type environment { screen: (handle screen) cursor-word: (handle word) nrows: int ncols: int code-separator-col: int } fn initialize-environment _env: (addr environment) { var env/esi: (addr environment) <- copy _env var cursor-word-ah/eax: (addr handle word) <- get env, cursor-word allocate cursor-word-ah var cursor-word/eax: (addr word) <- lookup *cursor-word-ah initialize-word cursor-word # var screen-ah/eax: (addr handle screen) <- get env, screen var _screen/eax: (addr screen) <- lookup *screen-ah var screen/edi: (addr screen) <- copy _screen var nrows/eax: int <- copy 0 var ncols/ecx: int <- copy 0 nrows, ncols <- screen-size screen var dest/edx: (addr int) <- get env, nrows copy-to *dest, nrows dest <- get env, ncols copy-to *dest, ncols ncols <- shift-right 1 dest <- get env, code-separator-col copy-to *dest, ncols clear-canvas env ncols <- add 2 # repl-margin-left move-cursor screen, 3, ncols # input-row, input-col } fn initialize-environment-with-fake-screen _self: (addr environment), nrows: int, ncols: int { var self/esi: (addr environment) <- copy _self var screen-ah/eax: (addr handle screen) <- get self, screen allocate screen-ah var screen-addr/eax: (addr screen) <- lookup *screen-ah initialize-screen screen-addr, nrows, ncols initialize-environment self } fn render-loop _self: (addr environment) { var self/esi: (addr environment) <- copy _self $interactive:loop: { var key/eax: grapheme <- read-key-from-real-keyboard compare key, 0x71 # 'q' break-if-= process self, key render self loop } } fn process _self: (addr environment), key: grapheme { $process:body: { var self/esi: (addr environment) <- copy _self compare key, 0x445b1b # left-arrow { break-if-!= var cursor-word-ah/edi: (addr handle word) <- get self, cursor-word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah var cursor-word/ecx: (addr word) <- copy _cursor-word # if not at start, move left within current word var at-start?/eax: boolean <- cursor-at-start? cursor-word compare at-start?, 0 # false { break-if-= cursor-left cursor-word break $process:body } # otherwise, move to end of prev word var prev-word-ah/esi: (addr handle word) <- get cursor-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah { compare prev-word, 0 break-if-= copy-object prev-word-ah, cursor-word-ah cursor-to-end prev-word } break $process:body } compare key, 0x435b1b # right-arrow { break-if-!= var cursor-word-ah/edi: (addr handle word) <- get self, cursor-word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah var cursor-word/ecx: (addr word) <- copy _cursor-word # if not at end, move right within current word var at-end?/eax: boolean <- cursor-at-end? cursor-word compare at-end?, 0 # false { break-if-= cursor-right cursor-word break $process:body } # otherwise, move to start of next word var next-word-ah/esi: (addr handle word) <- get cursor-word, next var next-word/eax: (addr word) <- lookup *next-word-ah { compare next-word, 0 break-if-= copy-object next-word-ah, cursor-word-ah cursor-to-start next-word } break $process:body } compare key, 0x7f # del (backspace on Macs) { break-if-!= var cursor-word-ah/edi: (addr handle word) <- get self, cursor-word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah var cursor-word/ecx: (addr word) <- copy _cursor-word # if not at start of some word, delete grapheme before cursor within current word var at-start?/eax: boolean <- cursor-at-start? cursor-word compare at-start?, 0 # false { break-if-= delete-before-cursor cursor-word break $process:body } # otherwise delete current word and move to end of prev word var prev-word-ah/esi: (addr handle word) <- get cursor-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah { compare prev-word, 0 break-if-= copy-object prev-word-ah, cursor-word-ah cursor-to-end prev-word delete-next prev-word } break $process:body } compare key, 0x20 # space { break-if-!= # insert new word var cursor-word-ah/edx: (addr handle word) <- get self, cursor-word append-word cursor-word-ah var cursor-word/eax: (addr word) <- lookup *cursor-word-ah var next-word-ah/ecx: (addr handle word) <- get cursor-word, next copy-object next-word-ah, cursor-word-ah break $process:body } # otherwise insert key within current word var g/edx: grapheme <- copy key var print?