X-Git-Url: http://de.git.xonotic.org/?a=blobdiff_plain;f=qcsrc%2Fserver%2Fg_subs.qc;h=3a242dcf32a81f157220ee8f95446589193aeaec;hb=d55679c21627cd51c59a1e329917308f360312f6;hp=fd0dc7861e20b1cee25cdfaa0545231952d78d57;hpb=a6a3b0cebd6928e3678ee4e97de4093f1b61c58b;p=xonotic%2Fxonotic-data.pk3dir.git

diff --git a/qcsrc/server/g_subs.qc b/qcsrc/server/g_subs.qc
index fd0dc7861..3a242dcf3 100644
--- a/qcsrc/server/g_subs.qc
+++ b/qcsrc/server/g_subs.qc
@@ -1,9 +1,9 @@
-void SUB_NullThink(void) { }
+#include "g_subs.qh"
+#include "_all.qh"
 
-void()  SUB_CalcMoveDone;
-void() SUB_CalcAngleMoveDone;
-//void() SUB_UseTargets;
-void() SUB_Remove;
+#include "antilag.qh"
+#include "command/common.qh"
+#include "../warpzonelib/common.qh"
 
 void spawnfunc_info_null (void)
 {
@@ -16,22 +16,22 @@ void setanim(entity e, vector anim, float looping, float override, float restart
 	if (!anim)
 		return; // no animation was given to us! We can't use this.
 
-	if (anim_x == e.animstate_startframe)
-	if (anim_y == e.animstate_numframes)
-	if (anim_z == e.animstate_framerate)
+	if (anim.x == e.animstate_startframe)
+	if (anim.y == e.animstate_numframes)
+	if (anim.z == e.animstate_framerate)
 	{
 		if(restart)
 		{
 			if(restart > 0)
-			if(anim_y == 1) // ZYM animation
+			if(anim.y == 1) // ZYM animation
 				BITXOR_ASSIGN(e.effects, EF_RESTARTANIM_BIT);
 		}
 		else
 			return;
 	}
-	e.animstate_startframe = anim_x;
-	e.animstate_numframes = anim_y;
-	e.animstate_framerate = anim_z;
+	e.animstate_startframe = anim.x;
+	e.animstate_numframes = anim.y;
+	e.animstate_framerate = anim.z;
 	e.animstate_starttime = servertime - 0.1 * serverframetime; // shift it a little bit into the past to prevent float inaccuracy hiccups
 	e.animstate_endtime = e.animstate_starttime + e.animstate_numframes / e.animstate_framerate;
 	e.animstate_looping = looping;
@@ -49,394 +49,12 @@ void updateanim(entity e)
 			e.animstate_starttime = e.animstate_endtime;
 			e.animstate_endtime = e.animstate_starttime + e.animstate_numframes / e.animstate_framerate;
 		}
-		e.animstate_override = FALSE;
+		e.animstate_override = false;
 	}
 	e.frame = e.animstate_startframe + bound(0, (time - e.animstate_starttime) * e.animstate_framerate, e.animstate_numframes - 1);
 	//print(ftos(time), " -> ", ftos(e.frame), "\n");
 }
 
