////////////////////////////////////////////////////////////////////////////////
// Set the minimum and maximum widths for the value.
void ColumnBg::measure (Task& task, int& minimum, int& maximum)
{
std::string bg = task.get (_name);
minimum = longestWord (bg);
maximum = bg.length ();
}
int main(void)
{
WSADATA Data;
SOCKADDR_IN recvSockAddr;
SOCKET recvSocket;
struct hostent * remoteHost;
char * ip;
const char * host_name = "pb-homework.appspot.com";
char maxBuff[MAXBUFLEN] = "\0";
int status = initDLL(Data);
if(status == 1)
{
fprintf(stderr, "Cannot initialize dll - WSAStartup failed.");
exit(1);
}
remoteHost = gethostbyname(host_name);
ip = inet_ntoa(*(struct in_addr *)*remoteHost->h_addr_list);
memset(&recvSockAddr, 0, sizeof(recvSockAddr));
recvSockAddr.sin_port=htons(PORT);
recvSockAddr.sin_family=AF_INET;
recvSockAddr.sin_addr.s_addr= inet_addr(ip);
recvSocket = socket_create();
socket_connect(recvSocket, recvSockAddr);
socket_sendRequest(host_name, recvSocket);
socket_receiveInfo(recvSocket, maxBuff);
getSecret(maxBuff, host_name, recvSocket);
socket_receiveInfo(recvSocket, maxBuff);
printf("******************************************\n"
"Answer to request from R.A. server\n"
"%s\n"
"******************************************\n",
maxBuff);
// Find the longest word here!
char longest[80] = "\0";
longestWord(maxBuff, longest);
printf("\n\n******************************************\n"
"Longest word was: [%s]\n"
"******************************************\n",
longest);
socket_sendPost(recvSocket, host_name, longest);
socket_receiveInfo(recvSocket, maxBuff);
printf("\n\n******************************************\n"
"Answer from R.A. server to my POST:\n"
"%s\n"
"******************************************\n",
maxBuff);
// Close all sockets.
closesocket(recvSocket);
// Free memory associated with sockets.
WSACleanup();
return 0;
}
////////////////////////////////////////////////////////////////////////////////
// Set the minimum and maximum widths for the value.
//
void ColumnUDA::measure (Task& task, unsigned int& minimum, unsigned int& maximum)
{
minimum = maximum = 0;
if (task.has (_name))
{
if (_style == "default")
{
std::string value = task.get (_name);
if (value != "")
{
if (_type == "date")
{
// Determine the output date format, which uses a hierarchy of definitions.
// rc.report.<report>.dateformat
// rc.dateformat.report
// rc.dateformat
Date date ((time_t) strtol (value.c_str (), NULL, 10));
std::string format = context.config.get ("report." + _report + ".dateformat");
if (format == "")
format = context.config.get ("dateformat.report");
if (format == "")
format = context.config.get ("dateformat");
minimum = maximum = Date::length (format);
}
else if (_type == "duration")
{
minimum = maximum = utf8_width (Duration (value).formatISO ());
}
else if (_type == "string")
{
std::string stripped = Color::strip (value);
maximum = longestLine (stripped);
minimum = longestWord (stripped);
}
else if (_type == "numeric")
{
minimum = maximum = utf8_width (value);
}
}
}
else if (_style == "indicator")
{
if (task.has (_name))
minimum = maximum = utf8_width (context.config.get ("uda." + _name + ".indicator"));
}
else
throw format (STRING_COLUMN_BAD_FORMAT, _name, _style);
}
}
main()
{
char str3[64], str4[64], str5[64];
//Count words
printf("\n\nCount Words: "); readString(str3);
printf("Word Count: %d", countWords(str3));
//Find longest word
printf("\n\nFind longest word: "); readString(str4);
printf("Longest Word: %d", longestWord(str4));
//Most number of vowels
printf("\n\nFind most vowels: "); readString(str5);
printf("Most vowels: %d", mostVowels(str5));
return 0;
}
////////////////////////////////////////////////////////////////////////////////
// Set the minimum and maximum widths for the value.
//
void ColumnString::measure (const std::string& value, unsigned int& minimum, unsigned int& maximum)
{
minimum = maximum = 0;
if (_style == "left" ||
_style == "right" ||
_style == "default")
{
std::string stripped = Color::strip (value);
maximum = longestLine (stripped);
minimum = longestWord (stripped);
}
else if (_style == "left_fixed" ||
_style == "right_fixed")
minimum = maximum = strippedLength (value);
else
throw format (STRING_COLUMN_BAD_FORMAT, _name, _style);
}
int main(int argc, char **argv) {
// if file not passed, exit
if (argc < 2) return EXIT_FAILURE;
// open the file
FILE *file = fopen(argv[1], "r");
// init a string to hold the lines
char line[BUF];
// while we get a line from the file
while (fgets(line, BUF, file)) {
// ignore empty lines
if (line[0] == '\n') continue;
// strip the \n from each line
char *token = strtok(line, "\n");
// call method that prints longest word
longestWord(token);
}
return EXIT_SUCCESS;
}
////////////////////////////////////////////////////////////////////////////////
// Set the minimum and maximum widths for the value.