/eax: boolean <- real-grapheme? key { compare print?, 0 # false break-if-= var cursor-word-ah/eax: (addr handle word) <- get self, cursor-word var cursor-word/eax: (addr word) <- lookup *cursor-word-ah add-grapheme-to-word cursor-word, g break $process:body } # silently ignore other hotkeys } } fn render _env: (addr environment) { var env/esi: (addr environment) <- copy _env clear-canvas env var screen-ah/edi: (addr handle screen) <- get env, screen var _screen/eax: (addr screen) <- lookup *screen-ah var screen/edi: (addr screen) <- copy _screen var _repl-col/ecx: (addr int) <- get env, code-separator-col var repl-col/ecx: int <- copy *_repl-col repl-col <- add 2 # repl-margin-left # cursor-word var cursor-word-ah/esi: (addr handle word) <- get env, cursor-word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah var cursor-word/ebx: (addr word) <- copy _cursor-word # curr-word var curr-word/eax: (addr word) <- first-word cursor-word # first-word var first-word: (addr word) copy-to first-word, curr-word # cursor-col var cursor-col: int var cursor-col-a: (addr int) { var tmp/ecx: (addr int) <- address cursor-col copy-to cursor-col-a, tmp } # curr-col var curr-col/ecx: int <- copy repl-col # input-col { compare curr-word, 0 break-if-= move-cursor screen, 3, curr-col # input-row curr-col <- render-column screen, first-word, curr-word, curr-col, cursor-word, cursor-col-a var next-word-ah/edx: (addr handle word) <- get curr-word, next curr-word <- lookup *next-word-ah loop } var col/eax: (addr int) <- copy cursor-col-a move-cursor screen, 3, *col # input-row } # Render: # - final-word # - the stack result from interpreting first-world to final-word (inclusive) # - unless final-word is truly the final word, in which case it might be incomplete # # Outputs: # - Return the farthest column written. # - If final-word is same as cursor-word, do some additional computation to set # cursor-col-a. fn render-column screen: (addr screen), first-word: (addr word), final-word: (addr word), left-col: int, cursor-word: (addr word), cursor-col-a: (addr int) -> right-col/ecx: int { var max-width/ecx: int <- copy 0 { # render stack for all but final column var curr/eax: (addr word) <- copy final-word var next-ah/eax: (addr handle word) <- get curr, next var next/eax: (addr word) <- lookup *next-ah compare next, 0 break-if-= # indent stack var indented-col/ebx: int <- copy left-col indented-col <- add 1 # margin-right - 2 for padding spaces # compute stack var stack: int-stack var stack-addr/edi: (addr int-stack) <- address stack initialize-int-stack stack-addr, 0x10 # max-words evaluate first-word, final-word, stack-addr # render stack var curr-row/edx: int <- copy 6 # input-row 3 + stack-margin-top 3 var _justify-threshold/eax: int <- max-stack-justify-threshold stack-addr var justify-threshold/esi: int <- copy _justify-threshold var i/eax: int <- int-stack-length stack-addr { compare i, 0 break-if-<= move-cursor screen, curr-row, indented-col { var val/eax: int <- pop-int-stack stack-addr render-integer screen, val, justify-threshold var size/eax: int <- decimal-size val compare size, max-width break-if-<= max-width <- copy size } curr-row <- increment i <- decrement loop } } # render word, initialize result reset-formatting screen move-cursor screen, 3, left-col # input-row print-word screen, final-word { var size/eax: int <- word-length final-word compare size, max-width break-if-<= max-width <- copy size } # update cursor { var f/eax: (addr word) <- copy final-word compare f, cursor-word break-if-!= var cursor-index/eax: int <- cursor-index cursor-word cursor-index <- add left-col var dest/edi: (addr int) <- copy cursor-col-a copy-to *dest, cursor-index } # post-process right-col right-col <- copy max-width right-col <- add left-col right-col <- add 3 # margin-right } # synaesthesia fn render-integer screen: (addr screen), val: int, justify-threshold: int { var bg/eax: int <- hash-color val var fg/ecx: int <- copy 7 { compare bg, 2 break-if-!= fg <- copy 0 } { compare bg, 3 break-if-!= fg <- copy 0 } { compare bg, 6 break-if-!= fg <- copy 0 } start-color screen, fg, bg print-grapheme screen, 0x20 # space print-int32-decimal-right-justified screen, val, justify-threshold print-grapheme screen, 0x20 # space } fn hash-color val: int -> result/eax: int { result <- try-modulo val, 7 # assumes that 7 is always the background color } fn clear-canvas _env: (addr environment) { var env/esi: (addr environment) <- copy _env var screen-ah/edi: (addr handle screen) <- get env, screen var _screen/eax: (addr screen) <- lookup *screen-ah var screen/edi: (addr screen) <- copy _screen clear-screen screen var nrows/eax: (addr int) <- get env, nrows var _repl-col/ecx: (addr int) <- get env, code-separator-col var repl-col/ecx: int <- copy *_repl-col draw-vertical-line screen, 1, *nrows, repl-col repl-col <- add 2 # repl-margin-left move-cursor screen, 5, repl-col # input-row + stack-margin-top print-string screen, "stack:" }