05 Feb 2026

Planet Grep

Lionel Dricot: The Disconnected Git Workflow

The Disconnected Git Workflow

Using git-send-email while being offline and with multiple email accounts

WARNING: the following is a technical reminder for my future self. If you don't use the "git" software, you can safely ignore this post.

The more I work with git-send-email, the less I find the GitHub interface sufferable.

Want to send a small patch to a GitHub project? You need to clone the repository, push your changes to your own branch, then ask for a pull request using the cumbersome web interface, replying to comments online while trying to avoid smileys.

With git send-email, I simply work offline, do my local commit, then:

git send-email HEAD^

And I'm done. I reply to comments by email, with Vim/Mutt. When the patch is accepted, getting a clean tree usually boils down to:

git pull
git rebase

Yeah for git-send-email!

Guide to setup git send-email (git-send-email.io)

And, yes, I do that while offline and with multiple email accounts. That's one more reason to hate GitHub.

One mail account for each git repository

The secret is not to configure email accounts in git but to use "msmtp" to send email. Msmtp is a really cool sendmail replacement.

In .msmtprc, you can configure multiple accounts with multiple options, including calling a command to get your password.

# account 1 - pro
account work
host smtp.company.com
port 465
user login@company.com
from ploum@company.com
password SuPeRstr0ngP4ssw0rd
tls_starttls off

# personal account for FLOSS
account floss
host mail.provider.net
port 465
user ploum@mydomain.net
from ploum@mydomain.net
from ploum*@mydomain.net
passwordeval "cat ~/incredibly_encrypted_password.txt | rot13"
tls_starttls off

The important bit here is that you can set multiple "from" addresses for a given account, including a regexp to catch multiple aliases!

Now, we will ask git to automatically use the right msmtp account. In your global .gitconfig, set the following:

[sendemail]
   sendmailCmd = /usr/bin/msmtp --set-from-header=on
   envelopeSender = auto

The "envelopesender" option will ensure that the sendemail.from will be used and given to msmtp as a "from address." This might be redundant with "--set-from-header=on" in msmtp but, in my tests, having both was required. And, cherry on the cake, it automatically works for all accounts configured in msmtprc.

Older git versions (< 2.33) don't have sendmailCmd and should do:

[sendemail]
   smtpserver = /usr/bin/msmtp
   smtpserveroption = --set-from-header=on
   envelopesender = auto

I usually stick to a "ploum-PROJECT@mydomain.net" for each project I contribute to. This allows me to easily cut spam when needed. So far, the worst has been with a bug reported on the FreeBSD Bugzilla. The address used there (and nowhere else) has since been spammed to death.

In each git project, you need to do the following:

1. Set the email address used in your commit that will appear in "git log" (if different from the global one)

git config user.email "Ploum <ploum-PROJECT@mydomain.net>"

2. Set the email address that will be used to actually send the patch (could be different from the first one)

git config sendemail.from "Ploum <ploum-PROJECT@mydomain.net>"

3. Set the email address of the developer or the mailing list to which you want to contribute

git config sendemail.to project-devel@mailing-list.com

Damn, I did a commit with the wrong user.email!

Yep, I always forget to change it when working on a new project or from a fresh git clone. Not a problem. Just use "git config" like above, then:

git commit --amend --reset-author

And that's it.

Working offline

I told you I mostly work offline. And, as you might expect, msmtp requires a working Internet connection to send an email.

But msmtp comes with three wonderful little scripts: msmtp-enqueue.sh, msmtp-listqueue.sh and msmtp-runqueue.sh.

The first one saves your email to be sent in ~/.msmtpqueue, with the sending options in a separate file. The second one lists the unsent emails, and the third one actually sends all the emails in the queue.

All you need to do is change the msmtp line in your global .gitconfig to call the msmtpqueue.sh script:

[sendemail]
    sendmailcmd = /usr/libexec/msmtp/msmtpqueue/msmtp-enqueue.sh --set-from-header=on
    envelopeSender = auto

In Debian, the scripts are available with the msmtp package. But the three are simple bash scripts that can be run from any path if your msmtp package doesn't provide them.

You can test sending a mail, then check the ~/.msmtpqueue folder for the email itself (.email file) and the related msmtp command line (.msmtp file). It happens nearly every day that I visit this folder to quickly add missing information to an email or simply remove it completely from the queue.

Of course, once connected, you need to remember to run:

/usr/libexec/msmtp/msmtpqueue/msmtp-runqueue.sh

If not connected, mails will not be sent and will be kept in the queue. This line is obviously part of my do_the_internet.sh script, along with "offpunk --sync".

How I use Offpunk (by Ploum) (offpunk.net)

It is not only git!

If it works for git, it works for any mail client. I use neomutt with the following configuration to use msmtp-enqueue and reply to email using the address it was sent to.

set sendmail="/usr/libexec/msmtp/msmtpqueue/msmtp-enqueue.sh --set-from-header=on"
unset envelope_from_address
set use_envelope_from
set reverse_name
set from="ploum@mydomain.net"
alternates ploum[A-Za-z0-9]*@mydomain.net

Of course, the whole config is a little more complex to handle multiple accounts that are all stored locally in Maildir format through offlineimap and indexed with notmuch. But this is a bit out of the scope of this post.

At least, you get the idea, and you could probably adapt it to your own mail client.

Conclusion

Sure, it's a whole blog post just to get the config right. But there's nothing really out of this world. And once the setup is done, it is done for good. No need to adapt to every change in a clumsy web interface, no need to use your mouse. Simple command lines and simple git flow!

Sometimes, I work late at night. When finished, I close the lid of my laptop and call it a day without reconnecting my laptop. This allows me not to see anything new before going to bed. When this happens, queued mails are sent the next morning, when I run the first do_the_internet.sh of the day.

And it always brings a smile to my face to see those bits being sent while I've completely forgotten about them…

About the author

I'm Ploum, a writer and an engineer. I like to explore how technology impacts society. You can subscribe by email or by rss. I value privacy and never share your adress.

I write science-fiction novels in French. For Bikepunk, my new post-apocalyptic-cyclist book, my publisher is looking for contacts in other countries to distribute it in languages other than French. If you can help, contact me!

05 Feb 2026 7:20pm GMT

Frank Goossens: Zijn er Meshcore-users in de Limburgse Maasvallei?

Ik steek het op de Fediverse, waar ik sinds een paar weken (maanden?) regelmatig posts langs zag komen over Meshcore als technologie/ software voor gedecentraliseerde ad-hoc netwerken voor tekst-gebaseerde berichten op basis van LoRa radio. Ik heb me zo een Sensecap T1000-e gekocht, meshcore geflasht (vanuit Chrome, poef) en verbonden met m'n Fairphone met de Meshcore app en … niks.

Source

05 Feb 2026 7:20pm GMT

Dries Buytaert: Self-improving AI skills

If you read one thing this week, make it Simon Willison's post on Moltbook. Moltbook is a social network for AI agents. To join, you tell your agent to read a URL. That URL points to a skill file that teaches the agent how to join and participate.

Visit Moltbook and you'll see something really strange: agents from around the world talking to each other and sharing what they've learned. Humans just watch.

This is the most interesting bad idea I've seen in a while. And I can't stop thinking about it.

When I work on my Drupal site, I sometimes use Claude Code with a custom CLAUDE.md skill file. It teaches the agent the steps I follow, like safely cloning my production database, [running PHPUnit tests](https://dri.es/phpunit-tests-for-drupal, clearing Drupal caches, and more.

Moltbook agents share tips through posts. They're chatting, like developers on Reddit. But imagine a skill that doesn't just read those ideas, but finds other skill files, compares approaches, and pulls in the parts that fit. That stops being a conversation. That is a skill rewriting itself.

Skills that learn from each other. Skills that improve by being part of a community, the way humans do.

The wild thing is how obvious this feels. A skill learning from other skills isn't science fiction. It's a small step from what we're already doing.

Of course, this is a terrible idea. It's a supply chain attack waiting to happen. One bad skill poisons everything that trusts it.

This feels inevitable. The question isn't whether skills will learn from other skills. It's whether we'll have good sandboxes before they do.

I've been writing a lot about AI to help figure out its impact on Drupal and our ecosystem. I've always tried to take a positive but balanced view. I explore it because it matters, and because ignoring it doesn't make it go away.

But if I'm honest, I'm scared for what comes next.

05 Feb 2026 7:20pm GMT

Planet Debian

Dirk Eddelbuettel: rfoaas 2.3.3: Limited Rebirth

rfoaas greed example

The original FOAAS site provided a rather wide variety of REST access points, but it sadky is no more (while the old repo is still there). A newer replacement site FOASS is up and running, but with a somewhat reduced offering. (For example, the two accessors shown in the screenshot are no more. C'est la vie.)

