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version 1.39.2.1, 2001/08/01 11:17:36

version 1.89.2.4, 2005/09/29 02:22:39

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//%/////////////////////////////////////////////////////////////////////////////

//%2005////////////////////////////////////////////////////////////////////////

// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.

// IBM Corp.; EMC Corporation, The Open Group.

// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; VERITAS Software Corporation; The Open Group.

// Permission is hereby granted, free of charge, to any person obtaining a copy

// of this software and associated documentation files (the "Software"), to

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//==============================================================================

// Author: Mike Brasher (mbrasher@bmc.com)

// Modified By:

//%/////////////////////////////////////////////////////////////////////////////

#ifndef Pegasus_String_h

#define Pegasus_String_h

#ifdef PEGASUS_OS_HPUX

# ifdef HPUX_IA64_NATIVE_COMPILER

#include <iostream>

#include <fstream>

# else

#include <cstring>

# include <iostream.h>

# endif

#else

# include <iostream>

#endif

#include <Pegasus/Common/Config.h>

#include <Pegasus/Common/Char16.h>

#include <Pegasus/Common/Array.h>

#include <Pegasus/Common/Linkage.h>

// Locale constants

// These constants need to be defined as follows:

// lower case language; underscore; Uppercase Country

const char ENGLISH_US[] = "en_US";

PEGASUS_NAMESPACE_BEGIN

class String;

struct StringRep;

/** The CString class provides access to an 8-bit String representation.

class PEGASUS_COMMON_LINKAGE CString

{

public:

/** Constructs a CString object with null values (default constructor).

CString();

/** REVIEWERS: Describe method here.

@param cstr Specifies the name of the CString instance to copy.

CString(const CString& cstr);

/** CString destructor.

~CString();

/** Assigns the values of one CString instance to another.

@param cstr Specifies the name of the CString instance whose values

are assigned to CString.

CString& operator=(const CString& cstr);

/** Gets a pointer to the CString's data.

@return Returns a const char pointer to the CString's data.

operator const char*() const;

private:

CString(char* cstr);

friend class String;

char* _rep;

};

/**

The Pegasus String C++ Class implements the CIM string type.

This class is based on the general handle/representation pattern

REVIEWERS: We need more definition here.

defined for all the Pegasus objects. However, it differes from

most in that it implements "copy on assign" all of the others implement

"no copy on assign" semantics. The string class uses the Array class and

implements an array of characters.

class PEGASUS_COMMON_LINKAGE String

{

public:

/** This member is used to represent an empty string. Using this

member avoids construction of an empty string (for example, String()).

static const String EMPTY;

/** Default constructor without parameters. This constructor creates a

null string

null string. For example,

<pre>

String test;

</pre>

@exception bad_alloc Thrown if there is insufficient memory.

String();

/// Copy constructor.

/** Copy constructor.

String(const String& x);

@param str Specifies the name of the String instance.

@exception bad_alloc Thrown if there is insufficient memory.

String(const String& str);

/// Initialize with first n characters from x.

/** Initialize with first <TT>n</TT> characters from <TT>str</TT>.

String(const String& x, Uint32 n);

@param str Specifies the name of the String instance.

@param n Specifies the Uint32 size to use for the length of the string object.

@exception bad_alloc Thrown if there is insufficient memory.

String(const String& str, Uint32 n);

/// Initialize with x.

/** Initialize with str.

String(const Char16* x);

@param str Specifies the name of the String instance.

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String(const Char16* str);

/// Initialize with first n characters of x.

/** Initialize with first n characters of str.

String(const Char16* x, Uint32 n);

@param str Specifies the name of the String instance.

@param n Specifies the Uint32 size.

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String(const Char16* str, Uint32 n);

/// Initialize from a plain old C-String:

/** Initialize from a plain C-String:

String(const char* x);

@param str Specifies the name of the String instance.

