Getting values from pro files in Qt - qt

I am using Qt 4.5 in Windows XP. My pro file has the variable VERSION = 1.0. Now i need to read this variable and get its value (1.0) from the source code. So that I don't have to maintain another variable for version inside my source code. I just read from the pro file and update it. So that the value remains consistent all over my project. Is it possible? Any pointers regarding this are welcome..

Use somethings like this:
DEFINES += VERSION=\\\"$$VERSION\\\"
This will define a macro that you can use in C source code. Get rid of the backslashes and quotes if you want a number, not a string.

I'll elaborate on this a bit.
In the YourApp.pro:
VERSION = 0.0.0.1
DEFINES += APP_VERSION=\\\"$$VERSION\\\"
In the main.cpp:
#include <QApplication>
QCoreApplication::setApplicationVersion(QString(APP_VERSION));
Wherever else in your sources, e.g. in the imaginary controller.cpp:
#include <QApplication>
QString yourAppVersion = QCoreApplication::applicationVersion();

somehow, when I tried qDebug() << QString(APP_VERSION); in a class.cpp not in main.cpp. has an error "C2065" APP_VERSION: undeclared identifier". but when I tried in main.cpp that worked.

Related

Qt/qmake supress warnings/issues from third party header file

I am using the nlohmann json (https://github.com/nlohmann/json) library (1 single json.h file) with Qt. I realize Qt has it's own json functionality, so assume that any third party header may be used. Qt generates a whole lot of issues/warnings and I would like to try suppress issues/warnings for just the json.h file.
[EDIT] Interestingly the json third party library has been updated from v3.3.0 to v3.4.0 and all warnings gone (probably best outcome). Nonetheless, being able to suppress third party warnings would still be great.
I tried the suggestions here, by putting the .h in a sub directory as well as adding the sub directory to the INCLUDEPATH. $$PWD will apparently give the current directory of the .pro file. But there is no change after doing this.
INCLUDEPATH += $$PWD/thirdparty
QMAKE_CXXFLAGS += -isystem $$PWD/thirdparty/
The warnings are easy to reproduce by the simple hello world example below:
#include <QCoreApplication>
#include <QDebug>
#include "json.h"
using namespace nlohmann;
int main(int argc, char *argv[])
{
QCoreApplication a(argc, argv);
qDebug() << "hello world";
return a.exec();
}
[EDIT]
Still hoping for some help. From the comments I have tried wrapping the inclusion, which didn't work, with what is seen below:
#pragma warning(push, 0)
#include "json.h"
#pragma warning(pop)
I am using qmake but thought that maybe gcc solutions might apply, seems they don't.
Any help would be greatly appreciated.