-/*
-==================
-SUB_Remove
-
-Remove self
-==================
-*/
-void SUB_Remove (void)
-{
-	remove (self);
-}
-
-/*
-==================
-SUB_Friction
-
-Applies some friction to self
-==================
-*/
-.float friction;
-void SUB_Friction (void)
-{
-	self.nextthink = time;
-	if(self.flags & FL_ONGROUND)
-		self.velocity = self.velocity * (1 - frametime * self.friction);
-}
-
-/*
-==================
-SUB_VanishOrRemove
-
-Makes client invisible or removes non-client
-==================
-*/
-void SUB_VanishOrRemove (entity ent)
-{
-	if (IS_CLIENT(ent))
-	{
-		// vanish
-		ent.alpha = -1;
-		ent.effects = 0;
-		ent.glow_size = 0;
-		ent.pflags = 0;
-	}
-	else
-	{
-		// remove
-		remove (ent);
-	}
-}
-
-void SUB_SetFade_Think (void)
-{
-	if(self.alpha == 0)
-		self.alpha = 1;
-	self.think = SUB_SetFade_Think;
-	self.nextthink = time;
-	self.alpha -= frametime * self.fade_rate;
-	if (self.alpha < 0.01)
-		SUB_VanishOrRemove(self);
-	else
-		self.nextthink = time;
-}
-
-/*
-==================
-SUB_SetFade
-
-Fade 'ent' out when time >= 'when'
-==================
-*/
-void SUB_SetFade (entity ent, float when, float fadetime)
-{
-	ent.fade_rate = 1/fadetime;
-	ent.think = SUB_SetFade_Think;
-	ent.nextthink = when;
-}
-
-/*
-=============
-SUB_CalcMove
-
-calculate self.velocity and self.nextthink to reach dest from
-self.origin traveling at speed
-===============
-*/
-void SUB_CalcMoveDone (void)
-{
-	// After moving, set origin to exact final destination
-
-	setorigin (self, self.finaldest);
-	self.velocity = '0 0 0';
-	self.nextthink = -1;
-	if (self.think1)
-		self.think1 ();
-}
-
-.float platmovetype_turn;
-void SUB_CalcMove_controller_think (void)
-{
-	entity oldself;
-	float traveltime;
-	float phasepos;
-	float nexttick;
-	vector delta;
-	vector delta2;
-	vector veloc;
-	vector angloc;
-	vector nextpos;
-	delta = self.destvec;
-	delta2 = self.destvec2;
-	if(time < self.animstate_endtime) {
-		nexttick = time + sys_frametime;
-
-		traveltime = self.animstate_endtime - self.animstate_starttime;
-		phasepos = (nexttick - self.animstate_starttime) / traveltime; // range: [0, 1]
-		phasepos = cubic_speedfunc(self.platmovetype_start, self.platmovetype_end, phasepos);
-		nextpos = self.origin + (delta * phasepos) + (delta2 * phasepos * phasepos);
-		// derivative: delta + 2 * delta2 * phasepos (e.g. for angle positioning)
-
-		if(self.owner.platmovetype_turn)
-		{
-			vector destangle;
-			destangle = delta + 2 * delta2 * phasepos;
-			destangle = vectoangles(destangle);
-			destangle_x = -destangle_x; // flip up / down orientation
-
-			// take the shortest distance for the angles
-			self.owner.angles_x -= 360 * floor((self.owner.angles_x - destangle_x) / 360 + 0.5);
-			self.owner.angles_y -= 360 * floor((self.owner.angles_y - destangle_y) / 360 + 0.5);
-			self.owner.angles_z -= 360 * floor((self.owner.angles_z - destangle_z) / 360 + 0.5);
-			angloc = destangle - self.owner.angles;
-			angloc = angloc * (1 / sys_frametime); // so it arrives for the next frame
-			self.owner.avelocity = angloc;
-		}
-		if(nexttick < self.animstate_endtime)
-			veloc = nextpos - self.owner.origin;
-		else
-			veloc = self.finaldest - self.owner.origin;
-		veloc = veloc * (1 / sys_frametime); // so it arrives for the next frame
-
-		self.owner.velocity = veloc;
-		self.nextthink = nexttick;
-	} else {
-		// derivative: delta + 2 * delta2 (e.g. for angle positioning)
-		oldself = self;
-		self.owner.think = self.think1;
-		self = self.owner;
-		remove(oldself);
-		self.think();
-	}
-}
-
-void SUB_CalcMove_controller_setbezier (entity controller, vector org, vector control, vector dest)
-{
-	// 0 * (1-t) * (1-t) + 2 * control * t * (1-t) + dest * t * t
-	// 2 * control * t - 2 * control * t * t + dest * t * t
