Metadata-Version: 2.4
Name: refspy
Version: 0.11.4
Summary: A Python package for working with biblical references in ordinary human text.
Author-email: Nigel Chapman <nigel@chapman.id.au>
Project-URL: Homepage, https://github.com/eukras/refspy
Project-URL: Issues, https://github.com/eukras/refspy/issues
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python :: 3
Classifier: Topic :: Religion
Classifier: Topic :: Text Processing :: Indexing
Requires-Python: >=3.11
Description-Content-Type: text/markdown
Requires-Dist: pydantic>=2.7.1

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Refspy is a Python package for working with biblical references in human text.

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# README

- [eukras/refspy on Github](https://github.com/eukras/refspy) | [Report Issue](https://github.com/eukras/refspy/issues) | [Contact Author](mailto:nigel@chapman.id.au)
- [refspy on PyPI](https://pypi.org/project/refspy/) &rarr; `pip install refspy`.
- [refspy on ReadTheDocs](https://refspy.readthedocs.io/en/latest/refspy.html) &rarr; See `docs/` dir.
- [CHANGES.md](https://github.com/eukras/refspy/blob/master/CHANGES.md) | [TODO.md](https://github.com/eukras/refspy/blob/master/TODO.md)

## Online Demonstration

[Bible Rocket](https://www.chapman.id.au/bible-rocket) is an online demonstration of most of the features of the `refspy`
package. You can use to make indexes from any text.

[![Bible Rocket](https://github.com/eukras/refspy/raw/master/media/bible-rocket.png)](https://github.com/eukras/refspy/raw/master/media/bible-rocket.png)

It will also graph the distribution of references found.

[![Reference Distribution](https://github.com/eukras/refspy/raw/master/media/the-westminster-confession-of-faith-1646.svg)](https://github.com/eukras/refspy/raw/master/media/the-westminster-confession-of-faith-1646.svg)

## Multi-language Demonstration

The script [demo.py](https://github.com/eukras/refspy/blob/master/demo.py) will generate file like `demo/en_US.html` for all languages, which are used to make the following screenshots.

|                                                              `en_US` ([@eukras](https://github.com/eukras))                                                               |                                                             `fr_FR` ([@a2ohm](https://www.github.com/a2ohm))                                                              |
| :-----------------------------------------------------------------------------------------------------------------------------------------------------------------------: | :-----------------------------------------------------------------------------------------------------------------------------------------------------------------------: |
| [![RefSpy Demo: en_US](https://github.com/eukras/refspy/raw/master/media/refspy-demo-en_US.png)](https://github.com/eukras/refspy/raw/master/media/refspy-demo-en_US.png) | [![RefSpy Demo: fr_FR](https://github.com/eukras/refspy/raw/master/media/refspy-demo-fr_FR.png)](https://github.com/eukras/refspy/raw/master/media/refspy-demo-fr_FR.png) |

## Features

- Find biblical references matching human writing styles (spaces, commas, prefixes, abbreviations)
- Match international and European syntaxes (Matt 5:3,7-9 vs Matt 5,3.7-9).

- Use contextual book references to interpret partial references (e.g. "in Romans see 5:4").

- Sequentially replace matched references.
- Compile indexes of all matched references, or all verse ranges covered; list the most referenced chapters (hotspots) in a list of references.
- Format references as names, abbreviated names, and URL parameters.
- Generate HTML links of any required format.
- Construct and manipulate verses, ranges, and references.
- Compare and sort verses, ranges, and references.
- Collate references by library and book for iteration.
- Test if references or ranges contain, overlap, or adjoin one another; merge overlapping references and join adjacent ones.
- Store verses as `UNSIGNED INT(12)` for database indexing.
- Generally follow established conventions, so SBL style in English.

Not implemented:

- Old style references: Rev. 2 and 3, Matt. 28. 20; Acts 1. 8, 2 Cor. 9. 1-12 (1930s). Matt. xxv. 46. Dan. xii. 2. 2 Thes. i. 7-10. Ephes. iv. 18 (1790s).

