lyx_mirror/src/insets/figinset.C

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/*
* figinset.C - part of LyX project
*/
/* Rework of path-handling (Matthias 04.07.1996 )
* ------------------------------------------------
* figinsets keep an absolute path to the eps-file.
* For the user alway a relative path appears
* (in lyx-file, latex-file and edit-popup).
* To calculate this relative path the path to the
* document where the figinset is in is needed.
* This is done by a reference to the buffer, called
* figinset::cbuffer. To be up to date the cbuffer
* is sometimes set to the current buffer
* bufferlist.current(), when it can be assumed that
* this operation happens in the current buffer.
* This is true for InsetFig::Edit(...),
* InsetFig::InsetFig(...), InsetFig::Read(...),
* InsetFig::Write and InsetFig::Latex(...).
* Therefore the bufferlist has to make sure that
* during these operations bufferlist.current()
* returns the buffer where the figinsets are in.
* This made few changes in buffer.C necessary.
*
* The above is not totally valid anymore. (Lgb)
*/
#include <config.h>
#include <fstream>
#include <queue>
#include <list>
#include <algorithm>
#include <vector>
#include <unistd.h>
#include <csignal>
#include <sys/wait.h>
#include FORMS_H_LOCATION
#include <cstdlib>
#include <cctype>
#include <cmath>
#include "figinset.h"
#include "lyx.h"
#include "lyx_main.h"
#include "buffer.h"
#include "filedlg.h"
#include "support/filetools.h"
#include "LyXView.h" // just because of form_main
#include "debug.h"
#include "LaTeXFeatures.h"
#include "lyxrc.h"
#include "gettext.h"
#include "lyx_gui_misc.h" // CancelCloseBoxCB
#include "support/FileInfo.h"
#include "support/lyxlib.h"
#include "Painter.h"
#include "font.h"
#include "bufferview_funcs.h"
#include "ColorHandler.h"
using std::ostream;
using std::istream;
using std::ofstream;
using std::ifstream;
using std::queue;
using std::list;
using std::vector;
using std::find;
using std::flush;
using std::endl;
#ifdef HAVE_SSTREAM
using std::ostringstream;
#endif
extern BufferView * current_view;
extern FL_OBJECT * figinset_canvas;
extern char ** environ; // is this only redundtant on linux systems? Lgb.
static float const DEG2PI = 57.295779513;
struct queue_element {
float rx, ry; // resolution x and y
int ofsx, ofsy; // x and y translation
figdata * data; // we are doing it for this data
};
static int const MAXGS = 3; /* maximum 3 gs's at a time */
typedef vector<Figref *> figures_type;
typedef vector<figdata *> bitmaps_type;
static figures_type figures; // all figures
static bitmaps_type bitmaps; // all bitmaps
static queue<queue_element> gsqueue; // queue for ghostscripting
static int gsrunning = 0; /* currently so many gs's are running */
static bool bitmap_waiting = false; /* bitmaps are waiting finished */
static char bittable[256]; /* bit reversion table */
static bool gs_color; // do we allocate colors for gs?
static bool color_visual; // is the visual color?
static bool gs_xcolor = false; // allocated extended colors
static unsigned long gs_pixels[128]; // allocated pixels
static int gs_num_pixels; // number of pixels allocated
static int gs_spc; // shades per color
static bool gs_gray; // is grayscale?
static int gs_allcolors; // number of all colors
static list<int> pidwaitlist; // pid wait list
static
GC createGC()
{
XGCValues val;
val.foreground = BlackPixel(fl_display,
DefaultScreen(fl_display));
val.function=GXcopy;
val.graphics_exposures = false;
val.line_style = LineSolid;
val.line_width = 0;
return XCreateGC(fl_display, RootWindow(fl_display, 0),
GCForeground | GCFunction | GCGraphicsExposures
| GCLineWidth | GCLineStyle , &val);
}
static
GC local_gc_copy;
static
void addpidwait(int pid)
{
// adds pid to pid wait list
pidwaitlist.push_back(pid);
if (lyxerr.debugging()) {
lyxerr << "Pids to wait for: \n";
for (list<int>::const_iterator cit = pidwaitlist.begin();
cit != pidwaitlist.end(); ++cit) {
lyxerr << (*cit) << '\n';
}
lyxerr << flush;
}
}
static
string make_tmp(int pid)
{
return system_tempdir + "/~lyxgs" + tostr(pid) + ".ps";
}
static
void kill_gs(int pid, int sig)
{
if (lyxerr.debugging())
lyxerr << "Killing gs " << pid << endl;
lyx::kill(pid, sig);
unlink(make_tmp(pid).c_str());
}
extern "C" // static
int GhostscriptMsg(FL_OBJECT *, Window, int, int,
XEvent * ev, void *)
{
XClientMessageEvent * e = reinterpret_cast<XClientMessageEvent*>(ev);
if(lyxerr.debugging()) {
lyxerr << "ClientMessage, win:[xx] gs:[" << e->data.l[0]
<< "] pm:[" << e->data.l[1] << "]" << endl;
}
// just kill gs, that way it will work for sure
// This loop looks like S**T so it probably is...
for (bitmaps_type::iterator it = bitmaps.begin();
it != bitmaps.end(); ++it)
if (static_cast<long>((*it)->bitmap) ==
static_cast<long>(e->data.l[1])) {
// found the one
figdata * p = (*it);
p->gsdone = true;
// first update p->bitmap, if necessary
if (p->bitmap != None
&& p->flags > (1|8) && gs_color && p->wid) {
// query current colormap and re-render
// the pixmap with proper colors
XWindowAttributes wa;
register XImage * im;
int i;
int y;
int wid1;
int spc1 = gs_spc - 1;
int spc2 = gs_spc * gs_spc;
int wid = p->wid;
int forkstat;
Display * tmpdisp;
GC gc = local_gc_copy;
XGetWindowAttributes(fl_display,
fl_get_canvas_id(
figinset_canvas),
&wa);
XFlush(fl_display);
if (lyxerr.debugging()) {
lyxerr << "Starting image translation "
<< p->bitmap << " "
<< p->flags << " "
<< p->wid << "x" << p->hgh
<< " " << wa.depth
<< " " << XYPixmap << endl;
}
// now fork rendering process
forkstat = fork();
if (forkstat == -1) {
lyxerr.debug()
<< "Cannot fork, using slow "
"method for pixmap translation." << endl;
tmpdisp = fl_display;
} else if (forkstat > 0) { // parent
// register child
if (lyxerr.debugging()) {
lyxerr << "Spawned child "
<< forkstat << endl;
}
addpidwait(forkstat);
break;
} else { // child
tmpdisp = XOpenDisplay(XDisplayName(0));
XFlush(tmpdisp);
}
im = XGetImage(tmpdisp, p->bitmap, 0, 0,
p->wid, p->hgh, (1<<wa.depth)-1, XYPixmap);
XFlush(tmpdisp);
if (lyxerr.debugging()) {
lyxerr << "Got the image" << endl;
}
if (!im) {
if (lyxerr.debugging()) {
lyxerr << "Error getting the image" << endl;
}
goto noim;
}
{
// query current colormap
XColor * cmap = new XColor[gs_allcolors];
for (i = 0; i < gs_allcolors; ++i) cmap[i].pixel = i;
XQueryColors(tmpdisp,
fl_state[fl_get_vclass()]
.colormap, cmap,
gs_allcolors);
XFlush(tmpdisp);
wid1 = p->wid - 1;
// now we process all the image
for (y = 0; y < p->hgh; ++y) {
for (int x = 0; x < wid; ++x) {
XColor * pc = cmap +
XGetPixel(im, x, y);
XFlush(tmpdisp);
XPutPixel(im, x, y,
gs_pixels[((pc->red+6553)*
spc1/65535)*spc2+((pc->green+6553)*
spc1/65535)*gs_spc+((pc->blue+6553)*
spc1/65535)]);
XFlush(tmpdisp);
}
}
// This must be correct.
