std.testlib.h.0.3.3: testlib_0_3_3/testlib.h
/*
*
* Copyright (c) 2005
* Version 0.3.3
* Mike Mirzayanov, last revision: 28.01.2006
*
* This material is provided "as is", with absolutely no warranty expressed
* or implied. Any use is at your own risk.
*
* Permission to use or copy this software for any purpose is hereby granted
* without fee, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*
*/
/* NOTE: This file contains testlib library for C++.
*
* Program, using testlib running format:
* check.exe [ [-appes]],
*
* If result file is specified it will contain results.
*/
#ifndef _TESTLIB_H_
#define _TESTLIB_H_
#define _CRT_SECURE_NO_DEPRECATE 1
#include
#include
#include
#include
#include
#ifdef __WIN32__
#include
#else
#define WORD unsigned short
#endif
#define ABS(f) ((f) < 0 ? -(f) : (f))
#define MIN(a, b) ((a) < (b) ? (a) : (b))
#define MAX(a, b) ((a) > (b) ? (a) : (b))
#define OUTPUT_BUFFER_SIZE (2097152)
#define LF (char)10
#define CR (char)13
#define TAB (char)9
#define SPACE (char)' '
#define EOFCHAR (EOF)
#define EOFREMAP SPACE
#define NUMBERBEFORE LF, CR, SPACE, TAB, EOFCHAR
#define NUMBERAFTER LF, CR, TAB, EOFCHAR
#define LINEAFTER LF, CR, EOFCHAR
#define BLANKS LF, CR, SPACE, TAB
#define EOLNCHAR LF, CR, EOFCHAR
#ifndef EJUDGE
#define OK_EXIT_CODE 0
#define WA_EXIT_CODE 1
#define PE_EXIT_CODE 2
#define FAIL_EXIT_CODE 3
#define DIRT_EXIT_CODE 4
#else
#define OK_EXIT_CODE 0
#define WA_EXIT_CODE 5
#define PE_EXIT_CODE 4
#define FAIL_EXIT_CODE 6
#define DIRT_EXIT_CODE 6
#endif
inline bool isEofChar(char c)
{
return (c == EOFCHAR);
}
inline bool isEofRemap(char c)
{
return (c == EOFREMAP);
}
inline bool isNumberBefore(char c)
{
return (c == LF || c == CR || c == SPACE || c == TAB);
}
inline bool isNumberAfter(char c)
{
return (c == LF || c == CR || c == SPACE || c == TAB || c == EOFCHAR || c == (char)26);
}
inline bool isLineAfter(char c)
{
return (c == LF || c == CR || c == EOFCHAR || c == (char)26);
}
inline bool isBlanks(char c)
{
return (c == LF || c == CR || c == SPACE || c == TAB);
}
inline bool isEolnChar(char c)
{
return (c == LF || c == CR || c == EOFCHAR || c == (char)26);
}
struct TCharSet
{
unsigned int data[64];
void insert(char c)
{
int pc = (int)c;
data[pc >> 3] |= (1 << (pc & 7));
}
bool count(char c)
{
unsigned int pc = (unsigned char)c;
return (data[pc >> 3] & (1 << (pc & 7))) != 0;
}
void clear()
{
memset(data, 0, sizeof(data));
}
TCharSet()
{
clear();
}
TCharSet(char c0)
{
clear();
insert(c0);
}
TCharSet(char c0, char c1)
{
clear();
insert(c0); insert(c1);
}
TCharSet(char c0, char c1, char c2)
{
clear();
insert(c0); insert(c1); insert(c2);
}
TCharSet(char c0, char c1, char c2, char c3)
{
clear();
insert(c0); insert(c1); insert(c2); insert(c3);
}
TCharSet(char c0, char c1, char c2, char c3, char c4)
{
clear();
insert(c0); insert(c1); insert(c2); insert(c3); insert(c4);
}
};
enum TMode
{
_input, _output, _answer
};
enum TResult
{
_ok, _wa, _pe, _fail, _dirt
};
const std::string outcomes[] =
{"accepted", "wrong-answer", "presentation-error", "fail", "fail"};
struct InStream
{
InStream();
std::FILE * file;
std::string name;
TMode mode;
bool opened;
void init(std::string fileName, TMode mode);
char curChar();
void skipChar();
char nextChar();
void reset();
bool eof();
bool seekEof();
bool eoln();
bool seekEoln();
void nextLine();
void skip(TCharSet setof);
std::string readWord(TCharSet before, TCharSet after);
std::string readWord();
