fn initialize-word _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
allocate data-ah
var data/eax: (addr gap-buffer) <- lookup *data-ah
initialize-gap-buffer data
}
## some helpers for creating words. mostly for tests
fn initialize-word-with _self: (addr word), s: (addr array byte) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
allocate data-ah
var data/eax: (addr gap-buffer) <- lookup *data-ah
initialize-gap-buffer-with data, s
}
fn allocate-word-with _out: (addr handle word), s: (addr array byte) {
var out/eax: (addr handle word) <- copy _out
allocate out
var out-addr/eax: (addr word) <- lookup *out
initialize-word-with out-addr, s
}
# just for tests for now
# TODO: handle existing next
# one implication of handles: append must take a handle
fn append-word-with self-h: (handle word), s: (addr array byte) {
var self/eax: (addr word) <- lookup self-h
var next-ah/eax: (addr handle word) <- get self, next
allocate-word-with next-ah, s
var next/eax: (addr word) <- lookup *next-ah
var prev-ah/eax: (addr handle word) <- get next, prev
copy-handle self-h, prev-ah
}
# just for tests for now
# TODO: handle existing prev
fn prepend-word-with self-h: (handle word), s: (addr array byte) {
var self/eax: (addr word) <- lookup self-h
var prev-ah/eax: (addr handle word) <- get self, prev
allocate-word-with prev-ah, s
var prev/eax: (addr word) <- lookup *prev-ah
var next-ah/eax: (addr handle word) <- get prev, next
copy-handle self-h, next-ah
}
## real primitives
fn move-word-contents _src-ah: (addr handle word), _dest-ah: (addr handle word) {
var dest-ah/eax: (addr handle word) <- copy _dest-ah
var _dest/eax: (addr word) <- lookup *dest-ah
var dest/edi: (addr word) <- copy _dest
var src-ah/eax: (addr handle word) <- copy _src-ah
var _src/eax: (addr word) <- lookup *src-ah
var src/esi: (addr word) <- copy _src
cursor-to-start src
var src-data-ah/eax: (addr handle gap-buffer) <- get src, scalar-data
var src-data/eax: (addr gap-buffer) <- lookup *src-data-ah
var src-stack/ecx: (addr grapheme-stack) <- get src-data, right
{
var done?/eax: boolean <- grapheme-stack-empty? src-stack
compare done?, 0/false
break-if-!=
var g/eax: grapheme <- pop-grapheme-stack src-stack
#? print-grapheme 0, g
#? print-string 0, "\n"
add-grapheme-to-word dest, g
loop
}
}
fn copy-word-contents-before-cursor _src-ah: (addr handle word), _dest-ah: (addr handle word) {
var dest-ah/eax: (addr handle word) <- copy _dest-ah
var _dest/eax: (addr word) <- lookup *dest-ah
var dest/edi: (addr word) <- copy _dest
var src-ah/eax: (addr handle word) <- copy _src-ah
var src/eax: (addr word) <- lookup *src-ah
var src-data-ah/eax: (addr handle gap-buffer) <- get src, scalar-data
var src-data/eax: (addr gap-buffer) <- lookup *src-data-ah
var src-stack/ecx: (addr grapheme-stack) <- get src-data, left
var src-stack-data-ah/eax: (addr handle array grapheme) <- get src-stack, data
var _src-stack-data/eax: (addr array grapheme) <- lookup *src-stack-data-ah
var src-stack-data/edx: (addr array grapheme) <- copy _src-stack-data
var top-addr/ecx: (addr int) <- get src-stack, top
var i/eax: int <- copy 0
{
compare i, *top-addr
break-if->=
var g/edx: (addr grapheme) <- index src-stack-data, i
add-grapheme-to-word dest, *g
i <- increment
loop
}
}
fn word-equal? _self: (addr word), s: (addr array byte) -> _/eax: boolean {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: boolean <- gap-buffer-equal? data, s
return result
}
fn word-length _self: (addr word) -> _/eax: int {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: int <- gap-buffer-length data
return result
}
fn final-word _in: (addr handle word), out: (addr handle word) {
var curr-h: (handle word)
var curr-ah/esi: (addr handle word) <- address curr-h
copy-object _in, curr-ah
var curr/eax: (addr word) <- copy 0
var next/edi: (addr handle word) <- copy 0
{
curr <- lookup *curr-ah
next <- get curr, next
curr <- lookup *next
compare curr, 0
break-if-=
copy-object next, curr-ah
loop
}
copy-object curr-ah, out # modify 'out' right at the end, just in case it's same as 'in'
