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// slang-ir-ssa-simplification.cpp
#include "slang-ir-ssa-simplification.h"
#include "../core/slang-performance-profiler.h"
#include "slang-ir-dce.h"
#include "slang-ir-deduplicate-generic-children.h"
#include "slang-ir-peephole.h"
#include "slang-ir-propagate-func-properties.h"
#include "slang-ir-redundancy-removal.h"
#include "slang-ir-remove-unused-generic-param.h"
#include "slang-ir-sccp.h"
#include "slang-ir-simplify-cfg.h"
#include "slang-ir-ssa.h"
#include "slang-ir-util.h"
#include "slang-ir.h"
namespace Slang
{
IRSimplificationOptions IRSimplificationOptions::getDefault(TargetProgram* targetProgram)
{
IRSimplificationOptions result;
result.minimalOptimization =
targetProgram ? targetProgram->getOptionSet().shouldPerformMinimumOptimizations() : false;
if (result.minimalOptimization)
result.cfgOptions = CFGSimplificationOptions::getFast();
else
result.cfgOptions = CFGSimplificationOptions::getDefault();
result.peepholeOptions = PeepholeOptimizationOptions();
if (targetProgram)
result.deadCodeElimOptions.keepGlobalParamsAlive =
targetProgram->getOptionSet().getBoolOption(CompilerOptionName::PreserveParameters);
result.deadCodeElimOptions.useFastAnalysis = result.minimalOptimization;
return result;
}
IRSimplificationOptions IRSimplificationOptions::getFast(TargetProgram* targetProgram)
{
IRSimplificationOptions result;
result.minimalOptimization =
targetProgram ? targetProgram->getOptionSet().shouldPerformMinimumOptimizations() : false;
result.cfgOptions = CFGSimplificationOptions::getFast();
result.peepholeOptions = PeepholeOptimizationOptions();
if (targetProgram)
result.deadCodeElimOptions.keepGlobalParamsAlive =
targetProgram->getOptionSet().getBoolOption(CompilerOptionName::PreserveParameters);
result.deadCodeElimOptions.useFastAnalysis = result.minimalOptimization;
return result;
}
// Run a combination of SSA, SCCP, SimplifyCFG, and DeadCodeElimination pass
// until no more changes are possible.
void simplifyIR(
TargetProgram* target,
IRModule* module,
IRSimplificationOptions options,
DiagnosticSink* sink)
{
SLANG_PROFILE;
bool changed = true;
const int kMaxIterations = 8;
const int kMaxFuncIterations = 16;
int iterationCounter = 0;
while (changed && iterationCounter < kMaxIterations)
{
if (sink && sink->getErrorCount())
break;
changed = false;
changed |= deduplicateGenericChildren(module);
changed |= propagateFuncProperties(module);
changed |= removeUnusedGenericParam(module);
changed |= applySparseConditionalConstantPropagationForGlobalScope(module, sink);
changed |= peepholeOptimizeGlobalScope(target, module);
changed |= trimOptimizableTypes(module);
for (auto inst : module->getGlobalInsts())
{
auto func = as<IRGlobalValueWithCode>(inst);
if (!func)
continue;
bool funcChanged = true;
int funcIterationCount = 0;
while (funcChanged && funcIterationCount < kMaxFuncIterations)
{
eliminateDeadCode(func, options.deadCodeElimOptions);
funcChanged = false;
funcChanged |= applySparseConditionalConstantPropagation(func, sink);
funcChanged |= peepholeOptimize(target, func);
if (options.removeRedundancy)
funcChanged |= removeRedundancyInFunc(func, options.hoistLoopInvariantInsts);
funcChanged |= simplifyCFG(func, options.cfgOptions);
// Note: we disregard the `changed` state from dead code elimination pass since
// SCCP pass could be generating temporarily evaluated constant values and never
// actually use them. DCE will always remove those nearly generated consts and
// always returns true here. Run eliminate-dead-code twice to ensure optimizations
// are applied on the dce'd code.
//
eliminateDeadCode(func, options.deadCodeElimOptions);
if (funcIterationCount == 0)
funcChanged |= constructSSA(func);
changed |= funcChanged;
funcIterationCount++;
}
}
iterationCounter++;
}
eliminateDeadCode(module, options.deadCodeElimOptions);
}
void simplifyNonSSAIR(TargetProgram* target, IRModule* module, IRSimplificationOptions options)
{
bool changed = true;
const int kMaxIterations = 8;
int iterationCounter = 0;
while (changed && iterationCounter < kMaxIterations)
{
changed = false;
changed |= peepholeOptimize(target, module, options.peepholeOptions);
if (!options.minimalOptimization)
changed |= removeRedundancy(module, options.hoistLoopInvariantInsts);
changed |= simplifyCFG(module, options.cfgOptions);
// Note: we disregard the `changed` state from dead code elimination pass since
// SCCP pass could be generating temporarily evaluated constant values and never actually
// use them. DCE will always remove those nearly generated consts and always returns true
// here.
eliminateDeadCode(module, options.deadCodeElimOptions);
iterationCounter++;
}
}
void simplifyFunc(
TargetProgram* target,
IRGlobalValueWithCode* func,
IRSimplificationOptions options,
DiagnosticSink* sink)
{
bool changed = true;
const int kMaxIterations = 8;
int iterationCounter = 0;
while (changed && iterationCounter < kMaxIterations)
{
if (sink && sink->getErrorCount())
break;
changed = false;
changed |= applySparseConditionalConstantPropagation(func, sink);
changed |= peepholeOptimize(target, func);
if (!options.minimalOptimization)
changed |= removeRedundancyInFunc(func, options.hoistLoopInvariantInsts);
changed |= simplifyCFG(func, options.cfgOptions);
// Note: we disregard the `changed` state from dead code elimination pass since
// SCCP pass could be generating temporarily evaluated constant values and never actually
// use them. DCE will always remove those nearly generated consts and always returns true
// here.
eliminateDeadCode(func, options.deadCodeElimOptions);
changed |= constructSSA(func);
iterationCounter++;
}
}
} // namespace Slang
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