CLion Arduino undefined reference

I have tried most of the suggestion regarding this issue to no avail.
I have created an Arduino project in CLion(version 2017.3.2) with Arduino plugin (version 1.2.3). I kept getting "undefined reference" during build.
My main Sample.ino file is:
#include <Arduino.h>
#include "Hello.h"
void setup() {
}
void loop() {
Hello::world();
}
and the Hello.h is simply:
#ifndef SAMPLE_HELLO_H
#define SAMPLE_HELLO_H
struct Hello {
static void world();
};
#endif //SAMPLE_HELLO_H
the Hello.cpp is
#include "Hello.h"
void Hello::world() {
}
and the CMakeLists.txt is:
cmake_minimum_required(VERSION 2.8.4)
set(CMAKE_TOOLCHAIN_FILE ${CMAKE_SOURCE_DIR}/cmake/ArduinoToolchain.cmake)
set(PROJECT_NAME Sample)
project(${PROJECT_NAME})
set(${CMAKE_PROJECT_NAME}_SKETCH src/Sample.ino)
#include_directories(include)
include_directories(src)
#### Uncomment below additional settings as needed.
set(${CMAKE_PROJECT_NAME}_BOARD mega)
set(${CMAKE_PROJECT_NAME}_PORT /dev/ttyACM0)
set(mega.build.mcu atmega2560)
# set(mega.upload.protocol wiring)
set(mega.upload.speed 115200)
generate_arduino_firmware(${CMAKE_PROJECT_NAME})
All source files are under the folder src/,
Any suggestion to what have I missed?
I had the same problem and spent several hours to find a solution.
Arduino plugin uses arduino-cmake to build project. According to its documentation, to use generate_arduino_firmware command you should specify SKETCH or SRCS option.
If I define SKETCH option , I has no success to link additional files (hello.cpp).
So I try to use SRCS. Seems that if I define SKETCH and SRCS simultaneously, SRCS is be ignored. Another problem is when I specify src/sample.ino in SRCS option I have the same error.
So I do the following to compile the project successfully:
Renamed src/sample.ino into src/sample.cpp.
Commented out SKETCH and add SRCS option to list all source files:
set(${PROJECT_NAME}_SRCS src/sample.cpp src/hello.cpp)
Full CMakeList.txt is
cmake_minimum_required(VERSION 2.8.4)
set(CMAKE_TOOLCHAIN_FILE ${CMAKE_SOURCE_DIR}/cmake/ArduinoToolchain.cmake)
set(CMAKE_CXX_STANDARD 14)
set(PROJECT_NAME Sample)
project(${PROJECT_NAME})
set(${PROJECT_NAME}_BOARD uno)
set(${PROJECT_NAME}_SRCS src/sample.cpp src/hello.cpp)
set(${PROJECT_NAME}_PROGRAMMER arduinoasisp)
set(${PROJECT_NAME}_PORT COM17)
set(${PROJECT_NAME}_AFLAGS -v)
generate_arduino_firmware(${PROJECT_NAME})
The Arduino support plugin uses arduino-cmake which has a bug causing your SRCS and HDRS to be erased when compiling a sketch.
You can read my bug report and proposed fix here. Basically you want to modify cmake/Platform/Arduino.cmake
Change line 1808 to avoid overwriting your sources
set(ALL_SRCS ${SKETCH_SOURCES})
set(ALL_SRCS ${ALL_SRCS} ${SKETCH_SOURCES})
Change line 1821 to recompile when a source changes
DEPENDS ${MAIN_SKETCH} ${SKETCH_SOURCES}
DEPENDS ${MAIN_SKETCH} ${ALL_SRCS}
I had that problem too.
Adding this to the CMakeLists made it work:
include_directories(${PROJECT_SOURCE_DIR})
file(GLOB SRC_FILES ${PROJECT_SOURCE_DIR}/*.cpp)
file(GLOB HDR_FILES ${PROJECT_SOURCE_DIR}/*.h)
set(PROJ_SRC ${SRC_FILES})
set(PROJ_HDR ${HDR_FILES})
generate_arduino_firmware(${CMAKE_PROJECT_NAME}
SRCS ${PROJ_SRC}
HDRS ${PROJ_HDR}
)
I'm not sure if that's the best solution but it worked in my case.

How to make a c++ code can be used in both Qt project (QTL style) and C++ project (STL style)

Is there any way to convert C++(STL) code to QT (QTL)?
I have a code written using STL (string, vector, iostream, fstream) and
I want to add it to my Qt Project (QString, QVector, ... when used).
My ideal way is to make it QTL-STL-compatible by adding some defines
in .h file like following
// STL to QTL
#ifdef STL_CPP
#include <string>
#include<vector>
#else // QTL
#include <QString>
#define string QString
#include <QVector>
#define vector QVector
#endif
Is there any existing work can convert some most commonly used STL code without
changing the source code ?
Note that I don't want to convert std datatype to qt datatype, what I want is to
make a code can used in both Qt project(ifndef STL_CPP) and C++ project (ifdef STL_CPP).
Using Macro Substitution to convert STL-style code to QTL-style code is dangerous
and may cause many unexpected errors.
To avoid that, you can use the STL in QT code and convert when interacting with the Qt framework (for a price paid in performance),
convert STL datatype to QTL datatype is quite simple, just like QVector::fromStdVector(const std::vector<T> &vector) and QString::fromStdString(const std::string &str) mentioned by drescherjm

