______________________________________________________________________ Annex 0 (normative) Compatibility features [depr] ______________________________________________________________________ 1 This clause describes features of the C++ Standard that are specified for compatibility with existing implementations. 2 These are deprecated features, where deprecated is defined as: Norma- tive for the current edition of the Standard, but not guaranteed to be part of the Standard in future revisions. 1.1 Postfix increment operator [depr.post.incr] 1 The use of an operand of type bool with the postfix ++ operator is deprecated (see _expr.post.incr_). 1.2 static keyword [depr.static] 1 The use of the static keyword is deprecated when declaring objects in namespace scope (see _basic.scope.namespace_). 1.3 Access declarations [depr.access.dcl] 1 Access declarations are deprecated (see _class.access.dcl_). 1.4 Implicit conversion from const strings [depr.string] 1 The implicit conversion from const to non-const qualification for string literals (_conv.array_) is deprecated. 1.5 Standard C library headers [depr.c.headers] 1 For compatibility with the Standard C library, the C++ Standard library provides the 18 C headers, as shown in Table 1: Table 1--C Headers ----------------------------------------------------------------- <assert.h> <iso646.h> <setjmp.h> <stdio.h> <wchar.h> <ctype.h> <limits.h> <signal.h> <stdlib.h> <wctype.h> <errno.h> <locale.h> <stdarg.h> <string.h> <float.h> <math.h> <stddef.h> <time.h> ----------------------------------------------------------------- | | | | | | | | 2 Each C header, whose name has the form name.h, behaves as if each name placed in the Standard library namespace by the corresponding cname header is also placed within the namespace scope of the namespace std and is followed by an explicit using-declaration (_namespace.udecl_) 3 [Example: The header <cstdlib> provides its declarations and defini- tions within the namespace std. The header <stdlib.h> makes these available in the global name space, much as in the C Standard. --end example] 1.6 Old iostreams members [depr.ios.members] 1 The following member names are in addition to names specified in clause _lib.input.output_: namespace std { class ios_base { public: typedef T1 io_state; typedef T2 open_mode; typedef T3 seek_dir; typedef OFF_T streamoff; typedef OFF_T streampos; // remainder unchanged }; } 2 The type io_state is a synonym for an integer type (indicated here as T1) that permits certain member functions to overload others on param- eters of type iostate and provide the same behavior. 3 The type open_mode is a synonym for an integer type (indicated here as T2) that permits certain member functions to overload others on param- eters of type openmode and provide the same behavior. 4 The type seek_dir is a synonym for an integer type (indicated here as T3) that permits certain member functions to overload others on param- eters of type seekdir and provide the same behavior. 5 The type streamoff is an implementation-defined type that satisfies the requirements of type OFF_T (_lib.stream.types_). 6 The type streampos is an implementation-defined type that satisfies the requirements of type POS_T (_lib.iostream.forward_). 7 An implementation may provide the following additional member func- tion, which has the effect of calling sbumpc() (_lib.stream- buf.pub.get_): namespace std { template<class charT, class traits = char_traits<charT> > class basic_streambuf { public: void stossc(); // remainder unchanged }; } 8 An implementation may provide the following member functions that overload signatures specified in clause _lib.iostreams_: namespace std { template<class charT, class Traits> class basic_ios { public: void clear(io_state state); void setstate(io_state state); // remainder unchanged }; class ios_base { public: void exceptions(io_state); // remainder unchanged }; template<class charT, class traits = char_traits<charT> > class basic_streambuf { public: pos_type pubseekoff(off_type off, ios_base::seek_dir way, ios_base::open_mode which = ios_base::in | ios_base::out); pos_type pubseekpos(pos_type sp, ios_base::open_mode which = ios_base::in | ios_base::out); // remainder unchanged }; template <class charT, class traits = char_traits<charT> > class basic_filebuf : public basic_streambuf<charT,traits> { public: basic_filebuf<charT,traits>* open (const char* s, ios_base::open_mode mode); // remainder unchanged }; template <class charT, class traits = char_traits<charT> > class basic_ifstream : public basic_istream<charT,traits> { public: void open(const char* s, ios_base::open_mode mode = in); // remainder unchanged }; template <class charT, class traits = char_traits<charT> > class basic_ofstream : public basic_ostream<charT,traits> { public: void open(const char* s, ios_base::open_mode mode = out | trunc); // remainder unchanged }; } 9 The effects of these functions is to call the corresponding member function specified in clause _lib.input.output_. 