Adding full partial layer support.

[kiibohd-kll.git] / kll.py

diff --git a/kll.py b/kll.py
index 1e477a1efb0103ad65f45923ebdd38f8f609ab6a..7844b8266a0d1b33e12b1aedef644e52197afa5b 100755 (executable)
--- a/kll.py
+++ b/kll.py
@@ -61,12 +61,17 @@ argparse._ = textFormatter_gettext
 
 ### Argument Parsing ###
 
+def checkFileExists( filename ):
+       if not os.path.isfile( filename ):
+               print ( "{0} {1} does not exist...".format( ERROR, filename ) )
+               sys.exit( 1 )
+
 def processCommandLineArgs():
        # Setup argument processor
        pArgs = argparse.ArgumentParser(
                usage="%(prog)s [options] <file1>...",
                description="Generates .h file state tables and pointer indices from KLL .kll files.",
-               epilog="Example: {0} TODO".format( os.path.basename( sys.argv[0] ) ),
+               epilog="Example: {0} mykeyboard.kll -d colemak.kll -p hhkbpro2.kll -p symbols.kll".format( os.path.basename( sys.argv[0] ) ),
                formatter_class=argparse.RawTextHelpFormatter,
                add_help=False,
 )
@@ -79,13 +84,15 @@ def processCommandLineArgs():
        pArgs.add_argument( '-b', '--backend', type=str, default="kiibohd",
                help="Specify target backend for the KLL compiler.\n"
                "Default: kiibohd" )
+       pArgs.add_argument( '-d', '--default', type=str, nargs='+',
+               help="Specify .kll files to layer on top of the default map to create a combined map." )
        pArgs.add_argument( '-p', '--partial', type=str, nargs='+', action='append',
                help="Specify .kll files to generate partial map, multiple files per flag.\n"
                "Each -p defines another partial map.\n"
                "Base .kll files (that define the scan code maps) must be defined for each partial map." )
-       pArgs.add_argument( '-t', '--template', type=str, default="templateKeymap.h",
+       pArgs.add_argument( '-t', '--template', type=str, default="templates/kiibohdKeymap.h",
                help="Specify template used to generate the keymap.\n"
-               "Default: templateKeymap.h" )
+               "Default: templates/kiibohdKeymap.h" )
        pArgs.add_argument( '-o', '--output', type=str, default="templateKeymap.h",
                help="Specify output file. Writes to current working directory by default.\n"
                "Default: generatedKeymap.h" )
@@ -96,24 +103,26 @@ def processCommandLineArgs():
        args = pArgs.parse_args()
 
        # Parameters
-       defaultFiles = args.files
+       baseFiles = args.files
+       defaultFiles = args.default
        partialFileSets = args.partial
+       if defaultFiles is None:
+               partialFileSets = []
        if partialFileSets is None:
                partialFileSets = [[]]
 
        # Check file existance
+       for filename in baseFiles:
+               checkFileExists( filename )
+
        for filename in defaultFiles:
-               if not os.path.isfile( filename ):
-                       print ( "{0} {1} does not exist...".format( ERROR, filename ) )
-                       sys.exit( 1 )
+               checkFileExists( filename )
 
        for partial in partialFileSets:
                for filename in partial:
-                       if not os.path.isfile( filename ):
-                               print ( "{0} {1} does not exist...".format( ERROR, filename ) )
-                               sys.exit( 1 )
+                       checkFileExists( filename )
 
-       return (defaultFiles, partialFileSets, args.backend, args.template, args.output)
+       return (baseFiles, defaultFiles, partialFileSets, args.backend, args.template, args.output)
 
 
 
@@ -133,10 +142,10 @@ def tokenize( string ):
                ( 'CodeEnd',          ( r'\]', ) ),
                ( 'String',           ( r'"[^"]*"', VERBOSE ) ),
                ( 'SequenceString',   ( r"'[^']*'", ) ),
+               ( 'Operator',         ( r'=>|:\+|:-|:|=', ) ),
                ( 'Comma',            ( r',', ) ),
                ( 'Dash',             ( r'-', ) ),
                ( 'Plus',             ( r'\+', ) ),
-               ( 'Operator',         ( r'=>|:|=', ) ),
                ( 'Parenthesis',      ( r'\(|\)', ) ),
                ( 'Number',           ( r'-?(0x[0-9a-fA-F]+)|(0|([1-9][0-9]*))', VERBOSE ) ),
                ( 'Name',             ( r'[A-Za-z_][A-Za-z_0-9]*', ) ),
@@ -155,8 +164,7 @@ def tokenize( string ):
 ### Parsing ###
 