Compiling QtOpenCL with QT5

Anyone managed to compile library QtOpenCL using Qt5 (possibly under Window)?
edit: I managed to compile the code by porting it to QT5. I leave here in the question the dirty parts that I would like to replace in my method and describe what I did in the answer.
I was not able to provide the include path to my opencl installation so I
manually modified src/opencl/opencl.pro by adding the line
INCLUDEPATH += " *[absolute path to the openCL include folder]* "
QMAKE_LIBDIR_OPENCL = "*[absolute path to the opencl lib folder]*"
manually modified src/openclgl/openclgl.pro by adding the line
INCPATH += " *[absolute path to the openCL include folder]* "
QMAKE_LIBDIR_OPENCL = "*[absolute path to the opencl lib folder]*"
Anyone knows how to fix this in a cleaner way?
Here are the changes I had to introduce:
Modify the .pro files in order to add the OpenCL library. This is still an open problem for me. How to fix this in a cleaner way?
Link the projects (both opencl.pro and openclgl.pro) to the additional required Qt module QtConcurrent:
QT += concurrent
Fix the #include style by removing the packages, e.g. #include <qtconcurrentrun.h> instead of the old #include
<QtCore/qtconcurrentrun.h>
Fix qclvector.cpp by replacing qMalloc, qfree, qMemCopy with, respectively, std::malloc, std::free, std::memcpy
Moreover modify the initialization of ref in the constructor from ref = 1 to ref.store(1);
Removing all the macros QT_LICENSED_MODULE
This is enough to compile at least QtOpenCL and QtOpenCLGL using QT5

Is there a way for a C binary code to figure out where it is stored? [duplicate]

