type environment { screen: (handle screen) functions: (handle function) sandboxes: (handle sandbox) nrows: int ncols: int code-separator-col: int } fn initialize-environment _env: (addr environment) { var env/esi: (addr environment) <- copy _env # initialize some predefined function definitions var functions/eax: (addr handle function) <- get env, functions create-primitive-functions functions # initialize first sandbox var sandbox-ah/eax: (addr handle sandbox) <- get env, sandboxes allocate sandbox-ah var sandbox/eax: (addr sandbox) <- lookup *sandbox-ah initialize-sandbox sandbox # initialize screen 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 var repl-col/ecx: int <- copy ncols repl-col <- shift-right 1 dest <- get env, code-separator-col copy-to *dest, repl-col } fn draw-screen _env: (addr environment) { var env/esi: (addr environment) <- copy _env 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 dest/edx: (addr int) <- get env, code-separator-col var tmp/eax: int <- copy *dest clear-canvas env tmp <- add 2 # repl-margin-left move-cursor screen, 3, tmp # input-row } 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 } ############# # Iterate ############# fn process _self: (addr environment), key: grapheme { $process:body: { var self/esi: (addr environment) <- copy _self var sandbox-ah/eax: (addr handle sandbox) <- get self, sandboxes var _sandbox/eax: (addr sandbox) <- lookup *sandbox-ah var sandbox/edi: (addr sandbox) <- copy _sandbox var rename-word-mode-ah?/ecx: (addr handle word) <- get sandbox, partial-name-for-cursor-word var rename-word-mode?/eax: (addr word) <- lookup *rename-word-mode-ah? compare rename-word-mode?, 0 { break-if-= #? print-string 0, "processing sandbox rename\n" process-sandbox-rename sandbox, key break $process:body } var define-function-mode-ah?/ecx: (addr handle word) <- get sandbox, partial-name-for-function var define-function-mode?/eax: (addr word) <- lookup *define-function-mode-ah? compare define-function-mode?, 0 { break-if-= #? print-string 0, "processing function definition\n" var functions/ecx: (addr handle function) <- get self, functions process-sandbox-define sandbox, functions, key break $process:body } #? print-string 0, "processing sandbox\n" process-sandbox self, sandbox, key } } fn process-sandbox _self: (addr environment), _sandbox: (addr sandbox), key: grapheme { $process-sandbox:body: { var self/esi: (addr environment) <- copy _self var sandbox/edi: (addr sandbox) <- copy _sandbox var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/ebx: (addr handle word) <- get cursor-call-path, word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah var cursor-word/ecx: (addr word) <- copy _cursor-word compare key, 0x445b1b # left-arrow $process-sandbox:key-left-arrow: { break-if-!= #? print-string 0, "left-arrow\n" # 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-!= #? print-string 0, "cursor left within word\n" cursor-left cursor-word break $process-sandbox:body } # if current word is expanded, move to the rightmost word in its body { var cursor-call-path/esi: (addr handle call-path-element) <- get sandbox, cursor-call-path var expanded-words/edx: (addr handle call-path) <- get sandbox, expanded-words var curr-word-is-expanded?/eax: boolean <- find-in-call-paths expanded-words, cursor-call-path compare curr-word-is-expanded?, 0 # false break-if-= # update cursor-call-path #? print-string 0, "curr word is expanded\n" var self/ecx: (addr environment) <- copy _self var functions/ecx: (addr handle function) <- get self, functions var body: (handle line) var body-ah/eax: (addr handle line) <- address body function-body functions, cursor-word-ah, body-ah var body-addr/eax: (addr line) <- lookup *body-ah var first-word-ah/edx: (addr handle word) <- get body-addr, data var final-word-h: (handle word) var final-word-ah/eax: (addr handle word) <- address final-word-h final-word first-word-ah, final-word-ah push-to-call-path-element cursor-call-path, final-word-ah # move cursor to end of word var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var cursor-word/eax: (addr word) <- lookup *cursor-word-ah cursor-to-end cursor-word break $process-sandbox:body } # if at first word, look for a caller to jump to $process-sandbox:key-left-arrow-first-word: { var prev-word-ah/edx: (addr handle word) <- get cursor-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah compare prev-word, 0 break-if-!= $process-sandbox:key-left-arrow-first-word-and-caller: { #? print-string 0, "return\n" { var cursor-call-path-ah/edi: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var next-cursor-element-ah/edx: (addr handle call-path-element) <- get cursor-call-path, next var next-cursor-element/eax: (addr call-path-element) <- lookup *next-cursor-element-ah compare next-cursor-element, 0 break-if-= $process-sandbox:key-left-arrow-first-word-and-caller copy-object next-cursor-element-ah, cursor-call-path-ah } var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah cursor-word <- copy _cursor-word } } # then move to end of previous word var prev-word-ah/edx: (addr handle word) <- get cursor-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah { compare prev-word, 0 break-if-= #? print-string 0, "move to previous word\n" cursor-to-end prev-word #? { #? var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path #? var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah #? var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word #? var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah #? var cursor-word/ebx: (addr word) <- copy _cursor-word #? print-string 0, "word at cursor before: " #? print-word 0, cursor-word #? print-string 0, "\n" #? } var cursor-call-path/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path decrement-final-element cursor-call-path #? { #? var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path #? var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah #? var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word #? var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah #? var cursor-word/ebx: (addr word) <- copy _cursor-word #? print-string 0, "word at cursor after: " #? print-word 0, cursor-word #? print-string 0, "\n" #? } } break $process-sandbox:body } compare key, 0x435b1b # right-arrow $process-sandbox:key-right-arrow: { break-if-!= # 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-!= #? print-string 0, "a\n" cursor-right cursor-word break $process-sandbox:body } # if at final word, look for a caller to jump to { var next-word-ah/edx: (addr handle word) <- get cursor-word, next var next-word/eax: (addr word) <- lookup *next-word-ah compare next-word, 0 break-if-!