quakec/source/server/entities/powerups.qc

630 lines
13 KiB
C++

/*
server/entities/powerups.qc
Power-Up Spawn and Use Logic
Copyright (C) 2021-2022 NZ:P Team
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#define MAX_POWERUPS 8
#define PU_NUKE 0
#define PU_INSTAKILL 1
#define PU_DOUBLEPTS 2
#define PU_CARPENTER 3
#define PU_MAXAMMO 4
var struct powerup_struct
{
float id;
float occupied;
float flash_screen;
string model_path;
string voiceover_path;
void() function;
float() requirement_function;
} powerup_array[MAX_POWERUPS] = {};
float powerup_count;
float powerup_index;
.float zombie_drop_id;
//
// PU_AddToStruct(id, model_path, voiceover_path)
// Adds the Power-Up and info to the powerup struct
//
void(float id, float flash_screen, string model_path, string voiceover_path, void() function, float() requirement_function)
PU_AddToStruct =
{
if (id > MAX_POWERUPS - 1)
return;
// Precache Model and VO
precache_model(model_path);
precache_sound(voiceover_path);
// Populate the Struct at Index
powerup_array[powerup_count].id = id;
powerup_array[powerup_count].occupied = true;
powerup_array[powerup_count].flash_screen = flash_screen;
powerup_array[powerup_count].model_path = model_path;
powerup_array[powerup_count].voiceover_path = voiceover_path;
powerup_array[powerup_count].function = function;
powerup_array[powerup_count].requirement_function = requirement_function;
// Increment Index
powerup_count++;
};
//
// PU_CopyStruct(to, from)
// Copies a powerup_struct from to.
//
powerup_struct(powerup_struct to, powerup_struct from) PU_CopyStruct =
{
to.id = from.id;
to.occupied = from.occupied;
to.flash_screen = from.flash_screen;
to.model_path = from.model_path;
to.voiceover_path = from.voiceover_path;
to.function = from.function;
to.requirement_function = from.requirement_function;
return to;
}
//
// PU_PopulateArray()
// Generates a Power-Up array with the Fisher-Yates shuffle
//
void() PU_PopulateArray =
{
float amount = powerup_count;
while(amount > 0) {
float i = floor(random() * amount);
amount -= 1;
powerup_struct temp;
temp.id = -1;
PU_CopyStruct(temp, powerup_array[i]);
PU_CopyStruct(powerup_array[i], powerup_array[amount]);
PU_CopyStruct(powerup_array[amount], temp);
}
};
//
// PU_GetNextPowerUp()
// Returns the next valid Power-Up, and refreshes array if needbe.
//
float() PU_GetNextPowerUp =
{
float id;
float found;
id = -1;
found = false;
while(found == false) {
// Refresh the Array if we're at the end
if (powerup_index >= MAX_POWERUPS - 1) {
PU_PopulateArray();
powerup_index = 0;
}
// Grab a Power-Up
powerup_struct pu = powerup_array[powerup_index];
powerup_index++;
// Found a valid Power-Up
if (pu.occupied == true) {
// Check if we meet the requirements
if (pu.requirement_function() == true) {
id = pu.id;
found = true;
}
}
}
return id;
};
//
// PU_ShouldFlashScreen(id)
// Returns flash_screen from Power-Up struct.
//
float(float id) PU_ShouldFlashScreen =
{
if (id == -1)
return false;
for(float i = 0; i < MAX_POWERUPS - 1; i++) {
if (powerup_array[i].id == id)
return powerup_array[i].flash_screen;
}
return false;
};
//
// PU_ModelPath(id)
// Returns model_path from Power-Up struct.
//
string(float id) PU_ModelPath =
{
if (id == -1)
return "";
for(float i = 0; i < MAX_POWERUPS - 1; i++) {
if (powerup_array[i].id == id)
return powerup_array[i].model_path;
}
return "";
};
//
// PU_VoiceoverPath(id)
// Returns model_path from Power-Up struct.
//
string(float id) PU_VoiceoverPath =
{
if (id == -1)
return "";
for(float i = 0; i < MAX_POWERUPS - 1; i++) {
if (powerup_array[i].id == id)
return powerup_array[i].voiceover_path;
}
return "";
};
//
// PU_LogicFunction(id)
// Returns function() from Power-Up struct.
//
void(float id) PU_LogicFunction =
{
if (id == -1)
return;
for(float i = 0; i < MAX_POWERUPS - 1; i++) {
if (powerup_array[i].id == id)
powerup_array[i].function();
}
};
//
// PU_NukeFinalize
// Wrap Nuke stuff up.
//
void() PU_NukeFinalize =
{
entity players;
// give 'The F Bomb'
if (self.kills == 1) {
GiveAchievement(4);
}
// award points
players = find(world,classname,"player");
while(players)
{
addmoney(players, 400*nuke_powerups_activated, 1);
players = find(players,classname,"player");
}
nuke_powerup_active = false;
};
//
// PU_NukeExplosionThink()
// Think function for Nuke explosions.