Is there a platform-agnostic and filesystem-agnostic method to obtain the full path of the directory from where a program is running using C/C++? Not to be confused with the current working directory. (Please don't suggest libraries unless they're standard ones like clib or STL.)
(If there's no platform/filesystem-agnostic method, suggestions that work in Windows and Linux for specific filesystems are welcome too.)
Here's code to get the full path to the executing app:
Variable declarations:
char pBuf[256];
size_t len = sizeof(pBuf);
Windows:
int bytes = GetModuleFileName(NULL, pBuf, len);
return bytes ? bytes : -1;
Linux:
int bytes = MIN(readlink("/proc/self/exe", pBuf, len), len - 1);
if(bytes >= 0)
pBuf[bytes] = '\0';
return bytes;
If you fetch the current directory when your program first starts, then you effectively have the directory your program was started from. Store the value in a variable and refer to it later in your program. This is distinct from the directory that holds the current executable program file. It isn't necessarily the same directory; if someone runs the program from a command prompt, then the program is being run from the command prompt's current working directory even though the program file lives elsewhere.
getcwd is a POSIX function and supported out of the box by all POSIX compliant platforms. You would not have to do anything special (apart from incliding the right headers unistd.h on Unix and direct.h on windows).
Since you are creating a C program it will link with the default c run time library which is linked to by ALL processes in the system (specially crafted exceptions avoided) and it will include this function by default. The CRT is never considered an external library because that provides the basic standard compliant interface to the OS.
On windows getcwd function has been deprecated in favour of _getcwd. I think you could use it in this fashion.
#include <stdio.h> /* defines FILENAME_MAX */
#ifdef WINDOWS
#include <direct.h>
#define GetCurrentDir _getcwd
#else
#include <unistd.h>
#define GetCurrentDir getcwd
#endif
char cCurrentPath[FILENAME_MAX];
if (!GetCurrentDir(cCurrentPath, sizeof(cCurrentPath)))
{
return errno;
}
cCurrentPath[sizeof(cCurrentPath) - 1] = '\0'; /* not really required */
printf ("The current working directory is %s", cCurrentPath);
This is from the cplusplus forum
On windows:
#include <string>
#include <windows.h>
std::string getexepath()
{
char result[ MAX_PATH ];
return std::string( result, GetModuleFileName( NULL, result, MAX_PATH ) );
}
On Linux:
#include <string>
#include <limits.h>
#include <unistd.h>
std::string getexepath()
{
char result[ PATH_MAX ];
ssize_t count = readlink( "/proc/self/exe", result, PATH_MAX );
return std::string( result, (count > 0) ? count : 0 );
}
On HP-UX:
#include <string>
#include <limits.h>
#define _PSTAT64
#include <sys/pstat.h>
#include <sys/types.h>
#include <unistd.h>
std::string getexepath()
{
char result[ PATH_MAX ];
struct pst_status ps;
if (pstat_getproc( &ps, sizeof( ps ), 0, getpid() ) < 0)
return std::string();
if (pstat_getpathname( result, PATH_MAX, &ps.pst_fid_text ) < 0)
return std::string();
return std::string( result );
}
If you want a standard way without libraries: No. The whole concept of a directory is not included in the standard.
If you agree that some (portable) dependency on a near-standard lib is okay: Use Boost's filesystem library and ask for the initial_path().
IMHO that's as close as you can get, with good karma (Boost is a well-established high quality set of libraries)
I know it is very late at the day to throw an answer at this one but I found that none of the answers were as useful to me as my own solution. A very simple way to get the path from your CWD to your bin folder is like this:
int main(int argc, char* argv[])
{
std::string argv_str(argv[0]);
std::string base = argv_str.substr(0, argv_str.find_last_of("/"));
}
You can now just use this as a base for your relative path. So for example I have this directory structure:
main
----> test
----> src
----> bin
and I want to compile my source code to bin and write a log to test I can just add this line to my code.
std::string pathToWrite = base + "/../test/test.log";
I have tried this approach on Linux using full path, alias etc. and it works just fine.
NOTE:
If you are on windows you should use a '\' as the file separator not '/'. You will have to escape this too for example:
std::string base = argv[0].substr(0, argv[0].find_last_of("\\"));
I think this should work but haven't tested, so comment would be appreciated if it works or a fix if not.
Filesystem TS is now a standard ( and supported by gcc 5.3+ and clang 3.9+ ), so you can use current_path() function from it:
std::string path = std::experimental::filesystem::current_path();
In gcc (5.3+) to include Filesystem you need to use:
#include <experimental/filesystem>
and link your code with -lstdc++fs flag.
If you want to use Filesystem with Microsoft Visual Studio, then read this.
