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authorMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
committerMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
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Add m-esr52 at 52.6.0
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diff --git a/gfx/angle/src/compiler/translator/ASTMetadataHLSL.cpp b/gfx/angle/src/compiler/translator/ASTMetadataHLSL.cpp
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+//
+// Copyright (c) 2002-2015 The ANGLE Project Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style license that can be
+// found in the LICENSE file.
+//
+
+// Analysis of the AST needed for HLSL generation
+
+#include "compiler/translator/ASTMetadataHLSL.h"
+
+#include "compiler/translator/CallDAG.h"
+#include "compiler/translator/SymbolTable.h"
+
+namespace sh
+{
+
+namespace
+{
+
+// Class used to traverse the AST of a function definition, checking if the
+// function uses a gradient, and writing the set of control flow using gradients.
+// It assumes that the analysis has already been made for the function's
+// callees.
+class PullGradient : public TIntermTraverser
+{
+ public:
+ PullGradient(MetadataList *metadataList, size_t index, const CallDAG &dag)
+ : TIntermTraverser(true, false, true),
+ mMetadataList(metadataList),
+ mMetadata(&(*metadataList)[index]),
+ mIndex(index),
+ mDag(dag)
+ {
+ ASSERT(index < metadataList->size());
+ }
+
+ void traverse(TIntermFunctionDefinition *node)
+ {
+ node->traverse(this);
+ ASSERT(mParents.empty());
+ }
+
+ // Called when a gradient operation or a call to a function using a gradient is found.
+ void onGradient()
+ {
+ mMetadata->mUsesGradient = true;
+ // Mark the latest control flow as using a gradient.
+ if (!mParents.empty())
+ {
+ mMetadata->mControlFlowsContainingGradient.insert(mParents.back());
+ }
+ }
+
+ void visitControlFlow(Visit visit, TIntermNode *node)
+ {
+ if (visit == PreVisit)
+ {
+ mParents.push_back(node);
+ }
+ else if (visit == PostVisit)
+ {
+ ASSERT(mParents.back() == node);
+ mParents.pop_back();
+ // A control flow's using a gradient means its parents are too.
+ if (mMetadata->mControlFlowsContainingGradient.count(node)> 0 && !mParents.empty())
+ {
+ mMetadata->mControlFlowsContainingGradient.insert(mParents.back());
+ }
+ }
+ }
+
+ bool visitLoop(Visit visit, TIntermLoop *loop) override
+ {
+ visitControlFlow(visit, loop);
+ return true;
+ }
+
+ bool visitIfElse(Visit visit, TIntermIfElse *ifElse) override
+ {
+ visitControlFlow(visit, ifElse);
+ return true;
+ }
+
+ bool visitUnary(Visit visit, TIntermUnary *node) override
+ {
+ if (visit == PreVisit)
+ {
+ switch (node->getOp())
+ {
+ case EOpDFdx:
+ case EOpDFdy:
+ onGradient();
+ default:
+ break;
+ }
+ }
+
+ return true;
+ }
+
+ bool visitAggregate(Visit visit, TIntermAggregate *node) override
+ {
+ if (visit == PreVisit)
+ {
+ if (node->getOp() == EOpFunctionCall)
+ {
+ if (node->isUserDefined())
+ {
+ size_t calleeIndex = mDag.findIndex(node->getFunctionSymbolInfo());
+ ASSERT(calleeIndex != CallDAG::InvalidIndex && calleeIndex < mIndex);
+
+ if ((*mMetadataList)[calleeIndex].mUsesGradient) {
+ onGradient();
+ }
+ }
+ else
+ {
+ TString name =
+ TFunction::unmangleName(node->getFunctionSymbolInfo()->getName());
+
+ if (name == "texture2D" ||
+ name == "texture2DProj" ||
+ name == "textureCube")
+ {
+ onGradient();
+ }
+ }
+ }
+ }
+
+ return true;
+ }
+
+ private:
+ MetadataList *mMetadataList;
+ ASTMetadataHLSL *mMetadata;
+ size_t mIndex;
+ const CallDAG &mDag;
+
+ // Contains a stack of the control flow nodes that are parents of the node being
+ // currently visited. It is used to mark control flows using a gradient.
+ std::vector<TIntermNode*> mParents;
+};
+
+// Traverses the AST of a function definition to compute the the discontinuous loops
+// and the if statements containing gradient loops. It assumes that the gradient loops
+// (loops that contain a gradient) have already been computed and that it has already
+// traversed the current function's callees.
+class PullComputeDiscontinuousAndGradientLoops : public TIntermTraverser
+{
+ public:
+ PullComputeDiscontinuousAndGradientLoops(MetadataList *metadataList,
+ size_t index,
+ const CallDAG &dag)
+ : TIntermTraverser(true, false, true),
+ mMetadataList(metadataList),
+ mMetadata(&(*metadataList)[index]),
+ mIndex(index),
+ mDag(dag)
+ {
+ }
+
+ void traverse(TIntermFunctionDefinition *node)
+ {
+ node->traverse(this);
+ ASSERT(mLoopsAndSwitches.empty());
+ ASSERT(mIfs.empty());
+ }
+
+ // Called when traversing a gradient loop or a call to a function with a
+ // gradient loop in its call graph.
