Create Table abstraction

2022-07-12 22:08:18 -07:00 · 2022-07-12 22:08:18 -07:00 · f5548c0243
commit f5548c0243
parent 16d093b4f7
2 changed files with 56 additions and 58 deletions
--- a/src/main/api.zig
+++ b/src/main/api.zig
@ -58,7 +58,7 @@ pub const ApiServer = struct {
        // TODO: check for dupes
        const note = reify(models.Note, id, info);
-        try self.db.putNote(note);
+        try self.db.notes.put(note);
        return note;
    }
@ -68,12 +68,12 @@ pub const ApiServer = struct {
        // TODO: check for dupes
        const user = reify(models.User, id, info);
-        try self.db.putUser(user);
+        try self.db.users.put(user);
        return user;
    }
    pub fn getNote(self: *ApiServer, id: Uuid, alloc: std.mem.Allocator) !?models.Note {
-        return self.db.getNote(id, alloc);
+        return self.db.notes.get(id, alloc);
    }
 };
--- a/src/main/db.zig
+++ b/src/main/db.zig
@ -48,74 +48,72 @@ pub fn free(alloc: std.mem.Allocator, val: anytype) void {
    }
 }
 pub fn Table(comptime T: type) type {
    return struct {
        const Self = @This();
        internal_alloc: std.mem.Allocator,
        data: std.AutoHashMap(Uuid, T),
        pub fn init(alloc: std.mem.Allocator) !Self {
            return Self{
                .internal_alloc = alloc,
                .data = std.AutoHashMap(Uuid, T).init(alloc),
            };
        }
        pub fn deinit(self: *Self) void {
            var iter = self.data.iterator();
            while (iter.next()) |it| {
                free(self.internal_alloc, it.value_ptr.*);
            }
            self.data.deinit();
        }
        pub fn contains(self: *Self, id: Uuid) !bool {
            return self.data.contains(id);
        }
        // returns a copy of the note data from storage. memory is allocated with the provided
        // allocator. can be freed using free() above
        pub fn get(self: *Self, id: Uuid, alloc: std.mem.Allocator) !?T {
            const data = self.data.get(id) orelse return null;
            return try clone(alloc, data);
        }
        pub fn put(self: *Self, data: T) !void {
            const copy = try clone(self.internal_alloc, data);
            errdefer free(self.internal_alloc, copy);
            const key = copy.id;
            if (self.data.fetchRemove(key)) |e| {
                free(self.internal_alloc, e.value);
            }
            try self.data.put(key, copy);
        }
    };
 }
 pub const Database = struct {
    internal_alloc: std.mem.Allocator,
-    notes: std.AutoHashMap(Uuid, models.Note),
+    notes: Table(models.Note),
-    users: std.AutoHashMap(Uuid, models.User),
+    users: Table(models.User),
    pub fn init(alloc: std.mem.Allocator) !Database {
        var db = Database{
            .internal_alloc = alloc,
-            .notes = std.AutoHashMap(Uuid, models.Note).init(alloc),
+            .notes = try Table(models.Note).init(alloc),
-            .users = std.AutoHashMap(Uuid, models.User).init(alloc),
+            .users = try Table(models.User).init(alloc),
        };
        return db;
    }
    pub fn deinit(self: *Database) void {
        var iter = self.notes.iterator();
        while (iter.next()) |it| {
            free(self.internal_alloc, it.value_ptr.*);
        }
        self.notes.deinit();
-    }
+        self.users.deinit();
    pub fn containsNote(self: *Database, id: Uuid) !bool {
        return self.notes.contains(id);
    }
    // returns a copy of the note data from storage. memory is allocated with the provided
    // allocator. can be freed using free() above
    pub fn getNote(self: *Database, id: Uuid, alloc: std.mem.Allocator) !?models.Note {
        const note = self.notes.get(id) orelse return null;
        return try clone(alloc, note);
    }
    pub fn putNote(self: *Database, note: models.Note) !void {
        const copy = try clone(self.internal_alloc, note);
        errdefer free(self.internal_alloc, copy);
        const key = copy.id;
        if (self.notes.fetchRemove(key)) |e| {
            free(self.internal_alloc, e.value);
        }
        try self.notes.put(key, copy);
    }
    pub fn containsUser(self: *Database, id: Uuid) !bool {
        return self.users.contains(id);
    }
    // returns a copy of the note data from storage. memory is allocated with the provided
    // allocator. can be freed using free() above
    pub fn getUser(self: *Database, id: Uuid, alloc: std.mem.Allocator) !?models.User {
        const note = self.users.get(id) orelse return null;
        return try clone(alloc, note);
    }
    pub fn putUser(self: *Database, note: models.User) !void {
        const copy = try clone(self.internal_alloc, note);
        errdefer free(self.internal_alloc, copy);
        const key = copy.id;
        if (self.users.fetchRemove(key)) |e| {
            free(self.internal_alloc, e.value);
        }
        try self.users.put(key, copy);
    }
 };