mindus - mindustry logic execution, map- and schematic- parsing and rendering


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use std::fmt;
use std::str::Utf8Error;

pub mod base64;
pub mod dynamic;

pub struct DataRead<'d>
{
	data: &'d [u8]
}

macro_rules!make_read
{
	($name:ident, $type:ty) =>
	{
		pub fn $name(&mut self) -> Result<$type, ReadError>
		{
			const LEN: usize = std::mem::size_of::<$type>();
			if self.data.len() < LEN
			{
				return Err(ReadError::Underflow{need: LEN, have: self.data.len()});
			}
			let mut output = [0u8; LEN];
			output.copy_from_slice(&self.data[..LEN]);
			self.data = &self.data[LEN..];
			Ok(<$type>::from_be_bytes(output))
		}
	};
}

impl<'d> DataRead<'d>
{
	pub fn new(data: &'d [u8]) -> Self
	{
		Self{data}
	}
	
	pub fn read_bool(&mut self) -> Result<bool, ReadError>
	{
		Ok(self.read_u8()? != 0)
	}
	
	make_read!(read_u8, u8);
	make_read!(read_i8, i8);
	make_read!(read_u16, u16);
	make_read!(read_i16, i16);
	make_read!(read_u32, u32);
	make_read!(read_i32, i32);
	make_read!(read_f32, f32);
	make_read!(read_u64, u64);
	make_read!(read_i64, i64);
	make_read!(read_f64, f64);
	
	pub fn read_utf(&mut self) -> Result<&'d str, ReadError>
	{
		if self.data.len() < 2
		{
			return Err(ReadError::Underflow{need: 2, have: self.data.len()});
		}
		let len = u16::from_be_bytes([self.data[0], self.data[1]]);
		let end = 2 + len as usize;
		if self.data.len() < end
		{
			return Err(ReadError::Underflow{need: end, have: self.data.len()});
		}
		let result = std::str::from_utf8(&self.data[2..end])?;
		self.data = &self.data[end..];
		Ok(result)
	}
	
	pub fn read_bytes(&mut self, dst: &mut [u8]) -> Result<(), ReadError>
	{
		if self.data.len() < dst.len()
		{
			return Err(ReadError::Underflow{need: dst.len(), have: self.data.len()});
		}
		dst.copy_from_slice(&self.data[..dst.len()]);
		self.data = &self.data[dst.len()..];
		Ok(())
	}
	
	pub fn read_vec(&mut self, dst: &mut Vec<u8>, len: usize) -> Result<(), ReadError>
	{
		if self.data.len() < len
		{
			return Err(ReadError::Underflow{need: len, have: self.data.len()});
		}
		dst.extend_from_slice(&self.data[..len]);
		self.data = &self.data[len..];
		Ok(())
	}
}

#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum ReadError
{
	Underflow{need: usize, have: usize},
	Utf8(Utf8Error),
}

impl From<Utf8Error> for ReadError
{
	fn from(err: Utf8Error) -> Self
	{
		ReadError::Utf8(err)
	}
}

enum WriteBuff<'d>
{
	// unlike the DataRead want to access the written region after
	Ref{raw: &'d mut [u8], pos: usize},
	Vec(Vec<u8>),
}

impl<'d> WriteBuff<'d>
{
	fn check_capacity(&self, need: usize) -> Result<(), WriteError>
	{
		match self
		{
			Self::Ref{raw, pos} if raw.len() - pos < need => Err(WriteError::Overflow{need, have: raw.len() - pos}),
			_ => Ok(()),
		}
	}
	
	fn write(&mut self, data: &[u8])
	{
		match self
		{
			Self::Ref{raw, pos} =>
			{
				let end = *pos + data.len();
				raw[*pos..end].copy_from_slice(data);
				*pos += data.len();
			},
			Self::Vec(v) => v.extend_from_slice(data),
		}
	}
}

pub struct DataWrite<'d>
{
	data: WriteBuff<'d>
}

macro_rules!make_write
{
	($name:ident, $type:ty) =>
	{
		pub fn $name(&mut self, val: $type) -> Result<(), WriteError>
		{
			const LEN: usize = std::mem::size_of::<$type>();
			self.data.check_capacity(LEN)?;
			self.data.write(&<$type>::to_be_bytes(val));
			Ok(())
		}
	};
}

impl<'d> DataWrite<'d>
{
	pub fn write_bool(&mut self, val: bool) -> Result<(), WriteError>
	{
		self.write_u8(val as u8)
	}
	
	make_write!(write_u8, u8);
	make_write!(write_i8, i8);
	make_write!(write_u16, u16);
	make_write!(write_i16, i16);
	make_write!(write_u32, u32);
	make_write!(write_i32, i32);
	make_write!(write_f32, f32);
	make_write!(write_u64, u64);
	make_write!(write_i64, i64);
	make_write!(write_f64, f64);
	
	pub fn write_utf(&mut self, val: &str) -> Result<(), WriteError>
	{
		if val.len() > u16::MAX as usize
		{
			return Err(WriteError::TooLong{len: val.len()});
		}
		self.data.check_capacity(2 + val.len())?;
		self.data.write(&u16::to_be_bytes(val.len() as u16));
		self.data.write(val.as_bytes());
		Ok(())
	}
	
	pub fn write_bytes(&mut self, val: &[u8]) -> Result<(), WriteError>
	{
		self.data.check_capacity(val.len())?;
		self.data.write(val);
		Ok(())
	}
	
	pub fn is_owned(&self) -> bool
	{
		match self.data
		{
			WriteBuff::Vec(..) => true,
			_ => false,
		}
	}
	
	pub fn get_written(&self) -> &[u8]
	{
		match &self.data
		{
			WriteBuff::Ref{raw, pos} => &raw[..*pos],
			WriteBuff::Vec(v) => &v,
		}
	}
}

impl DataWrite<'static>
{
	pub fn new() -> Self
	{
		Self{data: WriteBuff::Vec(Vec::new())}
	}
}

