Facilitating map navigation in an online game

What is claimed is: 1. A system for facilitating map navigation of an online game, the system comprising one or more processors configured to execute computer readable instructions to implement system components, the system components comprising: facilitate interaction of a user with a map of a virtual space having a geography by generating a view of the map for presentation to the user, the view presented to the user including a portion of the map that falls within a field of view; receive control inputs provided by the user indicating a direction in which the field of view of the map should be moved; obtain selection and/or entry of a navigation mode by the user for implementation as a present navigation mode; and determine a present field of view of the map for the user, the field of view determination component being configured such that: while the selected navigation mode is a first navigation mode, in response to reception of a control input from the user indicating the field of view of the map should be moved in a first direction, the field of view of the map is scrolled in the first direction, and while the selected navigation mode is a second navigation mode, in response to reception of a control input from the user indicating the field of view of the map should be moved in the first direction, the field of view jumps from the present field of view to a new field of view that encompasses a first map feature of a map feature type associated with the second navigation mode because the first map feature is closer to the present field of view in the first direction than any other map feature of the first map feature type, wherein map features represent features present at geographic locations in the virtual space corresponding to positions of the map features in the map, and wherein the features represented by the map features are observable in the virtual space independent from the map. 2. The system of claim 1 , wherein the map feature type associated with the second navigation mode is defined by one or more map feature parameters, the one or more map feature parameters including a location level threshold parameter, a user type parameter, a defense level threshold parameter, a size threshold parameter, a population threshold parameter, and/or a resource threshold parameter for defining the map feature type. 3. The system of claim 2 , wherein the navigation mode component is further configure such that obtaining the navigation mode includes facilitating the user to specify the map feature type associated with the second navigation mode through a graphical user interface implemented on a client computing platform associated with the user by providing values for the map feature parameters. 4. The system of claim 3 , wherein facilitating the user to specify the first map feature type through the graphical user interface includes determining a number of map feature parameters available to the user for the user to specify the map feature type associated with the second navigation mode in the graphical user interface. 5. The system of claim 4 , wherein the determination of a number of map feature parameters presented to the user in the user graphical user interface for specifying the map feature type associated with the second navigation mode is based on a level, a class, a role of the user within the virtual space, and/or one or more virtual items associated with the user. 6. The system of claim 4 , wherein facilitating the user to specify the first map feature type through the graphical user interface further includes presenting an offer of one or more map feature parameters for purchase by the user in the graphical user interface, wherein the determination of the number of map feature parameters presented to the user in the user graphical user interface for specifying the first map feature type is based on a number of map feature parameters purchased by the user. 7. The system of claim 1 , wherein the direction control component is further configured such that the received control inputs include gesture inputs provided by the user on a touch sensitive surface coupled to or included in a client computing platform associated with the user. 8. The system of claim 1 , wherein the navigation mode component is further configured such that obtaining the selection and/or entry of the navigation mode by the user is based on a level, a class, a role of the user within the virtual space, and/or one or more virtual items associated with the user. 9. The system of claim 1 , wherein the field of view component is further configured such that the determination of the present field of view while the selected navigation mode is the second navigation mode exhausts an amount of resources associated with the user in the online game. 10. A method for facilitating map navigation of an online game, the method being implemented in one or more physical processors configured to execute computer program components, the method comprising: facilitating interaction of a user with a map of a virtual space having a geography by generating a view of the map for presentation to the user, the view presented to the user including a portion of the map that falls within a field of view; receiving control inputs provided by the user indicating a direction in which the field of view of the map should be moved; obtaining selection and/or entry of a navigation mode by the user for implementation as a present navigation mode; and determining a present field of view of the map for the user, the field of view determination component being configured such that: while the selected navigation mode is a first navigation mode, in response to reception of a control input from the user indicating the field of view of the map should be moved in a first direction, the field of view of the map is scrolled in the first direction, and while the selected navigation mode is a second navigation mode, in response to reception of a control input from the user indicating the field of view of the map should be moved in the first direction, the field of view jumps from the present field of view to a new field of view that encompasses a first map feature of a map feature type associated with the second navigation mode because the first map feature is closer to the present field of view in the first direction than any other map feature of the first map feature type, wherein map features represent features present at geographic locations in the virtual space corresponding to positions of the map features in the map, and wherein the features represented by the map features are observable in the virtual space independent from the map. 11. The method of claim 10 , wherein the map feature type associated with the second navigation mode is defined by one or more map feature parameters, the one or more map feature parameters including a location level threshold parameter, a user type parameter, a defense level threshold parameter, a size threshold parameter, a population threshold parameter, and/or a resource threshold parameter for defining the map feature type. 12. The method of claim 11 , wherein obtaining the navigation mode includes facilitating the user to specify the map feature type associated with the second navigation mode through a graphical user interface implemented on a client computing platform associated with the user by providing values for the map feature parameters. 13. The method of claim 12 , wherein facilitating the user to specify the first map feature type through the graphical user interface includes determining a number of map feature parameters available to the user for the user to specify the map fe