Commit Graph

22 Commits

Author SHA1 Message Date
Diego Novillo
286b3095dd
Properly mark IR changed if instruction folder creates more than one constant. (#3799)
In #3636, I missed that the instruction folder may create more than a
single constant per call.  Since CCP was only checking whether one
constant had been created after folding, it was wrongly thinking that
the IR had not changed.

Fixes #3738.
2020-09-14 09:00:38 -04:00
Diego Novillo
b79773a35d
CCP should mark IR changed if it created new constants. (#3732)
CCP should mark IR changed if it created new constants.

This fixes #3636.

When CCP is simulating statements, it will sometimes successfully fold
an instruction, which laters switches to varying.  The initial fold of
the instruction may generate a new constant K.

The problem we were running into is when K never gets propagated to the
IR.  Its definition will still exist, so CCP should mark the IR modified
in this case.

In fixing this bug, I noticed that an existing test was suffering from
the same bug.  The change also makes PassTest::SinglePassRunAndMatch()
return the result from the pass, so that we can check that the pass
marks the IR modified in this case.
2020-08-20 16:48:11 -04:00
Steven Perron
9d29c37ac5
Removing decorations when doing constant propagation. (#2444)
In constant propagation, decoration are transfered from the original
expression to the constant that will replace it.  This can be wrong
because there are no decorations that apply to constants.  We choose to
simply delete the decorations.

Fixes #2441
2019-03-13 10:40:49 -04:00
Steven Perron
2d2a512691
Don't inline recursive functions. (#2130)
* Move ProcessFunction* function from pass to the context.

There are a few functions that are used to traverse the call tree.
They currently live in the Pass class, but they have nothing to do with
a pass, and may be needed outside of a pass.  They would be better in
the ir context, or in a specific call tree class if we ever have a need
for it.

* Don't inline recursive functions.

Inlining does not check if a function is recursive or not.  This has
been fine as long as the shader was a Vulkan shader, which forbid
recursive functions.  However, not all shaders are vulkan, so either
we limit inlining to Vulkan shaders or we teach it to look for recursive
functions.

I prefer to keep the passes as general as is reasonable.  The change
does not require much new code in inlining and gives a reason to refactor
some other code.

The changes are to add a member function to the Function class that
checks if that function is recursive or not.

Then this is used in inlining to not inlining a function call if it calls
a recursive function.

* Add id to function analysis

There are a few places that build a map from ids to Function whose
result is that id.  I decided to add an analysis to the context for this
to reduce that code, and simplify some of the functions.

* Add missing file.
2018-11-29 14:24:58 -05:00
dan sinclair
eda2cfbe12
Cleanup includes. (#1795)
This Cl cleans up the include paths to be relative to the top level
directory. Various include-what-you-use fixes have been added.
2018-08-03 15:06:09 -04:00
dan sinclair
c7da51a085
Cleanup extraneous namespace qualifies in source/opt. (#1716)
This CL follows up on the opt namespacing CLs by removing the
unnecessary opt:: and opt::analysis:: namespace prefixes.
2018-07-12 15:14:43 -04:00
dan sinclair
f96b7f1cb9
use Pass::Run to set the context on each pass. (#1708)
Currently the IRContext is passed into the Pass::Process method. It is
then up to the individual pass to store the context into the context_
variable. This CL changes the Run method to store the context before
calling Process which no-longer receives the context as a parameter.
2018-07-12 09:08:45 -04:00
dan sinclair
e6b953361d
Move the ir namespace to opt. (#1680)
This CL moves the files in opt/ to consistenly be under the opt::
namespace. This frees up the ir:: namespace so it can be used to make a
shared ir represenation.
2018-07-09 11:32:29 -04:00
Steven Perron
a45d4cac61 Move folding routines into a class
The folding routines are currently global functions.  They also rely on
data in an std::map that holds the folding rules for each opcode.  This
causes that map to not have a clear owner, and therefore never gets
deleted.

There has been a request to delete this map.  To implement this, we will
create a InstructionFolder class that owns the maps.  The IRContext will
own the InstructionFolder instance.  Then the global functions will
become public memeber functions of the InstructionFolder.

Fixes https://github.com/KhronosGroup/SPIRV-Tools/issues/1659.
2018-07-05 17:52:43 -04:00
Alan Baker
824625760b Fixes #1361. Mark all non-constant global values as varying in CCP
* Also mark function parameters as varying
* Conservatively mark assignment instructions as varying if any input is
varying after attempting to fold
* Added a test to catch this case
2018-03-01 15:24:41 -05:00
Alan Baker
01760d2f0f Fixes #1338. Handle OpConstantNull in branch/switch conditions
* No longer assume the branch/switch condition must be bool or int
constants (respectively)
* Added a couple unit tests for each case
2018-02-21 10:22:39 -05:00
Alan Baker
c3f34d8bf3 Fixes #1300. Adding checks for bad CCP transitions and unsettled values
* Now track propagation status and assert on bad statuses
 * Added helper methods to access instruction propagation status
* Modified the phi meet operator to properly reflect the paper it is
based on
* Modified SSA edge addition so that all edge are added, but only on
state changes
* Fixed a bug in instruction simulation where interesting conditional
branches would not mark the interesting edge as executed
 * Added a test to catch this bug
* Added an ostream operator for SSAPropagator::PropStatus
2018-02-18 19:41:34 -05:00
Alan Baker
229ebc0665 Fixes #1295. Mark undef values as varying in ccp.
* Undef now marked as varying in ccp
 * this prevents incorrect meet operations since phis were always not
 interesting
* added a test to catch the bug
2018-02-14 10:21:26 -05:00
Alan Baker
1b46f7ecad Fixes in CCP for #1228
* Forces traversal of phis if the def has changed to varying
* Mark a phi as varying if all incoming values are varying
* added a test to catch the bug
2018-01-29 15:12:05 -05:00
Steven Perron
6cc772c3ce Skip SpecConstants in CCP.
At the moment specialization constants look like constants to ccp.  This
causes a problem because they are handled differently by the constant
manager.

