/*
vector neworg = skel_get_boneabs(s, bone);
- print(sprintf("ANG: want: %v, got: %v\n", absang, fixedvectoangles2(v_forward, v_up)));
- print(sprintf("ORG: want: %v, got: %v\n", absorg, neworg));
+ printf("ANG: want: %v, got: %v\n", absang, fixedvectoangles2(v_forward, v_up));
+ printf("ORG: want: %v, got: %v\n", absorg, neworg);
*/
}
}
}
-void skeleton_from_frames(entity e)
+void skeleton_from_frames(entity e, float is_dead)
{
float i;
float m = e.modelindex;
e.lerpfrac3 = 0;
e.lerpfrac4 = savelerpfrac4 * 2;
}
- //print(sprintf("Run: bone %d to %d, type %d\n", firstbone + 1, bone, bonetype));
- //print(sprintf("frame %d %d %d %d lerpfrac * %d %d %d\n", e.frame, e.frame2, e.frame3, e.frame4, e.lerpfrac, e.lerpfrac3, e.lerpfrac4));
+ //printf("Run: bone %d to %d, type %d\n", firstbone + 1, bone, bonetype);
+ //printf("frame %d %d %d %d lerpfrac * %d %d %d\n", e.frame, e.frame2, e.frame3, e.frame4, e.lerpfrac, e.lerpfrac3, e.lerpfrac4);
skel_build(s, e, m, 0, firstbone + 1, bone);
}
e.lerpfrac = savelerpfrac;
skel_set_boneabs(s, e.bone_upperbody, org);
}
- for(i = 0; i < MAX_AIM_BONES; ++i)
+ if(!is_dead)
{
- if(e.(bone_aim[i]))
+ for(i = 0; i < MAX_AIM_BONES; ++i)
{
- vector aim = '1 0 0' * bound(-90, self.v_angle_x, 90) * e.(bone_aimweight[i]);
- vector org = skel_get_boneabs(s, e.(bone_aim[i]));
- vector ang_cur = fixedvectoangles2(v_forward, v_up);
- vector ang = AnglesTransform_Multiply(aim, ang_cur);
- fixedmakevectors(ang);
- skel_set_boneabs(s, e.(bone_aim[i]), org);
+ if(e.(bone_aim[i]))
+ {
+ vector aim = '1 0 0' * bound(-90, self.v_angle_x, 90) * e.(bone_aimweight[i]);
+ vector org = skel_get_boneabs(s, e.(bone_aim[i]));
+ vector ang_cur = fixedvectoangles2(v_forward, v_up);
+ vector ang = AnglesTransform_Multiply(aim, ang_cur);
+ fixedmakevectors(ang);
+ skel_set_boneabs(s, e.(bone_aim[i]), org);
+ }
}
}
}