Recognising that perfect may once again be the enemy of (somewhat) good (enough), we have rejigged the rfoaas package in a new release 2.3.3. (The precding version number 2.3.2 corresponded to the upstream version, indicating which API release we matched. Now we just went '+ 0.0.1' but there is no longer a correspondence to the service version at FOASS.)

Accessor functions for each of the now available access points are provided, ans the random sampling accessor getRandomFO() now picks from that set.

My CRANberries service provides a comparison to the previous release. Questions, comments etc should go to the GitHub issue tracker. More background information is on the project page as well as on the github repo

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

05 Feb 2026 1:00am GMT

04 Feb 2026

Planet Debian

Dirk Eddelbuettel: littler 0.3.23 on CRAN: More Features (and Fixes)

max-heap image

The twentythird release of littler as a CRAN package landed on CRAN just now, following in the now twenty year history (!!) as a (initially non-CRAN) package started by Jeff in 2006, and joined by me a few weeks later.

littler is the first command-line interface for R as it predates Rscript. It allows for piping as well for shebang scripting via #!, uses command-line arguments more consistently and still starts faster. It also always loaded the methods package which Rscript only began to do in later years.

littler lives on Linux and Unix, has its difficulties on macOS due to some-braindeadedness there (who ever thought case-insensitive filesystems as a default were a good idea?) and simply does not exist on Windows (yet - the build system could be extended - see RInside for an existence proof, and volunteers are welcome!). See the FAQ vignette on how to add it to your PATH. A few examples are highlighted at the Github repo:, as well as in the examples vignette.

This release, the first in about eleven months, once again brings two new helper scripts, and enhances six existing one. The release was triggered because it finally became clear why installGitHub.r ignored r2u when available: we forced the type argument to 'source' (so thanks to Iñaki for spotting this). One change was once again contributed by Michael which is again greatly appreciated.

The full change description follows.

Changes in littler version 0.3.22 (2026-02-03)

Changes in examples scripts

A new script busybees.r aggregates deadlined packages by maintainer

Several small updated have been made to the (mostly internal) 'r2u.r' script

The deadliners.r script has refined treatment for screen width

The install2.r script has new options --quiet and --verbose as proposed by Zivan Karaman

The rcc.r script passes build-args to 'rcmdcheck' to compact vignettes and save data

The installRub.r script now defaults to 'noble' and is more tolerant of inputs

The installRub.r script deals correctly with empty utils::osVersion thanks to Michael Chirico

New script checkPackageUrls.r inspired by how CRAN checks (with thanks to Kurt Hornik for the hint)

The installGithub.r script now adjusts to bspm and takes advantage of r2u binaries for its build dependencies

Changes in package

Environment variables (read at build time) can use double quotes

Continuous intgegration scripts received a minor update

My CRANberries service provides a comparison to the previous release. Full details for the littler release are provided as usual at the ChangeLog page, and also on the package docs website. The code is available via the GitHub repo, from tarballs and now of course also from its CRAN page and via install.packages("littler"). Binary packages are available directly in Debian as well as (in a day or two) Ubuntu binaries at CRAN thanks to the tireless Michael Rutter. Comments and suggestions are welcome at the GitHub repo.

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

04 Feb 2026 12:37pm GMT

Ben Hutchings: FOSS activity in January 2026

Debian packages:
- dracut:
  - Bugs:
    - replied to and reassigned #1124400: update-initramfs no longer includes /lib/modules/<kver>/updates directory
- flash-kernel:
  - Bugs:
    - closed #1102690: A higher version (…) is still installed, no reflashing required
    - closed #1125327: since linux 6.18, flash-kernel fails to find dtbs in /usr/lib/linux-image-*
  - Uploads:
    - uploaded version 3.110 to unstable
    - uploaded version 3.110~bpo13+1 to trixie-backports
- kernel-sec:
  - Merge requests:
    - opened !30: scripts/import-korg-vulns: Ignore issues in unsupported architectures
- libvirt:
  - Bugs:
    - (LTS) opened and replied to #1124549: libvirt passes invalid flags for network interface deletion
- linux:
  - Bugs:
  - Merge requests:
    - reviewed !1784: Add breaks on reform-tools and flash-kernel versions before support for…
  - (LTS) updated the bullseye-security branch to 5.10.248, but did not upload it
- (LTS) linux-6.1:
  - uploaded version 6.1.159-1~deb11u1 to bullseye-security
- linux-base:
  - Bugs:
  - Uploads:
    - uploaded version 4.12.1 to trixie
    - uploaded version 4.15 to unstable
- ministat:
  - Bugs:
    - closed #1123854: ministat: Packaging vcs doesn't work, upstream vcs unspecified
    - closed #1123856: ministat: ministat crashes given all-inf input
  - Uploads:
    - uploaded version 20251113-1 to unstable
    - uploaded version 20251113-2 to unstable
- wireless-regdb:
  - Merge requests:
    - merged !7: Drop unnecessary B-D m2crypto (Closes: #1126431)
Debian non-package bugs:
- release.debian.org:
  - opened #1126020: trixie-pu: package linux-base/4.12.1
Mailing lists:
- debian-kernel:
  - posted Agenda items for kernel-team meeting on 2026-01-07
  - replied to Questions on debdiff for linux-signed-{amd64,arm64} in trixie-backports
  - (LTS) replied to [regression 5.10.y] Libvirt can no longer delete macvtap devices …
  - posted cpp-httplib FTBFS in unstable
  - (LTS) replied to kernel 5.10.0-28-amd64: linux-headers needed
- debian-lts:
  - posted and replied to Regression update for libvirt in bullseye?
- debian-lts-announce:
  - posted [SECURITY] [DLA 4436-1] linux-6.1 security update
- netdev:
  - replied to Bug#1126015: linux-image-6.17.13+deb14-rt-amd64: ethtool -x <sfc-net-driver-ifname> causes: rtmutex deadlock detected
- stable:
  - (LTS) posted [5.10] net/sched: act_ife: convert comma to semicolon
  - (LTS) posted [5.10] regression: virtual consoles 2-12 unusable
  - (LTS) reviewed and replied to various patches for 5.10 … … … … … … … … … … … … … … … … … …

04 Feb 2026 11:39am GMT

02 Feb 2026

Planet Lisp

Gábor Melis: Untangling Literate Programming

Classical literate programming

A literate program consists of interspersed narrative and code chunks. From this, source code to be fed to the compiler is generated by a process called tangling, and documentation by weaving. The specifics of tangling vary, but the important point is that this puts the human narrative first and allows complete reordering and textual combination of chunks at the cost of introducing an additional step into the write-compile-run cycle.

The general idea

It is easy to mistake this classical implementation of literate programming for the more general idea that we want to

present code to human readers in pedagogical order with narrative added, and
make changing code and its documentation together easy.

The advantages of literate programming follow from these desiderata.

Untangled LP

In many languages today, code order is far more flexible than in the era of early literate programming, so the narrative order can be approximated to some degree using docstrings and comments. Code and its documentation are side by side, so changing them together should also be easy. Since the normal source code now acts as the LP source, there is no more tangling in the programming loop. This is explored in more detail here.

Pros and cons

Having no tangling is a great benefit, as we get to keep our usual programming environment and tooling. On the other hand, bare-bones untangled LP suffers from the following potential problems.

Order mismatches: Things like inline functions and global variables may need to be defined before use. So, code order tends to deviate from narrative order to some degree.
Reduced locality: Our main tool to sync code and narrative is factoring out small, meaningful functions, which is just good programming style anyway. However, this may be undesirable for reasons of performance or readability. In such a case, we might end up with a larger function. Now, if we have only a single docstring for it, then it can be non-obvious which part of the code a sentence in the docstring refers to because of their distance and the presence of other parts.
No source code only view: Sometimes we want to see only the code. In classical LP, we can look at the tangled file. In untangled LP, editor support for hiding the narrative is the obvious solution.
No generated documentation: There is no more tangling nor weaving, but we still need another tool to generate documentation. Crucially, generating documentation is not in the main programming loop.

In general, whether classical or untangled LP is better depends on the severity of the above issues in the particular programming environment.

The Lisp and PAX view

MGL-PAX, a Common Lisp untangled LP solution, aims to minimize the above problems and fill in the gaps left by dropping tangling.

Order
- Common Lisp is quite relaxed about the order of function definitions, but not so much about DEFMACRO, DEFVAR, DEFPARAMETER, DEFCONSTANT, DEFTYPE , DEFCLASS, DEFSTRUCT, DEFINE-COMPILER-MACRO, SET-MACRO-CHARACTER, SET-DISPATCH-MACRO-CHARACTER, DEFPACKAGE. However, code order can for the most part follow narrative order. In practice, we end up with some DEFVARs far from their parent DEFSECTIONs (but DECLAIM SPECIAL helps).
- DEFSECTION controls documentation order. The references to Lisp definitions in DEFSECTION determine narrative order independently from the code order. This allows the few ordering problems to be patched over in the generated documentation.
- Furthermore, because DEFSECTION can handle the exporting of symbols, we can declare the public interface piecemeal, right next to the relevant definitions, rather than in a monolithic DEFPACKAGE
Locality
- Lisp macros replace chunks in the rare, complex cases where a chunk is not a straightforward text substitution but takes parameters. Unlike text-based LP chunks, macros must operate on valid syntax trees (S-expressions), so they cannot be used to inject arbitrary text fragments (e.g. an unclosed parenthesis).
  
