Some more minor code cleanup

[xonotic/xonotic-data.pk3dir.git] / qcsrc / common / animdecide.qc

#include "animdecide.qh"

#include <common/monsters/_mod.qh>

#if defined(SVQC)
    #include "util.qh"
    #include "../server/defs.qh"
#endif

bool monsters_animoverride(entity this)
{
        Monster monster_id = NULL;
        FOREACH(Monsters, it != MON_Null && it.m_model.model_str() == this.model, {
        monster_id = it;
        break;
        });

        if(!monster_id) { return false; }

        monster_id.mr_anim(monster_id, this);

        vector none = '0 0 0';
        this.anim_duckwalk = this.anim_walk;
        this.anim_duckjump = animfixfps(this, '5 1 10', none);
        this.anim_duckidle = this.anim_idle;
        this.anim_jump = animfixfps(this, '8 1 10', none);
        this.anim_taunt = animfixfps(this, '12 1 0.33', none);
        this.anim_runbackwards = this.anim_run;
        this.anim_strafeleft = this.anim_run;
        this.anim_straferight = this.anim_run;
        this.anim_forwardright = this.anim_run;
        this.anim_forwardleft = this.anim_run;
        this.anim_backright = this.anim_run;
        this.anim_backleft  = this.anim_run;
        this.anim_duckwalkbackwards = this.anim_walk;
        this.anim_duckwalkstrafeleft = this.anim_walk;
        this.anim_duckwalkstraferight = this.anim_walk;
        this.anim_duckwalkforwardright = this.anim_walk;
        this.anim_duckwalkforwardleft = this.anim_walk;
        this.anim_duckwalkbackright = this.anim_walk;
        this.anim_duckwalkbackleft  = this.anim_walk;

        // these anims ought to stay until stopped explicitly by weaponsystem
        this.anim_shoot_z = 0.001;
        this.anim_melee_z = 0.001;

        return true;
}

void animdecide_load_if_needed(entity e)
{
        int mdlidx = e.modelindex;
        if (mdlidx == e.animdecide_modelindex) return;
        e.animdecide_modelindex = mdlidx;

        if(substring(e.model, 0, 16) == "models/monsters/")
        {
                if(monsters_animoverride(e))
                        return;
        }

#define ANIM_VEC(a, frames, rate) anim_vec(ANIM_##a, mdlidx, frames, rate)

        vector none = '0 0 0';
        e.anim_die1 = animfixfps(e, ANIM_VEC(die1, 1, 0.5), none); // 2 seconds
        e.anim_die2 = animfixfps(e, ANIM_VEC(die2, 1, 0.5), none); // 2 seconds
        e.anim_draw = animfixfps(e, ANIM_VEC(draw, 1, 3), none);
        e.anim_duckwalk = animfixfps(e, ANIM_VEC(duckwalk, 1, 1), none);
        e.anim_duckjump = animfixfps(e, ANIM_VEC(duckjump, 1, 10), none);
        e.anim_duckidle = animfixfps(e, ANIM_VEC(duckidle, 1, 1), none);
        e.anim_idle = animfixfps(e, ANIM_VEC(idle, 1, 1), none);
        e.anim_jump = animfixfps(e, ANIM_VEC(jump, 1, 10), none);
        e.anim_pain1 = animfixfps(e, ANIM_VEC(pain1, 1, 2), none); // 0.5 seconds
        e.anim_pain2 = animfixfps(e, ANIM_VEC(pain2, 1, 2), none); // 0.5 seconds
        e.anim_shoot = animfixfps(e, ANIM_VEC(shoot, 1, 5), none); // analyze models and set framerate
        e.anim_taunt = animfixfps(e, ANIM_VEC(taunt, 1, 0.33), none);
        e.anim_run = animfixfps(e, ANIM_VEC(run, 1, 1), none);
        e.anim_runbackwards = animfixfps(e, ANIM_VEC(runbackwards, 1, 1), none);
        e.anim_strafeleft = animfixfps(e, ANIM_VEC(strafeleft, 1, 1), none);
        e.anim_straferight = animfixfps(e, ANIM_VEC(straferight, 1, 1), none);
        e.anim_forwardright = animfixfps(e, ANIM_VEC(forwardright, 1, 1), ANIM_VEC(straferight, 1, 1));
        e.anim_forwardleft = animfixfps(e, ANIM_VEC(forwardleft, 1, 1), ANIM_VEC(strafeleft, 1, 1));
        e.anim_backright = animfixfps(e, ANIM_VEC(backright, 1, 1), ANIM_VEC(straferight, 1, 1));
        e.anim_backleft  = animfixfps(e, ANIM_VEC(backleft , 1, 1), ANIM_VEC(strafeleft, 1, 1));
        e.anim_melee = animfixfps(e, ANIM_VEC(melee, 1, 1), ANIM_VEC(shoot, 1, 1));
        e.anim_duckwalkbackwards = animfixfps(e, ANIM_VEC(duckwalkbackwards, 1, 1), ANIM_VEC(duckwalk, 1, 1));
        e.anim_duckwalkstrafeleft = animfixfps(e, ANIM_VEC(duckwalkstrafeleft, 1, 1), ANIM_VEC(duckwalk, 1, 1));
        e.anim_duckwalkstraferight = animfixfps(e, ANIM_VEC(duckwalkstraferight, 1, 1), ANIM_VEC(duckwalk, 1, 1));
        e.anim_duckwalkforwardright = animfixfps(e, ANIM_VEC(duckwalkforwardright, 1, 1), ANIM_VEC(duckwalk, 1, 1));
        e.anim_duckwalkforwardleft = animfixfps(e, ANIM_VEC(duckwalkforwardleft, 1, 1), ANIM_VEC(duckwalk, 1, 1));
        e.anim_duckwalkbackright = animfixfps(e, ANIM_VEC(duckwalkbackright, 1,  1), ANIM_VEC(duckwalk, 1, 1));
        e.anim_duckwalkbackleft  = animfixfps(e, ANIM_VEC(duckwalkbackleft , 1,  1), ANIM_VEC(duckwalk, 1, 1));