= var cursor-call-path-ah/edi: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var next-cursor-element-ah/ecx: (addr handle call-path-element) <- get cursor-call-path, next var next-cursor-element/eax: (addr call-path-element) <- lookup *next-cursor-element-ah compare next-cursor-element, 0 break-if-= copy-object next-cursor-element-ah, cursor-call-path-ah break $process-sandbox:body } # otherwise, move to the next word var next-word-ah/edx: (addr handle word) <- get cursor-word, next var next-word/eax: (addr word) <- lookup *next-word-ah { compare next-word, 0 break-if-= #? print-string 0, "b\n" cursor-to-start next-word # . . cursor-word now out of date var cursor-call-path/ecx: (addr handle call-path-element) <- get sandbox, cursor-call-path increment-final-element cursor-call-path # Is the new cursor word expanded? If so, it's a function call. Add a # new level to the cursor-call-path for the call's body. $process-sandbox:key-right-arrow-next-word-is-call-expanded: { #? print-string 0, "c\n" { var expanded-words/eax: (addr handle call-path) <- get sandbox, expanded-words var curr-word-is-expanded?/eax: boolean <- find-in-call-paths expanded-words, cursor-call-path compare curr-word-is-expanded?, 0 # false break-if-= $process-sandbox:key-right-arrow-next-word-is-call-expanded } var callee-h: (handle function) var callee-ah/edx: (addr handle function) <- address callee-h var functions/ebx: (addr handle function) <- get self, functions callee functions, next-word, callee-ah var callee/eax: (addr function) <- lookup *callee-ah var callee-body-ah/eax: (addr handle line) <- get callee, body var callee-body/eax: (addr line) <- lookup *callee-body-ah var callee-body-first-word/edx: (addr handle word) <- get callee-body, data push-to-call-path-element cursor-call-path, callee-body-first-word # position cursor at left var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var cursor-word/eax: (addr word) <- lookup *cursor-word-ah cursor-to-start cursor-word #? print-string 0, "d\n" break $process-sandbox:body } } break $process-sandbox:body } compare key, 0xa # enter { break-if-!= # toggle display of subsidiary stack toggle-cursor-word sandbox break $process-sandbox:body } compare key, 0xc # ctrl-l $process-sandbox:new-line: { break-if-!= # new line in sandbox append-line sandbox break $process-sandbox:body } # word-based motions compare key, 2 # ctrl-b $process-sandbox:prev-word: { break-if-!= # jump to previous word at same level var prev-word-ah/edx: (addr handle word) <- get cursor-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah { compare prev-word, 0 break-if-= cursor-to-end prev-word var cursor-call-path/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path decrement-final-element cursor-call-path break $process-sandbox:body } # if previous word doesn't exist, try to bump up one level { var cursor-call-path-ah/edi: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var caller-cursor-element-ah/ecx: (addr handle call-path-element) <- get cursor-call-path, next var caller-cursor-element/eax: (addr call-path-element) <- lookup *caller-cursor-element-ah compare caller-cursor-element, 0 break-if-= # check if previous word exists in caller var caller-word-ah/eax: (addr handle word) <- get caller-cursor-element, word var caller-word/eax: (addr word) <- lookup *caller-word-ah var word-before-caller-ah/eax: (addr handle word) <- get caller-word, prev var word-before-caller/eax: (addr word) <- lookup *word-before-caller-ah compare word-before-caller, 0 break-if-= # if so jump to it drop-from-call-path-element cursor-call-path-ah decrement-final-element cursor-call-path-ah break $process-sandbox:body } } compare key, 6 # ctrl-f $process-sandbox:next-word: { break-if-!= #? print-string 0, "AA\n" # jump to previous word at same level var next-word-ah/edx: (addr handle word) <- get cursor-word, next var next-word/eax: (addr word) <- lookup *next-word-ah { compare next-word, 0 break-if-= #? print-string 0, "BB\n" cursor-to-end next-word var cursor-call-path/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path increment-final-element cursor-call-path break $process-sandbox:body } # if next word doesn't exist, try to bump up one level #? print-string 0, "CC\n" var cursor-call-path-ah/edi: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var caller-cursor-element-ah/ecx: (addr handle call-path-element) <- get cursor-call-path, next var caller-cursor-element/eax: (addr call-path-element) <- lookup *caller-cursor-element-ah compare caller-cursor-element, 0 break-if-= #? print-string 0, "DD\n" copy-object caller-cursor-element-ah, cursor-call-path-ah break $process-sandbox:body } # line-based motions compare key, 1 # ctrl-a $process-sandbox:start-of-line: { break-if-!= # move cursor up past all calls and to start of line var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path drop-nested-calls cursor-call-path-ah move-final-element-to-start-of-line cursor-call-path-ah # move cursor to start of word var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var cursor-word/eax: (addr word) <- lookup *cursor-word-ah cursor-to-start cursor-word # this works as long as the first word isn't expanded # but we don't expect to see zero-arg functions first-up break $process-sandbox:body } compare key, 5 # ctrl-e $process-sandbox:end-of-line: { break-if-!= # move cursor up past all calls and to start of line var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path drop-nested-calls cursor-call-path-ah move-final-element-to-end-of-line cursor-call-path-ah # move cursor to end of word var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var cursor-word/eax: (addr word) <- lookup *cursor-word-ah cursor-to-end cursor-word # this works because expanded words lie to the right of their bodies # so the final word is always guaranteed to be at the top-level break $process-sandbox:body } compare key, 0x15 # ctrl-u $process-sandbox:clear-line: { break-if-!= # clear line in sandbox initialize-sandbox sandbox break $process-sandbox:body } # if cursor is within a call, disable editing hotkeys below var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var next-cursor-element-ah/eax: (addr handle call-path-element) <- get cursor-call-path, next var next-cursor-element/eax: (addr call-path-element) <- lookup *next-cursor-element-ah compare next-cursor-element, 0 break-if-!= $process-sandbox:body # - remaining keys only work at the top row outside any function calls compare key, 0x7f # del (backspace on Macs) $process-sandbox:backspace: { break-if-!= # 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-sandbox:body } # otherwise delete current word and move to end of prev word var prev-word-ah/eax: (addr handle word) <- get cursor-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah { compare prev-word, 0 break-if-= cursor-to-end prev-word delete-next prev-word var cursor-call-path/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path decrement-final-element cursor-call-path } break $process-sandbox:body } compare key, 0x20 # space $process-sandbox:space: { break-if-!