//
void ColumnUDA::measure (Task& task, int& minimum, int& maximum)
{
minimum = maximum = 0;
if (_style == "default")
{
std::string value = task.get (_name);
if (value != "")
{
if (_type == "date")
{
// Determine the output date format, which uses a hierarchy of definitions.
// rc.report.<report>.dateformat
// rc.dateformat.report
// rc.dateformat.
Date date ((time_t) strtol (value.c_str (), NULL, 10));
std::string format = context.config.get ("report." + _report + ".dateformat");
if (format == "")
format = context.config.get ("dateformat.report");
if (format == "")
format = context.config.get ("dateformat");
minimum = maximum = date.toString (format).length ();
}
else if (_type == "duration")
{
minimum = maximum = Duration (value).formatCompact ().length ();
}
else if (_type == "string")
{
std::string stripped = Color::strip (value);
maximum = longestLine (stripped);
minimum = longestWord (stripped);
}
else if (_type == "numeric")
{
minimum = maximum = value.length ();
}
}
}
else
throw format (STRING_COLUMN_BAD_FORMAT, _name, _style);
}
////////////////////////////////////////////////////////////////////////////////
// Set the minimum and maximum widths for the value.
void ColumnDescription::measure (Task& task, unsigned int& minimum, unsigned int& maximum)
{
std::string description = task.get (_name);
// The text
// <indent> <date> <anno>
// ...
if (_style == "default" ||
_style == "combined")
{
minimum = longestWord (description);
maximum = utf8_width (description);
if (task.annotation_count)
{
unsigned int min_anno = _indent + ISO8601d::length (_dateformat);
if (min_anno > minimum)
minimum = min_anno;
std::map <std::string, std::string> annos;
task.getAnnotations (annos);
for (auto& i : annos)
{
unsigned int len = min_anno + 1 + utf8_width (i.second);
if (len > maximum)
maximum = len;
}
}
}
// Just the text
else if (_style == "desc")
{
maximum = utf8_width (description);
minimum = longestWord (description);
}
// The text <date> <anno> ...
else if (_style == "oneline")
{
minimum = longestWord (description);
maximum = utf8_width (description);
if (task.annotation_count)
{
auto min_anno = ISO8601d::length (_dateformat);
std::map <std::string, std::string> annos;
task.getAnnotations (annos);
for (auto& i : annos)
maximum += min_anno + 1 + utf8_width (i.second);
}
}
// The te...
else if (_style == "truncated")
{
minimum = 4;
maximum = utf8_width (description);
}
// The text [2]
else if (_style == "count")
{
// <description> + ' ' + '[' + <count> + ']'
maximum = utf8_width (description) + 1 + 1 + format (task.annotation_count).length () + 1;
minimum = longestWord (description);
}
// The te... [2]
else if (_style == "truncated_count")
{
minimum = 4;
maximum = utf8_width (description) + 1 + 1 + format (task.annotation_count).length () + 1;
}
else
throw format (STRING_COLUMN_BAD_FORMAT, _name, _style);
}
int main (int argc, char** argv)
{
UnitTest t (264);
// void wrapText (std::vector <std::string>& lines, const std::string& text, const int width, bool hyphenate)
std::string text = "This is a test of the line wrapping code.";
std::vector <std::string> lines;
wrapText (lines, text, 10, true);
t.is (lines.size (), (size_t) 5, "wrapText 'This is a test of the line wrapping code.' -> total 5 lines");
t.is (lines[0], "This is a", "wrapText line 0 -> 'This is a'");
t.is (lines[1], "test of", "wrapText line 1 -> 'test of'");
t.is (lines[2], "the line", "wrapText line 2 -> 'the line'");
t.is (lines[3], "wrapping", "wrapText line 3 -> 'wrapping'");
t.is (lines[4], "code.", "wrapText line 4 -> 'code.'");
text = "This ☺ is a test of utf8 line extraction.";
lines.clear ();
wrapText (lines, text, 7, true);
