Metadata-Version: 2.1
Name: camlhmp
Version: 0.1.0
Summary: Classification through yAML Heuristic Mapping Protocol
Home-page: https://github.com/rpetit3/camlhmp
License: MIT
Keywords: bioinformatics,bacteria,serotype,genotype
Author: Robert A. Petit III
Author-email: robbie.petit@gmail.com
Requires-Python: >=3.11,<4.0
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Requires-Dist: biopython (>=1.83,<2.0)
Requires-Dist: executor (>=23.2,<24.0)
Requires-Dist: pyyaml (>=6.0.1,<7.0.0)
Requires-Dist: rich (>=13.7.1,<14.0.0)
Requires-Dist: rich-click (>=1.7.4,<2.0.0)
Project-URL: Repository, https://github.com/rpetit3/camlhmp
Description-Content-Type: text/markdown

🐪 camlhmp 🐪 - Classification through yAML Heuristic Mapping Protocol (__yeah, it's a stretch to
make sure 🐪 is in the name!__)

# camlhmp

`camlhmp` is a tool for generating organism typing tools from YAML schemas. The idea came
up from discussions with Tim Read about the need for a tool that would allow researchers
to more easily define typing schemas for their organisms of interest. YAML seemed like a
a nice format for this due to its simplicity and readability.

_`camlhmp` is under active development, and any feedback is appreciated._

## Purpose

The primary purpose of `camlhmp` is to provide a framework that enables researchers to
independently define typing schemas for their organisms of interest using YAML. This
facilitates the management and analysis biological data, no matter the researchers experience
level.

`camlhmp` does not supply any pre-defined typing schemas. Instead, it provides researchers
with the tools necessary tools to create and maintain their own schemas. This I believe will
ensure the schemas remain up to date with the latest developments in its respective field.

Additionally, this really aroses from a practical need to streamline my maintenance of
multiple organism typing tools. Long-term maintenance of these tools is a challenge, and
I think `camlhmp` will help me to keep them up-to-date and consistent.

## Installation

`camlhmp` will be made available through PyPI and Bioconda. For now, you can install it
from the GitHub repository with the following command:

```bash
conda create -n camlhmp -c conda-forge -c bioconda camlhmp
conda activate camlhmp
camlhmp
```

## YAML Schema Structure

The schema structure is designed to be simple and intuitive. Here is a basic skeleton of the
expected schema structure:

```yaml
%YAML 1.2
---
# metadata: general information about the schema
metadata:
  id: ""          # unique identifier for the schema
  name: ""        # name of the schema
  description: "" # description of the schema
  version: ""     # version of the schema
  curators: []    # A list of curators of the schema

# engine: specifies the computational tools and additional parameters used for sequence
#         analysis.
engine:
  tool: "" # The tool used to generate the data

# targets: Lists the specific sequence targets such as genes, proteins, or markers that the
#          schema will analyze. These should be included in the associated sequence query data
targets: []

# aliases: groups multiple targets under a common name for easier reference
aliases:
  - name: ""     # name of the alias
    targets: []  # list of targets that are part of the alias

# types: define specific combinations of targets and aliases to form distinct types
types:
  - name: ""     # name of the profile
    targets: []  # list of targets (can use aliases) that are part of the profile
    excludes: [] # list of targets (or aliases) that will automatically fail the type
```

From this schema we have a few sections:

- `metadata`: general information about the schema
- `engine`: computational requirements for sequence analysis
- `targets`: lists the sequence targets such as genes, proteins, or markers
- `aliases`: groups multiple targets under a common name for easier reference
- `profiles`: defines combinations of targets and aliases to form typing profiles

Within each section there are additional fields that will be descibed in the next sections.

### metadata

The `metadata` section provides general information about the schema. This includes:

| Field        | Type   | Description                                      |
|--------------|--------|--------------------------------------------------|
| id           | string | A unique identifier for the schema               |
| name         | string | The name of the schema                           |
| description  | string | A brief description of the schema                |
| version      | string | The version of the schema                        |
| curators     | list   | A list of curators of the schema                 |

### engine

The `engine` section specifies the computational tools used for sequence analysis. Currently
only one tool can be specified, and only `blastn` is supported.

| Field | Type   | Description                                      |
|-------|--------|--------------------------------------------------|
| tool  | string | The tool used to generate the data               |

### targets

The `targets` section lists the specific sequence targets such as genes, proteins, or markers
that the schema will analyze. These should be included in the associated sequence query data.

| Field   | Type   | Description                                    |
|---------|--------|------------------------------------------------|
| targets | list | A list of targets to be analyzed                 |

### aliases

`aliases` are a convenient way to group multiple targets under a common name for easier
reference.

| Field   | Type   | Description                                    |
|---------|--------|------------------------------------------------|
| name    | string | The name of the alias                          |
| targets | list   | A list of targets that are part of the alias   |

### types

The `types` section defines specific combinations of targets and aliases to form distinct
types.

| Field   | Type   | Description                                                          |
|---------|--------|----------------------------------------------------------------------|
| name    | string | The name of the profile                                              |
| targets | list   | A list of targets (or aliases) that are part of the type             |
| excludes | list  | A list of targets (or aliases) that will automatically fail the type |