#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum WriteError
{
	Overflow{need: usize, have: usize},
	TooLong{len: usize},
}

impl<'d> From<&'d mut [u8]> for DataWrite<'d>
{
	fn from(value: &'d mut [u8]) -> Self
	{
		Self{data: WriteBuff::Ref{raw: value, pos: 0}}
	}
}

impl From<Vec<u8>> for DataWrite<'static>
{
	fn from(value: Vec<u8>) -> Self
	{
		Self{data: WriteBuff::Vec(value)}
	}
}

impl<'d> TryFrom<DataWrite<'d>> for Vec<u8>
{
	type Error = ();
	
	fn try_from(value: DataWrite<'d>) -> Result<Self, Self::Error>
	{
		match value.data
		{
			WriteBuff::Vec(v) => Ok(v),
			_ => Err(()),
		}
	}
}

pub trait Serializer<D>
{
	type ReadError;
	type WriteError;
	
	fn deserialize(&mut self, buff: &mut DataRead<'_>) -> Result<D, Self::ReadError>;
	
	fn serialize(&mut self, buff: &mut DataWrite<'_>, data: &D) -> Result<(), Self::WriteError>;
}

#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub struct GridPos(pub u16, pub u16);

impl From<u32> for GridPos
{
	fn from(value: u32) -> Self
	{
		GridPos((value >> 16) as u16, value as u16)
	}
}

impl From<GridPos> for u32
{
	fn from(value: GridPos) -> Self
	{
		((value.0 as u32) << 16) | (value.1 as u32)
	}
}

#[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub struct Team(u8);

impl Team
{
	pub fn of(id: u8) -> Self
	{
		Self(id)
	}
	
	pub fn get_id(&self) -> u8
	{
		self.0
	}
	
	pub fn is_base(&self) -> bool
	{
		self.0 < 6
	}
	
	pub fn get_name(&self) -> Option<&'static str>
	{
		match self.0
		{
			0 => Some("derelict"),
			1 => Some("sharded"),
			2 => Some("crux"),
			3 => Some("malis"),
			4 => Some("green"),
			5 => Some("blue"),
			_ => None,
		}
	}
}

impl From<u8> for Team
{
	fn from(value: u8) -> Self
	{
		Team::of(value)
	}
}

impl From<Team> for u8
{
	fn from(value: Team) -> Self
	{
		value.0
	}
}

impl fmt::Display for Team
{
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result
	{
		match self.0
		{
			0 => f.write_str("Derelict"),
			1 => f.write_str("Sharded"),
			2 => f.write_str("Crux"),
			3 => f.write_str("Malis"),
			4 => f.write_str("Green"),
			5 => f.write_str("Blue"),
			id => write!(f, "Team #{id}"),
		}
	}
}

pub const TEAM_DERELICT: Team = Team(0);
pub const TEAM_SHARDED: Team = Team(1);
pub const TEAM_CRUX: Team = Team(2);
pub const TEAM_MALIS: Team = Team(3);
pub const TEAM_GREEN: Team = Team(4);
pub const TEAM_BLUE: Team = Team(5);

#[cfg(test)]
mod test
{
	use super::*;
	
	#[test]
	fn read()
	{
		let mut read = DataRead::new("Thé qûick ઉrown fox 🦘 over\0\rthe lazy dog.".as_bytes());
		assert_eq!(read.read_u8(), Ok(84));
		assert_eq!(read.read_i8(), Ok(104));
		assert_eq!(read.read_i8(), Ok(-61));
		assert_eq!(read.read_u16(), Ok(43296));
		assert_eq!(read.read_i16(), Ok(29123));
		assert_eq!(read.read_i16(), Ok(-17559));
		assert_eq!(read.read_i32(), Ok(1667965152));
		assert_eq!(read.read_i32(), Ok(-1433832849));
		assert_eq!(read.read_i64(), Ok(8605851562280493296));
		assert_eq!(read.read_i64(), Ok(-6942694510468635278));
		assert_eq!(read.read_utf(), Ok("the lazy dog."));
	}
	
	#[test]
	fn write()
	{
		let mut write = DataWrite::new();
		assert_eq!(write.write_u8(84), Ok(()));
		assert_eq!(write.write_i8(104), Ok(()));
		assert_eq!(write.write_i8(-61), Ok(()));
		assert_eq!(write.write_u16(43296), Ok(()));
		assert_eq!(write.write_i16(29123), Ok(()));
		assert_eq!(write.write_i16(-17559), Ok(()));
		assert_eq!(write.write_i32(1667965152), Ok(()));
		assert_eq!(write.write_i32(-1433832849), Ok(()));
		assert_eq!(write.write_i64(8605851562280493296), Ok(()));
		assert_eq!(write.write_i64(-6942694510468635278), Ok(()));
		assert_eq!(write.write_utf("the lazy dog."), Ok(()));
		assert_eq!(write.get_written(), "Thé qûick ઉrown fox 🦘 over\0\rthe lazy dog.".as_bytes());
	}
}