t.is (lines.size (), (size_t) 7, "wrapText 'This ☺ is a test of utf8 line extraction.' -> total 7 lines");
t.is (lines[0], "This ☺", "wrapText line 0 -> 'This ☺'");
t.is (lines[1], "is a", "wrapText line 1 -> 'is a'");
t.is (lines[2], "test of", "wrapText line 2 -> 'test of'");
t.is (lines[3], "utf8", "wrapText line 3 -> 'utf8'");
t.is (lines[4], "line", "wrapText line 4 -> 'line'");
t.is (lines[5], "extrac-", "wrapText line 5 -> 'extrac-'");
t.is (lines[6], "tion.", "wrapText line 6 -> 'tion.'");
text = "one two three\n four";
lines.clear ();
wrapText (lines, text, 13, true);
t.is (lines.size (), (size_t) 2, "wrapText 'one two three\\n four' -> 2 lines");
t.is (lines[0], "one two three", "wrapText line 0 -> 'one two three'");
t.is (lines[1], " four", "wrapText line 1 -> ' four'");
// void extractLine (std::string& text, std::string& line, int length, bool hyphenate, unsigned int& offset)
text = "This ☺ is a test of utf8 line extraction.";
unsigned int offset = 0;
std::string line;
extractLine (line, text, 7, true, offset);
t.is (line, "This ☺", "extractLine 7 'This ☺ is a test of utf8 line extraction.' -> 'This ☺'");
// void extractLine (std::string& text, std::string& line, int length, bool hyphenate, unsigned int& offset)
text = "line 1\nlengthy second line that exceeds width";
offset = 0;
extractLine (line, text, 10, true, offset);
t.is (line, "line 1", "extractLine 10 'line 1\\nlengthy second line that exceeds width' -> 'line 1'");
extractLine (line, text, 10, true, offset);
t.is (line, "lengthy", "extractLine 10 'lengthy second line that exceeds width' -> 'lengthy'");
extractLine (line, text, 10, true, offset);
t.is (line, "second", "extractLine 10 'second line that exceeds width' -> 'second'");
extractLine (line, text, 10, true, offset);
t.is (line, "line that", "extractLine 10 'line that exceeds width' -> 'line that'");
extractLine (line, text, 10, true, offset);
t.is (line, "exceeds", "extractLine 10 'exceeds width' -> 'exceeds'");
extractLine (line, text, 10, true, offset);
t.is (line, "width", "extractLine 10 'width' -> 'width'");
t.notok (extractLine (line, text, 10, true, offset), "extractLine 10 '' -> ''");
// void split (std::vector<std::string>& results, const std::string& input, const char delimiter)
std::vector <std::string> items;
std::string unsplit = "";
split (items, unsplit, '-');
t.is (items.size (), (size_t) 0, "split '' '-' -> 0 items");
unsplit = "a";
split (items, unsplit, '-');
t.is (items.size (), (size_t) 1, "split 'a' '-' -> 1 item");
t.is (items[0], "a", "split 'a' '-' -> 'a'");
split (items, unsplit, '-');
t.is (items.size (), (size_t) 1, "split 'a' '-' -> 1 item");
t.is (items[0], "a", "split 'a' '-' -> 'a'");
unsplit = "-";
split (items, unsplit, '-');
t.is (items.size (), (size_t) 2, "split '-' '-' -> '' ''");
t.is (items[0], "", "split '-' '-' -> [0] ''");
t.is (items[1], "", "split '-' '-' -> [1] ''");
split_minimal (items, unsplit, '-');
t.is (items.size (), (size_t) 0, "split '-' '-' ->");
unsplit = "-a-bc-def";
split (items, unsplit, '-');
t.is (items.size (), (size_t) 4, "split '-a-bc-def' '-' -> '' 'a' 'bc' 'def'");
t.is (items[0], "", "split '-a-bc-def' '-' -> [0] ''");
t.is (items[1], "a", "split '-a-bc-def' '-' -> [1] 'a'");
t.is (items[2], "bc", "split '-a-bc-def' '-' -> [2] 'bc'");
t.is (items[3], "def", "split '-a-bc-def' '-' -> [3] 'def'");
split_minimal (items, unsplit, '-');
t.is (items.size (), (size_t) 3, "split '-a-bc-def' '-' -> 'a' 'bc' 'def'");
t.is (items[0], "a", "split '-a-bc-def' '-' -> [1] 'a'");
t.is (items[1], "bc", "split '-a-bc-def' '-' -> [2] 'bc'");
t.is (items[2], "def", "split '-a-bc-def' '-' -> [3] 'def'");
// void split (std::vector<std::string>& results, const std::string& input, const std::string& delimiter)