1.7 char* streams [depr.str.strstreams] 1 The header <strstream> defines three types that associate stream buffers with character array objects and assist reading and writing such objects. 1.7.1 Class strstreambuf [depr.strstreambuf] namespace std { class strstreambuf : public basic_streambuf<char> { public: explicit strstreambuf(streamsize alsize_arg = 0); strstreambuf(void* (*palloc_arg)(size_t), void (*pfree_arg)(void*)); strstreambuf(char* gnext_arg, streamsize n, char* pbeg_arg = 0); strstreambuf(const char* gnext_arg, streamsize n); strstreambuf(signed char* gnext_arg, streamsize n, signed char* pbeg_arg = 0); strstreambuf(const signed char* gnext_arg, streamsize n); strstreambuf(unsigned char* gnext_arg, streamsize n, unsigned char* pbeg_arg = 0); strstreambuf(const unsigned char* gnext_arg, streamsize n); virtual ~strstreambuf(); void freeze(bool freezefl = true); char* str(); int pcount(); protected: virtual int_type overflow (int_type c = EOF); virtual int_type pbackfail(int_type c = EOF); virtual int_type underflow(); virtual pos_type seekoff(off_type off, ios_base::seekdir way, ios_base::openmode which = ios_base::in | ios_base::out); virtual pos_type seekpos(pos_type sp, ios_base::openmode which = ios_base::in | ios_base::out); virtual streambuf<char>* setbuf(char* s, streamsize n); private: // typedef T1 strstate; exposition only // static const strstate allocated; exposition only // static const strstate constant; exposition only // static const strstate dynamic; exposition only // static const strstate frozen; exposition only // strstate strmode; exposition only // streamsize alsize; exposition only // void* (*palloc)(size_t); exposition only // void (*pfree)(void*); exposition only }; } 1 The class strstreambuf associates the input sequence, and possibly the output sequence, with an object of some character array type, whose elements store arbitrary values. The array object has several attributes. 2 [Note: For the sake of exposition, these are represented as elements of a bitmask type (indicated here as T1) called strstate. The ele- ments are: --allocated, set when a dynamic array object has been allocated, and hence should be freed by the destructor for the strstreambuf object; --constant, set when the array object has const elements, so the out- put sequence cannot be written; --dynamic, set when the array object is allocated (or reallocated) as necessary to hold a character sequence that can change in length; --frozen, set when the program has requested that the array object not be altered, reallocated, or freed. --end note] 3 [Note: For the sake of exposition, the maintained data is presented here as: --strstate strmode, the attributes of the array object associated with the strstreambuf object; --int alsize, the suggested minimum size for a dynamic array object; --void* (*palloc)(size_t), points to the function to call to allocate a dynamic array object; --void (*pfree)(void*), points to the function to call to free a dynamic array object. --end note] 4 Each object of class strstreambuf has a seekable area, delimited by the pointers seeklow and seekhigh. If gnext is a null pointer, the seekable area is undefined. Otherwise, seeklow equals gbeg and seekhigh is either pend, if pend is not a null pointer, or gend. 1.7.1.1 strstreambuf constructors [depr.strstreambuf.cons] explicit strstreambuf(streamsize alsize_arg = 0); Effects: Constructs an object of class strstreambuf, initializing the base class with streambuf(). The postconditions of this function are indicated in Table 2: Table 2--strstreambuf(streamsize) effects +-------------------------+ |Element Value | +-------------------------+ |strmode dynamic | |alsize alsize_arg | |palloc a null pointer | |pfree a null pointer | +-------------------------+ strstreambuf(void* (*palloc_arg)(size_t), void (*pfree_arg)(void*)); Effects: Constructs an object of class strstreambuf, initializing the base class with streambuf(). The postconditions of this function are indicated in Table 3: Table 3--strstreambuf(void* (*)(size_t),void (*)(void*) effects +-------------------------------+ |Element Value | +-------------------------------+ |strmode dynamic | |alsize an unspecified value | |palloc palloc_arg | |pfree pfree_arg | +-------------------------------+ strstreambuf(char* gnext_arg, streamsize n, char *pbeg_arg = 0); strstreambuf(signed char* gnext_arg, streamsize n, signed char *pbeg_arg = 0); strstreambuf(unsigned