  ## Map Arrays
-scanCode_map      = [ None ] * 0xFF # Define 8 bit address width
-usbCode_map       = [ None ] * 0xFF # Define 8 bit address width
+macros_map        = Macros()
 variable_dict     = dict()
 capabilities_dict = Capabilities()
 
@@ -301,6 +309,9 @@ eol         = a( Token( 'EndOfLine', ';' ) )
 def listElem( item ):
        return [ item ]
 
+def listToTuple( items ):
+       return tuple( items )
+
   # Flatten only the top layer (list of lists of ...)
 def oneLayerFlatten( items ):
        mainList = []
@@ -357,26 +368,57 @@ def optionExpansion( sequences ):
        return expandedSequences
 
 
- ## Evaluation Rules
+# Converts USB Codes into Capabilities
+def usbCodeToCapability( items ):
+       # Items already converted to variants using optionExpansion
+       for variant in range( 0, len( items ) ):
+               # Sequence of Combos
+               for sequence in range( 0, len( items[ variant ] ) ):
+                       for combo in range( 0, len( items[ variant ][ sequence ] ) ):
+                               # Only convert if an integer, otherwise USB Code doesn't need converting
+                               if isinstance( items[ variant ][ sequence ][ combo ], int ):
+                                       # Use backend capability name and a single argument
+                                       items[ variant ][ sequence ][ combo ] = tuple( [ backend.usbCodeCapability(), tuple( [ items[ variant ][ sequence ][ combo ] ] ) ] )
 
-def eval_scanCode( trigger, result ):
-       # Convert to lists of lists of lists to tuples of tuples of tuples
-       trigger = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in trigger )
-       result  = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in result )
+       return items
 
-       # Add to the base scanCode map, overwrite if already defined
-#      if scanCode_map[ trigger ] != None:
-#              print ( "ScanCodeMap - Replacing '{0}' with '{1}' -> {2}".format( scanCode_map[ trigger ], result, trigger ) )
-#      scanCode_map[ trigger ] = result
 
-def eval_usbCode( trigger, result ):
-       # Check if trigger is list
+ ## Evaluation Rules
 
-       # Add to the base usbCode map, overwrite if already defined
-       if usbCode_map[ trigger ] != None:
-               print ( "USBCodeMap - Replacing '{0}' with '{1}' -> {2}".format( usbCode_map[ trigger ], result, trigger ) )
-       usbCode_map[ trigger ] = result
-       print ( trigger )
+def eval_scanCode( triggers, operator, results ):
+       # Convert to lists of lists of lists to tuples of tuples of tuples
+       # Tuples are non-mutable, and can be used has index items
+       triggers = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in triggers )
+       results  = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in results )
+
+       # Iterate over all combinations of triggers and results
+       for trigger in triggers:
+               for result in results:
+                       # Append Case
+                       if operator == ":+":
+                               macros_map.appendScanCode( trigger, result )
+
+                       # Remove Case
+                       elif operator == ":-":
+                               macros_map.removeScanCode( trigger, result )
+
+                       # Replace Case
+                       elif operator == ":":
+                               macros_map.replaceScanCode( trigger, result )
+
+def eval_usbCode( triggers, operator, results ):
+       # Convert to lists of lists of lists to tuples of tuples of tuples
+       # Tuples are non-mutable, and can be used has index items
+       triggers = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in triggers )
+       results  = tuple( tuple( tuple( sequence ) for sequence in variant ) for variant in results )
+
+       # Iterate over all combinations of triggers and results
+       for trigger in triggers:
+               scanCodes = macros_map.lookupUSBCodes( trigger )
+               for scanCode in scanCodes:
+                       for result in results:
+                               # Cache assignment until file finishes processing
+                               macros_map.cacheAssignment( operator, scanCode, result )
 
 def eval_variable( name, content ):
        # Content might be a concatenation of multiple data types, convert everything into a single string
@@ -435,15 +477,15 @@ usbCode_combo       = oneplus( ( usbCode_expanded | usbCode_elem ) + skip( maybe
 usbCode_sequence    = oneplus( ( usbCode_combo | seqString ) + skip( maybe( comma ) ) ) >> oneLayerFlatten
 
