| version 1.1.1.1, 2000/01/09 17:01:16 |
version 1.1.1.2, 2000/01/22 14:16:30 |
|
|
| * adapted to the new terminal layout by Alex Woo (Sept. 1996) |
* adapted to the new terminal layout by Alex Woo (Sept. 1996) |
| */ |
*/ |
| |
|
| |
/* |
| |
* extended interactive Tk/Tcl capabilities |
| |
* Thomas Sefzick, March 1999, t.sefzick@fz-juelich.de |
| |
* |
| |
* added the perltk.trm code written by Slaven Rezic <eserte@cs.tu-berlin.de>, |
| |
* the variable 'tk_perl' switches between tcl/tk and perltk code. |
| |
* 'linewidth' and 'justify text' added, ends of plotted lines are now rounded. |
| |
* if 'perltk' is chosen, perl code is produced, otherwise tcl code. |
| |
* Thomas Sefzick, May 1999, t.sefzick@fz-juelich.de |
| |
* |
| |
* scale plot to fit into the actual size of the canvas as reported by |
| |
* the window manager (the canvas itself doesn't report its real size). |
| |
* Matt Willis, October 1999, mattbwillis@my-deja.com |
| |
*/ |
| |
|
| #include "driver.h" |
#include "driver.h" |
| |
|
| #ifdef TERM_REGISTER |
#ifdef TERM_REGISTER |
| Line 64 register_term(tkcanvas) |
|
| Line 79 register_term(tkcanvas) |
|
| #endif |
#endif |
| |
|
| #ifdef TERM_PROTO |
#ifdef TERM_PROTO |
| |
TERM_PUBLIC void TK_options __PROTO((void)); |
| TERM_PUBLIC void TK_init __PROTO((void)); |
TERM_PUBLIC void TK_init __PROTO((void)); |
| TERM_PUBLIC void TK_graphics __PROTO((void)); |
TERM_PUBLIC void TK_graphics __PROTO((void)); |
| TERM_PUBLIC void TK_text __PROTO((void)); |
TERM_PUBLIC void TK_text __PROTO((void)); |
| Line 72 TERM_PUBLIC void TK_move __PROTO((unsigned int x, unsi |
|
| Line 88 TERM_PUBLIC void TK_move __PROTO((unsigned int x, unsi |
|
| TERM_PUBLIC void TK_vector __PROTO((unsigned int x, unsigned int y)); |
TERM_PUBLIC void TK_vector __PROTO((unsigned int x, unsigned int y)); |
| TERM_PUBLIC void TK_put_text __PROTO((unsigned int x, unsigned int y, char *str)); |
TERM_PUBLIC void TK_put_text __PROTO((unsigned int x, unsigned int y, char *str)); |
| TERM_PUBLIC void TK_reset __PROTO((void)); |
TERM_PUBLIC void TK_reset __PROTO((void)); |
| |
TERM_PUBLIC int TK_justify_text __PROTO((enum JUSTIFY)); |
| |
TERM_PUBLIC int TK_set_font __PROTO((char *font)); |
| |
TERM_PUBLIC void TK_linewidth __PROTO((double linewidth)); |
| |
|
| #define TK_XMAX 1000 |
#define TK_XMAX 1000 |
| #define TK_YMAX 1000 |
#define TK_YMAX 1000 |
| Line 88 TERM_PUBLIC void TK_reset __PROTO((void)); |
|
| Line 107 TERM_PUBLIC void TK_reset __PROTO((void)); |
|
| #ifndef TERM_PROTO_ONLY |
#ifndef TERM_PROTO_ONLY |
| #ifdef TERM_BODY |
#ifdef TERM_BODY |
| |
|
| static int tk_angle = 0; |
/* plot2d.c */ |
| |
extern double min_array[], max_array[], base_array[], log_base_array[]; |
| |
extern TBOOLEAN log_array[]; |
| |
/* graphics.c */ |
| |
extern int xleft, xright, ybot, ytop; |
| |
extern TBOOLEAN is_3d_plot; |
| |
|
| |