unsplit = "";
split (items, unsplit, "--");
t.is (items.size (), (size_t) 0, "split '' '--' -> 0 items");
unsplit = "a";
split (items, unsplit, "--");
t.is (items.size (), (size_t) 1, "split 'a' '--' -> 1 item");
t.is (items[0], "a", "split 'a' '-' -> 'a'");
unsplit = "--";
split (items, unsplit, "--");
t.is (items.size (), (size_t) 2, "split '-' '--' -> '' ''");
t.is (items[0], "", "split '-' '-' -> [0] ''");
t.is (items[1], "", "split '-' '-' -> [1] ''");
unsplit = "--a--bc--def";
split (items, unsplit, "--");
t.is (items.size (), (size_t) 4, "split '-a-bc-def' '--' -> '' 'a' 'bc' 'def'");
t.is (items[0], "", "split '-a-bc-def' '--' -> [0] ''");
t.is (items[1], "a", "split '-a-bc-def' '--' -> [1] 'a'");
t.is (items[2], "bc", "split '-a-bc-def' '--' -> [2] 'bc'");
t.is (items[3], "def", "split '-a-bc-def' '--' -> [3] 'def'");
unsplit = "one\ntwo\nthree";
split (items, unsplit, "\n");
t.is (items.size (), (size_t) 3, "split 'one\\ntwo\\nthree' -> 'one', 'two', 'three'");
t.is (items[0], "one", "split 'one\\ntwo\\nthree' -> [0] 'one'");
t.is (items[1], "two", "split 'one\\ntwo\\nthree' -> [1] 'two'");
t.is (items[2], "three", "split 'one\\ntwo\\nthree' -> [2] 'three'");
// void splitq (std::vector<std::string>&, const std::string&, const char);
unsplit = "one 'two' '' 'three four' \"five six seven\" eight'nine ten'";
splitq (items, unsplit, ' ');
t.is (items.size () , (size_t) 6, "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten'");
t.is (items[0], "one", "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten' -> [0] 'one'");
t.is (items[1], "two", "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten' -> [1] 'two'");
t.is (items[2], "", "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten' -> [2] ''");
t.is (items[3], "three four", "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten' -> [3] 'three four'");
t.is (items[4], "five six seven", "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten' -> [4] 'five six seven'");
t.is (items[5], "eight'nine ten'", "splitq 'one \\'two\\' \\'\\' \\'three four\\' \"five six seven\" eight'nine ten' -> [4] 'eight\\'nine ten\\''");
// void join (std::string& result, const std::string& separator, const std::vector<std::string>& items)
std::vector <std::string> unjoined;
std::string joined;
join (joined, "", unjoined);
t.is (joined.length (), (size_t) 0, "join -> length 0");
t.is (joined, "", "join -> ''");
unjoined.push_back ("");
unjoined.push_back ("a");
unjoined.push_back ("bc");
unjoined.push_back ("def");
join (joined, "", unjoined);
t.is (joined.length (), (size_t) 6, "join '' 'a' 'bc' 'def' -> length 6");
t.is (joined, "abcdef", "join '' 'a' 'bc' 'def' -> 'abcdef'");
join (joined, "-", unjoined);
t.is (joined.length (), (size_t) 9, "join '' - 'a' - 'bc' - 'def' -> length 9");
t.is (joined, "-a-bc-def", "join '' - 'a' - 'bc' - 'def' -> '-a-bc-def'");
// void join (std::string& result, const std::string& separator, const std::vector<int>& items)
std::vector <int> unjoined2;
join (joined, "", unjoined2);
t.is (joined.length (), (size_t) 0, "join -> length 0");
t.is (joined, "", "join -> ''");
unjoined2.push_back (0);
unjoined2.push_back (1);
unjoined2.push_back (2);
join (joined, "", unjoined2);
t.is (joined.length (), (size_t) 3, "join 0 1 2 -> length 3");
t.is (joined, "012", "join 0 1 2 -> '012'");
join (joined, "-", unjoined2);
t.is (joined.length (), (size_t) 5, "join 0 1 2 -> length 5");
t.is (joined, "0-1-2", "join 0 1 2 -> '0-1-2'");
// std::string trimLeft (const std::string& in, const std::string& t /*= " "*/)
t.is (trimLeft (""), "", "trimLeft '' -> ''");
t.is (trimLeft (" "), "", "trimLeft ' ' -> ''");