char* gnext_arg, streamsize n, unsigned char *pbeg_arg = 0); Effects: Constructs an object of class strstreambuf, initializing the base class with streambuf(). The postconditions of this function are indicated in Table 4: Table 4--strstreambuf(charT*,streamsize,charT*) effects +-------------------------------+ |Element Value | +-------------------------------+ |strmode 0 | |alsize an unspecified value | |palloc a null pointer | |pfree a null pointer | +-------------------------------+ 1 gnext_arg shall point to the first element of an array object whose number of elements N is determined as follows: --If n > 0, N is n. --If n == 0, N is std::strlen(gnext_arg). --If n < 0, N is INT_MAX.1) 2 If pbeg_arg is a null pointer, the function executes: setg(gnext_arg, gnext_arg, gnext_arg + N); 3 Otherwise, the function executes: setg(gnext_arg, gnext_arg, pbeg_arg); setp(pbeg_arg, pbeg_arg + N); strstreambuf(const char* gnext_arg, streamsize n); strstreambuf(const signed char* gnext_arg, streamsize n); strstreambuf(const unsigned char* gnext_arg, streamsize n); Effects: Behaves the same as strstreambuf((char*)gnext_arg,n), except that the constructor also sets constant in strmode. virtual ~strstreambuf(); Effects: Destroys an object of class strstreambuf. The function frees the dynamically allocated array object only if strmode & allocated != 0 and strmode & frozen == 0. (_lib.strstreambuf.virtuals_ describes how a dynamically allocated array object is freed.) _________________________ 1) The function signature strlen(const char*) is declared in <cstring>. (_lib.c.strings_). The macro INT_MAX is defined in <climits> (_lib.support.limits_). 1.7.1.2 Member functions [depr.strstreambuf.members] void freeze(bool freezefl = true); Effects: If strmode & dynamic is non-zero, alters the freeze status of the dynamic array object as follows: --If freezefl is true, the function sets frozen in strmode. --Otherwise, it clears frozen in strmode. char* str(); Effects: Calls freeze(), then returns the beginning pointer for the input sequence, gbeg. Notes: The return value can be a null pointer. int pcount() const; Effects: If the next pointer for the output sequence, pnext, is a null pointer, returns zero. Otherwise, returns the current effective length of the array object as the next pointer minus the beginning pointer for the output sequence, pnext - pbeg. 1.7.1.3 strstreambuf overridden [depr.strstreambuf.virtuals] virtual functions int_type overflow(int_type c = EOF); Effects: Appends the character designated by c to the output sequence, if possible, in one of two ways: --If c != EOF and if either the output sequence has a write position available or the function makes a write position available (as described below), assigns c to *pnext++. Returns (unsigned char)c. --If c == EOF, there is no character to append. Returns a value other than EOF. 1 Returns EOF to indicate failure. Notes: The function can alter the number of write positions available as a result of any call. To make a write position available, the function reallocates (or initially allocates) an array object with a sufficient number of elements n to hold the current array object (if any), plus at least one additional write position. How many additional write positions are made available is otherwise unspecified.2) If palloc is not a null pointer, the function calls (*palloc)(n) to allocate the new dynamic array object. Otherwise, it evaluates the expression new charT[n]. In either case, if the allocation fails, the function returns EOF. Otherwise, it sets allocated in strmode. 2 To free a previously existing dynamic array object whose first element address is p: If pfree is not a null pointer, the function calls (*pfree)(p). Otherwise, it evaluates the expression delete[] p. 3 If strmode & dynamic == 0, or if strmode & frozen != 0, the function cannot extend the array (reallocate it with greater length) to make a write position available. int_type pbackfail(int_type c = EOF); 4 Puts back the character designated by c to the input sequence, if pos- sible, in one of three ways: --If c != EOF, if the input sequence has a putback position available, and if (char)c == gnext[-1], assigns gnext - 1 to gnext. Returns c. --If c != EOF, if the input sequence has a putback position available, and if strmode & constant is zero, assigns c to *--gnext. Returns c. --If c == EOF and if the input sequence has a putback position avail- able, assigns gnext - 1 to gnext. Returns a value other than EOF. 5 Returns EOF to indicate failure. Notes: If the function can succeed in more than one of these ways, it is unspecified which way is chosen. The function can alter the number of putback positions available as a result of any call. int_type underflow(); Effects: Reads a character from the input sequence, if possible, without mov- ing the stream position past it, as follows: _________________________ 2) An implementation should consider alsize in making this decision. --If the input sequence has a read position available, the function signals success by returning (unsigned char)*gnext. --Otherwise, if the current write next pointer pnext is not a null pointer and is greater than the current read end pointer gend, makes a read position available by: assigning to gend a value greater than gnext and no greater than pnext. Returns (unsigned char)*gnext. 