/* static int tk_angle = 0; unused, for now */ |
| static int tk_lastx; |
static int tk_lastx; |
| static int tk_lasty; |
static int tk_lasty; |
| static int tk_color = 0; |
static int tk_color = 0; |
| static char *tk_colors[] = { "black", "gray", "red", "blue", "green", "brown", "magenta", "cyan" }; |
static char tk_anchor[7] = "w"; |
| |
static double tk_linewidth = 1.0; |
| |
static int tk_perl = 0; |
| |
static int tk_interactive = 0; |
| |
static char *tk_colors[] = { |
| |
"black", "gray", "red", "blue", "green", "brown", "magenta", "cyan" |
| |
}; |
| |
|
| TERM_PUBLIC void TK_init() |
TERM_PUBLIC void |
| |
TK_options() |
| { |
{ |
| fputs("\ |
tk_perl = 0; |
| proc gnuplot can {\n\ |
tk_interactive = 0; |
| $can delete all\n\ |
|
| set cmx [lindex [$can configure -width] 4]\n\ |
|
| set cmy [lindex [$can configure -height] 4]\n", |
|
| gpoutfile); |
|
| |
|
| tk_lastx = tk_lasty = tk_color = 0; |
if (!END_OF_COMMAND) { |
| |
if (almost_equals(c_token, "p$erltk")) { |
| |
tk_perl = 1; |
| |
c_token++; |
| |
} |
| |
if (almost_equals(c_token, "i$nteractive")) { |
| |
tk_interactive = 1; |
| |
c_token++; |
| |
} |
| |
} |
| |
|
| |
sprintf(term_options, "%s %s", |
| |
tk_perl ? "perltk" : "", |
| |
tk_interactive ? "interactive" : ""); |
| } |
} |
| |
|
| |
TERM_PUBLIC void |
| |
TK_init() |
| |
{ |
| |
} |
| |
|
| TERM_PUBLIC void TK_graphics() |
TERM_PUBLIC void |
| |
TK_graphics() |
| { |
{ |
| |
/* |
| |
* the resulting tcl or perl code takes the actual width and height |
| |
* of the defined canvas and scales the plot to fit. |
| |
* => NOTE: this makes 'set size' useless !!! |
| |
* unless the original width and height is taken into account |
| |
* by some tcl or perl code, that's why the 'gnuplot_plotarea' and |
| |
* 'gnuplot_axisranges' procedures are supplied. |
| |
*/ |
| |
if (tk_perl) { |
| |
fputs("\ |
| |
sub gnuplot {\n\ |
| |
my($can) = @_;\n\ |
| |
$can->delete('all');\n\ |
| |
my $cmx = ($can->configure(-width))[4];\n\ |
| |
my $cmy = ($can->configure(-height))[4];\n\ |
| |
my $cmx = $can->width - 2 * $can->cget(-border);\n\ |
| |
if ($cmx <= 1) {\n$cmx = ($can->cget(-width));\n}\n\ |
| |
my $cmy = $can->height - 2 * $can->cget(-border);\n\ |
| |
if ($cmy <= 1) {\n$cmy = ($can->cget(-height));\n}\n", |
| |
gpoutfile); |
| |
} else { |
| |
fputs("\ |
| |
proc gnuplot can {\n\ |
| |
$can delete all\n\ |
| |
set cmx [expr [winfo width $can]-2*[$can cget -border]]\n\ |
| |
if {$cmx <= 1} {set cmx [$can cget -width]}\n\ |
| |
set cmy [expr [winfo height $can]-2*[$can cget -border]]\n\ |
| |
if {$cmy <= 1} {set cmy [$can cget -height]}\n", |
| |
gpoutfile); |
| |
} |
| |
tk_lastx = tk_lasty = tk_color = 0; |
| } |
} |
| |
|
| |
TERM_PUBLIC void |
| TERM_PUBLIC void TK_reset() |
TK_reset() |
| { |
{ |
| } |
} |
| |
|
| TERM_PUBLIC void TK_linetype(linetype) |
TERM_PUBLIC void |
| |
TK_linetype(linetype) |
