// 990117 bkoz test functionality of basic_filebuf for char_type == char // Copyright (C) 1997-1999, 2000 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 2, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License along // with this library; see the file COPYING. If not, write to the Free // Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, // USA. // NB: this test assumes that _M_buf_size == 40, and not the usual // buffer_size length of 8092, so that overflow/underflow can be // simulated a bit more readily. #include #include const char carray_01[] = "santa cruz or sandiego?"; const char carray_02[] = "memphis, new orleans, and savanah"; const char name_01[] = "testsuite/filebuf-1.txt"; // file with data in it const char name_02[] = "testsuite/filebuf-2.txt"; // empty file, need to create const char name_03[] = "testsuite/filebuf-3.txt"; // empty file, need to create class derived_filebuf: public std::filebuf { public: void set_size(int_type __size) { _M_buf_size_opt = __size; } }; derived_filebuf fb_01; // in derived_filebuf fb_02; // out derived_filebuf fb_03; // in | out const int buffer_size = 8192; // initialize filebufs to be the same size regardless of platform void test00() { fb_01.set_size(buffer_size); fb_02.set_size(buffer_size); fb_03.set_size(buffer_size); } // test the filebuf/stringbuf locale settings bool test01() { std::locale loc_tmp; loc_tmp = fb_01.getloc(); fb_01.pubimbue(loc_tmp); //This should initialize _M_init to true fb_01.getloc(); //This should just return _M_locale return true; } // test member functions functions bool test02() { bool test = true; // bool is_open() VERIFY( !fb_01.is_open() ); VERIFY( !fb_02.is_open() ); VERIFY( !fb_03.is_open() ); // filebuf_type* open(const char* __s, ios_base::openmode __mode) fb_01.open(name_01, std::ios_base::in | std::ios_base::ate); fb_02.open(name_02, std::ios_base::in | std::ios_base::out | std::ios_base::trunc); // Try to open two different files without closing the first: // Should keep the old file attached, and disregard attempt to overthrow. fb_02.open(name_03, std::ios_base::in | std::ios_base::out); fb_03.open(name_03, std::ios_base::out | std::ios_base::trunc); VERIFY( fb_01.is_open() ); VERIFY( fb_02.is_open() ); VERIFY( fb_03.is_open() ); // filebuf_type* close() fb_01.close(); fb_02.close(); fb_03.close(); VERIFY( !fb_01.is_open() ); VERIFY( !fb_02.is_open() ); VERIFY( !fb_03.is_open() ); #ifdef DEBUG_ASSERT assert(test); #endif return test; } // test overloaded virtual functions bool test03() { typedef std::filebuf::int_type int_type; typedef std::filebuf::traits_type traits_type; typedef std::filebuf::pos_type pos_type; typedef std::filebuf::off_type off_type; typedef size_t size_type; bool test = true; std::filebuf f_tmp; std::streamsize strmsz_1, strmsz_2; std::streamoff strmof_1, strmof_2; int i = 0, j = 0, k = 0; // GET // int showmanyc() // returns an estimate of the numbers of chars in the seq, or -1. // if __retval > 0, then calls to underflow