void
NodeView::on_action_property(machina::URIInt key, const Atom& value)
{
if (key == URIs::instance().machina_note_number) {
show_label(true);
}
}
static void print_labels(void) {
eterm_t t;
printf("==== Labels ====\n");
for (t=0; t<NT; t++) {
show_label(t);
}
fflush(stdout);
}
static void test_equalities(uint32_t n) {
uint32_t k, l;
arena_t m;
init_arena(&m);
for (k=0; k<n; k++) {
arena_push(&m);
for (l=0; l<n; l++) {
show_label(k);
if (k != l) show_label(l);
test_eq(&m, pos_occ(k), pos_occ(l));
test_eq(&m, pos_occ(k), neg_occ(l));
test_eq(&m, neg_occ(k), pos_occ(l));
test_eq(&m, neg_occ(k), neg_occ(l));
printf("\n");
}
arena_pop(&m);
}
delete_arena(&m);
}
static void test_disjunctions(uint32_t n) {
uint32_t t1, t2, t3;
arena_t m;
init_arena(&m);
for (t1=0; t1<n; t1++) {
arena_push(&m);
for (t2=0; t2<n; t2++) {
for (t3=0; t3<n; t3++) {
show_label(t1);
if (t1 != t2) show_label(t2);
if (t1 != t3 && t2 != t3) show_label(t3);
test_or3(&m, pos_occ(t1), pos_occ(t2), pos_occ(t3));
printf("\n");
}
}
arena_pop(&m);
}
delete_arena(&m);
}
static void
contents_changed (void)
{
baobab_get_filesystem (&g_fs);
set_label_scan (&g_fs);
show_label ();
if (messageyesno (_("Rescan your home folder?"),
_("The content of your home folder has changed. Select rescan to update the disk usage details."),
GTK_MESSAGE_QUESTION, _("_Rescan"), baobab.window) == GTK_RESPONSE_OK) {
baobab_rescan_current_dir ();
}
}
void show_label_line(const struct line_pnts *Points, int ltype, LATTR *lattr,
const char *text)
{
double X, Y;
if ((ltype & GV_POINTS) || Points->n_points == 1)
/* point/centroid or line/boundary with one coor */
{
X = Points->x[0];
Y = Points->y[0];
}
else if (Points->n_points == 2) { /* line with two coors */
X = (Points->x[0] + Points->x[1]) / 2;
Y = (Points->y[0] + Points->y[1]) / 2;
}
else {
int i = Points->n_points / 2;
X = Points->x[i];
Y = Points->y[i];
}
show_label(&X, &Y, lattr, text);
}
static void HandleClient(t_x11 *x11,t_manager *man,long data[])
{
int ID,button,x,y;
bool bPos;
real fac;
ID=data[0];
button=data[1];
x=data[2];
y=data[3];
bPos=(button==Button1);
switch (ID) {
case IDROTX:
case IDROTY:
case IDROTZ:
rotate_3d(man->view,ID-IDROTX,bPos);
draw_mol(x11,man);
break;
case IDZOOM:
if (bPos)
fac=0.8; /* Reduce distance between eye and origin */
else
fac=1.25;
/* zoom changed to scale by Berk Hess 3-7-96
if (zoom_3d(man->view,fac))
draw_mol(x11,man); */
man->view->sc_x/=fac;
man->view->sc_y/=fac;
draw_mol(x11,man);
break;
case IDTRANSX:
case IDTRANSY:
case IDTRANSZ:
translate_view(man->view,ID-IDTRANSX,bPos);
draw_mol(x11,man);
break;
case IDREWIND:
if (man->status != -1) {
rewind_trj(man->status);
read_next_x(man->status,&(man->time),man->natom,man->x,man->box);
man->bEof=FALSE;
draw_mol(x11,man);
}
break;
case IDSTEP: {
int nat;
nat=0;
if (!step_man(man,&nat)) {
man->bEof=TRUE;
man->bStop=TRUE;
}
else {
if (nat > 0) {
draw_mol(x11,man);
usleep(man->nWait*1000);
}
}
break;
}
case IDFF:
man->bStop=FALSE;
break;
case IDSTOP_ANI:
man->bStop=TRUE;
break;
case IDDRAWMOL:
draw_mol(x11,man);
break;
case IDLABEL:
switch (button) {
case Button1:
case Button2:
show_label(x11,man,x,y);
break;
case Button3:
hide_label(x11,man,x,y);
break;
}
break;
default:
break;
}
if (man->bAnimate && !man->bEof && !man->bStop)
step_message(x11,man);
}
int display_topo(struct Map_info *Map, int type, LATTR *lattr, double dsize)
{
int ltype, num, el;
double msize;
struct line_pnts *Points;
struct line_cats *Cats;
char text[50];
LATTR lattr2 = *lattr;
if (Vect_level(Map) < 2) {
G_warning(_("Unable to display topology, not available."
