css 0.0.22

A crate that uses the cssparser and selectors crates to provide a domain model for CSS Stylesheets. Intended to allow effective minification of CSS and CSS transformations such as autoprefixing and removal by other crates
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// This file is part of css. It is subject to the license terms in the COPYRIGHT file found in the top-level directory of this distribution and at https://raw.githubusercontent.com/lemonrock/css/master/COPYRIGHT. No part of predicator, including this file, may be copied, modified, propagated, or distributed except according to the terms contained in the COPYRIGHT file.
// Copyright © 2017 The developers of css. See the COPYRIGHT file in the top-level directory of this distribution and at https://raw.githubusercontent.com/lemonrock/css/master/COPYRIGHT.


#[derive(Debug, Copy, Clone, Ord, PartialOrd, Eq, PartialEq, Hash)]
pub enum NumberOrPercentageUnit<Number: CssNumber>
{
	IsNumber(Number),
	IsPercentage(PercentageUnit<Number>)
}

impl<Number: CssNumber> ToCss for NumberOrPercentageUnit<Number>
{
	fn to_css<W: fmt::Write>(&self, dest: &mut W) -> fmt::Result
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref length) => length.to_css(dest),
			IsPercentage(ref length) => length.to_css(dest),
		}
	}
}

impl<Number: CssNumber> Default for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn default() -> Self
	{
		NumberOrPercentageUnit::IsNumber(Number::default())
	}
}

impl<Number: CssNumber> Add<Number> for NumberOrPercentageUnit<Number>
{
	type Output = Self;
	
	#[inline(always)]
	fn add(self, rhs: Number) -> Self::Output
	{
		use self::NumberOrPercentageUnit::*;
		match self
		{
			IsNumber(length) => IsNumber(length + rhs),
			IsPercentage(length) => IsPercentage(length + rhs),
		}
	}
}

impl<Number: CssNumber> AddAssign<Number> for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn add_assign(&mut self, rhs: Number)
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref mut length) => *length = *length + rhs,
			IsPercentage(ref mut length) => *length = *length + rhs,
		}
	}
}

impl<Number: CssNumber> Sub<Number> for NumberOrPercentageUnit<Number>
{
	type Output = Self;
	
	#[inline(always)]
	fn sub(self, rhs: Number) -> Self::Output
	{
		use self::NumberOrPercentageUnit::*;
		match self
		{
			IsNumber(length) => IsNumber(length - rhs),
			IsPercentage(length) => IsPercentage(length - rhs),
		}
	}
}

impl<Number: CssNumber> SubAssign<Number> for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn sub_assign(&mut self, rhs: Number)
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref mut length) => *length = *length - rhs,
			IsPercentage(ref mut length) => *length = *length - rhs,
		}
	}
}

impl<Number: CssNumber> Mul<Number> for NumberOrPercentageUnit<Number>
{
	type Output = Self;
	
	#[inline(always)]
	fn mul(self, rhs: Number) -> Self::Output
	{
		use self::NumberOrPercentageUnit::*;
		match self
		{
			IsNumber(length) => IsNumber(length * rhs),
			IsPercentage(length) => IsPercentage(length * rhs),
		}
	}
}

impl<Number: CssNumber> MulAssign<Number> for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn mul_assign(&mut self, rhs: Number)
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref mut length) => *length = *length * rhs,
			IsPercentage(ref mut length) => *length = *length * rhs,
		}
	}
}

impl<Number: CssNumber> Div<Number> for NumberOrPercentageUnit<Number>
{
	type Output = Self;
	
	#[inline(always)]
	fn div(self, rhs: Number) -> Self::Output
	{
		use self::NumberOrPercentageUnit::*;
		match self
		{
			IsNumber(length) => IsNumber(length / rhs),
			IsPercentage(length) => IsPercentage(length / rhs),
		}
	}
}

impl<Number: CssNumber> DivAssign<Number> for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn div_assign(&mut self, rhs: Number)
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref mut length) => *length = *length / rhs,
			IsPercentage(ref mut length) => *length = *length / rhs,
		}
	}
}

impl<Number: CssNumber> Rem<Number> for NumberOrPercentageUnit<Number>
{
	type Output = Self;
	
	#[inline(always)]
	fn rem(self, rhs: Number) -> Self::Output
	{
		use self::NumberOrPercentageUnit::*;
		match self
		{
			IsNumber(length) => IsNumber(length % rhs),
			IsPercentage(length) => IsPercentage(length % rhs),
		}
	}
}

impl<Number: CssNumber> RemAssign<Number> for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn rem_assign(&mut self, rhs: Number)
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref mut length) => *length = *length % rhs,
			IsPercentage(ref mut length) => *length = *length % rhs,
		}
	}
}

impl<Number: CssNumber> Neg for NumberOrPercentageUnit<Number>
{
	type Output = Self;
	