}
fn first-grapheme _self: (addr word) -> _/eax: grapheme {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: grapheme <- first-grapheme-in-gap-buffer data
return result
}
fn grapheme-before-cursor _self: (addr word) -> _/eax: grapheme {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: grapheme <- grapheme-before-cursor-in-gap-buffer data
return result
}
fn add-grapheme-to-word _self: (addr word), c: grapheme {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
add-grapheme-at-gap data, c
}
fn cursor-at-start? _self: (addr word) -> _/eax: boolean {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: boolean <- gap-at-start? data
return result
}
fn cursor-at-end? _self: (addr word) -> _/eax: boolean {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: boolean <- gap-at-end? data
return result
}
fn cursor-left _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var dummy/eax: grapheme <- gap-left data
}
fn cursor-right _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var dummy/eax: grapheme <- gap-right data
}
fn cursor-to-start _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
gap-to-start data
}
fn cursor-to-end _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
gap-to-end data
}
fn cursor-index _self: (addr word) -> _/eax: int {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: int <- gap-index data
return result
}
fn delete-before-cursor _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
delete-before-gap data
}
fn pop-after-cursor _self: (addr word) -> _/eax: grapheme {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: grapheme <- pop-after-gap data
return result
}
fn delete-next _self: (addr word) {
var self/esi: (addr word) <- copy _self
var next-ah/edi: (addr handle word) <- get self, next
var next/eax: (addr word) <- lookup *next-ah
compare next, 0
break-if-=
var next-next-ah/ecx: (addr handle word) <- get next, next
var self-ah/esi: (addr handle word) <- get next, prev
copy-object next-next-ah, next-ah
var new-next/eax: (addr word) <- lookup *next-next-ah
compare new-next, 0
break-if-=
var dest/eax: (addr handle word) <- get new-next, prev
copy-object self-ah, dest
}
fn print-word screen: (addr screen), _self: (addr word) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
render-gap-buffer screen, data
}
fn print-words-in-reverse screen: (addr screen), _words-ah: (addr handle word) {
var words-ah/eax: (addr handle word) <- copy _words-ah
var words-a/eax: (addr word) <- lookup *words-ah
compare words-a, 0
break-if-=
# recurse
var next-ah/ecx: (addr handle word) <- get words-a, next
print-words-in-reverse screen, next-ah
# print
print-word screen, words-a
print-string screen, " "
}
# Gotcha with some word operations: ensure dest-ah isn't in the middle of some
# existing chain of words. There are two pointers to patch, and you'll forget
# to do the other one.
fn copy-words _src-ah: (addr handle word), _dest-ah: (addr handle word) {
var src-ah/eax: (addr handle word) <- copy _src-ah
var src-a/eax: (addr word) <- lookup *src-ah
compare src-a, 0
break-if-=
# copy
var dest-ah/edi: (addr handle word) <- copy _dest-ah
copy-word src-a, dest-ah
# recurse
var rest: (handle word)
var rest-ah/ecx: (addr handle word) <- address rest
var next-src-ah/esi: (addr handle word) <- get src-a, next
copy-words next-src-ah, rest-ah
chain-words dest-ah, rest-ah
}
fn copy-words-in-reverse _src-ah: (addr handle word), _dest-ah: (addr handle word) {
var src-ah/eax: (addr handle word) <- copy _src-ah
var _src-a/eax: (addr word) <- lookup *src-ah
var src-a/esi: (addr word) <- copy _src-a
compare src-a, 0
break-if-=
# recurse
var next-src-ah/ecx: (addr handle word) <- get src-a, next
var dest-ah/edi: (addr handle word) <- copy _dest-ah
copy-words-in-reverse next-src-ah, dest-ah
#
copy-word-at-end src-a, dest-ah
}
fn copy-word-at-end src: (addr word), _dest-ah: (addr handle word) {
var dest-ah/edi: (addr handle word) <- copy _dest-ah
# if dest is null, copy and return
var dest-a/eax: (addr word) <- lookup *dest-ah
