use crate::ast::*;
use std::collections::{HashMap, HashSet};
#[derive(Debug, Clone)]
pub struct RustOutput {
pub cargo_toml: String,
pub lib_rs: String,
pub types_rs: String,
pub entity_rs: String,
}
impl RustOutput {
pub fn full_lib(&self) -> String {
format!(
"{}\n\n// types.rs\n{}\n\n// entity.rs\n{}",
self.lib_rs, self.types_rs, self.entity_rs
)
}
pub fn mod_rs(&self) -> String {
self.lib_rs.clone()
}
}
#[derive(Debug, Clone)]
pub struct RustConfig {
pub crate_name: String,
pub sdk_version: String,
pub module_mode: bool,
pub url: Option<String>,
}
impl Default for RustConfig {
fn default() -> Self {
Self {
crate_name: "generated-stack".to_string(),
sdk_version: "0.2".to_string(),
module_mode: false,
url: None,
}
}
}
pub fn compile_serializable_spec(
spec: SerializableStreamSpec,
entity_name: String,
config: Option<RustConfig>,
) -> Result<RustOutput, String> {
let config = config.unwrap_or_default();
let compiler = RustCompiler::new(spec, entity_name, config);
Ok(compiler.compile())
}
pub fn write_rust_crate(
output: &RustOutput,
crate_dir: &std::path::Path,
) -> Result<(), std::io::Error> {
std::fs::create_dir_all(crate_dir.join("src"))?;
std::fs::write(crate_dir.join("Cargo.toml"), &output.cargo_toml)?;
std::fs::write(crate_dir.join("src/lib.rs"), &output.lib_rs)?;
std::fs::write(crate_dir.join("src/types.rs"), &output.types_rs)?;
std::fs::write(crate_dir.join("src/entity.rs"), &output.entity_rs)?;
Ok(())
}
pub fn write_rust_module(
output: &RustOutput,
module_dir: &std::path::Path,
) -> Result<(), std::io::Error> {
std::fs::create_dir_all(module_dir)?;
std::fs::write(module_dir.join("mod.rs"), output.mod_rs())?;
std::fs::write(module_dir.join("types.rs"), &output.types_rs)?;
std::fs::write(module_dir.join("entity.rs"), &output.entity_rs)?;
Ok(())
}
pub(crate) struct RustCompiler {
spec: SerializableStreamSpec,
entity_name: String,
config: RustConfig,
}
impl RustCompiler {
pub(crate) fn new(
spec: SerializableStreamSpec,
entity_name: String,
config: RustConfig,
) -> Self {
Self {
spec,
entity_name,
config,
}
}
fn compile(&self) -> RustOutput {
RustOutput {
cargo_toml: self.generate_cargo_toml(),
lib_rs: self.generate_lib_rs(),
types_rs: self.generate_types_rs(),
entity_rs: self.generate_entity_rs(),
}
}
fn generate_cargo_toml(&self) -> String {
format!(
r#"[package]
name = "{}"
version = "0.1.0"
edition = "2021"
[dependencies]
arete-sdk = "{}"
serde = {{ version = "1", features = ["derive"] }}
serde_json = "1"
"#,
self.config.crate_name, self.config.sdk_version
)
}
fn generate_lib_rs(&self) -> String {
let stack_name = self.derive_stack_name();
let entity_name = &self.entity_name;
format!(
r#"mod entity;
mod types;
pub use entity::{{{stack_name}Stack, {stack_name}StackViews, {entity_name}EntityViews}};
pub use types::*;
pub use arete_sdk::{{ConnectionState, Arete, Stack, Update, Views}};
"#,
stack_name = stack_name,
entity_name = entity_name
)
}
fn generate_types_rs(&self) -> String {
let mut output = String::new();
output.push_str("use serde::{Deserialize, Serialize};\n");
output.push_str("use arete_sdk::serde_utils;\n\n");
let resolved_name_map = self.build_resolved_type_name_map();
let mut generated = HashSet::new();
for section in &self.spec.sections {
if !Self::is_root_section(§ion.name)
&& section.fields.iter().any(|field| field.emit)
&& generated.insert(section.name.clone())
{
output.push_str(&self.generate_struct_for_section(section, &resolved_name_map));
output.push_str("\n\n");
}
}
output.push_str(&self.generate_main_entity_struct(&resolved_name_map));
output.push_str(&self.generate_resolved_types(&resolved_name_map, &mut generated));
