Eprime, or more officially E-Prime® 2.0, is a set of programs by Psychology Software Tools, Inc. used for running psychological experiments. Data from experiment sessions are saved into two files: 1) a proprietary binary
.edat2 file, and 2) a plain-text
.txt file. The rprime package provides a set of functions for parsing these
.txt files inside R.
This vignette documents how rprime parses an Eprime text file and the changes it makes during that process. See the quick-start vignette for examples of how to use this package.
Disclaimer: I write this documentation as someone who has spent little time creating and designing experiments in Eprime but has spent a lot of time parsing Eprime text files in R. Therefore, this vignette is not documentation for Eprime software or its data format. Instead, this vignette just outlines this package’s approach to extracting data from Eprime text files.
txt file is a series of frames. Each frame is a list of key-value pairs. Frames are bracketed by special start and stop lines.
Each file begins with a special Header frame. The header is set off by the brackets
*** Header Start*** and
*** Header End***. The fields in the header describe the basic settings of the experiment. A header frame looks like something this (the several-hundred character-long
Clock.Information line has been omitted):
*** Header Start *** VersionPersist: 1 LevelName: Session LevelName: Block LevelName: Trial LevelName: SubTrial LevelName: LogLevel5 LevelName: LogLevel6 LevelName: LogLevel7 LevelName: LogLevel8 LevelName: LogLevel9 LevelName: LogLevel10 Experiment: SAE_MinimalPairDiscrim SessionDate: 07-10-2013 SessionTime: 10:46:22 SessionTimeUtc: 3:46:22 PM Dialect: Yes Subject: 001 ExpTyp: L Age: 00 Gender: X Session: 1 RandomSeed: -261296366 Group: 1 Display.RefreshRate: 60.003 *** Header End ***
The other frames in the text file are LogFrames. These record data about the individual procedures or trials are executed during the experiment. The following lines immediately follow the header from the previous example:
Level: 2 *** LogFrame Start *** Procedure: FamTask item1: bear item2: chair CorrectResponse: bear ImageSide: Left Duration: 885 Familiarization: 1 FamInforcer: 1 ReinforcerImage: Bicycle1 Familiarization.Cycle: 1 Familiarization.Sample: 1 Running: Familiarization FamTarget.RESP: Correct: True *** LogFrame End ***
Trials and procedures can be nested inside of higher-order sections of the experiment. For example, practice trials may be nested inside of a practice block of an experiment. The level of nesting in the above frame is indicated by the number of tabs before each line as well as the
Level line. The only Level 1 frames in an experiment appear to the header frame and the final frame of an experiment (which largely duplicates the header frame).
Some special fields appear in every log-frame. These fields are
[Running] is the value of the running field. In the previous example, these were:
Procedure: FamTask Familiarization.Cycle: 1 Familiarization.Sample: 1 Running: Familiarization Familiarization: 1
When trials are presented in a random order, the
[Running].Sample field records the sequential trial number.
The basic strategy for parsing the Eprime file:
listobject with an added
Each of these steps is handled by some lower level functions. In practice, only two high-level functions are necessary to transform from a text file to a list of
FrameList. Here’s how these two functions can be used to get us the header frame from a text file.
library("rprime") eprime_lists <- FrameList(read_eprime("data/MINP_001L00XS1.txt")) eprime_lists[] #> List of 21 #> $ Eprime.Level : num 1 #> $ Eprime.LevelName : chr "Header_" #> $ Eprime.Basename : chr "MINP_001L00XS1" #> $ Eprime.FrameNumber : chr "1" #> $ Procedure : chr "Header" #> $ Running : chr "Header" #> $ VersionPersist : chr "1" #> $ LevelName : chr "LogLevel10" #> $ Experiment : chr "SAE_MinimalPairDiscrim" #> $ SessionDate : chr "07-10-2013" #> $ SessionTime : chr "10:46:22" #> $ SessionTimeUtc : chr "3:46:22 PM" #> $ Dialect : chr "Yes" #> $ Subject : chr "001" #> $ ExpTyp : chr "L" #> $ Age : chr "00" #> $ Gender : chr "X" #> $ Session : chr "1" #> $ RandomSeed : chr "-261296366" #> $ Group : chr "1" #> $ Display.RefreshRate: chr "60.003" #> - attr(*, "class")= chr [1:2] "EprimeFrame" "list"
Lines from the text file are read into R and stored into a character vector. Here are the first few lines from the example file:
Some things to note about file reading. By default, the enormous
Clock.Information lines are omitted. Also, if the file is not an Eprime
.txt file, a dummy header is created so that the file may be treated like any other like Eprime. The user is warned as this happens.
