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More refactoring of proc macro...

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This commit is contained in:
Graham Esau 2020-05-11 21:53:36 +01:00
parent 631120ead8
commit b1ded882b7
5 changed files with 421 additions and 419 deletions
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11
schemars_derive/src/ast/mod.rs
View file

@ -54,10 +54,21 @@ impl<'a> Variant<'a> {
pub fn name(&self) -> String {
self.serde_attrs.name().deserialize_name()
}
pub fn is_unit(&self) -> bool {
match self.style {
serde_ast::Style::Unit => true,
_ => false,
}
}
}
impl<'a> Field<'a> {
pub fn name(&self) -> String {
self.serde_attrs.name().deserialize_name()
}
pub fn type_for_schema(&self) -> &syn::Type {
self.with.as_ref().unwrap_or(self.ty)
}
}

404
schemars_derive/src/lib.rs
View file

@ -7,14 +7,10 @@ extern crate proc_macro;
mod ast;
mod attr;
mod metadata;
mod schema_exprs;
use ast::*;
use metadata::*;
use proc_macro2::TokenStream;
use quote::ToTokens;
use serde_derive_internals::ast::Style;
use serde_derive_internals::attr::{self as serde_attr, Default as SerdeDefault, TagType};
use syn::spanned::Spanned;
#[proc_macro_derive(JsonSchema, attributes(schemars, serde))]
pub fn derive_json_schema_wrapper(input: proc_macro::TokenStream) -> proc_macro::TokenStream {
@ -34,15 +30,7 @@ fn derive_json_schema(mut input: syn::DeriveInput) -> TokenStream {
Err(e) => return compile_error(&e),
};
let schema_expr = match &cont.data {
Data::Struct(Style::Unit, _) => schema_for_unit_struct(),
Data::Struct(Style::Newtype, fields) => schema_for_newtype_struct(&fields[0]),
Data::Struct(Style::Tuple, fields) => schema_for_tuple_struct(fields),
Data::Struct(Style::Struct, fields) => schema_for_struct(fields, Some(&cont.serde_attrs)),
Data::Enum(variants) => schema_for_enum(variants, &cont.serde_attrs),
};
let doc_metadata = SchemaMetadata::from_doc_attrs(&cont.original.attrs);
let schema_expr = doc_metadata.apply_to_schema(schema_expr);
let schema_expr = schema_exprs::expr_for_container(&cont);
let type_name = &cont.ident;
let type_params: Vec<_> = cont.generics.type_params().map(|ty| &ty.ident).collect();
@ -103,397 +91,9 @@ fn add_trait_bounds(generics: &mut syn::Generics) {
}
}
fn wrap_schema_fields(schema_contents: TokenStream) -> TokenStream {
quote! {
schemars::schema::Schema::Object(
schemars::schema::SchemaObject {
#schema_contents
..Default::default()
})
}
}
fn compile_error<'a>(errors: impl IntoIterator<Item = &'a syn::Error>) -> TokenStream {
let compile_errors = errors.into_iter().map(syn::Error::to_compile_error);
quote! {
#(#compile_errors)*
}
}
fn is_unit_variant(v: &Variant) -> bool {
match v.style {
Style::Unit => v.with.is_none(),
_ => false,
}
}
fn schema_for_enum(variants: &[Variant], cattrs: &serde_attr::Container) -> TokenStream {
let variants = variants
.iter()
.filter(|v| !v.serde_attrs.skip_deserializing());
match cattrs.tag() {
TagType::External => schema_for_external_tagged_enum(variants),
TagType::None => schema_for_untagged_enum(variants),
TagType::Internal { tag } => schema_for_internal_tagged_enum(variants, tag),
TagType::Adjacent { tag, content } => {
schema_for_adjacent_tagged_enum(variants, tag, content)
}
}
}
fn schema_for_external_tagged_enum<'a>(
variants: impl Iterator<Item = &'a Variant<'a>>,
) -> TokenStream {
let (unit_variants, complex_variants): (Vec<_>, Vec<_>) =
variants.partition(|v| is_unit_variant(v));
let unit_count = unit_variants.len();
let unit_names = unit_variants.into_iter().map(|v| v.name());
let unit_schema = wrap_schema_fields(quote! {
enum_values: Some(vec![#(#unit_names.into()),*]),
});
if complex_variants.is_empty() {
