tech.tablesaw.columns.dates.DateMapFunctions Maven / Gradle / Ivy
/*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package tech.tablesaw.columns.dates;
import com.google.common.base.Preconditions;
import com.google.common.base.Strings;
import tech.tablesaw.api.DateColumn;
import tech.tablesaw.api.DateTimeColumn;
import tech.tablesaw.api.IntColumn;
import tech.tablesaw.api.StringColumn;
import tech.tablesaw.api.TimeColumn;
import tech.tablesaw.columns.Column;
import tech.tablesaw.columns.datetimes.PackedLocalDateTime;
import tech.tablesaw.columns.numbers.NumberColumnFormatter;
import java.time.LocalDate;
import java.time.LocalTime;
import java.time.temporal.ChronoUnit;
import java.time.temporal.TemporalUnit;
import java.time.temporal.UnsupportedTemporalTypeException;
import static tech.tablesaw.api.DateColumn.valueIsMissing;
/**
* An interface for mapping operations unique to Date columns
*/
public interface DateMapFunctions extends Column {
static String dateColumnName(Column column1, int value, TemporalUnit unit) {
return column1.name() + ": " + value + " " + unit.toString() + "(s)";
}
default IntColumn daysUntil(DateColumn column2) {
return timeUntil(column2, ChronoUnit.DAYS);
}
default IntColumn weeksUntil(DateColumn column2) {
return timeUntil(column2, ChronoUnit.WEEKS);
}
default IntColumn monthsUntil(DateColumn column2) {
return timeUntil(column2, ChronoUnit.MONTHS);
}
default IntColumn yearsUntil(DateColumn column2) {
return timeUntil(column2, ChronoUnit.YEARS);
}
default IntColumn dayOfMonth() {
IntColumn newColumn = IntColumn.create(this.name() + " day of month");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
newColumn.append(PackedLocalDate.getDayOfMonth(c1));
}
}
return newColumn;
}
default IntColumn dayOfYear() {
IntColumn newColumn = IntColumn.create(this.name() + " day of year");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
newColumn.append((short) PackedLocalDate.getDayOfYear(c1));
}
}
return newColumn;
}
default IntColumn monthValue() {
IntColumn newColumn = IntColumn.create(this.name() + " month");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
newColumn.append(PackedLocalDate.getMonthValue(c1));
}
}
return newColumn;
}
default StringColumn month() {
StringColumn newColumn = StringColumn.create(this.name() + " month");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
newColumn.append(PackedLocalDate.getMonth(c1).name());
}
}
return newColumn;
}
default IntColumn year() {
IntColumn newColumn = IntColumn.create(this.name() + " year");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
newColumn.append(PackedLocalDate.getYear(c1));
}
}
return newColumn;
}
/**
* Returns a StringColumn with the year and quarter from this column concatenated into a String that will sort
* lexicographically in temporal order.
*
* This simplifies the production of plots and tables that aggregate values into standard temporal units (e.g.,
* you want monthly data but your source data is more than a year long and you don't want months from different
* years aggregated together).
*/
default StringColumn yearQuarter() {
StringColumn newColumn = StringColumn.create(this.name() + " year & quarter");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
String yq = String.valueOf(PackedLocalDate.getYear(c1));
yq = yq + "-" + Strings.padStart(
String.valueOf(PackedLocalDate.getQuarter(c1)), 2, '0');
newColumn.append(yq);
}
}
return newColumn;
}
/**
* Returns a StringColumn with the year and month from this column concatenated into a String that will sort
* lexicographically in temporal order.
*
* This simplifies the production of plots and tables that aggregate values into standard temporal units (e.g.,
* you want monthly data but your source data is more than a year long and you don't want months from different
* years aggregated together).
*/
default StringColumn yearMonth() {
StringColumn newColumn = StringColumn.create(this.name() + " year & month");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
String ym = String.valueOf(PackedLocalDate.getYear(c1));
ym = ym + "-" + Strings.padStart(
String.valueOf(PackedLocalDate.getMonthValue(c1)), 2, '0');
newColumn.append(ym);
}
}
return newColumn;
}
/**
* Returns a StringColumn with the year and day-of-year derived from this column concatenated into a String
* that will sort lexicographically in temporal order.