= #? print-string 0, "space\n" # if cursor is at start of word, insert word before { var at-start?/eax: boolean <- cursor-at-start? cursor-word compare at-start?, 0 # false break-if-= var prev-word-ah/eax: (addr handle word) <- get cursor-word, prev append-word prev-word-ah var cursor-call-path/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path decrement-final-element cursor-call-path break $process-sandbox:body } # if start of word is quote and grapheme before cursor is not, just insert it as usual # TODO: support string escaping { var first-grapheme/eax: grapheme <- first-grapheme cursor-word compare first-grapheme, 0x22 # double quote break-if-!= var final-grapheme/eax: grapheme <- grapheme-before-cursor cursor-word compare final-grapheme, 0x22 # double quote break-if-= break $process-sandbox:space } # if start of word is '[' and grapheme before cursor is not ']', just insert it as usual # TODO: support nested arrays { var first-grapheme/eax: grapheme <- first-grapheme cursor-word compare first-grapheme, 0x5b # '[' break-if-!= var final-grapheme/eax: grapheme <- grapheme-before-cursor cursor-word compare final-grapheme, 0x5d # ']' break-if-= break $process-sandbox:space } # otherwise insert word after and move cursor to it for the next key # (but we'll continue to track the current cursor-word for the rest of this function) append-word cursor-word-ah var cursor-call-path/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path increment-final-element cursor-call-path # if cursor is at end of word, that's all var at-end?/eax: boolean <- cursor-at-end? cursor-word compare at-end?, 0 # false break-if-!= $process-sandbox:body # otherwise we're in the middle of a word # move everything after cursor to the (just created) next word var next-word-ah/eax: (addr handle word) <- get cursor-word, next var _next-word/eax: (addr word) <- lookup *next-word-ah var next-word/ebx: (addr word) <- copy _next-word { var at-end?/eax: boolean <- cursor-at-end? cursor-word compare at-end?, 0 # false break-if-!= var g/eax: grapheme <- pop-after-cursor cursor-word add-grapheme-to-word next-word, g loop } cursor-to-start next-word break $process-sandbox:body } compare key, 0xe # ctrl-n $process:rename-word: { break-if-!= # TODO: ensure current word is not a function # rename word at cursor var new-name-ah/eax: (addr handle word) <- get sandbox, partial-name-for-cursor-word allocate new-name-ah var new-name/eax: (addr word) <- lookup *new-name-ah initialize-word new-name break $process-sandbox:body } compare key, 4 # ctrl-d $process:define-function: { break-if-!= # define function out of line at cursor var new-name-ah/eax: (addr handle word) <- get sandbox, partial-name-for-function allocate new-name-ah var new-name/eax: (addr word) <- lookup *new-name-ah initialize-word new-name break $process-sandbox:body } # otherwise insert key within current word var g/edx: grapheme <- copy key var print?/eax: boolean <- real-grapheme? key $process-sandbox:real-grapheme: { compare print?, 0 # false break-if-= add-grapheme-to-word cursor-word, g break $process-sandbox:body } # silently ignore other hotkeys } } # collect new name in partial-name-for-cursor-word, and then rename the word # at cursor to it # Precondition: cursor-call-path is a singleton (not within a call) fn process-sandbox-rename _sandbox: (addr sandbox), key: grapheme { $process-sandbox-rename:body: { var sandbox/esi: (addr sandbox) <- copy _sandbox var new-name-ah/edi: (addr handle word) <- get sandbox, partial-name-for-cursor-word # if 'esc' pressed, cancel rename compare key, 0x1b # esc $process-sandbox-rename:cancel: { break-if-!= var empty: (handle word) copy-handle empty, new-name-ah break $process-sandbox-rename:body } # if 'enter' pressed, perform rename compare key, 0xa # enter $process-sandbox-rename:commit: { break-if-!= #? print-string 0, "rename\n" # new line var new-line-h: (handle line) var new-line-ah/eax: (addr handle line) <- address new-line-h allocate new-line-ah var new-line/eax: (addr line) <- lookup *new-line-ah initialize-line new-line var new-line-word-ah/ecx: (addr handle word) <- get new-line, data { # move word at cursor to new line var cursor-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor/eax: (addr call-path-element) <- lookup *cursor-ah var word-at-cursor-ah/eax: (addr handle word) <- get cursor, word #? print-string 0, "cursor before at word " #? { #? var cursor-word/eax: (addr word) <- lookup *word-at-cursor-ah #? print-word 0, cursor-word #? print-string 0, "\n" #? } move-word-contents word-at-cursor-ah, new-line-word-ah # copy name to word at cursor copy-word-contents-before-cursor new-name-ah, word-at-cursor-ah #? print-string 0, "cursor after at word " #? { #? var cursor-word/eax: (addr word) <- lookup *word-at-cursor-ah #? print-word 0, cursor-word #? print-string 0, "\n" #? var foo/eax: int <- copy cursor-word #? print-int32-hex 0, foo #? print-string 0, "\n" #? } #? print-string 0, "new name word " #? { #? var new-name/eax: (addr word) <- lookup *new-name-ah #? print-word 0, new-name #? print-string 0, "\n" #? var foo/eax: int <- copy new-name #? print-int32-hex 0, foo #? print-string 0, "\n" #? } } # prepend '=' to name { var new-name/eax: (addr word) <- lookup *new-name-ah cursor-to-start new-name add-grapheme-to-word new-name, 0x3d # '=' } # append name to new line chain-words new-line-word-ah, new-name-ah # new-line->next = sandbox->data var new-line-next/ecx: (addr handle line) <- get new-line, next var sandbox-slot/edx: (addr handle line) <- get sandbox, data copy-object sandbox-slot, new-line-next # sandbox->data = new-line copy-handle new-line-h, sandbox-slot # clear partial-name-for-cursor-word var empty: (handle word) copy-handle empty, new-name-ah #? # XXX #? var cursor-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path #? var cursor/eax: (addr call-path-element) <- lookup *cursor-ah #? var word-at-cursor-ah/eax: (addr handle word) <- get cursor, word #? print-string 0, "cursor after rename: " #? { #? var cursor-word/eax: (addr word) <- lookup *word-at-cursor-ah #? print-word 0, cursor-word #? print-string 0, " -- " #? var foo/eax: int <- copy cursor-word #? print-int32-hex 0, foo #? print-string 0, "\n" #? } break $process-sandbox-rename:body } # compare key, 0x7f # del (backspace on Macs) $process-sandbox-rename:backspace: { break-if-!= # if not at start, delete grapheme before cursor var new-name/eax: (addr word) <- lookup *new-name-ah var at-start?/eax: boolean <- cursor-at-start? new-name compare at-start?, 0 # false { break-if-!= var new-name/eax: (addr word) <- lookup *new-name-ah delete-before-cursor new-name } break $process-sandbox-rename:body } # otherwise insert key within current word var print?