use crate::config::E2eConfig;
use crate::escape::{escape_java as escape_swift_str, sanitize_filename};
use crate::field_access::FieldResolver;
use crate::fixture::{Assertion, Fixture, FixtureGroup};
use alef_core::backend::GeneratedFile;
use alef_core::config::AlefConfig;
use alef_core::hash::{self, CommentStyle};
use alef_core::template_versions::toolchain;
use anyhow::Result;
use heck::{ToLowerCamelCase, ToUpperCamelCase};
use std::collections::HashSet;
use std::fmt::Write as FmtWrite;
use std::path::PathBuf;
use super::E2eCodegen;
pub struct SwiftE2eCodegen;
impl E2eCodegen for SwiftE2eCodegen {
fn generate(
&self,
groups: &[FixtureGroup],
e2e_config: &E2eConfig,
alef_config: &AlefConfig,
) -> Result<Vec<GeneratedFile>> {
let lang = self.language_name();
let output_base = PathBuf::from(e2e_config.effective_output()).join(lang);
let mut files = Vec::new();
let call = &e2e_config.call;
let overrides = call.overrides.get(lang);
let function_name = overrides
.and_then(|o| o.function.as_ref())
.cloned()
.unwrap_or_else(|| call.function.clone());
let result_var = &call.result_var;
let result_is_simple = overrides.is_some_and(|o| o.result_is_simple);
let swift_pkg = e2e_config.resolve_package("swift");
let pkg_name = swift_pkg
.as_ref()
.and_then(|p| p.name.as_ref())
.cloned()
.unwrap_or_else(|| alef_config.crate_config.name.to_upper_camel_case());
let pkg_path = swift_pkg
.as_ref()
.and_then(|p| p.path.as_ref())
.cloned()
.unwrap_or_else(|| "../../packages/swift".to_string());
let pkg_version = swift_pkg
.as_ref()
.and_then(|p| p.version.as_ref())
.cloned()
.unwrap_or_else(|| "0.1.0".to_string());
let module_name = pkg_name.as_str();
let registry_url = alef_config
.try_github_repo()
.map(|repo| {
let base = repo.trim_end_matches('/').trim_end_matches(".git");
format!("{base}.git")
})
.unwrap_or_else(|_| format!("https://example.invalid/{module_name}.git"));
files.push(GeneratedFile {
path: output_base.join("Package.swift"),
content: render_package_swift(module_name, ®istry_url, &pkg_path, &pkg_version, e2e_config.dep_mode),
generated_header: false,
});
let tests_base = normalize_path(&output_base.join(&pkg_path));
let field_resolver = FieldResolver::new(
&e2e_config.fields,
&e2e_config.fields_optional,
&e2e_config.result_fields,
&e2e_config.fields_array,
);
for group in groups {
let active: Vec<&Fixture> = group
.fixtures
.iter()
.filter(|f| f.skip.as_ref().is_none_or(|s| !s.should_skip(lang)))
.collect();
if active.is_empty() {
continue;
}
let class_name = format!("{}Tests", sanitize_filename(&group.category).to_upper_camel_case());
let filename = format!("{class_name}.swift");
let content = render_test_file(
&group.category,
&active,
e2e_config,
module_name,
&class_name,
&function_name,
result_var,
&e2e_config.call.args,
&field_resolver,
result_is_simple,
&e2e_config.fields_enum,
);
files.push(GeneratedFile {
path: tests_base
.join("Tests")
.join(format!("{module_name}Tests"))
.join(filename),
content,
generated_header: true,
});
}
Ok(files)
}
fn language_name(&self) -> &'static str {
"swift"
}
}
fn render_package_swift(
module_name: &str,
registry_url: &str,
pkg_path: &str,
pkg_version: &str,
dep_mode: crate::config::DependencyMode,
) -> String {
let min_macos = toolchain::SWIFT_MIN_MACOS;
let (dep_block, product_dep) = match dep_mode {
crate::config::DependencyMode::Registry => {
let dep = format!(r#" .package(url: "{registry_url}", from: "{pkg_version}")"#);
let pkg_id = registry_url
.trim_end_matches('/')
.trim_end_matches(".git")
.split('/')
.next_back()
.unwrap_or(module_name);
