[xonotic/xonotic-data.pk3dir.git] / qcsrc / common / mutators / mutator / dodging / sv_dodging.qc

#include "sv_dodging.qh"

#define PHYS_DODGING                                            g_dodging
#define PHYS_DODGING_DELAY                                      autocvar_sv_dodging_delay
#define PHYS_DODGING_DISTANCE_THRESHOLD         autocvar_sv_dodging_wall_distance_threshold
#define PHYS_DODGING_FROZEN_DOUBLETAP           autocvar_sv_dodging_frozen_doubletap
#define PHYS_DODGING_HEIGHT_THRESHOLD           autocvar_sv_dodging_height_threshold // TODO not used - kill? (also below)
#define PHYS_DODGING_HORIZ_SPEED                        autocvar_sv_dodging_horiz_speed
#define PHYS_DODGING_HORIZ_SPEED_FROZEN         autocvar_sv_dodging_horiz_speed_frozen
#define PHYS_DODGING_RAMP_TIME                          autocvar_sv_dodging_ramp_time
#define PHYS_DODGING_UP_SPEED                           autocvar_sv_dodging_up_speed
#define PHYS_DODGING_WALL                                       autocvar_sv_dodging_wall_dodging
#define PHYS_DODGING_AIR                                        autocvar_sv_dodging_air_dodging
#define PHYS_DODGING_MAXSPEED                           autocvar_sv_dodging_maxspeed

// we ran out of stats slots! TODO: re-enable this when prediction is available for dodging
#if 0
#define PHYS_DODGING                                            STAT(DODGING, this)
#define PHYS_DODGING_DELAY                                      STAT(DODGING_DELAY, this)
#define PHYS_DODGING_DISTANCE_THRESHOLD         STAT(DODGING_DISTANCE_THRESHOLD, this)
#define PHYS_DODGING_FROZEN_DOUBLETAP           STAT(DODGING_FROZEN_DOUBLETAP, this)
#define PHYS_DODGING_HEIGHT_THRESHOLD           STAT(DODGING_HEIGHT_THRESHOLD, this)
#define PHYS_DODGING_HORIZ_SPEED                        STAT(DODGING_HORIZ_SPEED, this)
#define PHYS_DODGING_HORIZ_SPEED_FROZEN         STAT(DODGING_HORIZ_SPEED_FROZEN, this)
#define PHYS_DODGING_RAMP_TIME                          STAT(DODGING_RAMP_TIME, this)
#define PHYS_DODGING_UP_SPEED                           STAT(DODGING_UP_SPEED, this)
#define PHYS_DODGING_WALL                                       STAT(DODGING_WALL, this)
#define PHYS_DODGING_AIR                                        STAT(DODGING_AIR, this)
#define PHYS_DODGING_MAXSPEED                           STAT(DODGING_MAXSPEED, this)
#endif

#ifdef CSQC
        #define PHYS_DODGING_FRAMETIME                          (1 / (frametime <= 0 ? 60 : frametime))
        #define PHYS_DODGING_TIMEOUT(s)                         STAT(DODGING_TIMEOUT)
        #define PHYS_DODGING_PRESSED_KEYS(s)            (s).pressedkeys
#elif defined(SVQC)
        #define PHYS_DODGING_FRAMETIME                          sys_frametime
        #define PHYS_DODGING_TIMEOUT(s)                         CS(s).cvar_cl_dodging_timeout
        #define PHYS_DODGING_PRESSED_KEYS(s)            CS(s).pressedkeys
#endif

#ifdef SVQC

bool autocvar_sv_dodging_sound;

#include <common/animdecide.qh>
#include <common/physics/player.qh>

.float cvar_cl_dodging_timeout;

REGISTER_MUTATOR(dodging, cvar("g_dodging"))
{
        // this just turns on the cvar.
        MUTATOR_ONADD
        {
                g_dodging = cvar("g_dodging");
        }

        // this just turns off the cvar.
        MUTATOR_ONROLLBACK_OR_REMOVE
        {
                g_dodging = 0;
        }

        return false;
}

#elif defined(CSQC)
REGISTER_MUTATOR(dodging, true);
#endif

// set to 1 to indicate dodging has started.. reset by physics hook after dodge has been done..
.float dodging_action;

// the jump part of the dodge cannot be ramped
.float dodging_single_action;


// these are used to store the last key press time for each of the keys..
.float last_FORWARD_KEY_time;
.float last_BACKWARD_KEY_time;
.float last_LEFT_KEY_time;
.float last_RIGHT_KEY_time;

// these store the movement direction at the time of the dodge action happening.
.vector dodging_direction;

