How to use this tool?
This free online converter lets you convert code from Haskell to Objective_C in a click of a button. To use this converter, take the following steps -
- Type or paste your Haskell code in the input box.
- Click the convert button.
- The resulting Objective_C code from the conversion will be displayed in the output box.
Examples
The following are examples of code conversion from Haskell to Objective_C using this converter. Note that you may not always get the same code since it is generated by an AI language model which is not 100% deterministic and gets updated from time to time.
Example 1 - Is String Palindrome
Program that checks if a string is a palindrome or not.
Haskell
Objective_C
Example 2 - Even or Odd
A well commented function to check if a number if odd or even.
Haskell
Objective_C
Key differences between Haskell and Objective_C
Characteristic | Haskell | Objective_C |
---|---|---|
Syntax | Haskell has a unique syntax that is based on mathematical notation and is known for its strong type inference and pattern matching capabilities. | Objective-C has a syntax that is derived from the C programming language, with added object-oriented features and dynamic typing. |
Paradigm | Haskell is a purely functional programming language that emphasizes immutability and the use of higher-order functions. | Objective-C is a multi-paradigm programming language that supports both object-oriented and procedural programming. |
Typing | Haskell has a strong static type system that enforces type safety and allows for type inference. | Objective-C has a weak dynamic type system that allows for late binding and dynamic method resolution. |
Performance | Haskell is known for its high-level abstractions and lazy evaluation, which can sometimes result in slower performance compared to lower-level languages. | Objective-C is a low-level language that can be highly optimized for performance, especially when used with the C language features. |
Libraries and frameworks | Haskell has a growing ecosystem of libraries and frameworks, although it may not have as extensive a collection as some other languages. | Objective-C has a wide range of libraries and frameworks available, especially for iOS and macOS development. |
Community and support | Haskell has a passionate and active community, with various online resources and forums available for support. | Objective-C has a large community, particularly in the Apple development ecosystem, with extensive documentation and support available. |
Learning curve | Haskell has a steep learning curve due to its unique syntax and functional programming concepts, but it can be rewarding for those who invest the time to learn it. | Objective-C has a moderate learning curve, especially for developers familiar with C or other C-based languages. |