ScriptsJul 12, 2026·3 min read

V — Simple Fast Safe Compiled Language

V is a statically typed compiled programming language designed for building maintainable software. It compiles itself in under one second with zero library dependencies and offers automatic C-to-V translation.

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Native · 98/100Policy: allow
Agent surface
Any MCP/CLI agent
Kind
Skill
Install
Single
Trust
Trust: Established
Entrypoint
V Language Overview
Direct install command
npx -y tokrepo@latest install 213dda99-7e30-11f1-9bc6-00163e2b0d79 --target codex

Run after dry-run confirms the install plan.

Introduction

V is a general-purpose programming language that aims to combine the simplicity of Go, the performance of C, and the safety guarantees of Rust into a single coherent design. It compiles directly to C, making it easy to interoperate with existing C libraries and achieve near-native performance without a garbage collector pause.

What V Does

  • Compiles entire projects in under one second with minimal memory usage
  • Translates C and C++ code to idiomatic V automatically
  • Provides memory safety without a garbage collector via ownership and reference semantics
  • Ships a built-in package manager (VPM), formatter, and documentation generator
  • Supports hot code reloading for rapid development iteration

Architecture Overview

V's compiler is a multi-pass pipeline written in V itself (self-hosted). Source files are lexed, parsed into an AST, then lowered to C code that is compiled by a system C compiler (GCC, Clang, or MSVC). An optional direct-to-machine-code backend is under development. The standard library covers networking, JSON, concurrency (coroutines on top of OS threads), and a cross-platform UI module.

Self-Hosting & Configuration

  • Clone the repo and run make; no external dependencies beyond a C compiler
  • Use v symlink to install the v binary system-wide
  • Manage dependencies via v.mod and v install author.package
  • Configure build flags with v.cfg or command-line switches (-prod, -cc gcc)
  • Cross-compile to Windows, Linux, macOS, FreeBSD, and WASM targets

Key Features

  • Autofree memory management eliminates GC pauses while preventing leaks
  • First-class concurrency with lightweight coroutines and channel-based communication
  • Built-in ORM for SQLite, PostgreSQL, and MySQL without external dependencies
  • @[live] attribute enables hot code reloading during development
  • C interop requires zero boilerplate; call any C function directly

Comparison with Similar Tools

  • Go — V offers similar simplicity but compiles faster, produces smaller binaries, and avoids a runtime GC
  • Rust — Rust provides stronger safety guarantees at the cost of a steeper learning curve and slower compile times
  • Zig — Zig targets low-level systems programming; V aims higher with built-in ORM, web framework, and UI toolkit
  • Nim — Nim also compiles via C but uses a GC by default; V's autofree approach is distinct
  • C — V can be seen as a modernized C with bounds checking, modules, and safer defaults

FAQ

Q: Is V ready for production use? A: V is usable for many projects and has a growing ecosystem, but some advanced features are still maturing. Evaluate it for your use case.

Q: How does V handle memory management without a GC? A: V uses an autofree system that inserts deallocation calls at compile time based on scope analysis, similar to defer-based cleanup.

Q: Can V call existing C libraries? A: Yes. V can call C functions directly with minimal wrapper code, and the c2v tool can translate entire C codebases to V.

Q: What editor support is available? A: Official plugins exist for VS Code, Vim, Emacs, and Sublime Text with syntax highlighting, auto-completion, and diagnostics.

Sources

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