compare dest-a, 0
{
break-if-!=
copy-word src, dest-ah
return
}
# copy current word
var new: (handle word)
var new-ah/ecx: (addr handle word) <- address new
copy-word src, new-ah
# append it at the end
var curr-ah/edi: (addr handle word) <- copy dest-ah
{
var curr-a/eax: (addr word) <- lookup *curr-ah # curr-a guaranteed not to be null
var next-ah/ecx: (addr handle word) <- get curr-a, next
var next-a/eax: (addr word) <- lookup *next-ah
compare next-a, 0
break-if-=
curr-ah <- copy next-ah
loop
}
chain-words curr-ah, new-ah
}
fn append-word-at-end-with _dest-ah: (addr handle word), s: (addr array byte) {
var dest-ah/edi: (addr handle word) <- copy _dest-ah
# if dest is null, copy and return
var dest-a/eax: (addr word) <- lookup *dest-ah
compare dest-a, 0
{
break-if-!=
allocate-word-with dest-ah, s
return
}
# otherwise append at end
var curr-ah/edi: (addr handle word) <- copy dest-ah
{
var curr-a/eax: (addr word) <- lookup *curr-ah # curr-a guaranteed not to be null
var next-ah/ecx: (addr handle word) <- get curr-a, next
var next-a/eax: (addr word) <- lookup *next-ah
compare next-a, 0
break-if-=
curr-ah <- copy next-ah
loop
}
append-word-with *curr-ah, s
}
fn copy-word _src-a: (addr word), _dest-ah: (addr handle word) {
var dest-ah/eax: (addr handle word) <- copy _dest-ah
allocate dest-ah
var _dest-a/eax: (addr word) <- lookup *dest-ah
var dest-a/eax: (addr word) <- copy _dest-a
initialize-word dest-a
var dest/edi: (addr handle gap-buffer) <- get dest-a, scalar-data
var src-a/eax: (addr word) <- copy _src-a
var src/eax: (addr handle gap-buffer) <- get src-a, scalar-data
copy-gap-buffer src, dest
}
# one implication of handles: append must take a handle
fn append-word _self-ah: (addr handle word) {
var saved-self-storage: (handle word)
var saved-self/eax: (addr handle word) <- address saved-self-storage
copy-object _self-ah, saved-self
#? {
#? print-string 0, "self-ah is "
#? var foo/eax: int <- copy _self-ah
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
var self-ah/esi: (addr handle word) <- copy _self-ah
var _self/eax: (addr word) <- lookup *self-ah
var self/ebx: (addr word) <- copy _self
#? {
#? print-string 0, "0: self is "
#? var self-ah/eax: (addr handle word) <- copy _self-ah
#? var self/eax: (addr word) <- lookup *self-ah
#? var foo/eax: int <- copy self
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
# allocate new handle
var new: (handle word)
var new-ah/ecx: (addr handle word) <- address new
allocate new-ah
var new-addr/eax: (addr word) <- lookup new
initialize-word new-addr
#? {
#? print-string 0, "new is "
#? var foo/eax: int <- copy new-addr
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
# new->next = self->next
var src/esi: (addr handle word) <- get self, next
#? {
#? print-string 0, "src is "
#? var foo/eax: int <- copy src
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
var dest/edi: (addr handle word) <- get new-addr, next
copy-object src, dest
# new->next->prev = new
{
var next-addr/eax: (addr word) <- lookup *src
compare next-addr, 0
break-if-=
#? {
#? print-string 0, "next-addr is "
#? var foo/eax: int <- copy next-addr
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
dest <- get next-addr, prev
#? #? {
#? #? print-string 0, "self-ah is "
#? #? var foo/eax: int <- copy _self-ah
#? #? print-int32-hex 0, foo
#? #? print-string 0, "\n"
#? #? print-string 0, "2: self is "
#? #? var self-ah/eax: (addr handle word) <- copy _self-ah
#? #? var self/eax: (addr word) <- lookup *self-ah
#? #? var foo/eax: int <- copy self
#? #? print-int32-hex 0, foo
#? #? print-string 0, "\n"
#? #? }
#? {
#? print-string 0, "copying new to "
#? var foo/eax: int <- copy dest
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
copy-object new-ah, dest
#? {
#? print-string 0, "4: self is "
#? var self-ah/eax: (addr handle word) <- copy _self-ah
#? var self/eax: (addr word) <- lookup *self-ah
#? var foo/eax: int <- copy self
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
}