"Please try to rebuild topology using "
"v.build or v.build.all."));
return 1;
}
msize = dsize * (D_d_to_u_col(2.0) - D_d_to_u_col(1.0)); /* do it better */
lattr2.xref = lattr->xref == LRIGHT ? LLEFT : LRIGHT;
G_debug(1, "display topo:");
Points = Vect_new_line_struct();
Cats = Vect_new_cats_struct();
D_RGB_color(lattr->color.R, lattr->color.G, lattr->color.B);
D_text_size(lattr->size, lattr->size);
if (lattr->font)
D_font(lattr->font);
if (lattr->enc)
D_encoding(lattr->enc);
Vect_rewind(Map);
num = Vect_get_num_lines(Map);
G_debug(1, "n_lines = %d", num);
/* Lines */
for (el = 1; el <= num; el++) {
if (!Vect_line_alive(Map, el))
continue;
ltype = Vect_read_line(Map, Points, Cats, el);
G_debug(3, "ltype = %d", ltype);
switch (ltype) {
case -1:
G_fatal_error(_("Unable to read vector map"));
case -2: /* EOF */
return 0;
}
if (!(type & ltype))
continue; /* used for both lines and labels */
sprintf(text, "%d", el);
show_label_line(Points, ltype, lattr, text);
}
num = Vect_get_num_nodes(Map);
G_debug(1, "n_nodes = %d", num);
/* Nodes */
for (el = 1; el <= num; el++) {
double X, Y;
if (!Vect_node_alive(Map, el))
continue;
Vect_get_node_coor(Map, el, &X, &Y, NULL);
G_debug(3, "node = %d", el);
sprintf(text, "n%d", el);
show_label(&X, &Y, &lattr2, text);
D_plot_icon(X, Y, G_ICON_BOX, 0, msize);
}
Vect_destroy_line_struct(Points);
Vect_destroy_cats_struct(Cats);
return 0;
}
/* return TRUE if a command match, FALSE if not */
static TBOOLEAN
show_two()
{
if (almost_equals(c_token, "p$lot")) {
(void) putc('\n', stderr);
show_plot();
c_token++;
} else if (almost_equals(c_token, "par$ametric")) {
(void) putc('\n', stderr);
show_parametric();
c_token++;
} else if (almost_equals(c_token, "poi$ntsize")) {
(void) putc('\n', stderr);
show_pointsize();
c_token++;
} else if (almost_equals(c_token, "enc$oding")) {
(void) putc('\n', stderr);
show_encoding();
c_token++;
} else if (almost_equals(c_token, "pol$ar")) {
(void) putc('\n', stderr);
show_polar();
c_token++;
} else if (almost_equals(c_token, "an$gles")) {
(void) putc('\n', stderr);
show_angles();
c_token++;
} else if (almost_equals(c_token, "ti$cs")) {
(void) putc('\n', stderr);
show_tics(TRUE, TRUE, TRUE, TRUE, TRUE);
c_token++;
} else if (almost_equals(c_token, "tim$estamp")) {
(void) putc('\n', stderr);
show_xyzlabel("time", &timelabel);
fprintf(stderr, "\twritten in %s corner\n", (timelabel_bottom ? "bottom" : "top"));
if (timelabel_rotate)
fputs("\trotated if the terminal allows it\n\t", stderr);
else
fputs("\tnot rotated\n\t", stderr);
c_token++;
} else if (almost_equals(c_token, "su$rface")) {
(void) putc('\n', stderr);
show_surface();
c_token++;
} else if (almost_equals(c_token, "hi$dden3d")) {
(void) putc('\n', stderr);
show_hidden3d();
c_token++;
} else if (almost_equals(c_token, "cla$bel")) {
(void) putc('\n', stderr);
show_label_contours();
c_token++;
} else if (almost_equals(c_token, "xti$cs")) {
