This is a tool that converts Excel files of a certain structure to JSON files. It watches Excel files for any changes and constantly produces JSON files based on the workbooks.
$ lein deps
$ lein run SOURCE [TARGETDIR]
Where SOURCE
stands either for a directory containing any number of Excel workbooks or a specific Excel workbook; both can be specified either as a relative or absolute path. TARGETDIR
(optional) is the destination directory of the JSON files (defaults to SOURCE
). This will start the watcher which will print out progress as files are modified and scanned.
The watcher can also be disabled via this command line flag:
$ lein run SOURCE [TARGETDIR] --disable-watching
$ lein run -m excel-to-json.gui
To package the gui version into a self-contained jar:
$ lein uberjar excel-to-json.gui
The following data types for values are supported:
-
Number
If the value of the cell parses as an integer or float, it is converted to a JSON number. Integers are generated without decimals and floats with decimals, but in JSON they are the same type.
-
Boolean
Values that are either
"true"
or"false"
(case insensitive) are converted to boolean. -
String
Any other string value is kept as a string.
Data types can also exist inside an array. In that case, every item in the array will be treated as its individual data type. For example, the array a,2,true
will convert to ["a", 2, true]
.
The Excel workbook has to follow a few rules to be parsable. Only sheets names ending with ".json" will be converted to JSON files. The name of the JSON file will be the same as the the sheet name. Thus, a workbook containing three sheets, Example.json, Numbers and Data.json will only produce two files, Example.json
and Data.json
.
Data inside a sheet will be parsed as a table and produces a list of row objects. The following workbook:
Example.json (Sheet 1)
id | property_1 | property_2 |
---|---|---|
foo | 123 | abc |
bar | 345 | def |
Will produce Example.json
containing:
[
{
"id": "foo",
"property_1": 123,
"property_2": "abc"
},
{
"id": "bar",
"property_1": 345,
"property_2": "def"
}
]
Arrays in cells are achieved by annotating the column name with a @
in the end. An optional splitting character can be appended, but ,
is the default.
Individual values are trimmed (leading and trailing space removed) and empty values are discarded.
Example.json (Sheet 1)
id | prop_a@ | prop_b@; |
---|---|---|
foo | a,, 2 ,true | ;test; data |
This sheet will generate Example.json
containing:
[
{
"id": "foo",
"prop_a": [
"a",
2,
true
],
"prop_b": [
"test",
"data"
]
}
]
A column name with dots, will produce a sub tree like structure.
Example.json (Sheet 1)
id | prop.a | prop.b |
---|---|---|
foo | 19 | 21 |
This sheet will generate Example.json
containing:
[
{
"id": "foo",
"prop": {
"a": 19,
"b": 21
}
}
]
Sub properties can also be generated with subsequent sheets. A naming scheme can be employed to split up the generation of one file into several sheets: sheets ending with a hash (#
) and an identifier will be grouped into the same JSON file. For example, Example.json, Example.json#traits and Example.json#properties will all be merged into a single file, Example.json
. The value of the identifier is ignored.
When using multiple sheets to generate one file, the subsequent sheets will be assumed to carry sub properties in their second columns.
Example.json (Sheet 1)
id |
---|
foo |
bar |
Example.json#traits (Sheet 2)
id | traits | a | b |
---|---|---|---|
foo | first | 1 | 9 |
foo | second | 2 | 8 |
foo | third | 3 | 7 |
bar | first | 4 | 6 |
bar | second | 5 | 5 |
These will together generate Example.json
containing:
[
{
"id": "foo",
"traits": {
"first": {
"a": 1,
"b": 9
},
"second": {
"a": 2,
"b": 8
},
"third": {
"a": 3,
"b": 7
}
}
},
{
"id": "bar",
"traits": {
"first": {
"a": 4,
"b": 6
},
"second": {
"a": 5,
"b": 5
}
}
}
]
The column traits will be indexed by the values in that column, and the following colunmns will be group under the resptive key in traits.
