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Extract data from json objects into CSV

Project description

jsonToCsv

Converts json data to csv

Module

The primary public module is json_to_csv.**JsonToCsv**

The constructor requires only the format string [formatStr] ( a string written in a simple specific meta-language used to define the pattern for extraction ).

You may, however, choose to define an alternate value to represent unreachable or defined-as-null fields [nullValue]

Extracting Data

Once you’ve written your formatStr and created the JsonToCsv object, you’re ready to start parsing!

convertToCsv

The most basic and direct method is the “convertToCsv” function. You can pass in a string (raw data) or a dict (already parsed e.g. by ‘json’ module ), and you’ll be output the csv lines, ready to be passed to the “print” function.

If you set the optional parameter “asList” to True (default is False), instead of being returned a giant string, you’ll get a list where each element represents a line.

extractData

Likely however, you don’t just need to convert it directly to csv if you are working with the module (it is recommended if that is the case, i.e. if you have no extra processing or analysis or whatever required, that you use the provided “jsonToCsv” function).

Some more complicated use-cases where “extractData” is required are:

  • Creating alternate formats of output (like TSV or a text table, or plugging into a GUI)

  • Analysis of the data, i.e. filtering or modifying

  • Joining data from multiple JSON entries (see that section for more info)

  • Whatever you need to do

extractData works the same way as convertToCsv, that is you can pass in a string of a json response, or a dict (the already converted object by json module).

dataToStr

For many of the use-cases where you need to post-process or post-filter the data or whatever, you will eventually want to convert it to a printable string.

This is a function that does just that; you pass in the list-of-lists extractData returns, and you get a complete string returned, ready-to-go for the print function.

findDuplicates

This function can help you identify when multiple lines contain the same data in the same field.

You pass in the data extracted by extractData, pick a zero-origin “fieldNum”, which dictates which field to check on each line for duplicate values.

If the “flat” argument is False (default), the output is a map where the keys are all the field values which had duplicate entries.

If “flat” is True, the output is just a list of list-of field values. Basically, the data from extractData, but ONLY included if it has a duplicate in the chosen field.

joinCsv

joinCsv will take in two sets of list<list<str>> (i.e. returned frmo “extractData”), and two 0-origin numbers, joinFieldNum1 (what is the index of the “join field” in the first dataset) and joinFieldNum2.

So for example, you may have two sets of data, both describing people. “Social Security Number” could be the 4th field from zero on one of them, and the 0th on another dataset. So if you want to combine these two datasets, you can use this method to do so, bt joining those fields (i.e. any instances where there’s a field match between the two joinFieldNum columns, that index is removed from the second dataset, sand the second dataset is appended to the first.

multiJoinCsv

Same as joinCsv, but joinCsv allows no duplicates within a dataset itself. So going with the data above, imagine if the same social security number had two people’s names in one dataset…. well which one is rght? A computer can’t determine that.

So this function will give a “best effort”, in the above example, you’d get person X’s dataset attached to whoemver had that social security number listed. So if you have a field duplicated twice in both csvData1 and csvData2, you’ll end up with 4 lines total:

  • A1 B1

  • A2 B1

  • A1 B2

  • A2 B3

This matches very eagerly, but you may start to get some invalid data at this point.

TODO: write more.

TODO: finish

Module PyDoc

You can access the pydoc here: http://htmlpreview.github.io/?https://github.com/kata198/jsonToCsv/blob/master/doc/index.html

Module Usage Example

See: https://github.com/kata198/jsonToCsv/blob/master/example.py .

For a basic example of using the module directly for extraction and reformatting into various formats (CSV, TSV, a text table)

Tool

Usage: jsonToCsv [format str]

Formats a json string ( delivered via stdin ) to csv, based on provided format str.

Format String

Format str:

The format str is a series of operations and keys, plus a single “line item”

Keys:

Every key name listed in the format string is quoted with double-quotes.

If the key is prefixed with an operation, it is used to REACH a value.

If a key is NOT prefixed with an operation, it becomes a value printed.

All keys to be printed, of course, must be AFTER the line item.

Unless you are using an op to change level, the quoted key should be followed

by a comma to separate.

Examples:

“hostname” # Print key hostname at current level

.”hostname”[ # The . (map access) operator applied on the “hostname” key

“hostname”, “cheese” # Two keys at this current level

Line Item:

The “line item” is the key iterated-over to produce each line of the csv.

The line item is given with the ‘+’ sign before a key.

All keys to be printed must be after the line item, and you may only have

one line item.

Example:

+”instances”[ # For each item in the array at current level given by key

# “instances”, we will generate a csv line.

Map Access:

The “map access” operator means to access a key at the current level

and progresses the ‘current level’ to include this key access.

A map access is given with the ‘.’ operator before a key

Example:

.”Data”[ # Descend the ‘current level’ by the key “Data”

List-Map Access:

The “list-map access” operator means to search a list of maps at the current level,

found under the given key, until a key in that map matches a given value.

You use the “/” operator prefix to the key, and within the square bracket define a comparitive op.

It will stop on the FIRST match that it finds. Duplicates are not supported because it would create

an arbitrary number of fields (and csv is fixed-field)

For example, if you had a key “attributes” which held a bunch of maps like {“key” : … , “value” : … }

and you want select the map where “key” == “color”, it would look like this:

/”attributes”[“key”=”color”

Moving Between Levels:

You’ll notice that every op descends a level, represented by being followed by a square bracket, “[“.

If you want to ascend back up to the previous level, simply close the square bracket “]”.

All open brackets must be closed before the format string ends.

Whitespace Characters:

Spaces and newlines are generally ignored, and can be used to make things look nice.

Commas:

Commas should be used to separate items on the same level, so after a quoted-key for printing, and after a close-bracket “]” if more items follow on that upper level.

Order:

Keys are printed as found left-to-right in the format string.

You can descend into levels, back up, print keys, then descend back into those levels as many

times as you like.

Nulls:

If a value in the json map is “null” or undefined, an empty string is given for the value.

If there is an error following the format string to a key (like a missing key, or bad type),

you can pass the ‘–debug’ flag to print on stderr WHY it returned null, each time that it does.

Case sensitive:

All keys are case sensitive.

FULL EXAMPLE:

.”Data”[ +”Instances”[ “hostname”, /”attrs”[“key”=”role” “value”], /”attrs”[“key”=”created_at” “value”, “who_set”], .”Performance”[ “cpus”, “memory” ] ] ]

Explanation:

The given json object will first be descended by the “Data” key, where a map is expected.

In this map, “Instances” will be the “line item”, i.e. we will iterate over each item in the “Instances” list to generate each line of the csv.

So, for each map in “Instances”:

  • We print the “hostname” key as the first csv element

  • We descend into a list of maps under the key “attrs”,

  • Search for where one of those maps has an entry “key” with the value “role”, and we print the value of the “value” key of that map as the second csv element.

Then, we return to previous level.

We descend again into that list of maps under the key “attrs”,

  • Search for where one of those maps has an entry “key” with the value “created_at”, and we print the value of the “value” key of that map as the third csv element.

  • We then print value of the “who_set” key of that same map as the fourth csv element.

Then, we return to the previous level

We then descend into a map under the key ‘Performance’

  • we print the value of the key “cpus” at this level as the fifth csv element.

  • we print the value of the key “memory” at this level as the sixth csv element.

Then, we return to the previous level

We return to the previous level

(we are done iterating at this point)

We return to the previous level

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