| int linetype; |
int linetype; |
| { |
{ |
| tk_color = (linetype + 2) & 7; |
tk_color = (linetype + 2) & 7; |
| } |
} |
| |
|
| TERM_PUBLIC void TK_move(x, y) |
TERM_PUBLIC void |
| |
TK_linewidth(linewidth) |
| |
double linewidth; |
| |
{ |
| |
tk_linewidth = linewidth; |
| |
} |
| |
|
| |
TERM_PUBLIC void |
| |
TK_move(x, y) |
| unsigned int x, y; |
unsigned int x, y; |
| { |
{ |
| tk_lastx = x; |
tk_lastx = x; |
| tk_lasty = 1000 - y; |
tk_lasty = 1000 - y; |
| } |
} |
| |
|
| |
#define TK_REAL_VALUE(value,axis) \ |
| |
(log_array[axis])\ |
| |
?pow(base_array[axis],min_array[axis]+value*(max_array[axis]-min_array[axis]))\ |
| |
:min_array[axis]+value*(max_array[axis]-min_array[axis]) |
| |
|
| TERM_PUBLIC void TK_vector(x, y) |
#define TK_X_VALUE(value) \ |
| |
(double)(value-xleft)/(double)(xright-xleft) |
| |
|
| |
#define TK_Y_VALUE(value) \ |
| |
(double)((TK_YMAX-value)-ybot)/(double)(ytop-ybot) |
| |
|
| |
TERM_PUBLIC void |
| |
TK_vector(x, y) |
| unsigned int x, y; |
unsigned int x, y; |
| { |
{ |
| |
/* |
| |
* this is the 1st part of the wrapper around the 'create line' command |
| |
* used to bind some actions to a line segment: |
| |
* bind { |
| |
* normal create line command |
| |
* } gnuplot_xy(some coordinates) |
| |
*/ |
| |
if (tk_interactive && !is_3d_plot) { |
| |
if (tk_perl) |
| |
fprintf(gpoutfile, "$can->bind("); |
| |
else |
| |
fprintf(gpoutfile, "$can bind [\n"); |
| |
} |
| |
/* |
| |
* end of 1st part of wrapper |
| |
*/ |
| y = 1000 - y; |
y = 1000 - y; |
| fprintf(gpoutfile, |
/* |
| "$can create line [expr $cmx * %d /1000] [expr $cmy * %d /1000] [expr $cmx * %d /1000] [expr $cmy * %d /1000] -fill %s\n", |
* here is the basic well-known command for plotting a line segment |
| tk_lastx, tk_lasty, x, y, tk_colors[tk_color]); |
*/ |
| |
if (tk_perl) { |
| |
fprintf(gpoutfile,"\ |
| |
$can->createLine(\ |
| |
$cmx * %d / 1000, \ |
| |
$cmy * %d / 1000, \ |
| |
$cmx * %d / 1000, \ |
| |
$cmy * %d / 1000, -fill => q{%s}, -width => %f, -capstyle => q{round})", |
| |
tk_lastx, tk_lasty, x, y, tk_colors[tk_color], tk_linewidth); |
| |
} else { |
| |
fprintf(gpoutfile,"\ |
| |
$can create line \ |
| |
[expr $cmx * %d /1000] \ |
| |
[expr $cmy * %d /1000] \ |
| |
[expr $cmx * %d /1000] \ |
| |
[expr $cmy * %d /1000] -fill %s -width %f -capstyle round\n", |
| |
tk_lastx, tk_lasty, x, y, tk_colors[tk_color], tk_linewidth); |
| |
} |
| |
|
| |
/* |
| |
* this is the 2nd part of the wrapper around the 'create line' |
| |
* command, it generates a mechanism which calls 'gnuplot_xy' for |
| |
* the line segment pointed to by the mouse cursor when a mouse |
| |
* button is pressed |
| |
*/ |
| |
if (tk_interactive && !is_3d_plot) { |
| |
if (tk_perl) { |
| |
/* Ev('W') not needed here, supplied anyhow, WHY ??? */ |
| |
fprintf(gpoutfile,"\ |
| |
, '<Button>' => \ |
| |
[\\&gnuplot_xy, %f, %f, %f, %f, %f, %f, %f, %f,", |
