use proc_macro::TokenStream; use quote::quote; use syn::spanned::Spanned; pub fn derive_params(input: TokenStream) -> TokenStream { let ast = syn::parse_macro_input!(input as syn::DeriveInput); let struct_name = &ast.ident; let (impl_generics, ty_generics, where_clause) = ast.generics.split_for_impl(); let fields = match ast.data { syn::Data::Struct(syn::DataStruct { fields: syn::Fields::Named(named_fields), .. }) => named_fields, _ => { return syn::Error::new( ast.span(), "Deriving Params is only supported on structs with named fields", ) .to_compile_error() .into() } }; // We only care about fields with `id`, `persist`, and `nested` attributes. For the `id` fields // we'll build a mapping function that creates a hashmap containing pointers to those // parameters. For the `persist` function we'll create functions that serialize and deserialize // those fields individually (so they can be added and removed independently of eachother) using // JSON. The `nested` fields should also implement the `Params` trait and their fields will be // inherited and added to this field's param mapping list. The order follows the declaration // order We'll also enforce that there are no duplicate keys for `id` fields at compile time. // TODO: This duplication check doesn't work for nested fields since we don't know anything // about the fields on the nested structs let mut params: Vec = Vec::new(); let mut persistent_fields: Vec = Vec::new(); for field in fields.named { let field_name = match &field.ident { Some(ident) => ident, _ => continue, }; // All attributes are mutually exclusive. If we encounter multiple or duplicate attributes, // then we'll error out. let mut processed_attribute = false; for attr in &field.attrs { if attr.path.is_ident("id") { match attr.parse_meta() { Ok(syn::Meta::NameValue(syn::MetaNameValue { lit: syn::Lit::Str(s), .. })) => { if processed_attribute { return syn::Error::new( attr.span(), "Duplicate or incompatible attribute found", ) .to_compile_error() .into(); } // This is a vector since we want to preserve the order. If structs get // large enough to the point where a linear search starts being expensive, // then the plugin should probably start splitting up their parameters. if params.iter().any(|p| match p { Param::Single { id, .. } => &s == id, _ => false, }) { return syn::Error::new( field.span(), "Multiple parameters with the same ID found", ) .to_compile_error() .into(); } params.push(Param::Single { id: s, field: field_name.clone(), }); processed_attribute = true; } _ => { return syn::Error::new( attr.span(), "The id attribute should be a key-value pair with a string argument: \ #[id = \"foo_bar\"]", ) .to_compile_error() .into() } }; } else if attr.path.is_ident("persist") { match attr.parse_meta() { Ok(syn::Meta::NameValue(syn::MetaNameValue { lit: syn::Lit::Str(s), .. })) => { if processed_attribute { return syn::Error::new( attr.span(), "Duplicate or incompatible attribute found", ) .to_compile_error() .into(); } if persistent_fields.iter().any(|p| p.key == s) { return syn::Error::new( field.span(), "Multiple persistent fields with the same key found", ) .to_compile_error() .into(); } persistent_fields.push(PersistentField { key: s, field: field_name.clone(), }); processed_attribute = true; } _ => { return syn::Error::new( attr.span(), "The persist attribute should be a key-value pair with a string \ argument: #[persist = \"foo_bar\"]", ) .to_compile_error() .into() } }; } else if attr.path.is_ident("nested") { // This one is more complicated. Supports an `array` attribute, an `id_prefix = // "foo"` attribute, and a `group = "group name"` attribute. All are optional, and // the first two are mutually exclusive. let mut nested_array = false; let mut nested_id_prefix: Option = None; let mut nested_group: Option = None; match attr.parse_meta() { Ok(syn::Meta::List(syn::MetaList { nested: nested_attrs, .. })) => { if processed_attribute { return syn::Error::new( attr.span(), "Duplicate or incompatible attribute found", ) .to_compile_error() .into(); } for nested_attr in nested_attrs { match nested_attr { syn::NestedMeta::Meta(syn::Meta::Path(p)) if p.is_ident("array") => { nested_array = true; } syn::NestedMeta::Meta(syn::Meta::NameValue( syn::MetaNameValue { path, lit: syn::Lit::Str(s), .. }, )) if path.is_ident("id_prefix") => { nested_id_prefix = Some(s.clone()); } syn::NestedMeta::Meta(syn::Meta::NameValue( syn::MetaNameValue { path, lit: syn::Lit::Str(s), .. }, )) if path.is_ident("group") => { let group_name = s.value(); if group_name.is_empty() { return syn::Error::new( attr.span(), "Group names cannot be empty", ) .to_compile_error() .into(); } else if group_name.contains('/') { return syn::Error::new( attr.span(), "Group names may not contain slashes", ) .to_compile_error() .into(); } else { nested_group = Some(s.clone()); } } _ => { return syn::Error::new( nested_attr.span(), "Unknown attribute. See the Params trait documentation \ for more