HDWiringBypass/zscript.zs

version "4.10"

const HDLD_KIRI_JUMPERCABLES = "jmp";

const jumperCablesRaycastRange = 48; // Same range as the DERP.
const jumperCablesFixRange     = 48; // Maximum distance to a broken linedef to fix, from the raycast hit.

class JumperCablesMapLoader : EventHandler
{
    Map<int, int> originalLinedefSpecials2;
    Array<JumperCablesDeployed> deployedCables;

    static JumperCablesMapLoader Get()
    {
        JumperCablesMapLoader loader;
        loader = JumperCablesMapLoader(EventHandler.Find("JumperCablesMapLoader"));
        return loader;
    }

    override void WorldLoaded(WorldEvent e)
    {
        JumperCablesMapLoader loader = Get();

        // Clear out anything from the last level.
        deployedCables.Clear();
        loader.originalLinedefSpecials2.Clear();

        // Go through all the linedefs and make note of what they're
        // supposed to do.
        for(int k = 0; k < level.Lines.size(); k++) {
            Line line = level.Lines[k];
            if(line.special != 0) {
                loader.originalLinedefSpecials2.Insert(line.index(), line.special);
            }
        }
    }

    override void WorldLineActivated(WorldEvent e)
    {
        // TODO: Deplete batteries.
        Console.printf("Line activated: %d %d\n", e.ActivatedLine.index(), e.ActivatedLine.special);

        for(int cableIndex = 0; cableIndex < deployedCables.size(); cableIndex++) {
            if(deployedCables[cableIndex].lineDefIndex == e.ActivatedLine.index()) {

                deployedCables[cableIndex].DecrementBattery();

                break;
            }
        }
    }

    void RegisterCables(JumperCablesDeployed cableActor)
    {
        if(deployedCables.Find(cableActor) == deployedCables.size()) {
            deployedCables.Push(cableActor);

            // FIXME: Remove this.
            Console.printf("Cables registered %d\n", deployedCables.size());
        }
    }

    void UnregisterCables(JumperCablesDeployed cableActor)
    {
        Console.printf("UNREGISTERING\n");
        int index = deployedCables.find(cableActor);
        if(index != deployedCables.size()) {
            deployedCables.delete(index);

            // FIXME: Remove this.
            Console.printf("Cables unregistered %d\n", deployedCables.size());
        }
    }
}

class JumperCablesDeployed : HDUPK
{
    int lineDefIndex;
    int charges;

    default
    {
    }

    states
    {
    spawn:
        DERP A -1 nodelay {
            invoker.bNoGravity = true;

            // Register us with the global event handler so we can
            // respond to the linedef getting used.
            JumperCablesMapLoader loader = JumperCablesMapLoader.Get();
            loader.RegisterCables(self);
        }
        stop;
    give:
        DERP A 0;
        goto spawn;
    }

    void DecrementBattery()
    {
        charges -= 1;
        Console.printf("battery used, now: %d", charges);
        if(charges <= 0) {
            DespawnToBattery();
        }
    }

    void DespawnToBattery()
    {
        // Re-break the linedef.
        level.Lines[lineDefIndex].special = 0;

        // Spawn a battery, with the same level of charge.
        HDMagAmmo.SpawnMag(self, "HDBattery", self.charges);

        // TODO: Spawn debris.

        JumperCablesMapLoader loader = JumperCablesMapLoader.Get();
        loader.UnregisterCables(self);

        Destroy();
    }

    override bool OnGrab(Actor grabber)
    {
        DespawnToBattery();
        return false;
    }