| |
TK_REAL_VALUE(TK_X_VALUE(tk_lastx), FIRST_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(tk_lasty), FIRST_Y_AXIS), |
| |
TK_REAL_VALUE(TK_X_VALUE(tk_lastx), SECOND_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(tk_lasty), SECOND_Y_AXIS), |
| |
TK_REAL_VALUE(TK_X_VALUE(x), FIRST_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(y), FIRST_Y_AXIS), |
| |
TK_REAL_VALUE(TK_X_VALUE(x), SECOND_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(y), SECOND_Y_AXIS)); |
| |
if (log_array[FIRST_X_AXIS]) { |
| |
fprintf(gpoutfile, " %f,", |
| |
TK_REAL_VALUE(TK_X_VALUE(0.5 * (x + tk_lastx)), FIRST_X_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " \"\","); |
| |
} |
| |
if (log_array[FIRST_Y_AXIS]) { |
| |
fprintf(gpoutfile, " %f,", |
| |
TK_REAL_VALUE(TK_Y_VALUE(0.5 * (y + tk_lasty)), FIRST_Y_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " \"\","); |
| |
} |
| |
if (log_array[SECOND_X_AXIS]) { |
| |
fprintf(gpoutfile, " %f,", |
| |
TK_REAL_VALUE(TK_X_VALUE(0.5 * (x + tk_lastx)), SECOND_X_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " \"\","); |
| |
} |
| |
if (log_array[SECOND_Y_AXIS]) { |
| |
fprintf(gpoutfile, " %f", |
| |
TK_REAL_VALUE(TK_Y_VALUE(0.5 * (y + tk_lasty)), SECOND_Y_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " \"\""); |
| |
} |
| |
fprintf(gpoutfile, "]);\n"); |
| |
} else { |
| |
fprintf(gpoutfile,"\ |
| |
] <Button> \ |
| |
\"gnuplot_xy %%W %f %f %f %f %f %f %f %f", |
| |
TK_REAL_VALUE(TK_X_VALUE(tk_lastx), FIRST_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(tk_lasty), FIRST_Y_AXIS), |
| |
TK_REAL_VALUE(TK_X_VALUE(tk_lastx), SECOND_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(tk_lasty), SECOND_Y_AXIS), |
| |
TK_REAL_VALUE(TK_X_VALUE(x), FIRST_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(y), FIRST_Y_AXIS), |
| |
TK_REAL_VALUE(TK_X_VALUE(x), SECOND_X_AXIS), |
| |
TK_REAL_VALUE(TK_Y_VALUE(y), SECOND_Y_AXIS)); |
| |
if (log_array[FIRST_X_AXIS]) { |
| |
fprintf(gpoutfile, " %f", |
| |
TK_REAL_VALUE(TK_X_VALUE(0.5 * (x + tk_lastx)), FIRST_X_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " {}"); |
| |
} |
| |
if (log_array[FIRST_Y_AXIS]) { |
| |
fprintf(gpoutfile, " %f", |
| |
TK_REAL_VALUE(TK_Y_VALUE(0.5 * (y + tk_lasty)), FIRST_Y_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " {}"); |
| |
} |
| |
if (log_array[SECOND_X_AXIS]) { |
| |
fprintf(gpoutfile, " %f", |
| |
TK_REAL_VALUE(TK_X_VALUE(0.5 * (x + tk_lastx)), SECOND_X_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " {}"); |
| |
} |
| |
if (log_array[SECOND_Y_AXIS]) { |
| |
fprintf(gpoutfile, " %f", |
| |
TK_REAL_VALUE(TK_Y_VALUE(0.5 * (y + tk_lasty)), SECOND_Y_AXIS)); |
| |
} else { |
| |
fprintf(gpoutfile, " {}"); |
| |
} |
| |
fprintf(gpoutfile, "\"\n"); |
| |
} |
| |
} else { |
| |
if (tk_perl) { |
| |
fprintf(gpoutfile, ";\n"); |
| |
} |
| |
} |
| |
