/*!
 * Module dependencies
 */

var inflection = require('inflection');
var EventEmitter = require('events').EventEmitter;
var util = require('util');
var assert = require('assert');
var DefaultModelBaseClass = require('./model.js');
var List = require('./list.js');
var ModelDefinition = require('./model-definition.js');
var mergeSettings = require('./utils').mergeSettings;

// Set up types
require('./types')(ModelBuilder);

var introspect = require('./introspection')(ModelBuilder);

/**
 * Export public API
 */
exports.ModelBuilder = exports.Schema = ModelBuilder;

/*!
 * Helpers
 */
var slice = Array.prototype.slice;

/**
 * ModelBuilder - A builder to define data models
 *
 * @constructor
 */
function ModelBuilder() {
  // create blank models pool
  /**
   * @property {Object} models Model constructors
   */
  this.models = {};
  /**
   * @property {Object} definitions Definitions of the models
   */
  this.definitions = {};
}

// Inherit from EventEmitter
util.inherits(ModelBuilder, EventEmitter);

// Create a default instance
ModelBuilder.defaultInstance = new ModelBuilder();

function isModelClass(cls) {
  if (!cls) {
    return false;
  }
  return cls.prototype instanceof DefaultModelBaseClass;
}

/**
 * Get a model by name
 * @param {String} name The model name
 * @param {Boolean} forceCreate Indicate if a stub should be created for the
 * given name if a model doesn't exist
 * @returns {*} The model class
 */
ModelBuilder.prototype.getModel = function (name, forceCreate) {
  var model = this.models[name];
  if (!model && forceCreate) {
    model = this.define(name, {}, {unresolved: true});
  }
  return model;
};

/**
 * Get the model definition by name
 * @param {String} name The model name
 * @returns {ModelDefinition} The model definition
 */
ModelBuilder.prototype.getModelDefinition = function (name) {
  return this.definitions[name];
};

/**
 * Define a model class
 *
 * @param {String} className
 * @param {Object} properties - hash of class properties in format
 *   `{property: Type, property2: Type2, ...}`
 *   or
 *   `{property: {type: Type}, property2: {type: Type2}, ...}`
 * @param {Object} settings - other configuration of class
 * @return newly created class
 *
 * @example simple case
 * ```
 * var User = modelBuilder.define('User', {
 *     email: String,
 *     password: String,
 *     birthDate: Date,
 *     activated: Boolean
 * });
 * ```
 * @example more advanced case
 * ```
 * var User = modelBuilder.define('User', {
 *     email: { type: String, limit: 150, index: true },
 *     password: { type: String, limit: 50 },
 *     birthDate: Date,
 *     registrationDate: {type: Date, default: function () { return new Date }},
 *     activated: { type: Boolean, default: false }
 * });
 * ```
 */
ModelBuilder.prototype.define = function defineClass(className, properties, settings, parent) {
  var modelBuilder = this;
  var args = slice.call(arguments);
  var pluralName = (settings && settings.plural) ||
    inflection.pluralize(className);

  if (!className) {
    throw new Error('Class name required');
  }
  if (args.length === 1) {
    properties = {};
    args.push(properties);
  }
  if (args.length === 2) {
    settings = {};
    args.push(settings);
  }

  properties = properties || {};
  settings = settings || {};

  // Set the strict mode to be false by default
  if (settings.strict === undefined || settings.strict === null) {
    settings.strict = false;
  }

  // Set up the base model class
  var ModelBaseClass = parent || DefaultModelBaseClass;
  var baseClass = settings.base || settings['super'];
  if (baseClass) {
    if (isModelClass(baseClass)) {
      ModelBaseClass = baseClass;
    } else {
      ModelBaseClass = this.models[baseClass];
      assert(ModelBaseClass, 'Base model is not found: ' + baseClass);
    }
  }

  // Check if there is a unresolved model with the same name
  var ModelClass = this.models[className];

  // Create the ModelClass if it doesn't exist or it's resolved (override)
  // TODO: [rfeng] We need to decide what names to use for built-in models such as User.
  if (!ModelClass || !ModelClass.settings.unresolved) {
    // every class can receive hash of data as optional param
    ModelClass = function ModelConstructor(data, options) {
      if (!(this instanceof ModelConstructor)) {
        return new ModelConstructor(data, options);
      }
      if (ModelClass.settings.unresolved) {
        throw new Error('Model ' + ModelClass.modelName + ' is not defined.');
      }
      ModelBaseClass.apply(this, arguments);
    };
    // mix in EventEmitter (don't inherit from)
    var events = new EventEmitter();
    for (var f in EventEmitter.prototype) {
      if (typeof EventEmitter.prototype[f] === 'function') {
        ModelClass[f] = EventEmitter.prototype[f].bind(events);
      }
    }
    hiddenProperty(ModelClass, 'modelName', className);
  }

  util.inherits(ModelClass, ModelBaseClass);

