Perform the transform, encode renaming with RenameMap, and can delete annotations Called by runTransform.
Perform the transform, encode renaming with RenameMap, and can delete annotations Called by runTransform.
Input Firrtl AST
A transformed Firrtl AST
A function that, given *another* transform (parameter a
) will return true if this transform invalidates/undos the
effects of the *other* transform (parameter a
).
A function that, given *another* transform (parameter a
) will return true if this transform invalidates/undos the
effects of the *other* transform (parameter a
).
transform
A convenience function useful for debugging and error messages
A convenience function useful for debugging and error messages
All transform that must run before this transform
All transform that must run before this transform
The use of a Seq here is to preserve input order. Internally, this will be converted to a private, ordered Set.
Perform the transform and update annotations.
Perform the transform and update annotations.
Input Firrtl AST
A transformed Firrtl AST
A mathematical transform on some type
A mathematical transform on some type
an output object of the same type
All transforms that must run after this transform
All transforms that must run after this transform
This is a means of prerequisite injection into some other transform. Normally a transform will define its own prerequisites. Dependents exist for two main situations:
First, they improve the composition of optional transforms. If some first transform is optional (e.g., an expensive validation check), you would like to be able to conditionally cause it to run. If it is listed as a prerequisite on some other, second transform then it must always run before that second transform. There's no way to turn it off. However, by listing the second transform as a dependent of the first transform, the first transform will only run (and be treated as a prerequisite of the second transform) if included in a list of target transforms that should be run.
Second, an external library would like to inject some first transform before a second transform inside FIRRTL. In this situation, the second transform cannot have any knowledge of external libraries. The use of a dependent here allows for prerequisite injection into FIRRTL proper.
(Since version FIRRTL 1.3) Due to confusion, 'dependents' is being renamed to 'optionalPrerequisiteOf'. Override the latter instead.
The use of a Seq here is to preserve input order. Internally, this will be converted to a private, ordered Set.
firrtl.passes.CheckTypes for an example of an optional checking firrtl.Transform
(Since version ) see corresponding Javadoc for more information.
(Since version FIRRTL 1.3) Use Dependency API methods for equivalent functionality. See: https://bit.ly/2Voppre
(Since version FIRRTL 1.3) Use Dependency API methods for equivalent functionality. See: https://bit.ly/2Voppre
Infers the concrete type of ResetTypes by their connections
There are 3 cases 1. An abstract reset driven by and/or driving only asynchronous resets will be inferred as asynchronous reset 1. An abstract reset driven by and/or driving both asynchronous and synchronous resets will error 1. Otherwise, the reset is inferred as synchronous (i.e. the abstract reset is only invalidated or is driven by or drives only synchronous resets)
This transform should be run before DedupModules so that similar Modules from generator languages like Chisel can infer differently
,This is a global inference because ports can be of type ResetType