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ARES-SDK/ARES/hardware/controller/aegis-screen.lsl

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/* =========================================================================
*
* Nanite Systems Advanced Research Encapsulation System
*
* Copyright (c) 20222024 Nanite Systems Corporation
*
* =========================================================================
*
* NS-476 Aegis Hardware Driver
*
* This program is covered under the terms of the ARES Software Copyright
* License, Section 3 (ASCL-iii). It may be redistributed or used as the
* basis of commercial, closed-source products so long as steps are taken
* to ensure proper attribution as defined in the text of the license.
*
* To see the full text of the ASCL, type 'help license' on any standard
* ARES distribution, or visit http://nanite-systems.com/ASCL for the
* current version.
*
* DISCLAIMER
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS '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 THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY
* DAMAGES HOWEVER CAUSED ON ANY THEORY OF LIABILITY ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*
* =========================================================================
*
*/
#include <utils.lsl>
#include <objects.lsl>
vector base_c = <0, 0.5, 1>;
vector c4 = <0, 0.75, 1>;
#define SCREEN 7
// #define SCREEN_2 8
// #define SCREEN_3 9
#define SCREEN_CONE 8
#define TEXT_START 9
#define TEXT_COUNT 66
integer screen_open = FALSE;
#define X_STEP (1.0/15.0)
#define Y_STEP (1.0/52.0)
#define X_BIAS -2.5
#define Y_BIAS -5.0
#define projection_magnitude 0.5
key system;
integer CL;
screen_control(integer open) {
list acts;
if(open) {
if(power_on && !door_open)
operate_door();
vector scale = <0, 5 * X_STEP, 3 * X_STEP>;
integer pn = TEXT_START;
vector screen_origin = <0, 0.625, 0.0>;
acts += [
PRIM_LINK_TARGET, SCREEN,
PRIM_SIZE, <projection_magnitude * 0.5, projection_magnitude, projection_magnitude> * 1.05,
PRIM_POS_LOCAL, screen_origin,
/*PRIM_LINK_TARGET, SCREEN_2,
PRIM_SIZE, <0.24, 0.06, 0.06>,
PRIM_POS_LOCAL, screen_origin + <-0.05, 0, 0.18>,
PRIM_LINK_TARGET, SCREEN_3,
PRIM_SIZE, <0.24, 0.06, 0.06>,
PRIM_POS_LOCAL, screen_origin + <-0.05, 0, -0.18>, */
PRIM_LINK_TARGET, SCREEN_CONE,
PRIM_SIZE, <projection_magnitude * 0.5, projection_magnitude, projection_magnitude> * 1.05,
PRIM_POS_LOCAL, screen_origin + <0, 0, -0.001>,
PRIM_COLOR, ALL_SIDES, base_c, 0.05,
PRIM_LINK_TARGET, 1,
PRIM_COLOR, 1, base_c, 1,
PRIM_FULLBRIGHT, 1, TRUE,
PRIM_GLOW, 1, 0.2
];
rotation post_R = llEuler2Rot(<PI_BY_TWO, PI, 0>);
while(pn < TEXT_START + TEXT_COUNT) {
integer tx = (pn - TEXT_START) % 6;
integer ty = (pn - TEXT_START) / 6;
float x = (float)tx + X_BIAS;
float dy = 10 - ty;
float secondary_scale = 1.0;
if(dy == 9) {
dy = 9.25;
secondary_scale = 1;
} else if(dy == 0) {
dy = -0.25;
secondary_scale = 1;
} else if(dy == 10) {
dy = 10.5;
secondary_scale = 1;
