You're using the anchors ^
and $
in single-line mode, so ^
only matches the start of a string, and $
matches the end of a string, rather than anchoring to line-endings.
C++ regex
library does not have the multi-line/single-line options that .NET Regexes have, so you'll want to use regex_search
instead of regex_match
, but as I said in my comment-reply to your original posting: you shouldn't be using regular-expressions to parse assembly code, and using regex as a crude tokenization tool is using pile-driver when all you need is a hammer: strtok
is your friend.
char* input = "MOV R\nADD R\nSUB 30\nSTORE 1000\nHALT";
const char* delimiters = " \n"
char* token = strtok( input, delimiters );
while( token != nullptr ) {
cout << token << endl;
token = strtok( nullptr, delimiters );
}
Note that strtok
is stateful, which explains the non-deterministic nature of subsequent calls to strtok
with nullptr
as the first argument. This is documented here: http://www.cplusplus.com/reference/cstring/strtok/
Also note that strtok
actually modifies the input string, hence why input
is char*
rather than const char* const
or string
(because string::c_str()
returns a const char*
).
strtok
is one of the C functions which doesn't have a C++-idiomatic alternative, unfortunately. You could use Boost's string::split
method but this introduces new memory allocation, whereas strtok
modifies the string buffer in-place to convert delimiters to \0
so you can use the char*
values with null-terminated string functions - so it has its benefits (i.e. no extra memory need be allocated or extra string copying).
A more complete solution:
A problem with strtok
is that you don't know which delimiter was just overwritten, so when you have a grammar which confers different delimiters different semantics (as in your case: '
' (a space) is an operand-separator and '`\n' is an opcode separator.
The solution is to have a copy of the string which is not modified, and use the relative-pointers to get the character index to determine what delimiter was encountered. This does somewhat defeat the point of using strtok
to minimize memory usage though, but it does eliminate the need to test each returned value as a means of enforcing your grammar rules:
const char input[] = "MOV R\nADD R\nSUB 30\nSTORE 1000\nHALT";
char* temp = calloc( sizeof(input), sizeof(char) );
strcpy( temp, input );
const char* delimiters = " \n"
char* token = strtok( temp, delimiters );
while( token != nullptr ) {
char delimiter = input[ token - temp ];
cout << token << endl;
switch( delimiter ) {
case ' ':
cout << token << " ";
break;
case '\n':
cout << endl << token << " ";
break;
}
token = strtok( nullptr, delimiters );
}
strtok
), this is a bad idea from a memory-consumption perspective. Just use a simple finite-state-machine parser instead (and it will keep your memory-consumption to a minimum as well).