The different sorts of locks and when they're used are mentioned in the doc in
Table-level Locks. About
ALTER TABLE, it says only that it may acquire a
SHARE UPDATE EXCLUSIVE or
ACCESS EXCLUSIVE lock.
But actually, current versions of postgres take Access Exclusive Locks for all variants of this command, so it's not true that concurrent reads may happen at the same time in certain cases.
It's easy to check in the source code because there's a function dedicated to establishing the lock level needed for this command in various cases. See the comments in src/backend/commands/tablecmds.c:
* Sets the overall lock level required for the supplied list of subcommands.
* Policy for doing this set according to needs of AlterTable(), see
* comments there for overall explanation.
* Function is called before and after parsing, so it must give same
* answer each time it is called. Some subcommands are transformed
* into other subcommand types, so the transform must never be made to a
* lower lock level than previously assigned. All transforms are noted below.
* Since this is called before we lock the table we cannot use table metadata
* to influence the type of lock we acquire.
* There should be no lockmodes hardcoded into the subcommand functions. All
* lockmode decisions for ALTER TABLE are made here only. The one exception is
* ALTER TABLE RENAME which is treated as a different statement type T_RenameStmt
* and does not travel through this section of code and cannot be combined with
* any of the subcommands given here.
* Late in 9.1 dev cycle a number of issues were uncovered with access to
* catalog relations, leading to the decision to re-enforce all DDL at
* AccessExclusiveLock level by default.
The function has some logic to take weaker locks but it's disabled in its current form to return
AccessExclusiveLock in all cases.