fltk/fluid/fluid.cxx
2020-06-19 11:32:02 -07:00

1882 lines
54 KiB
C++

//
// "$Id$"
//
// FLUID main entry for the Fast Light Tool Kit (FLTK).
//
// Copyright 1998-2017 by Bill Spitzak and others.
//
// This library is free software. Distribution and use rights are outlined in
// the file "COPYING" which should have been included with this file. If this
// file is missing or damaged, see the license at:
//
// http://www.fltk.org/COPYING.php
//
// Please report all bugs and problems on the following page:
//
// http://www.fltk.org/str.php
//
#include <FL/Fl.H>
#include <FL/Fl_Double_Window.H>
#include <FL/Fl_Box.H>
#include <FL/Fl_Button.H>
#include <FL/Fl_File_Icon.H>
#include <FL/Fl_Help_Dialog.H>
#include <FL/Fl_Hold_Browser.H>
#include <FL/Fl_Menu_Bar.H>
#include <FL/Fl_Input.H>
#include <FL/Fl_Plugin.H>
#include <FL/fl_ask.H>
#include <FL/fl_draw.H>
#include <FL/Fl_File_Chooser.H>
#include <FL/Fl_PNG_Image.H>
#include <FL/fl_message.H>
#include <FL/filename.H>
#include <FL/Fl_Native_File_Chooser.H>
#include <FL/Fl_Printer.H>
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <sys/stat.h>
#include <time.h> // time(), localtime(), etc.
#include "../src/flstring.h"
#include "alignment_panel.h"
#include "function_panel.h"
#include "template_panel.h"
#if defined(WIN32) && !defined(__CYGWIN__)
# include <direct.h>
# include <windows.h>
# include <io.h>
# include <fcntl.h>
# include <commdlg.h>
# include <FL/x.H>
# ifndef __WATCOMC__
// Visual C++ 2005 incorrectly displays a warning about the use of POSIX APIs
// on Windows, which is supposed to be POSIX compliant...
# define access _access
# define chdir _chdir
# define getcwd _getcwd
# endif // !__WATCOMC__
#else
# include <unistd.h>
#endif
#ifdef __EMX__
# include <X11/Xlibint.h>
#endif
#include "about_panel.h"
#include "undo.h"
#include "Fl_Type.h"
extern "C"
{
#if defined(HAVE_LIBPNG) && defined(HAVE_LIBZ)
# include <zlib.h>
# ifdef HAVE_PNG_H
# include <png.h>
# else
# include <libpng/png.h>
# endif // HAVE_PNG_H
#endif // HAVE_LIBPNG && HAVE_LIBZ
}
//
// Globals..
//
static Fl_Help_Dialog *help_dialog = 0;
Fl_Preferences fluid_prefs(Fl_Preferences::USER, "fltk.org", "fluid");
int gridx = 5;
int gridy = 5;
int snap = 1;
int show_guides = 1;
int show_comments = 1;
int G_use_external_editor = 0;
int G_debug = 0;
char G_external_editor_command[512];
int show_coredevmenus = 1;
// File history info...
char absolute_history[10][FL_PATH_MAX];
char relative_history[10][FL_PATH_MAX];
void load_history();
void update_history(const char *);
// Shell command support...
void show_shell_window();
Fl_Menu_Item *save_item = 0L;
Fl_Menu_Item *history_item = 0L;
Fl_Menu_Item *widgetbin_item = 0L;
Fl_Menu_Item *sourceview_item = 0L;
////////////////////////////////////////////////////////////////
static const char *filename;
void set_filename(const char *c);
void set_modflag(int mf);
int modflag;
static char* pwd;
static char in_source_dir;
void goto_source_dir() {
if (in_source_dir) return;
if (!filename || !*filename) return;
const char *p = fl_filename_name(filename);
if (p <= filename) return; // it is in the current directory
char buffer[FL_PATH_MAX];
strlcpy(buffer, filename, sizeof(buffer));
int n = (int)(p-filename); if (n>1) n--; buffer[n] = 0;
if (!pwd) {
pwd = getcwd(0,FL_PATH_MAX);
if (!pwd) {fprintf(stderr,"getwd : %s\n",strerror(errno)); return;}
}
if (chdir(buffer)<0) {fprintf(stderr, "Can't chdir to %s : %s\n",
buffer, strerror(errno)); return;}
in_source_dir = 1;
}
void leave_source_dir() {
if (!in_source_dir) return;
if (chdir(pwd)<0) {fprintf(stderr, "Can't chdir to %s : %s\n",
pwd, strerror(errno));}
in_source_dir = 0;
}
char position_window(Fl_Window *w, const char *prefsName, int Visible, int X, int Y, int W=0, int H=0 ) {
Fl_Preferences pos(fluid_prefs, prefsName);
if (prevpos_button->value()) {
pos.get("x", X, X);
pos.get("y", Y, Y);
if ( W!=0 ) {
pos.get("w", W, W);
pos.get("h", H, H);
w->resize( X, Y, W, H );
}
else
w->position( X, Y );
}
pos.get("visible", Visible, Visible);
return Visible;
}
void save_position(Fl_Window *w, const char *prefsName) {
Fl_Preferences pos(fluid_prefs, prefsName);
pos.set("x", w->x());
pos.set("y", w->y());
pos.set("w", w->w());
pos.set("h", w->h());
pos.set("visible", (int)(w->shown() && w->visible()));
}
Fl_Window *main_window;
Fl_Menu_Bar *main_menubar;
static char* cutfname(int which = 0) {
static char name[2][FL_PATH_MAX];
static char beenhere = 0;
if (!beenhere) {
beenhere = 1;
fluid_prefs.getUserdataPath(name[0], sizeof(name[0]));
strlcat(name[0], "cut_buffer", sizeof(name[0]));
fluid_prefs.getUserdataPath(name[1], sizeof(name[1]));
strlcat(name[1], "dup_buffer", sizeof(name[1]));
}
return name[which];
}
// Timer to watch for external editor modifications
// If one or more external editors open, check if their files were modified.
// If so: reload to ram, update size/mtime records, and change fluid's 'modified' state.
//
static void external_editor_timer(void*) {
int editors_open = ExternalCodeEditor::editors_open();
if ( G_debug ) printf("--- TIMER --- External editors open=%d\n", editors_open);
if ( editors_open > 0 ) {
// Walk tree looking for files modified by external editors.
int modified = 0;
for (Fl_Type *p = Fl_Type::first; p; p = p->next) {
if ( p->is_code() ) {
Fl_Code_Type *code = (Fl_Code_Type*)p;
// Code changed by external editor?
if ( code->handle_editor_changes() ) { // updates ram, file size/mtime
modified++;
}
if ( code->is_editing() ) { // editor open?
code->reap_editor(); // Try to reap; maybe it recently closed
}
}
}
if ( modified ) set_modflag(1);
}
// Repeat timeout if editors still open
// The ExternalCodeEditor class handles start/stopping timer, we just
// repeat_timeout() if it's already on. NOTE: above code may have reaped
// only open editor, which would disable further timeouts. So *recheck*
// if editors still open, to ensure we don't accidentally re-enable them.
