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|
function sign_extend_32_to_64
argument n
local c
c = n > 31
n |= c * 0xffffffff00000000
return n
; round up to nearest multiple of 8
function round_up_to_8
argument n
n += 7
return n & 0xfffffffffffffff8
; multiply two 64-bit signed numbers to a 128-bit number
function full_multiply_signed
argument a
argument b
argument p_lower
argument p_upper
local lower
local upper
lower = a * b
; mov rax, rdx
byte 0x48
byte 0x89
byte 0xd0
; mov [rbp-48] (upper), rax
byte 0x48
byte 0x89
byte 0x85
byte 0xd0
byte 0xff
byte 0xff
byte 0xff
*8p_lower = lower
*8p_upper = upper
return
function divmod_unsigned
argument a
argument b
argument p_quotient
argument p_remainder
local q
local r
; mov rax, [rbp-16]
byte 0x48
byte 0x8b
byte 0x85
byte 0xf0
byte 0xff
byte 0xff
byte 0xff
; mov rbx, rax
byte 0x48
byte 0x89
byte 0xc3
; mov rax, [rbp-8]
byte 0x48
byte 0x8b
byte 0x85
byte 0xf8
byte 0xff
byte 0xff
byte 0xff
; xor edx, edx
byte 0x31
byte 0xd2
; div rbx
byte 0x48
byte 0xf7
byte 0xf3
; mov [rbp-40], rax
byte 0x48
byte 0x89
byte 0x85
byte 0xd8
byte 0xff
byte 0xff
byte 0xff
; mov rax, rdx
byte 0x48
byte 0x89
byte 0xd0
; mov [rbp-48], rax
byte 0x48
byte 0x89
byte 0x85
byte 0xd0
byte 0xff
byte 0xff
byte 0xff
*8p_quotient = q
*8p_remainder = r
return
; allows for negative shifts
function right_shift
argument x
argument n
if n < 0 goto right_shift_negative
return x > n
:right_shift_negative
n = 0 - n
return x < n
; allows for negative shifts
function left_shift
argument x
argument n
if n < 0 goto right_shift_negative
return x < n
:left_shift_negative
n = 0 - n
return x > n
function max_signed
argument a
argument b
if a > b goto maxs_return_a
return b
:maxs_return_a
return a
function file_error
argument name
puts(.str_file_error)
puts(name)
putc(10)
exit(1)
:str_file_error
string Error opening file:
byte 32
byte 0
function die
argument message
puts(message)
putc(10)
exit(1)
function ftruncate
argument fd
argument length
local x
x = syscall(77, fd, length)
if x != 0 goto ftruncate_failed
return
:ftruncate_failed
puts(.str_ftruncate_failed)
exit(1)
:str_ftruncate_failed
string ftruncated failed.
byte 10
byte 0
function mmap
argument addr
argument length
argument prot
argument flags
argument fd
argument offset
return syscall(9, addr, length, prot, flags, fd, offset)
function munmap
argument addr
argument length
return syscall(11, addr, length)
#define PROT_READ 1
#define PROT_WRITE 2
#define PROT_READ_WRITE 3
#define MAP_SHARED 0x01
#define MAP_PRIVATE_ANONYMOUS 0x22
function malloc
argument size
local total_size
local memory
total_size = size + 8
memory = mmap(0, total_size, PROT_READ_WRITE, MAP_PRIVATE_ANONYMOUS, -1, 0)
if memory ] 0xffffffffffff0000 goto malloc_failed
*8memory = total_size
return memory + 8
:malloc_failed
puts(.str_out_of_memory)
exit(1)
:str_out_of_memory
string Out of memory.
byte 10
byte 0
function free
argument memory
local psize
local size
psize = memory - 8
size = *8psize
munmap(psize, size)
return
; returns a pointer to a null-terminated string containing the
; (unsigned) number given
function itos
global 32 itos_string
argument x
local c
local p
p = &itos_string
p += 30
:itos_loop
divmod_unsigned(x, 10, &x, &c)
c += '0
*1p = c
if x == 0 goto itos_loop_end
p -= 1
goto itos_loop
:itos_loop_end
return p
; returns the number in the given base at the start of the string, advancing the string past it.
