/* KFax -- A G3/G4 Fax Viewer Copyrigh (C) 1997 Bernd Johannes Wuebben wuebben@math.cornell.edu wuebben@kde.org Based on: viewfax - g3/g4 fax processing software. Copyright (C) 1990, 1995 Frank D. Cringle. This file is part of viewfax - g3/g4 fax processing software. viewfax is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kfax.h" #include "faxexpand.h" #include "version.h" #include "viewfax.h" /* NewImage() needs to fiddle with the Display structure */ #define XLIB_ILLEGAL_ACCESS #include #include #include #include #include #include #define VIEWFAXVERSION "2.3" /* If moving the image around with the middle mouse button is jerky or slow, try defining USE_MOTIONHINT. It may help (it may also make things worse - it depends on the server implementation) */ #undef USE_MOTIONHINT /* access the 'extra' field in a pagenode */ #define Pimage(p) ((XImage *)(p)->extra) /* forward declarations */ XImage *FlipImage(XImage *xi); XImage *MirrorImage(XImage *xi); XImage *NewImage(int w, int h, char *data, int bit_order); XImage *RotImage(XImage *Image); XImage *ZoomImage(XImage *Big); void FreeImage(XImage *Image); static int release(int quit); /* X variables */ extern Cursor WorkCursor; extern Cursor ReadyCursor; extern Cursor MoveCursor; extern Cursor LRCursor; extern Cursor UDCursor; extern bool have_no_fax; extern Display* qtdisplay ; extern Window qtwin; extern Window Win; extern int qwindow_width; extern int qwindow_height; struct pagenode *firstpage, *lastpage, *thispage, *helppage, *auxpage; struct pagenode defaultpage; Display *Disp; int Default_Screen; int verbose = 0; int abell = 1; /* audio bell */ int vbell = 0; /* visual bell */ bool have_cmd_opt = FALSE; size_t Memused = 0; /* image memory usage */ static size_t Memlimit = 8*1024*1024; /* try not to exceed */ #undef min #undef max #define min(a,b) ((a)<(b)?(a):(b)) #define max(a,b) ((a)>(b)?(a):(b)) #ifndef EXIT_FAILURE #define EXIT_FAILURE 1 #endif /* OK, OK - this is a dreadful hack. But it adequately distinguishes modern big- and little- endian hosts. We only need this to set the byte order in XImage structures */ static union { t32bits i; unsigned char b[4]; } bo; #define ByteOrder bo.b[3] static char Banner[] = "KFax version " KFAXVERSION "\tCopyright (C) 1997, Bernd Johannes Wuebben\n"; /*"KFax is based on:\n" "viewfax " VERSION ":\t\tCopyright (c) 1990, 1995 Frank D. Cringle.\n" "libtiff v 3.4beta:\tCopyright (c) 1988 - 1955 Sam Leffler\n" " \tCopyright (c) 1991 - 1995 Silicon Graphics, Inc.\n\n" "KFax comes with ABSOLUTELY NO WARRANTY; for details see the\n" "file \"COPYING\" in the distribution directory.