/eax: boolean <- real-grapheme? key $process-sandbox-rename:real-grapheme: { compare print?, 0 # false break-if-= var new-name/eax: (addr word) <- lookup *new-name-ah add-grapheme-to-word new-name, key break $process-sandbox-rename:body } # silently ignore other hotkeys } } # collect new name in partial-name-for-function, and then define the last line # of the sandbox to be a new function with that name. Replace the last line # with a call to the appropriate function. # Precondition: cursor-call-path is a singleton (not within a call) fn process-sandbox-define _sandbox: (addr sandbox), functions: (addr handle function), key: grapheme { $process-sandbox-define:body: { var sandbox/esi: (addr sandbox) <- copy _sandbox var new-name-ah/edi: (addr handle word) <- get sandbox, partial-name-for-function # if 'esc' pressed, cancel define compare key, 0x1b # esc $process-sandbox-define:cancel: { break-if-!= var empty: (handle word) copy-handle empty, new-name-ah break $process-sandbox-define:body } # if 'enter' pressed, perform define compare key, 0xa # enter $process-sandbox-define:commit: { break-if-!= #? print-string 0, "define\n" # create new function var new-function: (handle function) var new-function-ah/ecx: (addr handle function) <- address new-function allocate new-function-ah var _new-function/eax: (addr function) <- lookup *new-function-ah var new-function/ebx: (addr function) <- copy _new-function var dest/edx: (addr handle function) <- get new-function, next copy-object functions, dest copy-object new-function-ah, functions # set function name to new-name var new-name/eax: (addr word) <- lookup *new-name-ah var dest/edx: (addr handle array byte) <- get new-function, name word-to-string new-name, dest # move final line to body var body-ah/eax: (addr handle line) <- get new-function, body allocate body-ah var body/eax: (addr line) <- lookup *body-ah var body-contents/ecx: (addr handle word) <- get body, data var final-line-storage: (handle line) var final-line-ah/eax: (addr handle line) <- address final-line-storage final-line sandbox, final-line-ah var final-line/eax: (addr line) <- lookup *final-line-ah var final-line-contents/eax: (addr handle word) <- get final-line, data copy-object final-line-contents, body-contents # copy-unbound-words-to-args functions # var empty-word: (handle word) copy-handle empty-word, final-line-contents construct-call functions, final-line-contents # clear partial-name-for-function var empty-word: (handle word) copy-handle empty-word, new-name-ah # update cursor var final-line/eax: (addr line) <- lookup final-line-storage var cursor-call-path-ah/ecx: (addr handle call-path-element) <- get sandbox, cursor-call-path allocate cursor-call-path-ah # leak initialize-path-from-line final-line, cursor-call-path-ah break $process-sandbox-define:body } # compare key, 0x7f # del (backspace on Macs) $process-sandbox-define:backspace: { break-if-!= # if not at start, delete grapheme before cursor var new-name/eax: (addr word) <- lookup *new-name-ah var at-start?/eax: boolean <- cursor-at-start? new-name compare at-start?, 0 # false { break-if-!= var new-name/eax: (addr word) <- lookup *new-name-ah delete-before-cursor new-name } break $process-sandbox-define:body } # otherwise insert key within current word var print?/eax: boolean <- real-grapheme? key $process-sandbox-define:real-grapheme: { compare print?, 0 # false break-if-= var new-name/eax: (addr word) <- lookup *new-name-ah add-grapheme-to-word new-name, key break $process-sandbox-define:body } # silently ignore other hotkeys } } # extract from the body of the first function in 'functions' all words that # aren't defined in the rest of 'functions'. Prepend them in reverse order. # Assumes function body is a single line for now. fn copy-unbound-words-to-args _functions: (addr handle function) { # target var target-ah/eax: (addr handle function) <- copy _functions var _target/eax: (addr function) <- lookup *target-ah var target/esi: (addr function) <- copy _target var dest-ah/edi: (addr handle word) <- get target, args # next var functions-ah/edx: (addr handle function) <- get target, next # src var line-ah/eax: (addr handle line) <- get target, body var line/eax: (addr line) <- lookup *line-ah var curr-ah/eax: (addr handle word) <- get line, data var curr/eax: (addr word) <- lookup *curr-ah { compare curr, 0 break-if-= $copy-unbound-words-to-args:loop-iter: { # is it a number? { var is-int?/eax: boolean <- word-is-decimal-integer? curr compare is-int?, 0 # false break-if-!= $copy-unbound-words-to-args:loop-iter } # is it a pre-existing function? var bound?/ebx: boolean <- bound-function? curr, functions-ah compare bound?, 0 # false break-if-!= # is it already bound as an arg? var dup?/ebx: boolean <- arg-exists? _functions, curr # _functions = target-ah compare dup?, 0 # false break-if-!= $copy-unbound-words-to-args:loop-iter # push copy of curr before dest-ah var rest-h: (handle word) var rest-ah/ecx: (addr handle word) <- address rest-h copy-object dest-ah, rest-ah copy-word curr, dest-ah chain-words dest-ah, rest-ah } var next-ah/ecx: (addr handle word) <- get curr, next curr <- lookup *next-ah loop } } fn bound-function? w: (addr word), functions-ah: (addr handle function) -> _/ebx: boolean { var result/ebx: boolean <- copy 1 # true { ## numbers # if w == "+" return true var subresult/eax: boolean <- word-equal? w, "+" compare subresult, 0 # false break-if-!= # if w == "-" return true subresult <- word-equal? w, "-" compare subresult, 0 # false break-if-!= # if w == "*" return true subresult <- word-equal? w, "*" compare subresult, 0 # false break-if-!= ## strings/arrays # if w == "len" return true subresult <- word-equal? w, "len" compare subresult, 0 # false break-if-!= ## files # if w == "open" return true subresult <- word-equal? w, "open" compare subresult, 0 # false break-if-!= # if w == "read" return true subresult <- word-equal? w, "read" compare subresult, 0 # false break-if-!= # if w == "slurp" return true subresult <- word-equal? w, "slurp" compare subresult, 0 # false break-if-!= # if w == "lines" return true subresult <- word-equal? w, "lines" compare subresult, 0 # false break-if-!= ## screens # if w == "fake-screen" return true subresult <- word-equal? w, "fake-screen" compare subresult, 0 # false break-if-!= # if w == "print" return true subresult <- word-equal? w, "print" compare subresult, 0 # false break-if-!= # if w == "move" return true subresult <- word-equal? w, "move" compare subresult, 0 # false break-if-!= # if w == "up" return true subresult <- word-equal? w, "up" compare subresult, 0 # false break-if-!= # if w == "down" return true subresult <- word-equal? w, "down" compare subresult, 0 # false break-if-!= # if w == "left" return true subresult <- word-equal? w, "left" compare subresult, 0 # false break-if-!= # if w == "right" return true subresult <- word-equal? w, "right" compare subresult, 0 # false break-if-!= ## hacks # if w == "dup" return true subresult <- word-equal? w, "dup" compare subresult, 0 # false break-if-!= # if w == "swap" return true subresult <- word-equal? w, "swap" compare subresult, 0 # false break-if-!