compiling-the-lambda-calculus/script.md

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About Me
===
"For the new faces, I'm Elizabeth, or simponic on the discord..."
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- I love functional programming; I've been enjoying programs functionally for over 3 years; in LISP and Elixir mostly
- Soon to be SDE at AWS
- I'm 20 years old, graduating this semester once I'm done with my final general class I missed on my grad plan (2credits only, ugh, ask me after if you want to hear the bureacracy)
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- I was president of the USU Linux club from 2021 - 2024
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Of course this presentation is open source at the link you see on the board.
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Part One
===
"But you didn't come here to meet me; and we don't have much time to get through everything. So let's start. Part one: Flirting With Functions!"
Flirting With Functions
===
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Tomorrow's Valentine's day, but you realize; you don't have a Valentine!
Desparate to make yourself feel better, you turn to your computer and open Emacs, querying "m-x doctor".
```
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I am the psychotherapist. Please, describe your problems. Each time you are finished talking, type RET twice.
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> i need a valentine
Why do you say you might want to have this valentine?
> im lonely
Are you lonely often?
> sometimes
Can you elaborate on that?
> i need someone or something i can trust
What makes you believe you need someone or something you can trust?
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> i want something that when i ask one question i'll get the same answer no matter what.
Is it because when you ask one question you will get the same answer no matter what that you came to me?
> yes
I see... Well, are you sure that this is so?
> yes
Yes, hmmm... so, do you really think this is so?
> yes
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```
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well that's not super helpful
It looks like we have a black box here that came out of nowhere. What does it do?
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When we feed it a one and put it at this arrow, it returns one. When we feed it a two, it returns one. A three, two. A four, three. And so forth.
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No matter how many times we put a number in it gives me the same answer; we're all in love with it already.
So we're ready to start getting to know this so called "function". Where could our curiosity take us?
Let's look at what's behind this black box.
Ah. A simple fibonacci function.
```python
def fib(n):
if (n <= 2):
return 1
return fib(n - 1) + fib(n - 2)
```
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We're in love with its predictability, the assurance that no matter what we give as input, the function behaves in a consistent manner.
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But let's imagine, for a moment, a different kind of relationship. One where actions outside the relationship influence your partner's responses.
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Imagine asking your partner about what food they want to eat. But instead of a straightforward answer based on your question alone and some state (i.e. hunger levels, craving ratios, etc), the function's response is influenced by other factors; the day of the week, and the state of the day or week prior.
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```python
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def random_number():
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return 4 # picked randomly
```
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This unpredictability is what side effects introduce into our programming relationships. Where output is not just determined by its input but also by the state of the outside world, or the system at the time of execution. Suddenly, the predictability we cherished is compromised. (we'll talk about this more later)
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So let's take our love of this function and begin studying it.
We love our black boxes a lot, and we want to share them with other people in our lives. So let's create another that takes a list of people and creates a custom letter for them.
```python
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def make_valentines_letters(people):
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letters = []
for person in people:
letters.append(f"Dear, {person.name}\nYour smile lights up my world. Happy Valentine's Day!")
return letters
```
Good! Now they will all share our love.
But a few months goes by, and soon all their birthdays are coming up! So we make another black box to generate a letter, and in how many days we should give it to them:
```python
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def make_birthday_cards(people):
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today = new Date()
cards = []
for person in people:
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days_until_birthday = toDays(new Date(person.birthday, today.year) - today)
age = today.year - person.birthday.year
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card = f"Happy Birthday {name}\nI can't believe you're already {age} years old!"
cards.append({ "message": card, "deliver_in_days": days_until_birthday })
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return cards
```
But this is getting annoying; what about Christmas, Thanksgiving, Easter, or another life event such as a wedding? Making this list of new cards and going through each person every single time is getting really tedious.
What if we create a bunch of black boxes that take a person and create them a card, specifically. Then we create a black box that takes a list of people and another black box and creates a new card for each person?
```python
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def valentine_letter(person):
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return f"Dear, {person.name}\nYour smile lights up my world. Happy Valentine's Day!")
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def birthday_card(person):
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today = new Date()
daysUntilBirthday = toDays(new Date(person.birthday, today.year) - today)
newAge = today.year - person.birthday.year
card = f"Happy Birthday {name}\nI can't believe you're already {newAge} years old!"
cards.append({ "message": card, "deliverInDays": daysUntilBirthday })
def buildCards(people, cardMaker):
cards = []
for person in people:
card = cardMaker(person)
cards.append(card)
return cards
people = [{"name": "Joseph", birthday: new Date()}, {"name": "DeeDee", birthday: new Date()}]
buildCards(people, birthdayCard)
```
Functional Reproduction
===
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After exploring the simple yet profound beauty of using black boxes in black boxes, our journey into the functional programming romance takes an intriguing turn. What's better than one black box the uses a black box? A black box that creates more black boxes.