  // store class in model pool
  this.models[className] = ModelClass;

  // Return the unresolved model
  if (settings.unresolved) {
    ModelClass.settings = {unresolved: true};
    return ModelClass;
  }

  // Add metadata to the ModelClass
  hiddenProperty(ModelClass, 'modelBuilder', modelBuilder);
  hiddenProperty(ModelClass, 'dataSource', modelBuilder); // Keep for back-compatibility
  hiddenProperty(ModelClass, 'pluralModelName', pluralName);
  hiddenProperty(ModelClass, 'relations', {});
  hiddenProperty(ModelClass, 'http', { path: '/' + pluralName });

  // inherit ModelBaseClass static methods
  for (var i in ModelBaseClass) {
    // We need to skip properties that are already in the subclass, for example, the event emitter methods
    if (i !== '_mixins' && !(i in ModelClass)) {
      ModelClass[i] = ModelBaseClass[i];
    }
  }

  // Load and inject the model classes
  if (settings.models) {
    Object.keys(settings.models).forEach(function (m) {
      var model = settings.models[m];
      ModelClass[m] = typeof model === 'string' ? modelBuilder.getModel(model, true) : model;
    });
  }

  ModelClass.getter = {};
  ModelClass.setter = {};

  var modelDefinition = new ModelDefinition(this, className, properties, settings);

  this.definitions[className] = modelDefinition;

  // expose properties on the ModelClass
  ModelClass.definition = modelDefinition;
  // keep a pointer to settings as models can use it for configuration
  ModelClass.settings = modelDefinition.settings;

  var idInjection = settings.idInjection;
  if (idInjection !== false) {
    // Default to true if undefined
    idInjection = true;
  }

  var idNames = modelDefinition.idNames();
  if (idNames.length > 0) {
    // id already exists
    idInjection = false;
  }

  // Add the id property
  if (idInjection) {
    // Set up the id property
    ModelClass.definition.defineProperty('id', { type: Number, id: 1, generated: true });
  }

  idNames = modelDefinition.idNames(); // Reload it after rebuild
  // Create a virtual property 'id'
  if (idNames.length === 1) {
    var idProp = idNames[0];
    if (idProp !== 'id') {
      Object.defineProperty(ModelClass.prototype, 'id', {
        get: function () {
          var idProp = ModelClass.definition.idNames[0];
          return this.__data[idProp];
        },
        configurable: true,
        enumerable: false
      });
    }
  } else {
    // Now the id property is an object that consists of multiple keys
    Object.defineProperty(ModelClass.prototype, 'id', {
      get: function () {
        var compositeId = {};
        var idNames = ModelClass.definition.idNames();
        for (var p in idNames) {
          compositeId[p] = this.__data[p];
        }
        return compositeId;
      },
      configurable: true,
      enumerable: false
    });
  }

  // A function to loop through the properties
  ModelClass.forEachProperty = function (cb) {
    Object.keys(ModelClass.definition.properties).forEach(cb);
  };

  // A function to attach the model class to a data source
  ModelClass.attachTo = function (dataSource) {
    dataSource.attach(this);
  };

  // A function to extend the model
  ModelClass.extend = function (className, subclassProperties, subclassSettings) {
    var properties = ModelClass.definition.properties;
    var settings = ModelClass.definition.settings;

    subclassProperties = subclassProperties || {};
    subclassSettings = subclassSettings || {};

    // Check if subclass redefines the ids
    var idFound = false;
    for (var k in subclassProperties) {
      if (subclassProperties[k].id) {
        idFound = true;
        break;
      }
    }

    // Merging the properties
    Object.keys(properties).forEach(function (key) {
      if (idFound && properties[key].id) {
        // don't inherit id properties
        return;
      }
      if (subclassProperties[key] === undefined) {
        subclassProperties[key] = properties[key];
      }
    });

    // Merge the settings
    subclassSettings = mergeSettings(settings, subclassSettings);

    /*
     Object.keys(settings).forEach(function (key) {
     if(subclassSettings[key] === undefined) {
     subclassSettings[key] = settings[key];
     }
     });
     */