# HOWTO

## The Reference Manager

Initialising `refspy` with corpus and language names will return a reference
manager. This provides a single convenient interface for the whole library.
By default, refspy provides a Protestant canon in English.

```python
from refspy import refspy
__ = refspy()
```

Or, to create specific canons:

```python
from refspy.languages.english import ENGLISH
from refspy.languages.french import FRENCH
from refspy.libraries.en_US import DC, DC_ORTHODOX, NT, OT
from refspy.manager import Manager

# Protestant
__ = refspy('protestant', 'en_US')
__ = Manager(libraries=[OT, NT], language=ENGLISH)

# Catholic
__ = refspy('catholic', 'fr_FR')
__ = Manager(libraries=[OT, DC, NT], language=FRENCH)

# Orthodox
__ = refspy('orthodox', 'en_US')
__ = Manager(libraries=[OT, DC, DC_ORTHODOX, NT], language=ENGLISH)
```

Additionally, a third argument can specify international or European syntax
for references, that is, whether to write `Matt 5:3,7-9` or `Matt 5,3.7-9`.
If not argument is given, the default syntax for the specified language will be
used.

The file `refspy/setup.py` shows valid names for libraries and languages.
There's only English initially. The `en_US` libraries conform to the SBL Style
Guide for book names and abbreviations. Other libraries can be defined and
added locally following the structure in `refspy.libraries.en_US`. If they
follow established academic usage where possible, please contribute them to the
project.

### Creating references

Shortcut functions can create simple references using any book name,
abbreviation, or alias in the libraries list. Firstly, we can create
references from strings:

```python
ref = __.r('Rom 2:6,9,1,2')
```

We can construct references more programmatically with `__.bcv()`:

```python
assert __.name(__.bcv('Rom')) == 'Romans'
assert __.name(__.bcv('Rom', 2)) == 'Romans 2'
assert __.name(__.bcv('Rom', 2, 2)) == 'Romans 2:2'
assert __.name(__.bcv('Rom', 2, 2, 3)) == 'Romans 2:2-3'
```

Or `__.bcr()` to specify book, chapter and verse ranges:

```python
assert __.name(__.bcr('Rom', 2, [(2, 3), 7])) == "Romans 2:2-3,7"
```

### Options

Both `refspy()` and `refspy.matcher.Matcher()` take the following optional
argument, which modify this usage. To obtain more fine-grained control of
aliasing, make your own copy of `refspy.libraries.en_US` and use it with
`Manager(libraries=[MY_LIB])`.

#### `include_two_letter_aliases=True` (default: `True`)

Allow two-letter book aliases to be matched: e.g. `Ge` for Genesis or `1 Ti`
for First Timothy. Note short names given as `abbrevs` (like `Ps`)
will not be filtered like aliases are. Aliases (e.g. `Is`, `Am`) that are also
common words will be only be matched as part of references (So `Am 3:1` but
not `Am`); the list of `ambiguous_aliases` for a language is supplied in the
language file, e.g. `refspy/languages/english.py`.

```
from refspy import refspy
__ = refspy(include_two_letter_aliases=True)
match, ref = __.first_reference('2Ti 1')
assert ref == __.bcv('2 Tim', 1)
```

### Formatting references

```python
ref = __.r('Rom 2:3-4,7')

assert __.name(ref) == 'Romans 2:3–4, 7'
assert __.book(ref) == 'Romans'
assert __.numbers(ref) == '2:3–4, 7'
assert __.abbrev_name(ref) == 'Rom 2:3–4, 7'
assert __.abbrev_book(ref) == 'Rom'
assert __.abbrev_numbers(ref) == '2:3–4, 7'
```

Some utility functions can be used to turn these into usable URL parameters if needed:

```python
from refspy.utils import url_param, url_escape

ref = __.r('2 Cor 3:4-5')
assert url_param(__.abbrev_name(ref)) == '2+cor+3.4-5'
assert url_escape(__.abbrev_name(ref)) == '2%20Cor%203%3A4-5'
```

In general, though, templating is a better way to make links.

### Templating references

```python
bible_gateway = (
    '<a href="https://www.biblegateway.com/passage/'
  + '?search={LINK}&version=NRSVA">'
  + '{NAME}'
  + '</a>'
)
ref = __.r('2 Cor 3:4-5')
link = __.template(reference, bible_gateway)

assert link.find('2%20Cor%203%3A4-5') > 0
assert link.find('2 Corinthians 3:4–5') > 0
```