function strtoi
argument p_s
argument base
local s
local c
local n
n = 0
s = *8p_s
:strtoi_loop
c = *1s
if c < '0 goto strtoi_loop_end
if c <= '9 goto strtoi_decimal_digit
if c < 'A goto strtoi_loop_end
if c <= 'F goto strtoi_upper_hexdigit
if c < 'a goto strtoi_loop_end
if c <= 'f goto strtoi_lower_hexdigit
goto strtoi_loop_end
:strtoi_decimal_digit
c -= '0
goto strtoi_digit
:strtoi_upper_hexdigit
c += 10 - 'A
goto strtoi_digit
:strtoi_lower_hexdigit
c += 10 - 'a
goto strtoi_digit
:strtoi_digit
if c >= base goto strtoi_loop_end
n *= base
n += c
s += 1
goto strtoi_loop
:strtoi_loop_end
*8p_s = s
return n
; returns the decimal number at the start of the given string
function stoi
argument s
return strtoi(&s, 10)
function memchr
argument mem
argument c
local p
p = mem
:memchr_loop
if *1p == c goto memchr_loop_end
p += 1
goto memchr_loop
:memchr_loop_end
return p
function strchr
argument str
argument c
local p
p = str
:strchr_loop
if *1p == 0 goto return_0
if *1p == c goto strchr_loop_end
p += 1
goto strchr_loop
:strchr_loop_end
return p
; copy from *p_src to *p_dest until terminator is reached, setting both to point to their respective terminators
function memccpy_advance
argument p_dest
argument p_src
argument terminator
local src
local dest
local c
src = *8p_src
dest = *8p_dest
:memccpy_advance_loop
c = *1src
*1dest = c
if c == terminator goto memccpy_advance_loop_end
src += 1
dest += 1
goto memccpy_advance_loop
:memccpy_advance_loop_end
*8p_src = src
*8p_dest = dest
return
; copy from src to dest until terminator is reached, returning pointer to terminator in dest.
function memccpy
argument dest
argument src
argument terminator
memccpy_advance(&dest, &src, terminator)
return dest
; like C, but doesn't return anything
; also, you can copy overlapping regions as long as dest < src.
function memcpy
argument dest
argument src
argument n
local p
local q
p = dest
q = src
:memcpy_loop
if n == 0 goto return_0
*1p = *1q
p += 1
q += 1
n -= 1
goto memcpy_loop
; like C, but doesn't return anything
function memset
argument dest
argument c
argument n
:memset_loop
if n == 0 goto return_0
*1dest = c
dest += 1
n -= 1
goto memset_loop
function strlen
argument s
local p
p = s
:strlen_loop
if *1p == 0 goto strlen_loop_end
p += 1
goto strlen_loop
:strlen_loop_end
return p - s
; like C strcpy, but returns a pointer to the terminating null character in dest
function strcpy
argument dest
argument src
local p
local q
local c
p = dest
q = src
:strcpy_loop
c = *1q
*1p = c
if c == 0 goto strcpy_loop_end
p += 1
q += 1
goto strcpy_loop
:strcpy_loop_end
return p
function str_equals
argument a
argument b
local c
local d
:str_equals_loop
c = *1a
d = *1b
if c != d goto return_0
if c == 0 goto return_1
a += 1
b += 1
goto str_equals_loop
function str_startswith
argument s
argument prefix
local p
local q
local c1
local c2
p = s
q = prefix
:str_startswith_loop
c1 = *1p
c2 = *1q
if c2 == 0 goto return_1
if c1 != c2 goto return_0
p += 1
q += 1
goto str_startswith_loop
function fputs
argument fd
argument s
local length
length = strlen(s)
syscall(1, fd, s, length)
return
function puts
argument s
fputs(1, s)
return
function putsln
argument s
fputs(1, s)
fputc(1, 10)
return
function print_separator
fputs(1, .str_separator)
return
:str_separator
byte 10
string ------------------------------------------------