+ void onGradientLoop()
+ {
+ mMetadata->mHasGradientLoopInCallGraph = true;
+ // Mark the latest if as using a discontinuous loop.
+ if (!mIfs.empty())
+ {
+ mMetadata->mIfsContainingGradientLoop.insert(mIfs.back());
+ }
+ }
+
+ bool visitLoop(Visit visit, TIntermLoop *loop) override
+ {
+ if (visit == PreVisit)
+ {
+ mLoopsAndSwitches.push_back(loop);
+
+ if (mMetadata->hasGradientInCallGraph(loop))
+ {
+ onGradientLoop();
+ }
+ }
+ else if (visit == PostVisit)
+ {
+ ASSERT(mLoopsAndSwitches.back() == loop);
+ mLoopsAndSwitches.pop_back();
+ }
+
+ return true;
+ }
+
+ bool visitIfElse(Visit visit, TIntermIfElse *node) override
+ {
+ if (visit == PreVisit)
+ {
+ mIfs.push_back(node);
+ }
+ else if (visit == PostVisit)
+ {
+ ASSERT(mIfs.back() == node);
+ mIfs.pop_back();
+ // An if using a discontinuous loop means its parents ifs are also discontinuous.
+ if (mMetadata->mIfsContainingGradientLoop.count(node) > 0 && !mIfs.empty())
+ {
+ mMetadata->mIfsContainingGradientLoop.insert(mIfs.back());
+ }
+ }
+
+ return true;
+ }
+
+ bool visitBranch(Visit visit, TIntermBranch *node) override
+ {
+ if (visit == PreVisit)
+ {
+ switch (node->getFlowOp())
+ {
+ case EOpBreak:
+ {
+ ASSERT(!mLoopsAndSwitches.empty());
+ TIntermLoop *loop = mLoopsAndSwitches.back()->getAsLoopNode();
+ if (loop != nullptr)
+ {
+ mMetadata->mDiscontinuousLoops.insert(loop);
+ }
+ }
+ break;
+ case EOpContinue:
+ {
+ ASSERT(!mLoopsAndSwitches.empty());
+ TIntermLoop *loop = nullptr;
+ size_t i = mLoopsAndSwitches.size();
+ while (loop == nullptr && i > 0)
+ {
+ --i;
+ loop = mLoopsAndSwitches.at(i)->getAsLoopNode();
+ }
+ ASSERT(loop != nullptr);
+ mMetadata->mDiscontinuousLoops.insert(loop);
+ }
+ break;
+ case EOpKill:
+ case EOpReturn:
+ // A return or discard jumps out of all the enclosing loops
+ if (!mLoopsAndSwitches.empty())
+ {
+ for (TIntermNode *intermNode : mLoopsAndSwitches)
+ {
+ TIntermLoop *loop = intermNode->getAsLoopNode();
+ if (loop)
+ {
+ mMetadata->mDiscontinuousLoops.insert(loop);
+ }
+ }
+ }
+ break;
+ default:
+ UNREACHABLE();
+ }
+ }
+
+ return true;
+ }
+
+ bool visitAggregate(Visit visit, TIntermAggregate *node) override
+ {
+ if (visit == PreVisit && node->getOp() == EOpFunctionCall)
+ {
+ if (node->isUserDefined())
+ {
+ size_t calleeIndex = mDag.findIndex(node->getFunctionSymbolInfo());
+ ASSERT(calleeIndex != CallDAG::InvalidIndex && calleeIndex < mIndex);
+
+ if ((*mMetadataList)[calleeIndex].mHasGradientLoopInCallGraph)
+ {
+ onGradientLoop();
+ }
+ }
+ }
+
+ return true;
+ }
+
+ bool visitSwitch(Visit visit, TIntermSwitch *node) override
+ {
+ if (visit == PreVisit)
+ {
+ mLoopsAndSwitches.push_back(node);
+ }
+ else if (visit == PostVisit)
+ {
+ ASSERT(mLoopsAndSwitches.back() == node);
+ mLoopsAndSwitches.pop_back();
+ }
+ return true;
+ }
+
+ private:
+ MetadataList *mMetadataList;
+ ASTMetadataHLSL *mMetadata;
+ size_t mIndex;
+ const CallDAG &mDag;
+
+ std::vector<TIntermNode*> mLoopsAndSwitches;
+ std::vector<TIntermIfElse *> mIfs;
+};
+
+// Tags all the functions called in a discontinuous loop
+class PushDiscontinuousLoops : public TIntermTraverser
+{
+ public:
+ PushDiscontinuousLoops(MetadataList *metadataList, size_t index, const CallDAG &dag)
+ : TIntermTraverser(true, true, true),
+ mMetadataList(metadataList),
+ mMetadata(&(*metadataList)[index]),
+ mIndex(index),
+ mDag(dag),
+ mNestedDiscont(mMetadata->mCalledInDiscontinuousLoop ? 1 : 0)
+ {
+ }
+
+ void traverse(TIntermFunctionDefinition *node)
+ {
+ node->traverse(this);
+ ASSERT(mNestedDiscont == (mMetadata->mCalledInDiscontinuousLoop ? 1 : 0));
+ }
+
+ bool visitLoop(Visit visit, TIntermLoop *loop) override
+ {
+ bool isDiscontinuous = mMetadata->mDiscontinuousLoops.count(loop) > 0;