I choose to simply skip over them, and not try to add them to the value
table.  We can do specialization before ccp if we want to be able to
propagate these values.

Fixes #1199.
2018-01-15 09:53:23 -05:00
Alan Baker
6587d3f8a3 Adding early exit versions of several ForEach* methods
* Looked through code for instances where code would benefit from early
exit
 * Added a corresponding WhileEach* method and updated the code
2018-01-12 17:05:09 -05:00
Steven Perron
24f9947050 Move initialization of the const mgr to the constructor.
The current code expects the users of the constant manager to initialize
it with all of the constants in the module.  The problem is that you do
not want to redo the work multiple times.  So I decided to move that
code to the constructor of the constant manager.  This way it will
always be initialized on first use.

I also removed an assert that expects all constant instructions to be
successfully mapped.  This is because not all OpConstant* instruction
can map to a constant, and neither do the OpSpecConstant* instructions.

The real problem is that an OpConstantComposite can contain a member
that is OpUndef.  I tried to treat OpUndef like OpConstantNull, but this
failed because an OpSpecConstantComposite with an OpUndef cannot be
changed to an OpConstantComposite.  Since I feel this case will not be
common, I decided to not complicate the code.

Fixes #1193.
2018-01-12 13:53:21 -05:00
Steven Perron
1ebd860daa Add generic folding function and use in CCP
The current folding routines have a very cumbersome interface, make them
harder to use, and not a obvious how to extend.

This change is to create a new interface for the folding routines, and
show how it can be used by calling it from CCP.

This does not make a significant change to the behaviour of CCP.  In
general it should produce the same code as before; however it is
possible that an instruction that takes 32-bit integers as inputs and
the result is not a 32-bit integer or bool will not be folded as before.
2018-01-10 13:17:25 -05:00
Diego Novillo
e5560d64de Fix constant propagation of induction variables.
This fixes https://github.com/KhronosGroup/SPIRV-Tools/issues/1143.
When an instruction transitions from constant to bottom (varying) in the
lattice, we were telling the propagator that the instruction was
varying, but never updating the actual value in the values table.

This led to incorrect value substitutions at the end of propagation.

The patch also re-enables CCP in -O and -Os.
2018-01-08 15:34:35 -05:00
Diego Novillo
135150a1a8 Do not insert Phi nodes in CCP propagator.
In CCP we should not need to insert Phi nodes because CCP never looks at
loads/stores.  This required adjusting two tests that relied on Phi
instructions being inserted.  I changed the tests to have the Phi
instructions pre-inserted.

I also added a new test to make sure that CCP does not try to look
through stores and loads.

Finally, given that CCP does not handle loads/stores, it's better to run
mem2reg before it.  I've changed the -O/-Os schedules to run local
multi-store elimination before CCP.

Although this is just an efficiency fix for CCP, it is
also working around a bug in Phi insertion.  When Phi instructions are
inserted, they are never associated a basic block.  This causes a
segfault when the propagator tries to lookup CFG edges when analyzing
Phi instructions.
2018-01-03 15:12:25 -05:00
Diego Novillo
1acce99255 Fix https://github.com/KhronosGroup/SPIRV-Tools/issues/1130
This addresses review feedback for the CCP implementation (which fixes
https://github.com/KhronosGroup/SPIRV-Tools/issues/889).

This adds more protection around the folding of instructions that would
not be supported by the folder.
2017-12-22 13:33:17 -05:00
Diego Novillo
4ba9dcc8a0 Implement SSA CCP (SSA Conditional Constant Propagation).
This implements the conditional constant propagation pass proposed in

Constant propagation with conditional branches,
Wegman and Zadeck, ACM TOPLAS 13(2):181-210.

The main logic resides in CCPPass::VisitInstruction.  Instruction that
may produce a constant value are evaluated with the constant folder. If
they produce a new constant, the instruction is considered interesting.
Otherwise, it's considered varying (for unfoldable instructions) or
just not interesting (when not enough operands have a constant value).

The other main piece of logic is in CCPPass::VisitBranch.  This
evaluates the selector of the branch.  When it's found to be a known
value, it computes the destination basic block and sets it.  This tells
the propagator which branches to follow.

The patch required extensions to the constant manager as well. Instead
of hashing the Constant pointers, this patch changes the constant pool
to hash the contents of the Constant.  This allows the lookups to be
done using the actual values of the Constant, preventing duplicate
definitions.
2017-12-21 14:29:45 -05:00