To extend on the existing answer,
PUT is supposed to perform a complete update (overwrite) of the resource state simply because HTTP defines the method in this way. The original RFC 2616 about HTTP/1.1 is not very explicit about this, RFC 7231 adds semantic clarifications:
The PUT method requests that the state of the target resource be created or replaced with the state defined by the representation enclosed in the request message payload. A successful PUT of a given representation would suggest that a subsequent GET on that same target resource will result in an equivalent representation being sent in a 200 (OK) response.
As stated in the other answer, adhering to this convention simplifies the understanding and usage of APIs, and there is no need to explicitly document the behavior of the PUT method.
However, partial updates are not disallowed because of idempotency. I find this important to highlight, as these concepts are often confused, even on many StackOverflow answers (e.g. here).
Idempotent solely means that applying a request one or many times results in the same effect on the server. To quote RFC 7231 once more:
4.2.2 Idempotent methods
A request method is considered "idempotent" if the intended effect on the server of multiple identical requests with that method is the same as the effect for a single such request.
As long as a partial update contains only new values of the resource state and does not depend on previous values (i.e. those values are overwritten), the requirement of idempotency is fulfilled. Independently of how many times such a partial update is applied, the server's state will always hold the values specified in the request.
Whether an intermediate request from another client can change a different part of the resource is not relevant, because idempotency refers to the operation (i.e. the
PUT method), not the state itself. And with respect to the operation of a partial overwriting update, its application yields the same effect after being applied once or many times.
On the contrary, an operation that is not idempotent depends on the current server state, therefore it leads to different results depending on how many times it is executed. The easiest example for this is incrementing a number (non-idempotent) vs. setting it to an absolute value (idempotent).
For non-idempotent changes, HTTP foresees the methods
PATCH is explicitly designed to carry modifications to an existing resource, whereas
POST can be interpreted much more freely regarding the relation of request URI, body content and side effects on the server.
What does this mean in practice? REST is a paradigma for implementing APIs over the HTTP protocol -- a convention that many people have considered reasonable and is thus likely to be adopted or understood. Still, there are controversies regarding what is RESTful and what isn't, but even leaving those aside, REST is not the only correct or meaningful way to build HTTP APIs.
The HTTP protocol itself puts constraints on what you may and may not do, and many of them have actual practical impact. For example, disregarding idempotency may result in cache servers changing the number of requests actually issued by the client, and subsequently disrupt the logic expected by applications. It is thus crucial to be aware of the implications when deviating from the standard.
Being strictly REST-conform, there is no completely satisfying solution for partial updates (some even say this need alone is against REST). The problem is that
PATCH, which first appears to be made just for this purpose, is not idempotent. Thus, by using
PATCH for idempotent partial updates, you lose the advantages of idempotency (arbitrary number of automatic retries, simpler logic, potential for optimizations in client, server and network). As such, you may ask yourself if using
PUT is really the worst idea, as long as the behavior is clearly documented and doesn't break because users (and intermediate network nodes) rely on certain behavior...?