t.is (trimLeft ("", " \t"), "", "trimLeft '' -> ''");
t.is (trimLeft ("xxx"), "xxx", "trimLeft 'xxx' -> 'xxx'");
t.is (trimLeft ("xxx", " \t"), "xxx", "trimLeft 'xxx' -> 'xxx'");
t.is (trimLeft (" \t xxx \t "), "\t xxx \t ", "trimLeft ' \\t xxx \\t ' -> '\\t xxx \\t '");
t.is (trimLeft (" \t xxx \t ", " \t"), "xxx \t ", "trimLeft ' \\t xxx \\t ' -> 'xxx \\t '");
// std::string trimRight (const std::string& in, const std::string& t /*= " "*/)
t.is (trimRight (""), "", "trimRight '' -> ''");
t.is (trimRight (" "), "", "trimRight ' ' -> ''");
t.is (trimRight ("", " \t"), "", "trimRight '' -> ''");
t.is (trimRight ("xxx"), "xxx", "trimRight 'xxx' -> 'xxx'");
t.is (trimRight ("xxx", " \t"), "xxx", "trimRight 'xxx' -> 'xxx'");
t.is (trimRight (" \t xxx \t "), " \t xxx \t", "trimRight ' \\t xxx \\t ' -> ' \\t xxx \\t'");
t.is (trimRight (" \t xxx \t ", " \t"), " \t xxx", "trimRight ' \\t xxx \\t ' -> ' \\t xxx'");
// std::string trim (const std::string& in, const std::string& t /*= " "*/)
t.is (trim (""), "", "trim '' -> ''");
t.is (trim (" "), "", "trim ' ' -> ''");
t.is (trim ("", " \t"), "", "trim '' -> ''");
t.is (trim ("xxx"), "xxx", "trim 'xxx' -> 'xxx'");
t.is (trim ("xxx", " \t"), "xxx", "trim 'xxx' -> 'xxx'");
t.is (trim (" \t xxx \t "), "\t xxx \t", "trim ' \\t xxx \\t ' -> '\\t xxx \\t'");
t.is (trim (" \t xxx \t ", " \t"), "xxx", "trim ' \\t xxx \\t ' -> 'xxx'");
// std::string unquoteText (const std::string& text)
t.is (unquoteText (""), "", "unquoteText '' -> ''");
t.is (unquoteText ("x"), "x", "unquoteText 'x' -> 'x'");
t.is (unquoteText ("'x"), "'x", "unquoteText ''x' -> ''x'");
t.is (unquoteText ("x'"), "x'", "unquoteText 'x'' -> 'x''");
t.is (unquoteText ("\"x"), "\"x", "unquoteText '\"x' -> '\"x'");
t.is (unquoteText ("x\""), "x\"", "unquoteText 'x\"' -> 'x\"'");
t.is (unquoteText ("''"), "", "unquoteText '''' -> ''");
t.is (unquoteText ("'''"), "'", "unquoteText ''''' -> '''");
t.is (unquoteText ("\"\""), "", "unquoteText '\"\"' -> ''");
t.is (unquoteText ("\"\"\""), "\"", "unquoteText '\"\"\"' -> '\"'");
t.is (unquoteText ("''''"), "''", "unquoteText '''''' -> ''''");
t.is (unquoteText ("\"\"\"\""), "\"\"", "unquoteText '\"\"\"\"' -> '\"\"'");
t.is (unquoteText ("'\"\"'"), "\"\"", "unquoteText '''\"\"' -> '\"\"'");
t.is (unquoteText ("\"''\""), "''", "unquoteText '\"''\"' -> ''''");
t.is (unquoteText ("'x'"), "x", "unquoteText ''x'' -> 'x'");
t.is (unquoteText ("\"x\""), "x", "unquoteText '\"x\"' -> 'x'");
// int longestWord (const std::string&)
t.is (longestWord (" "), 0, "longestWord ( ) --> 0");
t.is (longestWord ("this is a test"), 4, "longestWord (this is a test) --> 4");
t.is (longestWord ("this is a better test"), 6, "longestWord (this is a better test) --> 6");
t.is (longestWord ("house Çirçös clown"), 6, "longestWord (Çirçös) --> 6");
// int longestLine (const std::string&)
t.is (longestLine ("one two three four"), 18, "longestLine (one two three four) --> 18");
t.is (longestLine ("one\ntwo three four"), 14, "longestLine (one\\ntwo three four) --> 14");
t.is (longestLine ("one\ntwo\nthree\nfour"), 5, "longestLine (one\\ntwo\\nthree\\nfour) --> 5");
// std::string commify (const std::string& data)
t.is (commify (""), "", "commify '' -> ''");
t.is (commify ("1"), "1", "commify '1' -> '1'");
t.is (commify ("12"), "12", "commify '12' -> '12'");
t.is (commify ("123"), "123", "commify '123' -> '123'");
t.is (commify ("1234"), "1,234", "commify '1234' -> '1,234'");
t.is (commify ("12345"), "12,345", "commify '12345' -> '12,345'");
t.is (commify ("123456"), "123,456", "commify '123456' -> '123,456'");
t.is (commify ("1234567"), "1,234,567", "commify '1234567' -> '1,234,567'");
