Bending operation system

What is claimed is: 1. A bending operation system comprising: an elongated tubular portion; a bending portion configured to be bendable within a predetermined movable range, the bending portion being included in the tubular portion; a first linear member, one end of which is connected to the tubular portion, the first linear member being configured to be displaced in a longitudinal direction to transmit power to bend the bending portion in a first direction; a second linear member, one end of which is connected to the tubular portion, the second linear member being configured to be displaced in a longitudinal direction to transmit power to bend the bending portion in a second direction which is opposite to the first direction; a drive portion configured to displace the first linear member and the second linear member; a first displacement detector configured to acquire a displacement of the first linear member as a first displacement, the first displacement detector detecting the first displacement of the first linear member when the second linear member is pulled to bend the bending portion in the second direction; a second displacement detector configured to acquire a displacement of the second linear member as a second displacement, the second displacement detector detecting the second displacement of the second linear member when the first linear member is pulled to bend the bending portion in the first direction; and a processor comprising hardware, the processor being configured to calculate operation assist information which includes information indicating a shape of the bending portion, the processor being configured to: calculate the operation assist information based on only one of the first displacement and the second displacement when the bending portion is bent as much as a first bending threshold value or more in the first direction, calculate the operation assist information based on only an other of the first displacement and the second displacement, when the bending portion is bent as much as a second bending threshold value or more in the second direction, wherein the first bending threshold value indicates a state where the bending portion is bent as much as a predetermined amount from a reference position in the first direction, and the second bending threshold value indicates a state where the bending portion is bent as much as a predetermined amount from the reference position in the second direction. 2. The bending operation system according to claim 1 , wherein the processor is further configured to calculate the operation assist information by use of both of the first displacement and the second displacement in a state where the bending portion is positioned in at least one of the movable ranges. 3. The bending operation system according to claim 1 , wherein determination of whether or not the bending portion is bent as much as the first bending threshold value or more in the first direction and determination of whether or not the bending portion is bent as much as the second bending threshold value or more in the second direction are based on a comparison of the first displacement and the second displacement, or a value obtained based on the first displacement and the second displacement with one or more predetermined threshold values. 4. The bending operation system according to claim 1 , wherein the processor is further configured to calculate the operation assist information by use of a function which gives a value indicating the continuous operation assist information in accordance with at least one of the first displacement and the second displacement, when the bending portion is positioned in a range from the first bending threshold value to the second bending threshold value. 5. The bending operation system according to claim 1 , wherein the processor is further configured to calculate the operation assist information based on a weighted average of the first displacement and the second displacement by use of a weight function concerned with the first displacement and the second displacement in a state where the bending portion is positioned in at least one of the movable ranges. 6. The bending operation system according to claim 1 , wherein when a value indicating the operation assist information is A, the first displacement is Enc1, the second displacement is Enc2, a weighted function is f, and a function to obtain a value concerned with the operation assist information for the first displacement or the second displacement is g, the processor is further configured to calculate the operation assist information: based on A=g(Enc2), when the bending portion is bent as much as the first bending threshold value or more in the first direction; based on A=g(Enc1), when the bending portion is bent as much as the second bending threshold value or more in the second direction; and based on A=f ( Enc 1, Enc 2)× g ( Enc 1)+(1− f ( Enc 1, Enc 2))× g ( Enc 2), f=0|the first bending threshold value, and f=1|the second bending threshold value, when the bending portion is positioned in a range from the first bending threshold value to the second bending threshold value. 7. The bending operation system according to claim 1 , wherein the processor is further configured to determine whether a bending amount of the bending portion increases in the first direction or in the second direction, and determine whether the operation assist information is to be calculated based on the first displacement or the second displacement, in accordance with the determination of whether the bending amount of the bending portion increases in the first direction or in the second direction, when the bending portion is bent in a range from the first bending threshold value to the second bending threshold value and when a difference between the first displacement and the second displacement is a predetermined value or less, and calculate the operation assist information based on the only one of the first displacement and the second displacement. 8. The bending operation system according to claim 1 , wherein the operation assist information further includes information indicating a drive amount of the drive portion. 9. The bending operation system according to claim 1 , wherein the first displacement detector is configured to acquire, as the first displacement, a displacement of the first linear member when the bending portion is bent from a reference position in one of the first direction and the second direction, and the second displacement detector is configured to acquire, as the second displacement, a displacement of the second linear member when the bending portion is bent from the reference position in the other direction of the first direction and the second direction. 10. The bending operation system according to claim 1 , wherein the first displacement detector and the second displacement detector are configured so that the first displacement detector acquires the first displacement and the second displacement detector acquires the second displacement, in a state where the bending portion is positioned in at least one of the movable ranges. 11. The bending operation system according to claim 1 , wherein the first displacement detector and the second displacement detector are disposed in a grasp portion disposed proximally to the tubular portion. 12. The bending operation system according to claim 1 , wherein the bending portion is disposed at a distal end of the tubular portion, and the first displacement detector and the second displacement detector are disposed at an other end of the tubular portion. 13. The bending opera