information.", ) .to_compile_error() .into() } } } params.push(Param::Nested(match (nested_array, nested_id_prefix) { (true, None) => NestedParams::Array { field: field_name.clone(), group: nested_group, }, (false, Some(id_prefix)) => NestedParams::Prefixed { field: field_name.clone(), id_prefix, group: nested_group, }, (false, None) => NestedParams::Inline { field: field_name.clone(), group: nested_group, }, (true, Some(_)) => { return syn::Error::new( attr.span(), "'array' cannot be used together with 'id_prefix'", ) .to_compile_error() .into() } })); processed_attribute = true; } _ => { return syn::Error::new( attr.span(), "The nested attribute should be a list in the following format: \ #[nested([array | id_prefix = \"foo\"], [group = \"group name\"])]", ) .to_compile_error() .into() } }; } } } // The next step is build the gathered information into tokens that can be spliced into a // `Params` implementation let param_map_tokens = { let param_mapping_tokens = params.iter().map(|p| p.param_map_tokens()); quote! { // This may not be in scope otherwise, used to call .as_ptr() use ::nih_plug::params::Param; #[allow(unused_mut)] let mut param_map = Vec::new(); #(param_map.extend(#param_mapping_tokens); )* param_map } }; let (serialize_fields_tokens, deserialize_fields_tokens) = { // Like with `param_map()`, we'll try to do the serialization for this struct and then // recursively call the child parameter structs. We don't know anything about the actual // field types, but because we can generate this function we can get type erasure for free // since we only need to worry about byte vectors. let (serialize_fields_self_tokens, deserialize_fields_match_self_tokens): (Vec<_>, Vec<_>) = persistent_fields .into_iter() .map(|PersistentField { field, key }| { ( quote! { match ::nih_plug::params::persist::PersistentField::map( &self.#field, ::nih_plug::params::persist::serialize_field, ) { Ok(data) => { serialized.insert(String::from(#key), data); } Err(err) => { ::nih_plug::nih_debug_assert_failure!( "Could not serialize '{}': {}", #key, err ) } }; }, quote! { #key => { match ::nih_plug::params::persist::deserialize_field(&data) { Ok(deserialized) => { ::nih_plug::params::persist::PersistentField::set( &self.#field, deserialized, ); } Err(err) => { ::nih_plug::nih_debug_assert_failure!( "Could not deserialize '{}': {}", #key, err ) } }; } }, ) }) .unzip(); // ID prefixes are also added for nested objects let (serialize_fields_nested_tokens, deserialize_fields_nested_tokens): (Vec<_>, Vec<_>) = params .iter() .filter_map(|p| match p { Param::Single { .. } => None, Param::Nested(nested) => Some(nested), }) .map(|nested| match nested { NestedParams::Inline { field, .. } => ( quote! { serialized.extend(self.#field.serialize_fields()); }, quote! { self.#field.deserialize_fields(serialized); }, ), NestedParams::Prefixed { field, id_prefix, .. } => ( quote! { let prefixed = self .#field .serialize_fields() .into_iter() .map(|(key, value)| (format!("{}_{}", #id_prefix, key), value)); serialized.extend(prefixed); }, quote! { let prefix = format!("{}_", #id_prefix); let matching_fields = serialized .iter() .filter_map(|(key, value)| { let original_key = key.strip_prefix(&prefix)?; Some((original_key.to_owned(), value.to_owned())) }) .collect(); self.#field.deserialize_fields(&matching_fields); }, ), NestedParams::Array { field, .. } => ( quote! { for (field_idx, field) in self.#field.iter().enumerate() { let idx = field_idx + 1; let suffixed = field .serialize_fields() .into_iter() .map(|(key, value)| (format!("{}_{}", key, idx), value)); serialized.extend(suffixed); } }, quote! { for (field_idx, field) in self.#field.iter().enumerate() { let idx = field_idx + 1; let suffix = format!("_{}", idx); let matching_fields = serialized .iter() .filter_map(|(key, value)| { let original_key = key.strip_suffix(&suffix)?; Some((original_key.to_owned(), value.to_owned())) }) .collect(); field.deserialize_fields(&matching_fields); } }, ), }) .unzip(); let serialize_fields_tokens = quote! { #[allow(unused_mut)] let mut serialized = ::std::collections::BTreeMap::new(); #(#serialize_fields_self_tokens);* #(#serialize_fields_nested_tokens);* serialized }; let deserialize_fields_tokens = quote! { for (field_name, data) in serialized { match field_name.as_str() { #(#deserialize_fields_match_self_tokens)* _ => ::nih_plug::nih_debug_assert_failure!("Unknown serialized field name: {} (this may not be accurate)", field_name), } } // FIXME: The above warning will course give false postiives when using nested // parameter structs. An easy fix would be to use // https://doc.rust-lang.org/std/collections/struct.HashMap.html#method.drain_filter // once that gets stabilized. #(#deserialize_fields_nested_tokens);* }; (serialize_fields_tokens, deserialize_fields_tokens) }; quote! { unsafe impl #impl_generics Params for #struct_name #ty_generics #where_clause { fn param_map(&self) -> Vec<(String, nih_plug::prelude::ParamPtr, String)> { #param_map_tokens } fn serialize_fields(&self) -> ::std::collections::BTreeMap { #serialize_fields_tokens } fn deserialize_fields(&self, serialized: &::std::collections::BTreeMap) { #deserialize_fields_tokens } } } .into() } /// A parameter defined on this struct using the `#[id = "..."]