Commit Graph

211 Commits

Author SHA1 Message Date
River Riddle 8155e41ac6 [mlir][Pass] Add a tablegen backend for defining Pass information
This will greatly simplify a number of things related to passes:
* Enables generation of pass registration
* Enables generation of boiler plate pass utilities
* Enables generation of pass documentation

This revision focuses on adding the basic structure and adds support for generating the registration for passes in the Transforms/ directory. Future revisions will add more support and move more passes over.

Differential Revision: https://reviews.llvm.org/D76656
2020-04-01 02:10:46 -07:00
Valentin Churavy 7c64f6bf52 [MLIR] Add support for libMLIR.so
Putting this up mainly for discussion on
how this should be done. I am interested in MLIR from
the Julia side and we currently have a strong preference
to dynamically linking against the LLVM shared library,
and would like to have a MLIR shared library.

This patch adds a new cmake function add_mlir_library()
which accumulates a list of targets to be compiled into
libMLIR.so.  Note that not all libraries make sense to
be compiled into libMLIR.so.  In particular, we want
to avoid libraries which primarily exist to support
certain tools (such as mlir-opt and mlir-cpu-runner).

Note that the resulting libMLIR.so depends on LLVM, but
does not contain any LLVM components.  As a result, it
is necessary to link with libLLVM.so to avoid linkage
errors. So, libMLIR.so requires LLVM_BUILD_LLVM_DYLIB=on

FYI, Currently it appears that LLVM_LINK_LLVM_DYLIB is broken
because mlir-tblgen is linked against libLLVM.so and
and independent LLVM components.

Previous version of this patch broke depencies on TableGen
targets.  This appears to be because it compiled all
libraries to OBJECT libraries (probably because cmake
is generating different target names).  Avoiding object
libraries results in correct dependencies.

(updated by Stephen Neuendorffer)

Differential Revision: https://reviews.llvm.org/D73130
2020-03-06 13:25:18 -08:00
Stephen Neuendorffer 2488016bae [MLIR] Remove redundant library dependencies
In cmake, it is redundant to have a target list under target_link_libraries()
and add_dependency().  This patch removes the redundant dependency from
add_dependency().

Differential Revision: https://reviews.llvm.org/D74929
2020-03-06 10:12:31 -08:00
Stephen Neuendorffer 1c82dd39f9 [MLIR] Ensure that target_link_libraries() always has a keyword.
CMake allows calling target_link_libraries() without a keyword,
but this usage is not preferred when also called with a keyword,
and has surprising behavior.  This patch explicitly specifies a
keyword when using target_link_libraries().

Differential Revision: https://reviews.llvm.org/D75725
2020-03-06 09:14:01 -08:00
Stephen Neuendorffer 798e661567 Revert "[MLIR] Move from using target_link_libraries to LINK_LIBS for llvm libraries."
This reverts commit 7a6c689771.
This breaks the build with cmake 3.13.4, but succeeds with cmake 3.15.3
2020-02-29 11:52:08 -08:00
Stephen Neuendorffer 0810acc7f6 Revert "[MLIR] Remove redundant library dependencies"
This reverts commit c4c8fbde64.
2020-02-29 11:52:08 -08:00
Stephen Neuendorffer dd046c9612 Revert "[MLIR] Add support for libMLIR.so"
This reverts commit e17d9c11d4.
It breaks the build.
2020-02-29 11:09:21 -08:00
Valentin Churavy e17d9c11d4 [MLIR] Add support for libMLIR.so
Putting this up mainly for discussion on
how this should be done. I am interested in MLIR from
the Julia side and we currently have a strong preference
to dynamically linking against the LLVM shared library,
and would like to have a MLIR shared library.

This patch adds a new cmake function add_mlir_library()
which accumulates a list of targets to be compiled into
libMLIR.so.  Note that not all libraries make sense to
be compiled into libMLIR.so.  In particular, we want
to avoid libraries which primarily exist to support
certain tools (such as mlir-opt and mlir-cpu-runner).

Note that the resulting libMLIR.so depends on LLVM, but
does not contain any LLVM components.  As a result, it
is necessary to link with libLLVM.so to avoid linkage
errors. So, libMLIR.so requires LLVM_BUILD_LLVM_DYLIB=on

FYI, Currently it appears that LLVM_LINK_LLVM_DYLIB is broken
because mlir-tblgen is linked against libLLVM.so and
and independent LLVM components.

Previous version of this patch broke depencies on TableGen
targets.  This appears to be because it compiled all
libraries to OBJECT libraries (probably because cmake
is generating different target names).  Avoiding object
libraries results in correct dependencies.

(updated by Stephen Neuendorffer)

Differential Revision: https://reviews.llvm.org/D73130
2020-02-29 10:47:27 -08:00
Stephen Neuendorffer c4c8fbde64 [MLIR] Remove redundant library dependencies
In cmake, it is redundant to have a target list under target_link_libraries()
and add_dependency().  This patch removes the redundant dependency from
add_dependency().

Differential Revision: https://reviews.llvm.org/D74929
2020-02-29 10:47:27 -08:00
Stephen Neuendorffer 7a6c689771 [MLIR] Move from using target_link_libraries to LINK_LIBS for llvm libraries.
When compiling libLLVM.so, add_llvm_library() manipulates the link libraries
being used.  This means that when using add_llvm_library(), we need to pass
the list of libraries to be linked (using the LINK_LIBS keyword) instead of
using the standard target_link_libraries call.  This is preparation for
properly dealing with creating libMLIR.so as well.

Differential Revision: https://reviews.llvm.org/D74864
2020-02-29 10:47:26 -08:00
Mehdi Amini 07aa9ae23b Ensure that multi-threading is disabled when enabling IRPrinting with module scope
This is avoid the user to shoot themselves in the foot and encounter
strange crashes that are confusing until one run with TSAN.

Differential Revision: https://reviews.llvm.org/D75399
2020-02-29 18:28:54 +00:00
Stephen Neuendorffer dc1056a3f1 Revert "[MLIR] Move from using target_link_libraries to LINK_LIBS for llvm libraries."
This reverts commit 2f265e3528.
2020-02-28 14:13:30 -08:00
Stephen Neuendorffer fed2acc7f5 Revert "[MLIR] Remove redundant library dependencies"
This reverts commit e1cb15c8f9.
2020-02-28 14:06:20 -08:00
Stephen Neuendorffer c6f3fc4999 Revert "[MLIR] Add support for libMLIR.so"
This reverts commit 1246e86716.
2020-02-28 12:17:39 -08:00
Valentin Churavy 1246e86716 [MLIR] Add support for libMLIR.so
Putting this up mainly for discussion on
how this should be done. I am interested in MLIR from
the Julia side and we currently have a strong preference
to dynamically linking against the LLVM shared library,
and would like to have a MLIR shared library.

