数据库函数

下面记录的类为用户提供了一种方法,可以在 Django 中使用底层数据库提供的函数作为注解、聚合或过滤器。函数也是 表达式,所以它们可以和其他表达式一起使用和组合,比如 聚合函数

我们将在每个函数的例子中使用以下模型:

class Author(models.Model):
    name = models.CharField(max_length=50)
    age = models.PositiveIntegerField(null=True, blank=True)
    alias = models.CharField(max_length=50, null=True, blank=True)
    goes_by = models.CharField(max_length=50, null=True, blank=True)

我们通常不建议允许 null=TrueCharField,因为这允许字段有两个 Coalesce,但它对下面的 Coalesce 例子很重要。

比较和转换函数

Cast

class Cast(expression, output_field)

强制 expression 的结果类型为 output_field 的类型。

Usage example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Cast
>>> Author.objects.create(age=25, name="Margaret Smith")
>>> author = Author.objects.annotate(
...     age_as_float=Cast("age", output_field=FloatField()),
... ).get()
>>> print(author.age_as_float)
25.0

Coalesce

class Coalesce(*expressions, **extra)

接受至少两个字段名或表达式的列表,并返回第一个非空值(注意,空字符串不被视为空值)。每个参数必须是同样的类型,因此混合文本和数字将导致数据库错误。

Usage examples:

>>> # Get a screen name from least to most public
>>> from django.db.models import Sum
>>> from django.db.models.functions import Coalesce
>>> Author.objects.create(name="Margaret Smith", goes_by="Maggie")
>>> author = Author.objects.annotate(screen_name=Coalesce("alias", "goes_by", "name")).get()
>>> print(author.screen_name)
Maggie

>>> # Prevent an aggregate Sum() from returning None
>>> # The aggregate default argument uses Coalesce() under the hood.
>>> aggregated = Author.objects.aggregate(
...     combined_age=Sum("age"),
...     combined_age_default=Sum("age", default=0),
...     combined_age_coalesce=Coalesce(Sum("age"), 0),
... )
>>> print(aggregated["combined_age"])
None
>>> print(aggregated["combined_age_default"])
0
>>> print(aggregated["combined_age_coalesce"])
0

警告

在 MySQL 上传递给 Coalesce 的 Python 值可能会被转换为不正确的类型,除非明确地转换为正确的数据库类型:

>>> from django.db.models import DateTimeField
>>> from django.db.models.functions import Cast, Coalesce
>>> from django.utils import timezone
>>> now = timezone.now()
>>> Coalesce('updated', Cast(now, DateTimeField()))

Collate

class Collate(expression, collation)

Takes an expression and a collation name to query against.

For example, to filter case-insensitively in SQLite:

>>> Author.objects.filter(name=Collate(Value("john"), "nocase"))
<QuerySet [<Author: John>, <Author: john>]>

It can also be used when ordering, for example with PostgreSQL:

>>> Author.objects.order_by(Collate("name", "et-x-icu"))
<QuerySet [<Author: Ursula>, <Author: Veronika>, <Author: Ülle>]>

Greatest

class Greatest(*expressions, **extra)

接受至少两个字段名或表达式的列表,并返回最大的值。每个参数必须是同样的类型,所以混合文本和数字会导致数据库错误。

使用实例:

class Blog(models.Model):
    body = models.TextField()
    modified = models.DateTimeField(auto_now=True)


class Comment(models.Model):
    body = models.TextField()
    modified = models.DateTimeField(auto_now=True)
    blog = models.ForeignKey(Blog, on_delete=models.CASCADE)
>>> from django.db.models.functions import Greatest
>>> blog = Blog.objects.create(body="Greatest is the best.")
>>> comment = Comment.objects.create(body="No, Least is better.", blog=blog)
>>> comments = Comment.objects.annotate(last_updated=Greatest("modified", "blog__modified"))
>>> annotated_comment = comments.get()

annotated_comment.last_updated 将是 blog.modifiedcomment.modified 中最近的。

警告

当一个或多个表达式可能为 null 时,Greatest 的行为在不同的数据库之间有所不同。

  • PostgreSQL:Greatest 将返回最大的非空表达式,如果所有表达式都是 null,则返回 null
  • SQLite、Oracle 和 MySQL。如果任何表达式是 nullGreatest 将返回 null

如果你知道一个合理的最小值作为默认值,可以使用 Coalesce 来模拟 PostgreSQL 的行为。

JSONObject

class JSONObject(**fields)

Takes a list of key-value pairs and returns a JSON object containing those pairs.

Usage example:

>>> from django.db.models import F
>>> from django.db.models.functions import JSONObject, Lower
>>> Author.objects.create(name="Margaret Smith", alias="msmith", age=25)
>>> author = Author.objects.annotate(
...     json_object=JSONObject(
...         name=Lower("name"),
...         alias="alias",
...         age=F("age") * 2,
...     )
... ).get()
>>> author.json_object
{'name': 'margaret smith', 'alias': 'msmith', 'age': 50}

Least

class Least(*expressions, **extra)

接受至少两个字段名或表达式的列表,并返回最小值。每个参数必须是同样的类型,因此混合文本和数字将导致数据库错误。

警告

当一个或多个表达式可能是 null 时,Least 的行为在不同的数据库之间有所不同。

  • PostgreSQL:Least 将返回最小的非空表达式,如果所有表达式都是 null,则返回 null
  • SQLite、Oracle 和 MySQL。如果任何表达式是 nullLeast 将返回 null

如果你知道一个合理的最大值作为默认值,可以使用` Coalesce` 来模拟 PostgreSQL 的行为。

NullIf

class NullIf(expression1, expression2)

接受两个表达式,如果相等则返回 None,否则返回 expression1

关于 Oracle 的注意事项

由于 Oracle 惯例,当表达式为 CharField 类型时,该函数返回空字符串而不是 None

在 Oracle 上禁止将 Value(None) 传递给 expression1,因为 Oracle 不接受 NULL 作为第一个参数。

日期函数

我们将在每个函数的例子中使用以下模型:

class Experiment(models.Model):
    start_datetime = models.DateTimeField()
    start_date = models.DateField(null=True, blank=True)
    start_time = models.TimeField(null=True, blank=True)
    end_datetime = models.DateTimeField(null=True, blank=True)
    end_date = models.DateField(null=True, blank=True)
    end_time = models.TimeField(null=True, blank=True)

Extract

class Extract(expression, lookup_name=None, tzinfo=None, **extra)

提取日期的一个组成部分作为一个数字。

Takes an expression representing a DateField, DateTimeField, TimeField, or DurationField and a lookup_name, and returns the part of the date referenced by lookup_name as an IntegerField. Django usually uses the databases' extract function, so you may use any lookup_name that your database supports. A tzinfo subclass, usually provided by zoneinfo, can be passed to extract a value in a specific timezone.

