extern crate proc_macro; use syn::{Expr}; use syn::parse::{Parse, ParseStream, Result, Error}; use syn::punctuated::{Punctuated}; use syn::{parse_macro_input, Token}; use quote::{quote, format_ident}; use proc_macro::TokenStream; struct Matrix { // Represent the matrix as a row-major vector of vectors of expressions rows: Vec>, ncols: usize, } impl Matrix { fn nrows(&self) -> usize { self.rows.len() } fn ncols(&self) -> usize { self.ncols } fn to_col_major_repr(&self) -> Vec { let mut data = Vec::with_capacity(self.nrows() * self.ncols()); for j in 0 .. self.ncols() { for i in 0 .. self.nrows() { data.push(self.rows[i][j].clone()); } } data } } type MatrixRowSyntax = Punctuated; impl Parse for Matrix { fn parse(input: ParseStream) -> Result { let mut rows = Vec::new(); let mut ncols = None; while !input.is_empty() { let row_span = input.span(); let row = MatrixRowSyntax::parse_separated_nonempty(input)?; if let Some(ncols) = ncols { if row.len() != ncols { let row_idx = rows.len(); let error_msg = format!( "Unexpected number of entries in row {}. Expected {}, found {} entries.", row_idx, ncols, row.len()); return Err(Error::new(row_span, error_msg)); } } else { ncols = Some(row.len()); } rows.push(row.into_iter().collect()); // We've just read a row, so if there are more tokens, there must be a semi-colon, // otherwise the input is malformed if !input.is_empty() { input.parse::()?; } } Ok(Self { rows, ncols: ncols.unwrap_or(0) }) } } #[proc_macro] pub fn matrix(stream: TokenStream) -> TokenStream { let matrix = parse_macro_input!(stream as Matrix); let row_dim = matrix.nrows(); let col_dim = matrix.ncols(); let entries_col_major = matrix.to_col_major_repr(); // TODO: Use quote_spanned instead?? // TODO: Construct directly from array? let output = quote! { nalgebra::SMatrix::<_, #row_dim, #col_dim> ::from_column_slice(&[#(#entries_col_major),*]) }; proc_macro::TokenStream::from(output) }