won't return // traits_type::eof() till at least __retval chars. // if __retval == -1, then calls to underflow or uflow will fail. // NB overriding def if it can determine more chars can be read from // the input sequence. // int in_avail() // if a read position is available, return _M_in_end - _M_in_cur. // else return showmanyc. strmof_1 = fb_01.in_avail(); strmof_2 = fb_02.in_avail(); VERIFY( strmof_1 == -1 ); VERIFY( strmof_1 == strmof_2 ); //fail because not open strmof_1 = fb_03.in_avail(); VERIFY( strmof_1 == strmof_2 ); fb_01.open(name_01, std::ios_base::in); fb_02.open(name_02, std::ios_base::out | std::ios_base::trunc); fb_03.open(name_03, std::ios_base::out | std::ios_base::in | std::ios_base::trunc); strmof_1 = fb_01.in_avail(); strmof_2 = fb_02.in_avail(); VERIFY( strmof_1 != strmof_2 ); VERIFY( strmof_1 >= 0 ); VERIFY( strmof_2 == -1 ); // empty file strmof_1 = fb_03.in_avail(); VERIFY( strmof_1 == -1 ); // empty file // int_type sbumpc() // if read_cur not avail returns uflow(), else return *read_cur & increment int_type c1 = fb_01.sbumpc(); int_type c2 = fb_02.sbumpc(); VERIFY( c1 != c2 ); VERIFY( c1 == '/' ); VERIFY( c2 == -1 ); int_type c3 = fb_01.sbumpc(); int_type c4 = fb_02.sbumpc(); VERIFY( c3 != c4 ); VERIFY( c1 == c3 ); // fluke, both happen to be '/' VERIFY( c2 == c4 ); int_type c5 = fb_03.sbumpc(); VERIFY( c5 == traits_type::eof() ); // XXX should do some kind of test to make sure that internal // buffers point ot the same thing, to check consistancy. // int_type sgetc() // if read_cur not avail, return uflow(), else return *read_cur int_type c6 = fb_01.sgetc(); int_type c7 = fb_02.sgetc(); VERIFY( c6 != c3 ); VERIFY( c7 == c4 ); // both -1 int_type c8 = fb_01.sgetc(); int_type c9 = fb_02.sgetc(); VERIFY( c6 == c8 ); VERIFY( c7 == c9 ); c5 = fb_03.sgetc(); VERIFY( c5 == traits_type::eof() ); // int_type snextc() // calls sbumpc and if sbumpc != eof, return sgetc c6 = fb_01.snextc(); c7 = fb_02.snextc(); VERIFY( c6 != c8 ); VERIFY( c7 == c9 ); // -1 VERIFY( c6 == '9' ); c6 = fb_01.snextc(); c7 = fb_02.snextc(); VERIFY( c6 != c8 ); VERIFY( c7 == c9 ); // -1 VERIFY( c6 == '9' ); c5 = fb_03.snextc(); VERIFY( c5 == traits_type::eof() ); // streamsize sgetn(char_type *s, streamsize n) // streamsize xsgetn(char_type *s, streamsize n) // assign up to n chars to s from input sequence, indexing in_cur as // approp and returning the number of chars assigned strmsz_1 = fb_01.in_avail(); strmsz_2 = fb_02.in_avail(); test = strmsz_1 != strmsz_2; char carray1[13] = ""; strmsz_1 = fb_01.sgetn(carray1, 10); char carray2[buffer_size] = ""; strmsz_2 = fb_02.sgetn(carray2, 10); VERIFY( strmsz_1 != strmsz_2 ); VERIFY( strmsz_1 == 10 ); VERIFY( strmsz_2 == 0 ); c1 = fb_01.sgetc(); c2 = fb_02.sgetc(); VERIFY( c1 == '\n' ); VERIFY( c7 == c2 ); // n != i strmsz_1 = fb_03.sgetn(carray1, 10); VERIFY( !strmsz_1 ); //zero strmsz_1 = fb_01.in_avail(); strmsz_2 = fb_01.sgetn(carray2, strmsz_1 + 5); VERIFY( strmsz_1 == strmsz_2 - 5 ); c4 = fb_01.sgetc(); // buffer