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Overview

TaDa provides a set of simple but powerful operations on rows of data. A full manual is available online: https://github.com/ntjess/typst-tada/blob/v0.1.0/docs/manual.pdf

Key features include:

  • Arithmetic expressions: Row-wise operations are as simple as string expressions with field names

  • Aggregation: Any function that operates on an array of values can perform row-wise or column-wise aggregation

  • Data representation: Handle displaying currencies, floats, integers, and more with ease and arbitrary customization

Note: This library is in early development. The API is subject to change especially as typst adds more support for user-defined types. Backwards compatibility is not guaranteed! Handling of field info, value types, and more may change substantially with more user feedback.

Importing

TaDa can be imported as follows:

From the official packages repository (recommended):

#import "@preview/tada:0.1.0"

From the source code (not recommended)

Option 1: You can clone the package directly into your project directory:

# In your project directory
git clone https://github.com/ntjess/typst-tada.git tada

Then import the functionality with

#import "./tada/lib.typ" 

Option 2: If Python is available on your system, use showman to install TaDa in typst’s local directory:

# Anywhere on your system
  git clone https://github.com/ntjess/typst-tada.git
  cd typst-tada
  
  # Can be done in a virtual environment
  pip install "git+https://github.com/ntjess/showman.git"
  showman package ./typst.toml
  

Now, TaDa is available under the local namespace:

#import "@local/tada:0.1.0"

Table adjustment

Creation

TaDa provides three main ways to construct tables – from columns, rows, or records.

  • Columns are a dictionary of field names to column values. Alternatively, a 2D array of columns can be passed to from-columns, where values.at(0) is a column (belongs to one field).

  • Records are a 1D array of dictionaries where each dictionary is a row.

  • Rows are a 2D array where values.at(0) is a row (has one value for each field). Note that if rows are given without field names, they default to (0, 1, ..$n$).

#let column-data = (
  name: ("Bread", "Milk", "Eggs"),
  price: (1.25, 2.50, 1.50),
  quantity: (2, 1, 3),
)
#let record-data = (
  (name: "Bread", price: 1.25, quantity: 2),
  (name: "Milk", price: 2.50, quantity: 1),
  (name: "Eggs", price: 1.50, quantity: 3),
)
#let row-data = (
  ("Bread", 1.25, 2),
  ("Milk", 2.50, 1),
  ("Eggs", 1.50, 3),
)

#import tada: TableData
#let td = TableData(data: column-data)
// Equivalent to:
#let td2 = tada.from-records(record-data)
// _Not_ equivalent to (since field names are unknown):
#let td3 = tada.from-rows(row-data)

#to-tablex(td)
#to-tablex(td2)
#to-tablex(td3)

Example 1

Title formatting

You can pass any content as a field’s title. Note: if you pass a string, it will be evaluated as markup.

#let fmt(it) = {
  heading(outlined: false,
    upper(it.at(0))
    + it.slice(1).replace("_", " ")
  )
}

#let titles = (
  // As a function
  name: (title: fmt),
  // As a string
  quantity: (title: fmt("Qty")),
)
#let td = TableData(..td, field-info: titles)

#to-tablex(td)

Example 2

Adapting default behavior

You can specify defaults for any field not explicitly populated by passing information to field-defaults. Observe in the last example that price was not given a title. We can indicate it should be formatted the same as name by passing title: fmt to field-defaults. Note that any field that is explicitly given a value will not be affected by field-defaults (i.e., quantity will retain its string title “Qty”)

#let defaults = (title: fmt)
#let td = TableData(..td, field-defaults: defaults)
#to-tablex(td)

Example 3

Using __index

TaDa will automatically add an __index field to each row that is hidden by default. If you want it displayed, update its information to set hide: false:

// Use the helper function `update-fields` to update multiple fields
// and/or attributes
#import tada: update-fields
#let td = update-fields(
  td, __index: (hide: false, title: "\#")
)
// You can also insert attributes directly:
// #td.field-info.__index.insert("hide", false)
// etc.
#to-tablex(td)

Example 4

Value formatting

type

Type information can have attached metadata that specifies alignment, display formats, and more. Available types and their metadata are:

  • string : (default-value: "", align: left)

  • content : (display: , align: left)

  • float : (align: right)

  • integer : (align: right)

  • percent : (display: , align: right)

  • index : (align: right)

While adding your own default types is not yet supported, you can simply defined a dictionary of specifications and pass its keys to the field

#let currency-info = (
  display: tada.display.format-usd, align: right
)
#td.field-info.insert("price", (type: "currency"))
#let td = TableData(..td, type-info: ("currency": currency-info))
#to-tablex(td)

Example 5

Transposing

transpose is supported, but keep in mind if columns have different types, an error will be a frequent result. To avoid the error, explicitly pass ignore-types: true. You can choose whether to keep field names as an additional column by passing a string to fields-name that is evaluated as markup:

#to-tablex(
  tada.transpose(
    td, ignore-types: true, fields-name: ""
  )
)

Example 6

display

If your type is not available or you want to customize its display, pass a display function that formats the value, or a string that accesses value in its scope:

#td.field-info.at("quantity").insert(
  "display",
  val => ("/", "One", "Two", "Three").at(val),
)

#let td = TableData(..td)
#to-tablex(td)

Example 7

align etc.