//
if ( ExternalCodeEditor::editors_open() ) {
Fl::repeat_timeout(2.0, external_editor_timer);
}
}
void save_cb(Fl_Widget *, void *v) {
Fl_Native_File_Chooser fnfc;
const char *c = filename;
if (v || !c || !*c) {
fnfc.title("Save To:");
fnfc.type(Fl_Native_File_Chooser::BROWSE_SAVE_FILE);
fnfc.filter("FLUID Files\t*.f[ld]");
if (fnfc.show() != 0) return;
c = fnfc.filename();
if (!access(c, 0)) {
const char *basename;
if ((basename = strrchr(c, '/')) != NULL)
basename ++;
#if defined(WIN32) || defined(__EMX__)
if ((basename = strrchr(c, '\\')) != NULL)
basename ++;
#endif // WIN32 || __EMX__
else
basename = c;
if (fl_choice("The file \"%s\" already exists.\n"
"Do you want to replace it?", "Cancel",
"Replace", NULL, basename) == 0) return;
}
if (v != (void *)2) set_filename(c);
}
if (!write_file(c)) {
fl_alert("Error writing %s: %s", c, strerror(errno));
return;
}
if (v != (void *)2) {
set_modflag(0);
undo_save = undo_current;
}
}
void save_template_cb(Fl_Widget *, void *) {
// Setup the template panel...
if (!template_panel) make_template_panel();
template_clear();
template_browser->add("New Template");
template_load();
template_name->show();
template_name->value("");
template_instance->hide();
template_delete->show();
template_delete->deactivate();
template_submit->label("Save");
template_submit->deactivate();
template_panel->label("Save Template");
// Show the panel and wait for the user to do something...
template_panel->show();
while (template_panel->shown()) Fl::wait();
// Get the template name, return if it is empty...
const char *c = template_name->value();
if (!c || !*c) return;
// Convert template name to filename_with_underscores
char safename[FL_PATH_MAX], *safeptr;
strlcpy(safename, c, sizeof(safename));
for (safeptr = safename; *safeptr; safeptr ++) {
if (isspace(*safeptr)) *safeptr = '_';
}
// Find the templates directory...
char filename[FL_PATH_MAX];
fluid_prefs.getUserdataPath(filename, sizeof(filename));
strlcat(filename, "templates", sizeof(filename));
#if defined(WIN32) && !defined(__CYGWIN__)
if (access(filename, 0)) mkdir(filename);
#else
if (access(filename, 0)) mkdir(filename, 0777);
#endif // WIN32 && !__CYGWIN__
strlcat(filename, "/", sizeof(filename));
strlcat(filename, safename, sizeof(filename));
char *ext = filename + strlen(filename);
if (ext >= (filename + sizeof(filename) - 5)) {
fl_alert("The template name \"%s\" is too long!", c);
return;
}
// Save the .fl file...
strcpy(ext, ".fl");
if (!access(filename, 0)) {
if (fl_choice("The template \"%s\" already exists.\n"
"Do you want to replace it?", "Cancel",
"Replace", NULL, c) == 0) return;
}
if (!write_file(filename)) {
fl_alert("Error writing %s: %s", filename, strerror(errno));
return;
}
#if defined(HAVE_LIBPNG) && defined(HAVE_LIBZ)
// Get the screenshot, if any...
Fl_Type *t;
for (t = Fl_Type::first; t; t = t->next) {
// Find the first window...
if (t->is_window()) break;
}
if (!t) return;
// Grab a screenshot...
Fl_Window_Type *wt = (Fl_Window_Type *)t;
uchar *pixels;
int w, h;
if ((pixels = wt->read_image(w, h)) == NULL) return;
// Save to a PNG file...
strcpy(ext, ".png");
FILE *fp;
if ((fp = fl_fopen(filename, "wb")) == NULL) {
delete[] pixels;
fl_alert("Error writing %s: %s", filename, strerror(errno));
return;
}
png_structp pptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, 0, 0, 0);
png_infop iptr = png_create_info_struct(pptr);
png_bytep ptr = (png_bytep)pixels;
png_init_io(pptr, fp);
png_set_IHDR(pptr, iptr, w, h, 8, PNG_COLOR_TYPE_RGB, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_set_sRGB(pptr, iptr, PNG_sRGB_INTENT_PERCEPTUAL);
png_write_info(pptr, iptr);
for (int i = h; i > 0; i --, ptr += w * 3) {
png_write_row(pptr, ptr);
}
png_write_end(pptr, iptr);
png_destroy_write_struct(&pptr, &iptr);
fclose(fp);
# if 0 // The original PPM output code...
strcpy(ext, ".ppm");
fp = fl_fopen(filename, "wb");
fprintf(fp, "P6\n%d %d 255\n", w, h);
fwrite(pixels, w * h, 3, fp);
fclose(fp);
# endif // 0
delete[] pixels;
#endif // HAVE_LIBPNG && HAVE_LIBZ
}
void revert_cb(Fl_Widget *,void *) {
if (modflag) {
if (!fl_choice("This user interface has been changed. Really revert?",
"Cancel", "Revert", NULL)) return;
}
undo_suspend();
if (!read_file(filename, 0)) {
undo_resume();
fl_message("Can't read %s: %s", filename, strerror(errno));
return;
}
undo_resume();
set_modflag(0);
undo_clear();
}
void exit_cb(Fl_Widget *,void *) {
// Stop any external editor update timers
ExternalCodeEditor::stop_update_timer();
if (modflag)
switch (fl_choice("Do you want to save changes to this user\n"
"interface before exiting?", "Cancel",
"Save", "Don't Save"))
{
case 0 : /* Cancel */
return;
case 1 : /* Save */
save_cb(NULL, NULL);
if (modflag) return; // Didn't save!
}
save_position(main_window,"main_window_pos");
if (widgetbin_panel) {
save_position(widgetbin_panel,"widgetbin_pos");
delete widgetbin_panel;
}
if (sourceview_panel) {
Fl_Preferences svp(fluid_prefs, "sourceview");
svp.set("autorefresh", sv_autorefresh->value());
svp.set("autoposition", sv_autoposition->value());
svp.set("tab", sv_tab->find(sv_tab->value()));
save_position(sourceview_panel,"sourceview_pos");
delete sourceview_panel;
sourceview_panel = 0;
}
if (about_panel)
delete about_panel;
if (help_dialog)
delete help_dialog;
undo_clear();
// Destroy tree
// Doing so causes dtors to automatically close all external editors
// and cleans up editor tmp files. Then remove fluid tmpdir /last/.
delete_all();
ExternalCodeEditor::tmpdir_clear();
exit(0);
}
#ifdef __APPLE__
# include <FL/x.H>
void
apple_open_cb(const char *c) {
if (modflag) {
switch (fl_choice("Do you want to save changes to this user\n"
"interface before opening another one?", "Don't Save",
"Save", "Cancel"))
{
case 0 : /* Cancel */
return;
case 1 : /* Save */
save_cb(NULL, NULL);
if (modflag) return; // Didn't save!
}
}
const char *oldfilename;
oldfilename = filename;
filename = NULL;
set_filename(c);
undo_suspend();
if (!read_file(c, 0)) {
undo_resume();
fl_message("Can't read %s: %s", c, strerror(errno));
free((void *)filename);
filename = oldfilename;
if (main_window) main_window->label(filename);
return;
}
// Loaded a file; free the old filename...
set_modflag(0);
undo_resume();
undo_clear();
if (oldfilename) free((void *)oldfilename);
}
#endif // __APPLE__
void open_cb(Fl_Widget *, void *v) {
if (!v && modflag) {
switch (fl_choice("Do you want to save changes to this user\n"
"interface before opening another one?", "Cancel",
"Save", "Don't Save"))
{
case 0 : /* Cancel */
return;
case 1 : /* Save */
save_cb(NULL, NULL);
if (modflag) return; // Didn't save!
