llvm-optimization
Expertise in LLVM optimization passes, performance tuning, and code transformation techniques. Use this skill when implementing custom optimizations, analyzing pass behavior, improving generated code quality, or understanding LLVM's optimization pipeline.
Install
mkdir -p .claude/skills/llvm-optimization && curl -L -o skill.zip "https://mcp.directory/api/skills/download/2428" && unzip -o skill.zip -d .claude/skills/llvm-optimization && rm skill.zipInstalls to .claude/skills/llvm-optimization
About this skill
LLVM Optimization Skill
This skill covers LLVM optimization infrastructure, pass development, and performance tuning techniques.
Optimization Pipeline Overview
Pipeline Stages
Source → Frontend → LLVM IR → Optimization Passes → CodeGen → Machine Code
↓
[Transform Passes]
[Analysis Passes]
Optimization Levels
# No optimization
clang -O0 source.c
# Basic optimization (most optimizations enabled)
clang -O1 source.c
# Full optimization (aggressive inlining, vectorization)
clang -O2 source.c
# Maximum optimization (may increase code size)
clang -O3 source.c
# Size optimization
clang -Os source.c # Optimize for size
clang -Oz source.c # Aggressive size optimization
Core Optimization Passes
Scalar Optimizations
- Constant Propagation: Replace variables with known constant values
- Dead Code Elimination (DCE): Remove unreachable or unused code
- Common Subexpression Elimination (CSE): Avoid redundant computations
- Instruction Combining: Merge multiple instructions into simpler forms
- Scalar Replacement of Aggregates (SROA): Break up aggregate allocations
Loop Optimizations
- Loop Invariant Code Motion (LICM): Hoist invariant computations
- Loop Unrolling: Duplicate loop body to reduce overhead
- Loop Vectorization: Convert scalar loops to vector operations
- Loop Fusion/Fission: Combine or split loops
- Induction Variable Simplification: Optimize loop counters
Interprocedural Optimizations
- Inlining: Replace call sites with function body
- Dead Argument Elimination: Remove unused function parameters
- Interprocedural Constant Propagation: Propagate constants across functions
- Link-Time Optimization (LTO): Whole-program optimization
Writing Custom Optimization Passes
New Pass Manager (LLVM 13+)
#include "llvm/IR/PassManager.h"
#include "llvm/Passes/PassBuilder.h"
#include "llvm/Passes/PassPlugin.h"
struct MyOptimizationPass : public llvm::PassInfoMixin<MyOptimizationPass> {
llvm::PreservedAnalyses run(llvm::Function &F,
llvm::FunctionAnalysisManager &FAM) {
bool Changed = false;
for (auto &BB : F) {
for (auto &I : BB) {
// Implement optimization logic
if (optimizeInstruction(I)) {
Changed = true;
}
}
}
if (Changed)
return llvm::PreservedAnalyses::none();
return llvm::PreservedAnalyses::all();
}
private:
bool optimizeInstruction(llvm::Instruction &I) {
// Example: Replace add x, 0 with x
if (auto *BinOp = llvm::dyn_cast<llvm::BinaryOperator>(&I)) {
if (BinOp->getOpcode() == llvm::Instruction::Add) {
if (auto *C = llvm::dyn_cast<llvm::ConstantInt>(BinOp->getOperand(1))) {
if (C->isZero()) {
I.replaceAllUsesWith(BinOp->getOperand(0));
return true;
}
}
}
}
return false;
}
};
// Plugin registration
extern "C" LLVM_ATTRIBUTE_WEAK ::llvm::PassPluginLibraryInfo
llvmGetPassPluginInfo() {
return {LLVM_PLUGIN_API_VERSION, "MyOptPass", LLVM_VERSION_STRING,
[](llvm::PassBuilder &PB) {
PB.registerPipelineParsingCallback(
[](llvm::StringRef Name, llvm::FunctionPassManager &FPM,
llvm::ArrayRef<llvm::PassBuilder::PipelineElement>) {
if (Name == "my-opt") {
FPM.addPass(MyOptimizationPass());
return true;
}
return false;
});
}};
}
Analysis Dependencies
struct MyAnalysis : public llvm::AnalysisInfoMixin<MyAnalysis> {
using Result = MyAnalysisResult;
Result run(llvm::Function &F, llvm::FunctionAnalysisManager &FAM) {
// Compute analysis result
return Result();
}
static llvm::AnalysisKey Key;
};
// Using analysis in a pass
llvm::PreservedAnalyses run(llvm::Function &F,
llvm::FunctionAnalysisManager &FAM) {
auto &DT = FAM.getResult<llvm::DominatorTreeAnalysis>(F);
auto &LI = FAM.getResult<llvm::LoopAnalysis>(F);
auto &AA = FAM.getResult<llvm::AAManager>(F);
// Use analysis results...
