use super::file::*;
use super::parser;
use assembly_core::reader::FileResult;
use assembly_core::{nom::Finish, reader::ParseAt};
use byteorder::{ReadBytesExt, LE};
use std::io::prelude::*;
pub trait TerrainReader: Read {
fn read_terrain_header(&mut self) -> FileResult<TerrainHeader> {
let mut header_bytes = [0 as u8; 15];
self.read_exact(&mut header_bytes)?;
let (_, header) = parser::parse_terrain_header(&header_bytes)
.finish()
.at(0xbeef, &header_bytes)?;
Ok(header)
}
fn read_terrain_chunk(&mut self) -> FileResult<TerrainChunk> {
let index = self.read_u32::<LE>()?;
Ok(TerrainChunk { index })
}
fn read_height_map_header(&mut self) -> FileResult<HeightMapHeader> {
let mut header_bytes = [0 as u8; 36];
self.read_exact(&mut header_bytes)?;
let (_, header) = parser::parse_height_map_header(&header_bytes)
.finish()
.at(0xbeef, &header_bytes)?;
Ok(header)
}
fn read_height_map_data(&mut self, width: u32, height: u32) -> FileResult<Vec<f32>> {
let len = (width * height) as usize;
let mut bytes = Vec::with_capacity(len);
bytes.resize(len, 0.0);
self.read_f32_into::<LE>(bytes.as_mut_slice())?;
Ok(bytes)
}
fn read_color_map_data(&mut self) -> FileResult<Vec<u32>> {
let len = self.read_u32::<LE>()? as usize;
let len = len * len;
let mut bytes = vec![0; len];
self.read_u32_into::<LE>(bytes.as_mut_slice())?;
Ok(bytes)
}
fn read_embedded_file(&mut self) -> FileResult<Vec<u8>> {
let len = self.read_u32::<LE>()? as usize;
let mut bytes = vec![0; len];
self.read_exact(bytes.as_mut_slice())?;
Ok(bytes)
}
}
impl<T> TerrainReader for T where T: Read {}