should have underflowed from above. VERIFY( c4 == 'i' ); strmsz_1 = fb_01.in_avail(); VERIFY( strmsz_1 > 0 ); strmsz_2 = fb_01.sgetn(carray2, strmsz_1 + 5); VERIFY( strmsz_1 == strmsz_2 ); //at the end of the actual file strmsz_1 = fb_02.in_avail(); strmsz_2 = fb_02.sgetn(carray2, strmsz_1 + 5); VERIFY( strmsz_1 == -1 ); VERIFY( strmsz_2 == 0 ); c4 = fb_02.sgetc(); // should be EOF VERIFY( c4 == traits_type::eof() ); // PUT // int_type sputc(char_type c) // if out_cur not avail, return overflow(traits_type::to_int_type(c)) // else, stores c at out_cur, // increments out_cur, and returns c as int_type // strmsz_1 = fb_03.in_avail(); // XXX valid for in|out?? c1 = fb_02.sputc('a'); c2 = fb_03.sputc('b'); VERIFY( c1 != c2 ); c1 = fb_02.sputc('c'); c2 = fb_03.sputc('d'); VERIFY( c1 != c2 ); // strmsz_2 = fb_03.in_avail(); // VERIFY( strmsz_1 != strmsz_2 ); for (int i = 50; i <= 90; ++i) c2 = fb_02.sputc(char(i)); // 27filebuf-2.txt == ac23456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWX // fb_02._M_out_cur = '2' strmsz_1 = fb_03.in_avail(); for (int i = 50; i <= 90; ++i) c2 = fb_03.sputc(char(i)); strmsz_2 = fb_03.in_avail(); // VERIFY( strmsz_1 != strmsz_2 ); // VERIFY( strmsz_1 > 0 ); // VERIFY( strmsz_2 > 0 ); // 27filebuf-2.txt == bd23456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWX // fb_02._M_out_cur = '2' c3 = fb_01.sputc('a'); // should be EOF because this is read-only VERIFY( c3 == traits_type::eof() ); // streamsize sputn(const char_typs* s, streamsize n) // write up to n chars to out_cur from s, returning number assigned // NB *sputn will happily put '\0' into your stream if you give it a chance* strmsz_1 = fb_03.sputn("racadabras", 10);//"abracadabras or what?" VERIFY( strmsz_1 == 10 ); strmsz_2 = fb_03.sputn(", i wanna reach out and", 10); VERIFY( strmsz_2 == 10 ); VERIFY( strmsz_1 == strmsz_2 ); // fb_03._M_out_beg = "YZracadabras, i wanna FGHIJKLMNOPQRSTUVW" // fb_03._M_out_cur = "FGHIJKLMNOPQRSTUVW" strmsz_1 = fb_02.sputn("racadabras", 10); VERIFY( strmsz_1 == 10 ); // fb_02._M_out_beg = "YZracadabras<=>?@ABCDEFGHIJKLMNOPQRSTUVW" // fb_02._M_out_cur = "<=>?@ABCDEFGHIJKLMNOPQRSTUVW" strmsz_1 = fb_01.sputn("racadabra", 10); VERIFY( strmsz_1 == 0 ); // PUTBACK // int_type pbfail(int_type c) // called when gptr() null, gptr() == eback(), or traits::eq(*gptr, c) false // "pending sequence" is: // 1) everything as defined in underflow // 2) + if (traits::eq_int_type(c, traits::eof()), then input // sequence is backed up one char before the pending sequence is // determined. // 3) + if (not 2) then c is prepended. Left unspecified is // whether the input sequence is backedup or modified in any way // returns traits::eof() for failure, unspecified other value for success // int_type sputbackc(char_type c) // if in_cur not avail || ! traits::eq(c, gptr() [-1]), return pbfail // otherwise decrements in_cur and returns *gptr() c1 = fb_03.sgetc(); // -1 c2 = fb_03.sputbackc('z'); strmsz_2 = fb_03.in_avail(); c3 = fb_03.sgetc(); VERIFY( c3 == c2 ); VERIFY( c1 != c3 ); VERIFY( 1 == strmsz_2 ); //test for _in_cur == _in_beg // fb_03._M_out_beg = "bd23456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZracada" etc fb_03.pubseekoff(10, std::ios_base::beg, std::ios_base::in | std::ios_base::out); fb_03.sputc('m'); strmsz_1 = fb_03.in_avail(); c1 = fb_03.sgetc(); fb_03.snextc(); c2 = fb_03.sputbackc('z'); strmsz_2 = fb_03.in_avail(); c3 = fb_03.sgetc(); VERIFY( c1 != c2 ); VERIFY( c3 == c2 ); VERIFY( c1 != c3 ); VERIFY( c2 == 'z' ); VERIFY( strmsz_1 == strmsz_2 ); // test for replacing char with identical one fb_03.snextc(); fb_03.sputc('u'); fb_03.sputc('v'); fb_03.sputc('a'); strmsz_1 = fb_03.in_avail(); c2 = fb_03.sputbackc('a'); strmsz_2 = fb_03.in_avail(); c3 = fb_03.sgetc(); VERIFY( c3 == c2 ); VERIFY( strmsz_1 + 1 == strmsz_2 ); //test for ios_base::out c1 = fb_02.sgetc(); // undefined c2 = fb_02.sputbackc('a'); VERIFY( c1 == c2 ); VERIFY( c1 == -1 ); // int_type sungetc() // if in_cur not avail, return pbackfail(), else decrement and // return to_int_type(*gptr()) // fb_03._M_out_beg = "uvaacadabras, i wannaZ[\\]^_`abcdefghijkl" // fb_03._M_out_cur = "aacadabras, i wannaZ[\\]^_`abcdefghijkl" strmsz_1 = fb_03.in_avail(); c2 = fb_03.sungetc(); // delete the 'a' strmsz_2 = fb_03.in_avail(); VERIFY( c2 == 'v' ); // VERIFY( c2 != traits_type::eof() ); VERIFY( strmsz_1 + 1 == strmsz_2 ); //test for _in_cur == _in_beg for (int i = 50; i < 32 + 29; ++i) fb_02.sputc(char(i)); fb_02.pubseekoff(0, std::ios_base::beg, std::ios_base::out); strmsz_1 = fb_02.in_avail(); c1 = fb_02.sgetc(); c2 = fb_02.sungetc(); strmsz_2 = fb_02.in_avail(); c3 = fb_02.sgetc(); VERIFY( c1 == c2 ); VERIFY( c3 == c2 ); VERIFY( c1 == c3 ); VERIFY( c2 == traits_type::eof() ); VERIFY( strmsz_1 == strmsz_2 ); //test for _in_cur == _in_end fb_03.pubseekoff(0, std::ios_base::end); strmsz_1 = fb_03.in_avail(); // -1 cuz at the end c1 = fb_03.sgetc(); c2 = fb_03.sungetc(); strmsz_2 = fb_03.in_avail(); // 1 c3 = fb_03.sgetc(); VERIFY( c1 != c2 ); // VERIFY( c2 == c3 || c2 == traits_type::not_eof(int(c3)) ); VERIFY( strmsz_2 != strmsz_1 ); VERIFY( strmsz_2 == 1 ); //test for ios_base::out // BUFFER MANAGEMENT & POSITIONING // int sync() // if a put area exists, overflow. // if a get area exists, do something undefined. (like, nothing) strmsz_1 = fb_01.in_avail(); fb_01.pubsync(); strmsz_2 = fb_01.in_avail(); VERIFY( strmsz_2 == strmsz_1 ); strmsz_1 = fb_02.in_avail(); fb_02.pubsync(); // 27filebuf-2.txt == 53 bytes after this. strmsz_2 = fb_02.in_avail(); VERIFY( strmsz_2 == -1 ); VERIFY( strmsz_2 == strmsz_1 ); strmsz_1 = fb_03.in_avail(); fb_03.pubsync(); // 27filebuf-3.txt // bd23456789mzuva?