fltk/src/Fl_Input_.cxx

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//
// "$Id$"
//
// Common input widget routines for the Fast Light Tool Kit (FLTK).
//
// Copyright 1998-2006 by Bill Spitzak and others.
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Library General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Library General Public License for more details.
//
// You should have received a copy of the GNU Library General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
// USA.
//
// Please report all bugs and problems on the following page:
//
// http://www.fltk.org/str.php
//
// This is the base class for Fl_Input. You can use it directly
// if you are one of those people who like to define their own
// set of editing keys. It may also be useful for adding scrollbars
// to the input field.
#include <FL/Fl.H>
#include <FL/Fl_Input_.H>
#include <FL/Fl_Window.H>
#include <FL/fl_draw.H>
#include <FL/fl_ask.H>
#include <math.h>
#include "flstring.h"
#include <stdlib.h>
#include <ctype.h>
#define MAXBUF 1024
extern void fl_draw(const char*, int, float, float);
////////////////////////////////////////////////////////////////
// Copy string p..e to the buffer, replacing characters with ^X and \nnn
// as necessary. Truncate if necessary so the resulting string and
// null terminator fits in a buffer of size n. Return new end pointer.
const char* Fl_Input_::expand(const char* p, char* buf) const {
char* o = buf;
char* e = buf+(MAXBUF-4);
const char* lastspace = p;
char* lastspace_out = o;
int width_to_lastspace = 0;
int word_count = 0;
int word_wrap;
if (input_type()==FL_SECRET_INPUT) {
while (o<e && p < value_+size_) {*o++ = '*'; p++;}
} else while (o<e) {
if (wrap() && (p >= value_+size_ || isspace(*p & 255))) {
word_wrap = w() - Fl::box_dw(box()) - 2;
width_to_lastspace += (int)fl_width(lastspace_out, o-lastspace_out);
if (p > lastspace+1) {
if (word_count && width_to_lastspace > word_wrap) {
p = lastspace; o = lastspace_out; break;
}
word_count++;
}
lastspace = p;
lastspace_out = o;
}
if (p >= value_+size_) break;
int c = *p++ & 255;
if (c < ' ' || c == 127) {
if (c=='\n' && input_type()==FL_MULTILINE_INPUT) {p--; break;}
if (c == '\t' && input_type()==FL_MULTILINE_INPUT) {
for (c = (o-buf)%8; c<8 && o<e; c++) *o++ = ' ';
} else {
*o++ = '^';
*o++ = c ^ 0x40;
}
#ifdef __APPLE__
// In MacRoman, all characters are defined, and non-break-space is 0xca
} else if (c == 0xCA) { // nbsp
*o++ = ' ';
#else
// in ISO 8859-1, undefined characters are rendered as octal
// this is commented out since most X11 seems to use MSWindows Latin-1
//} else if (c >= 128 && c < 0xA0) {
// these codes are not defined in ISO code, so we output the octal code instead
// *o++ = '\\';
// *o++ = ((c>>6)&0x03) + '0';
// *o++ = ((c>>3)&0x07) + '0';
// *o++ = (c&0x07) + '0';
} else if (c == 0xA0) { // nbsp
*o++ = ' ';
#endif
} else {
*o++ = c;
}
}
*o = 0;
return p;
}
// After filling in such a buffer, find the width to e
double Fl_Input_::expandpos(
const char* p, // real string
const char* e, // pointer into real string
const char* buf, // conversion of real string by expand()
int* returnn // return offset into buf here
) const {
int n = 0;
if (input_type()==FL_SECRET_INPUT) n = e-p;
else while (p<e) {
int c = *p++ & 255;
if (c < ' ' || c == 127) {
if (c == '\t' && input_type()==FL_MULTILINE_INPUT) n += 8-(n%8);
else n += 2;
#ifdef __APPLE__
// in MacRoman, all characters are defined
#else
// in Windows Latin-1 all characters are defined
//} else if (c >= 128 && c < 0xA0) {
// these codes are not defined in ISO code, so we output the octal code instead
// n += 4;
#endif
} else {
n++;
}
}
if (returnn) *returnn = n;
return fl_width(buf, n);
}
////////////////////////////////////////////////////////////////
// minimal update:
// Characters from mu_p to end of widget are redrawn.