    // Define the subclass
    var subClass = modelBuilder.define(className, subclassProperties, subclassSettings, ModelClass);

    // Calling the setup function
    if (typeof subClass.setup === 'function') {
      subClass.setup.call(subClass);
    }

    return subClass;
  };

  /**
   * Register a property for the model class
   * @param propertyName
   */
  ModelClass.registerProperty = function (propertyName) {
    var properties = modelDefinition.build();
    var prop = properties[propertyName];
    var DataType = prop.type;
    if (!DataType) {
      throw new Error('Invalid type for property ' + propertyName);
    }

    if (prop.required) {
      var requiredOptions = typeof prop.required === 'object' ? prop.required : undefined;
      ModelClass.validatesPresenceOf(propertyName, requiredOptions);
    }

    Object.defineProperty(ModelClass.prototype, propertyName, {
      get: function () {
        if (ModelClass.getter[propertyName]) {
          return ModelClass.getter[propertyName].call(this); // Try getter first
        } else {
          return this.__data && this.__data[propertyName]; // Try __data
        }
      },
      set: function (value) {
        var DataType = ModelClass.definition.properties[propertyName].type;
        if (Array.isArray(DataType) || DataType === Array) {
          DataType = List;
        } else if (DataType.name === 'Date') {
          var OrigDate = Date;
          DataType = function Date(arg) {
            return new OrigDate(arg);
          };
        } else if (typeof DataType === 'string') {
          DataType = modelBuilder.resolveType(DataType);
        }
        if (ModelClass.setter[propertyName]) {
          ModelClass.setter[propertyName].call(this, value); // Try setter first
        } else {
          if (!this.__data) {
            this.__data = {};
          }
          if (value === null || value === undefined) {
            this.__data[propertyName] = value;
          } else {
            if (DataType === List) {
              this.__data[propertyName] = DataType(value, properties[propertyName].type, this.__data);
            } else {
              // Assume the type constructor handles Constructor() call
              // If not, we should call new DataType(value).valueOf();
              this.__data[propertyName] = (value instanceof DataType) ? value : DataType(value);
            }
          }
        }
      },
      configurable: true,
      enumerable: true
    });

    // <propertyName>$was --> __dataWas.<propertyName>
    Object.defineProperty(ModelClass.prototype, propertyName + '$was', {
      get: function () {
        return this.__dataWas && this.__dataWas[propertyName];
      },
      configurable: true,
      enumerable: false
    });

    // FIXME: [rfeng] Do we need to keep the raw data?
    // Use $ as the prefix to avoid conflicts with properties such as _id
    Object.defineProperty(ModelClass.prototype, '$' + propertyName, {
      get: function () {
        return this.__data && this.__data[propertyName];
      },
      set: function (value) {
        if (!this.__data) {
          this.__data = {};
        }
        this.__data[propertyName] = value;
      },
      configurable: true,
      enumerable: false
    });
  };

  ModelClass.forEachProperty(ModelClass.registerProperty);

  ModelClass.emit('defined', ModelClass);

  return ModelClass;

};

/**
 * Define single property named `propertyName` on `model`
 *
 * @param {String} model - name of model
 * @param {String} propertyName - name of property
 * @param {Object} propertyDefinition - property settings
 */
ModelBuilder.prototype.defineProperty = function (model, propertyName, propertyDefinition) {
  this.definitions[model].defineProperty(propertyName, propertyDefinition);
  this.models[model].registerProperty(propertyName);
};

/**
 * Extend existing model with bunch of properties
 *
 * @param {String} model - name of model
 * @param {Object} props - hash of properties
 *
 * Example:
 *
 *     // Instead of doing this:
 *
 *     // amend the content model with competition attributes
 *     db.defineProperty('Content', 'competitionType', { type: String });
 *     db.defineProperty('Content', 'expiryDate', { type: Date, index: true });
 *     db.defineProperty('Content', 'isExpired', { type: Boolean, index: true });
 *
 *     // modelBuilder.extend allows to
 *     // extend the content model with competition attributes
 *     db.extendModel('Content', {
 *       competitionType: String,
 *       expiryDate: { type: Date, index: true },
 *       isExpired: { type: Boolean, index: true }
 *     });
 */
ModelBuilder.prototype.extendModel = function (model, props) {
  var t = this;
  Object.keys(props).forEach(function (propName) {
    var definition = props[propName];
    t.defineProperty(model, propName, definition);
  });
};