This patch adds a new cmake function add_mlir_library()
which accumulates a list of targets to be compiled into
libMLIR.so.  Note that not all libraries make sense to
be compiled into libMLIR.so.  In particular, we want
to avoid libraries which primarily exist to support
certain tools (such as mlir-opt and mlir-cpu-runner).

Note that the resulting libMLIR.so depends on LLVM, but
does not contain any LLVM components.  As a result, it
is necessary to link with libLLVM.so to avoid linkage
errors. So, libMLIR.so requires LLVM_BUILD_LLVM_DYLIB=on

FYI, Currently it appears that LLVM_LINK_LLVM_DYLIB is broken
because mlir-tblgen is linked against libLLVM.so and
and independent LLVM components

(updated by Stephen Neuendorffer)

Differential Revision: https://reviews.llvm.org/D73130
2020-02-28 11:35:19 -08:00
Stephen Neuendorffer e1cb15c8f9 [MLIR] Remove redundant library dependencies
In cmake, it is redundant to have a target list under target_link_libraries()
and add_dependency().  This patch removes the redundant dependency from
add_dependency().

Differential Revision: https://reviews.llvm.org/D74929
2020-02-28 11:35:18 -08:00
Stephen Neuendorffer 2f265e3528 [MLIR] Move from using target_link_libraries to LINK_LIBS for llvm libraries.
When compiling libLLVM.so, add_llvm_library() manipulates the link libraries
being used.  This means that when using add_llvm_library(), we need to pass
the list of libraries to be linked (using the LINK_LIBS keyword) instead of
using the standard target_link_libraries call.  This is preparation for
properly dealing with creating libMLIR.so as well.

Differential Revision: https://reviews.llvm.org/D74864
2020-02-28 11:35:17 -08:00
Benjamin Kramer 564a9de28e Hide implementation details. NFC> 2020-02-17 17:55:23 +01:00
Alexandre Ganea 8404aeb56a [Support] On Windows, ensure hardware_concurrency() extends to all CPU sockets and all NUMA groups
The goal of this patch is to maximize CPU utilization on multi-socket or high core count systems, so that parallel computations such as LLD/ThinLTO can use all hardware threads in the system. Before this patch, on Windows, a maximum of 64 hardware threads could be used at most, in some cases dispatched only on one CPU socket.

== Background ==
Windows doesn't have a flat cpu_set_t like Linux. Instead, it projects hardware CPUs (or NUMA nodes) to applications through a concept of "processor groups". A "processor" is the smallest unit of execution on a CPU, that is, an hyper-thread if SMT is active; a core otherwise. There's a limit of 32-bit processors on older 32-bit versions of Windows, which later was raised to 64-processors with 64-bit versions of Windows. This limit comes from the affinity mask, which historically is represented by the sizeof(void*). Consequently, the concept of "processor groups" was introduced for dealing with systems with more than 64 hyper-threads.

By default, the Windows OS assigns only one "processor group" to each starting application, in a round-robin manner. If the application wants to use more processors, it needs to programmatically enable it, by assigning threads to other "processor groups". This also means that affinity cannot cross "processor group" boundaries; one can only specify a "preferred" group on start-up, but the application is free to allocate more groups if it wants to.

This creates a peculiar situation, where newer CPUs like the AMD EPYC 7702P (64-cores, 128-hyperthreads) are projected by the OS as two (2) "processor groups". This means that by default, an application can only use half of the cores. This situation could only get worse in the years to come, as dies with more cores will appear on the market.

== The problem ==
The heavyweight_hardware_concurrency() API was introduced so that only *one hardware thread per core* was used. Once that API returns, that original intention is lost, only the number of threads is retained. Consider a situation, on Windows, where the system has 2 CPU sockets, 18 cores each, each core having 2 hyper-threads, for a total of 72 hyper-threads. Both heavyweight_hardware_concurrency() and hardware_concurrency() currently return 36, because on Windows they are simply wrappers over std:🧵:hardware_concurrency() -- which can only return processors from the current "processor group".

== The changes in this patch ==
To solve this situation, we capture (and retain) the initial intention until the point of usage, through a new ThreadPoolStrategy class. The number of threads to use is deferred as late as possible, until the moment where the std::threads are created (ThreadPool in the case of ThinLTO).

When using hardware_concurrency(), setting ThreadCount to 0 now means to use all the possible hardware CPU (SMT) threads. Providing a ThreadCount above to the maximum number of threads will have no effect, the maximum will be used instead.
The heavyweight_hardware_concurrency() is similar to hardware_concurrency(), except that only one thread per hardware *core* will be used.

When LLVM_ENABLE_THREADS is OFF, the threading APIs will always return 1, to ensure any caller loops will be exercised at least once.

Differential Revision: https://reviews.llvm.org/D71775
2020-02-14 10:24:22 -05:00
River Riddle 7476e569b5 [mlir][Pass] Enable printing pass options as part of `-help`.
Summary:
This revision adds support for printing pass options as part of the normal help description. This also moves registered passes and pipelines into different sections of the help.

Example:
```
  Compiler passes to run
    --pass-pipeline                                     -   ...
    Passes:
      --affine-data-copy-generate                       -   ...
      --convert-gpu-to-spirv                            -   ...
        --workgroup-size=<long>                         - ...
      --test-options-pass                               -   ...
        --list=<int>                                    - ...
        --string=<string>                               - ...
        --string-list=<string>                          - ...
    Pass Pipelines:
      --test-options-pass-pipeline                      -   ...
        --list=<int>                                    - ...
        --string=<string>                               - ...
        --string-list=<string>                          - ...
```

Differential Revision: https://reviews.llvm.org/D74246
2020-02-07 14:11:50 -08:00
Benjamin Kramer adcd026838 Make llvm::StringRef to std::string conversions explicit.
This is how it should've been and brings it more in line with
std::string_view. There should be no functional change here.

This is mostly mechanical from a custom clang-tidy check, with a lot of
manual fixups. It uncovers a lot of minor inefficiencies.

