freebsd-nq/lib/libforms/fields.c
Jordan K. Hubbard be01ce9346 change hash.h to strhash.h to match new convention.
Manpage for strhash functions to follow tomorrow.
1995-03-26 10:25:00 +00:00

679 lines
15 KiB
C
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*-
* Copyright (c) 1995
* Paul Richards. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer,
* verbatim and that no modifications are made prior to this
* point in the file.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Paul Richards.
* 4. The name Paul Richards may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY PAUL RICHARDS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL PAUL RICHARDS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
*/
#include <strhash.h>
#include <ctype.h>
#include <err.h>
#include <ncurses.h>
#include <forms.h>
#include <string.h>
#include <stdlib.h>
#include "internal.h"
extern hash_table *global_bindings;
struct attr_cmd {
char *name;
int attr;
};
static struct attr_cmd attr_cmds[] = {
{ "standout", 0x00010000},
{ "underline", 0x00020000},
{ "reverse", 0x00040000},
{ "blink", 0x00080000},
{ "bold", 0x00200000 }
};
int done=0;
int
init_field(char *key, void *data, void *arg)
{
struct Tuple *tuple = (struct Tuple *)data;
struct Tuple *def_tuple;
struct Field *def, *field;
int i;
int len, lim;
int strwidth;
field = (struct Field *)tuple->addr;
/* Field definitions are global, at least for now */
def_tuple = form_get_tuple(global_bindings, field->defname, FT_FIELD_DEF);
if (!def_tuple) {
warnx("Field definition not found -- skipping field");
return (-1);
}
def = (struct Field *)def_tuple->addr;
field->height = def->height;
field->width = def->width;
field->attr = def->attr;
field->selattr = def->selattr;
field->type = def->type;
switch (field->type) {
case FF_INPUT:
field->field.input = malloc(sizeof (struct InputField));
if (!field->field.input) {
warnx("Couldn't allocate memory for input field");
return (-1);
}
field->field.input->limit = def->field.input->limit;
/* Force height to one regardless, at least for now :-) */
field->height = 1;
if (!field->width && !field->field.input->limit) {
field->width = calc_string_width(def->field.input->label);
field->field.input->limit = field->width;
} else if (!field->width)
field->width = field->field.input->limit;
else if (!field->field.input->limit)
field->field.input->limit = field->width;
if (field->field.input->limit < field->width)
field->width = field->field.input->limit;
strwidth = strlen(def->field.input->label);
field->field.input->input = malloc(strwidth + 1);
if (!field->field.input->input) {
warnx("Couldn't allocate memory for input field text");
return (-1);
}
field->field.input->label = malloc(strwidth + 1);
if (!field->field.input->label) {
warnx("Couldn't allocate memory for input field label");
return (-1);
}
strncpy(field->field.input->label,
def->field.input->label,
strwidth + 1);
field->field.input->lbl_flag = def->field.input->lbl_flag;
/*
* If it's a label then clear the input string
* otherwise copy the default there.
*/
if (field->field.input->lbl_flag)
field->field.input->input[0] = '\0';
else if (field->field.input->label) {
strncpy(field->field.input->input,
field->field.input->label,
strwidth + 1);
field->field.input->input[strwidth] = 0;
}
break;
case FF_TEXT:
field->field.text = malloc(sizeof (struct TextField));
if (!field->field.text) {
warnx("Couldn't allocate memory for text field");
return (FS_ERROR);
}
strwidth = strlen(def->field.text->text);
if (!field->width)
field->width = calc_string_width(def->field.text->text);
field->field.text->text = malloc(strwidth + 1);
if (!field->field.text->text) {
warnx("Couldn't allocate memory for text field text");
return (FS_ERROR);
} else
strncpy(field->field.text->text,
def->field.text->text,
strwidth + 1);
if (!field->height)
calc_field_height(field, field->field.text->text);
break;
case FF_MENU:
field->field.menu = malloc(sizeof (struct MenuField));
if (!field->field.menu) {
warnx("Couldn't allocate memory for menu field");
return (FS_ERROR);
}
field->field.menu->no_options = 0;
field->height = 1;
lim = 0;
for (i=0; i < def->field.menu->no_options; i++) {
field->field.menu->no_options =
add_menu_option(field->field.menu,
def->field.menu->options[i]);
if (!field->field.menu->no_options) {
warnx("Couldn't add menu option");
return (FS_ERROR);
}
