# Add each of the arguments of the capability
for arg in range( 0, len( resultItem[1] ) ):
- # If this is a CONSUMER_ element, needs to be split into 2 elements
- if isinstance( resultItem[1][ arg ], str ) and re.match( '^CONSUMER_', resultItem[1][ arg ] ):
- tag = resultItem[1][ arg ].split( '_', 1 )[1]
- if '_' in tag:
- tag = tag.replace( '_', '' )
- lookupNum = kll_hid_lookup_dictionary['ConsCode'][ tag ][1]
- byteForm = lookupNum.to_bytes( 2, byteorder='little' ) # XXX Yes, little endian from how the uC structs work
- self.fill_dict['ResultMacros'] += "{0}, {1}, ".format( *byteForm )
- else:
- self.fill_dict['ResultMacros'] += "{0}, ".format( resultItem[1][ arg ] )
+ # Special cases
+ if isinstance( resultItem[1][ arg ], str ):
+ # If this is a CONSUMER_ element, needs to be split into 2 elements
+ if re.match( '^CONSUMER_', resultItem[1][ arg ] ):
+ tag = resultItem[1][ arg ].split( '_', 1 )[1]
+ if '_' in tag:
+ tag = tag.replace( '_', '' )
+ lookupNum = kll_hid_lookup_dictionary['ConsCode'][ tag ][1]
+ byteForm = lookupNum.to_bytes( 2, byteorder='little' ) # XXX Yes, little endian from how the uC structs work
+ self.fill_dict['ResultMacros'] += "{0}, {1}, ".format( *byteForm )
+ continue
+
+ # None, fall-through disable
+ elif resultItem[0] is self.capabilityLookup('NONE'):
+ continue
+
+ self.fill_dict['ResultMacros'] += "{0}, ".format( resultItem[1][ arg ] )
# If sequence is longer than 1, append a sequence spacer at the end of the sequence
# Required by USB to end at sequence without holding the key down
def make_sysCode_number( token ):
return make_hidCode_number( 'SysCode', token )
+ # Replace key-word with None specifier (which indicates a noneOut capability)
+def make_none( token ):
+ return [[[('NONE', 0)]]]
+
def make_seqString( token ):
# Shifted Characters, and amount to move by to get non-shifted version
# US ANSI
scanCode = tokenType('ScanCode') >> make_scanCode
consCode = tokenType('ConsCode') >> make_consCode
sysCode = tokenType('SysCode') >> make_sysCode
+none = tokenType('None') >> make_none
name = tokenType('Name')
number = tokenType('Number') >> make_number
comma = tokenType('Comma')
# Trigger / Result Codes
triggerCode_outerList = scanCode_sequence >> optionExpansion
triggerUSBCode_outerList = usbCode_sequence >> optionExpansion >> hidCodeToCapability
-resultCode_outerList = capFunc_sequence >> optionExpansion >> hidCodeToCapability
+resultCode_outerList = ( ( capFunc_sequence >> optionExpansion ) | none ) >> hidCodeToCapability
## Main Rules
# Rather than generating tables of hex USB codes for the keymapping tables, readable defines are used (which correspond to usb_hid.h)
hid_lookup_dictionary = dict([
+ # Fall-through block
+ ( ('NONE', 0), '' ), # Special case, there are no arguments
+
# USB HID Keyboard Codes
( ('USB', 0x00), 'KEY_NOEVENT' ), # Event, not a physical key
( ('USB', 0x01), 'KEY_ERRORROLLOVER' ), # Event, not a physical key