}
}
const char *c;
const char *oldfilename;
Fl_Native_File_Chooser fnfc;
fnfc.title("Open:");
fnfc.type(Fl_Native_File_Chooser::BROWSE_FILE);
fnfc.filter("FLUID Files\t*.f[ld]\n");
if (fnfc.show() != 0) return;
c = fnfc.filename();
oldfilename = filename;
filename = NULL;
set_filename(c);
if (v != 0) undo_checkpoint();
undo_suspend();
if (!read_file(c, v!=0)) {
undo_resume();
fl_message("Can't read %s: %s", c, strerror(errno));
free((void *)filename);
filename = oldfilename;
if (main_window) set_modflag(modflag);
return;
}
undo_resume();
if (v) {
// Inserting a file; restore the original filename...
free((void *)filename);
filename = oldfilename;
set_modflag(1);
} else {
// Loaded a file; free the old filename...
set_modflag(0);
undo_clear();
if (oldfilename) free((void *)oldfilename);
}
}
void open_history_cb(Fl_Widget *, void *v) {
if (modflag) {
switch (fl_choice("Do you want to save changes to this user\n"
"interface before opening another one?", "Cancel",
"Save", "Don't Save"))
{
case 0 : /* Cancel */
return;
case 1 : /* Save */
save_cb(NULL, NULL);
if (modflag) return; // Didn't save!
}
}
const char *oldfilename = filename;
filename = NULL;
set_filename((char *)v);
undo_suspend();
if (!read_file(filename, 0)) {
undo_resume();
undo_clear();
fl_message("Can't read %s: %s", filename, strerror(errno));
free((void *)filename);
filename = oldfilename;
if (main_window) main_window->label(filename);
return;
}
set_modflag(0);
undo_resume();
undo_clear();
if (oldfilename) free((void *)oldfilename);
}
void new_cb(Fl_Widget *, void *v) {
// Check if the current file has been modified...
if (!v && modflag) {
// Yes, ask the user what to do...
switch (fl_choice("Do you want to save changes to this user\n"
"interface before creating a new one?", "Cancel",
"Save", "Don't Save"))
{
case 0 : /* Cancel */
return;
case 1 : /* Save */
save_cb(NULL, NULL);
if (modflag) return; // Didn't save!
}
}
// Setup the template panel...
if (!template_panel) make_template_panel();
template_clear();
template_browser->add("Blank");
template_load();
template_name->hide();
template_name->value("");
template_instance->show();
template_instance->deactivate();
template_instance->value("");
template_delete->hide();
template_submit->label("New");
template_submit->deactivate();
template_panel->label("New");
if ( template_browser->size() == 1 ) { // only one item?
template_browser->value(1); // select it
template_browser->do_callback();
}
// Show the panel and wait for the user to do something...
template_panel->show();
while (template_panel->shown()) Fl::wait();
// See if the user chose anything...
int item = template_browser->value();
if (item < 1) return;
// Clear the current data...
delete_all();
set_filename(NULL);
// Load the template, if any...
const char *tname = (const char *)template_browser->data(item);
if (tname) {
// Grab the instance name...
const char *iname = template_instance->value();
if (iname && *iname) {
// Copy the template to a temp file, then read it in...
char line[1024], *ptr, *next;
FILE *infile, *outfile;
if ((infile = fl_fopen(tname, "r")) == NULL) {
fl_alert("Error reading template file \"%s\":\n%s", tname,
strerror(errno));
set_modflag(0);
undo_clear();
return;
}
if ((outfile = fl_fopen(cutfname(1), "w")) == NULL) {
fl_alert("Error writing buffer file \"%s\":\n%s", cutfname(1),
strerror(errno));
fclose(infile);
set_modflag(0);
undo_clear();
return;
}
while (fgets(line, sizeof(line), infile)) {
// Replace @INSTANCE@ with the instance name...
for (ptr = line; (next = strstr(ptr, "@INSTANCE@")) != NULL; ptr = next + 10) {
fwrite(ptr, next - ptr, 1, outfile);
fputs(iname, outfile);
}
fputs(ptr, outfile);
}
fclose(infile);
fclose(outfile);
undo_suspend();
read_file(cutfname(1), 0);
unlink(cutfname(1));
undo_resume();
} else {
// No instance name, so read the template without replacements...
undo_suspend();
read_file(tname, 0);
undo_resume();
}
}
set_modflag(0);
undo_clear();
}
int exit_early = 0;
int update_file = 0; // fluid -u
int compile_file = 0; // fluid -c
int compile_strings = 0; // fluic -cs
int batch_mode = 0; // if set (-c, -u) don't open display
int header_file_set = 0;
int code_file_set = 0;
const char* header_file_name = ".h";
const char* code_file_name = ".cxx";
int i18n_type = 0;
const char* i18n_include = "";
const char* i18n_function = "";
const char* i18n_file = "";
const char* i18n_set = "";
char i18n_program[FL_PATH_MAX] = "";
void write_cb(Fl_Widget *, void *) {
if (!filename) {
save_cb(0,0);
if (!filename) return;
}
char cname[FL_PATH_MAX];
char hname[FL_PATH_MAX];
strlcpy(i18n_program, fl_filename_name(filename), sizeof(i18n_program));
fl_filename_setext(i18n_program, sizeof(i18n_program), "");
if (*code_file_name == '.' && strchr(code_file_name, '/') == NULL) {
strlcpy(cname, fl_filename_name(filename), sizeof(cname));
fl_filename_setext(cname, sizeof(cname), code_file_name);
} else {
strlcpy(cname, code_file_name, sizeof(hname));
}
if (*header_file_name == '.' && strchr(header_file_name, '/') == NULL) {
strlcpy(hname, fl_filename_name(filename), sizeof(hname));
fl_filename_setext(hname, sizeof(hname), header_file_name);
} else {
strlcpy(hname, header_file_name, sizeof(hname));
}
if (!batch_mode) goto_source_dir();
int x = write_code(cname,hname);
if (!batch_mode) leave_source_dir();
strlcat(cname, " and ", sizeof(cname));
strlcat(cname, hname, sizeof(cname));
if (batch_mode) {
if (!x) {fprintf(stderr,"%s : %s\n",cname,strerror(errno)); exit(1);}
} else {
if (!x) {
fl_message("Can't write %s: %s", cname, strerror(errno));
} else if (completion_button->value()) {
fl_message("Wrote %s", cname);
}
}
}
void write_strings_cb(Fl_Widget *, void *) {
static const char *exts[] = { ".txt", ".po", ".msg" };
if (!filename) {
save_cb(0,0);
if (!filename) return;
}
char sname[FL_PATH_MAX];
strlcpy(sname, fl_filename_name(filename), sizeof(sname));
fl_filename_setext(sname, sizeof(sname), exts[i18n_type]);
if (!batch_mode) goto_source_dir();
int x = write_strings(sname);
if (!batch_mode) leave_source_dir();
if (batch_mode) {
if (x) {fprintf(stderr,"%s : %s\n",sname,strerror(errno)); exit(1);}
} else {
if (x) {
fl_message("Can't write %s: %s", sname, strerror(errno));
} else if (completion_button->value()) {
fl_message("Wrote %s", sname);
}
}
}
void openwidget_cb(Fl_Widget *, void *) {
if (!Fl_Type::current) {
fl_message("Please select a widget");
return;
}
Fl_Type::current->open();
}
void toggle_overlays(Fl_Widget *,void *);
void select_all_cb(Fl_Widget *,void *);
void select_none_cb(Fl_Widget *,void *);
void group_cb(Fl_Widget *, void *);
void ungroup_cb(Fl_Widget *, void *);
extern int pasteoffset;
static int ipasteoffset;
void copy_cb(Fl_Widget*, void*) {
if (!Fl_Type::current) {
fl_beep();
return;
}
ipasteoffset = 10;
if (!write_file(cutfname(),1)) {
fl_message("Can't write %s: %s", cutfname(), strerror(errno));
return;
}
}
extern void select_only(Fl_Type *);
void cut_cb(Fl_Widget *, void *) {
if (!Fl_Type::current) {
fl_beep();
return;
}
if (!write_file(cutfname(),1)) {
fl_message("Can't write %s: %s", cutfname(), strerror(errno));
return;
}
undo_checkpoint();
set_modflag(1);
ipasteoffset = 0;
Fl_Type *p = Fl_Type::current->parent;
while (p && p->selected) p = p->parent;
delete_all(1);
if (p) select_only(p);
}
void delete_cb(Fl_Widget *, void *) {
if (!Fl_Type::current) {
fl_beep();
return;
}
undo_checkpoint();
set_modflag(1);
ipasteoffset = 0;
Fl_Type *p = Fl_Type::current->parent;
while (p && p->selected) p = p->parent;
delete_all(1);
if (p) select_only(p);
}
extern int force_parent;
void paste_cb(Fl_Widget*, void*) {
//if (ipasteoffset) force_parent = 1;
pasteoffset = ipasteoffset;
if (gridx>1) pasteoffset = ((pasteoffset-1)/gridx+1)*gridx;
if (gridy>1) pasteoffset = ((pasteoffset-1)/gridy+1)*gridy;
undo_checkpoint();
undo_suspend();
if (!read_file(cutfname(), 1)) {
fl_message("Can't read %s: %s", cutfname(), strerror(errno));
}
undo_resume();
pasteoffset = 0;
ipasteoffset += 10;
force_parent = 0;
}
// Duplicate the selected widgets...