/* |
| |
* end of the wrapper |
| |
*/ |
| tk_lastx = x; |
tk_lastx = x; |
| tk_lasty = y; |
tk_lasty = y; |
| } |
} |
| |
|
| |
#undef TK_REAL_VALUE |
| |
#undef TK_X_VALUE |
| |
#undef TK_Y_VALUE |
| |
|
| TERM_PUBLIC void TK_put_text(x, y, str) |
TERM_PUBLIC void |
| |
TK_put_text(x, y, str) |
| unsigned int x, y; |
unsigned int x, y; |
| char *str; |
char *str; |
| { |
{ |
| y = 1000 - y; |
y = 1000 - y; |
| fprintf(gpoutfile, |
if (tk_perl) { |
| "$can create text [expr $cmx * %d /1000] [expr $cmy * %d /1000] -text {%s} -fill %s -anchor w\n", |
fprintf(gpoutfile,"\ |
| x, y, str, tk_colors[tk_color]); |
$can->createText(\ |
| |
$cmx * %d / 1000, \ |
| |
$cmy * %d / 1000, \ |
| |
-text => q{%s}, -fill => q{%s}, -anchor => '%s', \ |
| |
(defined $font ? (-font => $font) : ()));\n", |
| |
x, y, str, tk_colors[tk_color], tk_anchor); |
| |
} else { |
| |
fprintf(gpoutfile,"\ |
| |
eval $can create text \ |
| |
[expr $cmx * %d /1000] \ |
| |
[expr $cmy * %d /1000] \ |
| |
-text \\{%s\\} -fill %s -anchor %s\ |
| |
[expr [info exists font]?\"-font \\$font\":{}]\n", |
| |
x, y, str, tk_colors[tk_color], tk_anchor); |
| |
} |
| } |
} |
| |
|
| TERM_PUBLIC void TK_text() |
TERM_PUBLIC int |
| |
TK_justify_text(anchor) |
| |
enum JUSTIFY anchor; |
| { |
{ |
| fputs("}\n", gpoutfile); |
int return_value; |
| fflush(gpoutfile); |
|
| |
switch (anchor) { |
| |
case RIGHT: |
| |
strcpy(tk_anchor, "e"); |
| |
return_value = TRUE; |
| |
break; |
| |
case CENTRE: |
| |
strcpy(tk_anchor, "center"); |
| |
return_value = TRUE; |
| |
break; |
| |
case LEFT: |
| |
strcpy(tk_anchor, "w"); |
| |
return_value = TRUE; |
| |
break; |
| |
default: |
| |
strcpy(tk_anchor, "w"); |
| |
return_value = FALSE; |
| |
} |
| |
return return_value; |
| } |
} |
| |
|
| |
TERM_PUBLIC int |
| |
TK_set_font(font) |
| |
char *font; |
| |
{ |
| |
if (!font || *font == NUL) { |
| |
if (tk_perl) |
| |
fputs("undef $font;\n", gpoutfile); |
| |
else |
| |
fputs("catch {unset $font}\n", gpoutfile); |
| |
} else { |
| |
char *name; |
| |
int size = 0; |
| |
size_t sep = strcspn(font, ","); |
| |
|
| |
name = malloc(sep + 1); |
| |
if (!name) |
| |
return FALSE; |
| |
strncpy(name, font, sep); |
| |
name[sep] = NUL; |
| |
if (sep < strlen(font)) |
| |
sscanf(&(font[sep + 1]), "%d", &size); |
| |
if (tk_perl) { |
| |
fprintf(gpoutfile,"\ |
| |
if ($can->can('fontCreate')) {\n\ |
| |
$font = $can->fontCreate(-family => q{%s}", |
| |
name); |
| |
if (size) |
| |
fprintf(gpoutfile, ", -size => %d", size); |
| |
fputs(");\n}\n", gpoutfile); |
| |
} else { |
| |
fprintf(gpoutfile, "set font [font create -family %s", name); |
| |
if (size) |
| |
fprintf(gpoutfile, " -size %d", size); |
| |
fputs("]\n", gpoutfile); |
| |
} |
| |
free(name); |
| |
} |
| |
return TRUE; |
| |
} |
| |
|
| |
TERM_PUBLIC void |
| |
TK_text() |
| |
{ |
| |
/* |
| |
