D. Moonfire b32ca7582c | ||
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.. | ||
Setup | ||
Validators | ||
ApplySchedules.cs | ||
ISchedule.cs | ||
IndexedPathRegexSchedule.cs | ||
IndexedSchedule.cs | ||
MfGames.Nitride.Temporal.Schedules.csproj | ||
PathRegexScheduleBase.cs | ||
PeriodicPathRegexSchedule.cs | ||
README.md | ||
SimplePathSchedule.cs | ||
TimeSpanHelper.cs |
README.md
Schedules
Scheduling posts and entries is fairly common process with blob posts but the
methods for creating those schedules can vary drastically because it requires
site- or project-specific elements such as which components or models to change
and how. This package provides one approach to scheduling that "applies"
changes (as described in JSON or YAML) to a given object based on the current
date (as provided by the MfGames.Nitride.Temporal
package).
A schedule is not needed when the date is in the path or inside a component. Using
MfGames.Nitride.Temporal.SetFromComponent
or MfGames.Nitride.Temporal.SetFromPath
would be more than sufficient. This is for dynamically changing entities based on
the date based on TimeService
.
Configuring
To use the modules, either the NitrideTemporalSchedulesModule
can be added or
the builder extension method can be used.
NitrideBuilder builder;
builder.UseTemporalSchedules();
ISchedule
A schedule is a class that implements ISchedule
which has the following methods:
- CanApply(Entity) ⟶ bool
- This returns true if the schedule can apply to the given entity.
- Apply(Entity) ⟶ Entity
- This makes the changes for the schedule on the entity and returns the results.
- If the entity doesn't apply, then it should return the entity without changes.
ApplySchedules
The primary operation is ApplySchedules
which take a sequence of schedule objects
and applies each one in turn against every entity given to the operation.
IEnumerable<Entity> entities;
IList<ISchedule> schedules;
ApplySchedules op;
return op
.WithSchedules(schedules)
.Run(entities);
The following properties are available (along with their corresponding With*
methods):
IList<ISchedule> Schedules
- Contains the list of schedules to apply against entities.
- Defaults to an empty list.
TimeService TimeService
- Used to determine when the site is being generated.
- Defaults to the one provided by
MfGames.Nitride.Temporal
.
Provided Schedules
A number of schedules are provided as part of this library.
Schedule Periods
In all cases, the SchedulePeriod
is a string that parses into a TimeSpan
object
that determines the amount of time between two successive entities of the same
schedule. It is parsed using TimeSpanParser
and allow for TimeSpan
formatting (such as "1.00:00:00"), descriptions such as
"4 days" or "1 month". In addition, it also handles instant
(non-case sensitive)
for a zero length time or effectively all at once or never
(also not case sensitive)
to never apply to it.
Periodic Path Regex Schedules
A common pattern for using schedules is to dole out a numerical series of posts over
a period of time. For example, a weekly posting of chapters or comic strips. In these
cases, there is usually a number in the path such as chapter-01
or comic-0244
. The
schedule starts at a certain point and then continues every day or week as needed.
The PeriodicPathRegexSchedule
encapsulates this pattern. It uses the UPath
component
of the entity and compares it against a regular expression that captures the numerical
part of the path. If it matches, then the schedule sets the date equal to the starting
point plus the "period" for every one past the first.
In this example:
ApplySchedule op;
var entities = new List<Entity>
{
new Entity().Set((UPath) "chapter-01.md"),
new Entity().Set((UPath) "chapter-02.md"),
new Entity().Set((UPath) "chapter-03.md"),
};
var schedules = new List<ISchedule>
{
new PeriodicPathRegexSchedule
{
PathRegex = "chapter-(\d+),
ScheduleStart = DateTime.Parse("2023-01-01"),
SchedulePeriod = "1 week",
// Alternatively, SchedulePeriodTimeSpan = TimeSpan.FromDays(7),
},
}
return entities.Run(op.WithSchedules(schedules));
This will have chapter-01 have an Instant
component set to 2023-01-01, the second
chapter will be set to 2023-01-08, and the third at 2023-01-15.