-	// 2 * control * t + (dest - 2 * control) * t * t
-
-	controller.origin = org; // starting point
-	control -= org;
-	dest -= org;
-
-	controller.destvec = 2 * control; // control point
-	controller.destvec2 = dest - 2 * control; // quadratic part required to reach end point
-	// also: initial d/dphasepos origin = 2 * control, final speed = 2 * (dest - control)
-}
-
-void SUB_CalcMove_controller_setlinear (entity controller, vector org, vector dest)
-{
-	// 0 * (1-t) * (1-t) + 2 * control * t * (1-t) + dest * t * t
-	// 2 * control * t - 2 * control * t * t + dest * t * t
-	// 2 * control * t + (dest - 2 * control) * t * t
-
-	controller.origin = org; // starting point
-	dest -= org;
-
-	controller.destvec = dest; // end point
-	controller.destvec2 = '0 0 0';
-}
-
-float TSPEED_TIME = -1;
-float TSPEED_LINEAR = 0;
-float TSPEED_START = 1;
-float TSPEED_END = 2;
-// TODO average too?
-
-void SUB_CalcMove_Bezier (vector tcontrol, vector tdest, float tspeedtype, float tspeed, void() func)
-{
-	float	traveltime;
-	entity controller;
-
-	if (!tspeed)
-		objerror ("No speed is defined!");
-
-	self.think1 = func;
-	self.finaldest = tdest;
-	self.think = SUB_CalcMoveDone;
-
-	switch(tspeedtype)
-	{
-		default:
-		case TSPEED_START:
-			traveltime = 2 * vlen(tcontrol - self.origin) / tspeed;
-			break;
-		case TSPEED_END:
-			traveltime = 2 * vlen(tcontrol - tdest)       / tspeed;
-			break;
-		case TSPEED_LINEAR:
-			traveltime = vlen(tdest - self.origin)        / tspeed;
-			break;
-		case TSPEED_TIME:
-			traveltime = tspeed;
-			break;
-	}
-
-	if (traveltime < 0.1) // useless anim
-	{
-		self.velocity = '0 0 0';
-		self.nextthink = self.ltime + 0.1;
-		return;
-	}
-
-	controller = spawn();
-	controller.classname = "SUB_CalcMove_controller";
-	controller.owner = self;
-	controller.platmovetype = self.platmovetype;
-	controller.platmovetype_start = self.platmovetype_start;
-	controller.platmovetype_end = self.platmovetype_end;
-	SUB_CalcMove_controller_setbezier(controller, self.origin, tcontrol, tdest);
-	controller.finaldest = (tdest + '0 0 0.125'); // where do we want to end? Offset to overshoot a bit.
-	controller.animstate_starttime = time;
-	controller.animstate_endtime = time + traveltime;
-	controller.think = SUB_CalcMove_controller_think;
-	controller.think1 = self.think;
-
-	// the thinking is now done by the controller
-	self.think = SUB_NullThink; // for PushMove
-	self.nextthink = self.ltime + traveltime;
-
-	// invoke controller
-	self = controller;
-	self.think();
-	self = self.owner;
-}
-
-void SUB_CalcMove (vector tdest, float tspeedtype, float tspeed, void() func)
-{
-	vector	delta;
-	float	traveltime;
-
-	if (!tspeed)
-		objerror ("No speed is defined!");
-
-	self.think1 = func;
-	self.finaldest = tdest;
-	self.think = SUB_CalcMoveDone;
-
-	if (tdest == self.origin)
-	{
-		self.velocity = '0 0 0';
-		self.nextthink = self.ltime + 0.1;
-		return;
-	}
-
-	delta = tdest - self.origin;
-
-	switch(tspeedtype)
-	{
-		default:
-		case TSPEED_START:
-		case TSPEED_END:
-		case TSPEED_LINEAR:
-			traveltime = vlen (delta) / tspeed;
-			break;
-		case TSPEED_TIME:
-			traveltime = tspeed;
-			break;
-	}
-
-	// Very short animations don't really show off the effect
-	// of controlled animation, so let's just use linear movement.
-	// Alternatively entities can choose to specify non-controlled movement.
-        // The only currently implemented alternative movement is linear (value 1)
-	if (traveltime < 0.15 || (self.platmovetype_start == 1 && self.platmovetype_end == 1)) // is this correct?
-	{
-		self.velocity = delta * (1/traveltime);	// QuakeC doesn't allow vector/float division
-		self.nextthink = self.ltime + traveltime;
-		return;
-	}
-