= # return w in functions var out-h: (handle function) var out/eax: (addr handle function) <- address out-h callee functions-ah, w, out var found?/eax: (addr function) <- lookup *out result <- copy found? } return result } fn arg-exists? _f-ah: (addr handle function), arg: (addr word) -> _/ebx: boolean { var f-ah/eax: (addr handle function) <- copy _f-ah var f/eax: (addr function) <- lookup *f-ah var args-ah/eax: (addr handle word) <- get f, args var result/ebx: boolean <- word-exists? args-ah, arg return result } # construct a call to `f` with copies of exactly its args fn construct-call _f-ah: (addr handle function), _dest-ah: (addr handle word) { var f-ah/eax: (addr handle function) <- copy _f-ah var _f/eax: (addr function) <- lookup *f-ah var f/esi: (addr function) <- copy _f # append args in reverse var args-ah/eax: (addr handle word) <- get f, args var dest-ah/edi: (addr handle word) <- copy _dest-ah copy-words-in-reverse args-ah, dest-ah # append name var name-ah/eax: (addr handle array byte) <- get f, name var name/eax: (addr array byte) <- lookup *name-ah append-word-at-end-with dest-ah, name } fn word-index _words: (addr handle word), _n: int, out: (addr handle word) { $word-index:body: { var n/ecx: int <- copy _n { compare n, 0 break-if-!= copy-object _words, out break $word-index:body } var words-ah/eax: (addr handle word) <- copy _words var words/eax: (addr word) <- lookup *words-ah var next/eax: (addr handle word) <- get words, next n <- decrement word-index next, n, out } } fn toggle-cursor-word _sandbox: (addr sandbox) { $toggle-cursor-word:body: { var sandbox/esi: (addr sandbox) <- copy _sandbox var expanded-words/edi: (addr handle call-path) <- get sandbox, expanded-words var cursor-call-path/ecx: (addr handle call-path-element) <- get sandbox, cursor-call-path #? print-string 0, "cursor call path: " #? dump-call-path-element 0, cursor-call-path #? print-string 0, "expanded words:\n" #? dump-call-paths 0, expanded-words var already-expanded?/eax: boolean <- find-in-call-paths expanded-words, cursor-call-path compare already-expanded?, 0 # false { break-if-!= #? print-string 0, "expand\n" # if not already-expanded, insert insert-in-call-path expanded-words cursor-call-path #? print-string 0, "expanded words now:\n" #? dump-call-paths 0, expanded-words break $toggle-cursor-word:body } { break-if-= # otherwise delete delete-in-call-path expanded-words cursor-call-path } } } fn append-line _sandbox: (addr sandbox) { var sandbox/esi: (addr sandbox) <- copy _sandbox var line-ah/ecx: (addr handle line) <- get sandbox, data { var line/eax: (addr line) <- lookup *line-ah var next-line-ah/edx: (addr handle line) <- get line, next var next-line/eax: (addr line) <- lookup *next-line-ah compare next-line, 0 break-if-= line-ah <- copy next-line-ah loop } var line/eax: (addr line) <- lookup *line-ah var final-line-ah/edx: (addr handle line) <- get line, next allocate final-line-ah var final-line/eax: (addr line) <- lookup *final-line-ah initialize-line final-line var final-prev/eax: (addr handle line) <- get final-line, prev copy-object line-ah, final-prev # clear cursor var final-line/eax: (addr line) <- lookup *final-line-ah var word-ah/ecx: (addr handle word) <- get final-line, data var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var dest/eax: (addr handle word) <- get cursor-call-path, word copy-object word-ah, dest } ############# # Visualize ############# fn evaluate-environment _env: (addr environment), stack: (addr value-stack) { var env/esi: (addr environment) <- copy _env # functions var functions/edx: (addr handle function) <- get env, functions # line var sandbox-ah/esi: (addr handle sandbox) <- get env, sandboxes var sandbox/eax: (addr sandbox) <- lookup *sandbox-ah var line-ah/eax: (addr handle line) <- get sandbox, data var _line/eax: (addr line) <- lookup *line-ah var line/esi: (addr line) <- copy _line evaluate functions, 0, line, 0, stack } fn render _env: (addr environment) { #? print-string 0, "== render\n" var env/esi: (addr environment) <- copy _env clear-canvas env # screen 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 # repl-col var _repl-col/eax: (addr int) <- get env, code-separator-col var repl-col/ecx: int <- copy *_repl-col repl-col <- add 2 # repl-margin-left # functions var functions/edx: (addr handle function) <- get env, functions # sandbox var sandbox-ah/eax: (addr handle sandbox) <- get env, sandboxes var sandbox/eax: (addr sandbox) <- lookup *sandbox-ah # bindings var bindings-storage: table var bindings/ebx: (addr table) <- address bindings-storage initialize-table bindings, 0x10 #? print-string 0, "render-sandbox {\n" render-sandbox screen, functions, bindings, sandbox, 3, repl-col #? print-string 0, "render-sandbox }\n" } fn render-sandbox screen: (addr screen), functions: (addr handle function), bindings: (addr table), _sandbox: (addr sandbox), top-row: int, left-col: int { var sandbox/esi: (addr sandbox) <- copy _sandbox # line var curr-line-ah/eax: (addr handle line) <- get sandbox, data var _curr-line/eax: (addr line) <- lookup *curr-line-ah var curr-line/ecx: (addr line) <- copy _curr-line # var curr-row/edx: int <- copy top-row # cursor row, col var cursor-row: int var cursor-row-addr: (addr int) var tmp/eax: (addr int) <- address cursor-row copy-to cursor-row-addr, tmp var cursor-col: int var cursor-col-addr: (addr int) tmp <- address cursor-col copy-to cursor-col-addr, tmp # render all but final line without stack #? print-string 0, "render all but final line\n" { var next-line-ah/eax: (addr handle line) <- get curr-line, next var next-line/eax: (addr line) <- lookup *next-line-ah compare next-line, 0 break-if-= { var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var cursor-word/eax: (addr word) <- lookup *cursor-word-ah # it's enough to pass in the first word of the path, because if the path isn't a singleton the word is guaranteed to be unique render-line-without-stack screen, curr-line, curr-row, left-col, cursor-word, cursor-row-addr, cursor-col-addr } curr-line <- copy next-line curr-row <- add 2 loop } # render-final-line-with-stack screen, functions, bindings, sandbox, curr-row, left-col, cursor-row-addr, cursor-col-addr # at most one of the following dialogs will be rendered render-rename-dialog screen, sandbox, cursor-row, cursor-col render-define-dialog screen, sandbox, cursor-row, cursor-col move-cursor screen, cursor-row, cursor-col } fn render-final-line-with-stack screen: (addr screen), functions: (addr handle function), bindings: (addr table), _sandbox: (addr sandbox), top-row: int, left-col: int, cursor-row-addr: (addr int), cursor-col-addr: (addr int) { var sandbox/esi: (addr sandbox) <- copy _sandbox # expanded-words var expanded-words/edi: (addr handle call-path) <- get sandbox, expanded-words # cursor-word var cursor-call-path-ah/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path