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- /* Copyright (C) 2014-2016 by Jacob Alexander
- *
- * This file is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This file is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this file. If not, see <http://www.gnu.org/licenses/>.
- */
-
- // ----- Includes -----
-
- // Compiler Includes
- #include <Lib/MacroLib.h>
-
- // Project Includes
- #include <cli.h>
- #include <led.h>
- #include <print.h>
- #include <scan_loop.h>
-
- // Keymaps
- #include "usb_hid.h"
- #include <generatedKeymap.h> // Generated using kll at compile time, in build directory
-
- // Connect Includes
- #if defined(ConnectEnabled_define)
- #include <connect_scan.h>
- #endif
-
- // Local Includes
- #include "trigger.h"
- #include "result.h"
- #include "macro.h"
-
-
-
- // ----- Function Declarations -----
-
- void cliFunc_capList ( char* args );
- void cliFunc_capSelect ( char* args );
- void cliFunc_keyHold ( char* args );
- void cliFunc_keyPress ( char* args );
- void cliFunc_keyRelease( char* args );
- void cliFunc_layerDebug( char* args );
- void cliFunc_layerList ( char* args );
- void cliFunc_layerState( char* args );
- void cliFunc_macroDebug( char* args );
- void cliFunc_macroList ( char* args );
- void cliFunc_macroProc ( char* args );
- void cliFunc_macroShow ( char* args );
- void cliFunc_macroStep ( char* args );
-
-
-
- // ----- Variables -----
-
- // Macro Module command dictionary
- 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( layerDebug, "Layer debug mode. Shows layer stack and any changes." );
- 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( layerDebug ),
- 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
- };
-
-
- // Layer debug flag - If set, displays any changes to layers and the full layer stack on change
- uint8_t layerDebugMode = 0;
-
- // Macro debug flag - If set, clears the USB Buffers after signalling processing completion
- uint8_t macroDebugMode = 0;
-
- // Macro pause flag - If set, the macro module pauses processing, unless unset, or the step counter is non-zero
- uint8_t macroPauseMode = 0;
-
- // Macro step counter - If non-zero, the step counter counts down every time the macro module does one processing loop
- uint16_t macroStepCounter = 0;
-
-
- // Key Trigger List Buffer and Layer Cache
- // The layer cache is set on press only, hold and release events refer to the value set on press
- TriggerGuide macroTriggerListBuffer[ MaxScanCode ];
- var_uint_t macroTriggerListBufferSize = 0;
- var_uint_t macroTriggerListLayerCache[ MaxScanCode ];
-
- // Layer Index Stack
- // * When modifying layer state and the state is non-0x0, the stack must be adjusted
- index_uint_t macroLayerIndexStack[ LayerNum + 1 ] = { 0 };
- index_uint_t macroLayerIndexStackSize = 0;
-
- // TODO REMOVE when dependency no longer exists
- extern index_uint_t macroResultMacroPendingList[];
- extern index_uint_t macroResultMacroPendingListSize;
- extern index_uint_t macroTriggerMacroPendingList[];
- extern index_uint_t macroTriggerMacroPendingListSize;
-
- // Interconnect ScanCode Cache
- #if defined(ConnectEnabled_define) || defined(PressReleaseCache_define)
- // TODO This can be shrunk by the size of the max node 0 ScanCode
- TriggerGuide macroInterconnectCache[ MaxScanCode ];
- uint8_t macroInterconnectCacheSize = 0;
- #endif
-
-
-
- // ----- Capabilities -----
-
- // 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 or trying to manipulate layer 0/Default layer
- if ( layer >= LayerNum || layer == 0 )
- return;
-
- // Is layer in the LayerIndexStack?
