Commit Graph

23 Commits

Author SHA1 Message Date
dan sinclair
2cce2c5b97
Move tests into namespaces (#1689)
This CL moves the test into namespaces based on their directories.
2018-07-11 09:24:49 -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
dan sinclair
76e0bde196 Move utils/ to spvtools::utils
Currently the utils/ folder uses both spvutils:: and spvtools::utils.
This CL changes the namespace to consistenly be spvtools::utils to match
the rest of the codebase.
2018-07-06 16:47:46 -04:00
Steven Perron
9ecbcf5fc8 Make sure the constant folder get the correct type.
There are a few locations where we need to handle duplicate types.  We
cannot merge them because they may be needed for reflection.  When this
happens we need do some extra lookups in the type manager.

The specific fixes are:

1) When generating a constant through `GetDefiningInstruction` accept
and use an id for the desired type of the constant.  This will make sure
you get the type that is needed.

2) In Private-to-local, make sure we to update the def-use chains when a
new pointer type is created.

3) In the type manager, make sure that `FindPointerToType` returns a
pointer that points to the given type and not a duplicate type.

4) In scalar replacment, make sure the null constants that are created
are the correct type.
2018-07-05 14:34:30 -04:00
Steven Perron
1f7b1f1bf7 Small vector optimization for operands.
We replace the std::vector in the Operand class by a new class that does
a small size optimization.  This helps improve compile time on Windows.

Tested on three sets of shaders.  Trying various values for the small
vector.  The optimal value for the operand class was 2.  However, for
the Instruction class, using an std::vector was optimal.  Size of "0"
means that an std::vector was used.

                Instruction size
	        0      4      8
Operand Size

0               489    544    684
1               593    487
2               469    570
4               473
8               505

This is a single thread run of ~120 shaders.  For the multithreaded run
the results were the similar.  The basline time was ~62sec.  The
optimal configuration was an 2 for the OperandData and an
std::vector for the OperandList with a compile time of ~38sec.  Similar
expiriments were done with other sets of shaders.  The compile time still
improved, but not as much.

Contributes to https://github.com/KhronosGroup/SPIRV-Tools/issues/1609.
2018-06-12 13:41:08 -04:00
Steven Perron
804e8884c4 Fold fclamp feeding compare.
An FClamp instruction forces a values to be within a certain interval.
When the upper or lower bound of the FClamp is a constant and the value
being compared with is a constant, then in some case we can fold the
compared because the entire range is say less than the value.

Fixes https://github.com/KhronosGroup/SPIRV-Tools/issues/1549.
2018-05-14 10:27:49 -04:00
Steven Perron
e1bcd2b2d8 Fold OpVectorTimesScalar and OpPhi better.
If one of the operands to an OpVectorTimesScalar instruction is zero,
then the result will be the 0 vector. Currently we do not fold the
insturction unless both operands are constants. This change fixes that.

We also allow folding of OpPhi instructions where the incoming values
are either an OpUndef or the OpPhi instruction itself. As with other
cases, this can be simplified to the OpUndef.
2018-04-26 12:41:16 -04:00
Steven Perron
53bc1623ec Fold OpDot
Adding three rules to fold OpDot (implemented as two).

- When an OpDot has two constants, then fold to the resulting const.

- When one of the inputs is the 0 vector, then fold to zero.

- When one of the inputs is a single 1 with 0s, then rewrite to an
OpCompositeExtract of the appropriate element.  This will help find
even more folding opportunities.

Contributes to #709.
2018-04-10 13:09:37 -04:00
Alan Baker
ce5941a642 Fixes #1357. Support null constants better in folding
* getFloatConstantKind() now handles OpConstantNull
* PerformOperation() now handles OpConstantNull for vectors
* Fixed some instances where we would attempt to merge a division by 0
* added tests
2018-02-28 23:12:27 -05:00
Alan Baker
802cf053c7 Merge arithmetic with non-trivial constant operands
Adding basis of arithmetic merging

* Refactored constant collection in ConstantManager
* New rules:
 * consecutive negates
 * negate of arithmetic op with a constant
 * consecutive muls
 * reciprocal of div

* Removed IRContext::CanFoldFloatingPoint
 * replaced by Instruction::IsFloatingPointFoldingAllowed
* Fixed some bad tests
* added some header comments

Added PerformIntegerOperation

* minor fixes to constants and tests
* fixed IntMultiplyBy1 to work with 64 bit ints
* added tests for integer mul merging

