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a6d9856f24
sfcnr/pawno/include/irresistible/features/fireworks.inc
Lorenc a6d9856f24 modular update
2018-02-13 07:17:51 +11:00

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/*
* Irresistible Gaming (c) 2018
* Developed by ThreeKingz, edited by Lorenc Pekaj
* Module: fireworks.inc
* Purpose: mathematical fireworks implementation in-game
*/
/* ** Defines ** */
#define MAX_FIREWORKS 40
#define FW_MAX_FLARES_PER_LAUNCH 100
#define FW_TICK_RATE 50 //in milliseconds
#define FW_INVALID_HANDLE -1
#define FW_VISIBLE_RANGE 500.0 //Drawdistance for the flare objects.
#define FW_EXPLOSION_TYPE 9
#define FW_EXPLOSION_RANGE 300.0
/*
Exceeding in ranges, tick rates or number of flares could cause the ackslimit to be broken
freezing the server.
*/
#define STYLE_AR_SPIRAL ( 0 )
#define STYLE_FOUNTAIN ( 1 )
#define STYLE_CIRCLE ( 2 )
/* ** Variables ** */
enum FW_Stages
{
FW_S_CREATE_FLARES,
FW_S_MOVE_FLARES
};
enum FW_subscripts
{
bool: FW_IS_FLARE_MOVING[ FW_MAX_FLARES_PER_LAUNCH ],
Float: FW_FLARE_TIME_ELAPSED[ FW_MAX_FLARES_PER_LAUNCH ],
FW_FLARE_OBJECT_ID[ FW_MAX_FLARES_PER_LAUNCH ],
Float: FW_ORIGIN_X, Float: FW_ORIGIN_Y, Float: FW_ORIGIN_Z,
Float: FW_ELEVATION_ANGLE, Float: FW_INITIAL_SPEED, Float: FW_GLOBAL_TIME_ELAPSED,
Float: FW_MAX_HEIGHT, Float: FW_GRAVITY, Float: FW_FL_TIME_DELAY,
// for spiral only
Float: FW_INCREMENT, Float: FW_CONSTANT_XY, Float: FW_CONSTANT_Z,
FW_STYLE, FW_Stages: FW_CURRENT_STAGE,
FW_OBJECT_DESTROYED_COUNT, FW_OBJECT_SPAWNED_COUNT, FW_TIMER_ID,
FW_TOTAL_FLARE_OBJECTS, FW_FL_TIME_DELAY_COUNT, FW_FL_TIME_DELAY_RESULT
};
new
FW_Data[MAX_FIREWORKS] [FW_subscripts],
Iterator:fireworks<MAX_FIREWORKS>
;
/* ** Functions ** */
stock ResetHandleFields(handle)
{
if(handle >= MAX_FIREWORKS)
return false;
if(!Iter_Contains(fireworks, handle))
return false;
FW_Data[handle][FW_ORIGIN_X] = 0.0;
FW_Data[handle][FW_ORIGIN_Y] = 0.0;
FW_Data[handle][FW_ORIGIN_Z] = 0.0;
FW_Data[handle][FW_ELEVATION_ANGLE] = 0.0;
FW_Data[handle][FW_GRAVITY] = 0.0;
FW_Data[handle][FW_INITIAL_SPEED] = 0.0;
FW_Data[handle][FW_MAX_HEIGHT] = 0.0;
FW_Data[handle][FW_FL_TIME_DELAY] = 0.0;
FW_Data[handle][FW_CONSTANT_Z] = 0.0;
FW_Data[handle][FW_CONSTANT_XY] = 0.0;
FW_Data[handle][FW_INCREMENT] = 0.0;
FW_Data[handle][FW_TOTAL_FLARE_OBJECTS] = 0;
FW_Data[handle][FW_GLOBAL_TIME_ELAPSED] = 0;
FW_Data[handle][FW_OBJECT_DESTROYED_COUNT] = 0;
FW_Data[handle][FW_OBJECT_SPAWNED_COUNT] = 0;
FW_Data[handle][FW_FL_TIME_DELAY_COUNT] = 0;
FW_Data[handle][FW_FL_TIME_DELAY_RESULT] = 0;
FW_Data[handle][FW_CURRENT_STAGE] = FW_S_CREATE_FLARES;
for(new i = 0; i < FW_MAX_FLARES_PER_LAUNCH; i++)
{
FW_Data[handle][FW_IS_FLARE_MOVING][i] = false;
FW_Data[handle][FW_FLARE_TIME_ELAPSED][i] = 0;
DestroyDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i]);
FW_Data[handle][FW_FLARE_OBJECT_ID][i] = INVALID_OBJECT_ID;
