xenocara/app/xlockmore/modes/rotor.c
2006-11-26 11:07:42 +00:00

397 lines
10 KiB
C

/* -*- Mode: C; tab-width: 4 -*- */
/* rotor --- a swirly rotor */
#if !defined( lint ) && !defined( SABER )
static const char sccsid[] = "@(#)rotor.c 5.00 2000/11/01 xlockmore";
#endif
/*-
* Copyright (c) 1991 by Patrick J. Naughton.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both that copyright notice and this permission notice appear in
* supporting documentation.
*
* This file is provided AS IS with no warranties of any kind. The author
* shall have no liability with respect to the infringement of copyrights,
* trade secrets or any patents by this file or any part thereof. In no
* event will the author be liable for any lost revenue or profits or
* other special, indirect and consequential damages.
*
* Revision History:
* 01-Nov-2000: Allocation checks
* 10-May-1997: Compatible with xscreensaver
* 08-Mar-1995: CAT stuff for ## was tripping up some C compilers. Removed.
* 01-Dec-1993: added patch for AIXV3 from Tom McConnell
* <tmcconne@sedona.intel.com>
* 11-Nov-1990: put into xlock by Steve Zellers <zellers@sun.com>
* 16-Oct-1990: Received from Tom Lawrence (tcl@cs.brown.edu: 'flight'
* simulator)
*/
#ifdef STANDALONE
#define MODE_rotor
#define PROGCLASS "Rotor"
#define HACK_INIT init_rotor
#define HACK_DRAW draw_rotor
#define rotor_opts xlockmore_opts
#define DEFAULTS "*delay: 100 \n" \
"*count: 4 \n" \
"*cycles: 100 \n" \
"*size: -6 \n" \
"*ncolors: 200 \n"
#define SMOOTH_COLORS
#include "xlockmore.h" /* in xscreensaver distribution */
#else /* STANDALONE */
#include "xlock.h" /* in xlockmore distribution */
#endif /* STANDALONE */
#ifdef MODE_rotor
ModeSpecOpt rotor_opts =
{0, (XrmOptionDescRec *) NULL, 0, (argtype *) NULL, (OptionStruct *) NULL};
#ifdef USE_MODULES
ModStruct rotor_description =
{"rotor", "init_rotor", "draw_rotor", "release_rotor",
"refresh_rotor", "init_rotor", (char *) NULL, &rotor_opts,
100, 4, 100, -6, 64, 0.3, "",
"Shows Tom's Roto-Rooter", 0, NULL};
#endif
/*-
* A 'batchcount' of 3 or 4 works best!
*/
#define MAXANGLE 3000.0 /* irrectangular (was 10000.0) */
/* How many segments to draw per cycle when redrawing */
#define REDRAWSTEP 3
typedef struct {
float angle;
float radius;
float start_radius;
float end_radius;
float radius_drift_max;
float radius_drift_now;
float ratio;
float start_ratio;
float end_ratio;
float ratio_drift_max;
float ratio_drift_now;
} elem;
typedef struct {
int pix;
int lastx, lasty;
int num, rotor, prev;
int nsave;
float angle;
int centerx, centery;
int prevcenterx, prevcentery;
unsigned char firsttime;
unsigned char iconifiedscreen; /* for iconified view */
unsigned char forward;
unsigned char unused;
elem *elements;
XPoint *save;
int redrawing, redrawpos;
int linewidth;
} rotorstruct;
static rotorstruct *rotors = (rotorstruct *) NULL;
static void
free_rotor(rotorstruct *rp)
{
if (rp->elements != NULL) {
free(rp->elements);
rp->elements = (elem *) NULL;
}
if (rp->save != NULL) {
free(rp->save);
rp->save = (XPoint *) NULL;
}
}
void
init_rotor(ModeInfo * mi)
{
int x;
elem *pelem;
unsigned char wasiconified;
rotorstruct *rp;
if (rotors == NULL) {
if ((rotors = (rotorstruct *) calloc(MI_NUM_SCREENS(mi),
sizeof (rotorstruct))) == NULL)
return;
}
rp = &rotors[MI_SCREEN(mi)];
rp->prevcenterx = rp->centerx;
rp->prevcentery = rp->centery;
rp->centerx = MI_WIDTH(mi) / 2;
rp->centery = MI_HEIGHT(mi) / 2;
rp->redrawing = 0;
/*
* sometimes, you go into iconified view, only to see a really whizzy pattern
* that you would like to look more closely at. Normally, clicking in the
* icon reinitializes everything - but I don't, cuz I'm that kind of guy.