* when switching back to text mode some procedures are generated which |
| |
* return important information about plotarea size and axis ranges: |
| |
* 'gnuplot_plotarea' returns the plotarea size in tkcanvas units |
| |
* 'gnuplot_axisranges' returns the min. and max. values of the axis |
| |
* these are essentially needed to set the size of the canvas when the |
| |
* axis scaling is important. |
| |
* moreover, a procedure 'gnuplot_xy' is created which contains the |
| |
* actions bound to line segments (see the above 'TK_vector' code): |
| |
* if the user has defined a procedure named 'user_gnuplot_coordinates' |
| |
* then 'gnuplot_xy' calls this procedure, otherwise is writes the |
| |
* coordinates of the line segment the mouse cursor is pointing to |
| |
* to standard output. |
| |
*/ |
| |
if (tk_perl) { |
| |
fputs("};\n", gpoutfile); |
| |
if (!is_3d_plot) { |
| |
fputs("sub gnuplot_plotarea {\n", gpoutfile); |
| |
fprintf(gpoutfile, |
| |
"return (%d, %d, %d, %d);\n", |
| |
xleft, xright, 1000 - ytop, 1000 - ybot); |
| |
fputs("};\n", gpoutfile); |
| |
fputs("sub gnuplot_axisranges {\n", gpoutfile); |
| |
fprintf(gpoutfile, |
| |
"return (%f, %f, %f, %f, %f, %f, %f, %f);\n", |
| |
min_array[FIRST_X_AXIS], max_array[FIRST_X_AXIS], |
| |
min_array[FIRST_Y_AXIS], max_array[FIRST_Y_AXIS], |
| |
min_array[SECOND_X_AXIS], max_array[SECOND_X_AXIS], |
| |
min_array[SECOND_Y_AXIS], max_array[SECOND_Y_AXIS]); |
| |
fputs("};\n", gpoutfile); |
| |
if (tk_interactive) { |
| |
fputs("sub gnuplot_xy {\n", |
| |
gpoutfile); |
| |
fputs("my ($win, $x1s, $y1s, $x2s, $y2s, $x1e, $y1e, $x2e, $y2e, $x1m, $y1m, $x2m, $y2m) = @_;\n", |
| |
gpoutfile); |
| |
fputs("if (defined &user_gnuplot_coordinates) {\n", |
| |
gpoutfile); |
| |
fputs("my $id = $win->find('withtag', 'current');\n", |
| |
gpoutfile); |
| |
fputs("user_gnuplot_coordinates $win, $id, $x1s, $y1s, $x2s, $y2s, $x1e, $y1e, $x2e, $y2e, $x1m, $y1m, $x2m, $y2m\n", |
| |
gpoutfile); |
| |
fputs("} else {\n", |
| |
gpoutfile); |
| |
fputs("if (length($x1m)>0) {print \" $x1m\";} else {print \" \", 0.5*($x1s+$x1e);}\n", |
| |
gpoutfile); |
| |
fputs("if (length($y1m)>0) {print \" $y1m\";} else {print \" \", 0.5*($y1s+$y1e);}\n", |
| |
gpoutfile); |
| |
fputs("if (length($x2m)>0) {print \" $x2m\";} else {print \" \", 0.5*($x2s+$x2e);}\n", |
| |
gpoutfile); |
| |
fputs("if (length($y2m)>0) {print \" $y2m\";} else {print \" \", 0.5*($y2s+$y2e);}\n", |
| |
gpoutfile); |
| |
fputs("print \"\\n\"\n", |
| |
gpoutfile); |
| |
fputs("}\n", |
| |
gpoutfile); |
| |
fputs("};\n", gpoutfile); |
| |
} |
| |
} |
| |
} else { |
| |
fputs("}\n", gpoutfile); |
| |
if (!is_3d_plot) { |
| |
fputs("proc gnuplot_plotarea {} {\n", gpoutfile); |
| |
fprintf(gpoutfile, |
| |
"return {%d %d %d %d}\n", |
| |
xleft, xright, 1000 - ytop, 1000 - ybot); |
| |
fputs("}\n", gpoutfile); |
| |
fputs("proc gnuplot_axisranges {} {\n", gpoutfile); |