delete [] cmap;
if (lyxerr.debugging()) {
lyxerr << "Putting image back"
<< endl;
}
XPutImage(tmpdisp, p->bitmap,
gc, im, 0, 0,
0, 0, p->wid, p->hgh);
XDestroyImage(im);
if (lyxerr.debugging()) {
lyxerr << "Done translation"
<< endl;
}
}
noim:
kill_gs(p->gspid, SIGHUP);
if (forkstat == 0) {
XCloseDisplay(tmpdisp);
_exit(0);
}
} else {
kill_gs(p->gspid, SIGHUP);
}
break;
}
return 0;
}
static
void AllocColors(int num)
// allocate color cube numxnumxnum, if possible
{
if (lyxerr.debugging()) {
lyxerr << "Allocating color cube " << num
<< 'x' << num << 'x' << num << endl;
}
if (num <= 1) {
lyxerr << "Error allocating color colormap." << endl;
gs_color = false;
return;
}
if (num > 5) num = 5;
XColor xcol;
for (int i = 0; i < num * num * num; ++i) {
xcol.red = 65535 * (i / (num * num)) / (num - 1);
xcol.green = 65535 * ((i / num) % num) / (num - 1);
xcol.blue = 65535 * (i % num) / (num - 1);
xcol.flags = DoRed | DoGreen | DoBlue;
if (!XAllocColor(fl_display,
fl_state[fl_get_vclass()].colormap, &xcol)) {
if (i) XFreeColors(fl_display,
fl_state[fl_get_vclass()].colormap,
gs_pixels, i, 0);
if(lyxerr.debugging()) {
lyxerr << "Cannot allocate color cube "
<< num << endl;;
}
AllocColors(num - 1);
return;
}
gs_pixels[i] = xcol.pixel;
}
gs_color = true;
gs_gray = false;
gs_spc = num;
gs_num_pixels = num * num * num;
}
// allocate grayscale ramp
static
void AllocGrays(int num)
{
if (lyxerr.debugging()) {
lyxerr << "Allocating grayscale colormap "
<< num << endl;
}
if (num < 4) {
lyxerr << "Error allocating grayscale colormap." << endl;
gs_color = false;
return;
}
if (num > 128) num = 128;
XColor xcol;
for (int i = 0; i < num; ++i) {
xcol.red = xcol.green = xcol.blue = 65535 * i / (num - 1);
xcol.flags = DoRed | DoGreen | DoBlue;
if (!XAllocColor(fl_display,
fl_state[fl_get_vclass()].colormap, &xcol)) {
if (i) XFreeColors(fl_display,
fl_state[fl_get_vclass()].colormap,
gs_pixels, i, 0);
if (lyxerr.debugging()) {
lyxerr << "Cannot allocate grayscale "
<< num << endl;
}
AllocGrays(num / 2);
return;
}
gs_pixels[i] = xcol.pixel;
}
gs_color = true;
gs_gray = false;
gs_num_pixels = num;
}
static
void InitFigures()
{
// if bitmaps and figures are not empty we will leak mem
figures.clear();
bitmaps.clear();
unsigned int k;
for (unsigned int i = 0; i < 256; ++i) {
k = 0;
for (unsigned int j = 0; j < 8; ++j)
if (i & (1 << (7-j))) k |= 1 << j;
bittable[i] = char(~k);
}
// allocate color cube on pseudo-color display
// first get visual
gs_color = false;
if (lyxrc.use_gui) {
fl_add_canvas_handler(figinset_canvas, ClientMessage,
GhostscriptMsg,
current_view->owner()->getForm());
local_gc_copy = createGC();
Visual * vi = DefaultVisual(fl_display,
DefaultScreen(fl_display));
if (lyxerr.debugging()) {
printf("Visual ID: %ld, class: %d, bprgb: %d, mapsz: %d\n",
vi->visualid, vi->c_class,
vi->bits_per_rgb, vi->map_entries);
}
color_visual = ( (vi->c_class == StaticColor) ||
(vi->c_class == PseudoColor) ||
(vi->c_class == TrueColor) ||
(vi->c_class == DirectColor) );
if ((vi->c_class & 1) == 0) return;
// now allocate colors
if (vi->c_class == GrayScale) {
// allocate grayscale
AllocGrays(vi->map_entries/2);
} else {
// allocate normal color
int i = 5;
while (i * i * i * 2 > vi->map_entries) --i;
AllocColors(i);
}
gs_allcolors = vi->map_entries;
}
}
static
void DoneFigures()
{
// if bitmaps and figures are not empty we will leak mem
bitmaps.clear();
figures.clear();
lyxerr.debug() << "Unregistering figures..." << endl;
fl_remove_canvas_handler(figinset_canvas, ClientMessage,
GhostscriptMsg);
}
static
void freefigdata(figdata * tmpdata)
{
tmpdata->ref--;
if (tmpdata->ref) return;
if (tmpdata->gspid > 0) {
int pid = tmpdata->gspid;
// kill ghostscript and unlink it's files
tmpdata->gspid = -1;
kill_gs(pid, SIGKILL);
}
if (tmpdata->bitmap) XFreePixmap(fl_display, tmpdata->bitmap);
bitmaps.erase(find(bitmaps.begin(), bitmaps.end(), tmpdata));
delete tmpdata;
}
static
void runqueue()
{
// This _have_ to be set before the fork!
unsigned long background_pixel =
lyxColorHandler->colorPixel(LColor::background);
// run queued requests for ghostscript, if any
if (!gsrunning && gs_color && !gs_xcolor) {
// here alloc all colors, so that gs will use only
// those we allocated for it
// *****
gs_xcolor = true;
}
while (gsrunning < MAXGS) {
//char tbuf[384]; //, tbuf2[80];
Atom * prop;
int nprop, i;
if (gsqueue.empty()) {
if (!gsrunning && gs_xcolor) {
// de-allocate rest of colors
// *****
gs_xcolor = false;
}
return;
}
queue_element * p = &gsqueue.front();
if (!p->data) {
gsqueue.pop();
continue;
}
int pid = ::fork();
if (pid == -1) {
if (lyxerr.debugging()) {
lyxerr << "GS start error! Cannot fork."