	#[inline(always)]
	fn neg(self) -> Self::Output
	{
		use self::NumberOrPercentageUnit::*;
		match self
		{
			IsNumber(length) => IsNumber(-length),
			IsPercentage(length) => IsPercentage(-length),
		}
	}
}

impl<Number: CssNumber> CssNumberNewType <Number>for NumberOrPercentageUnit<Number>
{
	#[inline(always)]
	fn to_f32(&self) -> f32
	{
		self.to_CssNumber().to_f32()
	}
	
	#[inline(always)]
	fn as_CssNumber(&self) -> &Number
	{
		use self::NumberOrPercentageUnit::*;
		match *self
		{
			IsNumber(ref length) => length.as_CssNumber(),
			IsPercentage(ref length) => length.as_CssNumber(),
		}
	}
}

impl<NumberX: CssNumber> Unit for NumberOrPercentageUnit<NumberX>
{
	type Number = NumberX;
	
	const HasDimension: bool = true;
	
	#[inline(always)]
	fn parse_one_outside_calc_function<'i, 't>(context: &ParserContext, input: &mut Parser<'i, 't>) -> Result<CalculablePropertyValue<Self>, ParseError<'i, CustomParseError<'i>>>
	{
		use self::NumberOrPercentageUnit::*;
		use self::CalculablePropertyValue::*;
		
		let functionParser = match *input.next()?
		{
			Token::Number { value, int_value, .. } => return Self::Number::parseNumber(value, int_value).map(|value| Constant(IsNumber(value))),
			
			Token::Percentage { unit_value, .. } => return PercentageUnit::parse_percentage(unit_value).map(|value| Constant(IsPercentage(value))),
			
			Token::Function(ref name) => FunctionParser::parser(name)?,
			
			ref unexpectedToken @ _ => return CustomParseError::unexpectedToken(unexpectedToken),
		};
		functionParser.parse_one_outside_calc_function(context, input)
	}
	
	#[inline(always)]
	fn parse_one_inside_calc_function<'i, 't>(context: &ParserContext, input: &mut Parser<'i, 't>) -> Result<Either<CalculablePropertyValue<Self>, CalcExpression<Self>>, ParseError<'i, CustomParseError<'i>>>
	{
		use self::NumberOrPercentageUnit::*;
		use self::CalculablePropertyValue::*;
		
		let functionParser = match *input.next()?
		{
			Token::Number { value, int_value, .. } => return Self::Number::parseNumber(value, int_value).map(|value| Left(Constant(IsNumber(value)))),
			
			Token::Percentage { unit_value, .. } => return PercentageUnit::parse_percentage(unit_value).map(|value| Left(Constant(IsPercentage(value)))),
			
			Token::ParenthesisBlock => FunctionParser::parentheses,
			
			Token::Function(ref name) => FunctionParser::parser(name)?,
			
			ref unexpectedToken @ _ => return CustomParseError::unexpectedToken(unexpectedToken),
		};
		functionParser.parse_one_inside_calc_function(context, input)
	}
	
	#[inline(always)]
	fn to_canonical_dimension_value<Conversion: FontRelativeLengthConversion<Self::Number> + ViewportPercentageLengthConversion<Self::Number> + PercentageConversion<Self::Number>>(&self, conversion: &Conversion) -> Self::Number
	{
		use self::NumberOrPercentageUnit::*;
		
		match *self
		{
			IsNumber(ref length) => length.to_canonical_dimension_value(conversion),
			IsPercentage(ref percentage) => percentage.to_canonical_dimension_value(conversion),
		}
	}
	
	#[inline(always)]
	fn from_raw_css_for_var_expression_evaluation(value: &str, _is_not_in_page_rule: bool) -> Option<Self>
	{
		use self::NumberOrPercentageUnit::*;
		
		fn from_raw_css_for_var_expression_evaluation_internal<'i: 't, 't, Number: CssNumber>(input: &mut Parser<'i, 't>) -> Result<NumberOrPercentageUnit<Number>, ParseError<'i, CustomParseError<'i>>>
		{
			let value = match *input.next()?
			{
				Token::Number { value, int_value, .. } => Number::parseNumber(value, int_value).map(IsNumber),
				
				Token::Percentage { unit_value, .. } => PercentageUnit::parse_percentage(unit_value).map(|value| IsPercentage(value)),
				
				ref unexpectedToken @ _ => CustomParseError::unexpectedToken(unexpectedToken),
			};
			
			input.skip_whitespace();
			
			input.expect_exhausted()?;
			
			value
		}
		
		const LineNumberingIsZeroBased: u32 = 0;
		
		let mut parserInput = ParserInput::new_with_line_number_offset(value, LineNumberingIsZeroBased);
		let mut input = Parser::new(&mut parserInput);
		
		from_raw_css_for_var_expression_evaluation_internal(&mut input).ok()
	}
}

impl<Number: CssNumber> NumberOrPercentageUnit<Number>
{
	/// Get an absolute number using a conversion
	#[inline(always)]
	pub fn to_number<Conversion: PercentageConversion<Number>>(&self, conversion: &Conversion) -> Number
	{
		use self::NumberOrPercentageUnit::*;
		
		match *self
		{
			IsNumber(number) => number,
			IsPercentage(percentage) => percentage.to_absolute_value(conversion),
		}
	}
}