- uint8_t inLayerIndexStack = 0;
- uint16_t stackItem = 0;
- while ( stackItem < macroLayerIndexStackSize )
- {
- // Flag if layer is already in the LayerIndexStack
- if ( macroLayerIndexStack[ stackItem ] == layer )
- {
- inLayerIndexStack = 1;
- break;
- }
-
- // Increment to next item
- stackItem++;
- }
-
- // Toggle Layer State Byte
- if ( LayerState[ layer ] & layerState )
- {
- // Unset
- LayerState[ layer ] &= ~layerState;
- }
- else
- {
- // Set
- LayerState[ layer ] |= layerState;
- }
-
- // If the layer was not in the LayerIndexStack add it
- if ( !inLayerIndexStack )
- {
- macroLayerIndexStack[ macroLayerIndexStackSize++ ] = layer;
- }
-
- // If the layer is in the LayerIndexStack and the state is 0x00, remove
- if ( LayerState[ layer ] == 0x00 && inLayerIndexStack )
- {
- // Remove the layer from the LayerIndexStack
- // Using the already positioned stackItem variable from the loop above
- while ( stackItem < macroLayerIndexStackSize )
- {
- macroLayerIndexStack[ stackItem ] = macroLayerIndexStack[ stackItem + 1 ];
- stackItem++;
- }
-
- // Reduce LayerIndexStack size
- macroLayerIndexStackSize--;
- }
-
- // Layer Debug Mode
- if ( layerDebugMode )
- {
- dbug_msg("Layer ");
-
- // Iterate over each of the layers displaying the state as a hex value
- for ( index_uint_t index = 0; index < LayerNum; index++ )
- {
- printHex_op( LayerState[ index ], 0 );
- }
-
- // Always show the default layer (it's always 0)
- print(" 0");
-
- // Iterate over the layer stack starting from the bottom of the stack
- for ( index_uint_t index = macroLayerIndexStackSize; index > 0; index-- )
- {
- print(":");
- printHex_op( macroLayerIndexStack[ index - 1 ], 0 );
- }
-
- print( NL );
- }
- }
-
- // Modifies the specified Layer control byte
- // Argument #1: Layer Index -> uint16_t
- // Argument #2: Layer State -> uint8_t
- void Macro_layerState_capability( uint8_t state, uint8_t stateType, uint8_t *args )
- {
- // Display capability name
- if ( stateType == 0xFF && state == 0xFF )
- {
- print("Macro_layerState(layerIndex,layerState)");
- return;
- }
-
- // Only use capability on press or release
- // TODO Analog
- // XXX This may cause issues, might be better to implement state table here to decide -HaaTa
- if ( stateType == 0x00 && state == 0x02 ) // Hold condition
- return;
-
- // Get layer index from arguments
- // Cast pointer to uint8_t to uint16_t then access that memory location
- uint16_t layer = *(uint16_t*)(&args[0]);
-
- // Get layer toggle byte
- uint8_t layerState = args[ sizeof(uint16_t) ];
-
- Macro_layerState( state, stateType, layer, layerState );
- }
-
-
- // Latches given layer
- // Argument #1: Layer Index -> uint16_t
- void Macro_layerLatch_capability( uint8_t state, uint8_t stateType, uint8_t *args )
- {
- // Display capability name
- if ( stateType == 0xFF && state == 0xFF )
- {
- print("Macro_layerLatch(layerIndex)");
- return;
- }
-
- // Only use capability on press
- // TODO Analog
- if ( stateType == 0x00 && state != 0x03 ) // Only on release
- return;
-
- // Get layer index from arguments
- // Cast pointer to uint8_t to uint16_t then access that memory location
- uint16_t layer = *(uint16_t*)(&args[0]);
-
- Macro_layerState( state, stateType, layer, 0x02 );
- }
-
-
- // Locks given layer
- // Argument #1: Layer Index -> uint16_t
- void Macro_layerLock_capability( uint8_t state, uint8_t stateType, uint8_t *args )
- {
- // Display capability name
- if ( stateType == 0xFF && state == 0xFF )
- {
- print("Macro_layerLock(layerIndex)");
- return;
- }
-
- // Only use capability on press
- // TODO Analog
- // XXX Could also be on release, but that's sorta dumb -HaaTa
- if ( stateType == 0x00 && state != 0x01 ) // All normal key conditions except press
- return;
-
- // Get layer index from arguments
- // Cast pointer to uint8_t to uint16_t then access that memory location
- uint16_t layer = *(uint16_t*)(&args[0]);
-
- Macro_layerState( state, stateType, layer, 0x04 );
- }
-
-
- // Shifts given layer
- // Argument #1: Layer Index -> uint16_t
- void Macro_layerShift_capability( uint8_t state, uint8_t stateType, uint8_t *args )
- {
- // Display capability name
- if ( stateType == 0xFF && state == 0xFF )
- {
- print("Macro_layerShift(layerIndex)");
- return;
- }
-
- // Only use capability on press or release
- // TODO Analog
- if ( stateType == 0x00 && ( state == 0x00 || state == 0x02 ) ) // Only pass press or release conditions
- return;
-
- // Get layer index from arguments
- // Cast pointer to uint8_t to uint16_t then access that memory location