}
float y = (float)(dy) + Y_BIAS;
rotation R = llEuler2Rot(<0, 0.17075 * -x * PI_BY_TWO, 0>);
acts += [
PRIM_LINK_TARGET, pn,
// PRIM_DESC, "T" + (string)ty + "," + (string)tx,
PRIM_SIZE, scale * secondary_scale,
PRIM_POS_LOCAL, (<0, y * Y_STEP, 0.025 * secondary_scale * secondary_scale> * secondary_scale - <0, 0, projection_magnitude * 0.55>) * R * post_R + screen_origin,
PRIM_ALPHA_MODE, ALL_SIDES, PRIM_ALPHA_MODE_MASK, 128,
// PRIM_ALPHA_MODE, ALL_SIDES, PRIM_ALPHA_MODE_BLEND, 128,
PRIM_ROT_LOCAL, llEuler2Rot(<-PI_BY_TWO, 0, PI_BY_TWO>) * R * post_R
//,
//PRIM_COLOR, ALL_SIDES, ONES, 1
];
++pn;
if(llGetFreeMemory() < 256) {
setp(0, acts);
acts = [];
}
}
setp(0, acts);
} else {
integer pn = TEXT_START;
vector screen_origin = <0, 0, 0.25>;
acts += [
PRIM_LINK_TARGET, SCREEN,
PRIM_SIZE, ZV,
PRIM_POS_LOCAL, ZV,
/*PRIM_LINK_TARGET, SCREEN_2,
PRIM_SIZE, ZV,
PRIM_POS_LOCAL, ZV,
PRIM_LINK_TARGET, SCREEN_3,
PRIM_SIZE, ZV,
PRIM_POS_LOCAL, ZV,*/
PRIM_LINK_TARGET, SCREEN_CONE,
PRIM_SIZE, ZV,
PRIM_POS_LOCAL, ZV,
PRIM_LINK_TARGET, 1,
PRIM_COLOR, 1, ZV, 1,
PRIM_FULLBRIGHT, 1, FALSE,
PRIM_GLOW, 1, 0
];
while(pn < TEXT_START + TEXT_COUNT) {
integer tx = (pn - TEXT_START) % 6;
integer ty = (pn - TEXT_START) / 6;
float x = (float)tx - 2.5;
float dy = 10 - ty;
if(dy == 9)
dy = 9.25;
else if(dy == 0)
dy = -0.25;
else if(dy == 10)
dy = 10.5;
float y = (float)(dy) - 5.5;
acts += [
PRIM_LINK_TARGET, pn,
// PRIM_DESC, "T" + (string)ty + "," + (string)tx,
PRIM_SIZE, ZV,
PRIM_POS_LOCAL, ZV
// PRIM_ROT_LOCAL, ZR,
// PRIM_COLOR, ALL_SIDES, ONES, 1
];
++pn;
if(llGetFreeMemory() < 256) {
setp(0, acts);
acts = [];
}
}
setp(0, acts);
if(door_open)
operate_door();
}
screen_open = open;
// echo("screen now " + (string)open);
}
integer power_on;
#define DOOR_MOVE_SOUND "c4f9e160-641f-b61d-7b9e-0bc9d4ac0ea1"
integer door_open;
operate_door() {
llLinkPlaySound(6, DOOR_MOVE_SOUND, 1, SOUND_PLAY);
if(door_open && !power_on)
tell(system, CL, "door 0");
// door_open = 1;
door_open = !door_open;
float sign = (float)(door_open << 1) - 1.0;
float hi = 0;
list lid_props = getp(6, [PRIM_SIZE, PRIM_POS_LOCAL, PRIM_ROT_LOCAL]);
list lid2_props = getp(3, [PRIM_SIZE]);
vector lids = getv(lid_props, 0);
vector lidp = getv(lid_props, 1);
rotation lidr = getr(lid_props, 2);
vector lido = <0, lids.y * -0.5, lids.z * -0.5>;
vector lid2s = getv(lid2_props, 0);
vector lid2o = <0, -0.01, -0.01125>;
float lid2_scale_factor = lid2s.y / 0.0246600;
rotation postR_logo = llEuler2Rot(<0, 0, PI>);
while(hi <= 1) {
rotation lidnr = llEuler2Rot(<120 * DEG_TO_RAD * hi * sign, 0, 0>);
rotation lid2nr = llEuler2Rot(<120 * DEG_TO_RAD * hi * sign, 0, 0>);
setp(6, [
PRIM_POS_LOCAL, lidp + (lido - lido * lidnr) * lidr,
PRIM_ROT_LOCAL, lidnr * lidr,
PRIM_LINK_TARGET, 3,
PRIM_POS_LOCAL, lidp + (lido - (lid2o * lid2_scale_factor + lido) * lidnr) * lidr,
PRIM_ROT_LOCAL, postR_logo * lidnr * lidr
]);
hi += 0.1;
llSleep(0.022);
}
if(door_open && !power_on)
tell(system, CL, "door 1");