void duplicate_cb(Fl_Widget*, void*) {
if (!Fl_Type::current) {
fl_beep();
return;
}
if (!write_file(cutfname(1),1)) {
fl_message("Can't write %s: %s", cutfname(1), strerror(errno));
return;
}
pasteoffset = 0;
force_parent = 1;
undo_checkpoint();
undo_suspend();
if (!read_file(cutfname(1), 1)) {
fl_message("Can't read %s: %s", cutfname(1), strerror(errno));
}
unlink(cutfname(1));
undo_resume();
force_parent = 0;
}
void earlier_cb(Fl_Widget*,void*);
void later_cb(Fl_Widget*,void*);
Fl_Type *sort(Fl_Type *parent);
static void sort_cb(Fl_Widget *,void *) {
sort((Fl_Type*)0);
}
void show_project_cb(Fl_Widget *, void *);
void show_grid_cb(Fl_Widget *, void *);
void show_settings_cb(Fl_Widget *, void *);
void show_global_settings_cb(Fl_Widget *, void *);
void align_widget_cb(Fl_Widget *, long);
void widget_size_cb(Fl_Widget *, long);
void about_cb(Fl_Widget *, void *) {
if (!about_panel) make_about_panel();
about_panel->show();
}
void show_help(const char *name) {
const char *docdir;
char helpname[FL_PATH_MAX];
if (!help_dialog) help_dialog = new Fl_Help_Dialog();
if ((docdir = getenv("FLTK_DOCDIR")) == NULL) {
#ifdef __EMX__
// Doesn't make sense to have a hardcoded fallback
static char fltk_docdir[FL_PATH_MAX];
strlcpy(fltk_docdir, __XOS2RedirRoot("/XFree86/lib/X11/fltk/doc"),
sizeof(fltk_docdir));
docdir = fltk_docdir;
#else
docdir = FLTK_DOCDIR;
#endif // __EMX__
}
snprintf(helpname, sizeof(helpname), "%s/%s", docdir, name);
// make sure that we can read the file
FILE *f = fopen(helpname, "rb");
if (f) {
fclose(f);
help_dialog->load(helpname);
} else {
// if we can not read the file, we display the canned version instead
// or ask the native browser to open the page on www.fltk.org
if (strcmp(name, "fluid.html")==0) {
if (!Fl_Shared_Image::find("embedded:/fluid-org.png"))
new Fl_PNG_Image("embedded:/fluid-org.png", fluid_org_png, sizeof(fluid_org_png));
help_dialog->value
(
"<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01 Transitional//EN\">\n"
"<html><head><title>FLTK: Programming with FLUID</title></head><body>\n"
"<h2>What is FLUID?</h2>\n"
"The Fast Light User Interface Designer, or FLUID, is a graphical editor "
"that is used to produce FLTK source code. FLUID edits and saves its state "
"in <code>.fl</code> files. These files are text, and you can (with care) "
"edit them in a text editor, perhaps to get some special effects.<p>\n"
"FLUID can \"compile\" the <code>.fl</code> file into a <code>.cxx</code> "
"and a <code>.h</code> file. The <code>.cxx</code> file defines all the "
"objects from the <code>.fl</code> file and the <code>.h</code> file "
"declares all the global ones. FLUID also supports localization "
"(Internationalization) of label strings using message files and the GNU "
"gettext or POSIX catgets interfaces.<p>\n"
"A simple program can be made by putting all your code (including a <code>"
"main()</code> function) into the <code>.fl</code> file and thus making the "
"<code>.cxx</code> file a single source file to compile. Most programs are "
"more complex than this, so you write other <code>.cxx</code> files that "
"call the FLUID functions. These <code>.cxx</code> files must <code>"
"#include</code> the <code>.h</code> file or they can <code>#include</code> "
"the <code>.cxx</code> file so it still appears to be a single source file.<p>"
"<img src=\"embedded:/fluid-org.png\"></p>"
"<p>More information is available online at <a href="
"\"http://www.fltk.org/doc-1.3/fluid.html\">http://www.fltk.org/</a>"
"</body></html>"
);
} else if (strcmp(name, "license.html")==0) {
fl_open_uri("http://www.fltk.org/doc-1.3/license.html");
return;
} else if (strcmp(name, "index.html")==0) {
fl_open_uri("http://www.fltk.org/doc-1.3/index.html");
return;
} else {
snprintf(helpname, sizeof(helpname), "http://www.fltk.org/%s", name);
fl_open_uri(helpname);
return;
}
}
help_dialog->show();
}
void help_cb(Fl_Widget *, void *) {
show_help("fluid.html");
}
void manual_cb(Fl_Widget *, void *) {
show_help("index.html");
}
////////////////////////////////////////////////////////////////
void print_menu_cb(Fl_Widget *, void *) {
int w, h, ww, hh;
int frompage, topage;
Fl_Type *t; // Current widget
int num_windows; // Number of windows
Fl_Window_Type *windows[1000]; // Windows to print
int winpage; // Current window page
Fl_Window *win;
for (t = Fl_Type::first, num_windows = 0; t; t = t->next) {
if (t->is_window()) {
windows[num_windows] = (Fl_Window_Type *)t;
if (!((Fl_Window*)(windows[num_windows]->o))->shown()) continue;
num_windows ++;
}
}
Fl_Printer printjob;
if ( printjob.start_job(num_windows, &frompage, &topage) ) return;
int pagecount = 0;
for (winpage = 0; winpage < num_windows; winpage++) {
float scale = 1, scale_x = 1, scale_y = 1;
if (winpage+1 < frompage || winpage+1 > topage) continue;
printjob.start_page();
printjob.printable_rect(&w, &h);
// Get the time and date...
time_t curtime = time(NULL);
struct tm *curdate = localtime(&curtime);
char date[1024];
strftime(date, sizeof(date), "%c", curdate);
fl_font(FL_HELVETICA, 12);
fl_color(FL_BLACK);
fl_draw(date, (w - (int)fl_width(date))/2, fl_height());
sprintf(date, "%d/%d", ++pagecount, topage-frompage+1);
fl_draw(date, w - (int)fl_width(date), fl_height());
// Get the base filename...