- uint16_t layer = *(uint16_t*)(&args[0]);
-
- // Only set the layer if it is disabled
- if ( LayerState[ layer ] != 0x00 && state == 0x01 )
- return;
-
- // Only unset the layer if it is enabled
- if ( LayerState[ layer ] == 0x00 && state == 0x03 )
- return;
-
- Macro_layerState( state, stateType, layer, 0x01 );
- }
-
-
- // Rotate layer to next/previous
- // Uses state variable to keep track of the current layer position
- // Layers are still evaluated using the layer stack
- uint16_t Macro_rotationLayer;
- void Macro_layerRotate_capability( uint8_t state, uint8_t stateType, uint8_t *args )
- {
- // Display capability name
- if ( stateType == 0xFF && state == 0xFF )
- {
- print("Macro_layerRotate(previous)");
- return;
- }
-
- // Only use capability on press
- // TODO Analog
- // XXX Could also be on release, but that's sorta dumb -HaaTa
- if ( stateType == 0x00 && state != 0x01 ) // All normal key conditions except press
- return;
-
- // Unset previous rotation layer if not 0
- if ( Macro_rotationLayer != 0 )
- {
- Macro_layerState( state, stateType, Macro_rotationLayer, 0x04 );
- }
-
- // Get direction of rotation, 0, next, non-zero previous
- uint8_t direction = *args;
-
- // Next
- if ( !direction )
- {
- Macro_rotationLayer++;
-
- // Invalid layer
- if ( Macro_rotationLayer >= LayerNum )
- Macro_rotationLayer = 0;
- }
- // Previous
- else
- {
- Macro_rotationLayer--;
-
- // Layer wrap
- if ( Macro_rotationLayer >= LayerNum )
- Macro_rotationLayer = LayerNum - 1;
- }
-
- // Toggle the computed layer rotation
- Macro_layerState( state, stateType, Macro_rotationLayer, 0x04 );
- }
-
-
-
- // ----- Functions -----
-
- // Looks up the trigger list for the given scan code (from the active layer)
- // NOTE: Calling function must handle the NULL pointer case
- nat_ptr_t *Macro_layerLookup( TriggerGuide *guide, uint8_t latch_expire )
- {
- uint8_t scanCode = guide->scanCode;
-
- // TODO Analog
- // If a normal key, and not pressed, do a layer cache lookup
- if ( guide->type == 0x00 && guide->state != 0x01 )
- {
- // Cached layer
- var_uint_t cachedLayer = macroTriggerListLayerCache[ scanCode ];
-
- // Lookup map, then layer
- nat_ptr_t **map = (nat_ptr_t**)LayerIndex[ cachedLayer ].triggerMap;
- const Layer *layer = &LayerIndex[ cachedLayer ];
-
- // Cache trigger list before attempting to expire latch
- nat_ptr_t *trigger_list = map[ scanCode - layer->first ];
-
- // Check if latch has been pressed for this layer
- uint8_t latch = LayerState[ cachedLayer ] & 0x02;
- if ( latch && latch_expire )
- {
- Macro_layerState( 0, 0, cachedLayer, 0x02 );
- #if defined(ConnectEnabled_define) && defined(LCDEnabled_define)
- // Evaluate the layerStack capability if available (LCD + Interconnect)
- extern void LCD_layerStack_capability( uint8_t state, uint8_t stateType, uint8_t *args );
- LCD_layerStack_capability( 0, 0, 0 );
- #endif
- }
-
- return trigger_list;
- }
-
- // If no trigger macro is defined at the given layer, fallthrough to the next layer
- for ( uint16_t layerIndex = macroLayerIndexStackSize; layerIndex != 0xFFFF; layerIndex-- )
- {
- // Lookup Layer
- const Layer *layer = &LayerIndex[ macroLayerIndexStack[ layerIndex ] ];
-
- // Check if latch has been pressed for this layer
- // XXX Regardless of whether a key is found, the latch is removed on first lookup
- uint8_t latch = LayerState[ macroLayerIndexStack[ layerIndex ] ] & 0x02;
- if ( latch && latch_expire )
- {
- Macro_layerState( 0, 0, macroLayerIndexStack[ layerIndex ], 0x02 );
- }
-
- // Only use layer, if state is valid
- // XOR each of the state bits
- // If only two are enabled, do not use this state
- if ( (LayerState[ macroLayerIndexStack[ layerIndex ] ] & 0x01) ^ (latch>>1) ^ ((LayerState[ macroLayerIndexStack[ layerIndex ] ] & 0x04)>>2) )
- {
- // Lookup layer
- nat_ptr_t **map = (nat_ptr_t**)layer->triggerMap;
-
- // Determine if layer has key defined
- // Make sure scanCode is between layer first and last scancodes
- if ( map != 0
- && scanCode <= layer->last
- && scanCode >= layer->first
- && *map[ scanCode - layer->first ] != 0 )
- {
- // Set the layer cache
- macroTriggerListLayerCache[ scanCode ] = macroLayerIndexStack[ layerIndex ];
-
- return map[ scanCode - layer->first ];
- }
- }
- }
-
- // Do lookup on default layer
- nat_ptr_t **map = (nat_ptr_t**)LayerIndex[0].triggerMap;
-
- // Lookup default layer
- const Layer *layer = &LayerIndex[0];
-
- // Make sure scanCode is between layer first and last scancodes
- if ( map != 0
- && scanCode <= layer->last
- && scanCode >= layer->first
