## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----setup-------------------------------------------------------------------- library(ctypesio) ## ----echo=FALSE--------------------------------------------------------------- wav_info <- read.csv(textConnection( r'{"Positions","Sample.Value","Description" "1 - 4","'RIFF'","Marks the file as a riff file. Characters are each 1 byte long." "5 - 8","File size (integer)","Size of the overall file - 8 bytes, in bytes (32-bit integer). Typically, you’d fill this in after creation." "9 -12","“WAVE”","File Type Header. For our purposes, it always equals “WAVE”." "13-16","'fmt '","Format chunk marker. Includes trailing space" "17-20","16","Length of format data as listed above" "21-22","1","Type of format (1 is PCM) - 2 byte integer" "23-24","2","Number of Channels - 2 byte integer" "25-28","44100","Sample Rate - 32 byte integer. Common values are 44100 (CD), 48000 (DAT). Sample Rate = Number of Samples per second, or Hertz." "29-32","176400","(Sample Rate * BitsPerSample * Channels) / 8." "33-34","4","(BitsPerSample * Channels) / 8. (1) 8 bit mono (2) - 8 bit stereo/16 bit mono (4) - 16 bit stereo" "35-36","16","Bits per sample" "37-40","'data'","data chunk header. Marks the beginning of the data section." "41-44","File size (data)","Size of the data section." }')) knitr::kable(wav_info, caption = "WAV file structure") ## ----------------------------------------------------------------------------- audio <- as.integer(runif(44100 * 2, -32768, 32767)) ## ----eval=TRUE---------------------------------------------------------------- wav_file <- tempfile(fileext = ".wav") con <- file(wav_file, "wb") write_utf8_raw(con, "RIFF") write_uint32(con, length(audio) * 2 + 44 - 8) # total file length - 8 write_utf8_raw(con, "WAVE") write_utf8_raw(con, "fmt ") write_uint32(con, 16) # size of header so far write_uint16(con, 1) # sample format = 2-byte integer write_uint16(con, 1) # single channel write_uint32(con, 44100) # sample rate write_uint32(con, 44100 * 16 * 1 / 8) # rate * bits * channels / 8 write_uint16(con, 2) # 16-bit mono audio write_uint16(con, 16) # bits per sample write_utf8_raw(con, 'data') write_uint32(con, length(audio) * 2) # sampled data size write_int16(con, audio) close(con) ## ----eval=FALSE--------------------------------------------------------------- # library(audio) # wav <- audio::load.wave(wav_file) # audio::play(wav) ## ----------------------------------------------------------------------------- con <- file(wav_file, "rb") read_utf8_raw(con, 4) read_uint32(con) # total file length - 8 read_utf8_raw(con, 4) read_utf8_raw(con, 4) read_uint32(con) # size of header above read_uint16(con) # sample format = 2-byte integer read_uint16(con) # single channel read_uint32(con) # sample rate read_uint32(con) # rate * bits * channels / 8 read_uint16(con) # 16-bit mono audio read_uint16(con) # bits per sample read_utf8_raw(con, 4) (data_size <- read_uint32(con)) # sampled data size data <- read_uint16(con, data_size / 2) # read in 16-bit samples close(con) ## ----eval=FALSE--------------------------------------------------------------- # wav_file <- tempfile(fileext = ".wav") # con <- file(wav_file, "wb") # # write_utf8_raw(con, "RIFF") |> # write_uint32(length(audio) * 2 + 44 - 8) |> # total file length - 8 # write_utf8_raw("WAVE") |> # write_utf8_raw("fmt ") |> # write_uint32(16) |> # size of header so far # write_uint16(1) |> # sample format = 2-byte integer # write_uint16(1) |> # single channel # write_uint32(44100) |> # sample rate # write_uint32(44100 * 16 * 1 / 8) |> # rate * bits * channels / 8 # write_uint16(2) |> # 16-bit mono audio # write_uint16(16) |> # bits per sample # write_utf8_raw('data') |> # write_uint32(length(audio) * 2) |> # sampled data size # write_int16(audio) # # close(con)