## experimental compiler to translate programs written in a generic ## expression-oriented language called 'lambda' into mu scenario convert-lambda [ run [ local-scope 1:text/raw <- lambda-to-mu [(add a (multiply b c))] 2:@:char/raw <- copy *1:text/raw ] memory-should-contain [ 2:@:char <- [t1 <- multiply b c result <- add a t1] ] ] def lambda-to-mu in:text -> out:text [ local-scope load-ingredients out <- copy 0 cells:&:cell <- parse in out <- to-mu cells ] # 'parse' will turn lambda expressions into trees made of cells exclusive-container cell [ atom:text pair:pair ] # printed below as < first | rest > container pair [ first:&:cell rest:&:cell ] def new-atom name:text -> result:&:cell [ local-scope load-ingredients result <- new cell:type *result <- merge 0/tag:atom, name ] def new-pair a:&:cell, b:&:cell -> result:&:cell [ local-scope load-ingredients result <- new cell:type *result <- merge 1/tag:pair, a/first, b/rest ] def is-atom? x:&:cell -> result:bool [ local-scope load-ingredients reply-unless x, 0/false _, result <- maybe-convert *x, atom:variant ] def is-pair? x:&:cell -> result:bool [ local-scope load-ingredients reply-unless x, 0/false _, result <- maybe-convert *x, pair:variant ] scenario atom-is-not-pair [ local-scope s:text <- new [a] x:&:cell <- new-atom s 10:bool/raw <- is-atom? x 11:bool/raw <- is-pair? x memory-should-contain [ 10 <- 1 11 <- 0 ] ] scenario pair-is-not-atom [ local-scope # construct (a . nil) s:text <- new [a] x:&:cell <- new-atom s y:&:cell <- new-pair x, 0/nil 10:bool/raw <- is-atom? y 11:bool/raw <- is-pair? y memory-should-contain [ 10 <- 0 11 <- 1 ] ] def atom-match? x:&:cell, pat:text -> result:bool [ local-scope load-ingredients s:text, is-atom?:bool <- maybe-convert *x, atom:variant reply-unless is-atom?, 0/false result <- equal pat, s ] scenario atom-match [ local-scope x:&:cell <- new-atom [abc] 10:bool/raw <- atom-match? x, [abc] memory-should-contain [ 10 <- 1 ] ] def first x:&:cell -> result:&:cell [ local-scope load-ingredients pair:pair, pair?:bool <- maybe-convert *x, pair:variant reply-unless pair?, 0/nil result <- get pair, first:offset ] def rest x:&:cell -> result:&:cell [ local-scope load-ingredients pair:pair, pair?:bool <- maybe-convert *x, pair:variant reply-unless pair?, 0/nil result <- get pair, rest:offset ] def set-first base:&:cell, new-first:&:cell -> base:&:cell [ local-scope load-ingredients pair:pair, is-pair?:bool <- maybe-convert *base, pair:variant reply-unless is-pair? pair <- put pair, first:offset, new-first *base <- merge 1/pair, pair ] def set-rest base:&:cell, new-rest:&:cell -> base:&:cell [ local-scope load-ingredients pair:pair, is-pair?:bool <- maybe-convert *base, pair:variant reply-unless is-pair? pair <- put pair, rest:offset, new-rest *base <- merge 1/pair, pair ] scenario cell-operations-on-atom [ local-scope s:text <- new [a] x:&:cell <- new-atom s 10:&:cell/raw <- first x 11:&:cell/raw <- rest x memory-should-contain [ 10 <- 0 # first is nil 11 <- 0 # rest is nil ] ] scenario cell-operations-on-pair [ local-scope # construct (a . nil) s:text <- new [a] x:&:cell <- new-atom s y:&:cell <- new-pair x, 0/nil x2:&:cell <- first y 10:bool/raw <- equal x, x2 11:&:cell/raw <- rest y memory-should-contain [ 10 <- 1 # first is correct 11 <- 0 # rest is nil ] ] ## convert