}
KillTimer(FW_Data[handle][FW_TIMER_ID]);
FW_Data[handle][FW_TIMER_ID] = 0;
Iter_Remove(fireworks, handle);
return 1;
}
stock CreateFireworks(total_flares, style, Float:origin_x, Float:origin_y, Float:origin_z, Float:angle, Float:speed, Float:gravity, Float:time_delay, Float:max_height = 50.0, Float:increment = 12.0, Float:constant_xy = 10.0, Float:constant_z = 2.0)
{
new handle = Iter_Free(fireworks);
if(handle == FW_INVALID_HANDLE)
{
printf("[Fireworks] Max number of concurrent 'firework' handles has been reached. Increase MAX_FIREWORKS.");
return FW_INVALID_HANDLE;
}
if(total_flares >= FW_MAX_FLARES_PER_LAUNCH)
{
printf("[Fireworks] The total number of flares is greater than the allowed limit. Current limit is: "#FW_MAX_FLARES_PER_LAUNCH"");
return FW_INVALID_HANDLE;
}
//Resetting:
FW_Data[handle][FW_TOTAL_FLARE_OBJECTS] = 0;
FW_Data[handle][FW_GLOBAL_TIME_ELAPSED] = 0;
FW_Data[handle][FW_OBJECT_DESTROYED_COUNT] = 0;
FW_Data[handle][FW_OBJECT_SPAWNED_COUNT] = 0;
FW_Data[handle][FW_FL_TIME_DELAY_COUNT] = 0;
FW_Data[handle][FW_CURRENT_STAGE] = FW_S_CREATE_FLARES;
for(new i = 0; i < FW_MAX_FLARES_PER_LAUNCH; i++)
{
FW_Data[handle][FW_IS_FLARE_MOVING][i] = false;
FW_Data[handle][FW_FLARE_TIME_ELAPSED][i] = 0;
FW_Data[handle][FW_FLARE_OBJECT_ID][i] = INVALID_OBJECT_ID;
}
FW_Data[handle][FW_ORIGIN_X] = origin_x;
FW_Data[handle][FW_ORIGIN_Y] = origin_y;
FW_Data[handle][FW_ORIGIN_Z] = origin_z;
FW_Data[handle][FW_CONSTANT_Z] = constant_z;
FW_Data[handle][FW_CONSTANT_XY] = constant_xy;
FW_Data[handle][FW_INCREMENT] = increment;
FW_Data[handle][FW_ELEVATION_ANGLE] = angle;
FW_Data[handle][FW_GRAVITY] = gravity;
FW_Data[handle][FW_INITIAL_SPEED] = speed;
FW_Data[handle][FW_MAX_HEIGHT] = max_height;
FW_Data[handle][FW_FL_TIME_DELAY] = time_delay;
FW_Data[handle][FW_FL_TIME_DELAY_RESULT] = floatround(floatdiv(time_delay, 0.001 * FW_TICK_RATE));
FW_Data[handle][FW_STYLE] = style;
FW_Data[handle][FW_TOTAL_FLARE_OBJECTS] = total_flares;
Iter_Add(fireworks, handle);
return handle;
}
stock LaunchFireworks(handle)
{
if(handle >= MAX_FIREWORKS)
{
printf("[Fireworks] An incorrect value was passed as a handle. (%d). (LaunchFireworks).", _:handle);
return 0;
}
if(!Iter_Contains(fireworks, handle))
{
print("[Fireworks] An incorrect value was passed as a handle. CreateFirework must be used first.");
return 0;
}
FW_Data[handle][FW_CURRENT_STAGE] = FW_S_CREATE_FLARES;
FW_Data[handle][FW_TIMER_ID] = SetTimerEx("FW_UpdateTick", FW_TICK_RATE, true, "i", _:handle);
return 1;
}
forward FW_UpdateTick(handle); public FW_UpdateTick(handle)
{
switch(FW_Data[handle][FW_STYLE])
{
case STYLE_AR_SPIRAL:
{
switch(FW_Data[handle][FW_CURRENT_STAGE])
{
case FW_S_CREATE_FLARES:
{
new object_model = 0;
new const total = FW_Data[handle][FW_TOTAL_FLARE_OBJECTS];
for(new i = 0; i < total; i++)
{
switch(i & 3) //Same as i % 4 but faster.