return unit_schema;
}
let mut schemas = Vec::new();
if unit_count > 0 {
schemas.push(unit_schema);
}
schemas.extend(complex_variants.into_iter().map(|variant| {
let name = variant.name();
let sub_schema = schema_for_untagged_enum_variant(variant);
let schema_expr = wrap_schema_fields(quote! {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
object: Some(Box::new(schemars::schema::ObjectValidation {
properties: {
let mut props = schemars::Map::new();
props.insert(#name.to_owned(), #sub_schema);
props
},
required: {
let mut required = schemars::Set::new();
required.insert(#name.to_owned());
required
},
..Default::default()
})),
});
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
doc_metadata.apply_to_schema(schema_expr)
}));
wrap_schema_fields(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn schema_for_internal_tagged_enum<'a>(
variants: impl Iterator<Item = &'a Variant<'a>>,
tag_name: &str,
) -> TokenStream {
let schemas = variants.map(|variant| {
let name = variant.name();
let type_schema = wrap_schema_fields(quote! {
instance_type: Some(schemars::schema::InstanceType::String.into()),
enum_values: Some(vec![#name.into()]),
});
let tag_schema = wrap_schema_fields(quote! {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
object: Some(Box::new(schemars::schema::ObjectValidation {
properties: {
let mut props = schemars::Map::new();
props.insert(#tag_name.to_owned(), #type_schema);
props
},
required: {
let mut required = schemars::Set::new();
required.insert(#tag_name.to_owned());
required
},
..Default::default()
})),
});
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
let tag_schema = doc_metadata.apply_to_schema(tag_schema);
// FIXME this match block is duplicated in schema_for_adjacent_tagged_enum,
// and is extremely similar to schema_for_untagged_enum_variant
let variant_schema = match (&variant.with, &variant.style) {
(Some(with), _) => {
quote_spanned! {variant.original.span()=>
<#with>::json_schema(gen)
}
}
(None, Style::Unit) => return tag_schema,
(None, Style::Newtype) => {
let field = &variant.fields[0];
let ty = get_json_schema_type(field);
quote_spanned! {field.original.span()=>
<#ty>::json_schema(gen)
}
}
(None, Style::Struct) => schema_for_struct(&variant.fields, None),
(None, Style::Tuple) => schema_for_tuple_struct(&variant.fields),
};
quote! {
#tag_schema.flatten(#variant_schema)
}
});
wrap_schema_fields(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn schema_for_untagged_enum<'a>(variants: impl Iterator<Item = &'a Variant<'a>>) -> TokenStream {
let schemas = variants.map(|variant| {
let schema_expr = schema_for_untagged_enum_variant(variant);
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
doc_metadata.apply_to_schema(schema_expr)
});
wrap_schema_fields(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn schema_for_untagged_enum_variant(variant: &Variant) -> TokenStream {
if let Some(with) = &variant.with {
return quote_spanned! {variant.original.span()=>
gen.subschema_for::<#with>()
};
}
match variant.style {
Style::Unit => schema_for_unit_struct(),
Style::Newtype => schema_for_newtype_struct(&variant.fields[0]),
Style::Tuple => schema_for_tuple_struct(&variant.fields),
Style::Struct => schema_for_struct(&variant.fields, None),
}
}
fn schema_for_adjacent_tagged_enum<'a>(
variants: impl Iterator<Item = &'a Variant<'a>>,
tag_name: &str,
content_name: &str,
) -> TokenStream {
let schemas = variants.map(|variant| {
let content_schema = match (&variant.with, &variant.style) {
(Some(with), _) => Some(quote_spanned! {variant.original.span()=>
<#with>::json_schema(gen)
}),
(None, Style::Unit) => None,
(None, Style::Newtype) => {