const char *basename = strrchr(filename,
#ifdef WIN32
'\\'
#else
'/'
#endif
);
if (basename) basename ++;
else basename = filename;
sprintf(date, "%s", basename);
fl_draw(date, 0, fl_height());
// print centered and scaled to fit in the page
win = (Fl_Window*)windows[winpage]->o;
ww = win->decorated_w();
if(ww > w) scale_x = float(w)/ww;
hh = win->decorated_h();
if(hh > h) scale_y = float(h)/hh;
if (scale_x < scale) scale = scale_x;
if (scale_y < scale) scale = scale_y;
if (scale < 1) {
printjob.scale(scale);
printjob.printable_rect(&w, &h);
}
printjob.origin(w/2, h/2);
printjob.print_window(win, -ww/2, -hh/2);
printjob.end_page();
}
printjob.end_job();
}
////////////////////////////////////////////////////////////////
extern Fl_Menu_Item New_Menu[];
void toggle_widgetbin_cb(Fl_Widget *, void *);
void toggle_sourceview_cb(Fl_Double_Window *, void *);
Fl_Menu_Item Main_Menu[] = {
{"&File",0,0,0,FL_SUBMENU},
{"&New...", FL_COMMAND+'n', new_cb, 0},
{"&Open...", FL_COMMAND+'o', open_cb, 0},
{"&Insert...", FL_COMMAND+'i', open_cb, (void*)1, FL_MENU_DIVIDER},
{"&Save", FL_COMMAND+'s', save_cb, 0},
{"Save &As...", FL_COMMAND+FL_SHIFT+'s', save_cb, (void*)1},
{"Sa&ve A Copy...", 0, save_cb, (void*)2},
{"Save &Template...", 0, save_template_cb},
{"&Revert...", 0, revert_cb, 0, FL_MENU_DIVIDER},
{"&Print...", FL_COMMAND+'p', print_menu_cb},
{"Write &Code...", FL_COMMAND+FL_SHIFT+'c', write_cb, 0},
{"&Write Strings...", FL_COMMAND+FL_SHIFT+'w', write_strings_cb, 0, FL_MENU_DIVIDER},
{relative_history[0], FL_COMMAND+'0', open_history_cb, absolute_history[0]},
{relative_history[1], FL_COMMAND+'1', open_history_cb, absolute_history[1]},
{relative_history[2], FL_COMMAND+'2', open_history_cb, absolute_history[2]},
{relative_history[3], FL_COMMAND+'3', open_history_cb, absolute_history[3]},
{relative_history[4], FL_COMMAND+'4', open_history_cb, absolute_history[4]},
{relative_history[5], FL_COMMAND+'5', open_history_cb, absolute_history[5]},
{relative_history[6], FL_COMMAND+'6', open_history_cb, absolute_history[6]},
{relative_history[7], FL_COMMAND+'7', open_history_cb, absolute_history[7]},
{relative_history[8], FL_COMMAND+'8', open_history_cb, absolute_history[8]},
{relative_history[9], FL_COMMAND+'9', open_history_cb, absolute_history[9], FL_MENU_DIVIDER},
{"&Quit", FL_COMMAND+'q', exit_cb},
{0},
{"&Edit",0,0,0,FL_SUBMENU},
{"&Undo", FL_COMMAND+'z', undo_cb},
{"&Redo", FL_COMMAND+FL_SHIFT+'z', redo_cb, 0, FL_MENU_DIVIDER},
{"C&ut", FL_COMMAND+'x', cut_cb},
{"&Copy", FL_COMMAND+'c', copy_cb},
{"&Paste", FL_COMMAND+'v', paste_cb},
{"Dup&licate", FL_COMMAND+'u', duplicate_cb},
{"&Delete", FL_Delete, delete_cb, 0, FL_MENU_DIVIDER},
{"Select &All", FL_COMMAND+'a', select_all_cb},
{"Select &None", FL_COMMAND+FL_SHIFT+'a', select_none_cb, 0, FL_MENU_DIVIDER},
{"Pr&operties...", FL_F+1, openwidget_cb},
{"&Sort",0,sort_cb},
{"&Earlier", FL_F+2, earlier_cb},
{"&Later", FL_F+3, later_cb},
{"&Group", FL_F+7, group_cb},
{"Ung&roup", FL_F+8, ungroup_cb,0, FL_MENU_DIVIDER},
{"Hide O&verlays",FL_COMMAND+FL_SHIFT+'o',toggle_overlays},
{"Show Widget &Bin...",FL_ALT+'b',toggle_widgetbin_cb},
{"Show Source Code...",FL_ALT+FL_SHIFT+'s', (Fl_Callback*)toggle_sourceview_cb, 0, FL_MENU_DIVIDER},
{"Pro&ject Settings...",FL_ALT+'p',show_project_cb},
{"GU&I Settings...",FL_ALT+FL_SHIFT+'p',show_settings_cb,0,FL_MENU_DIVIDER},
{"Global &FLTK Settings...",FL_ALT+FL_SHIFT+'g',show_global_settings_cb},
{0},
{"&New", 0, 0, (void *)New_Menu, FL_SUBMENU_POINTER},
{"&Layout",0,0,0,FL_SUBMENU},
{"&Align",0,0,0,FL_SUBMENU},
{"&Left",0,(Fl_Callback *)align_widget_cb,(void*)10},
{"&Center",0,(Fl_Callback *)align_widget_cb,(void*)11},
{"&Right",0,(Fl_Callback *)align_widget_cb,(void*)12},
{"&Top",0,(Fl_Callback *)align_widget_cb,(void*)13},
{"&Middle",0,(Fl_Callback *)align_widget_cb,(void*)14},
{"&Bottom",0,(Fl_Callback *)align_widget_cb,(void*)15},
{0},
{"&Space Evenly",0,0,0,FL_SUBMENU},
{"&Across",0,(Fl_Callback *)align_widget_cb,(void*)20},
{"&Down",0,(Fl_Callback *)align_widget_cb,(void*)21},
{0},
{"&Make Same Size",0,0,0,FL_SUBMENU},
{"&Width",0,(Fl_Callback *)align_widget_cb,(void*)30},
{"&Height",0,(Fl_Callback *)align_widget_cb,(void*)31},
{"&Both",0,(Fl_Callback *)align_widget_cb,(void*)32},
{0},
{"&Center In Group",0,0,0,FL_SUBMENU},
{"&Horizontal",0,(Fl_Callback *)align_widget_cb,(void*)40},
{"&Vertical",0,(Fl_Callback *)align_widget_cb,(void*)41},
{0},
{"Set &Widget Size",0,0,0,FL_SUBMENU|FL_MENU_DIVIDER},
{"&Tiny",FL_ALT+'1',(Fl_Callback *)widget_size_cb,(void*)8,0,FL_NORMAL_LABEL,FL_HELVETICA,8},
{"&Small",FL_ALT+'2',(Fl_Callback *)widget_size_cb,(void*)11,0,FL_NORMAL_LABEL,FL_HELVETICA,11},
{"&Normal",FL_ALT+'3',(Fl_Callback *)widget_size_cb,(void*)14,0,FL_NORMAL_LABEL,FL_HELVETICA,14},
{"&Medium",FL_ALT+'4',(Fl_Callback *)widget_size_cb,(void*)18,0,FL_NORMAL_LABEL,FL_HELVETICA,18},
{"&Large",FL_ALT+'5',(Fl_Callback *)widget_size_cb,(void*)24,0,FL_NORMAL_LABEL,FL_HELVETICA,24},
{"&Huge",FL_ALT+'6',(Fl_Callback *)widget_size_cb,(void*)32,0,FL_NORMAL_LABEL,FL_HELVETICA,32},
{0},
{"&Grid and Size Settings...",FL_COMMAND+'g',show_grid_cb},
{0},
{"&Shell",0,0,0,FL_SUBMENU},
{"Execute &Command...",FL_ALT+'x',(Fl_Callback *)show_shell_window},
{"Execute &Again...",FL_ALT+'g',(Fl_Callback *)do_shell_command},
{0},
{"&Help",0,0,0,FL_SUBMENU},
{"&Rapid development with FLUID...",0,help_cb},
{"&FLTK Programmers Manual...",0,manual_cb, 0, FL_MENU_DIVIDER},
{"&About FLUID...",0,about_cb},
{0},
{0}};
#define BROWSERWIDTH 300
#define BROWSERHEIGHT 500
#define WINWIDTH 300
#define MENUHEIGHT 25
#define WINHEIGHT (BROWSERHEIGHT+MENUHEIGHT)
extern void fill_in_New_Menu();
void scheme_cb(Fl_Choice *, void *) {
if (batch_mode)
return;
switch (scheme_choice->value()) {
case 0 : // Default
Fl::scheme(NULL);
break;
case 1 : // None
Fl::scheme("none");
break;
case 2 : // Plastic
Fl::scheme("plastic");
break;
case 3 : // GTK+
Fl::scheme("gtk+");
break;
case 4 : // Gleam
Fl::scheme("gleam");
break;
}
fluid_prefs.set("scheme", scheme_choice->value());
}
void toggle_widgetbin_cb(Fl_Widget *, void *) {
if (!widgetbin_panel) {
make_widgetbin();
if (!position_window(widgetbin_panel,"widgetbin_pos", 1, 320, 30)) return;
