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|
type gap-buffer {
left: grapheme-stack
right: grapheme-stack
}
fn initialize-gap-buffer _self: (addr gap-buffer) {
var self/esi: (addr gap-buffer) <- copy _self
var left/eax: (addr grapheme-stack) <- get self, left
initialize-grapheme-stack left, 0x10 # max-word-size
var right/eax: (addr grapheme-stack) <- get self, right
initialize-grapheme-stack right, 0x10 # max-word-size
}
# just for tests
fn initialize-gap-buffer-with self: (addr gap-buffer), s: (addr array byte) {
initialize-gap-buffer self
var stream-storage: (stream byte 0x10) # max-word-size
var stream/ecx: (addr stream byte) <- address stream-storage
write stream, s
{
var done?/eax: boolean <- stream-empty? stream
compare done?, 0 # false
break-if-!=
var g/eax: grapheme <- read-grapheme stream
add-grapheme-at-gap self, g
loop
}
}
fn gap-buffer-to-string self: (addr gap-buffer), out: (addr handle array byte) {
var s-storage: (stream byte 0x100)
var s/ecx: (addr stream byte) <- address s-storage
emit-gap-buffer self, s
stream-to-array s, out
}
fn emit-gap-buffer _self: (addr gap-buffer), out: (addr stream byte) {
var self/esi: (addr gap-buffer) <- copy _self
clear-stream out
var left/eax: (addr grapheme-stack) <- get self, left
emit-stack-from-bottom left, out
var right/eax: (addr grapheme-stack) <- get self, right
emit-stack-from-top right, out
}
# dump stack from bottom to top
fn emit-stack-from-bottom _self: (addr grapheme-stack), out: (addr stream byte) {
var self/esi: (addr grapheme-stack) <- copy _self
var data-ah/edi: (addr handle array grapheme) <- get self, data
var _data/eax: (addr array grapheme) <- lookup *data-ah
var data/edi: (addr array grapheme) <- copy _data
var top-addr/ecx: (addr int) <- get self, top
var i/eax: int <- copy 0
{
compare i, *top-addr
break-if->=
var g/edx: (addr grapheme) <- index data, i
write-grapheme out, *g
i <- increment
loop
}
}
# dump stack from top to bottom
fn emit-stack-from-top _self: (addr grapheme-stack), out: (addr stream byte) {
var self/esi: (addr grapheme-stack) <- copy _self
var data-ah/edi: (addr handle array grapheme) <- get self, data
var _data/eax: (addr array grapheme) <- lookup *data-ah
var data/edi: (addr array grapheme) <- copy _data
var top-addr/ecx: (addr int) <- get self, top
var i/eax: int <- copy *top-addr
i <- decrement
{
compare i, 0
break-if-<
var g/edx: (addr grapheme) <- index data, i
write-grapheme out, *g
i <- decrement
loop
}
}
fn render-gap-buffer screen: (addr screen), _gap: (addr gap-buffer) {
var gap/esi: (addr gap-buffer) <- copy _gap
var left/eax: (addr grapheme-stack) <- get gap, left
render-stack-from-bottom left, screen
var right/eax: (addr grapheme-stack) <- get gap, right
render-stack-from-top right, screen
}
fn gap-buffer-length _gap: (addr gap-buffer) -> _/eax: int {
var gap/esi: (addr gap-buffer) <- copy _gap
var left/eax: (addr grapheme-stack) <- get gap, left
var tmp/eax: (addr int) <- get left, top
var left-length/ecx: int <- copy *tmp
var right/esi: (addr grapheme-stack) <- get gap, right
tmp <- get right, top
var result/eax: int <- copy *tmp
result <- add left-length
return result
}
fn add-grapheme-at-gap _self: (addr gap-buffer), g: grapheme {
var self/esi: (addr gap-buffer) <- copy _self
var left/eax: (addr grapheme-stack) <- get self, left
push-grapheme-stack left, g
}
fn gap-to-start self: (addr gap-buffer) {