int readLongint();
int readInteger();
int readInt();
double readReal();
double readDouble();
std::string readString();
void quit(TResult result, const char * msg);
void quits(TResult result, std::string msg);
void close();
const static WORD LightGray = 0x07;
const static WORD LightRed = 0x0c;
const static WORD LightCyan = 0x0b;
const static WORD LightGreen = 0x0a;
static void textColor(WORD color);
static void quitscr(WORD color, const char * msg);
static void quitscrS(WORD color, std::string msg);
void xmlSafeWrite(std::FILE * file, const char * msg);
};
InStream inf;
InStream ouf;
InStream ans;
bool appesMode;
std::string resultName;
/* implementation
*/
InStream::InStream()
{
file = NULL;
name = "";
mode = _input;
}
int resultExitCode(TResult r)
{
if (r == _ok)
return OK_EXIT_CODE;
if (r == _wa)
return WA_EXIT_CODE;
if (r == _pe)
return PE_EXIT_CODE;
if (r == _fail)
return FAIL_EXIT_CODE;
if (r == _dirt)
return DIRT_EXIT_CODE;
return FAIL_EXIT_CODE;
}
void InStream::textColor(WORD color)
{
#ifdef __WIN32__
HANDLE handle = GetStdHandle(STD_OUTPUT_HANDLE);
SetConsoleTextAttribute(handle, color);
#endif
}
void InStream::quit(TResult result, const char * msg)
{
if (mode != _output && result != _fail)
quits(_fail, std::string(msg) + " (" + name + ")");
std::FILE * resultFile;
std::string errorName;
if (result == _ok)
{
if (!ouf.seekEof())
quit(_dirt, "Extra information in the output file");
}
switch (result)
{
case _fail:
errorName = "FAIL ";
quitscrS(LightRed, errorName);
break;
case _dirt:
errorName = "wrong output format ";
quitscrS(LightCyan, errorName);
result = _pe;
break;
case _pe:
errorName = "wrong output format ";
quitscrS(LightRed, errorName);
break;
case _ok:
errorName = "ok ";
quitscrS(LightGreen, errorName);
break;
case _wa:
errorName = "wrong answer ";
quitscrS(LightRed, errorName);
break;
default:
quit(_fail, "What is the code ??? ");
}
if (resultName != "")
{
resultFile = std::fopen(resultName.c_str(), "w");
if (resultFile == NULL)
quit(_fail, "Can not write to Result file");
if (appesMode)
{
fprintf(resultFile, "");
fprintf(resultFile, "", outcomes[(int)result].c_str());
xmlSafeWrite(resultFile, msg);
fprintf(resultFile, " \n");
}
else
{
/** old-style format
* fprintf(resultFile, ".Testlib Result Number = %d\n", (int)result);
* fprintf(resultFile, ".Result name (optional) = %s\n", errorName.c_str());
* fprintf(resultFile, ".Check Comments = %s\n", msg);
*/
fprintf(resultFile, "%s", msg);
}
if (NULL == resultFile || fclose(resultFile) != 0)
quit(_fail, "Can not write to Result file");
}
quitscr(LightGray, msg);
std::printf("\n");
if (result == _fail)
std::exit(resultExitCode(result));
if (inf.file)
fclose(inf.file);
if (ouf.file)
fclose(ouf.file);
if (ans.file)
fclose(ans.file);
textColor(LightGray);
/*
if (result == _ok)
std::exit(resultExitCode(result));
*/
if (resultName != "")
{
std::printf("See file to check exit message\n");
}
std::exit(resultExitCode(result));
}
void InStream::quits(TResult result, std::string msg)
{
InStream::quit(result, msg.c_str());
}
void InStream::xmlSafeWrite(std::FILE * file, const char * msg)
{
size_t lmsg = strlen(msg);
for (size_t i = 0; i < lmsg; i++)
{
if (msg[i] == '&')
{
fprintf(file, "%s", "&");
continue;
}
if (msg[i] == '<')
{
fprintf(file, "%s", "<");
continue;
}
if (msg[i] == '>')
{
fprintf(file, "%s", ">");
continue;
}
if (msg[i] == '"')
{
fprintf(file, "%s", """);
continue;
}