// If erase_cursor_only, small part at mu_p is redrawn.
// Right now minimal update just keeps unchanged characters from
// being erased, so they don't blink.
void Fl_Input_::minimal_update(int p) {
if (damage() & FL_DAMAGE_ALL) return; // don't waste time if it won't be done
if (damage() & FL_DAMAGE_EXPOSE) {
if (p < mu_p) mu_p = p;
} else {
mu_p = p;
}
damage(FL_DAMAGE_EXPOSE);
erase_cursor_only = 0;
}
void Fl_Input_::minimal_update(int p, int q) {
if (q < p) p = q;
minimal_update(p);
}
////////////////////////////////////////////////////////////////
static double up_down_pos;
static int was_up_down;
void Fl_Input_::setfont() const {
fl_font(textfont(), textsize());
}
void Fl_Input_::drawtext(int X, int Y, int W, int H) {
int do_mu = !(damage()&FL_DAMAGE_ALL);
if (Fl::focus()!=this && !size()) {
if (do_mu) { // we have to erase it if cursor was there
draw_box(box(), X-Fl::box_dx(box()), Y-Fl::box_dy(box()),
W+Fl::box_dw(box()), H+Fl::box_dh(box()), color());
}
return;
}
int selstart, selend;
if (Fl::focus()!=this && /*Fl::selection_owner()!=this &&*/ Fl::pushed()!=this)
selstart = selend = 0;
else if (position() <= mark()) {
selstart = position(); selend = mark();
} else {
selend = position(); selstart = mark();
}
setfont();
const char *p, *e;
char buf[MAXBUF];
// count how many lines and put the last one into the buffer:
// And figure out where the cursor is:
int height = fl_height();
int lines;
int curx, cury;
for (p=value(), curx=cury=lines=0; ;) {
e = expand(p, buf);
if (position() >= p-value() && position() <= e-value()) {
curx = int(expandpos(p, value()+position(), buf, 0)+.5);
if (Fl::focus()==this && !was_up_down) up_down_pos = curx;
cury = lines*height;
int newscroll = xscroll_;
if (curx > newscroll+W-20) {
// figure out scrolling so there is space after the cursor:
newscroll = curx+20-W;
// figure out the furthest left we ever want to scroll:
int ex = int(expandpos(p, e, buf, 0))+2-W;
// use minimum of both amounts:
if (ex < newscroll) newscroll = ex;
} else if (curx < newscroll+20) {
newscroll = curx-20;
}
if (newscroll < 0) newscroll = 0;
if (newscroll != xscroll_) {
xscroll_ = newscroll;
mu_p = 0; erase_cursor_only = 0;
}
}
lines++;
if (e >= value_+size_) break;
p = e+1;
}
// adjust the scrolling:
if (input_type()==FL_MULTILINE_INPUT) {
int newy = yscroll_;
if (cury < newy) newy = cury;
if (cury > newy+H-height) newy = cury-H+height;
if (newy < -1) newy = -1;
if (newy != yscroll_) {yscroll_ = newy; mu_p = 0; erase_cursor_only = 0;}
} else {
yscroll_ = -(H-height)/2;
}
fl_clip(X, Y, W, H);
Fl_Color tc = active_r() ? textcolor() : fl_inactive(textcolor());
p = value();
// visit each line and draw it:
int desc = height-fl_descent();
float xpos = (float)(X - xscroll_ + 1);
int ypos = -yscroll_;
for (; ypos < H;) {
// re-expand line unless it is the last one calculated above:
if (lines>1) e = expand(p, buf);
if (ypos <= -height) goto CONTINUE; // clipped off top
if (do_mu) { // for minimal update:
const char* pp = value()+mu_p; // pointer to where minimal update starts
if (e < pp) goto CONTINUE2; // this line is before the changes
if (readonly()) erase_cursor_only = 0; // this isn't the most efficient way
if (erase_cursor_only && p > pp) goto CONTINUE2; // this line is after
// calculate area to erase:
float r = (float)(X+W);
float xx;
if (p >= pp) {
xx = (float)X;
if (erase_cursor_only) r = xpos+2;
else if (readonly()) xx -= 3;
} else {
xx = xpos + (float)expandpos(p, pp, buf, 0);
if (erase_cursor_only) r = xx+2;
else if (readonly()) xx -= 3;
}
// clip to and erase it:
fl_push_clip((int)xx-1-height/8, Y+ypos, (int)(r-xx+2+height/4), height);
draw_box(box(), X-Fl::box_dx(box()), Y-Fl::box_dy(box()),
W+Fl::box_dw(box()), H+Fl::box_dh(box()), color());
// it now draws entire line over it
// this should not draw letters to left of erased area, but
// that is nyi.
