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# Testable primitives for writing text to screen.
# (Mu doesn't yet have testable primitives for graphics.)
#
# Unlike the top-level, this text mode has no scrolling.
# coordinates here don't match top-level
# Here we're consistent with graphics mode. Top-level is consistent with
# terminal emulators.
type screen {
width: int
height: int
data: (handle array screen-cell)
cursor-x: int
cursor-y: int
}
type screen-cell {
data: grapheme
color: int
background-color: int
}
fn initialize-screen screen: (addr screen), width: int, height: int {
var screen-addr/esi: (addr screen) <- copy screen
var tmp/eax: int <- copy 0
var dest/edi: (addr int) <- copy 0
# screen->width = width
dest <- get screen-addr, width
tmp <- copy width
copy-to *dest, tmp
# screen->height = height
dest <- get screen-addr, height
tmp <- copy height
copy-to *dest, tmp
# screen->data = new screen-cell[width*height]
{
var data-addr/edi: (addr handle array screen-cell) <- get screen-addr, data
tmp <- multiply width
populate data-addr, tmp
}
# screen->cursor-x = 0
dest <- get screen-addr, cursor-x
copy-to *dest, 0
# screen->cursor-y = 0
dest <- get screen-addr, cursor-y
copy-to *dest, 0
}
# in graphemes
fn screen-size screen: (addr screen) -> _/eax: int, _/ecx: int {
var width/eax: int <- copy 0
var height/ecx: int <- copy 0
compare screen, 0
{
break-if-!=
return 0x80/128, 0x30/48
}
# fake screen
var screen-addr/esi: (addr screen) <- copy screen
var tmp/edx: (addr int) <- get screen-addr, width
width <- copy *tmp
tmp <- get screen-addr, height
height <- copy *tmp
return width, height
}
# testable screen primitive
fn draw-grapheme screen: (addr screen), g: grapheme, x: int, y: int, color: int, background-color: int {
{
compare screen, 0
break-if-!=
draw-grapheme-on-real-screen g, x, y, color, background-color
return
}
# fake screen
var screen-addr/esi: (addr screen) <- copy screen
var idx/ecx: int <- screen-cell-index screen-addr, x, y
var data-ah/eax: (addr handle array screen-cell) <- get screen-addr, data
var data/eax: (addr array screen-cell) <- lookup *data-ah
var offset/ecx: (offset screen-cell) <- compute-offset data, idx
var dest-cell/ecx: (addr screen-cell) <- index data, offset
var dest-grapheme/eax: (addr grapheme) <- get dest-cell, data
var g2/edx: grapheme <- copy g
copy-to *dest-grapheme, g2
var dest-color/eax: (addr int) <- get dest-cell, color
var src-color/edx: int <- copy color
copy-to *dest-color, src-color
dest-color <- get dest-cell, background-color
src-color <- copy background-color
copy-to *dest-color, src-color
}
# we can't really render non-ASCII yet, but when we do we'll be ready
fn draw-code-point screen: (addr screen), c: code-point, x: int, y: int, color: int, background-color: int {
var g/eax: grapheme <- copy c
draw-grapheme screen, g, x, y, color, background-color
}
# not really needed for a real screen, though it shouldn't do any harm
fn screen-cell-index screen-on-stack: (addr screen), x: int, y: int -> _/ecx: int {
var screen/esi: (addr screen) <- copy screen-on-stack
# only one bounds check isn't automatically handled
{
var xmax/eax: (addr int) <- get screen, width
var xcurr/ecx: int <- copy x
compare xcurr, *xmax
break-if-<
abort "tried to print out of screen bounds"
}
var width-addr/eax: (addr int) <- get screen, width
var result/ecx: int <- copy y
result <- multiply *width-addr
result <- add x
return result
}
fn cursor-position screen: (addr screen) -> _/eax: int, _/ecx: int {
{
compare screen, 0
break-if-!=
var x/eax: int <- copy 0
var y/ecx: int <- copy 0
x, y <- cursor-position-on-real-screen
return x, y
}
# fake screen
var screen-addr/esi: (addr screen) <- copy screen
var cursor-x-addr/eax: (addr int) <- get screen-addr, cursor-x
var cursor-y-addr/ecx: (addr int) <- get screen-addr, cursor-y
return *cursor-x-addr, *cursor-y-addr
}
fn set-cursor-position screen: (addr screen), x: int, y: int {
{
compare screen, 0
break-if-!=
set-cursor-position-on-real-screen x, y
return
}
# fake screen
var screen-addr/esi: (addr screen) <- copy screen
# ignore x < 0
{
compare x, 0
break-if->=
return
}
# ignore x >= width
{
var width-addr/eax: (addr int) <- get screen-addr, width
var width/eax: int <- copy *width-addr
