2020-10-06 12:38:19 +00:00
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// Copyright (c) 2020 Vasyl Teliman
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef SOURCE_FUZZ_TRANSFORMATION_PROPAGATE_INSTRUCTION_DOWN_H_
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#define SOURCE_FUZZ_TRANSFORMATION_PROPAGATE_INSTRUCTION_DOWN_H_
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#include <map>
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#include "source/fuzz/protobufs/spirvfuzz_protobufs.h"
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#include "source/fuzz/transformation.h"
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#include "source/fuzz/transformation_context.h"
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#include "source/opt/ir_context.h"
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namespace spvtools {
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namespace fuzz {
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class TransformationPropagateInstructionDown : public Transformation {
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public:
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explicit TransformationPropagateInstructionDown(
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2021-03-23 13:31:44 +00:00
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protobufs::TransformationPropagateInstructionDown message);
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2020-10-06 12:38:19 +00:00
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TransformationPropagateInstructionDown(
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uint32_t block_id, uint32_t phi_fresh_id,
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const std::map<uint32_t, uint32_t>& successor_id_to_fresh_id);
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// - It should be possible to apply this transformation to |block_id| (see
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// IsApplicableToBlock method).
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// - Every acceptable successor of |block_id| (see GetAcceptableSuccessors
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// method) must have an entry in the |successor_id_to_fresh_id| map unless
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// overflow ids are available.
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// - All values in |successor_id_to_fresh_id| and |phi_fresh_id| must be
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// unique and fresh.
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bool IsApplicable(
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opt::IRContext* ir_context,
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const TransformationContext& transformation_context) const override;
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// - Adds a clone of the propagated instruction into every acceptable
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// successor of |block_id|.
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// - Removes the original instruction.
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// - Creates an OpPhi instruction if possible, that tries to group created
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// clones.
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// - If the original instruction's id was irrelevant - marks created
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// instructions as irrelevant. Otherwise, marks the created instructions as
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// synonymous to each other if possible (i.e. skips instructions, copied
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// into dead blocks).
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void Apply(opt::IRContext* ir_context,
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TransformationContext* transformation_context) const override;
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protobufs::Transformation ToMessage() const override;
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// Returns true if this transformation can be applied to the block with id
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// |block_id|. Concretely, returns true iff:
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// - |block_id| is a result id of some reachable basic block in the module.
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// - the block has an instruction to propagate (see
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// GetInstructionToPropagate method).
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// - the block has at least one acceptable successor (see
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// GetAcceptableSuccessors method).
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// - none of the acceptable successors have OpPhi instructions that use the
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// original instruction.
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// - it is possible to replace every use of the original instruction with some
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// of the propagated instructions (or an OpPhi if we can create it - see
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// GetOpPhiBlockId method).
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static bool IsApplicableToBlock(opt::IRContext* ir_context,
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uint32_t block_id);
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// Returns ids of successors of |block_id|, that can be used to propagate an
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// instruction into. Concretely, a successor block is acceptable if all
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// dependencies of the propagated instruction dominate it. Note that this
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// implies that an acceptable successor must be reachable in the CFG.
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// For example:
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// %1 = OpLabel
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// OpSelectionMerge %2 None
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// OpBranchConditional %cond %2 %3
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// %3 = OpLabel
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// %4 = OpUndef %int
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// %5 = OpCopyObject %int %4
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// OpBranch %2
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// %2 = OpLabel
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// ...
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// In this example, %2 is not an acceptable successor of %3 since one of the
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// dependencies (%4) of the propagated instruction (%5) does not dominate it.
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static std::unordered_set<uint32_t> GetAcceptableSuccessors(
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opt::IRContext* ir_context, uint32_t block_id);
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std::unordered_set<uint32_t> GetFreshIds() const override;
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private:
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// Returns the last possible instruction in the |block_id| that satisfies the
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// following properties:
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// - has result id
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// - has type id
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// - has supported opcode (see IsOpcodeSupported method)
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// - has no users in its basic block.
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// Returns nullptr if no such an instruction exists. For example:
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// %1 = OpLabel
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// %2 = OpUndef %int
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// %3 = OpUndef %int
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// OpStore %var %3
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// OpBranch %some_block
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// In this example:
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// - We cannot propagate OpBranch nor OpStore since they both have unsupported
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// opcodes and have neither result ids nor type ids.
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// - We cannot propagate %3 either since it is used by OpStore.
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// - We can propagate %2 since it satisfies all our conditions.
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// The basic idea behind this method it to make sure that the returned
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// instruction will not break domination rules in its original block when
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// propagated.
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static opt::Instruction* GetInstructionToPropagate(opt::IRContext* ir_context,
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uint32_t block_id);
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// Returns true if |opcode| is supported by this transformation.
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static bool IsOpcodeSupported(spv::Op opcode);
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// Returns the first instruction in the |block| that allows us to insert
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// |opcode| above itself. Returns nullptr is no such instruction exists.
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static opt::Instruction* GetFirstInsertBeforeInstruction(
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opt::IRContext* ir_context, uint32_t block_id, spv::Op opcode);
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// Returns a result id of a basic block, where an OpPhi instruction can be
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// inserted. Returns nullptr if it's not possible to create an OpPhi. The
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// created OpPhi instruction groups all the propagated clones of the original
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// instruction. |block_id| is a result id of the block we propagate the
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// instruction from. |successor_ids| contains result ids of the successors we
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// propagate the instruction into. Concretely, returns a non-null value if:
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// - |block_id| is in some construct.
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// - The merge block of that construct is reachable.
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// - |block_id| dominates that merge block.
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// - That merge block may not be an acceptable successor of |block_id|.
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// - There must be at least one |block_id|'s acceptable successor for every
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// predecessor of the merge block, dominating that predecessor.
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// - We can't create an OpPhi if the module has neither VariablePointers nor
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// VariablePointersStorageBuffer capabilities.
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// A simple example of when we can insert an OpPhi instruction is:
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// - This snippet of code:
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// %1 = OpLabel
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// %2 = OpUndef %int
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// OpSelectionMerge %5 None
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// OpBranchConditional %cond %3 %4
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// %3 = OpLabel
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// OpBranch %5
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// %4 = OpLabel
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// OpBranch %5
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// %5 = OpLabel
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// ...
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// will be transformed into the following one (if %2 is propagated):
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// %1 = OpLabel
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// OpSelectionMerge %5 None
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// OpBranchConditional %cond %3 %4
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// %3 = OpLabel
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// %6 = OpUndef %int
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// OpBranch %5
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// %4 = OpLabel
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// %7 = OpUndef %int
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// OpBranch %5
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// %5 = OpLabel
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// %8 = OpPhi %int %6 %3 %7 %4
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// ...
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// The fact that we introduce an OpPhi allows us to increase the applicability
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// of the transformation. Concretely, we wouldn't be able to apply it in the
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// example above if %2 were used in %5. Some more complicated examples can be
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// found in unit tests.
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static uint32_t GetOpPhiBlockId(
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opt::IRContext* ir_context, uint32_t block_id,
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const opt::Instruction& inst_to_propagate,
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const std::unordered_set<uint32_t>& successor_ids);
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protobufs::TransformationPropagateInstructionDown message_;
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};
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} // namespace fuzz
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} // namespace spvtools
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#endif // SOURCE_FUZZ_TRANSFORMATION_PROPAGATE_INSTRUCTION_DOWN_H_
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