output.push_str(&self.generate_event_wrapper());
output
}
pub(crate) fn generate_struct_for_section(
&self,
section: &EntitySection,
resolved_name_map: &HashMap<String, String>,
) -> String {
let struct_name = format!("{}{}", self.entity_name, to_pascal_case(§ion.name));
let mut fields = Vec::new();
for field in §ion.fields {
if !field.emit {
continue;
}
let field_name = to_snake_case(&field.field_name);
let rust_type = self.field_type_to_rust(field, resolved_name_map);
let serde_attr = self.serde_attr_for_field(field);
fields.push(format!(
" {}\n pub {}: {},",
serde_attr, field_name, rust_type
));
}
format!(
"#[derive(Debug, Clone, Serialize, Deserialize, Default)]\npub struct {} {{\n{}\n}}",
struct_name,
fields.join("\n")
)
}
pub(crate) fn is_root_section(name: &str) -> bool {
name.eq_ignore_ascii_case("root")
}
pub(crate) fn generate_main_entity_struct(
&self,
resolved_name_map: &HashMap<String, String>,
) -> String {
let mut fields = Vec::new();
for section in &self.spec.sections {
if !Self::is_root_section(§ion.name)
&& section.fields.iter().any(|field| field.emit)
{
let field_name = to_snake_case(§ion.name);
let type_name = format!("{}{}", self.entity_name, to_pascal_case(§ion.name));
fields.push(format!(
" #[serde(default)]\n pub {}: {},",
field_name, type_name
));
}
}
for section in &self.spec.sections {
if Self::is_root_section(§ion.name) {
for field in §ion.fields {
if !field.emit {
continue;
}
let field_name = to_snake_case(&field.field_name);
let rust_type = self.field_type_to_rust(field, resolved_name_map);
let serde_attr = self.serde_attr_for_field(field);
fields.push(format!(
" {}\n pub {}: {},",
serde_attr, field_name, rust_type
));
}
}
}
format!(
"#[derive(Debug, Clone, Serialize, Deserialize, Default)]\npub struct {} {{\n{}\n}}",
self.entity_name,
fields.join("\n")
)
}
pub(crate) fn generate_resolved_types(
&self,
resolved_name_map: &HashMap<String, String>,
generated: &mut HashSet<String>,
) -> String {
let mut output = String::new();
for section in &self.spec.sections {
for field in §ion.fields {
if !field.emit {
continue;
}
if let Some(resolved) = &field.resolved_type {
let emitted_name = self.resolved_type_to_rust_name(resolved, resolved_name_map);
if generated.insert(emitted_name.clone()) {
output.push_str("\n\n");
output.push_str(&self.generate_resolved_struct(resolved, &emitted_name));
}
}
}
}
output
}
fn generate_resolved_struct(
&self,
resolved: &ResolvedStructType,
emitted_name: &str,
) -> String {
if resolved.is_enum {
let variants: Vec<String> = resolved
.enum_variants
.iter()
.map(|v| format!(" {},", to_pascal_case(v)))
.collect();
format!(
"#[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq)]\npub enum {} {{\n{}\n}}",
emitted_name,
variants.join("\n")
)
} else {
let fields: Vec<String> = resolved
.fields
.iter()
.map(|f| {
let rust_type = self.resolved_field_to_rust(f);
let serde_attr = self.serde_attr_for_resolved_field(f);
format!(
" {}\n pub {}: {},",
serde_attr,
to_snake_case(&f.field_name),
rust_type
)
})
.collect();
format!(
"#[derive(Debug, Clone, Serialize, Deserialize, Default)]\npub struct {} {{\n{}\n}}",
emitted_name,
fields.join("\n")
)
}
}
fn generate_event_wrapper(&self) -> String {
r#"
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct EventWrapper<T> {
#[serde(default, deserialize_with = "serde_utils::deserialize_i64")]
pub timestamp: i64,
pub data: T,
#[serde(default)]
pub slot: Option<f64>,
#[serde(default)]
pub signature: Option<String>,
}
impl<T: Default> Default for EventWrapper<T> {
fn default() -> Self {
Self {
timestamp: 0,
data: T::default(),
slot: None,
signature: None,
}
}
}
"#