- && *map[ scanCode - layer->first ] != 0 )
- {
- // Set the layer cache to default map
- macroTriggerListLayerCache[ scanCode ] = 0;
-
- return map[ scanCode - layer->first ];
- }
-
- // Otherwise no defined Trigger Macro
- erro_msg("Scan Code has no defined Trigger Macro: ");
- printHex( scanCode );
- print( NL );
- return 0;
- }
-
-
- // Add an interconnect ScanCode
- // These are handled differently (less information is sent, hold/off states must be assumed)
- #if defined(ConnectEnabled_define) || defined(PressReleaseCache_define)
- void Macro_pressReleaseAdd( void *trigger_ptr )
- {
- TriggerGuide *trigger = (TriggerGuide*)trigger_ptr;
-
- // Error checking
- uint8_t error = 0;
- switch ( trigger->type )
- {
- case 0x00: // Normal key
- switch ( trigger->state )
- {
- case 0x00:
- case 0x01:
- case 0x02:
- case 0x03:
- break;
- default:
- erro_msg("Invalid key state - ");
- error = 1;
- break;
- }
- break;
-
- // Invalid TriggerGuide type
- default:
- erro_msg("Invalid type - ");
- error = 1;
- break;
- }
-
- // Check if ScanCode is out of range
- if ( trigger->scanCode > MaxScanCode )
- {
- warn_msg("ScanCode is out of range/not defined - ");
- error = 1;
- }
-
- // Display TriggerGuide
- if ( error )
- {
- printHex( trigger->type );
- print(" ");
- printHex( trigger->state );
- print(" ");
- printHex( trigger->scanCode );
- print( NL );
- return;
- }
-
- // Add trigger to the Interconnect Cache
- // During each processing loop, a scancode may be re-added depending on it's state
- for ( var_uint_t c = 0; c < macroInterconnectCacheSize; c++ )
- {
- // Check if the same ScanCode
- if ( macroInterconnectCache[ c ].scanCode == trigger->scanCode )
- {
- // Update the state
- macroInterconnectCache[ c ].state = trigger->state;
- return;
- }
- }
-
- // If not in the list, add it
- macroInterconnectCache[ macroInterconnectCacheSize++ ] = *trigger;
- }
- #endif
-
-
- // Update the scancode key state
- // States:
- // * 0x00 - Off
- // * 0x01 - Pressed
- // * 0x02 - Held
- // * 0x03 - Released
- // * 0x04 - Unpressed (this is currently ignored)
- inline void Macro_keyState( uint8_t scanCode, uint8_t state )
- {
- #if defined(ConnectEnabled_define)
- // Only compile in if a Connect node module is available
- if ( !Connect_master )
- {
- // ScanCodes are only added if there was a state change (on/off)
- switch ( state )
- {
- case 0x00: // Off
- case 0x02: // Held
- return;
- }
- }
- #endif
-
- // Only add to macro trigger list if one of three states
- switch ( state )
- {
- case 0x01: // Pressed
- case 0x02: // Held
- case 0x03: // Released
- // Check if ScanCode is out of range
- if ( scanCode > MaxScanCode )
- {
- warn_msg("ScanCode is out of range/not defined: ");
- printHex( scanCode );
- print( NL );
- return;
- }
-
- macroTriggerListBuffer[ macroTriggerListBufferSize ].scanCode = scanCode;
- macroTriggerListBuffer[ macroTriggerListBufferSize ].state = state;
- macroTriggerListBuffer[ macroTriggerListBufferSize ].type = 0x00; // Normal key
- macroTriggerListBufferSize++;
- break;
- }
- }
-
-
- // Update the scancode analog state
- // States:
- // * 0x00 - Off
- // * 0x01 - Released
- // * 0x02-0xFF - Analog value (low to high)
- inline void Macro_analogState( uint8_t scanCode, uint8_t state )
- {
- // Only add to macro trigger list if non-off
- // TODO Handle change for interconnect
- if ( state != 0x00 )
- {
- // Check if ScanCode is out of range
- if ( scanCode > MaxScanCode )
- {
- warn_msg("ScanCode is out of range/not defined: ");
- printHex( scanCode );
- print( NL );
- return;
- }
-
- macroTriggerListBuffer[ macroTriggerListBufferSize ].scanCode = scanCode;
- macroTriggerListBuffer[ macroTriggerListBufferSize ].state = state;
- macroTriggerListBuffer[ macroTriggerListBufferSize ].type = 0x02; // Analog key
- macroTriggerListBufferSize++;
- }
- }
-
-
- // Update led state
- // States:
- // * 0x00 - Off
- // * 0x01 - On
- inline void Macro_ledState( uint8_t ledCode, uint8_t state )
- {
- // Only add to macro trigger list if non-off
- // TODO Handle change for interconnect
- if ( state != 0x00 )
- {
- // Check if LedCode is out of range
- // TODO
-
- macroTriggerListBuffer[ macroTriggerListBufferSize ].scanCode = ledCode;
- macroTriggerListBuffer[ macroTriggerListBufferSize ].state = state;
- macroTriggerListBuffer[ macroTriggerListBufferSize ].type = 0x01; // LED key
- macroTriggerListBufferSize++;
- }
- }
-
-
- // Append result macro to pending list, checking for duplicates
- // Do nothing if duplicate