  This constraint forces us to organize code into meaningful, syntactic units rather than arbitrary textual fragments, which results in more robust code. Within these units, macros allow us to reshape the syntax tree directly, handling scoping properly where text interpolation would fail.
- PAX's NOTE is an extractable, named comment. NOTE can interleave with code within e.g. functions to minimize the distance between the logic and its documentation.
- Also, PAX hooks into the development to provide easy navigation in the documentation tree.
Source code only view: PAX supports hiding verbose documentation (sections, docstrings, comments) in the editor.
Generating documentation
- PAX extracts docstrings, NOTEs and combines them with narrative glue in DEFSECTIONs.
- Documentation can be generated as static HTML/PDF files for offline reading or browsed live (in an Emacs buffer or via an in-built web server) during development.
- LaTeX math is supported in both PDF and HTML (via MathJax, whether live or offline).

In summary, PAX accepts a minimal deviation in code/narrative order but retains the original, interactive Lisp environment (e.g. SLIME/Sly), through which it offers optional convenience features like extended navigation, live browsing, and hiding documentation in code. In return, we give up easy fine-grained control over typesetting the documentation - a price well worth paying in Common Lisp.

02 Feb 2026 12:00am GMT

01 Feb 2026

Planet Lisp

Joe Marshall: Some Libraries

Zach Beane has released the latest Quicklisp beta (January 2026), and I am pleased to have contributed to this release. Here are the highlights:

dual-numbers - Implements dual numbers and automatic differentiation using dual numbers for Common Lisp.
fold - FOLD-LEFT and FOLD-RIGHT functions.
function - Provides higher-order functions for composition, currying, partial application, and other functional operations.
generic-arithmetic - Defines replacement generic arithmetic functions with CLOS generic functions making it easier to extend the Common Lisp numeric tower to user defined numeric types.
named-let - Overloads the LET macro to provide named let functionality similar to that found in Scheme.

Selected Functions

Dual numbers

DERIVATIVE function → function

Returns a new unary function that computes the exact derivative of the given function at any point x.

The returned function utilizes Dual Number arithmetic to perform automatic differentiation. It evaluates f(x + ε), where ε is the dual unit (an infinitesimal such that ε² = 0). The result is extracted from the infinitesimal part of the computation.

f(x + ε) = f(x) + f'(x)ε

This method avoids the precision errors of numerical approximation (finite difference) and the complexity of symbolic differentiation. It works for any function composed of standard arithmetic operations and elementary functions supported by the dual-numbers library (e.g., sin, exp, log).

Example

(defun square (x) (* x x))

(let ((df (derivative #'square)))
  (funcall df 5)) 
;; => 10

Implementation Note

The implementation relies on the generic-arithmetic system to ensure that mathematical operations within function can accept and return dual-number instances seamlessly.

Function

BINARY-COMPOSE-LEFT binary-fn unary-fn → function BINARY-COMPOSE-RIGHT binary-fn unary-fn → function

Composes a binary function B(x, y) with a unary function U(z) applied to one of its arguments.

(binary-compose-left B U)(x, y) ≡ B(U(x), y)

(binary-compose-right B U)(x, y) ≡ B(x, U(y))

These combinators are essential for "lifting" unary operations into binary contexts, such as when folding a sequence where elements need preprocessing before aggregation.

Example

;; Summing the squares of a list
(fold-left (binary-compose-right #'+ #'square) 0 '(1 2 3))
;; => 14  ; (+ (+ (+ 0 (sq 1)) (sq 2)) (sq 3))

FOLD

FOLD-LEFT function initial-value sequence → result

Iterates over sequence, calling function with the current accumulator and the next element. The accumulator is initialized to initial-value.

This is a left-associative reduction. The function is applied as:

(f ... (f (f initial-value x₀) x₁) ... x_n)

Unlike CL:REDUCE, the argument order for function is strictly defined: the first argument is always the accumulator, and the second argument is always the element from the sequence. This explicit ordering eliminates ambiguity and aligns with the functional programming convention found in Scheme and ML.

Arguments

function: A binary function taking (accumulator, element).
initial-value: The starting value of the accumulator.
sequence: A list or vector to traverse.

Example

(fold-left (lambda (acc x) (cons x acc))
           nil
           '(1 2 3))
;; => (3 2 1)  ; Effectively reverses the list

Named Let

LET bindings &body body → result LET name bindings &body body → result

Provides the functionality of the "Named Let" construct, commonly found in Scheme. This allows for the definition of recursive loops within a local scope without the verbosity of LABELS.

The macro binds the variables defined in bindings as in a standard let, but also binds name to a local function that can be called recursively with new values for those variables.

(let name ((var val) ...) ... (name new-val ...) ...)

This effectively turns recursion into a concise, iterative structure. It is the idiomatic functional alternative to imperative loop constructs.

While commonly used for tail recursive loops, the function bound by named let is a first-class procedure that can be called anywhere or used as a value.

Example

;; Standard Countdown Loop
(let recur ((n 10))
  (if (zerop n)
      'blastoff
      (progn
        (print n)
        (recur (1- n)))))

Implementation Note

The named-let library overloads the standard CL:LET macro to support this syntax directly if the first argument is a symbol. This allows users to use let uniformly for both simple bindings and recursive loops.

01 Feb 2026 11:15pm GMT

31 Jan 2026

Planet Lisp

Neil Munro: Ningle Tutorial 14: Pagination, Part 1

Introduction

Hello and welcome back, I hope you all had a good festive season, I took a break last month as I usually get very busy in December, but lest you think I had stopped posting, I have prepared a two part lesson this time: Pagination. We are first going to look at rolling your own pagination, but we will then look at integrating a package I wrote ningle-pager, to simplify the code. This way if my package doesn't fit your needs, you have the information required to build your own solution.

In practical terms, something like a microblogging app would use infinite scrolling, but we don't have anywhere enough data to present that as a lesson right now, and besides pagination has a lot of uses, Google and Amazon use it for their products, so it must be pretty useful!

Theory

In SQL, there is the ability to LIMIT results, but also, the ability to start from an OFFSET, which ultimately does the heavy lifting for us. We have previously looked at SXQL, which is a thin layer upon SQL, so we can use (limit 50) and (offset 100) (or whatever values we want) to interact with the database, we will also use GET parameters like ?page=2&limit=50 (or something). So with this information we know the url patterns and we know what SXQL forms we want to use, we just have to design how our application will work internally.

Our solution will define an interface, any controller that needs to be paginated will:

Accept a page keyword parameter
Accept a limit keyword parameter
Return a values list that has 3 items, the results, the total count, and the offset.

The work will touch the models, the controllers, and the templates:

Models

We are gonna get deep into the weeds with clos in how we implement our pagination in this part, there's multiple methods so we will take each implementation one by one. You can learn more about how OOP is implemented in my older videos.

generic Method

We start with a generic definition, we already had one, but we are modifying it. Fun fact, the generic method defines all the parameters a method might use, but not all methods must use the arguments, which comes in real handy for us later:

(defgeneric posts (user &key offset limit count)
  (:documentation "Gets the posts"))

Here we have a generic method, generic methods do nothing on their own, they help us define what a method should do, but of course under certain circumstances how a method does what it does may need to change, this allows us to implment different specialised concrete methods, we will look at this below.

What we have done with this generic method is add key arguments offset, limit, and count, as we saw previously, all this does is declare a :documentation form.

:around method

As you may, or may not know, the Common Lisp Object System (clos for short) allows us to define, as we have done previously primary methods, these are methods that specialise on one (or more) of the parameters. When passed arguments at the point the method is called, the method matching the parameter type of the arguments passed will trigger. That is why our posts method specifies user to be a user object, or null and handles the logic in different ways. It also allows us to define auxiliary methods, which are known as :before, :after, and :around. The :before methods will run, well, before the related primary method is called, with each :before method being called by its most specific signature to its least. :after methods are the total opposite, they run after a primary method is run, and they run from the least specific version to the most specific. They would be where we might want to add signals, or logging, we could have a :before, and :after around the mito:save-dao that we use and the :before method sends a pre-save signal while the :after sends a post-save signal.

It is not, however the :before/:after methods we care about here, we in fact will write an :around, which is a more fundamental building block. :around methods control, how, when, or even if, a primary method gets called, the other methods can't control this. As previously discussed they have a specific order in which they run, so if we wanted to... say... capture arguments and do some processing on them because, I dunno, we should never trust user input, prior to running our primary method, an :around method is what we would need to use.

