""" The concept: We don't want to manually keep API docs in sync with SQL files. So instead we should generate the docs from the sql/install/*.sql files. We have the following things to document: * Type * Cast (put in same section as the type) * Operator * Function * Aggregate function Some functions do not need docs, we can signal this by not applying a comment. This is internal operator functions for example. We should parse the sql files, extract the above, and then document all things that have comments applied. We should probably hardcode a list of things that should not be documented, so we can fail if new function are undocumented. """ import argparse import glob import re from pathlib import Path from lark import Lark, Transformer, v_args, visitors import sys #TEST # see PGXN::API::Indexer::_clean_html_body def to_anchor(text): text = re.sub(r"[^\w\s\(\)-]", "", text) # approximating processing done in Text::Markdown text = re.sub(r"^([^a-zA-Z])", r"L\1", text) text = re.sub(r"[^a-zA-Z0-9_:.-]+", ".", text) return "#" + text def md_heading(text, level=0): return "#" * (level + 1) + " " + text class Context: level = 0 def __init__(self, statements_by_refid={}): self.statements_by_refid = statements_by_refid self.level = 0 class StmtBase: level = 0 newline_before = True newline_after = True decorators = {} def __init__(self, level=-1): self.level = level def set_decorators(self, decorators): self.decorators = decorators def get_decorator(self, key): return self.decorators[key] if self.has_decorator(key) else None def has_decorator(self, key): return key in self.decorators def is_internal(self): return self.has_decorator("internal") def is_deprecated(self): return self.has_decorator("deprecated") def is_visible(self): return not self.is_internal() and not self.is_deprecated() def get_refid(self): return self.get_decorator("refid") def get_ref_text(self): return str(self) def get_anchor(self): if not self.is_visible() or self.level < 0: return None return to_anchor(str(self)) def get_refs(self, statements_by_refid): ids = self.get_decorator("ref") or [] return [statements_by_refid[refid] for refid in ids if refid in statements_by_refid] def to_ref(self): return '{}'.format(self.get_anchor(), self.get_ref_text()) def to_md(self, context): if not self.is_visible(): return "" md = str(self) if self.level > -1: md = md_heading(md, self.level) if self.newline_before: md = "\n" + md # availability availability = self.get_decorator("availability") if availability: md += f"\n*Since v{availability}*" # references refs = self.get_refs(context.statements_by_refid) if len(refs) > 0: md += "\n\nSee also: " md += ", ".join([ref.to_ref() for ref in refs]) if self.newline_after: md += "\n" return md def __str__(self): raise Execepion("Not implemented") class Argument: def __init__(self, argmode, name, argtype, default): self.argmode = argmode self.name = name self.argtype = argtype self.default = default def get_typestr(self): s = "`{}`".format(self.argtype) if self.default: s = "[{} = {}]".format(s, self.default) return s def __str__(self): s = "" if self.argmode: s += self.argmode + " " if self.name: s += self.name + " " s += "`{}`".format(self.argtype) if self.default: s = "[{} = {}]".format(s, self.default) return s class Column: def __init__(self, name, coltype): self.name = name; self.coltype = coltype; def __str__(self): return "{} `{}`".format(self.name, self.coltype) class FunctionReturnsBase: pass class FunctionReturns(FunctionReturnsBase): def __init__(self, rettype): self.rettype = rettype def __str__(self): return "`{}`".format(self.rettype) class FunctionReturnsSet(FunctionReturns): def __str__(self): return "SETOF " + super().__str__() class FunctionReturnsTable(FunctionReturnsBase): def __init__(self, columns): self.columns = columns def __str__(self): return "TABLE (" + ", ".join([str(col) for col in self.columns]) + ")"; class CustomMd(StmtBase): def __init__(self, line): super().__init__() self.newline_after = False match = re.match(r"(#+)\s*(.*)", line) if match: self.newline_before = True self.level = max(0, len(match[1]) - 1) self.line = match[2] else: self.newline_before = False self.level = -1 self.line = line def update_level(self, context): if self.level > -1: context.level = max(0, self.level) def __str__(self): return self.line class CreateFunctionStmt(StmtBase): def __init__(self, name: str, arguments, returns: FunctionReturnsBase): super().__init__(2) self.name = name self.arguments = arguments or [] self.returns = returns def get_ref_text(self): return "{}({})".format( self.name, ", ".join([arg.get_typestr() for arg in self.arguments])) def __str__(self): return "{}({}) ⇒ {}".format( self.name, ", ".join([str(arg) for arg in self.arguments]), self.returns) class CreateAggregateStmt(StmtBase): def __init__(self, name: str, arguments): super().__init__(2) self.name = name self.arguments = arguments or [] def get_ref_text(self): return "{}(setof {})".format( self.name, ", ".join([arg.get_typestr() for arg in self.arguments])) def __str__(self): return "{}(setof {})".format( self.name, ", ".join([str(arg) for arg in self.arguments])) class CreateTypeStmt(StmtBase): def __str__(self): return "" class CreateCastStmt(StmtBase): def __init__(self, source, target): super().__init__(2) self.source = source self.target = target def __str__(self): return "`{}` :: `{}`".format(self.source, self.target) class CreateOperatorStmt(StmtBase): def __init__(self, name, left, right): super().