// this indicates the last time a dodge was executed. used to check if another one is allowed
// and to ramp up the dodge acceleration in the physics hook.
.float last_dodging_time;

// This is the velocity gain to be added over the ramp time.
// It will decrease from frame to frame during dodging_action = 1
// until it's 0.
.float dodging_velocity_gain;

#ifdef CSQC
.int pressedkeys;
#endif

// returns true if the player is close to a wall
bool check_close_to_wall(entity this, float threshold)
{
        if (PHYS_DODGING_WALL == 0) { return false; }

#define X(dir) \
        tracebox(this.origin, this.mins, this.maxs, this.origin + threshold * dir, true, this); \
        if (trace_fraction < 1 && !(trace_dphitq3surfaceflags & Q3SURFACEFLAG_SKY)) \
                return true;

        X(v_right);
        X(-v_right);
        X(v_forward);
        X(-v_forward);
#undef X

        return false;
}

bool check_close_to_ground(entity this, float threshold)
{
        return IS_ONGROUND(this) ? true : false;
}

bool PM_dodging_checkpressedkeys(entity this)
{
        // first check if the last dodge is far enough back in time so we can dodge again
        if ((time - this.last_dodging_time) < PHYS_DODGING_DELAY)
                return false;

        makevectors(this.angles);

        bool wall_dodge = false;

        if(!PHYS_DODGING_AIR)
        if(!check_close_to_ground(this, PHYS_DODGING_HEIGHT_THRESHOLD))
        {
                wall_dodge = check_close_to_wall(this, PHYS_DODGING_DISTANCE_THRESHOLD);
                if(!wall_dodge) // we're not on the ground, and wall dodging isn't allowed, end it!
                        return true;
        }

        if(!wall_dodge && PHYS_DODGING_MAXSPEED && vdist(this.velocity, >, PHYS_DODGING_MAXSPEED))
                return false;

        bool frozen_dodging = (PHYS_FROZEN(this) && PHYS_DODGING_FROZEN(this));
        bool frozen_no_doubletap = (frozen_dodging && !PHYS_DODGING_FROZEN_DOUBLETAP);

        float tap_direction_x = 0;
        float tap_direction_y = 0;
        bool dodge_detected = false;
        vector mymovement = PHYS_CS(this).movement;

        #define X(COND,BTN,RESULT)                                                                                                                      \
        if (mymovement_##COND)                                                                                          \
                /* is this a state change? */                                                                                                   \
                if(!(PHYS_DODGING_PRESSED_KEYS(this) & KEY_##BTN) || frozen_no_doubletap) {             \
                                tap_direction_##RESULT;                                                                                                 \
                                if ((time - this.last_##BTN##_KEY_time) < PHYS_DODGING_TIMEOUT(this) || frozen_no_doubletap)    \
                                        dodge_detected = true;                                                                                          \
                                if(PHYS_INPUT_BUTTON_DODGE(this))                                                                               \
                                        dodge_detected = true;                                                                                          \
                                this.last_##BTN##_KEY_time = time;                                                                              \
                }
        X(x < 0, BACKWARD,      x--);
        X(x > 0, FORWARD,       x++);
        X(y < 0, LEFT,          y--);
        X(y > 0, RIGHT,         y++);
        #undef X

        if (dodge_detected)
        {
                this.last_dodging_time = time;

                this.dodging_action = 1;
                this.dodging_single_action = 1;

                this.dodging_velocity_gain = PHYS_DODGING_HORIZ_SPEED;

                this.dodging_direction_x = tap_direction_x;
                this.dodging_direction_y = tap_direction_y;

                // normalize the dodging_direction vector.. (unlike UT99) XD
                float length = this.dodging_direction_x * this.dodging_direction_x
                                        + this.dodging_direction_y * this.dodging_direction_y;
                length = sqrt(length);

                this.dodging_direction_x = this.dodging_direction_x * 1.0 / length;
                this.dodging_direction_y = this.dodging_direction_y * 1.0 / length;
                return true;
        }
        return false;
}

// TODO use real cvars
/*float autocvar_velocity_min = 200;
float autocvar_velocity_max = 700;
float autocvar_force_min = 50;
float autocvar_force_max = 350;*/
float determine_speed(entity player) {
        float x = PHYS_FROZEN(player) ? PHYS_DODGING_HORIZ_SPEED_FROZEN : PHYS_DODGING_HORIZ_SPEED;
        x = x; // unused
        return x;