{
var curr/eax: grapheme <- gap-left self
compare curr, -1
loop-if-!=
}
}
fn gap-to-end self: (addr gap-buffer) {
{
var curr/eax: grapheme <- gap-right self
compare curr, -1
loop-if-!=
}
}
fn gap-at-start? _self: (addr gap-buffer) -> _/eax: boolean {
var self/esi: (addr gap-buffer) <- copy _self
var left/eax: (addr grapheme-stack) <- get self, left
var result/eax: boolean <- grapheme-stack-empty? left
return result
}
fn gap-at-end? _self: (addr gap-buffer) -> _/eax: boolean {
var self/esi: (addr gap-buffer) <- copy _self
var right/eax: (addr grapheme-stack) <- get self, right
var result/eax: boolean <- grapheme-stack-empty? right
return result
}
fn gap-right _self: (addr gap-buffer) -> _/eax: grapheme {
var self/esi: (addr gap-buffer) <- copy _self
var g/eax: grapheme <- copy 0
var right/ecx: (addr grapheme-stack) <- get self, right
g <- pop-grapheme-stack right
compare g, -1
{
break-if-=
var left/ecx: (addr grapheme-stack) <- get self, left
push-grapheme-stack left, g
}
return g
}
fn gap-left _self: (addr gap-buffer) -> _/eax: grapheme {
var self/esi: (addr gap-buffer) <- copy _self
var g/eax: grapheme <- copy 0
{
var left/ecx: (addr grapheme-stack) <- get self, left
g <- pop-grapheme-stack left
}
compare g, -1
{
break-if-=
var right/ecx: (addr grapheme-stack) <- get self, right
push-grapheme-stack right, g
}
return g
}
fn gap-index _self: (addr gap-buffer) -> _/eax: int {
var self/eax: (addr gap-buffer) <- copy _self
var left/eax: (addr grapheme-stack) <- get self, left
var top-addr/eax: (addr int) <- get left, top
var result/eax: int <- copy *top-addr
return result
}
fn first-grapheme-in-gap-buffer _self: (addr gap-buffer) -> _/eax: grapheme {
var self/esi: (addr gap-buffer) <- copy _self
# try to read from left
var left/eax: (addr grapheme-stack) <- get self, left
var top-addr/ecx: (addr int) <- get left, top
compare *top-addr, 0
{
break-if-<=
var data-ah/eax: (addr handle array grapheme) <- get left, data
var data/eax: (addr array grapheme) <- lookup *data-ah
var result-addr/eax: (addr grapheme) <- index data, 0
return *result-addr
}
# try to read from right
var right/eax: (addr grapheme-stack) <- get self, right
top-addr <- get right, top
compare *top-addr, 0
{
break-if-<=
var data-ah/eax: (addr handle array grapheme) <- get right, data
var data/eax: (addr array grapheme) <- lookup *data-ah
var top/ecx: int <- copy *top-addr
top <- decrement
var result-addr/eax: (addr grapheme) <- index data, top
return *result-addr
}
# give up
return -1
}
fn grapheme-before-cursor-in-gap-buffer _self: (addr gap-buffer) -> _/eax: grapheme {
var self/esi: (addr gap-buffer) <- copy _self
# try to read from left
var left/ecx: (addr grapheme-stack) <- get self, left
var top-addr/edx: (addr int) <- get left, top
compare *top-addr, 0
{
break-if-<=
var result/eax: grapheme <- pop-grapheme-stack left
push-grapheme-stack left, result
return result
}
# give up
return -1
}
fn delete-before-gap _self: (addr gap-buffer) {
var self/eax: (addr gap-buffer) <- copy _self
var left/eax: (addr grapheme-stack) <- get self, left
var dummy/eax: grapheme <- pop-grapheme-stack left
}
fn pop-after-gap _self: (addr gap-buffer) -> _/eax: grapheme {
var self/eax: (addr gap-buffer) <- copy _self
var right/eax: (addr grapheme-stack) <- get self, right
var result/eax: grapheme <- pop-grapheme-stack right
return result
}