#undef ANIM_VEC

        // these anims ought to stay until stopped explicitly by weaponsystem
        e.anim_shoot_z = 0.001;
        e.anim_melee_z = 0.001;
}

const float ANIMPRIO_IDLE = 0;
const float ANIMPRIO_ACTIVE = 1;
const float ANIMPRIO_CROUCH = 2;
const float ANIMPRIO_DEAD = 3;

vector animdecide_getupperanim(entity e)
{
        // death etc.
        if(e.anim_state & ANIMSTATE_FROZEN)
                return vec3(e.anim_idle.x, e.anim_time, ANIMPRIO_DEAD);
        if(e.anim_state & ANIMSTATE_DEAD1)
                return vec3(e.anim_die1_x, e.anim_time, ANIMPRIO_DEAD);
        if(e.anim_state & ANIMSTATE_DEAD2)
                return vec3(e.anim_die2_x, e.anim_time, ANIMPRIO_DEAD);

        // is there an action?
        vector outframe = '-1 0 0';
        float t, a;
        if(e.anim_upper_time >= e.anim_upper_implicit_time)
        {
                a = e.anim_upper_action;
                t = e.anim_upper_time;
        }
        else
        {
                a = e.anim_upper_implicit_action;
                t = e.anim_upper_implicit_time;
        }
        switch(a)
        {
                case ANIMACTION_DRAW: outframe = e.anim_draw; break;
                case ANIMACTION_PAIN1: outframe = e.anim_pain1; break;
                case ANIMACTION_PAIN2: outframe = e.anim_pain2; break;
                case ANIMACTION_SHOOT: outframe = e.anim_shoot; break;
                case ANIMACTION_TAUNT: outframe = e.anim_taunt; break;
                case ANIMACTION_MELEE: outframe = e.anim_melee; break;
        }
        if(outframe.x >= 0)
        {
                if(time <= t + outframe.y / outframe.z)
                {
                        // animation is running!
                        return vec3(outframe.x, t, ANIMPRIO_ACTIVE);
                }
        }
        // or, decide the anim by state
        t = max(e.anim_time, e.anim_implicit_time);
        // but all states are for lower body!
        return vec3(e.anim_idle.x, t, ANIMPRIO_IDLE);
}

vector animdecide_getloweranim(entity e)
{
        // death etc.
        if(e.anim_state & ANIMSTATE_FOLLOW)
                return vec3(((e.anim_state & ANIMSTATE_DUCK) ? e.anim_duckidle_x : e.anim_idle_x), e.anim_time, ANIMPRIO_DEAD); // dead priority so it's above all
        if(e.anim_state & ANIMSTATE_FROZEN)
                return vec3(e.anim_idle.x, e.anim_time, ANIMPRIO_DEAD);
        if(e.anim_state & ANIMSTATE_DEAD1)
                return vec3(e.anim_die1_x, e.anim_time, ANIMPRIO_DEAD);
        if(e.anim_state & ANIMSTATE_DEAD2)
                return vec3(e.anim_die2_x, e.anim_time, ANIMPRIO_DEAD);

