Controller for wire electrical discharge machine and control method of wire electrical discharge machine

What is claimed is: 1. A controller for a wire electrical discharge machine that machines a workpiece along a machining path by moving the workpiece and a wire electrode relative to each other while generating electric discharge across an electrode gap between the workpiece and the wire electrode, comprising: a machining surface state acquisition unit configured to acquire a state of a machining surface of the workpiece; and a machining path setting unit configured to specify an excessively machined portion of the workpiece based on the acquired state of the machining surface and set an access point at which the wire electrode approaches the machining surface from a machining start point, so as to avoid the excessively machined portion, wherein: the machining surface state acquisition unit is configured to acquire the state of the machining surface according to a discharge count across the electrode gap; and the machining path setting unit is configured to designate, as the excessively machined portion, a portion where the discharge count across the electrode gap is smaller than a second predetermined discharge count. 2. The controller for the wire electrical discharge machine according to claim 1 , wherein the machining path setting unit is configured to set a departure point at which the wire electrode is moved away from the machining surface and returned to the machining start point, at a position that is located before the excessively machined portion in a machining direction. 3. The controller for the wire electrical discharge machine according to claim 1 , wherein the machining path setting unit is configured to specify an insufficiently machined portion of the workpiece based on the acquired state of the machining surface and set the access point at a position on the insufficiently machined portion. 4. The controller for the wire electrical discharge machine according to claim 3 , wherein the machining path setting unit is configured to, in a case that the excessively machined portion and the insufficiently machined portion are located adjacent to each other, set the access point at a position between a boundary point between the excessively machined portion and the insufficiently machined portion, and a maximum insufficiently-machined point of the insufficiently machined portion where a machining insufficient amount is greatest. 5. The controller for the wire electrical discharge machine according to claim 4 , wherein the machining path setting unit is configured to set the access point at a position that is closer to the maximum insufficiently-machined point of the insufficiently machined portion where the machining insufficient amount is greatest as a machining excess amount of the excessively machined portion is greater than the machining insufficient amount of the insufficiently machined portion, and set the access point at a position that is closer to the boundary point between the excessively machined portion and the insufficiently machined portion as the machining excess amount of the excessively machined portion is smaller than the machining insufficient amount of the insufficiently machined portion. 6. The controller for the wire electrical discharge machine according to claim 4 , wherein the machining path setting unit is configured to set a machining direction so as to be opposite to a preset machining direction. 7. The controller for the wire electrical discharge machine according to claim 3 , wherein: the machining surface state acquisition unit is configured to acquire the state of the machining surface according to a discharge count across the electrode gap; and the machining path setting unit is configured to designate, as the insufficiently machined portion, a portion where the discharge count across the electrode gap is greater than a first predetermined discharge count. 8. The controller for the wire electrical discharge machine according to claim 3 , wherein: the machining surface state acquisition unit is configured to acquire the state of the machining surface according to a machining speed; and the machining path setting unit is configured to designate, as the insufficiently machined portion, a portion where the machining speed is lower than a first predetermined speed. 9. The controller for the wire electrical discharge machine according to claim 3 , wherein: the machining surface state acquisition unit is configured to acquire a shape of the machining surface, based on image information taken by a camera or positional information obtained by a touch probe when the touch probe is brought into contact with the machining surface; and the machining path setting unit is configured to designate the insufficiently machined portion by comparing the acquired shape of the machining surface with a machining shape of the machining surface defined in advance. 10. The controller for the wire electrical discharge machine according to claim 1 , wherein: the machining surface state acquisition unit is configured to acquire the state of the machining surface according to a machining speed; and the machining path setting unit is configured to designate, as the excessively machined portion, a portion where the machining speed is higher than a second predetermined speed. 11. The controller for the wire electrical discharge machine according to claim 1 , wherein: the machining surface state acquisition unit is configured to acquire a shape of the machining surface, based on image information taken by a camera or positional information obtained by a touch probe when the touch probe is brought into contact with the machining surface; and the machining path setting unit is configured to designate the excessively machined portion by comparing the acquired shape of the machining surface with a machining shape of the machining surface defined in advance. 12. A control method for a wire electrical discharge machine that machines a workpiece along a machining path by moving the workpiece and a wire electrode relative to each other while generating electric discharge across an electrode gap between the workpiece and the wire electrode, comprising: a machining surface state acquiring step of acquiring a state of a machining surface of the workpiece; a machining path setting step of specifying an excessively machined portion of the workpiece based on the acquired state of the machining surface, and setting an access point at which the wire electrode approaches the machining surface from a machining start point, so as to avoid the excessively machined portion; acquiring the state of the machining surface according to a discharge count across the electrode gap; and designating, as the excessively machined portion, a portion where the discharge count across the electrode gap is smaller than a second predetermined discharge count. 13. The control method for the wire electrical discharge machine according to claim 12 , wherein the machining path setting step sets a departure point at which the wire electrode is moved away from the machining surface and returned to the machining start point, at a position that is located before the excessively machined portion in a machining direction. 14. The control method for the wire electrical discharge machine according to claim 12 , wherein the machining path setting step specifies an insufficiently machined portion of the workpiece based on the acquired state of the machining surface, and sets the access point at a position on the insufficiently machined portion.