Metadata-Version: 2.4
Name: paperpipe
Version: 1.10.1
Summary: Unified paper database for coding agents + PaperQA2
Project-URL: Homepage, https://github.com/hummat/paperpipe
Project-URL: Documentation, https://github.com/hummat/paperpipe#readme
Project-URL: Repository, https://github.com/hummat/paperpipe
Author: Matthias Humt
License-Expression: MIT
License-File: LICENSE
Keywords: arxiv,coding-agent,llm,paperqa,papers,research
Classifier: Development Status :: 3 - Alpha
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Science/Research
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Requires-Python: >=3.10
Requires-Dist: arxiv>=2.0.0
Requires-Dist: click>=8.0.0
Requires-Dist: requests>=2.28.0
Requires-Dist: tomli>=2.0.0; python_version < '3.11'
Provides-Extra: all
Requires-Dist: bibtexparser>=1.4.0; extra == 'all'
Requires-Dist: leann-backend-hnsw>=0.3.5; extra == 'all'
Requires-Dist: leann-core>=0.3.5; extra == 'all'
Requires-Dist: litellm>=1.0.0; extra == 'all'
Requires-Dist: mcp>=1.0.0; (python_version >= '3.11') and extra == 'all'
Requires-Dist: paper-qa>=5.0.0; (python_version >= '3.11') and extra == 'all'
Requires-Dist: paper-qa[docling,image,ldp,local,memory,nemotron,office,openreview,pymupdf,pypdf-enhanced,pypdf-media,qdrant,zotero]>=5.0.0; (python_version >= '3.11') and extra == 'all'
Requires-Dist: pymupdf4llm; extra == 'all'
Requires-Dist: pymupdf>=1.24.0; extra == 'all'
Provides-Extra: bibtex
Requires-Dist: bibtexparser>=1.4.0; extra == 'bibtex'
Provides-Extra: dev
Requires-Dist: bibtexparser>=1.4.0; extra == 'dev'
Requires-Dist: build>=1.0.0; extra == 'dev'
Requires-Dist: pymupdf>=1.24.0; extra == 'dev'
Requires-Dist: pyright>=1.1.385; extra == 'dev'
Requires-Dist: pytest-cov>=7.0.0; extra == 'dev'
Requires-Dist: ruff>=0.1.0; extra == 'dev'
Requires-Dist: twine>=5.0.0; extra == 'dev'
Provides-Extra: figures
Requires-Dist: pymupdf>=1.24.0; extra == 'figures'
Provides-Extra: leann
Requires-Dist: leann-backend-hnsw>=0.3.5; extra == 'leann'
Requires-Dist: leann-core>=0.3.5; extra == 'leann'
Provides-Extra: llm
Requires-Dist: litellm>=1.0.0; extra == 'llm'
Provides-Extra: mcp
Requires-Dist: mcp>=1.0.0; (python_version >= '3.11') and extra == 'mcp'
Requires-Dist: paper-qa>=5.0.0; (python_version >= '3.11') and extra == 'mcp'
Provides-Extra: paperqa
Requires-Dist: paper-qa[docling,image,ldp,local,memory,nemotron,office,openreview,pymupdf,pypdf-enhanced,pypdf-media,qdrant,zotero]>=5.0.0; (python_version >= '3.11') and extra == 'paperqa'
Requires-Dist: pymupdf4llm; extra == 'paperqa'
Description-Content-Type: text/markdown

# paperpipe

![image](https://repository-images.githubusercontent.com/1120503046/8ba4e2ed-30ef-4d0d-996f-68a48962cb9b)

**The problem:** You're implementing a paper. You need the exact equations, want to verify your code matches the math, and your coding agent keeps hallucinating details. Reading PDFs is slow; copy-pasting LaTeX is tedious.

**The solution:** paperpipe maintains a local paper database with PDFs, LaTeX source (when available), extracted equations, and coding-oriented summaries. It integrates with coding agents (Claude Code, Codex, Gemini CLI) so they can ground their responses in actual paper content.

## Typical workflow

```bash
# 1. Add papers you're implementing (multiple at once, mixed sources OK)
papi add 2303.08813 1706.03762 "Attention Is All You Need"

# Or one at a time
papi add 2303.08813                    # LoRA paper
papi add https://arxiv.org/abs/1706.03762  # URL
papi add "Attention Is All You Need"   # Search by title

# 2. Check what equations you need to implement
papi show lora --level eq             # prints equations to stdout

# 3. Verify your code matches the paper
#    (or let your coding agent do this via the /papi skill)
papi show lora --level tex            # exact LaTeX definitions

# 4. Ask cross-paper questions (requires RAG backend)
papi ask "How does LoRA differ from full fine-tuning in terms of parameter count?"

# 5. Keep implementation notes
papi notes lora                       # opens notes.md in $EDITOR
```

