Trying to run the following:
#include<iostream>
#include<boost/filesystem/operations.hpp>
namespace bfs=boost::filesystem;
int main()
{
bfs::path p("second.cpp");
if(bfs::exists(p))
std::cout<<p.leaf()<<std::endl;
}
I got some errors in cygwin so I decided to try out netbeans, and used the following as a guide. I added all links and the following for filesystem Project -> properties -> Linker ->Libraries -> Add option -> Other -> -lfile_system as noted here. I have run a separate test using #include<boost/any.hpp> so I am not currently doubting that my boost is not installed correclty.
It seems weird to me that it is "file_system", so I also tried "filesystem" but to no avail.
When i hold Ctrl and click on #include<boost/filesystem/operations.hpp> my netbeans brings up my operations.hpp file so it seems okay (linked properly internally that it can "see" what I want it to see).
The solution to installing boost came in the following form:
1 - If you have any path variables that are being used for Visual Studio you should temporarily change the variable during installation. This is a good guide. Once that is done, this is one step completed.
2 - Download and install MinGW. This is a very easy process and you can find the installer files here.
Once you have done these things (if you are in the same situation as me), you will now be able to properly install boost.
Horay!
Using Boost with cygwin step by step
Create a new Project
It is better to take the names given here in this tutorial exactly. Later ask: It does not work, can then be easier to find.
I do not think I need to mention all T:\ must of course be replaced with your drive.
Project Name : Boost-cyg-Test
Now your Project should look like
Open main.cpp
Overwrite the generated code with the following. We want to that, first of all everything works without error.
Therefore, please do not use your own special code.
It is difficult to find a fault. Then told after several ask, to get:
I have used my own code
#include <iostream>
#include <boost/filesystem.hpp>
using namespace std;
using namespace boost::filesystem;
int main()
{
path p("second.cpp");
if (exists(p)) { std::cout<<p.leaf()<<std::endl; }
}
In this section we assume that "boost" is already compiled.
goto Tools -> Options
Your C++ Code Assistance options should look something like this.
If this is not so, we should let Netbeans create that for us.
Add New Tool Collection
After we have completed this dialog with OK, we should find the settings shown above. ( C++ Code Assistance options).
Copy all libs into the right place
Let's create a new folder 'boost'.
With a search tool, search in your compiled Boost folder for *.a
My Boost is compiled with the shared option so we find :
For our short App. we need only 2 files.
libboost_filesystem-gcc45-mt-d-1_53.dll.a
libboost_system-gcc45-mt-d-1_53.dll.a
But if we're at it to copy two files, we can copy all files.
So mark all found .a files and copy them into the directory just created
T:\cygwin\lib\boost .
Now we do the same with our .dll files.
Mark all .dll files and copy it in your ?:\cygwin\bin directory.
If you only have compiled static librarys, you can skip this point.
Now it's time to modify our project settings.
As you can see i put my source Boost folder into cygwin
and
As we have already noted above, we need two .a files.
with Add Library navigate to T:\cygwin\lib\boost and select
libboost_filesystem-gcc45-mt-d-1_53.dll.a
libboost_system-gcc45-mt-d-1_53.dll.a
Now you'll notice that this name was shortened by netbeans to:
boost_filesystem-gcc45-mt-d-1_53.dll
boost_system-gcc45-mt-d-1_53.dll
This is somewhat confusing. It looks as if a .dll is standing here. But it is really a .a file.
Set a breakpoint in main.cpp. Now we start debug.
I have marked the important part, the two libs, with an arrow.
All libs are found and after make has finished, stops at the breakpoint.
The output:
Build Boost for Cygwin
For all who want to create boost with shared library itself.
Download boost_1_53_0.zip
Create a folder in your ?:\cygwin directory.
boost_1_53_0
Extract the zip file into that directory.
It should look like:
open a cmd window, cd to boost_1_53_0 directory.
To have a clean build we need a PATH that have only the cygwin home and bin.
In the cmd type.
SET PATH=T:\cygwin;T:\cygwin\bin
and test the path.
PATH
Type
bootstrap.bat
Type
.\b2 --build-dir=T:\boost-cyg toolset=gcc variant=debug link=shared runtime-link=shared
After some time the build is finished.
Now you have the same environment that we have used in the tutorial.
If you get a Error : gcc not found
copy (not rename) in ?:\cygwin\bin folder, for example : (names may differ).
i686-pc-cygwin-gcc-4.5.3.exe to gcc.exe
and
i686-pc-cygwin-g++-4.exe to g++.exe
Hope it helps you.