### Example Schema: Partial SCCmec Typing

Here is an example of a partial schema for SCCmec typing:

```yaml
%YAML 1.2
---
# metadata: general information about the schema
metadata:
  id: "sccmec_partial"                                # unique identifier for the schema
  name: "SCCmec Typing"                              # name of the schema
  description: "A partial schema for SCCmec typing"  # description of the schema
  version: "0.0.1"                                     # version of the schema
  curators:                                          # A list of curators of the schema
    - "Robert Petit"

# engine: specifies the computational tools and additional parameters used for sequence
#         analysis.
engine:
  tool: blastn # The tool used to generate the data

# targets: Lists the specific sequence targets such as genes, proteins, or markers that the
#          schema will analyze. These should be included in the associated sequence query data
targets:
  - "ccrA1"
  - "ccrA2"
  - "ccrA3"
  - "ccrB1"
  - "ccrB2"
  - "ccrB3"
  - "IS431"
  - "IS1272"
  - "mecA"
  - "mecI"
  - "mecR1"

# aliases: groups multiple targets under a common name for easier reference
aliases:
  - name: "ccr Type 1"           # name of the alias
    targets: ["ccrA1", "ccrB1"]  # list of targets that are part of the alias
  - name: "ccr Type 2"
    targets: ["ccrA2", "ccrB2"]
  - name: "ccr Type 3"
    targets: ["ccrA3", "ccrB3"]
  - name: "mec Class A"
    targets: ["IS431", "mecA", "mecR1", "mecI"]
  - name: "mec Class B"
    targets: ["IS431", "mecA", "mecR1", "IS1272"]

# types: define specific combinations of targets and aliases to form distinct types
types:
  - name: "I"          # name of the profile
    targets:           # list of targets (can use aliases) that are part of the profile
      - "ccr Type 1"
      - "mec Class B"
  - name: "II"
    targets:
      - "ccr Type 2"
      - "mec Class A"
  - name: "III"
    targets:
      - "ccr Type 3"
      - "mec Class A"
  - name: "IV"
    targets:
      - "ccr Type 2"
      - "mec Class B"
```

From this schema, `camlhmp` can generate a typing tool that can be used to analyze input
assemblies. This is only a partial schema, as there are many more SCCmec types and subtypes.
But using this schema it should be straight forward to add additional targets and profiles.

## `camlhmp-blast`

`camlhmp-blast` is a command that allows users to type their samples using a provided schema
with BLAST algorithms.

### Usage

```bash
 🐪 camlhmp-blast 🐪 - Classify assemblies with a camlhmp schema using BLAST                          

╭─ Options ───────────────────────────────────────────────────────────────────────────────────╮
│    --version       -V           Show the version and exit.                                  │
│ *  --input         -i  TEXT     Input file in FASTA format to classify [required]           │
│ *  --yaml          -y  TEXT     YAML file documenting the targets and types [required]      │
│ *  --targets       -t  TEXT     Query targets in FASTA format [required]                    │
│    --outdir        -o  PATH     Directory to write output [default: ./]                     │
│    --prefix        -p  TEXT     Prefix to use for output files [default: camlhmp]           │
│    --min-pident        INTEGER  Minimum percent identity to count a hit [default: 95]       │
│    --min-coverage      INTEGER  Minimum percent coverage to count a hit [default: 95]       │
│    --force                      Overwrite existing reports                                  │
│    --verbose                    Increase the verbosity of output                            │
│    --silent                     Only critical errors will be printed                        │
│    --help                       Show this message and exit.                                 |
╰─────────────────────────────────────────────────────────────────────────────────────────────╯
```

### Output Files

`camlhmp-blast` will generate three output files:

| File Name              | Description                                     |
|------------------------|-------------------------------------------------|
| `{PREFIX}.tsv`         | A tab-delimited file with the predicted type    |
| `{PREFIX}.blast.tsv`   | A tab-delimited file of all blast hits          |
| `{PREFIX}.details.tsv` | A tab-delimited file with details for each type |

#### Example {PREFIX}.tsv

```tsv
sample	type	targets	schema	version	comment
saureus	V	ccrC1,IS431,IS431_1,IS431_2,mecA,mecR1	sccmec	1.0.0	
```

| Column  | Description                                      |
|---------|--------------------------------------------------|
| sample  | The sample name as determined by `--prefix`      |
| type    | The predicted type                               |
| targets | The targets for the given type that had a hit    |
| schema  | The schema used to determine the type            |
| version | The version of the schema used                   |
| comment | A small comment about the result                 |

#### Example {PREFIX}.blast.tsv

```tsv
qseqid	sseqid	pident	qcovs	qlen	slen	length	nident	mismatch	gapopen	qstart	qend	sstart	send	evalue	bitscore
ccrC1	AB121219.1	100.000	100	1623	28612	1623	1623	0	0	1	1623	16132	17754	0.0	2998
IS431_1	AB121219.1	100.000	100	791	28612	791	791	0	0	1	791	8221	9011	0.0	1461
IS431_1	AB121219.1	99.704	100	675	28612	675	673	2	0	1	675	2693	3367	0.0	1236
IS431_1	AB121219.1	98.519	100	675	28612	675	665	10	0	1	675	8951	8277	0.0	1192
...
```