The real "magic" of how to do what we want to do is use an :around method. We will look at the complete implementation a little bit later, but we need to pause and ensure we really understand about method combination in Common Lisp.

As we mentioned in the defgeneric, not every method needs to use or specialise on every parameter, and in this :around method you will notice that the count is absent, that is by design, because the :around method will compute it and pass it onto the next method in the chain, instead it uses &allow-other-keys to allow these key arguments to be accepted, but also since they are unnamed, the compiler won't emit a warning that they're not used.

Our implementation is here:

(defmethod posts :around (user &key (offset 0) (limit 50) &allow-other-keys)
  (let ((count (mito:count-dao 'post))
        (offset (max 0 offset))
        (limit (max 1 limit)))
    (if (and (> count 0) (>= offset count))
      (let* ((page-count (max 1 (ceiling count limit)))
             (corrected-offset (* (1- page-count) limit)))
        (posts user :offset corrected-offset :limit limit))
      (call-next-method user :offset offset :limit limit :count count))))

The first thing to note is the obvious :around keyword that comes after the posts name, this is how we declare a method as an :around method. The next thing to notice is that the count parameter is not declared, instead we use the &allow-other-keys, as discussed above. This method will modify some variables or recalculate the offset if it was invalid before either calling itself (to perform the recalculations) or call the next method with, well, call-next-method.

We begin with a let form that will get the number of items by using mito:count-dao, we determine the offset by getting the max of 0 or the offset, we also define limit as the max of 1 and limit.

The key check here is in the if form, which checks that both the count is larger than zero (> count zero) and the offset is bigger than the count (>= offset count), this tells us that an invalid condition exists, we can't request an offset to be larger than the number of items, so we have to handle it. Under these circumstances we need to get the new page-count by calculating (max 1 (ceiling count limit)), this will round up the result of dividing count by limit, and returns that, or 1.

Once we have that we can calculate a corrected offset by using the formula (* (1- page-count) limit), to run through how this formula works, here are some examples, if we assume limit is defined as 50, we can increment the page-count by one each time to see how this calculation works:

Page 1: (* (1- 1) 50) -> (* 0 50) -> 0
Page 2: (* (1- 2) 50) -> (* 1 50) -> 50
Page 3: (* (1- 3) 50) -> (* 2 50) -> 100

With this calculation done we can recursively call the method again, this time with the correct values, which brings us to our base case, calling the next method via call-next-method with the appropriate values which handily brings us to the specific methods now. We can actually dramatically simplify our primary methods thanks to the :around method.

Something to bear in mind, our count here is real easy, cos we are just returning all posts, but a more complex application may need more complex logic to determine what and how you are counting.

user method

Since we don't need to handle any error state or recovery (because the :around method handles it), we can actually write simple methods that perform a query and return the results. We have also simplified the way in which we run queries, turns out the sxql:yield returns multiple values, the first is the SQL string, the second is a list of params to be spliced into it (to avoid sql injection attacks), so we set up a multiple-value-bind form to capture these, and we put our SQL together, we previously used :? which was fine, as that is the character used to be a place holder, but this way is nicer to write. The things you learn, eh?

Please note however, where in our :around method we didn't specify the count parameter that the generic method defines, in this primary method, we do!

All we do it use a values form to return the result of running the sql, with the parameters bound to it, the count (number of items total) and the offset from where it starts returning results from.

(defmethod posts ((user user) &key offset limit count)
  (multiple-value-bind (sql params)
        (sxql:yield
              (sxql:select
                  (:post.*
                    (:as :user.username :username)
                    (:as (:count :likes.id) :like_count)
                    (:as (:count :user_likes.id) :liked_by_user))
                  (sxql:from :post)
                  (sxql:left-join :user :on (:= :post.user_id :user.id))
                  (sxql:left-join :likes :on (:= :post.id :likes.post_id))
                  (sxql:left-join (:as :likes :user_likes)
                                  :on (:and (:= :post.id :user_likes.post_id)
                                            (:= :user_likes.user_id (mito:object-id user))))
                  (sxql:group-by :post.id)
                  (sxql:order-by (:desc :post.created_at))
                  (sxql:offset offset)
                  (sxql:limit limit)))
      (values
          (mito:retrieve-by-sql sql :binds params)
          count
          offset)))

This makes our primary method much tighter, it runs a query and returns results, the :around method handles the recalculation logic (which is shared between this primary method and the next). Nice and simple.

null method

So having seen the form of our new primary methods above, we follow the same patern for the primary method where the user is null. As before this primary method accepts the count parameter.

(defmethod posts ((user null) &key offset limit count)
  (multiple-value-bind (sql)
      (sxql:yield
        (sxql:select
            (:post.*
              (:as :user.username :username)
              (:as (:count :likes.id) :like_count))
            (sxql:from :post)
            (sxql:left-join :user :on (:= :post.user_id :user.id))
            (sxql:left-join :likes :on (:= :post.id :likes.post_id))
            (sxql:group-by :post.id)
            (sxql:order-by (:desc :post.created_at))
            (sxql:limit limit)
            (sxql:offset offset)))
    (values
        (mito:retrieve-by-sql sql)
        count
        offset)))

The query is simpler, and we do not need to actually pass any variables into the SQL string, so we don't need the params value returned from the multiple-value-bind, which means we also don't need to use the :binds key argument into mito:retrieve-by-sql.

And that's it, that's our models done!

Controllers

Our controller will be the index controller we built previously, but we need to modify it quite a bit to parse and process the information we need, pagination has a lot of data, and we will need to ensure our templates can present the UI and data in a easy to use manner.

The controller will be so radically different as to be entirely new, it may be easier for you to delete the existing index controller and replace it with what we write here.

The first thing the controller needs to do is grab the GET parameters and validate them, we follow a basic formula to achieve this for the two parameters we need (page, and limit):

(or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1)
(or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)

As you can see these are basically identical the only thing that differs are the default values, in the case of page it is "1"/1 for limit it is "50"/50. To run through the logic we have some basic possibilities we need to handle.

In the case where there is no parameter which will be the case if no page=x is in url, or the value of page is not numeric (such as a word, page=hi or something) the result of (ingle:get-param "page" params) will be nil.

In the case where page is provided and is a number, the process is the same, but (ingle:get-param "page" params) would return a number as a string.

We can see how that would evaluate here:

(or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1)
(or (parse-integer (or nil "1") :junk-allowed t) 1)
(or (parse-integer "1" :junk-allowed t) 1)
(or 1 1)
1

The process repeats for the "limit" parameter. It's a lot of checking and handling, it would be nice if there were a library to handle this for us, but I have not yet found one, perhaps that will be our next topic!

NOTE! In this example we are permitting arbitrary limit values (we are learning), in practice, this should be limited to a maximum value to prevent users from requesting a page that may result in a Denial Of Service type event. What the exact value should be really depends on the data, it might be fine to get thousands of numbers in one go, but if your models are complicated, a smaller number may be better.

You could do something like this to limit... the limit: (limit (min 100 (max 1 limit)))

The let binding will therefore look like this

(let ((user (gethash :user ningle:*session*))
      (page (or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1))
      (limit (or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)))
  ...)

With those parameters validated, we can focus on building our paginated controller. Thanks to the work we did in the models we can pull the values out of the posts method with multiple-value-bind:

(let ((user (gethash :user ningle:*session*))
      (page (or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1))
      (limit (or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)))
  (multiple-value-bind (posts count offset) (ningle-tutorial-project/models:posts user :offset (* (1- page) limit) :limit limit)
    ...))

This enables us to now calculate the various values we need to pass through into a template to render the paginator, we need to generate 6 values.

page

The page variable is a way to determine what the current page is, it is calculated like so:

(1+ (floor offset limit))

From the offset we get from the multiple-value-bind we round down the value of dividing offset by the limit and add 1 to the value. If we assume, for example, an offset of 50 and a limit of 50, we can see how the page is determined.

(1+ (floor 50 50))
(1+ 1)
2

If we want to see something larger:

(1+ (floor 250 50))
(1+ 5)
6

page count

The page-count variable is a way to determine the total number of pages:

(max 1 (ceiling count limit))

Again, from the multiple-value-bind we get the count object, so we can expand this, assuing count is 250 and limit is 50.

(max 1 (ceiling 500 50))
(max 1 10)
10

In this manner, given a total number and a page size we want to split it into, we can see the total number of pages.

previous page number

Unlike the previous two calculations, prev-page can legitiately be nil. In the case we are already on the first page there's no way for there to be a previous page, so nil is fine. If we need to have some binary conditional logic where nil is acceptable when is our friend.