t.is (commify ("12345678"), "12,345,678", "commify '12345678' -> '12,345,678'");
t.is (commify ("123456789"), "123,456,789", "commify '123456789' -> '123,456,789'");
t.is (commify ("1234567890"), "1,234,567,890", "commify '1234567890' -> '1,234,567,890'");
t.is (commify ("pre"), "pre", "commify 'pre' -> 'pre'");
t.is (commify ("pre1234"), "pre1,234", "commify 'pre1234' -> 'pre1,234'");
t.is (commify ("1234post"), "1,234post", "commify '1234post' -> '1,234post'");
t.is (commify ("pre1234post"), "pre1,234post", "commify 'pre1234post' -> 'pre1,234post'");
// std::string lowerCase (const std::string& input)
t.is (lowerCase (""), "", "lowerCase '' -> ''");
t.is (lowerCase ("pre01_:POST"), "pre01_:post", "lowerCase 'pre01_:POST' -> 'pre01_:post'");
// std::string upperCase (const std::string& input)
t.is (upperCase (""), "", "upperCase '' -> ''");
t.is (upperCase ("pre01_:POST"), "PRE01_:POST", "upperCase 'pre01_:POST' -> 'PRE01_:POST'");
// bool nontrivial (const std::string&);
t.notok (nontrivial (""), "nontrivial '' -> false");
t.notok (nontrivial (" "), "nontrivial ' ' -> false");
t.notok (nontrivial ("\t\t"), "nontrivial '\\t\\t' -> false");
t.notok (nontrivial (" \t \t"), "nontrivial ' \\t \\t' -> false");
t.ok (nontrivial ("a"), "nontrivial 'a' -> true");
t.ok (nontrivial (" a"), "nontrivial ' a' -> true");
t.ok (nontrivial ("a "), "nontrivial 'a ' -> true");
t.ok (nontrivial (" \t\ta"), "nontrivial ' \\t\\ta' -> true");
t.ok (nontrivial ("a\t\t "), "nontrivial 'a\\t\\t ' -> true");
// bool digitsOnly (const std::string&);
t.ok (digitsOnly (""), "digitsOnly '' -> true");
t.ok (digitsOnly ("0"), "digitsOnly '0' -> true");
t.ok (digitsOnly ("123"), "digitsOnly '123' -> true");
t.notok (digitsOnly ("12fa"), "digitsOnly '12fa' -> false");
// bool noSpaces (const std::string&);
t.ok (noSpaces (""), "noSpaces '' -> true");
t.ok (noSpaces ("a"), "noSpaces 'a' -> true");
t.ok (noSpaces ("abc"), "noSpaces 'abc' -> true");
t.notok (noSpaces (" "), "noSpaces ' ' -> false");
t.notok (noSpaces ("ab cd"), "noSpaces 'ab cd' -> false");
// bool noVerticalSpace (const std::string&);
t.ok (noVerticalSpace (""), "noVerticalSpace '' -> true");
t.ok (noVerticalSpace ("a"), "noVerticalSpace 'a' -> true");
t.ok (noVerticalSpace ("abc"), "noVerticalSpace 'abc' -> true");
t.notok (noVerticalSpace ("a\nb"), "noVerticalSpace 'a\\nb' -> false");
t.notok (noVerticalSpace ("a\rb"), "noVerticalSpace 'a\\rb' -> false");
t.notok (noVerticalSpace ("a\fb"), "noVerticalSpace 'a\\fb' -> false");
text = "Hello, world.";
// 0123456789012
// s e s e
// bool isWordStart (const std::string&, std::string::size_type);
t.notok (isWordStart ("", 0), "isWordStart (\"\", 0) -> false");
t.ok (isWordStart ("foo", 0), "isWordStart (\"foo\", 0) -> true");
t.ok (isWordStart (text, 0), "isWordStart (\"Hello, world.\", 0) -> true");
t.notok (isWordStart (text, 1), "isWordStart (\"Hello, world.\", 1) -> false");
t.notok (isWordStart (text, 2), "isWordStart (\"Hello, world.\", 2) -> false");
t.notok (isWordStart (text, 3), "isWordStart (\"Hello, world.\", 3) -> false");
t.notok (isWordStart (text, 4), "isWordStart (\"Hello, world.\", 4) -> false");
t.notok (isWordStart (text, 5), "isWordStart (\"Hello, world.\", 5) -> false");
t.notok (isWordStart (text, 6), "isWordStart (\"Hello, world.\", 6) -> false");
t.ok (isWordStart (text, 7), "isWordStart (\"Hello, world.\", 7) -> true");
t.notok (isWordStart (text, 8), "isWordStart (\"Hello, world.\", 8) -> false");
t.notok (isWordStart (text, 9), "isWordStart (\"Hello, world.\", 9) -> false");
t.notok (isWordStart (text, 10), "isWordStart (\"Hello, world.\", 10) -> false");
t.notok (isWordStart (text, 11), "isWordStart (\"Hello, world.\", 11) -> false");