Could you paste the error you get when compiling ?
I am not used to compile programs in a Windows environment, but I think as Jesse Good suggested in a comment that you have a linker error.
You may solve it by using -lboost_filesystem instead of lfile_system.
To find out how your libs are called, you get the name of your lib (on my unix environment I have libboost_filesystem.so), strip the "lib" prefix and the ".so" or ".a" suffix (must be different in a Windows environment).
if your boost installation is correct and you are sure about it then for Unable to resolve identifier try Code Assistance->Reparse Project from context menu of the project. It tries to recover broken code model by reparsing project from scratch. if that didn't workout try closing IDE and removing code model cache.
p.s. do you have compilation errors?
Related
I'm trying to use the png++ library. Already added it to the library search path in eclipse (windows user, if relevant), but I get the
fatal error: png++/png.hpp: No such file or directory
I really don't know what to do.
Thank you!
Okay. You need to check your settings one by one.
It (png++) is a C++ library, so you must have C++ compiler set in your
run/debug settings.
Add your library include folder to that compiler's settings
To actually link to the library, you need to add the .lib/.a files or DLLs to linker settings.
I'm not much of a user of Eclipse CDT but that's how it works. If you are trying to do image manipulation without prior C++ experience, I suggest you to go with python/Java, they are easy to use.
After days, tears and blood, my professor (PhD Daniel Brake) figured it out! Here is what we did to make it work. I hope you never need to use this library on a Windows machine (conf: Windows 10, MinGW, Eclipse):
Make sure that you have the MinGW installation manager, have all the packages on the basic setup installed, and in "all packages", look for "msys-zlib", class dll
Now open the cmd (Windows+x, A, to open in admin mode)
You have to open the "msys.bat", go to C:\MinGW\msys\1.0\msys.bat
It will open a unix-like terminal, then type:
mingw-get install libz-dev
cd /path/to/libpng/folder
./configure -prefix=/mingw
make
make install
Google png++, download it, and using the MinGW terminal go to the folder that contains it:
cd /path/to/png++/folder
tar -zxf png++-0.2.x.tar.gz -C
In the png++ page, go to http://savannah.nongnu.org/bugs/?46312 and donwnload the file to the png++ folder
Replace the error.hpp file
Using a text editor, open the error.hpp file you just downloaded
Add #include <sstream> to the includes
look for the part and comment it:
strerror_r(errnum, buf, ERRBUF_SIZE);
return std::string(buf);
Now, add this in the same block of above:
std::stringstream ss;
ss << errnum;
return ss.str();
Save and close
Now, open Eclipse, create the project for the png++
Go to Configuration > C/C++ Build > set Configuration to "Debug [Active]"
Then C/C++ Build > Settings > GCC C++ compiler, add to "Include paths (-l)", the path to the folder png++ and the path to the folder that contains the file png.h, in my case it's in "C:\MinGW\msys\1.0\mingw\include"
Go to MinGW C++ Linker > Libraries, add to "Libraries (-l)" just the word "png" and in the "Library seach path (-L)" the path to the folder of libpng.a, in my case, "C:\MinGW\msys\1.0\mingw\lib"
save
to use it, in the header, add #include <png.hpp> (not #include <png++/png.hpp>)
it will have a warning, you can ignore it
it doesn't works!
in your MinGW terminal, go to the folder that have the "eclipse.exe" and open the Eclipse that way (don't ask me, my professor said something about path, I have no idea why)
Maybe you can simply use another compiler, but I couldn't, or use Linux.
Very recently, I had this idea to start using Mozilla NSS and to learn to use it, so that somewhere in the future, i can use it, or can atleast start contributing to it.
So i went to its Website and cloned it source code into a director "NSS" using mercurial
Then I used
make nss_build_all
instead of
gmake nss_build_all
Note : I don't know, if it makes a difference, gmake is just GNU Make
This make command created a dist folder outside the nss folder. So, Now my NSS folder has 3 folders nss,nspr,dist.
In .bashrc i added a line at the end
export LD_LIBRARY_PATH=/home/ayusun/workspace/NSS/dist/Linux3.5_x86_glibc_PTH_DBG.OBJ/lib
Then i went over to this Sample code, did a copy paste and saved it in my NSS Folder.