}
// Draw selection area if required:
if (selstart < selend && selstart <= e-value() && selend > p-value()) {
const char* pp = value()+selstart;
float x1 = xpos;
int offset1 = 0;
if (pp > p) {
fl_color(tc);
x1 += (float)expandpos(p, pp, buf, &offset1);
fl_draw(buf, offset1, xpos, (float)(Y+ypos+desc));
}
pp = value()+selend;
float x2 = (float)(X+W);
int offset2;
if (pp <= e) x2 = xpos + (float)expandpos(p, pp, buf, &offset2);
else offset2 = strlen(buf);
fl_color(selection_color());
fl_rectf((int)(x1+0.5), Y+ypos, (int)(x2-x1+0.5), height);
fl_color(fl_contrast(textcolor(), selection_color()));
fl_draw(buf+offset1, offset2-offset1, x1, (float)(Y+ypos+desc));
if (pp < e) {
fl_color(tc);
fl_draw(buf+offset2, strlen(buf+offset2), x2, (float)(Y+ypos+desc));
}
} else {
// draw unselected text
fl_color(tc);
fl_draw(buf, strlen(buf), xpos, (float)(Y+ypos+desc));
}
if (do_mu) fl_pop_clip();
CONTINUE2:
// draw the cursor:
if (Fl::focus() == this && selstart == selend &&
position() >= p-value() && position() <= e-value()) {
fl_color(cursor_color());
if (readonly()) {
fl_line((int)(xpos+curx-2.5f), Y+ypos+height-1,
(int)(xpos+curx+0.5f), Y+ypos+height-4,
(int)(xpos+curx+3.5f), Y+ypos+height-1);
} else {
fl_rectf((int)(xpos+curx+0.5), Y+ypos, 2, height);
}
}
CONTINUE:
ypos += height;
if (e >= value_+size_) break;
if (*e == '\n' || *e == ' ') e++;
p = e;
}
// for minimal update, erase all lines below last one if necessary:
if (input_type()==FL_MULTILINE_INPUT && do_mu && ypos<H
&& (!erase_cursor_only || p <= value()+mu_p)) {
if (ypos < 0) ypos = 0;
fl_push_clip(X, Y+ypos, W, H-ypos);
draw_box(box(), X-Fl::box_dx(box()), Y-Fl::box_dy(box()),
W+Fl::box_dw(box()), H+Fl::box_dh(box()), color());
fl_pop_clip();
}
fl_pop_clip();
}
static int isword(char c) {
return (c&128 || isalnum(c) || strchr("#%&-/@\\_~", c));
}
int Fl_Input_::word_end(int i) const {
if (input_type() == FL_SECRET_INPUT) return size();
//while (i < size() && !isword(index(i))) i++;
while (i < size() && isword(index(i))) i++;
return i;
}
int Fl_Input_::word_start(int i) const {
if (input_type() == FL_SECRET_INPUT) return 0;
// if (i >= size() || !isword(index(i)))
// while (i > 0 && !isword(index(i-1))) i--;
while (i > 0 && isword(index(i-1))) i--;
return i;
}
int Fl_Input_::line_end(int i) const {
if (input_type() != FL_MULTILINE_INPUT) return size();
if (wrap()) {
// go to the start of the paragraph:
int j = i;
while (j > 0 && index(j-1) != '\n') j--;
// now measure lines until we get past i, end of that line is real eol:
setfont();
for (const char* p=value()+j; ;) {
char buf[MAXBUF];
p = expand(p, buf);
if (p-value() >= i) return p-value();
p++;
}
} else {
while (i < size() && index(i) != '\n') i++;
return i;
}
}
int Fl_Input_::line_start(int i) const {
if (input_type() != FL_MULTILINE_INPUT) return 0;
int j = i;
while (j > 0 && index(j-1) != '\n') j--;
if (wrap()) {
// now measure lines until we get past i, start of that line is real eol:
setfont();
for (const char* p=value()+j; ;) {
char buf[MAXBUF];
const char* e = expand(p, buf);
if (e-value() >= i) return p-value();
p = e+1;
}
} else return j;
}
void Fl_Input_::handle_mouse(int X, int Y, int /*W*/, int /*H*/, int drag) {
was_up_down = 0;
if (!size()) return;
setfont();
const char *p, *e;
char buf[MAXBUF];
int theline = (input_type()==FL_MULTILINE_INPUT) ?