t.notok (isWordStart (text, 12), "isWordStart (\"Hello, world.\", 12) -> false");
// bool isWordEnd (const std::string&, std::string::size_type);
t.notok (isWordEnd ("", 0), "isWordEnd (\"\", 0) -> false");
t.ok (isWordEnd ("foo", 2), "isWordEnd (\"foo\", 2) -> true");
t.notok (isWordEnd (text, 0), "isWordEnd (\"Hello, world.\", 0) -> false");
t.notok (isWordEnd (text, 1), "isWordEnd (\"Hello, world.\", 1) -> false");
t.notok (isWordEnd (text, 2), "isWordEnd (\"Hello, world.\", 2) -> false");
t.notok (isWordEnd (text, 3), "isWordEnd (\"Hello, world.\", 3) -> false");
t.ok (isWordEnd (text, 4), "isWordEnd (\"Hello, world.\", 4) -> true");
t.notok (isWordEnd (text, 5), "isWordEnd (\"Hello, world.\", 5) -> false");
t.notok (isWordEnd (text, 6), "isWordEnd (\"Hello, world.\", 6) -> false");
t.notok (isWordEnd (text, 7), "isWordEnd (\"Hello, world.\", 7) -> false");
t.notok (isWordEnd (text, 8), "isWordEnd (\"Hello, world.\", 8) -> false");
t.notok (isWordEnd (text, 9), "isWordEnd (\"Hello, world.\", 9) -> false");
t.notok (isWordEnd (text, 10), "isWordEnd (\"Hello, world.\", 10) -> false");
t.ok (isWordEnd (text, 11), "isWordEnd (\"Hello, world.\", 11) -> true");
t.notok (isWordEnd (text, 12), "isWordEnd (\"Hello, world.\", 12) -> false");
// bool compare (const std::string&, const std::string&, bool caseless = false);
// Make sure degenerate cases are handled.
t.ok (compare ("", ""), "'' == ''");
t.notok (compare ("foo", ""), "foo != ''");
t.notok (compare ("", "foo"), "'' != foo");
// Make sure the default is case-sensitive.
t.ok (compare ("foo", "foo"), "foo == foo");
t.notok (compare ("foo", "FOO"), "foo != foo");
// Test case-sensitive.
t.notok (compare ("foo", "xx", true), "foo != xx");
t.ok (compare ("foo", "foo", true), "foo == foo");
t.notok (compare ("foo", "FOO", true), "foo != FOO");
t.notok (compare ("FOO", "foo", true), "FOO != foo");
t.ok (compare ("FOO", "FOO", true), "FOO == FOO");
// Test case-insensitive.
t.notok (compare ("foo", "xx", false), "foo != foo (caseless)");
t.ok (compare ("foo", "foo", false), "foo == foo (caseless)");
t.ok (compare ("foo", "FOO", false), "foo == FOO (caseless)");
t.ok (compare ("FOO", "foo", false), "FOO == foo (caseless)");
t.ok (compare ("FOO", "FOO", false), "FOO == FOO (caseless)");
// std::string::size_type find (const std::string&, const std::string&, bool caseless = false);
// Make sure degenerate cases are handled.
t.is ((int) find ("foo", ""), (int) 0, "foo !contains ''");
t.is ((int) find ("", "foo"), (int) std::string::npos, "'' !contains foo");
// Make sure the default is case-sensitive.
t.is ((int) find ("foo", "fo"), 0, "foo contains fo");
t.is ((int) find ("foo", "FO"), (int) std::string::npos, "foo !contains fo");
// Test case-sensitive.
t.is ((int) find ("foo", "xx", true), (int) std::string::npos, "foo !contains xx");
t.is ((int) find ("foo", "oo", true), 1, "foo contains oo");
t.is ((int) find ("foo", "fo", true), 0, "foo contains fo");
t.is ((int) find ("foo", "FO", true), (int) std::string::npos, "foo !contains fo");
t.is ((int) find ("FOO", "fo", true), (int) std::string::npos, "foo !contains fo");
t.is ((int) find ("FOO", "FO", true), 0, "foo contains fo");
// Test case-insensitive.
t.is ((int) find ("foo", "xx", false), (int) std::string::npos, "foo !contains xx (caseless)");
t.is ((int) find ("foo", "oo", false), 1, "foo contains oo (caseless)");
t.is ((int) find ("foo", "fo", false), 0, "foo contains fo (caseless)");
t.is ((int) find ("foo", "FO", false), 0, "foo contains FO (caseless)");
t.is ((int) find ("FOO", "fo", false), 0, "FOO contains fo (caseless)");
t.is ((int) find ("FOO", "FO", false), 0, "FOO contains FO (caseless)");
// Test start offset.