API supports UTF8

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String(const char* str);

/// Initialize from the first n characters of a plain old C-String:

/** Initialize from the first <TT>n</TT> characters of a plain C-String:

String(const char* x, Uint32 n);

@param str Specifies the name of the String instance.

@param u Specifies the Uint32 size.

API supports UTF8

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String(const char* str, Uint32 n);

/// String destructor. Used by the representation of the String object

/** String destructor.

~String();

/** Assign this string with x.

/** Assign this string with str. For example,

<pre>

String t1 = "abc";

String t2 = t1;

</pre>

String t2 is assigned the value of t1.

@param str Specifies the name of the String to assign to another

String instance.

@exception bad_alloc Thrown if there is insufficient memory.

String& operator=(const String& x) { return assign(x); }

String& operator=(const String& str);

/// Assign this string with Char16 x.

/** Assign this string with String str.

String& operator=(const Char16* x) { assign(x); return *this; }

@param str String to assign.

@return Returns the String.

/** Assign this string with String x

API supports UTF8

@param x String to assign

@exception bad_alloc Thrown if there is insufficient memory.

@return Returns the String

String& assign(const String& x);

String& assign(const String& str);

/// Assign this string with x.

/** Assign this string with str.

String& assign(const Char16* x);

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String& assign(const Char16* str);

/// Assign this string with first n characters of x.

/** Assign this string with first n characters of str.

String& assign(const Char16* x, Uint32 n);

@param n REVIEWERS: Insert text here.

@param str REVIEWERS: Insert text here.

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String& assign(const Char16* str, Uint32 n);

/// Assign this string with the plain old C-String x.

/** Assign this string with the plain C-String str.

String& assign(const char* x);

@param str REVIEWERS: Insert text here.

API supports UTF8

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String& assign(const char* str);

/// Assign this string with first n characters of the plain old C-String x.

/** Assign this string with first n characters of the plain C-String str.

String& assign(const char* x, Uint32 n);

@param str REVIEWERS: Insert text here.

@param n REVIEWERS: Insert text here.

API supports UTF8

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String& assign(const char* str, Uint32 n);

/** clear - Clear this string. After calling clear(), size() will return 0.

/** Clear this string. After calling clear(), size() will return 0.

<pre>

String test = "abc";

test.clear(); // String test is now NULL (length == 0)

test.clear();

</pre>

void clear();

/** Reserves memory for capacity characters. Notice

/** reserve - Reserves memory for capacity characters. Notice that this does

that this does not change the size of the string (size() returns

not

what it did before). If the capacity of the string is already

change the size of the string (size() returns what it did before).

greater or equal to the capacity argument, this method has no

If the capacity of the string is already greater or equal to the

effect. The capacity of a String object has no bearing on its

capacity argument, this method has no effect. After calling reserve(),

external behavior. The capacity of a String is set only for

getCapicty() returns a value which is greater or equal to the

performance reasons.

capacity argument.

@param capacity Defines the capacity in characters to reserve.

@param capacity defines the capacity in characters to reserve.

void reserve(Uint32 capacity);

void reserveCapacity(Uint32 capacity);

/** Returns the length of the String object.

@return Length of the string in characters.

@return Length of the String in characters. For example,

<pre>

String s = "abcd";

assert(s.size() == 4);

</pre>

returns a value of 4 for the length.

Uint32 size() const { return _rep.size() - 1; }

Uint32 size() const;

/** getData Returns a pointer to the first character in the

/** Returns a pointer to the first character in the

null-terminated string string of the String object.

null-terminated Char16 buffer of the String object.

@return Pointer to the first character of the String object

@return Pointer to the first character of the String object. For example,

<pre>

String t1 = "abc";

String test = "abc";

const Char16* q = t1.getData();

const Char16* q = test.getChar16Data();

</pre>

points to the first character in the String instance named test.

const Char16* getData() const { return _rep.getData(); }

const Char16* getChar16Data() const;

/** AallocateCString - llocates an 8 bit representation of this String

object. The user is responsible for freeing the result. If any

characters are truncated, a TruncatedCharacter exception is thrown.