<< endl;
}
p->data->broken = true;
p->data->reading = false;
return;
}
if (pid == 0) { // child
char ** env;
int ne = 0;
Display * tempdisp = XOpenDisplay(XDisplayName(0));
// create translation file
ofstream ofs;
ofs.open(make_tmp(getpid()).c_str());
ofs << "gsave clippath pathbbox grestore\n"
<< "4 dict begin\n"
<< "/ury exch def /urx exch def /lly exch def "
"/llx exch def\n"
<< p->data->wid / 2.0 << " "
<< p->data->hgh / 2.0 << " translate\n"
<< p->data->angle << " rotate\n"
<< -(p->data->raw_wid / 2.0) << " "
<< -(p->data->raw_hgh / 2.0) << " translate\n"
<< p->rx / 72.0 << " " << p->ry / 72.0
<< " scale\n"
<< -p->ofsx << " " << -p->ofsy << " translate\n"
<< "end" << endl;
ofs.close(); // Don't remove this.
// gs process - set ghostview environment first
#ifdef HAVE_SSTREAM
ostringstream t2;
#else
char tbuf2[80];
ostrstream t2(tbuf2, sizeof(tbuf2));
#endif
t2 << "GHOSTVIEW=" << fl_get_canvas_id(figinset_canvas)
<< ' ' << p->data->bitmap;
#ifndef HAVE_SSTREAM
t2 << '\0';
#endif
// now set up ghostview property on a window
// #warning BUG seems that the only bug here
// might be the hardcoded dpi.. Bummer!
#ifdef HAVE_SSTREAM
ostringstream t1;
#else
char tbuf[384];
ostrstream t1(tbuf, sizeof(tbuf));
#endif
t1 << "0 0 0 0 " << p->data->wid << ' '
<< p->data->hgh << " 72 72 0 0 0 0";
#ifndef HAVE_SSTREAM
t1 << '\0';
#endif
if (lyxerr.debugging()) {
lyxerr << "Will set GHOSTVIEW property to ["
<< t1.str() << "]" << endl;
}
// wait until property is deleted if executing multiple
// ghostscripts
XGrabServer(tempdisp);
for (;;) {
// grab server to prevent other child
// interfering with setting GHOSTVIEW property
// The grabbing goes on for too long, is it
// really needed? (Lgb)
// I moved most of the grabs... (Lgb)
if (lyxerr.debugging()) {
lyxerr << "Grabbing the server"
<< endl;
}
prop = XListProperties(tempdisp,
fl_get_canvas_id(
figinset_canvas), &nprop);
if (!prop) break;
bool err = true;
for (i = 0; i < nprop; ++i) {
char * p = XGetAtomName(tempdisp,
prop[i]);
if (strcmp(p, "GHOSTVIEW") == 0) {
err = false;
break;
}
XFree(p);
}
XFree(reinterpret_cast<char *>(prop)); // jc:
if (err) break;
// ok, property found, we must wait until
// ghostscript deletes it
if (lyxerr.debugging()) {
lyxerr << "Releasing the server\n["
<< getpid()
<< "] GHOSTVIEW property"
" found. Waiting." << endl;
}
XUngrabServer(tempdisp);
XFlush(tempdisp);
::sleep(1);
XGrabServer(tempdisp);
}
#ifdef HAVE_SSTREAM
XChangeProperty(tempdisp,
fl_get_canvas_id(figinset_canvas),
XInternAtom(tempdisp, "GHOSTVIEW", false),
XInternAtom(tempdisp, "STRING", false),
8, PropModeAppend,
reinterpret_cast<unsigned char*>(const_cast<char*>(t1.str().c_str())),
t1.str().size());
#else
XChangeProperty(tempdisp,
fl_get_canvas_id(figinset_canvas),
XInternAtom(tempdisp, "GHOSTVIEW", false),
XInternAtom(tempdisp, "STRING", false),
8, PropModeAppend,
reinterpret_cast<unsigned char*>(const_cast<char*>(t1.str())),
::strlen(t1.str()));
#endif
XUngrabServer(tempdisp);
XFlush(tempdisp);
#ifdef HAVE_SSTREAM
ostringstream t3;
#else
//char tbuf[384];
ostrstream t3(tbuf, sizeof(tbuf));
#endif
switch (p->data->flags & 3) {
case 0: t3 << 'H'; break; // Hidden
case 1: t3 << 'M'; break; // Mono
case 2: t3 << 'G'; break; // Gray
case 3:
if (color_visual)
t3 << 'C'; // Color
else
t3 << 'G'; // Gray
break;
}
t3 << ' ' << BlackPixelOfScreen(DefaultScreenOfDisplay(tempdisp))
<< ' ' << background_pixel;
#ifndef HAVE_SSTREAM
t3 << '\0';
#endif
XGrabServer(tempdisp);
#ifdef HAVE_SSTREAM
XChangeProperty(tempdisp,
fl_get_canvas_id(figinset_canvas),
XInternAtom(tempdisp,
"GHOSTVIEW_COLORS", false),
XInternAtom(tempdisp, "STRING", false),
8, PropModeReplace,
reinterpret_cast<unsigned char*>(const_cast<char*>(t3.str().c_str())),
t3.str().size());
#else
XChangeProperty(tempdisp,
fl_get_canvas_id(figinset_canvas),
XInternAtom(tempdisp,
"GHOSTVIEW_COLORS", false),
XInternAtom(tempdisp, "STRING", false),
8, PropModeReplace,
reinterpret_cast<unsigned char*>(const_cast<char*>(t3.str())),
::strlen(t3.str()));
#endif
XUngrabServer(tempdisp);
XFlush(tempdisp);
if (lyxerr.debugging()) {
lyxerr << "Releasing the server" << endl;
}
XCloseDisplay(tempdisp);
// set up environment
while (environ[ne])
++ne;
typedef char * char_p;
env = new char_p[ne + 2];
#ifdef HAVE_SSTREAM
string tmp = t2.str().c_str();
env[0] = new char[tmp.size() + 1];
std::copy(tmp.begin(), tmp.end(), env[0]);
env[0][tmp.size()] = '\0';
#else
env[0] = tbuf2;
#endif
::memcpy(&env[1], environ, sizeof(char*) * (ne + 1));
environ = env;
// now make gs command
// close(0);
// close(1); do NOT close. If GS writes out
// errors it would hang. (Matthias 290596)
string rbuf = "-r" + tostr(p->rx) + "x" + tostr(p->ry);
string gbuf = "-g" + tostr(p->data->wid) + "x" + tostr(p->data->hgh);
// now chdir into dir with .eps file, to be on the safe
// side
::chdir(OnlyPath(p->data->fname).c_str());
// make temp file name
string tmpf = make_tmp(getpid());
if (lyxerr.debugging()) {
lyxerr << "starting gs " << tmpf << " "
<< p->data->fname
<< ", pid: " << getpid() << endl;
}
int err = ::execlp(lyxrc.ps_command.c_str(),
lyxrc.ps_command.c_str(),
"-sDEVICE=x11",
"-dNOPAUSE", "-dQUIET",
"-dSAFER",
rbuf.c_str(), gbuf.c_str(), tmpf.c_str(),
p->data->fname.c_str(),
"showpage.ps", "quit.ps", "-", 0);
// if we are still there, an error occurred.
lyxerr << "Error executing ghostscript. "
<< "Code: " << err << endl;
lyxerr.debug() << "Cmd: "
<< lyxrc.ps_command
<< " -sDEVICE=x11 "
<< tmpf.c_str() << ' '
<< p->data->fname << endl;
_exit(0); // no gs?
