infer_clone

Commit Graph

Author	SHA1	Message	Date
Scott Owens	f298d728c5	[sledge sem] Start sketching translation correctness Summary: This includes a few changes and corrections to the semantics, to support the translation. This initial attempt to reason about LLVM -> llair showed three things that needed repair in the semantics, in addition to various bugs. We address them as follows. Refactor llair semantics to have only a single kind of flat value: integers that fit into specified bit widths. Operations on size values (e.g., offsets, indices and the like) can just take an integer and ignore its number of bits. Pointers can just be considered integers that fit into a certain size given by the constant pointer_size. Later on we can consider making this a parameter to the model. Change the generic memory model interface to use numbers rather than words as the generic encoding of a large value. This makes it more useful for llair where words are not used. Pay more careful attention to signed/unsigned issues. Neither LLVM nor llair have a concept of signed vs unsigned value. Instead individual operations interpret bit patterns in various ways, some of which are ambiguous in the LLVM manual. For example, since getelementpointer's indices are explicitly said to be interpreted as signed 2's complement, we should probably do the same for insertvalue and extractvalue. However it is not clear how the argument to alloca is to be interpreted. For now we assume signed. Reviewed By: jberdine Differential Revision: D17164133 fbshipit-source-id: 31a8af635	5 years ago
Scott Owens	9f44bbc264	[sledge semantics] Refactor the memory model Summary: LLVM and llair have similar memory models, and we don't want to duplicate any definitions or theorems. This adds a new memory model theory which should be understandable in its own right. A heap is a mapping from addresses to bytes, alongside a set of valid addresses, and intervals that have been allocated already. Primitives are defined for allocating and de-allocating as well as reading and writing chuncks of bytes. There is also a generic type of structured values, and functions for converting them to/from byte arrays. Reviewed By: jberdine Differential Revision: D17074470 fbshipit-source-id: bdab6089f	5 years ago

Author

SHA1

Message

Date

Scott Owens

f298d728c5

[sledge sem] Start sketching translation correctness

Summary:
This includes a few changes and corrections to the semantics, to support
the translation. This initial attempt to reason about LLVM -> llair
showed three things that needed repair in the semantics, in addition to
various bugs. We address them as follows.

Refactor llair semantics to have only a single kind of flat value:
integers that fit into specified bit widths. Operations on size values
(e.g., offsets, indices and the like) can just take an integer and
ignore its number of bits. Pointers can just be considered integers that
fit into a certain size given by the constant pointer_size. Later on we
can consider making this a parameter to the model.

Change the generic memory model interface to use numbers rather than
words as the generic encoding of a large value. This makes it more
useful for llair where words are not used.

Pay more careful attention to signed/unsigned issues. Neither LLVM nor
llair have a concept of signed vs unsigned value. Instead individual
operations interpret bit patterns in various ways, some of which are
ambiguous in the LLVM manual. For example, since getelementpointer's
indices are explicitly said to be interpreted as signed 2's complement,
we should probably do the same for insertvalue and extractvalue. However
it is not clear how the argument to alloca is to be interpreted. For now
we assume signed.

Reviewed By: jberdine

Differential Revision: D17164133

fbshipit-source-id: 31a8af635

Scott Owens

9f44bbc264

[sledge semantics] Refactor the memory model

Summary:
LLVM and llair have similar memory models, and we don't want to
duplicate any definitions or theorems. This adds a new memory model
theory which should be understandable in its own right. A heap is a
mapping from addresses to bytes, alongside a set of valid addresses, and
intervals that have been allocated already. Primitives are defined for
allocating and de-allocating as well as reading and writing chuncks of
bytes.

There is also a generic type of structured values, and functions for
converting them to/from byte arrays.

Reviewed By: jberdine

Differential Revision: D17074470

fbshipit-source-id: bdab6089f

2 Commits (598dcd63dc3f6e5316631bd7440ccc8b9d7fb9a3)