This exception may be suppressed by passing true as the noThrow

argument. Extra characters may be allocated at the end of the

new string by passing a non-zero value to the extraBytes argument.

@param extraBytes Defines the number of extra characters to be

allocated at the end of the new string. Default is zero.

@param noThrow If true, no exception will be thrown if characters

/** Create an 8-bit representation of this String object. For example,

are truncated

@return pointer to the new representation of the string

@return CString object that provides access to the UTF8 String

representation.

@exception Throws TruncatedCharacter exception if any characters are

truncated

<pre>

String test = "abc";

char* p = test.allocateCString();

printf("test = %s\n", (const char*)test.getCString());

...

delete [] p;

</pre>

char* allocateCString(Uint32 extraBytes = 0, Boolean noThrow = false) const;

/** appendToCString - Append the given String object to a C-string. If the

NOTE: Do not do the following:

length is not PEG_NOT_FOUND, then the lesser of the the length argument

const char * p = (const char *)test.getCString();

and he length of this string is truncated. Otherwise, the entire string

The pointer p will be invalid. This is because

is trunctated. The TruncatedCharacter exception is thrown if any

the CString object is destructed, which deletes

characters are truncated.

the heap space for p.

@param str Char pointer to the string to append

@param length Length to append or PEG_NOT_FOUND (Uint32(-1)

@param noThrow - If false, throw the "TruncatedCharacter" exception of

any characters are truncated

@return void

@exception Throws TruncatedCharacter exception of characters are

truncated and noThrow parameter is false.

<pre>

const char STR0[] = "one two three four";

String s = STR0;

const char STR1[] = "zero ";

char* tmp = new char[strlen(STR1) + s.size() + 1];

strcpy(tmp, STR1);

s.appendToCString(tmp, 7);

assert(strcmp(tmp, "zero one two") == 0);

</pre>

@exception bad_alloc Thrown if there is insufficient memory.

void appendToCString(

CString getCString() const;

char* str,

Uint32 length = PEG_NOT_FOUND,

Boolean noThrow = false) const;

/** Returns the Ith character of the String object.

/** Returns the specified character of the String object.

@exception - Throws exception "OutofBounds" if the index

@param index Index of the character to access.

is outside the length of the string.

@return Specified character of the String object.

@exception IndexOutOfBoundsException If <TT>index</TT>

is outside the bounds of the String.

<pre>

String t1 = "abc;

String test = "abc;

Char16 c = t1[1]; // character b

Char16 c = test[1];

</pre>

Char16& operator[](Uint32 i);

Char16& operator[](Uint32 index);

/** Returns the Ith character of the String (const version).

@exception - Throws exception "OutofBounds" if the index

is outside the length of the string.

/** Returns the specified character of the String object (const version).

@param index Index of the character to access.

@return Specified character of the String object.

@exception IndexOutOfBoundsException If <TT>index</TT>

is outside the bounds of the String.

const Char16 operator[](Uint32 i) const;

const Char16 operator[](Uint32 index) const;

/** Append the given character to the string.

/** Append the given character to this String.

@param c Character to append.

@return This String.

<pre>

String s4 = "Hello";

String test = "abc";

s4.append(Char16(0x0000))

test.append(Char16('d'));

assert(test == "abcd");

</pre>

@exception bad_alloc Thrown if there is insufficient memory.

String& append(const Char16& c);

/// Append n characters from str to this String object.

/** Append n characters from str to this String.

@param str REVIEWERS: Insert text here.

@param n REVIEWERS: Insert text here.

@exception NullPointer Thrown if str is NULL.

@exception bad_alloc Thrown if there is insufficient memory.

String& append(const Char16* str, Uint32 n);

/// Append the characters of str to this String object.