}
// normal process (parent)
if (lyxerr.debugging()) {
lyxerr << "GS [" << pid << "] started" << endl;
}
p->data->gspid = pid;
++gsrunning;
gsqueue.pop();
}
}
static
void addwait(int psx, int psy, int pswid, int pshgh, figdata * data)
{
// recompute the stuff and put in the queue
queue_element p;
p.ofsx = psx;
p.ofsy = psy;
p.rx = (float(data->raw_wid) * 72.0) / pswid;
p.ry = (float(data->raw_hgh) * 72.0) / pshgh;
p.data = data;
gsqueue.push(p);
// if possible, run the queue
runqueue();
}
static
figdata * getfigdata(int wid, int hgh, string const & fname,
int psx, int psy, int pswid, int pshgh,
int raw_wid, int raw_hgh, float angle, char flags)
{
/* first search for an exact match with fname and width/height */
if (fname.empty() || !IsFileReadable(fname))
return 0;
for (bitmaps_type::iterator it = bitmaps.begin();
it != bitmaps.end(); ++it) {
if ((*it)->wid == wid && (*it)->hgh == hgh &&
(*it)->flags == flags && (*it)->fname == fname &&
(*it)->angle == angle) {
(*it)->ref++;
return (*it);
}
}
figdata * p = new figdata;
p->wid = wid;
p->hgh = hgh;
p->raw_wid = raw_wid;
p->raw_hgh = raw_hgh;
p->angle = angle;
p->fname = fname;
p->flags = flags;
bitmaps.push_back(p);
XWindowAttributes wa;
XGetWindowAttributes(fl_display, fl_get_canvas_id(
figinset_canvas), &wa);
if (lyxerr.debugging()) {
lyxerr << "Create pixmap disp:" << fl_display
<< " scr:" << DefaultScreen(fl_display)
<< " w:" << wid
<< " h:" << hgh
<< " depth:" << wa.depth << endl;
}
p->ref = 1;
p->reading = false;
p->broken = false;
p->gspid = -1;
if (flags) {
p->bitmap = XCreatePixmap(fl_display, fl_get_canvas_id(
figinset_canvas), wid, hgh, wa.depth);
p->gsdone = false;
// initialize reading of .eps file with correct sizes and stuff
addwait(psx, psy, pswid, pshgh, p);
p->reading = true;
} else {
p->bitmap = None;
p->gsdone = true;
}
return p;
}
static
void getbitmap(figdata * p)
{
p->gspid = -1;
}
static
void makeupdatelist(figdata * p)
{
for(figures_type::iterator it = figures.begin();
it != figures.end(); ++it)
if ((*it)->data == p) {
if (lyxerr.debugging()) {
lyxerr << "Updating inset "
<< (*it)->inset
<< endl;
}
// add inset figures[i]->inset into to_update list
current_view->pushIntoUpdateList((*it)->inset);
}
}
// this func is only "called" in spellchecker.C
void sigchldchecker(pid_t pid, int * status)
{
lyxerr.debug() << "Got pid = " << pid << endl;
bool pid_handled = false;
for (bitmaps_type::iterator it = bitmaps.begin();
it != bitmaps.end(); ++it) {
if ((*it)->reading && pid == (*it)->gspid) {
lyxerr.debug() << "Found pid in bitmaps" << endl;
// now read the file and remove it from disk
figdata * p = (*it);
p->reading = false;
if ((*it)->gsdone) *status = 0;
if (*status == 0) {
lyxerr.debug() << "GS [" << pid
<< "] exit OK." << endl;
} else {
lyxerr << "GS [" << pid << "] error "
<< *status << " E:"
<< WIFEXITED(*status)
<< " " << WEXITSTATUS(*status)
<< " S:" << WIFSIGNALED(*status)
<< " " << WTERMSIG(*status) << endl;
}
if (*status == 0) {
bitmap_waiting = true;
p->broken = false;
} else {
// remove temporary files
unlink(make_tmp(p->gspid).c_str());
p->gspid = -1;
p->broken = true;
}
makeupdatelist((*it));
--gsrunning;
runqueue();
pid_handled = true;
}
}
if (!pid_handled) {
lyxerr.debug() << "Checking pid in pidwait" << endl;
list<int>::iterator it = find(pidwaitlist.begin(),
pidwaitlist.end(), pid);
if (it != pidwaitlist.end()) {
lyxerr.debug() << "Found pid in pidwait\n"
<< "Caught child pid of recompute "
"routine" << pid << endl;
pidwaitlist.erase(it);
}
}
if (pid == -1) {
lyxerr.debug() << "waitpid error" << endl;
switch (errno) {
case ECHILD:
lyxerr << "The process or process group specified by "
"pid does not exist or is not a child of "
"the calling process or can never be in the "
"states specified by options." << endl;
break;
case EINTR:
lyxerr << "waitpid() was interrupted due to the "
"receipt of a signal sent by the calling "
"process." << endl;
break;
case EINVAL:
lyxerr << "An invalid value was specified for "
"options." << endl;
break;
default:
lyxerr << "Unknown error from waitpid" << endl;
break;
}
} else if (pid == 0) {
lyxerr << "waitpid nohang" << endl;;
} else {
lyxerr.debug() << "normal exit from childhandler" << endl;
}
}
static
void getbitmaps()
{
bitmap_waiting = false;
for (bitmaps_type::iterator it = bitmaps.begin();
it != bitmaps.end(); ++it)
if ((*it)->gspid > 0 && !(*it)->reading)
getbitmap((*it));
}
static
void RegisterFigure(InsetFig * fi)
{
if (figures.empty()) InitFigures();
fi->form = 0;
Figref * tmpfig = new Figref;
tmpfig->data = 0;
tmpfig->inset = fi;
figures.push_back(tmpfig);
fi->figure = tmpfig;
if (lyxerr.debugging()) {
lyxerr << "Register Figure: buffer:["
<< current_view->buffer() << "]" << endl;
}
}
static
void UnregisterFigure(InsetFig * fi)
{
Figref * tmpfig = fi->figure;
if (tmpfig->data) freefigdata(tmpfig->data);
if (tmpfig->inset->form) {
if (tmpfig->inset->form->Figure->visible) {
fl_set_focus_object(tmpfig->inset->form->Figure,
tmpfig->inset->form->OkBtn);
fl_hide_form(tmpfig->inset->form->Figure);
}
#if FL_REVISION == 89
// CHECK Reactivate this free_form calls
#else
fl_free_form(tmpfig->inset->form->Figure);
free(tmpfig->inset->form); // Why free?
tmpfig->inset->form = 0;
#endif
}
figures.erase(find(figures.begin(), figures.end(), tmpfig));
delete tmpfig;
if (figures.empty()) DoneFigures();
}
InsetFig::InsetFig(int tmpx, int tmpy, Buffer * o)
: owner(o)
{
wid = tmpx;
hgh = tmpy;
wtype = DEF;
htype = DEF;
twtype = DEF;
thtype = DEF;
pflags = flags = 9;
psubfigure = subfigure = false;
xwid = xhgh = angle = 0;
pswid = pshgh = 0;
raw_wid = raw_hgh = 0;
changedfname = false;
RegisterFigure(this);
}
InsetFig::~InsetFig()
{
if (lyxerr.debugging()) {
lyxerr << "Figure destructor called" << endl;
}
UnregisterFigure(this);
}
int InsetFig::ascent(BufferView *, LyXFont const &) const
{
return hgh + 3;
}
int InsetFig::descent(BufferView *, LyXFont const &) const
{
return 1;
}
int InsetFig::width(BufferView *, LyXFont const &) const
{
return wid + 2;
}
void InsetFig::draw(BufferView * bv, LyXFont const & f,
int baseline, float & x, bool) const
{
LyXFont font(f);
Painter & pain = bv->painter();
if (bitmap_waiting) getbitmaps();
// I wish that I didn't have to use this
// but the figinset code is so complicated so
// I don't want to fiddle with it now.