* HENCE, the wasiconified stuff you see here.
*/
wasiconified = rp->iconifiedscreen;
rp->iconifiedscreen = MI_IS_ICONIC(mi);
if (wasiconified && !rp->iconifiedscreen)
rp->firsttime = True;
else {
/* This is a fudge is needed since prevcenter may not be set when it comes
from the the random mode and return is pressed (and its not the first
mode that was running). This assumes that the size of the lock screen
window / size of the icon window = 12 */
if (!rp->prevcenterx)
rp->prevcenterx = rp->centerx * 12;
if (!rp->prevcentery)
rp->prevcentery = rp->centery * 12;
rp->num = MI_COUNT(mi);
if (rp->num < 0) {
rp->num = NRAND(-rp->num) + 1;
if (rp->elements != NULL) {
free(rp->elements);
rp->elements = (elem *) NULL;
}
}
if (rp->elements == NULL)
if ((rp->elements = (elem *) calloc(rp->num,
sizeof (elem))) == NULL) {
free_rotor(rp);
return;
}
rp->nsave = MI_CYCLES(mi);
if (rp->nsave <= 1)
rp->nsave = 2;
if (rp->save == NULL)
if ((rp->save = (XPoint *) malloc(rp->nsave *
sizeof (XPoint))) == NULL) {
free_rotor(rp);
return;
}
for (x = 0; x < rp->nsave; x++) {
rp->save[x].x = rp->centerx;
rp->save[x].y = rp->centery;
}
pelem = rp->elements;
for (x = rp->num; --x >= 0; pelem++) {
pelem->radius_drift_max = 1.0;
pelem->radius_drift_now = 1.0;
pelem->end_radius = 100.0;
pelem->ratio_drift_max = 1.0;
pelem->ratio_drift_now = 1.0;
pelem->end_ratio = 10.0;
}
if (MI_NPIXELS(mi) > 2)
rp->pix = NRAND(MI_NPIXELS(mi));
rp->rotor = 0;
rp->prev = 1;
rp->lastx = rp->centerx;
rp->lasty = rp->centery;
rp->angle = (float) NRAND((long) MAXANGLE) / 3.0;
rp->forward = rp->firsttime = True;
}
rp->linewidth = MI_SIZE(mi);
if (rp->linewidth == 0)
rp->linewidth = 1;
if (rp->linewidth < 0)
rp->linewidth = NRAND(-rp->linewidth) + 1;
MI_CLEARWINDOW(mi);
}
void
draw_rotor(ModeInfo * mi)
{
Display *display = MI_DISPLAY(mi);
GC gc = MI_GC(mi);
register elem *pelem;
int thisx, thisy;
int i;
int x_1, y_1, x_2, y_2;
rotorstruct *rp;
if (rotors == NULL)
return;
rp = &rotors[MI_SCREEN(mi)];
if (rp->elements == NULL)
return;
MI_IS_DRAWN(mi) = True;
if (!rp->iconifiedscreen) {
thisx = rp->centerx;
thisy = rp->centery;
} else {
thisx = rp->prevcenterx;
thisy = rp->prevcentery;
}
XSetLineAttributes(MI_DISPLAY(mi), MI_GC(mi), rp->linewidth,
LineSolid, CapButt, JoinMiter);
for (i = rp->num, pelem = rp->elements; --i >= 0; pelem++) {
if (pelem->radius_drift_max <= pelem->radius_drift_now) {
pelem->start_radius = pelem->end_radius;
pelem->end_radius = (float) NRAND(40000) / 100.0 - 200.0;
pelem->radius_drift_max = (float) NRAND(100000) + 10000.0;
pelem->radius_drift_now = 0.0;
}
if (pelem->ratio_drift_max <= pelem->ratio_drift_now) {
pelem->start_ratio = pelem->end_ratio;
pelem->end_ratio = (float) NRAND(2000) / 100.0 - 10.0;
pelem->ratio_drift_max = (float) NRAND(100000) + 10000.0;
pelem->ratio_drift_now = 0.0;
}
pelem->ratio = pelem->start_ratio +
(pelem->end_ratio - pelem->start_ratio) /