show_tics(TRUE, FALSE, FALSE, TRUE, FALSE);
c_token++;
} else if (almost_equals(c_token, "yti$cs")) {
show_tics(FALSE, TRUE, FALSE, FALSE, TRUE);
c_token++;
} else if (almost_equals(c_token, "zti$cs")) {
show_tics(FALSE, FALSE, TRUE, FALSE, FALSE);
c_token++;
} else if (almost_equals(c_token, "x2ti$cs")) {
show_tics(FALSE, FALSE, FALSE, TRUE, FALSE);
c_token++;
} else if (almost_equals(c_token, "y2ti$cs")) {
show_tics(FALSE, FALSE, FALSE, FALSE, TRUE);
c_token++;
} else if (almost_equals(c_token, "xdti$cs")) {
show_tics(TRUE, FALSE, FALSE, TRUE, FALSE);
c_token++;
} else if (almost_equals(c_token, "ydti$cs")) {
show_tics(FALSE, TRUE, FALSE, FALSE, TRUE);
c_token++;
} else if (almost_equals(c_token, "zdti$cs")) {
show_tics(FALSE, FALSE, TRUE, FALSE, FALSE);
c_token++;
} else if (almost_equals(c_token, "x2dti$cs")) {
show_tics(FALSE, FALSE, FALSE, TRUE, FALSE);
c_token++;
} else if (almost_equals(c_token, "y2dti$cs")) {
show_tics(FALSE, FALSE, FALSE, FALSE, TRUE);
c_token++;
} else if (almost_equals(c_token, "xmti$cs")) {
show_tics(TRUE, FALSE, FALSE, TRUE, FALSE);
c_token++;
} else if (almost_equals(c_token, "ymti$cs")) {
show_tics(FALSE, TRUE, FALSE, FALSE, TRUE);
c_token++;
} else if (almost_equals(c_token, "zmti$cs")) {
show_tics(FALSE, FALSE, TRUE, FALSE, FALSE);
c_token++;
} else if (almost_equals(c_token, "x2mti$cs")) {
show_tics(FALSE, FALSE, FALSE, TRUE, FALSE);
c_token++;
} else if (almost_equals(c_token, "y2mti$cs")) {
show_tics(FALSE, FALSE, FALSE, FALSE, TRUE);
c_token++;
} else if (almost_equals(c_token, "sa$mples")) {
(void) putc('\n', stderr);
show_samples();
c_token++;
} else if (almost_equals(c_token, "isosa$mples")) {
(void) putc('\n', stderr);
show_isosamples();
c_token++;
} else if (almost_equals(c_token, "si$ze")) {
(void) putc('\n', stderr);
show_size();
c_token++;
} else if (almost_equals(c_token, "orig$in")) {
(void) putc('\n', stderr);
show_origin();
c_token++;
} else if (almost_equals(c_token, "t$erminal")) {
(void) putc('\n', stderr);
show_term();
c_token++;
} else if (almost_equals(c_token, "rr$ange")) {
(void) putc('\n', stderr);
show_range(R_AXIS, rmin, rmax, autoscale_r, "r");
c_token++;
} else if (almost_equals(c_token, "tr$ange")) {
(void) putc('\n', stderr);
show_range(T_AXIS, tmin, tmax, autoscale_t, "t");
c_token++;
} else if (almost_equals(c_token, "ur$ange")) {
(void) putc('\n', stderr);
show_range(U_AXIS, umin, umax, autoscale_u, "u");
c_token++;
} else if (almost_equals(c_token, "vi$ew")) {
(void) putc('\n', stderr);
show_view();
c_token++;
} else if (almost_equals(c_token, "vr$ange")) {
(void) putc('\n', stderr);
show_range(V_AXIS, vmin, vmax, autoscale_v, "v");
c_token++;
} else if (almost_equals(c_token, "v$ariables")) {
show_variables();
c_token++;
} else if (almost_equals(c_token, "ve$rsion")) {
show_version(stderr);
} else if (almost_equals(c_token, "xr$ange")) {
(void) putc('\n', stderr);