No, there's no standard way. I believe that the C/C++ standards don't even consider the existence of directories (or other file system organizations).
On Windows the GetModuleFileName() will return the full path to the executable file of the current process when the hModule parameter is set to NULL. I can't help with Linux.
Also you should clarify whether you want the current directory or the directory that the program image/executable resides. As it stands your question is a little ambiguous on this point.
On Windows the simplest way is to use the _get_pgmptr function in stdlib.h to get a pointer to a string which represents the absolute path to the executable, including the executables name.
char* path;
_get_pgmptr(&path);
printf(path); // Example output: C:/Projects/Hello/World.exe
Maybe concatenate the current working directory with argv[0]? I'm not sure if that would work in Windows but it works in linux.
For example:
#include <stdio.h>
#include <unistd.h>
#include <string.h>
int main(int argc, char **argv) {
char the_path[256];
getcwd(the_path, 255);
strcat(the_path, "/");
strcat(the_path, argv[0]);
printf("%s\n", the_path);
return 0;
}
When run, it outputs:
jeremy#jeremy-desktop:~/Desktop$ ./test
/home/jeremy/Desktop/./test
For Win32 GetCurrentDirectory should do the trick.
You can not use argv[0] for that purpose, usually it does contain full path to the executable, but not nessesarily - process could be created with arbitrary value in the field.
Also mind you, the current directory and the directory with the executable are two different things, so getcwd() won't help you either.
On Windows use GetModuleFileName(), on Linux read /dev/proc/procID/.. files.
Just my two cents, but doesn't the following code portably work in C++17?
#include <iostream>
#include <filesystem>
namespace fs = std::filesystem;
int main(int argc, char* argv[])
{
std::cout << "Path is " << fs::path(argv[0]).parent_path() << '\n';
}
Seems to work for me on Linux at least.
Based on the previous idea, I now have:
std::filesystem::path prepend_exe_path(const std::string& filename, const std::string& exe_path = "");
With implementation:
fs::path prepend_exe_path(const std::string& filename, const std::string& exe_path)
{
static auto exe_parent_path = fs::path(exe_path).parent_path();
return exe_parent_path / filename;
}
And initialization trick in main():
(void) prepend_exe_path("", argv[0]);
Thanks #Sam Redway for the argv[0] idea. And of course, I understand that C++17 was not around for many years when the OP asked the question.
Just to belatedly pile on here,...
there is no standard solution, because the languages are agnostic of underlying file systems, so as others have said, the concept of a directory based file system is outside the scope of the c / c++ languages.
on top of that, you want not the current working directory, but the directory the program is running in, which must take into account how the program got to where it is - ie was it spawned as a new process via a fork, etc. To get the directory a program is running in, as the solutions have demonstrated, requires that you get that information from the process control structures of the operating system in question, which is the only authority on this question. Thus, by definition, its an OS specific solution.
#include <windows.h>
using namespace std;
// The directory path returned by native GetCurrentDirectory() no end backslash
string getCurrentDirectoryOnWindows()
{
const unsigned long maxDir = 260;
char currentDir[maxDir];
GetCurrentDirectory(maxDir, currentDir);
return string(currentDir);
}
For Windows system at console you can use system(dir) command. And console gives you information about directory and etc. Read about the dir command at cmd. But for Unix-like systems, I don't know... If this command is run, read bash command. ls does not display directory...
Example:
int main()
{
system("dir");
system("pause"); //this wait for Enter-key-press;
return 0;
}
Works with starting from C++11, using experimental filesystem, and C++14-C++17 as well using official filesystem.
application.h:
#pragma once
//
// https://en.cppreference.com/w/User:D41D8CD98F/feature_testing_macros
//
#ifdef __cpp_lib_filesystem
#include <filesystem>
#else
#include <experimental/filesystem>
namespace std {
namespace filesystem = experimental::filesystem;
}
#endif
std::filesystem::path getexepath();
application.cpp:
#include "application.h"
#ifdef _WIN32
#include <windows.h> //GetModuleFileNameW
#else
#include <limits.h>
#include <unistd.h> //readlink
#endif
std::filesystem::path getexepath()
{
#ifdef _WIN32
wchar_t path[MAX_PATH] = { 0 };
GetModuleFileNameW(NULL, path, MAX_PATH);
return path;
#else
char result[PATH_MAX];
ssize_t count = readlink("/proc/self/exe", result, PATH_MAX);
return std::string(result, (count > 0) ? count : 0);
#endif
}
For relative paths, here's what I did. I am aware of the age of this question, I simply want to contribute a simpler answer that works in the majority of cases:
Say you have a path like this:
"path/to/file/folder"
