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org.caleydo.vis.lineup.demos | LineUp Demos

 by   Caleydo Java Version: v3.1.3-alpha1 License: BSD-3-Clause

 by   Caleydo Java Version: v3.1.3-alpha1 License: BSD-3-Clause

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kandi X-RAY | org.caleydo.vis.lineup.demos Summary

org.caleydo.vis.lineup.demos is a Java library typically used in Programming Style, Spring Boot, Pandas applications. org.caleydo.vis.lineup.demos has no bugs, it has no vulnerabilities, it has build file available, it has a Permissive License and it has low support. You can download it from GitHub.
LineUp Demos
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Support
Quality
Quality
Security
Security
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kandi-support Support

  • org.caleydo.vis.lineup.demos has a low active ecosystem.
  • It has 24 star(s) with 6 fork(s). There are 11 watchers for this library.
  • It had no major release in the last 12 months.
  • There are 0 open issues and 11 have been closed. On average issues are closed in 62 days. There are no pull requests.
  • It has a neutral sentiment in the developer community.
  • The latest version of org.caleydo.vis.lineup.demos is v3.1.3-alpha1
This Library - Support
Best in #Java
Average in #Java
This Library - Support
Best in #Java
Average in #Java

quality kandi Quality

  • org.caleydo.vis.lineup.demos has 0 bugs and 0 code smells.
This Library - Quality
Best in #Java
Average in #Java
This Library - Quality
Best in #Java
Average in #Java

securitySecurity

  • org.caleydo.vis.lineup.demos has no vulnerabilities reported, and its dependent libraries have no vulnerabilities reported.
  • org.caleydo.vis.lineup.demos code analysis shows 0 unresolved vulnerabilities.
  • There are 0 security hotspots that need review.
This Library - Security
Best in #Java
Average in #Java
This Library - Security
Best in #Java
Average in #Java

license License

  • org.caleydo.vis.lineup.demos is licensed under the BSD-3-Clause License. This license is Permissive.
  • Permissive licenses have the least restrictions, and you can use them in most projects.
This Library - License
Best in #Java
Average in #Java
This Library - License
Best in #Java
Average in #Java

buildReuse

  • org.caleydo.vis.lineup.demos releases are available to install and integrate.
  • Build file is available. You can build the component from source.
  • org.caleydo.vis.lineup.demos saves you 2652 person hours of effort in developing the same functionality from scratch.
  • It has 5753 lines of code, 453 functions and 80 files.
  • It has medium code complexity. Code complexity directly impacts maintainability of the code.
This Library - Reuse
Best in #Java
Average in #Java
This Library - Reuse
Best in #Java
Average in #Java
Top functions reviewed by kandi - BETA

kandi has reviewed org.caleydo.vis.lineup.demos and discovered the below as its top functions. This is intended to give you an instant insight into org.caleydo.vis.lineup.demos implemented functionality, and help decide if they suit your requirements.

  • Initializes the table model .
    • Save line up .
      • Guesses the number of header rows .
        • Print the header of the table .
          • Start the demo .
            • Save a composite column
              • Gets the perspective key in the data domain .
                • Create the view .
                  • casts a value to a double
                    • Adds the pages .

                      Get all kandi verified functions for this library.

                      Get all kandi verified functions for this library.

                      org.caleydo.vis.lineup.demos Key Features

                      LineUp Demos

                      Community Discussions

                      Trending Discussions on Programming Style
                      • Use for loop or multiple prints?
                      • Why doesn't the rangeCheck method in the java.util.ArrayList class check for negative index?
                      • Are java streams able to lazilly reduce from map/filter conditions?
                      • Are any{}, all{}, and none{} lazy operations in Kotlin?
                      • Use map and zip to be more func style in 2 for loops
                      • malloc a "member" of struct v.s. whole struct when struct is quite simple
                      • Difference between Running time and Execution time in algorithm?
                      • Lifetime of get method in postgres Rust
                      • Is there a way to implement mapcar in Common Lisp using only applicative programming and avoiding recursion or iteration as programming styles?
                      • Create TKinter label using class method
                      Trending Discussions on Programming Style

                      QUESTION

                      Use for loop or multiple prints?

                      Asked 2022-Mar-01 at 21:31

                      What programming style should I use?

                      ...
                      print(1)
                      print(2)
                      

                      or

                      ...
                      for i in range(1, 3):
                          print(i)
                      

                      The output is the same 1 and on the next line 2, but which version should I use as a Python programmer?

                      I mean the first version is redundant or not?