len = calc_string_width(def->field.menu->options[i]);
if (len > lim)
lim = len;
}
if (!field->width)
field->width = lim;
break;
case FF_ACTION:
field->field.action = malloc(sizeof (struct ActionField));
if (!field->field.action) {
warnx("Couldn't allocate memory for action field");
return (FS_ERROR);
}
if (!field->width)
field->width = calc_string_width(def->field.action->text);
strwidth = strlen(def->field.action->text);
field->field.action->text = malloc(strwidth + 1);
if (!field->field.action->text) {
warnx("Couldn't allocate memory for text field text");
return (FS_ERROR);
} else
strncpy(field->field.action->text,
def->field.action->text,
strwidth + 1);
if (!field->height)
calc_field_height(field, field->field.action->text);
field->field.action->fn = def->field.action->fn;
break;
default:
break;
}
return (1);
}
void
display_field(WINDOW *window, struct Field *field)
{
wattrset(window, field->attr);
wmove(window, field->y, field->x);
switch (field->type) {
case FF_TEXT:
display_text(window, field);
break;
case FF_MENU:
display_menu(window, field);
break;
case FF_INPUT:
display_input(window, field);
break;
case FF_ACTION:
display_action(window, field);
break;
case FF_UNKNOWN:
default:
break;
}
wattrset(window, 0);
wrefresh(window);
}
void
display_text(WINDOW *window, struct Field *field)
{
if (print_string(window, field->y, field->x, field->height,
field->width, field->field.text->text) == ERR)
print_status("Illegal scroll in print_string");
}
void
display_input(WINDOW *window, struct Field *field)
{
if (field->field.input->lbl_flag) {
if (print_string(window, field->y, field->x, field->height,
field->width, field->field.input->label) == ERR)
print_status("Illegal scroll in print_string");
} else
if (print_string(window, field->y, field->x, field->height,
field->width, field->field.input->input) == ERR)
print_status("Illegal scroll in print_string");
}
void
display_menu(WINDOW *window, struct Field *field)
{
if (print_string(window, field->y, field->x,
field->height, field->width,
field->field.menu->options[field->field.menu->selected]) == ERR)
print_status("Illegal scroll in print_string");
}
void
display_action(WINDOW *window, struct Field *field)
{
if (print_string(window, field->y, field->x, field->height,
field->width,
field->field.action->text) == ERR)
print_status("Illegal scroll in print_string");
}
int
do_action(struct Form *form)
{
struct Field *field = form->current_field;
struct Tuple *tuple;
int ch;
void (* fn)();
display_action(form->window, field);
wmove(form->window, field->y, field->x);
for (;;) {
ch = wgetch(form->window);
if (ch == FK_ACCEPT) {
tuple = form_get_tuple(form->bindings, field->field.action->fn, FT_FUNC);
if (!tuple) {
print_status("No function bound to action");
beep();
continue;
} else {
fn = tuple->addr;
(*fn)(form);
return (FS_OK);
}
} else
ch = do_key_bind(form, ch);
if (ch == FS_OK)
return (FS_OK);
else if (ch == FS_ERROR)
continue;
}
}
int
do_menu(struct Form *form)
{
struct Field *field = form->current_field;
int ch;
for (;;) {
display_menu(form->window, field);
wmove(form->window, field->y, field->x);
ch = wgetch(form->window);
switch (ch) {
case ' ':
print_status("");
field->field.menu->selected++;
if (field->field.menu->selected >= field->field.menu->no_options)
field->field.menu->selected = 0;
ch = FS_OK;
break;
default:
ch = do_key_bind(form, ch);
break;
}
if (ch == FS_OK)
return (FS_OK);
else if (ch == FS_ERROR) {
beep();
continue;
} else {
print_status("Hit the space bar to toggle through options");
beep();
continue;
}
}
}
int
do_field(struct Form *form)
{
struct Tuple *tuple;
struct Field *field = form->current_field;
void (* fn)();
int status;
/* Do field entry tasks */
if (field->enter) {
tuple = form_get_tuple(form->bindings, field->enter, FT_FUNC);
if (tuple) {
fn = tuple->addr;
(*fn)(form);
}
}
switch (field->type) {
case FF_TEXT:
status = FS_OK;
display_text(form->window, field);
break;
case FF_INPUT:
status = do_input(form);
break;
case FF_MENU:
status = do_menu(form);
break;
case FF_ACTION:
status = do_action(form);
break;
default:
status = FF_UNKNOWN;
beep();
print_status("Unknown field type");
form->current_field = form->prev_field;
break;
}
/* Do field leave tasks */
if (field->leave) {
tuple = form_get_tuple(form->bindings, field->leave, FT_FUNC);
if (tuple) {
fn = tuple->addr;
(*fn)(form);
}
}
return (status);