{
case 0: object_model = 19297;
case 1: object_model = 19298;
case 2: object_model = 19296;
case 3: object_model = 19295;
}
FW_Data[handle][FW_FLARE_OBJECT_ID][i] = CreateDynamicObject(object_model, FW_Data[handle][FW_ORIGIN_X], FW_Data[handle][FW_ORIGIN_Y], FW_Data[handle][FW_ORIGIN_Z], 0.0, 0.0, 0.0, -1, -1, -1, FW_VISIBLE_RANGE);
FW_Data[handle][FW_FLARE_TIME_ELAPSED][i] = 0;
FW_Data[handle][FW_IS_FLARE_MOVING][i] = false;
}
FW_Data[handle][FW_CURRENT_STAGE] = FW_S_MOVE_FLARES;
}
case FW_S_MOVE_FLARES:
{
new index = 0;
new Float:p_constant_xy = FW_Data[handle][FW_CONSTANT_XY];
new const Float:p_constant_z = FW_Data[handle][FW_CONSTANT_Z];
new const Float:increment = FW_Data[handle][FW_INCREMENT];
new const Float:test_expression_value = float(FW_Data[handle][FW_TOTAL_FLARE_OBJECTS]) * increment;
if(FW_Data[handle][FW_OBJECT_SPAWNED_COUNT] != FW_Data[handle][FW_TOTAL_FLARE_OBJECTS])
{
if(FW_Data[handle][FW_FL_TIME_DELAY_COUNT] == FW_Data[handle][FW_FL_TIME_DELAY_RESULT])
{
new i = FW_Data[handle][FW_OBJECT_SPAWNED_COUNT];
FW_Data[handle][FW_IS_FLARE_MOVING][i] = true;
FW_Data[handle][FW_FL_TIME_DELAY_COUNT] = 0;
FW_Data[handle][FW_OBJECT_SPAWNED_COUNT]++;
}
}
for(new Float:i = 0; i < test_expression_value; i+=increment)
{
if(!IsValidDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][index])) continue;
if(!FW_Data[handle][FW_IS_FLARE_MOVING][index]) continue;
new Float:xpos = p_constant_xy * (i/180.0) * floatcos(floatdiv(i, 30.0)) - 30.0 + FW_Data[handle][FW_ORIGIN_X];
new Float:ypos = p_constant_xy * (i/180.0) * floatsin(floatdiv(i, 30.0)) - 30.0 + FW_Data[handle][FW_ORIGIN_Y];
new Float:zpos = p_constant_z * (i / 180.0) + FW_Data[handle][FW_MAX_HEIGHT];
MoveDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][index], xpos, ypos, zpos, FW_Data[handle][FW_INITIAL_SPEED], 0.0, 0.0, 0.0);
index++;
}
new Float:ct = (FW_Data[handle][FW_FL_TIME_DELAY] * FW_Data[handle][FW_TOTAL_FLARE_OBJECTS]);//An approximate
if(FW_Data[handle][FW_GLOBAL_TIME_ELAPSED] >= ct)
{
new cur = 1;
new total = FW_Data[handle][FW_TOTAL_FLARE_OBJECTS];
for(new i = 0; i < total; i++)
{
new Float:Pos[3];
GetDynamicObjectPos(FW_Data[handle][FW_FLARE_OBJECT_ID][i], Pos[0], Pos[1], Pos[2]);
if(total % cur == 0)
{
CreateExplosion(Pos[0], Pos[1], Pos[2], FW_EXPLOSION_TYPE, FW_EXPLOSION_RANGE);
}
DestroyDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i]);
cur++;
}
ResetHandleFields(handle);
}
}
}
}
case STYLE_FOUNTAIN:
{
switch(FW_Data[handle][FW_CURRENT_STAGE])
{
case FW_S_CREATE_FLARES:
{
new object_model = 0;
FW_Data[handle][FW_ORIGIN_Z] -= 3.0;
for(new i = 0; i < FW_Data[handle][FW_TOTAL_FLARE_OBJECTS]; i++)
{
switch(i % 4)
{
case 0: object_model = 19297;
case 1: object_model = 19298;
case 2: object_model = 19296;
case 3: object_model = 19295;
}