@ABCDEFGHIJKLMNOPQRSTUVWXYZracadabras, i wannaz // 63 bytes. strmsz_2 = fb_03.in_avail(); VERIFY( strmsz_1 == 1 ); VERIFY( strmsz_2 == 1 ); // setbuf // pubsetbuf(char_type* s, streamsize n) fb_01.pubsetbuf(0,0); fb_02.pubsetbuf(0,0); fb_03.pubsetbuf(0,0); // Need to test unbuffered output, which means calling this on some // things that have just been opened. // seekoff // pubseekoff(off_type off, ios_base::seekdir way, ios_base::openmode which) // alters the stream position to off pos_type pt_1(off_type(-1)); pos_type pt_2(off_type(0)); off_type off_1 = 0; off_type off_2 = 0; //IN|OUT // 27filebuf-3.txt = bd23456789:;<=>?... //beg strmsz_1 = fb_03.in_avail(); pt_1 = fb_03.pubseekoff(2, std::ios_base::beg); strmsz_2 = fb_03.in_avail(); off_1 = pt_1; VERIFY( off_1 > 0 ); c1 = fb_03.snextc(); //current in pointer +1 VERIFY( c1 == '3' ); c2 = fb_03.sputc('\n'); //current in pointer +1 c3 = fb_03.sgetc(); VERIFY( c2 != c3 ); VERIFY( c3 == '4' ); fb_03.pubsync(); c1 = fb_03.sgetc(); VERIFY( c1 == c3 ); //cur // 27filebuf-3.txt = bd2\n456789:;<=>?... pt_2 = fb_03.pubseekoff(2, std::ios_base::cur); off_2 = pt_2; VERIFY( (off_2 == (off_1 + 2 + 1 + 1)) ); c1 = fb_03.snextc(); //current in pointer +1 VERIFY( c1 == '7' ); c2 = fb_03.sputc('x'); //test current out pointer c3 = fb_03.sputc('\n'); c1 = fb_03.sgetc(); fb_03.pubsync(); c3 = fb_03.sgetc(); VERIFY( c1 == c3 ); //end // 27filebuf-3.txt = "bd2\n456x\n9" pt_2 = fb_03.pubseekoff(0, std::ios_base::end, std::ios_base::in|std::ios_base::out); off_1 = pt_2; VERIFY( off_1 > off_2 ); //weak, but don't know exactly where it ends c3 = fb_03.sputc('\n'); strmsz_1 = fb_03.sputn("because because because. . .", 28); VERIFY( strmsz_1 == 28 ); c1 = fb_03.sungetc(); fb_03.pubsync(); c3 = fb_03.sgetc(); VERIFY( c1 == c3 ); // IN // OUT // seekpos // pubseekpos(pos_type sp, ios_base::openmode) // alters the stream position to sp //IN|OUT //beg pt_1 = fb_03.pubseekoff(78, std::ios_base::beg); off_1 = pt_1; VERIFY( off_1 > 0 ); c1 = fb_03.snextc(); //current in pointer +1 VERIFY( c1 == ' ' ); c2 = fb_03.sputc('\n'); //test current out pointer c3 = fb_03.sgetc(); fb_03.pubsync(); //resets pointers pt_2 = fb_03.pubseekpos(pt_1); off_2 = pt_2; VERIFY( off_1 == off_2 ); c3 = fb_03.snextc(); //current in pointer +1 VERIFY( c2 == c3 ); pt_1 = fb_03.pubseekoff(0, std::ios_base::end); off_1 = pt_1; VERIFY( off_1 > off_2 ); fb_03.sputn("\nof the wonderful things he does!!\nok", 37); fb_03.pubsync(); // IN // OUT // VIRTUALS (indirectly tested) // underflow // if read position avail, returns *gptr() // pbackfail(int_type c) // put c back into input sequence // overflow // appends c to output seq // NB Have to close these suckers. . . // filebuf_type* close() fb_01.close(); fb_02.close(); fb_03.close(); VERIFY( !fb_01.is_open() ); VERIFY( !fb_02.is_open() ); VERIFY( !fb_03.is_open() ); #ifdef DEBUG_ASSERT assert(test); #endif return test; } bool test04() { using namespace std; typedef istream::int_type int_type; bool test = true; ifstream ifs(name_02); char buffer[] = "xxxxxxxxxx"; int_type len1 = ifs.rdbuf()->sgetn(buffer, sizeof(buffer)); VERIFY( len1 == sizeof(buffer) ); VERIFY( buffer[0] == 'a' ); #ifdef DEBUG_ASSERT assert(test); #endif return test; } int main() { test00(); test01(); test02(); test03(); test04(); return 0; } // more surf!!!