Dafny Style Guide

This style guide describes recommended coding conventions for Dafny code.

This documentation is still in progress. Please feel free to add more suggestions.

Naming Convention

Any variables are named with camelCase.

var minValue := 1;
var cipherMessage := "Hello World";

Any lemmas, predicates, functions, methods, classes, modules, datatypes, and newtypes are named with PascalCase.

method FindIndex(arr: seq<int>, k: int)
  ...

Any static or global constants are named with UPPERCASE_WITH_UNDERSCORES (a.k.a. SCREAMING_SNAKE_CASE).

static const MONTHS_IN_A_YEAR := 12

Method Prefix

Avoid redundant names when variables or methods are in a class/module. In the following example, name the method ToString so that the call is just Integer.ToString(i) rather than Integer.IntegerToString(i); this avoids redundancy with both the module name and the formal argument type.

class Integer {

  // YES
  method ToString(i: int) returns (s: string)
    ...

  // NO
  method IntegerToString(i: int) returns (s: string)
    ...
}

Module names

Library code should be encapsulated in a containing module, likely with submodules. The containing module should have a name that is descriptive but also likely to be unique, as top-level modules with the same name cannot be combined in one program. Reserve the name Dafny for system supplied code.

Code Layout

Braces

Opening braces go on the same line by default.

module M {
  ...
  method Met() {
    ...
  }
}

In case the method (or function, lemma, etc) signature is too long to fit in one line, or in case the signature has at least one specification clause, the opening brace goes on a new line.

module M {
  ...
  method Met(i: int) returns (j: int)
    requires i % 2 == 0
    ensures j > 10
  {
    ...
  }
}

This applies to every scope: module, class, predicate, if, while, and more.

Imports

By default, import modules without opening them.

import Coffee
...

However, if some members of a module are used very frequently, import them using opened:

import opened Donut
...

When a file uses two modules and both of them define a method of the same name, do not import them opened.

import MyModule
import YourModule
...
method MyMethod() {
  MyModule.foo();
  YourModule.foo();
}

In this case, if you want to shorten the module name, import the module with a shorthand name.

import M = MyModuleWithACumbersomeName
import Y = YourModuleWithACumbersomeName
...
method MyMethod() {
  M.foo();
  Y.foo();
}

Common imports, such as StandardLibrary and Native, should be grouped together, followed by custom module imports with a blank line in-between.

import opened StandardLibrary
import opened Native

import opened Donut
import Coffee

Although not required, it’s recommended to keep the order of imports and includes alphabetical, except when it makes more sense to group them logically.

Indentation and Line Breaks

Tabs or Spaces?

Spaces are preferred over tabs. Tabs should only be used to remain consistent with existing code containing tabs.

Use 2 spaces for each indentation.

Maximum Character Limit

Although there is no strict requirement, it is generally recommended to have a maximum of 120 characters per line.

Newlines

Put one blank line between sequential functions, methods, predicates, and lemmas to increase readability.

End each file with a newline character.

Functions, Methods, Predicates, and Lemmas

Every Dafny method has the following signature.

method {:<attributes>} MethodName(param1: Type, param2: Type) returns (ret: Type)
  requires P()
  modifies param2
  ensures Q()
  decreases param1

When possible, put MethodName and the returns statement on the same line, as the keyword returns is distinct from other method specification clauses, such as requires, modifies, ensures, and decreases, which should appear in this order. Each method specification clause should be on a separate line, indented.

In case the Method signature is too long, we can break it down.

method {:<attributes>} MethodName(param1: Type, param2: Type,
        param3: Type, param4: Type, param5: Type)
  returns (ret1: Type, ret2: Type, ret3: Type, ret4: Type,
        ret5: Type)
  requires P1()
  requires P2()
  requires P3()
  modifies param2
  modifies param3
  ensures Q1()
  ensures Q2()
  decreases param1

Multiple requires or ensures can be combined into one:

requires
  && P1()
  && P2()
  && P3()

The same rules apply to function, predicate, and lemma definitions.