//
void() PU_NukeExplosionThink =
{
self.frame++;
if (self.frame >= 5)
remove(self);
self.nextthink = time + 0.10;
}
//
// PU_NukeExplode()
// Spawns an explosion sprite.
//
void(vector org) PU_NukeExplode =
{
entity explosion = spawn();
setmodel(explosion, "models/sprites/explosion.spr");
setorigin(explosion, org);
explosion.think = PU_NukeExplosionThink;
explosion.nextthink = time + 0.10;
}
//
// PU_NukeKill()
// Kills Targets when Nuke is active.
//
void() PU_NukeKill =
{
// back up ourselves
entity oldself;
oldself = self;
// switch to goaldummy, is goaldummy world?
if (self.goaldummy == world) {
PU_NukeFinalize();
remove(self);
return;
} else {
self = self.goaldummy;
}
// play explosion effects
PU_NukeExplode(self.origin + '0 0 13');
// kill a target
self.th_die();
// restore self
self = oldself;
// increment kills
self.kills++;
// find new target
self.goaldummy = findfloat(self.goaldummy, iszomb, 1);
self.nextthink = (rint((random() * 6) + 1)/10) + time; // random number from 0.1 to 0.7
};
//
// PU_Nuke()
// Nuke Power-Up Function
//
void() PU_Nuke =
{
// if there's already one active, just increment the point multiplier
if (nuke_powerup_active == true) {
nuke_powerups_activated++;
return;
}
// mark nuke as being active, to prevent zombie damage and spawning.
nuke_powerup_active = true;
nuke_powerup_spawndelay = time + 3;
nuke_powerups_activated = 1;
// create our watcher entity
entity nuke_watcher;
nuke_watcher = spawn();
nuke_watcher.goaldummy = findfloat(world, iszomb, 1);
nuke_watcher.think = PU_NukeKill;
nuke_watcher.nextthink = (rint((random() * 6) + 1)/10) + time; // random number from 0.1 to 0.7
};
//
// PU_InstaKill()
// Insta-Kill Power-Up Fuction
//
void() PU_InstaKill =
{
instakill_finished = time + 30;
other.insta_icon = true;
};
//
// PU_DoublePoints()
// Double Points Power-Up Function
//
void() PU_DoublePoints =
{
x2_finished = time + 30;
other.x2_icon = true;
};
//
// PU_Carpenter()
// Carpenter Power-Up Function
//
void() PU_Carpenter =
{
entity tempe;
entity tempe2;
tempe2 = self;
tempe = find(world, classname, "window");
// Repair Barricades
while(tempe != world) {
// Target non-full and board-able Barricades
if (tempe.health < 6 && tempe.health != -10) {
self = tempe;
window_carpenter_1();
self.health = 6;
self = tempe2;
}
tempe = find(tempe, classname, "window");
}
tempe = find(world, classname, "player");
// Reward Players with Points
while(tempe) {
addmoney(tempe, 200, 1);
tempe = find(tempe, classname, "player");
}
};
//
// PU_CarpenterRequirement()
// Requirements for Carpenter Power-Up.
//
float() PU_CarpenterRequirement =
{
if (total_windows_down >= 5)
return true;
return false;
}
//
// PU_MaxAmmo()
// Max Ammo Power-Up Function
//
void() PU_MaxAmmo =
{
entity tempe;
tempe = find(world, classname, "player");
while(tempe) {
// Fill Primary Weapon
if (tempe.weapon) tempe.currentammo = getWeaponAmmo(tempe.weapon);
// Fill Secondary Weapon
if (tempe.secondaryweapon) tempe.secondaryammo = getWeaponAmmo(tempe.secondaryweapon);
// Fill Third Weapon
if (tempe.thirdweapon) tempe.thirdammo = getWeaponAmmo(tempe.thirdweapon);
// Give Grenades
tempe.primary_grenades = 4;
// Give Betties
if (tempe.grenades & 2) tempe.secondary_grenades = 2;
// MAX AMMO! text
#ifdef PC
ScrollText("MAX AMMO!", tempe);
#else
nzp_maxammo();
#endif
tempe = find(tempe, classname, "player");
}
};
//
// PU_NullRequirement()
// Power-Up has no requirements. Always return true.