let field = &variant.fields[0];
let ty = get_json_schema_type(field);
Some(quote_spanned! {field.original.span()=>
<#ty>::json_schema(gen)
})
}
(None, Style::Struct) => Some(schema_for_struct(&variant.fields, None)),
(None, Style::Tuple) => Some(schema_for_tuple_struct(&variant.fields)),
};
let (add_content_property, add_content_required) = content_schema
.map(|content_schema| {
(
quote!(props.insert(#content_name.to_owned(), #content_schema);),
quote!(required.insert(#content_name.to_owned());),
)
})
.unwrap_or_default();
let name = variant.name();
let tag_schema = wrap_schema_fields(quote! {
instance_type: Some(schemars::schema::InstanceType::String.into()),
enum_values: Some(vec![#name.into()]),
});
let outer_schema = wrap_schema_fields(quote! {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
object: Some(Box::new(schemars::schema::ObjectValidation {
properties: {
let mut props = schemars::Map::new();
props.insert(#tag_name.to_owned(), #tag_schema);
#add_content_property
props
},
required: {
let mut required = schemars::Set::new();
required.insert(#tag_name.to_owned());
#add_content_required
required
},
..Default::default()
})),
});
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
doc_metadata.apply_to_schema(outer_schema)
});
wrap_schema_fields(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn schema_for_unit_struct() -> TokenStream {
quote! {
gen.subschema_for::<()>()
}
}
fn schema_for_newtype_struct(field: &Field) -> TokenStream {
let ty = get_json_schema_type(field);
quote_spanned! {field.original.span()=>
gen.subschema_for::<#ty>()
}
}
fn schema_for_tuple_struct(fields: &[Field]) -> TokenStream {
let types = fields
.iter()
.filter(|f| !f.serde_attrs.skip_deserializing())
.map(get_json_schema_type);
quote! {
gen.subschema_for::<(#(#types),*)>()
}
}
fn schema_for_struct(fields: &[Field], cattrs: Option<&serde_attr::Container>) -> TokenStream {
let (flattened_fields, property_fields): (Vec<_>, Vec<_>) = fields
.iter()
.filter(|f| !f.serde_attrs.skip_deserializing() || !f.serde_attrs.skip_serializing())
.partition(|f| f.serde_attrs.flatten());
let set_container_default = match cattrs.map_or(&SerdeDefault::None, |c| c.default()) {
SerdeDefault::None => None,
SerdeDefault::Default => Some(quote!(let container_default = Self::default();)),
SerdeDefault::Path(path) => Some(quote!(let container_default = #path();)),
};
let properties = property_fields.iter().map(|field| {
let name = field.name();
let default = field_default_expr(field, set_container_default.is_some());
let required = match default {
Some(_) => quote!(false),
None => quote!(true),
};
let metadata = &SchemaMetadata {
read_only: field.serde_attrs.skip_deserializing(),
write_only: field.serde_attrs.skip_serializing(),
default,
..SchemaMetadata::from_doc_attrs(&field.original.attrs)
};
let ty = get_json_schema_type(field);
let span = field.original.span();
quote_spanned! {span=>
<#ty>::add_schema_as_property(gen, &mut schema_object, #name.to_owned(), #metadata, #required);
}
});
let flattens = flattened_fields.iter().map(|field| {
let ty = get_json_schema_type(field);
let span = field.original.span();
quote_spanned! {span=>
.flatten(<#ty>::json_schema_for_flatten(gen))
}
});
quote! {
{
#set_container_default
let mut schema_object = schemars::schema::SchemaObject {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
..Default::default()
};
#(#properties)*
schemars::schema::Schema::Object(schema_object)
#(#flattens)*
}
}
}
fn field_default_expr(field: &Field, container_has_default: bool) -> Option<TokenStream> {
let field_default = field.serde_attrs.default();
if field.serde_attrs.skip_serializing() || (field_default.is_none() && !container_has_default) {
