Transmission hydraulics controller

The invention claimed is: 1. A transmission hydraulics controller for a transmission including i) a manual valve that switches a hydraulic circuit for hydraulic oil of a friction engagement element of the transmission, ii) a hydraulic control valve that controls a hydraulic pressure applied to the friction engagement element, and iii) a range switch mechanism that is driven by an electric actuator and switches an operative position of the manual valve to switch a range of the transmission, the transmission hydraulics controller comprising: a normal oil passage that supplies hydraulic pressure to the friction engagement element through the hydraulic control valve; and a bypass oil passage that supplies hydraulic pressure to the friction engagement element while bypassing the hydraulic control valve, wherein when the operative position of the manual valve is switched, a hydraulic pressure supply route to the friction engagement element is switched between the normal oil passage and the bypass oil passage while maintaining the transmission in a particular range. 2. A transmission hydraulics controller for a transmission including i) a manual valve that switches a hydraulic circuit for hydraulic oil of a friction engagement element of the transmission, ii) a hydraulic control valve that controls a hydraulic pressure applied to the friction engagement element, and iii) a range switch mechanism that is driven by an electric actuator and switches an operative position of the manual valve to switch a range of the transmission, the transmission hydraulics controller comprising: a normal oil passage that supplies hydraulic pressure to the friction engagement element through the hydraulic control valve; and a bypass oil passage that supplies hydraulic pressure to the friction engagement element while bypassing the hydraulic control valve, wherein when the operative position of the manual valve is switched, a hydraulic pressure supply route to the friction engagement element is switched between the normal oil passage and the bypass oil passage, the normal oil passage merges with the bypass oil passage at a merging portion before connecting to the friction engagement element, a dynamic closure member is disposed in the merging portion, when switched to the normal oil passage, hydraulic pressure in the normal oil passage causes the dynamic closure member to move to a position that closes the bypass oil passage, and when switched to the bypass oil passage, hydraulic pressure in the bypass oil passage causes the dynamic closure member to move to a position that closes the normal oil passage. 3. A transmission hydraulics controller for a transmission including i) a manual valve that switches a hydraulic circuit for hydraulic oil of a friction engagement element of the transmission, ii) a hydraulic control valve that controls a hydraulic pressure applied to the friction engagement element, and iii) a range switch mechanism that is driven by an electric actuator and switches an operative position of the manual valve to switch a range of the transmission, the transmission hydraulics controller comprising: a normal oil passage that supplies hydraulic pressure to the friction engagement element through the hydraulic control valve; a bypass oil passage that supplies hydraulic pressure to the friction engagement element while bypassing the hydraulic control valve; and a control unit, wherein when the operative position of the manual valve is switched, a hydraulic pressure supply route to the friction engagement element is switched between the normal oil passage and the bypass oil passage, the control unit determines whether predetermined conditions are met, the transmission being likely to be maintained in a predetermined gear position when the predetermined conditions are met, when the predetermined conditions are not met, switches the operative position of the manual valve to a first operative position that switches to the normal oil passage, and when the predetermined conditions are met, switches the operative position of the manual valve to a second operative position that switches to the bypass oil passage, and the friction engagement element is engaged when the transmission is in the predetermined gear position. 4. The transmission hydraulics controller of claim 3 , wherein the control unit, when switching the operative position of the manual valve to the second operative position, performs a cleaning control that causes the hydraulic control valve to perform a cleaning operation. 5. The transmission hydraulics controller of claim 1 , wherein the electric actuator is a motor, the range switch mechanism includes a detent lever fixed to a manual shaft, the manual shaft being coupled to a rotating shaft of the motor, and the manual valve is coupled to the detent lever so as to linearly move according to a rotation of the detent lever.