The full list of template fields is:

| Field                  | Output                      |
| ---------------------- | --------------------------- |
| `{LINK}`               | `1%20Cor%202%3A3-4`         |
| `{NAME}`               | `1 Corinthians 2:3–4`       |
| `{BOOK}`               | `1 Corinthians`             |
| `{NUMBERS}`            | `2:3–4`                     |
| `{ASCII_NUMBERS}`      | `2:3-4`                     |
| `{ABBREV_NAME}`        | `1 Cor 2:3–4`               |
| `{ABBREV_BOOK}`        | `1 Cor`                     |
| `{ABBREV_NUMBERS}`     | `2:3–4`                     |
| `{ESC_NAME}`           | `1%20Corinthians%202%3A3-4` |
| `{ESC_BOOK}`           | `1%20Corinthians`           |
| `{ESC_NUMBERS}`        | `2%3A3-4`                   |
| `{ESC_ABBREV_NAME}`    | `1%20Cor%202%3A3-4`         |
| `{ESC_ABBREV_BOOK}`    | `1%20Cor`                   |
| `{ESC_ABBREV_NUMBERS}` | `2%3A3-4`                   |
| `{PARAM_NAME}`         | `1+cor+2.3-4`               |
| `{PARAM_BOOK}`         | `1+cor`                     |
| `{PARAM_NUMBERS}`      | `2.3-4`                     |

The `{LINK}` field is like `{ESC_ABBREV_NAME}`, but will use English-style
verse formatting with any language, which suits linking to sites like
Bible Gateway.

Templates can be passed as optional arguments to other rendering functions, say
to generate links within indexes.

```python
__.make_index(references, template=bible_gateway)
```

### Comparing references

A reference can be a set of any valid verses and verse ranges spread across multiple books or even libraries.

```python
rom_2 = __.r('Rom 2')
rom_4 = __.r('Rom 4')
rom_4a = __.bc('rom', 4)

assert rom_2 < rom_4
assert not rom_2 >= rom_4
assert rom_4 == rom_4a
```

Because references can be compared using the `<` operator, they can also be sorted without any special functions, and used in `min()` and `max()`.

```python
assert __.sort_references([rom_4, rom_2]) == [rom_2, rom_4]
assert sorted([rom_4, rom_2]) == [rom_2, rom_4]  # <-- Same
assert min([rom_4, rom_2]) == rom_2
```

### Contains, Overlaps, Adjoins

We will commonly want to know if one reference `contains()`, or `overlaps()` another. The `adjoins()` function works out adjacency for chapters and verses, but note it is limited by not knowing the lengths of chapters.

```python
gen1 = __.r('Gen 1')
gen2 = __.r('Gen 2')
gen1_22_23 = __.r('Gen 1:22-23')
gen1_24_28 = __.r('Gen 1:24-28')

assert gen1.contains(gen1_22_23)
assert gen1_22_23.overlaps(gen1)
assert gen1_22_23.adjoins(gen1_24_28)
assert gen1.adjoins(gen2)
assert not gen1.overlaps(gen2)
```

## Sort, Merge, and Combine

References can be simplified by merging overlapping ranges and combining those
that are adjacent.

```python
assert __.merge_references([gen1_22_23, gen1]) == gen1
assert __.combine_references([gen1, gen2]) == __.r('Gen 1-2')
assert __.combine_references([gen1_22_23, gen1_24_28]) == __.r('Gen 1:22-28')
```

Under the hood, these methods just join the range lists together and merge or
combine them into a new reference. (Note the `*` operator to unpack lists into
arguments for `reference()`.)

```python
from refspy.range import merge_ranges, combine_ranges

assert reference(*merge_ranges(ranges)) == __.merge_references([reference(*ranges)])
assert reference(*combine_ranges(ranges)) == __.combine_references([reference(*ranges)])
```

## Manipulating references

Among other transformations, references can be turned into their (first) book
objects or references to just their books or chapters.

```python
ref1 = __.ref('Rom 2:3-4,7')

assert __.get_book(ref1).chapters == 16
assert __.name(ref1.book_reference()) == 'Romans'
assert __.name(ref1.chapter_reference()) == 'Romans 2'
```

### Navigating references

```python
assert __.next_chapter(rom_2) == rom_3
assert __.prev_chapter(rom_2) == rom_1
assert __.prev_chapter(rom_1) == acts_28
assert __.prev_chapter(matt_1) is None
```

To create chapter references:

```python
from refspy.libraries.en_US import NT

nt_chapter_refs_ = [
  __.bcv(book.name, ch)
  for ch in range(1, book.chapters)
  for book in NT.books
]
```