.to_string()
}
fn generate_entity_rs(&self) -> String {
let entity_name = &self.entity_name;
let stack_name = self.derive_stack_name();
let stack_name_kebab = to_kebab_case(entity_name);
let entity_snake = to_snake_case(entity_name);
let types_import = if self.config.module_mode {
"super::types"
} else {
"crate::types"
};
let url_impl = match &self.config.url {
Some(url) => format!(
r#"fn url() -> &'static str {{
"{}"
}}"#,
url
),
None => r#"fn url() -> &'static str {
"" // TODO: Set URL after first deployment in arete.toml
}"#
.to_string(),
};
let entity_views = self.generate_entity_views_struct();
format!(
r#"use {types_import}::{entity_name};
use arete_sdk::{{Stack, StateView, ViewBuilder, ViewHandle, Views}};
pub struct {stack_name}Stack;
impl Stack for {stack_name}Stack {{
type Views = {stack_name}StackViews;
fn name() -> &'static str {{
"{stack_name_kebab}"
}}
{url_impl}
}}
pub struct {stack_name}StackViews {{
pub {entity_snake}: {entity_name}EntityViews,
}}
impl Views for {stack_name}StackViews {{
fn from_builder(builder: ViewBuilder) -> Self {{
Self {{
{entity_snake}: {entity_name}EntityViews {{ builder }},
}}
}}
}}
{entity_views}"#,
types_import = types_import,
entity_name = entity_name,
stack_name = stack_name,
stack_name_kebab = stack_name_kebab,
entity_snake = entity_snake,
url_impl = url_impl,
entity_views = entity_views
)
}
fn generate_entity_views_struct(&self) -> String {
let entity_name = &self.entity_name;
let derived: Vec<_> = self
.spec
.views
.iter()
.filter(|v| {
!v.id.ends_with("/state")
&& !v.id.ends_with("/list")
&& v.id.starts_with(entity_name)
})
.collect();
let mut derived_methods = String::new();
for view in &derived {
let view_name = view.id.split('/').nth(1).unwrap_or("unknown");
let method_name = to_snake_case(view_name);
derived_methods.push_str(&format!(
r#"
pub fn {method_name}(&self) -> ViewHandle<{entity_name}> {{
self.builder.view("{view_id}")
}}
"#,
method_name = method_name,
entity_name = entity_name,
view_id = view.id
));
}
format!(
r#"
pub struct {entity_name}EntityViews {{
builder: ViewBuilder,
}}
impl {entity_name}EntityViews {{
pub fn state(&self) -> StateView<{entity_name}> {{
StateView::new(
self.builder.connection().clone(),
self.builder.store().clone(),
"{entity_name}/state".to_string(),
self.builder.initial_data_timeout(),
)
}}
pub fn list(&self) -> ViewHandle<{entity_name}> {{
self.builder.view("{entity_name}/list")
}}
{derived_methods}}}"#,
entity_name = entity_name,
derived_methods = derived_methods
)
}
fn derive_stack_name(&self) -> String {
let entity_name = &self.entity_name;
let suffixes = ["Round", "Token", "Game", "State", "Entity", "Data"];
for suffix in suffixes {
if entity_name.ends_with(suffix) && entity_name.len() > suffix.len() {
return entity_name[..entity_name.len() - suffix.len()].to_string();
}
}
entity_name.clone()
}
fn field_type_to_rust(
&self,
field: &FieldTypeInfo,
_resolved_name_map: &HashMap<String, String>,
) -> String {
let base = self.base_type_to_rust(&field.base_type, &field.rust_type_name);
let typed = if field.is_array && !matches!(field.base_type, BaseType::Array) {
format!("Vec<{}>", base)
} else {
base
};
if field.is_optional {
format!("Option<Option<{}>>", typed)
} else {
format!("Option<{}>", typed)
}
}
fn base_type_to_rust(&self, base_type: &BaseType, rust_type_name: &str) -> String {
match base_type {
BaseType::Integer => normalized_integer_kind(rust_type_name).to_string(),
BaseType::Float => "f64".to_string(),
BaseType::String => "String".to_string(),
BaseType::Boolean => "bool".to_string(),
BaseType::Timestamp => "i64".to_string(),
BaseType::Binary => "Vec<u8>".to_string(),
