field_attributes.rs

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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<FieldConstructor> {

    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<Option<&Attribute>> {

    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<FieldConstructor> {

    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<FieldConstructor> {

    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<Item = TokenTree>,

    default_span: Span,

) -> Result<TokenStream> {

    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))