lambda text to a tree of cells def parse in:text -> out:&:cell [ local-scope load-ingredients s:&:stream:char <- new-stream in out, s <- parse s trace 2, [app/parse], out ] def parse in:&:stream:char -> out:&:cell, in:&:stream:char [ local-scope load-ingredients # skip whitespace in <- skip-whitespace in c:char, eof?:bool <- peek in reply-if eof?, 0/nil pair?:bool <- equal c, 40/open-paren { break-if pair? # atom buf:&:buffer <- new-buffer 30 { done?:bool <- end-of-stream? in break-if done? # stop before close paren or space c:char <- peek in done? <- equal c, 41/close-paren break-if done? done? <- space? c break-if done? c <- read in buf <- append buf, c loop } s:text <- buffer-to-array buf out <- new-atom s } { break-unless pair? # pair read in # skip the open-paren out <- new cell:type # start out with nil # read in first element of pair { end?:bool <- end-of-stream? in not-end?:bool <- not end? assert not-end?, [unbalanced '(' in expression] c <- peek in close-paren?:bool <- equal c, 41/close-paren break-if close-paren? first:&:cell, in <- parse in *out <- merge 1/pair, first, 0/nil } # read in any remaining elements curr:&:cell <- copy out { in <- skip-whitespace in end?:bool <- end-of-stream? in not-end?:bool <- not end? assert not-end?, [unbalanced '(' in expression] # termination check: ')' c <- peek in { close-paren?:bool <- equal c, 41/close-paren break-unless close-paren? read in # skip ')' break +end-pair:label } # still here? read next element of pair next:&:cell, in <- parse in is-dot?:bool <- atom-match? next, [.] { break-if is-dot? next-curr:&:cell <- new-pair next, 0/nil curr <- set-rest curr, next-curr curr <- rest curr } { break-unless is-dot? # deal with dotted pair in <- skip-whitespace in c <- peek in not-close-paren?:bool <- not-equal c, 41/close-paren assert not-close-paren?, [')' cannot immediately follow '.'] final:&:cell <- parse in curr <- set-rest curr, final # we're not gonna update curr, so better make sure the next iteration # is going to end the pair in <- skip-whitespace in c <- peek in close-paren?:bool <- equal c, 41/close-paren assert close-paren?, ['.' must be followed by exactly one expression before ')'] } loop } +end-pair } ] def skip-whitespace in:&:stream:char -> in:&:stream:char [ local-scope load-ingredients { done?:bool <- end-of-stream? in reply-if done?, 0/null c:char <- peek in space?:bool <- space? c break-unless space? read in # skip loop } ] def to-text x:&:cell -> out:text [ local-scope load-ingredients buf:&:buffer <- new-buffer 30 buf <- to-buffer x, buf out <- buffer-to-array buf ] def to-buffer x:&:cell, buf:&:buffer -> buf:&:buffer [ local-scope load-ingredients # base case: empty cell { break-if x buf <- append buf, [<>] reply } # base case: atom { s:text, atom?:bool <- maybe-convert *x, atom:variant break-unless atom? buf <- append buf, s reply } # recursive case: pair buf <- append buf, [< ] first:&:cell <- first x buf <- to-buffer first, buf buf <- append buf, [ | ] rest:&:cell <- rest x buf <- to-buffer rest, buf buf <- append buf, [ >] ] scenario parse-single-letter-atom [ local-scope s:text <- new [a] x:&:cell <- parse s s2:text, 10:bool/raw <- maybe-convert *x, atom:variant 11:@:char/raw <- copy *s2 memory-should-contain [ 10 <- 1 # parse result is an atom 11:@:char <- [a] ] ] scenario