PeriodicPathRegexSchedule
has the following properties:
Func<Entity, string> GetPath
- An override to allow retrieving a different function.
- Defaults to
entity.Get<UPath>().ToString()
Regex PathRegex
- The regular expression that retrieves the number.
- Defaults to
^.*?(\d+)[^\d]*$
which grabs the last number found.
DateTime ScheduleStart
- The date that the schedule starts.
- No default.
string SchedulePeriod
- Parsed using https://github.com/pengowray/TimeSpanParser
- Supports any
TimeSpan
value, also "2 weeks" and Humanizer formatted values
TimeSpan SchedulePeriodTimeSpan
- Parsed from
SchedulePeriod
- Parsed from
int CaptureGroup
- The numerical index of the capture group.
- Defaults to
1
because the first match in Regex is 1.
int CaptureOffset
- The offset to make the capture group a zero-based number.
- Defaults to
-1
which makeschapter-01
the first entry.
There is also a virtual method for applying the schedule.
protected Entity ApplySchedule(Entity entity, int number, Instant instant)
- The callback method for applying the schedule to the entity.
- This defaults to
return entity.Set(instant)
.
Overriding Logic
The default operation of a PeriodicPathRegexSchedule
is to only set the Instant
component of the entity. The class can be extended to have more site-specific
entries including adding more properties to the schedule and applying them.
/// <summary>A model for the YAML front matter on a page.</summary>
public class PageModel
{
/// <summary>Gets or sets the access key for the page.</summary>
public string? Access { get; set; }
/// <summary>Gets or sets the optional schedule for this page.</summary>
List<PageSchedule>? Schedules { get; set; }
}
/// <summary>A schedule specific to this project.</summary>
public class PageSchedule : NumericalPathSchedule
{
public PageSchedule()
{
// Set the default to weekly.
this.SchedulePeriod = SchedulePeriod.Week;
}
/// <summary>Gets or sets the access key for the page.</summary>
public Access { get; set; }
protected override Entity Apply(Entity entity, int number, Instant instant)
{
var model = entity.Get<PageModel>();
model.Access = this.Access;
return entity.Set(instant, model);
}
}
Commonly, this schedule will be put into a JSON or YAML file.
schedules:
# Patron and Ko-Fi subscribers get it all at once
- pathRegex: chapters/chapter-(\d+)
scheduleStart: 2025-01-01
schedulePeriod: instant # Because we overrode the default to be weekly.
access: subscribers
# The first fifteen chapters (01-15) were released at the rate of one
# per week starting in 2024. This will replace all the schedules above
# it.
- path: chapters/chapter-(0\d|1[1-5])
scheduleStart: 2030-01-01
access: public
Indexed Path Regex Schedules
A variant on the periodic schedule is the IndexedPathRegexSchedule
. This evolved
from the periodic one in order to simplify the regular expressions at the expense
of having a more complex structure. It uses the same regular expression as
PeriodicPathRegexSchedule
including CaptureGroup
(still defaults to 1) and
CaptureOffset
(which defaults to 0) but instead of having the schedule date
and period, those are relegated to a Dictionary<int, IndexedSchedule>
(or a
class that extends IndexedSchedule
).
Using the below example:
schedules:
pathRegex: chapters/chapter-(\d+)
indexes:
1:
scheduleStart: 2025-01-01
schedulePeriod: instant
access: subscribers
10:
scheduleStart: 2030-01-01
schedulePeriod: 1 week
access: subscribers
30:
schedulePeriod: never
For a given calculated number (such as chapter-01
being 1
), the schedule picks the
highest index that is not replaced by a higher number. So, chapters 1-9 would use the 2025
date and be instantly available on that date while chapters 10 and higher would use the
2030 date and be doled out a week at a time.
While this example doesn't use the top level as a sequence, it could be used to handle multiple overlapping schedules (like the first where two changes), but it is more verbose while describing it.
For the inner schedule, the number is normalized to be 0-based automatically for each one
so the above example would have 1, 10, and 30 all pass in 0
into the Apply
function.