/** Append the given String to this String.

String& append(const String& str)

@param str String to append.

{

@return This String.

return append(str.getData(), str.size());

}

/** Overload operator += appends the parameter String to this String.

@param String to append.

@return This String

<pre>

String test = "abc";

test += "def";

test.append("def");

assert(test == "abcdef");

</pre>

@exception bad_alloc Thrown if there is insufficient memory.

String& operator+=(const String& x)

String& append(const String& str);

{

return append(x);

}

/** Append the character given by c to this String object.

@param c Single character to be appended

@return String with appended character

String& operator+=(Char16 c)

{

return append(c);

}

/** Append the character given by c to this string.

<pre>

String t1 = "abc";

t1 += 'd'

assert(t1 == "abcd");

</pre>

String& operator+=(char c)

{

return append(Char16(c));

}

/** Remove size characters from the string starting at the given

position. If size is PEG_NOT_FOUND, then all characters after pos are

index. If size is PEG_NOT_FOUND, then all characters after

removed.

<TT>index</TT> are removed.

@param pos Position in string to start remove

@param index Position in string to start remove.

@param size Number of characters to remove. Default is PEG_NOT_FOUND

(Uint32(-1) which causes all characters after pos to be removed

which causes all characters after <TT>index</TT> to be removed.

<pre>

String s;

s = "abc";

Line 285

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assert(String::equal(s, ""));

assert(s.size() == 0);

</pre>

@exception throws "OutOfBounds" exception if size is greater than

@exception IndexOutOfBoundsException If size is greater than

length of String plus starting position for remove.

length of String plus starting index for remove.

void remove(Uint32 pos, Uint32 size = PEG_NOT_FOUND);

void remove(Uint32 index, Uint32 size = PEG_NOT_FOUND);

/** Return a new String which is initialzed with <TT>length</TT>

characters from this string starting at <TT>pos</TT>.

characters from this string starting at <TT>index</TT>.

@param <TT>pos</TT> is the positon in string to start getting the

@param index Specifies the index in string to start getting the

substring.

@param <TT>length</TT> is the number of characters to get. If length

@param length Specifies the number of characters to get. If length

is PEG_NOT_FOUND, then all characters after pos are added to the new

is PEG_NOT_FOUND, then all characters after index are added to the new

string.

@return String with the defined substring.

@return String Specifies the Sting with the defined substring.

<pre>

@exception bad_alloc Thrown if there is insufficient memory.

s = "abcdefg";

s.remove(3);

assert(String::equal(s, "abc"));

</pre>

String subString(Uint32 pos, Uint32 length = PEG_NOT_FOUND) const;

String subString(Uint32 index, Uint32 length = PEG_NOT_FOUND) const;

/** Find the position of the first occurence of the character c.

/** Find the index of the first occurrence of the character c.

If the character is not found, PEG_NOT_FOUND is returned.

@param c Char to be found in the String

@param c Char to be found in the String.

@return Position of the character in the string or PEG_NOT_FOUND if not

found.

Uint32 find(Char16 c) const;

/** Find the index of the first occurence of the character c.

If the character is not found, PEG_NOT_FOUND is returned.

Searching begins from the specified index.

@param c Char to be found in the String.

@return Position of the character in the string or PEG_NOT_FOUND if the

character is not found.

Uint32 find(Uint32 index, Char16 c) const;

/** Find the position of the first occurence of the string object.

/** Find the index of the first occurence of the string object.

This function finds one string inside another

This function finds one string inside another.

If the matching substring is not found, PEG_NOT_FOUND is returned.

@param s String object to be found in the String

@param s String object to be found in the String.

@return Position of the substring in the String or PEG_NOT_FOUND if not

@return Position of the substring in the String or PEG_NOT_FOUND if the

found.

substring is not found.

Uint32 find(const String& s) const;

/** Find substring

/** Same as find() but start looking in reverse (last character first).

