row
*dest <- index *position, index
row <- add row, 1
index <- add index, 1
loop
}
reply result
]
recipe print-board [
local-scope
screen:address <- next-ingredient
board:address:array:address:array:character <- next-ingredient
row:number <- copy 7 # start printing from the top of the board
# print each row
#? $print [printing board to screen ], screen, 10/newline
{
done?:boolean <- lesser-than row, 0
break-if done?
#? $print [printing rank ], row, 10/newline
# print rank number as a legend
rank:number <- add row, 1
print-integer screen, rank
s:address:array:character <- new [ | ]
print-string screen, s
# print each square in the row
col:number <- copy 0
{
done?:boolean <- equal col:number, 8
break-if done?:boolean
f:address:array:character <- index *board, col
c:character <- index *f, row
print-character screen, c
print-character screen, 32/space
col <- add col, 1
loop
}
row <- subtract row, 1
cursor-to-next-line screen
loop
}
# print file letters as legend
#? $print [printing legend
#? ] #? 1
s <- new [ +----------------]
print-string screen, s
screen <- cursor-to-next-line screen
#? screen <- print-character screen, 97 #? 1
s <- new [ a b c d e f g h]
screen <- print-string screen, s
screen <- cursor-to-next-line screen
#? $print [done printing board
#? ] #? 1
]
# board:address:array:address:array:character <- initial-position
recipe initial-position [
local-scope
# layout in memory (in raster order):
# R P _ _ _ _ p r
# N P _ _ _ _ p n
# B P _ _ _ _ p b
# Q P _ _ _ _ p q
# K P _ _ _ _ p k
# B P _ _ _ _ p B
# N P _ _ _ _ p n
# R P _ _ _ _ p r
initial-position:address:array:number <- new-array 82/R, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 114/r, 78/N, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 110/n, 66/B, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 98/b, 81/Q, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 113/q, 75/K, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 107/k, 66/B, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 98/b, 78/N, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 110/n, 82/R, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 114/r
#? 82/R, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 114/r,
#? 78/N, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 110/n,
#? 66/B, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 98/b,
#? 81/Q, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 113/q,
#? 75/K, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 107/k,
#? 66/B, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 98/b,
#? 78/N, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 110/n,
#? 82/R, 80/P, 32/blank, 32/blank, 32/blank, 32/blank, 112/p, 114/r
board:address:array:address:array:character <- new-board initial-position
reply board
]
scenario printing-the-board [
assume-screen 30/width, 12/height
run [
1:address:array:address:array:character/board <- initial-position
screen:address <- print-board screen:address, 1:address:array:address:array:character/board
#? $dump-screen #? 1
]
screen-should-contain [
# 012345678901234567890123456789
.8 | r n b q k b n r .
.7 | p p p p p p p p .
.6 | .
.5 | .
.4 | .
.3 | .
.2 | P P P P P P P P .
.1 | R N B Q K B N R .
. +---------------- .
. a b c d e f g h .
. .
. .
]
]
## data structure: move
container move [
# valid range: 0-7
from-file:number
from-rank:number
to-file:number
to-rank:number
]
# result:address:move, quit?:boolean, error?:boolean <- read-move stdin:address:channel, screen:address
# prints only error messages to screen
recipe read-move [
local-scope
stdin:address:channel <- next-ingredient
screen:address <- next-ingredient
from-file:number, quit?:boolean, error?:boolean <- read-file stdin, screen
reply-if quit?, 0/dummy, quit?, error?
reply-if error?, 0/dummy, quit?, error?
# construct the move object
result:address:move <- new move:type
x:address:number <- get-address *result, from-file:offset
*x <- copy from-file
x <- get-address *result, from-rank:offset
*x, quit?, error? <- read-rank stdin, screen
reply-if quit?, 0/dummy, quit?, error?
reply-if error?, 0/dummy, quit?, error?
error? <- expect-from-channel stdin, 45/dash, screen
reply-if error?, 0/dummy, 0/quit, error?
x <- get-address *result, to-file:offset
*x, quit?, error? <- read-file stdin, screen
reply-if quit?:boolean, 0/dummy, quit?:boolean, error?:boolean
reply-if error?:boolean, 0/dummy, quit?:boolean, error?:boolean
x:address:number <- get-address *result, to-rank:offset
*x, quit?, error? <- read-rank stdin, screen
reply-if quit?, 0/dummy, quit?, error?
reply-if error?, 0/dummy, quit?, error?
error? <- expect-from-channel stdin, 10/newline, screen
reply-if error?, 0/dummy, 0/quit, error?
reply result, quit?, error?
