How to reuse an ostringstream? - c++

I'd like to clear out and reuse an ostringstream (and the underlying buffer) so that my app doesn't have to do as many allocations. How do I reset the object to its initial state?


I've used a sequence of clear and str in the past:
// clear, because eof or other bits may be still set.
s.clear();
s.str("");
Which has done the thing for both input and output stringstreams. Alternatively, you can manually clear, then seek the appropriate sequence to the begin:
s.clear();
s.seekp(0); // for outputs: seek put ptr to start
s.seekg(0); // for inputs: seek get ptr to start
That will prevent some reallocations done by str by overwriting whatever is in the output buffer currently instead. Results are like this:
std::ostringstream s;
s << "hello";
s.seekp(0);
s << "b";
assert(s.str() == "bello");
If you want to use the string for c-functions, you can use std::ends, putting a terminating null like this:
std::ostringstream s;
s << "hello";
s.seekp(0);
s << "b" << std::ends;
assert(s.str().size() == 5 && std::strlen(s.str().data()) == 1);
std::ends is a relict of the deprecated std::strstream, which was able to write directly to a char array you allocated on the stack. You had to insert a terminating null manually. However, std::ends is not deprecated, i think because it's still useful as in the above cases.


Seems to be that the ostr.str("") call does the trick.


If you're going to clear the buffer in a way that will cause it to be cleared before it's first use, you'll need to add something to the buffer first w/ MSVC.
struct Foo {
std::ostringstream d_str;
Foo() {
d_str << std::ends; // Add this
}
void StrFunc(const char *);
template<class T>
inline void StrIt(const T &value) {
d_str.clear();
d_str.seekp(0); // Or else you'll get an error with this seek
d_str << value << std::ends;
StrFunc(d_str.str().c_str()); // And your string will be empty
}
};


You don't. Use two differently named streams for clarity and let the optimizing compiler figure out that it can reuse the old one.

Related

Passing a .war file using a http POST request not working [duplicate]

If I want to construct a std::string with a line like:
std::string my_string("a\0b");
Where i want to have three characters in the resulting string (a, null, b), I only get one. What is the proper syntax?

Since C++14
we have been able to create literal std::string
#include <iostream>
#include <string>
int main()
{
using namespace std::string_literals;
std::string s = "pl-\0-op"s; // <- Notice the "s" at the end
// This is a std::string literal not
// a C-String literal.
std::cout << s << "\n";
}
Before C++14
The problem is the std::string constructor that takes a const char* assumes the input is a C-string. C-strings are \0 terminated and thus parsing stops when it reaches the \0 character.
To compensate for this, you need to use the constructor that builds the string from a char array (not a C-String). This takes two parameters - a pointer to the array and a length:
std::string x("pq\0rs"); // Two characters because input assumed to be C-String
std::string x("pq\0rs",5); // 5 Characters as the input is now a char array with 5 characters.
Note: C++ std::string is NOT \0-terminated (as suggested in other posts). However, you can extract a pointer to an internal buffer that contains a C-String with the method c_str().
Also check out Doug T's answer below about using a vector<char>.
Also check out RiaD for a C++14 solution.

If you are doing manipulation like you would with a c-style string (array of chars) consider using
std::vector<char>
You have more freedom to treat it like an array in the same manner you would treat a c-string. You can use copy() to copy into a string:
std::vector<char> vec(100)
strncpy(&vec[0], "blah blah blah", 100);
std::string vecAsStr( vec.begin(), vec.end());
and you can use it in many of the same places you can use c-strings
printf("%s" &vec[0])
vec[10] = '\0';
vec[11] = 'b';
Naturally, however, you suffer from the same problems as c-strings. You may forget your null terminal or write past the allocated space.

I have no idea why you'd want to do such a thing, but try this:
std::string my_string("a\0b", 3);

What new capabilities do user-defined literals add to C++? presents an elegant answer: Define
std::string operator "" _s(const char* str, size_t n)
{
return std::string(str, n);
}
then you can create your string this way:
std::string my_string("a\0b"_s);
or even so:
auto my_string = "a\0b"_s;
There's an "old style" way:
#define S(s) s, sizeof s - 1 // trailing NUL does not belong to the string
then you can define
std::string my_string(S("a\0b"));

The following will work...
std::string s;
s.push_back('a');
s.push_back('\0');
s.push_back('b');