//
float() PU_NullRequirement =
{
return true;
};
//
// PU_Init()
// Fill the Power-Up array for the first time and
// define used Power-Ups
//
void() PU_Init =
{
// Start with 0 Power-Ups accessible
powerup_count = 0;
// Set the Power-Up array IDs to empty
for(float i = 0; i < MAX_POWERUPS; i++) {
powerup_array[i].id = -1;
}
// Just add all of them for now
PU_AddToStruct(PU_NUKE, true, "models/pu/nuke!.mdl", "sounds/pu/nuke.wav", PU_Nuke,
PU_NullRequirement );
PU_AddToStruct(PU_INSTAKILL, false, "models/pu/instakill!.mdl", "sounds/pu/insta_kill.wav", PU_InstaKill,
PU_NullRequirement );
PU_AddToStruct(PU_DOUBLEPTS, false, "models/pu/x2!.mdl", "sounds/pu/double_points.wav", PU_DoublePoints,
PU_NullRequirement );
PU_AddToStruct(PU_CARPENTER, false, "models/pu/carpenter!.mdl", "sounds/pu/carpenter.wav", PU_Carpenter,
PU_CarpenterRequirement );
PU_AddToStruct(PU_MAXAMMO, false, "models/pu/maxammo!.mdl", "sounds/pu/maxammo.wav", PU_MaxAmmo,
PU_NullRequirement );
// Fill the array
PU_PopulateArray();
};
//
// PU_Flash()
// Flash Power-Up model in and out
//
void() PU_Flash =
{
// Toggle the Power-Up model on and off
if (self.hitcount % 2) {
// Disappear
setmodel(self, "");
}
else {
// Reappear
setmodel(self, self.oldmodel);
}
if (self.hitcount < 15)
self.nextthink = time + 0.5;
else if (self.hitcount < 25)
self.nextthink = time + 0.25;
else
self.nextthink = time + 0.1;
self.hitcount++;
// Too late, delete the Power-Up
if (self.hitcount >= 40) {
remove(self.owner);
remove(self);
}
};
//
// PU_PlayVO()
// Play the assigned Voiceover clip before destroying ourself.
//
void() PU_PlayVO =
{
sound(self, CHAN_VOICE, self.powerup_vo, 1, ATTN_NONE);
remove(self);
};
//
// PU_Touch()
// Run assigned functions and prep for Deletion
//
void() PU_Touch =
{
if (other.classname == "player")
{
// Acquire sound
sound(self.owner, CHAN_VOICE, "sounds/pu/pickup.wav", 1, ATTN_NONE);
// Prepare for VO and destruction
self.think = PU_PlayVO;
self.nextthink = time + 1;
// Hide the Power-Up
setmodel(self, "");
Light_None(self);
self.touch = SUB_Null;
remove(self.owner);
// Flash the Screen if permitted
if (PU_ShouldFlashScreen(self.walktype) == true)
stuffcmd(other, "bf\n");
// Run Power-Up function
PU_LogicFunction(self.walktype);
}
};
//
// PU_SparkleThink()
// Increment Frames for the Power-Up Sparkle.
//
void() PU_SparkleThink =
{
float f;
float r;
f = self.frame;
while(f == self.frame)
{
r = random();
r = ((r > 0.2) ? 1 : 0) + ((r > 0.4) ? 1 : 0) + ((r > 0.6) ? 1 : 0) + ((r > 0.8) ? 1 : 0);
f = r;
}
self.frame = f;
self.think = PU_SparkleThink;
self.nextthink = time + 0.1;
if(self.calc_time <= time)
{
sound(self,CHAN_VOICE,"sounds/pu/powerup.wav",0.6,ATTN_NORM);
self.calc_time = time + 2.998;
}
};
//
// Spawn_Powerup(where, type)
// Power-Up spawning function. Use type to force what spawns.
//
void(vector where, float type) Spawn_Powerup =
{
entity powerup;
entity sparkle;
// Set Up Power-Up
powerup = spawn();
powerup.origin = where;
setorigin(powerup, powerup.origin);
powerup.solid = SOLID_TRIGGER;
powerup.classname = "item_powerup";
setsize(powerup, VEC_HULL_MIN, VEC_HULL_MAX);
powerup.movetype = MOVETYPE_NONE;
Light_Green(powerup);
// Set Up Sparkle Effect
sparkle = spawn();
powerup.owner = sparkle;
sparkle.origin = where;
setorigin(sparkle, sparkle.origin);
setmodel(sparkle,"models/sprites/sprkle.spr");
sparkle.think = PU_SparkleThink;
sparkle.nextthink = time + 0.1;
// Drop Sounds
sound(sparkle, CHAN_VOICE, "sounds/pu/powerup.wav", 0.6, ATTN_NORM);
sound(powerup, CHAN_AUTO, "sounds/pu/drop.wav", 1, ATTN_NONE);
// Check if we were forcefully assigned an ID
if (type != -1) {
powerup.walktype = type;
}
// No, so let's grab one from the array.
else {
powerup.walktype = PU_GetNextPowerUp();
}
// Assign the Power-Up model and sound
powerup.model = powerup.oldmodel = PU_ModelPath(powerup.walktype);
setmodel(powerup, powerup.model);
powerup.powerup_vo = PU_VoiceoverPath(powerup.walktype);
// Time out
powerup.think = PU_Flash;
powerup.nextthink = time + 15;
// Finally assign collision function
powerup.touch = PU_Touch;
totalpowerups++;
};