(Fl::event_y()-Y+yscroll_)/fl_height() : 0;
int newpos = 0;
for (p=value();; ) {
e = expand(p, buf);
theline--; if (theline < 0) break;
if (e >= value_+size_) break;
p = e+1;
}
const char *l, *r, *t; double f0 = Fl::event_x()-X+xscroll_;
for (l = p, r = e; l<r; ) {
double f;
t = l+(r-l+1)/2;
f = X-xscroll_+expandpos(p, t, buf, 0);
if (f <= Fl::event_x()) {l = t; f0 = Fl::event_x()-f;}
else r = t-1;
}
if (l < e) { // see if closer to character on right:
double f1 = X-xscroll_+expandpos(p, l+1, buf, 0)-Fl::event_x();
if (f1 < f0) l = l+1;
}
newpos = l-value();
int newmark = drag ? mark() : newpos;
if (Fl::event_clicks()) {
if (newpos >= newmark) {
if (newpos == newmark) {
if (newpos < size()) newpos++;
else newmark--;
}
if (Fl::event_clicks() > 1) {
newpos = line_end(newpos);
newmark = line_start(newmark);
} else {
newpos = word_end(newpos);
newmark = word_start(newmark);
}
} else {
if (Fl::event_clicks() > 1) {
newpos = line_start(newpos);
newmark = line_end(newmark);
} else {
newpos = word_start(newpos);
newmark = word_end(newmark);
}
}
// if the multiple click does not increase the selection, revert
// to single-click behavior:
if (!drag && (mark() > position() ?
(newmark >= position() && newpos <= mark()) :
(newmark >= mark() && newpos <= position()))) {
Fl::event_clicks(0);
newmark = newpos = l-value();
}
}
position(newpos, newmark);
}
int Fl_Input_::position(int p, int m) {
was_up_down = 0;
if (p<0) p = 0;
if (p>size()) p = size();
if (m<0) m = 0;
if (m>size()) m = size();
if (p == position_ && m == mark_) return 0;
//if (Fl::selection_owner() == this) Fl::selection_owner(0);
if (p != m) {
if (p != position_) minimal_update(position_, p);
if (m != mark_) minimal_update(mark_, m);
} else {
// new position is a cursor
if (position_ == mark_) {
// old position was just a cursor
if (Fl::focus() == this && !(damage()&FL_DAMAGE_EXPOSE)) {
minimal_update(position_); erase_cursor_only = 1;
}
} else { // old position was a selection
minimal_update(position_, mark_);
}
}
position_ = p;
mark_ = m;
return 1;
}
int Fl_Input_::up_down_position(int i, int keepmark) {
// unlike before, i must be at the start of the line already!