]
# file:number, quit:boolean, error:boolean <- read-file stdin:address:channel, screen:address
# valid values for file: 0-7
recipe read-file [
local-scope
stdin:address:channel <- next-ingredient
screen:address <- next-ingredient
c:character, stdin <- read stdin
{
q-pressed?:boolean <- equal c, 81/Q
break-unless q-pressed?
reply 0/dummy, 1/quit, 0/error
}
{
q-pressed? <- equal c, 113/q
break-unless q-pressed?
reply 0/dummy, 1/quit, 0/error
}
{
empty-fake-keyboard?:boolean <- equal c, 0/eof
break-unless empty-fake-keyboard?
reply 0/dummy, 1/quit, 0/error
}
{
newline?:boolean <- equal c, 10/newline
break-unless newline?
error-message:address:array:character <- new [that's not enough]
print-string screen, error-message
reply 0/dummy, 0/quit, 1/error
}
file:number <- subtract c, 97/a
# 'a' <= file <= 'h'
{
above-min:boolean <- greater-or-equal file, 0
break-if above-min
error-message:address:array:character <- new [file too low: ]
print-string screen, error-message
print-character screen, c
cursor-to-next-line screen
reply 0/dummy, 0/quit, 1/error
}
{
below-max:boolean <- lesser-than file, 8
break-if below-max
error-message <- new [file too high: ]
print-string screen, error-message
print-character screen, c
reply 0/dummy, 0/quit, 1/error
}
reply file, 0/quit, 0/error
]
# rank:number <- read-rank stdin:address:channel, screen:address
# valid values: 0-7, -1 (quit), -2 (error)
recipe read-rank [
local-scope
stdin:address:channel <- next-ingredient
screen:address <- next-ingredient
c:character, stdin <- read stdin
{
q-pressed?:boolean <- equal c, 8/Q
break-unless q-pressed?
reply 0/dummy, 1/quit, 0/error
}
{
q-pressed? <- equal c, 113/q
break-unless q-pressed?
reply 0/dummy, 1/quit, 0/error
}
{
newline?:boolean <- equal c, 10 # newline
break-unless newline?
error-message:address:array:character <- new [that's not enough]
print-string screen, error-message
reply 0/dummy, 0/quit, 1/error
}
rank:number <- subtract c, 49/'1'
# assert'1' <= rank <= '8'
{
above-min:boolean <- greater-or-equal rank, 0
break-if above-min
error-message <- new [rank too low: ]
print-string screen, error-message
print-character screen, c
reply 0/dummy, 0/quit, 1/error
}
{
below-max:boolean <- lesser-or-equal rank, 7
break-if below-max
error-message <- new [rank too high: ]
print-string screen, error-message
print-character screen, c
reply 0/dummy, 0/quit, 1/error
}
reply rank, 0/quit, 0/error
]
# read a character from the given channel and check that it's what we expect
# return true on error
recipe expect-from-channel [
local-scope
stdin:address:channel <- next-ingredient
expected:character <- next-ingredient
screen:address <- next-ingredient
c:character, stdin <- read stdin
{
match?:boolean <- equal c, expected
break-if match?
s:address:array:character <- new [expected character not found]
print-string screen, s
}
result:boolean <- not match?