### Matching references in text

To find references in text and print HTML links for them:

```python
url = 'https://www.biblegateway.com/passage/?search=%s&version=NRSVA"

text = "Rom 1; 1 Cor 8:3,4; Rev 22:3-4"

strs, refs = __.find_references(text)
for match_str, ref in zip(strs, refs):
   print(f"{match_str} -> {url % __.param(ref)}")
```

### Replacing references in text

To produce the demo image above, we use the `sequential_replace` function from `refspy/utils`:

```python
from refspy.utils import sequential_replace

matches = __.find_references(text, include_books=True)
strs, tags = [], []
for match_str, ref in matches:
    strs.append(match_str)
    if ref.is_book():
        tags.append(f'<span class="yellow">{match_str}</span>')
    else:
        tags.append(
            f'<span class="green">{match_str}</span><sup>{__.abbrev(ref)}</sup>'
        )
html = sequential_replace(text, strs, tags)}
```

### Collating and Indexing

To produce the index for the demo image above:

```python
matches = __.find_references(text)

index = []
for library, book_collation in __.collate(
    sorted([ref for _, ref in matches])
):
    for book, reference_list in book_collation:
        new_reference = __.merge(reference_list)
        index.append(__.abbrev(new_reference))

html_list = "; ".join(index)
```

# Internals

```bash
github.com/AlDanial/cloc v 2.04  T=0.04 s (1285.4 files/s, 171816.9 lines/s)
-------------------------------------------------------------------------------
Language                     files          blank        comment           code
-------------------------------------------------------------------------------
Python                          44            933           1122           4396
Markdown                         6            177              0            519
TOML                             1              5              0             35
Text                             3              1              0             30
-------------------------------------------------------------------------------
SUM:                            54           1116           1122           4980
-------------------------------------------------------------------------------
```

## Glossary

`Book`, `Format`, `Index`, `Language`, `Library`, `Number`, `Range`,
`Reference`, and `Verse` are Pydantic types that will raise ValueErrors if
initialised with bad data, say if a verse has Numbers outside the range
`0..999`, or if a Range has a start verse that is greater than its end verse.
These appear in the models and types folders.

- **Book**. A book has id, name, abbrev, aliases, and chapters. No verse counts.
- **Format**. The Format objects define what properties and characters to use when formatting references for various purposes.
- **Index**. An integer which results from expanding a verse by powers of 1000; `verse(1, 7, 16, 1)` becomes the integer `1007016001`. Provided for database indexing if required.
- **Language**. A language has verse_markers (e.g. `v.` and `.vv.`), ambiguous_aliases (e.g. `Is` and `Am`, which are also words), and number prefixes (e.g. `Second` and `II` for `2`).
- **Library**. A library has id, name, abbrev, and a list of Books. See e.g. `libraries/en_US.py`. Library IDs are spaced out in a roughly historical order: OT is 200, NT is 400.
- **Number**. An integer `1..999`. We assume verses/chapters/books/libraries are limited to this size. This may need modifying to accommodate, say, _zero verses_ in the Septuagint.
- **Range**. A pair of `(start, end)` verses; `1 Cor 16:1-2` becomes `range(verse(400, 7, 16, 1), verse(400, 7, 16, 2))`.
- **Reference**. A list of ranges; `1 Cor 16:1-2,6` becomes `reference([range(verse(400, 7, 16, 1), verse(400, 7, 16, 2)), range(verse(400, 7, 16, 6), verse(400, 7, 16, 6))])`. They do not automatically sort or simplify the ranges.
- **Syntax**. The correct characters for matching and formatting references; international or European.
- **Verse**. A quadruple of `(library, book, chapter, verse)` numbers; `1 Cor 16:1` becomes `verse(400, 7, 16, 1)`

## Data Structures

### Libraries and Books

Libraries and books are Pydantic BaseModels, which apply validation checks to
the data whenever created or modified. These are defined by in locale files,
such as `refspy/languages/en_US.py`:

```python
OT = Library(
    id=200,
    name="Old Testament",
    abbrev="OT",
    books=[
        Book(
            id=1,
            name="Genesis",
            abbrev="Gen",
            aliases=['Ge'],
            chapters=50,
        ),
      ...
  ]
)
```

Any major class has its own file, so `Library` is defined in
`refspy/library.py` and so on.

Books and libraries have names, abbrevs, and aliases. If URL params are needed,
they are generated from these. So, the name '1 Corinthians' has the abbrev '1
Cor', and generates the param '1+cor'. The `languages/english.py` file says
that numeric prefixes must also match `I` and `First` (etc). The params are
lowercase with no spaces.