## Installation

```bash
# Basic (uv recommended)
uv tool install paperpipe

# With features
uv tool install paperpipe --with "paperpipe[llm]"      # better summaries via LLMs
uv tool install paperpipe --with "paperpipe[paperqa]"  # RAG via PaperQA2
uv tool install paperpipe --with "paperpipe[leann]"    # local RAG via LEANN
uv tool install paperpipe --with "paperpipe[figures]"  # figure extraction from LaTeX/PDF
uv tool install paperpipe --with "paperpipe[mcp]"      # MCP server integrations (Python 3.11+)
uv tool install paperpipe --with "paperpipe[all]"      # everything
```

<details markdown="1">
<summary>Alternative: pip install</summary>

```bash
pip install paperpipe
pip install 'paperpipe[llm]'
pip install 'paperpipe[paperqa]'  # PaperQA2 + multimodal PDF parsing
pip install 'paperpipe[leann]'
pip install 'paperpipe[figures]'        # figure extraction from LaTeX/PDF
pip install 'paperpipe[mcp]'
pip install 'paperpipe[all]'
```
</details>

<details markdown="1">
<summary>From source</summary>

```bash
git clone https://github.com/hummat/paperpipe && cd paperpipe
pip install -e ".[all]"
```
</details>

## What paperpipe stores

```
~/.paperpipe/                         # override with PAPER_DB_PATH
├── index.json
├── .pqa_papers/                      # staged PDFs for RAG (created on first `papi ask`)
├── .pqa_index/                       # PaperQA2 index cache
├── .leann/                           # LEANN index cache
├── papers/
│   └── lora/
│       ├── paper.pdf                 # for RAG backends
│       ├── source.tex                # full LaTeX (if available from arXiv)
│       ├── equations.md              # extracted equations with context
│       ├── summary.md                # coding-oriented summary
│       ├── tldr.md                   # one-paragraph TL;DR
│       ├── meta.json                 # metadata + tags
│       ├── notes.md                  # your implementation notes
│       └── figures/                  # extracted figures (if available)
│           ├── figure1.png
│           └── figure2.pdf
```

**Why this structure matters:**
- `equations.md` — Key equations with variable definitions. Use for code verification.
- `source.tex` — Original LaTeX. Use when you need exact notation or the equation extraction missed something.
- `summary.md` — High-level overview focused on implementation (not literature review). Use for understanding the approach.
- `tldr.md` — Quick 2-3 sentence overview of the paper's contribution.
- `figures/` — Architecture diagrams, network structures, and result plots extracted from LaTeX source or PDF.
- `.pqa_papers/` — Staged PDFs only (no markdown) so RAG backends don't index generated content.

## Core commands

| Command | Purpose |
|---------|---------|
| `papi add <id-or-url-or-title>...` | Add one or more papers (downloads PDF + LaTeX, generates summary/equations/TL;DR) |
| `papi add --pdf file.pdf` | Add a local PDF or URL |
| `papi add --from-file list.json` | Import papers from a JSON list or text file |
| `papi list` | List papers (filter with `--tag`) |
| `papi search "query"` | Search across titles, tags, summaries, equations (`--rg` for grep-style, `-p paper1,paper2` to limit scope) |
| `papi index --backend search` | Build/update ranked search index (`search.db`) |
| `papi show <paper> --level eq` | Print equations (best for agent sessions) |
| `papi show <paper> --level tex` | Print LaTeX source |
| `papi show <paper> --level summary` | Print summary |
| `papi show <paper> --level tldr` | Print TL;DR |
| `papi export <papers...> --to ./dir` | Export context files into a repo (`--level summary\|equations\|full`) |
| `papi notes <paper>` | Open/print implementation notes |
| `papi regenerate <papers...>` | Regenerate summary/equations/tags/TL;DR |
| `papi remove <papers...>` | Remove papers |
| `papi ask "question"` | Cross-paper RAG query (requires PaperQA2 or LEANN) |
| `papi index` | Build/update the retrieval index |
| `papi tags` | List all tags (`--audit` to find duplicates, `--merge OLD NEW`, `--delete TAG`) |
| `papi path` | Print database location |
| `papi docs` | Print agent integration snippet (for CLAUDE.md/AGENTS.md) |
| `papi rebuild-index` | Rebuild index.json from on-disk paper directories (recovery) |

Run `papi --help` or `papi <command> --help` for full options.

## Import/Export

Share your paper collection with others or back it up.