-	// now just run like a bezier curve...
-	SUB_CalcMove_Bezier((self.origin + tdest) * 0.5, tdest, tspeedtype, tspeed, func);
-}
-
-void SUB_CalcMoveEnt (entity ent, vector tdest, float tspeedtype, float tspeed, void() func)
-{
-	entity	oldself;
-
-	oldself = self;
-	self = ent;
-
-	SUB_CalcMove (tdest, tspeedtype, tspeed, func);
-
-	self = oldself;
-}
-
-/*
-=============
-SUB_CalcAngleMove
-
-calculate self.avelocity and self.nextthink to reach destangle from
-self.angles rotating
-
-The calling function should make sure self.think is valid
-===============
-*/
-void SUB_CalcAngleMoveDone (void)
-{
-	// After rotating, set angle to exact final angle
-	self.angles = self.finalangle;
-	self.avelocity = '0 0 0';
-	self.nextthink = -1;
-	if (self.think1)
-		self.think1 ();
-}
-
-// FIXME: I fixed this function only for rotation around the main axes
-void SUB_CalcAngleMove (vector destangle, float tspeedtype, float tspeed, void() func)
-{
-	vector	delta;
-	float	traveltime;
-
-	if (!tspeed)
-		objerror ("No speed is defined!");
-
-	// take the shortest distance for the angles
-	self.angles_x -= 360 * floor((self.angles_x - destangle_x) / 360 + 0.5);
-	self.angles_y -= 360 * floor((self.angles_y - destangle_y) / 360 + 0.5);
-	self.angles_z -= 360 * floor((self.angles_z - destangle_z) / 360 + 0.5);
-	delta = destangle - self.angles;
-
-	switch(tspeedtype)
-	{
-		default:
-		case TSPEED_START:
-		case TSPEED_END:
-		case TSPEED_LINEAR:
-			traveltime = vlen (delta) / tspeed;
-			break;
-		case TSPEED_TIME:
-			traveltime = tspeed;
-			break;
-	}
-
-	self.think1 = func;
-	self.finalangle = destangle;
-	self.think = SUB_CalcAngleMoveDone;
-
-	if (traveltime < 0.1)
-	{
-		self.avelocity = '0 0 0';
-		self.nextthink = self.ltime + 0.1;
-		return;
-	}
-
-	self.avelocity = delta * (1 / traveltime);
-	self.nextthink = self.ltime + traveltime;
-}
-
-void SUB_CalcAngleMoveEnt (entity ent, vector destangle, float tspeedtype, float tspeed, void() func)
-{
-	entity	oldself;
-
-	oldself = self;
-	self = ent;
-
-	SUB_CalcAngleMove (destangle, tspeedtype, tspeed, func);
-
-	self = oldself;
-}
-
 /*
 ==================
 main
@@ -507,7 +125,7 @@ void tracebox_antilag_force_wz (entity source, vector v1, vector mi, vector ma,
 }
 void traceline_antilag_force (entity source, vector v1, vector v2, float nomonst, entity forent, float lag)
 {
-	tracebox_antilag_force_wz(source, v1, '0 0 0', '0 0 0', v2, nomonst, forent, lag, FALSE);
+	tracebox_antilag_force_wz(source, v1, '0 0 0', '0 0 0', v2, nomonst, forent, lag, false);
 }
 void traceline_antilag (entity source, vector v1, vector v2, float nomonst, entity forent, float lag)
 {
@@ -519,11 +137,11 @@ void tracebox_antilag (entity source, vector v1, vector mi, vector ma, vector v2
 {
 	if (autocvar_g_antilag != 2 || source.cvar_cl_noantilag)
 		lag = 0;
-	tracebox_antilag_force_wz(source, v1, mi, ma, v2, nomonst, forent, lag, FALSE);
+	tracebox_antilag_force_wz(source, v1, mi, ma, v2, nomonst, forent, lag, false);
 }
 void WarpZone_traceline_antilag_force (entity source, vector v1, vector v2, float nomonst, entity forent, float lag)
 {
-	tracebox_antilag_force_wz(source, v1, '0 0 0', '0 0 0', v2, nomonst, forent, lag, TRUE);
+	tracebox_antilag_force_wz(source, v1, '0 0 0', '0 0 0', v2, nomonst, forent, lag, true);
 }
 void WarpZone_traceline_antilag (entity source, vector v1, vector v2, float nomonst, entity forent, float lag)
 {
@@ -535,7 +153,7 @@ void WarpZone_tracebox_antilag (entity source, vector v1, vector mi, vector ma,
 {
 	if (autocvar_g_antilag != 2 || source.cvar_cl_noantilag)
 		lag = 0;
-	tracebox_antilag_force_wz(source, v1, mi, ma, v2, nomonst, forent, lag, TRUE);
+	tracebox_antilag_force_wz(source, v1, mi, ma, v2, nomonst, forent, lag, true);
 }
 