        // is there an action?
        vector outframe = '-1 0 0';
        float t, a;
        if(e.anim_lower_time >= e.anim_lower_implicit_time)
        {
                a = e.anim_lower_action;
                t = e.anim_lower_time;
        }
        else
        {
                a = e.anim_lower_implicit_action;
                t = e.anim_lower_implicit_time;
        }
        switch(a)
        {
                case ANIMACTION_JUMP: if(e.anim_implicit_state & ANIMIMPLICITSTATE_INAIR) { if(e.anim_state & ANIMSTATE_DUCK) outframe = e.anim_duckjump; else outframe = e.anim_jump; } break;
        }
        if(outframe.x >= 0)
        {
                if(time <= t + outframe.y / outframe.z)
                {
                        // animation is running!
                        return vec3(outframe.x, t, ANIMPRIO_ACTIVE);
                }
        }
        // or, decide the anim by state
        t = max(e.anim_time, e.anim_implicit_time);
        if(e.anim_state & ANIMSTATE_DUCK)
        {
                if(e.anim_implicit_state & ANIMIMPLICITSTATE_INAIR)
                        return vec3(e.anim_duckjump.x, 0, ANIMPRIO_CROUCH); // play the END of the jump anim
                else switch(e.anim_implicit_state & (ANIMIMPLICITSTATE_FORWARD | ANIMIMPLICITSTATE_BACKWARDS | ANIMIMPLICITSTATE_LEFT | ANIMIMPLICITSTATE_RIGHT))
                {
                        case ANIMIMPLICITSTATE_FORWARD:
                                return vec3(e.anim_duckwalk.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_BACKWARDS:
                                return vec3(e.anim_duckwalkbackwards.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_RIGHT:
                                return vec3(e.anim_duckwalkstraferight.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_LEFT:
                                return vec3(e.anim_duckwalkstrafeleft.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_FORWARD | ANIMIMPLICITSTATE_RIGHT:
                                return vec3(e.anim_duckwalkforwardright.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_FORWARD | ANIMIMPLICITSTATE_LEFT:
                                return vec3(e.anim_duckwalkforwardleft.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_BACKWARDS | ANIMIMPLICITSTATE_RIGHT:
                                return vec3(e.anim_duckwalkbackright.x, t, ANIMPRIO_CROUCH);
                        case ANIMIMPLICITSTATE_BACKWARDS | ANIMIMPLICITSTATE_LEFT:
                                return vec3(e.anim_duckwalkbackleft.x, t, ANIMPRIO_CROUCH);
                }
                return vec3(e.anim_duckidle.x, t, ANIMPRIO_CROUCH);
        }
        else
        {
                if(e.anim_implicit_state & ANIMIMPLICITSTATE_INAIR)
                        return vec3(e.anim_jump.x, 0, ANIMPRIO_ACTIVE); // play the END of the jump anim
                else switch(e.anim_implicit_state & (ANIMIMPLICITSTATE_FORWARD | ANIMIMPLICITSTATE_BACKWARDS | ANIMIMPLICITSTATE_LEFT | ANIMIMPLICITSTATE_RIGHT))
                {
                        case ANIMIMPLICITSTATE_FORWARD:
                                return vec3(e.anim_run.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_BACKWARDS:
                                return vec3(e.anim_runbackwards.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_RIGHT:
                                return vec3(e.anim_straferight.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_LEFT:
                                return vec3(e.anim_strafeleft.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_FORWARD | ANIMIMPLICITSTATE_RIGHT:
                                return vec3(e.anim_forwardright.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_FORWARD | ANIMIMPLICITSTATE_LEFT:
                                return vec3(e.anim_forwardleft.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_BACKWARDS | ANIMIMPLICITSTATE_RIGHT:
                                return vec3(e.anim_backright.x, t, ANIMPRIO_ACTIVE);
                        case ANIMIMPLICITSTATE_BACKWARDS | ANIMIMPLICITSTATE_LEFT:
                                return vec3(e.anim_backleft.x, t, ANIMPRIO_ACTIVE);
                }
                return vec3(e.anim_idle.x, t, ANIMPRIO_IDLE);
        }
        // can't get here
        //return vec3(e.anim_idle.x, t, ANIMPRIO_IDLE);
}

