mirror of
https://github.com/MillironX/nfdocs-parser.git
synced 2024-11-22 00:56:04 +00:00
Thomas A. Christensen II
48c2d7a151
Signed-off-by: Thomas A. Christensen II <25492070+MillironX@users.noreply.github.com>
210 lines
8.2 KiB
Python
Executable file
210 lines
8.2 KiB
Python
Executable file
#!/usr/bin/env python
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import inflect
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import os
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import yaml
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from docutils import nodes
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from docutils.parsers.rst import Directive
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from docutils.parsers.rst import directives
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from sphinx.util import logging
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def definition_type(signature):
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# Returns "name", workflow|process|function
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def_type = "unknown"
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if "workflow" in signature:
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def_type = "workflow"
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elif "process" in signature:
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def_type = "process"
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elif "function" in signature:
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def_type = "function"
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# Check if any signature was recognized
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if def_type == "unknown":
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return "unknown", "an error occurred"
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# Parse out the definition name
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def_name = signature.replace(def_type, "").replace("{", "").strip()
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# Return the results
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return def_name, def_type
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class NFDocs(Directive):
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# Class default overrides
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required_arguments = 1
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# Declare the docstring starting characters
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DOC_STARTER = "/// "
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pe = inflect.engine()
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def params_to_table(self, type, params):
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# Create a table
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params_table = nodes.table()
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if type:
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params_table += nodes.title(text=type.capitalize())
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# Make it two columns wide
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params_tgroup = nodes.tgroup(cols=2)
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for _ in range(2):
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colspec = nodes.colspec(colwidth=1)
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params_tgroup.append(colspec)
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# Create the row definitions
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params_rows = []
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for param in params:
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# Create a new row
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param_row = nodes.row()
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# If this parameter is a tuple, the new row takes on the form
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# +-------+------------------+
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# | | +--------------+ |
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# | Tuple | | Params Table | |
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# | | +--------------+ |
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# +-------+------------------+
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# via recursion
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if "tuple" in param.keys():
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# Tuple title
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param_name_entry = nodes.entry()
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param_name_entry += nodes.strong(text="Tuple")
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param_row += param_name_entry
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# Params table
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sub_params_entry = nodes.entry()
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sub_params_entry += self.params_to_table("", param["tuple"])
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param_row += sub_params_entry
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# If this is actually a parameter, the new row takes on the form
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# +------------+-------------+
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# | Name(Type) | Description |
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# +------------+-------------+
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# or
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# +------+-------------+
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# | Type | Description |
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# +------+-------------+
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else:
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# Parameter title
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param_name_entry = nodes.entry()
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if "name" in param.keys():
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param_name_entry += nodes.strong(text=param["name"])
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param_name_entry += nodes.Text(f"({param['type']})")
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else:
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param_name_entry += nodes.Text(param["type"])
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param_row += param_name_entry
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# Parameter description
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param_description_entry = nodes.entry()
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param_description = nodes.paragraph(text=param["description"])
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self.state.nested_parse(self.content, self.content_offset, param_description)
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param_description_entry += param_description
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param_row += param_description_entry
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# Add this row to the vector
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params_rows.append(param_row)
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# Convert the rows to a table
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params_table_body = nodes.tbody()
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params_table_body.extend(params_rows)
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params_tgroup += params_table_body
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params_table += params_tgroup
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return params_table
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def run(self):
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# Take path as single argument for now
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nextflow_path = self.arguments[0]
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print(nextflow_path)
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# Create dictionaries for each of the block types
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docstrings = {
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"workflow": {},
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"process": {},
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"function": {}
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}
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# Create any array to return from the plugin
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return_nodes = []
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for root, dirs, files in os.walk(nextflow_path):
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for f in files:
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if f.endswith(".nf"):
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with open(os.path.join(root,f)) as nextflow_file:
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# Split by lines
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nextflow_lines = nextflow_file.readlines()
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# Declare some variables to keep track of where the docstrings begin and end
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doc_start = 0
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doc_end = 0
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# Declare dictionaries to keep track of the docstrings
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docstring_positions = []
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# Calculate the start and end positions of each docstring
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for i, line in enumerate(nextflow_lines):
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# Check if this is a docstring
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if line.startswith(self.DOC_STARTER):
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# It is: check the next and previous lines to see if this is part of a block
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line_previous = nextflow_lines[i-1]
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line_next = nextflow_lines[i+1]
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if not line_previous.startswith(self.DOC_STARTER):
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doc_start = i
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if not line_next.startswith(self.DOC_STARTER):
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doc_end = i
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# Check if we've reached the end of a docstring block
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if doc_end == i:
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# Add this docstring position to the array
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docstring_positions.append(range(doc_start, doc_end+1))
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# Parse out the docstrings and put them in the appropriate dictionary
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for pos in docstring_positions:
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proc_name, proc_type = definition_type(nextflow_lines[pos[-1]+1])
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doc_yaml = ""
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for i in pos:
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doc_yaml = doc_yaml + nextflow_lines[i].replace(self.DOC_STARTER, "")
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docstrings[proc_type][proc_name] = yaml.safe_load(doc_yaml)
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# Try to convert each definition to a node
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for block_type, block_docs in docstrings.items():
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# Check if there are any blocks of this type
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if len(block_docs) > 0:
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# Create a new section for this type of block
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block_section = nodes.section()
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block_section += nodes.title(text=self.pe.plural(block_type.capitalize(), len(block_docs)))
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# Sort the blocks alphabetically
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sorted_block_docs = {key: val for key, val in sorted(block_docs.items(), key = lambda ele: ele[0])}
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# Create a subsection for each block
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for proc_name, proc_docs in sorted_block_docs.items():
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try:
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# Create the section and heading
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proc_section = nodes.section()
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proc_section += nodes.title(text=proc_name)
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proc_section += nodes.paragraph(text=proc_docs["summary"])
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# Create the io tables
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io_methods = ["input", "output"]
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for met in io_methods:
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if met in proc_docs.keys():
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io_table = self.params_to_table(met, proc_docs[met])
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proc_section += io_table
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except:
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logger = logging.getLogger(__name__)
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logger.warning(f"Could not write docs for {proc_name}")
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# Add the block section to the parent node
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self.state_machine.document.note_implicit_target(proc_section)
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block_section += proc_section
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# Add the type of block section to the document
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self.state_machine.document.note_implicit_target(block_section)
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return_nodes.append(block_section)
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return return_nodes
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def setup(app):
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app.add_directive('nfdocs', NFDocs)
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return {
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"version": "0.1.1"
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}
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