if (0 <= msg[i] && msg[i] <= 31)
{
fprintf(file, "%c", '.');
continue;
}
fprintf(file, "%c", msg[i]);
}
}
void InStream::quitscrS(WORD color, std::string msg)
{
quitscr(color, msg.c_str());
}
void InStream::quitscr(WORD color, const char * msg)
{
if (resultName == "")
{
textColor(color);
std::printf("%s", msg);
textColor(LightGray);
}
}
void InStream::reset()
{
if (opened)
close();
if (NULL == (file = std::fopen(name.c_str(), "r")))
{
if (mode == _output)
quits(_pe, std::string("File not found: \"") + name + "\"");
}
opened = true;
}
void InStream::init(std::string fileName, TMode mode)
{
opened = false;
name = fileName;
this->mode = mode;
reset();
}
char InStream::curChar()
{
char c = (char)getc(file);
ungetc(c, file);
return c;
}
char InStream::nextChar()
{
return (char)getc(file);
}
void InStream::skipChar()
{
getc(file);
}
std::string InStream::readWord(TCharSet before, TCharSet after)
{
char cur;
while (before.count(cur = (char)getc(file)) == 1);
if (cur == EOFCHAR && !after.count(cur))
{
quit(_pe, "Unexpected end of file");
}
std::string result = "";
while (!(after.count(cur) || cur == EOFCHAR))
{
result += cur;
cur = (char)getc(file);
}
ungetc(cur, file);
return result;
}
std::string InStream::readWord()
{
return readWord(TCharSet(BLANKS), TCharSet(BLANKS));
}
int InStream::readInteger()
{
char cur;
while (isNumberBefore(cur = (char)getc(file)));
if (cur == EOFCHAR)
quit(_pe, "Unexpected end of file - integer expected");
ungetc(cur, file);
int retval;
if (fscanf(file, "%d", &retval) != 1)
// todo: show insted-of
quit(_pe, "Expected integer");
return retval;
}
int InStream::readLongint()
{
return readInteger();
}
int InStream::readInt()
{
return readInteger();
}
double InStream::readReal()
{
if (seekEof())
quit(_pe, "Unexpected end of file - double expected");
double retval;
if (fscanf(file, "%lf", &retval) != 1)
// todo: show insted-of
quit(_pe, "Expected double");
return retval;
}
double InStream::readDouble()
{
return readReal();
}
void InStream::skip(TCharSet setof)
{
char cur;
while (setof.count(cur = (char)getc(file)) == 1);
ungetc(cur, file);
}
bool InStream::eof()
{
return (NULL == file || feof(file) != 0);
}
bool InStream::seekEof()
{
if (NULL == file)
return true;
char cur;
while (isBlanks(cur = (char)getc(file)));
ungetc(cur, file);
return (NULL == file || feof(file) != 0 || cur == EOF);
}
bool InStream::eoln()
{
if (NULL == file)
return true;
char c = curChar();
return isEolnChar(c);
}
bool InStream::seekEoln()
{
if (NULL == file)
return true;
char cur;
do
{
cur = (char)getc(file);
}
while (cur == SPACE || cur == TAB);
ungetc(cur, file);
return isEolnChar(cur);
}
void InStream::nextLine()
{
if (NULL == file)
return;
char cur;
while (!isEolnChar(cur = (char)getc(file)));
if (cur == CR)
{
cur = (char)getc(file);
if (cur != LF)
ungetc(cur, file);
}
else
{
if (cur != LF)
ungetc(cur, file);
}
}
std::string InStream::readString()
{
if (NULL == file)
quit(_pe, "Expected line");
std::string retval = "";
char cur;
while (!isEolnChar(cur = (char)getc(file)))
retval += cur;
if (cur == CR)
{
cur = (char)getc(file);
if (cur != LF)
ungetc(cur, file);
}
else
{
if (cur != LF)
ungetc(cur, file);
}
return retval;
}
void InStream::close()
{
if (opened)
fclose(file);
opened = false;
}
void quit(TResult result, std::string msg)
{
ouf.quit(result, msg.c_str());
}
void quit(TResult result, char * msg)
{
ouf.quit(result, msg);
}
void quitf(TResult result, char * format, ...)
