How to...



  • How to manually scale data in R exactly the same as the base 'scale' function:

    #define the data
    vec1<-1:20
    vec2<-21:40
    vecz<-as.matrix(cbind(vec1,vec2))
    
    #define the function
    scalez <- function(q,sc){
      #if not scaling then give 0 for sc
      #you could also simplify below as:
      #return(q/sd(q))   
      if(sc == 0){
        return(q/sqrt(sum(q^2)/(length(q)-1)))
      }
      else{
        #you could also simplify below as:
        #return((q-mean(q))/sd(q))
        return((q-mean(q))/(sqrt((sum((q-mean(q))^2))/(length(q)-1))))
      }
    }
    
    #test our scale function on a vector without centering
    uncentered_vec1<-scalez(vec1,sc=0)
    uncentered_vec1
    
    #test our scale function on a vector with centering
    centered_vec1<-scalez(vec1, sc=1)
    centered_vec1
    
    #test the base scale function on a vector without centering
    scale_nocenter_vec1<-scale(vec1, center = FALSE)
    scale_nocenter_vec1
    
    #test our scale function on a matrix without centering
    uncentered_vecz<-apply(vecz,2, scalez, sc=0)
    uncentered_vecz
    
    #test the base scale function on a matrix without centering
    scale_nocenter_vecz<-scale(vecz, center = FALSE)
    scale_nocenter_vecz
    
    #test our scale function on a matrix with centering
    centered_vecz<-apply(vecz,2, scalez, sc=1)
    centered_vecz
    
    #test the base scale function on a matrix with centering
    scale_center_vecz<-scale(vecz, center = TRUE)
    scale_center_vecz
    
    


  • How to do reverse scaling of scaled data in R:

    #define the data
    vec1<-1:20
    vec2<-21:40
    vecz<-as.matrix(cbind(vec1,vec2))
    
    
    #######################################################################
    #define the function for unscaling
    
    unscalez <- function(z,s,c){
      if(is.vector(z)){
        #if scaling was performed with the scale function then the scaled:scale attribute will exist
        if(length(attr(z,'scaled:scale'))>0){
          #if scaling was performed with the scale function and center option then the scaled:center attribute will exist
          if(length(attr(z, 'scaled:center'))>0){
            #if centering occurred 'scaled:scale'=sd(unscaled vector)
            return((z*(attr(z, 'scaled:scale')))+attr(z, 'scaled:center'))
          }
          else{
            #if centering did not occur 'scaled:scale'=sqrt(sum(q^2)/(length(q)-1)), where q is the unscaled vector
            return(z*attr(z, 'scaled:scale'))
          } 
        }
        else{
          if(length(c)>0){
            #if centering occurred s=sd(unscaled vector),c=mean(unscaled vector)
            return((z*s)+c)
          }
          else{
            #if centering did not occur, s=sqrt(sum(q^2)/(length(q)-1)), where q is the unscaled vector
            return(z*s)
          }
        }
      }
      else{
        columnz <- list()
        for(t in 1:ncol(z)){
          #if scaling was performed with the scale function then the scaled:scale attribute will exist
          if(length(attr(z,'scaled:scale'))>0){
            #if scaling was performed with the scale function and center option then the scaled:center attribute will exist
            if(length(attr(z, 'scaled:center'))>0){
              #if centering occurred 'scaled:scale'=sd(unscaled vector)
              columnz[[t]]<-(z[,t]*(attr(z, 'scaled:scale')[t]))+attr(z, 'scaled:center')[t]
            }
            else{
              #if centering did not occur 'scaled:scale'=sqrt(sum(q^2)/(length(q)-1)), where q is the unscaled vector
              columnz[[t]]<-(z[,t]*attr(z, 'scaled:scale')[t])
            } 
          }
          else{
            if(length(c)>0){
              #if centering occurred s=sd(unscaled vector),c=mean(unscaled vector)
              columnz[[t]]<-((z[,t]*s[t])+c[t])
            }
            else{
              #if centering did not occur, s=sqrt(sum(q^2)/(length(q)-1)), where q is the unscaled vector
              columnz[[t]]<-(z[,t]*s[t])
            }
          }          
        }
        matrixz<-do.call(cbind, columnz)
        return(matrixz)
      }
    }
    
    #######################################################################
    
    #test the unscalez function on a vector created with the base scale function without centering
    scale_nocenter_vec1<-scale(vec1, center = FALSE)
    scale_nocenter_vec1
    unscalez(scale_nocenter_vec1)
    
    #test the unscalez function on a vector created with the base scale function with centering
    scale_center_vec1<-scale(vec1, center = TRUE)
    scale_center_vec1
    unscalez(scale_center_vec1)
    
    #test the unscalezfunction on a matrix created with the base scale function without centering
    scale_nocenter_vecz<-scale(vecz, center = FALSE)
    scale_nocenter_vecz
    unscalez(scale_nocenter_vecz)
    
    #test the unscalez function on a matrix created with the base scale function with centering
    scale_center_vecz<-scale(vecz, center = TRUE)
    scale_center_vecz
    unscalez(scale_center_vecz)
    
    #######################################################################
    
    #test our unscalez function on a vector created with the scalez function (see previous post) without centering
    uncentered_vec1<-scalez(vec1,sc=0)
    uncentered_vec1
    unscalez(uncentered_vec1,s=12.29035,c=NULL)
    
    #test our unscalez function on a vector created with the scalez function (see previous post) with centering
    centered_vec1<-scalez(vec1, sc=1)
    centered_vec1
    unscalez(centered_vec1,s=5.91608,c=10.5)
    