- void Macro_appendResultMacroToPendingList( const TriggerMacro *triggerMacro )
- {
- // Lookup result macro index
- var_uint_t resultMacroIndex = triggerMacro->result;
-
- // Iterate through result macro pending list, making sure this macro hasn't been added yet
- for ( var_uint_t macro = 0; macro < macroResultMacroPendingListSize; macro++ )
- {
- // If duplicate found, do nothing
- if ( macroResultMacroPendingList[ macro ] == resultMacroIndex )
- return;
- }
-
- // No duplicates found, add to pending list
- macroResultMacroPendingList[ macroResultMacroPendingListSize++ ] = resultMacroIndex;
-
- // Lookup scanCode of the last key in the last combo
- var_uint_t pos = 0;
- for ( uint8_t comboLength = triggerMacro->guide[0]; comboLength > 0; )
- {
- pos += TriggerGuideSize * comboLength + 1;
- comboLength = triggerMacro->guide[ pos ];
- }
-
- uint8_t scanCode = ((TriggerGuide*)&triggerMacro->guide[ pos - TriggerGuideSize ])->scanCode;
-
- // Lookup scanCode in buffer list for the current state and stateType
- for ( var_uint_t keyIndex = 0; keyIndex < macroTriggerListBufferSize; keyIndex++ )
- {
- if ( macroTriggerListBuffer[ keyIndex ].scanCode == scanCode )
- {
- ResultMacroRecordList[ resultMacroIndex ].state = macroTriggerListBuffer[ keyIndex ].state;
- ResultMacroRecordList[ resultMacroIndex ].stateType = macroTriggerListBuffer[ keyIndex ].type;
- }
- }
-
- // Reset the macro position
- ResultMacroRecordList[ resultMacroIndex ].pos = 0;
- }
-
-
- // Macro Procesing Loop
- // Called once per USB buffer send
- inline void Macro_process()
- {
- #if defined(ConnectEnabled_define)
- // Only compile in if a Connect node module is available
- // If this is a interconnect slave node, send all scancodes to master node
- if ( !Connect_master )
- {
- if ( macroTriggerListBufferSize > 0 )
- {
- Connect_send_ScanCode( Connect_id, macroTriggerListBuffer, macroTriggerListBufferSize );
- macroTriggerListBufferSize = 0;
- }
- return;
- }
- #endif
-
- // Only do one round of macro processing between Output Module timer sends
- if ( USBKeys_Sent != 0 )
- return;
-
- #if defined(ConnectEnabled_define) || defined(PressReleaseCache_define)
- #if defined(ConnectEnabled_define)
- // Check if there are any ScanCodes in the interconnect cache to process
- if ( Connect_master && macroInterconnectCacheSize > 0 )
- #endif
- {
- // Iterate over all the cache ScanCodes
- uint8_t currentInterconnectCacheSize = macroInterconnectCacheSize;
- macroInterconnectCacheSize = 0;
- for ( uint8_t c = 0; c < currentInterconnectCacheSize; c++ )
- {
- // Add to the trigger list
- macroTriggerListBuffer[ macroTriggerListBufferSize++ ] = macroInterconnectCache[ c ];
-
- // TODO Handle other TriggerGuide types (e.g. analog)
- switch ( macroInterconnectCache[ c ].type )
- {
- // Normal (Press/Hold/Release)
- case 0x00:
- // Decide what to do based on the current state
- switch ( macroInterconnectCache[ c ].state )
- {
- // Re-add to interconnect cache in hold state
- case 0x01: // Press
- //case 0x02: // Hold // XXX Why does this not work? -HaaTa
- macroInterconnectCache[ c ].state = 0x02;
- macroInterconnectCache[ macroInterconnectCacheSize++ ] = macroInterconnectCache[ c ];
- break;
- case 0x03: // Remove
- break;
- // Otherwise, do not re-add
- }
- }
- }
- }
- #endif
-
- // If the pause flag is set, only process if the step counter is non-zero
- if ( macroPauseMode )
- {
- if ( macroStepCounter == 0 )
- return;
-
- // Proceed, decrementing the step counter
- macroStepCounter--;
- dbug_print("Macro Step");
- }
-
- // Process Trigger Macros
- Trigger_process();
-
-
- // Process result macros
- Result_process();
-
- // Signal buffer that we've used it
- Scan_finishedWithMacro( macroTriggerListBufferSize );
-
- // Reset TriggerList buffer
- macroTriggerListBufferSize = 0;
-
- // If Macro debug mode is set, clear the USB Buffer
- if ( macroDebugMode )
- {
- USBKeys_Modifiers = 0;
- USBKeys_Sent = 0;
- }
- }
-
-
- inline void Macro_setup()
- {
- // Register Macro CLI dictionary
- CLI_registerDictionary( macroCLIDict, macroCLIDictName );
-
- // Disable Macro debug mode
- macroDebugMode = 0;
-
- // Disable Macro pause flag
- macroPauseMode = 0;
-
- // Set Macro step counter to zero
- macroStepCounter = 0;
-
- // Make sure macro trigger buffer is empty
- macroTriggerListBufferSize = 0;
-
- // Set the current rotated layer to 0
- Macro_rotationLayer = 0;
-
- // Setup Triggers
- Trigger_setup();
-
- // Setup Results
- Result_setup();
- }
-
-
- // ----- CLI Command Functions -----
-
- void cliFunc_capList( char* args )
- {