| |
fprintf(gpoutfile, |
| |
"return {%f %f %f %f %f %f %f %f}\n", |
| |
min_array[FIRST_X_AXIS], max_array[FIRST_X_AXIS], |
| |
min_array[FIRST_Y_AXIS], max_array[FIRST_Y_AXIS], |
| |
min_array[SECOND_X_AXIS], max_array[SECOND_X_AXIS], |
| |
min_array[SECOND_Y_AXIS], max_array[SECOND_Y_AXIS]); |
| |
fputs("}\n", gpoutfile); |
| |
if (tk_interactive) { |
| |
fputs("proc gnuplot_xy {win x1s y1s x2s y2s x1e y1e x2e y2e x1m y1m x2m y2m} {\n", |
| |
gpoutfile); |
| |
fputs("if {([llength [info commands user_gnuplot_coordinates]])} {\n", |
| |
gpoutfile); |
| |
fputs("set id [$win find withtag current]\n", |
| |
gpoutfile); |
| |
fputs("user_gnuplot_coordinates $win $id $x1s $y1s $x2s $y2s $x1e $y1e $x2e $y2e $x1m $y1m $x2m $y2m\n", |
| |
gpoutfile); |
| |
fputs("} else {\n", gpoutfile); |
| |
fputs("if {[string length $x1m]>0} {puts -nonewline \" $x1m\"} else {puts -nonewline \" [expr 0.5*($x1s+$x1e)]\"}\n", |
| |
gpoutfile); |
| |
fputs("if {[string length $y1m]>0} {puts -nonewline \" $y1m\"} else {puts -nonewline \" [expr 0.5*($y1s+$y1e)]\"}\n", |
| |
gpoutfile); |
| |
fputs("if {[string length $x2m]>0} {puts -nonewline \" $x2m\"} else {puts -nonewline \" [expr 0.5*($x2s+$x2e)]\"}\n", |
| |
gpoutfile); |
| |
fputs("if {[string length $y2m]>0} {puts \" $y2m\"} else {puts \" [expr 0.5*($y2s+$y2e)]\"}\n", |
| |
gpoutfile); |
| |
fputs("}\n", gpoutfile); |
| |
fputs("}\n", gpoutfile); |
| |
} |
| |
} |
| |
} |
| |
fflush(gpoutfile); |
| |
} |
| |
|
| #endif /* TERM_BODY */ |
#endif /* TERM_BODY */ |
| |
|
| #ifdef TERM_TABLE |
#ifdef TERM_TABLE |
| |
|
| TERM_TABLE_START(tkcanvas) |
TERM_TABLE_START(tkcanvas) |
| "tkcanvas", "Tk/Tcl canvas widget", |
"tkcanvas", "Tk/Tcl canvas widget [perltk] [interactive]", |
| TK_XMAX, TK_YMAX, TK_VCHAR, TK_HCHAR, |
TK_XMAX, TK_YMAX, TK_VCHAR, TK_HCHAR, |
| TK_VTIC, TK_HTIC, options_null, TK_init, TK_reset, |
TK_VTIC, TK_HTIC, TK_options, TK_init, TK_reset, |
| TK_text, null_scale, TK_graphics, TK_move, TK_vector, |
TK_text, null_scale, TK_graphics, TK_move, TK_vector, |
| TK_linetype, TK_put_text, null_text_angle, |
TK_linetype, TK_put_text, null_text_angle, |
| null_justify_text, do_point, do_arrow, set_font_null |
TK_justify_text, do_point, do_arrow, TK_set_font, |
| |
NULL, 0, NULL, NULL, NULL, TK_linewidth |
| TERM_TABLE_END(tkcanvas) |
TERM_TABLE_END(tkcanvas) |
| |
|
| #undef LAST_TERM |
#undef LAST_TERM |
| #define LAST_TERM tkcanvas |
#define LAST_TERM tkcanvas |
| |
|
| Line 186 START_HELP(tkcanvas) |
|
| Line 590 START_HELP(tkcanvas) |
|
| "?terminal tkcanvas", |
"?terminal tkcanvas", |
| "?term tkcanvas", |
"?term tkcanvas", |
| "?tkcanvas", |
"?tkcanvas", |
| " This terminal driver generates tk canvas widget commands. To use it, rebuild", |
" This terminal driver generates Tk canvas widget commands based on Tcl/Tk", |
| " `gnuplot` (after uncommenting or inserting the appropriate line in \"term.h\"),", |