For some reason, Linux-built executables made in eclipse work fine with this. However, windows gets very confused if given a path like this to work with!
As stated above there are several ways to get the current path to the executable, but the easiest way I find works a charm in the majority of cases is appending this to the FRONT of your path:
"./path/to/file/folder"
Just adding "./" should get you sorted! :) Then you can start loading from whatever directory you wish, so long as it is with the executable itself.
EDIT: This won't work if you try to launch the executable from code::blocks if that's the development environment being used, as for some reason, code::blocks doesn't load stuff right... :D
EDIT2: Some new things I have found is that if you specify a static path like this one in your code (Assuming Example.data is something you need to load):
"resources/Example.data"
If you then launch your app from the actual directory (or in Windows, you make a shortcut, and set the working dir to your app dir) then it will work like that.
Keep this in mind when debugging issues related to missing resource/file paths. (Especially in IDEs that set the wrong working dir when launching a build exe from the IDE)
A library solution (although I know this was not asked for).
If you happen to use Qt:
QCoreApplication::applicationDirPath()
Path to the current .exe
#include <Windows.h>
std::wstring getexepathW()
{
wchar_t result[MAX_PATH];
return std::wstring(result, GetModuleFileNameW(NULL, result, MAX_PATH));
}
std::wcout << getexepathW() << std::endl;
// -------- OR --------
std::string getexepathA()
{
char result[MAX_PATH];
return std::string(result, GetModuleFileNameA(NULL, result, MAX_PATH));
}
std::cout << getexepathA() << std::endl;
This question was asked 15 years ago, so the existing answers are now incorrect. If you're using C++17 or greater, the solution is very straightforward today:
#include <filesystem>
std::cout << std::filesystem::current_path();
See cppreference.com for more information.
On POSIX platforms, you can use getcwd().
On Windows, you may use _getcwd(), as use of getcwd() has been deprecated.
For standard libraries, if Boost were standard enough for you, I would have suggested Boost::filesystem, but they seem to have removed path normalization from the proposal. You may have to wait until TR2 becomes readily available for a fully standard solution.
Boost Filesystem's initial_path() behaves like POSIX's getcwd(), and neither does what you want by itself, but appending argv[0] to either of them should do it.
You may note that the result is not always pretty--you may get things like /foo/bar/../../baz/a.out or /foo/bar//baz/a.out, but I believe that it always results in a valid path which names the executable (note that consecutive slashes in a path are collapsed to one).
I previously wrote a solution using envp (the third argument to main() which worked on Linux but didn't seem workable on Windows, so I'm essentially recommending the same solution as someone else did previously, but with the additional explanation of why it is actually correct even if the results are not pretty.
As Minok mentioned, there is no such functionality specified ini C standard or C++ standard. This is considered to be purely OS-specific feature and it is specified in POSIX standard, for example.
Thorsten79 has given good suggestion, it is Boost.Filesystem library. However, it may be inconvenient in case you don't want to have any link-time dependencies in binary form for your program.
A good alternative I would recommend is collection of 100% headers-only STLSoft C++ Libraries Matthew Wilson (author of must-read books about C++). There is portable facade PlatformSTL gives access to system-specific API: WinSTL for Windows and UnixSTL on Unix, so it is portable solution. All the system-specific elements are specified with use of traits and policies, so it is extensible framework. There is filesystem library provided, of course.
The linux bash command
which progname will report a path to program.
Even if one could issue the which command from within your program and direct the output to a tmp file and the program
subsequently reads that tmp file, it will not tell you if that program is the one executing. It only tells you where a program having that name is located.
What is required is to obtain your process id number, and to parse out the path to the name
In my program I want to know if the program was
executed from the user's bin directory or from another in the path
or from /usr/bin. /usr/bin would contain the supported version.
My feeling is that in Linux there is the one solution that is portable.
Use realpath() in stdlib.h like this:
char *working_dir_path = realpath(".", NULL);
The following worked well for me on macOS 10.15.7
brew install boost
main.cpp
#include <iostream>
#include <boost/filesystem.hpp>
int main(int argc, char* argv[]){
boost::filesystem::path p{argv[0]};
p = absolute(p).parent_path();
std::cout << p << std::endl;
return 0;
}
Compiling
g++ -Wall -std=c++11 -l boost_filesystem main.cpp

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