pelem->ratio_drift_max * pelem->ratio_drift_now;
pelem->angle = rp->angle * pelem->ratio;
pelem->radius = pelem->start_radius +
(pelem->end_radius - pelem->start_radius) /
pelem->radius_drift_max * pelem->radius_drift_now;
thisx += (int) (COSF(pelem->angle) * pelem->radius);
thisy += (int) (SINF(pelem->angle) * pelem->radius);
pelem->ratio_drift_now += 1.0;
pelem->radius_drift_now += 1.0;
}
if (rp->firsttime)
rp->firsttime = False;
else {
XSetForeground(display, gc, MI_BLACK_PIXEL(mi));
x_1 = (int) rp->save[rp->rotor].x;
y_1 = (int) rp->save[rp->rotor].y;
x_2 = (int) rp->save[rp->prev].x;
y_2 = (int) rp->save[rp->prev].y;
if (rp->iconifiedscreen) {
x_1 = x_1 * rp->centerx / rp->prevcenterx;
x_2 = x_2 * rp->centerx / rp->prevcenterx;
y_1 = y_1 * rp->centery / rp->prevcentery;
y_2 = y_2 * rp->centery / rp->prevcentery;
}
XDrawLine(display, MI_WINDOW(mi), gc, x_1, y_1, x_2, y_2);
if (MI_NPIXELS(mi) > 2) {
XSetForeground(display, gc, MI_PIXEL(mi, rp->pix));
if (++rp->pix >= MI_NPIXELS(mi))
rp->pix = 0;
} else
XSetForeground(display, gc, MI_WHITE_PIXEL(mi));
x_1 = rp->lastx;
y_1 = rp->lasty;
x_2 = thisx;
y_2 = thisy;
if (rp->iconifiedscreen) {
x_1 = x_1 * rp->centerx / rp->prevcenterx;
x_2 = x_2 * rp->centerx / rp->prevcenterx;
y_1 = y_1 * rp->centery / rp->prevcentery;
y_2 = y_2 * rp->centery / rp->prevcentery;
}
XDrawLine(display, MI_WINDOW(mi), gc, x_1, y_1, x_2, y_2);
}
rp->save[rp->rotor].x = rp->lastx = thisx;
rp->save[rp->rotor].y = rp->lasty = thisy;
++rp->rotor;
rp->rotor %= rp->nsave;
++rp->prev;
rp->prev %= rp->nsave;
if (rp->forward) {
rp->angle += 0.01;
if (rp->angle >= MAXANGLE) {
rp->angle = MAXANGLE;
rp->forward = False;
}
} else {
rp->angle -= 0.1;
if (rp->angle <= 0) {
rp->angle = 0.0;
rp->forward = True;
}
}
if (rp->redrawing) {
int j;
for (i = 0; i < REDRAWSTEP; i++) {
j = (rp->rotor - rp->redrawpos + rp->nsave) % rp->nsave;
x_1 = (int) rp->save[j].x;
y_1 = (int) rp->save[j].y;
x_2 = (int) rp->save[(j - 1 + rp->nsave) % rp->nsave].x;
y_2 = (int) rp->save[(j - 1 + rp->nsave) % rp->nsave].y;
if (rp->iconifiedscreen) {
x_1 = x_1 * rp->centerx / rp->prevcenterx;
x_2 = x_2 * rp->centerx / rp->prevcenterx;
y_1 = y_1 * rp->centery / rp->prevcentery;
y_2 = y_2 * rp->centery / rp->prevcentery;
}
XDrawLine(display, MI_WINDOW(mi), gc, x_1, y_1, x_2, y_2);
if (++(rp->redrawpos) >= rp->nsave) {
rp->redrawing = 0;
break;
}
}
}
XSetLineAttributes(MI_DISPLAY(mi), MI_GC(mi), 1,
LineSolid, CapButt, JoinMiter);
}
void
release_rotor(ModeInfo * mi)
{
if (rotors != NULL) {
int screen;
for (screen = 0; screen < MI_NUM_SCREENS(mi); screen++)
free_rotor(&rotors[screen]);
free(rotors);
rotors = (rotorstruct *) NULL;
}
}
void
refresh_rotor(ModeInfo * mi)
{
rotorstruct *rp;
if (rotors == NULL)
return;
rp = &rotors[MI_SCREEN(mi)];
MI_CLEARWINDOW(mi);
rp->redrawing = 1;
rp->redrawpos = 1;
}
#endif /* MODE_rotor */