this.iorigin2 = this.origin;
}
- if ((this.iflags & IFLAG_AUTOANGLES)
- && this.iorigin2
- != this.iorigin1) this.angles = vectoangles(this.iorigin2 - this.iorigin1);
+ if ((this.iflags & IFLAG_AUTOANGLES) && this.iorigin2 != this.iorigin1)
+ this.angles = vectoangles(this.iorigin2 - this.iorigin1);
- if ((this.iflags & IFLAG_AUTOVELOCITY)
- && this.itime2
- != this.itime1) this.velocity = (this.iorigin2 - this.iorigin1) * (1.0 / (this.itime2 - this.itime1));
+ if ((this.iflags & IFLAG_AUTOVELOCITY) && this.itime2 != this.itime1)
+ this.velocity = (this.iorigin2 - this.iorigin1) * (1.0 / (this.itime2 - this.itime1));
if (this.iflags & IFLAG_ANGLES)
{
{
float f = bound(0, (time - this.itime1) / (this.itime2 - this.itime1), 1 + autocvar_cl_lerpexcess);
float f_1 = 1 - f;
- if (this.iflags & IFLAG_ORIGIN) setorigin(this, f_1 * this.iorigin1 + f * this.iorigin2);
+ if (this.iflags & IFLAG_ORIGIN)
+ setorigin(this, f_1 * this.iorigin1 + f * this.iorigin2);
if (this.iflags & IFLAG_ANGLES)
{
vector forward = f_1 * this.iforward1 + f * this.iforward2;
{
this.v_angle_x = f_1 * this.ivforward1.x + f * this.ivforward2.x;
}
- if (this.iflags & IFLAG_VELOCITY) this.velocity = f_1 * this.ivelocity1 + f * this.ivelocity2;
+ if (this.iflags & IFLAG_VELOCITY)
+ this.velocity = f_1 * this.ivelocity1 + f * this.ivelocity2;
}
}