Cointime

Download App
iOS & Android

Solidity vs Move vs Rust: The Evolution of Smart Contract Programming Languages

Validated Media

The security, speed, and developer activity of a blockchain are contingent on its underlying programming language and virtual machines. Two of the most popular programming languages are Solidity, used to build decentralized applications for the Ethereum Virtual Machine (EVM), and Rust for dApps on Solana.

However, since the latest emerging smart contract-based blockchains, Aptos and Sui, utilize Move as their foundation for a more secure and scalable layer 1, it’s only fitting to do a side-by-side comparison of all three.

Coding terminology

High-level languages (HLL)

HLLs are usually easier for developers to read and write in, as they more closely resemble human language compared to low-level languages which are closer to machine code. For a computer to read and execute the source code, it first needs to be compiled into machine language.

Low-level languages (LLL)

LLLs are more difficult for developers to read and write in, as they resemble machine code. As such, they can convert to machine code without an intermediate compiler or interpreter.

Runtime environment

On blockchains, virtual machines serve as the operating system runtime environment.

Interpreted or compiled programming languages

Programming languages distinguish themselves as interpreted or compiled languages.

A compiled programming language needs to be converted from the source code into executable bytecode.

An interpreted programming language, on the other hand, is being read and executed line by line at runtime by an interpreter.

As a result, interpreted languages are typically slower than compiled languages. However, interpreted languages are less prone to bugs, as the debugging of the code occurs at runtime and the intermediate compiled representation is removed.

In a compiled language, compiler bugs can occur even when the source code is flawless, so they are more prone to errors.

Sequential or parallel processing

Today, most major blockchains use sequential execution of transactions, meaning that the runtime environment can only process one transaction at a time. This is a major bottleneck for network throughput.

In contrast, some programming languages enable parallel processing (or parallel execution), allowing for much higher TPS compared to sequential processing without the need for mathematically driven solutions like zero-knowledge proofs.

Parallel execution identifies independent transactions to execute them concurrently. Dependent transactions, however, would affect the execution of another and therefore must be executed in sequence.

Solidity — the programming language for EVM smart contracts

Ethereum is the first programmable blockchain, which to this day remains the foundational development environment for the Web3 ecosystem growth. In order to program on Ethereum, you need to first create a “smart contract” by utilizing Solidity — a custom language specifically designed by Dr. Gavin Wood for smart contracts on Ethereum in 2014. The smart contract is then run on the Ethereum Virtual Machine (EVM).

As an HLL, Solidity makes software development more user-friendly. Additionally, Solidity is influenced by and similar to other popular languages such as C++, Java, and Python, making it easier for new developers to start developing in the EVM ecosystem.

However, as a compiled language, Solidity is more prone to bugs due to the additional steps necessary to translate it into machine-readable bytecode. As a result, and despite the extremely complex and costly audits that smart contracts undergo, we continue to see smart contract exploits in the Ethereum ecosystem.

Today, Solidity is an independent open-source project that is further refined and developed on GitHub. While it is not the only language that can be used to write code for Ethereum, Solidity’s syntax is specifically designed to target the EVM.

Advantages of Solidity

  • HLL and thus easier to learn and user-friendly
  • Abundance of good developer tools and open-source libraries
  • The most used language in Web3
  • Similar to languages like C++, Python, and JavaScript
  • Developers are less likely to make mistakes in languages they are already familiar with
  • Good community support
  • Existing standards (ERC20 and ERC 721)
  • Multichain compatibility (layer-two blockchains, sidechains and EVM-compatible layer-one blockchains)

Disadvantages of Solidity

  • As a compiled language, Solidity is more prone to exploitable bugs
  • Sequential processing is a bottleneck for network throughput

Solidity Adoption

At the time of writing, Solidity accounts for 87.45% of all total value locked in smart contracts, followed by Vyper (8.95%) and Rust (2.31%)

Rust — Solana’s primary programming languages

While many ecosystems are trying to attract new developers by being EVM compatible, Solana has taken a different path with its own unique programming language, which has seen impressive growth in adoption since launch.

Launched in 2011, Rust, unlike Solidity, was designed from the ground up as a general-purpose programming language and is not limited to smart contract programs.