**Export:**
```bash
# Export full list to JSON
papi list --json > my_papers.json

# Export specific tag
papi list --tag "computer-vision" --json > cv_papers.json
```

**Import:**
```bash
# Import from JSON (preserves custom names and tags)
papi add --from-file my_papers.json

# Import from text file (one arXiv ID per line)
papi add --from-file paper_ids.txt --tags "imported"

# Import from BibTeX file (requires bibtexparser)
papi add --from-file papers.bib
# or install with BibTeX support:
# uv tool install paperpipe --with "paperpipe[bibtex]"
```

**Title Search:**
```bash
# Add papers by title (auto-selects if high confidence match)
papi add "Attention Is All You Need"
papi add "NeRF: Representing Scenes as Neural Radiance Fields"
```

**Semantic Scholar Support:**
```bash
# Add papers from Semantic Scholar
papi add https://www.semanticscholar.org/paper/...
papi add 0123456789abcdef0123456789abcdef01234567  # S2 paper ID
```

**Multiple papers at once** (mixed sources OK):
```bash
papi add 2303.08813 1706.03762 "Attention Is All You Need"
papi add 2303.08813 https://www.semanticscholar.org/paper/... "NeRF"
```

Exact text search (fast, no LLM required):

```bash
papi search --rg "AdamW"              # case-insensitive, literal string (default)
papi search --rg --case-sensitive "NeRF"  # match exact case
papi search --rg --regex "Eq\\. [0-9]+"   # regex mode (opt-in)
```

Ranked search (BM25 via SQLite FTS5, no LLM required):

```bash
papi index --backend search --search-rebuild    # builds <paper_db>/search.db
papi search "surface reconstruction"             # uses FTS if available (default)
papi search --no-fts "surface reconstruction"    # force in-memory scan (disables FTS, uses fuzzy matching)
papi search --no-fts --exact "exact phrase"      # force scan with exact matching only
```

Hybrid ranked+exact search:

```bash
papi search --hybrid "surface reconstruction"
papi search --hybrid --show-grep-hits "surface reconstruction"
```

Limit search to specific papers:

```bash
papi search "attention" -p attention-is-all-you-need
papi search "loss" -p paper1,paper2,paper3
```

### What are FTS and BM25?

- **FTS** = *Full-Text Search*. Here it means SQLite’s FTS5 extension, which builds an inverted index so searches don’t
  have to rescan every file on every query.
- **BM25** = *Okapi BM25*, a standard relevance-ranking function used by many search engines. It ranks results based on
  term frequency, inverse document frequency, and document length normalization.

References (external):
```text
https://sqlite.org/fts5.html
https://en.wikipedia.org/wiki/Okapi_BM25
```

<details markdown="1">
<summary>Glossary (RAG, embeddings, MCP, LiteLLM)</summary>

- **RAG** = retrieval‑augmented generation: retrieve relevant paper passages first, then generate an answer grounded in
  those passages.
- **Embedding model** = turns text into vectors for semantic search; changing it usually requires rebuilding an index.
- **LiteLLM model id** = the model string you pass to LiteLLM (provider/model routing), e.g. `gpt-4o`, `gemini/...`,
  `ollama/...`.
- **MCP** = Model Context Protocol: lets tools/agents call into paperpipe’s retrieval helpers (e.g. “retrieve chunks”)
  without copying PDFs into the chat.
- **Staging dir** (`.pqa_papers/`) = PDF-only mirror used so RAG backends don’t index generated Markdown.

</details>

<details markdown="1">
<summary>Config: default search mode</summary>

Set a default for `papi search` (CLI flags still win):

```bash
export PAPERPIPE_SEARCH_MODE=auto   # auto|fts|scan|hybrid
```

Or in `config.toml`:

```toml
[search]
mode = "auto" # auto|fts|scan|hybrid
```

</details>

## Agent integration

paperpipe is designed to work with coding agents. Install the skill and MCP servers:

```bash
papi install                          # installs skill + MCP for detected CLIs
# or be specific:
papi install skill --claude --codex --gemini
papi install mcp --claude --codex --gemini
```

After installation, your agent can:
- Use `/papi` to get paper context (skill)
- Call MCP tools like `retrieve_chunks` for RAG retrieval
- Verify code against paper equations

### Custom skills

| Skill | Description |
|--------|-------------|
| `/papi` | Route questions to the cheapest papi command |
| `/papi-init` | Add/update PaperPipe integration in your project's AGENTS.md/CLAUDE.md |
| `/verify-with-paper` | Verify code against paper equations |
| `/ground-with-paper` | Ground responses in paper excerpts |
| `/compare-papers` | Compare multiple papers for a decision |
| `/curate-paper-note` | Create a project note from paper excerpts |

For a ready-to-paste snippet for your repo's agent instructions, run `papi docs` or see [AGENT_INTEGRATION.md](AGENT_INTEGRATION.md).