6 Returns EOF to indicate failure. Notes: The function can alter the number of read positions available as a result of any call. pos_type seekoff(off_type off, seekdir way, openmode which = in | out); Effects: Alters the stream position within one of the controlled sequences, if possible, as indicated in Table 5: Table 5--seekoff positioning +-----------------------------------------------------------------------+ | Conditions Result | +-----------------------------------------------------------------------+ (which & ios::in) != 0 positions the input sequence | +-----------------------------------------------------------------------+ (which & ios::out) != 0positions the output sequence | +-----------------------------------------------------------------------+ Otherwise, | (which & (ios::in | positions both the input and the output sequences| ios::out)) == (ios::in | | ios::out)) | and way == either | ios::beg or ios::end | +-----------------------------------------------------------------------+ Otherwise, the positioning operation fails. | +-----------------------------------------------------------------------+ 7 For a sequence to be positioned, if its next pointer is a null pointer, the positioning operation fails. Otherwise, the function determines newoff as indicated in Table 6: Table 6--newoff values +---------------------------------------------------------+ | Condition newoff Value | +---------------------------------------------------------+ |way == ios::beg 0 | +---------------------------------------------------------+ |way == ios::cur the next pointer minus the be- | | ginning pointer (xnext - xbeg) | +---------------------------------------------------------+ |way == ios::end seekhigh minus the beginning | | pointer (seekhigh - xbeg) | +---------------------------------------------------------+ |If (newoff + off) < the positioning operation fails | |(seeklow - xbeg), | |or (seekhigh - xbeg) < | |(newoff + off) | +---------------------------------------------------------+ 8 Otherwise, the function assigns xbeg + newoff + off to the next pointer xnext. Returns: pos_type(newoff), constructed from the resultant offset newoff (of type off_type), that stores the resultant stream position, if possi- ble. If the positioning operation fails, or if the constructed object cannot represent the resultant stream position, the object stores an invalid stream position. pos_type seekpos(pos_type sp, ios_base::openmode which = ios_base::in | ios_base::out); Effects: Alters the stream position within one of the controlled sequences, if possible, to correspond to the stream position stored in sp (as described below). --If (which & ios::in) != 0, positions the input sequence. --If (which & ios::out) != 0, positions the output sequence. --If the function positions neither sequence, the positioning opera- tion fails. 9 For a sequence to be positioned, if its next pointer is a null pointer, the positioning operation fails. Otherwise, the function determines newoff from sp.offset(): --If newoff is an invalid stream position, has a negative value, or has a value greater than (seekhigh - seeklow), the positioning operation fails --Otherwise, the function adds newoff to the beginning pointer xbeg and stores the result in the next pointer xnext. Returns: pos_type(newoff), constructed from the resultant offset newoff (of type off_type), that stores the resultant stream position, if possi- ble. If the positioning operation fails, or if the constructed object cannot represent the resultant stream position, the object stores an invalid stream position. streambuf<char>* setbuf(char* s, streamsize n); Effects: Performs an operation that is defined separately for each class derived from strstreambuf. 1.7.2 Class istrstream [depr.istrstream] namespace std { class istrstream : public basic_istream<char> { public: explicit istrstream(const char* s); explicit istrstream(char* s); istrstream(const char* s, streamsize n); istrstream(char* s, streamsize n); virtual ~istrstream(); strstreambuf* rdbuf() const; char *str(); private: // strstreambuf sb; exposition only }; } 1 The class istrstream supports the reading of objects of class strstreambuf. It supplies a strstreambuf object to control the asso- ciated array object. For the sake of exposition, the maintained data is presented here as: --sb, the strstreambuf object. 