fn gap-buffer-equal? _self: (addr gap-buffer), s: (addr array byte) -> _/eax: boolean {
var self/esi: (addr gap-buffer) <- copy _self
# complication: graphemes may be multiple bytes
# so don't rely on length
# instead turn the expected result into a stream and arrange to read from it in order
var stream-storage: (stream byte 0x10) # max-word-size
var expected-stream/ecx: (addr stream byte) <- address stream-storage
write expected-stream, s
# compare left
var left/edx: (addr grapheme-stack) <- get self, left
var result/eax: boolean <- prefix-match? left, expected-stream
compare result, 0 # false
{
break-if-!=
return result
}
# compare right
var right/edx: (addr grapheme-stack) <- get self, right
result <- suffix-match? right, expected-stream
compare result, 0 # false
{
break-if-!=
return result
}
# ensure there's nothing left over
result <- stream-empty? expected-stream
return result
}
fn test-gap-buffer-equal-from-end? {
var _g: gap-buffer
var g/esi: (addr gap-buffer) <- address _g
initialize-gap-buffer g
#
var c/eax: grapheme <- copy 0x61 # 'a'
add-grapheme-at-gap g, c
add-grapheme-at-gap g, c
add-grapheme-at-gap g, c
# gap is at end (right is empty)
var _result/eax: boolean <- gap-buffer-equal? g, "aaa"
var result/eax: int <- copy _result
check-ints-equal result, 1, "F - test-gap-buffer-equal-from-end?"
}
fn test-gap-buffer-equal-from-middle? {
var _g: gap-buffer
var g/esi: (addr gap-buffer) <- address _g
initialize-gap-buffer g
#
var c/eax: grapheme <- copy 0x61 # 'a'
add-grapheme-at-gap g, c
add-grapheme-at-gap g, c
add-grapheme-at-gap g, c
var dummy/eax: grapheme <- gap-left g
# gap is in the middle
var _result/eax: boolean <- gap-buffer-equal? g, "aaa"
var result/eax: int <- copy _result
check-ints-equal result, 1, "F - test-gap-buffer-equal-from-middle?"
}
fn test-gap-buffer-equal-from-start? {
var _g: gap-buffer
var g/esi: (addr gap-buffer) <- address _g
initialize-gap-buffer g
#
var c/eax: grapheme <- copy 0x61 # 'a'
add-grapheme-at-gap g, c
add-grapheme-at-gap g, c
add-grapheme-at-gap g, c
var dummy/eax: grapheme <- gap-left g
dummy <- gap-left g
dummy <- gap-left g
# gap is at the start
var _result/eax: boolean <- gap-buffer-equal? g, "aaa"
var result/eax: int <- copy _result
check-ints-equal result, 1, "F - test-gap-buffer-equal-from-start?"
}
fn copy-gap-buffer _src-ah: (addr handle gap-buffer), _dest-ah: (addr handle gap-buffer) {
# obtain src-a, dest-a
var src-ah/eax: (addr handle gap-buffer) <- copy _src-ah
var _src-a/eax: (addr gap-buffer) <- lookup *src-ah
var src-a/esi: (addr gap-buffer) <- copy _src-a
var dest-ah/eax: (addr handle gap-buffer) <- copy _dest-ah
var _dest-a/eax: (addr gap-buffer) <- lookup *dest-ah
var dest-a/edi: (addr gap-buffer) <- copy _dest-a
# copy left grapheme-stack
var src/ecx: (addr grapheme-stack) <- get src-a, left
var dest/edx: (addr grapheme-stack) <- get dest-a, left
copy-grapheme-stack src, dest
# copy right grapheme-stack
src <- get src-a, right
dest <- get dest-a, right
copy-grapheme-stack src, dest
}
fn gap-buffer-is-decimal-integer? _self: (addr gap-buffer) -> _/eax: boolean {
var self/esi: (addr gap-buffer) <- copy _self
var curr/ecx: (addr grapheme-stack) <- get self, left
var result/eax: boolean <- grapheme-stack-is-decimal-integer? curr
{
compare result, 0 # false
break-if-=
curr <- get self, right
result <- grapheme-stack-is-decimal-integer? curr
}
return result
}
|