}
integer timer_close_hatch;
default {
state_entry() {
// llLinkStopSound(LINK_SET);
llSetLinkTextureAnim(SCREEN_CONE, ANIM_ON | SMOOTH | LOOP | PING_PONG, ALL_SIDES, 0, 0, 0, 1, 100);
llSetLinkTextureAnim(SCREEN, ANIM_ON | SMOOTH | LOOP | PING_PONG, 1, 0, 0, 0, 1, 100);
llSetMemoryLimit(0x8000);
#ifdef TEST_SCREEN
power_on = 1;
screen_control(TRUE);
linked(LINK_THIS, 0, "menu-start", "");
#else
screen_control(FALSE);
linked(LINK_THIS, 0, "menu-end", "");
#endif
// damp(0);
/* echo(llGetLinkName(HOSE_L));
echo(llGetLinkName(HOSE_R)); */
// damp(0.0);
/*integer pn = llGetNumberOfPrims();
while(pn--) {
echo((string)pn + " = " + llGetLinkName(pn));
}*/
}
touch_start(integer n) {
while(n--) {
key toucher = llDetectedKey(n);
integer pi = llDetectedLinkNumber(n);
string part = llGetLinkName(pi);
if(part == "lid" && !power_on) {
if(door_open) {
timer_close_hatch = 1;
// tell(llGetOwner(), CL, "hatch-blocked-q");
linked(LINK_THIS, 0, "touch-hatch", toucher);
llSetTimerEvent(0.75);
} else {
operate_door();
}
//operate_door();
} else if(part == "text" && power_on) {
linked(LINK_THIS, pi, "touch-screen", toucher);
} else if(part == "lid" && power_on) {
if(door_open && screen_open) {
screen_control(FALSE);
} else {
linked(LINK_THIS, 0, "menu-start", toucher);
screen_control(TRUE);
}
} else if(part == "screen") {
} else {
// if "Object" || ("lid" && power_on)
if((power_on && screen_open) || !power_on) {
linked(LINK_THIS, 0, "menu-request", toucher);
} else {
linked(LINK_THIS, 0, "menu-request", toucher);
/*
linked(LINK_THIS, 0, "menu-start", toucher);
screen_control(TRUE);
*/
}
}
}
}
timer() { // hatch open
llSetTimerEvent(0);
if(door_open && timer_close_hatch && !power_on)
operate_door();
timer_close_hatch = 0;
}
link_message(integer s, integer n, string m, key id) {
// echo("supervisor screen: " + m);
if(m == "hatch-blocked") {
llSetTimerEvent(0);
timer_close_hatch = 0;
} else if(m == "on") {
timer_close_hatch = 0;
llSetTimerEvent(0);
power_on = 1;
system = id;
CL = 105 - (integer)("0x" + substr(llGetOwner(), 29, 35));
} else if(m == "off") {
power_on = 0;
system = id;
CL = 105 - (integer)("0x" + substr(llGetOwner(), 29, 35));
screen_control(FALSE);
linked(LINK_THIS, 0, "menu-end", "");
// damp(0);
} else if(m == "menu-open") {
if(!screen_open)
screen_control(TRUE);
} else if(m == "menu-close") {
system = id;
screen_control(FALSE);
linked(LINK_THIS, 0, "menu-end", "");
} else {
list argv = split(m, " ");
string cmd = gets(argv, 0);
/*if(cmd == "fan") {
fan = (float)gets(argv, 1);
damp(rate * 0.001 + fan * 0.5);
} else*/
if(cmd == "color") {
base_c = (vector)concat(delitem(argv, 0), " ");
/* if(screen_open)
screen_control(TRUE); */
} else if(cmd == "color-4") {
c4 = (vector)concat(delitem(argv, 0), " ");
if(screen_open)
screen_control(TRUE);
}
/*else if(cmd == "rate") {
rate = (float)gets(argv, 1);
if(rate > 0)
power_on = 1;
// damp(rate * 0.001 + fan * 0.5);
}*/
}
}
}
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