给定日期时间 2015-06-15 23:30:01.000321+00:00,内置的 lookup_name 返回。

  • "year": 2015
  • "iso_year": 2015
  • "quarter": 2
  • "month": 6
  • "day": 15
  • "week": 25
  • "week_day": 2
  • "iso_week_day": 1
  • "hour": 23
  • "minute": 30
  • "second": 1

如果在 Django 中使用了不同的时区,比如 Australia/Melbourne ,那么在提取值之前,日期时间会被转换为该时区。在上面的例子中,墨尔本的时区偏移是 +10:00。当这个时区被激活时,返回的值将与上述相同,除了:

  • "day": 16
  • "week_day": 3
  • "iso_week_day": 2
  • "hour": 9

week_day

week_day lookup_type 的计算方式与大多数数据库和 Python 的标准函数不同。这个函数将返回星期日的 1,星期一的 2,到星期六的 7

The equivalent calculation in Python is:

>>> from datetime import datetime
>>> dt = datetime(2015, 6, 15)
>>> (dt.isoweekday() % 7) + 1
2

week

The week lookup_type is calculated based on ISO-8601, i.e., a week starts on a Monday. The first week of a year is the one that contains the year's first Thursday, i.e. the first week has the majority (four or more) of its days in the year. The value returned is in the range 1 to 52 or 53.

上面的每个 lookup_name 都有一个相应的 Extract 子类(下面列出的),通常应该用这个子类来代替比较啰嗦的等价物,例如,使用 ExtractYear(...) 而不是 Extract(...,lookup_name='year')

Usage example:

>>> from datetime import datetime
>>> from django.db.models.functions import Extract
>>> start = datetime(2015, 6, 15)
>>> end = datetime(2015, 7, 2)
>>> Experiment.objects.create(
...     start_datetime=start, start_date=start.date(), end_datetime=end, end_date=end.date()
... )
>>> # Add the experiment start year as a field in the QuerySet.
>>> experiment = Experiment.objects.annotate(
...     start_year=Extract("start_datetime", "year")
... ).get()
>>> experiment.start_year
2015
>>> # How many experiments completed in the same year in which they started?
>>> Experiment.objects.filter(start_datetime__year=Extract("end_datetime", "year")).count()
1

DateField 提取

class ExtractYear(expression, tzinfo=None, **extra)
lookup_name = 'year'
class ExtractIsoYear(expression, tzinfo=None, **extra)

返回 ISO-8601 的周号年份。

lookup_name = 'iso_year'
class ExtractMonth(expression, tzinfo=None, **extra)
lookup_name = 'month'
class ExtractDay(expression, tzinfo=None, **extra)
lookup_name = 'day'
class ExtractWeekDay(expression, tzinfo=None, **extra)
lookup_name = 'week_day'
class ExtractIsoWeekDay(expression, tzinfo=None, **extra)

返回 ISO-8601 的星期日,第 1 天是星期一,第 7 天是星期天。

lookup_name = 'iso_week_day'
class ExtractWeek(expression, tzinfo=None, **extra)
lookup_name = 'week'
class ExtractQuarter(expression, tzinfo=None, **extra)
lookup_name = 'quarter'

这些类在逻辑上等同于 Extract('date_field', lookup_name)。每个类也是一个 TransformDateFieldDateTimeField 上注册为 __(lookup_name)`,例如 __year

Since DateFields don't have a time component, only Extract subclasses that deal with date-parts can be used with DateField:

>>> from datetime import datetime, timezone
>>> from django.db.models.functions import (
...     ExtractDay,
...     ExtractMonth,
...     ExtractQuarter,
...     ExtractWeek,
...     ExtractIsoWeekDay,
...     ExtractWeekDay,
...     ExtractIsoYear,
...     ExtractYear,
... )
>>> start_2015 = datetime(2015, 6, 15, 23, 30, 1, tzinfo=timezone.utc)
>>> end_2015 = datetime(2015, 6, 16, 13, 11, 27, tzinfo=timezone.utc)
>>> Experiment.objects.create(
...     start_datetime=start_2015,
...     start_date=start_2015.date(),
...     end_datetime=end_2015,
...     end_date=end_2015.date(),
... )
>>> Experiment.objects.annotate(
...     year=ExtractYear("start_date"),
...     isoyear=ExtractIsoYear("start_date"),
...     quarter=ExtractQuarter("start_date"),
...     month=ExtractMonth("start_date"),
...     week=ExtractWeek("start_date"),
...     day=ExtractDay("start_date"),
...     weekday=ExtractWeekDay("start_date"),
...     isoweekday=ExtractIsoWeekDay("start_date"),
... ).values(
...     "year",
...     "isoyear",
...     "quarter",
...     "month",
...     "week",
...     "day",
...     "weekday",
...     "isoweekday",
... ).get(
...     end_date__year=ExtractYear("start_date")
... )
{'year': 2015, 'isoyear': 2015, 'quarter': 2, 'month': 6, 'week': 25,
 'day': 15, 'weekday': 2, 'isoweekday': 1}

DateTimeField 提取

除以下内容外,上述 DateField 的所有提取物也可用于``DateTimeField``。

class ExtractHour(expression, tzinfo=None, **extra)
lookup_name = 'hour'
class ExtractMinute(expression, tzinfo=None, **extra)
lookup_name = 'minute'
class ExtractSecond(expression, tzinfo=None, **extra)
lookup_name = 'second'

这些类在逻辑上等同于 Extract('datetime_field', lookup_name)。每个类也是一个 TransformDateTimeField 上注册为 __(lookup_name),例如 __minute

DateTimeField examples:

>>> from datetime import datetime, timezone
>>> from django.db.models.functions import (
...     ExtractDay,
...     ExtractHour,
...     ExtractMinute,
...     ExtractMonth,
...     ExtractQuarter,
...     ExtractSecond,
...     ExtractWeek,
...     ExtractIsoWeekDay,
...     ExtractWeekDay,
...     ExtractIsoYear,
...     ExtractYear,
... )
>>> start_2015 = datetime(2015, 6, 15, 23, 30, 1, tzinfo=timezone.utc)
>>> end_2015 = datetime(2015, 6, 16, 13, 11, 27, tzinfo=timezone.utc)
>>> Experiment.objects.create(
...     start_datetime=start_2015,
...     start_date=start_2015.date(),
...     end_datetime=end_2015,
...     end_date=end_2015.date(),
... )
>>> Experiment.objects.annotate(
...     year=ExtractYear("start_datetime"),
...     isoyear=ExtractIsoYear("start_datetime"),
...     quarter=ExtractQuarter("start_datetime"),
...     month=ExtractMonth("start_datetime"),
...     week=ExtractWeek("start_datetime"),
...     day=ExtractDay("start_datetime"),
...     weekday=ExtractWeekDay("start_datetime"),
...     isoweekday=ExtractIsoWeekDay("start_datetime"),
...     hour=ExtractHour("start_datetime"),
...     minute=ExtractMinute("start_datetime"),
...     second=ExtractSecond("start_datetime"),
... ).values(
...     "year",
...     "isoyear",
...     "month",
...     "week",
...     "day",
...     "weekday",
...     "isoweekday",
...     "hour",
...     "minute",
...     "second",
... ).get(
...     end_datetime__year=ExtractYear("start_datetime")
... )
{'year': 2015, 'isoyear': 2015, 'quarter': 2, 'month': 6, 'week': 25,
 'day': 15, 'weekday': 2, 'isoweekday': 1, 'hour': 23, 'minute': 30,
 'second': 1}

When USE_TZ is True then datetimes are stored in the database in UTC. If a different timezone is active in Django, the datetime is converted to that timezone before the value is extracted. The example below converts to the Melbourne timezone (UTC +10:00), which changes the day, weekday, and hour values that are returned:

>>> from django.utils import timezone
>>> import zoneinfo
>>> melb = zoneinfo.ZoneInfo("Australia/Melbourne")  # UTC+10:00
>>> with timezone.override(melb):
...     Experiment.objects.annotate(
...         day=ExtractDay("start_datetime"),
...         weekday=ExtractWeekDay("start_datetime"),
...         isoweekday=ExtractIsoWeekDay("start_datetime"),
...         hour=ExtractHour("start_datetime"),
...     ).values("day", "weekday", "isoweekday", "hour").get(
...         end_datetime__year=ExtractYear("start_datetime"),
...     )
...
{'day': 16, 'weekday': 3, 'isoweekday': 2, 'hour': 9}

Explicitly passing the timezone to the Extract function behaves in the same way, and takes priority over an active timezone:

>>> import zoneinfo
>>> melb = zoneinfo.ZoneInfo("Australia/Melbourne")
>>> Experiment.objects.annotate(
...     day=ExtractDay("start_datetime", tzinfo=melb),
...     weekday=ExtractWeekDay("start_datetime", tzinfo=melb),
...     isoweekday=ExtractIsoWeekDay("start_datetime", tzinfo=melb),
...     hour=ExtractHour("start_datetime", tzinfo=melb),
... ).values("day", "weekday", "isoweekday", "hour").get(
...     end_datetime__year=ExtractYear("start_datetime"),
... )
{'day': 16, 'weekday': 3, 'isoweekday': 2, 'hour': 9}

Now

class Now

返回数据库服务器执行查询时的当前日期和时间,通常使用 SQL CURRENT_TIMESTAMP

Usage example:

>>> from django.db.models.functions import Now
>>> Article.objects.filter(published__lte=Now())
<QuerySet [<Article: How to Django>]>

PostgreSQL 的注意事项

在 PostgreSQL 中,SQL CURRENT_TIMESTAMP 返回的是当前事务开始的时间,因此为了跨数据库的兼容性,Now() 使用 STATEMENT_TIMESTAMP 代替。因此为了跨数据库的兼容性,Now() 使用 STATEMENT_TIMESTAMP 代替。如果需要事务时间戳,可以使用 django.contrib.postgres.function.TransactionNow

Changed in Django 4.2:

Support for microsecond precision on MySQL and millisecond precision on SQLite were added.

Trunc

class Trunc(expression, kind, output_field=None, tzinfo=None, is_dst=None, **extra)

将一个日期截断到一个重要的部分。

当你只关心某事是否发生在某年、某小时或某天,而不关心确切的秒数时,那么 Trunc (及其子类)可以用来过滤或汇总你的数据。例如,你可以使用 Trunc 来计算每天的销售数量。

Trunc takes a single expression, representing a DateField, TimeField, or DateTimeField, a kind representing a date or time part, and an output_field that's either DateTimeField(), TimeField(), or DateField(). It returns a datetime, date, or time depending on output_field, with fields up to kind set to their minimum value. If output_field is omitted, it will default to the output_field of expression. A tzinfo subclass, usually provided by zoneinfo, can be passed to truncate a value in a specific timezone.

4.0 版后已移除: is_dst 参数表示 pytz 是否应该解释夏令时中不存在的和模糊的日期。默认情况下(当 is_dst=None),pytz 会对这种日期时间产生异常。

is_dst 参数已被废弃,将在 Django 5.0 中删除。

给定日期时间 2015-06-15 14:30:50.000321+00:00,内置 kind 返回:

  • "year": 2015-01-01 00:00:00+00:00
  • "quarter": 2015-04-01 00:00:00+00:00
  • "month": 2015-06-01 00:00:00+00:00
  • "week": 2015-06-15 00:00:00+00:00
  • "day": 2015-06-15 00:00:00+00:00
  • "hour": 2015-06-15 14:00:00+00:00
  • "minute": 2015-06-15 14:30:00+00:00
  • "second": 2015-06-15 14:30:50+00:00

如果在 Django 中使用了不同的时区,比如 Australia/Melbourne,那么日期时间会在被截断之前转换为新的时区。在上面的例子中,墨尔本的时区偏移是 +10:00。当这个时区被激活时,返回的值将是:

  • "year": 2015-01-01 00:00:00+11:00
  • "quarter": 2015-04-01 00:00:00+10:00
  • "month": 2015-06-01 00:00:00+10:00
  • "week": 2015-06-16 00:00:00+10:00
  • "day": 2015-06-16 00:00:00+10:00
  • "hour": 2015-06-16 00:00:00+10:00
  • "minute": 2015-06-16 00:30:00+10:00
  • "second": 2015-06-16 00:30:50+10:00

年的偏移量为 +11:00,因为结果过渡到夏令时。

以上每个 kind 都有一个对应的 Trunc 子类(下面列出的),通常应该用这个子类来代替比较啰嗦的等价物,例如使用 TruncYear(...) 而不是 Trunc(...,kind='year')

子类都被定义为变换,但它们没有注册任何字段,因为查找名称已经被 Extract 子类保留。

Usage example:

