Wire electrical discharge machine and wire electrical discharge machining method

What is claimed is: 1. A wire electrical discharge machine that performs electrical discharge machining on a workpiece along a machining path by generating electric discharge between a wire electrode and the workpiece while moving the wire electrode and the workpiece relatively to each other, and has a core fixing function of fixing a core created by the electrical discharge machining to a base material of the workpiece by adhering and depositing a component of the wire electrode arising from the electric discharge machining, comprising: a machining condition setter configured to set up a machining condition related to the electrical discharge machining for each of multiple sections on the machining path; and an electrical discharge machining controller configured to perform control of the electrical discharge machining in accordance with the machining condition set for each section by the machining condition setter, wherein as the machining conditions, the machining condition setter is configured to set up: a first machining condition for enabling the core fixing function in a first section on an upstream side, and a second machining condition for enabling formation of a slot in the workpiece in a second section on a downstream side, and the machining condition setter performs electric discharge machining according to a medial machining condition that is different from the first machining condition and the second machining condition in a medial section located between the first section and the second section. 2. The wire electrical discharge machine according to claim 1 , wherein: the medial section has a start point upstream of an end position of the core fixing function and an end point at a position of the end position of the core fixing function; and the machining condition setter is configured to set the medial machining condition by suppressing the electrical discharge machining in comparison with the first machining condition. 3. The wire electrical discharge machine according to claim 2 , wherein the machining condition setter is configured to specify the medial machining condition, with such settings as to, in comparison with the first machining condition, lower an average amount of discharge energy between the wire electrode and the workpiece, lower a machining speed of the workpiece, weaken a fluid pressure of a dielectric working fluid, reduce a flow rate of the dielectric working fluid, weaken a tension of the wire electrode, or make a discharge gap between the wire electrode and the workpiece greater, or by using any combination of the above settings. 4. The wire electrical discharge machine according to claim 3 , wherein the machining condition setter is configured to specify the medial machining condition so as to relatively reduce the average amount of discharge energy in comparison with the first machining condition by narrowing a pulse width of the discharge current supplied between the wire electrode and the workpiece, lowering a peak current of a discharge current, or extending a rest time of a current pulse of the discharge current, or by using a combination of the above settings. 5. The wire electrical discharge machine according to claim 1 , wherein: the medial section has a start point at an end position of the core fixing function and an end point at a position downstream of the end position of the core fixing function; and the machining condition setter is configured to set the medial machining condition with the electrical discharge machining suppressed in comparison with the second machining condition. 6. The wire electrical discharge machine according to claim 5 , wherein the machining condition setter is configured to specify the medial machining condition, with such settings as to, in comparison with the second machining condition, lower an average amount of discharge energy between the wire electrode and the workpiece, lower a machining speed of the workpiece, weaken a fluid pressure of a dielectric working fluid, reduce a flow rate of the dielectric working fluid, weaken a tension of the wire electrode, or make a discharge gap between the wire electrode and the workpiece greater, or by using any combination of the above settings. 7. The wire electrical discharge machine according to claim 6 , wherein the machining condition setter is configured to specify the medial machining condition so as to relatively reduce the average amount of discharge energy in comparison with the second machining condition by narrowing a pulse width of a discharge current supplied between the wire electrode and the workpiece, lowering a peak current of the discharge current, or extending a rest time of a current pulse of the discharge current, or by using a combination of the above settings. 8. The wire electrical discharge machine according to claim 5 , wherein the machining condition setter is configured to set the medial machining condition so as to include execution of dwell machining. 9. The wire electrical discharge machine according to claim 1 , wherein: the medial section has a start point upstream of an end position of the core fixing function and an end point at a position downstream of the end position of the core fixing function; and the machining condition setter is configured to set the medial machining condition with the electrical discharge machining suppressed in comparison with the first machining condition, from the start point of the medial section to the end position of the core fixing function, and sets the medial machining condition with the electrical discharge machining suppressed in comparison with the second machining condition, from the end position of the core fixing function to the end point of the medial section. 10. The wire electrical discharge machine according to claim 9 , wherein the machining condition setter is configured to specify the medial machining condition, with such settings as to, in comparison with the first machining condition, lower an average amount of discharge energy between the wire electrode and the workpiece, lower a machining speed of the workpiece, weaken a fluid pressure of a dielectric working fluid, reduce a flow rate of the dielectric working fluid, weaken a tension of the wire electrode, or make a discharge gap between the wire electrode and the workpiece greater, or by using any combination of the above settings. 11. The wire electrical discharge machine according to claim 10 , wherein the machining condition setter is configured to specify the medial machining condition so as to relatively reduce the average amount of discharge energy in comparison with the first machining condition by narrowing a pulse width of a discharge current supplied between the wire electrode and the workpiece, lowering a peak current of the discharge current, or extending a rest time of a current pulse of the discharge current, or by using a combination of the above settings. 12. The wire electrical discharge machine according to claim 9 , wherein the machining condition setter is configured to specify the medial machining condition, with such settings as to, in comparison with the second machining condition, lower an average amount of discharge energy between the wire electrode and the workpiece, lower a machining speed of the workpiece, weaken a fluid pressure of a dielectric working fluid, reduce a flow rate of the dielectric working fluid, weaken a tension of the wire electrode, or make a discharge gap between the wire electrode and the workpiece greater, or by using any combination of the above settings. 13. The wire electrical discharge machine according to claim 12 , wherein the machining condition set