byte 10
byte 0
function fputn
argument fd
argument n
local s
s = itos(n)
fputs(fd, s)
return
function fputn_signed
argument fd
argument n
if n < 0 goto fputn_negative
fputn(fd, n)
return
:fputn_negative
fputc(fd, '-)
n = 0 - n
fputn(fd, n)
return
; like fputn_signed, but include the sign even if it's zero or positive
function fputn_with_sign
argument fd
argument n
if n < 0 goto fputn_with_sign_negative
fputc(fd, '+)
fputn(fd, n)
return
:fputn_with_sign_negative
fputc(fd, '-)
n = 0 - n
fputn(fd, n)
return
:hex_digits
string 0123456789abcdef
function fputx64
argument fd
argument n
local m
local x
m = 60
:fputx64_loop
x = n > m
x &= 0xf
x += .hex_digits
fputc(fd, *1x)
m -= 4
if m >= 0 goto fputx64_loop
return
function putx64
argument n
fputx64(1, n)
return
function putx64ln
argument n
fputx64(1, n)
fputc(1, 10)
return
function fputx32
argument fd
argument n
local m
local x
m = 28
:fputx32_loop
x = n > m
x &= 0xf
x += .hex_digits
fputc(fd, *1x)
m -= 4
if m >= 0 goto fputx32_loop
return
function putx32
argument n
fputx32(1, n)
return
function putx32ln
argument n
fputx32(1, n)
fputc(1, 10)
return
function fputx32ln
argument fd
argument n
fputx32(fd, n)
fputc(fd, 10)
return
function putn
argument n
fputn(1, n)
return
function putn_signed
argument n
fputn_signed(1, n)
return
function putn_with_sign
argument n
fputn_with_sign(1, n)
return
function putnln
argument n
fputn(1, n)
fputc(1, 10)
return
function putnln_signed
argument n
fputn_signed(1, n)
fputc(1, 10)
return
function putnln_with_sign
argument n
fputn_with_sign(1, n)
fputc(1, 10)
return
function fputc
argument fd
argument c
syscall(1, fd, &c, 1)
return
function putc
argument c
fputc(1, c)
return
function putcln
argument c
fputc(1, c)
fputc(1, 10)
return
; returns 0 at end of file
function fgetc
argument fd
local c
c = 0
syscall(0, fd, &c, 1)
return c
; read a line from fd as a null-terminated string
; returns 0 at end of file, 1 otherwise
function fgets
argument fd
argument buf
argument size
local p
local end
local c
p = buf
end = buf + size
:fgets_loop
c = fgetc(fd)
if c == 0 goto fgets_eof
if c == 10 goto fgets_eol
*1p = c
p += 1
if p == end goto fgets_eob
goto fgets_loop
:fgets_eol ; end of line
*1p = 0
return 1
:fgets_eof ; end of file
*1p = 0
return 0
:fgets_eob ; end of buffer
p -= 1
*1p = 0
return 1
; open the given file for reading
function open_r
argument filename
local fd
fd = syscall(2, filename, 0)
if fd < 0 goto open_r_error
return fd
:open_r_error
file_error(filename)
return -1
; open the given file for writing with the given mode
function open_w
argument filename
argument mode
local fd
fd = syscall(2, filename, 0x241, mode)
if fd < 0 goto open_w_error
return fd
:open_w_error
file_error(filename)
return -1
; open the given file for reading and writing with the given mode
function open_rw
argument filename
argument mode
local fd
fd = syscall(2, filename, 0x242, mode)
if fd < 0 goto open_rw_error
return fd
:open_rw_error
file_error(filename)
return -1
function close
argument fd
syscall(3, fd)
return
#define SEEK_SET 0
#define SEEK_CUR 1
#define SEEK_END 2
function lseek
argument fd
argument offset
argument whence
return syscall(8, fd, offset, whence)
function isupper
argument c
if c < 'A goto return_0
if c <= 'Z goto return_1
goto return_0
function islower
argument c
if c < 'a goto return_0
if c <= 'z goto return_1