}
int
parse_attr(WINDOW *window, char *string)
{
int inc = 0;
struct attr_cmd *attr;
if (*(string) == '\\')
return (1);
while (!isspace(*(string + inc))) {
inc++;
}
for (attr = attr_cmds; attr->name; attr++) {
if (strncmp(attr->name, string, inc))
continue;
else {
wattron(window, attr->attr);
break;
}
}
/* Skip trailing space after the attribute string */
while (isspace(*(string + inc)))
inc++;
return (inc);
}
int
print_string(WINDOW *window, int y, int x,
int height, int fwidth, char *string)
{
int len, skip;
int width;
if (!string)
len = -1;
len = strlen(string);
if (wmove(window, y, x) == ERR)
return (ERR);
while (height--) {
width = fwidth;
while (width--) {
if (len-- > 0) {
if (*string == '\\') {
string++;
len--;
skip = parse_attr(window, string);
len -= skip;
string += skip;
}
if (waddch(window, *string++) == ERR)
return (ERR);
} else if (waddch(window, ' ') == ERR)
return (ERR);
}
if (wmove(window, ++y, x) == ERR)
return (ERR);
}
return (OK);
}
void
print_status(char *msg)
{
if (wmove(stdscr, LINES-1, 0) == ERR) {
endwin();
exit(1);
}
wclrtoeol(stdscr);
wstandout(stdscr);
if (wprintw(stdscr, "%s",
msg) == ERR) {
endwin();
exit(1);
}
wstandend(stdscr);
wrefresh(stdscr);
}
int
do_input(struct Form *form)
{
struct Field *field = form->current_field;
int len;
int disp_off=0, abspos=0, cursor = 0;
unsigned int ch;
#define DISPOFF ((len < field->width) ? 0 : len - field->width)
#define CURSPOS ((len < field->width) ? len : field->width)
len = strlen(field->field.input->input);
display_input(form->window, field);
cursor = CURSPOS;
abspos = cursor;
for (;;) {
wmove(form->window, field->y, field->x+cursor);
wrefresh(form->window);
ch = wgetch(form->window);
ch = do_key_bind(form, ch);
/*
* If there was a valid motion command then we've
* moved to a new field so just return. If the motion
* command was invalid then just go around and get another
* keystroke. Otherwise, it was not a motion command.
*/
if (ch == FS_OK)
return (FS_OK);
else if (ch == FS_ERROR)
continue;
print_status("");
if (field->field.input->lbl_flag) {
field->field.input->lbl_flag = 0;
}
if ((ch == FK_CHOME) || (ch == '')) {
disp_off = 0;
cursor = 0;
abspos = 0;
} else if ((ch == FK_CEND) || (ch == '')) {
disp_off = DISPOFF;
abspos = len;
cursor = CURSPOS;
} else if (ch == FK_CDEL) {
if (!(len-abspos))
beep();
else {
bcopy(field->field.input->input+abspos+1,
field->field.input->input+abspos,
len - abspos);
--len;
}
} else if ((ch == FK_CLEFT) || (ch == FK_CBS) || (ch == '')) {
if (!abspos)
beep();
else {
if (ch == FK_CBS) {
bcopy(field->field.input->input+abspos,
field->field.input->input+abspos-1,
len-abspos+1);
--len;
}
--abspos;
--cursor;
if ((disp_off) && (cursor < 0)) {
--disp_off;
++cursor;
}
}
} else if ((ch == FK_CRIGHT) || (ch == '')) {
if (abspos == len)
beep();
else {
++abspos;
if (++cursor >= field->width) {
++disp_off;
--cursor;
}
}
} else if ((isprint(ch)) && (len < field->field.input->limit)){
bcopy(field->field.input->input+abspos,
field->field.input->input+abspos+1, len-abspos+1);
field->field.input->input[abspos++] = ch;
len++;
if (++cursor > field->width) {
++disp_off;
--cursor;
}
} else
beep();
print_string(form->window, field->y, field->x, field->height,
field->width, field->field.input->input+disp_off);
}
}
/*
* Calculate length of printable part of the string,
* stripping out the attribute modifiers.
*/
int
calc_string_width(char *string)
{
int len, width=0;
if (!string)
return (0);
len = strlen(string);
while (len) {
if (*string != '\\') {
width++;
len--;
string++;
continue;
} else {
string++;
len--;
if (*string == '\\') {
string++;
width++;
len--;
continue;
} else {
while (!isspace(*string)) {
string++;
len--;
}
while (isspace(*string)) {
string ++;
len--;
}
}
}
}
return (width);
}
/* Calculate a default height for a field */
void
calc_field_height(struct Field *field, char *string)
{
int len;
len = calc_string_width(string);
if (!field->width) {
/*
* This is a failsafe, this routine shouldn't be called
* with a width of 0, the width should be determined
* first.
*/
field->height = 1;
return;
}
if (len < field->width) {
field->height = 1;
return;
} else
field->height = len / field->width;
if ((field->height*field->width) < len)
field->height++;
return;
}
void
exit_form(struct Form *form)
{
form->status = FS_EXIT;
}
void
cancel_form(struct Form *form)
{
form->status = FS_CANCEL;
}