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//! Tests for src/state.rs - State change tracking
//!
//! Tests path-based state change notifications
use hypen_engine::state::StateChange;
use serde_json::json;
// ============================================================================
// Path Extraction from JSON Patches (6 tests)
// ============================================================================
#[test]
fn test_extract_paths_from_simple_object() {
// GIVEN: Simple flat object
let patch = json!({
"name": "Alice",
"age": 30
});
// WHEN: Extract paths
let change = StateChange::from_json(&patch);
// THEN: Both paths extracted
assert!(change.contains("name"));
assert!(change.contains("age"));
assert_eq!(change.changed_paths.len(), 2);
}
#[test]
fn test_extract_paths_from_nested_object() {
// GIVEN: Nested object
let patch = json!({
"user": {
"profile": {
"name": "Alice",
"bio": "Developer"
},
"email": "alice@example.com"
}
});
// WHEN: Extract paths
let change = StateChange::from_json(&patch);
// THEN: All nested paths extracted (including parent paths)
assert!(change.contains("user"));
assert!(change.contains("user.profile"));
assert!(change.contains("user.profile.name"));
assert!(change.contains("user.profile.bio"));
assert!(change.contains("user.email"));
}
#[test]
fn test_extract_paths_from_mixed_types() {
// GIVEN: Object with various value types
let patch = json!({
"string": "text",
"number": 42,
"boolean": true,
"null": null,
"array": [1, 2, 3],
"object": {"nested": "value"}
});
// WHEN: Extract paths
let change = StateChange::from_json(&patch);
// THEN: Paths extracted for all types
assert!(change.contains("string"));
assert!(change.contains("number"));
assert!(change.contains("boolean"));
assert!(change.contains("null"));
assert!(change.contains("array"));
assert!(change.contains("object"));
assert!(change.contains("object.nested"));
}
#[test]
fn test_extract_paths_from_empty_object() {
// GIVEN: Empty object
let patch = json!({});
// WHEN: Extract paths
let change = StateChange::from_json(&patch);
// THEN: No paths extracted
assert_eq!(change.changed_paths.len(), 0);
}
#[test]
fn test_extract_paths_deeply_nested() {
// GIVEN: Very deeply nested object (5 levels)
let patch = json!({
"a": {
"b": {
"c": {
"d": {
"e": "value"
}
}
}
}
});
// WHEN: Extract paths
let change = StateChange::from_json(&patch);
// THEN: All intermediate and leaf paths extracted
assert!(change.contains("a"));
assert!(change.contains("a.b"));
assert!(change.contains("a.b.c"));
assert!(change.contains("a.b.c.d"));
assert!(change.contains("a.b.c.d.e"));
}
#[test]
fn test_extract_paths_from_primitive_value() {
// GIVEN: Primitive value (not an object)
let patch = json!(42);
// WHEN: Extract paths
let change = StateChange::from_json(&patch);
// THEN: No paths (empty prefix for non-object root)
assert_eq!(change.changed_paths.len(), 0);
}
// ============================================================================
// StateChange Construction from Various Sources (5 tests)
// ============================================================================
#[test]
fn test_state_change_new() {
// GIVEN/WHEN: Create empty StateChange
let change = StateChange::new();
// THEN: Empty
assert_eq!(change.changed_paths.len(), 0);
}
#[test]
fn test_state_change_default() {
// GIVEN/WHEN: Default constructor
let change = StateChange::default();
// THEN: Same as new()
assert_eq!(change.changed_paths.len(), 0);
}
#[test]
fn test_state_change_from_paths_vec() {
// GIVEN: Vector of path strings
let paths = vec![
"user.name".to_string(),
"user.email".to_string(),
"count".to_string(),
];
// WHEN: Create from paths
let change = StateChange::from_paths(paths);
// THEN: All paths present
assert_eq!(change.changed_paths.len(), 3);
assert!(change.contains("user.name"));
assert!(change.contains("user.email"));
assert!(change.contains("count"));
}
#[test]
fn test_state_change_add_path() {
// GIVEN: Empty StateChange
let mut change = StateChange::new();
// WHEN: Add paths manually
change.add_path("user.name");
change.add_path("count");
// THEN: Paths tracked
assert_eq!(change.changed_paths.len(), 2);
assert!(change.contains("user.name"));
assert!(change.contains("count"));
}
#[test]
fn test_state_change_add_path_deduplication() {
// GIVEN: StateChange
let mut change = StateChange::new();
// WHEN: Add same path twice
change.add_path("user.name");
change.add_path("user.name");
// THEN: Only stored once (IndexSet deduplicates)
assert_eq!(change.changed_paths.len(), 1);
assert!(change.contains("user.name"));
}
// ============================================================================
// Prefix Matching Edge Cases (4 tests)
// ============================================================================
#[test]
fn test_has_prefix_exact_match() {
// GIVEN: StateChange with "user.name"
let mut change = StateChange::new();
change.add_path("user.name");
// WHEN: Check exact match prefix
let has_prefix = change.has_prefix("user.name");
// THEN: Exact match counts as prefix
assert!(has_prefix);
}
#[test]
fn test_has_prefix_parent_path() {
// GIVEN: StateChange with nested paths
let mut change = StateChange::new();
change.add_path("user.profile.name");
change.add_path("user.email");
// WHEN: Check parent prefix "user"
let has_user = change.has_prefix("user");
// THEN: Parent prefix matches children
assert!(has_user);
}
#[test]
fn test_has_prefix_partial_name_no_match() {
// GIVEN: StateChange with "user"
let mut change = StateChange::new();
change.add_path("user");
// WHEN: Check similar but different prefix "use"
let has_use = change.has_prefix("use");
// THEN: Partial name doesn't match (requires exact segment)
assert!(!has_use);
}
#[test]
fn test_has_prefix_similar_names_no_match() {
// GIVEN: StateChange with "user" and "username"
let mut change = StateChange::new();
change.add_path("user");
change.add_path("username");
// WHEN: Check prefix "user"
let has_user = change.has_prefix("user");
// THEN: "user" matches itself but not "username" (not a child path)
assert!(has_user);
// WHEN: Check prefix "username"
let has_username = change.has_prefix("username");
// THEN: "username" matches itself
assert!(has_username);
}
// ============================================================================
// Additional Edge Cases
// ============================================================================
#[test]
fn test_paths_iterator() {
// GIVEN: StateChange with multiple paths
let paths = vec!["a".to_string(), "b".to_string(), "c".to_string()];
let change = StateChange::from_paths(paths);
// WHEN: Iterate over paths
let collected: Vec<&str> = change.paths().collect();
// THEN: All paths accessible via iterator
assert_eq!(collected.len(), 3);
assert!(collected.contains(&"a"));
assert!(collected.contains(&"b"));
assert!(collected.contains(&"c"));
}
#[test]
fn test_contains_nonexistent_path() {
// GIVEN: StateChange with some paths
let mut change = StateChange::new();
change.add_path("user.name");
// WHEN: Check nonexistent path
let contains = change.contains("settings");
// THEN: Returns false
assert!(!contains);
}