return None;
}
let ty = field.ty;
let default_expr = match field_default {
SerdeDefault::None => {
let member = &field.member;
quote!(container_default.#member)
}
SerdeDefault::Default => quote!(<#ty>::default()),
SerdeDefault::Path(path) => quote!(#path()),
};
let default_expr = match field.serde_attrs.skip_serializing_if() {
Some(skip_if) => {
quote! {
{
let default = #default_expr;
if #skip_if(&default) {
None
} else {
Some(default)
}
}
}
}
None => quote!(Some(#default_expr)),
};
Some(if let Some(ser_with) = field.serde_attrs.serialize_with() {
quote! {
{
struct _SchemarsDefaultSerialize<T>(T);
impl serde::Serialize for _SchemarsDefaultSerialize<#ty>
{
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: serde::Serializer
{
#ser_with(&self.0, serializer)
}
}
#default_expr.map(|d| _SchemarsDefaultSerialize(d))
}
}
} else {
default_expr
})
}
fn get_json_schema_type(field: &Field) -> TokenStream {
// TODO support [schemars(schema_with= "...")] or equivalent
field
.with
.as_ref()
.map_or_else(|| field.ty.to_token_stream(), |w| w.to_token_stream())
}

383
schemars_derive/src/schema_exprs.rs Normal file
View file

@ -0,0 +1,383 @@
use crate::{ast::*, metadata::SchemaMetadata};
use proc_macro2::TokenStream;
use serde_derive_internals::ast::Style;
use serde_derive_internals::attr::{self as serde_attr, Default as SerdeDefault, TagType};
use syn::spanned::Spanned;
pub fn expr_for_container(cont: &Container) -> TokenStream {
let schema_expr = match &cont.data {
Data::Struct(Style::Unit, _) => expr_for_unit_struct(),
Data::Struct(Style::Newtype, fields) => expr_for_newtype_struct(&fields[0]),
Data::Struct(Style::Tuple, fields) => expr_for_tuple_struct(fields),
Data::Struct(Style::Struct, fields) => expr_for_struct(fields, Some(&cont.serde_attrs)),
Data::Enum(variants) => expr_for_enum(variants, &cont.serde_attrs),
};
let doc_metadata = SchemaMetadata::from_doc_attrs(&cont.original.attrs);
doc_metadata.apply_to_schema(schema_expr)
}
fn expr_for_enum(variants: &[Variant], cattrs: &serde_attr::Container) -> TokenStream {
let variants = variants
.iter()
.filter(|v| !v.serde_attrs.skip_deserializing());
match cattrs.tag() {
TagType::External => expr_for_external_tagged_enum(variants),
TagType::None => expr_for_untagged_enum(variants),
TagType::Internal { tag } => expr_for_internal_tagged_enum(variants, tag),
TagType::Adjacent { tag, content } => expr_for_adjacent_tagged_enum(variants, tag, content),
}
}
fn expr_for_external_tagged_enum<'a>(
variants: impl Iterator<Item = &'a Variant<'a>>,
) -> TokenStream {
let (unit_variants, complex_variants): (Vec<_>, Vec<_>) =
variants.partition(|v| v.is_unit() && v.with.is_none());
let unit_names = unit_variants.iter().map(|v| v.name());
let unit_schema = schema_object(quote! {
enum_values: Some(vec![#(#unit_names.into()),*]),
});
if complex_variants.is_empty() {
return unit_schema;
}
let mut schemas = Vec::new();
if unit_variants.len() > 0 {
schemas.push(unit_schema);
}
schemas.extend(complex_variants.into_iter().map(|variant| {
let name = variant.name();
let sub_schema = expr_for_untagged_enum_variant(variant);
let schema_expr = schema_object(quote! {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
object: Some(Box::new(schemars::schema::ObjectValidation {
properties: {
let mut props = schemars::Map::new();
props.insert(#name.to_owned(), #sub_schema);
props
},
required: {
let mut required = schemars::Set::new();
required.insert(#name.to_owned());
required
},
..Default::default()
})),
});
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
doc_metadata.apply_to_schema(schema_expr)
}));