parse-atom [ local-scope s:text <- new [abc] x:&:cell <- parse s s2:text, 10:bool/raw <- maybe-convert *x, atom:variant 11:@:char/raw <- copy *s2 memory-should-contain [ 10 <- 1 # parse result is an atom 11:@:char <- [abc] ] ] scenario parse-list-of-two-atoms [ local-scope s:text <- new [(abc def)] x:&:cell <- parse s trace-should-contain [ app/parse: < abc | < def | <> > > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x x2:&:cell <- rest x s1:text, 11:bool/raw <- maybe-convert *x1, atom:variant 12:bool/raw <- is-pair? x2 x3:&:cell <- first x2 s2:text, 13:bool/raw <- maybe-convert *x3, atom:variant 14:&:cell/raw <- rest x2 20:@:char/raw <- copy *s1 30:@:char/raw <- copy *s2 memory-should-contain [ 10 <- 1 # parse result is a pair 11 <- 1 # result.first is an atom 12 <- 1 # result.rest is a pair 13 <- 1 # result.rest.first is an atom 14 <- 0 # result.rest.rest is nil 20:@:char <- [abc] # result.first 30:@:char <- [def] # result.rest.first ] ] scenario parse-list-with-extra-spaces [ local-scope s:text <- new [ ( abc def ) ] # extra spaces x:&:cell <- parse s trace-should-contain [ app/parse: < abc | < def | <> > > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x x2:&:cell <- rest x s1:text, 11:bool/raw <- maybe-convert *x1, atom:variant 12:bool/raw <- is-pair? x2 x3:&:cell <- first x2 s2:text, 13:bool/raw <- maybe-convert *x3, atom:variant 14:&:cell/raw <- rest x2 20:@:char/raw <- copy *s1 30:@:char/raw <- copy *s2 memory-should-contain [ 10 <- 1 # parse result is a pair 11 <- 1 # result.first is an atom 12 <- 1 # result.rest is a pair 13 <- 1 # result.rest.first is an atom 14 <- 0 # result.rest.rest is nil 20:@:char <- [abc] # result.first 30:@:char <- [def] # result.rest.first ] ] scenario parse-list-of-more-than-two-atoms [ local-scope s:text <- new [(abc def ghi)] x:&:cell <- parse s trace-should-contain [ app/parse: < abc | < def | < ghi | <> > > > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x x2:&:cell <- rest x s1:text, 11:bool/raw <- maybe-convert *x1, atom:variant 12:bool/raw <- is-pair? x2 x3:&:cell <- first x2 s2:text, 13:bool/raw <- maybe-convert *x3, atom:variant x4:&:cell <- rest x2 14:bool/raw <- is-pair? x4 x5:&:cell <- first x4 s3:text, 15:bool/raw <- maybe-convert *x5, atom:variant 16:&:cell/raw <- rest x4 20:@:char/raw <- copy *s1 30:@:char/raw <- copy *s2 40:@:char/raw <- copy *s3 memory-should-contain [ 10 <- 1 # parse result is a pair 11 <- 1 # result.first is an atom 12 <- 1 # result.rest is a pair 13 <- 1 # result.rest.first is an atom 14 <- 1 # result.rest.rest is a pair 15 <- 1 # result.rest.rest.first is an atom 16 <- 0 # result.rest.rest.rest is nil 20:@:char <- [abc] # result.first 30:@:char <- [def] # result.rest.first 40:@:char <- [ghi] # result.rest.rest ] ] scenario parse-nested-list [ local-scope s:text <- new [((abc))] x:&:cell <- parse s trace-should-contain [ app/parse: < < abc | <> > | <> > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x 11:bool/raw <- is-pair? x x2:&:cell <- first x1 s1:text, 12:bool/raw <- maybe-convert *x2, atom:variant 13:&:cell/raw <- rest x1 14:&:cell/raw <- rest x 20:@:char/raw <- copy *s1 memory-should-contain [ 10 <- 1 # parse result is a pair 11 <- 1 # result.first is a pair 12 <- 1 # result.first.first is an atom 13 <- 0 # result.first.rest is nil 14 <- 