You'll have to be careful with this. If you replace 'b' with any numeric character, you will silently create the wrong string using most methods. See: Rules for C++ string literals escape character.
For example, I dropped this innocent looking snippet in the middle of a program
// Create '\0' followed by '0' 40 times ;)
std::string str("\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00", 80);
std::cerr << "Entering loop.\n";
for (char & c : str) {
std::cerr << c;
// 'Q' is way cooler than '\0' or '0'
c = 'Q';
}
std::cerr << "\n";
for (char & c : str) {
std::cerr << c;
}
std::cerr << "\n";
Here is what this program output for me:
Entering loop.
Entering loop.
vector::_M_emplace_ba
QQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQ
That was my first print statement twice, several non-printing characters, followed by a newline, followed by something in internal memory, which I just overwrote (and then printed, showing that it has been overwritten). Worst of all, even compiling this with thorough and verbose gcc warnings gave me no indication of something being wrong, and running the program through valgrind didn't complain about any improper memory access patterns. In other words, it's completely undetectable by modern tools.
You can get this same problem with the much simpler std::string("0", 100);, but the example above is a little trickier, and thus harder to see what's wrong.
Fortunately, C++11 gives us a good solution to the problem using initializer list syntax. This saves you from having to specify the number of characters (which, as I showed above, you can do incorrectly), and avoids combining escaped numbers. std::string str({'a', '\0', 'b'}) is safe for any string content, unlike versions that take an array of char and a size.

In C++14 you now may use literals
using namespace std::literals::string_literals;
std::string s = "a\0b"s;
std::cout << s.size(); // 3

Better to use std::vector<char> if this question isn't just for educational purposes.

anonym's answer is excellent, but there's a non-macro solution in C++98 as well:
template <size_t N>
std::string RawString(const char (&ch)[N])
{
return std::string(ch, N-1); // Again, exclude trailing `null`
}
With this function, RawString(/* literal */) will produce the same string as S(/* literal */):
std::string my_string_t(RawString("a\0b"));
std::string my_string_m(S("a\0b"));
std::cout << "Using template: " << my_string_t << std::endl;
std::cout << "Using macro: " << my_string_m << std::endl;
Additionally, there's an issue with the macro: the expression is not actually a std::string as written, and therefore can't be used e.g. for simple assignment-initialization:
std::string s = S("a\0b"); // ERROR!
...so it might be preferable to use:
#define std::string(s, sizeof s - 1)
Obviously you should only use one or the other solution in your project and call it whatever you think is appropriate.

I know it is a long time this question has been asked. But for anyone who is having a similar problem might be interested in the following code.
CComBSTR(20,"mystring1\0mystring2\0")

Almost all implementations of std::strings are null-terminated, so you probably shouldn't do this. Note that "a\0b" is actually four characters long because of the automatic null terminator (a, null, b, null). If you really want to do this and break std::string's contract, you can do:
std::string s("aab");
s.at(1) = '\0';
but if you do, all your friends will laugh at you, you will never find true happiness.

Creating binary (custom length) string in C++ [duplicate]

If I want to construct a std::string with a line like:
std::string my_string("a\0b");
Where i want to have three characters in the resulting string (a, null, b), I only get one. What is the proper syntax?

Since C++14
we have been able to create literal std::string
#include <iostream>
#include <string>
int main()
{
using namespace std::string_literals;
std::string s = "pl-\0-op"s; // <- Notice the "s" at the end
// This is a std::string literal not
// a C-String literal.
std::cout << s << "\n";
}
Before C++14
The problem is the std::string constructor that takes a const char* assumes the input is a C-string. C-strings are \0 terminated and thus parsing stops when it reaches the \0 character.
To compensate for this, you need to use the constructor that builds the string from a char array (not a C-String). This takes two parameters - a pointer to the array and a length:
std::string x("pq\0rs"); // Two characters because input assumed to be C-String
std::string x("pq\0rs",5); // 5 Characters as the input is now a char array with 5 characters.
Note: C++ std::string is NOT \0-terminated (as suggested in other posts). However, you can extract a pointer to an internal buffer that contains a C-String with the method c_str().
Also check out Doug T's answer below about using a vector<char>.
Also check out RiaD for a C++14 solution.