+
+ if (visit == PreVisit && isDiscontinuous)
+ {
+ mNestedDiscont++;
+ }
+ else if (visit == PostVisit && isDiscontinuous)
+ {
+ mNestedDiscont--;
+ }
+
+ return true;
+ }
+
+ bool visitAggregate(Visit visit, TIntermAggregate *node) override
+ {
+ switch (node->getOp())
+ {
+ case EOpFunctionCall:
+ if (visit == PreVisit && node->isUserDefined() && mNestedDiscont > 0)
+ {
+ size_t calleeIndex = mDag.findIndex(node->getFunctionSymbolInfo());
+ ASSERT(calleeIndex != CallDAG::InvalidIndex && calleeIndex < mIndex);
+
+ (*mMetadataList)[calleeIndex].mCalledInDiscontinuousLoop = true;
+ }
+ break;
+ default:
+ break;
+ }
+ return true;
+ }
+
+ private:
+ MetadataList *mMetadataList;
+ ASTMetadataHLSL *mMetadata;
+ size_t mIndex;
+ const CallDAG &mDag;
+
+ int mNestedDiscont;
+};
+
+}
+
+bool ASTMetadataHLSL::hasGradientInCallGraph(TIntermLoop *node)
+{
+ return mControlFlowsContainingGradient.count(node) > 0;
+}
+
+bool ASTMetadataHLSL::hasGradientLoop(TIntermIfElse *node)
+{
+ return mIfsContainingGradientLoop.count(node) > 0;
+}
+
+MetadataList CreateASTMetadataHLSL(TIntermNode *root, const CallDAG &callDag)
+{
+ MetadataList metadataList(callDag.size());
+
+ // Compute all the information related to when gradient operations are used.
+ // We want to know for each function and control flow operation if they have
+ // a gradient operation in their call graph (shortened to "using a gradient"
+ // in the rest of the file).
+ //
+ // This computation is logically split in three steps:
+ // 1 - For each function compute if it uses a gradient in its body, ignoring
+ // calls to other user-defined functions.
+ // 2 - For each function determine if it uses a gradient in its call graph,
+ // using the result of step 1 and the CallDAG to know its callees.
+ // 3 - For each control flow statement of each function, check if it uses a
+ // gradient in the function's body, or if it calls a user-defined function that
+ // uses a gradient.
+ //
+ // We take advantage of the call graph being a DAG and instead compute 1, 2 and 3
+ // for leaves first, then going down the tree. This is correct because 1 doesn't
+ // depend on other functions, and 2 and 3 depend only on callees.
+ for (size_t i = 0; i < callDag.size(); i++)
+ {
+ PullGradient pull(&metadataList, i, callDag);
+ pull.traverse(callDag.getRecordFromIndex(i).node);
+ }
+
+ // Compute which loops are discontinuous and which function are called in
+ // these loops. The same way computing gradient usage is a "pull" process,
+ // computing "bing used in a discont. loop" is a push process. However we also
+ // need to know what ifs have a discontinuous loop inside so we do the same type
+ // of callgraph analysis as for the gradient.
+
+ // First compute which loops are discontinuous (no specific order) and pull
+ // the ifs and functions using a gradient loop.
+ for (size_t i = 0; i < callDag.size(); i++)
+ {
+ PullComputeDiscontinuousAndGradientLoops pull(&metadataList, i, callDag);
+ pull.traverse(callDag.getRecordFromIndex(i).node);
+ }
+
+ // Then push the information to callees, either from the a local discontinuous
+ // loop or from the caller being called in a discontinuous loop already
+ for (size_t i = callDag.size(); i-- > 0;)
+ {
+ PushDiscontinuousLoops push(&metadataList, i, callDag);
+ push.traverse(callDag.getRecordFromIndex(i).node);
+ }
+
+ // We create "Lod0" version of functions with the gradient operations replaced
+ // by non-gradient operations so that the D3D compiler is happier with discont
+ // loops.
+ for (auto &metadata : metadataList)
+ {
+ metadata.mNeedsLod0 = metadata.mCalledInDiscontinuousLoop && metadata.mUsesGradient;
+ }
+
+ return metadataList;
+}
+
+} // namespace sh