@Override public ExecutionTimeFilter build() { return new ExecutionTimeFilter(this); }
@Override public int hashCode() { int hashCode = 1; hashCode = 31 * hashCode + Objects.hashCode(oldestDate()); hashCode = 31 * hashCode + Objects.hashCode(latestDate()); return hashCode; }
public final ExecutionTimeFilter.Builder getStartTimeFilter() { return startTimeFilter != null ? startTimeFilter.toBuilder() : null; }
/** * <p> * Specifies the start time criteria that workflow executions must meet in order to be counted. * </p> * This is a convenience that creates an instance of the {@link ExecutionTimeFilter.Builder} avoiding the need * to create one manually via {@link ExecutionTimeFilter#builder()}. * * When the {@link Consumer} completes, {@link ExecutionTimeFilter.Builder#build()} is called immediately and * its result is passed to {@link #startTimeFilter(ExecutionTimeFilter)}. * * @param startTimeFilter * a consumer that will call methods on {@link ExecutionTimeFilter.Builder} * @return Returns a reference to this object so that method calls can be chained together. * @see #startTimeFilter(ExecutionTimeFilter) */ default Builder startTimeFilter(Consumer<ExecutionTimeFilter.Builder> startTimeFilter) { return startTimeFilter(ExecutionTimeFilter.builder().applyMutation(startTimeFilter).build()); }
/** * <p> * If specified, only workflow executions that meet the close time criteria of the filter are counted. * </p> * <note> * <p> * <code>startTimeFilter</code> and <code>closeTimeFilter</code> are mutually exclusive. You must specify one of * these in a request but not both. * </p> * </note> This is a convenience that creates an instance of the {@link ExecutionTimeFilter.Builder} avoiding * the need to create one manually via {@link ExecutionTimeFilter#builder()}. * * When the {@link Consumer} completes, {@link ExecutionTimeFilter.Builder#build()} is called immediately and * its result is passed to {@link #closeTimeFilter(ExecutionTimeFilter)}. * * @param closeTimeFilter * a consumer that will call methods on {@link ExecutionTimeFilter.Builder} * @return Returns a reference to this object so that method calls can be chained together. * @see #closeTimeFilter(ExecutionTimeFilter) */ default Builder closeTimeFilter(Consumer<ExecutionTimeFilter.Builder> closeTimeFilter) { return closeTimeFilter(ExecutionTimeFilter.builder().applyMutation(closeTimeFilter).build()); }
@Override public int hashCode() { int hashCode = 1; hashCode = 31 * hashCode + Objects.hashCode(oldestDate()); hashCode = 31 * hashCode + Objects.hashCode(latestDate()); return hashCode; }
/** * <p> * Specifies the start time criteria that workflow executions must meet in order to be counted. * </p> * This is a convenience that creates an instance of the {@link ExecutionTimeFilter.Builder} avoiding the need * to create one manually via {@link ExecutionTimeFilter#builder()}. * * When the {@link Consumer} completes, {@link ExecutionTimeFilter.Builder#build()} is called immediately and * its result is passed to {@link #startTimeFilter(ExecutionTimeFilter)}. * * @param startTimeFilter * a consumer that will call methods on {@link ExecutionTimeFilter.Builder} * @return Returns a reference to this object so that method calls can be chained together. * @see #startTimeFilter(ExecutionTimeFilter) */ default Builder startTimeFilter(Consumer<ExecutionTimeFilter.Builder> startTimeFilter) { return startTimeFilter(ExecutionTimeFilter.builder().applyMutation(startTimeFilter).build()); }
public final ExecutionTimeFilter.Builder getStartTimeFilter() { return startTimeFilter != null ? startTimeFilter.toBuilder() : null; }
@Override public ExecutionTimeFilter build() { return new ExecutionTimeFilter(this); }
@Override public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (!(obj instanceof ExecutionTimeFilter)) { return false; } ExecutionTimeFilter other = (ExecutionTimeFilter) obj; return Objects.equals(oldestDate(), other.oldestDate()) && Objects.equals(latestDate(), other.latestDate()); }
