// ----- Variables -----
// Macro Module command dictionary
-const char macroCLIDictName[] = "Macro Module Commands";
-const CLIDictItem macroCLIDict[] = {
- { "capList", "Prints an indexed list of all non USB keycode capabilities.", cliFunc_capList },
- { "capSelect", "Triggers the specified capabilities. First two args are state and stateType." NL "\t\t\033[35mK11\033[0m Keyboard Capability 0x0B", cliFunc_capSelect },
- { "keyHold", "Send key-hold events to the macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A", cliFunc_keyHold },
- { "keyPress", "Send key-press events to the macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A", cliFunc_keyPress },
- { "keyRelease", "Send key-release event to macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A", cliFunc_keyRelease },
- { "layerList", "List available layers.", cliFunc_layerList },
- { "layerState", "Modify specified indexed layer state <layer> <state byte>." NL "\t\t\033[35mL2\033[0m Indexed Layer 0x02" NL "\t\t0 Off, 1 Shift, 2 Latch, 4 Lock States", cliFunc_layerState },
- { "macroDebug", "Disables/Enables sending USB keycodes to the Output Module and prints U/K codes.", cliFunc_macroDebug },
- { "macroList", "List the defined trigger and result macros.", cliFunc_macroList },
- { "macroProc", "Pause/Resume macro processing.", cliFunc_macroProc },
- { "macroShow", "Show the macro corresponding to the given index." NL "\t\t\033[35mT16\033[0m Indexed Trigger Macro 0x10, \033[35mR12\033[0m Indexed Result Macro 0x0C", cliFunc_macroShow },
- { "macroStep", "Do N macro processing steps. Defaults to 1.", cliFunc_macroStep },
+CLIDict_Entry( capList, "Prints an indexed list of all non USB keycode capabilities." );
+CLIDict_Entry( capSelect, "Triggers the specified capabilities. First two args are state and stateType." NL "\t\t\033[35mK11\033[0m Keyboard Capability 0x0B" );
+CLIDict_Entry( keyHold, "Send key-hold events to the macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A" );
+CLIDict_Entry( keyPress, "Send key-press events to the macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A" );
+CLIDict_Entry( keyRelease, "Send key-release event to macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A" );
+CLIDict_Entry( layerList, "List available layers." );
+CLIDict_Entry( layerState, "Modify specified indexed layer state <layer> <state byte>." NL "\t\t\033[35mL2\033[0m Indexed Layer 0x02" NL "\t\t0 Off, 1 Shift, 2 Latch, 4 Lock States" );
+CLIDict_Entry( macroDebug, "Disables/Enables sending USB keycodes to the Output Module and prints U/K codes." );
+CLIDict_Entry( macroList, "List the defined trigger and result macros." );
+CLIDict_Entry( macroProc, "Pause/Resume macro processing." );
+CLIDict_Entry( macroShow, "Show the macro corresponding to the given index." NL "\t\t\033[35mT16\033[0m Indexed Trigger Macro 0x10, \033[35mR12\033[0m Indexed Result Macro 0x0C" );
+CLIDict_Entry( macroStep, "Do N macro processing steps. Defaults to 1." );
+
+CLIDict_Def( macroCLIDict, "Macro Module Commands" ) = {
+ CLIDict_Item( capList ),
+ CLIDict_Item( capSelect ),
+ CLIDict_Item( keyHold ),
+ CLIDict_Item( keyPress ),
+ CLIDict_Item( keyRelease ),
+ CLIDict_Item( layerList ),
+ CLIDict_Item( layerState ),
+ CLIDict_Item( macroDebug ),
+ CLIDict_Item( macroList ),
+ CLIDict_Item( macroProc ),
+ CLIDict_Item( macroShow ),
+ CLIDict_Item( macroStep ),
{ 0, 0, 0 } // Null entry for dictionary end
};
// Sets the given layer with the specified layerState
void Macro_layerState( uint8_t state, uint8_t stateType, uint16_t layer, uint8_t layerState )
{
+ // Ignore if layer does not exist
+ if ( layer >= LayerNum )
+ return;
+
// Is layer in the LayerIndexStack?