show_range(FIRST_X_AXIS, xmin, xmax, autoscale_x, "x");
c_token++;
} else if (almost_equals(c_token, "yr$ange")) {
(void) putc('\n', stderr);
show_range(FIRST_Y_AXIS, ymin, ymax, autoscale_y, "y");
c_token++;
} else if (almost_equals(c_token, "x2r$ange")) {
(void) putc('\n', stderr);
show_range(SECOND_X_AXIS, x2min, x2max, autoscale_x2, "x2");
c_token++;
} else if (almost_equals(c_token, "y2r$ange")) {
(void) putc('\n', stderr);
show_range(SECOND_Y_AXIS, y2min, y2max, autoscale_y2, "y2");
c_token++;
} else if (almost_equals(c_token, "zr$ange")) {
(void) putc('\n', stderr);
show_range(FIRST_Z_AXIS, zmin, zmax, autoscale_z, "z");
c_token++;
} else if (almost_equals(c_token, "z$ero")) {
(void) putc('\n', stderr);
show_zero();
c_token++;
} else if (almost_equals(c_token, "a$ll")) {
c_token++;
show_version(stderr);
show_autoscale();
show_bars();
show_border();
show_boxwidth();
show_clip();
show_contour();
show_dgrid3d();
show_mapping();
(void) fprintf(stderr, "\tdummy variables are \"%s\" and \"%s\"\n",
dummy_var[0], dummy_var[1]);
show_format();
show_style("data", data_style);
show_style("functions", func_style);
show_grid();
show_xzeroaxis();
show_yzeroaxis();
show_label(0);
show_arrow(0);
show_linestyle(0);
show_keytitle();
show_key();
show_logscale();
show_offsets();
show_margin();
show_output();
show_parametric();
show_pointsize();
show_encoding();
show_polar();
show_angles();
show_samples();
show_isosamples();
show_view();
show_surface();
#ifndef LITE
show_hidden3d();
#endif
show_size();
show_origin();
show_term();
show_tics(TRUE, TRUE, TRUE, TRUE, TRUE);
show_mtics(mxtics, mxtfreq, "x");
show_mtics(mytics, mytfreq, "y");
show_mtics(mztics, mztfreq, "z");
show_mtics(mx2tics, mx2tfreq, "x2");
show_mtics(my2tics, my2tfreq, "y2");
show_xyzlabel("time", &timelabel);
if (parametric || polar) {
if (!is_3d_plot)
show_range(T_AXIS, tmin, tmax, autoscale_t, "t");
else {
show_range(U_AXIS, umin, umax, autoscale_u, "u");
show_range(V_AXIS, vmin, vmax, autoscale_v, "v");
}
}
show_range(FIRST_X_AXIS, xmin, xmax, autoscale_x, "x");
show_range(FIRST_Y_AXIS, ymin, ymax, autoscale_y, "y");
show_range(SECOND_X_AXIS, x2min, x2max, autoscale_x2, "x2");
show_range(SECOND_Y_AXIS, y2min, y2max, autoscale_y2, "y2");
show_range(FIRST_Z_AXIS, zmin, zmax, autoscale_z, "z");
show_xyzlabel("title", &title);
show_xyzlabel("xlabel", &xlabel);
show_xyzlabel("ylabel", &ylabel);
show_xyzlabel("zlabel", &zlabel);
show_xyzlabel("x2label", &x2label);
show_xyzlabel("y2label", &y2label);
show_datatype("xdata", FIRST_X_AXIS);
show_datatype("ydata", FIRST_Y_AXIS);
show_datatype("x2data", SECOND_X_AXIS);
show_datatype("y2data", SECOND_Y_AXIS);
show_datatype("zdata", FIRST_Z_AXIS);
show_timefmt();
show_locale();
show_zero();
show_missing();
show_plot();
show_variables();
show_functions();
c_token++;
} else
return (FALSE);
return (TRUE);
}
/* return TRUE if a command match, FALSE if not */