FW_Data[handle][FW_FLARE_OBJECT_ID][i] = CreateDynamicObject(object_model, FW_Data[handle][FW_ORIGIN_X], FW_Data[handle][FW_ORIGIN_Y], FW_Data[handle][FW_ORIGIN_Z], 0.0, 0.0, 0.0, -1, -1, -1, FW_VISIBLE_RANGE);
FW_Data[handle][FW_FLARE_TIME_ELAPSED][i] = 0;
FW_Data[handle][FW_IS_FLARE_MOVING][i] = false;
}
FW_Data[handle][FW_CURRENT_STAGE] = FW_S_MOVE_FLARES;
new const Float:vi_z = FW_Data[handle][FW_INITIAL_SPEED] * floatsin(FW_Data[handle][FW_ELEVATION_ANGLE], degrees);
FW_Data[handle][FW_MAX_HEIGHT] = floatdiv((vi_z*vi_z), 2.0 * FW_Data[handle][FW_GRAVITY]) + FW_Data[handle][FW_ORIGIN_Z];
}
case FW_S_MOVE_FLARES:
{
if(FW_Data[handle][FW_OBJECT_DESTROYED_COUNT] >= FW_Data[handle][FW_TOTAL_FLARE_OBJECTS])
{
ResetHandleFields(handle);
return 0;
}
new const Float:elevation_angle = FW_Data[handle][FW_ELEVATION_ANGLE];
new const Float:vi_z = FW_Data[handle][FW_INITIAL_SPEED] * floatsin(FW_Data[handle][FW_ELEVATION_ANGLE], degrees);
new const Float:gravity = FW_Data[handle][FW_GRAVITY];
new const total_flares = FW_Data[handle][FW_TOTAL_FLARE_OBJECTS];
if(FW_Data[handle][FW_OBJECT_SPAWNED_COUNT] != total_flares)
{
if(FW_Data[handle][FW_FL_TIME_DELAY_COUNT] == FW_Data[handle][FW_FL_TIME_DELAY_RESULT])
{
new i = FW_Data[handle][FW_OBJECT_SPAWNED_COUNT];
FW_Data[handle][FW_IS_FLARE_MOVING][i] = true;
FW_Data[handle][FW_FL_TIME_DELAY_COUNT] = 0;
FW_Data[handle][FW_OBJECT_SPAWNED_COUNT]++;
}
}
new Float:angle_step = floatdiv(360.0, float(total_flares));
for(new i = 0; i < total_flares; i++)
{
if(!IsValidDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i])) continue;
if(!FW_Data[handle][FW_IS_FLARE_MOVING][i]) continue;
new const Float:time = FW_Data[handle][FW_FLARE_TIME_ELAPSED][i];
new const Float:vx = (FW_Data[handle][FW_INITIAL_SPEED] * floatcos(360.0 * floatsin(i * elevation_angle, degrees) * angle_step, degrees)) + floatdiv(float(i), float(total_flares));
new const Float:vy = (FW_Data[handle][FW_INITIAL_SPEED] * floatsin(360.0 * floatcos(-i * elevation_angle, degrees) * angle_step, degrees)) + floatdiv(float(i), float(total_flares));
new const Float:xpos = vx * time * floatsin(FW_Data[handle][FW_FLARE_TIME_ELAPSED][i], degrees) + FW_Data[handle][FW_ORIGIN_X];
new const Float:ypos = vy * time * floatsin(FW_Data[handle][FW_FLARE_TIME_ELAPSED][i], degrees) + FW_Data[handle][FW_ORIGIN_Y];
new const Float:zpos = vi_z * time - (0.5) * gravity * (time*time) + FW_Data[handle][FW_ORIGIN_Z];
new const Float:vf_z = vi_z - gravity * time;
if((vf_z < 0.0 ) && zpos < (FW_Data[handle][FW_MAX_HEIGHT] - fRandomEx(6.0, 10.0)))
{
CreateExplosion(xpos, ypos, zpos, FW_EXPLOSION_TYPE, FW_EXPLOSION_RANGE);
DestroyDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i]);
FW_Data[handle][FW_FLARE_TIME_ELAPSED][i] = 0;
FW_Data[handle][FW_OBJECT_DESTROYED_COUNT]++;
}
new const Float:v = VectorSize(vx, vy, vf_z);
MoveDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i], xpos, ypos, zpos, v/2, 0.0, 0.0, 0.0);