This doesn't actually modify StringRef yet, I'll do that in a follow-up.
2020-01-28 23:25:25 +01:00
Mehdi Amini 308571074c Mass update the MLIR license header to mention "Part of the LLVM project"
This is an artifact from merging MLIR into LLVM, the file headers are
now aligned with the rest of the project.
2020-01-26 03:58:30 +00:00
Benjamin Kramer df186507e1 Make helper functions static or move them into anonymous namespaces. NFC. 2020-01-14 14:06:37 +01:00
River Riddle 21610e6651 Refactor the way that pass options are specified.
This change refactors pass options to be more similar to how statistics are modeled. More specifically, the options are specified directly on the pass instead of in a separate options class. (Note that the behavior and specification for pass pipelines remains the same.) This brings about several benefits:
* The specification of options is much simpler
* The round-trip format of a pass can be generated automatically
* This gives a somewhat deeper integration with "configuring" a pass, which we could potentially expose to users in the future.

PiperOrigin-RevId: 286953824
2019-12-23 16:48:22 -08:00
River Riddle e62a69561f NFC: Replace ValuePtr with Value and remove it now that Value is value-typed.
ValuePtr was a temporary typedef during the transition to a value-typed Value.

PiperOrigin-RevId: 286945714
2019-12-23 16:36:53 -08:00
Mehdi Amini 56222a0694 Adjust License.txt file to use the LLVM license
PiperOrigin-RevId: 286906740
2019-12-23 15:33:37 -08:00
River Riddle 35807bc4c5 NFC: Introduce new ValuePtr/ValueRef typedefs to simplify the transition to Value being value-typed.
This is an initial step to refactoring the representation of OpResult as proposed in: https://groups.google.com/a/tensorflow.org/g/mlir/c/XXzzKhqqF_0/m/v6bKb08WCgAJ

This change will make it much simpler to incrementally transition all of the existing code to use value-typed semantics.

PiperOrigin-RevId: 286844725
2019-12-22 22:00:23 -08:00
River Riddle 4562e389a4 NFC: Remove unnecessary 'llvm::' prefix from uses of llvm symbols declared in `mlir` namespace.
Aside from being cleaner, this also makes the codebase more consistent.

PiperOrigin-RevId: 286206974
2019-12-18 09:29:20 -08:00
Kazuaki Ishizaki ae05cf27c6 Minor spelling tweaks
Closes tensorflow/mlir#304

PiperOrigin-RevId: 284568358
2019-12-09 09:23:48 -08:00
River Riddle 8904e91035 Add a flag to the IRPrinter instrumentation to only print after a pass if there is a change to the IR.
This adds an additional filtering mode for printing after a pass that checks to see if the pass actually changed the IR before printing it. This "change" detection is implemented using a SHA1 hash of the current operation and its children.

PiperOrigin-RevId: 284291089
2019-12-06 17:05:05 -08:00
Kazuaki Ishizaki 84a6182ddd minor spelling tweaks
Closes tensorflow/mlir#290

COPYBARA_INTEGRATE_REVIEW=https://github.com/tensorflow/mlir/pull/290 from kiszk:spelling_tweaks_201912 9d9afd16a723dd65754a04698b3976f150a6054a
PiperOrigin-RevId: 284169681
2019-12-06 05:59:30 -08:00
River Riddle da53000fb4 Refactor the IRPrinting instrumentation to take a derivable config.
This allows for more interesting behavior from users, e.g. enabling the ability to dump the IR to a separate file for each pass invocation.

PiperOrigin-RevId: 284059447
2019-12-05 14:53:01 -08:00
River Riddle 33a64540ad Add support for instance specific pass statistics.
Statistics are a way to keep track of what the compiler is doing and how effective various optimizations are. It is useful to see what optimizations are contributing to making a particular program run faster. Pass-instance specific statistics take this even further as you can see the effect of placing a particular pass at specific places within the pass pipeline, e.g. they could help answer questions like "what happens if I run CSE again here".

Statistics can be added to a pass by simply adding members of type 'Pass::Statistics'. This class takes as a constructor arguments: the parent pass pointer, a name, and a description. Statistics can be dumped by the pass manager in a similar manner to how pass timing information is dumped, i.e. via PassManager::enableStatistics programmatically; or -pass-statistics and -pass-statistics-display via the command line pass manager options.

Below is an example:

struct MyPass : public OperationPass<MyPass> {
  Statistic testStat{this, "testStat", "A test statistic"};

  void runOnOperation() {
    ...
    ++testStat;
    ...
  }
};

$ mlir-opt -pass-pipeline='func(my-pass,my-pass)' foo.mlir -pass-statistics

Pipeline Display:
===-------------------------------------------------------------------------===
                         ... Pass statistics report ...
===-------------------------------------------------------------------------===
'func' Pipeline
  MyPass
    (S) 15 testStat - A test statistic
  MyPass
    (S)  6 testStat - A test statistic

List Display:
===-------------------------------------------------------------------------===
                         ... Pass statistics report ...
===-------------------------------------------------------------------------===
MyPass
  (S) 21 testStat - A test statistic

PiperOrigin-RevId: 284022014
2019-12-05 11:53:28 -08:00
Sean Silva 82f9f9d112 Make diagnostic a bit clearer.
This prints out in case of any pass failure. Not just a crash.

PiperOrigin-RevId: 283616719
2019-12-03 14:01:25 -08:00
River Riddle c4a0883a92 Add a printer flag to use local scope when printing IR.
This causes the AsmPrinter to use a local value numbering when printing the IR, allowing for the printer to be used safely in a local context, e.g. to ensure thread-safety when printing the IR. This means that the IR printing instrumentation can also be used during multi-threading when module-scope is disabled. Operation::dump and DiagnosticArgument(Operation*) are also updated to always print local scope, as this is the most common use case when debugging.

PiperOrigin-RevId: 279988203
2019-11-12 09:37:11 -08:00
Kazuaki Ishizaki 8bfedb3ca5 Fix minor spelling tweaks (NFC)
Closes tensorflow/mlir#177

PiperOrigin-RevId: 275692653
2019-10-20 00:11:34 -07:00
River Riddle 978b209d38 NFC: Print the generic op form after pass failure.
On failure, the IR is likely to be in an invalid state, meaning the custom printer for some operations may now crash. Using the generic op form prevents this from happening.

PiperOrigin-RevId: 274104146
2019-10-10 21:57:50 -07:00
River Riddle 7a7dcc171d Add support for generating reproducers on pass crash and failure.
This cl adds support for generating a .mlir file containing a reproducer for crashes and failures that happen during pass execution. The reproducer contains a comment detailing the configuration of the pass manager(e.g. the textual description of the pass pipeline that the pass manager was executing), along with the original input module.