static TBOOLEAN
show_one()
{
if (almost_equals(c_token, "ac$tion_table") ||
equals(c_token, "at")) {
c_token++;
show_at();
c_token++;
} else if (almost_equals(c_token, "ar$row")) {
struct value a;
int tag = 0;
c_token++;
if (!END_OF_COMMAND) {
tag = (int) real(const_express(&a));
if (tag <= 0)
int_error("tag must be > zero", c_token);
}
(void) putc('\n', stderr);
show_arrow(tag);
} else if (almost_equals(c_token, "au$toscale")) {
(void) putc('\n', stderr);
show_autoscale();
c_token++;
} else if (almost_equals(c_token, "b$ars")) {
(void) putc('\n', stderr);
show_bars();
c_token++;
} else if (almost_equals(c_token, "bor$der")) {
(void) putc('\n', stderr);
show_border();
c_token++;
} else if (almost_equals(c_token, "box$width")) {
(void) putc('\n', stderr);
show_boxwidth();
c_token++;
} else if (almost_equals(c_token, "c$lip")) {
(void) putc('\n', stderr);
show_clip();
c_token++;
} else if (almost_equals(c_token, "ma$pping")) {
(void) putc('\n', stderr);
show_mapping();
c_token++;
} else if (almost_equals(c_token, "co$ntour") ||
almost_equals(c_token, "cn$trparam")) {
(void) putc('\n', stderr);
show_contour();
c_token++;
} else if (almost_equals(c_token, "da$ta")) {
c_token++;
if (!almost_equals(c_token, "s$tyle"))
int_error("expecting keyword 'style'", c_token);
(void) putc('\n', stderr);
show_style("data", data_style);
c_token++;
} else if (almost_equals(c_token, "dg$rid3d")) {
(void) putc('\n', stderr);
show_dgrid3d();
c_token++;
} else if (almost_equals(c_token, "du$mmy")) {
(void) fprintf(stderr, "\n\tdummy variables are \"%s\" and \"%s\"\n",
dummy_var[0], dummy_var[1]);
c_token++;
} else if (almost_equals(c_token, "fo$rmat")) {
show_format();
c_token++;
} else if (almost_equals(c_token, "fu$nctions")) {
c_token++;
if (almost_equals(c_token, "s$tyle")) {
(void) putc('\n', stderr);
show_style("functions", func_style);
c_token++;
} else
show_functions();
} else if (almost_equals(c_token, "lo$gscale")) {
(void) putc('\n', stderr);
show_logscale();
c_token++;
} else if (almost_equals(c_token, "of$fsets")) {
(void) putc('\n', stderr);
show_offsets();
c_token++;
} else if (almost_equals(c_token, "ma$rgin")) {
(void) putc('\n', stderr);
show_margin();
c_token++;
} else if (almost_equals(c_token, "o$utput")) {
(void) putc('\n', stderr);
show_output();
c_token++;
} else if (almost_equals(c_token, "tit$le")) {
(void) putc('\n', stderr);
show_xyzlabel("title", &title);
c_token++;
} else if (almost_equals(c_token, "mis$sing")) {
(void) putc('\n', stderr);
show_missing();
c_token++;
} else if (almost_equals(c_token, "xl$abel")) {
(void) putc('\n', stderr);
show_xyzlabel("xlabel", &xlabel);
c_token++;
} else if (almost_equals(c_token, "x2l$abel")) {
(void) putc('\n', stderr);
show_xyzlabel("x2label", &x2label);
c_token++;
} else if (almost_equals(c_token, "yl$abel")) {
(void) putc('\n', stderr);
show_xyzlabel("ylabel", &ylabel);