` attribute, or another object that /// also implements `Params` tagged with one of the variations on the `#[nested]` attribute. #[derive(Debug)] enum Param { /// A parameter that should be added to the parameter map. Single { /// The name of the parameter's field on the struct. field: syn::Ident, /// The parameter's unique ID. id: syn::LitStr, }, /// Another struct also implementing `Params`. This object's parameters are inlined in the /// parameter list. Nested(NestedParams), } impl Param { /// Generate the tokens needed for a field (or nested parameter struct) to add itself to the /// parameter map. fn param_map_tokens(&self) -> proc_macro2::TokenStream { match self { Param::Single { field, id } => { quote! { [(String::from(#id), self.#field.as_ptr(), String::new())] } } Param::Nested(params) => params.param_map_tokens(), } } } /// A field containing data that must be stored in the plugin's state. #[derive(Debug)] struct PersistentField { /// The name of the field on the struct. field: syn::Ident, /// The field's unique key. key: syn::LitStr, } /// A field containing another object whose parameters and persistent fields should be added to this /// struct's. #[derive(Debug)] enum NestedParams { /// The nested struct's parameters are taken as is. Inline { field: syn::Ident, group: Option, }, /// The nested struct's parameters will get an ID prefix. The original parmaeter with ID `foo` /// will become `{id_prefix}_foo`. Prefixed { field: syn::Ident, id_prefix: syn::LitStr, group: Option, }, /// This field is an array-like data structure containing nested parameter structs. The /// parameter `foo` will get the new parameter ID `foo_{array_idx + 1}`, and if the group name /// is set then the group will be `{group_name} {array_idx + 1}`. Array { field: syn::Ident, group: Option, }, } impl NestedParams { /// Constrruct an iterator that iterates over all parmaeters of a nested parameter object. This /// takes ID prefixes and suffixes into account, and prefixes the group to the parameter's /// existing groups if the `group` attribute on the `#[nested]` macro was specified. fn param_map_tokens(&self) -> proc_macro2::TokenStream { // How nested parameters are handled depends on the `NestedParams` variant. // These are pairs of `(parameter_id, param_ptr, param_group)`. The specific // parameter types know how to convert themselves into the correct ParamPtr variant. // Top-level parameters have no group, and we'll prefix the group name specified in // the `#[nested(...)]` attribute to fields coming from nested groups. match self { // TODO: No idea how to splice this as an `Option<&str>`, so this involves some // copy-pasting NestedParams::Inline { field, group: Some(group), } => quote! { self.#field.param_map().into_iter().map(|(param_id, param_ptr, nested_group_name)| { if nested_group_name.is_empty() { (param_id, param_ptr, String::from(#group)) } else { (param_id, param_ptr, format!("{}/{}", #group, nested_group_name)) } }) }, NestedParams::Inline { field, group: None } => quote! { self.#field.param_map(); }, NestedParams::Prefixed { field, id_prefix, group: Some(group), } => quote! { self.#field.param_map().into_iter().map(|(param_id, param_ptr, nested_group_name)| { let param_id = format!("{}_{}", #id_prefix, param_id); if nested_group_name.is_empty() { (param_id, param_ptr, String::from(#group)) } else { (param_id, param_ptr, format!("{}/{}", #group, nested_group_name)) } }) }, NestedParams::Prefixed { field, id_prefix, group: None, } => quote! { self.#field.param_map().into_iter().map(|(param_id, param_ptr, nested_group_name)| { let param_id = format!("{}_{}", #id_prefix, param_id); (param_id, param_ptr, nested_group_name) }) }, // We'll start at index 1 for display purposes. Both the group and the parameter ID get // a suffix matching the array index. NestedParams::Array { field, group: Some(group), } => quote! { self.#field.iter().enumerate().flat_map(|(idx, params)| { let idx = idx + 1; params.param_map().into_iter().map(move |(param_id, param_ptr, nested_group_name)| { let param_id = format!("{}_{}", param_id, idx); let group = format!("{} {}", #group, idx); // Note that this is different from the other variants if nested_group_name.is_empty() { (param_id, param_ptr, group) } else { (param_id, param_ptr, format!("{}/{}", group, nested_group_name)) } }) }) }, NestedParams::Array { field, group: None } => quote! { self.#field.iter().enumerate().flat_map(|(idx, params)| { let idx = idx + 1; params.param_map().into_iter().map(move |(param_id, param_ptr, nested_group_name)| { let param_id = format!("{}_{}", param_id, idx); (param_id, param_ptr, nested_group_name) }) }) }, } } }