let prod = format!(r#".product(name: "{module_name}", package: "{pkg_id}")"#);
(dep, prod)
}
crate::config::DependencyMode::Local => {
let dep = format!(r#" .package(path: "{pkg_path}")"#);
let pkg_id = pkg_path
.trim_end_matches('/')
.split('/')
.next_back()
.unwrap_or(module_name);
let prod = format!(r#".product(name: "{module_name}", package: "{pkg_id}")"#);
(dep, prod)
}
};
let min_macos_major = min_macos.split('.').next().unwrap_or(min_macos);
format!(
r#"// swift-tools-version: 6.0
import PackageDescription
let package = Package(
name: "E2eSwift",
platforms: [
.macOS(.v{min_macos_major}),
],
dependencies: [
{dep_block},
],
targets: [
.testTarget(
name: "{module_name}Tests",
dependencies: [{product_dep}]
),
]
)
"#
)
}
#[allow(clippy::too_many_arguments)]
fn render_test_file(
category: &str,
fixtures: &[&Fixture],
e2e_config: &E2eConfig,
module_name: &str,
class_name: &str,
function_name: &str,
result_var: &str,
args: &[crate::config::ArgMapping],
field_resolver: &FieldResolver,
result_is_simple: bool,
enum_fields: &HashSet<String>,
) -> String {
let mut out = String::new();
out.push_str(&hash::header(CommentStyle::DoubleSlash));
let _ = writeln!(out, "import XCTest");
let _ = writeln!(out, "import {module_name}");
let _ = writeln!(out);
let _ = writeln!(out, "/// E2e tests for category: {category}.");
let _ = writeln!(out, "final class {class_name}: XCTestCase {{");
for fixture in fixtures {
render_test_method(
&mut out,
fixture,
e2e_config,
function_name,
result_var,
args,
field_resolver,
result_is_simple,
enum_fields,
);
let _ = writeln!(out);
}
let _ = writeln!(out, "}}");
out
}
#[allow(clippy::too_many_arguments)]
fn render_test_method(
out: &mut String,
fixture: &Fixture,
e2e_config: &E2eConfig,
_function_name: &str,
_result_var: &str,
_args: &[crate::config::ArgMapping],
field_resolver: &FieldResolver,
result_is_simple: bool,
enum_fields: &HashSet<String>,
) {
let call_config = e2e_config.resolve_call(fixture.call.as_deref());
let lang = "swift";
let call_overrides = call_config.overrides.get(lang);
let function_name = call_overrides
.and_then(|o| o.function.as_ref())
.cloned()
.unwrap_or_else(|| call_config.function.to_lower_camel_case());
let result_var = &call_config.result_var;
let args = &call_config.args;
let method_name = fixture.id.to_upper_camel_case();
let description = &fixture.description;
let expects_error = fixture.assertions.iter().any(|a| a.assertion_type == "error");
let is_async = call_config.r#async;
let (setup_lines, args_str) = build_args_and_setup(&fixture.input, args, &fixture.id);
if is_async {
let _ = writeln!(out, " func test{method_name}() async throws {{");
} else {
let _ = writeln!(out, " func test{method_name}() throws {{");
}
let _ = writeln!(out, " // {description}");
for line in &setup_lines {
let _ = writeln!(out, " {line}");
}
if expects_error {
if is_async {
let _ = writeln!(out, " do {{");
let _ = writeln!(out, " _ = try await {function_name}({args_str})");
let _ = writeln!(out, " XCTFail(\"expected to throw\")");
let _ = writeln!(out, " }} catch {{");
let _ = writeln!(out, " // success");
let _ = writeln!(out, " }}");
} else {
let _ = writeln!(out, " XCTAssertThrowsError(try {function_name}({args_str}))");
}
let _ = writeln!(out, " }}");
return;
}
if is_async {
let _ = writeln!(out, " let {result_var} = try await {function_name}({args_str})");
} else {
let _ = writeln!(out, " let {result_var} = try {function_name}({args_str})");
}
for assertion in &fixture.assertions {
render_assertion(
out,
assertion,
result_var,
field_resolver,
result_is_simple,