c_token++;
} else if (almost_equals(c_token, "y2l$abel")) {
(void) putc('\n', stderr);
show_xyzlabel("y2label", &y2label);
c_token++;
} else if (almost_equals(c_token, "zl$abel")) {
(void) putc('\n', stderr);
show_xyzlabel("zlabel", &zlabel);
c_token++;
} else if (almost_equals(c_token, "keyt$itle")) {
(void) putc('\n', stderr);
show_keytitle();
c_token++;
} else if (almost_equals(c_token, "xda$ta")) {
(void) putc('\n', stderr);
show_datatype("xdata", FIRST_X_AXIS);
c_token++;
} else if (almost_equals(c_token, "yda$ta")) {
(void) putc('\n', stderr);
show_datatype("ydata", FIRST_Y_AXIS);
c_token++;
} else if (almost_equals(c_token, "x2da$ta")) {
(void) putc('\n', stderr);
show_datatype("x2data", SECOND_X_AXIS);
c_token++;
} else if (almost_equals(c_token, "y2da$ta")) {
(void) putc('\n', stderr);
show_datatype("y2data", SECOND_Y_AXIS);
c_token++;
} else if (almost_equals(c_token, "zda$ta")) {
(void) putc('\n', stderr);
show_datatype("zdata", FIRST_Z_AXIS);
c_token++;
} else if (almost_equals(c_token, "timef$mt")) {
(void) putc('\n', stderr);
show_timefmt();
c_token++;
} else if (almost_equals(c_token, "loca$le")) {
(void) putc('\n', stderr);
show_locale();
c_token++;
} else if (almost_equals(c_token, "xzero$axis")) {
(void) putc('\n', stderr);
show_xzeroaxis();
c_token++;
} else if (almost_equals(c_token, "yzero$axis")) {
(void) putc('\n', stderr);
show_yzeroaxis();
c_token++;
} else if (almost_equals(c_token, "zeroa$xis")) {
(void) putc('\n', stderr);
show_xzeroaxis();
show_yzeroaxis();
c_token++;
} else if (almost_equals(c_token, "la$bel")) {
struct value a;
int tag = 0;
c_token++;
if (!END_OF_COMMAND) {
tag = (int) real(const_express(&a));
if (tag <= 0)
int_error("tag must be > zero", c_token);
}
(void) putc('\n', stderr);
show_label(tag);
} else if (almost_equals(c_token, "li$nestyle") || equals(c_token, "ls")) {
struct value a;
int tag = 0;
c_token++;
if (!END_OF_COMMAND) {
tag = (int) real(const_express(&a));
if (tag <= 0)
int_error("tag must be > zero", c_token);
}
(void) putc('\n', stderr);
show_linestyle(tag);
} else if (almost_equals(c_token, "g$rid")) {
(void) putc('\n', stderr);
show_grid();
c_token++;
} else if (almost_equals(c_token, "mxt$ics")) {
(void) putc('\n', stderr);
show_mtics(mxtics, mxtfreq, "x");
c_token++;
} else if (almost_equals(c_token, "myt$ics")) {
(void) putc('\n', stderr);
show_mtics(mytics, mytfreq, "y");
c_token++;
} else if (almost_equals(c_token, "mzt$ics")) {
(void) putc('\n', stderr);
show_mtics(mztics, mztfreq, "z");
c_token++;
} else if (almost_equals(c_token, "mx2t$ics")) {
(void) putc('\n', stderr);
show_mtics(mx2tics, mx2tfreq, "x2");
c_token++;
} else if (almost_equals(c_token, "my2t$ics")) {
(void) putc('\n', stderr);
show_mtics(my2tics, my2tfreq, "y2");
c_token++;
} else if (almost_equals(c_token, "k$ey")) {
(void) putc('\n', stderr);
show_key();
c_token++;
} else
return (FALSE);
return TRUE;
}