This is the standard BLAST output with `-outfmt 6`

#### Example {PREFIX}.details.tsv

```tsv
sample	type	status	targets	missing	schema	version	comment
type-v	I	False	IS431,mecA,mecR1	ccrA1,ccrB1,IS1272	sccmec	1.0.0	
type-v	II	False	IS431,mecA,mecR1	ccrA2,ccrB2,mecI	sccmec	1.0.0	
type-v	III	False	IS431,mecA,mecR1	ccrA3,ccrB3,mecI	sccmec	1.0.0	
type-v	IV	False	IS431,mecA,mecR1	ccrA2,ccrB2,IS1272	sccmec	1.0.0	
type-v	V	True	ccrC1,IS431_1,mecA,mecR1,IS431_2		sccmec	1.0.0	
type-v	VI	False	IS431,mecA,mecR1	ccrA4,ccrB4,IS1272	sccmec	1.0.0	
type-v	VII	False	ccrC1,IS431_1,mecA,mecR1,IS431_2	IS12960D	sccmec	1.0.0	
type-v	VIII	False	IS431,mecA,mecR1	ccrA4,ccrB4,mecI	sccmec	1.0.0	Excluded target ccrC1 found, failing type VIII
type-v	IX	False	IS431_1,mecA,mecR1,IS431_2	ccrA1,ccrB1	sccmec	1.0.0	
type-v	X	False	IS431_1,mecA,mecR1,IS431_2	ccrA1,ccrB6	sccmec	1.0.0	
type-v	XI	False	mecA,mecR1	ccrA1,ccrB3,blaZ,mecI	sccmec	1.0.0	
type-v	XII	False	IS431_1,mecA,mecR1,IS431_2	ccrC2	sccmec	1.0.0	
type-v	XIII	False	IS431,mecA,mecR1	ccrC2,mecI	sccmec	1.0.0	
type-v	XIV	False	ccrC1,IS431,mecA,mecR1	mecI	sccmec	1.0.0	
type-v	XV	False	IS431,mecA,mecR1	ccrA1,ccrB6,mecI	sccmec	1.0.0	
```

This file provides a detailed view of the results. The columns are:

| Column  | Description                                        |
|---------|----------------------------------------------------|
| sample  | The sample name as determined by `--prefix`        |
| type    | The predicted type                                 |
| status  | The status of the type (True if failed)            |
| targets | The targets for the given type that had a match    |
| missing | The targets for the given type that were not found |
| schema  | The schema used to determine the type              |
| version | The version of the schema used                     |
| comment | A small comment about the result                   |

## `camlhmp-extract`

`camlhmp-extract` is a command that allows users to extract targets from a set of references.
You should think of this script as a "helper" script for curators. It allows you to maintain
a TSV file with the targets and their positions in the reference sequences. `camlhmp-extract`
will then extract the targets from the reference sequences and write them to a FASTA file.

### Usage

```bash
 🐪 camlhmp-extract 🐪 - Extract typing targets from a set of reference sequences

╭─ Required Options ──────────────────────────────────────────────────────────────────────────╮
│ *  --path     -i  TEXT  The path where input files are located [required]                   │
│ *  --targets  -t  TEXT  A TSV of targets to extract in FASTA format [required]              │
╰─────────────────────────────────────────────────────────────────────────────────────────────╯
╭─ Additional Options ────────────────────────────────────────────────────────────────────────╮
│ --outdir   -o  TEXT  The path to save the extracted targets                                 │
│ --verbose            Increase the verbosity of output                                       │
│ --silent             Only critical errors will be printed                                   │
│ --version  -V        Show the version and exit.                                             │
│ --help               Show this message and exit.                                            │
╰─────────────────────────────────────────────────────────────────────────────────────────────╯
```

## Citations

If you make use of this tool, please cite the following:

* **[BLAST](https://blast.ncbi.nlm.nih.gov/Blast.cgi)**  
Basic Local Alignment Search Tool  
*Camacho C, Coulouris G, Avagyan V, Ma N, Papadopoulos J, Bealer K, Madden TL [BLAST+: architecture and applications](http://dx.doi.org/10.1186/1471-2105-10-421). BMC Bioinformatics 10, 421 (2009)*  

## Naming

If I'm being honest, I really wanted to name a tool with "camel" in it because they are my
wife's favorite animal🐪 and they also remind me of my friends in Oman!

Once it was decided YAML was going to be the format for defining schemas, I quickly stumbled
on "Classification through YAML" and quickly found out I wasn't the only once who thought
of "CAML". But, no matter, it was decided it would be something with "CAML", then Tim Read
came with the save and suggested "Heuristic Mapping Protocol". So, here we are - _camlhmp_!

## License

I'm not a lawyer and MIT has always been my go-to license. So, MIT it is!

