## ----include = FALSE---------------------------------------------------------- is_cran <- identical(Sys.getenv("NOT_CRAN"), "false") knitr::opts_chunk$set( eval = !is_cran ) ## ----eval=FALSE--------------------------------------------------------------- # install.packages("iRfcb") ## ----------------------------------------------------------------------------- library(iRfcb) ## ----message=FALSE------------------------------------------------------------ # Define data directory data_dir <- "data" # Download and extract test data in the data folder ifcb_download_test_data(dest_dir = data_dir) ## ----------------------------------------------------------------------------- # Example sample names filenames <- list.files("data/data/2023/D20230314", recursive = TRUE) # Print filenames print(filenames) # Convert filenames to timestamps timestamps <- ifcb_convert_filenames(filenames) # Print result print(timestamps) ## ----------------------------------------------------------------------------- # Example sample names filenames <- list.files("data/png/Alexandrium_pseudogonyaulax_050") # Print filenames print(filenames) # Convert filenames to timestamps timestamps <- ifcb_convert_filenames(filenames) # Print result print(timestamps) ## ----------------------------------------------------------------------------- # Path to HDR file hdr_file <- "data/data/2023/D20230314/D20230314T001205_IFCB134.hdr" # Calculate volume analyzed (in ml) volume_analyzed <- ifcb_volume_analyzed(hdr_file) # Print result print(volume_analyzed) ## ----------------------------------------------------------------------------- # Get runtime from HDR-file run_time <- ifcb_get_runtime(hdr_file) # Print result print(run_time) ## ----------------------------------------------------------------------------- # Read feature files from a folder features <- ifcb_read_features("data/features/2023/", verbose = FALSE) # Do not print progress bar # Print output from the first sample in the list print(features[[1]]) # Read only multiblob feature files multiblob_features <- ifcb_read_features("data/features/2023", multiblob = TRUE, verbose = FALSE) # Print output from the first sample in the list print(multiblob_features[[1]]) ## ----------------------------------------------------------------------------- # All ROIs in sample ifcb_extract_pngs( "data/data/2023/D20230314/D20230314T001205_IFCB134.roi", gamma = 1, # Default gamma value scale_bar_um = 5 # Add a 5 micrometer scale bar ) ## ----------------------------------------------------------------------------- # Only ROI number 2 and 5 ifcb_extract_pngs("data/data/2023/D20230314/D20230314T003836_IFCB134.roi", ROInumbers = c(2, 5)) ## ----------------------------------------------------------------------------- # Example taxa names taxa_names <- c("Alexandrium_pseudogonyaulax", "Guinardia_delicatula") # Retrieve WoRMS records worms_records <- ifcb_match_taxa_names(taxa_names, verbose = FALSE) # Do not print progress bar # Print result print(worms_records) ## ----------------------------------------------------------------------------- # Read class2use file and select five taxa class2use <- ifcb_get_mat_variable("data/config/class2use.mat")[10:15] # Create a dataframe with class name and result from `ifcb_is_diatom` class_list <- data.frame(class2use, is_diatom = ifcb_is_diatom(class2use, verbose = FALSE)) # Print rows 10-15 of result print(class_list) ## ----------------------------------------------------------------------------- # Example taxa names taxa_list <- c( "Acanthoceras zachariasii", "Nodularia spumigena", "Acanthoica quattrospina", "Noctiluca", "Gymnodiniales" ) # Get trophic type for taxa trophic_type <- ifcb_get_trophic_type(taxa_list) # Print result print(trophic_type) ## ----------------------------------------------------------------------------- # Get column names from example shark_colnames <- ifcb_get_shark_colnames() # Print column names print(shark_colnames) # Load example stored from `iRfcb` shark_example <- ifcb_get_shark_example() # Print the SHARK data submission example print(shark_example) ## ----echo=FALSE--------------------------------------------------------------- # Print citation citation("iRfcb") ## ----include=FALSE------------------------------------------------------------ # Clean up unlink(data_dir, recursive = TRUE)