And then i tried to compile it, but it failed, stating it couldn't find iostream.h, I went over and changed the location of header files
So
<iostream.h> became <iostream>
"pk11pub.h" became "nss/lib/pk11wrap/pk11pub.h"
"keyhi.h" became "nss/lib/cryptohi/keyhi.h"
"nss.h" became "nss/lib/nss/nss.h"
I tried compiling again but this time error came, that it couldn't find "planera.h"
which is actually present in dist/*.OBJ/include/ which is a link to a file planeras.h in nspr
And so i don't know, how to include these files anymore.
I always have trouble when it comes to include 3rd party header files.
Thanks
This is an old question, but I'll answer it anyway for future reference.
The simplest way is just to use the NSS package for your operating system.
Then you can use things like nss-config --cflags, nss-config --libs, nspr-config --cflags and nspr-config --libs and add that to your CFLAGS and LDFLAGS as appropriate.
For those who do decide to compile their own NSS, I'll give the quick overview.
The NSS headers are in dist/public. Add -I/path/to/dist/public to your compiler command line. The NSPR headers are in dist/Debug/include¹ so add -I/path/to/dist/Debug/include to your comiler command line.
Now you can use #include <nspr/prio.h> and #include <nss/nss.h> and friends.
The NSS code relies on directly uncluding the NSPR headers, so you'll need to add -I/path/to/dist/Debug/include/nspr for it to find things like plarena.h. Or you could do the same and not prefix your includes like I did above. It's up to you.
Now add -L/path/to/dist/Debug/lib and -lnss3 -lnspr4 to your linker command line. You may want to also add -rpath /path/to/dist/Debug/lib for the runtime link path, or copy them to a system directory or use LD_LIBRARY_PATH.
I hope this gets you started.
¹ This actually depends on your operating system and build type. I hope you can figure out the name of the actual Debug directory in your case.
I'm a complete beginner with Code::Blocks and SQLite, and have some basic knowledge with C++. I'm currently using Ubuntu 11.04.
I have downloaded SQLite Amalgamation here. When I extracted the zip file, there are four files inside: shell.c, sqlite3.c, sqlite3.h, and sqlite3ext.h. If I simply add those files to a (for example) a console project, it gives out an error: the .c's of the downloaded sqlite each have their own main function. Removing those from the project, the errors are gone and I can call #include "sqlite3.h". I am trying to follow this, and tried the first two lines of code from here and it gives out an error: undefined reference to sqlite3_open.
I think adding those .h's directly to a console project isn't the right way to use it, though I'm not sure.
How exactly should I use those? What should I do to use those for my C++ program?
Any help is greatly appreciated. :)
EDIT: I also tried to create a .a file of those sqlite files by following this. When I try it, it gives out an error: cannot find -lsqlite.
I got it! Though there was something that I did that caused problems.. I forget to remove the .a file that I added at Project > Build Options > Linker Settings earlier, which caused problems..
Here are the steps I made to add SQLite: (for those that might have the same problems)
Copy the files extracted from the SQLite Amalgamation to the directory of the project.
Add the sqlite files (Project > Add Files) EXCEPT the shell.c (it is the one that causes the multiple function error)
Compile it (Yes, a simple Ctrl+f9).
here are errors: undefined reference to pthread_mutexattr..... These are fixed by going to Project > Build Options > Highlight 'the Project Name' above Debug and Release at the top left corner > Linker settings, and adding "-lpthread" (without quotes) to Other linker options:.
Some more errors are found: undefined reference to dlopen, dlerror..... Add '"-ldl"' just below the '"-lpthread"' added earlier.
DONE :)
I didn't find a complete answer for Windows as a beginner, and at the beginning it is very painful to understand everything. So here's what worked for me.
Download the SQlite Amalgamation file.
Open Code::Blocks -> New Project -> Choose static library
Unzip the file you have downloaded and copy the folder/contents to your new project directory. Add all the files to the project and build the project.
You will find a ProjectName.a file in the bin/Debug or bin/Release directory. Copy that file to your actual SQlite project directory.
Go to Code::Blocks Project->Build options. Select 'Linker Settings' tab and add the path to the .a file. Don't close it yet!!!
In 'Search Directories' tab, select the 'Compiler' tab, add the path to the Amalgamation header files, or copy the header files to your directory (you can add the header files to your project) and in the 'Linker' tab add the path to the .a file
Now Compile!!! Hopefully this will run
That is all, I wish it'll save some searching time for another noob
You will need to compile the sqlite code first, and then just #include "sqlite3.h" into your project where you need it.