var cursor-call-path/eax: (addr call-path-element) <- lookup *cursor-call-path-ah var cursor-word-ah/eax: (addr handle word) <- get cursor-call-path, word var _cursor-word/eax: (addr word) <- lookup *cursor-word-ah var cursor-word/ebx: (addr word) <- copy _cursor-word #? print-string 0, "word at cursor: " #? print-word 0, cursor-word #? print-string 0, "\n" # cursor-call-path var cursor-call-path: (addr handle call-path-element) { var src/eax: (addr handle call-path-element) <- get sandbox, cursor-call-path copy-to cursor-call-path, src } # first line var first-line-ah/eax: (addr handle line) <- get sandbox, data var _first-line/eax: (addr line) <- lookup *first-line-ah var first-line/edx: (addr line) <- copy _first-line # final line var final-line-storage: (handle line) var final-line-ah/eax: (addr handle line) <- address final-line-storage final-line sandbox, final-line-ah var final-line/eax: (addr line) <- lookup *final-line-ah # curr-path var curr-path-storage: (handle call-path-element) var curr-path/ecx: (addr handle call-path-element) <- address curr-path-storage allocate curr-path # leak initialize-path-from-line final-line, curr-path # var dummy/ecx: int <- render-line screen, functions, bindings, first-line, final-line, expanded-words, top-row, left-col, curr-path, cursor-word, cursor-call-path, cursor-row-addr, cursor-col-addr } fn final-line _sandbox: (addr sandbox), out: (addr handle line) { var sandbox/esi: (addr sandbox) <- copy _sandbox var curr-line-ah/ecx: (addr handle line) <- get sandbox, data { var curr-line/eax: (addr line) <- lookup *curr-line-ah var next-line-ah/edx: (addr handle line) <- get curr-line, next var next-line/eax: (addr line) <- lookup *next-line-ah compare next-line, 0 break-if-= curr-line-ah <- copy next-line-ah loop } copy-object curr-line-ah, out } fn render-rename-dialog screen: (addr screen), _sandbox: (addr sandbox), cursor-row: int, cursor-col: int { var sandbox/edi: (addr sandbox) <- copy _sandbox var rename-word-mode-ah?/ecx: (addr handle word) <- get sandbox, partial-name-for-cursor-word var rename-word-mode?/eax: (addr word) <- lookup *rename-word-mode-ah? compare rename-word-mode?, 0 break-if-= # clear a space for the dialog var top-row/eax: int <- copy cursor-row top-row <- subtract 3 var bottom-row/ecx: int <- copy cursor-row bottom-row <- add 3 var left-col/edx: int <- copy cursor-col left-col <- subtract 0x10 var right-col/ebx: int <- copy cursor-col right-col <- add 0x10 clear-rect screen, top-row, left-col, bottom-row, right-col draw-box screen, top-row, left-col, bottom-row, right-col # render a little menu for the dialog var menu-row/ecx: int <- copy bottom-row menu-row <- decrement var menu-col/edx: int <- copy left-col menu-col <- add 2 move-cursor screen, menu-row, menu-col start-reverse-video screen print-string screen, " esc " reset-formatting screen print-string screen, " cancel " start-reverse-video screen print-string screen, " enter " reset-formatting screen print-string screen, " rename " # draw the word, positioned appropriately around the cursor var start-col/ecx: int <- copy cursor-col var word-ah?/edx: (addr handle word) <- get sandbox, partial-name-for-cursor-word var word/eax: (addr word) <- lookup *word-ah? var cursor-index/eax: int <- cursor-index word start-col <- subtract cursor-index move-cursor screen, cursor-row, start-col var word/eax: (addr word) <- lookup *word-ah? print-word screen, word } fn render-define-dialog screen: (addr screen), _sandbox: (addr sandbox), cursor-row: int, cursor-col: int { var sandbox/edi: (addr sandbox) <- copy _sandbox var define-function-mode-ah?/ecx: (addr handle word) <- get sandbox, partial-name-for-function var define-function-mode?/eax: (addr word) <- lookup *define-function-mode-ah? compare define-function-mode?, 0 break-if-= # clear a space for the dialog var top-row/eax: int <- copy cursor-row top-row <- subtract 3 var bottom-row/ecx: int <- copy cursor-row bottom-row <- add 3 var left-col/edx: int <- copy cursor-col left-col <- subtract 0x10 var right-col/ebx: int <- copy cursor-col right-col <- add 0x10 clear-rect screen, top-row, left-col, bottom-row, right-col draw-box screen, top-row, left-col, bottom-row, right-col # render a little menu for the dialog var menu-row/ecx: int <- copy bottom-row menu-row <- decrement var menu-col/edx: int <- copy left-col menu-col <- add 2 move-cursor screen, menu-row, menu-col start-reverse-video screen print-string screen, " esc " reset-formatting screen print-string screen, " cancel " start-reverse-video screen print-string screen, " enter " reset-formatting screen print-string screen, " define " # draw the word, positioned appropriately around the cursor var start-col/ecx: int <- copy cursor-col var word-ah?/edx: (addr handle word) <- get sandbox, partial-name-for-function var word/eax: (addr word) <- lookup *word-ah? var cursor-index/eax: int <- cursor-index word start-col <- subtract cursor-index move-cursor screen, cursor-row, start-col var word/eax: (addr word) <- lookup *word-ah? print-word screen, word } # Render just the words in 'line'. fn render-line-without-stack screen: (addr screen), _line: (addr line), curr-row: int, left-col: int, cursor-word: (addr word), cursor-row-addr: (addr int), cursor-col-addr: (addr int) { # curr-word var line/eax: (addr line) <- copy _line var first-word-ah/eax: (addr handle word) <- get line, data var _curr-word/eax: (addr word) <- lookup *first-word-ah var curr-word/esi: (addr word) <- copy _curr-word # # loop-carried dependency var curr-col/ecx: int <- copy left-col # { compare curr-word, 0 break-if-= #? print-string 0, "-- word in penultimate lines: " #? { #? var foo/eax: int <- copy curr-word #? print-int32-hex 0, foo #? } #? print-string 0, "\n" var old-col/edx: int <- copy curr-col reset-formatting screen move-cursor screen, curr-row, curr-col print-word screen, curr-word { var max-width/eax: int <- word-length curr-word curr-col <- add max-width curr-col <- add 1 # margin-right } # cache cursor column if necessary { compare curr-word, cursor-word break-if-!