__init__(2) self.name = name self.left = left self.right = right def __str__(self): return "Operator: `{}` {} `{}`".format(self.left, self.name, self.right) class CreateCommentStmt(StmtBase): def __init__(self, text): super().__init__() self.text = text def __str__(self): return self.text class SQLTransformer(Transformer): def start(self, statements): # flatten flat = [item for sublist in statements for item in sublist] return flat @v_args(inline=True) def custom_decorated_statement(self, decorators, statement = None): if not statement: raise visitors.Discard() if decorators: statement.set_decorators(decorators) return statement def custom_decorators(self, lines): decorators = {} for line in lines: try: key, value = line.split(":") key = str(key).lower() if key in ["ref"]: decorators[key] = [v.strip() for v in value.split(",")] else: decorators[key] = value.strip() except: decorators[str(line).lower()] = True return decorators def custom_md_statement(self, children): return children # -- MARKDOWN -------------------------------------------------------------- @v_args(inline=True) def custom_markdown(self, line=""): line = re.sub(r"^--\|[ \t]?", '', line) return CustomMd(line) # -- CREATE TYPE ----------------------------------------------------------- def create_type_stmt(self, children): return CreateTypeStmt() # -- CREATE CAST ----------------------------------------------------------- @v_args(inline=True) def create_cast_stmt(self, source, target, *children): return CreateCastStmt(source, target) # -- CREATE OPERATOR ------------------------------------------------------- @v_args(inline=True) def create_oper_stmt(self, name, options): return CreateOperatorStmt(name, options['LEFTARG'], options['RIGHTARG']) def create_oper_opts(self, opts): return {key: value for [key, value] in opts} @v_args(inline=True) def create_oper_opt(self, option, value=None): return [str(option), value] # -- CREATE FUNCTION ------------------------------------------------------- @v_args(inline=True) def create_fun_ret_table_columns(self, columns): return FunctionReturnsTable(columns) def create_fun_rettype(self, children): rettype = children[1] if children[0] is not None: return FunctionReturnsSet(rettype) return FunctionReturns(rettype) def column_list(self, children): return children @v_args(inline=True) def column(self, name: str, coltype: str): return Column(name, coltype) @v_args(inline=True) def create_func_stmt(self, name: str, arguments, returns, *opts): # skip internal functions if name.startswith("__"): raise visitors.Discard() return CreateFunctionStmt(name, arguments, returns) # -- CREATE AGGREGATE ------------------------------------------------------ @v_args(inline=True) def create_agg_stmt(self, name: str, arguments, *params): return CreateAggregateStmt(name, arguments) # -- CREATE COMMENT -------------------------------------------------------- @v_args(inline=True) def comment_on_stmt(self, child, text): return CreateCommentStmt(text) # -- FUNCTION OR AGGREGATE ARGUMENTS --------------------------------------- def argument_list(self, children): return children @v_args(inline=True) def argument(self, argmode, name, argtype, default=None): return Argument(argmode, name, argtype, default) # -- CREATE OPERATOR CLASS ------------------------------------------------- def create_opcl_stmt(self, children): raise visitors.Discard() # -- SIMPLE RULES ---------------------------------------------------------- true = lambda self, _: "`true`" false = lambda self, _: "`false`" number = v_args(inline=True)(int) def fun_name(self, children): return children[1] @v_args(inline=True) def string(self, s): return s[1:-1].replace('\\"', '"') # -- TERMINALS ------------------------------------------------------------- def SIGNED_NUMBER(self, children): return int(children) def CNAME(self, cname): return str(cname) def OPERATOR(self, name): return str(name) def parse_args(): parser = argparse.ArgumentParser() parser.add_argument( '--group', '-g', nargs=2, metavar=('header', 'glob'), action='append', help='Globs for each group of SQL install files') return parser.parse_args() def create_parser(): here = Path(__file__).parent parser = Lark.open( here / "sql.lark", parser="lalr", maybe_placeholders=True) return parser def process_group(parser, group, statements_by_refid): [header, files_glob] = group statements = [] paths = glob.glob(files_glob) for path in sorted(paths): group_statements = parse_file(parser, path) # Add referenced statements to map for statement in group_statements: refid = statement.get_refid() if refid: statements_by_refid[refid] = statement statements += group_statements return (header, statements) # return flat list of statements in file def parse_file(parser, path): with open(path) as fd: sql = fd.read() tree = parser.parse(sql) statements = SQLTransformer(visit_tokens=True).transform(tree) return statements def statements_to_md(statements, context): items = [stmt.to_md(context) for stmt in statements] return [item for item in items if len(item) > 0] def main(): args = parse_args() parser = create_parser() groups = [] statements_by_refid = {} # Process groups for item in args.group: group = process_group(parser, item, statements_by_refid) groups.append(group) # Output md = "" for group in groups: [header, statements] = group md += md_heading(header) + "\n" md += "\n".join(statements_to_md(statements, Context(statements_by_refid))) + "\n" print(md) if __name__ == "__main__": main()