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分类: 嵌入式

2011-05-11 10:08:44

如对Android原生(Natvie)C开发还任何疑问,请参阅《Android原生(Native)C开发之一:环境搭建篇》:http://blog.sina.com.cn/s/blog_4a0a39c30100auh9.html

 

虽然现在能通过交叉环境编译程序,并push到Android上执行,但那只是console台程序,是不是有些单调呢?下面就要看如何通过Linux的 framebuffer 技术在Android上画图形,关于Linux的framebuffer技术,这里就不再详细讲解了,请大家google一下。

 

操作framebuffer的主要步骤如下:

1、打开一个可用的FrameBuffer设备;
2、通过mmap调用把显卡的物理内存空间映射到用户空间;
3、更改内存空间里的像素数据并显示;

4、退出时关闭framebuffer设备。

 

下面的这个例子简单地用framebuffer画了一个渐变的进度条,代码 framebuf.c 如下:

#include
#include
#include
#include
#include

inline static unsigned short int make16color(unsigned char r, unsigned char g, unsigned char b)
{
    return (
 (((r >> 3) & 31) << 11) |
 (((g >> 2) & 63) << 5)  |
  ((b >> 3) & 31)        );
}

int main() {
    int fbfd = 0;
    struct fb_var_screeninfo vinfo;
    struct fb_fix_screeninfo finfo;
    long int screensize = 0;
 char *fbp = 0;
    int x = 0, y = 0;
    int guage_height = 20, step = 10;
    long int location = 0;

    // Open the file for reading and writing
    fbfd = open("/dev/graphics/fb0", O_RDWR);
    if (!fbfd) {
        printf("Error: cannot open framebuffer device.\n");
        exit(1);
    }
    printf("The framebuffer device was opened successfully.\n");

    // Get fixed screen information
    if (ioctl(fbfd, FBIOGET_FSCREENINFO, &finfo)) {
        printf("Error reading fixed information.\n");
        exit(2);
    }

    // Get variable screen information
    if (ioctl(fbfd, FBIOGET_VSCREENINFO, &vinfo)) {
        printf("Error reading variable information.\n");
        exit(3);
    }

 printf("sizeof(unsigned short) = %d\n", sizeof(unsigned short));
    printf("%dx%d, %dbpp\n", vinfo.xres, vinfo.yres, vinfo.bits_per_pixel );
 printf("xoffset:%d, yoffset:%d, line_length: %d\n", vinfo.xoffset, vinfo.yoffset, finfo.line_length );

    // Figure out the size of the screen in bytes
    screensize = vinfo.xres * vinfo.yres * vinfo.bits_per_pixel / 8;;

    // Map the device to memory
    fbp = (char *)mmap(0, screensize, PROT_READ | PROT_WRITE, MAP_SHARED,
                       fbfd, 0);

    if ((int)fbp == -1) {
        printf("Error: failed to map framebuffer device to memory.\n");
        exit(4);
    }
    printf("The framebuffer device was mapped to memory successfully.\n");

 //set to black color first
 memset(fbp, 0, screensize);
    //draw rectangle
    y = (vinfo.yres - guage_height) / 2 - 2;       // Where we are going to put the pixel
    for (x = step - 2; x < vinfo.xres - step + 2; x++) {
        location = (x+vinfo.xoffset) * (vinfo.bits_per_pixel/8) +
                       (y+vinfo.yoffset) * finfo.line_length;

        *((unsigned short int*)(fbp + location)) = 255;
    }

    y = (vinfo.yres + guage_height) / 2 + 2;       // Where we are going to put the pixel
    for (x = step - 2; x < vinfo.xres - step + 2; x++) {
        location = (x+vinfo.xoffset) * (vinfo.bits_per_pixel/8) +
                       (y+vinfo.yoffset) * finfo.line_length;

        *((unsigned short int*)(fbp + location)) = 255;
    }

    x = step - 2;
    for (y = (vinfo.yres - guage_height) / 2 - 2; y < (vinfo.yres + guage_height) / 2 + 2; y++) {
        location = (x+vinfo.xoffset) * (vinfo.bits_per_pixel/8) +
                       (y+vinfo.yoffset) * finfo.line_length;

        *((unsigned short int*)(fbp + location)) = 255;
    }

    x = vinfo.xres - step + 2;
    for (y = (vinfo.yres - guage_height) / 2 - 2; y < (vinfo.yres + guage_height) / 2 + 2; y++) {
        location = (x+vinfo.xoffset) * (vinfo.bits_per_pixel/8) +
                       (y+vinfo.yoffset) * finfo.line_length;

        *((unsigned short int*)(fbp + location)) = 255;
    }

    // Figure out where in memory to put the pixel
    for ( x = step; x < vinfo.xres - step; x++ ) {
        for ( y = (vinfo.yres - guage_height) / 2; y < (vinfo.yres + guage_height) / 2; y++ ) {
            location = (x+vinfo.xoffset) * (vinfo.bits_per_pixel/8) +
                       (y+vinfo.yoffset) * finfo.line_length;

            if ( vinfo.bits_per_pixel == 32 ) {
                *(fbp + location) = 100;        // Some blue
                *(fbp + location + 1) = 15+(x-100)/2;     // A little green
                *(fbp + location + 2) = 200-(y-100)/5;    // A lot of red
                *(fbp + location + 3) = 0;      // No transparency
            } else { //assume 16bpp
                unsigned char b = 255 * x / (vinfo.xres - step);
                unsigned char g = 255;     // (x - 100)/6 A little green
                unsigned char r = 255;    // A lot of red
                unsigned short int t = make16color(r, g, b);
                *((unsigned short int*)(fbp + location)) = t;
            }
        }
  //printf("x = %d, temp = %d\n", x, temp);
        //sleep to see it
        usleep(200);
    }
    //clean framebuffer
    munmap(fbp, screensize);
    close(fbfd);

    return 0;
}

注意,在Android环境,framebuffer设备不是象linux一样的 /dev/fb0,而是 /dev/graphics/fb0

fbfd = open("/dev/graphics/fb0", O_RDWR);

打开framebuffer设备,

    fbp = (char *)mmap(0, screensize, PROT_READ | PROT_WRITE, MAP_SHARED,
                       fbfd, 0);

 

将设备map到一块内存,然后就可以操作这块内存空间来显示你想画的图形了。

最后别忘了关闭设备:

    munmap(fbp, screensize);
    close(fbfd);

 

效果图如下:

Android原生(Native)C开发之二:framebuffer篇

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