42 KiB
title | TARGET DECK | FILE TAGS | tags | |
---|---|---|---|---|
λ-Calculus | Obsidian::STEM | λ-calculus |
|
Overview
Assume that there is given an infinite sequence of expressions called variables and a finite or infinite sequence of expressions called atomic constants, different from the variables. The set of expressions called \lambda
-terms is defined inductively as follows:
- all variables and atomic constants are
\lambda
-terms (called atoms); - if
M
andN
are\lambda
-terms, then(MN)
is a\lambda
-term (called application); - if
M
is a\lambda
-term andx
is a variable, then(\lambda x. M)
is a\lambda
-term (called abstraction).
If the sequence of atomic constants is empty, the system is called pure. Otherwise it is called applied.
%%ANKI
Basic
Who is usually attributed the creation of \lambda
-calculus?
Back: Alonzo Church.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI Basic What does a "higher-order function" refer to? Back: A function that acts on other functions. Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is f(x) = x - y
written using \lambda
-calculus?
Back: \lambda x. x - y
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is f(x, y) = x - y
written using (uncurried) \lambda
-calculus?
Back: \lambda x y. x - y
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How do you curry expression \lambda x y. x - y
?
Back: \lambda x. \lambda y. x - y
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How do you uncurry expression \lambda x. \lambda y. x - y
?
Back: \lambda x y. x - y
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What does (\lambda x. x - y)(0)
evaluate to?
Back: 0 - y
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How many variables exist in a \lambda
-calculus formal system?
Back: An infinite number.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How many atomic constants exist in a \lambda
-calculus formal system?
Back: Zero or more.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI Basic What distinguishes variables and atomic constants? Back: The latter is meant to refer to constants outside the formal system. Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI Basic What two classes of expressions does an "atom" potentially refer to? Back: Variables and atomic constants. Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI Basic What general term describes both variables and atomic constants? Back: Atoms. Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Why are variables and atomic constants called "atoms"?
Back: They are not composed of smaller \lambda
-terms.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is a \lambda
-calculus considered pure?
Back: When there exist no atomic constants in the system.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is a \lambda
-calculus considered applied?
Back: When there exists at least one atomic constant in the system.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
A \lambda
-calculus is either {pure} or {applied}.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What term refers to the base case of the \lambda
-term definition?
Back: The atoms.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What terms refer to the inductive cases of the \lambda
-term definition?
Back: Application and abstraction.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
Given \lambda
-terms M
and N
, {(MN)
} is referred to as {application}.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
Given \lambda
-term M
and variable x
, {(\lambda x. M)
} is referred to as {abstraction}.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Consider term (\lambda x. x)(0)
. Is our \lambda
-calculus pure or applied?
Back: Applied.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Consider term (\lambda x. x)(y)
. Is our \lambda
-calculus pure or applied?
Back: Indeterminate.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What three terms categorize all \lambda
-terms?
Back: Atoms, applications, and abstractions.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is a constant function returning y
denoted in \lambda
-calculus?
Back: \lambda x. y
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
By convention, parentheses in \lambda
-calculus are {left}-associative.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is expression \lambda x. \lambda y. MN
written with parentheses reintroduced?
Back: (\lambda x. (\lambda y. (MN)))
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How are parentheses conventionally reintroduced to \lambda
-term MN
?
Back: (MN)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How are parentheses conventionally reintroduced to \lambda
-term MNPQ
?
Back: (((MN)P)Q)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How are parentheses conventionally reintroduced to \lambda
-term \lambda x. PQ
?
Back: (\lambda x. (PQ))
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
(MN)
is interpreted as applying {1:M
} to {1:N
}.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
Syntactic Identity
Syntactic identity of terms is denoted by "\equiv
".
%%ANKI Basic What does it mean for two terms to be syntactically identical? Back: The terms are written out using the exact same sequence of characters. Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What form of Lean equality corresponds to \lambda
-calculus's \equiv
operator?
Back: Syntactic equality.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
Tags: lean
END%%
%%ANKI
Basic
How does Hindley et al. denote syntactic identity of \lambda
-terms M
and N
?
Back: M \equiv N
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What syntactic identities are assumed when MN \equiv PQ
?
Back: M \equiv P
and N \equiv Q
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What syntactic identities are assumed when \lambda x. M \equiv \lambda y. P
?
