PEP 308 – Conditional Expressions
- PEP
- 308
- Title
- Conditional Expressions
- Author
- Guido van Rossum, Raymond Hettinger
- Status
- Final
- Type
- Standards Track
- Created
- 07-Feb-2003
- Post-History
- 7-Feb-2003, 11-Feb-2003
Contents
Adding a conditional expression
On 9/29/2005, Guido decided to add conditional expressions in the form of “X if C else Y”. 1
The motivating use case was the prevalence of error-prone attempts to achieve the same effect using “and” and “or”. 2
Previous community efforts to add a conditional expression were stymied by a lack of consensus on the best syntax. That issue was resolved by simply deferring to a BDFL best judgment call.
The decision was validated by reviewing how the syntax fared when applied throughout the standard library (this review approximates a sampling of real-world use cases, across a variety of applications, written by a number of programmers with diverse backgrounds). 3
The following change will be made to the grammar. (The or_test symbols is new, the others are modified.)
test: or_test ['if' or_test 'else' test] | lambdef
or_test: and_test ('or' and_test)*
...
testlist_safe: or_test [(',' or_test)+ [',']]
...
gen_for: 'for' exprlist 'in' or_test [gen_iter]
The new syntax nearly introduced a minor syntactical backwards incompatibility. In previous Python versions, the following is legal:
[f for f in lambda x: x, lambda x: x**2 if f(1) == 1]
(I.e. a list comprehension where the sequence following ‘in’ is an unparenthesized series of lambdas – or just one lambda, even.)
In Python 3.0, the series of lambdas will have to be parenthesized, e.g.:
[f for f in (lambda x: x, lambda x: x**2) if f(1) == 1]
This is because lambda binds less tight than the if-else expression, but in this context, the lambda could already be followed by an ‘if’ keyword that binds less tightly still (for details, consider the grammar changes shown above).
However, in Python 2.5, a slightly different grammar is used that is more backwards compatible, but constrains the grammar of a lambda used in this position by forbidding the lambda’s body to contain an unparenthesized condition expression. Examples:
[f for f in (1, lambda x: x if x >= 0 else -1)] # OK
[f for f in 1, (lambda x: x if x >= 0 else -1)] # OK
[f for f in 1, lambda x: (x if x >= 0 else -1)] # OK
[f for f in 1, lambda x: x if x >= 0 else -1] # INVALID
References
- 1
- Pronouncement https://mail.python.org/pipermail/python-dev/2005-September/056846.html
- 2
- Motivating use case: https://mail.python.org/pipermail/python-dev/2005-September/056546.html https://mail.python.org/pipermail/python-dev/2005-September/056510.html
- 3
- Review in the context of real-world code fragments: https://mail.python.org/pipermail/python-dev/2005-September/056803.html
Introduction to earlier draft of the PEP (kept for historical purposes)
Requests for an if-then-else (“ternary”) expression keep coming up on comp.lang.python. This PEP contains a concrete proposal of a fairly Pythonic syntax. This is the community’s one chance: if this PEP is approved with a clear majority, it will be implemented in Python 2.4. If not, the PEP will be augmented with a summary of the reasons for rejection and the subject better not come up again. While the BDFL is co-author of this PEP, he is neither in favor nor against this proposal; it is up to the community to decide. If the community can’t decide, the BDFL will reject the PEP.
After unprecedented community response (very good arguments were made both pro and con) this PEP has been revised with the help of Raymond Hettinger. Without going through a complete revision history, the main changes are a different proposed syntax, an overview of proposed alternatives, the state of the current discussion, and a discussion of short-circuit behavior.
Following the discussion, a vote was held. While there was an overall interest in having some form of if-then-else expressions, no one format was able to draw majority support. Accordingly, the PEP was rejected due to the lack of an overwhelming majority for change. Also, a Python design principle has been to prefer the status quo whenever there are doubts about which path to take.
Proposal
The proposed syntax is as follows:
(if <condition>: <expression1> else: <expression2>)
Note that the enclosing parentheses are not optional.
The resulting expression is evaluated like this:
- First, <condition> is evaluated.
- If <condition> is true, <expression1> is evaluated and is the result of the whole thing.
- If <condition> is false, <expression2> is evaluated and is the result of the whole thing.
A natural extension of this syntax is to allow one or more ‘elif’ parts:
(if <cond1>: <expr1> elif <cond2>: <expr2> ... else: <exprN>)
This will be implemented if the proposal is accepted.
The downsides to the proposal are:
- the required parentheses
- confusability with statement syntax
- additional semantic loading of colons
Note that at most one of <expression1> and <expression2> is evaluated. This is called a “short-circuit expression”; it is similar to the way the second operand of ‘and’ / ‘or’ is only evaluated if the first operand is true / false.