enum_fields,
);
}
let _ = writeln!(out, " }}");
}
fn build_args_and_setup(
input: &serde_json::Value,
args: &[crate::config::ArgMapping],
fixture_id: &str,
) -> (Vec<String>, String) {
if args.is_empty() {
return (Vec::new(), String::new());
}
let mut setup_lines: Vec<String> = Vec::new();
let mut parts: Vec<String> = Vec::new();
for arg in args {
if arg.arg_type == "mock_url" {
setup_lines.push(format!(
"let {} = ProcessInfo.processInfo.environment[\"MOCK_SERVER_URL\"]! + \"/fixtures/{fixture_id}\"",
arg.name,
));
parts.push(arg.name.clone());
continue;
}
let field = arg.field.strip_prefix("input.").unwrap_or(&arg.field);
let val = input.get(field);
match val {
None | Some(serde_json::Value::Null) if arg.optional => {
continue;
}
None | Some(serde_json::Value::Null) => {
let default_val = match arg.arg_type.as_str() {
"string" => "\"\"".to_string(),
"int" | "integer" => "0".to_string(),
"float" | "number" => "0.0".to_string(),
"bool" | "boolean" => "false".to_string(),
_ => "nil".to_string(),
};
parts.push(default_val);
}
Some(v) => {
parts.push(json_to_swift(v));
}
}
}
(setup_lines, parts.join(", "))
}
fn render_assertion(
out: &mut String,
assertion: &Assertion,
result_var: &str,
field_resolver: &FieldResolver,
result_is_simple: bool,
enum_fields: &HashSet<String>,
) {
if let Some(f) = &assertion.field {
if !f.is_empty() && !field_resolver.is_valid_for_result(f) {
let _ = writeln!(out, " // skipped: field '{{f}}' not available on result type");
return;
}
}
let field_is_enum = assertion
.field
.as_deref()
.is_some_and(|f| enum_fields.contains(f) || enum_fields.contains(field_resolver.resolve(f)));
let field_expr = if result_is_simple {
result_var.to_string()
} else {
match &assertion.field {
Some(f) if !f.is_empty() => field_resolver.accessor(f, "swift", result_var),
_ => result_var.to_string(),
}
};
let string_expr = if field_is_enum {
format!("{field_expr}.rawValue")
} else {
field_expr.clone()
};
match assertion.assertion_type.as_str() {
"equals" => {
if let Some(expected) = &assertion.value {
let swift_val = json_to_swift(expected);
if expected.is_string() {
let _ = writeln!(
out,
" XCTAssertEqual({string_expr}.trimmingCharacters(in: .whitespaces), {swift_val})"
);
} else {
let _ = writeln!(out, " XCTAssertEqual({field_expr}, {swift_val})");
}
}
}
"contains" => {
if let Some(expected) = &assertion.value {
let swift_val = json_to_swift(expected);
let _ = writeln!(
out,
" XCTAssertTrue({string_expr}.contains({swift_val}), \"expected to contain: \\({swift_val})\")"
);
}
}
"contains_all" => {
if let Some(values) = &assertion.values {
for val in values {
let swift_val = json_to_swift(val);
let _ = writeln!(
out,
" XCTAssertTrue({string_expr}.contains({swift_val}), \"expected to contain: \\({swift_val})\")"
);
}
}
}
"not_contains" => {
if let Some(expected) = &assertion.value {
let swift_val = json_to_swift(expected);
let _ = writeln!(
out,
" XCTAssertFalse({string_expr}.contains({swift_val}), \"expected NOT to contain: \\({swift_val})\")"
);
}
}
"not_empty" => {
let _ = writeln!(
out,
" XCTAssertFalse({field_expr}.isEmpty, \"expected non-empty value\")"
);
}
"is_empty" => {
let _ = writeln!(
out,
" XCTAssertTrue({field_expr}.isEmpty, \"expected empty value\")"
);
}
"contains_any" => {
if let Some(values) = &assertion.values {
let checks: Vec<String> = values
.iter()
.map(|v| {
let swift_val = json_to_swift(v);
format!("{string_expr}.contains({swift_val})")
})
.collect();
let joined = checks.join(" || ");
let _ = writeln!(
out,
" XCTAssertTrue({joined}, \"expected to contain at least one of the specified values\")"