UPD:
Try this:
Download this package from sqlite site and extract it somewhere, say, into a folder called "sqlite". Open terminal, and go into this folder. Inside of it, run
./configure
sudo make
sudo make install
and see what happens. It should build itself automatically. Consult the README file that is inside the archive too.
How to get from C/C++ extension source code to a pyd file for windows (or other item that I could import to Python)?
edit: The specific library that I wanted to use (BRISK) was included in OpenCV 2.4.3 so my need for this skill went away for the time being. In case you came here looking for BRISK, here is a simple BRISK in Python demo that I posted.
I have the Brisk source code (download) that I would like to build and use in my python application. I got as far as generating a brisk.pyd file... but it was 0 bytes. If there is a better / alternative way to aiming for a brisk.pyd file, then of course I am open to that as well.
edit: Please ignore all the attempts in my original question below and see my answer which was made possible by obmarg's detailed walkthrough
Where am I going wrong?
Distutils without library path: First I tried to build the source as is with distutils and the following setup.py (I have just started learning distutils so this is a shot in the dark). The structure of the BRISK source code is at the bottom of this question for reference.
from distutils.core import setup, Extension
module1 = Extension('brisk',
include_dirs = ['include', 'C:/opencv2.4/build/include', 'C:/brisk/thirdparty/agast/include'],
#libraries = ['agast_static', 'brisk_static'],
#library_dirs = ['win32/lib'],
sources = ['src/brisk.cpp'])
setup (name = 'BriskPackage',
ext_modules = [module1])
That instantly gave me the following lines and a 0 byte brisk.pyd somewhere in the build folder. So close?
running build
running build_ext
Distutils with library path: Scratch that attempt. So I added the two library lines that are commented out in the above setup.py. That seemed to go ok until I got this linking error:
creating build\lib.win32-2.7
C:\Program Files (x86)\Microsoft Visual Studio 10.0\VC\BIN\link.exe /DLL /nologo /INCREMENTAL:NO /LIBPATH:win32/lib /LIB
PATH:C:\Python27_32bit\libs /LIBPATH:C:\Python27_32bit\PCbuild agast_static.lib brisk_static.lib /EXPORT:initbrisk build
\temp.win32-2.7\Release\src/brisk.obj /OUT:build\lib.win32-2.7\brisk.pyd /IMPLIB:build\temp.win32-2.7\Release\src\brisk.
lib /MANIFESTFILE:build\temp.win32-2.7\Release\src\brisk.pyd.manifest
LINK : error LNK2001: unresolved external symbol initbrisk
build\temp.win32-2.7\Release\src\brisk.lib : fatal error LNK1120: 1 unresolved externals
error: command '"C:\Program Files (x86)\Microsoft Visual Studio 10.0\VC\BIN\link.exe"' failed with exit status 1120
Uncontrolled flailing: I thought maybe the libraries needed to be built, so I did a crash course (lots of crashing) with cmake + mingw - mingw + vc++ express 2010 as follows:
cmake gui: source: c:/brisk, build: c:/brisk/build
cmake gui: configure for Visual Studio 10
cmake gui: use default options and generate (CMAKE_BACKWARDS_COMPATIBILITY, CMAKE_INSTALL_PREFIX, EXECUTABLE_OUTPUT_PATH, LIBRARY_OUTPUT_PATH)
VC++ Express 10: Change to Release and build the solution generated by cmake and get about 20 pages of what look like non-critical warnings followed by all succeeded. Note - no dlls are generated by this. It does generate the following libraries of similar size to the ones included with the download:
win32/lib/Release/
agast_static.lib
brisk_static.lib
Further flailing.
Relevant BRISK source file structure for reference:
build/ (empty)
include/brisk/
brisk.h
hammingsse.hpp
src
brisk.cpp
demo.cpp
thirdparty/agast/
include/agast/
agast5_8.h ....
cvWrapper.h
src/
agast5_8.cc ...
CMakeLists.txt
win32/
bin/
brisk.mexw32
opencv_calib3d220.dll ...
lib/
agast_static.lib
brisk_static.lib
CMakeLists.txt
FindOpenCV.cmake
Makefile
Are you sure that this brisk library even exports python bindings? I can't see any reference to it in the source code - it doesn't even seem to import python header files. This would certainly explain why you've not had much success so far - you can't just compile plain C++ code and expect python to interface with it.