if (figure && figure->data && figure->data->bitmap &&
!figure->data->reading && !figure->data->broken) {
// draw the bitmap
pain.pixmap(int(x + 1), baseline - hgh,
wid, hgh, figure->data->bitmap);
if (flags & 4)
pain.rectangle(int(x), baseline - hgh - 1,
wid + 1, hgh + 1);
} else {
char * msg = 0;
// draw frame
pain.rectangle(int(x), baseline - hgh - 1, wid + 1, hgh + 1);
if (figure && figure->data) {
if (figure->data->broken) msg = _("[render error]");
else if (figure->data->reading) msg = _("[rendering ... ]");
}
else if (fname.empty())
msg = _("[no file]");
else if (!IsFileReadable(fname))
msg = _("[bad file name]");
else if ((flags & 3) == 0)
msg = _("[not displayed]");
else if (lyxrc.ps_command.empty())
msg = _("[no ghostscript]");
if (!msg) msg = _("[unknown error]");
font.setFamily(LyXFont::SANS_FAMILY);
font.setSize(LyXFont::SIZE_FOOTNOTE);
string justname = OnlyFilename (fname);
pain.text(int(x + 8), baseline - lyxfont::maxAscent(font) - 4,
justname, font);
font.setSize(LyXFont::SIZE_TINY);
pain.text(int(x + 8), baseline - 4, msg, strlen(msg), font);
}
x += width(bv, font); // ?
}
void InsetFig::Write(Buffer const *, ostream & os) const
{
Regenerate();
os << "Figure size " << wid << " " << hgh << "\n";
if (!fname.empty()) {
string buf1 = OnlyPath(owner->fileName());
string fname2 = MakeRelPath(fname, buf1);
os << "file " << fname2 << "\n";
}
if (!subcaption.empty())
os << "subcaption " << subcaption << "\n";
if (wtype) os << "width " << static_cast<int>(wtype) << " " << xwid << "\n";
if (htype) os << "height " << static_cast<int>(htype) << " " << xhgh << "\n";
if (angle != 0) os << "angle " << angle << "\n";
os << "flags " << flags << "\n";
if (subfigure) os << "subfigure\n";
}
void InsetFig::Read(Buffer const *, LyXLex & lex)
{
string buf;
bool finished = false;
while (lex.IsOK() && !finished) {
lex.next();
string const token = lex.GetString();
lyxerr.debug() << "Token: " << token << endl;
if (token.empty())
continue;
else if (token == "\\end_inset") {
finished = true;
} else if (token == "file") {
if (lex.next()) {
buf = lex.GetString();
string buf1 = OnlyPath(owner->fileName());
fname = MakeAbsPath(buf, buf1);
changedfname = true;
}
} else if (token == "extra") {
if (lex.next());
// kept for backwards compability. Delete in 0.13.x
} else if (token == "subcaption") {
if (lex.EatLine())
subcaption = lex.GetString();
} else if (token == "label") {
if (lex.next());
// kept for backwards compability. Delete in 0.13.x
} else if (token == "angle") {
if (lex.next())
angle = lex.GetFloat();
} else if (token == "size") {
if (lex.next())
wid = lex.GetInteger();
if (lex.next())
hgh = lex.GetInteger();
} else if (token == "flags") {
if (lex.next())
flags = pflags = lex.GetInteger();
} else if (token == "subfigure") {
subfigure = psubfigure = true;
} else if (token == "width") {
int typ = 0;
if (lex.next())
typ = lex.GetInteger();
if (lex.next())
xwid = lex.GetFloat();
switch (typ) {
case DEF: wtype = DEF; break;
case CM: wtype = CM; break;
case IN: wtype = IN; break;
case PER_PAGE: wtype = PER_PAGE; break;
case PER_COL: wtype = PER_COL; break;
default:
lyxerr.debug() << "Unknown type!" << endl;
break;
}
twtype = wtype;
} else if (token == "height") {
int typ = 0;
if (lex.next())
typ = lex.GetInteger();
if (lex.next())
xhgh = lex.GetFloat();
switch (typ) {
case DEF: htype = DEF; break;
case CM: htype = CM; break;
case IN: htype = IN; break;
case PER_PAGE: htype = PER_PAGE; break;
default:
lyxerr.debug() << "Unknown type!" << endl;
break;
}
thtype = htype;
}
}
Regenerate();
Recompute();
}
int InsetFig::Latex(Buffer const *, ostream & os,
bool /* fragile*/, bool /* fs*/) const
{
Regenerate();
if (!cmd.empty()) os << cmd << " ";
return 0;
}
int InsetFig::Ascii(Buffer const *, ostream &) const
{
return 0;
}
int InsetFig::Linuxdoc(Buffer const *, ostream &) const
{
return 0;
}
int InsetFig::DocBook(Buffer const *, ostream & os) const
{
string buf1 = OnlyPath(owner->fileName());
string figurename = MakeRelPath(fname, buf1);
if(suffixIs(figurename, ".eps"))
figurename.erase(fname.length() - 4);
os << "@<graphic fileref=\"" << figurename << "\"></graphic>";
return 0;
}
void InsetFig::Validate(LaTeXFeatures & features) const
{
features.graphics = true;
if (subfigure) features.subfigure = true;
}
Inset::EDITABLE InsetFig::Editable() const
{
return IS_EDITABLE;
}
bool InsetFig::Deletable() const
{
return false;
}
char const * InsetFig::EditMessage() const
{
return _("Opened figure");
}
void InsetFig::Edit(BufferView * bv, int, int, unsigned int)
{
lyxerr.debug() << "Editing InsetFig." << endl;
Regenerate();
// We should have RO-versions of the form instead.