t.is ((int) find ("one two three", "e", 3, true), (int) 11, "offset obeyed");
t.is ((int) find ("one two three", "e", 11, true), (int) 11, "offset obeyed");
// int strippedLength (const std::string&);
t.is (strippedLength (std::string ("")), 0, "strippedLength -> 0");
t.is (strippedLength (std::string ("abc")), 3, "strippedLength abc -> 3");
t.is (strippedLength (std::string ("one\033[5;38;255mtwo\033[0mthree")), 11, "strippedLength one^[[5;38;255mtwo^[[0mthree -> 11");
t.is (strippedLength (std::string ("\033[0m")), 0, "strippedLength ^[[0m -> 0");
t.is (strippedLength (std::string ("\033[1m\033[0m")), 0, "strippedLength ^[[1m^[[0m -> 0");
// std::string format (char);
t.is (format ('A'), "A", "format ('A') -> A");
// std::string format (int);
t.is (format (0), "0", "format (0) -> 0");
t.is (format (-1), "-1", "format (-1) -> -1");
// std::string formatHex (int);
t.is (formatHex (0), "0", "formatHex (0) -> 0");
t.is (formatHex (10), "a", "formatHex (10) -> a");
t.is (formatHex (123), "7b", "formatHex (123) -> 7b");
// std::string format (float, int, int);
t.is (format (1.23456789, 8, 1), " 1", "format (1.23456789, 8, 1) -> _______1");
t.is (format (1.23456789, 8, 2), " 1.2", "format (1.23456789, 8, 2) -> _____1.2");
t.is (format (1.23456789, 8, 3), " 1.23", "format (1.23456789, 8, 3) -> ____1.23");
t.is (format (1.23456789, 8, 4), " 1.235", "format (1.23456789, 8, 4) -> ___1.235");
t.is (format (1.23456789, 8, 5), " 1.2346", "format (1.23456789, 8, 5) -> __1.2346");
t.is (format (1.23456789, 8, 6), " 1.23457", "format (1.23456789, 8, 6) -> 1.23457");
t.is (format (1.23456789, 8, 7), "1.234568", "format (1.23456789, 8, 7) -> 1.234568");
t.is (format (1.23456789, 8, 8), "1.2345679", "format (1.23456789, 8, 8) -> 1.2345679");
t.is (format (2444238.56789, 12, 11), "2444238.5679", "format (2444238.56789, 12, 11) -> 2444238.5679");
// std::string format (double, int, int);
// std::string leftJustify (const std::string&, const int);
t.is (leftJustify (123, 3), "123", "leftJustify 123,3 -> '123'");
t.is (leftJustify (123, 4), "123 ", "leftJustify 123,4 -> '123 '");
t.is (leftJustify (123, 5), "123 ", "leftJustify 123,5 -> '123 '");
// std::string leftJustify (const std::string&, const int);
t.is (leftJustify ("foo", 3), "foo", "leftJustify foo,3 -> 'foo'");
t.is (leftJustify ("foo", 4), "foo ", "leftJustify foo,4 -> 'foo '");
t.is (leftJustify ("foo", 5), "foo ", "leftJustify foo,5 -> 'foo '");
t.is (leftJustify ("föo", 5), "föo ", "leftJustify föo,5 -> 'föo '");
// std::string rightJustify (const std::string&, const int);
t.is (rightJustify (123, 3), "123", "rightJustify 123,3 -> '123'");
t.is (rightJustify (123, 4), " 123", "rightJustify 123,4 -> ' 123'");
t.is (rightJustify (123, 5), " 123", "rightJustify 123,5 -> ' 123'");
// std::string rightJustify (const std::string&, const int);
t.is (rightJustify ("foo", 3), "foo", "rightJustify foo,3 -> 'foo'");
t.is (rightJustify ("foo", 4), " foo", "rightJustify foo,4 -> ' foo'");
t.is (rightJustify ("foo", 5), " foo", "rightJustify foo,5 -> ' foo'");
t.is (rightJustify ("föo", 5), " föo", "rightJustify föo,5 -> ' föo'");
// int utf8_length (const std::string&);
t.is ((int) utf8_length ("Çirçös"), 6, "utf8_length (Çirçös) == 6");
t.is ((int) utf8_length ("ツネナラム"), 5, "utf8_length (ツネナラム) == 5");
t.is ((int) utf8_length ("Zwölf Boxkämpfer"), 16, "utf8_length (Zwölf Boxkämpfer) == 16");
return 0;
}