        /*float horiz_vel = vlen(vec2(player.velocity));
        // force min and max are inverted - the faster you are the wekaer dodging becomes
        // TODO document cvars in cfg
        return map_bound_ranges(horiz_vel, autocvar_velocity_min, autocvar_velocity_max, autocvar_force_max, autocvar_force_min);*/
}

void PM_dodging(entity this)
{
        // when swimming or dead, no dodging allowed..
        if (this.waterlevel >= WATERLEVEL_SWIMMING || IS_DEAD(this))
        {
                this.dodging_action = 0;
                this.dodging_direction_x = 0;
                this.dodging_direction_y = 0;
                return;
        }

        // make sure v_up, v_right and v_forward are sane
        if(PHYS_DODGING_AIR)
                makevectors(this.v_angle);
        else
                makevectors(this.angles);

        // if we have e.g. 0.5 sec ramptime and a frametime of 0.25, then the ramp code
        // will be called ramp_time/frametime times = 2 times. so, we need to
        // add 0.5 * the total speed each frame until the dodge action is done..
        float common_factor = PHYS_DODGING_FRAMETIME / PHYS_DODGING_RAMP_TIME;

        // if ramp time is smaller than frametime we get problems ;D
        common_factor = min(common_factor, 1);

        float horiz_speed = determine_speed(this); // TODO kill this
        //OG_INFOF("velocity %f -> force %f\n", vlen(vec2(this.velocity)), horiz_speed);
        float new_velocity_gain = this.dodging_velocity_gain - (common_factor * horiz_speed);
        new_velocity_gain = max(0, new_velocity_gain);

        float velocity_difference = this.dodging_velocity_gain - new_velocity_gain;

        // ramp up dodging speed by adding some velocity each frame..
        if (this.dodging_action == 1)
        {
                //disable jump key during dodge accel phase
                if(PHYS_CS(this).movement.z > 0) { PHYS_CS(this).movement_z = 0; }

                this.velocity += ((this.dodging_direction_y * velocity_difference) * v_right)
                                        + ((this.dodging_direction_x * velocity_difference) * v_forward);

                this.dodging_velocity_gain = this.dodging_velocity_gain - velocity_difference;
        }

        // the up part of the dodge is a single shot action
        if (this.dodging_single_action == 1)
        {
                UNSET_ONGROUND(this);

                this.velocity += PHYS_DODGING_UP_SPEED * v_up;

#ifdef SVQC
                if (autocvar_sv_dodging_sound)
                        PlayerSound(this, playersound_jump, CH_PLAYER, VOL_BASE, VOICETYPE_PLAYERSOUND);

                animdecide_setaction(this, ANIMACTION_JUMP, true);
#endif

                this.dodging_single_action = 0;
        }

        // are we done with the dodging ramp yet?
        if((this.dodging_action == 1) && ((time - this.last_dodging_time) > PHYS_DODGING_RAMP_TIME))
        {
                // reset state so next dodge can be done correctly
                this.dodging_action = 0;
                this.dodging_direction_x = 0;
                this.dodging_direction_y = 0;
        }
}

void PM_dodging_GetPressedKeys(entity this)
{
#ifdef CSQC
        PM_dodging_checkpressedkeys(this);

        int keys = this.pressedkeys;
        keys = BITSET(keys, KEY_FORWARD,        PHYS_CS(this).movement.x > 0);
        keys = BITSET(keys, KEY_BACKWARD,       PHYS_CS(this).movement.x < 0);
        keys = BITSET(keys, KEY_RIGHT,          PHYS_CS(this).movement.y > 0);
        keys = BITSET(keys, KEY_LEFT,           PHYS_CS(this).movement.y < 0);

        keys = BITSET(keys, KEY_JUMP,           PHYS_INPUT_BUTTON_JUMP(this));
        keys = BITSET(keys, KEY_CROUCH,         PHYS_INPUT_BUTTON_CROUCH(this));
        keys = BITSET(keys, KEY_ATCK,           PHYS_INPUT_BUTTON_ATCK(this));
        keys = BITSET(keys, KEY_ATCK2,          PHYS_INPUT_BUTTON_ATCK2(this));
        this.pressedkeys = keys;
#endif
}

MUTATOR_HOOKFUNCTION(dodging, PlayerPhysics)
{
        entity player = M_ARGV(0, entity);

        // print("dodging_PlayerPhysics\n");
        PM_dodging_GetPressedKeys(player);
        PM_dodging(player);
}

#ifdef SVQC

REPLICATE(cvar_cl_dodging_timeout, float, "cl_dodging_timeout");

MUTATOR_HOOKFUNCTION(dodging, GetPressedKeys)
{
        entity player = M_ARGV(0, entity);

        PM_dodging_checkpressedkeys(player);
}

#endif