Rust is a compiled, low-level and more complex programming language compared to Solidity. As such, it may be less attractive to new developers as it is more difficult to learn. However, many developers outside the Web3 ecosystem are already proficient with Rust, making it easier to start working on Solana or Near projects.

Rust is best known for being the primary programming language of Solana where it helps to achieve throughput that other blockchains can only dream of. For many, it is also a more powerful, versatile language compared to Solidity as it allows developers to manage memory effectively and leverage parallel processing.

Advantages of Rust

  • As a machine-oriented, compiled language, Rust offers high speed and good memory efficiency
  • Rust allows to achieve higher throughout with parallel processing
  • Rust achieves memory safety through the principle of ownership and borrowing, eliminating memory-related errors at compile time
  • As Rust developers are often more experienced developers, smart contracts (called programs) on Solana can be expected to be less prone to bugs

Disadvantages of Rust

  • As an LLL, Rust has a steep learning curve and is generally more difficult to learn
  • Program compilation for larger projects can take up to 10 minutes
  • Today, just a handful of blockchains support Rust, namely Solana and Near

Rust adoption

While blockchains using Solidity as their main programming language continue to have the largest share of active developers, Solana is currently seeing faster growth than Ethereum.

Move

Launched in 2019, Move is one of the most modern programming languages used in new layer-one chains like Aptos and Sui. Move is based on Rust, but was specifically designed by Meta for its Diem blockchain to solve the problems of existing smart contract languages.

As such, the team behind Move had the opportunity to examine the existing languages of the Web3 space and learn from their shortcoming.

Above all, Move is designed as an object-oriented language to write smart contracts or programs with safe resource management. Assets are defined as a “resource”, which can be moved between accounts, but which cannot be double-spent or duplicated.

This makes it very easy to write error-free code, in contrast to Solidity, where transfers of assets must be specified manually, increasing the likelihood of writing faulty code.

As such, Move eliminates the possibility of reentrancy attacks, which is one of the worst possible attacks on Solidity smart contracts.

As an interpreted language, Move’s performance is slower compared to compiled languages. However, the lack of a compiler and compiler bugs makes Move inherently more secure than Solidity.

In addition, Move inherits Rust’s memory efficiency and parallel processing, making it a solid choice for overall performance.

Advantages of Move

  • Like Rust, Move allows users to achieve higher throughput with parallel processing
  • As an interpreted language, Move doesn’t have a compiler, and as a result no compiler bugs
  • Move was designed with security in mind and aims to eliminate vulnerabilities such as reentrancy

Disadvantages of Move

  • New language with limited tooling, resources, and community
  • Harder to learn than a high-level language
  • Interpreted languages are generally weaker in performance than comparable compiled languages
  • No multichain compatibility as no major blockchain has adopted Move to date

Move Adoption

Aptos and Sui are currently the only blockchain projects using Move as their primary programming language and it is still too early to say how successful the language will be.

Conclusion

Solidity is the most popular programming language for blockchain development due to its user-friendliness and its widespread use on Ethereum. However, it has several vulnerabilities that have caused costly mistakes in the past. In contrast, Rust and Move are interesting alternatives due to their increased security and efficiency.

While Rust already offers better performance on Solana and shows impressive adoption, Move was designed to provide the most secure solution of the three, eliminating many of Solidity’s vulnerabilities.

It is important to remember that all three languages are relatively new. Potential security pitfalls are yet to be discovered and their long-term success remains to be seen.

While providing the foundation for smart contract development, programming languages are only one factor determining the speed and security of a blockchain and its dApps.

Comments

All Comments

Recommended for you

  • Robinhood Chief Legal Officer Dan Gallagher Says He Won't Become SEC Chairman

    According to market news, Dan Gallagher, the Chief Legal Officer of Robinhood, stated that he would not serve as the Chairman of the US Securities and Exchange Commission.

  • Cosine: After a user used GPT to write a bot with a backdoor code, the private key was sent to a phishing website

    SlowMist Yu Xian stated in a post on the X platform that a user used GPT to write a bot with code and sent the private key to a phishing website. The reason why the private key was stolen was because it was directly sent to the phishing website in the HTTP request body. Yu Xian reminded that when using LLM such as GPT/Claude, one must pay attention to the common fraudulent behavior of these LLM. It was previously mentioned that AI poisoning attacks were carried out, and now this is a real attack case targeting the crypto industry.