Example.json (Sheet 1)
id |
---|
foo |
bar |
Example.json#properties (Sheet 2)
id | properties | prop_a | prop_b |
---|---|---|---|
foo | baz_1 | 100 | |
foo | baz_2 | 200 | |
foo | baz_3 | 300 | |
bar | baz_4 | 400 | |
bar | baz_5 | 500 |
[
{
"id": "foo",
"properties": [
{
"prop_a": "baz_1",
"prop_b": 100
},
{
"prop_a": "baz_2",
"prop_b": 200
},
{
"prop_a": "baz_3",
"prop_b": 300
}
]
},
{
"id": "bar",
"properties": [
{
"prop_a": "baz_4",
"prop_b": 400
},
{
"prop_a": "baz_5",
"prop_b": 500
}
]
}
]
The tool interprets any sheet with a trailing @
character in the name as a
single JSON object. Only one sheet with the same file name can exist. It is not
possible to have any text after the @
character in the sheet name.
A single object sheet consists of two columns, keys and values. Parsing generates one JSON object that is the sole contents of the final JSON file. Keys are of the same data format as the column headers in normal sheets. Value cells obey the rules in the same way as in normal sheets.
A header row must exist in a single object sheet. The header row must have a value in the first cell (the tool counts all rows without values in the first cell as extra data and ignores them).
global.json@ (Sheet 1)
ignored | ignored |
---|---|
foo | 1 |
bar.baz | test |
bar.qux@ | a,b |
This sheet will generate global.json
containing:
{
"foo": 1,
"bar": {
"baz": "test",
"qux": ["a", "b"]
}
}
Extra data can be stored in a sheet that is exported to JSON. There are two ways to include this data:
-
Keep the first cell in a row empty.
This means that any row that does not have an primary key is ignored. This is also true for rows above the header row.
-
Keep the header in the header row empty.
If the header row is missing a header (except the first cell, which must be the primary key), the columns is ignored.
In both cases, the other cells in the rows and columns can still contain data that can be included in formulas, it will just not be put into the JSON.
id | property_1 | property_2 | |
---|---|---|---|
foo | 123 | this column will be ignored | abc |
bar | 345 | blah | def |
this row will be ignored | blah | 1 |
Example.json (Sheet 1)
id | property_1 | property_2 |
---|---|---|
foo | 123 | abc |
bar | 345 | def |
Example.json#traits (Sheet 2)
id | traits | property_a | property_b | property_c.qux |
---|---|---|---|---|
foo | first | a | 9 | 11 |
foo | second | b | 8 | 22 |
foo | third | c | 7 | 33 |
bar | first | d | 6 | 44 |
bar | second | e | 5 | 55 |
Example.json#properties (Sheet 3)
id | properties | prop_a | prop_b |
---|---|---|---|
foo | baz_1 | 100 | |
foo | baz_2 | 200 | |
foo | baz_3 | 300 | |
bar | baz_4 | 400 | |
bar | baz_5 | 500 |
Results in the following content for Example.json
:
[
{
"id": "foo",
"property_1": 123,
"property_2": "abc",
"traits": {
"third": {
"property_c": {
"qux": 33
},
"property_b": 7,
"property_a": "c"
},
"second": {
"property_c": {
"qux": 22
},
"property_b": 8,
"property_a": "b"
},
"first": {
"property_c": {
"qux": 11
},
"property_b": 9,
"property_a": "a"
}
},
"properties": [
{
"prop_b": 100,
"prop_a": "baz_1"
},
{
"prop_b": 200,
"prop_a": "baz_2"
},
{
"prop_b": 300,
"prop_a": "baz_3"
}
]
},
{
"id": "bar",
"property_1": 345,
"property_2": "def",
"traits": {
"second": {
"property_c": {
"qux": 55
},
"property_b": 6,
"property_a": "f"
},
"first": {
"property_c": {
"qux": 44
},
"property_b": 6,
"property_a": "d"
}
},
"properties": [
{
"prop_b": 400,
"prop_a": "baz_4"
},
{
"prop_b": 500,
"prop_a": "baz_5"
}
]
}
]