Example Output:

// configuration: -pass-pipeline='func(cse, canonicalize), inline'
// note: verifyPasses=false

module {
  ...
}

PiperOrigin-RevId: 274088134
2019-10-10 19:36:54 -07:00
River Riddle b245e9519c NFC: Initialize pass manager option fields inline instead of the class constructor.
PiperOrigin-RevId: 274087577
2019-10-10 19:35:55 -07:00
MLIR Team ae6946ec11 Add ::printAsTextualPipeline to Pass and OpPassManager.
Allow printing out pipelines in a format that is as close as possible to the
textual pass pipeline format. Individual passes can override the print function
in order to format any options that may have been used to construct that pass.

PiperOrigin-RevId: 273813627
2019-10-09 13:49:17 -07:00
MLIR Team 7446151236 Add Instance Specific Pass Options.
This allows individual passes to define options structs and for these options to be parsed per instance of the pass while building the pass pipeline from the command line provided textual specification.

The user can specify these per-instance pipeline options like so:
```
struct MyPassOptions : public PassOptions<MyPassOptions> {
  Option<int> exampleOption{*this, "flag-name", llvm:🆑:desc("...")};
  List<int> exampleListOption{*this, "list-flag-name", llvm:🆑:desc("...")};
};

static PassRegistration<MyPass, MyPassOptions> pass("my-pass", "description");
```

PiperOrigin-RevId: 273650140
2019-10-08 18:23:43 -07:00
River Riddle 1c649d5785 Pass the pointer of the parent pipeline collection pass to PassInstrumentation::run*Pipeline.
For the cases where there are multiple levels of nested pass managers, the parent thread ID is not enough to distinguish the parent of a given pass pipeline. Passing in the parent pass gives an exact anchor point.

PiperOrigin-RevId: 272105461
2019-09-30 17:44:55 -07:00
River Riddle 4b6b58ec0f NFC: Fix warning for uninitialized field.
PiperOrigin-RevId: 270704572
2019-09-23 10:20:13 -07:00
Christian Sigg c900d4994e Fix a number of Clang-Tidy warnings.
PiperOrigin-RevId: 270632324
2019-09-23 02:34:27 -07:00
River Riddle d37777c440 Update the IRPrinter instrumentation to work on non function/module operations.
This is necessary now that the pass manager may work on different types of operations.

PiperOrigin-RevId: 269139669
2019-09-14 21:56:38 -07:00
River Riddle bbe65b46f5 NFC: Pass PassInstrumentations by unique_ptr instead of raw pointer.
This makes the ownership model explicit, and removes potential user errors.

PiperOrigin-RevId: 269122834
2019-09-14 17:44:50 -07:00
River Riddle cb1bcba69b NFC: Merge OpPass with OperationPass into just OperationPass.
OperationPass' are defined exactly the same way as they are now:
   class DerivedPass :  public OperationPass<DerivedPass>;

OpPass' are now defined as OperationPass, but with an additional template parameter for the operation type:
   class DerivedPass :  public OperationPass<DerivedPass, FuncOp>;

PiperOrigin-RevId: 269122410
2019-09-14 17:37:43 -07:00
River Riddle d780bdef20 Publicly expose the functionality to parse a textual pass pipeline.
This allows for users other than those on the command line to apply a textual description of a pipeline to a given pass manager.

PiperOrigin-RevId: 269017028
2019-09-13 17:54:00 -07:00
River Riddle 8a1cdeb31b Forward diagnostics from untracked threads in ParallelDiagnosticHandler.
This allows for the use of multiple ParallelDiagnosticHandlers without having them conflict with each other.

PiperOrigin-RevId: 268967407
2019-09-13 13:19:19 -07:00
River Riddle 9274ed66ef Refactor pass pipeline command line parsing to support explicit pipeline strings.
This allows for explicitly specifying the pipeline to add to the pass manager. This includes the nesting structure, as well as the passes/pipelines to run. A textual pipeline string is defined as a series of names, each of which may in itself recursively contain a nested pipeline description. A name is either the name of a registered pass, or pass pipeline, (e.g. "cse") or the name of an operation type (e.g. "func").

For example, the following pipeline:
$ mlir-opt foo.mlir -cse -canonicalize -lower-to-llvm

Could now be specified as:
$ mlir-opt foo.mlir -pass-pipeline='func(cse, canonicalize), lower-to-llvm'

This will allow for running pipelines on nested operations, like say spirv modules. This does not remove any of the current functionality, and in fact can be used in unison. The new option is available via 'pass-pipeline'.

PiperOrigin-RevId: 268954279
2019-09-13 12:10:31 -07:00
River Riddle 893c86fff7 Explicitly declare the OpPassManager move constructor to avoid undefined errors.
Some compilers will try to auto-generate the destructor, instead of using the user provided destructor, when creating a default move constructor.

PiperOrigin-RevId: 268067367
2019-09-09 13:44:24 -07:00
River Riddle e702875d16 Add support for coalescing adjacent nested pass pipelines.
This allows for parallelizing across pipelines of multiple operation types. AdaptorPasses can now hold pass managers for multiple operation types and will dispatch based upon the operation being operated on.

PiperOrigin-RevId: 268017344
2019-09-09 09:52:25 -07:00
River Riddle 120509a6b2 Refactor PassTiming to support nested pipelines.
This is done via a new set of instrumentation hooks runBeforePipeline/runAfterPipeline, that signal the lifetime of a pass pipeline on a specific operation type. These hooks also provide the parent thread of the pipeline, allowing for accurate merging of timers running on different threads.

PiperOrigin-RevId: 267909193
2019-09-08 19:58:13 -07:00
River Riddle 5c036e682d Refactor the pass manager to support operations other than FuncOp/ModuleOp.
This change generalizes the structure of the pass manager to allow arbitrary nesting pass managers for other operations, at any level. The only user visible change to existing code is the fact that a PassManager must now provide an MLIRContext on construction. A new class `OpPassManager` has been added that represents a pass manager on a specific operation type. `PassManager` will remain the top-level entry point into the pipeline, with OpPassManagers being nested underneath. OpPassManagers will still be implicitly nested if the operation type on the pass differs from the pass manager. To explicitly build a pipeline, the 'nest' methods on OpPassManager may be used:

// Pass manager for the top-level module.
PassManager pm(ctx);

// Nest a pipeline operating on FuncOp.
OpPassManager &fpm = pm.nest<FuncOp>();
fpm.addPass(...);

// Nest a pipeline under the FuncOp pipeline that operates on spirv::ModuleOp
OpPassManager &spvModulePM = pm.nest<spirv::ModuleOp>();

// Nest a pipeline on FuncOps inside of the spirv::ModuleOp.
OpPassManager &spvFuncPM = spvModulePM.nest<FuncOp>();

To help accomplish this a new general OperationPass is added that operates on opaque Operations. This pass can be inserted in a pass manager of any type to operate on any operation opaquely. An example of this opaque OperationPass is a VerifierPass, that simply runs the verifier opaquely on the current operation.

