mirror of
https://github.com/0intro/conterm
synced 2024-11-29 08:53:11 +03:00
205 lines
3.8 KiB
C
205 lines
3.8 KiB
C
#include <u.h>
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#include <libc.h>
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#include <draw.h>
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#include <memdraw.h>
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#include "xmem.h"
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/* perfect approximation to NTSC = .299r+.587g+.114b when 0 ≤ r,g,b < 256 */
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#define RGB2K(r,g,b) ((156763*(r)+307758*(g)+59769*(b))>>19)
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Memimage*
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xallocmemimage(Rectangle r, ulong chan, int pmid)
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{
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Memimage *m;
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Xmem *xm;
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XImage *xi;
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int offset;
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int d;
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m = _allocmemimage(r, chan);
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if(chan != GREY1 && chan != xscreenchan)
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return m;
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d = m->depth;
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xm = mallocz(sizeof(Xmem), 1);
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if(pmid != PMundef)
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xm->pmid = pmid;
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else
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xm->pmid = XCreatePixmap(xdisplay, xscreenid, Dx(r), Dy(r), (d==32) ? 24 : d);
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if(m->depth == 24)
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offset = r.min.x&(4-1);
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else
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offset = r.min.x&(31/m->depth);
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r.min.x -= offset;
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assert(wordsperline(r, m->depth) <= m->width);
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xi = XCreateImage(xdisplay, xvis, m->depth==32?24:m->depth, ZPixmap, 0,
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(char*)m->data->bdata, Dx(r), Dy(r), 32, m->width*sizeof(ulong));
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if(xi == nil){
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_freememimage(m);
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return nil;
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}
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xm->xi = xi;
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xm->pc = getcallerpc(&r);
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xm->r = r;
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/*
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* Set the parameters of the XImage so its memory looks exactly like a
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* Memimage, so we can call _memimagedraw on the same data. All frame
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* buffers we've seen, and Plan 9's graphics code, require big-endian
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* bits within bytes, but little endian byte order within pixels.
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*/
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xi->bitmap_unit = m->depth < 8 || m->depth == 24 ? 8 : m->depth;
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xi->byte_order = LSBFirst;
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xi->bitmap_bit_order = MSBFirst;
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xi->bitmap_pad = 32;
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xm->r = Rect(0,0,0,0);
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XInitImage(xi);
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XFlush(xdisplay);
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m->X = xm;
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return m;
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}
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Memimage*
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allocmemimage(Rectangle r, ulong chan)
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{
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return xallocmemimage(r, chan, PMundef);
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}
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void
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freememimage(Memimage *m)
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{
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Xmem *xm;
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if(m == nil)
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return;
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if(m->data->ref == 1){
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if((xm = m->X) != nil){
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if(xm->xi){
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xm->xi->data = nil;
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XFree(xm->xi);
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}
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XFreePixmap(xdisplay, xm->pmid);
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free(xm);
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m->X = nil;
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}
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}
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_freememimage(m);
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}
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void
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memfillcolor(Memimage *m, ulong val)
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{
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_memfillcolor(m, val);
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if(m->X){
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if((val & 0xFF) == 0xFF)
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xfillcolor(m, m->r, _rgbatoimg(m, val));
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else
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putXdata(m, m->r);
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}
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}
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static void
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addrect(Rectangle *rp, Rectangle r)
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{
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if(rp->min.x >= rp->max.x)
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*rp = r;
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else
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combinerect(rp, r);
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}
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XImage*
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getXdata(Memimage *m, Rectangle r)
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{
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uchar *p;
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int x, y;
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Xmem *xm;
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Point xdelta, delta;
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Point tp;
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xm = m->X;
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if(xm == nil)
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return nil;
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assert(xm != nil && xm->xi != nil);
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if(xm->dirty == 0)
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return xm->xi;
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r = xm->dirtyr;
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if(Dx(r)==0 || Dy(r)==0)
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return xm->xi;
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delta = subpt(r.min, m->r.min);
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tp = xm->r.min; /* avoid unaligned access on digital unix */
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xdelta = subpt(r.min, tp);
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XGetSubImage(xdisplay, xm->pmid, delta.x, delta.y, Dx(r), Dy(r),
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AllPlanes, ZPixmap, xm->xi, xdelta.x, xdelta.y);
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if(xtblbit && m->chan == CMAP8)
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for(y=r.min.y; y<r.max.y; y++)
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for(x=r.min.x, p=byteaddr(m, Pt(x,y)); x<r.max.x; x++, p++)
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*p = x11toplan9[*p];
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xm->dirty = 0;
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xm->dirtyr = Rect(0,0,0,0);
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return xm->xi;
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}
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void
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putXdata(Memimage *m, Rectangle r)
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{
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Xmem *xm;
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XImage *xi;
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GC g;
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Point xdelta, delta;
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Point tp;
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int x, y;
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uchar *p;
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xm = m->X;
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if(xm == nil)
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return;
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assert(xm != nil);
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assert(xm->xi != nil);
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xi = xm->xi;
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g = (m->chan == GREY1) ? xgccopy0 : xgccopy;
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delta = subpt(r.min, m->r.min);
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tp = xm->r.min; /* avoid unaligned access on digital unix */
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xdelta = subpt(r.min, tp);
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if(xtblbit && m->chan == CMAP8)
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for(y=r.min.y; y<r.max.y; y++)
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for(x=r.min.x, p=byteaddr(m, Pt(x,y)); x<r.max.x; x++, p++)
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*p = plan9tox11[*p];
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XPutImage(xdisplay, xm->pmid, g, xi, xdelta.x, xdelta.y, delta.x, delta.y, Dx(r), Dy(r));
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if(xtblbit && m->chan == CMAP8)
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for(y=r.min.y; y<r.max.y; y++)
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for(x=r.min.x, p=byteaddr(m, Pt(x,y)); x<r.max.x; x++, p++)
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*p = x11toplan9[*p];
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}
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void
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dirtyXdata(Memimage *m, Rectangle r)
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{
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Xmem *xm;
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if((xm = m->X) != nil){
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xm->dirty = 1;
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addrect(&xm->dirtyr, r);
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}
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}
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