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It's that time of year again!

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It's that time of year again!

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  • zolaris@mastodon.illumos.cafeundefined

    Dear Mastodon,

    Uncategorized career cad plm pdm windows unix advice
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    zolaris@mastodon.illumos.cafeundefined
    Dear Mastodon,I am a mechanical engineer who is about to make a major #career change. I have received a job offer from an international company for an Application Engineer position. The role involves supporting #CAD (computer-aided design), #PLM (product lifecycle management), and #PDM (product data management) systems and their underlying infrastructure.As far as I know, most of the applications are #Windows-based, but there are likely some #Unix-like systems involved as well. I do not have formal system administration experience, so I am looking for guidance on which technologies I should focus on to make this transition as smooth as possible. Could you recommend useful books, technologies, or keywords to explore?For context, I have homelab-level experience with Linux, networking, SSL, reverse proxying, ZFS, Solaris zones, bhyve, and FreeBSD, and I have been using OpenBSD as my desktop operating system for years.Thank you in advance for any #advice or recommendations.TASKS AND RESPONSIBILITIES:- Implementation, configuration, and maintenance of software and systems related to the supported area in line with corporate requirements.- Installation, configuration, and maintenance of critical software systems, as well as providing expert-level support to end users.- Management of application-related changes, handling major upgrades, and the introduction and testing of new systems and developments.- Publishing and testing new releases.- System administration and monitoring to ensure the performance and proper operation of supported software and systems.- Troubleshooting and problem resolution, including the management of system updates and fixes.- Analysis of business requirements and implementation of related processes.- Support for project management, including the preparation of documentation and reports.- Communication with clients and business units to maintain synergy between business requirements and system solutions.
  • g3rt@mastodon.unoundefined

    La programmazione in C nei gloriosi anni '90

    Uncategorized coding programming
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    g3rt@mastodon.unoundefined
    La programmazione in C nei gloriosi anni '90.Questo manuale ha ancora oggi il suo valore e utilità, questa è la grandezza del linguaggio C. Functional C(Pieter H. Hartel, Henk Muller) https://research.utwente.nl/en/publications/functional-c/ #coding #programming
  • curiouslearner@mastodon.socialundefined

    Quick question:

    Uncategorized programming terminal gifs
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    curiouslearner@mastodon.socialundefined
    Quick question: I've seen a lot of programming gifs (screen-recorded gifs of terminals). Which tool(s) are used to create those?#programming #terminal #gifs
  • davy_jones@lemmy.dbzer0.comundefined

    Which software design principles do you rely on most?

    Uncategorized programming
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    davy_jones@lemmy.dbzer0.comundefined
    Summary of A Philosophy of Software Design by John Ousterhout Source: danlebrero.com These are notes by Daniel Lebrero Berna on John Ousterhout’s A Philosophy of Software Design. Some advice in the book goes against the current software dogma. The current dogma is the result of previous pains, but has now been taken to the extreme, causing new pains. What the author solves with “Comment-First Development,” others solve with Test-Driven Development. The excuses for not writing comments mirror those for not writing tests. Key Insights It’s easier to see design problems in someone else’s code than your own. Total complexity = Σ(complexity of part × time spent on that part). Goal of good design: make the system obvious. Complexity accumulates incrementally, making it hard to remove. Adopt a “zero tolerance” philosophy. Better modules: interface much simpler than implementation (Deep modules). Design modules around required knowledge, not task order. Adjacent layers with similar abstractions are a red flag. Prioritize simple interfaces over simple implementations. Each method should do one thing and do it completely. Long methods are fine if the signature is simple and the code easy to read. Difficulty naming a method may indicate unclear design. Comments should add precision or intuition. If you aren’t improving the design when changing code, you’re probably making it worse. Comments belong in the code, not commit logs. Poor designers spend most of their time chasing bugs in brittle code. Preface The most fundamental problem in computer science is problem decomposition. The book is an opinion piece. The goal: reduce complexity. 1. Introduction (It’s All About Complexity) Fight complexity by simplifying and encapsulating it in modules. Software design is never finished. Design flaws are easier to see in others’ code. 2. The Nature of Complexity Complexity = what makes code hard to understand or modify. Total complexity depends on time spent in each part. Complexity is more obvious to readers than writers. Symptoms: change amplification, cognitive load, unknown unknowns. Causes: dependencies, obscurity. Complexity accumulates incrementally; remove it aggressively. 3. Working Code Isn’t Enough Distinguish tactical (short-term) from strategic (long-term) programming. The “tactical tornado” writes lots of code fast but increases complexity. 4. Modules Should Be Deep A module = interface + implementation. Deep modules have simple interfaces, complex implementations. Interface = what clients must know (formal + informal). Avoid “classitis”: too many small classes increase system complexity. Interfaces should make the common case simple. 5. Information Hiding (and Leakage) Information hiding is key to deep modules. Avoid temporal decomposition (ordering-based design). Larger classes can improve information hiding. 6. General-Purpose Modules Are Deeper Make modules somewhat general-purpose. Implementation fits current needs; interface supports future reuse. Questions to balance generality: What is the simplest interface covering current needs? How many times will it be used? Is the API simple for current use? If not, it’s too general. 7. Different Layer, Different Abstraction Adjacent layers with similar abstractions are a red flag. Pass-through methods and variables add no value. Fix pass-throughs by grouping related data or using shared/context objects. 8. Pull Complexity Downwards Prefer simple interfaces over simple implementations. Push complexity into lower layers. Avoid configuration parameters; compute reasonable defaults automatically. 9. Better Together or Better Apart? Combine elements when they: Share information. Are used together. Overlap conceptually. Simplify interfaces or eliminate duplication. Developers often split methods too much. Methods can be long if they are cohesive and clear. Red flag: one component requires understanding another’s implementation. 10. Define Errors Out of Existence Exception handling increases complexity. Reduce exception points by: Designing APIs that eliminate exceptional cases. Handling exceptions at low levels. Aggregating exceptions into a common type. Crashing when appropriate. 11. Design It Twice Explore at least two radically different designs before choosing. 12. Why Write Comments? The Four Excuses Writing comments improves design and can be enjoyable. Excuses: “Good code is self-documenting.” False. “No time to write comments.” It’s an investment. “Comments get outdated.” Update them. “Comments are worthless.” Learn to write better ones. 13. Comments Should Describe Things That Aren’t Obvious Comments should add precision and intuition. Document both interface and implementation. 14. Choosing Names Names should be precise and consistent. If naming is hard, the design likely isn’t clean. 15. Write the Comment First Like TDD, comment-first helps design, pacing, and clarity. 16. Modifying Existing Code Always improve design when changing code. Comments belong in code, not commit logs. 17. Consistency Don’t “improve” existing conventions without strong reason. 19. Software Trends Agile and TDD often promote tactical programming. 20. Designing for Performance Simpler code tends to be faster. Design around the critical path. 21. Conclusion Poor designers spend their time debugging brittle systems.