/// Pass to verify an operation and signal failure if necessary.
class VerifierPass : public OperationPass<VerifierPass> {
  void runOnOperation() override {
    Operation *op = getOperation();
    if (failed(verify(op)))
      signalPassFailure();
    markAllAnalysesPreserved();
  }
};

PiperOrigin-RevId: 266840344
2019-09-02 19:25:26 -07:00
River Riddle 1dd9bf4739 Generalize the pass hierarchy by adding a general OpPass<PassT, OpT>.
This pass class generalizes the current functionality between FunctionPass and ModulePass, and allows for operating on any operation type. The pass manager currently only supports OpPasses operating on FuncOp and ModuleOp, but this restriction will be relaxed in follow-up changes. A utility class OpPassBase<OpT> allows for generically referring to operation specific passes: e.g. FunctionPassBase == OpPassBase<FuncOp>.

PiperOrigin-RevId: 266442239
2019-08-30 13:16:37 -07:00
River Riddle 29099e03ce Generalize the analysis manager framework to work on any operation at any nesting.
The pass manager is moving towards being able to run on operations at arbitrary nesting. An operation may have both parent and child operations, and the AnalysisManager must be able to handle this generalization. The AnalysisManager class now contains generic 'getCachedParentAnalysis' and 'getChildAnalysis/getCachedChildAnalysis' functions to query analyses on parent/child operations. This removes the hard coded nesting relationship between Module/Function.

PiperOrigin-RevId: 266003636
2019-08-28 15:11:17 -07:00
Jacques Pienaar 79f53b0cf1 Change from llvm::make_unique to std::make_unique
Switch to C++14 standard method as llvm::make_unique has been removed (
https://reviews.llvm.org/D66259). Also mark some targets as c++14 to ease next
integrates.

PiperOrigin-RevId: 263953918
2019-08-17 11:06:03 -07:00
River Riddle 4fb971a9c4 NFC: Refactor the PassInstrumentation framework to operate on Operation instead of llvm::Any.
Now that functions and modules are operations, Operation makes more sense as the opaque object to refer to both.

PiperOrigin-RevId: 263883913
2019-08-16 17:59:37 -07:00
Mehdi Amini 926fb685de Express ownership transfer in PassManager API through std::unique_ptr (NFC)
Since raw pointers are always passed around for IR construct without
implying any ownership transfer, it can be error prone to have implicit
ownership transferred the same way.
For example this code can seem harmless:

  Pass *pass = ....
  pm.addPass(pass);
  pm.addPass(pass);
  pm.run(module);

PiperOrigin-RevId: 263053082
2019-08-12 19:13:12 -07:00
River Riddle 0e3260bc73 Change the IR printing pass instrumentation to ignore the verifier passes on non-failure.
The verifier passes are NO-OP and are only useful to print after in the case of failure. This removes a lot of unnecessary clutter when printing after/before all passes.

PiperOrigin-RevId: 257836310
2019-07-12 17:42:46 -07:00
River Riddle b3e28fca53 NFC: Remove Function::getModule.
There is already a more general 'getParentOfType' method, and 'getModule' is likely to be misused as functions get placed within different regions than ModuleOp.

PiperOrigin-RevId: 257442243
2019-07-12 08:42:21 -07:00
River Riddle fec20e590f NFC: Rename Module to ModuleOp.
Module is a legacy name that only exists as a typedef of ModuleOp.

PiperOrigin-RevId: 257427248
2019-07-10 10:11:21 -07:00
River Riddle 8c44367891 NFC: Rename Function to FuncOp.
PiperOrigin-RevId: 257293379
2019-07-10 10:10:53 -07:00
River Riddle 626b8b6a5d NFC: Remove `Module::getFunctions` in favor of a general `getOps<T>`.
Modules can now contain more than just Functions, this just updates the iteration API to reflect that. The 'begin'/'end' methods have also been updated to iterate over opaque Operations.

PiperOrigin-RevId: 257099084
2019-07-08 18:28:17 -07:00
River Riddle 5e4f8b7e7b NFC: Make the 'disable-pass-threading' flag a PassManagerOption.
This also adds the ability to programmatically disable threading.

PiperOrigin-RevId: 257051809
2019-07-08 14:16:08 -07:00
River Riddle d3f743252d NFC: Move the Function/Module/Operation::verify methods out-of-line.
As Functions/Modules becomes operations, these methods will conflict with the 'verify' hook already on derived operation types.

PiperOrigin-RevId: 256246112
2019-07-02 16:43:36 -07:00
River Riddle 206e55cc16 NFC: Refactor Module to be value typed.
As with Functions, Module will soon become an operation, which are value-typed. This eases the transition from Module to ModuleOp. A new class, OwningModuleRef is provided to allow for owning a reference to a Module, and will auto-delete the held module on destruction.

PiperOrigin-RevId: 256196193
2019-07-02 16:43:36 -07:00
River Riddle 54cd6a7e97 NFC: Refactor Function to be value typed.
Move the data members out of Function and into a new impl storage class 'FunctionStorage'. This allows for Function to become value typed, which will greatly simplify the transition of Function to FuncOp(given that FuncOp is also value typed).

PiperOrigin-RevId: 255983022
2019-07-01 11:39:00 -07:00
River Riddle 3902cef954 Make the ParallelDiagnosticHandler used by the pass manager publicly available in Diagnostics.h. This provides a common utility for deterministically handling diagnostics in a multi-threaded environment.
--

PiperOrigin-RevId: 249325937
2019-06-01 19:55:24 -07:00
River Riddle b3888fa9cc Store the child function analysis maps of a ModuleAnalysisManager by unique_ptr instead of by-value.
--

PiperOrigin-RevId: 248456926
2019-05-20 13:43:49 -07:00
River Riddle 85bf79851e Change the diagnostic handler to accept Diagnostic instead of location/message/kind. This opens the door for many more powerful use cases: fixits, colors, etc.
--

PiperOrigin-RevId: 247705673
2019-05-10 19:30:56 -07:00
Mehdi Amini a5ca314c4c Replace dyn_cast<> with isa<> when the returned value is unused (NFC)
Fix a gcc warning.

