/* Copyright (C) 2014-2015 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 .
*/
#pragma once
// ----- Includes -----
// KLL Generated Defines
#include
// Project Includes
#include
#include
#include
#include
// USB HID Keymap list
#include
// ----- Types -----
// - NOTE -
// It is possible to change the maximum state and indexing positions of the state machine.
// This usually affects the SRAM usage quite a bit, so it can be used to fit the code on smaller uCs
// Or to allow for nearly infinite states.
#if StateWordSize_define == 32
typedef uint32_t var_uint_t;
#elif StateWordSize_define == 16
typedef uint16_t var_uint_t;
#elif StateWordSize_define == 8
typedef uint8_t var_uint_t;
#else
#error "Invalid StateWordSize, possible values: 32, 16 and 8."
#endif
// - NOTE -
// Native pointer length
// This needs to be defined per microcontroller
// e.g. mk20s -> 32 bit
// atmega -> 16 bit
#if defined(_mk20dx128_) || defined(_mk20dx128vlf5_) || defined(_mk20dx256_) || defined(_mk20dx256vlh7_) // ARM
typedef uint32_t nat_ptr_t;
#elif defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
typedef uint16_t nat_ptr_t;
#endif
// ----- Structs -----
// -- Result Macro
// Defines the sequence of combinations to as the Result of Trigger Macro
// For RAM optimization reasons, ResultMacro has been split into ResultMacro and ResultMacroRecord structures
//
// Capability + args per USB send
// Default Args (always sent): key state/analog of last key
// Combo Length of 0 signifies end of sequence
//
// ResultMacro.guide -> [|||||...||...|0]
//
// ResultMacroRecord.pos ->
// ResultMacroRecord.state ->
// ResultMacroRecord.stateType ->
// ResultMacro struct, one is created per ResultMacro, no duplicates
typedef struct ResultMacro {
const uint8_t *guide;
} ResultMacro;
typedef struct ResultMacroRecord {
var_uint_t pos;
uint8_t state;
uint8_t stateType;
} ResultMacroRecord;
// Guide, key element
#define ResultGuideSize( guidePtr ) sizeof( ResultGuide ) - 1 + CapabilitiesList[ (guidePtr)->index ].argCount
typedef struct ResultGuide {
uint8_t index;
uint8_t args; // This is used as an array pointer (but for packing purposes, must be 8 bit)
} ResultGuide;
// -- Trigger Macro
// Defines the sequence of combinations to Trigger a Result Macro
// For RAM optimization reasons TriggerMacro has been split into TriggerMacro and TriggerMacroRecord
// Key Types:
// * 0x00 Normal (Press/Hold/Release)
// * 0x01 LED State (On/Off)
// * 0x02 Analog (Threshold)
// * 0x03-0xFE Reserved
// * 0xFF Debug State
//
// Key State:
// * Off - 0x00 (all flag states)
// * On - 0x01
// * Press/Hold/Release - 0x01/0x02/0x03
// * Threshold (Range) - 0x01 (Released), 0x10 (Light press), 0xFF (Max press)
// * Debug - 0xFF (Print capability name)
//
// Combo Length of 0 signifies end of sequence
//
// TriggerMacro.guide -> [|||...|||...|0]
// TriggerMacro.result ->
//
// TriggerMacroRecord.pos ->
// TriggerMacroRecord.state ->
// TriggerMacro states
typedef enum TriggerMacroState {
TriggerMacro_Press, // Combo in sequence is passing
TriggerMacro_Release, // Move to next combo in sequence (or finish if at end of sequence)
TriggerMacro_Waiting, // Awaiting user input
} TriggerMacroState;
// TriggerMacro struct, one is created per TriggerMacro, no duplicates
typedef struct TriggerMacro {
const uint8_t *guide;
const var_uint_t result;
} TriggerMacro;
typedef struct TriggerMacroRecord {
var_uint_t pos;
TriggerMacroState state;
} TriggerMacroRecord;
// Guide, key element
#define TriggerGuideSize sizeof( TriggerGuide )
typedef struct TriggerGuide {
uint8_t type;
uint8_t state;
uint8_t scanCode;
} TriggerGuide;
// ----- Capabilities -----
// Capability
typedef struct Capability {
const void *func;
const uint8_t argCount;
} Capability;
// Total Number of Capabilities
#define CapabilitiesNum sizeof( CapabilitiesList ) / sizeof( Capability )
// -- Result Macros
// Guide_RM / Define_RM Pair
// Guide_RM( index ) = result;
// * index - Result Macro index number
// * result - Result Macro guide (see ResultMacro)
// Define_RM( index );
// * index - Result Macro index number
// Must be used after Guide_RM
#define Guide_RM( index ) const uint8_t rm##index##_guide[]
#define Define_RM( index ) { rm##index##_guide }
// -- Result Macro List
// Total number of result macros (rm's)
// Used to create pending rm's table
#define ResultMacroNum sizeof( ResultMacroList ) / sizeof( ResultMacro )
// -- Trigger Macros
// Guide_TM / Define_TM Trigger Setup
// Guide_TM( index ) = trigger;
// * index - Trigger Macro index number
// * trigger - Trigger Macro guide (see TriggerMacro)
// Define_TM( index, result );
// * index - Trigger Macro index number
// * result - Result Macro index number which is triggered by this Trigger Macro
#define Guide_TM( index ) const uint8_t tm##index##_guide[]
#define Define_TM( index, result ) { tm##index##_guide, result }
// -- Trigger Macro List
// Total number of trigger macros (tm's)
// Used to create pending tm's table
#define TriggerMacroNum sizeof( TriggerMacroList ) / sizeof( TriggerMacro )
// ----- Trigger Maps -----
// Define_TL( layer, scanCode ) = triggerList;
// * layer - basename of the layer
// * scanCode - Hex value of the scanCode
// * triggerList - Trigger List (see Trigger Lists)
#define Define_TL( layer, scanCode ) const nat_ptr_t layer##_tl_##scanCode[]
// ----- Layer Index -----
// Defines each map of trigger macro lists
// Layer 0 is always the default map
// Layer States:
// * Off - 0x00
// * Shift - 0x01
// * Latch - 0x02
// * Lock - 0x04
// Layer states are stored in the LayerState array
//
// Except for Off, all states an exist simultaneously for each layer
// For example:
// state -> 0x04 + 0x01 = 0x05 (Shift + Lock), which is effectively Off (0x00)
//
// First defines the first used scan code (most keyboards start at 0, some start higher e.g. 0x40)
// - Compiler calculates this
//
// Last defines the last scan code used (helps reduce RAM usage)
//
// The name is defined for cli debugging purposes (Null terminated string)
typedef struct Layer {
const nat_ptr_t **triggerMap;
const char *name;
const uint8_t first;
const uint8_t last;
} Layer;
// Layer_IN( map, name, first );
// * map - Trigger map
// * name - Name of the trigger map
// * first - First scan code used (most keyboards start at 0, some start higher e.g. 0x40)
#define Layer_IN( map, name, first ) { map, name, first, sizeof( map ) / sizeof( nat_ptr_t ) - 1 + first }
// Total number of layers
#define LayerNum sizeof( LayerIndex ) / sizeof( Layer )