    // TODO: Tick function where we add sparks and stuff?
    // TODO: Tick function where we set the sprite to indicate the charge level.
    // TODO: Despawn if the sector gets broken *again*?
}

class JumperCablesUsable : HDWeapon
{
    default
    {
		+weapon.wimpy_weapon;
        +inventory.invbar;
        +hdweapon.droptranslation;
        +hdweapon.fitsinbackpack;
        hdweapon.barrelsize 0,0,0;
		weapon.selectionorder 1014;

		scale 0.6;
		inventory.icon "DERPEX";
		inventory.pickupmessage "Picked up a wiring bypass kit.";
		inventory.pickupsound "derp/crawl";
		translation 0;
		tag "Wiring Bypass Kit";

		hdweapon.refid HDLD_KIRI_JUMPERCABLES;
	}

	override bool AddSpareWeapon(actor newowner)
    {
        return AddSpareWeaponRegular(newowner);
    }

    override hdweapon GetSpareWeapon(actor newowner,bool reverse,bool doselect)
    {
        return GetSpareWeaponRegular(newowner,reverse,doselect);
    }


    states
    {

    spawn:
        DERP A -1;
		stop;

	select:
		TNT1 A 0;
		goto super::select;

	ready:
		TNT1 A 1 {
            if(PressingFire()) {
                SetWeaponState("deploy");
            }
            A_WeaponReady(WRF_NOFIRE | WRF_ALLOWRELOAD | WRF_ALLOWUSER4);

            FLineTraceData linetraceData;
            DoLineTrace(HDPlayerPawn(invoker.owner), linetraceData);

            if(linetraceData.hitType != TRACE_HitNone) {
                Vector3 hitPos = linetraceData.hitLocation - Vec3Offset(0, 0, 0);
                SpawnParticleForLineTrace(
                    HDPlayerPawn(invoker.owner),
                    linetraceData);
            }
        }
        goto readyend;

    deploy:
		TNT1 AA 1;
		TNT1 AAAA 1;
		TNT1 AAAA 1;

		TNT1 A 0 A_JumpIf(!pressingfire(),"ready");
		TNT1 A 4 A_StartSound("weapons/pismagclick",CHAN_WEAPON);
		TNT1 A 2 A_StartSound("derp/crawl",CHAN_WEAPON,CHANF_OVERLAP);

		TNT1 A 1 {
            invoker.owner.A_Log("Blep");
            A_WeaponReady(WRF_NOFIRE | WRF_ALLOWRELOAD | WRF_ALLOWUSER4);
            AttachCables(HDPlayerPawn(invoker.owner));
        }
        goto ready;

    }

    action void SpawnParticleForLineTrace(HDPlayerPawn pawn, FLineTraceData linetraceData)
    {

        Line hitLine = linetraceData.hitLine;
        String particleColor = "darkred";

        // if(linetraceData.hitType == TRACE_HitWall) {
        //     JumperCablesMapLoader loader = JumperCablesMapLoader.Get();
        //     int originalSpecial = loader.originalLinedefSpecials2.Get(hitLine.index());
        //     int thisLineSpecial = hitLine.special;

        //     if(originalSpecial != thisLineSpecial) {
        //         particleColor = "green";
        //     }
        // }

        if(LineTraceFindbrokenLine(linetraceData)) {
            particleColor = "green";
        }

        Vector3 hitPos = linetraceData.hitLocation - Vec3Offset(0, 0, 0);
        // console.printf("hit pos: %f %f %f\n", hitPos.x, hitPos.y, hitPos.z);
        A_SpawnParticle(
            particleColor,
            0, 10, 2, 0,
            hitPos.x,
            hitPos.y,
            hitPos.z);
    }

    action float Vec2Mag(Vector2 v)
    {
        return sqrt(v.x * v.x + v.y * v.y);
    }

    action float GetDistanceToLine(Line testLine, Vector3 position)
    {
        Vector2 pos2d;
        pos2d.x = position.x;
        pos2d.y = position.y;

        Vector2 origin = testLine.v1.p;

        // Get the normalized direction from v1 to v2.
        Vector2 direction = testLine.v2.p - origin;
        float direction_magnitude = Vec2Mag(direction);
        direction = direction / direction_magnitude;

        // Get the position relative to the origin.
        pos2d -= origin;

        // Project pos2d onto direction, to get a position along the line.
        double t = direction dot pos2d;

        // Clamp position along line to start/end.
        if(t < 0.0) {
            t = 0;
        }
        if(t > direction_magnitude) {
            t = direction_magnitude;
        }

        // Closest point on the line (as an offset from origin).
        Vector2 position_on_line = direction * t;

