| name | llvm |
| description | LLVM IR and pass pipeline skill. Use when working directly with LLVM Intermediate Representation (IR), running opt passes, generating IR with llc, inspecting or writing LLVM IR for custom passes, or understanding how the LLVM backend lowers IR to assembly. Activates on queries about LLVM IR, opt, llc, llvm-dis, LLVM passes, IR transformations, or building LLVM-based tools. |
LLVM IR and Tooling
Purpose
Guide agents through the LLVM IR pipeline: generating IR, running optimisation passes with opt, lowering to assembly with llc, and inspecting IR for debugging or performance work.
Triggers
- "Show me the LLVM IR for this function"
- "How do I run an LLVM optimisation pass?"
- "What does this LLVM IR instruction mean?"
- "How do I write a custom LLVM pass?"
- "Why isn't auto-vectorisation happening in LLVM?"
Workflow
1. Generate LLVM IR
clang -O0 -emit-llvm -S src.c -o src.ll
clang -O2 -emit-llvm -c src.c -o src.bc
llvm-dis src.bc -o src.ll
2. Run optimisation passes with opt
opt -passes='mem2reg,instcombine,simplifycfg' src.ll -S -o out.ll
opt -passes='default<O2>' src.ll -S -o out.ll
opt -passes='default<O3>' src.ll -S -o out.ll
opt --print-passes 2>&1 | less
opt -passes='instcombine' --print-before=instcombine --print-after=instcombine src.ll -S -o out.ll 2>&1 | less
3. Lower IR to assembly with llc
llc -filetype=obj src.ll -o src.o
llc -filetype=asm -masm-syntax=intel src.ll -o src.s
llc -mcpu=skylake -mattr=+avx2 src.ll -o src.s
llc --version
4. Inspect IR
Key IR constructs to understand:
| Construct | Meaning |
|---|
alloca | Stack allocation (pre-SSA; mem2reg promotes to registers) |
load/store | Memory access |
getelementptr (GEP) | Pointer arithmetic / field access |
phi | SSA φ-node: merges values from predecessor blocks |
call/invoke | Function call (invoke has exception edges) |
icmp/fcmp | Integer/float comparison |
br | Branch (conditional or unconditional) |
ret | Return |
bitcast | Reinterpret bits (no-op in codegen) |
ptrtoint/inttoptr | Pointer↔integer (avoid where possible) |
5. Key passes
| Pass | Effect |
|---|
mem2reg | Promote alloca to SSA registers |
instcombine | Instruction combining / peephole |
simplifycfg | CFG cleanup, dead block removal |
loop-vectorize | Auto-vectorisation |
slp-vectorize | Superword-level parallelism (straight-line vectorisation) |
inline | Function inlining |
gvn | Global value numbering (common subexpression elimination) |
licm | Loop-invariant code motion |
loop-unroll | Loop unrolling |
argpromotion | Promote pointer args to values |
sroa | Scalar Replacement of Aggregates |
6. Debugging missed optimisations
clang -O2 -Rpass-missed=loop-vectorize -Rpass-analysis=loop-vectorize src.c
clang -O2 -mllvm -debug-pass=Structure src.c -o /dev/null 2>&1 | less
opt -passes='default<O2>' -print-after-all src.ll -S 2>&1 | less
7. Useful llvm tools
| Tool | Purpose |
|---|
llvm-dis | Bitcode → textual IR |
llvm-as | Textual IR → bitcode |
llvm-link | Link multiple bitcode files |
llvm-lto | Standalone LTO |
llvm-nm | Symbols in bitcode/object |
llvm-objdump | Disassemble objects |
llvm-profdata | Merge/show PGO profiles |
llvm-cov | Coverage reporting |
llvm-mca | Machine code analyser (throughput/latency) |
For binutils equivalents, see skills/binaries/binutils.
Related skills
- Use
skills/compilers/clang for source-level Clang flags
- Use
skills/binaries/linkers-lto for LTO at link time
- Use
skills/profilers/linux-perf combined with llvm-mca for micro-architectural analysis