Metadata-Version: 2.4
Name: pyhabitat
Version: 1.1.18
Summary: A lightweight library for detecting system environment, GUI, and build properties.
Author-email: George Clayton Bennett <george.bennett@memphistn.gov>
Maintainer-email: George Clayton Bennett <george.bennett@memphistn.gov>
License-Expression: MIT
Project-URL: Homepage, https://github.com/city-of-memphis-wastewater/pyhabitat
Project-URL: Repository, https://github.com/city-of-memphis-wastewater/pyhabitat
Keywords: environment,os-detection,build-system
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Classifier: Programming Language :: Python :: 3.13
Classifier: Programming Language :: Python :: 3.14
Classifier: Operating System :: OS Independent
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: End Users/Desktop
Classifier: Intended Audience :: Science/Research
Classifier: Intended Audience :: Other Audience
Classifier: Environment :: Console
Classifier: Topic :: Software Development :: Build Tools
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Classifier: Topic :: Utilities
Requires-Python: >=3.7
Description-Content-Type: text/markdown
License-File: LICENSE
Requires-Dist: importlib-metadata; python_version < "3.8"
Dynamic: license-file

# pyhabitat 🧭

## An Introspection Library for Python Environments and Builds

**`pyhabitat`** is a **lightweight library for Python build and environment introspection**. It accurately and securely determines the execution context of a running script by providing definitive checks for:

* **OS and Environments:** Operating Systems and common container/emulation environments (e.g., Termux, iSH).
* **Build States:** Application build systems (e.g., PyInstaller, pipx).
* **GUI Backends:** Availability of graphical toolkits (e.g., Matplotlib, Tkinter).

Stop writing verbose `sys.platform` and environment variable checks. Use **`pyhabitat`** to implement clean, **architectural logic** based on the execution habitat.

---

Read the code on [github](https://github.com/City-of-Memphis-Wastewater/pyhabitat/blob/main/pyhabitat/environment.py). 🌐

<p align="center">
  <img src="https://raw.githubusercontent.com/City-of-Memphis-Wastewater/pyhabitat/main/assets/pyhabitat-ico-alpha.png" width="256px">
</p>
<!--p align="center">
  <img src="https://raw.githubusercontent.com/City-of-Memphis-Wastewater/pyhabitat/main/assets/pyhabitat-ico_256x256.ico" width="200" alt="ICO Version" />
</p-->

---

## 📦 Installation

```bash
pip install pyhabitat
```

---

<details>
<summary> 🧠 Motivation </summary>

This library is especially useful for **leveraging Python in mobile environments** (`Termux` on Android and `iSH` on iOS), which often have particular limitations and require special handling. For example, it helps automate work-arounds like using **localhost plotting** when `matplotlib` is unavailable or **web-based interfaces** when `tkinter` is missing. 

Our team is fundamentally driven by enabling mobile computing for true utility applications, leveraging environments like Termux (Android) and iSH (iOS). This includes highly practical solutions, such as deploying a lightweight Python web server (e.g., Flask, http.server, FastAPI) directly on a handset, or orchestrating full-stack, utility-grade applications that allow technicians to manage data and systems right from their mobile device in a way that is cross-platform and not overly catered to the App Store.

Another key goal of this project is to facilitate the orchestration of wider system installation for **`pipx` CLI tools** for additional touch points, like context menus and widgets.

Ultimately, [City-of-Memphis-Wastewater](https://github.com/City-of-Memphis-Wastewater) aims to produce **reference-quality code** for the documented proper approach. We recognize that many people (and bots) are searching for ideal solutions, and our functions are built upon extensive research and testing to go **beyond simple `platform.system()` checks**.

</details>

---

<details>
<summary> 🚀 Features </summary>

  * **Definitive Environment Checks:** Rigorous checks catered to Termux and iSH (iOS Alpine). Accurate, typical modern detection for Windows, macOS (Apple), Linux, FreeBSD, Android.
  * **GUI Availability:** Rigorous, cached checks to determine if the environment supports a graphical popup window (Tkinter/Matplotlib TkAgg) or just headless image export (Matplotlib Agg).
  * **Build/Packaging Detection:** Reliable detection of standalone executables (PyInstaller), Python zipapps (.pyz), Python source scripts (.py), and correct identification/exclusion of pipx-managed virtual environments.
  * **Executable Type Inspection:** Uses file magic numbers (ELF, MZ, Mach-O) to confirm if the running script is a monolithic, frozen binary (non-pipx) or zipapp (.pyz).

