prog8/compiler/res/prog8lib/virtual/string.p8

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; 0-terminated string manipulation routines. For the Virtual Machine target.
%import shared_string_functions
string {
%option ignore_unused
sub length(str st) -> ubyte {
; Returns the number of bytes in the string.
; This value is determined during runtime and counts upto the first terminating 0 byte in the string,
; regardless of the size of the string during compilation time. Dont confuse this with len and sizeof!
ubyte count = 0
while st[count]!=0
count++
return count
}
sub left(str source, ubyte slen, str target) {
; Copies the left side of the source string of the given length to target string.
; It is assumed the target string buffer is large enough to contain the result.
; Also, you have to make sure yourself that length is smaller or equal to the length of the source string.
; Modifies in-place, doesnt return a value (so cant be used in an expression).
target[slen] = 0
ubyte ix
for ix in 0 to slen-1 {
target[ix] = source[ix]
}
}
sub right(str source, ubyte slen, str target) {
; Copies the right side of the source string of the given length to target string.
; It is assumed the target string buffer is large enough to contain the result.
; Also, you have to make sure yourself that length is smaller or equal to the length of the source string.
; Modifies in-place, doesnt return a value (so cant be used in an expression).
ubyte offset = length(source)-slen
ubyte ix
for ix in 0 to slen-1 {
target[ix] = source[ix+offset]
}
target[ix]=0
}
sub slice(str source, ubyte start, ubyte slen, str target) {
; Copies a segment from the source string, starting at the given index,
; and of the given length to target string.
; It is assumed the target string buffer is large enough to contain the result.
; Also, you have to make sure yourself that start and length are within bounds of the strings.
; Modifies in-place, doesnt return a value (so cant be used in an expression).
ubyte ix
for ix in 0 to slen-1 {
target[ix] = source[ix+start]
}
target[ix]=0
}
sub find(str st, ubyte character) -> ubyte {
; Locates the first position of the given character in the string,
; returns Carry set if found + index in A, or Carry clear if not found (and A will be 255, an invalid index).
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; NOTE: because this isn't an asmsub, there's only a SINGLE return value here. On the c64/cx16 targets etc there are 2 return values.
ubyte ix
for ix in 0 to length(st)-1 {
if st[ix]==character {
sys.set_carry()
return ix
}
}
sys.clear_carry()
return 255
}
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sub rfind(uword stringptr, ubyte character) -> ubyte {
; Locates the first position of the given character in the string, starting from the right.
; returns Carry set if found + index in A, or Carry clear if not found (and A will be 255, an invalid index).
; NOTE: because this isn't an asmsub, there's only a SINGLE return value here. On the c64/cx16 targets etc there are 2 return values.
ubyte ix
for ix in string.length(stringptr)-1 downto 0 {
if stringptr[ix]==character {
sys.set_carry()
return ix
}
}
sys.clear_carry()
return 255
}
sub contains(str st, ubyte character) -> bool {
void find(st, character)
if_cs
return true
return false
}
sub copy(str source, str target) -> ubyte {
; Copy a string to another, overwriting that one.
; Returns the length of the string that was copied.
; Often you dont have to call this explicitly and can just write string1 = string2
; but this function is useful if youre dealing with addresses for instance.
%ir {{
loadm.w r65534,string.copy.source
loadm.w r65535,string.copy.target
syscall 39 (r65534.w, r65535.w): r0.b
returnr.b r0
}}
}
sub append(str target, str suffix) -> ubyte {
; Append the suffix string to the target. (make sure the buffer is large enough!)
; Returns the length of the resulting string.
cx16.r0L = length(target)
return copy(suffix, target+cx16.r0L) + cx16.r0L
}
sub compare(str st1, str st2) -> byte {
; Compares two strings for sorting.
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; Returns -1 (255), 0 or 1, meaning: string1 sorts before, equal or after string2.
; Note that you can also directly compare strings and string values with eachother using
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; comparison operators ==, < etcetera (this will use strcmp automatically).
%ir {{
loadm.w r65534,string.compare.st1
loadm.w r65535,string.compare.st2
syscall 16 (r65534.w, r65535.w) : r0.b
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returnr.b r0
}}
}
sub lower(str st) -> ubyte {
; Lowercases the petscii string in-place. Returns length of the string.
; (for efficiency, non-letter characters > 128 will also not be left intact,
; but regular text doesn't usually contain those characters anyway.)
ubyte ix
repeat {
ubyte char=st[ix]
if char==0
return ix
if char >= 'A' and char <= 'Z'
st[ix] = char | %00100000
ix++
}
}
sub upper(str st) -> ubyte {
; Uppercases the petscii string in-place. Returns length of the string.
ubyte ix
repeat {
ubyte char=st[ix]
if char==0
return ix
if char >= 97 and char <= 122
st[ix] = char & %11011111
ix++
}
}
sub lowerchar(ubyte char) -> ubyte {
if char >= 'A' and char <= 'Z'
char |= %00100000
return char
}
sub upperchar(ubyte char) -> ubyte {
if char >= 'a' and char <= 'z'
char &= %11011111
return char
}
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sub hash(str st) -> ubyte {
; experimental 8 bit hashing function.
; hash(-1)=179; hash(i) = ROL hash(i-1) XOR string[i]
; (experimental because the quality of the resulting hash value still has to be determined)
ubyte hashcode = 179
ubyte ix
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sys.clear_carry()
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repeat {
if st[ix]!=0 {
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rol(hashcode)
hashcode ^= st[ix]
ix++
} else
return hashcode
}
}
sub isdigit(ubyte character) -> bool {
return character>='0' and character<='9'
}
sub isupper(ubyte character) -> bool {
return character>='A' and character<='Z'
}
sub islower(ubyte character) -> bool {
return character>='a' and character<='z'
}
sub isletter(ubyte character) -> bool {
return islower(character) or isupper(character)
}
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sub isspace(ubyte character) -> bool {
return character in [32, 13, 9, 10, 141, 160]
}
sub isprint(ubyte character) -> bool {
return character>=32 and character<=127 or character>=160
}
}