I think your second distutils example is closest to correct - it's obviously compiling things and getting to the linker stage, but then you encounter this error. That error just means it can't find a function named initbrisk which I'm guessing would be the top level init function for the module. Again this suggests that you're trying to compile a python module from code that isn't meant for it.
If you want to wrap the C++ code in a python wrapper yourself you could have a look at the official documentation on writing c/c++ extensions. Alternatively you could have a look into boost::python, SIP or shiboken which try to somewhat (or completely) automate the process of making python extensions from C++ code.
EDIT: Since you seem to have made a decent amount of effort to solve the problem yourself and have posted a good question, I've decided to give a more detailed response on how to go about doing this.
Quick Tutorial On Wrapping C++ Libraries Using boost::python
Personally I've only ever used boost::python for stuff like this, so I'll try and give you a good summary of how to go about doing that. I'm going to assume that you're using Visual C++ 2010. I'm also going to assume that you've got a 32bit version of python installed, as I believe the boost pro libraries only provide 32bit binaries.
Installing boost
First you'll need to grab a copy of the boost library. The easiest way to do this is to download an installer from the boost pro website. These should install all the header files and binary files that are required for using the boost c++ library on windows. Take note of where you install these files to, as you'll need them later on - it might be best to install to a path without a space in it. For easyness I'm going to assume you put these files in C:\boost but you can substitute that for the path you actually used.
Alternatively, you can follow these instructions to build boost from source. I'm not 100% sure, but it might be the case that you need to do this in order to get a version of boost::python that is compatible with the version of python you have installed.
Setting up a visual studio project
Next, you'll want to setup a visual studio project for brisk.pyd. If you open visual studio, go to New -> Project then find the option for Win32 Project. Set up your location etc. and click ok. In the wizard that appears select a DLL project type, and then tick the empty project checkbox.
Now that you've created your project, you'll need to set up the include & library paths to allow you to use python, boost::python and the brisk.lib file.
In Visual Studios solution explorer, right click on your project, and select properties from the menu that appears. This should open up the property pages for your project. Go to the Linker -> General section and look for the Additional Library Directories section. You'll need to fill this in with the paths to the .lib files for boost, python and your brisk_static.lib. Generally these can be found in lib (or libs) subdirectories of
wherever you've installed the libraries. Paths are seperated with semicolons. I've attached a screenshot of my settings below:
Next, you'll need to get visual studio to link to the .lib files. These sections can be found in the Additional Dependencies field of the Linker -> Input section of the properties. Again it's a semicolon delimited list. You should need to add in libraries for python (in my case this is python27.lib but this will vary by version) and brisk_static.lib. These do not require the full path as you added that in the previous stage. Again, here's a screenshot:
You may also need to add the boost_python library file but I think boost uses some header file magic to save you the trouble. If I'm incorrect then have a look in you boost library path for a file named similar to boost_python-vc100-mt.lib and add that in.
Finally, you'll need to setup the include paths to allow your project to include the relevant C++ header files. To get the relevant settings to appear in project properties, you'll need to add a .cpp file to your project. Right click the source files folder in your solution explorer, and then go to add new item. Select a C++ File (.cpp) and name it main.cpp (or whatever else you want).
Next, go back to your project properties and go to C/C++ -> General. Under the additional libraries directory you need to add the include paths for brisk, python and boost. Again, semicolons for seperators, and again here's a screenshot:
I suspect that you might need to update these settings to include the opencv2 & agast libraries as well but I'll leave that as a task for you to figure out - it should be much the same process.
Wrapping existing c++ classes with boost::python.
Now comes the slightly trickier bit - actually writing C++ to wrap your brisk library in boost python. You can find a tutorial for this here but i'll try and go over it a bit as well.
This will be taking place in the main.cpp file you created earlier. First, add the relevant include statements you'll need at the top of the file:
#include <brisk/brisk.h>
#include <Python.h>
#include <boost/python.hpp>
Next, you'll need to declare your python module. I'm assuming you'd want this to be called brisk, so you do something like this:
BOOST_PYTHON_MODULE(brisk)
{
}
This should tell boost::python to create a python module named brisk.