);
}
}
"greater_than" => {
if let Some(val) = &assertion.value {
let swift_val = json_to_swift(val);
let _ = writeln!(out, " XCTAssertGreaterThan({field_expr}, {swift_val})");
}
}
"less_than" => {
if let Some(val) = &assertion.value {
let swift_val = json_to_swift(val);
let _ = writeln!(out, " XCTAssertLessThan({field_expr}, {swift_val})");
}
}
"greater_than_or_equal" => {
if let Some(val) = &assertion.value {
let swift_val = json_to_swift(val);
let _ = writeln!(out, " XCTAssertGreaterThanOrEqual({field_expr}, {swift_val})");
}
}
"less_than_or_equal" => {
if let Some(val) = &assertion.value {
let swift_val = json_to_swift(val);
let _ = writeln!(out, " XCTAssertLessThanOrEqual({field_expr}, {swift_val})");
}
}
"starts_with" => {
if let Some(expected) = &assertion.value {
let swift_val = json_to_swift(expected);
let _ = writeln!(
out,
" XCTAssertTrue({string_expr}.hasPrefix({swift_val}), \"expected to start with: \\({swift_val})\")"
);
}
}
"ends_with" => {
if let Some(expected) = &assertion.value {
let swift_val = json_to_swift(expected);
let _ = writeln!(
out,
" XCTAssertTrue({string_expr}.hasSuffix({swift_val}), \"expected to end with: \\({swift_val})\")"
);
}
}
"min_length" => {
if let Some(val) = &assertion.value {
if let Some(n) = val.as_u64() {
let _ = writeln!(out, " XCTAssertGreaterThanOrEqual({field_expr}.count, {n})");
}
}
}
"max_length" => {
if let Some(val) = &assertion.value {
if let Some(n) = val.as_u64() {
let _ = writeln!(out, " XCTAssertLessThanOrEqual({field_expr}.count, {n})");
}
}
}
"count_min" => {
if let Some(val) = &assertion.value {
if let Some(n) = val.as_u64() {
let _ = writeln!(out, " XCTAssertGreaterThanOrEqual({field_expr}.count, {n})");
}
}
}
"count_equals" => {
if let Some(val) = &assertion.value {
if let Some(n) = val.as_u64() {
let _ = writeln!(out, " XCTAssertEqual({field_expr}.count, {n})");
}
}
}
"is_true" => {
let _ = writeln!(out, " XCTAssertTrue({field_expr})");
}
"is_false" => {
let _ = writeln!(out, " XCTAssertFalse({field_expr})");
}
"matches_regex" => {
if let Some(expected) = &assertion.value {
let swift_val = json_to_swift(expected);
let _ = writeln!(
out,
" XCTAssertNotNil({string_expr}.range(of: {swift_val}, options: .regularExpression), \"expected value to match regex: \\({swift_val})\")"
);
}
}
"not_error" => {
}
"error" => {
}
"method_result" => {
let _ = writeln!(out, " // method_result assertions not yet implemented for Swift");
}
other => {
panic!("Swift e2e generator: unsupported assertion type: {other}");
}
}
}
fn normalize_path(path: &std::path::Path) -> std::path::PathBuf {
let mut components = std::path::PathBuf::new();
for component in path.components() {
match component {
std::path::Component::ParentDir => {
if !components.as_os_str().is_empty() {
components.pop();
} else {
components.push(component);
}
}
std::path::Component::CurDir => {}
other => components.push(other),
}
}
components
}
fn json_to_swift(value: &serde_json::Value) -> String {
match value {
serde_json::Value::String(s) => format!("\"{}\"", escape_swift(s)),
serde_json::Value::Bool(b) => b.to_string(),
serde_json::Value::Number(n) => n.to_string(),
serde_json::Value::Null => "nil".to_string(),
serde_json::Value::Array(arr) => {
let items: Vec<String> = arr.iter().map(json_to_swift).collect();
format!("[{}]", items.join(", "))
}
serde_json::Value::Object(_) => {
let json_str = serde_json::to_string(value).unwrap_or_default();
format!("\"{}\"", escape_swift(&json_str))
}
}
}
fn escape_swift(s: &str) -> String {
escape_swift_str(s)
}