}
if (widgetbin_panel->visible()) {
widgetbin_panel->hide();
widgetbin_item->label("Show Widget &Bin...");
} else {
widgetbin_panel->show();
widgetbin_item->label("Hide Widget &Bin");
}
}
void toggle_sourceview_cb(Fl_Double_Window *, void *) {
if (!sourceview_panel) {
make_sourceview();
sourceview_panel->callback((Fl_Callback*)toggle_sourceview_cb);
Fl_Preferences svp(fluid_prefs, "sourceview");
int autorefresh;
svp.get("autorefresh", autorefresh, 1);
sv_autorefresh->value(autorefresh);
int autoposition;
svp.get("autoposition", autoposition, 1);
sv_autoposition->value(autoposition);
int tab;
svp.get("tab", tab, 0);
if (tab>=0 && tab<sv_tab->children()) sv_tab->value(sv_tab->child(tab));
if (!position_window(sourceview_panel,"sourceview_pos", 0, 320, 120, 550, 500)) return;
}
if (sourceview_panel->visible()) {
sourceview_panel->hide();
sourceview_item->label("Show Source Code...");
} else {
sourceview_panel->show();
sourceview_item->label("Hide Source Code...");
update_sourceview_cb(0,0);
}
}
void toggle_sourceview_b_cb(Fl_Button*, void *) {
toggle_sourceview_cb(0,0);
}
void make_main_window() {
if (!batch_mode) {
fluid_prefs.get("snap", snap, 1);
fluid_prefs.get("gridx", gridx, 5);
fluid_prefs.get("gridy", gridy, 5);
fluid_prefs.get("show_guides", show_guides, 0);
fluid_prefs.get("widget_size", Fl_Widget_Type::default_size, 14);
fluid_prefs.get("show_comments", show_comments, 1);
make_layout_window();
make_shell_window();
}
if (!main_window) {
Fl_Widget *o;
main_window = new Fl_Double_Window(WINWIDTH,WINHEIGHT,"fluid");
main_window->box(FL_NO_BOX);
o = make_widget_browser(0,MENUHEIGHT,BROWSERWIDTH,BROWSERHEIGHT);
o->box(FL_FLAT_BOX);
o->tooltip("Double-click to view or change an item.");
main_window->resizable(o);
main_menubar = new Fl_Menu_Bar(0,0,BROWSERWIDTH,MENUHEIGHT);
main_menubar->menu(Main_Menu);
// quick access to all dynamic menu items
save_item = (Fl_Menu_Item*)main_menubar->find_item(save_cb);
history_item = (Fl_Menu_Item*)main_menubar->find_item(open_history_cb);
widgetbin_item = (Fl_Menu_Item*)main_menubar->find_item(toggle_widgetbin_cb);
sourceview_item = (Fl_Menu_Item*)main_menubar->find_item((Fl_Callback*)toggle_sourceview_cb);
main_menubar->global();
fill_in_New_Menu();
main_window->end();
}
if (!batch_mode) {
load_history();
make_settings_window();
make_global_settings_window();
}
}
// Load file history from preferences...
void load_history() {
int i; // Looping var
int max_files;
fluid_prefs.get("recent_files", max_files, 5);
if (max_files > 10) max_files = 10;
for (i = 0; i < max_files; i ++) {
fluid_prefs.get( Fl_Preferences::Name("file%d", i), absolute_history[i], "", sizeof(absolute_history[i]));
if (absolute_history[i][0]) {
// Make a relative version of the filename for the menu...
fl_filename_relative(relative_history[i], sizeof(relative_history[i]),
absolute_history[i]);
if (i == 9) history_item[i].flags = FL_MENU_DIVIDER;
else history_item[i].flags = 0;
} else break;
}
for (; i < 10; i ++) {
if (i) history_item[i-1].flags |= FL_MENU_DIVIDER;
history_item[i].hide();
}
}
// Update file history from preferences...
void update_history(const char *flname) {
int i; // Looping var
char absolute[FL_PATH_MAX];
int max_files;
fluid_prefs.get("recent_files", max_files, 5);
if (max_files > 10) max_files = 10;
fl_filename_absolute(absolute, sizeof(absolute), flname);
for (i = 0; i < max_files; i ++)
#if defined(WIN32) || defined(__APPLE__)
if (!strcasecmp(absolute, absolute_history[i])) break;
#else
if (!strcmp(absolute, absolute_history[i])) break;
#endif // WIN32 || __APPLE__
if (i == 0) return;
if (i >= max_files) i = max_files - 1;
// Move the other flnames down in the list...
memmove(absolute_history + 1, absolute_history,
i * sizeof(absolute_history[0]));
memmove(relative_history + 1, relative_history,
i * sizeof(relative_history[0]));
// Put the new file at the top...
strlcpy(absolute_history[0], absolute, sizeof(absolute_history[0]));
fl_filename_relative(relative_history[0], sizeof(relative_history[0]),
absolute_history[0]);
// Update the menu items as needed...
for (i = 0; i < max_files; i ++) {
fluid_prefs.set( Fl_Preferences::Name("file%d", i), absolute_history[i]);
if (absolute_history[i][0]) {
if (i == 9) history_item[i].flags = FL_MENU_DIVIDER;
else history_item[i].flags = 0;
} else break;
}
for (; i < 10; i ++) {
fluid_prefs.set( Fl_Preferences::Name("file%d", i), "");
if (i) history_item[i-1].flags |= FL_MENU_DIVIDER;
history_item[i].hide();
}
fluid_prefs.flush();
}
// ********** portable process class definition **********
class Fl_Process {
public:
// construction / destruction
Fl_Process() {_fpt= NULL;}
~Fl_Process() {if (_fpt) close();}
// FIXME: popen needs the UTF-8 equivalent fl_popen
FILE * popen (const char *cmd, const char *mode="r");
//not necessary here: FILE * fl_fopen (const char *file, const char *mode="r");
int close();
FILE * desc() const { return _fpt;} // non null if file is open
char * get_line(char * line, size_t s) const {return _fpt ? fgets(line, s, _fpt) : NULL;}
#if defined(WIN32) && !defined(__CYGWIN__)
protected:
HANDLE pin[2], pout[2], perr[2];
char ptmode;
PROCESS_INFORMATION pi;
STARTUPINFO si;
static bool createPipe(HANDLE * h, BOOL bInheritHnd=TRUE);
private:
FILE * freeHandles() {
clean_close(pin[0]); clean_close(pin[1]);
clean_close(pout[0]); clean_close(pout[1]);
clean_close(perr[0]); clean_close(perr[1]);
return NULL; // convenient for error management
}
static void clean_close(HANDLE& h);
#endif
protected:
FILE * _fpt;
};
#if defined(WIN32) && !defined(__CYGWIN__)
bool Fl_Process::createPipe(HANDLE * h, BOOL bInheritHnd) {
SECURITY_ATTRIBUTES sa;
sa.nLength = sizeof(sa);
sa.lpSecurityDescriptor = NULL;
sa.bInheritHandle = bInheritHnd;
return CreatePipe (&h[0],&h[1],&sa,0) ? true : false;
}
#endif
// portable open process:
FILE * Fl_Process::popen(const char *cmd, const char *mode) {
#if defined(WIN32) && !defined(__CYGWIN__)
// PRECONDITIONS
if (!mode || !*mode || (*mode!='r' && *mode!='w') ) return NULL;
if (_fpt) close(); // close first before reuse
ptmode = *mode;
pin[0] = pin[1] = pout[0] = pout[1] = perr[0] = perr[1] = INVALID_HANDLE_VALUE;
// stderr to stdout wanted ?