// The actual prevention of altering a readonly doc
// is done in CallbackFig()
if(bv->buffer()->isReadonly())
WarnReadonly(bv->buffer()->fileName());
if (!form) {
form = create_form_Figure();
fl_set_form_atclose(form->Figure, CancelCloseBoxCB, 0);
fl_set_object_return(form->Angle, FL_RETURN_ALWAYS);
fl_set_object_return(form->Width, FL_RETURN_ALWAYS);
fl_set_object_return(form->Height, FL_RETURN_ALWAYS);
}
RestoreForm();
if (form->Figure->visible) {
fl_raise_form(form->Figure);
} else {
fl_show_form(form->Figure, FL_PLACE_MOUSE | FL_PLACE_SIZE,
FL_FULLBORDER, _("Figure"));
}
}
Inset * InsetFig::Clone() const
{
InsetFig * tmp = new InsetFig(100, 100, owner);
if (lyxerr.debugging()) {
lyxerr << "Clone Figure: buffer:["
<< current_view->buffer()
<< "], cbuffer:[xx]" << endl;
}
tmp->wid = wid;
tmp->hgh = hgh;
tmp->raw_wid = raw_wid;
tmp->raw_hgh = raw_hgh;
tmp->angle = angle;
tmp->xwid = xwid;
tmp->xhgh = xhgh;
tmp->flags = flags;
tmp->pflags = pflags;
tmp->subfigure = subfigure;
tmp->psubfigure = psubfigure;
tmp->wtype = wtype;
tmp->htype = htype;
tmp->psx = psx;
tmp->psy = psy;
tmp->pswid = pswid;
tmp->pshgh = pshgh;
tmp->fname = fname;
if (!fname.empty() && IsFileReadable(fname)
&& (flags & 3) && !lyxrc.ps_command.empty()
&& lyxrc.use_gui) {
// do not display if there is
// "do not display" chosen (Matthias 260696)
tmp->figure->data = getfigdata(wid, hgh, fname, psx, psy,
pswid, pshgh, raw_wid, raw_hgh,
angle, flags & (3|8));
} else tmp->figure->data = 0;
tmp->subcaption = subcaption;
tmp->changedfname = false;
tmp->owner = owner;
tmp->Regenerate();
return tmp;
}
Inset::Code InsetFig::LyxCode() const
{
return Inset::GRAPHICS_CODE;
}
static
string stringify(InsetFig::HWTYPE hw, float f, string suffix)
{
string res;
switch (hw) {
case InsetFig::DEF:
break;
case InsetFig::CM:// \resizebox*{h-length}{v-length}{text}
res = tostr(f) + "cm";
break;
case InsetFig::IN:
res = tostr(f) + "in";
break;
case InsetFig::PER_PAGE:
res = tostr(f/100) + "\\text" + suffix;
break;
case InsetFig::PER_COL:
// Doesn't occur for htype...
res = tostr(f/100) + "\\column" + suffix;
break;
}
return res;
}
void InsetFig::Regenerate() const
{
string cmdbuf;
string resizeW, resizeH;
string rotate, recmd;
if (fname.empty()) {
cmd = "\\fbox{\\rule[-0.5in]{0pt}{1in}";
cmd += _("empty figure path");
cmd += '}';
return;
}
string buf1 = OnlyPath(owner->fileName());
string fname2 = MakeRelPath(fname, buf1);
string gcmd = "\\includegraphics{" + fname2 + '}';
resizeW = stringify(wtype, xwid, "width");
resizeH = stringify(htype, xhgh, "height");
if (!resizeW.empty() || !resizeH.empty()) {
recmd = "\\resizebox*{";
if (!resizeW.empty())
recmd += resizeW;
else
recmd += '!';
recmd += "}{";
if (!resizeH.empty())
recmd += resizeH;
else
recmd += '!';
recmd += "}{";
}
if (angle != 0) {
// \rotatebox{angle}{text}
rotate = "\\rotatebox{" + tostr(angle) + "}{";
}
cmdbuf = recmd;
cmdbuf += rotate;
cmdbuf += gcmd;
if (!rotate.empty()) cmdbuf += '}';
if (!recmd.empty()) cmdbuf += '}';
if (subfigure) {
if (!subcaption.empty())
cmdbuf = "\\subfigure[" + subcaption +
"]{" + cmdbuf + "}";
else
cmdbuf = "\\subfigure{" + cmdbuf + "}";
}
cmd = cmdbuf;
}
void InsetFig::TempRegenerate()
{
string cmdbuf;
string resizeW, resizeH;
string rotate, recmd;
char const * tfname = fl_get_input(form->EpsFile);
string tsubcap = fl_get_input(form->Subcaption);
float tangle = atof(fl_get_input(form->Angle));
float txwid = atof(fl_get_input(form->Width));
float txhgh = atof(fl_get_input(form->Height));
if (!tfname || !*tfname) {
cmd = "\\fbox{\\rule[-0.5in]{0pt}{1in}";
cmd += _("empty figure path");
cmd += '}';
return;
}
string buf1 = OnlyPath(owner->fileName());
string fname2 = MakeRelPath(tfname, buf1);
// \includegraphics*[<llx,lly>][<urx,ury>]{file}
string gcmd = "\\includegraphics{" + fname2 + '}';
resizeW = stringify(twtype, txwid, "width");
resizeH = stringify(thtype, txhgh, "height");
// \resizebox*{h-length}{v-length}{text}
if (!resizeW.empty() || !resizeH.empty()) {
recmd = "\\resizebox*{";
if (!resizeW.empty())
recmd += resizeW;
else
recmd += '!';
recmd += "}{";
if (!resizeH.empty())
recmd += resizeH;
else
recmd += '!';
recmd += "}{";
}
if (tangle != 0) {
// \rotatebox{angle}{text}
rotate = "\\rotatebox{" + tostr(tangle) + "}{";
}
cmdbuf = recmd + rotate + gcmd;
if (!rotate.empty()) cmdbuf += '}';
if (!recmd.empty()) cmdbuf += '}';
if (psubfigure && !tsubcap.empty()) {
cmdbuf = string("\\subfigure{") + tsubcap
+ string("}{") + cmdbuf + "}";
}
}
void InsetFig::Recompute()
{
bool changed = changedfname;
int newx, newy, nraw_x, nraw_y;
if (changed) GetPSSizes();
float sin_a = sin (angle / DEG2PI); /* rotation; H. Zeller 021296 */
float cos_a = cos (angle / DEG2PI);
int frame_wid = int(ceil(fabs(cos_a * pswid) + fabs(sin_a * pshgh)));
int frame_hgh= int(ceil(fabs(cos_a * pshgh) + fabs(sin_a * pswid)));
/* now recompute wid and hgh, and if that is changed, set changed */
/* this depends on chosen size of the picture and its bbox */
// This will be redone in 0.13 ... (hen)
if (!fname.empty() && IsFileReadable(fname)) {
// say, total width is 595 pts, as A4 in TeX, thats in 1/72" */
newx = frame_wid;
newy = frame_hgh;
switch (wtype) {
case DEF:
break;
case CM: /* cm */
newx = int(28.346 * xwid);
break;
case IN: /* in */
newx = int(72 * xwid);
break;
case PER_PAGE: /* % of page */
newx = int(5.95 * xwid);
break;
case PER_COL: /* % of col */
newx = int(2.975 * xwid);
break;
}
if (wtype && frame_wid) newy = newx*frame_hgh/frame_wid;
switch (htype) {
case DEF:
//lyxerr << "This should not happen!" << endl;
break;
case CM: /* cm */
newy = int(28.346 * xhgh);
break;
case IN: /* in */
newy = int(72 * xhgh);
break;
case PER_PAGE: /* % of page */
newy = int(8.42 * xhgh);
break;
case PER_COL:
// Doesn't occur; case exists to suppress
// compiler warnings.