schema_object(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn expr_for_internal_tagged_enum<'a>(
variants: impl Iterator<Item = &'a Variant<'a>>,
tag_name: &str,
) -> TokenStream {
let variant_schemas = variants.map(|variant| {
let name = variant.name();
let type_schema = schema_object(quote! {
instance_type: Some(schemars::schema::InstanceType::String.into()),
enum_values: Some(vec![#name.into()]),
});
let tag_schema = schema_object(quote! {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
object: Some(Box::new(schemars::schema::ObjectValidation {
properties: {
let mut props = schemars::Map::new();
props.insert(#tag_name.to_owned(), #type_schema);
props
},
required: {
let mut required = schemars::Set::new();
required.insert(#tag_name.to_owned());
required
},
..Default::default()
})),
});
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
let tag_schema = doc_metadata.apply_to_schema(tag_schema);
match expr_for_untagged_enum_variant_for_flatten(&variant) {
Some(variant_schema) => quote! {
#tag_schema.flatten(#variant_schema)
},
None => tag_schema,
}
});
schema_object(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#variant_schemas),*]),
..Default::default()
})),
})
}
fn expr_for_untagged_enum<'a>(variants: impl Iterator<Item = &'a Variant<'a>>) -> TokenStream {
let schemas = variants.map(|variant| {
let schema_expr = expr_for_untagged_enum_variant(variant);
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
doc_metadata.apply_to_schema(schema_expr)
});
schema_object(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn expr_for_adjacent_tagged_enum<'a>(
variants: impl Iterator<Item = &'a Variant<'a>>,
tag_name: &str,
content_name: &str,
) -> TokenStream {
let schemas = variants.map(|variant| {
let content_schema = if variant.is_unit() && variant.with.is_none() {
None
} else {
Some(expr_for_untagged_enum_variant(variant))
};
let (add_content_to_props, add_content_to_required) = content_schema
.map(|content_schema| {
(
quote!(props.insert(#content_name.to_owned(), #content_schema);),
quote!(required.insert(#content_name.to_owned());),
)
})
.unwrap_or_default();
let name = variant.name();
let tag_schema = schema_object(quote! {
instance_type: Some(schemars::schema::InstanceType::String.into()),
enum_values: Some(vec![#name.into()]),
});
let outer_schema = schema_object(quote! {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
object: Some(Box::new(schemars::schema::ObjectValidation {
properties: {
let mut props = schemars::Map::new();
props.insert(#tag_name.to_owned(), #tag_schema);
#add_content_to_props
props
},
required: {
let mut required = schemars::Set::new();
required.insert(#tag_name.to_owned());
#add_content_to_required
required
},
..Default::default()
})),
});
let doc_metadata = SchemaMetadata::from_doc_attrs(&variant.original.attrs);
doc_metadata.apply_to_schema(outer_schema)
});
schema_object(quote! {
subschemas: Some(Box::new(schemars::schema::SubschemaValidation {
any_of: Some(vec![#(#schemas),*]),
..Default::default()
})),
})
}
fn expr_for_untagged_enum_variant(variant: &Variant) -> TokenStream {
if let Some(with) = &variant.with {
return quote_spanned! {variant.original.span()=>
gen.subschema_for::<#with>()
};
}
match variant.style {
Style::Unit => expr_for_unit_struct(),
Style::Newtype => expr_for_newtype_struct(&variant.fields[0]),
Style::Tuple => expr_for_tuple_struct(&variant.fields),
Style::Struct => expr_for_struct(&variant.fields, None),
}
}
fn expr_for_untagged_enum_variant_for_flatten(variant: &Variant) -> Option<TokenStream> {
if let Some(with) = &variant.with {
return Some(quote_spanned! {variant.original.span()=>
<#with>::json_schema(gen)
});
}
Some(match variant.style {
Style::Unit => return None,