ModelBuilder.prototype.copyModel = function copyModel(Master) {
  var modelBuilder = this;
  var className = Master.modelName;
  var md = Master.modelBuilder.definitions[className];
  var Slave = function SlaveModel() {
    Master.apply(this, [].slice.call(arguments));
  };

  util.inherits(Slave, Master);

  Slave.__proto__ = Master;

  hiddenProperty(Slave, 'modelBuilder', modelBuilder);
  hiddenProperty(Slave, 'modelName', className);
  hiddenProperty(Slave, 'relations', Master.relations);

  if (!(className in modelBuilder.models)) {

    // store class in model pool
    modelBuilder.models[className] = Slave;
    modelBuilder.definitions[className] = {
      properties: md.properties,
      settings: md.settings
    };
  }

  return Slave;
};

/*!
 * Define hidden property
 */
function hiddenProperty(where, property, value) {
  Object.defineProperty(where, property, {
    writable: true,
    enumerable: false,
    configurable: true,
    value: value
  });
}

/**
 * Get the schema name
 */
ModelBuilder.prototype.getSchemaName = function (name) {
  if (name) {
    return name;
  }
  if (typeof this._nameCount !== 'number') {
    this._nameCount = 0;
  } else {
    this._nameCount++;
  }
  return 'AnonymousModel_' + this._nameCount;
};

/**
 * Resolve the type string to be a function, for example, 'String' to String
 * @param {String} type The type string, such as 'number', 'Number', 'boolean', or 'String'. It's case insensitive
 * @returns {Function} if the type is resolved
 */
ModelBuilder.prototype.resolveType = function (type) {
  if (!type) {
    return type;
  }
  if (Array.isArray(type) && type.length > 0) {
    // For array types, the first item should be the type string
    var itemType = this.resolveType(type[0]);
    if (typeof itemType === 'function') {
      return [itemType];
    }
    else {
      return itemType; // Not resolved, return the type string
    }
  }
  if (typeof type === 'string') {
    var schemaType = ModelBuilder.schemaTypes[type.toLowerCase()] || this.models[type];
    if (schemaType) {
      return schemaType;
    } else {
      // The type cannot be resolved, let's create a place holder
      type = this.define(type, {}, {unresolved: true});
      return type;
    }
  } else if (type.constructor.name === 'Object') {
    // We also support the syntax {type: 'string', ...}
    if (type.type) {
      return this.resolveType(type.type);
    } else {
      return this.define(this.getSchemaName(null),
        type, {anonymous: true, idInjection: false});
    }
  } else if ('function' === typeof type) {
    return type;
  }
  return type;
};

/**
 * Build models from schema definitions
 *
 * `schemas` can be one of the following:
 *
 * 1. An array of named schema definition JSON objects
 * 2. A schema definition JSON object
 * 3. A list of property definitions (anonymous)
 *
 * @param {*} schemas The schemas
 * @returns {Object} A map of model constructors keyed by model name
 */
ModelBuilder.prototype.buildModels = function (schemas) {
  var models = {};

  // Normalize the schemas to be an array of the schema objects {name: <name>, properties: {}, options: {}}
  if (!Array.isArray(schemas)) {
    if (schemas.properties && schemas.name) {
      // Only one item
      schemas = [schemas];
    } else {
      // Anonymous schema
      schemas = [
        {
          name: this.getSchemaName(),
          properties: schemas,
          options: {anonymous: true}
        }
      ];
    }
  }

  var relations = [];
  for (var s in schemas) {
    var name = this.getSchemaName(schemas[s].name);
    schemas[s].name = name;
    var model = this.define(schemas[s].name, schemas[s].properties, schemas[s].options);
    models[name] = model;
    relations = relations.concat(model.definition.relations);
  }

  // Connect the models based on the relations
  for (var i = 0; i < relations.length; i++) {
    var relation = relations[i];
    var sourceModel = models[relation.source];
    var targetModel = models[relation.target];
    if (sourceModel && targetModel) {
      if (typeof sourceModel[relation.type] === 'function') {
        sourceModel[relation.type](targetModel, {as: relation.as});
      }
    }
  }
  return models;
};

/**
 * Introspect the json document to build a corresponding model
 * @param {String} name The model name
 * @param {Object} json The json object
 * @param [Object} options The options
 * @returns {}
 */
ModelBuilder.prototype.buildModelFromInstance = function (name, json, options) {

  // Introspect the JSON document to generate a schema
  var schema = introspect(json);

  // Create a model for the generated schema
  return this.define(name, schema, options);
};