*
* This simplifies the production of plots and tables that aggregate values into standard temporal units (e.g.,
* you want monthly data but your source data is more than a year long and you don't want months from different
* years aggregated together).
*/
default StringColumn yearDay() {
StringColumn newColumn = StringColumn.create(this.name() + " year & month");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
String ym = String.valueOf(PackedLocalDate.getYear(c1));
ym = ym + "-" + Strings.padStart(
String.valueOf(PackedLocalDate.getDayOfYear(c1)), 3, '0');
newColumn.append(ym);
}
}
return newColumn;
}
/**
* Returns a StringColumn with the year and week-of-year derived from this column concatenated into a String
* that will sort lexicographically in temporal order.
*
* This simplifies the production of plots and tables that aggregate values into standard temporal units (e.g.,
* you want monthly data but your source data is more than a year long and you don't want months from different
* years aggregated together).
*/
default StringColumn yearWeek() {
StringColumn newColumn = StringColumn.create(this.name() + " year & month");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
String ym = String.valueOf(PackedLocalDate.getYear(c1));
ym = ym + "-" + Strings.padStart(
String.valueOf(PackedLocalDate.getWeekOfYear(c1)), 2, '0');
newColumn.append(ym);
}
}
return newColumn;
}
default IntColumn dayOfWeekValue() {
IntColumn newColumn = IntColumn.create(this.name() + " day of week", this.size());
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.setMissing(r);
} else {
newColumn.set(r, (short) PackedLocalDate.getDayOfWeek(c1).getValue());
}
}
return newColumn;
}
default StringColumn dayOfWeek() {
StringColumn newColumn = StringColumn.create(this.name() + " day of week");
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (DateColumn.valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
newColumn.append(PackedLocalDate.getDayOfWeek(c1).toString());
}
}
return newColumn;
}
/**
* Calculates the temporal difference between each element of the receiver and the respective element of the
* argument
*
* Missing values in either result in a Missing Value for the new column
*/
default IntColumn timeUntil(DateColumn end, ChronoUnit unit) {
IntColumn newColumn = IntColumn.create(name() + " - " + end.name() + "[" + unit.name() + "]");
for (int r = 0; r < size(); r++) {
int c1 = getIntInternal(r);
int c2 = end.getIntInternal(r);
if (valueIsMissing(c1) || valueIsMissing(c2)) {
newColumn.appendMissing();
} else {
switch (unit) {
case DAYS:
newColumn.append(PackedLocalDate.daysUntil(c2, c1));
break;
case WEEKS:
newColumn.append(PackedLocalDate.weeksUntil(c2, c1));
break;
case MONTHS:
newColumn.append(PackedLocalDate.monthsUntil(c2, c1));
break;
case YEARS:
newColumn.append(PackedLocalDate.yearsUntil(c2, c1));
break;
default: // handle decades, etc.
LocalDate value1 = PackedLocalDate.asLocalDate(c1);
LocalDate value2 = PackedLocalDate.asLocalDate(c2);
if (value1 == null || value2 == null) {
newColumn.appendMissing();
} else {
newColumn.append((int) unit.between(value1, value2));
}
break;
}
}
}
return newColumn;
}
// These functions fill some amount of time to a date, producing a new date column
default DateColumn plusDays(int days) {
return plus(days, ChronoUnit.DAYS);
}
default DateColumn plusWeeks(int weeks) {
return plus(weeks, ChronoUnit.WEEKS);
}
default DateColumn plusYears(int years) {
return plus(years, ChronoUnit.YEARS);
}
// These functions subtract some amount of time from a date, producing a new date column
default DateColumn plusMonths(int months) {
return plus(months, ChronoUnit.MONTHS);
}
default DateColumn minusDays(int days) {
return plusDays(-days);
}
default DateColumn minusWeeks(int weeks) {
return plusWeeks(-weeks);
}
default DateColumn minusYears(int years) {
return plusYears(-years);
}
default DateColumn minusMonths(int months) {
return plusMonths(-months);
}
/**
* Returns a column containing integers representing the nth group (0-based) that a date falls into.
*
* Example: When Unit = ChronoUnit.DAY and n = 5, we form 5 day groups. a Date that is 2 days after the start
* is assigned to the first ("0") group. A day 7 days after the start is assigned to the second ("1") group.
*
* @param unit A ChronoUnit greater than or equal to a day
* @param n The number of units in each group.
* @param start The starting point of the first group; group boundaries are offsets from this point
*/
default IntColumn timeWindow(ChronoUnit unit, int n, LocalDate start) {
String newColumnName = "" + n + " " + unit.toString() + " window [" + name() + "]";
int packedStartDate = PackedLocalDate.pack(start);
IntColumn numberColumn = IntColumn.create(newColumnName, size());
for (int i = 0; i < size(); i++) {
int packedDate = getIntInternal(i);
int result;
switch (unit) {
case DAYS:
result = PackedLocalDate.daysUntil(packedDate, packedStartDate) / n;
numberColumn.set(i, result); break;
case WEEKS:
result = PackedLocalDate.weeksUntil(packedDate, packedStartDate) / n;
numberColumn.set(i, result); break;
case MONTHS:
result = PackedLocalDate.monthsUntil(packedDate, packedStartDate) / n;
numberColumn.set(i, result); break;
case YEARS:
result = PackedLocalDate.yearsUntil(packedDate, packedStartDate) / n;
numberColumn.set(i, result); break;
default:
throw new UnsupportedTemporalTypeException("The ChronoUnit " + unit + " is not supported for timeWindows on dates");
}
}
numberColumn.setPrintFormatter(NumberColumnFormatter.ints());
return numberColumn;
}
default IntColumn timeWindow(ChronoUnit unit, int n) {
return timeWindow(unit, n, min());
}
default DateColumn plus(int value, ChronoUnit unit) {
DateColumn newColumn = DateColumn.create(dateColumnName(this, value, unit));
DateColumn column1 = (DateColumn) this;
for (int r = 0; r < column1.size(); r++) {
int packedDate = column1.getIntInternal(r);
if (packedDate == DateColumnType.missingValueIndicator()) {
newColumn.appendMissing();
} else {
newColumn.appendInternal(PackedLocalDate.plus(value, unit, packedDate));
}
}
return newColumn;
}
// misc functions
default DateColumn minus(int value, ChronoUnit unit) {
return plus(-value, unit);
}
default DateTimeColumn atStartOfDay() {
DateTimeColumn newColumn = DateTimeColumn.create(this.name() + " " + " start");
for (int r = 0; r < this.size(); r++) {
LocalDate c1 = this.get(r);
if (c1 == null) {
newColumn.appendMissing();
} else {
newColumn.append(c1.atStartOfDay());
}
}
return newColumn;
}
/**
* Returns a DateTime column where each value consists of the dates from this column combined with the corresponding
* times from the other column
*/
default DateTimeColumn atTime(LocalTime time) {
Preconditions.checkNotNull(time);
DateTimeColumn newColumn = DateTimeColumn.create(this.name() + " " + time.toString());
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
if (valueIsMissing(c1)) {
newColumn.appendMissing();
} else {
LocalDate value1 = PackedLocalDate.asLocalDate(c1);
newColumn.appendInternal(PackedLocalDateTime.pack(value1, time));
}
}
return newColumn;
}
/**
* Returns a DateTime column where each value consists of the dates from this column combined with the corresponding
* times from the other column
*/
default DateTimeColumn atTime(TimeColumn timeColumn) {
DateTimeColumn newColumn = DateTimeColumn.create(this.name() + " " + timeColumn.name());
for (int r = 0; r < this.size(); r++) {
int c1 = this.getIntInternal(r);
int c2 = timeColumn.getIntInternal(r);
if (valueIsMissing(c1) || valueIsMissing(c2)) {
newColumn.appendMissing();
} else {
newColumn.appendInternal(PackedLocalDateTime.create(c1, c2));
}
}
return newColumn;
}
int getIntInternal(int r);
LocalDate get(int index);
LocalDate min();
LocalDate max();
}