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Source code

From Wikipedia - Reading time: 13 min

Simple C-language source code example, a procedural programming language. The resulting program prints "hello, world" on the computer screen. This first known "Hello world" snippet from the seminal book The C Programming Language originates from Brian Kernighan in the Bell Laboratories in 1974.[1]

In computing, source code, or simply code or source, is a plain text computer program written in a programming language. A programmer writes the human readable source code to control the behavior of a computer.

Since a computer, at base, only understands machine code, source code must be translated before a computer can execute it. The translation process can be implemented three ways. Source code can be converted into machine code by a compiler or an assembler. The resulting executable is machine code ready for the computer. Alternatively, source code can be executed without conversion via an interpreter. An interpreter loads the source code into memory. It simultaneously translates and executes each statement. A method that combines compilation and interpretation is to first produce bytecode. Bytecode is an intermediate representation of source code that is quickly interpreted.

Background

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The first programmable computers, which appeared at the end of the 1940s,[2] were programmed in machine language (simple instructions that could be directly executed by the processor). Machine language was difficult to debug and was not portable between different computer systems.[3] Initially, hardware resources were scarce and expensive, while human resources were cheaper.[4] As programs grew more complex, programmer productivity became a bottleneck. This led to the introduction of high-level programming languages such as Fortran in the mid-1950s. These languages abstracted away the details of the hardware, instead being designed to express algorithms that could be understood more easily by humans.[5][6] As instructions distinct from the underlying computer hardware, software is therefore relatively recent, dating to these early high-level programming languages such as Fortran, Lisp, and Cobol.[6] The invention of high-level programming languages was simultaneous with the compilers needed to translate the source code automatically into machine code that can be directly executed on the computer hardware.[7]

Source code is the form of code that is modified directly by humans, typically in a high-level programming language. Object code can be directly executed by the machine and is generated automatically from the source code, often via an intermediate step, assembly language. While object code will only work on a specific platform, source code can be ported to a different machine and recompiled there. For the same source code, object code can vary significantly—not only based on the machine for which it is compiled, but also based on performance optimization from the compiler.[8][9]

Organization

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Most programs do not contain all the resources needed to run them and rely on external libraries. Part of the compiler's function is to link these files in such a way that the program can be executed by the hardware.[10]

A more complex Java source code example. Written in object-oriented programming style, it demonstrates boilerplate code. With prologue comments indicated in red, inline comments indicated in green, and program statements indicated in blue.

Software developers often use configuration management to track changes to source code files (version control). The configuration management system also keeps track of which object code file corresponds to which version of the source code file.[11]

Purposes

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Estimation

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The number of lines of source code is often used as a metric when evaluating the productivity of computer programmers, the economic value of a code base, effort estimation for projects in development, and the ongoing cost of software maintenance after release.[12]

Communication

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Source code is also used to communicate algorithms between people – e.g., code snippets online or in books.[13]

Computer programmers may find it helpful to review existing source code to learn about programming techniques.[13] The sharing of source code between developers is frequently cited as a contributing factor to the maturation of their programming skills.[13] Some people consider source code an expressive artistic medium.[14]

Source code often contains comments—blocks of text marked for the compiler to ignore. This content is not part of the program logic, but is instead intended to help readers understand the program.[15]

Companies often keep the source code confidential in order to hide algorithms considered a trade secret. Proprietary, secret source code and algorithms are widely used for sensitive government applications such as criminal justice, which results in black box behavior with a lack of transparency into the algorithm's methodology. The result is avoidance of public scrutiny of issues such as bias.[16]

Modification

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Access to the source code (not just the object code) is essential to modifying it.[17] Understanding existing code is necessary to understand how it works[17] and before modifying it.[18] The rate of understanding depends both on the code base as well as the skill of the programmer.[19] Experienced programmers have an easier time understanding what the code does at a high level.[20] Software visualization is sometimes used to speed up this process.[21]

Many software programmers use an integrated development environment (IDE) to improve their productivity. IDEs typically have several features built in, including a source-code editor that can alert the programmer to common errors.[22] Modification often includes code refactoring (improving the structure without changing functionality) and restructuring (improving structure and functionality at the same time). [23] Nearly every change to code will introduce new bugs or unexpected ripple effects, which require another round of fixes.[18]

Code reviews by other developers are often used to scrutinize new code added to a project.[24] The purpose of this phase is often to verify that the code meets style and maintainability standards and that it is a correct implementation of the software design.[25] According to some estimates, code review dramatically reduce the number of bugs persisting after software testing is complete.[24] Along with software testing that works by executing the code, static program analysis uses automated tools to detect problems with the source code. Many IDEs support code analysis tools, which might provide metrics on the clarity and maintainability of the code.[26] Debuggers are tools that often enable programmers to step through execution while keeping track of which source code corresponds to each change of state.[27]

Compilation and execution

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Source code files in a high-level programming language must go through a stage of preprocessing into machine code before the instructions can be carried out.[7] After being compiled, the program can be saved as an object file and the loader (part of the operating system) can take this saved file and execute it as a process on the computer hardware.[10] Some programming languages use an interpreter instead of a compiler. An interpreter converts the program into machine code at run time, which makes them 10 to 100 times slower than compiled programming languages.[22][28]

