/** * Calculates the next {@code CheckIntervalData} object based on the current data and * the current state. The next data object takes the counter increment and the current * time into account. * * @param increment the increment for the internal counter * @param currentData the current check data object * @param currentState the current state of the circuit breaker * @param time the current time * @return the updated {@code CheckIntervalData} object */ private CheckIntervalData nextCheckIntervalData(final int increment, final CheckIntervalData currentData, final State currentState, final long time) { CheckIntervalData nextData; if (stateStrategy(currentState).isCheckIntervalFinished(this, currentData, time)) { nextData = new CheckIntervalData(increment, time); } else { nextData = currentData.increment(increment); } return nextData; }
/** * Calculates the next {@code CheckIntervalData} object based on the current data and * the current state. The next data object takes the counter increment and the current * time into account. * * @param increment the increment for the internal counter * @param currentData the current check data object * @param currentState the current state of the circuit breaker * @param time the current time * @return the updated {@code CheckIntervalData} object */ private CheckIntervalData nextCheckIntervalData(final int increment, final CheckIntervalData currentData, final State currentState, final long time) { CheckIntervalData nextData; if (stateStrategy(currentState).isCheckIntervalFinished(this, currentData, time)) { nextData = new CheckIntervalData(increment, time); } else { nextData = currentData.increment(increment); } return nextData; }
/** * Calculates the next {@code CheckIntervalData} object based on the current data and * the current state. The next data object takes the counter increment and the current * time into account. * * @param increment the increment for the internal counter * @param currentData the current check data object * @param currentState the current state of the circuit breaker * @param time the current time * @return the updated {@code CheckIntervalData} object */ private CheckIntervalData nextCheckIntervalData(final int increment, final CheckIntervalData currentData, final State currentState, final long time) { CheckIntervalData nextData; if (stateStrategy(currentState).isCheckIntervalFinished(this, currentData, time)) { nextData = new CheckIntervalData(increment, time); } else { nextData = currentData.increment(increment); } return nextData; }
/** * Calculates the next {@code CheckIntervalData} object based on the current data and * the current state. The next data object takes the counter increment and the current * time into account. * * @param increment the increment for the internal counter * @param currentData the current check data object * @param currentState the current state of the circuit breaker * @param time the current time * @return the updated {@code CheckIntervalData} object */ private CheckIntervalData nextCheckIntervalData(final int increment, final CheckIntervalData currentData, final State currentState, final long time) { CheckIntervalData nextData; if (stateStrategy(currentState).isCheckIntervalFinished(this, currentData, time)) { nextData = new CheckIntervalData(increment, time); } else { nextData = currentData.increment(increment); } return nextData; }