\
PROP(false, m_alpha, WEPENT_SET_NORMAL, \
{ WriteByte(chan, rint(bound(-1, 254 * this.m_alpha, 254) - -1)); }, \
- { (viewmodels[this.m_wepent_slot]).alpha = (ReadByte() + -1) / 254; }) \
+ { (viewmodels[this.m_wepent_slot]).m_alpha = (ReadByte() + -1) / 254; }) \
\
PROP(false, vortex_charge, WEPENT_SET_NORMAL, \
{ WriteByte(chan, this.vortex_charge * 255); }, \
\
PROP(false, porto_v_angle_held, WEPENT_SET_NORMAL, \
{ WriteByte(chan, this.porto_v_angle_held); if(this.porto_v_angle_held) { \
- WriteAngle(chan, this.porto_v_angle.x); WriteAngle(chan, this.porto_v_angle.y); \
+ WriteAngle(chan, this.owner.porto_v_angle.x); WriteAngle(chan, this.owner.porto_v_angle.y); \
} }, \
{ (viewmodels[this.m_wepent_slot]).angles_held_status = ReadByte(); if((viewmodels[this.m_wepent_slot]).angles_held_status) { \
- (viewmodels[this.m_wepent_slot]).angles_held_x = ReadAngle(); (viewmodels[this.m_wepent_slot]).angles_held_y = ReadAngle(); (viewmodels[this.m_wepent_slot]).angles_held_z = 0; } \
+ (viewmodels[this.m_wepent_slot]).angles_held = vec2(ReadAngle(), ReadAngle()); } \
else { (viewmodels[this.m_wepent_slot]).angles_held = '0 0 0'; } }) \
\
PROP(false, tuba_instrument, WEPENT_SET_NORMAL, \
PROP(false, clip_size, WEPENT_SET_NORMAL, \
{ WriteShort(chan, this.clip_size); }, \
{ (viewmodels[this.m_wepent_slot]).clip_size = ReadShort(); }) \
+ \
+ PROP(false, skin, WEPENT_SET_NORMAL, \
+ { WriteShort(chan, this.skin); }, \
+ { (viewmodels[this.m_wepent_slot]).m_skin = ReadShort(); }) \
\
/**/