    #test our unscalez function on a matrix created with the scalez function (see previous post) with centering
    centered_vecz<-apply(vecz,2, scalez, sc=1)
    centered_vecz
    unscalez(centered_vecz,s=c(5.91608,5.916080),c=c(10.5,30.5))
    
    #test our unscalez function on a matrix created with the scalez function (see previous post) without centering
    uncentered_vecz<-apply(vecz,2, scalez, sc=0)
    uncentered_vecz
    unscalez(uncentered_vecz,s=c(12.29035,31.84667),c=NULL)
     
    
    


  • How to calculate R-squared in R:

    #where x is the fitted values and y is the actual values
    rsq <- function (x, y) {cor(x, y) ^ 2}
    
    #when given the R-squared value:
    
    adj_rsqz<- function (r,n,p) {
      1-(((1-r)*(n-1))/(n-p-1))
    }
    #where:
    #r=r-squared value
    #n=total sample size
    #p=number of predictors
    


  • How to get all the attributes and variables associated with an object in R:

    str(your_object)
    


  • How to continue a loop in R when there is an error for one of the elements:

      for (j in 1:10){
        tryCatch({ 
           print(j)
        }, error=function(e){cat("ERROR :",conditionMessage(e), "\n")})
      }
    


  • How to do matrix multiplication:

    matrix_multiplication_explained2.png



  • How to grab a still / screenshot of an image from a video in DaVinci Resolve:

      1. Click on the 'picture' icon at the bottom.
      1. Right click on the image that appears at the top and select 'Grab still'.
        grab_still1.jpg
      1. Right click on the image that appears in the left pane and select 'Export'.
        grab_still2.jpg
      1. Choose the picture format you wish to use and save.
        grab_still3.jpg


  • How to log in to a Facebook page when it gives the error:

    "This page isn’t working right now www.facebook.com redirected you too many times. ERR_TOO_MANY_REDIRECTS"

    1. In the browsers URL type in https://www.facebook.com/home
    2. Select the "Go to News Feed" button
    3. You should now be able to browse the site
    4. To view your page go the bottom left "Your Shortcuts" menu option and click your listed page.

    NB. You may need to clear cookies and restart the browser. I got this to work on Firefox, Chrome and Opera



  • How to insert a checked checkbox in Microsoft Word:

    • Type 2611 and press 'ALT+X'


  • How to reset Soundpeats earbuds when one of them stops pairing/working:
    https://www.youtube.com/watch?v=qYpDhtyy6c0



  • How to run a docker container after building it and enter it's shell:

    #find the container name in the list
    docker images
    docker run -it /image/name bash
    


  • How to design KASP primers for LGC:

    •    All KASP primers generally have a minimum length of 20 base pairs, some primers however may have to be longer depending on  whether it meets the algorithms assay design criteria.
      
    •    We can only incorporate a maximum of 1 degenerate bases per sequence
      
    •    The recommended maximum distance between the common and reverse primers is about 80 base pairs.
      
    •    The only IUPAC codes that we can accept for assay design is M,R,W,S,Y and K


  • How to install tensorflow with GPU support on windows:

    1. Update NVIDIA driver
    2. Install Visual Studio https://visualstudio.microsoft.com/thank-you-downloading-visual-studio/?sku=Community&rel=16
    3. Restart computer
    4. Install cuda toolkit https://developer.nvidia.com/cuda-downloads. (NB. It's possible this step (and steps 2-3) may not be necessary. See below)
    5. Install Anaconda
    6. Go to the "Start menu" find the "Anaconda3" item and then click on the "Anaconda Powershell Prompt"
    7. Run:
    conda update conda
    conda update anaconda
    conda update python
    conda update --all
    conda create --name tf-gpu
    #Now exit from the Powershell you are using and then open a new one before you activate the new "env".
    conda activate tf-gpu
    #NB. the line below appears to install cuda in addition to cudnn. Perhaps the windows installation is required to add the cuda paths. That could probably be done manually. You can manualy edit the path in Windows by typing 'path' in the start menu and selecting editing the system environmental variables.
    conda install -c conda-forge cudnn
    conda install pip
    pip install --upgrade pip  --user
    pip install --upgrade tensorflow --user
    conda install ipykernel jupyter
    #below is optional
    conda install -c anaconda tensorboard
    python -m ipykernel install --user --name tf-gpu --display-name "TensorFlow2-GPU"
    jupyter notebook
    
    1. In the Jupyter Notebook create a cell with the following contents and run to check that a GPU is listed in the physical devices:
    import tensorflow as tf
    tf.config.list_physical_devices()
    
    1. Try running the MNIST hand written digits example in a Jupyter notebook as described at https://www.pugetsystems.com/labs/hpc/How-to-Install-TensorFlow-with-GPU-Support-on-Windows-10-Without-Installing-CUDA-UPDATED-1419/


  • How to download a large text file in chrome without opening it first:

    • hold down 'alt' and click the link




  • How to install ffmpeg on Windows
    how to use apple magic trackpad 2 on windows 10 NB You sometimes need to plug it in to the laptop using the cable first and then unplug it (leave it switched on) before it can become visible in bluetooth devices (wait a while).



  • How to record a video of your screen on Windows 10:

    • press Win + Alt + R to start your recording




  • How to search for units in a specific building on domain.com.au:
    https://www.domain.com.au/sale/?excludeunderoffer=1&carspaces=1-any&street=70+mary+street

    How to search for units in a specific building on realestate.com.au:

    https://www.realestate.com.au/buy/in-70+mary+st,+brisbane+city,+qld+4000/list-1?numParkingSpaces=1&includeSurrounding=false&misc=ex-under-contract&activeSort=list-date&source=refinement


  • How to install sidewall flashing against weatherboard at an angle:
    https://www.youtube.com/watch?v=iPwAj5BCINI&t=358s


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