在win和android上同时进行OpenCV程序设计

基于qt进行Android图像处理项目设计的时候，初期可以首先在windows上进行调试，等到比较成熟后将代码转换到adnroid上。

这里仅以widget为例，如果使用qtquick是一样的。具体以下几步：

1、项目创建的时候，选择android和desktop两类（前提是安装的时候已经都选择了）

这样，在程序设计的过程中，我们就可以通过切换来进行选择

如果对于已经配置好kti（构建套件）的项目，可以先删除目录下的.pro.user文件，而后重新打开项目，则自动跳出构建套件配置界面

2、配置文件：

对配置文件的修改是主要知识点所在，首先在不同平台下，要填写不同的前缀。对于pc平台是

win32 {……}

对于Android平台是

android {……}

大小写不可写错，此外就是OpenCV基础环境的配置。对于pc平台需要做的是配置系统路径、设置include和lib路径；对于Android平台需要做的是设置include和lib路径，并且将libopencv_java3.so拷贝到最后的.apk中去。参考的配置文件如下，其中重要的部分已经加粗。

QT += quick
QT += multimedia
CONFIG += c++11

win32 {
message("当前使用PC配置")
WIN32_OPENCV = D:/JsxyheluOpenCV/New-QT-dll/install
INCLUDEPATH +=
$$WIN32_OPENCV/include/opencv
$$WIN32_OPENCV/include/opencv2
$$WIN32_OPENCV/include
LIBS +=
$$WIN32_OPENCV/x86/mingw/lib/libopencv_core320.dll.a

$$WIN32_OPENCV/x86/mingw/lib/libopencv_highgui320.dll.a
$$WIN32_OPENCV/x86/mingw/lib/libopencv_imgproc320.dll.a
$$WIN32_OPENCV/x86/mingw/lib/libopencv_imgcodecs320.dll.a
$$WIN32_OPENCV/x86/mingw/lib/libopencv_highgui320.dll.a
$$WIN32_OPENCV/x86/mingw/lib/libopencv_videoio320.dll.a
}

android {
message("当前使用Android配置")
ANDROID_OPENCV = D:/OpenCV-android-sdk/sdk/native
INCLUDEPATH +=
$$ANDROID_OPENCV/jni/include/opencv
$$ANDROID_OPENCV/jni/include/opencv2
$$ANDROID_OPENCV/jni/include
LIBS +=
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_ml.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_objdetect.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_calib3d.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_video.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_features2d.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_highgui.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_flann.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_imgproc.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_core.a
$$ANDROID_OPENCV/3rdparty/libs/armeabi-v7a/liblibjpeg.a
$$ANDROID_OPENCV/3rdparty/libs/armeabi-v7a/liblibpng.a
$$ANDROID_OPENCV/3rdparty/libs/armeabi-v7a/liblibtiff.a
$$ANDROID_OPENCV/3rdparty/libs/armeabi-v7a/liblibjasper.a
$$ANDROID_OPENCV/3rdparty/libs/armeabi-v7a/libtbb.a
$$ANDROID_OPENCV/3rdparty/libs/armeabi-v7a/libtegra_hal.a
$$ANDROID_OPENCV/libs/armeabi-v7a/libopencv_java3.so
}

# The following define makes your compiler emit warnings if you use
# any feature of Qt which as been marked deprecated (the exact warnings
# depend on your compiler). Please consult the documentation of the
# deprecated API in order to know how to port your code away from it.
DEFINES += QT_DEPRECATED_WARNINGS

# You can also make your code fail to compile if you use deprecated APIs.
# In order to do so, uncomment the following line.
# You can also select to disable deprecated APIs only up to a certain version of Qt.
#DEFINES += QT_DISABLE_DEPRECATED_BEFORE=0x060000 # disables all the APIs deprecated before Qt 6.0.0

SOURCES += main.cpp
todocpp.cpp
calibration.cpp

RESOURCES += qml.qrc

# Additional import path used to resolve QML modules in Qt Creator's code model
QML_IMPORT_PATH =

# Additional import path used to resolve QML modules just for Qt Quick Designer
QML_DESIGNER_IMPORT_PATH =

# Default rules for deployment.
qnx: target.path = /tmp/$${TARGET}/bin
else: unix:!android: target.path = /opt/$${TARGET}/bin
!isEmpty(target.path): INSTALLS += target

HEADERS +=
todocpp.h
calibration.h

DISTFILES +=
android/AndroidManifest.xml
android/gradle/wrapper/gradle-wrapper.jar
android/gradlew
android/res/values/libs.xml
android/build.gradle
android/gradle/wrapper/gradle-wrapper.properties
android/gradlew.bat 

contains(ANDROID_TARGET_ARCH,armeabi-v7a) {
ANDROID_EXTRA_LIBS =
D:/OpenCV-android-sdk/sdk/native/libs/armeabi-v7a/libopencv_java3.so
}
ANDROID_PACKAGE_SOURCE_DIR = $$PWD/android

并设置正确的环境变量（如何在Windows和Android平台下编译OpenCV请参考博客中其它博文）

3、编写界面和代码

为说明方便，在简单的widget上面显示一个自己生成的圆。其中圆的生成和最终显示都调用OpenCV代码。那么如果这个是成功的，则证明OpenCV环境配置正确。

#include "mainwindow.h"
#include "ui_mainwindow.h"
using namespace cv;
Mat tmp;
MainWindow::MainWindow(QWidget *parent) :
    QMainWindow(parent),
    ui(new Ui::MainWindow)
{
    ui->setupUi(this);
}

MainWindow::~MainWindow()
{
    delete ui;
}

void MainWindow::on_pushButton_pressed()
{
    Mat src(Size(640,480),CV_8UC1,cv::Scalar(255));
    circle(src,Point(100,100),100,Scalar(0),-1);
    // 格式转换
    QPixmap qpixmap = Mat2QImage(src);
    // 将图片显示到label上
    ui->label->setPixmap(qpixmap);
}

//格式转换
QPixmap Mat2QImage(Mat src)
{
    QImage img;
    //根据QT的显示方法进行转换
    if(src.channels() == 3)
    {
        cvtColor( src, tmp, CV_BGR2RGB );
        img = QImage( (const unsigned char*)(tmp.data), tmp.cols, tmp.rows, QImage::Format_RGB888 );
    }
    else
    {
        img = QImage( (const unsigned char*)(src.data), src.cols, src.rows, QImage::Format_Grayscale8 );
    }
    QPixmap qimg = QPixmap::fromImage(img) ;
    return qimg;
}

4、结果和小结

在两类平台上进行配置，其原始原因是为了能够加快项目初期，Android+OpenCV处理程序的调试速度，主要的难点在于.pro文件的配置。

在项目实践过程中的如何提高实现速度？我们在后面的文章中继续分享。

感谢阅读至此，希望有所帮助！

来自为知笔记(Wiz)