Style::Newtype => {
let field = &variant.fields[0];
let ty = field.type_for_schema();
quote_spanned! {field.original.span()=>
<#ty>::json_schema(gen)
}
}
Style::Tuple => expr_for_tuple_struct(&variant.fields),
Style::Struct => expr_for_struct(&variant.fields, None),
})
}
fn expr_for_unit_struct() -> TokenStream {
quote! {
gen.subschema_for::<()>()
}
}
fn expr_for_newtype_struct(field: &Field) -> TokenStream {
let ty = field.type_for_schema();
quote_spanned! {field.original.span()=>
gen.subschema_for::<#ty>()
}
}
fn expr_for_tuple_struct(fields: &[Field]) -> TokenStream {
let types = fields
.iter()
.filter(|f| !f.serde_attrs.skip_deserializing())
.map(Field::type_for_schema);
quote! {
gen.subschema_for::<(#(#types),*)>()
}
}
fn expr_for_struct(fields: &[Field], cattrs: Option<&serde_attr::Container>) -> TokenStream {
let (flattened_fields, property_fields): (Vec<_>, Vec<_>) = fields
.iter()
.filter(|f| !f.serde_attrs.skip_deserializing() || !f.serde_attrs.skip_serializing())
.partition(|f| f.serde_attrs.flatten());
let set_container_default = cattrs.and_then(|c| match c.default() {
SerdeDefault::None => None,
SerdeDefault::Default => Some(quote!(let container_default = Self::default();)),
SerdeDefault::Path(path) => Some(quote!(let container_default = #path();)),
});
let properties = property_fields.iter().map(|field| {
let name = field.name();
let default = field_default_expr(field, set_container_default.is_some());
let required = match default {
Some(_) => quote!(false),
None => quote!(true),
};
let metadata = &SchemaMetadata {
read_only: field.serde_attrs.skip_deserializing(),
write_only: field.serde_attrs.skip_serializing(),
default,
..SchemaMetadata::from_doc_attrs(&field.original.attrs)
};
let ty = field.type_for_schema();
let span = field.original.span();
quote_spanned! {span=>
<#ty>::add_schema_as_property(gen, &mut schema_object, #name.to_owned(), #metadata, #required);
}
});
let flattens = flattened_fields.iter().map(|field| {
let ty = field.type_for_schema();
let span = field.original.span();
quote_spanned! {span=>
.flatten(<#ty>::json_schema_for_flatten(gen))
}
});
quote! {
{
#set_container_default
let mut schema_object = schemars::schema::SchemaObject {
instance_type: Some(schemars::schema::InstanceType::Object.into()),
..Default::default()
};
#(#properties)*
schemars::schema::Schema::Object(schema_object)
#(#flattens)*
}
}
}
fn field_default_expr(field: &Field, container_has_default: bool) -> Option<TokenStream> {
let field_default = field.serde_attrs.default();
if field.serde_attrs.skip_serializing() || (field_default.is_none() && !container_has_default) {
return None;
}
let ty = field.ty;
let default_expr = match field_default {
SerdeDefault::None => {
let member = &field.member;
quote!(container_default.#member)
}
SerdeDefault::Default => quote!(<#ty>::default()),
SerdeDefault::Path(path) => quote!(#path()),
};
let default_expr = match field.serde_attrs.skip_serializing_if() {
Some(skip_if) => {
quote! {
{
let default = #default_expr;
if #skip_if(&default) {
None
} else {
Some(default)
}
}
}
}
None => quote!(Some(#default_expr)),
};
Some(if let Some(ser_with) = field.serde_attrs.serialize_with() {
quote! {
{
struct _SchemarsDefaultSerialize<T>(T);
impl serde::Serialize for _SchemarsDefaultSerialize<#ty>
{
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: serde::Serializer
{
#ser_with(&self.0, serializer)
}
}
#default_expr.map(|d| _SchemarsDefaultSerialize(d))
}
}
} else {
default_expr
})
}
fn schema_object(properties: TokenStream) -> TokenStream {
quote! {
schemars::schema::Schema::Object(
schemars::schema::SchemaObject {
#properties
..Default::default()
})
}
}