break;
}
if (htype && !wtype && frame_hgh)
newx = newy*frame_wid/frame_hgh;
} else {
newx = wid;
newy = hgh;
}
if (frame_wid == 0)
nraw_x = 5;
else
nraw_x = int((1.0 * pswid * newx)/frame_wid);
if (frame_hgh == 0)
nraw_y = 5;
else
nraw_y = int((1.0 * pshgh * newy)/frame_hgh);
// cannot be zero, actually, set it to some minimum, so its clickable
if (newx < 5) newx = 5;
if (newy < 5) newy = 5;
if (newx != wid || newy != hgh ||
nraw_x != raw_wid || nraw_y != raw_hgh ||
flags != pflags || subfigure != psubfigure)
changed = true;
raw_wid = nraw_x;
raw_hgh = nraw_y;
wid = newx;
hgh = newy;
flags = pflags;
subfigure = psubfigure;
if (changed) {
figdata * pf = figure->data;
// get new data
if (!fname.empty() && IsFileReadable(fname) && (flags & 3)
&& !lyxrc.ps_command.empty()) {
// do not display if there is "do not display"
// chosen (Matthias 260696)
figure->data = getfigdata(wid, hgh, fname,
psx, psy, pswid, pshgh,
raw_wid, raw_hgh,
angle, flags & (3|8));
} else figure->data = 0;
// free the old data
if (pf) freefigdata(pf);
}
changedfname = false;
}
void InsetFig::GetPSSizes()
{
/* get %%BoundingBox: from postscript file */
/* defaults to associated size
* ..just in case the PS-file is not readable (Henner, 24-Aug-97)
*/
psx = 0;
psy = 0;
pswid = wid;
pshgh = hgh;
if (fname.empty()) return;
string p;
ifstream ifs(fname.c_str());
if (!ifs) return; // file not found !!!!
/* defaults to A4 page */
psx = 0;
psy = 0;
pswid = 595;
pshgh = 842;
char lastchar = 0; ifs.get(lastchar);
for (;;) {
char c = 0; ifs.get(c);
if (ifs.eof()) {
lyxerr.debug() << "End of (E)PS file reached and"
" no BoundingBox!" << endl;
break;
}
if (c == '%' && lastchar == '%') {
ifs >> p;
if (p.empty()) break;
lyxerr.debug() << "Token: `" << p << "'" << endl;
if (p == "BoundingBox:") {
float fpsx, fpsy, fpswid, fpshgh;
if (ifs >> fpsx >> fpsy >> fpswid >> fpshgh) {
psx = int(fpsx);
psy = int(fpsy);
pswid = int(fpswid);
pshgh = int(fpshgh);
}
if (lyxerr.debugging()) {
lyxerr << "%%%%BoundingBox:"
<< psx << ' '
<< psy << ' '
<< pswid << ' '
<< pshgh << endl;
}
break;
}
c = 0;
}
lastchar = c;
}
pswid -= psx;
pshgh -= psy;
}
void InsetFig::CallbackFig(long arg)
{
bool regen = false;
char const * p;
if (lyxerr.debugging()) {
lyxerr << "Figure callback, arg " << arg << endl;
}
switch (arg) {
case 10:
case 11:
case 12: /* width type */
case 13:
case 14:
switch (arg - 10) {
case DEF:
twtype = DEF;
// put disable here
fl_deactivate_object(form->Width);
break;
case CM:
twtype = CM;
// put enable here
fl_activate_object(form->Width);
break;
case IN:
twtype = IN;
// put enable here
fl_activate_object(form->Width);
break;
case PER_PAGE:
twtype = PER_PAGE;
// put enable here
fl_activate_object(form->Width);
break;
case PER_COL:
twtype = PER_COL;
// put enable here
fl_activate_object(form->Width);
break;
default:
lyxerr.debug() << "Unknown type!" << endl;
break;
}
regen = true;
break;
case 20:
case 21:
case 22: /* height type */
case 23:
switch (arg - 20) {
case DEF:
thtype = DEF;
// put disable here
fl_deactivate_object(form->Height);
break;
case CM:
thtype = CM;
// put enable here
fl_activate_object(form->Height);
break;
case IN:
thtype = IN;
// put enable here
fl_activate_object(form->Height);
break;
case PER_PAGE:
thtype = PER_PAGE;
// put enable here
fl_activate_object(form->Height);
break;
default:
lyxerr.debug() << "Unknown type!" << endl;
break;
}
regen = true;
break;
case 3:
pflags = pflags & ~3; /* wysiwyg0 */
break;
case 33:
pflags = (pflags & ~3) | 1; /* wysiwyg1 */
break;
case 43:
pflags = (pflags & ~3) | 2; /* wysiwyg2 */
break;
case 63:
pflags = (pflags & ~3) | 3; /* wysiwyg3 */
break;
case 53:
pflags ^= 4; /* frame */
break;
case 54:
pflags ^= 8; /* do translations */
break;
case 70:
psubfigure = !psubfigure; /* This is a subfigure */
break;
case 2:
regen = true; /* regenerate command */
break;
case 0: /* browse file */
BrowseFile();
regen = true;
break;
case 1: /* preview */
p = fl_get_input(form->EpsFile);
Preview(p);
break;
case 7: /* apply */
case 8: /* ok (apply and close) */
if(!current_view->buffer()->isReadonly()) {
wtype = twtype;
htype = thtype;
xwid = atof(fl_get_input(form->Width));
xhgh = atof(fl_get_input(form->Height));
angle = atof(fl_get_input(form->Angle));
p = fl_get_input(form->EpsFile);
if (p && *p) {
string buf1 = OnlyPath(owner->fileName());
fname = MakeAbsPath(p, buf1);
changedfname = true;
} else {
if (!fname.empty()) {
changedfname = true;
fname.erase();
}
}
subcaption = fl_get_input(form->Subcaption);
Regenerate();
Recompute();
/* now update inset */
if (lyxerr.debugging()) {
lyxerr << "Update: ["
<< wid << 'x' << hgh << ']' << endl;
}
current_view->updateInset(this, true);
if (arg == 8) {
fl_set_focus_object(form->Figure, form->OkBtn);
fl_hide_form(form->Figure);
#if FL_REVISION == 89
// CHECK Reactivate this free_form calls
#else
fl_free_form(form->Figure);
free(form); // Why free?
form = 0;
#endif
}
break;
} //if not readonly
// The user has already been informed about RO in ::Edit
if(arg == 7) // if 'Apply'
break;
// fall through
case 9: /* cancel = restore and close */
fl_set_focus_object(form->Figure, form->OkBtn);
fl_hide_form(form->Figure);
#if FL_REVISION == 89
// CHECK Reactivate this free_form calls
// Jug, is this still a problem?
#else
fl_free_form(form->Figure);
free(form); // Why free?