### What the agent sees

When you (or your agent) run `papi show <paper> --level eq`, you get structured output like:

```markdown
## Equation 1: LoRA Update
$$h = W_0 x + \Delta W x = W_0 x + BA x$$
where:
- $W_0 \in \mathbb{R}^{d \times k}$: pretrained weight matrix (frozen)
- $B \in \mathbb{R}^{d \times r}$, $A \in \mathbb{R}^{r \times k}$: low-rank matrices
- $r \ll \min(d, k)$: the rank (typically 1-64)
```

This is what makes verification possible — the agent can compare your code symbol-by-symbol.

<details markdown="1">
<summary>MCP server setup (manual)</summary>

### MCP servers

paperpipe provides MCP servers for retrieval-only workflows:
- **PaperQA2 retrieval**: raw chunks + citations (via `paperqa_mcp`)
- **LEANN search**: fast semantic search over papers (via `leann_mcp`)

MCP servers are configured automatically when you run `papi install mcp`. The install command creates the appropriate configuration files for your agent (Claude Code, Codex CLI, or Gemini CLI).

**Installation**:
```bash
# Install MCP servers for all supported agents (user scope)
papi install mcp

# Install for specific agents
papi install mcp --claude
papi install mcp --codex
papi install mcp --gemini

# Install repo-local MCP configs (Claude + Gemini) and Codex globally
papi install mcp --repo

# Customize embedding model
papi install mcp --embedding text-embedding-3-small
```

The MCP servers are automatically launched by your agent when needed. You don't need to manually start them.

### MCP environment variables

| Variable | Default | Description |
|----------|---------|-------------|
| `PAPERPIPE_PQA_INDEX_DIR` | `~/.paperpipe/.pqa_index` | Root directory for PaperQA2 indices |
| `PAPERPIPE_PQA_INDEX_NAME` | `paperpipe_<embedding>` | Index name (subfolder under index dir) |
| `PAPERQA_EMBEDDING` | (from config) | Embedding model (must match index for PaperQA2) |

### MCP tools

| Tool | Backend | Description |
|------|---------|-------------|
| `retrieve_chunks` | PaperQA2 | Retrieve raw chunks + citations (no LLM answering) |
| `list_pqa_indexes` | PaperQA2 | List available PaperQA2 indices with embedding model metadata |
| `get_pqa_index_status` | PaperQA2 | Show index stats (files, failures) |
| `leann_search` | LEANN | Semantic search over papers (faster, simpler output) |
| `leann_list` | LEANN | List available LEANN indexes |

### MCP usage

1. Build indexes: `papi index --backend pqa --pqa-embedding text-embedding-3-small`
2. In your agent: `leann_search()` (fast) or `retrieve_chunks()` (with citations)
3. For PaperQA2: embedding model is **automatically inferred** from index metadata (or index name for backward compatibility)

</details>

## RAG backends (`papi ask`)

paperpipe supports two RAG backends for cross-paper questions:

| Backend | Install | Best for |
|---------|---------|----------|
| [PaperQA2](https://github.com/Future-House/paper-qa) | `paperpipe[paperqa]` | Agentic synthesis with citations (cloud LLMs) |
| [LEANN](https://github.com/yichuan-w/LEANN) | `paperpipe[leann]` | Local retrieval (Ollama) |

```bash
# PaperQA2 (default if installed)
papi ask "What regularization techniques do these papers use?"

# LEANN (local)
papi ask "..." --backend leann
```

The first query builds an index (cached under `.pqa_index/` or `.leann/`). Use `papi index` to pre-build.

<details markdown="1">
<summary>PaperQA2 configuration</summary>

### Common options

| Flag | Description |
|------|-------------|
| `--pqa-llm MODEL` | LLM for answer generation (LiteLLM id) |
| `--pqa-summary-llm MODEL` | LLM for evidence summarization (often cheaper) |
| `--pqa-agent-llm MODEL` | LLM that drives the search agent (defaults to `--pqa-llm`) |
| `--pqa-embedding MODEL` | Embedding model for text chunks |
| `--pqa-temperature FLOAT` | LLM temperature (0.0-1.0) |
| `--pqa-verbosity INT` | Logging level (0-3; 3 = log all LLM calls) |
| `--pqa-agent-type TEXT` | Agent type (e.g., `fake` for deterministic low-token retrieval) |
| `--pqa-answer-length TEXT` | Target answer length (e.g., "about 200 words") |
| `--pqa-evidence-k INT` | Number of evidence pieces to retrieve (default: 10) |
| `--pqa-max-sources INT` | Max sources to cite in answer (default: 5) |
| `--pqa-timeout FLOAT` | Agent timeout in seconds (default: 500) |
| `--pqa-concurrency INT` | Indexing concurrency (default: 1) |
| `--pqa-rebuild-index` | Force full index rebuild |
| `--pqa-retry-failed` | Retry previously failed documents |
| `--format evidence-blocks` | Output JSON with `{answer, evidence[]}` (requires PaperQA2 Python package) |
| `--pqa-raw` | Show raw PaperQA2 output (streaming logs + answer); disables `papi ask` output filtering (also enabled by global `-v/--verbose`) |

Any additional arguments are passed through to `pqa` (e.g., `--agent.search_count 10`).