(when (> page 1) (1- page))

Wwhen the page is bigger than one, return one less than the value of page, because this is a when (1- page) will be returned, or nil will be.

page number

The inverse of the above:

(when (< page page-count) (1+ page))

When the page is smaller than the total number of pages, return one more than the value of page, or nil.

range start

Range start is to help the UI, typically in paginators, especially in large ones, there's a first, last, and current location, but often the current location has some pages to the left and right, this is the range. Now there's no real right number for the ranges, but I settled on 2.

(max 1 (- page 2))

Assuming page is 1, max will return 1, but if we are on, say, page 15, the location the range starts at is 13.

range end

Range end behaves like range start, except in the other direction, but we need to ensure we get the minimum of the page-count, in case we are on the last page.

(min page-count (+ page 2))

With these defined we can put them in a let* form.

(let ((user (gethash :user ningle:*session*))
      (page (or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1))
      (limit (or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)))
  (multiple-value-bind (posts count offset) (ningle-tutorial-project/models:posts user :offset (* (1- page) limit) :limit limit)
    (let* ((page (1+ (floor offset limit)))
           (page-count (max 1 (ceiling count limit)))
           (prev-page (when (> page 1) (1- page)))
           (next-page (when (< page page-count) (1+ page)))
           (range-start (max 1 (- page 2)))
           (range-end (min page-count (+ page 2))))
        ...)))

The final thing we need to do is return the result of djula:render-template*, but there is still more data we need to pass through, build upon the variables we defined, there's only 5 more.

pages

Pages is simply a list of all the pages, which is easy enough to generate:

(loop :for idx :from range-start :to range-end :collect idx)

show-start-gap

The show-start-gap is a boolean that tells the template to render part of the paginator UI.

(> range-start 2)

This will return t or nil depending on if range-start is larger than 2.

show-end-gap

The show-end-gap is the inverse:

(< range-end (1- page-count))

This will return t or nil depending on if range-end is smaller than (1- page-count).

start-index

To get the start-index, this is the number starting from the offset so we can display something like "Showing x - y of z", x would be our start-index.

(if (> count 0) (1+ offset) 0)

If the count is bigger than zero then we return one more than the offset, else we return 0 (the default starting offset being 0).

end-index

Again, this is the opposite of another thing, the start-index.

(if (> count 0) (min count (+ offset (length posts))) 0)

If count is bigger than zero then what we need is the smallest (min) of the count and offset plus the number of posts, or 0. It's possible there isn't a complete pages worth of items, so we need to ensure that we don't over run.

With all that being said, we can now see the complete controller with the values rendered by djula:

(defun index (params)
    (let ((user (gethash :user ningle:*session*))
          (page (or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1))
          (limit (or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)))
      (multiple-value-bind (posts count offset) (ningle-tutorial-project/models:posts user :offset (* (1- page) limit) :limit limit)
        (let* ((page (1+ (floor offset limit)))
               (page-count (max 1 (ceiling count limit)))
               (prev-page (when (> page 1) (1- page)))
               (next-page (when (< page page-count) (1+ page)))
               (range-start (max 1 (- page 2)))
               (range-end (min page-count (+ page 2))))
          (djula:render-template*
            "main/index.html"
            nil
            :title "Home"
            :user user
            :posts posts
            :form (if user (cl-forms:find-form 'post) nil)
            :count count
            :page page
            :limit limit
            :page-count page-count
            :prev-page prev-page
            :next-page next-page
            :pages (loop :for idx :from range-start :to range-end :collect idx)
            :show-start-gap (> range-start 2)
            :show-end-gap (< range-end (1- page-count))
            :start-index (if (> count 0) (1+ offset) 0)
            :end-index (if (> count 0) (min count (+ offset (length posts))) 0))))))

I would have thought that having an invalid number would have triggered a 404, or perhaps a 400, but having tested this with Google, it seems that the convention is to default to page 1. So with that said and the controller in place, we can now write our templates.

Templates

index (src/templates/main/index.html)

Our index template doesn't require much change at all, we need to only add an include (from djula) to include the contents of one template inside another. Of course we have still to write the pagination template, but that is just below.

 {% extends "base.html" %}

{% block content %}
 <div class="container">
    <!-- Post form -->
    <div class="row mb-4">
        <div class="col">
            {% if form %}
                {% form form %}
            {% endif %}
        </div>
    </div>

    <!-- Posts Section -->
+   {% include "partials/pagination.html" with url="/" title="Posts" %}
    <div class="row">
    ...
    </div>
+   {% include "partials/pagination.html" with url="/" title="Posts" %}
 </div>
 {% endblock %}

Something to bear in mind here is the way this is designed is that if you need to pass in some data, in our case url, and title, we can pass through these things, we will use these in the pagination html partial.

pagination (src/templates/partials/pagination.html)

Partials are a way to include reusable parts of html presentation in a template, they help us build isolated pieces of presentation logic that we might want to use over and over again all over our application, this is why we save them in a partials folder, because they are a partial piece of presentation logic.

This is the magic that makes the UI work, while we showed were it would be used in the index.html page, we need to look into what it does. I do use bootstrap to make things look nice, but I'm very much NOT a frontend engineer, so I can't speak to how to make something look good without it, so inevitably much of the classes and UI come from Bootstrap.

I will have to break the html down piece by piece to explain what it's all doing, but look at the final listing to see the complete file.

From the values we calculated though, we start by checking if the page count is bigger than 1, because if we have less than two pages, we can't paginate, therefore the whole UI is wrapped in:


{% if page-count > 1%}
    ...
{% endif %}

With that we can use the start-index, end-index, and count, to display the human readable part of the paginator.


{% if page-count > 1%}
  <div class="table-pagination">
    <div class="pagination-summary">
      Showing {{ start-index }}-{{ end-index }} of {{ count }}
    </div>
    ...
{% endif %}

We then setup a nav, with a single ul object in it, with which we define our parts of the paginator as li tags.


{% if page-count > 1%}
    ...
    <nav aria-label="{{ title }} pagination">
      <ul class="pagination">
    ...
{% endif %}

Within this ul, we have to put all of our li elements which will contain the aspects of the UI. The first such item is:

    ...
    <ul class="pagination">
        <li class="page-item{% if not prev-page %} disabled{% endif %}">
          {% if prev-page %}
            <a class="page-link" href="{{ url }}?page={{ prev-page }}&limit={{ limit }}">Prev</a>
          {% else %}
            <span class="page-link">Prev</span>
          {% endif %}
        </li>
        ...
    </ul>

This first li will set the disabled css class if the prev-page is not nil. It will again rely on prev-page to either render an a tag building the url up, including the prev-page, and limit, else a span is rendered. This sets up the first element in the pagination UI.

The second li item checks the page, and if it is the first page, it sets the active class and renders a span, if it is NOT 1 then a link to the first page is rendered with a a tag, building up the url as we did before.

...
        <li class="page-item{% if page == 1 %} active{% endif %}">
          {% if page == 1 %}
            <span class="page-link">1</span>
          {% else %}
            <a class="page-link" href="{{ url }}?page=1&limit={{ limit }}">1</a>
          {% endif %}
        </li>
...

Now that we have gotten the beginning of the paginator with a "Prev" li element and the first li element, we might need to render an elipsis (...) if the number of our pages is too large. We will repeat this pattern later on, in reverse, we will use the show-start-gap boolean to render the ....

...
        {% if show-start-gap %}
          <li class="page-item disabled"><span class="page-link">...</span></li>
        {% endif %}
...

With that done, we can now render the page numbers:

        {% for p in pages %}
          {% if p != 1 and p != page-count %}
            <li class="page-item{% if p == page %} active{% endif %}">
              {% if p == page %}
                <span class="page-link">{{ p }}</span>
              {% else %}
                <a class="page-link" href="{{ url }}?page={{ p }}&limit={{ limit }}">{{ p }}</a>
              {% endif %}
            </li>
          {% endif %}
        {% endfor %}

We loop over the list of page numbers we passed into the template as pages, if the loop iteration is NOT the first page (remember that this is a list of page numbers and starts from 1, not 0) and the loop iteration is not the current page, then we will render the li tag. If we just so happen to be on the loop iteration that is the current page (page), we render a span tag and not a link, else we render a link so that we can directly navigate to this element in the paginator.

We then render the show-end-gap, using the pattern we used above:

...
        {% if show-end-gap %}
          <li class="page-item disabled"><span class="page-link">...</span></li>
        {% endif %}
...

This will render an elipsis (...) where needed.

Now to the final page in the paginator, we must check if we are on the final page, which, as we have seen before, we do in the class line, and to determine if we render a span tag if we are on the final page, or a a tag if we are not.

...
      <li class="page-item{% if page == page-count %} active{% endif %}">
          {% if page == page-count %}
            <span class="page-link">{{ page-count }}</span>
          {% else %}
            <a class="page-link" href="{{ url }}?page={{ page-count }}&limit={{ limit }}">{{ page-count }}</a>
          {% endif %}
        </li>
...