You can pass align and width to a given field’s metadata to determine how content aligns in the cell and how much horizontal space it takes up. In the future, more tablex setup arguments will be accepted.

#let adjusted = update-fields(
  td, name: (align: center, width: 1.4in)
)
#to-tablex(adjusted)

Example 8

Deeper tablex customization

TaDa uses tablex to display the table. So any argument that tablex accepts can be passed to TableData as well:

#let mapper = (index, row) => {
  let fill = if index == 0 {rgb("#8888")} else {none}
  row.map(cell => (..cell, fill: fill))
}
#let td = TableData(
  ..td,
  tablex-kwargs: (
    map-rows: mapper, auto-vlines: false
  ),
)
#to-tablex(td)

Example 9

Subselection

You can select a subset of fields or rows to display:

#import tada: subset
#to-tablex(
  subset(td, indexes: (0,2), fields: ("name", "price"))
)

Example 10

Note that indexes is based on the table’s __index column, not it’s positional index within the table:

#let td2 = td
#td2.data.insert("__index", (1, 2, 2))
#to-tablex(
  subset(td2, indexes: 2, fields: ("__index", "name"))
)

Example 11

Rows can also be selected by whether they fulfill a field condition:

#to-tablex(
  tada.filter(td, expression: "price < 1.5")
)

Example 12

Concatenation

Concatenating rows and columns are both supported operations, but only in the simple sense of stacking the data. Currently, there is no ability to join on a field or otherwise intelligently merge data.

  • axis: 0 places new rows below current rows

  • axis: 1 places new columns to the right of current columns

  • Unless you specify a fill value for missing values, the function will panic if the tables do not match exactly along their concatenation axis.

  • You cannot stack with axis: 1 unless every column has a unique field name.

#import tada: stack

#let td2 = TableData(
  data: (
    name: ("Cheese", "Butter"),
    price: (2.50, 1.75),
  )
)
#let td3 = TableData(
  data: (
    rating: (4.5, 3.5, 5.0, 4.0, 2.5),
  )
)

// This would fail without specifying the fill
// since `quantity` is missing from `td2`
#let stack-a = stack(td, td2, missing-fill: 0)
#let stack-b = stack(stack-a, td3, axis: 1)
#to-tablex(stack-b)

Example 13

Operations

Expressions

The easiest way to leverage TaDa’s flexibility is through expressions. They can be strings that treat field names as variables, or functions that take keyword-only arguments.

  • Note! When passing functions, every field is passed as a named argument to the function. So, make sure to capture unused fields with ..rest (the name is unimportant) to avoid errors.
#let make-dict(field, expression) = {
  let out = (:)
  out.insert(
    field,
    (expression: expression, type: "currency"),
  )
  out
}

#let td = update-fields(
  td, ..make-dict("total", "price * quantity" )
)

#let tax-expr(total: none, ..rest) = { total * 0.2 }
#let taxed = update-fields(
  td, ..make-dict("tax", tax-expr),
)

#to-tablex(
  subset(taxed, fields: ("name", "total", "tax"))
)

Example 14

Chaining

It is inconvenient to require several temporary variables as above, or deep function nesting, to perform multiple operations on a table. TaDa provides a chain function to make this easier. Furthermore, when you need to compute several fields at once and don’t need extra field information, you can use add-expressions as a shorthand:

#import tada: chain, add-expressions
#let totals = chain(td,
  add-expressions.with(
    total: "price * quantity",
    tax: "total * 0.2",
    after-tax: "total + tax",
  ),
  subset.with(
    fields: ("name", "total", "after-tax")
  ),
  // Add type information
  update-fields.with(
    after-tax: (type: "currency", title: fmt("w/ Tax")),
  ),
)
#to-tablex(totals)

Example 15

Sorting

You can sort by ascending/descending values of any field, or provide your own transformation function to the key argument to customize behavior further:

#import tada: sort-values
#to-tablex(sort-values(
  td, by: "quantity", descending: true
))

Example 16

Aggregation

Column-wise reduction is supported through agg, using either functions or string expressions:

#import tada: agg, item
#let grand-total = chain(
  totals,
  agg.with(after-tax: array.sum),
  // use "item" to extract exactly one element
  item
)
// "Output" is a helper function just for these docs.
// It is not necessary in your code.
#output[
  *Grand total: #tada.display.format-usd(grand-total)*
]

Example 17

It is also easy to aggregate several expressions at once:

#let agg-exprs = (
  "# items": "quantity.sum()",
  "Longest name": "[#name.sorted(key: str.len).at(-1)]",
)
#let agg-td = tada.agg(td, ..agg-exprs)
#to-tablex(agg-td)

Example 18

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