@ param 16 bit character pointer

@seealso find

@return Position of the substring in the String or PEG_NOT_FOUND if not

found.

Uint32 find(const Char16* s) const;

/** find substring

@param s char* to substring

@return Position of the substring in the String or PEG_NOT_FOUND if not

found.

Uint32 find(const char* s) const;

/** reverseFind - Same as find() but start looking in reverse (last

character first).

@param c Char16 character to find in String.

@Seealso find

@return Position of the character in the string or PEG_NOT_FOUND if the

@return Position of the character in the string or PEG_NOT_FOUND if not

character is not found.

found.

NOTE: This function is defined only for char* input, not for

String.

Uint32 reverseFind(Char16 c) const;

/** Converts all characters in this string to lower case.

/** Converts all characters in this string to lowercase characters,

void toLower();

/** Translate any occurences of fromChar to toChar.

#ifdef PEGASUS_USE_EXPERIMENTAL_INTERFACES

/** Experimental Interface

Converts all characters in this string to uppercase characters.

void translate(Char16 fromChar, Char16 toChar);

void toUpper();

#endif

/** Method for printing a string.

/** Compare the first n characters of the two strings.

void print() const;

/** Compare the first n characters of the two strings..

@param s1 First null-terminated string for the comparison.

@param s2 Second null-terminated string for the comparison.

@param n Number of characters to compare.

@return Return -1 if s1 is lexographically less than s2. If they are

@return Return -1 If s1 is lexographically less than s2; if they are

equavalent return 0. Otherwise return 1.

equivalent return 0; otherwise return 1.

static int compare(const Char16* s1, const Char16* s2, Uint32 n);

static int compare(const String& s1, const String& s2, Uint32 n);

/** Compare two null-terminated strings.

@param s1 First null-terminated string for the comparison.

@param s2 Second null-terminated string for the comparison.

@return Return -1 if s1 is less than s2; if equal return 0;

otherwise return 1.

/** Just like one above except ignores case differences.

NOTE: Use the comparison operators <,<= > >= to compare

String objects.

static int compareNoCase(const char* s1, const char* s2, Uint32 n);

static int compare(const String& s1, const String& s2);

/** Compare two null-terminated strings.

/** Compare two null-terminated strings but ignore case.

@param s1 First null-terminated string for the comparison.

@param s2 Second null-terminated string for the comparison.

@return If s1 is less than s2, return -1; if equal return 0;

@return Return -1 if s1 is less than s2; if equal return 0;

otherwise, return 1.

otherwise return 1.

NOTE: Use the comparison operators <,<= > >= to compare

String objects.

static int compare(const Char16* s1, const Char16* s2);

static int compareNoCase(const String& s1, const String& s2);

/** Compare two String objects for equality.

@param s1 First <TT>String</TT> for comparison.

@param s2 Second <TT>String</TT> for comparison.

@return Boolean true if the two strings are equal.

@return true If the two strings are equal; otherwise, false. For example,

<pre>

String s1 = "Hello World";

String s2 = s1;

Line 399

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assert(String::equal(s1, s3));

</pre>

static Boolean equal(const String& x, const String& y);

static Boolean equal(const String& str1, const String& str2);

/// Return true if the two strings are equal.

/** Compares two strings and returns true if they

static Boolean equal(const String& x, const Char16* y);

are equal indepedent of case of the characters.

@param str1 First String parameter.

@param str2 Second String parameter.

@return true If strings are equal independent of case, flase

otherwise.

static Boolean equalNoCase(const String& str1, const String& str2);

/// Return true if the two strings are equal.

////

static Boolean equal(const Char16* x, const String& y);

//// {New interfaces start here:

////

/// Return true if the two strings are equal.

enum ASCII7Tag { ASCII7 };

static Boolean equal(const String& x, const char* y);

/// Return true if the two strings are equal.