BaseType::Pubkey => "String".to_string(),
BaseType::Array => "Vec<serde_json::Value>".to_string(),
BaseType::Object => "serde_json::Value".to_string(),
BaseType::Any => "serde_json::Value".to_string(),
}
}
fn serde_attr_for_field(&self, field: &FieldTypeInfo) -> String {
if let Some(deser_fn) = self.deserialize_with_for_type(
&field.base_type,
field.is_optional,
field.is_array && !matches!(field.base_type, BaseType::Array),
&field.rust_type_name,
) {
format!("#[serde(default, deserialize_with = \"{}\")]", deser_fn)
} else {
"#[serde(default)]".to_string()
}
}
fn serde_attr_for_resolved_field(&self, field: &ResolvedField) -> String {
if let Some(deser_fn) = self.deserialize_with_for_type(
&field.base_type,
field.is_optional,
field.is_array,
&field.field_type,
) {
format!("#[serde(default, deserialize_with = \"{}\")]", deser_fn)
} else {
"#[serde(default)]".to_string()
}
}
fn deserialize_with_for_type(
&self,
base_type: &BaseType,
is_optional: bool,
is_array: bool,
rust_type_name: &str,
) -> Option<String> {
let int_kind = match base_type {
BaseType::Integer => normalized_integer_kind(rust_type_name),
BaseType::Timestamp => "i64",
_ => return None,
};
let fn_name = match (is_optional, is_array) {
(false, false) => format!("serde_utils::deserialize_option_{}", int_kind),
(true, false) => format!("serde_utils::deserialize_option_option_{}", int_kind),
(false, true) => format!("serde_utils::deserialize_option_vec_{}", int_kind),
(true, true) => format!("serde_utils::deserialize_option_option_vec_{}", int_kind),
};
Some(fn_name)
}
fn resolved_field_to_rust(&self, field: &ResolvedField) -> String {
let base = self.base_type_to_rust(&field.base_type, &field.field_type);
let typed = if field.is_array {
format!("Vec<{}>", base)
} else {
base
};
if field.is_optional {
format!("Option<Option<{}>>", typed)
} else {
format!("Option<{}>", typed)
}
}
fn build_resolved_type_name_map(&self) -> HashMap<String, String> {
let mut reserved_names =
HashSet::from([self.entity_name.clone(), "EventWrapper".to_string()]);
for section in &self.spec.sections {
if !Self::is_root_section(§ion.name)
&& section.fields.iter().any(|field| field.emit)
{
reserved_names.insert(format!(
"{}{}",
self.entity_name,
to_pascal_case(§ion.name)
));
}
}
let mut resolved_name_map = HashMap::new();
for section in &self.spec.sections {
for field in §ion.fields {
if !field.emit {
continue;
}
let Some(resolved) = &field.resolved_type else {
continue;
};
if resolved_name_map.contains_key(&resolved.type_name) {
continue;
}
let emitted_name = unique_resolved_type_name(resolved, &mut reserved_names);
resolved_name_map.insert(resolved.type_name.clone(), emitted_name);
}
}
resolved_name_map
}
fn resolved_type_to_rust_name(
&self,
resolved: &ResolvedStructType,
resolved_name_map: &HashMap<String, String>,
) -> String {
resolved_name_map
.get(&resolved.type_name)
.cloned()
.unwrap_or_else(|| to_pascal_case(&resolved.type_name))
}
}
fn unique_resolved_type_name(
resolved: &ResolvedStructType,
reserved_names: &mut HashSet<String>,
) -> String {
let base_name = to_pascal_case(&resolved.type_name);
if reserved_names.insert(base_name.clone()) {
return base_name;
}
let suffix = if resolved.is_account {
"Account"
} else if resolved.is_event {
"Event"
} else if resolved.is_instruction {
"Instruction"
} else {
"Type"
};
let preferred = format!("{}{}", base_name, suffix);
if reserved_names.insert(preferred.clone()) {
return preferred;
}
let mut index = 2;
loop {
let candidate = format!("{}{}{}", base_name, suffix, index);
if reserved_names.insert(candidate.clone()) {
return candidate;
}
index += 1;
}
}
