Windows下编译Triangle

wang_y50

下载源码

http://www.cs.cmu.edu/~quake/triangle.html

解压

说明

showme是基于LINUX下的X11开发的，在windows下无法正常运行使，所以实际上用到的，也就是如下两个文件

编译环境

win10
vs2017

新建解决方案

添加现有项，并删除原来项

修改项目属性

初次编译，报错

修改头文件

#ifndef _TRIANGLE_HEADER_  
#define _TRIANGLE_HEADER_
#ifdef _cplusplus
extern "C" {
#endif


#define REAL double  
#define ANSI_DECLARATORS  
#define VOID int
#include "triangle.h"


//_____________________________________________________________
//原来代码
//_____________________________________________________________



#ifdef _cplusplus
}
#endif//_cplusplus


#endif//_TRIANGLE_HEADER_

再次编译

修改源文件

再次编译

添加预处理器

再次运行

修改源文件

再次编译

至此debug编译成功

编译release

修改release下的项目属性

复制拷贝lib和头文件

复制头文件至C:\Shared_Folders\VCPKG_201912_installed_x64\include\triangle，注意此时复制的是修改后的头文件

复制C:\Users\Administrator\Documents\Visual Studio 2017\Projects\libTriangle\x64\Debug\libTriangle.lib
至
C:\Shared_Folders\VCPKG_201912_installed_x64\debug\lib\libTriangled.lib
（注意重命名，加以区别release与debug）
复制C:\Users\Administrator\Documents\Visual Studio 2017\Projects\libTriangle\x64\Release\libTriangle.lib
至
C:\Shared_Folders\VCPKG_201912_installed_x64\lib\libTriangle.lib

在目标项目里调用编译好的静态库

运行调用测试代码

    struct triangulateio in, mid, out, vorout;


    /* Define input points. */


    in.numberofpoints = 4;
    in.numberofpointattributes = 1;
    in.pointlist = (REAL *)malloc(in.numberofpoints * 2 * sizeof(REAL));
    in.pointlist[0] = 0.0;
    in.pointlist[1] = 0.0;
    in.pointlist[2] = 1.0;
    in.pointlist[3] = 0.0;
    in.pointlist[4] = 1.0;
    in.pointlist[5] = 10.0;
    in.pointlist[6] = 0.0;
    in.pointlist[7] = 10.0;
    in.pointattributelist = (REAL *)malloc(in.numberofpoints *
        in.numberofpointattributes *
        sizeof(REAL));
    in.pointattributelist[0] = 0.0;
    in.pointattributelist[1] = 1.0;
    in.pointattributelist[2] = 11.0;
    in.pointattributelist[3] = 10.0;
    in.pointmarkerlist = (int *)malloc(in.numberofpoints * sizeof(int));
    in.pointmarkerlist[0] = 0;
    in.pointmarkerlist[1] = 2;
    in.pointmarkerlist[2] = 0;
    in.pointmarkerlist[3] = 0;


    in.numberofsegments = 0;
    in.numberofholes = 0;
    in.numberofregions = 1;
    in.regionlist = (REAL *)malloc(in.numberofregions * 4 * sizeof(REAL));
    in.regionlist[0] = 0.5;
    in.regionlist[1] = 5.0;
    in.regionlist[2] = 7.0;            /* Regional attribute (for whole mesh). */
    in.regionlist[3] = 0.1;          /* Area constraint that will not be used. */


    printf("Input point set:\n\n");
    //report(&in, 1, 0, 0, 0, 0, 0);


    /* Make necessary initializations so that Triangle can return a */
    /*   triangulation in `mid' and a voronoi diagram in `vorout'.  */


    mid.pointlist = (REAL *)NULL;            /* Not needed if -N switch used. */
    /* Not needed if -N switch used or number of point attributes is zero: */
    mid.pointattributelist = (REAL *)NULL;
    mid.pointmarkerlist = (int *)NULL; /* Not needed if -N or -B switch used. */
    mid.trianglelist = (int *)NULL;          /* Not needed if -E switch used. */
    /* Not needed if -E switch used or number of triangle attributes is zero: */
    mid.triangleattributelist = (REAL *)NULL;
    mid.neighborlist = (int *)NULL;         /* Needed only if -n switch used. */
    /* Needed only if segments are output (-p or -c) and -P not used: */
    mid.segmentlist = (int *)NULL;
    /* Needed only if segments are output (-p or -c) and -P and -B not used: */
    mid.segmentmarkerlist = (int *)NULL;
    mid.edgelist = (int *)NULL;             /* Needed only if -e switch used. */
    mid.edgemarkerlist = (int *)NULL;   /* Needed if -e used and -B not used. */


    vorout.pointlist = (REAL *)NULL;        /* Needed only if -v switch used. */
    /* Needed only if -v switch used and number of attributes is not zero: */
    vorout.pointattributelist = (REAL *)NULL;
    vorout.edgelist = (int *)NULL;          /* Needed only if -v switch used. */
    vorout.normlist = (REAL *)NULL;         /* Needed only if -v switch used. */