String(const String& s1, const String& s2);

static Boolean equal(const char* x, const String& y);

static Boolean equalNoCase(const String& x, const String& y);

String(const String& s1, const char* s2);

/// Convert the plain old C-string to lower case:

String(const char* s1, const String& s2);

static void toLower(char* str);

/** EMPTY - Represent an empty string.

String(const char* str, ASCII7Tag tag);

This member is used to represent empty strings. Using this member

avoids an expensive construction of an empty string (e.g., String()).

String(const char* str, size_t n, ASCII7Tag tag);

static const String EMPTY;

String& operator=(const char* str);

String& assignASCII7(const char* str);

String& assignASCII7(const char* str, Uint32 n);

Uint32 find(const char* s) const;

Uint32 find(char c) const;

static Boolean equal(const String& s1, const char* s2);

static int compare(const String& s1, const char* s2);

String& append(char c);

String& append(const char* str);

String& append(const char* str, Uint32 size);

static Boolean equalNoCase(const String& s1, const char* s2);

private:

static Uint32 _min(Uint32 x, Uint32 y) { return x < y ? x : y; }

void _append_char_aux();

Array<Char16> _rep;

static Boolean equalNoCase_aux(const String& str1, const String& str2);

};

/** String operator ==. Test for equality between two strings of any of the

////

types String or char*.

//// }New interfaces end here:

@return Boolean - True if the strings are equal

////

private:

inline Boolean operator==(const String& x, const String& y)

{

return String::equal(x, y);

}

/** String operator ==. Test for equality between two strings

Uint32 _find_aux(const Char16* s, Uint32 n) const;

StringRep* _rep;

inline Boolean operator==(const String& x, const char* y)

};

{

return String::equal(x, y);

}

/** String operator ==. Test for equality between two strings

/** String operator == tests for equality between two strings of any of the

types String or char*.

@return true If the strings are equal; otherwise, false.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

PEGASUS_COMMON_LINKAGE Boolean operator==(

const String& str1,

const String& str2);

/** String operator ==. Test for equality between two strings.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

inline Boolean operator==(const char* x, const String& y)

PEGASUS_COMMON_LINKAGE Boolean operator==(const String& str1, const char* str2);

{

return String::equal(x, y);

}

/** String operator ==. Test for equality between two strings

/** String operator ==. Test for equality between two strings.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

PEGASUS_COMMON_LINKAGE Boolean operator==(const char* str1, const String& str2);

/** String operator ==. Test for equality between two strings.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

inline Boolean operator!=(const String& x, const String& y)

PEGASUS_COMMON_LINKAGE Boolean operator!=(

{

const String& str1,

return !String::equal(x, y);

const String& str2);

}

/** REVIEWERS: Insert description here.

@param str REVIEWERS: Insert description here.

@param os REVIEWERS: Insert description here.

PEGASUS_COMMON_LINKAGE PEGASUS_STD(ostream)& operator<<(

PEGASUS_STD(ostream)& os,

const String& x);

const String& str);

/** overload operator + - Concatenates String objects.

/** This overload operator (+) concatenates String objects. For example,

<pre>

String t1 = "abc";

String t2;

Line 478

Line 559

assert(t2 == "abcdef");

</pre>

inline String operator+(const String& x, const String& y)

PEGASUS_COMMON_LINKAGE String operator+(const String& str1, const String& str2);

{

return String(x).append(y);

}

/** overload operator < - Compares String obects.

/** The overload operator (<) compares String obects.

<pre>

String t1 = "def";

String t2 = "a";

assert (t2 < t1);

</pre>

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

inline Boolean operator<(const String& x, const String& y)

PEGASUS_COMMON_LINKAGE Boolean operator<(

{

const String& str1,

return String::compare(x.getData(), y.getData()) < 0;

const String& str2);

}

/** overload operator <= compares String objects.