And finally, we must render the "Next" part of the pagination:

...
        <li class="page-item{% if not next-page %} disabled{% endif %}">
          {% if next-page %}
            <a class="page-link" href="{{ url }}?page={{ next-page }}&limit={{ limit }}">Next</a>
          {% else %}
            <span class="page-link">Next</span>
          {% endif %}
        </li>
...

If there is NOT a next page we add the disabled class, we then, as we have seen before use the next-page variable to determine if we render an a tag, or a span tag.

Full Listings

To see how all of this comes together here are the files in their entirety.

models.lisp

(defpackage ningle-tutorial-project/models
  (:use :cl :mito :sxql)
  (:import-from :ningle-auth/models #:user)
  (:export #:post
           #:id
           #:content
           #:comments
           #:likes
           #:user
           #:liked-post-p
           #:posts
           #:parent
           #:toggle-like))

(in-package ningle-tutorial-project/models)

(deftable post ()
  ((user    :col-type ningle-auth/models:user :initarg :user    :accessor user)
   (parent  :col-type (or :post :null)        :initarg :parent  :reader parent :initform nil)
   (content :col-type (:varchar 140)          :initarg :content :accessor content)))

(deftable likes ()
  ((user :col-type ningle-auth/models:user :initarg :user :reader user)
   (post :col-type post                    :initarg :post :reader post))
  (:unique-keys (user post)))

(defgeneric likes (post)
  (:documentation "Returns the number of likes a post has"))

(defmethod likes ((post post))
  (mito:count-dao 'likes :post post))

(defgeneric comments (post user)
  (:documentation "Gets the comments for a logged in user"))

(defmethod comments ((post post) (user user))
    (mito:retrieve-by-sql
        (sxql:yield
            (sxql:select
                (:post.*
                    (:as :user.username :username)
                    (:as (:count :likes.id) :like_count)
                    (:as (:count :user_likes.id) :liked_by_user))
                (sxql:from :post)
                (sxql:where (:= :parent :?))
                (sxql:left-join :user :on (:= :post.user_id :user.id))
                (sxql:left-join :likes :on (:= :post.id :likes.post_id))
                (sxql:left-join (:as :likes :user_likes)
                                :on (:and (:= :post.id :user_likes.post_id)
                                          (:= :user_likes.user_id :?)))
                (sxql:group-by :post.id)
                (sxql:order-by (:desc :post.created_at))
                (sxql:limit 50)))
            :binds (list (mito:object-id post) (mito:object-id user))))

(defmethod comments ((post post) (user null))
    (mito:retrieve-by-sql
        (sxql:yield
        (sxql:select
            (:post.*
              (:as :user.username :username)
              (:as (:count :likes.id) :like_count))
            (sxql:from :post)
            (sxql:where (:= :parent :?))
            (sxql:left-join :user :on (:= :post.user_id :user.id))
            (sxql:left-join :likes :on (:= :post.id :likes.post_id))
            (sxql:group-by :post.id)
            (sxql:order-by (:desc :post.created_at))
            (sxql:limit 50)))
        :binds (list (mito:object-id post))))

(defgeneric toggle-like (user post)
  (:documentation "Toggles the like of a user to a given post"))

(defmethod toggle-like ((ningle-auth/models:user user) (post post))
  (let ((liked-post (liked-post-p user post)))
    (if liked-post
        (mito:delete-dao liked-post)
        (mito:create-dao 'likes :post post :user user))
    (not liked-post)))

(defgeneric liked-post-p (user post)
  (:documentation "Returns true if a user likes a given post"))

(defmethod liked-post-p ((ningle-auth/models:user user) (post post))
  (mito:find-dao 'likes :user user :post post))

(defgeneric posts (user &key offset limit count)
  (:documentation "Gets the posts"))

(defmethod posts :around (user &key (offset 0) (limit 50) &allow-other-keys)
  (let ((count (mito:count-dao 'post))
        (offset (max 0 offset))
        (limit (max 1 limit)))
    (if (and (> count 0) (>= offset count))
      (let* ((page-count (max 1 (ceiling count limit)))
             (corrected-offset (* (1- page-count) limit)))
        (posts user :offset corrected-offset :limit limit))
      (call-next-method user :offset offset :limit limit :count count))))

(defmethod posts ((user user) &key offset limit count)
  (multiple-value-bind (sql params)
        (sxql:yield
              (sxql:select
                  (:post.*
                    (:as :user.username :username)
                    (:as (:count :likes.id) :like_count)
                    (:as (:count :user_likes.id) :liked_by_user))
                  (sxql:from :post)
                  (sxql:left-join :user :on (:= :post.user_id :user.id))
                  (sxql:left-join :likes :on (:= :post.id :likes.post_id))
                  (sxql:left-join (:as :likes :user_likes)
                                  :on (:and (:= :post.id :user_likes.post_id)
                                            (:= :user_likes.user_id (mito:object-id user))))
                  (sxql:group-by :post.id)
                  (sxql:order-by (:desc :post.created_at))
                  (sxql:offset offset)
                  (sxql:limit limit)))
      (values
          (mito:retrieve-by-sql sql :binds params)
          count
          offset)))

(defmethod posts ((user null) &key offset limit count)
  (multiple-value-bind (sql)
      (sxql:yield
        (sxql:select
            (:post.*
              (:as :user.username :username)
              (:as (:count :likes.id) :like_count))
            (sxql:from :post)
            (sxql:left-join :user :on (:= :post.user_id :user.id))
            (sxql:left-join :likes :on (:= :post.id :likes.post_id))
            (sxql:group-by :post.id)
            (sxql:order-by (:desc :post.created_at))
            (sxql:limit limit)
            (sxql:offset offset)))
    (values
        (mito:retrieve-by-sql sql)
        count
        offset)))

controllers.lisp

(defpackage ningle-tutorial-project/controllers
  (:use :cl :sxql)
  (:import-from :ningle-tutorial-project/forms
                #:post
                #:content
                #:parent
                #:comment)
  (:export #:index
           #:post-likes
           #:single-post
           #:post-content
           #:post-comment
           #:logged-in-profile
           #:unauthorized-profile
           #:people
           #:person))

(in-package ningle-tutorial-project/controllers)


(defun index (params)
    (let ((user (gethash :user ningle:*session*))
          (page (or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1))
          (limit (or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)))
      (multiple-value-bind (posts count offset) (ningle-tutorial-project/models:posts user :offset (* (1- page) limit) :limit limit)
        (let* ((page (1+ (floor offset limit)))
               (page-count (max 1 (ceiling count limit)))
               (prev-page (when (> page 1) (1- page)))
               (next-page (when (< page page-count) (1+ page)))
               (range-start (max 1 (- page 2)))
               (range-end (min page-count (+ page 2))))
          (djula:render-template*
            "main/index.html"
            nil
            :title "Home"
            :user user
            :posts posts
            :form (if user (cl-forms:find-form 'post) nil)
            :count count
            :page page
            :limit limit
            :page-count page-count
            :prev-page prev-page
            :next-page next-page
            :pages (loop :for idx :from range-start :to range-end :collect idx)
            :show-start-gap (> range-start 2)
            :show-end-gap (< range-end (1- page-count))
            :start-index (if (> count 0) (1+ offset) 0)
            :end-index (if (> count 0) (min count (+ offset (length posts))) 0))))))


(defun post-likes (params)
  (let* ((user (gethash :user ningle:*session*))
         (post (mito:find-dao 'ningle-tutorial-project/models:post :id (parse-integer (ingle:get-param :id params))))
         (res (make-hash-table :test 'equal)))
    ;; Bail out if post does not exist
    (unless post
      (setf (getf (lack.response:response-headers ningle:*response*) :content-type) "application/json")
      (setf (gethash "error" res) "post not found")
      (setf (lack.response:response-status ningle:*response*) 404)
      (return-from post-likes (com.inuoe.jzon.stringify res)))

    ;; success, continue
    (setf (gethash "post" res) (mito:object-id post))
    (setf (gethash "liked" res) (ningle-tutorial-project/models:toggle-like user post))
    (setf (gethash "likes" res) (ningle-tutorial-project/models:likes post))
    (setf (getf (lack.response:response-headers ningle:*response*) :content-type) "application/json")
    (setf (lack.response:response-status ningle:*response*) 201)
    (com.inuoe.jzon:stringify res)))


(defun single-post (params)
    (handler-case
        (let ((post (mito:find-dao 'ningle-tutorial-project/models:post :id (parse-integer (ingle:get-param :id params))))
              (form (cl-forms:find-form 'comment)))
          (cl-forms:set-field-value form 'ningle-tutorial-project/forms:parent (mito:object-id post))
          (djula:render-template* "main/post.html" nil
                                  :title "Post"
                                  :post post
                                  :comments (ningle-tutorial-project/models:comments post (gethash :user ningle:*session*))
                                  :likes (ningle-tutorial-project/models:likes post)
                                  :form form
                                  :user (gethash :user ningle:*session*)))