A common way to emulate an if-then-else expression is:
<condition> and <expression1> or <expression2>
However, this doesn’t work the same way: it returns <expression2> when <expression1> is false! See FAQ 4.16 for alternatives that work – however, they are pretty ugly and require much more effort to understand.
Alternatives
Holger Krekel proposed a new, minimally invasive variant:
<condition> and <expression1> else <expression2>
The concept behind it is that a nearly complete ternary operator already exists with and/or and this proposal is the least invasive change that makes it complete. Many respondants on the newsgroup found this to be the most pleasing alternative. However, a couple of respondants were able to post examples that were mentally difficult to parse. Later it was pointed out that this construct works by having the “else” change the existing meaning of “and”.
As a result, there is increasing support for Christian Tismer’s proposed variant of the same idea:
<condition> then <expression1> else <expression2>
The advantages are simple visual parsing, no required parentheses, no change in the semantics of existing keywords, not as likely as the proposal to be confused with statement syntax, and does not further overload the colon. The disadvantage is the implementation costs of introducing a new keyword. However, unlike other new keywords, the word “then” seems unlikely to have been used as a name in existing programs.
—
Many C-derived languages use this syntax:
<condition> ? <expression1> : <expression2>
Eric Raymond even implemented this. The BDFL rejected this for several reasons: the colon already has many uses in Python (even though it would actually not be ambiguous, because the question mark requires a matching colon); for people not used to C-derived language, it is hard to understand.
—
The original version of this PEP proposed the following syntax:
<expression1> if <condition> else <expression2>
The out-of-order arrangement was found to be too uncomfortable for many of participants in the discussion; especially when <expression1> is long, it’s easy to miss the conditional while skimming.
—
Some have suggested adding a new builtin instead of extending the syntax of the language. For example:
cond(<condition>, <expression1>, <expression2>)
This won’t work the way a syntax extension will because both expression1 and expression2 must be evaluated before the function is called. There’s no way to short-circuit the expression evaluation. It could work if ‘cond’ (or some other name) were made a keyword, but that has all the disadvantages of adding a new keyword, plus confusing syntax: it looks like a function call so a casual reader might expect both <expression1> and <expression2> to be evaluated.
Summary of the Current State of the Discussion
Groups are falling into one of three camps:
- Adopt a ternary operator built using punctuation characters:
<condition> ? <expression1> : <expression2>
- Adopt a ternary operator built using new or existing keywords.
The leading examples are:
<condition> then <expression1> else <expression2> (if <condition>: <expression1> else: <expression2>)
- Do nothing.
The first two positions are relatively similar.
Some find that any form of punctuation makes the language more cryptic. Others find that punctuation style is appropriate for expressions rather than statements and helps avoid a COBOL style: 3 plus 4 times 5.
Adapting existing keywords attempts to improve on punctuation through explicit meaning and a more tidy appearance. The downside is some loss of the economy-of-expression provided by punctuation operators. The other downside is that it creates some degree of confusion between the two meanings and two usages of the keywords.
Those difficulties are overcome by options which introduce new keywords which take more effort to implement.
The last position is doing nothing. Arguments in favor include keeping the language simple and concise; maintaining backwards compatibility; and that any every use case can already be already expressed in terms of “if” and “else”. Lambda expressions are an exception as they require the conditional to be factored out into a separate function definition.
The arguments against doing nothing are that the other choices allow greater economy of expression and that current practices show a propensity for erroneous uses of “and”, “or”, or one their more complex, less visually unappealing workarounds.
Short-Circuit Behavior
The principal difference between the ternary operator and the
cond()
function is that the latter provides an expression form but
does not provide short-circuit evaluation.
Short-circuit evaluation is desirable on three occasions:
- When an expression has side-effects
- When one or both of the expressions are resource intensive
- When the condition serves as a guard for the validity of the expression.
# Example where all three reasons apply
data = isinstance(source, file) ? source.readlines()
: source.split()
readlines()
moves the file pointer- for long sources, both alternatives take time
split()
is only valid for strings andreadlines()
is only valid for file objects.
Supporters of a cond()
function point out that the need for
short-circuit evaluation is rare. Scanning through existing code
directories, they found that if/else did not occur often; and of
those only a few contained expressions that could be helped by
cond()
or a ternary operator; and that most of those had no need
for short-circuit evaluation. Hence, cond()
would suffice for
most needs and would spare efforts to alter the syntax of the
language.
More supporting evidence comes from scans of C code bases which show that its ternary operator used very rarely (as a percentage of lines of code).