/** * <p> * Workflow executions are included in the returned results based on whether their start times are within the * range specified by this filter. * </p> * This is a convenience that creates an instance of the {@link ExecutionTimeFilter.Builder} avoiding the need * to create one manually via {@link ExecutionTimeFilter#builder()}. * * When the {@link Consumer} completes, {@link ExecutionTimeFilter.Builder#build()} is called immediately and * its result is passed to {@link #startTimeFilter(ExecutionTimeFilter)}. * * @param startTimeFilter * a consumer that will call methods on {@link ExecutionTimeFilter.Builder} * @return Returns a reference to this object so that method calls can be chained together. * @see #startTimeFilter(ExecutionTimeFilter) */ default Builder startTimeFilter(Consumer<ExecutionTimeFilter.Builder> startTimeFilter) { return startTimeFilter(ExecutionTimeFilter.builder().applyMutation(startTimeFilter).build()); }
public final ExecutionTimeFilter.Builder getStartTimeFilter() { return startTimeFilter != null ? startTimeFilter.toBuilder() : null; }
@Override public ExecutionTimeFilter build() { return new ExecutionTimeFilter(this); } }
@Override public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (!(obj instanceof ExecutionTimeFilter)) { return false; } ExecutionTimeFilter other = (ExecutionTimeFilter) obj; return Objects.equals(oldestDate(), other.oldestDate()) && Objects.equals(latestDate(), other.latestDate()); }
/** * <p> * Workflow executions are included in the returned results based on whether their start times are within the * range specified by this filter. * </p> * This is a convenience that creates an instance of the {@link ExecutionTimeFilter.Builder} avoiding the need * to create one manually via {@link ExecutionTimeFilter#builder()}. * * When the {@link Consumer} completes, {@link ExecutionTimeFilter.Builder#build()} is called immediately and * its result is passed to {@link #startTimeFilter(ExecutionTimeFilter)}. * * @param startTimeFilter * a consumer that will call methods on {@link ExecutionTimeFilter.Builder} * @return Returns a reference to this object so that method calls can be chained together. * @see #startTimeFilter(ExecutionTimeFilter) */ default Builder startTimeFilter(Consumer<ExecutionTimeFilter.Builder> startTimeFilter) { return startTimeFilter(ExecutionTimeFilter.builder().applyMutation(startTimeFilter).build()); }
public final ExecutionTimeFilter.Builder getCloseTimeFilter() { return closeTimeFilter != null ? closeTimeFilter.toBuilder() : null; }
@Override public int hashCode() { int hashCode = 1; hashCode = 31 * hashCode + Objects.hashCode(oldestDate()); hashCode = 31 * hashCode + Objects.hashCode(latestDate()); return hashCode; }
/** * <p> * Specifies the start time criteria that workflow executions must meet in order to be counted. * </p> * This is a convenience that creates an instance of the {@link ExecutionTimeFilter.Builder} avoiding the need * to create one manually via {@link ExecutionTimeFilter#builder()}. * * When the {@link Consumer} completes, {@link ExecutionTimeFilter.Builder#build()} is called immediately and * its result is passed to {@link #startTimeFilter(ExecutionTimeFilter)}. * * @param startTimeFilter * a consumer that will call methods on {@link ExecutionTimeFilter.Builder} * @return Returns a reference to this object so that method calls can be chained together. * @see #startTimeFilter(ExecutionTimeFilter) */ default Builder startTimeFilter(Consumer<ExecutionTimeFilter.Builder> startTimeFilter) { return startTimeFilter(ExecutionTimeFilter.builder().applyMutation(startTimeFilter).build()); }
public final ExecutionTimeFilter.Builder getStartTimeFilter() { return startTimeFilter != null ? startTimeFilter.toBuilder() : null; }
@Override public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (!(obj instanceof ExecutionTimeFilter)) { return false; } ExecutionTimeFilter other = (ExecutionTimeFilter) obj; return Objects.equals(oldestDate(), other.oldestDate()) && Objects.equals(latestDate(), other.latestDate()); }