Quality

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Software quality is an overarching term that can refer to a code's correct and efficient behavior, its reusability and portability, or the ease of modification.[29] It is usually more cost-effective to build quality into the product from the beginning rather than try to add it later in the development process.[30] Higher quality code will reduce lifetime cost to both suppliers and customers as it is more reliable and easier to maintain.[31][32]

Maintainability is the quality of software enabling it to be easily modified without breaking existing functionality.[33] Following coding conventions such as using clear function and variable names that correspond to their purpose makes maintenance easier.[34] Use of conditional loop statements only if the code could execute more than once, and eliminating code that will never execute can also increase understandability.[35] Many software development organizations neglect maintainability during the development phase, even though it will increase long-term costs.[32] Technical debt is incurred when programmers, often out of laziness or urgency to meet a deadline, choose quick and dirty solutions rather than build maintainability into their code.[36] A common cause is underestimates in software development effort estimation, leading to insufficient resources allocated to development.[37] A challenge with maintainability is that many software engineering courses do not emphasize it.[38] Development engineers who know that they will not be responsible for maintaining the software do not have an incentive to build in maintainability.[18]

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The situation varies worldwide, but in the United States before 1974, software and its source code was not copyrightable and therefore always public domain software.[39] In 1974, the US Commission on New Technological Uses of Copyrighted Works (CONTU) decided that "computer programs, to the extent that they embody an author's original creation, are proper subject matter of copyright".[40][41]

Proprietary software is rarely distributed as source code.[42] Although the term open-source software literally refers to public access to the source code,[43] open-source software has additional requirements: free redistribution, permission to modify the source code and release derivative works under the same license, and nondiscrimination between different uses—including commercial use.[44][45] The free reusability of open-source software can speed up development.[46]

See also

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References

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  1. ^ Kernighan, Brian W. "Programming in C: A Tutorial" (PDF). Bell Laboratories, Murray Hill, N. J. Archived from the original (PDF) on 23 February 2015.
  2. ^ Gabbrielli & Martini 2023, p. 519.
  3. ^ Gabbrielli & Martini 2023, pp. 520–521.
  4. ^ Gabbrielli & Martini 2023, p. 522.
  5. ^ Gabbrielli & Martini 2023, p. 521.
  6. ^ a b Tracy 2021, p. 1.
  7. ^ a b Tracy 2021, p. 121.
  8. ^ Lin et al. 2001, pp. 238–239.
  9. ^ Katyal 2019, p. 1194.
  10. ^ a b Tracy 2021, pp. 122–123.
  11. ^ O'Regan 2022, pp. 230–231, 233, 377.
  12. ^ Foster 2014, pp. 249, 274, 280, 305.
  13. ^ a b c Spinellis, D: Code Reading: The Open Source Perspective. Addison-Wesley Professional, 2003. ISBN 0-201-79940-5
  14. ^ "Art and Computer Programming" ONLamp.com Archived 20 February 2018 at the Wayback Machine, (2005)
  15. ^ Kaczmarek et al. 2018, p. 68.
  16. ^ Katyal 2019, pp. 1186–1187.
  17. ^ a b Katyal 2019, p. 1195.
  18. ^ a b c Offutt, Jeff (January 2018). "Overview of Software Maintenance and Evolution". George Mason University Department of Computer Science. Retrieved 5 May 2024.
  19. ^ Tripathy & Naik 2014, p. 296.
  20. ^ Tripathy & Naik 2014, p. 297.
  21. ^ Tripathy & Naik 2014, pp. 318–319.
  22. ^ a b O'Regan 2022, p. 375.
  23. ^ Tripathy & Naik 2014, p. 94.
  24. ^ a b Dooley 2017, p. 272.
  25. ^ O'Regan 2022, pp. 18, 21.
  26. ^ O'Regan 2022, p. 133.
  27. ^ Kaczmarek et al. 2018, pp. 348–349.
  28. ^ Sebesta 2012, p. 28.
  29. ^ Galin 2018, p. 26.
  30. ^ O'Regan 2022, pp. 68, 117.
  31. ^ O'Regan 2022, pp. 3, 268.
  32. ^ a b Varga 2018, p. 12.
  33. ^ Varga 2018, p. 5.
  34. ^ Tripathy & Naik 2014, pp. 296–297.
  35. ^ Tripathy & Naik 2014, p. 309.
  36. ^ Varga 2018, pp. 6–7.
  37. ^ Varga 2018, p. 7.
  38. ^ Varga 2018, pp. 7–8.
  39. ^ Liu, Joseph P.; Dogan, Stacey L. (2005). "Copyright Law and Subject Matter Specificity: The Case of Computer Software". New York University Annual Survey of American Law. 61 (2). Archived from the original on 25 June 2021.
  40. ^ Apple Computer, Inc. v. Franklin Computer Corporation Puts the Byte Back into Copyright Protection for Computer Programs Archived 7 May 2017 at the Wayback Machine in Golden Gate University Law Review Volume 14, Issue 2, Article 3 by Jan L. Nussbaum (January 1984)
  41. ^ Lemley, Menell, Merges and Samuelson. Software and Internet Law, p. 34.
  42. ^ Boyle 2003, p. 45.
  43. ^ Morin et al. 2012, Open Source versus Closed Source.
  44. ^ Sen et al. 2008, p. 209.
  45. ^ Morin et al. 2012, Free and Open Source Software (FOSS) Licensing.
  46. ^ O'Regan 2022, p. 106.

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