fn normalized_integer_kind(rust_type_name: &str) -> &'static str {
if rust_type_name.contains("u64") {
"u64"
} else if rust_type_name.contains("i64") {
"i64"
} else if rust_type_name.contains("u32") {
"u32"
} else if rust_type_name.contains("i32") {
"i32"
} else if rust_type_name.contains("u16")
|| rust_type_name.contains("u8")
|| rust_type_name.contains("usize")
{
"u64"
} else {
"i64"
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::collections::BTreeMap;
fn identity_spec() -> IdentitySpec {
IdentitySpec {
primary_keys: vec!["id.address".to_string()],
lookup_indexes: vec![],
}
}
#[test]
fn rust_generator_renames_account_types_on_collision() {
let plan_field = FieldTypeInfo {
field_name: "plan".to_string(),
raw_name: Some("plan".to_string()),
canonical_name: Some("plan".to_string()),
rust_type_name: "Option<serde_json::Value>".to_string(),
base_type: BaseType::Object,
integer_kind: None,
is_optional: false,
is_array: false,
inner_type: Some("Value".to_string()),
source_path: None,
resolved_type: Some(ResolvedStructType {
type_name: "plan".to_string(),
fields: vec![],
is_instruction: false,
is_account: true,
is_event: false,
is_enum: false,
enum_variants: vec![],
}),
emit: true,
};
let spec = SerializableStreamSpec {
ast_version: CURRENT_AST_VERSION.to_string(),
state_name: "Plan".to_string(),
program_id: None,
idl: None,
identity: identity_spec(),
handlers: vec![],
sections: vec![
EntitySection {
name: "id".to_string(),
fields: vec![FieldTypeInfo::new(
"address".to_string(),
"String".to_string(),
)],
is_nested_struct: false,
parent_field: None,
},
EntitySection {
name: "plan".to_string(),
fields: vec![plan_field],
is_nested_struct: false,
parent_field: None,
},
],
field_mappings: BTreeMap::new(),
resolver_hooks: vec![],
instruction_hooks: vec![],
resolver_specs: vec![],
computed_fields: vec![],
computed_field_specs: vec![],
content_hash: None,
views: vec![],
};
let output = compile_serializable_spec(spec, "Plan".to_string(), None)
.expect("rust sdk generation should succeed");
assert!(output
.types_rs
.contains("pub plan: Option<serde_json::Value>"));
assert!(output.types_rs.contains("pub struct PlanAccount"));
assert!(!output.types_rs.contains("pub plan: Option<PlanAccount>"));
assert!(
!output.types_rs.contains("pub struct Plan {\n #[serde(default, deserialize_with = \"serde_utils::deserialize_option_u64\")]\n pub discriminator")
);
}
#[test]
fn rust_generator_keeps_unsigned_numeric_fields_unsigned() {
let spec = SerializableStreamSpec {
ast_version: CURRENT_AST_VERSION.to_string(),
state_name: "Plan".to_string(),
program_id: None,
idl: None,
identity: identity_spec(),
handlers: vec![],
sections: vec![
EntitySection {
name: "id".to_string(),
fields: vec![FieldTypeInfo::new(
"address".to_string(),
"String".to_string(),
)],
is_nested_struct: false,
parent_field: None,
},
EntitySection {
name: "state".to_string(),
fields: vec![FieldTypeInfo::new(
"status".to_string(),
"Option<u8>".to_string(),
)],
is_nested_struct: false,
parent_field: None,
},
],
field_mappings: BTreeMap::new(),
resolver_hooks: vec![],
instruction_hooks: vec![],
resolver_specs: vec![],
computed_fields: vec![],
computed_field_specs: vec![],
content_hash: None,
views: vec![],
};
let output = compile_serializable_spec(spec, "Plan".to_string(), None)
.expect("rust sdk generation should succeed");
assert!(
output.types_rs.contains("pub status: Option<Option<u64>>"),
"expected unsigned optional field, got:\n{}",
output.types_rs
);
}
}
#[derive(Debug, Clone)]
pub struct RustStackConfig {
pub crate_name: String,
pub sdk_version: String,
pub module_mode: bool,
pub url: Option<String>,
}