                      ANSWER

                      Answered 2022-Mar-01 at 21:31

                      It depends.

                      There is an old rule "three or more, use for". (source)

                      On the other hand, sometimes unrolling a loop can offer a speed-up. (But that's generally more true in C or assembly.)

                      You should do what makes your program more clear.

                      For example, in the code below, I wrote out the calculations for the ABD matrix of a fiber reinforced composite laminate, because making nested loops would make it more complex in this case;

                          for la, z2, z3 in zip(layers, lz2, lz3):
                              # first row
                              ABD[0][0] += la.Q̅11 * la.thickness  # Hyer:1998, p. 290
                              ABD[0][1] += la.Q̅12 * la.thickness
                              ABD[0][2] += la.Q̅16 * la.thickness
                              ABD[0][3] += la.Q̅11 * z2
                              ABD[0][4] += la.Q̅12 * z2
                              ABD[0][5] += la.Q̅16 * z2
                              # second row
                              ABD[1][0] += la.Q̅12 * la.thickness
                              ABD[1][1] += la.Q̅22 * la.thickness
                              ABD[1][2] += la.Q̅26 * la.thickness
                              ABD[1][3] += la.Q̅12 * z2
                              ABD[1][4] += la.Q̅22 * z2
                              ABD[1][5] += la.Q̅26 * z2
                              # third row
                              ABD[2][0] += la.Q̅16 * la.thickness
                              ABD[2][1] += la.Q̅26 * la.thickness
                              ABD[2][2] += la.Q̅66 * la.thickness
                              ABD[2][3] += la.Q̅16 * z2
                              ABD[2][4] += la.Q̅26 * z2
                              ABD[2][5] += la.Q̅66 * z2
                              # fourth row
                              ABD[3][0] += la.Q̅11 * z2
                              ABD[3][1] += la.Q̅12 * z2
                              ABD[3][2] += la.Q̅16 * z2
                              ABD[3][3] += la.Q̅11 * z3
                              ABD[3][4] += la.Q̅12 * z3
                              ABD[3][5] += la.Q̅16 * z3
                              # fifth row
                              ABD[4][0] += la.Q̅12 * z2
                              ABD[4][1] += la.Q̅22 * z2
                              ABD[4][2] += la.Q̅26 * z2
                              ABD[4][3] += la.Q̅12 * z3
                              ABD[4][4] += la.Q̅22 * z3
                              ABD[4][5] += la.Q̅26 * z3
                              # sixth row
                              ABD[5][0] += la.Q̅16 * z2
                              ABD[5][1] += la.Q̅26 * z2
                              ABD[5][2] += la.Q̅66 * z2
                              ABD[5][3] += la.Q̅16 * z3
                              ABD[5][4] += la.Q̅26 * z3
                              ABD[5][5] += la.Q̅66 * z3
                              # Calculate unit thermal stress resultants.
                              # Hyer:1998, p. 445
                              Ntx += (la.Q̅11 * la.αx + la.Q̅12 * la.αy + la.Q̅16 * la.αxy) * la.thickness
                              Nty += (la.Q̅12 * la.αx + la.Q̅22 * la.αy + la.Q̅26 * la.αxy) * la.thickness
                              Ntxy += (la.Q̅16 * la.αx + la.Q̅26 * la.αy + la.Q̅66 * la.αxy) * la.thickness
                              # Calculate H matrix (derived from Barbero:2018, p. 181)
                              sb = 5 / 4 * (la.thickness - 4 * z3 / thickness ** 2)
                              H[0][0] += la.Q̅s44 * sb
                              H[0][1] += la.Q̅s45 * sb
                              H[1][0] += la.Q̅s45 * sb
                              H[1][1] += la.Q̅s55 * sb
                              # Calculate E3
                              c3 += la.thickness / la.E3
                      

                      Source https://stackoverflow.com/questions/71314703

                      Community Discussions, Code Snippets contain sources that include Stack Exchange Network

                      Vulnerabilities

                      No vulnerabilities reported

                      Install org.caleydo.vis.lineup.demos

                      You can download it from GitHub.
                      You can use org.caleydo.vis.lineup.demos like any standard Java library. Please include the the jar files in your classpath. You can also use any IDE and you can run and debug the org.caleydo.vis.lineup.demos component as you would do with any other Java program. Best practice is to use a build tool that supports dependency management such as Maven or Gradle. For Maven installation, please refer maven.apache.org. For Gradle installation, please refer gradle.org .

                      Support

                      For any new features, suggestions and bugs create an issue on GitHub. If you have any questions check and ask questions on community page Stack Overflow .

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