setfont();
char buf[MAXBUF];
const char* p = value()+i;
const char* e = expand(p, buf);
const char *l, *r, *t;
for (l = p, r = e; l<r; ) {
t = l+(r-l+1)/2;
int f = (int)expandpos(p, t, buf, 0);
if (f <= up_down_pos) l = t; else r = t-1;
}
int j = l-value();
j = position(j, keepmark ? mark_ : j);
was_up_down = 1;
return j;
}
int Fl_Input_::copy(int clipboard) {
int b = position();
int e = mark();
if (b != e) {
if (b > e) {b = mark(); e = position();}
if (input_type() == FL_SECRET_INPUT) e = b;
Fl::copy(value()+b, e-b, clipboard);
return 1;
}
return 0;
}
#define MAXFLOATSIZE 40
static char* undobuffer;
static int undobufferlength;
static Fl_Input_* undowidget;
static int undoat; // points after insertion
static int undocut; // number of characters deleted there
static int undoinsert; // number of characters inserted
static int yankcut; // length of valid contents of buffer, even if undocut=0
static void undobuffersize(int n) {
if (n > undobufferlength) {
if (undobuffer) {
do {undobufferlength *= 2;} while (undobufferlength < n);
undobuffer = (char*)realloc(undobuffer, undobufferlength);
} else {
undobufferlength = n+9;
undobuffer = (char*)malloc(undobufferlength);
}
}
}
// all changes go through here, delete characters b-e and insert text:
int Fl_Input_::replace(int b, int e, const char* text, int ilen) {
was_up_down = 0;
if (b<0) b = 0;
if (e<0) e = 0;
if (b>size_) b = size_;
if (e>size_) e = size_;
if (e<b) {int t=b; b=e; e=t;}
if (text && !ilen) ilen = strlen(text);
if (e<=b && !ilen) return 0; // don't clobber undo for a null operation
if (size_+ilen-(e-b) > maximum_size_) {
ilen = maximum_size_-size_+(e-b);
if (ilen < 0) ilen = 0;
}
put_in_buffer(size_+ilen);
if (e>b) {
if (undowidget == this && b == undoat) {
undobuffersize(undocut+(e-b));
memcpy(undobuffer+undocut, value_+b, e-b);
undocut += e-b;
} else if (undowidget == this && e == undoat && !undoinsert) {
undobuffersize(undocut+(e-b));
memmove(undobuffer+(e-b), undobuffer, undocut);
memcpy(undobuffer, value_+b, e-b);
undocut += e-b;
} else if (undowidget == this && e == undoat && (e-b)<undoinsert) {
undoinsert -= e-b;
} else {
undobuffersize(e-b);
memcpy(undobuffer, value_+b, e-b);
undocut = e-b;
undoinsert = 0;
}
memmove(buffer+b, buffer+e, size_-e+1);
size_ -= e-b;
undowidget = this;
undoat = b;
if (input_type() == FL_SECRET_INPUT) yankcut = 0; else yankcut = undocut;
}
if (ilen) {
if (undowidget == this && b == undoat)
undoinsert += ilen;
else {
undocut = 0;
undoinsert = ilen;
}
memmove(buffer+b+ilen, buffer+b, size_-b+1);
memcpy(buffer+b, text, ilen);
size_ += ilen;
}
undowidget = this;
undoat = b+ilen;
// Insertions into the word at the end of the line will cause it to
// wrap to the next line, so we must indicate that the changes may start
// right after the whitespace before the current word. This will
// result in sub-optimal update when such wrapping does not happen
// but it is too hard to figure out for now...