If you are doing manipulation like you would with a c-style string (array of chars) consider using
std::vector<char>
You have more freedom to treat it like an array in the same manner you would treat a c-string. You can use copy() to copy into a string:
std::vector<char> vec(100)
strncpy(&vec[0], "blah blah blah", 100);
std::string vecAsStr( vec.begin(), vec.end());
and you can use it in many of the same places you can use c-strings
printf("%s" &vec[0])
vec[10] = '\0';
vec[11] = 'b';
Naturally, however, you suffer from the same problems as c-strings. You may forget your null terminal or write past the allocated space.

I have no idea why you'd want to do such a thing, but try this:
std::string my_string("a\0b", 3);

What new capabilities do user-defined literals add to C++? presents an elegant answer: Define
std::string operator "" _s(const char* str, size_t n)
{
return std::string(str, n);
}
then you can create your string this way:
std::string my_string("a\0b"_s);
or even so:
auto my_string = "a\0b"_s;
There's an "old style" way:
#define S(s) s, sizeof s - 1 // trailing NUL does not belong to the string
then you can define
std::string my_string(S("a\0b"));

The following will work...
std::string s;
s.push_back('a');
s.push_back('\0');
s.push_back('b');

You'll have to be careful with this. If you replace 'b' with any numeric character, you will silently create the wrong string using most methods. See: Rules for C++ string literals escape character.
For example, I dropped this innocent looking snippet in the middle of a program
// Create '\0' followed by '0' 40 times ;)
std::string str("\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00", 80);
std::cerr << "Entering loop.\n";
for (char & c : str) {
std::cerr << c;
// 'Q' is way cooler than '\0' or '0'
c = 'Q';
}
std::cerr << "\n";
for (char & c : str) {
std::cerr << c;
}
std::cerr << "\n";
Here is what this program output for me:
Entering loop.
Entering loop.
vector::_M_emplace_ba
QQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQ
That was my first print statement twice, several non-printing characters, followed by a newline, followed by something in internal memory, which I just overwrote (and then printed, showing that it has been overwritten). Worst of all, even compiling this with thorough and verbose gcc warnings gave me no indication of something being wrong, and running the program through valgrind didn't complain about any improper memory access patterns. In other words, it's completely undetectable by modern tools.
You can get this same problem with the much simpler std::string("0", 100);, but the example above is a little trickier, and thus harder to see what's wrong.
Fortunately, C++11 gives us a good solution to the problem using initializer list syntax. This saves you from having to specify the number of characters (which, as I showed above, you can do incorrectly), and avoids combining escaped numbers. std::string str({'a', '\0', 'b'}) is safe for any string content, unlike versions that take an array of char and a size.

In C++14 you now may use literals
using namespace std::literals::string_literals;
std::string s = "a\0b"s;
std::cout << s.size(); // 3

Better to use std::vector<char> if this question isn't just for educational purposes.

anonym's answer is excellent, but there's a non-macro solution in C++98 as well:
template <size_t N>
std::string RawString(const char (&ch)[N])
{
return std::string(ch, N-1); // Again, exclude trailing `null`
}
With this function, RawString(/* literal */) will produce the same string as S(/* literal */):
std::string my_string_t(RawString("a\0b"));
std::string my_string_m(S("a\0b"));
std::cout << "Using template: " << my_string_t << std::endl;
std::cout << "Using macro: " << my_string_m << std::endl;
Additionally, there's an issue with the macro: the expression is not actually a std::string as written, and therefore can't be used e.g. for simple assignment-initialization:
std::string s = S("a\0b"); // ERROR!
...so it might be preferable to use:
#define std::string(s, sizeof s - 1)
Obviously you should only use one or the other solution in your project and call it whatever you think is appropriate.

I know it is a long time this question has been asked. But for anyone who is having a similar problem might be interested in the following code.
CComBSTR(20,"mystring1\0mystring2\0")

Almost all implementations of std::strings are null-terminated, so you probably shouldn't do this. Note that "a\0b" is actually four characters long because of the automatic null terminator (a, null, b, null). If you really want to do this and break std::string's contract, you can do:
std::string s("aab");
s.at(1) = '\0';
but if you do, all your friends will laugh at you, you will never find true happiness.

How do I use std::ends to overwrite the string in an std::ostringstream?

