Housing as an I/O Device

What is claimed is: 1 . Apparatus comprising: a housing having a surface with microperforations; a proximity sensor configured to sense an object in close proximity to the surface; at least one light source configured to emit light through the microperforations in response to the proximity sensor sensing the object in close proximity to the surface; and a pressure sensor configured to detect a touch input on the surface. 2 . The apparatus defined in claim 1 , further comprising: a haptic feedback device configured to activate in response to the proximity sensor sensing the object in close proximity to the surface. 3 . The apparatus defined in claim 2 , wherein the haptic feedback device is configured to vibrate at a first amplitude in response to the proximity sensor sensing the object in close proximity to the surface. 4 . The apparatus defined in claim 3 , wherein the haptic feedback device is configured to vibrate at a second amplitude that is greater than the first amplitude in response to the pressure sensor detecting the touch input on the surface. 5 . The apparatus defined in claim 1 , further comprising: a controller enclosed in the housing, wherein the controller is configured to: place the at least one light source in a first state to display a first symbol; and place the at least one light source in a second state to display a second symbol that is different than the first symbol. 6 . The apparatus defined in claim 5 , wherein the controller is further configured to: while the at least one light source is in the first state, interpret the touch input on the surface as a first instruction; and while the at least one light source is in the second state, interpret the touch input on the surface as a second instruction that is different than the first instruction. 7 . The apparatus defined in claim 5 , wherein the first symbol is a function key label and wherein the second symbol is a playback control symbol. 8 . The apparatus defined in claim 1 , wherein the at least one light source is operable in a first state in which the light is emitted through the microperforations and a second state in which light is not emitted through the microperforations and the microperforations are imperceptible to the naked eye. 9 . Apparatus comprising: a housing having a surface with an input area, wherein the input area includes microperforations; at least one light source operable in a first state in which light is not emitted and the input area is hidden and a second state in which light is emitted through the microperforations and the input area is visible; and a sensor configured to detect touch input to the input area. 10 . The apparatus defined in claim 9 , wherein the sensor is a touch sensor. 11 . The apparatus defined in claim 9 , wherein the sensor is a pressure sensor. 12 . The apparatus defined in claim 9 , wherein the sensor is a capacitive sensor. 13 . The apparatus defined in claim 9 , further comprising: a haptic actuator that is configured to provide haptic feedback at the input area in response to the touch input. 14 . The apparatus defined in claim 9 , wherein the surface with the input area comprises plastic. 15 . The apparatus defined in claim 9 , wherein the surface with the input area comprises glass. 16 . Apparatus comprising: a housing having a surface with microperforations; a proximity sensor configured to sense an object in close proximity to the surface; at least one light source configured to emit light through the microperforations in response to the proximity sensor sensing the object in close proximity to the surface; and a haptic feedback device configured to activate in response to the proximity sensor sensing the object in close proximity to the surface. 17 . The apparatus defined in claim 16 , wherein the haptic feedback device is configured to vibrate at a first amplitude in response to the proximity sensor sensing the object in close proximity to the surface. 18 . The apparatus defined in claim 17 , wherein the haptic feedback device is configured to vibrate at a second amplitude that is greater than the first amplitude in response to touch input on the surface. 19 . The apparatus defined in claim 16 , wherein the haptic feedback device is configured to provide haptic feedback in response to touch input on the surface. 20 . The apparatus defined in claim 16 , further comprising: a touch sensor configured to detect a touch input on the surface.