Back: x \equiv y
and M \equiv P
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
Length
The length of a \lambda
-term (denoted lgh
) is equal to the number of atoms in the term:
lgh(a) = 1
for all atomsa
;lgh(MN) = lgh(M) + lgh(N)
;lgh(\lambda x. M) = 1 + lgh(M)
.
%%ANKI
Basic
What is the base case of the recursive definition of the "length of a \lambda
-term"?
Back: lgh(a) = 1
for all atoms a
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What does the length of a \lambda
-term measure?
Back: The number of atoms in the term.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
For atom a
, what does lgh(a)
equal?
Back: 1
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the recursive definition of the "length of application"?
Back: For \lambda
-terms M
and N
, lgh(MN) = lgh(M) + lgh(N)
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
For \lambda
-terms M
and N
, what does lgh(MN)
equal?
Back: lgh(M) + lgh(N)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the recursive definition of the "length of abstraction"?
Back: For \lambda
-term M
, lgh(\lambda x. M) = 1 + lgh(M)
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
For \lambda
-term M
, what does lgh(\lambda x. M)
equal?
Back: 1 + lgh(M)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What does lgh(x(\lambda y. yux))
equal?
Back: 5
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
The phrase "{induction on M
}" is an abbrevation of phrase "{induction on lgh(M)
}".
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
Occurrence
For \lambda
-terms P
and Q
, the relation P
occurs in Q
is defined by induction on Q
as:
P
occurs inP
;- if
P
occurs inM
or inN
, thenP
occurs in(MN)
; - if
P
occurs inM
orP
isx
, thenP
occurs in(\lambda x. M)
.
%%ANKI
Basic
What is the base case of recursive definition "P
occurs in Q
"?
Back: P
occurs in P
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What intuition does the "occurs in" relation aim to capture?
Back: Whether a \lambda
-term appears somewhere in another \lambda
-term.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
If P
occurs in {1:M
} or {1:N
}, then P
occurs in (MN)
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
If P
occurs in {1:M
} or P
{1:is x
}, then P
occurs in (\lambda x. M)
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is "occurs in" recursively defined for application?
Back: P
occurs in (MN)
if P
occurs in M
or P
occurs in N
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is "occurs in" recursively defined for abstraction?
Back: P
occurs in (\lambda x. M)
if P
occurs in M
or P
is x
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How many occurences of x
are in ((xy)(\lambda x. (xy)))
?
Back: 3
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What preprocessing step does Hindley et al. recommend when counting occurrences of \lambda
-terms?
Back: Reintroduce parentheses.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
For a particular occurrence of \lambda x. M
in a term P
, the occurrence of M
is called the scope of the occurrence of \lambda x
.
%%ANKI
Cloze
Given term \lambda x. M
, the occurrence of {1:M
} is called the {2:scope} of the occurrence of {1:\lambda x
}.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
The concept of scope is relevant to what kind of \lambda
-term?
Back: Abstractions.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the scope of the leftmost \lambda y
in the following term? (\lambda y. yx(\lambda x. y(\lambda y.z)x))vw$$
Back:
yx(\lambda x. y(\lambda y. z)x)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the scope of \lambda x
in the following term? (\lambda y. yx(\lambda x. y(\lambda y.z)x))vw$$
Back:
y(\lambda y. z)x
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the scope of the rightmost \lambda y
in the following term? (\lambda y. yx(\lambda x. y(\lambda y.z)x))vw$$
Back:
z
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is wrong with asking "what is the scope of x
in \lambda x. P
"?
Back: We should be asking what the scope of \lambda x
is.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
Free and Bound Variables
An occurrence of a variable x
in a term P
is called
- bound if it is in the scope of a
\lambda x
inP
; - bound and binding iff it is the
x
in\lambda x
; - free otherwise.
FV(P)
denotes the set of all free variables of P
. A closed term is a term without any free variables.
%%ANKI
Basic
What kind of \lambda
-terms can be classified as bound and/or free?
Back: Variables.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
in term P
said to be "bound"?
Back: When it is in the scope of a \lambda x
in P
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
in term P
said to be "bound and binding"?
Back: If and only if it is the x
in some occurrence of \lambda x
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
in term P
said to be "free"?
Back: When it is not bound.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
in term P
said to be "free and binding"?