if (wrap()) {
// if there is a space in the pasted text, the whole line may have rewrapped
int i;
for (i=0; i<ilen; i++)
if (text[i]==' ') break;
if (i==ilen)
while (b > 0 && !isspace(index(b) & 255) && index(b)!='\n') b--;
else
while (b > 0 && index(b)!='\n') b--;
}
// make sure we redraw the old selection or cursor:
if (mark_ < b) b = mark_;
if (position_ < b) b = position_;
minimal_update(b);
mark_ = position_ = undoat;
set_changed();
if (when()&FL_WHEN_CHANGED) do_callback();
return 1;
}
int Fl_Input_::undo() {
was_up_down = 0;
if (undowidget != this || !undocut && !undoinsert) return 0;
int ilen = undocut;
int xlen = undoinsert;
int b = undoat-xlen;
int b1 = b;
put_in_buffer(size_+ilen);
if (ilen) {
memmove(buffer+b+ilen, buffer+b, size_-b+1);
memcpy(buffer+b, undobuffer, ilen);
size_ += ilen;
b += ilen;
}
if (xlen) {
undobuffersize(xlen);
memcpy(undobuffer, buffer+b, xlen);
memmove(buffer+b, buffer+b+xlen, size_-xlen-b+1);
size_ -= xlen;
}
undocut = xlen;
if (xlen) yankcut = xlen;
undoinsert = ilen;
undoat = b;
mark_ = b /* -ilen */;
position_ = b;
if (wrap())
while (b1 > 0 && index(b1)!='\n') b1--;
minimal_update(b1);
set_changed();
if (when()&FL_WHEN_CHANGED) do_callback();
return 1;
}
int Fl_Input_::copy_cuts() {
// put the yank buffer into the X clipboard
if (!yankcut || input_type()==FL_SECRET_INPUT) return 0;
Fl::copy(undobuffer, yankcut, 1);
return 1;
}
void Fl_Input_::maybe_do_callback() {
if (changed() || (when()&FL_WHEN_NOT_CHANGED)) {
do_callback();
}
}
int Fl_Input_::handletext(int event, int X, int Y, int W, int H) {
switch (event) {
case FL_ENTER:
case FL_MOVE:
if (active_r() && window()) window()->cursor(FL_CURSOR_INSERT);
return 1;
case FL_LEAVE:
if (active_r() && window()) window()->cursor(FL_CURSOR_DEFAULT);
return 1;
case FL_FOCUS:
if (mark_ == position_) {
minimal_update(size()+1);
} else //if (Fl::selection_owner() != this)
minimal_update(mark_, position_);
return 1;
case FL_UNFOCUS:
if (active_r() && window()) window()->cursor(FL_CURSOR_DEFAULT);
if (mark_ == position_) {
if (!(damage()&FL_DAMAGE_EXPOSE)) {minimal_update(position_); erase_cursor_only = 1;}
} else //if (Fl::selection_owner() != this)
minimal_update(mark_, position_);
case FL_HIDE:
if (when() & FL_WHEN_RELEASE) maybe_do_callback();
return 1;
case FL_PUSH:
if (active_r() && window()) window()->cursor(FL_CURSOR_INSERT);
handle_mouse(X, Y, W, H, Fl::event_state(FL_SHIFT));
if (Fl::focus() != this) {
Fl::focus(this);
handle(FL_FOCUS);
}
return 1;
case FL_DRAG:
handle_mouse(X, Y, W, H, 1);
return 1;
case FL_RELEASE:
copy(0);
return 1;
case FL_PASTE: {
// Don't allow pastes into readonly widgets...
if (readonly()) {
fl_beep(FL_BEEP_ERROR);
return 1;
}
// See if we have anything to paste...
