Button integration for an electronic device

What is claimed is: 1. A button assembly, comprising: a switch body; a tactile switch coupled with a first surface of the switch body; a polymeric film extending over and surrounding the tactile switch, wherein the polymeric film is joined to the switch body by a weld, the weld defining a plurality of gaps that allow air to pass into and out of an interior volume defined by the switch body and the polymeric film without allowing a liquid to enter the interior volume through a joint formed by the weld; and a protective layer coupled to a second surface of the switch body, the second surface being positioned opposite the first surface, wherein the protective layer prevents ingress of the liquid into the switch body through a plurality of tooling pin holes defined by the second surface of the switch body. 2. The button assembly as recited in claim 1 , wherein the plurality of gaps are covered by pressure sensitive adhesive subsequent to the button assembly being installed in an electronic device. 3. The button assembly as recited in claim 1 , the plurality of gaps in the weld are defined by a series of troughs defined by the first surface of the switch body. 4. The button assembly as recited in claim 1 , further comprising a plurality of welds that join the polymeric film to the switch body to form a channel through which surface tension prevents moisture intrusion into the interior volume. 5. The button assembly as recited in claim 4 , wherein a portion of each of the plurality of welds run substantially parallel to one another to define the channel. 6. The button assembly as recited in claim 5 , wherein the channel is no narrower than about 0.03 mm and wherein the channel extends for at least two millimeters. 7. The button assembly as recited in claim 1 , wherein the plurality of gaps is closed by adhering the polymeric film to the switch body with pressure sensitive adhesive. 8. The button assembly as recited in claim 1 , further comprising a plurality of welds that close the plurality of gaps after the button assembly is mounted within an electronic device. 9. The button assembly as recited in claim 8 , wherein an angle formed by an intersection between the weld and each of the plurality of welds is greater than 90 degrees. 10. An electronic device, comprising: a housing; a display assembly, comprising a substantially transparent display cover; and a button assembly, comprising: a button cap positioned within an opening defined by the substantially transparent display cover and configured to receive a user input, a switch body, a tactile switch coupled with a first surface of the switch body and configured to receive the user input by way of the button cap, a polymeric film coupled to the switch body and surrounding the tactile switch so that an interior volume is defined by the polymeric film and the switch body, wherein an interface between the polymeric film and the switch body prevents a liquid from entering the interior volume through the interface, and a protective layer coupled to a second surface of the switch body, the second surface being positioned opposite the first surface, wherein the protective layer prevents ingress of the liquid into the switch body through a plurality of tooling pin holes defined by the second surface of the switch body. 11. The electronic device as recited in claim 10 , wherein the protective layer is joined to the switch body by a weld. 12. The electronic device as recited in claim 11 , wherein the weld joining the protective layer to the switch body defines a plurality of gaps that allow air to pass through the interface between the protective layer and the switch body. 13. A switch assembly for a portable electronic device, comprising: a switch body; a dome switch coupled to a first surface of the switch body; a membrane that is joined to the switch body via a weld, wherein a plurality of gaps that are formed in the weld define a plurality of vents having a size and shape to permit gas to be expelled from an interior volume defined by the switch body and the membrane while preventing a liquid from passing through the plurality of vents into the interior volume; and a protective layer coupled to a second surface of the switch body. 14. The switch assembly of claim 13 , wherein the second surface is positioned opposite the first surface, and wherein a plurality of tooling pin holes are included on the second surface. 15. The switch assembly of claim 4 , wherein the plurality of tooling pin holes are positioned opposite the dome switch. 16. The switch assembly of claim 14 , wherein the plurality of tooling pin holes are uniformly distributed throughout the second surface. 17. The switch assembly of claim 14 , wherein the plurality of tooling pin holes are connected to the interior volume by a series of venting trenches. 18. The switch assembly of claim 14 , wherein the protective layer is coupled to the switch body via a weld line that is free of gaps. 19. The switch assembly of claim 13 , further comprising: an adhesive layer that is positioned between the switch body and the membrane.