/** The overload operator (<=) compares String objects.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

inline Boolean operator<=(const String& x, const String& y)

PEGASUS_COMMON_LINKAGE Boolean operator<=(

{

const String& str1,

return String::compare(x.getData(), y.getData()) <= 0;

const String& str2);

}

/** Overload operator > compares String objects

/** The overload operator (>) compares String objects.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

inline Boolean operator>(const String& x, const String& y)

PEGASUS_COMMON_LINKAGE Boolean operator>(

{

const String& str1,

return String::compare(x.getData(), y.getData()) > 0;

const String& str2);

}

/** overload operator >= - Compares String objects

/** The overload operator (>=) compares String objects.

@param str1 REVIEWERS: Insert description here.

@param str2 REVIEWERS: Insert description here.

inline Boolean operator>=(const String& x, const String& y)

PEGASUS_COMMON_LINKAGE Boolean operator>=(

{

const String& str1,

return String::compare(x.getData(), y.getData()) >= 0;

const String& str2);

}

/** Return a version of this string whose characters have been shifted

////

to lower case.

//// {New functions start here.

////

PEGASUS_COMMON_LINKAGE String ToLower(const String& str);

/** Compare two strings but ignore any case differences.

PEGASUS_COMMON_LINKAGE Boolean operator==(const String& s1, const String& s2);

PEGASUS_COMMON_LINKAGE int CompareNoCase(const char* s1, const char* s2);

/** Get the next line from the input file.

PEGASUS_COMMON_LINKAGE Boolean operator==(const String& s1, const char* s2);

PEGASUS_COMMON_LINKAGE Boolean GetLine(PEGASUS_STD(istream)& is, String& line);

/* This is an internal class to be used by the internal Pegasus

PEGASUS_COMMON_LINKAGE Boolean operator==(const char* s1, const String& s2);

components only. It provides an easy way to create an 8-bit string

representation on the fly without calling allocateCString() and

then worrying about deleting the string. The underscore before the

class name denotes that this class is internal, unsupported, undocumented,

and may be removed in future releases.

class _CString

{

public:

_CString(const String& x)

PEGASUS_COMMON_LINKAGE Boolean operator!=(const String& s1, const String& s2);

{

_rep = x.allocateCString();

}

_CString(const _CString& x)

PEGASUS_COMMON_LINKAGE Boolean operator!=(const String& s1, const char* s2);

{

_rep = strcpy(new char[strlen(x._rep) + 1], x._rep);

}

~_CString()

PEGASUS_COMMON_LINKAGE Boolean operator!=(const char* s1, const String& s2);

{

delete [] _rep;

}

_CString& operator=(const _CString& x)

PEGASUS_COMMON_LINKAGE Boolean operator<(const String& s1, const String& s2);

{

if (this != &x)

_rep = strcpy(new char[strlen(x._rep) + 1], x._rep);

return *this;

PEGASUS_COMMON_LINKAGE Boolean operator<(const String& s1, const char* s2);

}

operator const char*() const

PEGASUS_COMMON_LINKAGE Boolean operator<(const char* s1, const String& s2);

{

return _rep;

}

const char* data() const

PEGASUS_COMMON_LINKAGE Boolean operator>(const String& s1, const String& s2);

{

return _rep;

}

private:

char* _rep;

PEGASUS_COMMON_LINKAGE Boolean operator>(const String& s1, const char* s2);

};

inline Uint32 _Length(const String& s1) { return s1.size(); }

PEGASUS_COMMON_LINKAGE Boolean operator>(const char* s1, const String& s2);

inline Uint32 _Length(const char* s1) { return strlen(s1); }

PEGASUS_COMMON_LINKAGE Boolean operator<=(const String& s1, const String& s2);

inline Uint32 _Length(const char) { return 1; }

PEGASUS_COMMON_LINKAGE Boolean operator<=(const String& s1, const char* s2);

template<class S1, class S2>

PEGASUS_COMMON_LINKAGE Boolean operator<=(const char* s1, const String& s2);

inline String Cat(const S1& s1, const S2& s2)