### Model combinations

<details markdown="1">
<summary><strong>Model combination examples</strong></summary>

**Indexing:**

```bash
# API keys should be in env
export OPENAI_API_KEY=...
export ANTHROPIC_API_KEY=...
export GEMINI_API_KEY=...
export VOYAGE_API_KEY=...
export OPENROUTER_API_KEY=...

# Ollama (local) + Ollama embeddings
papi index --backend pqa --pqa-llm ollama/olmo-3:7b --pqa-embedding ollama/nomic-embed-text

# GPT + OpenAI Embeddings
papi index --backend pqa --pqa-llm gpt-4.1 --pqa-summary-llm gpt-4.1-mini --pqa-embedding text-embedding-3-small

# Gemini + Google Embeddings
papi index --backend pqa --pqa-llm gemini/gemini-3-flash-preview --pqa-embedding gemini/gemini-embedding-001

# Claude + Voyage Embeddings
papi index --backend pqa --pqa-llm claude-sonnet-4-5 --pqa-summary-llm claude-haiku-4-5 --pqa-embedding voyage/voyage-4

# OpenRouter + Voyage Embeddings
papi index --backend pqa --pqa-llm openrouter/google/gemini-3.5-flash --pqa-embedding voyage/voyage-4
```

**Asking:**

```bash
# Ollama (local)
papi ask "how is neus different from nerf?" --backend pqa --pqa-llm ollama/olmo-3:7b --pqa-embedding ollama/nomic-embed-text

# GPT
papi ask "how is neus different from nerf?" --backend pqa --pqa-llm gpt-4.1 --pqa-summary-llm gpt-4.1-mini --pqa-embedding text-embedding-3-small

# Gemini
papi ask "how is neus different from nerf?" --backend pqa --pqa-llm gemini/gemini-3-flash-preview --pqa-embedding gemini/gemini-embedding-001

# Claude
papi ask "how is neus different from nerf?" --backend pqa --pqa-llm claude-sonnet-4-5 --pqa-summary-llm claude-haiku-4-5 --pqa-embedding voyage/voyage-4

# OpenRouter
papi ask "how is neus different from nerf?" --backend pqa --pqa-llm openrouter/google/gemini-3.5-flash --pqa-embedding voyage/voyage-4
```

</details>

<details markdown="1">
<summary><strong>Embedding provider examples (indexing)</strong></summary>

#### OpenAI

```bash
export OPENAI_API_KEY=...
papi index --backend pqa --pqa-embedding text-embedding-3-small
```

#### Gemini (native LiteLLM id)

```bash
export GEMINI_API_KEY=...
papi index --backend pqa --pqa-embedding gemini/gemini-embedding-001
```

#### Voyage (native LiteLLM id)

```bash
export VOYAGE_API_KEY=...
papi index --backend pqa --pqa-embedding voyage/voyage-4
```

#### OpenAI-compatible endpoints (advanced)

If you want to hit an OpenAI-compatible endpoint directly (instead of a native LiteLLM provider id), set
`OPENAI_API_BASE` and `OPENAI_API_KEY` and use an `openai/...` embedding id.

```bash
export OPENAI_API_BASE=https://api.voyageai.com/v1
export OPENAI_API_KEY="$VOYAGE_API_KEY"
papi index --backend pqa --pqa-embedding openai/voyage-4
```

</details>

### Index/caching notes

- First run builds an index under `<paper_db>/.pqa_index/` and stages PDFs under `<paper_db>/.pqa_papers/`.
- Override index location with `PAPERPIPE_PQA_INDEX_DIR`.
- If you indexed wrong content (or changed embeddings), delete `.pqa_index/` to force rebuild.
- If PDFs failed indexing (recorded as `ERROR`), re-run with `--pqa-retry-failed` or `--pqa-rebuild-index`.
- By default, `papi ask` uses `--settings default` to avoid stale user settings; pass `-s/--settings <name>` to override.
- Managed PaperQA2 indexing uses a CSV manifest from `meta.json` and defaults to text-only PDF parsing
  (`--parsing.multimodal OFF`, `--parsing.use_doc_details false`) so embedding updates do not invoke PaperQA2
  metadata/enrichment LLM calls. Pass explicit `--parsing...` args to opt into PaperQA2 multimodal enrichment.