    /* Triangulate the points.  Switches are chosen to read and write a  */
    /*   PSLG (p), preserve the convex hull (c), number everything from  */
    /*   zero (z), assign a regional attribute to each element (A), and  */
    /*   produce an edge list (e), a Voronoi diagram (v), and a triangle */
    /*   neighbor list (n).                                              */


    triangulate("pczAevn", &in, &mid, &vorout);


    printf("Initial triangulation:\n\n");
    //report(&mid, 1, 1, 1, 1, 1, 0);
    printf("Initial Voronoi diagram:\n\n");
    //report(&vorout, 0, 0, 0, 0, 1, 1);


    /* Attach area constraints to the triangles in preparation for */
    /*   refining the triangulation.                               */


    /* Needed only if -r and -a switches used: */
    mid.trianglearealist = (REAL *)malloc(mid.numberoftriangles * sizeof(REAL));
    mid.trianglearealist[0] = 3.0;
    mid.trianglearealist[1] = 1.0;


    /* Make necessary initializations so that Triangle can return a */
    /*   triangulation in `out'.                                    */


    out.pointlist = (REAL *)NULL;            /* Not needed if -N switch used. */
    /* Not needed if -N switch used or number of attributes is zero: */
    out.pointattributelist = (REAL *)NULL;
    out.trianglelist = (int *)NULL;          /* Not needed if -E switch used. */
    /* Not needed if -E switch used or number of triangle attributes is zero: */
    out.triangleattributelist = (REAL *)NULL;


    /* Refine the triangulation according to the attached */
    /*   triangle area constraints.                       */


    triangulate("prazBP", &mid, &out, (struct triangulateio *) NULL);


    printf("Refined triangulation:\n\n");
    //report(&out, 0, 1, 0, 0, 0, 0);


    /* Free all allocated arrays, including those allocated by Triangle. */


    free(in.pointlist);
    free(in.pointattributelist);
    free(in.pointmarkerlist);
    free(in.regionlist);
    free(mid.pointlist);
    free(mid.pointattributelist);
    free(mid.pointmarkerlist);
    free(mid.trianglelist);
    free(mid.triangleattributelist);
    free(mid.trianglearealist);
    free(mid.neighborlist);
    free(mid.segmentlist);
    free(mid.segmentmarkerlist);
    free(mid.edgelist);
    free(mid.edgemarkerlist);
    free(vorout.pointlist);
    free(vorout.pointattributelist);
    free(vorout.edgelist);
    free(vorout.normlist);
    free(out.pointlist);
    free(out.pointattributelist);
    free(out.trianglelist);
    free(out.triangleattributelist);


    QMessageBox::information(NULL, "INFO", "Finish", QMessageBox::Ok, QMessageBox::Ok);
    //return 0;

运行目标程序测试

我之前一直以为是自己编的测试数据不符合条件，所以才报错。

后来发现用Triangle库本身所提供的代码测试，仍然报错。就怀疑是编译除了问题。

但是编译时成功。

无意间发现了一个博客上提到的一个问题

https://blog.csdn.net/u010750137/article/details/106028070

抱着试一试的态度，修改了下。最终问题得到了解决。

重新编译，生产静态库后再次替换。

开源开发很多都是坑啊~~

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posted @ 2020-08-06 15:42 bigeo 阅读(1487) 评论(1) 收藏举报

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Windows下编译Triangle

下载源码

解压

说明

编译环境

新建解决方案

添加现有项，并删除原来项

修改项目属性

初次编译，报错

修改头文件

再次编译

修改源文件

再次编译

添加预处理器

再次运行

修改源文件

再次编译

至此debug编译成功

编译release

修改release下的项目属性

复制拷贝lib和头文件

在目标项目里调用编译好的静态库

运行调用测试代码

运行目标程序测试

我之前一直以为是自己编的测试数据不符合条件，所以才报错。

后来发现用Triangle库本身所提供的代码测试，仍然报错。就怀疑是编译除了问题。

但是编译时成功。

无意间发现了一个博客上提到的一个问题

抱着试一试的态度，修改了下。最终问题得到了解决。

重新编译，生产静态库后再次替换。

开源开发很多都是坑啊~~

<wiz_tmp_tag id="wiz-table-range-border" contenteditable="false" style="display: none;">

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