impl Default for RustStackConfig {
fn default() -> Self {
Self {
crate_name: "generated-stack".to_string(),
sdk_version: "0.2".to_string(),
module_mode: false,
url: None,
}
}
}
pub fn compile_stack_spec(
stack_spec: SerializableStackSpec,
config: Option<RustStackConfig>,
) -> Result<RustOutput, String> {
let config = config.unwrap_or_default();
let stack_name = &stack_spec.stack_name;
let stack_kebab = to_kebab_case(stack_name);
let mut entity_names: Vec<String> = Vec::new();
let mut entity_specs: Vec<SerializableStreamSpec> = Vec::new();
for mut spec in stack_spec.entities {
if spec.idl.is_none() {
spec.idl = stack_spec.idls.first().cloned();
}
entity_names.push(spec.state_name.clone());
entity_specs.push(spec);
}
let types_rs = generate_stack_types_rs(&entity_specs, &entity_names);
let entity_rs = generate_stack_entity_rs(
stack_name,
&stack_kebab,
&entity_specs,
&entity_names,
&config,
);
let lib_rs = generate_stack_lib_rs(stack_name, &entity_names, config.module_mode);
let cargo_toml = generate_stack_cargo_toml(&config);
Ok(RustOutput {
cargo_toml,
lib_rs,
types_rs,
entity_rs,
})
}
fn generate_stack_cargo_toml(config: &RustStackConfig) -> String {
format!(
r#"[package]
name = "{}"
version = "0.1.0"
edition = "2021"
[dependencies]
arete-sdk = "{}"
serde = {{ version = "1", features = ["derive"] }}
serde_json = "1"
"#,
config.crate_name, config.sdk_version
)
}
fn generate_stack_lib_rs(stack_name: &str, entity_names: &[String], _module_mode: bool) -> String {
let entity_views_exports: Vec<String> = entity_names
.iter()
.map(|name| format!("{}EntityViews", name))
.collect();
let all_exports = format!(
"{}Stack, {}StackViews, {}",
stack_name,
stack_name,
entity_views_exports.join(", ")
);
format!(
r#"mod entity;
mod types;
pub use entity::{{{all_exports}}};
pub use types::*;
pub use arete_sdk::{{ConnectionState, Arete, Stack, Update, Views}};
"#,
all_exports = all_exports
)
}
fn generate_stack_types_rs(
entity_specs: &[SerializableStreamSpec],
entity_names: &[String],
) -> String {
let mut output = String::new();
output.push_str("use serde::{Deserialize, Serialize};\n");
output.push_str("use arete_sdk::serde_utils;\n\n");
let mut generated = HashSet::new();
for (i, spec) in entity_specs.iter().enumerate() {
let entity_name = &entity_names[i];
let compiler = RustCompiler::new(spec.clone(), entity_name.clone(), RustConfig::default());
let resolved_name_map = compiler.build_resolved_type_name_map();
for section in &spec.sections {
if !RustCompiler::is_root_section(§ion.name) {
let struct_name = format!("{}{}", entity_name, to_pascal_case(§ion.name));
if generated.insert(struct_name) {
output.push_str(
&compiler.generate_struct_for_section(section, &resolved_name_map),
);
output.push_str("\n\n");
}
}
}
output.push_str(&compiler.generate_main_entity_struct(&resolved_name_map));
output.push_str("\n\n");
let resolved = compiler.generate_resolved_types(&resolved_name_map, &mut generated);
output.push_str(&resolved);
while !output.ends_with("\n\n") {
output.push('\n');
}
}
output.push_str(
r#"
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct EventWrapper<T> {
#[serde(default, deserialize_with = "serde_utils::deserialize_i64")]
pub timestamp: i64,
pub data: T,
#[serde(default)]
pub slot: Option<f64>,
#[serde(default)]
pub signature: Option<String>,
}
impl<T: Default> Default for EventWrapper<T> {
fn default() -> Self {
Self {
timestamp: 0,
data: T::default(),
slot: None,
signature: None,
}
}
}
"#,
);
output
}
fn generate_stack_entity_rs(
stack_name: &str,
stack_kebab: &str,
entity_specs: &[SerializableStreamSpec],
entity_names: &[String],
config: &RustStackConfig,