goto return_0
function isdigit
argument c
if c < '0 goto return_0
if c <= '9 goto return_1
goto return_0
function isoctdigit
argument c
if c < '0 goto return_0
if c <= '7 goto return_1
goto return_0
function isalpha
argument c
if c < 'A goto return_0
if c <= 'Z goto return_1
if c < 'a goto return_0
if c <= 'z goto return_1
goto return_0
; characters which can start identifiers in C
function isalpha_or_underscore
argument c
if c < 'A goto return_0
if c <= 'Z goto return_1
if c == '_ goto return_1
if c < 'a goto return_0
if c <= 'z goto return_1
goto return_0
; characters which can appear in identifiers in C
function isalnum_or_underscore
argument c
if c < '0 goto return_0
if c <= '9 goto return_1
if c < 'A goto return_0
if c <= 'Z goto return_1
if c == '_ goto return_1
if c < 'a goto return_0
if c <= 'z goto return_1
goto return_0
; is the given character one of:
; .0123456789
; (these are the characters which can appear at the start of a number in C)
function isdigit_or_dot
argument c
if c < '. goto return_0
if c == '. goto return_1
if c < '0 goto return_0
if c <= '9 goto return_1
goto return_0
function exit
argument status_code
syscall(0x3c, status_code)
; return index of leftmost bit
; error on 0
function leftmost_1bit
argument x
local i
local b
if x == 0 goto leftmost1bit_0
i = 63
:leftmost1bit_loop
b = 1 < i
b &= x
if b != 0 goto leftmost1bit_found
i -= 1
goto leftmost1bit_loop
:leftmost1bit_found
return i
:leftmost1bit_0
puts(.str_leftmost1bit_0)
exit(1)
:str_leftmost1bit_0
string 0 passed to leftmost_1bit.
byte 0
:empty_string
byte 0
:return_0
return 0
:return_1
return 1
:return_2
return 2
:return_3
return 3
:return_4
return 4
:return_5
return 5
:return_6
return 6
:return_7
return 7
:return_8
return 8
:return_9
return 9
:return_minus1
return -1
:return_0x10
return 0x10
:return_0x20
return 0x20
:return_0x30
return 0x30
:return_0x40
return 0x40
:return_0x50
return 0x50
:return_0x60
return 0x60
:return_0x70
return 0x70
:return_0x80
return 0x80
:return_0x90
return 0x90
:return_0xa0
return 0xa0
:return_0xb0
return 0xb0
:return_0xc0
return 0xc0
:return_0xd0
return 0xd0
:return_0xd8
return 0xd8
:return_0xe0
return 0xe0
:return_0xf0
return 0xf0
:return_0xffff
return 0xffff
function syscall
; I've done some testing, and this should be okay even if
; rbp-56 goes beyond the end of the stack.
; mov rax, [rbp-16]
byte 0x48
byte 0x8b
byte 0x85
byte 0xf0
byte 0xff
byte 0xff
byte 0xff
; mov rdi, rax
byte 0x48
byte 0x89
byte 0xc7
; mov rax, [rbp-24]
byte 0x48
byte 0x8b
byte 0x85
byte 0xe8
byte 0xff
byte 0xff
byte 0xff
; mov rsi, rax
byte 0x48
byte 0x89
byte 0xc6
; mov rax, [rbp-32]
byte 0x48
byte 0x8b
byte 0x85
byte 0xe0
byte 0xff
byte 0xff
byte 0xff
; mov rdx, rax
byte 0x48
byte 0x89
byte 0xc2
; mov rax, [rbp-40]
byte 0x48
byte 0x8b
byte 0x85
byte 0xd8
byte 0xff
byte 0xff
byte 0xff
; mov r10, rax
byte 0x49
byte 0x89
byte 0xc2
; mov rax, [rbp-48]
byte 0x48
byte 0x8b
byte 0x85
byte 0xd0
byte 0xff
byte 0xff
byte 0xff
; mov r8, rax
byte 0x49
byte 0x89
byte 0xc0
; mov rax, [rbp-56]
byte 0x48
byte 0x8b
byte 0x85
byte 0xc8
byte 0xff
byte 0xff
byte 0xff
; mov r9, rax
byte 0x49
byte 0x89
byte 0xc1
; mov rax, [rbp-8]
byte 0x48
byte 0x8b
byte 0x85
byte 0xf8
byte 0xff
byte 0xff
byte 0xff
; syscall
byte 0x0f
byte 0x05
return
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