Chattering detection method for machine tool

What is claimed is: 1. A machining method comprising: machining a workpiece by a tool mounted to a spindle; controlling the tool by a control unit; determining occurrence of chattering when the workpiece is machined by the tool and controlled by the control unit, wherein the step of determining occurrence of chattering comprises determining that chattering is occurring if a difference between a first phase variation value of a vibration of the tool calculated in a first phase variation detection process and a second phase variation value of a vibration of the tool calculated in a second phase variation detection process is equal to or larger than a predetermined value, wherein the first phase variation detection process is executed when the workpiece or the tool is rotating but the workpiece is not being machined, and the second phase variation detection process is executed when the workpiece is being machined by the tool, wherein the first phase variation detection process and the second phase variation detection process each include: a first step of measuring a vibration of the tool and calculating a phase of a vibration waveform of at least one frequency in a predetermined frequency range by executing a Fourier analysis on the vibration waveform in a time domain; a second step of measuring a vibration of the tool at a predetermined time after the first step and calculating a phase of the vibration waveform of at least one frequency measured in the second step in the predetermined frequency range by executing a Fourier analysis on the vibration waveform measured in the second step in a time domain; a third step of calculating a phase difference between the phase of the vibration waveform of the tool calculated in the first step, which has a predetermined frequency or have predetermined frequencies, and the phase of the vibration waveform of at least one frequency of the tool calculated in the second step, which has the predetermined frequency or have predetermined frequencies; and a fourth step of calculating a variation among multiple phase differences that are calculated by repeating the second step and the third step for a predetermined number of times; and controlling the tool to suppress chattering when it is determined in the step of determining occurrence of chattering that chattering is occurring, wherein the first step calculates the phase of a vibration waveform of one of a continuous waveform and a non-continuous waveform, and the second step calculates the phase of a vibration waveform of the other one of the continuous waveform and the non-continuous waveform. 2. The machining method according to claim 1 , wherein in the third step, the phase difference is calculated between the phase of the vibration waveform of at least one frequency calculated in the second step and a phase of a vibration waveform which is predicted by extending in a direction of a time axis the vibration waveform of the frequency at which the phase is calculated in the first step, and wherein the phase of the predicted vibration waveform at a time point when the measurement of the vibration of the tool is started in the second step.