</details>

<details markdown="1">
<summary>LEANN configuration</summary>

### Common options

```bash
papi ask "..." --backend leann --leann-provider ollama --leann-model qwen3:8b
papi ask "..." --backend leann --leann-host http://localhost:11434
papi ask "..." --backend leann --leann-top-k 12 --leann-complexity 64
```

Notes:
- If you use `--leann-provider anthropic`, your `leann` install must include the `anthropic` Python package
  (`pip install anthropic` in the same environment that runs `leann`).
- You can pass through extra `leann` CLI flags after `--` (useful for debugging), e.g.:
  `papi -v ask "..." --backend leann -- ...`

### Model combinations

<details markdown="1">
<summary><strong>Model combination examples</strong></summary>

**Indexing:**

```bash
# API keys should be in env
export OPENAI_API_KEY=...
export ANTHROPIC_API_KEY=...
export GEMINI_API_KEY=...
export VOYAGE_API_KEY=...
export OPENROUTER_API_KEY=...

# Ollama (local) + Ollama embeddings
papi index --backend leann --leann-embedding-mode ollama --leann-embedding-model nomic-embed-text

# OpenAI + OpenAI embeddings
papi index --backend leann --leann-embedding-mode openai --leann-embedding-model text-embedding-3-small --leann-embedding-api-key $OPENAI_API_KEY

# Gemini + Gemini embeddings (OpenAI-compatible)
papi index --backend leann --leann-embedding-mode openai --leann-embedding-model gemini-embedding-001 --leann-embedding-api-base https://generativelanguage.googleapis.com/v1beta/openai/ --leann-embedding-api-key $GEMINI_API_KEY

# Voyage embeddings (OpenAI-compatible) — endpoint + key auto-routed from VOYAGE_API_KEY
papi index --backend leann --leann-embedding-mode openai --leann-embedding-model voyage-4
```

**Asking:**

```bash
# Ollama (local)
papi ask "how is neus different from nerf?" --backend leann --leann-provider ollama --leann-model olmo-3:7b --leann-index papers_ollama_nomic-embed-text

# OpenAI
papi ask "how is neus different from nerf?" --backend leann --leann-provider openai --leann-model gpt-4.1 --leann-api-key $OPENAI_API_KEY --leann-index papers_openai_text-embedding-3-small

# Anthropic + Voyage embeddings
papi ask "how is neus different from nerf?" --backend leann --leann-provider anthropic --leann-model claude-sonnet-4-5 --leann-api-key $ANTHROPIC_API_KEY --leann-index papers_openai_voyage-4

# OpenRouter + Voyage embeddings
papi ask "how is neus different from nerf?" --backend leann --leann-provider openai --leann-model google/gemini-3.5-flash --leann-api-base https://openrouter.ai/api/v1 --leann-api-key $OPENROUTER_API_KEY --leann-index papers_openai_voyage-4

# Gemini (OpenAI-compatible)
papi ask "how is neus different from nerf?" --backend leann --leann-provider openai --leann-model gemini-3-flash-preview --leann-api-base https://generativelanguage.googleapis.com/v1beta/openai/ --leann-api-key $GEMINI_API_KEY --leann-index papers_openai_gemini-embedding-001
```

</details>

<details markdown="1">
<summary><strong>Embedding provider examples</strong></summary>

**Note:** For `--leann-embedding-mode openai`, LEANN defaults the API key to `OPENAI_API_KEY` unless you pass `--leann-embedding-api-key`. Voyage models (`voyage-*`) are the exception: paperpipe auto-routes the Voyage endpoint and `VOYAGE_API_KEY` for you, so the explicit `--leann-embedding-api-base`/`--leann-embedding-api-key` flags below are optional.

```bash
# Ollama (local)
papi index --backend leann --leann-embedding-mode ollama --leann-embedding-model nomic-embed-text

# OpenAI
export OPENAI_API_KEY=...
papi index --backend leann --leann-embedding-mode openai --leann-embedding-model text-embedding-3-small --leann-embedding-api-key $OPENAI_API_KEY

# Gemini (OpenAI-compatible)
export GEMINI_API_KEY=...
papi index --backend leann --leann-embedding-mode openai --leann-embedding-model gemini-embedding-001 --leann-embedding-api-base https://generativelanguage.googleapis.com/v1beta/openai/ --leann-embedding-api-key $GEMINI_API_KEY

# Voyage (OpenAI-compatible) — endpoint + key auto-routed from VOYAGE_API_KEY
export VOYAGE_API_KEY=...
papi index --backend leann --leann-embedding-mode openai --leann-embedding-model voyage-4
```

**Gemini notes:**
- May hit quota/rate limits (HTTP 429). Retry after suggested delay.
- Some LEANN versions batch too many inputs per request for Gemini (hard limit: 100 inputs/request) and fail with HTTP 400; update LEANN or reduce chunk counts (e.g., larger `--leann-doc-chunk-size`).