\n";*/ XEvent Event; XImage *Image, *Images[MAXZOOM]; XSizeHints size_hints; Time Lasttime = 0; struct pagenode *viewpage = 0; int viewfaxmain() { int banner = 0; int have_height = 0; bo.i = 1; defaultpage.vres = -1; have_no_fax = TRUE; /* TODO Do I need to know this: */ defaultpage.expander = g31expand; KCmdLineArgs *args = KCmdLineArgs::parsedArgs(); if (args->isSet("height")) { have_height = 1; defaultpage.height = args->getOption("height").toInt(); } if (args->isSet("2")) { defaultpage.expander = g32expand; if(!have_height) defaultpage.height = 2339; } if (args->isSet("4")) { defaultpage.expander = g4expand; if(!have_height) defaultpage.height = 2155; } if (args->isSet("invert")) { defaultpage.inverse = 1; } if (args->isSet("landscape")) { defaultpage.orient |= TURN_L; } if (args->isSet("fine")) { defaultpage.vres = 1; } if (!args->isSet("rmal")) // "normal" is interpreted as "no"+"rmal" :-) { defaultpage.vres = 0; } if (args->isSet("reverse")) { defaultpage.lsbfirst = 1; } if (args->isSet("upsidedown")) { defaultpage.orient |= TURN_U; } if (args->isSet("width")) { defaultpage.width = args->getOption("width").toInt(); } TQCString mem = args->getOption("mem"); Memlimit = atoi(mem.data()); switch(mem[mem.length()-1]) { case 'M': case 'm': Memlimit *= 1024; case 'K': case 'k': Memlimit *= 1024; } if (defaultpage.expander == g4expand && defaultpage.height == 0) { KCmdLineArgs::usage("--height value is required to interpret raw g4 faxes\n"); } firstpage = lastpage = thispage = helppage = auxpage = 0; for (int i = 0; i < args->count(); i++){ loadfile(TQFile::decodeName(args->arg(i))); } args->clear(); if (banner ) { fputs(Banner, stderr); exit(1); } have_no_fax = (firstpage == 0); Disp = qtdisplay; Default_Screen = XDefaultScreen(qtdisplay); return 1; } /* Change orientation of all following pages */ void TurnFollowing(int How, struct pagenode *pn) { while (pn) { if (Pimage(pn)) { FreeImage(Pimage(pn)); pn->extra = 0; } pn->orient ^= How; pn = pn->next; } } static void drawline(pixnum *run, int LineNum, struct pagenode *pn) { t32bits *p, *p1; /* p - current line, p1 - low-res duplicate */ pixnum *r; /* pointer to run-lengths */ t32bits pix; /* current pixel value */ t32bits acc; /* pixel accumulator */ int nacc; /* number of valid bits in acc */ int tot; /* total pixels in line */ int n; LineNum += pn->stripnum * pn->rowsperstrip; if (LineNum >= pn->height) { if (verbose && LineNum == pn->height) fputs("Height exceeded\n", stderr); return; } p = (t32bits *) (Pimage(pn)->data + LineNum*(2-pn->vres)*Pimage(pn)->bytes_per_line); p1 =(t32bits *)( pn->vres ? 0 : p + Pimage(pn)->bytes_per_line/sizeof(*p)); r = run; acc = 0; nacc = 0; pix = pn->inverse ? ~0 : 0; tot = 0; while (tot < pn->width) { n = *r++; tot += n; /* Watch out for buffer overruns, e.g. when n == 65535. */ if (tot > pn->width) break; if (pix) acc |= (~(t32bits)0 >> nacc); else if (nacc) acc &= (~(t32bits)0 << (32 - nacc)); else acc = 0; if (nacc + n < 32) { nacc += n; pix = ~pix; continue; } *p++ = acc; if (p1) *p1++ = acc; n -= 32 - nacc; while (n >= 32) { n -= 32; *p++ = pix; if (p1) *p1++ = pix; } acc = pix; nacc = n; pix = ~pix; } if (nacc) { *p++ = acc; if (p1) *p1++ = acc; } } static int GetPartImage(struct pagenode *pn, int n) { unsigned char *Data = getstrip(pn, n); if (Data == 0) return 3; pn->stripnum = n; (*pn->expander)(pn, drawline); free(Data); return 1; } int GetImage(struct pagenode *pn){ int i; if (pn->strips == 