 float tracebox_inverted (vector v1, vector mi, vector ma, vector v2, float nomonsters, entity forent, float stopatentity, entity ignorestopatentity) // returns the number of traces done, for benchmarking
@@ -554,7 +172,7 @@ float tracebox_inverted (vector v1, vector mi, vector ma, vector v2, float nomon
 	float c;
 	c = 0;
 
-	for(;;)
+	for (;;)
 	{
 		if(pos * dir >= v2 * dir)
 		{
@@ -569,10 +187,10 @@ float tracebox_inverted (vector v1, vector mi, vector ma, vector v2, float nomon
 
 		if(c == 50)
 		{
-			dprint("HOLY SHIT! When tracing from ", vtos(v1), " to ", vtos(v2), "\n");
-			dprint("  Nudging gets us nowhere at ", vtos(pos), "\n");
-			dprint("  trace_endpos is ", vtos(trace_endpos), "\n");
-			dprint("  trace distance is ", ftos(vlen(pos - trace_endpos)), "\n");
+			LOG_TRACE("HOLY SHIT! When tracing from ", vtos(v1), " to ", vtos(v2), "\n");
+			LOG_TRACE("  Nudging gets us nowhere at ", vtos(pos), "\n");
+			LOG_TRACE("  trace_endpos is ", vtos(trace_endpos), "\n");
+			LOG_TRACE("  trace distance is ", ftos(vlen(pos - trace_endpos)), "\n");
 		}
 
 		stopentity = trace_ent;
@@ -640,21 +258,21 @@ vector findbetterlocation (vector org, float mindist)
 	c = 0;
 	while (c < 6)
 	{
-		traceline (org, org + vec, TRUE, world);
+		traceline (org, org + vec, true, world);
 		vec = vec * -1;
 		if (trace_fraction < 1)
 		{
 			loc = trace_endpos;
-			traceline (loc, loc + vec, TRUE, world);
+			traceline (loc, loc + vec, true, world);
 			if (trace_fraction >= 1)
 				org = loc + vec;
 		}
 		if (c & 1)
 		{
-			h = vec_y;
-			vec_y = vec_x;
-			vec_x = vec_z;
-			vec_z = h;
+			h = vec.y;
+			vec.y = vec.x;
+			vec.x = vec.z;
+			vec.z = h;
 		}
 		c = c + 1;
 	}
@@ -662,58 +280,6 @@ vector findbetterlocation (vector org, float mindist)
 	return org;
 }
 