- print( NL );
- info_msg("Capabilities List ");
- printHex( CapabilitiesNum );
-
- // Iterate through all of the capabilities and display them
- for ( var_uint_t cap = 0; cap < CapabilitiesNum; cap++ )
- {
- print( NL "\t" );
- printHex( cap );
- print(" - ");
-
- // Display/Lookup Capability Name (utilize debug mode of capability)
- void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ cap ].func);
- capability( 0xFF, 0xFF, 0 );
- }
- }
-
- void cliFunc_capSelect( char* args )
- {
- // Parse code from argument
- char* curArgs;
- char* arg1Ptr;
- char* arg2Ptr = args;
-
- // Total number of args to scan (must do a lookup if a keyboard capability is selected)
- var_uint_t totalArgs = 2; // Always at least two args
- var_uint_t cap = 0;
-
- // Arguments used for keyboard capability function
- var_uint_t argSetCount = 0;
- uint8_t *argSet = (uint8_t*)args;
-
- // Process all args
- for ( var_uint_t c = 0; argSetCount < totalArgs; c++ )
- {
- curArgs = arg2Ptr;
- CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
-
- // Stop processing args if no more are found
- // Extra arguments are ignored
- if ( *arg1Ptr == '\0' )
- break;
-
- // For the first argument, choose the capability
- if ( c == 0 ) switch ( arg1Ptr[0] )
- {
- // Keyboard Capability
- case 'K':
- // Determine capability index
- cap = numToInt( &arg1Ptr[1] );
-
- // Lookup the number of args
- totalArgs += CapabilitiesList[ cap ].argCount;
- continue;
- }
-
- // Because allocating memory isn't doable, and the argument count is arbitrary
- // The argument pointer is repurposed as the argument list (much smaller anyways)
- argSet[ argSetCount++ ] = (uint8_t)numToInt( arg1Ptr );
-
- // Once all the arguments are prepared, call the keyboard capability function
- if ( argSetCount == totalArgs )
- {
- // Indicate that the capability was called
- print( NL );
- info_msg("K");
- printInt8( cap );
- print(" - ");
- printHex( argSet[0] );
- print(" - ");
- printHex( argSet[1] );
- print(" - ");
- printHex( argSet[2] );
- print( "..." NL );
-
- // Make sure this isn't the reload capability
- // If it is, and the remote reflash define is not set, ignore
- if ( flashModeEnabled_define == 0 ) for ( uint32_t cap = 0; cap < CapabilitiesNum; cap++ )
- {
- if ( CapabilitiesList[ cap ].func == (const void*)Output_flashMode_capability )
- {
- print( NL );
- warn_print("flashModeEnabled not set, cancelling firmware reload...");
- info_msg("Set flashModeEnabled to 1 in your kll configuration.");
- return;
- }
- }
-
- void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ cap ].func);
- capability( argSet[0], argSet[1], &argSet[2] );
- }
- }
- }
-
- void cliFunc_keyHold( char* args )
- {
- // Parse codes from arguments
- char* curArgs;
- char* arg1Ptr;
- char* arg2Ptr = args;
-
- // Process all args
- for ( ;; )
- {
- curArgs = arg2Ptr;
- CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
-
- // Stop processing args if no more are found
- if ( *arg1Ptr == '\0' )
- break;
-
- // Ignore non-Scancode numbers
- switch ( arg1Ptr[0] )
- {
- // Scancode
- case 'S':
- Macro_keyState( (uint8_t)numToInt( &arg1Ptr[1] ), 0x02 ); // Hold scancode
- break;
- }
- }
- }
-
- void cliFunc_keyPress( char* args )
- {
- // Parse codes from arguments
- char* curArgs;
- char* arg1Ptr;
- char* arg2Ptr = args;
-
- // Process all args
- for ( ;; )
- {
- curArgs = arg2Ptr;
- CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
-
- // Stop processing args if no more are found
- if ( *arg1Ptr == '\0' )
- break;
-
- // Ignore non-Scancode numbers
- switch ( arg1Ptr[0] )
- {
- // Scancode
- case 'S':
- Macro_keyState( (uint8_t)numToInt( &arg1Ptr[1] ), 0x01 ); // Press scancode
- break;
- }
- }
- }
-
- void cliFunc_keyRelease( char* args )
- {
- // Parse codes from arguments
- char* curArgs;
- char* arg1Ptr;
- char* arg2Ptr = args;
-
- // Process all args
- for ( ;; )
- {
- curArgs = arg2Ptr;
- CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
-
- // Stop processing args if no more are found
- if ( *arg1Ptr == '\0' )
- break;
-
- // Ignore non-Scancode numbers
- switch ( arg1Ptr[0] )
- {
- // Scancode
- case 'S':
- Macro_keyState( (uint8_t)numToInt( &arg1Ptr[1] ), 0x03 ); // Release scancode
- break;
- }
- }
- }
-
- void cliFunc_layerDebug( char *args )
- {
- // Toggle layer debug mode
- layerDebugMode = layerDebugMode ? 0 : 1;
-
- print( NL );
- info_msg("Layer Debug Mode: ");
- printInt8( layerDebugMode );
- }
-
- void cliFunc_layerList( char* args )
- {
- print( NL );
- info_msg("Layer List");
-