FW_Data[handle][FW_FLARE_TIME_ELAPSED][i] += FW_TICK_RATE * 0.001; //Adjusting
angle_step += 0.0001;
}
FW_Data[handle][FW_INITIAL_SPEED]+= 0.001;
}
}
}
case STYLE_CIRCLE:
{
switch(FW_Data[handle][FW_CURRENT_STAGE])
{
case FW_S_CREATE_FLARES:
{
new object_model = 0;
for(new i = 0; i < FW_Data[handle][FW_TOTAL_FLARE_OBJECTS]; i++)
{
switch(i % 4)
{
case 0: object_model = 19297;
case 1: object_model = 19298;
case 2: object_model = 19296;
case 3: object_model = 19295;
}
FW_Data[handle][FW_FLARE_OBJECT_ID][i] = CreateDynamicObject(object_model, FW_Data[handle][FW_ORIGIN_X], FW_Data[handle][FW_ORIGIN_Y], FW_Data[handle][FW_ORIGIN_Z], 0.0, 0.0, 0.0, -1, -1, -1, FW_VISIBLE_RANGE);
}
FW_Data[handle][FW_CURRENT_STAGE] = FW_S_MOVE_FLARES;
new const Float:vi_z = FW_Data[handle][FW_INITIAL_SPEED] * floatsin(FW_Data[handle][FW_ELEVATION_ANGLE], degrees);
FW_Data[handle][FW_MAX_HEIGHT] = floatdiv((vi_z*vi_z), 2.0 * FW_Data[handle][FW_GRAVITY]) + FW_Data[handle][FW_ORIGIN_Z];
}
case FW_S_MOVE_FLARES:
{
if(FW_Data[handle][FW_OBJECT_DESTROYED_COUNT] >= FW_Data[handle][FW_TOTAL_FLARE_OBJECTS])
{
ResetHandleFields(handle);
return 0;
}
new const Float:angle_step = floatdiv(360.0, float(FW_Data[handle][FW_TOTAL_FLARE_OBJECTS])); //XY angle step in degrees
new const Float:vi_z = FW_Data[handle][FW_INITIAL_SPEED] * floatsin(FW_Data[handle][FW_ELEVATION_ANGLE], degrees);
new const Float:time = FW_Data[handle][FW_GLOBAL_TIME_ELAPSED];
new const Float:gravity = FW_Data[handle][FW_GRAVITY];
for(new i = 0; i < FW_Data[handle][FW_TOTAL_FLARE_OBJECTS]; i++)
{
if(!IsValidDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i])) continue;
new const Float:vx = (FW_Data[handle][FW_INITIAL_SPEED] * floatcos(FW_Data[handle][FW_ELEVATION_ANGLE], degrees)) * floatcos(float(i)*angle_step, degrees);
new const Float:vy = (FW_Data[handle][FW_INITIAL_SPEED] * floatcos(FW_Data[handle][FW_ELEVATION_ANGLE], degrees)) * floatsin(float(i)*angle_step, degrees);
new const Float:xpos = vx * time + FW_Data[handle][FW_ORIGIN_X];
new const Float:ypos = vy * time + FW_Data[handle][FW_ORIGIN_Y];
new const Float:zpos = vi_z * time - (0.5) * gravity * (time*time) + FW_Data[handle][FW_ORIGIN_Z];
new const Float:vf_z = vi_z - gravity * time;
if((vf_z < 0.0 ) && zpos < (FW_Data[handle][FW_MAX_HEIGHT] - fRandomEx(6.0, 10.0)))
{
CreateExplosion(xpos, ypos, zpos, FW_EXPLOSION_TYPE, FW_EXPLOSION_RANGE);
DestroyDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i]);
FW_Data[handle][FW_OBJECT_DESTROYED_COUNT]++;
}
new const Float:v = VectorSize(vx, vy, vf_z);
MoveDynamicObject(FW_Data[handle][FW_FLARE_OBJECT_ID][i], xpos, ypos, zpos, v, 0.0, 0.0, 0.0);
}
}
}
}
}
FW_Data[handle][FW_GLOBAL_TIME_ELAPSED] += FW_TICK_RATE * 0.001;
FW_Data[handle][FW_FL_TIME_DELAY_COUNT]++;
return 1;
}
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