= #? print-string 0, "Cursor at " #? print-int32-decimal 0, curr-row #? print-string 0, ", " #? print-int32-decimal 0, old-col #? print-string 0, "\n" #? print-string 0, "contents: " #? print-word 0, cursor-word #? print-string 0, "\n" #? { #? var foo/eax: int <- copy cursor-word #? print-int32-hex 0, foo #? print-string 0, "\n" #? } var dest/ecx: (addr int) <- copy cursor-row-addr var src/eax: int <- copy curr-row copy-to *dest, src dest <- copy cursor-col-addr copy-to *dest, old-col var cursor-index-in-word/eax: int <- cursor-index curr-word add-to *dest, cursor-index-in-word } # loop update var next-word-ah/edx: (addr handle word) <- get curr-word, next var _curr-word/eax: (addr word) <- lookup *next-word-ah curr-word <- copy _curr-word loop } } fn call-depth-at-cursor _sandbox: (addr sandbox) -> _/eax: int { var sandbox/esi: (addr sandbox) <- copy _sandbox var cursor-call-path/edi: (addr handle call-path-element) <- get sandbox, cursor-call-path var result/eax: int <- call-path-element-length cursor-call-path result <- add 2 # input-row - 1 return result } fn call-path-element-length _x: (addr handle call-path-element) -> _/eax: int { var curr-ah/ecx: (addr handle call-path-element) <- copy _x var result/edi: int <- copy 0 { var curr/eax: (addr call-path-element) <- lookup *curr-ah compare curr, 0 break-if-= curr-ah <- get curr, next result <- increment loop } return result } # Render the line of words in line, along with the state of the stack under each word. # Also render any expanded function calls using recursive calls. # # Along the way, compute the column the cursor should be positioned at (cursor-col-addr). fn render-line screen: (addr screen), functions: (addr handle function), bindings: (addr table), first-line: (addr line), _line: (addr line), expanded-words: (addr handle call-path), top-row: int, left-col: int, curr-path: (addr handle call-path-element), cursor-word: (addr word), cursor-call-path: (addr handle call-path-element), cursor-row-addr: (addr int), cursor-col-addr: (addr int) -> _/ecx: int { #? print-string 0, "render-line\n" #? dump-table bindings # curr-word var line/esi: (addr line) <- copy _line var first-word-ah/eax: (addr handle word) <- get line, data var curr-word/eax: (addr word) <- lookup *first-word-ah # # loop-carried dependency var curr-col/ecx: int <- copy left-col # { compare curr-word, 0 break-if-= #? print-string 0, "-- word " #? print-word 0, curr-word #? print-string 0, "\n" # if necessary, first render columns for subsidiary stack $render-line:subsidiary: { { #? print-string 0, "check sub\n" var display-subsidiary-stack?/eax: boolean <- find-in-call-paths expanded-words, curr-path compare display-subsidiary-stack?, 0 # false break-if-= $render-line:subsidiary } #? print-string 0, "render subsidiary stack\n" # does function exist? var callee/edi: (addr function) <- copy 0 { var callee-h: (handle function) var callee-ah/ecx: (addr handle function) <- address callee-h callee functions, curr-word, callee-ah var _callee/eax: (addr function) <- lookup *callee-ah callee <- copy _callee compare callee, 0 break-if-= $render-line:subsidiary } move-cursor screen, top-row, curr-col start-color screen, 8, 7 print-word screen, curr-word { var word-len/eax: int <- word-length curr-word curr-col <- add word-len curr-col <- add 2 increment top-row } # obtain stack at call site var stack-storage: value-stack var stack/edx: (addr value-stack) <- address stack-storage initialize-value-stack stack, 0x10 { var prev-word-ah/eax: (addr handle word) <- get curr-word, prev var prev-word/eax: (addr word) <- lookup *prev-word-ah compare prev-word, 0 break-if-= var bindings2-storage: table var bindings2/ebx: (addr table) <- address bindings2-storage deep-copy-table bindings, bindings2 evaluate functions, bindings2, first-line, prev-word, stack } # construct new bindings var callee-bindings-storage: table var callee-bindings/esi: (addr table) <- address callee-bindings-storage initialize-table callee-bindings, 0x10 bind-args callee, stack, callee-bindings # obtain body var callee-body-ah/eax: (addr handle line) <- get callee, body var callee-body/eax: (addr line) <- lookup *callee-body-ah var callee-body-first-word/edx: (addr handle word) <- get callee-body, data # - render subsidiary stack push-to-call-path-element curr-path, callee-body-first-word # leak #? print-string 0, "subsidiary {\n" #? dump-table callee-bindings #? syscall_exit curr-col <- render-line screen, functions, callee-bindings, callee-body, callee-body, expanded-words, top-row, curr-col, curr-path, cursor-word, cursor-call-path, cursor-row-addr, cursor-col-addr #? print-string 0, "}\n" drop-from-call-path-element curr-path # move-cursor screen, top-row, curr-col print-code-point screen, 0x21d7 # ⇗ # curr-col <- add 2 decrement top-row } # render main column var old-col/edx: int <- copy curr-col var bindings2-storage: table var bindings2/ebx: (addr table) <- address bindings2-storage #? print-string 0, "deep-copy {\n" deep-copy-table bindings, bindings2 #? print-string 0, "}\n" #? print-string 0, "render column {\n" curr-col <- render-column screen, functions, bindings2, first-line, line, curr-word, top-row, curr-col #? print-string 0, "}\n" # cache cursor column if necessary $render-line:cache-cursor-column: { { var found?/eax: boolean <- call-path-element-match? curr-path, cursor-call-path compare found?, 0 # false break-if-= $render-line:cache-cursor-column } var dest/edi: (addr int) <- copy cursor-row-addr { var src/eax: int <- copy top-row copy-to *dest, src } dest <- copy cursor-col-addr copy-to *dest, old-col var cursor-index-in-word/eax: int <- cursor-index curr-word add-to *dest, cursor-index-in-word } # loop update #? print-string 0, "next word\n" var next-word-ah/edx: (addr handle word) <- get curr-word, next curr-word <- lookup *next-word-ah #? { #? var foo/eax: int <- copy curr-word #? print-int32-hex 0, foo #? print-string 0, "\n" #? } increment-final-element curr-path loop } return curr-col } fn callee functions: (addr handle function), word: (addr word), out: (addr handle function) { var stream-storage: (stream byte 0x10) var stream/esi: (addr stream byte) <- address stream-storage emit-word word, stream find-function functions, stream, out } # Render: # - starting at top-row, left-col: final-word # - starting somewhere below at left-col: the stack result from interpreting first-world to final-word (inclusive) # # Return the farthest column written. fn render-column screen: (addr screen), functions: (addr handle function), bindings: (addr table), first-line: (addr line), line: (addr line), final-word: (addr word), top-row: int, left-col: int -> _/ecx: int { #? print-string 0, "render-column\n" #? dump-table bindings var max-width/esi: int <- copy 0 { # compute stack var stack: value-stack var stack-addr/edi: (addr value-stack) <- address stack initialize-value-stack stack-addr, 0x10 # max-words # copy bindings var bindings2-storage: table var bindings2/ebx: (addr table) <- address bindings2-storage #? print-string 0, "deep copy table {\n" deep-copy-table bindings, bindings2 #? print-string 0, "}\n" evaluate functions, bindings2, first-line, final-word, stack-addr # indent stack var indented-col/ebx: int <- copy left-col indented-col <- add 1 # margin-right # render stack var curr-row/edx: int <- copy top-row curr-row <- add 2 # stack-margin-top var _max-width/eax: int <- value-stack-max-width stack-addr max-width <- copy _max-width { var top-addr/ecx: (addr int) <- get stack-addr, top compare *top-addr, 0 break-if-<= decrement *top-addr var data-ah/eax: (addr handle array value) <- get stack-addr, data var data/eax: (addr array value) <- lookup *data-ah var top/ecx: int <- copy *top-addr