--

PiperOrigin-RevId: 247669360
2019-05-10 19:29:18 -07:00
Mehdi Amini 051925bd34 Remove unused PassID member from PassRegistry (NFC)
Fix clang warning

--

PiperOrigin-RevId: 247558931
2019-05-10 19:27:32 -07:00
River Riddle ff6e7cf558 Introduce a new API for emitting diagnostics with Diagnostic and InFlightDiagnostic.
The Diagnostic class contains all of the information necessary to report a diagnostic to the DiagnosticEngine. It should generally not be constructed directly, and instead used transitively via InFlightDiagnostic. A diagnostic is currently comprised of several different elements:
    * A severity level.
    * A source Location.
    * A list of DiagnosticArguments that help compose and comprise the output message.
      * A DiagnosticArgument represents any value that may be part of the diagnostic, e.g. string, integer, Type, Attribute, etc.
      * Arguments can be added to the diagnostic via the stream(<<) operator.
    * (In a future cl) A list of attached notes.
      * These are in the form of other diagnostics that provide supplemental information to the main diagnostic, but do not have context on their own.

    The InFlightDiagnostic class represents an RAII wrapper around a Diagnostic that is set to be reported with the diagnostic engine. This allows for the user to modify a diagnostic that is inflight. The internally wrapped diagnostic can be reported directly or automatically upon destruction.

    These classes allow for more natural composition of diagnostics by removing the restriction that the message of a diagnostic is comprised of a single Twine. They should also allow for nice incremental improvements to the diagnostics experience in the future, e.g. formatv style diagnostics.

    Simple Example:

    emitError(loc, "integer bitwidth is limited to " + Twine(IntegerType::kMaxWidth) + " bits");
    emitError(loc) << "integer bitwidth is limited to " << IntegerType::kMaxWidth << " bits";

--

PiperOrigin-RevId: 246526439
2019-05-06 08:26:34 -07:00
River Riddle b14c4b4ca8 Add support for basic remark diagnostics. This is the minimal functionality needed to separate notes from remarks. It also provides a starting point to start building out better remark infrastructure.
--

PiperOrigin-RevId: 246175216
2019-05-06 08:24:02 -07:00
River Riddle eaf7f6b671 Start sketching out a new diagnostics infrastructure. Create a new class 'DiagnosticEngine' and move the diagnostic handler support and final diagnostic emission from the MLIRContext to it.
--

PiperOrigin-RevId: 246163897
2019-05-06 08:23:53 -07:00
River Riddle 40ab8e0fb3 Enable multi-threading in the pass manager by default.
--

PiperOrigin-RevId: 245458081
2019-05-06 08:17:58 -07:00
River Riddle 0be6369176 Update the Function and Module verifiers to return LogicalResult instead of bool.
--

PiperOrigin-RevId: 241553930
2019-04-02 13:40:20 -07:00
River Riddle ff05e9da19 Update variable in PassTiming to refer to system_clock instead of high_resolution_clock.
--

PiperOrigin-RevId: 241260071
2019-04-01 10:58:59 -07:00
Jacques Pienaar 1273af232c Add build files and update README.
* Add initial version of build files;
    * Update README with instructions to download and build MLIR from github;

--

PiperOrigin-RevId: 241102092
2019-03-30 11:23:22 -07:00
River Riddle 8a0622c986 [PassManager] Add a utility class, PrettyStackTraceParallelDiagnosticEntry, to emit any queued up diagnostics in the event of a crash when multi-threading.
PiperOrigin-RevId: 240986566
2019-03-29 17:54:51 -07:00
River Riddle 07c1a96abf [PassManager] Define a ParallelDiagnosticHandler to ensure that diagnostics are still produced in a deterministic order when multi-threading.
PiperOrigin-RevId: 240817922
2019-03-29 17:50:59 -07:00
River Riddle 3a845be7d1 Add support for multi-threaded pass timing.
When multi-threading is enabled in the pass manager the meaning of the display
slightly changes. First, a new timing column is added, `User Time`, that
displays the total time spent across all threads. Secondly, the `Wall Time`
column displays the longest individual time spent amongst all of the threads.
This means that the `Wall Time` column will continue to give an indicator on the
perceived time, or clock time, whereas the `User Time` will display the total
cpu time.

Example:

$ mlir-opt foo.mlir -experimental-mt-pm -cse -canonicalize -convert-to-llvmir -pass-timing

===-------------------------------------------------------------------------===
                      ... Pass execution timing report ...
===-------------------------------------------------------------------------===
  Total Execution Time: 0.0078 seconds

   ---User Time---   ---Wall Time---  --- Name ---
   0.0175 ( 88.3%)     0.0055 ( 70.4%)  Function Pipeline
   0.0018 (  9.3%)     0.0006 (  8.1%)    CSE
   0.0013 (  6.3%)     0.0004 (  5.8%)      (A) DominanceInfo
   0.0017 (  8.7%)     0.0006 (  7.1%)    FunctionVerifier
   0.0128 ( 64.6%)     0.0039 ( 50.5%)    Canonicalizer
   0.0011 (  5.7%)     0.0004 (  4.7%)    FunctionVerifier
   0.0004 (  2.1%)     0.0004 (  5.2%)  ModuleVerifier
   0.0010 (  5.3%)     0.0010 ( 13.4%)  LLVMLowering
   0.0009 (  4.3%)     0.0009 ( 11.0%)  ModuleVerifier
   0.0198 (100.0%)     0.0078 (100.0%)  Total

PiperOrigin-RevId: 240636269
2019-03-29 17:47:41 -07:00
Jacques Pienaar b15ac2d999 Initialize std::atomic directly.
Avoids error in OSS build:
error: copying variable of type 'std::atomic<unsigned int>' invokes deleted constructor
PiperOrigin-RevId: 240618765
2019-03-29 17:46:26 -07:00
River Riddle af45236c70 Add experimental support for multi-threading the pass manager. This adds support for running function pipelines on functions across multiple threads, and is guarded by an off-by-default flag 'experimental-mt-pm'. There are still quite a few things that need to be done before multi-threading is ready for general use(e.g. pass-timing), but this allows for those things to be tested in a multi-threaded environment.
PiperOrigin-RevId: 240489002
2019-03-29 17:44:08 -07:00
Chris Lattner 46ade282c8 Make FunctionPass::getFunction() return a reference to the function, instead of
a pointer.  This makes it consistent with all the other methods in
FunctionPass, as well as with ModulePass::getModule().  NFC.