        (parse-error (err)
            (setf (lack.response:response-status ningle:*response*) 404)
            (djula:render-template* "error.html" nil :title "Error" :error err))))


(defun post-content (params)
    (let ((user (gethash :user ningle:*session*))
          (form (cl-forms:find-form 'post)))
        (handler-case
            (progn
                (cl-forms:handle-request form) ; Can throw an error if CSRF fails

                (multiple-value-bind (valid errors)
                    (cl-forms:validate-form form)

                    (when errors
                        (format t "Errors: ~A~%" errors))

                    (when valid
                        (cl-forms:with-form-field-values (content) form
                            (mito:create-dao 'ningle-tutorial-project/models:post :content content :user user :parent nil)
                            (ingle:redirect "/")))))

            (simple-error (err)
                (setf (lack.response:response-status ningle:*response*) 403)
                (djula:render-template* "error.html" nil :title "Error" :error err)))))


(defun post-comment (params)
    (let ((user (gethash :user ningle:*session*))
          (form (cl-forms:find-form 'comment)))
        (handler-case
            (progn
                (cl-forms:handle-request form) ; Can throw an error if CSRF fails

                (multiple-value-bind (valid errors)
                    (cl-forms:validate-form form)

                    (when errors
                        (format t "Errors: ~A~%" errors))

                    (when valid
                        (cl-forms:with-form-field-values (content parent) form
                            (mito:create-dao 'ningle-tutorial-project/models:post :content content :user user :parent (parse-integer parent))
                            (ingle:redirect "/")))))

            (simple-error (err)
                (setf (lack.response:response-status ningle:*response*) 403)
                (djula:render-template* "error.html" nil :title "Error" :error err)))))


(defun logged-in-profile (params)
    (let ((user (gethash :user ningle:*session*)))
        (djula:render-template* "main/profile.html" nil :title "Profile" :user user)))


(defun unauthorized-profile (params)
    (setf (lack.response:response-status ningle:*response*) 403)
    (djula:render-template* "error.html" nil :title "Error" :error "Unauthorized"))


(defun people (params)
    (let ((users (mito:retrieve-dao 'ningle-auth/models:user)))
        (djula:render-template* "main/people.html" nil :title "People" :users users :user (cu-sith:logged-in-p))))


(defun person (params)
    (let* ((username-or-email (ingle:get-param :person params))
           (person (first (mito:select-dao
                            'ningle-auth/models:user
                            (where (:or (:= :username username-or-email)
                                        (:= :email username-or-email)))))))
        (djula:render-template* "main/person.html" nil :title "Person" :person person :user (cu-sith:logged-in-p))))

index.html

{% extends "base.html" %}

{% block content %}
<div class="container">
    <!-- Post form -->
    <div class="row mb-4">
        <div class="col">
            {% if form %}
                {% form form %}
            {% endif %}
        </div>
    </div>

    <!-- Posts Section -->
    {% include "partials/pagination.html" with url="/" title="Posts" %}
    <div class="row">
        <div class="col-12">
            {% for post in posts %}
            <div class="card post mb-3" data-href="/post/{{ post.id }}">
                <div class="card-body">
                <h5 class="card-title mb-2">{{ post.content }}</h5>
                <p class="card-subtitle text-muted mb-0">@{{ post.username }}</p>
                </div>

                <div class="card-footer d-flex justify-content-between align-items-center">
                <button type="button"
                        class="btn btn-sm btn-outline-primary like-button"
                        data-post-id="{{ post.id }}"
                        data-logged-in="{% if user.username != "" %}true{% else %}false{% endif %}"
                        data-liked="{% if post.liked-by-user == 1 %}1{% else %}0{% endif %}"
                        aria-label="Like post {{ post.id }}">
                    {% if post.liked-by-user == 1 %}
                      <i class="bi bi-hand-thumbs-up-fill text-primary" aria-hidden="true"></i>
                    {% else %}
                      <i class="bi bi-hand-thumbs-up text-muted" aria-hidden="true"></i>
                    {% endif %}
                    <span class="ms-1 like-count">{{ post.like-count }}</span>
                </button>

                <small class="text-muted">Posted on: {{ post.created-at }}</small>
                </div>
            </div>
            {% endfor %}

            {% if not posts %}
                <div class="text-center">
                    <p class="text-muted">No posts to display.</p>
                </div>
            {% endif %}
        </div>
    </div>
    {% include "partials/pagination.html" with url="/" title="Posts" %}
</div>
{% endblock %}

{% block js %}
document.querySelectorAll(".like-button").forEach(btn => {
  btn.addEventListener("click", function (e) {
    e.stopPropagation();
    e.preventDefault();

    // Check login
    if (btn.dataset.loggedIn !== "true") {
      alert("You must be logged in to like posts.");
      return;
    }

    const postId = btn.dataset.postId;
    const countSpan = btn.querySelector(".like-count");
    const icon = btn.querySelector("i");
    const liked = Number(btn.dataset.liked) === 1;
    const previous = parseInt(countSpan.textContent, 10) || 0;
    const url = `/post/${postId}/likes`;

    // Optimistic UI toggle
    countSpan.textContent = liked ? previous - 1 : previous + 1;
    btn.dataset.liked = liked ? "false" : "true";

    // Toggle icon classes optimistically
    if (liked) {
      // Currently liked, so unlike it
      icon.className = "bi bi-hand-thumbs-up text-muted";
    } else {
      // Currently not liked, so like it
      icon.className = "bi bi-hand-thumbs-up-fill text-primary";
    }

    const csrfTokenMeta = document.querySelector('meta[name="csrf-token"]');
    const headers = { "Content-Type": "application/json" };
    if (csrfTokenMeta) headers["X-CSRF-Token"] = csrfTokenMeta.getAttribute("content");

    fetch(url, {
      method: "POST",
      headers: headers,
      body: JSON.stringify({ toggle: true })
    })
    .then(resp => {
      if (!resp.ok) {
        // Revert optimistic changes on error
        countSpan.textContent = previous;
        btn.dataset.liked = liked ? 1 : 0;
        if (liked) {
          icon.className = "bi bi-hand-thumbs-up-fill text-primary";
        } else {
          icon.className = "bi bi-hand-thumbs-up text-muted";
        }
        throw new Error("Network response was not ok");
      }
      return resp.json();
    })
    .then(data => {
      if (data && typeof data.likes !== "undefined") {
        countSpan.textContent = data.likes;
        btn.dataset.liked = data.liked ? "true" : "false";

        // Update icon based on server response
        if (data.liked) {
          icon.className = "bi bi-hand-thumbs-up-fill text-primary";
        } else {
          icon.className = "bi bi-hand-thumbs-up text-muted";
        }
      }
    })
    .catch(err => {
      console.error("Like failed:", err);
      // Revert optimistic changes on error
      countSpan.textContent = previous;
      btn.dataset.liked = liked ? 1 : 0;
      if (liked) {
        icon.className = "bi bi-hand-thumbs-up-fill text-primary";
      } else {
        icon.className = "bi bi-hand-thumbs-up text-muted";
      }
    });
  });
});

document.querySelectorAll(".card.post").forEach(card => {
  card.addEventListener("click", function () {
    const href = card.dataset.href;
    if (href) {
      window.location.href = href;
    }
  });
});
{% endblock %}

pagination.html

{% if page-count > 1 %}
  <div class="table-pagination">
    <div class="pagination-summary">
      Showing {{ start-index }}-{{ end-index }} of {{ count }}
    </div>
    <nav aria-label="{{ title }} pagination">
      <ul class="pagination">
        <li class="page-item{% if not prev-page %} disabled{% endif %}">
          {% if prev-page %}
            <a class="page-link" href="{{ url }}?page={{ prev-page }}&limit={{ limit }}">Prev</a>
          {% else %}
            <span class="page-link">Prev</span>
          {% endif %}
        </li>

        <li class="page-item{% if page == 1 %} active{% endif %}">
          {% if page == 1 %}
            <span class="page-link">1</span>
          {% else %}
            <a class="page-link" href="{{ url }}?page=1&limit={{ limit }}">1</a>
          {% endif %}
        </li>

        {% if show-start-gap %}
          <li class="page-item disabled"><span class="page-link">...</span></li>
        {% endif %}

        {% for p in pages %}
          {% if p != 1 and p != page-count %}
            <li class="page-item{% if p == page %} active{% endif %}">
              {% if p == page %}
                <span class="page-link">{{ p }}</span>
              {% else %}
                <a class="page-link" href="{{ url }}?page={{ p }}&limit={{ limit }}">{{ p }}</a>
              {% endif %}
            </li>
          {% endif %}
        {% endfor %}

        {% if show-end-gap %}
          <li class="page-item disabled"><span class="page-link">...</span></li>
        {% endif %}

        <li class="page-item{% if page == page-count %} active{% endif %}">
          {% if page == page-count %}
            <span class="page-link">{{ page-count }}</span>
          {% else %}
            <a class="page-link" href="{{ url }}?page={{ page-count }}&limit={{ limit }}">{{ page-count }}</a>
          {% endif %}
        </li>

        <li class="page-item{% if not next-page %} disabled{% endif %}">
          {% if next-page %}
            <a class="page-link" href="{{ url }}?page={{ next-page }}&limit={{ limit }}">Next</a>
          {% else %}
            <span class="page-link">Next</span>
          {% endif %}
        </li>
      </ul>
    </nav>
  </div>
{% endif %}

Conclusion

Phew, that was a long one, and honestly it kinda got into the weeds a bit, thank you for persisting with it and following it to the end. It took quite a while to study and get right. As you no doubt felt while writing it, there was a LOT of calculations and data being passed into the template, and it would be awful to have to repeat that everywhere you wanted to perform pagination, but don't worry in part 2, this is what we want to try and solve. A more generalised pagination system that doesn't require quite so much logic in the controllers.