A counterpoint to that analysis is that the availability of a ternary operator helped the programmer in every case because it spared the need to search for side-effects. Further, it would preclude errors arising from distant modifications which introduce side-effects. The latter case has become more of a reality with the advent of properties where even attribute access can be given side-effects.
The BDFL’s position is that short-circuit behavior is essential for an if-then-else construct to be added to the language.
Detailed Results of Voting
Votes rejecting all options: 82
Votes with rank ordering: 436
---
Total votes received: 518
ACCEPT REJECT TOTAL
--------------------- --------------------- -----
Rank1 Rank2 Rank3 Rank1 Rank2 Rank3
Letter
A 51 33 19 18 20 20 161
B 45 46 21 9 24 23 168
C 94 54 29 20 20 18 235
D 71 40 31 5 28 31 206
E 7 7 10 3 5 32
F 14 19 10 7 17 67
G 7 6 10 1 2 4 30
H 20 22 17 4 10 25 98
I 16 20 9 5 5 20 75
J 6 17 5 1 10 39
K 1 6 4 13 24
L 1 2 3 3 9
M 7 3 4 2 5 11 32
N 2 3 4 2 11
O 1 6 5 1 4 9 26
P 5 3 6 1 5 7 27
Q 18 7 15 6 5 11 62
Z 1 1
--- --- --- --- --- --- ----
Total 363 286 202 73 149 230 1303
RejectAll 82 82 82 246
--- --- --- --- --- --- ----
Total 363 286 202 155 231 312 1549
CHOICE KEY
A. x if C else y
B. if C then x else y
C. (if C: x else: y)
D. C ? x : y
E. C ? x ! y
F. cond(C, x, y)
G. C ?? x || y
H. C then x else y
I. x when C else y
J. C ? x else y
K. C -> x else y
L. C -> (x, y)
M. [x if C else y]
N. ifelse C: x else y
O. <if C then x else y>
P. C and x else y
Q. any write-in vote
Detail for write-in votes and their ranking
3: Q reject y x C elsethenif
2: Q accept (C ? x ! y)
3: Q reject ...
3: Q accept ? C : x : y
3: Q accept (x if C, y otherwise)
3: Q reject ...
3: Q reject NONE
1: Q accept select : (<c1> : <val1>; [<cx> : <valx>; ]* elseval)
2: Q reject if C: t else: f
3: Q accept C selects x else y
2: Q accept iff(C, x, y) # "if-function"
1: Q accept (y, x)[C]
1: Q accept C true: x false: y
3: Q accept C then: x else: y
3: Q reject
3: Q accept (if C: x elif C2: y else: z)
3: Q accept C -> x : y
1: Q accept x (if C), y
1: Q accept if c: x else: y
3: Q accept (c).{True:1, False:2}
2: Q accept if c: x else: y
3: Q accept (c).{True:1, False:2}
3: Q accept if C: x else y
1: Q accept (x if C else y)
1: Q accept ifelse(C, x, y)
2: Q reject x or y <- C
1: Q accept (C ? x : y) required parens
1: Q accept iif(C, x, y)
1: Q accept ?(C, x, y)
1: Q accept switch-case
2: Q accept multi-line if/else
1: Q accept C: x else: y
2: Q accept (C): x else: y
3: Q accept if C: x else: y
1: Q accept x if C, else y
1: Q reject choice: c1->a; c2->b; ...; z
3: Q accept [if C then x else y]
3: Q reject no other choice has x as the first element
1: Q accept (x,y) ? C
3: Q accept x if C else y (The "else y" being optional)
1: Q accept (C ? x , y)
1: Q accept any outcome (i.e form or plain rejection) from a usability study
1: Q reject (x if C else y)
1: Q accept (x if C else y)
2: Q reject NONE
3: Q reject NONE
3: Q accept (C ? x else y)
3: Q accept x when C else y
2: Q accept (x if C else y)
2: Q accept cond(C1, x1, C2, x2, C3, x3,...)
1: Q accept (if C1: x elif C2: y else: z)
1: Q reject cond(C, :x, :y)
3: Q accept (C and [x] or [y])[0]
2: Q reject
3: Q reject
3: Q reject all else
1: Q reject no-change
3: Q reject deliberately omitted as I have no interest in any other proposal
2: Q reject (C then x else Y)
1: Q accept if C: x else: y
1: Q reject (if C then x else y)
3: Q reject C?(x, y)
Copyright
This document has been placed in the public domain.
Source: https://github.com/python/peps/blob/master/pep-0308.txt
Last modified: 2021-02-09 16:54:26 GMT