int fusion = (strstr(cmd,"2>&1") !=NULL);
// Create windows pipes
if (!createPipe(pin) || !createPipe(pout) || (!fusion && !createPipe(perr) ) )
return freeHandles(); // error
// Initialize Startup Info
ZeroMemory(&si, sizeof(STARTUPINFO));
si.cb = sizeof(STARTUPINFO);
si.dwFlags = STARTF_USESTDHANDLES;
si.hStdInput = pin[0];
si.hStdOutput = pout[1];
si.hStdError = fusion ? pout[1] : perr [1];
if ( CreateProcess(NULL, (LPTSTR) cmd,NULL,NULL,TRUE,
DETACHED_PROCESS,NULL,NULL, &si, &pi)) {
// don't need theses handles inherited by child process:
clean_close(pin[0]); clean_close(pout[1]); clean_close(perr[1]);
HANDLE & h = *mode == 'r' ? pout[0] : pin[1];
_fpt = _fdopen(_open_osfhandle((fl_intptr_t) h,_O_BINARY),mode);
h= INVALID_HANDLE_VALUE; // reset the handle pointer that is shared
// with _fpt so we don't free it twice
}
if (!_fpt) freeHandles();
return _fpt;
#else
_fpt=::popen(cmd,mode);
return _fpt;
#endif
}
int Fl_Process::close() {
#if defined(WIN32) && !defined(__CYGWIN__)
if (_fpt) {
fclose(_fpt);
clean_close(perr[0]);
clean_close(pin[1]);
clean_close(pout[0]);
_fpt = NULL;
return 0;
}
return -1;
#else
int ret = ::pclose(_fpt);
_fpt=NULL;
return ret;
#endif
}
#if defined(WIN32) && !defined(__CYGWIN__)
void Fl_Process::clean_close(HANDLE& h) {
if (h!= INVALID_HANDLE_VALUE) CloseHandle(h);
h = INVALID_HANDLE_VALUE;
}
#endif
// ********** Fl_Process class end **********
static Fl_Process s_proc;
// Shell command support...
static bool prepare_shell_command(const char * &command) { // common pre-shell command code all platforms
shell_window->hide();
if (s_proc.desc()) {
fl_alert("Previous shell command still running!");
return false;
}
if ((command = shell_command_input->value()) == NULL || !*command) {
fl_alert("No shell command entered!");
return false;
}
if (shell_savefl_button->value()) {
save_cb(0, 0);
}
if (shell_writecode_button->value()) {
batch_mode = 1;
write_cb(0, 0);
batch_mode = 0;
}
if (shell_writemsgs_button->value()) {
batch_mode = 1;
write_strings_cb(0, 0);
batch_mode = 0;
}
return true;
}
#if !defined(__MWERKS__)
// Support the full piped shell command...
void
shell_pipe_cb(FL_SOCKET, void*) {
char line[1024]=""; // Line from command output...
if (s_proc.get_line(line, sizeof(line)) != NULL) {
// Add the line to the output list...
shell_run_buffer->append(line);
} else {
// End of file; tell the parent...
Fl::remove_fd(fileno(s_proc.desc()));
s_proc.close();
shell_run_buffer->append("... END SHELL COMMAND ...\n");
}
shell_run_display->scroll(shell_run_display->count_lines(0,
shell_run_buffer->length(), 1), 0);
}
void
do_shell_command(Fl_Return_Button*, void*) {
const char *command=NULL; // Command to run
if (!prepare_shell_command(command)) return;
// Show the output window and clear things...
shell_run_buffer->text("");
shell_run_buffer->append(command);
shell_run_buffer->append("\n");
shell_run_window->label("Shell Command Running...");
if (s_proc.popen((char *)command) == NULL) {
fl_alert("Unable to run shell command: %s", strerror(errno));
return;
}
shell_run_button->deactivate();
shell_run_window->hotspot(shell_run_display);
shell_run_window->show();
Fl::add_fd(fileno(s_proc.desc()), shell_pipe_cb);
while (s_proc.desc()) Fl::wait();
shell_run_button->activate();
shell_run_window->label("Shell Command Complete");
fl_beep();
while (shell_run_window->shown()) Fl::wait();
}
#else
// Just do basic shell command stuff, no status window...
void
do_shell_command(Fl_Return_Button*, void*) {
const char *command; // Command to run
int status; // Status from command...
if (!prepare_shell_command(command)) return;
if ((status = system(command)) != 0) {
fl_alert("Shell command returned status %d!", status);
} else if (completion_button->value()) {
fl_message("Shell command completed successfully!");
}
}
#endif // !__MWERKS__
void
show_shell_window() {
shell_window->hotspot(shell_command_input);
shell_window->show();
}
void set_filename(const char *c) {
if (filename) free((void *)filename);
filename = c ? strdup(c) : NULL;
if (filename && !batch_mode)
update_history(filename);
set_modflag(modflag);
}
//
// The Source View system offers an immediate preview of the code
// files that will be generated by FLUID. It also marks the code
// generated for the last selected item in the header and the source
// file.
//
// Can we patent this? ;-) - Matt, mm@matthiasm.com
//
//
// Update the header and source code highlighting depending on the
// currently selected object
//
void update_sourceview_position()
{
if (!sourceview_panel || !sourceview_panel->visible())
return;
if (sv_autoposition->value()==0)
return;
if (sourceview_panel && sourceview_panel->visible() && Fl_Type::current) {
int pos0, pos1;
if (sv_source->visible_r()) {
pos0 = Fl_Type::current->code_position;
pos1 = Fl_Type::current->code_position_end;
if (pos0>=0) {
if (pos1<pos0)
pos1 = pos0;
sv_source->buffer()->highlight(pos0, pos1);
int line = sv_source->buffer()->count_lines(0, pos0);
sv_source->scroll(line, 0);
}
}
if (sv_header->visible_r()) {
pos0 = Fl_Type::current->header_position;
pos1 = Fl_Type::current->header_position_end;
if (pos0>=0) {
if (pos1<pos0)
pos1 = pos0;
sv_header->buffer()->highlight(pos0, pos1);
int line = sv_header->buffer()->count_lines(0, pos0);
sv_header->scroll(line, 0);
}
}
}
}
void update_sourceview_position_cb(Fl_Tabs*, void*)
{
update_sourceview_position();
}
static char *sv_source_filename = 0;
static char *sv_header_filename = 0;
//
// Generate a header and source file in a temporary directory and
// load those into the Code Viewer widgets.
//
void update_sourceview_cb(Fl_Button*, void*)
{
if (!sourceview_panel || !sourceview_panel->visible())
return;
// generate space for the source and header file filenames
if (!sv_source_filename) {
sv_source_filename = (char*)malloc(FL_PATH_MAX);
fluid_prefs.getUserdataPath(sv_source_filename, FL_PATH_MAX);
strlcat(sv_source_filename, "source_view_tmp.cxx", FL_PATH_MAX);
}
if (!sv_header_filename) {
sv_header_filename = (char*)malloc(FL_PATH_MAX);
fluid_prefs.getUserdataPath(sv_header_filename, FL_PATH_MAX);
strlcat(sv_header_filename, "source_view_tmp.h", FL_PATH_MAX);
}
strlcpy(i18n_program, fl_filename_name(sv_source_filename), sizeof(i18n_program));
fl_filename_setext(i18n_program, sizeof(i18n_program), "");
const char *code_file_name_bak = code_file_name;
code_file_name = sv_source_filename;
const char *header_file_name_bak = header_file_name;
header_file_name = sv_header_filename;
// generate the code and load the files
write_sourceview = 1;
// generate files
if (write_code(sv_source_filename, sv_header_filename))
{
// load file into source editor
int pos = sv_source->top_line();
sv_source->buffer()->loadfile(sv_source_filename);
sv_source->scroll(pos, 0);
// load file into header editor
pos = sv_header->top_line();
sv_header->buffer()->loadfile(sv_header_filename);
sv_header->scroll(pos, 0);
// update the source code highlighting
update_sourceview_position();
}
write_sourceview = 0;
code_file_name = code_file_name_bak;
header_file_name = header_file_name_bak;
}
void update_sourceview_timer(void*)
{
update_sourceview_cb(0,0);
}
// Set the "modified" flag and update the title of the main window...
void set_modflag(int mf) {
const char *basename;
static char title[FL_PATH_MAX];
modflag = mf;
if (main_window) {
if (!filename) basename = "Untitled.fl";
else if ((basename = strrchr(filename, '/')) != NULL) basename ++;
#if defined(WIN32) || defined(__EMX__)
else if ((basename = strrchr(filename, '\\')) != NULL) basename ++;
#endif // WIN32 || __EMX__
else basename = filename;
if (modflag) {
snprintf(title, sizeof(title), "%s (modified)", basename);
main_window->label(title);
} else main_window->label(basename);
}
// if the UI was modified in any way, update the Source View panel
if (sourceview_panel && sourceview_panel->visible() && sv_autorefresh->value())
{
// we will only update earliest 0.5 seconds after the last change, and only
// if no other change was made, so dragging a widget will not generate any
// CPU load
Fl::remove_timeout(update_sourceview_timer, 0);
Fl::add_timeout(0.5, update_sourceview_timer, 0);
}
// Enable/disable the Save menu item...
if (modflag) save_item->activate();
else save_item->deactivate();
}
////////////////////////////////////////////////////////////////
static int arg(int argc, char** argv, int& i) {
if (argv[i][1] == 'd' && !argv[i][2]) {G_debug=1; i++; return 1;}
if (argv[i][1] == 'u' && !argv[i][2]) {update_file++; batch_mode++; i++; return 1;}
if (argv[i][1] == 'c' && !argv[i][2]) {compile_file++; batch_mode++; i++; return 1;}
if (argv[i][1] == 'c' && argv[i][2] == 's' && !argv[i][3]) {compile_file++; compile_strings++; batch_mode++; i++; return 1;}
if (argv[i][1] == 'o' && !argv[i][2] && i+1 < argc) {
code_file_name = argv[i+1];
code_file_set = 1;
i += 2;
return 2;
}
if (argv[i][1] == 'h' && !argv[i][2]) {
header_file_name = argv[i+1];
header_file_set = 1;
i += 2;
return 2;
}
Fl_Plugin_Manager pm("commandline");
int j, n = pm.plugins();
for (j=0; j<n; j++) {
Fl_Commandline_Plugin *pi = (Fl_Commandline_Plugin*)pm.plugin(j);
int r = pi->arg(argc, argv, i);
if (r) return r;
}
return 0;
}
#if ! (defined(WIN32) && !defined (__CYGWIN__))
int quit_flag = 0;
#include <signal.h>
#ifdef _sigargs
#define SIGARG _sigargs
#else
#ifdef __sigargs
#define SIGARG __sigargs
#else
#define SIGARG int // you may need to fix this for older systems
#endif
#endif
extern "C" {
static void sigint(SIGARG) {
signal(SIGINT,sigint);
quit_flag = 1;
}
}
#endif
int main(int argc,char **argv) {
int i = 1;
if (!Fl::args(argc,argv,i,arg) || i < argc-1) {
static const char *msg =
"usage: %s <switches> name.fl\n"
" -u : update .fl file and exit (may be combined with '-c' or '-cs')\n"
" -c : write .cxx and .h and exit\n"
" -cs : write .cxx and .h and strings and exit\n"
" -o <name> : .cxx output filename, or extension if <name> starts with '.'\n"
" -h <name> : .h output filename, or extension if <name> starts with '.'\n"
" -d : enable internal debugging\n";
int len = (int)(strlen(msg) + strlen(argv[0]) + strlen(Fl::help));
Fl_Plugin_Manager pm("commandline");
int i, n = pm.plugins();
for (i=0; i<n; i++) {
Fl_Commandline_Plugin *pi = (Fl_Commandline_Plugin*)pm.plugin(i);
if (pi) len += strlen(pi->help());
}
char *buf = (char*)malloc(len+1);
sprintf(buf, msg, argv[0]);
for (i=0; i<n; i++) {
Fl_Commandline_Plugin *pi = (Fl_Commandline_Plugin*)pm.plugin(i);
if (pi) strcat(buf, pi->help());
}
strcat(buf, Fl::help);
#ifdef _MSC_VER
fl_message("%s\n", buf);
#else
fprintf(stderr, "%s\n", buf);
#endif
free(buf);
return 1;
}
if (exit_early)
exit(0);
const char *c = argv[i];
fl_register_images();
make_main_window();
if (c) set_filename(c);
if (!batch_mode) {
#ifdef __APPLE__
fl_open_callback(apple_open_cb);
#endif // __APPLE__
Fl::visual((Fl_Mode)(FL_DOUBLE|FL_INDEX));
Fl_File_Icon::load_system_icons();
main_window->callback(exit_cb);
position_window(main_window,"main_window_pos", 1, 10, 30, WINWIDTH, WINHEIGHT );
main_window->show(argc,argv);
toggle_widgetbin_cb(0,0);
toggle_sourceview_cb(0,0);
if (!c && openlast_button->value() && absolute_history[0][0]) {
// Open previous file when no file specified...
open_history_cb(0, absolute_history[0]);
}
}
undo_suspend();
if (c && !read_file(c,0)) {
if (batch_mode) {
fprintf(stderr,"%s : %s\n", c, strerror(errno));
exit(1);
}
fl_message("Can't read %s: %s", c, strerror(errno));
}
undo_resume();
if (update_file) { // fluid -u
write_file(c,0);
if (!compile_file)
exit(0);
}
if (compile_file) { // fluid -c[s]
if (compile_strings)
write_strings_cb(0,0);
write_cb(0,0);
exit(0);
}
set_modflag(0);
undo_clear();
#ifndef WIN32
signal(SIGINT,sigint);
#endif
// Set (but do not start) timer callback for external editor updates
ExternalCodeEditor::set_update_timer_callback(external_editor_timer);
grid_cb(horizontal_input, 0); // Makes sure that windows get snap params...
#ifdef WIN32
Fl::run();
#else
while (!quit_flag) Fl::wait();
if (quit_flag) exit_cb(0,0);
#endif // WIN32
undo_clear();
return (0);
}
//
// End of "$Id$".
//