form = 0;
#endif
break;
}
if (regen) TempRegenerate();
}
inline
void DisableFigurePanel(FD_Figure * const form)
{
fl_deactivate_object(form->EpsFile);
fl_deactivate_object(form->Browse);
fl_deactivate_object(form->Width);
fl_deactivate_object(form->Height);
fl_deactivate_object(form->Frame);
fl_deactivate_object(form->Translations);
fl_deactivate_object(form->Angle);
fl_deactivate_object(form->HeightGrp);
fl_deactivate_object(form->page2);
fl_deactivate_object(form->Default2);
fl_deactivate_object(form->cm2);
fl_deactivate_object(form->in2);
fl_deactivate_object(form->HeightLabel);
fl_deactivate_object(form->WidthLabel);
fl_deactivate_object(form->DisplayGrp);
fl_deactivate_object(form->Wysiwyg3);
fl_deactivate_object(form->Wysiwyg0);
fl_deactivate_object(form->Wysiwyg2);
fl_deactivate_object(form->Wysiwyg1);
fl_deactivate_object(form->WidthGrp);
fl_deactivate_object(form->Default1);
fl_deactivate_object(form->cm1);
fl_deactivate_object(form->in1);
fl_deactivate_object(form->page1);
fl_deactivate_object(form->column1);
fl_deactivate_object(form->Subcaption);
fl_deactivate_object(form->Subfigure);
fl_deactivate_object (form->OkBtn);
fl_deactivate_object (form->ApplyBtn);
fl_set_object_lcol (form->OkBtn, FL_INACTIVE);
fl_set_object_lcol (form->ApplyBtn, FL_INACTIVE);
}
inline
void EnableFigurePanel(FD_Figure * const form)
{
fl_activate_object(form->EpsFile);
fl_activate_object(form->Browse);
fl_activate_object(form->Width);
fl_activate_object(form->Height);
fl_activate_object(form->Frame);
fl_activate_object(form->Translations);
fl_activate_object(form->Angle);
fl_activate_object(form->HeightGrp);
fl_activate_object(form->page2);
fl_activate_object(form->Default2);
fl_activate_object(form->cm2);
fl_activate_object(form->in2);
fl_activate_object(form->HeightLabel);
fl_activate_object(form->WidthLabel);
fl_activate_object(form->DisplayGrp);
fl_activate_object(form->Wysiwyg3);
fl_activate_object(form->Wysiwyg0);
fl_activate_object(form->Wysiwyg2);
fl_activate_object(form->Wysiwyg1);
fl_activate_object(form->WidthGrp);
fl_activate_object(form->Default1);
fl_activate_object(form->cm1);
fl_activate_object(form->in1);
fl_activate_object(form->page1);
fl_activate_object(form->column1);
fl_activate_object(form->Subcaption);
fl_activate_object(form->Subfigure);
fl_activate_object (form->OkBtn);
fl_activate_object (form->ApplyBtn);
fl_set_object_lcol (form->OkBtn, FL_BLACK);
fl_set_object_lcol (form->ApplyBtn, FL_BLACK);
}
void InsetFig::RestoreForm()
{
EnableFigurePanel(form);
twtype = wtype;
fl_set_button(form->Default1, (wtype == 0));
fl_set_button(form->cm1, (wtype == 1));
fl_set_button(form->in1, (wtype == 2));
fl_set_button(form->page1, (wtype == 3));
fl_set_button(form->column1, (wtype == 4));
if (wtype == 0) {
fl_deactivate_object(form->Width);
} else {
fl_activate_object(form->Width);
}
// enable and disable should be put here.
thtype = htype;
fl_set_button(form->Default2, (htype == 0));
fl_set_button(form->cm2, (htype == 1));
fl_set_button(form->in2, (htype == 2));
fl_set_button(form->page2, (htype == 3));
// enable and disable should be put here.
if (htype == 0) {
fl_deactivate_object(form->Height);
} else {
fl_activate_object(form->Height);
}
int piflags = flags & 3;
fl_set_button(form->Wysiwyg0, (piflags == 0));
fl_set_button(form->Wysiwyg1, (piflags == 1));
fl_set_button(form->Wysiwyg2, (piflags == 2));
fl_set_button(form->Wysiwyg3, (piflags == 3));
fl_set_button(form->Frame, ((flags & 4) != 0));
fl_set_button(form->Translations, ((flags & 8) != 0));
fl_set_button(form->Subfigure, (subfigure != 0));
pflags = flags;
psubfigure = subfigure;
fl_set_input(form->Width, tostr(xwid).c_str());
fl_set_input(form->Height, tostr(xhgh).c_str());
fl_set_input(form->Angle, tostr(angle).c_str());
if (!fname.empty()){
string buf1 = OnlyPath(owner->fileName());
string fname2 = MakeRelPath(fname, buf1);
fl_set_input(form->EpsFile, fname2.c_str());
}
else fl_set_input(form->EpsFile, "");
fl_set_input(form->Subcaption, subcaption.c_str());
if(current_view->buffer()->isReadonly())
DisableFigurePanel(form);
TempRegenerate();
}
void InsetFig::Preview(char const * p)
{
int pid = fork();
if (pid == -1) {
lyxerr << "Cannot fork process!" << endl;
return; // error
}
if (pid > 0) {
addpidwait(pid);
return; // parent process
}
string buf1 = OnlyPath(owner->fileName());
string buf2 = MakeAbsPath(p, buf1);
lyxerr << "Error during rendering "
<< execlp(lyxrc.view_pspic_command.c_str(),
lyxrc.view_pspic_command.c_str(),
buf2.c_str(), 0)
<< endl;
_exit(0);
}
void InsetFig::BrowseFile()
{
static string current_figure_path;
static int once = 0;
LyXFileDlg fileDlg;
if (lyxerr.debugging()) {
lyxerr << "Filename: "
<< owner->fileName() << endl;
}
string p = fl_get_input(form->EpsFile);
string buf = MakeAbsPath(owner->fileName());
string buf2 = OnlyPath(buf);
if (!p.empty()) {
buf = MakeAbsPath(p, buf2);
buf = OnlyPath(buf);
} else {
buf = OnlyPath(owner->fileName().c_str());
}
// Does user clipart directory exist?
string bufclip = AddName (user_lyxdir, "clipart");
FileInfo fileInfo(bufclip);
if (!(fileInfo.isOK() && fileInfo.isDir()))
// No - bail out to system clipart directory
bufclip = AddName (system_lyxdir, "clipart");
fileDlg.SetButton(0, _("Clipart"), bufclip);
fileDlg.SetButton(1, _("Document"), buf);
bool error = false;
do {
ProhibitInput(current_view);
if (once) {
p = fileDlg.Select(_("EPS Figure"),
current_figure_path,
"*ps", string());
} else {
p = fileDlg.Select(_("EPS Figure"), buf,
"*ps", string());
}
AllowInput(current_view);
if (p.empty()) return;
buf = MakeRelPath(p, buf2);
current_figure_path = OnlyPath(p);
once = 1;
if (contains(p, "#") || contains(p, "~") || contains(p, "$")
|| contains(p, "%") || contains(p, " ")) {
WriteAlert(_("Filename can't contain any "
"of these characters:"),
// xgettext:no-c-format
_("space, '#', '~', '$' or '%'."));
error = true;
}
} while (error);
if (form) fl_set_input(form->EpsFile, buf.c_str());
}
void GraphicsCB(FL_OBJECT * obj, long arg)
{
/* obj->form contains the form */
if (lyxerr.debugging()) {
lyxerr << "GraphicsCB callback: " << arg << endl;
}
/* find inset we were reacting to */
for (figures_type::iterator it = figures.begin();
it != figures.end(); ++it)
if ((*it)->inset->form && (*it)->inset->form->Figure
== obj->form) {
if (lyxerr.debugging()) {
lyxerr << "Calling back figure "
<< (*it) << endl;
}
(*it)->inset->CallbackFig(arg);
return;
}
}
void HideFiguresPopups()
{
for (figures_type::iterator it = figures.begin();
it != figures.end(); ++it)
if ((*it)->inset->form
&& (*it)->inset->form->Figure->visible) {
if (lyxerr.debugging()) {
lyxerr << "Hiding figure " << (*it) << endl;
}
// hide and free the form
(*it)->inset->CallbackFig(9);
}
}