var dest-offset/ecx: (offset value) <- compute-offset data, top var val/eax: (addr value) <- index data, dest-offset render-value-at screen, curr-row, indented-col, val, max-width var height/eax: int <- value-height val curr-row <- add height loop } } max-width <- add 2 # spaces on either side of items on the stack # render word, initialize result reset-formatting screen move-cursor screen, top-row, left-col print-word screen, final-word { var size/eax: int <- word-length final-word compare size, max-width break-if-<= max-width <- copy size } # post-process right-col var right-col/ecx: int <- copy left-col right-col <- add max-width right-col <- add 1 # margin-right #? print-int32-decimal 0, left-col #? print-string 0, " => " #? print-int32-decimal 0, right-col #? print-string 0, "\n" return right-col } 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 # wordstar-style cheatsheet of shortcuts move-cursor screen, *nrows, 0 start-reverse-video screen print-string screen, " ctrl-q " reset-formatting screen print-string screen, " quit " var menu-start/ebx: int <- copy repl-col menu-start <- subtract 0x48 # 72 = half the size of the menu move-cursor screen, *nrows, menu-start start-reverse-video screen print-string screen, " ctrl-a " reset-formatting screen print-string screen, " ⏮ " start-reverse-video screen print-string screen, " ctrl-b " reset-formatting screen print-string screen, " ◀ word " start-reverse-video screen print-string screen, " ctrl-f " reset-formatting screen print-string screen, " word ▶ " start-reverse-video screen print-string screen, " ctrl-e " reset-formatting screen print-string screen, " ⏭ " start-reverse-video screen print-string screen, " ctrl-l " reset-formatting screen print-string screen, " new line " start-reverse-video screen print-string screen, " ctrl-u " reset-formatting screen print-string screen, " clear " start-reverse-video screen print-string screen, " ctrl-n " reset-formatting screen print-string screen, " name value " start-reverse-video screen print-string screen, " ctrl-d " reset-formatting screen print-string screen, " define function " # primitives var dummy/eax: int <- render-primitives screen, *nrows, repl-col # currently defined functions render-functions screen, repl-col, env } # return value: top-most row written to fn render-primitives screen: (addr screen), bottom-margin-row: int, right-col: int -> _/eax: int { # render primitives from the bottom of the screen upward var row/ecx: int <- copy bottom-margin-row row <- subtract 1 var col/edx: int <- copy 1 move-cursor screen, row, col row, col <- render-primitive-group screen, row, col, right-col, "numbers: ", "+ - * " row, col <- render-primitive-group screen, row, col, right-col, "arrays: ", "len " row, col <- render-primitive-group screen, row, col, right-col, "files: ", "open read slurp lines " row, col <- render-primitive-group screen, row, col, right-col, "misc: ", "dup swap " # hack: keep these at the right of the bottom row row, col <- render-primitive-group screen, row, col, right-col, "screens: ", "fake-screen print move up down left right " # finally print heading up top row <- decrement move-cursor screen, row, 1 start-bold screen print-string screen, "primitives:" reset-formatting screen return row } # start at row, col and print the given strings # move up one row if there isn't enough room before right-col # return row, col printed until fn render-primitive-group screen: (addr screen), _row: int, _col: int, right-col: int, _heading: (addr array byte), _contents: (addr array byte) -> _/ecx: int, _/edx: int { var row/ecx: int <- copy _row var col/edx: int <- copy _col # decrement row if necessary var new-col/ebx: int <- copy col var heading/esi: (addr array byte) <- copy _heading var len1/eax: int <- length heading new-col <- add len1 var contents/edi: (addr array byte) <- copy _contents var len2/eax: int <- length contents new-col <- add len2 var bound/eax: int <- copy right-col bound <- decrement { compare new-col, bound break-if-<= row <- decrement col <- copy 1 } move-cursor screen, row, col start-color screen, 0xf6, 7 print-string screen, heading reset-formatting screen print-string screen, contents return row, new-col } fn render-functions screen: (addr screen), right-col: int, _env: (addr environment) { var row/ecx: int <- copy 1 var dummy-col/edx: int <- copy right-col var env/esi: (addr environment) <- copy _env var functions/esi: (addr handle function) <- get env, functions { var curr/eax: (addr function) <- lookup *functions compare curr, 0 break-if-= row, dummy-col <- render-function-right-aligned screen, row, right-col, curr functions <- get curr, next row <- add 1 # inter-function-margin loop } } # print function starting at row, right-aligned before right-col # return row, col printed until fn render-function-right-aligned screen: (addr screen), row: int, right-col: int, f: (addr function) -> _/ecx: int, _/edx: int { var col/edx: int <- copy right-col col <- subtract 1 # function-right-margin var col2/ebx: int <- copy col var width/eax: int <- function-width f col <- subtract width var new-row/ecx: int <- copy row var height/eax: int <- function-height f new-row <- add height new-row <- decrement col <- subtract 1 # function-left-padding start-color screen, 0, 0xf7 clear-rect screen, row, col, new-row, col2 col <- add 1 #? var dummy/eax: grapheme <- read-key-from-real-keyboard render-function screen, row, col, f new-row <- add 1 # function-bottom-margin col <- subtract 1 # function-left-padding col <- subtract 1 # function-left-margin reset-formatting screen return new-row, col } # render function starting at row, col # only single-line functions supported for now fn render-function screen: (addr screen), row: int, col: int, _f: (addr function) { var f/esi: (addr function) <- copy _f var args/ecx: (addr handle word) <- get f, args move-cursor screen, row, col print-words-in-reverse screen, args var name-ah/eax: (addr handle array byte) <- get f, name var name/eax: (addr array byte) <- lookup *name-ah start-bold screen print-string screen, name reset-formatting screen start-color screen, 0, 0xf7 increment row add-to col, 2 move-cursor screen, row, col print-string screen, "≡ " var body-ah/eax: (addr handle line) <- get f, body var body/eax: (addr line) <- lookup *body-ah var body-words-ah/eax: (addr handle word) <- get body, data print-words screen, body-words-ah } fn real-grapheme? g: grapheme -> _/eax: boolean { # if g == newline return true compare g, 0xa { break-if-!= return 1 # true } # if g == tab return true compare g, 9 { break-if-!= return 1 # true } # if g < 32 return false compare g, 0x20 { break-if->= return 0 # false } # if g <= 255 return true compare g, 0xff { break-if-> return 1 # true } # if (g&0xff == Esc) it's an escape sequence and-with g, 0xff compare g, 0x1b # Esc { break-if-!= return 0 # false } # otherwise return true return 1 # true }