{

String tmp;

tmp.reserve(_Length(s1) + _Length(s2));

tmp.append(s1);

tmp.append(s2);

return tmp;

}

template<class S1, class S2, class S3>

PEGASUS_COMMON_LINKAGE Boolean operator>=(const String& s1, const String& s2);

inline String Cat(const S1& s1, const S2& s2, const S3& s3)

{

String tmp;

tmp.reserve(_Length(s1) + _Length(s2) + _Length(s3));

tmp.append(s1);

tmp.append(s2);

tmp.append(s3);

return tmp;

}

template<class S1, class S2, class S3, class S4>

PEGASUS_COMMON_LINKAGE Boolean operator>=(const String& s1, const char* s2);

inline String Cat(const S1& s1, const S2& s2, const S3& s3, const S4& s4)

{

String tmp;

tmp.reserve(_Length(s1) + _Length(s2) + _Length(s3) + _Length(s4));

tmp.append(s1);

tmp.append(s2);

tmp.append(s3);

tmp.append(s4);

return tmp;

}

template<class S1, class S2, class S3, class S4, class S5>

inline String Cat(

const S1& s1,

const S2& s2,

const S3& s3,

const S4& s4,

const S5& s5)

{

String tmp;

tmp.reserve(_Length(s1) + _Length(s2) + _Length(s3) + _Length(s4) +

PEGASUS_COMMON_LINKAGE Boolean operator>=(const char* s1, const String& s2);

_Length(s5));

tmp.append(s1);

PEGASUS_COMMON_LINKAGE String operator+(const String& s1, const String& s2);

tmp.append(s2);

tmp.append(s3);

tmp.append(s4);

tmp.append(s5);

return tmp;

}

template<class S1, class S2, class S3, class S4, class S5, class S6>

inline String Cat(

const S1& s1,

const S2& s2,

const S3& s3,

const S4& s4,

const S5& s5,

const S6& s6)

{

String tmp;

tmp.reserve(_Length(s1) + _Length(s2) + _Length(s3) + _Length(s4) +

PEGASUS_COMMON_LINKAGE String operator+(const String& s1, const char* s2);

_Length(s5) + _Length(s6));

tmp.append(s1);

PEGASUS_COMMON_LINKAGE String operator+(const char* s1, const String& s2);

tmp.append(s2);

tmp.append(s3);

tmp.append(s4);

tmp.append(s5);

tmp.append(s6);

return tmp;

////

}

//// }New functions end here.

////

PEGASUS_COMMON_LINKAGE const Array<String>& EmptyStringArray();

PEGASUS_COMMON_LINKAGE Boolean Equal(const String& x, const String& y);

inline Boolean Open(PEGASUS_STD(ifstream)& is, const String& path)

{

char* tmpPath = path.allocateCString();

is.open(tmpPath);

delete [] tmpPath;

return !!is;

}

inline Boolean Open(PEGASUS_STD(ofstream)& os, const String& path)

{

char* tmpPath = path.allocateCString();

os.open(tmpPath);

delete [] tmpPath;

return !!os;

}

inline Boolean OpenAppend(PEGASUS_STD(ofstream)& os, const String& path)

{

char* tmpPath = path.allocateCString();

os.open(tmpPath, PEGASUS_STD(ios::app));

delete [] tmpPath;

return !!os;

}

#define PEGASUS_ARRAY_T String

#include <Pegasus/Common/ArrayInter.h>

#undef PEGASUS_ARRAY_T

PEGASUS_NAMESPACE_END

#ifdef PEGASUS_INTERNALONLY

# define PEGASUS_STRING_INLINE inline

# include "StringInline.h"

# undef PEGASUS_STRING_INLINE

#endif

#endif /* Pegasus_String_h */

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	Added in v.1.89.2.4

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