        Vector2 delta_to_line = position_on_line - pos2d;
        float final_distance = Vec2Mag(delta_to_line);

        return final_distance;
    }

    action void DoLineTrace(HDPlayerPawn pawn, FLineTraceData linetraceData)
    {
        pawn.LineTrace(
            pawn.angle,
            48,
            pawn.pitch,
            flags : TRF_THRUACTORS,
            offsetz : pawn.height * 0.8,
            data : linetraceData);
    }

    action Line LineTraceFindbrokenLine(FLineTraceData linetraceData)
    {
        JumperCablesMapLoader loader = JumperCablesMapLoader.Get();

        // If we're placing this on a wall, then we'll just look at the wall's special.
        if(linetraceData.hitType == TRACE_HitWall) {

            if(linetraceData.hitLine) {

                Line hitLine = linetraceData.hitLine;

                if(loader.originalLinedefSpecials2.CheckKey(hitLine.index())) {

                    int originalSpecial = loader.originalLinedefSpecials2.Get(hitLine.index());
                    int currentSpecial = hitLine.special;

                    if(originalSpecial != currentSpecial)
                    {
                        return hitLine;
                    }
                }
            }
        }

        // If we hit a sector *or* got close enough to another linedef
        // attached to the sector that we're in, then let's find the
        // closest linedef within range that we know is damaged.
        if(linetraceData.hitType == TRACE_HitFloor ||
            linetraceData.hitType == TRACE_HitCeiling ||
            linetraceData.hitType == TRACE_HitWall)
        {
            Sector sec = linetraceData.hitSector;
            Line closestLineInRange = null;
            float closestLineDistance = jumperCablesFixRange;

            // Iterate through all linedefs connected to the sector.
            for(int secLineIndex = 0; secLineIndex < sec.lines.size(); secLineIndex++) {

                Line secLine = sec.lines[secLineIndex];

                // If this is currently special, we don't care about it.
                if(secLine.special == 0) {

                    // If this *used* to be special, we DO care about it!
                    if(loader.originalLinedefSpecials2.CheckKey(secLine.index())) {

                        // See if thise is the closest one we've found so far.
                        float distanceToLine = GetDistanceToLine(
                            secLine, linetraceData.hitLocation);
                        if(distanceToLine <= closestLineDistance) {
                            closestLineInRange = secLine;
                            closestLineDistance = distanceToLine;
                        }
                    }
                }
            }

            // If we found something broken, then return the closest
            // thing we found.
            if(closestLineInRange) {
                Console.printf(
                    "Dist to line: %f\n",
                    GetDistanceToLine(
                        closestLineInRange, linetraceData.hitLocation));
                return closestLineInRange;
            }

        }

        return null;
    }

    action void AttachCables(HDPlayerPawn pawn)
    {
        HDMagAmmo batteryAmmo = HDMagAmmo(FindInventory("HDBattery"));

        if(!batteryAmmo || batteryAmmo.amount < 1) {
            invoker.owner.A_Log("You need a battery to use this.");
            return;
        }

        JumperCablesMapLoader loader = JumperCablesMapLoader.Get();
        FLineTraceData linetraceData;
        DoLineTrace(pawn, linetraceData);

        Line brokenLine = LineTraceFindbrokenLine(linetraceData);

        if(brokenLine) {

            if(loader.originalLinedefSpecials2.CheckKey(brokenLine.index())) {

                // pawn.A_Log(string.Format("Blep3 %d",
                //         loader.originalLinedefSpecials2.Get(hitLine.index())));

                int originalSpecial = loader.originalLinedefSpecials2.Get(brokenLine.index());
                int currentSpecial = brokenLine.special;

                if(originalSpecial != currentSpecial) {

                    // Remove battery from inventory.
                    int batteryCharges = batteryAmmo.TakeMag(true);
                    Console.printf("batteryCharges: %d", batteryCharges);

                    JumperCablesDeployed deployed = JumperCablesDeployed(
                        Spawn(
                            "JumperCablesDeployed",
                            linetraceData.hitLocation - linetraceData.hitDir * 8));

                    deployed.lineDefIndex = brokenLine.index();
                    deployed.bNoGravity = true;
                    deployed.charges = batteryCharges;

                    brokenLine.special = originalSpecial;
                }
            }
        }
    }
}