//! BNF grammar: //! //! ```text //! condition = value ("==" | ">" ...) value //! to = value value TO value //! ``` use nom::branch::alt; use nom::bytes::complete::tag; use nom::character::complete::multispace1; use nom::combinator::cut; use nom::sequence::{terminated, tuple}; use Condition::*; use crate::{parse_value, FilterCondition, IResult, Span, Token}; #[derive(Debug, Clone, PartialEq, Eq)] pub enum Condition<'a> { GreaterThan(Token<'a>), GreaterThanOrEqual(Token<'a>), Equal(Token<'a>), NotEqual(Token<'a>), Null, Empty, Exists, LowerThan(Token<'a>), LowerThanOrEqual(Token<'a>), Between { from: Token<'a>, to: Token<'a> }, Contains(Token<'a>), } /// condition = value ("==" | ">" ...) value pub fn parse_condition(input: Span) -> IResult { let operator = alt((tag("<="), tag(">="), tag("!="), tag("<"), tag(">"), tag("="))); let (input, (fid, op, value)) = tuple((parse_value, operator, cut(parse_value)))(input)?; let condition = match *op.fragment() { "<=" => FilterCondition::Condition { fid, op: LowerThanOrEqual(value) }, ">=" => FilterCondition::Condition { fid, op: GreaterThanOrEqual(value) }, "!=" => FilterCondition::Condition { fid, op: NotEqual(value) }, "<" => FilterCondition::Condition { fid, op: LowerThan(value) }, ">" => FilterCondition::Condition { fid, op: GreaterThan(value) }, "=" => FilterCondition::Condition { fid, op: Equal(value) }, _ => unreachable!(), }; Ok((input, condition)) } /// null = value "IS" WS+ "NULL" pub fn parse_is_null(input: Span) -> IResult { let (input, key) = parse_value(input)?; let (input, _) = tuple((tag("IS"), multispace1, tag("NULL")))(input)?; Ok((input, FilterCondition::Condition { fid: key, op: Null })) } /// null = value "IS" WS+ "NOT" WS+ "NULL" pub fn parse_is_not_null(input: Span) -> IResult { let (input, key) = parse_value(input)?; let (input, _) = tuple((tag("IS"), multispace1, tag("NOT"), multispace1, tag("NULL")))(input)?; Ok((input, FilterCondition::Not(Box::new(FilterCondition::Condition { fid: key, op: Null })))) } /// empty = value "IS" WS+ "EMPTY" pub fn parse_is_empty(input: Span) -> IResult { let (input, key) = parse_value(input)?; let (input, _) = tuple((tag("IS"), multispace1, tag("EMPTY")))(input)?; Ok((input, FilterCondition::Condition { fid: key, op: Empty })) } /// empty = value "IS" WS+ "NOT" WS+ "EMPTY" pub fn parse_is_not_empty(input: Span) -> IResult { let (input, key) = parse_value(input)?; let (input, _) = tuple((tag("IS"), multispace1, tag("NOT"), multispace1, tag("EMPTY")))(input)?; Ok((input, FilterCondition::Not(Box::new(FilterCondition::Condition { fid: key, op: Empty })))) } /// exist = value "EXISTS" pub fn parse_exists(input: Span) -> IResult { let (input, key) = terminated(parse_value, tag("EXISTS"))(input)?; Ok((input, FilterCondition::Condition { fid: key, op: Exists })) } /// exist = value "NOT" WS+ "EXISTS" pub fn parse_not_exists(input: Span) -> IResult { let (input, key) = parse_value(input)?; let (input, _) = tuple((tag("NOT"), multispace1, tag("EXISTS")))(input)?; Ok((input, FilterCondition::Not(Box::new(FilterCondition::Condition { fid: key, op: Exists })))) } /// contains = value "CONTAINS" value pub fn parse_contains(input: Span) -> IResult { let (input, (fid, _, value)) = tuple((parse_value, tag("CONTAINS"), cut(parse_value)))(input)?; Ok((input, FilterCondition::Condition { fid, op: Contains(value) })) } /// contains = value "NOT" WS+ "CONTAINS" value pub fn parse_not_contains(input: Span) -> IResult { let keyword = tuple((tag("NOT"), multispace1, tag("CONTAINS"))); let (input, (fid, _, value)) = tuple((parse_value, keyword, cut(parse_value)))(input)?; Ok(( input, FilterCondition::Not(Box::new(FilterCondition::Condition { fid, op: Contains(value) })), )) } /// to = value value "TO" WS+ value pub fn parse_to(input: Span) -> IResult { let (input, (key, from, _, _, to)) = tuple((parse_value, parse_value, tag("TO"), multispace1, cut(parse_value)))(input)?; Ok((input, FilterCondition::Condition { fid: key, op: Between { from, to } })) }