I like Sertac's idea
about deleting strings enclosed by brackets and searching for a string after that. Here is a code sample extended by a search for whole words and case sensitivity:
function ContainsWord(const AText, AWord: string; AWholeWord: Boolean = True;
ACaseSensitive: Boolean = False): Boolean;
var
S: string;
BracketEnd: Integer;
BracketStart: Integer;
SearchOptions: TStringSearchOptions;
begin
S := AText;
BracketEnd := Pos(']', S);
BracketStart := Pos('[', S);
while (BracketStart > 0) and (BracketEnd > 0) do
begin
Delete(S, BracketStart, BracketEnd - BracketStart + 1);
BracketEnd := Pos(']', S);
BracketStart := Pos('[', S);
end;
SearchOptions := [soDown];
if AWholeWord then
Include(SearchOptions, soWholeWord);
if ACaseSensitive then
Include(SearchOptions, soMatchCase);
Result := Assigned(SearchBuf(PChar(S), StrLen(PChar(S)), 0, 0, AWord,
SearchOptions));
end;
Here is an optimized version of the function, which uses pointer char iteration without string manipulation. In comparison with a previous version this handles the case when you have a string with missing closing bracket like for instance My [favorite color is
. Such string is there evaluated to True because of that missing bracket.
The principle is to go through the whole string char by char and when you find the opening bracket, look if that bracket has a closing pair for itself. If yes, then check if the substring from the stored position until the opening bracket contains the searched word. If yes, exit the function. If not, move the stored position to the closing bracket. If the opening bracket doesn't have own closing pair, search for the word from the stored position to the end of the whole string and exit the function.
For commented version of this code follow this link.
function ContainsWord(const AText, AWord: string; AWholeWord: Boolean = True;
ACaseSensitive: Boolean = False): Boolean;
var
CurrChr: PChar;
TokenChr: PChar;
TokenLen: Integer;
SubstrChr: PChar;
SubstrLen: Integer;
SearchOptions: TStringSearchOptions;
begin
Result := False;
if (Length(AText) = 0) or (Length(AWord) = 0) then
Exit;
SearchOptions := [soDown];
if AWholeWord then
Include(SearchOptions, soWholeWord);
if ACaseSensitive then
Include(SearchOptions, soMatchCase);
CurrChr := PChar(AText);
SubstrChr := CurrChr;
SubstrLen := 0;
while CurrChr^ <> #0 do
begin
if CurrChr^ = '[' then
begin
TokenChr := CurrChr;
TokenLen := 0;
while (TokenChr^ <> #0) and (TokenChr^ <> ']') do
begin
Inc(TokenChr);
Inc(TokenLen);
end;
if TokenChr^ = #0 then
SubstrLen := SubstrLen + TokenLen;
Result := Assigned(SearchBuf(SubstrChr, SubstrLen, 0, 0, AWord,
SearchOptions));
if Result or (TokenChr^ = #0) then
Exit;
CurrChr := TokenChr;
SubstrChr := CurrChr;
SubstrLen := 0;
end
else
begin
Inc(CurrChr);
Inc(SubstrLen);
end;
end;
Result := Assigned(SearchBuf(SubstrChr, SubstrLen, 0, 0, AWord,
SearchOptions));
end;
\s
and check for the 4th element. 2) Check for ` favorite ` (note the spaces around the word). 3) Split the string on the question mark?
and then check if it holdsfavorite
.'\b' + wordtofind + '\b'
. The only thing you have to watch out for isIs it your favorite?
, where the?
would make it not match.this
might be an inspiration.