Next it's just a case of going through all the classes & structs that you want to wrap and declaring boost python classes with them. The declerations of the classes should all be contained in brisk.h. You should only wrap the public members of a class, not any protected or private members. As a quick example, I've done a couple of the structs here:
BOOST_PYTHON_MODULE(brisk)
{
using namespace boost::python;
class_< cv::BriskPatternPoint >( "BriskPatternPoint" )
.def_readwrite("x", &cv::BriskPatternPoint::x)
.def_readwrite("y", &cv::BriskPatternPoint::y)
.def_readwrite("sigma", &cv::BriskPatternPoint::sigma);
class< cv::BriskScaleSpace >( "BriskScaleSpace", init< uint8_t >() )
.def( "constructPyramid", &cv::BriskScaleSpace::constructPyramid );
}
Here I have wrapped the cv::BriskPatternPoint structure and the cv::BriskScaleSpace class. Some quick explanations:
class_< cv::BriskPatternPoint >( "BriskPatternPoint" ) tells boost::python to declare a class, using the cv::BriskPatternPoint C++ class, and expose it as BriskPatternPoint in python.
.def_readwrite("y", &cv::BriskPatternPoint::y) adds a readable & writeable property to the BriskPatternPoint class. The property is named y, and will map to the BriskPatternPoint::y c++ field.
class< cv::BriskScaleSpace >( "BriskScaleSpace", init< uint8_t >() ) declares another class, this time BriskScaleSpace but also provides a constructor that accepts a uint8_t (an unsigned byte - which should just map to an integer in python, but I'd be careful to not pass in one greater than 255 bytes - I don't know what would happen in that situation)
The following .def line just declares a function - boost::python should (I think) be able to determine the argument types of functions automatically, so you don't need to provide them.
It's probably worth noting that I haven't actually compiled any of these examples - they might well not work at all.
Anyway, to get this fully working in python it should just be a case of doing similar for every structure, class, property & function that you want accessible from python - which is potentially quite a time consuming task!
If you want to see another example of this in action, I did this here to wrap up this class
Building & using the extension
Visual studio should take care of building the extension - then using it is just a case of taking the .DLL and renaming it to .pyd (you can get VS to do this for you, but I'll leave that up to you).
Then you just need to copy your python file to somewhere on your python path (site-packages for example), import it and use it!
import brisk
patternPoint = brisk.BriskPatternPoint()
....
Anyway, I have spent a good hour or so writing this out - so I'm going to stop here. Apologies if I've left anything out or if anything isn't clear, but I'm doing this mostly from memory. Hopefully it's been of some help to you. If you need anything clarified please just leave a comment, or ask another question.
In case someone needs it, this what I have so far. Basically a BriskFeatureDetector that can be created in Python and then have detect called. Most of this is just confirming/copying what obmarg showed me, but I have added the details that get all the way to the pyd library.
The detect method is still incomplete for me though since it does not convert data types. Anyone who knows a good way to improve this, please do! I did find, for example, this library which seems to convert a numpy ndarray to a cv::Mat, but I don't have the time to figure out how to integrate it now. There are also other data types that need to be converted.
Install OpenCV 2.2
for the setup below, I installed to C:\opencv2.2
Something about the API or implementation has changed by version 2.4 that gave me problems (maybe the new Algorithm object?) so I stuck with 2.2 which BRISK was developed with.
Install Boost with Boost Python
for the setup below, I installed to C:\boost\boost_1_47
Create a Visual Studio 10 Project:
new project --> win32
for the setup below, I named it brisk
next --> DLL application type; empty project --> finished
at the top, change from Debug Win32 to Release Win32
Create main.cpp in Source Files
Do this before the project settings so the C++ options become available in the project settings
#include <boost/python.hpp>
#include <opencv2/opencv.hpp>
#include <brisk/brisk.h>
BOOST_PYTHON_MODULE(brisk)
{
using namespace boost::python;
//this long mess is the only way I could get the overloaded signatures to be accepted
void (cv::BriskFeatureDetector::*detect_1)(const cv::Mat&,
std::vector<cv::KeyPoint, std::allocator<cv::KeyPoint>>&,
const cv::Mat&) const
= &cv::BriskFeatureDetector::detect;
void (cv::BriskFeatureDetector::*detect_vector)(const std::vector<cv::Mat, std::allocator<cv::Mat>>&,
std::vector< std::vector< cv::KeyPoint, std::allocator<cv::KeyPoint>>, std::allocator< std::vector<cv::KeyPoint, std::allocator<cv::KeyPoint>>>>&,