If you found this lesson helpful, consider experimenting with different page sizes or adding pagination to the comments on individual posts. The patterns we've established here are reusable throughout your application.

If you found bugs or issues, please do let me know, I correct things when told and I try to fix things as quickly as possible.

Learning Outcomes

Level	Learning Outcome
Understand	Understand how SQL `LIMIT` and `OFFSET` work together to enable pagination, and how query parameters like `?page=2&limit=50` map to database queries through SXQL's `(sxql:limit n)` and `(sxql:offset n)` forms.
Apply	Apply CLOS method combination (`:around` methods with `call-next-method`) to implement parameter validation and error recovery, ensuring offset never exceeds total count and calculating corrected page numbers when needed.
Analyse	Analyse the mathematical relationships in pagination (page-to-offset conversion, range calculations, gap detection) and trace how values flow through the `:around` method, primary methods, controller calculations, and template rendering.
Create	Create a complete pagination system by combining `:around` methods, SQL queries with LIMIT/OFFSET, controller calculations (page/offset conversions, range calculations), and reusable template partials that handle edge cases like invalid page numbers and single-page results.

Github

The link for the custom pagination part of the tutorials code is available here.

Common Lisp HyperSpec

Symbol	Type	Why it appears in this lesson	CLHS
`defpackage`	Macro	Define project packages like `ningle-tutorial-project/models`, `/forms`, `/controllers`.	http://www.lispworks.com/documentation/HyperSpec/Body/m_defpac.htm
`in-package`	Macro	Enter each package before defining models, controllers, and functions.	http://www.lispworks.com/documentation/HyperSpec/Body/m_in_pkg.htm
`defgeneric`	Macro	Define the generic `posts` function signature with keyword parameters `offset`, `limit`, and `count`.	http://www.lispworks.com/documentation/HyperSpec/Body/m_defgen.htm
`defmethod`	Macro	Implement specialized `posts` methods for `user` and `null` types, and the `:around` method for validation.	http://www.lispworks.com/documentation/HyperSpec/Body/m_defmet.htm
`call-next-method`	Function	Invoke the next most specific method from within the `:around` method after validating parameters.	http://www.lispworks.com/documentation/HyperSpec/Body/f_call_n.htm
`let`	Special Operator	Bind local variables in the `:around` method (`count`, `offset`, `limit`) and controller (`user`, `page`, `limit`).	http://www.lispworks.com/documentation/HyperSpec/Body/s_let_l.htm
`let*`	Special Operator	Sequentially bind pagination calculations (`page`, `page-count`, `prev-page`, etc.) where each depends on previous values.	http://www.lispworks.com/documentation/HyperSpec/Body/s_let_l.htm
`if`	Special Operator	Check conditions like whether offset exceeds count, or whether count is greater than zero.	http://www.lispworks.com/documentation/HyperSpec/Body/s_if.htm
`when`	Macro	Calculate `prev-page` and `next-page` only when the condition is true, returning `nil` otherwise.	http://www.lispworks.com/documentation/HyperSpec/Body/m_when_.htm
`or`	Macro	Provide fallback values when parsing `page` and `limit` parameters, defaulting to 1 and 50 respectively.	http://www.lispworks.com/documentation/HyperSpec/Body/m_or.htm
`and`	Macro	Check multiple conditions in the `:around` method (count > 0 AND offset >= count) before recalculating.	http://www.lispworks.com/documentation/HyperSpec/Body/m_and.htm
`multiple-value-bind`	Macro	Capture the three return values from `posts` (`posts`, `count`, `offset`) and from `sxql:yield` (`sql`, `params`).	http://www.lispworks.com/documentation/HyperSpec/Body/m_multip.htm
`values`	Function	Return multiple values from `posts` methods (results, count, offset) to the caller.	http://www.lispworks.com/documentation/HyperSpec/Body/a_values.htm
`loop`	Macro	Generate the list of page numbers from `range-start` to `range-end` for template rendering.	http://www.lispworks.com/documentation/HyperSpec/Body/m_loop.htm
`parse-integer`	Function	Convert string query parameters (`"1"`, `"50"`) to integers, with `:junk-allowed t` for safe parsing.	http://www.lispworks.com/documentation/HyperSpec/Body/f_parse_.htm
`floor`	Function	Round down the result of `offset / limit` to calculate the current page number.	http://www.lispworks.com/documentation/HyperSpec/Body/f_floorc.htm
`ceiling`	Function	Round up the result of `count / limit` to calculate the total number of pages.	http://www.lispworks.com/documentation/HyperSpec/Body/f_floorc.htm
`max`	Function	Ensure `offset` and `limit` never go below their minimum valid values (0 and 1), and calculate `range-start`.	http://www.lispworks.com/documentation/HyperSpec/Body/f_max_m.htm
`min`	Function	Ensure `range-end` doesn't exceed `page-count` and calculate `end-index` correctly.	http://www.lispworks.com/documentation/HyperSpec/Body/f_max_m.htm
`1+` / `1-`	Function	Increment/decrement page numbers for navigation (next/previous page, page number conversions).	[http://www.lispworks.com/documentation/HyperSpec/Body/f_1pl_1.htm](http://www.lispworks.com/documentation/HyperSpec/Body/f_1pl_1.htm)
`length`	Function	Get the count of posts returned to calculate `end-index` accurately.	http://www.lispworks.com/documentation/HyperSpec/Body/f_length.htm

31 Jan 2026 8:00am GMT

29 Jan 2026

FOSDEM 2026

Join the FOSDEM Treasure Hunt!

Are you ready for another challenge? We're excited to host the second yearly edition of our treasure hunt at FOSDEM! Participants must solve five sequential challenges to uncover the final answer. Update: the treasure hunt has been successfully solved by multiple participants, and the main prizes have now been claimed. But the fun doesn't stop here. If you still manage to find the correct final answer and go to Infodesk K, you will receive a small consolation prize as a reward for your effort. If you're still looking for a challenge, the 2025 treasure hunt is still unsolved, so舰

29 Jan 2026 11:00pm GMT

26 Jan 2026

FOSDEM 2026

Guided sightseeing tours

If your non-geek partner and/or kids are joining you to FOSDEM, they may be interested in spending some time exploring Brussels while you attend the conference. Like previous years, FOSDEM is organising sightseeing tours.

26 Jan 2026 11:00pm GMT

Call for volunteers

With FOSDEM just a few days away, it is time for us to enlist your help. Every year, an enthusiastic band of volunteers make FOSDEM happen and make it a fun and safe place for all our attendees. We could not do this without you. This year we again need as many hands as possible, especially for heralding during the conference, during the buildup (starting Friday at noon) and teardown (Sunday evening). No need to worry about missing lunch at the weekend, food will be provided. Would you like to be part of the team that makes FOSDEM tick?舰

26 Jan 2026 11:00pm GMT

fidzu : software

05 Feb 2026

The Disconnected Git Workflow

Using git-send-email while being offline and with multiple email accounts

One mail account for each git repository

Damn, I did a commit with the wrong user.email!

Working offline

It is not only git!

Conclusion

About the author

04 Feb 2026

Changes in littler version 0.3.22 (2026-02-03)

02 Feb 2026

Classical literate programming

The general idea

Untangled LP

Pros and cons

The Lisp and PAX view

01 Feb 2026

Selected Functions

Dual numbers

Example

Implementation Note

Function

Example

FOLD

Arguments

Example

Named Let

Example

Implementation Note

31 Jan 2026

Contents

Introduction

Theory

Models

generic Method

:around method

user method

null method

Controllers

page

page count

previous page number

page number

range start

range end

pages

show-start-gap

show-end-gap

start-index

end-index

Templates

index (src/templates/main/index.html)

pagination (src/templates/partials/pagination.html)

Full Listings

models.lisp

controllers.lisp

index.html

pagination.html

Conclusion

Learning Outcomes

Github

Common Lisp HyperSpec

29 Jan 2026

26 Jan 2026