0) { /*printf("RAW fax file\n");*/ /* raw file; maybe we don't have the height yet */ unsigned char *Data = getstrip(pn, 0); if (Data == 0){ return 0; } pn->extra = NewImage(pn->width, pn->vres ? pn->height : 2*pn->height, 0, 1); //printf("height = %d\n",pn->height); //printf("setting height to %d\n", pn->vres ? pn->height : 2*pn->height); if(pn->extra == 0) return 0; (*pn->expander)(pn, drawline); } else { /* multi-strip tiff */ /*printf("MULTI STRIP TIFF fax file\n");*/ pn->extra = NewImage(pn->width, pn->vres ? pn->height : 2*pn->height, 0, 1); if(pn->extra == 0) return 0; pn->stripnum = 0; for (i = 0; i < pn->nstrips; i++){ int k =GetPartImage(pn, i); if ( k == 3 ){ FreeImage(Pimage(pn)); return k; } } } if (pn->orient & TURN_U) pn->extra = FlipImage(Pimage(pn)); if (pn->orient & TURN_M) pn->extra = MirrorImage(Pimage(pn)); if (pn->orient & TURN_L) pn->extra = RotImage(Pimage(pn)); if (verbose) printf("\tmemused = %d\n", Memused); /* if(pn->extra) printf("pn->extra !=0 %s\n",pn->name); else printf("pn->extra ==0 %s\n",pn->name); */ return 1; } /* run this region through perl to generate the zoom table: $lim = 1; @c = ("0", "1", "1", "2"); print "static unsigned char Z[] = {\n"; for ($i = 0; $i < 16; $i++) { for ($j = 0; $j < 16; $j++) { $b1 = ($c[$j&3]+$c[$i&3]) > $lim; $b2 = ($c[($j>>2)&3]+$c[($i>>2)&3]) > $lim; printf " %X,", ($b2 << 1) | $b1; } print "\n"; } print "};\n"; */ static unsigned char Z[] = { 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 1, 2, 2, 2, 3, 0, 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 2, 3, 3, 3, 0, 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 2, 3, 3, 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 3, 3, 3, 3, 0, 0, 0, 1, 2, 2, 2, 3, 2, 2, 2, 3, 2, 2, 2, 3, 0, 1, 1, 1, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 0, 1, 1, 1, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 1, 1, 1, 1, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0, 0, 0, 1, 2, 2, 2, 3, 2, 2, 2, 3, 2, 2, 2, 3, 0, 1, 1, 1, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 0, 1, 1, 1, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 1, 1, 1, 1, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 2, 2, 2, 3, 2, 2, 2, 3, 2, 2, 2, 3, 2, 2, 2, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, }; #define nib(n,w) (((w)>>((n)<<2))&15) #define zak(a,b) Z[(a<<4)|b] /* 2 -> 1 zoom, 4 pixels -> 1 pixel if #pixels <= $lim (see above), new pixel is white, else black. */ XImage *ZoomImage(XImage *Big){ XImage *Small; int w, h; int i, j; XDefineCursor(Disp, Win, WorkCursor); XFlush(Disp); w = (Big->width+1) / 2; h = (Big->height+1) / 2; Small = NewImage(w, h, 0, Big->bitmap_bit_order); if(Small == 0) return 0; Small->xoffset = (Big->xoffset+1)/2; for (i = 0; i < Big->height; i += 2) { t32bits *pb0 = (t32bits *) (Big->data + i * Big->bytes_per_line); t32bits *pb1 = pb0 + ((i == Big->height-1) ? 