uint8_t inLayerIndexStack = 0;
uint16_t stackItem = 0;
// Append result macro to pending list, checking for duplicates
// Do nothing if duplicate
-inline void Macro_appendResultMacroToPendingList( TriggerMacro *triggerMacro )
+inline void Macro_appendResultMacroToPendingList( const TriggerMacro *triggerMacro )
{
// Lookup result macro index
var_uint_t resultMacroIndex = triggerMacro->result;
{
if ( macroTriggerListBuffer[ keyIndex ].scanCode == scanCode )
{
- ResultMacroList[ resultMacroIndex ].state = macroTriggerListBuffer[ keyIndex ].state;
- ResultMacroList[ resultMacroIndex ].stateType = macroTriggerListBuffer[ keyIndex ].type;
+ ResultMacroRecordList[ resultMacroIndex ].state = macroTriggerListBuffer[ keyIndex ].state;
+ ResultMacroRecordList[ resultMacroIndex ].stateType = macroTriggerListBuffer[ keyIndex ].type;
}
}
// Reset the macro position
- ResultMacroList[ resultMacroIndex ].pos = 0;
+ ResultMacroRecordList[ resultMacroIndex ].pos = 0;
}
// Determine if long ResultMacro (more than 1 seqence element)
-inline uint8_t Macro_isLongResultMacro( ResultMacro *macro )
+inline uint8_t Macro_isLongResultMacro( const ResultMacro *macro )
{
// Check the second sequence combo length
// If non-zero return non-zero (long sequence)
// Determine if long TriggerMacro (more than 1 sequence element)
-inline uint8_t Macro_isLongTriggerMacro( TriggerMacro *macro )
+inline uint8_t Macro_isLongTriggerMacro( const TriggerMacro *macro )
{
// Check the second sequence combo length
// If non-zero return non-zero (long sequence)
inline TriggerMacroEval Macro_evalTriggerMacro( var_uint_t triggerMacroIndex )
{
// Lookup TriggerMacro
- TriggerMacro *macro = &TriggerMacroList[ triggerMacroIndex ];
+ const TriggerMacro *macro = &TriggerMacroList[ triggerMacroIndex ];
+ TriggerMacroRecord *record = &TriggerMacroRecordList[ triggerMacroIndex ];
// Check if macro has finished and should be incremented sequence elements
- if ( macro->state == TriggerMacro_Release )
+ if ( record->state == TriggerMacro_Release )
{
- macro->state = TriggerMacro_Waiting;
- macro->pos = macro->pos + macro->guide[ macro->pos ] * TriggerGuideSize + 1;
+ record->state = TriggerMacro_Waiting;
+ record->pos = record->pos + macro->guide[ record->pos ] * TriggerGuideSize + 1;
}
// Current Macro position
- var_uint_t pos = macro->pos;
+ var_uint_t pos = record->pos;
// Length of the combo being processed
uint8_t comboLength = macro->guide[ pos ] * TriggerGuideSize;
}
// If ready for transition and in Press state, set to Waiting and increment combo position
// Position is incremented (and possibly remove the macro from the pending list) on the next iteration
- else if ( overallVote & TriggerMacroVote_Release && macro->state == TriggerMacro_Press )
+ else if ( overallVote & TriggerMacroVote_Release && record->state == TriggerMacro_Press )
{
- macro->state = TriggerMacro_Release;
+ record->state = TriggerMacro_Release;
// If this is the last combo in the sequence, remove from the pending list
- if ( macro->guide[ macro->pos + macro->guide[ macro->pos ] * TriggerGuideSize + 1 ] == 0 )
+ if ( macro->guide[ record->pos + macro->guide[ record->pos ] * TriggerGuideSize + 1 ] == 0 )
return TriggerMacroEval_DoResultAndRemove;
}
// If passing and in Waiting state, set macro state to Press
else if ( overallVote & TriggerMacroVote_Pass
- && ( macro->state == TriggerMacro_Waiting || macro->state == TriggerMacro_Press ) )
+ && ( record->state == TriggerMacro_Waiting || record->state == TriggerMacro_Press ) )
{
- macro->state = TriggerMacro_Press;
+ record->state = TriggerMacro_Press;