>>> from datetime import datetime
>>> from django.db.models import Count, DateTimeField
>>> from django.db.models.functions import Trunc
>>> Experiment.objects.create(start_datetime=datetime(2015, 6, 15, 14, 30, 50, 321))
>>> Experiment.objects.create(start_datetime=datetime(2015, 6, 15, 14, 40, 2, 123))
>>> Experiment.objects.create(start_datetime=datetime(2015, 12, 25, 10, 5, 27, 999))
>>> experiments_per_day = (
...     Experiment.objects.annotate(
...         start_day=Trunc("start_datetime", "day", output_field=DateTimeField())
...     )
...     .values("start_day")
...     .annotate(experiments=Count("id"))
... )
>>> for exp in experiments_per_day:
...     print(exp["start_day"], exp["experiments"])
...
2015-06-15 00:00:00 2
2015-12-25 00:00:00 1
>>> experiments = Experiment.objects.annotate(
...     start_day=Trunc("start_datetime", "day", output_field=DateTimeField())
... ).filter(start_day=datetime(2015, 6, 15))
>>> for exp in experiments:
...     print(exp.start_datetime)
...
2015-06-15 14:30:50.000321
2015-06-15 14:40:02.000123

DateField 截断

class TruncYear(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'year'
class TruncMonth(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'month'
class TruncWeek(expression, output_field=None, tzinfo=None, is_dst=None, **extra)

截断到每周一的午夜。

kind = 'week'
class TruncQuarter(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'quarter'

4.0 版后已移除: is_dst 参数已被废弃,将在 Django 5.0 中删除。

这些在逻辑上等同于 Trunc('date_field', kind)。它们截断日期的所有部分,直至 kind,允许以较低的精度对日期进行分组或过滤。expression 可以有一个 output_fieldDateFieldDateTimeField

Since DateFields don't have a time component, only Trunc subclasses that deal with date-parts can be used with DateField:

>>> from datetime import datetime, timezone
>>> from django.db.models import Count
>>> from django.db.models.functions import TruncMonth, TruncYear
>>> start1 = datetime(2014, 6, 15, 14, 30, 50, 321, tzinfo=timezone.utc)
>>> start2 = datetime(2015, 6, 15, 14, 40, 2, 123, tzinfo=timezone.utc)
>>> start3 = datetime(2015, 12, 31, 17, 5, 27, 999, tzinfo=timezone.utc)
>>> Experiment.objects.create(start_datetime=start1, start_date=start1.date())
>>> Experiment.objects.create(start_datetime=start2, start_date=start2.date())
>>> Experiment.objects.create(start_datetime=start3, start_date=start3.date())
>>> experiments_per_year = (
...     Experiment.objects.annotate(year=TruncYear("start_date"))
...     .values("year")
...     .annotate(experiments=Count("id"))
... )
>>> for exp in experiments_per_year:
...     print(exp["year"], exp["experiments"])
...
2014-01-01 1
2015-01-01 2

>>> import zoneinfo
>>> melb = zoneinfo.ZoneInfo("Australia/Melbourne")
>>> experiments_per_month = (
...     Experiment.objects.annotate(month=TruncMonth("start_datetime", tzinfo=melb))
...     .values("month")
...     .annotate(experiments=Count("id"))
... )
>>> for exp in experiments_per_month:
...     print(exp["month"], exp["experiments"])
...
2015-06-01 00:00:00+10:00 1
2016-01-01 00:00:00+11:00 1
2014-06-01 00:00:00+10:00 1

DateTimeField 截断

class TruncDate(expression, tzinfo=None, **extra)
lookup_name = 'date'
output_field = DateField()

TruncDateexpression 投射到一个日期,而不是使用内置的 SQL truncate 函数。在 DateTimeField 上,它也被注册为 __date 的转换。

class TruncTime(expression, tzinfo=None, **extra)
lookup_name = 'time'
output_field = TimeField()

TruncTimeexpression 投射到一个时间,而不是使用内置的 SQL truncate 函数。在 DateTimeField 上,它也被注册为 __time 的转换。

class TruncDay(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'day'
class TruncHour(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'hour'
class TruncMinute(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'minute'
class TruncSecond(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'second'

4.0 版后已移除: is_dst 参数已被废弃,将在 Django 5.0 中删除。

这些在逻辑上等同于 Trunc('datetime_field', kind)。它们截断日期的所有部分,直至 kind,并允许以较低的精度对日期时间进行分组或过滤。expression 必须有一个 output_fieldDateTimeField

Usage example:

>>> from datetime import date, datetime, timezone
>>> from django.db.models import Count
>>> from django.db.models.functions import (
...     TruncDate,
...     TruncDay,
...     TruncHour,
...     TruncMinute,
...     TruncSecond,
... )
>>> import zoneinfo
>>> start1 = datetime(2014, 6, 15, 14, 30, 50, 321, tzinfo=timezone.utc)
>>> Experiment.objects.create(start_datetime=start1, start_date=start1.date())
>>> melb = zoneinfo.ZoneInfo("Australia/Melbourne")
>>> Experiment.objects.annotate(
...     date=TruncDate("start_datetime"),
...     day=TruncDay("start_datetime", tzinfo=melb),
...     hour=TruncHour("start_datetime", tzinfo=melb),
...     minute=TruncMinute("start_datetime"),
...     second=TruncSecond("start_datetime"),
... ).values("date", "day", "hour", "minute", "second").get()
{'date': datetime.date(2014, 6, 15),
 'day': datetime.datetime(2014, 6, 16, 0, 0, tzinfo=zoneinfo.ZoneInfo('Australia/Melbourne')),
 'hour': datetime.datetime(2014, 6, 16, 0, 0, tzinfo=zoneinfo.ZoneInfo('Australia/Melbourne')),
 'minute': 'minute': datetime.datetime(2014, 6, 15, 14, 30, tzinfo=timezone.utc),
 'second': datetime.datetime(2014, 6, 15, 14, 30, 50, tzinfo=timezone.utc)
}

TimeField 截断

class TruncHour(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'hour'
class TruncMinute(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'minute'
class TruncSecond(expression, output_field=None, tzinfo=None, is_dst=None, **extra)
kind = 'second'

4.0 版后已移除: is_dst 参数已被废弃,将在 Django 5.0 中删除。

这些在逻辑上等同于 Trunc('time_field', kind)。它们截断时间的所有部分,直至 kind,这就允许以较低的精度对时间进行分组或过滤。expression 可以有一个 output_fieldTimeFieldDateTimeField