</details>

---

<details>
<summary> 📚 Function Reference </summary>

### OS and Environment Checking

Key question: "What is this running on?"

| Function | Description |
| :--- | :--- |
| `on_windows()` | Returns `True` on Windows. |
| `on_apple()` | Returns `True` on macOS (Darwin). |
| `on_linux()` | Returns `True` on Linux in general. |
| `on_wsl()` | Returns `True` if running inside Windows Subsystem for Linux (WSL or WSL2). |
| `on_termux()` | Returns `True` if running in the Termux Android environment. |
| `on_freebsd()` | Returns `True` on FreeBSD. |
| `on_ish_alpine()` | Returns `True` if running in the iSH Alpine Linux iOS emulator. |
| `on_android()` | Returns `True` on any Android-based Linux environment. |
| `on_pydroid()` | Returns `True` Return True if running under the Pydroid 3 Android app (other versions untested). |
| `in_repl()` | Returns `True` is the user is currently in a Python REPL; hasattr(sys,'ps1'). |

### Packaging and Build Checking

Key question: "What is the character of my executable or my build state?"

These functions accept an optional path argument (Path or str), defaulting to sys.argv[0] (e.g., pyhabitat/__main__.py for python -m pyhabitat, empty in REPL). Path.resolve() is used for stability.

| Function | Description |
| :--- | :--- |
| `as_frozen()` | Returns `True` if the script is running as a standalone executable (any bundler). |
| `as_pyinstaller()` | Returns `True` if the script is frozen and generated by PyInstaller (has `_MEIPASS`). |
| `is_python_script(path=None)` | Returns `True` if the script or specified path is a Python source file (.py). |
| `is_pipx(path=None)` | Returns `True` if the script or specified path is from a pipx-managed virtual environment. |
| `is_elf(path=None)` | Returns `True` if the script or specified path is an ELF binary (Linux standalone executable, non-pipx). |
| `is_pyz(path=None)` | Returns `True` if the script or specified path is a Python zipapp (.pyz, non-pipx). |
| `is_windows_portable_executable(path=None)` | Returns `True` if the script or specified path is a Windows PE binary (MZ header, non-pipx). |
| `is_msix()` | Returns `True` if the currently running software or the target path is an MSIX package, like distributed from the Microsoft Store. |
| `is_macos_executable(path=None)` | Returns `True` if the script or specified path is a macOS Mach-O binary (non-pipx). |

### Capability Checking

Key Question: "What could I do next?"

| Function | Description |
| :--- | :--- |
| `tkinter_is_available()` | Checks if Tkinter is imported and can successfully create a window. |
| `matplotlib_is_available_for_gui_plotting(termux_has_gui=False)` | Checks for Matplotlib and its TkAgg backend, required for interactive plotting. Set `termux_has_gui=True` for Termux with GUI support; defaults to `False`. |
| `matplotlib_is_available_for_headless_image_export()` | Checks for Matplotlib and its Agg backend, required for saving images without a GUI. |
| `interactive_terminal_is_available()` | Checks if standard input and output streams are connected to a TTY (allows safe use of interactive prompts). |
| `web_browser_is_available()` | Check if a web browser can be launched in the current environment (allows safe use of web-based prompts and localhost plotting). 	|

### Utility

| Function | Description |
| :--- | :--- |
| `edit_textfile(path)` | Opens a text file for editing using the default editor (Windows, Linux, macOS) or nano in Termux/iSH. Can be called from REPL mode. Path argument (str or Path) uses Path.resolve() for stability. |
| `show_system_explorer(path)` | Launches the appropriate view of the folder based on system. Defaults to Path.cwd(). |
| `interp_path()` | Returns the path to the Python interpreter binary (sys.executable). Returns empty string if unavailable. |
| `report()` | Prints a comprehensive environment report with sections: Interpreter Checks (sys.executable), Current Environment Check (sys.argv[0]), Current Build Checks (sys attributes), Operating System Checks (platform.system()), and Capability Checks. Run via `python -m pyhabitat` or `import pyhabitat; pyhabitat.main()` in the REPL. |

</details>

---

<details>
<summary> 💻 Usage Examples </summary>

The module exposes all detection functions directly for easy access.

### 0\. Example of PyHabitat in Action

The `pipeline-eds` package uses the `pyhabitat` library to handle [configuration](https://github.com/City-of-Memphis-Wastewater/pipeline/blob/main/src/pipeline/security_and_config.py) and [plotting](https://github.com/City-of-Memphis-Wastewater/pipeline/blob/main/src/pipeline/cli.py), among other things.

