fn print-cell _in: (addr handle cell), out: (addr stream byte), trace: (addr trace) {
check-stack
trace-text trace, "print", "print"
trace-lower trace
var in/eax: (addr handle cell) <- copy _in
var in-addr/eax: (addr cell) <- lookup *in
{
compare in-addr, 0
break-if-!=
write out, "NULL"
trace-higher trace
return
}
{
var nil?/eax: boolean <- nil? in-addr
compare nil?, 0/false
break-if-=
write out, "()"
trace-higher trace
return
}
var in-type/ecx: (addr int) <- get in-addr, type
compare *in-type, 0/pair
{
break-if-!=
print-list in-addr, out, trace
trace-higher trace
return
}
compare *in-type, 1/number
{
break-if-!=
print-number in-addr, out, trace
trace-higher trace
return
}
compare *in-type, 2/symbol
{
break-if-!=
print-symbol in-addr, out, trace
trace-higher trace
return
}
compare *in-type, 3/stream
{
break-if-!=
print-stream in-addr, out, trace
trace-higher trace
return
}
compare *in-type, 4/primitive
{
break-if-!=
write out, "[primitive]"
trace-higher trace
return
}
compare *in-type, 5/screen
{
break-if-!=
write out, "[screen "
var screen-ah/eax: (addr handle screen) <- get in-addr, screen-data
var screen/eax: (addr screen) <- lookup *screen-ah
var screen-addr/eax: int <- copy screen
write-int32-hex out, screen-addr
write out, "]"
trace-higher trace
return
}
compare *in-type, 6/keyboard
{
break-if-!=
write out, "[keyboard "
var keyboard-ah/eax: (addr handle gap-buffer) <- get in-addr, keyboard-data
var keyboard/eax: (addr gap-buffer) <- lookup *keyboard-ah
var keyboard-addr/eax: int <- copy keyboard
write-int32-hex out, keyboard-addr
write out, "]"
trace-higher trace
return
}
}
# debug helper
fn dump-cell-at-top-right in-ah: (addr handle cell) {
var stream-storage: (stream byte 0x200)
var stream/edx: (addr stream byte) <- address stream-storage
print-cell in-ah, stream, 0/no-trace
var d1/eax: int <- copy 0
var d2/ecx: int <- copy 0
d1, d2 <- draw-stream-wrapping-right-then-down 0/screen, stream, 0/xmin, 0/ymin, 0x80/xmax, 0x30/ymax, 0/x, 0/y, 7/fg, 0/bg
}
fn dump-cell-from-cursor-over-full-screen in-ah: (addr handle cell) {
var stream-storage: (stream byte 0x200)
var stream/edx: (addr stream byte) <- address stream-storage
print-cell in-ah, stream, 0/no-trace
draw-stream-wrapping-right-then-down-from-cursor-over-full-screen 0/screen, stream, 7/fg, 0/bg
}
fn print-symbol _in: (addr cell), out: (addr stream byte), trace: (addr trace) {
trace-text trace, "print", "symbol"
var in/esi: (addr cell) <- copy _in
var data-ah/eax: (addr handle stream byte) <- get in, text-data
var _data/eax: (addr stream byte) <- lookup *data-ah
var data/esi: (addr stream byte) <- copy _data
rewind-stream data
write-stream out, data
# trace
compare trace, 0
break-if-=
rewind-stream data
var stream-storage: (stream byte 0x40)
var stream/ecx: (addr stream byte) <- address stream-storage
write stream, "=> symbol "
write-stream stream, data
trace trace, "print", stream
}
fn print-stream _in: (addr cell), out: (addr stream byte), trace: (addr trace) {
trace-text trace, "print", "stream"
var in/esi: (addr cell) <- copy _in
var data-ah/eax: (addr handle stream byte) <- get in, text-data
var _data/eax: (addr stream byte) <- lookup *data-ah
var data/esi: (addr stream byte) <- copy _data
rewind-stream data
write out, "["
write-stream out, data
write out, "]"
# trace
compare trace, 0
break-if-=
rewind-stream data
var stream-storage: (stream byte 0x40)
var stream/ecx: (addr stream byte) <- address stream-storage
write stream, "=> stream "
write-stream stream, data
trace trace, "print", stream
}
fn print-number _in: (addr cell), out: (addr stream byte), trace: (addr trace) {
var in/esi: (addr cell) <- copy _in
var val/eax: (addr float) <- get in, number-data
write-float-decimal-approximate out, *val, 3/precision
# trace
compare trace, 0
break-if-=
var stream-storage: (stream byte 0x40)
var stream/ecx: (addr stream byte) <- address stream-storage
write stream, "=> number "
write-float-decimal-approximate stream, *val, 3/precision
trace trace, "print", stream
}
fn print-list _in: (addr cell), out: (addr stream byte), trace: (addr trace) {
var curr/esi: (addr cell) <- copy _in
write out, "("
$print-list:loop: {
var left/ecx: (addr handle cell) <- get curr, left
print-cell left, out, trace
var right/ecx: (addr handle cell) <- get curr, right
var right-addr/eax: (addr cell) <- lookup *right
{
compare right-addr, 0
break-if-!=
abort "null encountered"
}
{
var right-nil?/eax: boolean <- nil? right-addr
compare right-nil?, 0/false
{
break-if-=
trace-text trace, "print", "right is nil"
break $print-list:loop
}
}
write out, " "
var right-type-addr/edx: (addr int) <- get right-addr, type
{
compare *right-type-addr, 0/pair
break-if-=
write out, ". "
print-cell right, out, trace
break $print-list:loop
}
curr <- copy right-addr
loop
}
write out, ")"