PiperOrigin-RevId: 240257910
2019-03-29 17:40:44 -07:00
Chris Lattner 88e9f418f5 Continue pushing const out of the core IR types - in this case, remove const
from Function.

PiperOrigin-RevId: 239638635
2019-03-29 17:29:58 -07:00
Jacques Pienaar a8ed2ca8fd Cleanup for changes failing with std=c++11
The static constexpr were failing with undefined reference due to lacking definition at namespace scope.

PiperOrigin-RevId: 239241157
2019-03-29 17:25:24 -07:00
River Riddle 6e983ae8df Give PassInstrumentor a SmartMutex to lock access to the held instrumentations.
PiperOrigin-RevId: 239031524
2019-03-29 17:23:53 -07:00
River Riddle 6810c8bdc1 Moving the IR printing and execution timing options out of mlir-opt and into lib/Pass. We now expose two methods: registerPassManagerCLOptions and applyPassManagerCLOptions; to allow for multiple different users (mlir-opt, etc.) to opt-in to this common functionality.
PiperOrigin-RevId: 238836911
2019-03-29 17:21:50 -07:00
River Riddle 8e7b683d1f Replace the usages of llvm::Timer in PassTiming in favor of a simple nested Timer. The output view is simplified to just display the Wall Time. This new infrastructure will greatly simplify the amount of work needed to support multi-threaded execution timing.
PiperOrigin-RevId: 238819218
2019-03-29 17:21:34 -07:00
River Riddle 076a7350e2 Add an instrumentation for conditionally printing the IR before and after pass execution. This instrumentation can be added directly to the PassManager via 'enableIRPrinting'. mlir-opt exposes access to this instrumentation via the following flags:
* print-ir-before=(comma-separated-pass-list)
  - Print the IR before each of the passes provided within the pass list.
* print-ir-before-all
  - Print the IR before every pass in the pipeline.
* print-ir-after=(comma-separated-pass-list)
  - Print the IR after each of the passes provided within the pass list.
* print-ir-after-all
  - Print the IR after every pass in the pipeline.
* print-ir-module-scope
  - Always print the Module IR, even for non module passes.

PiperOrigin-RevId: 238523649
2019-03-29 17:19:57 -07:00
River Riddle 6558f80c8d Refactor pass timing so that it is toggled on the passmanager via 'enableTiming'. This also makes the pipeline view the default display mode.
PiperOrigin-RevId: 238079916
2019-03-29 17:15:42 -07:00
River Riddle e46ba31c66 Add a new instrumentation for timing pass and analysis execution. This is made available in mlir-opt via the 'pass-timing' and 'pass-timing-display' flags. The 'pass-timing-display' flag toggles between the different available display modes for the timing results. The current display modes are 'list' and 'pipeline', with 'list' representing the default.
Below shows the output for an example mlir-opt command line.

mlir-opt foo.mlir -verify-each=false -cse -canonicalize -cse -cse -pass-timing

list view (-pass-timing-display=list):
* In this mode the results are displayed in a list sorted by total time; with each pass/analysis instance aggregated into one unique result. This mode is similar to the output of 'time-passes' in llvm-opt.

===-------------------------------------------------------------------------===
                      ... Pass execution timing report ...
===-------------------------------------------------------------------------===
  Total Execution Time: 0.0097 seconds (0.0096 wall clock)

   ---User Time---   --System Time--   --User+System--   ---Wall Time---  --- Name ---
   0.0051 ( 58.3%)   0.0001 ( 12.2%)   0.0052 ( 53.8%)   0.0052 ( 53.8%)  Canonicalizer
   0.0025 ( 29.1%)   0.0005 ( 58.2%)   0.0031 ( 31.9%)   0.0031 ( 32.0%)  CSE
   0.0011 ( 12.6%)   0.0003 ( 29.7%)   0.0014 ( 14.3%)   0.0014 ( 14.2%)  DominanceInfo
   0.0087 (100.0%)   0.0009 (100.0%)   0.0097 (100.0%)   0.0096 (100.0%)  Total

pipeline view (-pass-timing-display=pipeline):
* In this mode the results are displayed in a nested pipeline view that mirrors the internal pass pipeline that is being executed in the pass manager. This view is useful for understanding specifically which parts of the pipeline are taking the most time, and can also be used to identify when analyses are being invalidated and recomputed.

===-------------------------------------------------------------------------===
                      ... Pass execution timing report ...
===-------------------------------------------------------------------------===
  Total Execution Time: 0.0082 seconds (0.0081 wall clock)

   ---User Time---   --System Time--   --User+System--   ---Wall Time---  --- Name ---
   0.0042 (100.0%)   0.0039 (100.0%)   0.0082 (100.0%)   0.0081 (100.0%)  Function Pipeline
   0.0005 ( 11.6%)   0.0008 ( 21.1%)   0.0013 ( 16.1%)   0.0013 ( 16.2%)    CSE
   0.0002 (  5.0%)   0.0004 (  9.3%)   0.0006 (  7.0%)   0.0006 (  7.0%)      (A) DominanceInfo
   0.0026 ( 61.8%)   0.0018 ( 45.6%)   0.0044 ( 54.0%)   0.0044 ( 54.1%)    Canonicalizer
   0.0005 ( 11.7%)   0.0005 ( 13.0%)   0.0010 ( 12.3%)   0.0010 ( 12.4%)    CSE
   0.0003 (  6.1%)   0.0003 (  8.3%)   0.0006 (  7.2%)   0.0006 (  7.1%)      (A) DominanceInfo
   0.0002 (  3.8%)   0.0001 (  2.8%)   0.0003 (  3.3%)   0.0003 (  3.3%)    CSE
   0.0042 (100.0%)   0.0039 (100.0%)   0.0082 (100.0%)   0.0081 (100.0%)  Total

PiperOrigin-RevId: 237825367
2019-03-29 17:11:25 -07:00
River Riddle 43d0ca8419 NFC: Move the PassExecutor and PassAdaptor classes into PassDetail.h so that they can be referenced throughout lib/Pass.
PiperOrigin-RevId: 237712736
2019-03-29 17:10:36 -07:00
River Riddle 0310d49f46 Move the success/failure functions out of LogicalResult and into the mlir namespace.
PiperOrigin-RevId: 237712180
2019-03-29 17:10:21 -07:00
River Riddle 2d2b40bce5 Add basic infrastructure for instrumenting pass execution and analysis computation. A virtual class, PassInstrumentation, is provided to allow for different parts of the pass manager infrastructure. The currently available hooks allow for instrumenting:
* before/after pass execution
* after a pass fails
* before/after an analysis is computed

After getting this infrastructure in place, we can start providing common developer utilities like pass timing, IR printing after pass execution, etc.