Since TimeFields don't have a date component, only Trunc subclasses that deal with time-parts can be used with TimeField:

>>> from datetime import datetime, timezone
>>> from django.db.models import Count, TimeField
>>> from django.db.models.functions import TruncHour
>>> start1 = datetime(2014, 6, 15, 14, 30, 50, 321, tzinfo=timezone.utc)
>>> start2 = datetime(2014, 6, 15, 14, 40, 2, 123, tzinfo=timezone.utc)
>>> start3 = datetime(2015, 12, 31, 17, 5, 27, 999, tzinfo=timezone.utc)
>>> Experiment.objects.create(start_datetime=start1, start_time=start1.time())
>>> Experiment.objects.create(start_datetime=start2, start_time=start2.time())
>>> Experiment.objects.create(start_datetime=start3, start_time=start3.time())
>>> experiments_per_hour = (
...     Experiment.objects.annotate(
...         hour=TruncHour("start_datetime", output_field=TimeField()),
...     )
...     .values("hour")
...     .annotate(experiments=Count("id"))
... )
>>> for exp in experiments_per_hour:
...     print(exp["hour"], exp["experiments"])
...
14:00:00 2
17:00:00 1

>>> import zoneinfo
>>> melb = zoneinfo.ZoneInfo("Australia/Melbourne")
>>> experiments_per_hour = (
...     Experiment.objects.annotate(
...         hour=TruncHour("start_datetime", tzinfo=melb),
...     )
...     .values("hour")
...     .annotate(experiments=Count("id"))
... )
>>> for exp in experiments_per_hour:
...     print(exp["hour"], exp["experiments"])
...
2014-06-16 00:00:00+10:00 2
2016-01-01 04:00:00+11:00 1

数学函数

我们将在数学函数实例中使用以下模型:

class Vector(models.Model):
    x = models.FloatField()
    y = models.FloatField()

Abs

class Abs(expression, **extra)

返回一个数值字段或表达式的绝对值。

Usage example:

>>> from django.db.models.functions import Abs
>>> Vector.objects.create(x=-0.5, y=1.1)
>>> vector = Vector.objects.annotate(x_abs=Abs("x"), y_abs=Abs("y")).get()
>>> vector.x_abs, vector.y_abs
(0.5, 1.1)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Abs
>>> FloatField.register_lookup(Abs)
>>> # Get vectors inside the unit cube
>>> vectors = Vector.objects.filter(x__abs__lt=1, y__abs__lt=1)

ACos

class ACos(expression, **extra)

返回一个数值字段或表达式的余弦值。表达式的值必须在 -1 到 1 的范围内。

Usage example:

>>> from django.db.models.functions import ACos
>>> Vector.objects.create(x=0.5, y=-0.9)
>>> vector = Vector.objects.annotate(x_acos=ACos("x"), y_acos=ACos("y")).get()
>>> vector.x_acos, vector.y_acos
(1.0471975511965979, 2.6905658417935308)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import ACos
>>> FloatField.register_lookup(ACos)
>>> # Get vectors whose arccosine is less than 1
>>> vectors = Vector.objects.filter(x__acos__lt=1, y__acos__lt=1)

ASin

class ASin(expression, **extra)

返回一个数值字段或表达式的正弦值。表达式的值必须在 -1 到 1 的范围内。

Usage example:

>>> from django.db.models.functions import ASin
>>> Vector.objects.create(x=0, y=1)
>>> vector = Vector.objects.annotate(x_asin=ASin("x"), y_asin=ASin("y")).get()
>>> vector.x_asin, vector.y_asin
(0.0, 1.5707963267948966)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import ASin
>>> FloatField.register_lookup(ASin)
>>> # Get vectors whose arcsine is less than 1
>>> vectors = Vector.objects.filter(x__asin__lt=1, y__asin__lt=1)

ATan

class ATan(expression, **extra)

返回一个数值字段或表达式的正切值。

Usage example:

>>> from django.db.models.functions import ATan
>>> Vector.objects.create(x=3.12, y=6.987)
>>> vector = Vector.objects.annotate(x_atan=ATan("x"), y_atan=ATan("y")).get()
>>> vector.x_atan, vector.y_atan
(1.2606282660069106, 1.428638798133829)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import ATan
>>> FloatField.register_lookup(ATan)
>>> # Get vectors whose arctangent is less than 2
>>> vectors = Vector.objects.filter(x__atan__lt=2, y__atan__lt=2)

ATan2

class ATan2(expression1, expression2, **extra)

返回 expression1 / expression2 的正切值。

Usage example:

>>> from django.db.models.functions import ATan2
>>> Vector.objects.create(x=2.5, y=1.9)
>>> vector = Vector.objects.annotate(atan2=ATan2("x", "y")).get()
>>> vector.atan2
0.9209258773829491

Ceil

class Ceil(expression, **extra)

返回大于或等于一个数值字段或表达式的最小整数。

Usage example:

>>> from django.db.models.functions import Ceil
>>> Vector.objects.create(x=3.12, y=7.0)
>>> vector = Vector.objects.annotate(x_ceil=Ceil("x"), y_ceil=Ceil("y")).get()
>>> vector.x_ceil, vector.y_ceil
(4.0, 7.0)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Ceil
>>> FloatField.register_lookup(Ceil)
>>> # Get vectors whose ceil is less than 10
>>> vectors = Vector.objects.filter(x__ceil__lt=10, y__ceil__lt=10)

Cos

class Cos(expression, **extra)

返回一个数值字段或表达式的余弦值。

Usage example:

>>> from django.db.models.functions import Cos
>>> Vector.objects.create(x=-8.0, y=3.1415926)
>>> vector = Vector.objects.annotate(x_cos=Cos("x"), y_cos=Cos("y")).get()
>>> vector.x_cos, vector.y_cos
(-0.14550003380861354, -0.9999999999999986)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Cos
>>> FloatField.register_lookup(Cos)
>>> # Get vectors whose cosine is less than 0.5
>>> vectors = Vector.objects.filter(x__cos__lt=0.5, y__cos__lt=0.5)

Cot

class Cot(expression, **extra)

返回数值字段或表达式的正切值。

Usage example:

>>> from django.db.models.functions import Cot
>>> Vector.objects.create(x=12.0, y=1.0)
>>> vector = Vector.objects.annotate(x_cot=Cot("x"), y_cot=Cot("y")).get()
>>> vector.x_cot, vector.y_cot
(-1.5726734063976826, 0.642092615934331)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Cot
>>> FloatField.register_lookup(Cot)
>>> # Get vectors whose cotangent is less than 1
>>> vectors = Vector.objects.filter(x__cot__lt=1, y__cot__lt=1)

