use crate::ARBITRARY_ATTRIBUTE_NAME; use proc_macro2::{Span, TokenStream, TokenTree}; use quote::quote; use syn::{spanned::Spanned, *}; /// Determines how a value for a field should be constructed. #[cfg_attr(test, derive(Debug))] pub enum FieldConstructor { /// Assume that Arbitrary is defined for the type of this field and use it (default) Arbitrary, /// Places `Default::default()` as a field value. Default, /// Use custom function or closure to generate a value for a field. With(TokenStream), /// Set a field always to the given value. Value(TokenStream), } pub fn determine_field_constructor(field: &Field) -> Result { let opt_attr = fetch_attr_from_field(field)?; let ctor = match opt_attr { Some(attr) => parse_attribute(attr)?, None => FieldConstructor::Arbitrary, }; Ok(ctor) } fn fetch_attr_from_field(field: &Field) -> Result> { let found_attributes: Vec<_> = field .attrs .iter() .filter(|a| { let path = a.path(); let name = quote!(#path).to_string(); name == ARBITRARY_ATTRIBUTE_NAME }) .collect(); if found_attributes.len() > 1 { let name = field.ident.as_ref().unwrap(); let msg = format!( "Multiple conflicting #[{ARBITRARY_ATTRIBUTE_NAME}] attributes found on field `{name}`" ); return Err(syn::Error::new(field.span(), msg)); } Ok(found_attributes.into_iter().next()) } fn parse_attribute(attr: &Attribute) -> Result { if let Meta::List(ref meta_list) = attr.meta { parse_attribute_internals(meta_list) } else { let msg = format!("#[{ARBITRARY_ATTRIBUTE_NAME}] must contain a group"); Err(syn::Error::new(attr.span(), msg)) } } fn parse_attribute_internals(meta_list: &MetaList) -> Result { let mut tokens_iter = meta_list.tokens.clone().into_iter(); let token = tokens_iter.next().ok_or_else(|| { let msg = format!("#[{ARBITRARY_ATTRIBUTE_NAME}] cannot be empty."); syn::Error::new(meta_list.span(), msg) })?; match token.to_string().as_ref() { "default" => Ok(FieldConstructor::Default), "with" => { let func_path = parse_assigned_value("with", tokens_iter, meta_list.span())?; Ok(FieldConstructor::With(func_path)) } "value" => { let value = parse_assigned_value("value", tokens_iter, meta_list.span())?; Ok(FieldConstructor::Value(value)) } _ => { let msg = format!("Unknown option for #[{ARBITRARY_ATTRIBUTE_NAME}]: `{token}`"); Err(syn::Error::new(token.span(), msg)) } } } // Input: // = 2 + 2 // Output: // 2 + 2 fn parse_assigned_value( opt_name: &str, mut tokens_iter: impl Iterator, default_span: Span, ) -> Result { let eq_sign = tokens_iter.next().ok_or_else(|| { let msg = format!( "Invalid syntax for #[{ARBITRARY_ATTRIBUTE_NAME}], `{opt_name}` is missing assignment." ); syn::Error::new(default_span, msg) })?; if eq_sign.to_string() == "=" { Ok(tokens_iter.collect()) } else { let msg = format!("Invalid syntax for #[{ARBITRARY_ATTRIBUTE_NAME}], expected `=` after `{opt_name}`, got: `{eq_sign}`"); Err(syn::Error::new(eq_sign.span(), msg)) } }