{
char * buffer = new char [OUTPUT_BUFFER_SIZE];
va_list ap;
va_start(ap, format);
std::vsprintf(buffer, format, ap);
va_end(ap);
std::string output(buffer);
delete[] buffer;
quit(result, output);
}
void registerTestlibCmd(int argc, char * argv[])
{
if (sizeof(int) != 4)
quit(_fail, "'testlib' unit assumes 'sizeof(integer) = 4'");
if (argc < 4 || argc > 6)
quit(_fail, std::string("Program must be run with the following arguments: ") +
" [ [<-xml>]]");
if (argc == 4)
{
resultName = "";
appesMode = false;
}
if (argc == 5)
{
resultName = argv[4];
appesMode = false;
}
if (argc == 6)
{
if (strcmp("-appes", argv[5]) != 0 && strcmp("-xml", argv[5]) != 0)
{
quit(_fail, std::string("Program must be run with the following arguments: ") +
" [ [<-xml>]]");
}
else
{
resultName = argv[4];
appesMode = true;
}
}
inf.init(argv[1], _input);
ouf.init(argv[2], _output);
ans.init(argv[3], _answer);
}
void registerTestlib(int argc, ...)
{
if (argc < 3 || argc > 5)
quit(_fail, std::string("Program must be run with the following arguments: ") +
" [ [<-xml>]]");
char ** argv = new char*[argc + 1];
va_list ap;
va_start(ap, argc);
argv[0] = NULL;
for (int i = 0; i < argc; i++)
{
argv[i + 1] = va_arg(ap, char *);
}
va_end(ap);
registerTestlibCmd(argc + 1, argv);
delete[] argv;
}
inline bool isNaN(double r)
{
return ((r != r) == true) && ((r == r) == false) && ((1.0 > r) == false) && ((1.0 < r) == false);
}
inline bool isInfinite(double r)
{
return (r > 1E100 || r < -1E100);
}
bool doubleCompare(double expected, double result, double MAX_DOUBLE_ERROR)
{
if(isNaN(expected))
{
return isNaN(result);
}
else
if(isInfinite(expected))
{
if(expected > 0)
{
return result > 0 && isInfinite(result);
}
else
{
return result < 0 && isInfinite(result);
}
}
else
if(isNaN(result) || isInfinite(result))
{
return false;
}
else
if(ABS(result - expected) < MAX_DOUBLE_ERROR)
{
return true;
}
else
{
double minv = MIN(expected * (1.0 - MAX_DOUBLE_ERROR),
expected * (1.0 + MAX_DOUBLE_ERROR));
double maxv = MAX(expected * (1.0 - MAX_DOUBLE_ERROR),
expected * (1.0 + MAX_DOUBLE_ERROR));
return result > minv && result < maxv;
}
}
#endif