1.7.2.1 istrstream constructors [depr.istrstream.cons] explicit istrstream(const char* s); explicit istrstream(char* s); Effects: Constructs an object of class istrstream, initializing the base class with istream(&sb) and initializing sb with strstreambuf(s,0)). s shall designate the first element of an NTBS. istrstream(const char* s, streamsize n); Effects: Constructs an object of class istrstream, initializing the base class with istream(&sb) and initializing sb with strstreambuf(s,n)). s shall designate the first element of an array whose length is n elements, and n shall be greater than zero. 1.7.2.2 Member functions [depr.istrstream.members] strstreambuf* rdbuf() const; Returns: (strstreambuf*)&sb. char* str(); Returns: rdbuf()->str(). 1.7.3 Class ostrstream [depr.ostrstream] namespace std { class ostrstream : public basic_ostream<char> { public: ostrstream(); ostrstream(char* s, int n, ios_base::openmode mode = ios_base::out); virtual ~ostrstream(); strstreambuf* rdbuf() const; void freeze(bool freezefl = true); char* str(); int pcount() const; private: // strstreambuf sb; exposition only }; } 1 The class ostrstream supports the writing of objects of class strstreambuf. It supplies a strstreambuf object to control the asso- ciated array object. For the sake of exposition, the maintained data is presented here as: --sb, the strstreambuf object. 1.7.3.1 ostrstream constructors [depr.ostrstream.cons] ostrstream(); Effects: Constructs an object of class ostrstream, initializing the base class with ostream(&sb) and initializing sb with strstreambuf()). ostrstream(char* s, int n, ios_base::openmode mode = ios_base::out); Effects: Constructs an object of class ostrstream, initializing the base class with ostream(&sb), and initializing sb with one of two con- structors: --If mode & app == 0, then s shall designate the first element of an array of n elements. The constructor is strstreambuf(s, n, s). --If mode & app != 0, then s shall designate the first element of an array of n elements that contains an NTBS whose first element is designated by s. The constructor is strstreambuf(s, n, s + std::strlen(s)).3) 1.7.3.2 Member functions [depr.ostrstream.members] strstreambuf* rdbuf() const; Returns: (strstreambuf*)&sb. void freeze(bool freezefl = true); Effects: Calls rdbuf()->freeze(freezefl). char* str(); Returns: rdbuf()->str(). int pcount() const; Returns: rdbuf()->pcount(). 1.7.4 Class strstream [depr.strstream] _________________________ 3) The function signature strlen(const char*) is declared in <cstring> (_lib.c.strings_). namespace std { class strstream : public basic_iostream<char> { public: // Types typedef char char_type; typedef typename char_traits<char>::int_type int_type typedef typename char_traits<char>::pos_type pos_type; typedef typename char_traits<char>::off_type off_type; // consturctors/destructor strstream(); strstream(char* s, int n, ios_base::openmode mode = ios_base::in|ios_base::out); virtual ~strstream(); // Members: strstreambuf* rdbuf() const; void freeze(bool freezefl = true); int pcount() const; char* str(); private: // strstreambuf sb; exposition only }; } 1 The class strstream supports reading and writing from objects of classs strstreambuf. It supplies a strstreambuf object to control the associated array object. For the sake of exposition, the maintained data is presented here as --sb, the strstreambuf object. 1.7.4.1 strstream constructors [depr.strstream.cons] strstream(); Effects: Constructs an object of class strstream, initializing the base class with iostream(&sb). strstream(char* s, int n, ios_base::openmode mode = ios_base::in|ios_base::out); Effects: Constructs an object of class strstream, initializing the base class with iostream(&sb) and initializing sb with one of the two construc- tors: --If mode&app==0, then s shall designate the first element of an array of n elements. The constructor is strstreambuf(s,n,s). --If mode&app==0, then s shall designate the first element of an array of n elements that contains an NTBS whose first element is desig- nated by s. The constructor is strstreambuf(s,n,s+std::strlen(s)). 1.7.4.2 strstream destructor [depr.strstream.dest] virtual ~strstream() Effects: Destroys an object of class strstream. strstreambuf* rdbuf() const; Returns: &sb. 1.7.4.3 strstream operations [depr.strstream.oper] void freeze(bool freezefl = true); Effects: Calls rdbuf()->freeze(freezefl). char* str(); Returns: rdbuf()->str(). int pcount() const; Returns: rdbuf()->pcount().