I want to overwrite the string in an std::ostringstream but std::ends isn't working. Is this a problem with VS2012, or am I doing something wrong? Here is example code:
std::ostringstream foo;
foo << "1,2,3,4,5,6";
std::cout << foo.str(); // prints: 1,2,3,4,5,6
foo.clear();
foo.seekp( std::ios_base::beg );
foo << "A,B,C" << std::ends;
std::cout << foo.str(); // prints: A,B,C,4,5,6 NOT just: A,B,C
EDIT:
I'm getting a lot of answers that I can use foo.str( std::string() ) to clear the string... I know that. This question is a spin off from here: How to reuse an ostringstream?
I'm trying not to reallocate the buffer.

actually it prints
note the [NUL] which corresponds to the std::ends and did overwrote the comma after the 3
the ostringstream::str() function returns a container which tracks its length and ignores any possible line ending charakter.
so to get a format which respects the string ending character you can e.g. use the char * (or wchar_t* if compiling with unicode support) representation obtained via std::string::c_str() like this foo.str().c_str();

Why are you using std::ends? It is something left over from the days of std::ostrstream, where it ensured that the generated char[] was null terminated. You would not normally want to use it on an std::ostringstream.
In the code you present, it looks to me like what you really want is two separate std::ostringstream (although it is possible to clear the data, by calling foo.str( "" );).

If you just want to overwrite the string content, simply use the str(new_string) method like so:
std::ostringstream foo;
foo << "1,2,3,4,5,6";
std::cout << foo.str(); // prints: 1,2,3,4,5,6
// clear just reset error state flags
foo.clear();
// Replace the content of the stream
foo.str("A,B,C");
std::cout << foo.str(); // Should print: A,B,C
or:
// clear just reset error state flags
foo.clear();
// Clear content of the stream
foo.str("");
foo << "A,B,C";

In 3rd statement foo.clear() does not delete the data in foo.
In 4th statement you used the file position to point begining .
so next statement takes values from begining so the values 1,2,3 are overwritten by A,B,C
instead of foo.clear() use foo.str("");

Optimal way to get a string or char* into an istream?

What is the most optimal way to get a string or char* pointer into an istream.
I want to do the following
std::string a = "abc..";
//I know this can be done, not sure if this is most efficient
// and not sure about char* pointers
std::istringstream istr (a);
...
foo (istr);
void foo(std::istream& is) {
}

If you want to construct an istringstream from it, a char* up to the null character, or all the stuff from an std::string:
istringstream str(ptr); // char*
istringstream str(other_str); // std::string
If you talk about wanting a raw pointer into the buffer of an istream, you can't do it. Streams get their data on-demand if they need them either from files, terminals or else, optionally buffering their stuff (well, not exactly right. You can use a strstream, which accepts a raw pointer and reads/writes directly from that. But it's a deprecated class - don't use it. I'm lucky i've never done so). If all you want is something you can use somewhat like a pointer, you can use streambuf iterators. They are not really pointers though, so you can't subtract end from begin and other stuffs:
std::istreambuf_iterator<char> begin(one_istream), end;
while(begin != end)
std::cout << *begin++;
If you talk about getting a string out of what was written into a stringstream, you can use ostringstream::str:
ostringstream o;
o << "This is a number: " << 42;
std::string str = o.str(); // str == "This is a number: 42"
Otherwise, you can only generally read stuff from an istream. You need an ostream, then you can do
stream.write(ptr, N);
stream.write(ptr.c_str(), ptr.c_str() + ptr.size());
to write exactly N characters from the bytes that str points to. You can write it into the stream using << too. It will write everything up to the null character, or everything from an std::string, but will respect formatting flags, like the field width:
stream << ptr; // char*
stream << other_str; // everything from std::string

This will work:
std::istringstream is("abc...");
And since istringstream is a istream, you will be able to use your is object as an istream.

How do you construct a std::string with an embedded null?

If I want to construct a std::string with a line like:
std::string my_string("a\0b");
Where i want to have three characters in the resulting string (a, null, b), I only get one. What is the proper syntax?

Since C++14
we have been able to create literal std::string
#include <iostream>
#include <string>
int main()
{
using namespace std::string_literals;
std::string s = "pl-\0-op"s; // <- Notice the "s" at the end
// This is a std::string literal not
// a C-String literal.
std::cout << s << "\n";
}
Before C++14
The problem is the std::string constructor that takes a const char* assumes the input is a C-string. C-strings are \0 terminated and thus parsing stops when it reaches the \0 character.
To compensate for this, you need to use the constructor that builds the string from a char array (not a C-String). This takes two parameters - a pointer to the array and a length:
std::string x("pq\0rs"); // Two characters because input assumed to be C-String
std::string x("pq\0rs",5); // 5 Characters as the input is now a char array with 5 characters.
Note: C++ std::string is NOT \0-terminated (as suggested in other posts). However, you can extract a pointer to an internal buffer that contains a C-String with the method c_str().
Also check out Doug T's answer below about using a vector<char>.
Also check out RiaD for a C++14 solution.