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All life on Earth contains instructions in the form of DNA. During mitosis, special mechanisms in our cells read the instructions and create new instructions to give to another cell.
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Very similarly, we can give our black boxes DNA from parents to reproduce and create new child black boxes. But in our world of black boxes, we call these "closures".
```
def cardGeneratorFor(person, type):
def personBirthdayCard():
return birthdayCard(person)
def personValentineLetter():
return valentineLetter(person)
if type == "valentine":
return personValentineLetter
if type == "birthday":
return personBirthdayCard
raise NotImplementedError
joseph = {"name": "Joseph", birthday: new Date()}
josephValentineCardGenerator = cardGenerators(joseph, "valentine")
print(josephValentineCard())
```
Here we've created two children with the DNA of cardGenerators; i.e., we get the "person" from the parent black box's DNA.
We can even go a step further:
```
def cardGenerators(person):
def personBirthdayCard():
return birthdayCard(person)
def personValentineLetter():
return valentineLetter(person)
def messageType(type):
if type == "valentine":
return personValentineLetter
if type == "birthday":
return personBirthdayCard
raise NotImplementedError()
return messageType
joseph = {"name": "Joseph", birthday: new Date()}
josephValentineCard = (cardGenerators(joseph))("valentine")
print(josephValentineCards)
```
Wait, do you guys smell that?
Quick Aside: Delicious Curry
===
Sneakily, we've actually started preparing curry!
We've broken up the input of the black box ~cardGenerator~ into it and its child. This is called ~currying~, and it's something we'll touch on in more detail later.
There's another way that we could implement the same functionality - "partial function application"; a fancy name for a simple idea:
```
def josephCard(type):
joseph = {"name": "Joseph", birthday: new Date()}
cardGenerator = cardGeneratorFor(joseph, type)
return cardGenerator()
print(josephCardGenerator("valentine")
```
Immutability
===
We briefly mentioned side effects and alluded them to the unpredictability of a partner. We love our black boxes because they're reliable.
But, we've actually had an impostor among us (AMOGUS sound??) throughout this presentation. Specifically in ~buildCards~:
```
def buildCards(people, cardMaker):
cards = []
for person in people: # side effect (mutation of person)
card = cardMaker(person)
cards.append(card) # side effect (mutation of cards)
# someone could do something nasty with "cards" before it's returned here
return cards
cards = buildCards(people, valentineMaker)
```
This function actually has a small side effect - though it's contained entirely within the function - when we append to the cards list. If we were to go about living a side effect free life, that means we can't change _anything_.
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So how do we murder an impostor? With copies and recursion.
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```
def build_cards(people, card_maker):
if (len(people) == 0): # base case, no more people to process
return []
# get the first person in the list and make their card
person = people[0]
card = card_maker(person)
rest_people = people[1:] # get sublist of everyone except the first
return [card] + build_cards(rest_people, card_maker)
```
Here we're not changing anything at all (except the stack), with the same functionality; this code is "immutable". When we call ~build_cards~ on a list of people, we're 100% certain we're not gonna get something odd short of a bug.
At a high level there are so many benefits to immutability:
+ Concurrency (TODO: go into more detail)
+ Easier to verify correctness.
+ Compiler optimizations.
+ Easy to read and understand.
But there are also downsides:
+ Keeping immutability requires more computation (data structures)
+ More difficult to write (huge selling point for Object Oriented Programming; encapsulation)
But like all relationships, we need to compromise with our black boxes. Side effects are _unavoidable_ as programmers; when people press the button, they don't want the computation to just exist out there in the computer void. No! They want to see the pop up box, and the value updated on their account. We need to be able to mutate state where the tradeoff of extra compute time is unavoidable like in I/O or a relatively large database.
Writing Code Functionally
===
Determining if a natural number is even or odd in the best way possible is a problem that's stood unsolved since the dawn of time. We'll use this incredibly difficult task to show how we can refactor some code to use the paradigms we just learned.
========
Part Two - A Deeper Dive
===
The Lambda Calculus
===
Completeness of the Lambda Calculus
===
Mention how alonzo church actually failed on his first attempt, natural numbers
Writing a Compiler
===
A Compiler As A Sequence of Transformations
===
Continuation Passing Style
===
=======
Conclusion
===