compare x, width
break-if-<=
return
}
# ignore y < 0
{
compare y, 0
break-if->=
return
}
# ignore y >= height
{
var height-addr/eax: (addr int) <- get screen-addr, height
var height/eax: int <- copy *height-addr
compare y, height
break-if-<
return
}
# screen->cursor-x = x
var dest/edi: (addr int) <- get screen-addr, cursor-x
var src/eax: int <- copy x
copy-to *dest, src
# screen->cursor-y = y
dest <- get screen-addr, cursor-y
src <- copy y
copy-to *dest, src
}
fn draw-cursor screen: (addr screen), g: grapheme {
{
compare screen, 0
break-if-!=
draw-cursor-on-real-screen g
return
}
# fake screen
var cursor-x/eax: int <- copy 0
var cursor-y/ecx: int <- copy 0
cursor-x, cursor-y <- cursor-position screen
draw-grapheme screen, g, cursor-x, cursor-y, 0/fg, 7/bg
}
fn clear-screen screen: (addr screen) {
{
compare screen, 0
break-if-!=
clear-real-screen
return
}
# fake screen
set-cursor-position screen, 0, 0
var screen-addr/esi: (addr screen) <- copy screen
var y/eax: int <- copy 0
var height/ecx: (addr int) <- get screen-addr, height
{
compare y, *height
break-if->=
var x/edx: int <- copy 0
var width/ebx: (addr int) <- get screen-addr, width
{
compare x, *width
break-if->=
draw-code-point screen, 0x20/space, x, y, 0/fg=black, 0/bg=black
x <- increment
loop
}
y <- increment
loop
}
set-cursor-position screen, 0, 0
}
# there's no grapheme that guarantees to cover every pixel, so we'll bump down
# to pixels for a real screen
fn clear-real-screen {
var y/eax: int <- copy 0
{
compare y, 0x300/screen-height=768
break-if->=
var x/edx: int <- copy 0
{
compare x, 0x400/screen-width=1024
break-if->=
pixel-on-real-screen x, y, 0/color=black
x <- increment
loop
}
y <- increment
loop
}
}
fn screen-grapheme-at screen-on-stack: (addr screen), x: int, y: int -> _/eax: grapheme {
var screen-addr/esi: (addr screen) <- copy screen-on-stack
var idx/ecx: int <- screen-cell-index screen-addr, x, y
var result/eax: grapheme <- screen-grapheme-at-idx screen-addr, idx
return result
}
fn screen-grapheme-at-idx screen-on-stack: (addr screen), idx-on-stack: int -> _/eax: grapheme {
var screen-addr/esi: (addr screen) <- copy screen-on-stack
var data-ah/eax: (addr handle array screen-cell) <- get screen-addr, data
var data/eax: (addr array screen-cell) <- lookup *data-ah
var idx/ecx: int <- copy idx-on-stack
var offset/ecx: (offset screen-cell) <- compute-offset data, idx
var cell/eax: (addr screen-cell) <- index data, offset
var src/eax: (addr grapheme) <- get cell, data
return *src
}
fn screen-color-at screen-on-stack: (addr screen), x: int, y: int -> _/eax: int {
var screen-addr/esi: (addr screen) <- copy screen-on-stack
var idx/ecx: int <- screen-cell-index screen-addr, x, y
var result/eax: int <- screen-color-at-idx screen-addr, idx
return result
}
fn screen-color-at-idx screen-on-stack: (addr screen), idx-on-stack: int -> _/eax: int {
var screen-addr/esi: (addr screen) <- copy screen-on-stack
var data-ah/eax: (addr handle array screen-cell) <- get screen-addr, data
var data/eax: (addr array screen-cell) <- lookup *data-ah
var idx/ecx: int <- copy idx-on-stack
var offset/ecx: (offset screen-cell) <- compute-offset data, idx
var cell/eax: (addr screen-cell) <- index data, offset
var src/eax: (addr int) <- get cell, color
var result/eax: int <- copy *src
return result
}
fn screen-background-color-at screen-on-stack: (addr screen), x: int, y: int -> _/eax: int {
var screen-addr/esi: (addr screen) <- copy screen-on-stack
var idx/ecx: int <- screen-cell-index screen-addr, x, y
var result/eax: int <- screen-background-color-at-idx screen-addr, idx
return result
}
fn screen-background-color-at-idx screen-on-stack: (addr screen), idx-on-stack: int -> _/eax: int {
var screen-addr/esi: (addr screen) <- copy screen-on-stack
var data-ah/eax: (addr handle array screen-cell) <- get screen-addr, data
var data/eax: (addr array screen-cell) <- lookup *data-ah
var idx/ecx: int <- copy idx-on-stack
var offset/ecx: (offset screen-cell) <- compute-offset data, idx
var cell/eax: (addr screen-cell) <- index data, offset
var src/eax: (addr int) <- get cell, background-color
var result/eax: int <- copy *src
return result
}
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