// If in press state, and this is the final combo, send request for ResultMacro
// Check to see if the result macro only has a single element
inline ResultMacroEval Macro_evalResultMacro( var_uint_t resultMacroIndex )
{
// Lookup ResultMacro
- ResultMacro *macro = &ResultMacroList[ resultMacroIndex ];
+ const ResultMacro *macro = &ResultMacroList[ resultMacroIndex ];
+ ResultMacroRecord *record = &ResultMacroRecordList[ resultMacroIndex ];
// Current Macro position
- var_uint_t pos = macro->pos;
+ var_uint_t pos = record->pos;
// Length of combo being processed
uint8_t comboLength = macro->guide[ pos ];
void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ guide->index ].func);
// Call capability
- capability( macro->state, macro->stateType, &guide->args );
+ capability( record->state, record->stateType, &guide->args );
// Increment counters
funcCount++;
}
// Move to next item in the sequence
- macro->pos = comboItem;
+ record->pos = comboItem;
// If the ResultMacro is finished, remove
if ( macro->guide[ comboItem ] == 0 )
{
- macro->pos = 0;
+ record->pos = 0;
return ResultMacroEval_Remove;
}
macroTriggerMacroPendingList[ macroTriggerMacroPendingListSize++ ] = triggerMacroIndex;
// Reset macro position
- TriggerMacroList[ triggerMacroIndex ].pos = 0;
- TriggerMacroList[ triggerMacroIndex ].state = TriggerMacro_Waiting;
+ TriggerMacroRecordList[ triggerMacroIndex ].pos = 0;
+ TriggerMacroRecordList[ triggerMacroIndex ].state = TriggerMacro_Waiting;
}
}
}
// Initialize TriggerMacro states
for ( var_uint_t macro = 0; macro < TriggerMacroNum; macro++ )
{
- TriggerMacroList[ macro ].pos = 0;
- TriggerMacroList[ macro ].state = TriggerMacro_Waiting;
+ TriggerMacroRecordList[ macro ].pos = 0;
+ TriggerMacroRecordList[ macro ].state = TriggerMacro_Waiting;
}
// Initialize ResultMacro states
for ( var_uint_t macro = 0; macro < ResultMacroNum; macro++ )
{
- ResultMacroList[ macro ].pos = 0;
- ResultMacroList[ macro ].state = 0;
- ResultMacroList[ macro ].stateType = 0;
+ ResultMacroRecordList[ macro ].pos = 0;
+ ResultMacroRecordList[ macro ].state = 0;
+ ResultMacroRecordList[ macro ].stateType = 0;
}
}
return;
// Trigger Macro Show
- TriggerMacro *macro = &TriggerMacroList[ index ];
+ const TriggerMacro *macro = &TriggerMacroList[ index ];
+ TriggerMacroRecord *record = &TriggerMacroRecordList[ index ];
print( NL );
info_msg("Trigger Macro Index: ");
// Display current position
print( NL "Position: " );
- printInt16( (uint16_t)macro->pos ); // Hopefully large enough :P (can't assume 32-bit)
+ printInt16( (uint16_t)record->pos ); // Hopefully large enough :P (can't assume 32-bit)
// Display result macro index
print( NL "Result Macro Index: " );
// Display trigger macro state
print( NL "Trigger Macro State: " );
- switch ( macro->state )
+ switch ( record->state )
{
case TriggerMacro_Press: print("Press"); break;
case TriggerMacro_Release: print("Release"); break;
return;
// Trigger Macro Show
- ResultMacro *macro = &ResultMacroList[ index ];
+ const ResultMacro *macro = &ResultMacroList[ index ];
+ ResultMacroRecord *record = &ResultMacroRecordList[ index ];
print( NL );
info_msg("Result Macro Index: ");
// Display current position
print( NL "Position: " );
- printInt16( (uint16_t)macro->pos ); // Hopefully large enough :P (can't assume 32-bit)
+ printInt16( (uint16_t)record->pos ); // Hopefully large enough :P (can't assume 32-bit)
// Display final trigger state/type
print( NL "Final Trigger State (State/Type): " );
- printHex( macro->state );
+ printHex( record->state );
print("/");
- printHex( macro->stateType );
+ printHex( record->stateType );
}
void cliFunc_macroShow( char* args )