   # Capabilities
-capFunc_arguments = number + skip( maybe( comma ) )
-capFunc_elem      = name + skip( parenthesis('(') ) + many( capFunc_arguments ) + skip( parenthesis(')') ) >> listElem
+capFunc_arguments = many( number + skip( maybe( comma ) ) ) >> listToTuple
+capFunc_elem      = name + skip( parenthesis('(') ) + capFunc_arguments + skip( parenthesis(')') ) >> listElem
 capFunc_combo     = oneplus( ( usbCode_expanded | usbCode_elem | capFunc_elem ) + skip( maybe( plus ) ) ) >> listElem
 capFunc_sequence  = oneplus( ( capFunc_combo | seqString ) + skip( maybe( comma ) ) ) >> oneLayerFlatten
 
   # Trigger / Result Codes
 triggerCode_outerList    = scanCode_sequence >> optionExpansion
-triggerUSBCode_outerList = usbCode_sequence >> optionExpansion
-resultCode_outerList     = capFunc_sequence >> optionExpansion
+triggerUSBCode_outerList = usbCode_sequence >> optionExpansion >> usbCodeToCapability
+resultCode_outerList     = capFunc_sequence >> optionExpansion >> usbCodeToCapability
 
 
  ## Main Rules
@@ -457,8 +499,9 @@ capability_arguments  = name + skip( operator(':') ) + number + skip( maybe( com
 capability_expression = name + skip( operator('=>') ) + name + skip( parenthesis('(') ) + many( capability_arguments ) + skip( parenthesis(')') ) + skip( eol ) >> set_capability
 
 #| <trigger> : <result>;
-scanCode_expression = triggerCode_outerList + skip( operator(':') ) + resultCode_outerList + skip( eol ) >> map_scanCode
-usbCode_expression  = triggerUSBCode_outerList + skip( operator(':') ) + resultCode_outerList + skip( eol ) #>> map_usbCode
+operatorTriggerResult = operator(':') | operator(':+') | operator(':-')
+scanCode_expression   = triggerCode_outerList + operatorTriggerResult + resultCode_outerList + skip( eol ) >> map_scanCode
+usbCode_expression    = triggerUSBCode_outerList + operatorTriggerResult + resultCode_outerList + skip( eol ) >> map_usbCode
 
 def parse( tokenSequence ):
        """Sequence(Token) -> object"""
@@ -473,32 +516,56 @@ def parse( tokenSequence ):
 
 
 
+def processKLLFile( filename ):
+       with open( filename ) as file:
+               data = file.read()
+               tokenSequence = tokenize( data )
+               #print ( pformat( tokenSequence ) ) # Display tokenization
+               tree = parse( tokenSequence )
+
+
+
 ### Main Entry Point ###
 
 if __name__ == '__main__':
-       (defaultFiles, partialFileSets, backend_name, template, output) = processCommandLineArgs()
+       (baseFiles, defaultFiles, partialFileSets, backend_name, template, output) = processCommandLineArgs()
 
        # Load backend module
        global backend
        backend_import = importlib.import_module( "backends.{0}".format( backend_name ) )
        backend = backend_import.Backend( template )
 
-       #TODO Move elsewhere
+       # Process base layout files
+       for filename in baseFiles:
+               processKLLFile( filename )
+       macros_map.completeBaseLayout() # Indicates to macros_map that the base layout is complete
+
+       # Default combined layer
        for filename in defaultFiles:
-               with open( filename ) as file:
-                       data = file.read()
-
-                       tokenSequence = tokenize( data )
-                       print ( pformat( tokenSequence ) )
-                       tree = parse( tokenSequence )
-                       #print ( tree )
-                       #print ( scanCode_map )
-                       #print ( usbCode_map )
-                       print ( variable_dict )
-                       print ( capabilities_dict )
-
-       # TODO Move
-       backend.process( capabilities_dict )
+               processKLLFile( filename )
+       # Apply assignment cache, see 5.1.2 USB Codes for why this is necessary
+       macros_map.replayCachedAssignments()
+
+       # Iterate through additional layers
+       for partial in partialFileSets:
+               # Increment layer for each -p option
+               macros_map.addLayer()
+               # Iterate and process each of the file in the layer
+               for filename in partial:
+                       processKLLFile( filename )
+               # Apply assignment cache, see 5.1.2 USB Codes for why this is necessary
+               macros_map.replayCachedAssignments()
+               # Remove un-marked keys to complete the partial layer
+               macros_map.removeUnmarked()
+
+       # Do macro correlation and transformation
+       macros_map.generate()
+
+       # Process needed templating variables using backend
+       backend.process( capabilities_dict, macros_map )
+
+       # Generate output file using template and backend
+       backend.generate( output )
 
        # Successful Execution
        sys.exit( 0 )