) -> String {
let types_import = if config.module_mode {
"super::types"
} else {
"crate::types"
};
let entity_type_imports: Vec<String> =
entity_names.iter().map(|name| name.to_string()).collect();
let url_impl = match &config.url {
Some(url) => format!(
r#"fn url() -> &'static str {{
"{}"
}}"#,
url
),
None => r#"fn url() -> &'static str {
"" // TODO: Set URL after first deployment in arete.toml
}"#
.to_string(),
};
let views_fields: Vec<String> = entity_names
.iter()
.map(|name| {
let snake = to_snake_case(name);
format!(" pub {}: {}EntityViews,", snake, name)
})
.collect();
let views_builder_fields: Vec<String> = entity_names
.iter()
.enumerate()
.map(|(i, name)| {
let snake = to_snake_case(name);
if i < entity_names.len() - 1 {
format!(
" {}: {}EntityViews {{ builder: builder.clone() }},",
snake, name
)
} else {
format!(" {}: {}EntityViews {{ builder }},", snake, name)
}
})
.collect();
let mut entity_views_structs = Vec::new();
for (i, entity_name) in entity_names.iter().enumerate() {
let spec = &entity_specs[i];
let derived: Vec<_> = spec
.views
.iter()
.filter(|v| {
!v.id.ends_with("/state")
&& !v.id.ends_with("/list")
&& v.id.starts_with(entity_name.as_str())
})
.collect();
let mut methods = Vec::new();
methods.push(format!(
r#" pub fn state(&self) -> StateView<{entity}> {{
StateView::new(
self.builder.connection().clone(),
self.builder.store().clone(),
"{entity}/state".to_string(),
self.builder.initial_data_timeout(),
)
}}"#,
entity = entity_name
));
methods.push(format!(
r#"
pub fn list(&self) -> ViewHandle<{entity}> {{
self.builder.view("{entity}/list")
}}"#,
entity = entity_name
));
for view in &derived {
let view_name = view.id.split('/').nth(1).unwrap_or("unknown");
let method_name = to_snake_case(view_name);
methods.push(format!(
r#"
pub fn {method}(&self) -> ViewHandle<{entity}> {{
self.builder.view("{view_id}")
}}"#,
method = method_name,
entity = entity_name,
view_id = view.id
));
}
entity_views_structs.push(format!(
r#"
pub struct {entity}EntityViews {{
builder: ViewBuilder,
}}
impl {entity}EntityViews {{
{methods}
}}"#,
entity = entity_name,
methods = methods.join("\n")
));
}
format!(
r#"use {types_import}::{{{entity_imports}}};
use arete_sdk::{{Stack, StateView, ViewBuilder, ViewHandle, Views}};
pub struct {stack}Stack;
impl Stack for {stack}Stack {{
type Views = {stack}StackViews;
fn name() -> &'static str {{
"{stack_kebab}"
}}
{url_impl}
}}
pub struct {stack}StackViews {{
{views_fields}
}}
impl Views for {stack}StackViews {{
fn from_builder(builder: ViewBuilder) -> Self {{
Self {{
{views_builder}
}}
}}
}}
{entity_views}"#,
types_import = types_import,
entity_imports = entity_type_imports.join(", "),
stack = stack_name,
stack_kebab = stack_kebab,
url_impl = url_impl,
views_fields = views_fields.join("\n"),
views_builder = views_builder_fields.join("\n"),
entity_views = entity_views_structs.join("\n"),
)
}
fn to_kebab_case(s: &str) -> String {
let mut result = String::new();
for (i, c) in s.chars().enumerate() {
if c.is_uppercase() {
if i > 0 {
result.push('-');
}
result.push(c.to_lowercase().next().unwrap());
} else {
result.push(c);
}
}
result
}
fn to_pascal_case(s: &str) -> String {
s.split(['_', '-', '.'])
.map(|word| {
let mut chars = word.chars();
match chars.next() {
None => String::new(),
Some(first) => first.to_uppercase().collect::<String>() + chars.as_str(),
}
})
.collect()
}
fn to_snake_case(s: &str) -> String {
let mut result = String::new();
for (i, ch) in s.chars().enumerate() {
if ch.is_uppercase() {
if i > 0 {
result.push('_');
}
result.push(ch.to_lowercase().next().unwrap());
} else {
result.push(ch);
}
}
result
}