### 1\. Running the Environment Report

Run a comprehensive environment report from the command line or REPL to inspect the interpreter (sys.executable), running script (sys.argv[0]), build state, operating system, and capabilities.

```bash
# In the terminal
python -m pyhabitat
```

```python
# In the Python REPL
import pyhabitat as ph
ph.main()
```

### 2\. Checking Environment and Build Type

```python
from pyhabitat import on_termux, on_windows, is_pipx, is_python_script, as_frozen

if is_pipx():
    print("Running inside a pipx virtual environment. This is not a standalone binary.")

if as_frozen():
    print("Running as a frozen executable (PyInstaller, cx_Freeze, etc.).")

if is_python_script():
    print("Running as a Python source script (.py).")

if on_termux(): 
	# Expected cases: 
	#- pkg install python-numpy python-cryptography
	#- Avoiding matplotlib unless the user explicitly sets termux_has_gui=True in matplotlib_is_available_for_gui_plotting().
	#- Auto-selection of 'termux-open-url' and 'xdg-open' in logic.
	#- Installation on the system, like orchestrating the construction of Termux Widget entries in ~/.shortcuts.
    print("Running in the Termux environment on Android.")
    
if on_windows():
    print("Running on Windows.")
```

### 3\. Checking GUI and Plotting Availability

Use these functions to determine if you can show an interactive plot or if you must save an image file.

```python
from pyhabitat import matplotlib_is_available_for_gui_plotting, matplotlib_is_available_for_headless_image_export

if matplotlib_is_available_for_gui_plotting():
    # We can safely call plt.show()
    print("GUI plotting is available! Using TkAgg backend.")
    import matplotlib.pyplot as plt
    plt.figure()
    plt.show()

elif matplotlib_is_available_for_headless_image_export():
    # We must save the plot to a file or buffer
    print("GUI unavailable, but headless image export is possible.")
    # Code to use 'Agg' backend and save to disk...
    
else:
    print("Matplotlib is not installed or the environment is too restrictive for plotting.")
```

### 4\. Text Editing

Use this function to open a text file for editing. 
Ideal use case: Edit a configuration file, if prompted by a CLI command like 'config --textedit'.

```python
from pathlib import Path
import pyhabitat as ph

ph.edit_textfile(path=Path('./config.json'))
```
</details>

---

<details> <summary>🏗️ Build Instructions</summary>

Follow these steps to build PyHabitat for different distributions (PYZ, EXE, or Wheel):

1. Activate the Virtual Environment
#### On Windows (PowerShell)
```PowerShell
.venv\Scripts\Activate.ps1
```
#### Windows (cmd)
```cmd
.venv\Scripts\activate.bat
```
#### On Unix/macOS
```bash
source .venv/bin/activate
```

2. Install Build Dependencies

bash
```
pip install -U pip setuptools wheel pyinstaller
```
(Optional for .pyz: zipapp is included in the standard library.)

3. Build Options

You can build PyHabitat in three ways:

| Output                       | Command                  | Notes                                                                 |
|-------------------------------|--------------------------|-----------------------------------------------------------------------|
| PYZ (Python Zipapp)           | `python build_pyz.py`    | Cross-platform; requires a Python interpreter to run.                |
| EXE (Windows Executable)      | `python build_executable.py` | Windows-only standalone executable with embedded Python.             |
| ELF (Linux Executable)        | `python build_executable.py` | Linux-only standalone executable; generated by PyInstaller on Linux. |
| Mach-O (macOS Executable)     | `python build_executable.py` | macOS-only standalone executable; generated by PyInstaller on macOS. |
| Wheel / Source                | `python -m build`        | Standard Python package for pip install.                              |


#### Build Process Diagram

          ┌─────────────────────────────┐
          │       Source Code           │
          │        pyhabitat            │
          └─────────────┬─────────────┘
                        │
                        ▼
          ┌─────────────────────────────┐
          │        Build Outputs        │
          ├─────────────┬───────────────┤
          │             │               │
          ▼             ▼               ▼
┌─────────────┐  ┌───────────────┐  ┌──────────────┐
│ Python Zipapp│  │ PyInstaller   │  │ Wheel/Source│
│ build_pyz.py │  │ Executable    │  │ python -m build│
│─────────────│  │───────────────│  │──────────────│
│ dist/*.pyz   │  │ dist/*.[exe,elf,macho] │ │ dist/*.whl  │
│ Cross-plat. │  │ Platform-native standalone │ │ pip install │
│ Requires Python │ │ Requires no Python on host │ │ Source/wheel│
└─────────────┘  └───────────────┘  └──────────────┘
✅ Notes:

.pyz is cross-platform but requires Python on the host system.

.exe is Windows-only and contains a full Python runtime.

.elf is Linux-only and contains a full Python runtime.

.macho is macOS-only and contains a full Python runtime.

Standard python -m build creates a distributable wheel and source archive suitable for pip/pypi.

</details>

---


🤝 Contributing


Contributions are welcome\! If there is an environment or build system that is not correctly detected, or that you would like to have added, please open an issue or submit a pull request with the relevant detection logic.

## 📄 License

This project is licensed under the MIT License. See the LICENSE file for details.

---