</details>

### Defaults

By default, paperpipe derives LEANN's defaults from your global `[llm]` / `[embedding]` model settings when they are
LEANN-compatible:
- `ollama/...` → `--llm ollama` / `--embedding-mode ollama`
- `gpt-*` / `text-embedding-*` → `--llm openai` / `--embedding-mode openai`
- `gemini/...` → `--llm openai` (Gemini OpenAI-compatible endpoint)

For Gemini, paperpipe defaults `--leann-api-base` to `https://generativelanguage.googleapis.com/v1beta/openai/` and uses
`GEMINI_API_KEY`/`GOOGLE_API_KEY` if set.

Note: LEANN's current CLI batches OpenAI-compatible embeddings in chunks of up to ~500-800 texts per request; Gemini's
embedding endpoint hard-limits batches to 100, so paperpipe does *not* auto-map `gemini/...` embeddings to LEANN by
default. Use `PAPERPIPE_LEANN_EMBEDDING_*` / `[leann]` to override (and expect to tune batch behavior upstream in LEANN).

### Multiple indices

LEANN supports multiple index names under `<paper_db>/.leann/indexes/`.

By default, paperpipe auto-derives the LEANN index name from the embedding mode/model (similar to PaperQA2).

To disable and always use a single LEANN index named `papers`, set:

```toml
[leann]
index_by_embedding = false
```

or `export PAPERPIPE_LEANN_INDEX_BY_EMBEDDING=0`.

When enabled, the default LEANN index name becomes `papers_<mode>_<model>` (with `/` and `:` replaced by `_`).

If model ids are not recognized as compatible, it falls back to `ollama` with `olmo-3:7b` (LLM) and `nomic-embed-text`
(embeddings).

Override via `config.toml`:
```toml
[leann]
llm_provider = "ollama"
llm_model = "qwen3:8b"
embedding_model = "nomic-embed-text"
embedding_mode = "ollama"
```

Or env vars: `PAPERPIPE_LEANN_LLM_PROVIDER`, `PAPERPIPE_LEANN_LLM_MODEL`, `PAPERPIPE_LEANN_EMBEDDING_MODEL`, `PAPERPIPE_LEANN_EMBEDDING_MODE`.

An `openrouter/...` LLM model id routes through OpenRouter's OpenAI-compatible endpoint, with the key
taken from `OPENROUTER_API_KEY` (no secret stored in config):
```toml
[leann]
llm_model = "openrouter/deepseek/deepseek-v4-pro"
```

### Index builds

```bash
papi index --backend leann

# Override common LEANN build knobs (maps to `leann build ...`):
papi index --backend leann --leann-embedding-mode ollama --leann-embedding-model nomic-embed-text
papi index --backend leann --leann-embedding-mode ollama --leann-embedding-host http://localhost:11434
papi index --backend leann --leann-doc-chunk-size 350 --leann-doc-chunk-overlap 128
```

By default, `papi ask --backend leann` auto-builds the index if missing (disable with `--leann-no-auto-index`).
For explicit derived names such as `papers_openai_voyage-4`, auto-build infers the embedding mode/model from the name.

</details>

## LLM configuration

paperpipe uses LLMs for generating summaries, extracting equations, and tagging. Without an LLM, it falls back to regex extraction and metadata-based summaries.

```bash
# Set your API key (pick one)
export GEMINI_API_KEY=...       # default provider
export OPENAI_API_KEY=...
export ANTHROPIC_API_KEY=...
export VOYAGE_API_KEY=...       # for Voyage embeddings (recommended with Claude)
export OPENROUTER_API_KEY=...   # 200+ models

# Override the default model
export PAPERPIPE_LLM_MODEL=gpt-4o
export PAPERPIPE_LLM_TEMPERATURE=0.3  # default: 0.3
```

### Local-only via Ollama

```bash
export PAPERPIPE_LLM_MODEL=ollama/qwen3:8b
export PAPERPIPE_EMBEDDING_MODEL=ollama/nomic-embed-text

# Either env var name works (paperpipe normalizes both):
export OLLAMA_HOST=http://localhost:11434
# export OLLAMA_API_BASE=http://localhost:11434
```

Ollama defaults to a small context window (~4k tokens) and **silently truncates** longer
prompts, so a full paper's LaTeX would be cut off. paperpipe avoids this by sizing the
context window to each prompt, capped at 32768 tokens. Lower the cap to save memory, or raise
it for very long papers:

```bash
export PAPERPIPE_OLLAMA_NUM_CTX=16384   # or set [llm] ollama_num_ctx in config.toml
```

This applies to local and Ollama Cloud (`ollama/<model>:cloud`, after `ollama signin`) models.