}
# Most lisps intern nil, but we don't really have globals yet, so we'll be
# less efficient for now.
fn nil? _in: (addr cell) -> _/eax: boolean {
var in/esi: (addr cell) <- copy _in
# if type != pair, return false
var type/eax: (addr int) <- get in, type
compare *type, 0/pair
{
break-if-=
return 0/false
}
# if left != null, return false
var left-ah/eax: (addr handle cell) <- get in, left
var left/eax: (addr cell) <- lookup *left-ah
compare left, 0
{
break-if-=
return 0/false
}
# if right != null, return false
var right-ah/eax: (addr handle cell) <- get in, right
var right/eax: (addr cell) <- lookup *right-ah
compare right, 0
{
break-if-=
return 0/false
}
return 1/true
}
fn test-print-cell-zero {
var num-storage: (handle cell)
var num/esi: (addr handle cell) <- address num-storage
new-integer num, 0
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell num, out, 0/no-trace
check-stream-equal out, "0", "F - test-print-cell-zero"
}
fn test-print-cell-integer {
var num-storage: (handle cell)
var num/esi: (addr handle cell) <- address num-storage
new-integer num, 1
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell num, out, 0/no-trace
check-stream-equal out, "1", "F - test-print-cell-integer"
}
fn test-print-cell-integer-2 {
var num-storage: (handle cell)
var num/esi: (addr handle cell) <- address num-storage
new-integer num, 0x30
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell num, out, 0/no-trace
check-stream-equal out, "48", "F - test-print-cell-integer-2"
}
fn test-print-cell-fraction {
var num-storage: (handle cell)
var num/esi: (addr handle cell) <- address num-storage
var val/xmm0: float <- rational 1, 2
new-float num, val
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell num, out, 0/no-trace
check-stream-equal out, "0.5", "F - test-print-cell-fraction"
}
fn test-print-cell-symbol {
var sym-storage: (handle cell)
var sym/esi: (addr handle cell) <- address sym-storage
new-symbol sym, "abc"
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell sym, out, 0/no-trace
check-stream-equal out, "abc", "F - test-print-cell-symbol"
}
fn test-print-cell-nil-list {
var nil-storage: (handle cell)
var nil/esi: (addr handle cell) <- address nil-storage
allocate-pair nil
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell nil, out, 0/no-trace
check-stream-equal out, "()", "F - test-print-cell-nil-list"
}
fn test-print-cell-singleton-list {
# list
var left-storage: (handle cell)
var left/ecx: (addr handle cell) <- address left-storage
new-symbol left, "abc"
var nil-storage: (handle cell)
var nil/edx: (addr handle cell) <- address nil-storage
allocate-pair nil
var list-storage: (handle cell)
var list/esi: (addr handle cell) <- address list-storage
new-pair list, *left, *nil
#
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell list, out, 0/no-trace
check-stream-equal out, "(abc)", "F - test-print-cell-singleton-list"
}
fn test-print-cell-list {
# list = cons "abc", nil
var left-storage: (handle cell)
var left/ecx: (addr handle cell) <- address left-storage
new-symbol left, "abc"
var nil-storage: (handle cell)
var nil/edx: (addr handle cell) <- address nil-storage
allocate-pair nil
var list-storage: (handle cell)
var list/esi: (addr handle cell) <- address list-storage
new-pair list, *left, *nil
# list = cons 64, list
new-integer left, 0x40
new-pair list, *left, *list
#
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell list, out, 0/no-trace
check-stream-equal out, "(64 abc)", "F - test-print-cell-list"
}
fn test-print-cell-list-of-nil {
# list = cons "abc", nil
var left-storage: (handle cell)
var left/ecx: (addr handle cell) <- address left-storage
allocate-pair left
var nil-storage: (handle cell)
var nil/edx: (addr handle cell) <- address nil-storage
allocate-pair nil
var list-storage: (handle cell)
var list/esi: (addr handle cell) <- address list-storage
new-pair list, *left, *nil
# list = cons 64, list
new-integer left, 0x40
new-pair list, *left, *list
#
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell list, out, 0/no-trace
check-stream-equal out, "(64 ())", "F - test-print-cell-list-nil"
}
fn test-print-dotted-list {
# list = cons 64, "abc"
var left-storage: (handle cell)
var left/ecx: (addr handle cell) <- address left-storage
new-symbol left, "abc"
var right-storage: (handle cell)
var right/edx: (addr handle cell) <- address right-storage
new-integer right, 0x40
var list-storage: (handle cell)
var list/esi: (addr handle cell) <- address list-storage
new-pair list, *left, *right
#
var out-storage: (stream byte 0x40)
var out/edi: (addr stream byte) <- address out-storage
print-cell list, out, 0/no-trace
check-stream-equal out, "(abc . 64)", "F - test-print-dotted-list"
}