How to actually see a Bitmap taken from an Android heap dump
In the process of tracking severe memory issues in my app, I looked at several heap dumps from my app, and most of the time I have a HUGE bitmap that I don\'t know of.
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OK -- After quite some unsuccessful tries, I finally got something out of this byte array. I wrote this simple C program to convert the byte array to a Windows Bitmap file. I'm dropping the code in case somebody is interested.
I compiled this against VisualC 6.0 and gcc 3.4.4, it should work on any OS (tested on Windows, Linux and MacOS X).#include#include #include #include /* Types */ typedef unsigned char byte; typedef unsigned short uint16_t; typedef unsigned int uint32_t; typedef int int32_t; /* Constants */ #define RMASK 0x00ff0000 #define GMASK 0x0000ff00 #define BMASK 0x000000ff #define AMASK 0xff000000 /* Structures */ struct bmpfile_magic { unsigned char magic[2]; }; struct bmpfile_header { uint32_t filesz; uint16_t creator1; uint16_t creator2; uint32_t bmp_offset; }; struct bmpfile_dibheader { uint32_t header_sz; uint32_t width; uint32_t height; uint16_t nplanes; uint16_t bitspp; uint32_t compress_type; uint32_t bmp_bytesz; int32_t hres; int32_t vres; uint32_t ncolors; uint32_t nimpcolors; uint32_t rmask, gmask, bmask, amask; uint32_t colorspace_type; byte colorspace[0x24]; uint32_t rgamma, ggamma, bgamma; }; /* Displays usage info and exits */ void usage(char *cmd) { printf("Usage:\t%s \n" "\timg_src:\timage byte buffer obtained from Eclipse MAT, using 'copy > save value to file' while selecting the byte[] buffer corresponding to an android.graphics.Bitmap\n" "\timg_dest:\tpath to target *.bmp file\n" "\twidth:\t\tpicture width, obtained in Eclipse MAT, selecting the android.graphics.Bitmap object and seeing the object member values\n" "\theight:\t\tpicture height\n\n", cmd); exit(1); } /* C entry point */ int main(int argc, char **argv) { FILE *in, *out; char *file_in, *file_out; int w, h, W, H; byte r, g, b, a, *image; struct bmpfile_magic magic; struct bmpfile_header header; struct bmpfile_dibheader dibheader; /* Parse command line */ if (argc < 5) { usage(argv[0]); } file_in = argv[1]; file_out = argv[2]; W = atoi(argv[3]); H = atoi(argv[4]); in = fopen(file_in, "rb"); out = fopen(file_out, "wb"); /* Check parameters */ if (in == NULL || out == NULL || W == 0 || H == 0) { usage(argv[0]); } /* Init BMP headers */ magic.magic[0] = 'B'; magic.magic[1] = 'M'; header.filesz = W * H * 4 + sizeof(magic) + sizeof(header) + sizeof(dibheader); header.creator1 = 0; header.creator2 = 0; header.bmp_offset = sizeof(magic) + sizeof(header) + sizeof(dibheader); dibheader.header_sz = sizeof(dibheader); dibheader.width = W; dibheader.height = H; dibheader.nplanes = 1; dibheader.bitspp = 32; dibheader.compress_type = 3; dibheader.bmp_bytesz = W * H * 4; dibheader.hres = 2835; dibheader.vres = 2835; dibheader.ncolors = 0; dibheader.nimpcolors = 0; dibheader.rmask = RMASK; dibheader.gmask = BMASK; dibheader.bmask = GMASK; dibheader.amask = AMASK; dibheader.colorspace_type = 0x57696e20; memset(&dibheader.colorspace, 0, sizeof(dibheader.colorspace)); dibheader.rgamma = dibheader.bgamma = dibheader.ggamma = 0; /* Read picture data */ image = (byte*) malloc(4*W*H); if (image == NULL) { printf("Could not allocate a %d-byte buffer.\n", 4*W*H); exit(1); } fread(image, 4*W*H, sizeof(byte), in); fclose(in); /* Write header */ fwrite(&magic, sizeof(magic), 1, out); fwrite(&header, sizeof(header), 1, out); fwrite(&dibheader, sizeof(dibheader), 1, out); /* Convert the byte array to BMP format */ for (h = H-1; h >= 0; h--) { for (w = 0; w < W; w++) { r = *(image + w*4 + 4 * W * h); b = *(image + w*4 + 4 * W * h + 1); g = *(image + w*4 + 4 * W * h + 2); a = *(image + w*4 + 4 * W * h + 3); fwrite(&b, 1, 1, out); fwrite(&g, 1, 1, out); fwrite(&r, 1, 1, out); fwrite(&a, 1, 1, out); } } free(image); fclose(out); } So using this tool I was able to recognise the picture used to generate this 1280x1920 bitmap.
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