- // Iterate through all of the layers and display them
- for ( uint16_t layer = 0; layer < LayerNum; layer++ )
- {
- print( NL "\t" );
- printHex( layer );
- print(" - ");
-
- // Display layer name
- dPrint( (char*)LayerIndex[ layer ].name );
-
- // Default map
- if ( layer == 0 )
- print(" \033[1m(default)\033[0m");
-
- // Layer State
- print( NL "\t\t Layer State: " );
- printHex( LayerState[ layer ] );
-
- // First -> Last Indices
- print(" First -> Last Indices: ");
- printHex( LayerIndex[ layer ].first );
- print(" -> ");
- printHex( LayerIndex[ layer ].last );
- }
- }
-
- void cliFunc_layerState( char* args )
- {
- // Parse codes from arguments
- char* curArgs;
- char* arg1Ptr;
- char* arg2Ptr = args;
-
- uint8_t arg1 = 0;
- uint8_t arg2 = 0;
-
- // Process first two args
- for ( uint8_t c = 0; c < 2; c++ )
- {
- curArgs = arg2Ptr;
- CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
-
- // Stop processing args if no more are found
- if ( *arg1Ptr == '\0' )
- break;
-
- switch ( c )
- {
- // First argument (e.g. L1)
- case 0:
- if ( arg1Ptr[0] != 'L' )
- return;
-
- arg1 = (uint8_t)numToInt( &arg1Ptr[1] );
- break;
- // Second argument (e.g. 4)
- case 1:
- arg2 = (uint8_t)numToInt( arg1Ptr );
-
- // Display operation (to indicate that it worked)
- print( NL );
- info_msg("Setting Layer L");
- printInt8( arg1 );
- print(" to - ");
- printHex( arg2 );
-
- // Set the layer state
- LayerState[ arg1 ] = arg2;
- break;
- }
- }
- }
-
- void cliFunc_macroDebug( char* args )
- {
- // Toggle macro debug mode
- macroDebugMode = macroDebugMode ? 0 : 1;
-
- print( NL );
- info_msg("Macro Debug Mode: ");
- printInt8( macroDebugMode );
- }
-
- void cliFunc_macroList( char* args )
- {
- // Show pending key events
- print( NL );
- info_msg("Pending Key Events: ");
- printInt16( (uint16_t)macroTriggerListBufferSize );
- print(" : ");
- for ( var_uint_t key = 0; key < macroTriggerListBufferSize; key++ )
- {
- printHex( macroTriggerListBuffer[ key ].scanCode );
- print(" ");
- }
-
- // Show pending trigger macros
- print( NL );
- info_msg("Pending Trigger Macros: ");
- printInt16( (uint16_t)macroTriggerMacroPendingListSize );
- print(" : ");
- for ( var_uint_t macro = 0; macro < macroTriggerMacroPendingListSize; macro++ )
- {
- printHex( macroTriggerMacroPendingList[ macro ] );
- print(" ");
- }
-
- // Show pending result macros
- print( NL );
- info_msg("Pending Result Macros: ");
- printInt16( (uint16_t)macroResultMacroPendingListSize );
- print(" : ");
- for ( var_uint_t macro = 0; macro < macroResultMacroPendingListSize; macro++ )
- {
- printHex( macroResultMacroPendingList[ macro ] );
- print(" ");
- }
-
- // Show available trigger macro indices
- print( NL );
- info_msg("Trigger Macros Range: T0 -> T");
- printInt16( (uint16_t)TriggerMacroNum - 1 ); // Hopefully large enough :P (can't assume 32-bit)
-
- // Show available result macro indices
- print( NL );
- info_msg("Result Macros Range: R0 -> R");
- printInt16( (uint16_t)ResultMacroNum - 1 ); // Hopefully large enough :P (can't assume 32-bit)
-
- // Show Trigger to Result Macro Links
- print( NL );
- info_msg("Trigger : Result Macro Pairs");
- for ( var_uint_t macro = 0; macro < TriggerMacroNum; macro++ )
- {
- print( NL );
- print("\tT");
- printInt16( (uint16_t)macro ); // Hopefully large enough :P (can't assume 32-bit)
- print(" : R");
- printInt16( (uint16_t)TriggerMacroList[ macro ].result ); // Hopefully large enough :P (can't assume 32-bit)
- }
- }
-
- void cliFunc_macroProc( char* args )
- {
- // Toggle macro pause mode
- macroPauseMode = macroPauseMode ? 0 : 1;
-
- print( NL );
- info_msg("Macro Processing Mode: ");
- printInt8( macroPauseMode );
- }
-
- void macroDebugShowTrigger( var_uint_t index )
- {
- // Only proceed if the macro exists
- if ( index >= TriggerMacroNum )
- return;
-
- // Trigger Macro Show
- const TriggerMacro *macro = &TriggerMacroList[ index ];
- TriggerMacroRecord *record = &TriggerMacroRecordList[ index ];
-
- print( NL );
- info_msg("Trigger Macro Index: ");
- printInt16( (uint16_t)index ); // Hopefully large enough :P (can't assume 32-bit)
- print( NL );
-
- // Read the comboLength for combo in the sequence (sequence of combos)
- var_uint_t pos = 0;
- uint8_t comboLength = macro->guide[ pos ];
-
- // Iterate through and interpret the guide
- while ( comboLength != 0 )
- {
- // Initial position of the combo
- var_uint_t comboPos = ++pos;
-
- // Iterate through the combo
- while ( pos < comboLength * TriggerGuideSize + comboPos )
- {
- // Assign TriggerGuide element (key type, state and scancode)