# new->prev = saved-self
dest <- get new-addr, prev
#? {
#? print-string 0, "copying "
#? var self-ah/esi: (addr handle word) <- copy _self-ah
#? var self/eax: (addr word) <- lookup *self-ah
#? var foo/eax: int <- copy self
#? print-int32-hex 0, foo
#? print-string 0, " to "
#? foo <- copy dest
#? print-int32-hex 0, foo
#? print-string 0, "\n"
#? }
var saved-self-ah/eax: (addr handle word) <- address saved-self-storage
copy-object saved-self-ah, dest
# self->next = new
dest <- get self, next
copy-object new-ah, dest
}
fn chain-words _self-ah: (addr handle word), _next: (addr handle word) {
var self-ah/esi: (addr handle word) <- copy _self-ah
var _self/eax: (addr word) <- lookup *self-ah
var self/ecx: (addr word) <- copy _self
var dest/edx: (addr handle word) <- get self, next
var next-ah/edi: (addr handle word) <- copy _next
copy-object next-ah, dest
var next/eax: (addr word) <- lookup *next-ah
compare next, 0
break-if-=
dest <- get next, prev
copy-object self-ah, dest
}
fn emit-word _self: (addr word), out: (addr stream byte) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
emit-gap-buffer data, out
}
fn word-to-string _self: (addr word), out: (addr handle array byte) {
var self/esi: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
gap-buffer-to-string data, out
}
fn word-is-decimal-integer? _self: (addr word) -> _/eax: boolean {
var self/eax: (addr word) <- copy _self
var data-ah/eax: (addr handle gap-buffer) <- get self, scalar-data
var data/eax: (addr gap-buffer) <- lookup *data-ah
var result/eax: boolean <- gap-buffer-is-decimal-integer? data
return result
}
# ABSOLUTELY GHASTLY
fn word-exists? _haystack-ah: (addr handle word), _needle: (addr word) -> _/ebx: boolean {
var needle-name-storage: (handle array byte)
var needle-name-ah/eax: (addr handle array byte) <- address needle-name-storage
word-to-string _needle, needle-name-ah # profligate leak
var _needle-name/eax: (addr array byte) <- lookup *needle-name-ah
var needle-name/edi: (addr array byte) <- copy _needle-name
# base case
var haystack-ah/esi: (addr handle word) <- copy _haystack-ah
var curr/eax: (addr word) <- lookup *haystack-ah
compare curr, 0
{
break-if-!=
return 0/false
}
# check curr
var curr-name-storage: (handle array byte)
var curr-name-ah/ecx: (addr handle array byte) <- address curr-name-storage
word-to-string curr, curr-name-ah # profligate leak
var curr-name/eax: (addr array byte) <- lookup *curr-name-ah
var found?/eax: boolean <- string-equal? needle-name, curr-name
compare found?, 0
{
break-if-=
return 1/true
}
# recurse
var curr/eax: (addr word) <- lookup *haystack-ah
var next-haystack-ah/eax: (addr handle word) <- get curr, next
var result/ebx: boolean <- word-exists? next-haystack-ah, _needle
return result
}
fn word-list-length words: (addr handle word) -> _/eax: int {
var curr-ah/esi: (addr handle word) <- copy words
var result/edi: int <- copy 0
{
var curr/eax: (addr word) <- lookup *curr-ah
compare curr, 0
break-if-=
{
var word-len/eax: int <- word-length curr
result <- add word-len
result <- add 1/inter-word-margin
}
curr-ah <- get curr, next
loop
}
return result
}
# out-ah already has a word allocated and initialized
fn parse-words in: (addr array byte), out-ah: (addr handle word) {
var in-stream: (stream byte 0x100)
var in-stream-a/esi: (addr stream byte) <- address in-stream
write in-stream-a, in
var cursor-word-ah/ebx: (addr handle word) <- copy out-ah
$parse-words:loop: {
var done?/eax: boolean <- stream-empty? in-stream-a
compare done?, 0/false
break-if-!=
var _g/eax: grapheme <- read-grapheme in-stream-a
var g/ecx: grapheme <- copy _g
# if not space, insert
compare g, 0x20/space
{
break-if-=
var cursor-word/eax: (addr word) <- lookup *cursor-word-ah
add-grapheme-to-word cursor-word, g
loop $parse-words:loop
}
# otherwise insert word after and move cursor to it
append-word cursor-word-ah
var cursor-word/eax: (addr word) <- lookup *cursor-word-ah
cursor-to-start cursor-word # reset cursor in each function
cursor-word-ah <- get cursor-word, next
loop
}
}