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cfrontend/C2C.ml
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Since Coq 8.12, `omega` is flagged as deprecated and scheduled for removal.
Also replace CompCert's homemade tactics `omegaContradiction`, `xomega`,
and `xomegaContradiction` with `lia` and `extlia`.
Turn back on the deprecation warning for uses of `omega`.
Make the proof of `Ctypes.sizeof_pos` more robust to variations in `lia`.
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CompCert currently uses `Instance` in so-called "refine" mode, where
Coq drops automatically in proof mode if some members of the instance
are missing.
This mode is soon going to be turned off by default, see
https://github.com/coq/coq/pull/9270.
In order to make CompCert robust against this change, this commit
replaces those occurrences of `Instance` that use "refine" mode
with `Program Instance`.
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This commit adds code generation for 64bit PowerPC architectures which execute
32bit applications.
The main difference to the normal 32bit PowerPC port is that it uses the
available 64bit instructions instead of using the runtime library functions.
However pointers are still 32bit and the 32bit calling convention is used.
In order to use this port the target architecture must be either in Server
execution mode or if in Embedded execution mode the high order 32 bits of GPRs
must be implemented in 32-bit mode. Furthermore the operating system must
preserve the high order 32 bits of GPRs.
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This framework follows "approach A" from the paper "Lightweight Verification of Separate Compilation" by Kang, Kim, Hur, Dreyer and Vafeiadis, POPL 2016.
Syntactic linking (of compilation units and their syntactic elements) is modeled by a type class with two components:
- a partial binary operation "link" that returns the syntactic element corresponding to the act of linking together its two arguments. It may fail if the two arguments cannot be linked, e.g. are incompatible definitions of the same name.
- a partial order "linkorder x y" that holds if "x" is a sub-unit of a whole program or bigger unit "y", or in other words, if "y" can be obtained by linking "x" with other units.
Instances of this type class are provided for the type AST.program and its syntactic elements (globvar, globdef, etc).
The "match_program" predicate that provides a relational characterization of compiler passes / program transformations is extended to account for context-dependent transformations and separate compilation: the transformation of a function definition can depend on the compilation unit it occurs in (this is the context), and this compilation unit "ctx" is characterized as any unit that is in the "linkorder ctx prog" relation with the whole source program "prog".
Under mild hypotheses, we show that "match_program" commutes with linking: if a1 matches b1, a2 matches b2, and a1 and a2 link together producing a, then b1 and b2 link together, producing a b that matches a.
Finally, we extend binary linking to linking of a nonempty list of compilation units; commutation with "match_program" still holds.
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