0 # result.rest is nil 20:@:char <- [abc] # result.first.first ] ] scenario parse-nested-list-2 [ local-scope s:text <- new [((abc) def)] x:&:cell <- parse s trace-should-contain [ app/parse: < < abc | <> > | < def | <> > > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x 11:bool/raw <- is-pair? x x2:&:cell <- first x1 s1:text, 12:bool/raw <- maybe-convert *x2, atom:variant 13:&:cell/raw <- rest x1 x3:&:cell <- rest x x4:&:cell <- first x3 s2:text, 14:bool/raw <- maybe-convert *x4, atom:variant 15:&:cell/raw <- rest x3 20:@:char/raw <- copy *s1 30:@:char/raw <- copy *s2 memory-should-contain [ 10 <- 1 # parse result is a pair 11 <- 1 # result.first is a pair 12 <- 1 # result.first.first is an atom 13 <- 0 # result.first.rest is nil 14 <- 1 # result.rest.first is an atom 15 <- 0 # result.rest.rest is nil 20:@:char <- [abc] # result.first.first 30:@:char <- [def] # result.rest.first ] ] # todo: uncomment these tests after we figure out how to continue tests after # assertion failures #? scenario parse-error [ #? local-scope #? s:text <- new [(] #? #? hide-errors #? x:&:cell <- parse s #? #? show-errors #? trace-should-contain [ #? error: unbalanced '(' in expression #? ] #? ] #? #? scenario parse-error-after-element [ #? local-scope #? s:text <- new [(abc] #? #? hide-errors #? x:&:cell <- parse s #? #? show-errors #? trace-should-contain [ #? error: unbalanced '(' in expression #? ] #? ] scenario parse-dotted-list-of-two-atoms [ local-scope s:text <- new [(abc . def)] x:&:cell <- parse s trace-should-contain [ app/parse: < abc | def > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x x2:&:cell <- rest x s1:text, 11:bool/raw <- maybe-convert *x1, atom:variant s2:text, 12:bool/raw <- maybe-convert *x2, atom:variant 20:@:char/raw <- copy *s1 30:@:char/raw <- copy *s2 memory-should-contain [ # parses to < abc | def > 10 <- 1 # parse result is a pair 11 <- 1 # result.first is an atom 12 <- 1 # result.rest is an atom 20:@:char <- [abc] # result.first 30:@:char <- [def] # result.rest ] ] scenario parse-dotted-list-of-more-than-two-atoms [ local-scope s:text <- new [(abc def . ghi)] x:&:cell <- parse s trace-should-contain [ app/parse: < abc | < def | ghi > > ] 10:bool/raw <- is-pair? x x1:&:cell <- first x x2:&:cell <- rest x s1:text, 11:bool/raw <- maybe-convert *x1, atom:variant 12:bool/raw <- is-pair? x2 x3:&:cell <- first x2 s2:text, 13:bool/raw <- maybe-convert *x3, atom:variant x4:&:cell <- rest x2 s3:text, 14:bool/raw <- maybe-convert *x4, atom:variant 20:@:char/raw <- copy *s1 30:@:char/raw <- copy *s2 40:@:char/raw <- copy *s3 memory-should-contain [ 10 <- 1 # parse result is a pair 11 <- 1 # result.first is an atom 12 <- 1 # result.rest is a pair 13 <- 1 # result.rest.first is an atom 14 <- 1 # result.rest.rest is an atom 20:@:char <- [abc] # result.first 30:@:char <- [def] # result.rest.first 40:@:char <- [ghi] # result.rest.rest ] ] ## convert tree of cells to mu text def to-mu in:&:cell -> out:text [ local-scope load-ingredients buf:&:buffer <- new-buffer 30 buf <- to-mu in, buf out <- buffer-to-array buf ] def to-mu in:&:cell, buf:&:buffer -> buf:&:buffer, result-name:text [ local-scope load-ingredients # null cell? no change. # pair with all atoms? gensym a new variable # pair containing other pairs? recurse result-name <- copy 0 ]