这是我让它工作的方式:
#include <armadillo>
#include <iostream>
#include <QByteArray>
#include <sstream>
// to print the content of a QByteArray
void print(const QByteArray &ba) {
QByteArray::const_iterator it=ba.begin();
uint i=0;
while (it!=ba.end()) {
std::cout<<ba.at(i);
i++;
it++;
}
}
int main(int, char **) {
arma::file_type arma_save_format=arma::arma_binary;
std::stringstream savemedium;
//init & save
{
std::stringstream ss1;
arma::mat m;
m<<1<<2<<3<<arma::endr<<4<<5<<6<<arma::endr<<7<<8<<9;
std::cout<<"#1 m:"<<m<<std::endl;
m.save(ss1, arma_save_format);
savemedium<<ss1.str();
}
/*************************/
std::cout<<"savemedium:"<<std::endl<<savemedium.str()<<std::endl<<std::endl;
// Here I'd like to convert savemedium to a base64 QString, probably using a qbyteArray,
// and convert it back to std::stringstream savemedium
// the following block commented, savemedium is left unmodified and I get the matrix back.
{
QByteArray ba1;
ba1.setRawData(savemedium.str().c_str(), savemedium.str().size());
print(ba1);
std::cout<<std::endl<<"ba1 count:"<<ba1.count()<<std::endl<<std::endl;
QByteArray b64(ba1.toBase64());
std::cout<<"b64:"<<std::endl;
print(b64);
std::cout<<std::endl<<std::endl;
QByteArray ba2(QByteArray::fromBase64(b64));
std::cout<<"ba2:"<<std::endl;
print(ba2);
std::cout<<std::endl<<"ba2 count:"<<ba2.count()<<std::endl<<std::endl;
std::cout<<"What we get if we just use QByteArray::data()"<<std::endl<<"ba2:"<<std::endl<<ba2.data()<<std::endl;
savemedium.str(""); //emptying savemedium so we fill it with decoded data
QByteArray & ba=ba2; //just a reference for typing comfort
QByteArray::const_iterator it=ba.begin();
uint i=0;
while (it!=ba.end()) {
savemedium<<ba.at(i);
i++;
it++;
}
}
std::cout<<"savemedium:"<<std::endl<<savemedium.str()<<std::endl<<std::endl;
/*************************/
//restitution
{
std::stringstream ss2;
ss2<<savemedium.str();
arma::mat m2;
m2.load(ss2, arma_save_format);
std::cout<<"#2:"<<m2<<std::endl;
}
return 0;
}
这给出了以下输出:
#1 米:1.0000 2.0000 3.0000
4.0000 5.0000 6.0000
7.0000 8.0000 9.0000
保存介质:
ARMA_MAT_BIN_FN008
3 3
�?@@@@ @@"@
ARMA_MAT_BIN_FN008
3 3
�?@@@@ @@"@
ba1 计数:95
b64:
QVJNQV9NQVRfQklOX0ZOMDA4CjMgMwoAAAAAAADwPwAAAAAAABBAAAAAAAAAHEAAAAAAAAAAQAAAAAAAAAABRAAAAAAAAAIEAAAAAAAAAIQAAAAAAAABhAAAAAAAAAIkA=
巴2:
ARMA_MAT_BIN_FN008
3 3
�?@@@@ @@"@
ba2 计数:95
如果我们只使用 QByteArray::data() 我们会得到什么
巴2:
ARMA_MAT_BIN_FN008
3 3
保存介质:
ARMA_MAT_BIN_FN008
3 3
�?@@@@ @@"@
#2:1.0000 2.0000 3.0000
4.0000 5.0000 6.0000
7.0000 8.0000 9.0000
按下关闭此窗口...
我使用 QByteArray 因为它具有 base64 编码方法,而 std::stringstream 因为犰狳 mat::load() 或保存句柄流。
使用 << 或 append() 无法安全地为 QByteArray 提供二进制数据,这会在遇到一些特殊字符时截断数据(我想是 '\0')。
这就是使用的原因:
ba1.setRawData(savemedium.str().c_str(), savemedium.str().size());
一旦数据在 QByteArray 中,检索它以将其放入字符串流中并非易事:我这样做了:
QByteArray::const_iterator it=ba.begin();
uint i=0;
while (it!=ba.end()) {
savemedium<<ba.at(i);
i++;
it++;
}
欢迎任何更好的解决方案。使用 QByteArray::data() 也会截断二进制数据,可能出于相同的原因。感谢您的回答和评论。