\r
self.angles_z = 0; // never spawn tilted even if the spot says to\r
self.fixangle = TRUE; // turn this way immediately\r
+ self.leanangle_damage_force = '0 0 0';\r
self.velocity = '0 0 0';\r
self.avelocity = '0 0 0';\r
self.punchangle = '0 0 0';\r
entity e;\r
e = get_weaponinfo(j);\r
if(e.spawnflags & WEP_FLAG_RELOADABLE) // prevent accessing undefined cvars\r
- self.weapon_load[j] = cvar(strcat("g_balance_", e.netname, "_reload_ammo"));\r
+ self.(weapon_load[j]) = cvar(strcat("g_balance_", e.netname, "_reload_ammo"));\r
}\r
\r
oldself = self;\r
return vercmp_recursive(v1, v2);\r
}\r
\r
+.float last_alive_scale;\r
void SetPlayerSize()\r
{\r
if(!cvar("g_healthsize"))\r
return;\r
- // don't scale dead players who aren't prey\r
- if(!self.stat_eaten && self.deadflag != DEAD_NO)\r
- return;\r
-\r
- // change player scale based on the amount of health we have\r
- self.scale = pow(bound(cvar("g_healthsize_min"), self.health, cvar("g_healthsize_max")) / cvar("g_healthsize_center"), cvar("g_healthsize"));\r
\r
- // The following code sets the bounding box to match the player's size.\r
- // It is currently disabled because of issues with engine movement prediction (cl_movement).\r
- // The engine expects the bounding box to be default size, and changing it will cause glitches.\r
- // This code may be enabled once the engine has the ability to use different bbox sizes for movement prediction.\r
- if(self.crouch)\r
+ if(self.deadflag == DEAD_NO)\r
{\r
- //setsize (self, PL_CROUCH_MIN * self.scale, PL_CROUCH_MAX * self.scale);\r
- if(!self.stat_eaten)\r
- self.view_ofs = PL_CROUCH_VIEW_OFS * self.scale;\r
+ // change player scale based on the amount of health we have\r
+ self.scale = pow(bound(cvar("g_healthsize_min"), self.health, cvar("g_healthsize_max")) / cvar("g_healthsize_center"), cvar("g_healthsize"));\r
+\r
+ // The following code sets the bounding box to match the player's size.\r
+ // It is currently disabled because of issues with engine movement prediction (cl_movement).\r
+ // The engine expects the bounding box to be default size, and changing it will cause glitches.\r
+ // This code may be enabled once the engine has the ability to use different bbox sizes for movement prediction.\r
+ if(self.crouch)\r
+ {\r
+ //setsize (self, PL_CROUCH_MIN * self.scale, PL_CROUCH_MAX * self.scale);\r
+ if(!self.stat_eaten)\r
+ self.view_ofs = PL_CROUCH_VIEW_OFS * self.scale;\r
+ }\r
+ else\r
+ {\r
+ //setsize (self, PL_MIN * self.scale, PL_MAX * self.scale);\r
+ if(!self.stat_eaten)\r
+ self.view_ofs = PL_VIEW_OFS * self.scale;\r
+ }\r
+\r
+ self.last_alive_scale = self.scale;\r
}\r
- else\r
+ else if(self.last_alive_scale)\r
{\r
- //setsize (self, PL_MIN * self.scale, PL_MAX * self.scale);\r
- if(!self.stat_eaten)\r
- self.view_ofs = PL_VIEW_OFS * self.scale;\r
+ // if the player is dead, use the last scale he had when he was alive\r
+ self.scale = self.last_alive_scale;\r
}\r
\r
- if(cvar("g_healthsize_vore_shrinkdeadprey") && cvar("g_balance_vore_digestion_limit") < 0)\r
- if(self.deadflag != DEAD_NO && self.stat_eaten)\r
+ if(cvar("g_healthsize_death") && self.deadflag != DEAD_NO)\r
{\r
- // dead prey must shrink toward zero as they digest, until they reach digestion limit\r
- self.scale *= 1 - bound(0, (self.health / cvar("g_balance_vore_digestion_limit")) * cvar("g_healthsize_vore_shrinkdeadprey"), 1);\r
+ // dead players shrink to zero as they head toward the health limit\r
+ self.scale *= 1 - bound(0, (self.health / cvar("g_healthsize_death_min")) * cvar("g_healthsize_death"), 1);\r
}\r
\r
if(self.scale < 0.1)\r
*/\r
void() ctf_setstatus;\r
.float items_added;\r
+.vector avg_vel;\r
void PlayerPreThink (void)\r
{\r
self.stat_game_starttime = game_starttime;\r
self.fixangle = TRUE;\r
}\r
\r
+ if(self.deadflag == DEAD_NO && !self.stat_eaten) // prevents bugs\r
+ {\r
+ // lean the player with damage and acceleration\r
+ // credits go to divVerent for these maths :)\r
+ vector L0, L1, LF, LA;\r
+\r
+ LA = AnglesTransform_FromAngles(self.angles);\r
+\r
+ // acceleration leaning\r
+ if(cvar("g_leanplayer_acceleration"))\r
+ {\r
+ // average velocity to obtain a smooth acceleration\r
+ float f;\r
+ f = frametime * cvar("g_leanplayer_acceleration_fade");\r
+ self.avg_vel = self.avg_vel * (1 - f) + self.velocity * f;\r
+ }\r
+\r
+ vector accel;\r
+ accel = self.velocity - self.avg_vel * cvar("g_leanplayer_acceleration"); // acceleration\r
+\r
+ // bound angles to the specified limit\r
+ accel_x = bound(-cvar("g_leanplayer_acceleration_max"), accel_x, cvar("g_leanplayer_acceleration_max"));\r
+ accel_y = bound(-cvar("g_leanplayer_acceleration_max"), accel_y, cvar("g_leanplayer_acceleration_max"));\r
+ accel_z = bound(-cvar("g_leanplayer_acceleration_max"), accel_z, cvar("g_leanplayer_acceleration_max"));\r
+\r
+ L0_x = vlen(accel);\r
+ L0_y = L1_y = vectoyaw(accel);\r
+\r
+ L0 = AnglesTransform_FromAngles(L0);\r
+ L1 = AnglesTransform_FromAngles(L1);\r
+ LF = AnglesTransform_Multiply(AnglesTransform_Invert(L1), L0);\r
+ LA = AnglesTransform_Multiply(LA, LF);\r
+ // end of acceleration leaning\r
+\r
+ // damage leaning\r
+ L0 = vectoangles(self.leanangle_damage_loc);\r
+ L1 = vectoangles(self.leanangle_damage_loc + self.leanangle_damage_force);\r
+\r
+ L0 = AnglesTransform_FromAngles(L0);\r
+ L1 = AnglesTransform_FromAngles(L1);\r
+ LF = AnglesTransform_Multiply(AnglesTransform_Invert(L1), L0);\r
+\r
+ LA = AnglesTransform_Multiply(LA, LF);\r
+\r
+ // fade the player back to normal rotation each frame\r
+ if(self.leanangle_damage_force) // safety\r
+ self.leanangle_damage_force = self.leanangle_damage_force * cvar("g_leanplayer_damage_fade");\r
+ // end of damage leaning\r
+\r
+ self.angles = AnglesTransform_Normalize(AnglesTransform_ToAngles(LA), TRUE);\r
+ }\r
+\r
SetPlayerSize();\r
\r
if(frametime)\r