I chose to use a dummy header instead of raising an error so that code which loads multiple files at once will not fail outright when it encounters a bad file.
The next step in parsing the file is to extract all the frames. This is accomplished by pulling out lines of text that fall between a pair of bracketing lines. When there is no closing bracket, as when an experiment is aborted, a warning is raised and the partial frame is skipped.
# Experiment aborted on trial 3 aborted <- FrameList(read_eprime("data/MP_Block1_001P00XA1.txt")) #> Warning in make_ranges(starts, ends, eprime_log): Incomplete Log Frame found on line 72 #> *** LogFrame Start *** #> TrialList: 3 #> Procedure: TrialProcedure #> ImageL: marmoset1 #> ImageR: girl1 #> Carrier: fin #> Target: ImageR #> AudioStim: AAE_Fin_girl_312_10 #> Attention: AAE_check2_10 #> CarrierDur: 1858 #> AttentionDur: 914
The low-level function for chunking the lines of text is
extract_chunks. During the chunking, some metadata is inserted into the frames as additional
Key: Value lines. These fields are:
Eprime.FrameNumber, the number of the log frame in the file
basenameof the source file
The result of chunking is a list of character vectors. Here’s how the second frame looks after chunking.
chunks <- extract_chunks(exp_lines) chunks[] #>  "\t*** LogFrame Start ***" "\tProcedure: FamTask" #>  "\titem1: bear" "\titem2: chair" #>  "\tCorrectResponse: bear" "\tImageSide: Left" #>  "\tDuration: 885" "\tFamiliarization: 1" #>  "\tFamInforcer: 1" "\tReinforcerImage: Bicycle1" #>  "\tFamiliarization.Cycle: 1" "\tFamiliarization.Sample: 1" #>  "\tRunning: Familiarization" "\tFamTarget.RESP: " #>  "\tCorrect: True" "Eprime.FrameNumber: 2" #>  "Eprime.Basename: MINP_001L00XS1" "\t*** LogFrame End ***" #> attr(,"class") #>  "EprimeChunk" "character"
The data from each log-frame have been stored as character vector in a list. Next, we convert each vector of
"Key: Value" strings into a list of named elements.
EprimeFrame carries out this task.
During this stage, the special fields (noted above) are parsed. The original form of the special fields is:
Running: [Key] [Key]: [Value] [Key].Cycle: [Cycle] [Key].Sample: [Sample]
[Key] values make it harder to merge together data-frames later on, since each unique
[Key] gets its own column name. Therefore, we normalize these fields like so:
[Key]: [Value]line is deleted and stored in the
Eprime.LevelNamefield instead as
[Key].Cycleare renamed to just
One additional field is added,
Eprime.Level, to record the depth of nesting (equal to the number of tabs plus one).
Here is how the second frame appears after this stage of parsing:
EprimeFrame(chunks[]) #> List of 17 #> $ Eprime.Level : num 2 #> $ Eprime.LevelName : chr "Familiarization_1" #> $ Eprime.Basename : chr "MINP_001L00XS1" #> $ Eprime.FrameNumber: chr "2" #> $ Procedure : chr "FamTask" #> $ Running : chr "Familiarization" #> $ item1 : chr "bear" #> $ item2 : chr "chair" #> $ CorrectResponse : chr "bear" #> $ ImageSide : chr "Left" #> $ Duration : chr "885" #> $ FamInforcer : chr "1" #> $ ReinforcerImage : chr "Bicycle1" #> $ Cycle : chr "1" #> $ Sample : chr "1" #> $ FamTarget.RESP : chr "" #> $ Correct : chr "True" #> - attr(*, "class")= chr [1:2] "EprimeFrame" "list"