" (default) or Perl. To use it, rebuild `gnuplot` (after uncommenting or", |
| " then", |
" inserting the appropriate line in \"term.h\"), then", |
| "", |
"", |
| " gnuplot> set term tkcanvas", |
" gnuplot> set term tkcanvas {perltk} {interactive}", |
| " gnuplot> set output 'plot.file'", |
" gnuplot> set output 'plot.file'", |
| "", |
"", |
| " After invoking \"wish\", execute the following sequence of tcl commands:", |
" After invoking \"wish\", execute the following sequence of Tcl/Tk commands:", |
| "", |
"", |
| " % source plot.file", |
" % source plot.file", |
| " % canvas .c", |
" % canvas .c", |
| " % pack .c", |
" % pack .c", |
| " % gnuplot .c", |
" % gnuplot .c", |
| "", |
"", |
| " The code generated by `gnuplot` creates a tcl procedure called \"gnuplot\"", |
" Or, for Perl/Tk use a program like this:", |
| " that takes the name of a canvas as its argument. When the procedure is,", |
"", |
| |
" use Tk;", |
| |
" my $top = MainWindow->new;", |
| |
" my $c = $top->Canvas;", |
| |
" $c->pack();", |
| |
" do \"plot.pl\";", |
| |
" gnuplot->($c);", |
| |
" MainLoop;", |
| |
"", |
| |
" The code generated by `gnuplot` creates a procedure called \"gnuplot\"", |
| |
" that takes the name of a canvas as its argument. When the procedure is", |
| " called, it clears the canvas, finds the size of the canvas and draws the plot", |
" called, it clears the canvas, finds the size of the canvas and draws the plot", |
| " in it, scaled to fit.", |
" in it, scaled to fit.", |
| |
"", |
| |
" For 2-dimensional plotting (`plot`) two additional procedures are defined:", |
| |
" \"gnuplot_plotarea\" will return a list containing the borders of the plotting", |
| |
" area \"xleft, xright, ytop, ybot\" in canvas screen coordinates, while the ranges", |
| |
" of the two axes \"x1min, x1max, y1min, y1max, x2min, x2max, y2min, y2max\" in plot", |
| |
" coordinates can be obtained calling \"gnuplot_axisranges\".", |
| |
" If the \"interactive\" option is specified, mouse clicking on a line segment", |
| |
" will print the coordinates of its midpoint to stdout. Advanced actions", |
| |
" can happen instead if the user supplies a procedure named", |
| |
" \"user_gnuplot_coordinates\", which takes the following arguments:", |
| |
" \"win id x1s y1s x2s y2s x1e y1e x2e y2e x1m y1m x2m y2m\",", |
| |
" the name of the canvas and the id of the line segment followed by the", |
| |
" coordinates of its start and end point in the two possible axis ranges; the", |
| |
" coordinates of the midpoint are only filled for logarithmic axes.", |
| "", |
"", |
| " The current version of `tkcanvas` supports neither `multiplot` nor `replot`." |
" The current version of `tkcanvas` supports neither `multiplot` nor `replot`." |
| END_HELP(tkcanvas) |
END_HELP(tkcanvas) |
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