Many reasoning-capable models "think" by default and can spend their whole output budget on
hidden reasoning, returning empty content for extraction prompts. paperpipe disables thinking
for Ollama models by default since it does structured extraction, not reasoning. Re-enable it
if you want:

```bash
export PAPERPIPE_OLLAMA_THINK=true   # or set [llm] ollama_think in config.toml
```

### Via the Claude Code CLI (no API key)

If you have the [Claude Code](https://docs.claude.com/en/docs/claude-code) CLI installed and signed in (including subscription/OAuth logins), paperpipe can route summary/equation/tag/title generation through it instead of an API key:

```bash
export PAPERPIPE_LLM_MODEL=claude-cli/sonnet   # or claude-cli/opus, claude-cli/<full-model-name>
```

paperpipe shells out to `claude -p` for each generation step using the CLI's own authentication. Notes:

- **Summarization only.** `papi ask` (PaperQA2/RAG) and embeddings still need an API key or local Ollama — the CLI backend cannot drive them.
- Calls count against your Claude Code usage/rate limits, not API billing.
- Each invocation boots the CLI runtime (~3s), so generation is slower than an API backend.
- `temperature` is not configurable on this backend.

Check which models work with your keys:
```bash
papi models                    # probe default models for your configured keys
papi models latest             # probe latest model candidates (gpt-5, Gemini via OpenRouter/Gemini, Claude, Voyage 4)
papi models last-gen           # probe previous generation
papi models all                # probe broader superset
papi models --verbose          # show underlying provider errors
```

## Tagging

Papers are auto-tagged from:
1. arXiv categories (cs.CV → computer-vision)
2. LLM-generated semantic tags (biased toward existing tags for consistency)
3. Your `--tags` flag

```bash
papi add 1706.03762 --tags my-project,priority
papi list --tag attention

# Edit tags on one or more papers (no LLM)
papi regenerate <paper>... --tags nerf,3d        # add
papi regenerate <paper>... --remove-tags 3d      # remove
papi regenerate <paper>... --set-tags nerf,slam  # replace all
papi regenerate <paper>... --clear-tags          # remove all

# Edit tags across the whole database
papi tags --audit                  # find duplicate/similar tags
papi tags --merge old-tag new-tag  # rename a tag across all papers
papi tags --delete junk-tag        # remove a tag from all papers
```

## Non-arXiv papers

```bash
papi add ./paper.pdf                                       # local PDF (auto-detected)
papi add "https://example.com/paper.pdf"                   # PDF URL (auto-detected)
papi add --pdf ./paper.pdf --title "My Paper" --no-llm     # --pdf for explicit metadata options
papi add --pdf "https://example.com/paper.pdf" --tags siggraph
```

## Configuration file

For persistent settings, create `~/.paperpipe/config.toml` (override location with `PAPERPIPE_CONFIG_PATH`):

```toml
[llm]
model = "gemini/gemini-2.5-flash"
temperature = 0.3
# ollama_num_ctx = 32768   # max context window for ollama/* models (default 32768)
# ollama_think = false     # enable Ollama "thinking" for reasoning models (default false)
# timeout = 120            # per-request seconds; raise for slow local/reasoning models (default 120)

[embedding]
model = "gemini/gemini-embedding-001"

[paperqa]
settings = "default"
index_dir = "~/.paperpipe/.pqa_index"
summary_llm = "gpt-4o-mini"
enrichment_llm = "gpt-4o-mini"
# agent_llm drives PaperQA2's search agent. PaperQA2's own default is gpt-4o; paperpipe
# instead inherits the answer llm (above) unless you set this. Set agent_type = "fake" for
# deterministic, low-token retrieval that skips the agent LLM's tool-calling loop.
# agent_llm = "gpt-4o-mini"
# agent_type = "fake"

# Optional: override LEANN separately (otherwise it follows [llm]/[embedding] for openai/ollama model ids)
[leann]
llm_provider = "ollama"
llm_model = "qwen3:8b"
embedding_model = "nomic-embed-text"
embedding_mode = "ollama"

[tags.aliases]
cv = "computer-vision"
nlp = "natural-language-processing"
```

Precedence: **CLI flags > env vars > config.toml > built-in defaults**.

## Development

```bash
git clone https://github.com/hummat/paperpipe && cd paperpipe
pip install -e ".[dev]"
make check                            # format + lint + typecheck + test
```

<details markdown="1">
<summary>Release (maintainers)</summary>

This repo publishes to PyPI from release tags, with a manual workflow fallback (see `.github/workflows/publish.yml`).

```bash
# Bump version in pyproject.toml, then:
make release
```

</details>

## Credits

- [PaperQA2](https://github.com/Future-House/paper-qa) by Future House — RAG backend.
  *Skarlinski et al., "Language Agents Achieve Superhuman Synthesis of Scientific Knowledge", 2024.*
  [arXiv:2409.13740](https://arxiv.org/abs/2409.13740)
- [LEANN](https://github.com/yichuan-w/LEANN) — (local) RAG backend.
  *Wang et al., "LEANN: A Low-Storage Vector Index", 2025.*
  [arXiv:2506.08276](https://arxiv.org/abs/2506.08276)

## License

MIT
