Wire electrical discharge machine and wire electrical discharge machining method

What is claimed is: 1. A wire electrical discharge machine for performing electrical discharge machining on a workpiece by applying voltage across an electrode gap formed between a wire electrode and the workpiece to thereby generate electrical discharge while moving the wire electrode relative to the workpiece along a path specified by a machining program, comprising: a voltage detector configured to detect a gap voltage across the electrode gap; and a processor configured to: calculate, as a facing area, an area of a surface of the workpiece that is contained within a predetermined distance from a center axis of the wire electrode; determine an axis feed rate based on a value of the gap voltage detected by the voltage detector, and the facing area; and perform control so that the wire electrode moves relative to the workpiece at the axis feed rate. 2. The wire electrical discharge machine according to claim 1 , wherein the processor is configured to determine the axis feed rate so that an average of the gap voltage values becomes a target voltage having a predetermined value, and is configured to, when a value of the facing area changes from a value calculated for the path of a straight line, compensate the gap voltage value so that the gap voltage value increases or decreases in accordance with an amount of change of the facing area and determine the axis feed rate so that the average of the compensated gap voltage values becomes the target voltage. 3. The wire electrical discharge machine according to claim 1 , wherein the processor is configured to determine the axis feed rate so that an average of the gap voltage values becomes a target voltage, and is configured to, when a value of the facing area changes from a value calculated for the path of a straight line, compensate the target voltage so that the target voltage increases or decreases in accordance with an amount of change of the facing area and determine the axis feed rate so that the average of the gap voltage values becomes the compensated target voltage. 4. The wire electrical discharge machine according to claim 1 , wherein the processor is configured to apply voltage pulses across the electrode gap at intervals of a pause time, and wherein the processor is configured to change the pause time in accordance with change in the facing area. 5. The wire electrical discharge machine according to claim 1 , wherein the predetermined distance is defined as a maximum distance at which electrical discharge occurs at the electrode gap. 6. The wire electrical discharge machine according to claim 1 , wherein the predetermined distance is defined as a distance at which a probability of occurrence of electrical discharge at the electrode gap is equal to or greater than a threshold. 7. The wire electrical discharge machine according to claim 6 , wherein the predetermined distance is from the center axis of the wire electrode and at which the probability of occurrence of electrical discharge at the electrode gap is equal to or greater than a threshold. 8. The wire electrical discharge machine according to claim 1 , wherein the processor is configured to calculate the facing area based on the machining program. 9. The wire electrical discharge machine according to claim 1 , wherein the processor is configured to calculate, as the facing area, the area of the surface of the workpiece within the predetermined distance from the center axis of the wire electrode, wherein the processor is configured to determine the axis feed rate such that an average of the gap voltage coincides with a predetermined target voltage, and compensates the predetermined target voltage to increase or decrease according to a change of a calculated value of the facing area, and wherein the axis feed rate is determined in accordance with a change in the facing area during a change of the path from a straight line shape to a corner shape. 10. A wire electrical discharge machining method for performing electrical discharge machining on a workpiece by applying voltage across an electrode gap formed between a wire electrode and the workpiece to thereby generate electrical discharge while moving the wire electrode relative to the workpiece along a path specified by a machining program, comprising: calculating, as a facing area, an area of a surface of the workpiece that is contained within a predetermined distance from a center axis of the wire electrode; determining an axis feed rate based on a value of a gap voltage detected by a voltage detector configured to detect the gap voltage across the electrode gap, and the facing area; and performing control so that the wire electrode moves relative to the workpiece at the axis feed rate. 11. The wire electrical discharge machining method according to claim 10 , further comprising applying voltage pulses across the electrode gap at intervals of a pause time to provide discharge control, wherein the discharge control by applying voltage pulses changes the pause time in accordance with change in the facing area. 12. The wire electrical discharge machining method according to claim 10 , wherein the predetermined distance is defined as a maximum distance at which electrical discharge occurs at the electrode gap. 13. The wire electrical discharge machining method according to claim 10 , wherein the predetermined distance is defined as a distance at which a probability of occurrence of electrical discharge at the electrode gap is equal to or greater than a threshold. 14. The wire electrical discharge machining method according to claim 10 , wherein the the calculating, as the facing area, calculates the facing area based on the machining program. 15. The wire electrical discharge machining method according to claim 10 , wherein the determining of the axis feed rate determines the axis feed rate so that an average of the gap voltage values becomes a target voltage having a predetermined value, and when a value of the facing area changes from a value calculated for the path of a straight line, compensates the gap voltage value so that the gap voltage value increases or decreases in accordance with an amount of change of the facing area and determines the axis feed rate so that the average of the compensated gap voltage values becomes the target voltage. 16. The wire electrical discharge machining method according to claim 10 , wherein the determining of the axis feed rate determines the axis feed rate so that an average of the gap voltage values becomes a target voltage, and when a value of the facing area changes from a value calculated for the path of a straight line, compensates the target voltage so that the target voltage increases or decreases in accordance with an amount of change of the facing area and determines the axis feed rate so that the average of the gap voltage values becomes the compensated target voltage. 17. The wire electrical discharge machining method according to claim 10 , wherein the calculating of the facing area comprises calculating the area of the surface of the workpiece within the predetermined distance from the center axis of the wire electrode, wherein the determining of the axis feed rate includes determining the axis feed rate such that an average of the gap voltage coincides with a predetermined target voltage, and compensates the predetermined target voltage to increase or decrease according to a change of a calculated value of the facing area, and wherein the axis feed rate is determined in accordance with a change in the facing area during a change of the path from a straight line s