}
Instruction Patterns
Strength Reduction
// Replace expensive operations with cheaper ones
// x * 2 → x << 1
// x / 4 → x >> 2
// x % 8 → x & 7
bool reduceStrength(llvm::BinaryOperator *BO) {
if (BO->getOpcode() == llvm::Instruction::Mul) {
if (auto *C = llvm::dyn_cast<llvm::ConstantInt>(BO->getOperand(1))) {
if (C->getValue().isPowerOf2()) {
unsigned Shift = C->getValue().exactLogBase2();
auto *Shl = llvm::BinaryOperator::CreateShl(
BO->getOperand(0),
llvm::ConstantInt::get(C->getType(), Shift));
BO->replaceAllUsesWith(Shl);
return true;
}
}
}
return false;
}
Algebraic Simplification
// x + 0 → x
// x * 1 → x
// x * 0 → 0
// x - x → 0
// x | x → x
// x & 0 → 0
Dominator Tree Usage
Finding Optimization Opportunities
void optimizeWithDominators(llvm::Function &F,
llvm::DominatorTree &DT) {
// Use dominance for safe code motion
for (auto &BB : F) {
for (auto &I : BB) {
if (auto *Load = llvm::dyn_cast<llvm::LoadInst>(&I)) {
// Check if we can hoist this load
if (canHoist(Load, DT)) {
hoistInstruction(Load, DT);
}
}
}
}
}
bool canHoist(llvm::Instruction *I, llvm::DominatorTree &DT) {
llvm::BasicBlock *DefBB = I->getParent();
// Check all uses are dominated
for (auto *U : I->users()) {
if (auto *UI = llvm::dyn_cast<llvm::Instruction>(U)) {
if (!DT.dominates(DefBB, UI->getParent())) {
return false;
}
}
}
return true;
}
Loop Optimization Techniques
Loop Analysis
void analyzeLoops(llvm::Function &F, llvm::LoopInfo &LI) {
for (auto *L : LI) {
// Get loop trip count
if (auto *TC = L->getTripCount()) {
llvm::errs() << "Trip count: " << *TC << "\n";
}
// Check if loop is simple
if (L->isLoopSimplifyForm()) {
llvm::BasicBlock *Header = L->getHeader();
llvm::BasicBlock *Latch = L->getLoopLatch();
llvm::BasicBlock *Exit = L->getExitBlock();
}
// Get induction variables
llvm::PHINode *IV = L->getCanonicalInductionVariable();
}
}
Loop Unrolling
// Manually trigger loop unrolling
#pragma unroll 4
for (int i = 0; i < N; i++) {
// Loop body will be unrolled 4x
}
// LLVM unroll metadata
!llvm.loop.unroll.count = !{i32 4}
Vectorization
Auto-Vectorization Hints
// Enable vectorization
#pragma clang loop vectorize(enable)
for (int i = 0; i < N; i++) {
a[i] = b[i] + c[i];
}
// Specify vector width
#pragma clang loop vectorize_width(8)
for (int i = 0; i < N; i++) {
a[i] = b[i] * c[i];
}
SLP Vectorization
Superword Level Parallelism - vectorize straight-line code:
// Before SLP
a[0] = b[0] + c[0];
a[1] = b[1] + c[1];
a[2] = b[2] + c[2];
a[3] = b[3] + c[3];
// After SLP (conceptual)
<4 x float> tmp = load <4 x float> b
<4 x float> tmp2 = load <4 x float> c
<4 x float> result = fadd tmp, tmp2
store result to a
Debugging Optimizations
Viewing Pass Execution
# Print passes being run
opt -debug-pass-manager input.ll -O2
# Print IR after each pass
opt -print-after-all input.ll -O2
# Print specific pass output
opt -print-after=instcombine input.ll -O2
# Statistics
opt -stats input.ll -O2
Optimization Remarks
# Enable all optimization remarks
clang -Rpass=.* source.c
# Specific remarks
clang -Rpass=loop-vectorize source.c
clang -Rpass-missed=inline source.c
clang -Rpass-analysis=loop-vectorize source.c
Link-Time Optimization (LTO)
Enabling LTO
# Full LTO
clang -flto source1.c source2.c -o program
# Thin LTO (faster, parallel)
clang -flto=thin source1.c source2.c -o program
LTO Benefits
- Whole-program dead code elimination
- Interprocedural constant propagation
- Cross-module inlining
- Better devirtualization
Correctness Verification
Alive2
Automatic verification of LLVM optimizations:
# Verify transformation correctness
alive-tv before.ll after.ll
# Check specific optimization
opt -instcombine input.ll | alive-tv input.ll -
Resources
See Optimization section in README.md for specific commits and optimization-related projects.
Getting Detailed Information
When you need detailed and up-to-date resource links, tool lists, or project references, fetch the latest data from:
https://raw.githubusercontent.com/gmh5225/awesome-llvm-security/refs/heads/main/README.md
This README contains comprehensive curated lists of:
- LLVM optimization commits and patches (Optimization section)
- Alive2 and verification tools
- Optimization courses and tutorials (CSCD70)
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