0 : Big->bytes_per_line/4); t32bits *ps = (t32bits *) (Small->data + i * Small->bytes_per_line / 2); for (j = 0; j < Big->bytes_per_line/8; j++) { t32bits r1, r2; t32bits t0 = *pb0++; t32bits t1 = *pb1++; r1 = (zak(nib(7,t0),nib(7,t1))<<14) | (zak(nib(6,t0),nib(6,t1))<<12) | (zak(nib(5,t0),nib(5,t1))<<10) | (zak(nib(4,t0),nib(4,t1))<<8) | (zak(nib(3,t0),nib(3,t1))<<6) | (zak(nib(2,t0),nib(2,t1))<<4) | (zak(nib(1,t0),nib(1,t1))<<2) | (zak(nib(0,t0),nib(0,t1))); t0 = *pb0++; t1 = *pb1++; r2 = (zak(nib(7,t0),nib(7,t1))<<14) | (zak(nib(6,t0),nib(6,t1))<<12) | (zak(nib(5,t0),nib(5,t1))<<10) | (zak(nib(4,t0),nib(4,t1))<<8) | (zak(nib(3,t0),nib(3,t1))<<6) | (zak(nib(2,t0),nib(2,t1))<<4) | (zak(nib(1,t0),nib(1,t1))<<2) | (zak(nib(0,t0),nib(0,t1))); *ps++ = (Big->bitmap_bit_order) ? (r1<<16)|r2 : (r2<<16)|r1; } for ( ; j < Small->bytes_per_line/4; j++) { t32bits r1; t32bits t0 = *pb0++; t32bits t1 = *pb1++; r1 = (zak(nib(7,t0),nib(7,t1))<<14) | (zak(nib(6,t0),nib(6,t1))<<12) | (zak(nib(5,t0),nib(5,t1))<<10) | (zak(nib(4,t0),nib(4,t1))<<8) | (zak(nib(3,t0),nib(3,t1))<<6) | (zak(nib(2,t0),nib(2,t1))<<4) | (zak(nib(1,t0),nib(1,t1))<<2) | (zak(nib(0,t0),nib(0,t1))); *ps++ = (Big->bitmap_bit_order) ? (r1<<16) : r1; } } XDefineCursor(Disp, Win, ReadyCursor); return Small; } XImage *FlipImage(XImage *Image){ XImage *New = NewImage(Image->width, Image->height, Image->data, !Image->bitmap_bit_order); if(New == 0) return 0; t32bits *p1 = (t32bits *) Image->data; t32bits *p2 = (t32bits *) (Image->data + Image->height * Image->bytes_per_line - 4); /* the first shall be last ... */ while (p1 < p2) { t32bits t = *p1; *p1++ = *p2; *p2-- = t; } /* let Xlib twiddle the bits */ New->xoffset = 32 - (Image->width & 31) - Image->xoffset; New->xoffset &= 31; Image->data = 0; FreeImage(Image); return New; } XImage *MirrorImage(XImage *Image){ int i; XImage *New = NewImage(Image->width, Image->height, Image->data, !Image->bitmap_bit_order); if(New == 0) return 0; /* reverse order of 32-bit words in each line */ for (i = 0; i < Image->height; i++) { t32bits *p1 = (t32bits *) (Image->data + Image->bytes_per_line * i); t32bits *p2 = p1 + Image->bytes_per_line/4 - 1; while (p1 < p2) { t32bits t = *p1; *p1++ = *p2; *p2-- = t; } } /* let Xlib twiddle the bits */ New->xoffset = 32 - (Image->width & 31) - Image->xoffset; New->xoffset &= 31; Image->data = 0; FreeImage(Image); return New; } XImage *RotImage(XImage *Image){ XImage *New; int w = Image->height; int h = Image->width; int i, j, k, shift; int order = Image->bitmap_bit_order; int offs = h+Image->xoffset-1; New = NewImage(w, h, 0, 1); if (New == 0) return 0; k = (32 - Image->xoffset) & 3; for (i = h - 1; i && k; i--, k--) { t32bits *sp = (t32bits *) Image->data + (offs-i)/32; t32bits *dp = (t32bits *) (New->data+i*New->bytes_per_line); t32bits d0 =0; shift = (offs-i)&31; if (order) shift = 31-shift; for (j = 0; j < w; j++) { t32bits t = *sp; sp += Image->bytes_per_line/4; d0 |= ((t >> shift) & 1); if ((j & 31) == 31) *dp++ = d0; d0 <<= 1;; } if (j & 31) *dp++ = d0<<(31-j); } for ( ; i >= 3; i-=4) { t32bits *sp = (t32bits *) Image->data + (offs-i)/32; t32bits *dp0 = (t32bits *) (New->data+i*New->bytes_per_line); t32bits *dp1 = dp0 - New->bytes_per_line/4; t32bits *dp2 = dp1 - New->bytes_per_line/4; t32bits *dp3 = dp2 - New->bytes_per_line/4; t32bits d0=0 , d1=0, d2 =0, d3 =0; shift = (offs-i)&31; if (order) shift = 28-shift; for (j = 0; j < w; j++) { t32bits t = *sp >> shift; sp += Image->bytes_per_line/4; d0 |= t & 1; t >>= 1; d1 |= t & 1; t >>= 1; d2 |= t & 1; t >>= 1; d3 |= t & 1; t >>= 1; if ((j & 31) == 31) { if (order) { *dp0++ = d3; *dp1++ = d2; *dp2++ = d1; *dp3++ = d0; } else { *dp0++ = d0; *dp1++ = d1; *dp2++ = d2; *dp3++ = d3; } } d0 <<= 1; d1 <<= 1; d2 <<= 1; d3 <<= 1; } if (j & 31) { if (order) { *dp0++ = d3<<(31-j); *dp1++ = d2<<(31-j); *dp2++ = d1<<(31-j); *dp3++ = d0<<(31-j); } else { *dp0++ = d0<<(31-j); *dp1++ = d1<<(31-j); *dp2++ = d2<<(31-j); *dp3++ = d3<<(31-j); } } } for (; i >= 0; i--) { t32bits *sp = (t32bits *) Image->data + (offs-i)/32; t32bits *dp = (t32bits *) (New->data+i*New->bytes_per_line); t32bits d0=0; shift = (offs-i)&31; if (order) shift = 31-shift; for (j = 0; j < w; j++) { t32bits t = *sp; sp += Image->bytes_per_line/4; d0 |= ((t >> shift) & 1); if ((j & 31) == 31) *dp++ = d0; d0 <<= 1;; } if (j & 31) *dp++ = d0<<(31-j); } FreeImage(Image); return New; } /* release some non-essential memory or abort */ #define Try(n) \ if (n && n != thispage && n->extra) { \ FreeImage((XImage*)n->extra); \ n->extra = 0; \ return 1; \ } static int release(int quit) { (void) quit; struct pagenode *pn; if (thispage) { /* first consider "uninteresting" pages */ for (pn = firstpage->next; pn; pn = pn->next) if (pn->extra && pn != thispage && pn != thispage->prev && pn != thispage->next && pn != lastpage) { FreeImage(Pimage(pn)); pn->extra = 0; return 1; } Try(lastpage); Try(firstpage); Try(thispage->prev); Try(thispage->next); } return 0; } XImage *NewImage(int w, int h, char *data, int bit_order){ XImage *newimage; /* This idea is taken from xwud/xpr. Use a fake display with the desired bit/byte order to get the image routines initialised correctly */ Display fake; fake = *Disp; if (data == 0) data = xmalloc(((w + 31) & ~31) * h / 8); fake.byte_order = ByteOrder; fake.bitmap_unit = 32; fake.bitmap_bit_order = bit_order; int returncode = -1; while ((newimage = XCreateImage(&fake, DefaultVisual(Disp, Default_Screen), 1, XYBitmap, 0, data, w, h, 32, 0)) == 0 ){ returncode = release(1); if (returncode == 0) break; } if (returncode == 0){ kfaxerror("Sorry","Can not allocate Memory for a new Fax Image\n"); return 0; } Memused += newimage->bytes_per_line * newimage->height; /*printf("allocating %d bytes for %ld\n", newimage->bytes_per_line * newimage->height, newimage);*/ return newimage; } void FreeImage(XImage *Image){ if (Image->data){ Memused -= Image->bytes_per_line * Image->height; /*printf("deallocating %d bytes for %ld\n", Image->bytes_per_line * Image->height, Image);*/ } XDestroyImage(Image); } #ifndef xmalloc char * xmalloc(unsigned int size) { char *p; while (Memused + size > Memlimit && release(0)) ; while ((p = (char*) malloc(size)) == 0) (void) release(1); return p; } #endif