If you are doing manipulation like you would with a c-style string (array of chars) consider using
std::vector<char>
You have more freedom to treat it like an array in the same manner you would treat a c-string. You can use copy() to copy into a string:
std::vector<char> vec(100)
strncpy(&vec[0], "blah blah blah", 100);
std::string vecAsStr( vec.begin(), vec.end());
and you can use it in many of the same places you can use c-strings
printf("%s" &vec[0])
vec[10] = '\0';
vec[11] = 'b';
Naturally, however, you suffer from the same problems as c-strings. You may forget your null terminal or write past the allocated space.

I have no idea why you'd want to do such a thing, but try this:
std::string my_string("a\0b", 3);

What new capabilities do user-defined literals add to C++? presents an elegant answer: Define
std::string operator "" _s(const char* str, size_t n)
{
return std::string(str, n);
}
then you can create your string this way:
std::string my_string("a\0b"_s);
or even so:
auto my_string = "a\0b"_s;
There's an "old style" way:
#define S(s) s, sizeof s - 1 // trailing NUL does not belong to the string
then you can define
std::string my_string(S("a\0b"));

The following will work...
std::string s;
s.push_back('a');
s.push_back('\0');
s.push_back('b');

You'll have to be careful with this. If you replace 'b' with any numeric character, you will silently create the wrong string using most methods. See: Rules for C++ string literals escape character.
For example, I dropped this innocent looking snippet in the middle of a program
// Create '\0' followed by '0' 40 times ;)
std::string str("\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00\00", 80);
std::cerr << "Entering loop.\n";
for (char & c : str) {
std::cerr << c;
// 'Q' is way cooler than '\0' or '0'
c = 'Q';
}
std::cerr << "\n";
for (char & c : str) {
std::cerr << c;
}
std::cerr << "\n";
Here is what this program output for me:
Entering loop.
Entering loop.
vector::_M_emplace_ba
QQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQ
That was my first print statement twice, several non-printing characters, followed by a newline, followed by something in internal memory, which I just overwrote (and then printed, showing that it has been overwritten). Worst of all, even compiling this with thorough and verbose gcc warnings gave me no indication of something being wrong, and running the program through valgrind didn't complain about any improper memory access patterns. In other words, it's completely undetectable by modern tools.
You can get this same problem with the much simpler std::string("0", 100);, but the example above is a little trickier, and thus harder to see what's wrong.
Fortunately, C++11 gives us a good solution to the problem using initializer list syntax. This saves you from having to specify the number of characters (which, as I showed above, you can do incorrectly), and avoids combining escaped numbers. std::string str({'a', '\0', 'b'}) is safe for any string content, unlike versions that take an array of char and a size.

In C++14 you now may use literals
using namespace std::literals::string_literals;
std::string s = "a\0b"s;
std::cout << s.size(); // 3

Better to use std::vector<char> if this question isn't just for educational purposes.

anonym's answer is excellent, but there's a non-macro solution in C++98 as well:
template <size_t N>
std::string RawString(const char (&ch)[N])
{
return std::string(ch, N-1); // Again, exclude trailing `null`
}
With this function, RawString(/* literal */) will produce the same string as S(/* literal */):
std::string my_string_t(RawString("a\0b"));
std::string my_string_m(S("a\0b"));
std::cout << "Using template: " << my_string_t << std::endl;
std::cout << "Using macro: " << my_string_m << std::endl;
Additionally, there's an issue with the macro: the expression is not actually a std::string as written, and therefore can't be used e.g. for simple assignment-initialization:
std::string s = S("a\0b"); // ERROR!
...so it might be preferable to use:
#define std::string(s, sizeof s - 1)
Obviously you should only use one or the other solution in your project and call it whatever you think is appropriate.

I know it is a long time this question has been asked. But for anyone who is having a similar problem might be interested in the following code.
CComBSTR(20,"mystring1\0mystring2\0")

Almost all implementations of std::strings are null-terminated, so you probably shouldn't do this. Note that "a\0b" is actually four characters long because of the automatic null terminator (a, null, b, null). If you really want to do this and break std::string's contract, you can do:
std::string s("aab");
s.at(1) = '\0';
but if you do, all your friends will laugh at you, you will never find true happiness.