void animdecide_setimplicitstate(entity e, float onground)
{
        int s = 0;

        makevectors(e.angles);
        vector v;
        v.x = e.velocity * v_forward;
        v.y = e.velocity * v_right;
        v.z = 0;

        // we want to match like this:
        // the 8 directions shall be "evenly spaced"
        // that means, the forward key includes anything from -67.5 to +67.5 degrees
        // which then means x > |y| * cot(3pi/8)
        //
        // BUT, the engine's clip-movement-to-keyboard function uses 0.5 here,
        // which would be an angle range from -63.43 to +63.43 degrees, making
        // it slightly less likely to "hit two keys at once", so let's do this
        // here too

        if(vdist(v, >, 10))
        {
                if(v.x >  fabs(v.y) * 0.5)
                        s |= ANIMIMPLICITSTATE_FORWARD;
                if(v.x < -fabs(v.y) * 0.5)
                        s |= ANIMIMPLICITSTATE_BACKWARDS;
                if(v.y >  fabs(v.x) * 0.5)
                        s |= ANIMIMPLICITSTATE_RIGHT;
                if(v.y < -fabs(v.x) * 0.5)
                        s |= ANIMIMPLICITSTATE_LEFT;
        }
        if(!onground)
                s |= ANIMIMPLICITSTATE_INAIR;

        // detect some kinds of otherwise misdetected jumps (ground to air transition)
        // NOTE: currently, in CSQC this is the only jump detection, as the explicit jump action is never called!
        if(!(e.anim_implicit_state & ANIMIMPLICITSTATE_INAIR) && (s & ANIMIMPLICITSTATE_INAIR))
        {
                e.anim_lower_implicit_action = ANIMACTION_JUMP;
                e.anim_lower_implicit_time = time;
        }

        if(s != e.anim_implicit_state)
        {
                e.anim_implicit_state = s;
                e.anim_implicit_time = time;
        }
}
void animdecide_setframes(entity e, float support_blending, .float fld_frame, .float fld_frame1time, .float fld_frame2, .float fld_frame2time)
{
        // _x: frame
        // _y: start time
        // _z: priority
        vector upper = animdecide_getupperanim(e);
        vector lower = animdecide_getloweranim(e);
        //print("UPPER: ", vtos(upper), ", LOWER: ", vtos(lower), "\n");
        if(support_blending)
        {
                if(upper.z && !lower.z)
                        lower = upper;
                else if(lower.z && !upper.z)
                        upper = lower;
                if(e.frame1time != upper.y || e.frame2time != lower.y)
                        BITXOR_ASSIGN(e.effects, EF_RESTARTANIM_BIT);
                e.(fld_frame) = upper.x;
                e.(fld_frame1time) = upper.y;
                e.(fld_frame2) = lower.x;
                e.(fld_frame2time) = lower.y;
        }
        else
        {
                if(upper.z > lower.z)
                        lower = upper;
                else if(lower.z > upper.z)
                        upper = lower;
                if(e.frame1time != upper.y)
                        BITXOR_ASSIGN(e.effects, EF_RESTARTANIM_BIT);
                e.(fld_frame) = upper.x;
                e.(fld_frame1time) = upper.y;
        }
}

void animdecide_setstate(entity e, int newstate, float restart)
{
        if(!restart)
                if(newstate == e.anim_state)
                        return;
        e.anim_state = newstate;
        e.anim_time = time;
}
void animdecide_setaction(entity e, float action, float restart)
{
        if(action < 0)
        {
                if(!restart)
                        if(action == e.anim_lower_action)
                                return;
                e.anim_lower_action = action;
                e.anim_lower_time = time;
        }
        else
        {
                if(!restart)
                        if(action == e.anim_upper_action)
                                return;
                e.anim_upper_action = action;
                e.anim_upper_time = time;
        }
}