Back: N/A.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
in term P
said to be "bound" and "free"?
Back: When one occurrence is bound and another occurrence is free.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
called a "bound variable of P
"?
Back: When x
has at least one binding occurrence in P
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is variable x
called a "free variable of P
"?
Back: When x
has at least one free occurrence in P
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
{FV(P)
} denotes the {set of all free variables} of P
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
When is a \lambda
-term considered "closed"?
Back: When the term has no free variables.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What term describes \lambda
-term P
satisfying FV(P) = \varnothing
?
Back: Closed.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Using FV
, when is \lambda
-term P
closed?
Back: When FV(P) = \varnothing
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Is \lambda x. y
a closed term? Why or why not?
Back: No. y
is a free variable.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Is \lambda x. x
a closed term? Why or why not?
Back: Yes. The term has no free variables.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Which specific occurrences are bound in \lambda x. x(\lambda y. yz)
?
Back: Both $x$s and both $y$s.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Which specific occurrences are free in \lambda x. x(\lambda y. yz)
?
Back: The only z
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Which specific occurrences are bound and binding in \lambda x. x(\lambda y. yz)
?
Back: The first x
and the first y
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What does expression FV(\lambda x. xyz)
evaluate to?
Back: \{y, z\}
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Given \lambda
-term P
, what kind of mathematic object is FV(P)
?
Back: A set.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
Substitution
For any M
, N
, and x
, define [N/x]M
to be the result of substituting N
for every free occurrence of x
in M
, and changing bound variables to avoid clashes.
%%ANKI
Basic
How is E_e^x
equivalently written in \lambda
-calculus?
Back: [e/x]E
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How is [N/x]M
equivalently written in equivalence transformation?
Back: M_N^x
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How does substitution, say [N/x]M
, affect free variables?
Back: Every free occurrence of x
is substituted with N
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
How does substitution, say [N/x]M
, affect bound variables?
Back: Bound variables are renamed to avoid name clashes.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
[N/x]M
is the result of substituting {1:N
} for every free occurrence of {1:x
} in {1:M
}.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Cloze
{M^x_e
} is to equivalence transformation whereas {[e/x]M
} is to \lambda
-calculus.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the result of [N/x]x
?
Back: N
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the result of [N/x]a
, for some atom a \not\equiv x
?
Back: a
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the result of [N/x]a
, for some atom a \equiv x
?
Back: N
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the result of [N/x](PQ)
?
Back: ([N/x]P)([N/x]Q)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the result of [N/x](\lambda x. P)
?
Back: \lambda x. P
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
If x \in FV(P)
and y \in FV(N)
, what is the result of [N/x](\lambda y. P)
?
Back: \lambda z. [N/x][z/y]P
where z \not\in FV(NP)
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
If x \not\in FV(P)
and y \in FV(N)
, what is the result of [N/x](\lambda y. P)
?
Back: \lambda y. P
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
If x \in FV(P)
and y \not\in FV(N)
, what is the result of [N/x](\lambda y. P)
?
Back: \lambda y. [N/x]P
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
If x \not\in FV(P)
and y \not\in FV(N)
, what is the result of [N/x](\lambda y. P)
?
Back: \lambda y. P
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Is (\lambda x. xy)N \equiv Ny
?
Back: No.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Is [N/x]xy \equiv Ny
?
Back: Yes.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
For all \lambda
-terms M
, N
, and variables x
:
[x/x]M \equiv M
x \not\in FV(M) \Rightarrow [N/x]M \equiv M
x \in FV(M) \Rightarrow FV([N/x]M) = FV(N) \cup (FV(M) - \{x\})
lgh([y/x]M) = lgh(M)
%%ANKI
Basic
What is the result of [x/x]M
?
Back: M
.
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
If x \not\in FV(M)
, what is the result of [N/x]M
?
Back: M
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Suppose x \in FV(M)
. How is FV([N/x]M)
equivalently written without substitution?
Back: FV(N) \cup (FV(M) - \{x\})
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
Suppose x \in FV(M)
. How is FV(N) \cup (FV(M) - \{x\})
more simply written using substitution?
Back: FV([N/x]M)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
%%ANKI
Basic
What is the result of lgh([y/x]M)
?
Back: lgh(M)
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.
END%%
Bibliography
- Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf.