ref: 5f7a6b7ea3c4ae1b51beffe3309e9b6b0491e71f
dir: /sys/src/cmd/scat/qtree.c/
#include <u.h> #include <libc.h> #include <bio.h> #include "sky.h" static void qtree_expand(Biobuf*, uchar*, int, int, uchar*); static void qtree_copy(uchar*, int, int, uchar*, int); static void qtree_bitins(uchar*, int, int, Pix*, int, int); static void read_bdirect(Biobuf*, Pix*, int, int, int, uchar*, int); void qtree_decode(Biobuf *infile, Pix *a, int n, int nqx, int nqy, int nbitplanes) { int log2n, k, bit, b, nqmax; int nx,ny,nfx,nfy,c; int nqx2, nqy2; unsigned char *scratch; /* * log2n is log2 of max(nqx,nqy) rounded up to next power of 2 */ nqmax = nqy; if(nqx > nqmax) nqmax = nqx; log2n = log(nqmax)/LN2+0.5; if (nqmax > (1<<log2n)) log2n++; /* * allocate scratch array for working space */ nqx2 = (nqx+1)/2; nqy2 = (nqy+1)/2; scratch = (uchar*)malloc(nqx2*nqy2); if(scratch == nil) { fprint(2, "qtree_decode: insufficient memory\n"); exits("memory"); } /* * now decode each bit plane, starting at the top * A is assumed to be initialized to zero */ for(bit = nbitplanes-1; bit >= 0; bit--) { /* * Was bitplane was quadtree-coded or written directly? */ b = input_nybble(infile); if(b == 0) { /* * bit map was written directly */ read_bdirect(infile, a, n, nqx, nqy, scratch, bit); } else if(b != 0xf) { fprint(2, "qtree_decode: bad format code %x\n",b); exits("format"); } else { /* * bitmap was quadtree-coded, do log2n expansions * read first code */ scratch[0] = input_huffman(infile); /* * do log2n expansions, reading codes from file as necessary */ nx = 1; ny = 1; nfx = nqx; nfy = nqy; c = 1<<log2n; for(k = 1; k<log2n; k++) { /* * this somewhat cryptic code generates the sequence * n[k-1] = (n[k]+1)/2 where n[log2n]=nqx or nqy */ c = c>>1; nx = nx<<1; ny = ny<<1; if(nfx <= c) nx--; else nfx -= c; if(nfy <= c) ny--; else nfy -= c; qtree_expand(infile, scratch, nx, ny, scratch); } /* * copy last set of 4-bit codes to bitplane bit of array a */ qtree_bitins(scratch, nqx, nqy, a, n, bit); } } free(scratch); } /* * do one quadtree expansion step on array a[(nqx+1)/2,(nqy+1)/2] * results put into b[nqx,nqy] (which may be the same as a) */ static void qtree_expand(Biobuf *infile, uchar *a, int nx, int ny, uchar *b) { uchar *b1; /* * first copy a to b, expanding each 4-bit value */ qtree_copy(a, nx, ny, b, ny); /* * now read new 4-bit values into b for each non-zero element */ b1 = &b[nx*ny]; while(b1 > b) { b1--; if(*b1 != 0) *b1 = input_huffman(infile); } } /* * copy 4-bit values from a[(nx+1)/2,(ny+1)/2] to b[nx,ny], expanding * each value to 2x2 pixels * a,b may be same array */ static void qtree_copy(uchar *a, int nx, int ny, uchar *b, int n) { int i, j, k, nx2, ny2; int s00, s10; /* * first copy 4-bit values to b * start at end in case a,b are same array */ nx2 = (nx+1)/2; ny2 = (ny+1)/2; k = ny2*(nx2-1) + ny2-1; /* k is index of a[i,j] */ for (i = nx2-1; i >= 0; i--) { s00 = 2*(n*i+ny2-1); /* s00 is index of b[2*i,2*j] */ for (j = ny2-1; j >= 0; j--) { b[s00] = a[k]; k -= 1; s00 -= 2; } } /* * now expand each 2x2 block */ for(i = 0; i<nx-1; i += 2) { s00 = n*i; /* s00 is index of b[i,j] */ s10 = s00+n; /* s10 is index of b[i+1,j] */ for(j = 0; j<ny-1; j += 2) { b[s10+1] = b[s00] & 1; b[s10 ] = (b[s00]>>1) & 1; b[s00+1] = (b[s00]>>2) & 1; b[s00 ] = (b[s00]>>3) & 1; s00 += 2; s10 += 2; } if(j < ny) { /* * row size is odd, do last element in row * s00+1, s10+1 are off edge */ b[s10 ] = (b[s00]>>1) & 1; b[s00 ] = (b[s00]>>3) & 1; } } if(i < nx) { /* * column size is odd, do last row * s10, s10+1 are off edge */ s00 = n*i; for (j = 0; j<ny-1; j += 2) { b[s00+1] = (b[s00]>>2) & 1; b[s00 ] = (b[s00]>>3) & 1; s00 += 2; } if(j < ny) { /* * both row and column size are odd, do corner element * s00+1, s10, s10+1 are off edge */ b[s00 ] = (b[s00]>>3) & 1; } } } /* * Copy 4-bit values from a[(nx+1)/2,(ny+1)/2] to b[nx,ny], expanding * each value to 2x2 pixels and inserting into bitplane BIT of B. * A,B may NOT be same array (it wouldn't make sense to be inserting * bits into the same array anyway.) */ static void qtree_bitins(uchar *a, int nx, int ny, Pix *b, int n, int bit) { int i, j; Pix *s00, *s10; Pix px; /* * expand each 2x2 block */ for(i=0; i<nx-1; i+=2) { s00 = &b[n*i]; /* s00 is index of b[i,j] */ s10 = s00+n; /* s10 is index of b[i+1,j] */ for(j=0; j<ny-1; j+=2) { px = *a++; s10[1] |= ( px & 1) << bit; s10[0] |= ((px>>1) & 1) << bit; s00[1] |= ((px>>2) & 1) << bit; s00[0] |= ((px>>3) & 1) << bit; s00 += 2; s10 += 2; } if(j < ny) { /* * row size is odd, do last element in row * s00+1, s10+1 are off edge */ px = *a++; s10[0] |= ((px>>1) & 1) << bit; s00[0] |= ((px>>3) & 1) << bit; } } if(i < nx) { /* * column size is odd, do last row * s10, s10+1 are off edge */ s00 = &b[n*i]; for(j=0; j<ny-1; j+=2) { px = *a++; s00[1] |= ((px>>2) & 1) << bit; s00[0] |= ((px>>3) & 1) << bit; s00 += 2; } if(j < ny) { /* * both row and column size are odd, do corner element * s00+1, s10, s10+1 are off edge */ s00[0] |= ((*a>>3) & 1) << bit; } } } static void read_bdirect(Biobuf *infile, Pix *a, int n, int nqx, int nqy, uchar *scratch, int bit) { int i; /* * read bit image packed 4 pixels/nybble */ for(i = 0; i < ((nqx+1)/2) * ((nqy+1)/2); i++) { scratch[i] = input_nybble(infile); } /* * insert in bitplane BIT of image A */ qtree_bitins(scratch, nqx, nqy, a, n, bit); }