if (!Fl::event_text() || !Fl::event_length()) return 1;
// strip trailing control characters and spaces before pasting:
const char* t = Fl::event_text();
const char* e = t+Fl::event_length();
if (input_type() != FL_MULTILINE_INPUT) while (e > t && isspace(*(e-1) & 255)) e--;
if (!t || e <= t) return 1; // Int/float stuff will crash without this test
if (input_type() == FL_INT_INPUT) {
while (isspace(*t & 255) && t < e) t ++;
const char *p = t;
if (*p == '+' || *p == '-') p ++;
if (strncmp(p, "0x", 2) == 0) {
p += 2;
while (isxdigit(*p & 255) && p < e) p ++;
} else {
while (isdigit(*p & 255) && p < e) p ++;
}
if (p < e) {
fl_beep(FL_BEEP_ERROR);
return 1;
} else return replace(0, size(), t, e - t);
} else if (input_type() == FL_FLOAT_INPUT) {
while (isspace(*t & 255) && t < e) t ++;
const char *p = t;
if (*p == '+' || *p == '-') p ++;
while (isdigit(*p & 255) && p < e) p ++;
if (*p == '.') {
p ++;
while (isdigit(*p & 255) && p < e) p ++;
if (*p == 'e' || *p == 'E') {
p ++;
if (*p == '+' || *p == '-') p ++;
while (isdigit(*p & 255) && p < e) p ++;
}
}
if (p < e) {
fl_beep(FL_BEEP_ERROR);
return 1;
} else return replace(0, size(), t, e - t);
}
return replace(position(), mark(), t, e-t);}
default:
return 0;
}
}
/*------------------------------*/
Fl_Input_::Fl_Input_(int X, int Y, int W, int H, const char* l)
: Fl_Widget(X, Y, W, H, l) {
box(FL_DOWN_BOX);
color(FL_BACKGROUND2_COLOR, FL_SELECTION_COLOR);
align(FL_ALIGN_LEFT);
textsize_ = (uchar)FL_NORMAL_SIZE;
textfont_ = FL_HELVETICA;
textcolor_ = FL_FOREGROUND_COLOR;
cursor_color_ = FL_FOREGROUND_COLOR; // was FL_BLUE
mark_ = position_ = size_ = 0;
bufsize = 0;
buffer = 0;
value_ = "";
xscroll_ = yscroll_ = 0;
maximum_size_ = 32767;
}
void Fl_Input_::put_in_buffer(int len) {
if (value_ == buffer && bufsize > len) {
buffer[size_] = 0;
return;
}
if (!bufsize) {
if (len > size_) len += 9; // let a few characters insert before realloc
bufsize = len+1;
buffer = (char*)malloc(bufsize);
} else if (bufsize <= len) {
// we may need to move old value in case it points into buffer:
int moveit = (value_ >= buffer && value_ < buffer+bufsize);
// enlarge current buffer
if (len > size_) {
do {bufsize *= 2;} while (bufsize <= len);
} else {
bufsize = len+1;
}
// Note: the following code is equivalent to:
//
// if (moveit) value_ = value_ - buffer;
// char* nbuffer = (char*)realloc(buffer, bufsize);
// if (moveit) value_ = value_ + nbuffer;
// buffer = nbuffer;
//
// We just optimized the pointer arithmetic for value_...
//
char* nbuffer = (char*)realloc(buffer, bufsize);
if (moveit) value_ += (nbuffer-buffer);
buffer = nbuffer;
}
memmove(buffer, value_, size_); buffer[size_] = 0;
value_ = buffer;
}
int Fl_Input_::static_value(const char* str, int len) {
clear_changed();
if (undowidget == this) undowidget = 0;
if (str == value_ && len == size_) return 0;
if (len) { // non-empty new value:
if (xscroll_ || yscroll_) {
xscroll_ = yscroll_ = 0;
minimal_update(0);
} else {
int i = 0;
// find first different character:
if (value_) {
for (; i<size_ && i<len && str[i]==value_[i]; i++);
if (i==size_ && i==len) return 0;
}
minimal_update(i);
}
value_ = str;
size_ = len;
} else { // empty new value:
if (!size_) return 0; // both old and new are empty.
size_ = 0;
value_ = "";
xscroll_ = yscroll_ = 0;
minimal_update(0);
}
position(readonly() ? 0 : size());
return 1;
}
int Fl_Input_::static_value(const char* str) {
return static_value(str, str ? strlen(str) : 0);
}
int Fl_Input_::value(const char* str, int len) {
int r = static_value(str, len);
if (len) put_in_buffer(len);
return r;
}
int Fl_Input_::value(const char* str) {
return value(str, str ? strlen(str) : 0);
}
void Fl_Input_::resize(int X, int Y, int W, int H) {
if (W != w()) xscroll_ = 0;
if (H != h()) yscroll_ = 0;
Fl_Widget::resize(X, Y, W, H);
}
Fl_Input_::~Fl_Input_() {
if (undowidget == this) undowidget = 0;
if (bufsize) free((void*)buffer);
}
//
// End of "$Id$".
//