ref: 6ebf0a517b195de7f29ebc9ce817a91e5276107d
dir: /libmemdraw/alloc.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <memdraw.h> #define poolalloc(a, b) malloc(b) #define poolfree(a, b) free(b) void memimagemove(void *from, void *to) { Memdata *md; md = *(Memdata**)to; if(md->base != from){ print("compacted data not right: #%p\n", md->base); abort(); } md->base = to; /* if allocmemimage changes this must change too */ md->bdata = (uchar*)md->base+sizeof(Memdata*)+sizeof(ulong); } Memimage* allocmemimaged(Rectangle r, ulong chan, Memdata *md, void *X) { int d; ulong l; Memimage *i; if(Dx(r) <= 0 || Dy(r) <= 0){ werrstr("bad rectangle %R", r); return nil; } if((d = chantodepth(chan)) == 0) { werrstr("bad channel descriptor %.8lux", chan); return nil; } l = wordsperline(r, d); i = mallocz(sizeof(Memimage), 1); if(i == nil) return nil; i->X = X; i->data = md; i->zero = sizeof(ulong)*l*r.min.y; if(r.min.x >= 0) i->zero += (r.min.x*d)/8; else i->zero -= (-r.min.x*d+7)/8; i->zero = -i->zero; i->width = l; i->r = r; i->clipr = r; i->flags = 0; i->layer = nil; i->cmap = memdefcmap; if(memsetchan(i, chan) < 0){ free(i); return nil; } return i; } Memimage* _allocmemimage(Rectangle r, ulong chan) { int d; u32int l, nw; uchar *p; Memdata *md; Memimage *i; if((d = chantodepth(chan)) == 0) { werrstr("bad channel descriptor %.8lux", chan); return nil; } l = wordsperline(r, d); nw = l*Dy(r); md = malloc(sizeof(Memdata)); if(md == nil) return nil; md->ref = 1; md->base = poolalloc(imagmem, sizeof(Memdata*)+(1+nw)*sizeof(ulong)); if(md->base == nil){ free(md); return nil; } p = (uchar*)md->base; *(Memdata**)p = md; p += sizeof(Memdata*); *(ulong*)p = getcallerpc(&r); p += sizeof(ulong); /* if this changes, memimagemove must change too */ md->bdata = p; md->allocd = 1; i = allocmemimaged(r, chan, md, nil); if(i == nil){ poolfree(imagmem, md->base); free(md); return nil; } md->imref = i; return i; } void _freememimage(Memimage *i) { if(i == nil) return; if(i->data->ref-- == 1 && i->data->allocd){ if(i->data->base) poolfree(imagmem, i->data->base); free(i->data); } free(i); } /* * Wordaddr is deprecated. */ ulong* wordaddr(Memimage *i, Point p) { return (ulong*) ((uintptr)byteaddr(i, p) & ~(sizeof(ulong)-1)); } uchar* byteaddr(Memimage *i, Point p) { uchar *a; a = i->data->bdata+i->zero+sizeof(ulong)*p.y*i->width; if(i->depth < 8){ /* * We need to always round down, * but C rounds toward zero. */ int np; np = 8/i->depth; if(p.x < 0) return a+(p.x-np+1)/np; else return a+p.x/np; } else return a+p.x*(i->depth/8); } int memsetchan(Memimage *i, ulong chan) { int d; int t, j, k; ulong cc; int bytes; if((d = chantodepth(chan)) == 0) { werrstr("bad channel descriptor"); return -1; } i->depth = d; i->chan = chan; i->flags &= ~(Fgrey|Falpha|Fcmap|Fbytes); bytes = 1; for(cc=chan, j=0, k=0; cc; j+=NBITS(cc), cc>>=8, k++){ t=TYPE(cc); if(t < 0 || t >= NChan){ werrstr("bad channel string"); return -1; } if(t == CGrey) i->flags |= Fgrey; if(t == CAlpha) i->flags |= Falpha; if(t == CMap && i->cmap == nil){ i->cmap = memdefcmap; i->flags |= Fcmap; } i->shift[t] = j; i->mask[t] = (1<<NBITS(cc))-1; i->nbits[t] = NBITS(cc); if(NBITS(cc) != 8) bytes = 0; } i->nchan = k; if(bytes) i->flags |= Fbytes; return 0; }