Content Conventions

Order

Functions, predicates, and methods within a file should be sorted topologically, meaning that everything method M depends on should be above M in the file.

function MyFunction(a: int): int
{ 
  ...
}
method MyMethod(i: int)
{
  ...
  return MyFunction(i);
}

Predicates

Predicates should be used instead of functions that return a bool value.

// YES
predicate Foo()
{
  ...
}

// NO
function Foo(): bool
{
  ...
}

Lemmas

When writing inductive proofs, contributors are strongly encouraged to make the base case explicit.

// YES
lemma LemmaMinOfConcat(a: seq<int>, b: seq<int>)
  requires 0 < |a| && 0 < |b|
  ensures Min(a+b) <= Min(a)
  ensures Min(a+b) <= Min(b)
  ensures Min(a+b) == Min(a) || Min(a+b) == Min(b)
{
  if |a| == 1 {
  } else {
    assert a[1..] + b == (a + b)[1..];
    LemmaMinOfConcat(a[1..], b);
  }
}

// NO
lemma LemmaMinOfConcat(a: seq<int>, b: seq<int>)
  requires 0 < |a| && 0 < |b|
  ensures Min(a+b) <= Min(a)
  ensures Min(a+b) <= Min(b)
  ensures Min(a+b) == Min(a) || Min(a+b) == Min(b)
{
  if |a| > 1 {
    assert a[1..] + b == (a + b)[1..];
    LemmaMinOfConcat(a[1..], b);
  }
}

Things to Avoid

Parentheses

In many cases, Dafny does not require parentheses around expressions. Here are some examples.

// YES
var i := 1;
while i < 10 {
  ...
  if 1 < i {
    ...
  }
  ...
}

// NO
var i := 1;
while (i < 10) {
  ...
  if (1 < i) {
    ...
  }
  ...
}
// YES
assert x < 100;
print x;

// NO
assert(x < 100);
print(x);
// YES
method Collatz(num: nat)
  decreases *
{
  var n := num;
  while 1 < n
    decreases *
  {
    n := if n % 2 == 0 then n / 2 else n * 3 + 1;
  }
}

// NO
method Collatz(num: nat)
  decreases *
{
  var n := num;
  while (1 < n) // unnecessary parentheses
    decreases *
  {
    n := if ((n % 2) == 0) then (n / 2) else ((n * 3) + 1); // unnecessary parentheses
  }
}

Whitespace

Avoid unnecessary whitespace inside expressions.

Type Declaration

A type declaration should have a form of variableName: variableType.

// YES
const one: int := 1
class {:extern} Util {
  var {:extern} Exception: System.String
}

// NO
const one : int := 1 // unnecessary whitespace
class {:extern} Util {
  var {:extern} Exception : System.String // unnecessary whitespace
}

If the type can be inferred by Dafny, leave it out, unless you think it provides useful documentation in the program. So, constant one above is better declared as

const one := 1
Function, Method, Predicate, and Lemma Declaration

The function, method, predicate, and lemma definitions should have the form FunctionName(parameterName: parameterType, ...).

// YES
function method Foo<int>(i: int): int

// NO
function method Foo<int> (i : int) : int // unnecessary whitespace

Avoid too little or too much whitespace that reduces the overall readability.

// YES
lemma MyLemma<A, B>(x: seq<seq<A>>, y: B) {
  ...
}

// NO
lemma MyLemma <A,B> ( x : seq<seq<A>> , y :B){
  ...
}
Attributes

Omit white space between the : and the attribute name.

// YES
method {:extern} m() { ... }

// NO
method {: extern} m() { ... }

Recommendations

This section describes a few recommendations that can help make code more readable and easy to follow, although not strictly enforced.

Externs

Try to name them the same in Dafny and the target language (e.g. C#, Java, etc) whenever possible, so that in Dafny we only have to write {:extern}, not {:extern "<name>"}.

Things to Consider

Ask these questions before designing / implementing a program in Dafny.