## Verses

A verse contains library, book, chapter, and verse numbers. The library, book,
chapter, and verse numbers are all in 1-3 digits, in the range 1-999. It is
assumed that there will not be 1000 or more verse in a chapter, chapters in a
book, books in a library, or total libraries.

Refspy does not know or care how many verses there are in a chapter. It is
expected that this will be determined from a database of texts by any client
application, especially since not all verse numbers actually exist in texts
(e.g. due to copying errors in the Vulgate at the time verse numbers were
assigned). However, knowing the number of chapters per book allows the previous
and next chapter to be determined, say, for navigating a library.

```python
Verse(library=1, book=2, chapter=3, verse=4)
verse(1, 2, 3, 4)
verse(1, 2, 3, 1004)  # <-- ValueError
```

### Index Numbers

Verses convert to an index value, `verse(1, 2, 3, 4).index() == 1002003004`
(`UNSIGNED INT(12)`), which allows efficient indexing in databases:

```python
sql_clause = " OR ".join([
    f"({column_name} BETWEEN {range.start.index()} AND {range.end.index()})"
    for range in reference.ranges
])
```

Verses are read back with the class method `refspy.verse.Verse.from_index()`.

## Ranges

A range contains start and end verses.

A whole chapter is referenced as `range(verse(1, 1, 1, 1), verse(1, 1, 1, 999))`.

A whole book is referenced as `range(verse(1, 1, 1, 1), verse(1, 1, 999, 999))`.

So, a chapter or book contains every range and verse within that chapter or
book, however long the chapter or book are.

Verses and ranges convert to tuples e.g. `((1, 2, 3, 4), (1, 2, 3, 5))` which can
be sorted and compared.

Ranges can be tested for containment, overlap, or adjacency. Note that this
does not take account of which verse numbers actually exist in any given text.

```python
# Make ranges...
gen1 = range(verse(1, 1, 1, 1), verse(1, 1, 1, 999))
gen1_22_23 = range(verse(1, 1, 1, 22), verse(1, 1, 1, 23))
gen1_24_28 = range(verse(1, 1, 1, 24), verse(1, 1, 1, 28))
gen1 = range(verse(1, 1, 1, 1), verse(1, 1, 1, 999))
gen = range(verse(1, 1, 1, 1), verse(1, 1, 999, 999))
exod = range(verse(1, 2, 1, 1), verse(1, 2, 999, 999))

assert gen.is_book()
assert gen1.is_chapter()

assert gen1.contains(gen1_22_23)
assert gen1_22_23.overlaps(gen1)
assert gen1_22_23.adjoins(gen1_24_28)
assert gen1.adjoins(gen2)
assert not gen1.overlaps(gen2)
assert gen.adjoins(exod)
assert not gen.overlaps(exod)
```

Comparison operators can also be used, as well as sorting:

```python
assert gen1 < gen2
assert not gen1 == gen2

gen_1_and_2 = range(verse(1, 1, 1, 1), verse(1, 1, 2, 999))

assert gen1 + gen2 == gen_1_and_2
assert sorted([gen2, gen1]) == [gen1, gen2]
assert min([gen2, gen1]) == gen1
```

## References

References are lists of verse ranges. These are entirely numerical objects.

References, ranges, and verses have shorter constructor functions for
programming convenience. Note `reference()` does not require list brackets.

```python
Range(start=verse_1, end=verse_2)
range(verse_1, verse_2)

Reference(ranges=[range_1, range_2])
reference(range_1, range_2)

ref_1 = reference(
  range(verse(1, 1, 1, 1), verse(1, 1, 1, 3))
)
```

The reference module contains standalone functions for numeric reference
construction that parallel the reference manager's `__.bcv()` method.

```python
book = __.books[NT.id, 1]  # <-- Matthew is NT book ID 1
assert book_reference(NT.id, 1) == __.bcv(book.id)
assert chapter_reference(NT.id, 1, 2) == __.bcv(book.id, 2)
assert verse_reference(NT.id, 1, 2, 3) == __.bcv(book.id, 2, 3)
assert verse_reference(NT.id, 1, 2, 3, 4) == __.bcv(book.id, 2, 3, 4)
```

The same comparison operations that work on ranges also work on references. So
references can be `sorted()`, `min()`, or `max()`. This becomes less intuitive
the more complex their list of ranges becomes.