reply result
]
scenario read-move-blocking [
assume-screen 20/width, 2/height
run [
1:address:channel <- new-channel 2
2:number/routine <- start-running read-move:recipe, 1:address:channel, screen:address
# 'read-move' is waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-blocking: routine failed to pause after coming up (before any keys were pressed)]
# press 'a'
1:address:channel <- write 1:address:channel, 97/a
restart 2:number/routine
# 'read-move' still waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-blocking: routine failed to pause after rank 'a']
# press '2'
1:address:channel <- write 1:address:channel, 50/'2'
restart 2:number/routine
# 'read-move' still waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-blocking: routine failed to pause after file 'a2']
# press '-'
1:address:channel <- write 1:address:channel, 45/'-'
restart 2:number/routine
# 'read-move' still waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?/routine-state, [
F read-move-blocking: routine failed to pause after hyphen 'a2-']
# press 'a'
1:address:channel <- write 1:address:channel, 97/a
restart 2:number/routine
# 'read-move' still waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?/routine-state, [
F read-move-blocking: routine failed to pause after rank 'a2-a']
# press '4'
1:address:channel <- write 1:address:channel, 52/'4'
restart 2:number/routine
# 'read-move' still waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-blocking: routine failed to pause after file 'a2-a4']
# press 'newline'
1:address:channel <- write 1:address:channel, 10 # newline
restart 2:number/routine
# 'read-move' now completes
wait-for-routine 2:number
3:number <- routine-state 2:number
4:boolean/completed? <- equal 3:number/routine-state, 1/completed
assert 4:boolean/completed?, [
F read-move-blocking: routine failed to terminate on newline]
trace [test], [reached end]
]
trace-should-contain [
test: reached end
]
]
scenario read-move-quit [
assume-screen 20/width, 2/height
run [
1:address:channel <- new-channel 2
2:number/routine <- start-running read-move:recipe, 1:address:channel, screen:address
# 'read-move' is waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-quit: routine failed to pause after coming up (before any keys were pressed)]
# press 'q'
1:address:channel <- write 1:address:channel, 113/q
restart 2:number/routine
# 'read-move' completes
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/completed? <- equal 3:number/routine-state, 1/completed
assert 4:boolean/completed?, [
F read-move-quit: routine failed to terminate on 'q']
trace [test], [reached end]
]
trace-should-contain [
test: reached end
]
]
scenario read-move-illegal-file [
assume-screen 20/width, 2/height
run [
1:address:channel <- new-channel 2
2:number/routine <- start-running read-move:recipe, 1:address:channel, screen:address
# 'read-move' is waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-file: routine failed to pause after coming up (before any keys were pressed)]
1:address:channel <- write 1:address:channel, 50/'2'
restart 2:number/routine
wait-for-routine 2:number
]
screen-should-contain [
.file too low: 2 .
. .
]
]
scenario read-move-illegal-rank [
assume-screen 20/width, 2/height
run [
1:address:channel <- new-channel 2
2:number/routine <- start-running read-move:recipe, 1:address:channel, screen:address
# 'read-move' is waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-file: routine failed to pause after coming up (before any keys were pressed)]
1:address:channel <- write 1:address:channel, 97/a
1:address:channel <- write 1:address:channel, 97/a
restart 2:number/routine
wait-for-routine 2:number
]
screen-should-contain [
.rank too high: a .
. .
]
]
scenario read-move-empty [
assume-screen 20/width, 2/height
run [
1:address:channel <- new-channel 2
2:number/routine <- start-running read-move:recipe, 1:address:channel, screen:address
# 'read-move' is waiting for input
wait-for-routine 2:number
3:number <- routine-state 2:number/id
4:boolean/waiting? <- equal 3:number/routine-state, 2/waiting
assert 4:boolean/waiting?, [
F read-move-file: routine failed to pause after coming up (before any keys were pressed)]
1:address:channel <- write 1:address:channel, 10/newline
1:address:channel <- write 1:address:channel, 97/a
restart 2:number/routine
wait-for-routine 2:number
]
screen-should-contain [
.that's not enough .
. .
]
]
recipe make-move [
local-scope
b:address:array:address:array:character <- next-ingredient
m:address:move <- next-ingredient
from-file:number <- get *m, from-file:offset
from-rank:number <- get *m, from-rank:offset
to-file:number <- get *m, to-file:offset
to-rank:number <- get *m, to-rank:offset
f:address:array:character <- index *b, from-file
src:address:character/square <- index-address *f, from-rank
f <- index *b, to-file
dest:address:character/square <- index-address *f, to-rank
*dest <- copy *src
*src <- copy 32/space
reply b/same-as-ingredient:0
]
scenario making-a-move [
assume-screen 30/width, 12/height
run [
2:address:array:address:array:character/board <- initial-position
3:address:move <- new move:type
4:address:number <- get-address *3:address:move, from-file:offset
*4:address:number <- copy 6/g
5:address:number <- get-address *3:address:move, from-rank:offset
*5:address:number <- copy 1/'2'
6:address:number <- get-address *3:address:move, to-file:offset
*6:address:number <- copy 6/g
7:address:number <- get-address *3:address:move, to-rank:offset
*7:address:number <- copy 3/'4'
2:address:array:address:array:character/board <- make-move 2:address:array:address:array:character/board, 3:address:move
screen:address <- print-board screen:address, 2:address:array:address:array:character/board
]
screen-should-contain [
# 012345678901234567890123456789
.8 | r n b q k b n r .
.7 | p p p p p p p p .
.6 | .
.5 | .
.4 | P .
.3 | .
.2 | P P P P P P P .
.1 | R N B Q K B N R .
. +---------------- .
. a b c d e f g h .
. .
]
]