const std::vector<cv::Mat, std::allocator<cv::Mat>>&) const
= &cv::BriskFeatureDetector::detect;
class_< cv::BriskFeatureDetector >( "BriskFeatureDetector", init<int, int>())
.def( "detect", detect_1)
;
}
Project Settings (right-click on the project --> properties):
Includes / Headers
Configuration Properties --> C/C++ --> General
add to Additional Include Directories (adjust to your own python / brisk / etc. base paths):
C:\opencv2.2\include;
C:\boost\boost_1_47;
C:\brisk\include;C:\brisk\thirdparty\agast\include;
C:\python27\include;
Libraries (linker)
Configuration Properties --> Linker --> General
add to Additional Library Directories (adjust to your own python / brisk / etc. base paths):
C:\opencv2.2\lib;
C:\boost\boost_1_47\lib;
C:\brisk\win32\lib;
C:\python27\Libs;
Configuration Properties --> Linker --> Input
add to Additional Dependencies (adjust to your own python / brisk / etc. base paths):
opencv_imgproc220.lib;opencv_core220.lib;opencv_features2d220.lib;
agast_static.lib; brisk_static.lib;
python27.lib;
.pyd output instead of .dll
Configuration Properties --> General
change Target Extension to .pyd
Build and rename if necessary
Right-click on the solution and build/rebuild
you may need to rename the output from "Brisk.pyd" to "brisk.pyd" or else python will give you errors about not being able to load the DLL
Make brisk.pyd available to python by putting it in site packages or by putting a .pth file that links to its path
Update Path environment variable
In windows settings, make sure the following are included in your path (again, adjust to your paths):
`C:\boost\boost_1_47\lib;C:\brisk\win32\bin`
I compiled my program with intel C++ compiler for windows (from Intel Composer 2011), and got an error message that libmmdd.lib cannot be found. I googled this problem, and some people said that I have to reinstall my compiler, and I did; however, that didn't resolve the problem, so I started looking in the intel compiler directory, and found that this file (and other required libraries as well) are located at
%CompilerDirectory%\compiler\lib\ia32
It doesn't make sense to write in the make file the whole absolute path of the libraries, so I started searching, and I could only find that %mklroot% points to the math kernel directory. And even with a -L%mklroot%/../compiler/lib/ia32 approach for linking I couldn't link to the libraries correctly, so eventually I did a lame move to solve the problem, which is, I copied every file the linker asks for to the source directory, and so was the problem temporarily solved.
Since this way of solving the problem isn't the best one, I wonder if there's a way to link to those libraries without having to copy the files. It's strange because the compiler should find its own libraries alone, but... I don't know...!
Any ideas? is there something like, %compilerroot%, that points to the compiler directory and that I could put in my makefile (or actually my qmake, since I'm using Qt).
Thanks for any efforts :-)
Instead of using %mklroot% try $$(mklroot) or $(mklroot).
You can find the explanation here:
Variables can be used to store the contents of environment variables.
These can be evaluated at the time that qmake is run, or included in
the generated Makefile for evaluation when the project is built.
To obtain the contents of an environment value when qmakeis run, use
the $$(...) operator:
DESTDIR = $$(PWD)
message(The project will be installed in $$DESTDIR)
In the above assignment, the value of the PWD environment variable is
read when the project file is processed.
To obtain the contents of an environment value at the time when the
generated Makefile is processed, use the $(...) operator:
DESTDIR = $$(PWD)
message(The project will be installed in $$DESTDIR)
DESTDIR = $(PWD)
message(The project will be installed in the value of PWD)
message(when the Makefile is processed.)
In the above assignment, the value of PWD is read immediately when the
project file is processed, but $(PWD) is assigned to DESTDIR in the
generated Makefile. This makes the build process more flexible as long
as the environment variable is set correctly when the Makefile is
processed.
EDIT:
It is strange that neither $$(mklroot) nor $(mklroot) gave you the result you would expect. I did a simple test to verify what I wrote above:
Opened a Command Prompt
Created a new environment variable 'mklroot' with a test value: set mklroot=C:\intel_libs
Verified the result of the previos step: echo %mklroot%. I got C:\intel_libs
Placed your 3 qmake functions at the end of my .pro file:
warning($(%MKLROOT%))
warning($(MKLROOT))
warning($$(MKLROOT))
Ran qmake: qmake. The result:
Project WARNING:
Project WARNING: c:\intel_libs
Project WARNING: c:\intel_libs
As you can see the 2nd and the 3rd warning() displayed the string I set to the environment variable.