  • U.S. Supreme Court rejects Facebook's attempt to avoid shareholder securities fraud lawsuit

     US Supreme Court rejected Facebook's attempt to avoid shareholder securities fraud lawsuits under the META umbrella.

  • The final value of the US one-year inflation rate in November is expected to be 2.6%, the expected value is 2.7%, and the previous value is 2.60%

     the expected final value of the US one-year inflation rate in November is 2.6%, with an expected value of 2.7% and a previous value of 2.60%. The expected final value of the US five-to-ten-year inflation rate in November is 3.2%, with an expected value of 3.1% and a previous value of 3.10%.

  • Polymarket Blocks French Users Amid Government Investigation into Gambling Law Compliance

    Polymarket has blocked users from France following reports of an investigation by the country's gaming authority for compliance with gambling laws. The ban was not stated in Polymarket's terms of service, but French users attempting to access the website using a VPN from a French server were met with a digital blockade. The ANJ, France's national gaming authority, began investigating Polymarket after a French trader placed large bets on Donald Trump winning the 2024 US Presidential election.

  • U.S. stocks open, most crypto stocks open lower

     the US stock market opened with the Dow Jones up 0.19%, the S&P 500 up 0.05%, and the Nasdaq up 0.01%. Most cryptocurrency stocks opened lower, with Coinbase (COIN.O) down 0.06%, MicroStrategy (MSTR.O) up 0.4%, and Riot Platforms (RIOT.O) down 2.6%. Previously, Bitcoin had risen above $99,000 before falling back.

  • Amazon to invest an additional $4 billion in Anthropic, OpenAI's rival

     Amazon is deepening its cooperation with Anthropic and will add an additional $4 billion investment to the company. In September of this year, Anthropic, an artificial intelligence startup, was seeking a new round of financing with a valuation of up to $40 billion. Anthropic was founded by former OpenAI executives in 2021 and focuses on creating interpretable, secure, and controllable artificial intelligence systems. The company's flagship AI model, Claude, operates based on "Constitutional AI," which uses predefined principles to guide its output, avoiding some erroneous or discriminatory output reactions.

  • Family Offices Evolve into Powerful Investment Entities with Innovative Strategies and Advanced Technologies

    Family offices, which traditionally focused on conservative investment strategies, have transformed into powerful investment entities with a focus on alternative investments, private equity, co-investments, venture capital, and impact investing. This shift has been driven by innovative financial solutions and modern investment strategies, responding to technological advancements and an evolving global financial landscape. Family offices are taking a more active role in direct investments and co-investments, particularly in high-growth companies and startups, enhancing their control and flexibility. They are also diversifying further into private markets and real assets due to geopolitical and macroeconomic uncertainties, while embracing innovative financing solutions and cutting-edge risk management techniques. Additionally, family offices are implementing AI technologies to improve their decision-making processes, particularly in investment analysis, reflecting their commitment to innovation and strategic planning.

  • MarbleX and Netmarble Launch $20 Million Ecosystem Promotion Plan

    Ethereum game platform Immutable has announced a partnership with the blockchain game division Marblex of South Korean gaming giant Netmarble. The collaboration will migrate Marblex's ecosystem and its multiple games from the Klaytn blockchain to the Ethereum Layer 2 network Immutable zkEVM. The games include "Ni no Kuni: Cross Worlds", "A3: Still Alive" and "Meta World: My City", and the two parties will also launch an "ecosystem promotion plan" to provide up to $20 million in support to developers to attract new games to join Marblex and Immutable. It is currently unclear whether the Immutable migration will affect Saga's plans, and the project representatives have not commented on the issue.

  • Blockchain Asset Management announces launch of a dedicated blockchain fund for accredited investors

    Blockchain Asset Management, a cryptocurrency fund with a scale of $100 million, announced the launch of an exclusive blockchain fund for qualified investors. The specific amount of funds raised by the fund has not been disclosed yet, but it is said to have reached "eight figures", which means it is in the tens of millions of dollars. In addition, the investment threshold for the new fund is $100,000, and all investors are required to meet the approved standards (annual income exceeding $200,000, net assets exceeding $1 million).