-/*
-==================
-crandom
-
-Returns a random number between -1.0 and 1.0
-==================
-*/
-float crandom (void)
-{
-	return 2 * (random () - 0.5);
-}
-
-/*
-==================
-Angc used for animations
-==================
-*/
-
-
-float angc (float a1, float a2)
-{
-	float	a;
-
-	while (a1 > 180)
-		a1 = a1 - 360;
-	while (a1 < -179)
-		a1 = a1 + 360;
-
-	while (a2 > 180)
-		a2 = a2 - 360;
-	while (a2 < -179)
-		a2 = a2 + 360;
-
-	a = a1 - a2;
-	while (a > 180)
-		a = a - 360;
-	while (a < -179)
-		a = a + 360;
-
-	return a;
-}
-
-.string lodtarget1;
-.string lodtarget2;
-.string lodmodel1;
-.string lodmodel2;
-.float lodmodelindex0;
-.float lodmodelindex1;
-.float lodmodelindex2;
-.float loddistance1;
-.float loddistance2;
-
 float LOD_customize()
 {
 	float d;
@@ -727,7 +293,7 @@ float LOD_customize()
 			self.modelindex = self.lodmodelindex1;
 		else // if(d == 3)
 			self.modelindex = self.lodmodelindex2;
-		return TRUE;
+		return true;
 	}
 
 	// TODO csqc network this so it only gets sent once
@@ -739,7 +305,7 @@ float LOD_customize()
 	else
 		self.modelindex = self.lodmodelindex2;
 
-	return TRUE;
+	return true;
 }
 
 void LOD_uncustomize()
@@ -809,24 +375,24 @@ void LODmodel_attach()
 
 void ApplyMinMaxScaleAngles(entity e)
 {
-	if(e.angles_x != 0 || e.angles_z != 0 || self.avelocity_x != 0 || self.avelocity_z != 0) // "weird" rotation
+	if(e.angles.x != 0 || e.angles.z != 0 || self.avelocity.x != 0 || self.avelocity.z != 0) // "weird" rotation
 	{
 		e.maxs = '1 1 1' * vlen(
-			'1 0 0' * max(-e.mins_x, e.maxs_x) +
-			'0 1 0' * max(-e.mins_y, e.maxs_y) +
-			'0 0 1' * max(-e.mins_z, e.maxs_z)
+			'1 0 0' * max(-e.mins.x, e.maxs.x) +
+			'0 1 0' * max(-e.mins.y, e.maxs.y) +
+			'0 0 1' * max(-e.mins.z, e.maxs.z)
 		);
 		e.mins = -e.maxs;
 	}
-	else if(e.angles_y != 0 || self.avelocity_y != 0) // yaw only is a bit better
+	else if(e.angles.y != 0 || self.avelocity.y != 0) // yaw only is a bit better
 	{
 		e.maxs_x = vlen(
-			'1 0 0' * max(-e.mins_x, e.maxs_x) +
-			'0 1 0' * max(-e.mins_y, e.maxs_y)
+			'1 0 0' * max(-e.mins.x, e.maxs.x) +
+			'0 1 0' * max(-e.mins.y, e.maxs.y)
 		);
-		e.maxs_y = e.maxs_x;
-		e.mins_x = -e.maxs_x;
-		e.mins_y = -e.maxs_x;
+		e.maxs_y = e.maxs.x;
+		e.mins_x = -e.maxs.x;
+		e.mins_y = -e.maxs.x;
 	}
 	if(e.scale)
 		setsize(e, e.mins * e.scale, e.maxs * e.scale);