Adding test for vector integer multiply merging

Adding support for merging integer add and sub through negate

* Added tests

Adding rules to merge mult with preceding divide

* Has a couple tests, but needs more
* Added more comments

Fixed bug in integer division folding

* Will no longer merge through integer division if there would be a
remainder in the division
* Added a bunch more tests

Adding rules to merge divide and multiply through divide

* Improved comments
* Added tests

Adding rules to handle mul or div of a negation

* Added tests

Changes for review

* Early exit if no constants are involved in more functions
* fixed some comments
* removed unused declaration
* clarified some logic

Adding new rules for add and subtract

* Fold adds of adds, subtracts or negates
* Fold subtracts of adds, subtracts or negates
* Added tests
2018-02-27 13:02:13 -05:00
Arseny Kapoulkine
27d23a92a0 Remove constants from constant manager in KillInst
Registering a constant in constant manager establishes a relation
between instruction that defined it and constant object. On complex
shaders this could result in the constant definition getting removed as
part of one of the DCE pass, and a subsequent simplification pass trying
to use the defining instruction for the constant.

To fix this, we now remove associated constant entries from constant
manager when killing constant instructions; the constant object is still
registered and can be remapped to a new instruction later.

GetDefiningInstruction shouldn't ever return nullptr after this change
so add an assertion to check for that.
2018-02-16 20:37:12 -05:00
Steven Perron
6669d8163d Fold binary floating point operators.
Adds the floating rules for FAdd, FDiv, FMul, and FSub.

Contributes to #1164.
2018-02-14 15:48:15 -05:00
Steven Perron
1d7b1423f9 Add folding of OpCompositeExtract and OpConstantComposite constant instructions.
Create files for constant folding rules.

Add the rules for OpConstantComposite and OpCompositeExtract.
2018-02-09 17:52:33 -05:00
Steven Perron
6c409e30a2 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.

It seems like andriod has a problem with INT32_MAX and the like.  I'll
explicitly define those if the are not already defined.
2018-01-22 14:26:49 -05:00
Greg Fischer
c2aadb02d9 Add MatrixConstant 2018-01-12 18:49:36 -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
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
Alan Baker
616908503d Improving the usability of the type manager. The type manager hashes
types. This allows the lookup of type declaration ids from arbitrarily
constructed types. Users should be cautious when dealing with non-unique
types (structs and potentially pointers) to get the exact id if
necessary.

* Changed the spec composite constant folder to handle ambiguous composites
* Added functionality to create necessary instructions for a type
* Added ability to remove ids from the type manager
2017-12-18 08:20:56 -05:00
Diego Novillo
241dcacc04 Add a new constant manager class.
This patch adds a new constant manager class to interface with
analysis::Constant.  The new constant manager lives in ir::IRContext
together with the type manager (analysis::TypeManager).

The new analysis::ConstantManager is used by the spec constant folder
and the constant propagator (in progress).

Another cleanup introduced by this patch removes the ID management from
the fold spec constant pass, and ir::IRContext and moves it to
ir::Module. SSA IDs were maintained by IRContext and Module.  That's
pointless and leads to mismatch IDs. Fixed by moving all the bookkeeping
to ir::Module.
2017-12-08 14:14:55 -05:00
Lei Zhang
dc6e4834d6 Clean up header dependency. 2016-09-22 18:15:23 -04:00
David Neto
9fc8658ef3 Relicense SPIRV-Tools under Apache 2.0
Fixes https://github.com/KhronosGroup/SPIRV-Tools/issues/383

Finalize v2016.4
2016-09-02 10:00:29 -04:00
qining
380f36eae1 Fold spec constants to normal constants (values fixed)
For the spec constants defined by OpSpecConstantOp and
OpSpecContantComposite, if all of their operands are constants with
determined values (normal constants whose values are fixed), calculate
the correct values of the spec constants and re-define them as normal
constants.

In short, this pass replaces all the spec constants defined by
OpSpecContantOp and OpSpecConstantComposite with normal constants when
possible. So far not all valid operations of OpSpecConstantOp are
supported, we have several constriction here:

1) Only 32-bit integer and boolean (both scalar and vector) are
supported for any arithmetic operations. Integers in other width (like
64-bit) are not supported.
2) OpSConvert, OpFConvert, OpQuantizeToF16, and all the
operations under Kernel capability, are not supported.
3) OpCompositeInsert is not supported.

Note that this pass does not unify normal constants. This means it is
possible to have new generatd constants defining the same values.
2016-08-29 08:58:53 -04:00