- TriggerGuide *guide = (TriggerGuide*)(¯o->guide[ pos ]);
-
- // Display guide information about trigger key
- printHex( guide->scanCode );
- print("|");
- printHex( guide->type );
- print("|");
- printHex( guide->state );
-
- // Increment position
- pos += TriggerGuideSize;
-
- // Only show combo separator if there are combos left in the sequence element
- if ( pos < comboLength * TriggerGuideSize + comboPos )
- print("+");
- }
-
- // Read the next comboLength
- comboLength = macro->guide[ pos ];
-
- // Only show sequence separator if there is another combo to process
- if ( comboLength != 0 )
- print(";");
- }
-
- // Display current position
- print( NL "Position: " );
- printInt16( (uint16_t)record->pos ); // Hopefully large enough :P (can't assume 32-bit)
-
- // Display result macro index
- print( NL "Result Macro Index: " );
- printInt16( (uint16_t)macro->result ); // Hopefully large enough :P (can't assume 32-bit)
-
- // Display trigger macro state
- print( NL "Trigger Macro State: " );
- switch ( record->state )
- {
- case TriggerMacro_Press: print("Press"); break;
- case TriggerMacro_Release: print("Release"); break;
- case TriggerMacro_Waiting: print("Waiting"); break;
- }
- }
-
- void macroDebugShowResult( var_uint_t index )
- {
- // Only proceed if the macro exists
- if ( index >= ResultMacroNum )
- return;
-
- // Trigger Macro Show
- const ResultMacro *macro = &ResultMacroList[ index ];
- ResultMacroRecord *record = &ResultMacroRecordList[ index ];
-
- print( NL );
- info_msg("Result Macro Index: ");
- printInt16( (uint16_t)index ); // Hopefully large enough :P (can't assume 32-bit)
- print( NL );
-
- // Read the comboLength for combo in the sequence (sequence of combos)
- var_uint_t pos = 0;
- uint8_t comboLength = macro->guide[ pos++ ];
-
- // Iterate through and interpret the guide
- while ( comboLength != 0 )
- {
- // Function Counter, used to keep track of the combos processed
- var_uint_t funcCount = 0;
-
- // Iterate through the combo
- while ( funcCount < comboLength )
- {
- // Assign TriggerGuide element (key type, state and scancode)
- ResultGuide *guide = (ResultGuide*)(¯o->guide[ pos ]);
-
- // Display Function Index
- printHex( guide->index );
- print("|");
-
- // Display Function Ptr Address
- printHex( (nat_ptr_t)CapabilitiesList[ guide->index ].func );
- print("|");
-
- // Display/Lookup Capability Name (utilize debug mode of capability)
- void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ guide->index ].func);
- capability( 0xFF, 0xFF, 0 );
-
- // Display Argument(s)
- print("(");
- for ( var_uint_t arg = 0; arg < CapabilitiesList[ guide->index ].argCount; arg++ )
- {
- // Arguments are only 8 bit values
- printHex( (&guide->args)[ arg ] );
-
- // Only show arg separator if there are args left
- if ( arg + 1 < CapabilitiesList[ guide->index ].argCount )
- print(",");
- }
- print(")");
-
- // Increment position
- pos += ResultGuideSize( guide );
-
- // Increment function count
- funcCount++;
-
- // Only show combo separator if there are combos left in the sequence element
- if ( funcCount < comboLength )
- print("+");
- }
-
- // Read the next comboLength
- comboLength = macro->guide[ pos++ ];
-
- // Only show sequence separator if there is another combo to process
- if ( comboLength != 0 )
- print(";");
- }
-
- // Display current position
- print( NL "Position: " );
- 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( record->state );
- print("/");
- printHex( record->stateType );
- }
-
- void cliFunc_macroShow( char* args )
- {
- // Parse codes from arguments
- char* curArgs;
- char* arg1Ptr;
- char* arg2Ptr = args;
-
- // Process all args
- for ( ;; )
- {
- curArgs = arg2Ptr;
- CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
-
- // Stop processing args if no more are found
- if ( *arg1Ptr == '\0' )
- break;
-
- // Ignore invalid codes
- switch ( arg1Ptr[0] )
- {
- // Indexed Trigger Macro
- case 'T':
- macroDebugShowTrigger( numToInt( &arg1Ptr[1] ) );
- break;
- // Indexed Result Macro
- case 'R':
- macroDebugShowResult( numToInt( &arg1Ptr[1] ) );
- break;
- }
- }
- }
-
- void cliFunc_macroStep( char* args )
- {
- // Parse number from argument
- // NOTE: Only first argument is used
- char* arg1Ptr;
- char* arg2Ptr;
- CLI_argumentIsolation( args, &arg1Ptr, &arg2Ptr );
-
- // Default to 1, if no argument given
- var_uint_t count = (var_uint_t)numToInt( arg1Ptr );
-
- if ( count == 0 )
- count = 1;
-
- // Set the macro step counter, negative int's are cast to uint
- macroStepCounter = count;
- }
|