PiperOrigin-RevId: 237709692
2019-03-29 17:10:06 -07:00
River Riddle 80d3568c0a Rename Status to LogicalResult to avoid conflictions with the Status in xla/tensorflow/etc.
PiperOrigin-RevId: 237537341
2019-03-29 17:08:50 -07:00
River Riddle f427bddd06 Update the PassManager infrastructure to return Status instead of bool.
PiperOrigin-RevId: 237261205
2019-03-29 17:05:51 -07:00
River Riddle 1d87b62afe Add support for preserving specific analyses in the analysis manager. Passes can now preserve specific analyses via 'markAnalysesPreserved'.
Example:

markAnalysesPreserved<DominanceInfo>();
markAnalysesPreserved<DominanceInfo, PostDominanceInfo>();

PiperOrigin-RevId: 237081454
2019-03-29 17:01:41 -07:00
Uday Bondhugula 02af8c22df Change Pass:getFunction() to return pointer instead of ref - NFC
- change this for consistency - everything else similar takes/returns a
  Function pointer - the FuncBuilder ctor,
  Block/Value/Instruction::getFunction(), etc.
- saves a whole bunch of &s everywhere

PiperOrigin-RevId: 236928761
2019-03-29 16:58:35 -07:00
River Riddle 50efe0fc85 Add a 'verifyPasses' flag to the PassManager that specifies if the IR should be verified after each pass. This also adds a "verify-each" flag to mlir-opt to optionally disable running the verifier after each pass.
PiperOrigin-RevId: 236703760
2019-03-29 16:55:35 -07:00
River Riddle 485746f524 Implement the initial AnalysisManagement infrastructure, with the introduction of the FunctionAnalysisManager and ModuleAnalysisManager classes. These classes provide analysis computation, caching, and invalidation for a specific IR unit. The invalidation is currently limited to either all or none, i.e. you cannot yet preserve specific analyses.
An analysis can be any class, but it must provide the following:
* A constructor for a given IR unit.

struct MyAnalysis {
  // Compute this analysis with the provided module.
  MyAnalysis(Module *module);
};

Analyses can be accessed from a Pass by calling either the 'getAnalysisResult<AnalysisT>' or 'getCachedAnalysisResult<AnalysisT>' methods. A FunctionPass may query for a cached analysis on the parent module with 'getCachedModuleAnalysisResult'. Similary, a ModulePass may query an analysis, it doesn't need to be cached, on a child function with 'getFunctionAnalysisResult'.

By default, when running a pass all cached analyses are set to be invalidated. If no transformation was performed, a pass can use the method 'markAllAnalysesPreserved' to preserve all analysis results. As noted above, preserving specific analyses is not yet supported.

PiperOrigin-RevId: 236505642
2019-03-29 16:54:50 -07:00
River Riddle ed5fe2098b Remove PassResult and have the runOnFunction/runOnModule functions return void instead. To signal a pass failure, passes should now invoke the 'signalPassFailure' method. This provides the equivalent functionality when needed, but isn't an intrusive part of the API like PassResult.
PiperOrigin-RevId: 236202029
2019-03-29 16:50:44 -07:00
River Riddle 300e4126c5 Move the PassExecutor and ModuleToFunctionPassAdaptor classes from PassManager.h to Pass.cpp. This allows for us to remove a dependency on Pass.h from PassManager.h.
PiperOrigin-RevId: 236029339
2019-03-29 16:49:15 -07:00
River Riddle 091ff3dc3f Add support for registering pass pipelines to the PassRegistry. This is done by providing a static registration facility PassPipelineRegistration that works similarly to PassRegistration except for it also takes a function that will add necessary passes to a provided PassManager.
void pipelineBuilder(PassManager &pm) {
      pm.addPass(new MyPass());
      pm.addPass(new MyOtherPass());
  }

  static PassPipelineRegistration Unused("unused", "Unused pass", pipelineBuilder);

This is also useful for registering specializations of existing passes:

  Pass *createFooPass10() { return new FooPass(10); }

  static PassPipelineRegistration Unused("unused", "Unused pass", createFooPass10);

PiperOrigin-RevId: 235996282
2019-03-29 16:48:29 -07:00
River Riddle c6c534493d Port all of the existing passes over to the new pass manager infrastructure. This is largely NFC.
PiperOrigin-RevId: 235952357
2019-03-29 16:47:14 -07:00
River Riddle 6067cdebaa Implement the initial pass management functionality.
The definitions of derived passes have now changed and passes must adhere to the following:

* Inherit from a CRTP base class FunctionPass/ModulePass.
   - This class provides several necessary utilities for the transformation:
       . Access to the IR unit being transformed (getFunction/getModule)
       . Various utilities for pass identification and registration.

* Provide a 'PassResult runOn(Function|Module)()' method to transform the IR.
   - This replaces the runOn* functions from before.

This patch also introduces the notion of the PassManager. This allows for simplified construction of pass pipelines and acts as the sole interface for executing passes. This is important as FunctionPass will no longer have a 'runOnModule' method.

PiperOrigin-RevId: 235952008
2019-03-29 16:46:59 -07:00
River Riddle 79944e5eef Add a Function::isExternal utility to simplify checks for external functions.
PiperOrigin-RevId: 235746553
2019-03-29 16:43:50 -07:00
River Riddle 3e656599f1 Define a PassID class to use when defining a pass. This allows for the type used for the ID field to be self documenting. It also allows for the compiler to know the set alignment of the ID object, which is useful for storing pointer identifiers within llvm data structures.
PiperOrigin-RevId: 235107957
2019-03-29 16:37:12 -07:00
River Riddle 48ccae2476 NFC: Refactor the files related to passes.
* PassRegistry is split into its own source file.
* Pass related files are moved to a new library 'Pass'.

PiperOrigin-RevId: 234705771
2019-03-29 16:32:56 -07:00