View Source Frequently Asked Questions

Why contracts when I have ExUnit?

Tests verify behaviour for the specific scenarios you've written. Contracts verify behaviour on every call in the running system. They catch violations you didn't think to test for, especially in long-running dev or staging environments. Tests and contracts complement each other:

• Tests describe what your code should do.
• Contracts describe what your code must always be true while doing.

For functions that are easy to test and have well-known input shapes, tests alone are usually fine. For functions whose preconditions are nuanced or whose results have invariants that span many call sites, contracts catch bugs sooner with less work.

Will contracts slow down my production code?

Not if you :purge them. Bond supports compile-time conditional compilation:

# config/prod.exs — strip contracts entirely from this build
config :bond,
  preconditions: :purge,
  postconditions: :purge,
  checks: :purge

When both :preconditions and :postconditions are :purged for a function, Bond emits no override at all and the function runs with zero per-call overhead. The compiled BEAM contains no contract evaluation code for that function.

A typical pattern: contracts on in dev/test, :purged in prod.

Can I toggle contracts at runtime without recompiling?

Yes — that's what true and false (as distinct from :purge) give you. When a kind is compiled with true or false, the override has a runtime guard:

# In IEx or a remote console:
Application.put_env(:bond, :preconditions, false)  # dormant
Application.put_env(:bond, :preconditions, true)   # active again

The runtime check is a single Application.get_env/3 lookup per call. For inner-loop hot paths, :purge is still the right choice — runtime toggle costs a tiny lookup; :purge costs nothing.

Can I disable contracts for one specific module?

Yes, two ways.

In the source:

defmodule MyApp.HotPath do
  use Bond, preconditions: :purge, postconditions: :purge
end

Or in config (handy when you don't want to touch the source):

config :bond,
  overrides: [
    {MyApp.HotPath, preconditions: :purge, postconditions: :purge},
    {~r/Workers\./, postconditions: false}
  ]

Exact module atoms match precisely. Regex patterns match against the source-visible module name. The use Bond opts override :overrides, which override the global config.

How does Bond compare to Norm?

Norm validates data shapes — a value matches a spec or it doesn't. Bond verifies function behaviour — a contract asserts something about the relationship between inputs, outputs, and (optionally) prior state.

They compose well. A common pattern: use Norm to describe the shape of data that flows in and out of your boundary functions; use Bond to assert invariants and relationships internal to the functions that process the data.

# Pseudocode — Norm for shape, Bond for behaviour
@pre matches_input_spec: Norm.valid?(input, input_spec())
@post matches_output_spec: Norm.valid?(result, output_spec())
@post "no items lost": length(result) == length(input)
def transform(input), do: ...

How do I disable a single failing contract while debugging?

There's no per-contract toggle in the source code today. Options:

1. Comment it out. Simplest. Add a TODO so it doesn't stay commented forever.
2. Disable the kind globally. If you only have one failing precondition, set config :bond, preconditions: false in the relevant environment and recompile. Heavy-handed but quick.
3. Move the assertion to check/1 inside the body, where you can wrap it in a conditional.

If this comes up often, file an issue — there are reasonable designs for a per-contract disable flag.

What does Bond do that typespecs don't?

Typespecs are static documentation of input and output types. Tools like Dialyzer can verify them statically, but typespecs cannot express:

• Relationships between arguments (amount <= balance).
• Relationships between input and output (result <= balance).
• Conditional invariants ((x == 0) ~> (result == 0.0)).
• State-change properties using old/1.
• Arbitrary computed predicates.

Typespecs say "this argument is an integer." Contracts say "this argument is a positive integer less than the balance, and the result is the balance minus the argument." Use both.

Are contracts evaluated on the recursion path?

No — Bond implements Bertrand Meyer's Assertion Evaluation rule:

During the process of evaluating an assertion at run-time, routine calls shall be executed without any evaluation of the associated assertions.

If a postcondition calls another contracted function, that inner function's preconditions and postconditions are not evaluated. Without this rule, mutually recursive contracts would loop forever. With it, contracts are safe to use even when they call into the rest of your API.

Can I use check/1 to assert input validity?

No — check/1 is for sanity checks during development, not input validation. A check can be compiled out entirely via config :bond, :checks, false, and the wrapped expression is then not evaluated at all. If your code's correctness depends on something being checked, use ordinary control flow:

# DON'T: relies on check for correctness
def withdraw(balance, amount) do
  check amount > 0
  balance - amount
end

# DO: explicit guard, evaluated regardless of config
def withdraw(balance, amount) when amount > 0 do
  balance - amount
end

Why does my error message report sqrt/2 when I wrote sqrt/1?

If the function has a default argument, like def sqrt(x, trap_door \\ nil), Elixir generates clauses for both arities (sqrt/1 and sqrt/2). Bond attaches the contract to the higher-arity clause, so error messages report sqrt/2 even when the caller writes Math.sqrt(-1) (which Elixir dispatches via the auto-generated sqrt/1 forwarder).

This is expected. If you want the error to mention sqrt/1, split the default-arg form into explicit clauses.

How does Bond compose with StreamData / property-based testing?

Contracts and property-based testing are natural partners: PBT's hard part is usually writing the oracle that says whether an output is right or wrong, and contracts are that oracle. Bond.PropertyTest.contract_holds/2 exposes this directly with two shapes:

use Bond.PropertyTest

# Form 1: random inputs into a single function
contract_holds &Math.sqrt/1, args: [StreamData.float(min: 0.0)]

# Form 2: random sequences over a struct's @invariant
contract_holds BoundedStack,
  constructors: [{:new, [StreamData.integer(1..100)]}],
  transformers: [{:push, [StreamData.term()]}, {:pop, []}]

stream_data is an optional dep of bond — add it to your own project when you want PBT. See the Property-based testing section in the moduledoc.

When does Bond check invariants?

@invariant declarations on a struct module are checked automatically at the boundaries of that module's public functions. Specifically:

• On entry, when the function head pattern-matches %__MODULE__{} = name or has an is_struct(name, __MODULE__) guard. Bond pre-checks the invariant against name.
• On exit, against the return value if it's %__MODULE__{} or {:ok, %__MODULE__{}}. Other return shapes fall through without a check.
• Never for defp — private functions are exempt by the Eiffel convention (they often hold transiently-invalid state mid-operation).

If you want invariant pre-checks but your function doesn't pattern-match the struct as an argument, add the pattern: def foo(%__MODULE__{} = x, ...). If you destructure but don't bind the whole struct (def foo(%__MODULE__{f: v}, ...)), Bond emits a compile-time warning and skips the pre-check — add = name to the pattern to fix it.

Violations raise Bond.InvariantError and emit [:bond, :assertion, :failure] telemetry with :kind => :invariant. See the Invariants section in the moduledoc.

How are multi-clause functions handled?

A single contract applies to all clauses of a multi-clause function. Put your @pre and @post annotations before the first clause; Bond emits one override that wraps the whole function and lets Elixir's normal pattern matching dispatch to the appropriate clause via super(...).

Bond raises a compile error if you put @pre or @post between clauses:

# COMPILE ERROR — contracts must precede the first clause
@pre x > 0
def foo(x) when is_integer(x), do: x * 2

@pre is_float(x)       # not allowed here
def foo(x) when is_float(x), do: round(x)