Degrees

class Degrees(expression, **extra)

将数值字段或表达式从弧度转换为度。

Usage example:

>>> from django.db.models.functions import Degrees
>>> Vector.objects.create(x=-1.57, y=3.14)
>>> vector = Vector.objects.annotate(x_d=Degrees("x"), y_d=Degrees("y")).get()
>>> vector.x_d, vector.y_d
(-89.95437383553924, 179.9087476710785)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Degrees
>>> FloatField.register_lookup(Degrees)
>>> # Get vectors whose degrees are less than 360
>>> vectors = Vector.objects.filter(x__degrees__lt=360, y__degrees__lt=360)

Exp

class Exp(expression, **extra)

返回 e (自然对数基数)的值,将其升为一个数值字段或表达式的幂。

Usage example:

>>> from django.db.models.functions import Exp
>>> Vector.objects.create(x=5.4, y=-2.0)
>>> vector = Vector.objects.annotate(x_exp=Exp("x"), y_exp=Exp("y")).get()
>>> vector.x_exp, vector.y_exp
(221.40641620418717, 0.1353352832366127)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Exp
>>> FloatField.register_lookup(Exp)
>>> # Get vectors whose exp() is greater than 10
>>> vectors = Vector.objects.filter(x__exp__gt=10, y__exp__gt=10)

Floor

class Floor(expression, **extra)

返回不大于数值字段或表达式的最大整数值。

Usage example:

>>> from django.db.models.functions import Floor
>>> Vector.objects.create(x=5.4, y=-2.3)
>>> vector = Vector.objects.annotate(x_floor=Floor("x"), y_floor=Floor("y")).get()
>>> vector.x_floor, vector.y_floor
(5.0, -3.0)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Floor
>>> FloatField.register_lookup(Floor)
>>> # Get vectors whose floor() is greater than 10
>>> vectors = Vector.objects.filter(x__floor__gt=10, y__floor__gt=10)

Ln

class Ln(expression, **extra)

返回一个数值字段或表达式的自然对数。

Usage example:

>>> from django.db.models.functions import Ln
>>> Vector.objects.create(x=5.4, y=233.0)
>>> vector = Vector.objects.annotate(x_ln=Ln("x"), y_ln=Ln("y")).get()
>>> vector.x_ln, vector.y_ln
(1.6863989535702288, 5.4510384535657)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Ln
>>> FloatField.register_lookup(Ln)
>>> # Get vectors whose value greater than e
>>> vectors = Vector.objects.filter(x__ln__gt=1, y__ln__gt=1)

Log

class Log(expression1, expression2, **extra)

Accepts two numeric fields or expressions and returns the logarithm of the second to base of the first.

Usage example:

>>> from django.db.models.functions import Log
>>> Vector.objects.create(x=2.0, y=4.0)
>>> vector = Vector.objects.annotate(log=Log("x", "y")).get()
>>> vector.log
2.0

Mod

class Mod(expression1, expression2, **extra)

接受两个数值字段或表达式,并返回第一个字段除以第二个字段的余数(模数运算)。

Usage example:

>>> from django.db.models.functions import Mod
>>> Vector.objects.create(x=5.4, y=2.3)
>>> vector = Vector.objects.annotate(mod=Mod("x", "y")).get()
>>> vector.mod
0.8

Pi

class Pi(**extra)

返回数学常数 π 的值。

Power

class Power(expression1, expression2, **extra)

接受两个数值字段或表达式,并将第一个字段的值提高到第二个字段的幂。

Usage example:

>>> from django.db.models.functions import Power
>>> Vector.objects.create(x=2, y=-2)
>>> vector = Vector.objects.annotate(power=Power("x", "y")).get()
>>> vector.power
0.25

Radians

class Radians(expression, **extra)

将数值字段或表达式从度数转换为弧度。

Usage example:

>>> from django.db.models.functions import Radians
>>> Vector.objects.create(x=-90, y=180)
>>> vector = Vector.objects.annotate(x_r=Radians("x"), y_r=Radians("y")).get()
>>> vector.x_r, vector.y_r
(-1.5707963267948966, 3.141592653589793)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Radians
>>> FloatField.register_lookup(Radians)
>>> # Get vectors whose radians are less than 1
>>> vectors = Vector.objects.filter(x__radians__lt=1, y__radians__lt=1)

Random

class Random(**extra)

返回 0.0 x < 1.0 范围内的随机值。

Round

class Round(expression, precision=0, **extra)

Rounds a numeric field or expression to precision (must be an integer) decimal places. By default, it rounds to the nearest integer. Whether half values are rounded up or down depends on the database.

Usage example:

>>> from django.db.models.functions import Round
>>> Vector.objects.create(x=5.4, y=-2.37)
>>> vector = Vector.objects.annotate(x_r=Round("x"), y_r=Round("y", precision=1)).get()
>>> vector.x_r, vector.y_r
(5.0, -2.4)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Round
>>> FloatField.register_lookup(Round)
>>> # Get vectors whose round() is less than 20
>>> vectors = Vector.objects.filter(x__round__lt=20, y__round__lt=20)

Sign

class Sign(expression, **extra)

返回一个数字字段或表达式的符号(-1,0,1)。

Usage example:

>>> from django.db.models.functions import Sign
>>> Vector.objects.create(x=5.4, y=-2.3)
>>> vector = Vector.objects.annotate(x_sign=Sign("x"), y_sign=Sign("y")).get()
>>> vector.x_sign, vector.y_sign
(1, -1)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Sign
>>> FloatField.register_lookup(Sign)
>>> # Get vectors whose signs of components are less than 0.
>>> vectors = Vector.objects.filter(x__sign__lt=0, y__sign__lt=0)

Sin

class Sin(expression, **extra)

返回一个数值字段或表达式的正弦值。

Usage example:

>>> from django.db.models.functions import Sin
>>> Vector.objects.create(x=5.4, y=-2.3)
>>> vector = Vector.objects.annotate(x_sin=Sin("x"), y_sin=Sin("y")).get()
>>> vector.x_sin, vector.y_sin
(-0.7727644875559871, -0.7457052121767203)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Sin
>>> FloatField.register_lookup(Sin)
>>> # Get vectors whose sin() is less than 0
>>> vectors = Vector.objects.filter(x__sin__lt=0, y__sin__lt=0)

Sqrt

class Sqrt(expression, **extra)

返回一个非负数值字段或表达式的平方根。

Usage example:

>>> from django.db.models.functions import Sqrt
>>> Vector.objects.create(x=4.0, y=12.0)
>>> vector = Vector.objects.annotate(x_sqrt=Sqrt("x"), y_sqrt=Sqrt("y")).get()
>>> vector.x_sqrt, vector.y_sqrt
(2.0, 3.46410)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Sqrt
>>> FloatField.register_lookup(Sqrt)
>>> # Get vectors whose sqrt() is less than 5
>>> vectors = Vector.objects.filter(x__sqrt__lt=5, y__sqrt__lt=5)

Tan

class Tan(expression, **extra)

返回一个数值字段或表达式的正切值。

Usage example:

>>> from django.db.models.functions import Tan
>>> Vector.objects.create(x=0, y=12)
>>> vector = Vector.objects.annotate(x_tan=Tan("x"), y_tan=Tan("y")).get()
>>> vector.x_tan, vector.y_tan
(0.0, -0.6358599286615808)

It can also be registered as a transform. For example:

>>> from django.db.models import FloatField
>>> from django.db.models.functions import Tan
>>> FloatField.register_lookup(Tan)
>>> # Get vectors whose tangent is less than 0
>>> vectors = Vector.objects.filter(x__tan__lt=0, y__tan__lt=0)

文本函数

Chr

class Chr(expression, **extra)

接受一个数值字段或表达式,并将表达式的文本表示形式作为单个字符返回。它的工作原理与 Python 的 chr() 函数相同。

Length 一样,它也可以在 IntegerField 上作为变换注册。默认的查询名是 chr

Usage example:

>>> from django.db.models.functions import Chr
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.filter(name__startswith=Chr(ord("M"))).get()
>>> print(author.name)
Margaret Smith

Concat

class Concat(*expressions, **extra)

接受至少两个文本字段或表达式的列表,并返回连接后的文本。每个参数必须是文本或字符类型。如果你想把一个 TextField() 和一个 CharField() 连接起来,那么一定要告诉 Django,output_field 应该是一个 TextField()。当连接一个 Value 时,也需要指定一个 output_field,如下面的例子。

这个函数永远不会有一个空的结果。在后端,如果一个空参数导致整个表达式为空,Django 会确保每个空的部分先转换成空字符串。

Usage example:

>>> # Get the display name as "name (goes_by)"
>>> from django.db.models import CharField, Value as V
>>> from django.db.models.functions import Concat
>>> Author.objects.create(name="Margaret Smith", goes_by="Maggie")
>>> author = Author.objects.annotate(
...     screen_name=Concat("name", V(" ("), "goes_by", V(")"), output_field=CharField())
... ).get()
>>> print(author.screen_name)
Margaret Smith (Maggie)

Left

class Left(expression, length, **extra)

返回给定文本字段或表达式的第一个 length 字符。

Usage example:

>>> from django.db.models.functions import Left
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(first_initial=Left("name", 1)).get()
>>> print(author.first_initial)
M

Length

class Length(expression, **extra)

接受单个文本字段或表达式,并返回值的字符数。如果表达式为空,则长度也为空。

Usage example:

>>> # Get the length of the name and goes_by fields
>>> from django.db.models.functions import Length
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(
...     name_length=Length("name"), goes_by_length=Length("goes_by")
... ).get()
>>> print(author.name_length, author.goes_by_length)
(14, None)

It can also be registered as a transform. For example:

>>> from django.db.models import CharField
>>> from django.db.models.functions import Length
>>> CharField.register_lookup(Length)
>>> # Get authors whose name is longer than 7 characters
>>> authors = Author.objects.filter(name__length__gt=7)

Lower

class Lower(expression, **extra)

接受单个文本字段或表达式,并返回小写表示。

它也可以像 Length 中描述的那样,作为一个变换注册。

Usage example:

>>> from django.db.models.functions import Lower
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(name_lower=Lower("name")).get()
>>> print(author.name_lower)
margaret smith

LPad

class LPad(expression, length, fill_text=Value(' '), **extra)

返回给定的文本字段或表达式的值,在左侧用 fill_text 填充,使结果是 length 字符长。默认的 fill_text 是一个空格。

Usage example:

>>> from django.db.models import Value
>>> from django.db.models.functions import LPad
>>> Author.objects.create(name="John", alias="j")
>>> Author.objects.update(name=LPad("name", 8, Value("abc")))
1
>>> print(Author.objects.get(alias="j").name)
abcaJohn

LTrim

class LTrim(expression, **extra)

类似于 Trim,但只删除前导空格。

MD5

class MD5(expression, **extra)

接受单个文本字段或表达式,并返回字符串的 MD5 哈希值。

它也可以像 Length 中描述的那样,作为一个变换注册。

Usage example:

>>> from django.db.models.functions import MD5
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(name_md5=MD5("name")).get()
>>> print(author.name_md5)
749fb689816b2db85f5b169c2055b247

Ord

class Ord(expression, **extra)

接受一个文本字段或表达式,并返回该表达式第一个字符的 Unicode 码点值。它的工作原理类似于 Python 的 ord() 函数,但如果表达式超过一个字符,则不会引发异常。

也可以像 Length 中描述的那样,把它注册为一个变换。默认的查找名称是 ord

Usage example:

>>> from django.db.models.functions import Ord
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(name_code_point=Ord("name")).get()
>>> print(author.name_code_point)
77

Repeat

class Repeat(expression, number, **extra)

返回给定文本字段或表达式重复 number 次数的值。

Usage example:

>>> from django.db.models.functions import Repeat
>>> Author.objects.create(name="John", alias="j")
>>> Author.objects.update(name=Repeat("name", 3))
1
>>> print(Author.objects.get(alias="j").name)
JohnJohnJohn

Replace

class Replace(expression, text, replacement=Value(''), **extra)

expression 中用 replacement 替换所有出现的 text。默认替换文本是空字符串。函数的参数是区分大小写的。

Usage example:

>>> from django.db.models import Value
>>> from django.db.models.functions import Replace
>>> Author.objects.create(name="Margaret Johnson")
>>> Author.objects.create(name="Margaret Smith")
>>> Author.objects.update(name=Replace("name", Value("Margaret"), Value("Margareth")))
2
>>> Author.objects.values("name")
<QuerySet [{'name': 'Margareth Johnson'}, {'name': 'Margareth Smith'}]>

Reverse

class Reverse(expression, **extra)

接受单个文本字段或表达式,并将该表达式的字符按相反顺序返回。

也可以像 Length 中描述的那样,把它注册为一个变换。默认的查询名称是 reverse

Usage example:

>>> from django.db.models.functions import Reverse
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(backward=Reverse("name")).get()
>>> print(author.backward)
htimS teragraM

Right

class Right(expression, length, **extra)

返回给定文本字段或表达式的最后 length 字符。

Usage example:

>>> from django.db.models.functions import Right
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(last_letter=Right("name", 1)).get()
>>> print(author.last_letter)
h

RPad

class RPad(expression, length, fill_text=Value(' '), **extra)

类似于 LPad,但垫在右边。

RTrim

class RTrim(expression, **extra)

类似于 Trim,但只删除尾部的空格。

SHA1、SHA224`、SHA256`、SHA384` 和 SHA512

class SHA1(expression, **extra)
class SHA224(expression, **extra)
class SHA256(expression, **extra)
class SHA384(expression, **extra)
class SHA512(expression, **extra)

接受单个文本字段或表达式,并返回字符串的特定哈希值。

它们也可以像 Length 中描述的那样注册为变换。

Usage example:

>>> from django.db.models.functions import SHA1
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(name_sha1=SHA1("name")).get()
>>> print(author.name_sha1)
b87efd8a6c991c390be5a68e8a7945a7851c7e5c

PostgreSQL

必须安装 pgcrypto 扩展 。你可以使用 CryptoExtension 迁移操作来安装它。

Oracle

Oracle 不支持 SHA224 函数。

StrIndex

class StrIndex(string, substring, **extra)

返回一个正整数,对应于 string 中第一次出现的 substring 的 1 个索引位置,如果没有找到 substring,则返回 0。

Usage example:

>>> from django.db.models import Value as V
>>> from django.db.models.functions import StrIndex
>>> Author.objects.create(name="Margaret Smith")
>>> Author.objects.create(name="Smith, Margaret")
>>> Author.objects.create(name="Margaret Jackson")
>>> Author.objects.filter(name="Margaret Jackson").annotate(
...     smith_index=StrIndex("name", V("Smith"))
... ).get().smith_index
0
>>> authors = Author.objects.annotate(smith_index=StrIndex("name", V("Smith"))).filter(
...     smith_index__gt=0
... )
<QuerySet [<Author: Margaret Smith>, <Author: Smith, Margaret>]>

警告

在 MySQL 中,数据库表的 字符序 决定了字符串比较(如本函数的 expressionsubstring)是否区分大小写。默认情况下,比较是不区分大小写的。

Substr

class Substr(expression, pos, length=None, **extra)

从字段或表达式的位置 pos 开始返回一个长度为 length 的子串。如果 lengthNone,那么将返回字符串的其余部分。

Usage example:

>>> # Set the alias to the first 5 characters of the name as lowercase
>>> from django.db.models.functions import Lower, Substr
>>> Author.objects.create(name="Margaret Smith")
>>> Author.objects.update(alias=Lower(Substr("name", 1, 5)))
1
>>> print(Author.objects.get(name="Margaret Smith").alias)
marga

Trim

class Trim(expression, **extra)

返回给定的文本字段或表达式的值,并去除前导和尾部的空格。

Usage example:

>>> from django.db.models.functions import Trim
>>> Author.objects.create(name="  John  ", alias="j")
>>> Author.objects.update(name=Trim("name"))
1
>>> print(Author.objects.get(alias="j").name)
John

Upper

class Upper(expression, **extra)

接受单个文本字段或表达式,并返回大写表示。

它也可以像 Length 中描述的那样,作为一个变换注册。

Usage example:

>>> from django.db.models.functions import Upper
>>> Author.objects.create(name="Margaret Smith")
>>> author = Author.objects.annotate(name_upper=Upper("name")).get()
>>> print(author.name_upper)
MARGARET SMITH

窗口函数

Window 表达式中,有很多函数可以用来计算元素的等级或某些行的 Ntile

CumeDist

class CumeDist(*expressions, **extra)

计算一个窗口或分区内的数值的累积分布。累计分布被定义为当前行之前的行数或同行行数除以框架中的总行数。

DenseRank

class DenseRank(*expressions, **extra)

相当于 Rank,但没有间隙。

FirstValue

class FirstValue(expression, **extra)

返回窗口帧第一行的值,如果没有这个值,则返回 None

Lag

class Lag(expression, offset=1, default=None, **extra)

计算 offset 的偏移值,如果没有行存在,返回 default

default 必须与 expression 具有相同的类型,但是,这只由数据库验证,而不是在 Python 中验证。

MariaDB 和 default

MariaDB 不支持 这个 default 参数。

LastValue

class LastValue(expression, **extra)

类似于 FirstValue,它计算给定框架子句中的最后一个值。

Lead

class Lead(expression, offset=1, default=None, **extra)

计算给定 frame 中的前导值。offsetdefault 都是根据当前行的情况来计算的。

default 必须与 expression 具有相同的类型,但是,这只由数据库验证,而不是在 Python 中验证。

MariaDB 和 default

MariaDB 不支持 这个 default 参数。

NthValue

class NthValue(expression, nth=1, **extra)

计算相对于窗口内偏移量 nth (必须是正值)的行。如果没有行,返回 None

一些数据库可能会以不同的方式处理不存在的 nth-value,例如,对于基于字符的表达式,Oracle 会返回一个空字符串,而不是 None。在这些情况下,Django 不做任何转换。

Ntile

class Ntile(num_buckets=1, **extra)

为帧子句中的每一行计算一个分区,在 1 和 num_buckets 之间尽可能均匀地分配数字。如果行没有被平均分配到若干个桶中,则一个或多个桶将被更频繁地表示。

PercentRank

class PercentRank(*expressions, **extra)

Computes the relative rank of the rows in the frame clause. This computation is equivalent to evaluating:

(rank - 1) / (total rows - 1)

The following table explains the calculation for the relative rank of a row:

行 # 排名 计算 Relative Rank
1 15 1 (1-1)/(7-1) 0.0000
2 20 2 (2-1)/(7-1) 0.1666
3 20 2 (2-1)/(7-1) 0.1666
4 20 2 (2-1)/(7-1) 0.1666
5 30 5 (5-1)/(7-1) 0.6666
6 30 5 (5-1)/(7-1) 0.6666
7 40 7 (7-1)/(7-1) 1.0000

Rank

class Rank(*expressions, **extra)

RowNumber 类似,该函数对窗口中的行进行排序。计算出的排名包含有空隙。使用 DenseRank 来计算没有空隙的排名。

RowNumber

class RowNumber(*expressions, **extra)

如果没有对 窗口帧 进行分区,则根据帧子句的顺序或整个查询的顺序计算行数。