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Initial work for partial layers and macros.

This commit is contained in:
Jacob Alexander 2014-06-22 20:45:56 -07:00
parent 54c11ebd07
commit 1fd777815b
4 changed files with 604 additions and 41 deletions

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/* Copyright (C) 2014 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/>.
*/
// Generated MSG /w timestamp and compiler information
#ifndef __generatedKeymap_h
#define __generatedKeymap_h
// ----- Includes -----
#include <print.h>
// USB HID Keymap list
#include <usb_hid.h>
// ----- Structs -----
// -- Result Macro
// Defines the sequence of combinations to as the Result of Trigger Macro
//
// 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 -> [<combo length>|<function pointer>|<arg count>|<arg1>|<argn>|<function pointer>|...|<combo length>|...|0]
// ResultMacro.pos -> <current combo position>
// ResultMacro.state -> <last key state>
// ResultMacro.stateType -> <last key state type>
typedef struct ResultMacro {
unsigned int *guide;
unsigned int pos;
uint8_t state;
uint8_t stateType;
} ResultMacro;
// -- Trigger Macro
// Defines the sequence of combinations to Trigger a Result Macro
// Key Types:
// * 0x00 Normal (Press/Hold/Release)
// * 0x01 LED State (On/Off)
// * 0x02 Analog (Threshold)
// * 0x03-0xFF Reserved
//
// Flag State:
// * Not processed - 0x00 (all flag states)
// * On/Off - 0x01/0x02
// * Press/Hold/Release - 0x01/0x02/0x03
// * Threshold (Range) - 0x01 (Released), 0x10 (Light press), 0xFF (Max press)
//
// Combo Length of 0 signifies end of sequence
//
// TriggerMacro.guide -> [<combo length>|<key1 type>|<key1>...<keyn type>|<keyn>|<combo length>...|0]
// TriggerMacro.state -> [<key1 flag>...<keyn flag>...]
// TriggerMacro.result -> <pointer to result macro>
// TriggerMacro.pos -> <current combo position>
typedef struct TriggerMacro {
uint8_t *guide;
uint8_t *state;
ResultMacro *result;
unsigned int pos;
} TriggerMacro;
// ----- Macros -----
#define debugPrint_cap( arg ) (unsigned int) debugPrint_capability, 1, arg
void debugPrint_capability( uint8_t state, uint8_t stateType, uint8_t arg )
{
dbug_msg("Capability Print: ");
print(" statetype( ");
printHex( stateType );
print(" ) state ( ");
printHex( state );
print(" ) arg ( ");
printHex( arg );
print( " )" NL );
}
// -- Result Macros
// Guide_RM / Define_RM Pair
// Guide_RM( name ) = result;
// * name - Result Macro name
// * result - Result Macro guide (see ResultMacro)
// Define_RM( name );
// * name - Result Macro name
// Must be used after Guide_RM
#define Guide_RM( name ) \
static unsigned int name##_guide[]
#define Define_RM( name ) \
ResultMacro name = { name##_guide, 0, 0, 0 }
Guide_RM( rm1 ) = { 1, debugPrint_cap( 0xBA ), 0 };
Define_RM( rm1 );
// -- Trigger Macros
// NOTES:
// Compiler must calculate number of combos per macro to define the size of the state array
// ( sizeof( macro_guide ) - ( <number of combos> + 1 ) ) / 2 = <length of guide array>
#define GuideSize( name, combos ) ( sizeof( name##_guide ) - ( combos + 1 ) ) / 2
// Guide_TM / Define_TM Pair
// Guide_TM( name ) = trigger;
// * name - Trigger Macro name
// * trigger - Trigger Macro guide (see TriggerMacro)
// Define_TM( name, result );
// * name - Trigger Macro name
// * result - Result Macro which is triggered by this Trigger Macro
#define Guide_TM( name ) static uint8_t name##_guide[]
#define Define_TM( name, result ) \
uint8_t name##_state[ GuideSize( name, 1 ) ] = { 0 }; \
TriggerMacro name = { name##_guide, name##_state, &result, 0 }
#define tm( number ) (unsigned int)&tm##number
Guide_TM( tm1 ) = { 1, 0x00, 0x73, 0 };
Define_TM( tm1, rm1 );
// ----- 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 ) static unsigned int layer##_tl_##scanCode[]
// -- Trigger Lists
//
// Index 0: # of triggers in list
// Index n: pointer to trigger macro - use tm() macro
// Default Layer
Define_TL( default, 0x00 ) = { 0 };
Define_TL( default, 0x01 ) = { 0 };
Define_TL( default, 0x02 ) = { 0 };
Define_TL( default, 0x03 ) = { 0 };
Define_TL( default, 0x04 ) = { 0 };
Define_TL( default, 0x05 ) = { 0 };
Define_TL( default, 0x06 ) = { 0 };
Define_TL( default, 0x07 ) = { 0 };
Define_TL( default, 0x08 ) = { 0 };
Define_TL( default, 0x09 ) = { 0 };
Define_TL( default, 0x0A ) = { 0 };
Define_TL( default, 0x0B ) = { 0 };
Define_TL( default, 0x0C ) = { 0 };
Define_TL( default, 0x0D ) = { 0 };
Define_TL( default, 0x0E ) = { 0 };
Define_TL( default, 0x0F ) = { 0 };
Define_TL( default, 0x10 ) = { 0 };
Define_TL( default, 0x11 ) = { 0 };
Define_TL( default, 0x12 ) = { 0 };
Define_TL( default, 0x13 ) = { 0 };
Define_TL( default, 0x14 ) = { 0 };
Define_TL( default, 0x15 ) = { 0 };
Define_TL( default, 0x16 ) = { 0 };
Define_TL( default, 0x17 ) = { 0 };
Define_TL( default, 0x18 ) = { 0 };
Define_TL( default, 0x19 ) = { 0 };
Define_TL( default, 0x1A ) = { 0 };
Define_TL( default, 0x1B ) = { 0 };
Define_TL( default, 0x1C ) = { 0 };
Define_TL( default, 0x1D ) = { 0 };
Define_TL( default, 0x1E ) = { 0 };
Define_TL( default, 0x1F ) = { 0 };
Define_TL( default, 0x20 ) = { 0 };
Define_TL( default, 0x21 ) = { 0 };
Define_TL( default, 0x22 ) = { 0 };
Define_TL( default, 0x23 ) = { 0 };
Define_TL( default, 0x24 ) = { 0 };
Define_TL( default, 0x25 ) = { 0 };
Define_TL( default, 0x26 ) = { 0 };
Define_TL( default, 0x27 ) = { 0 };
Define_TL( default, 0x28 ) = { 0 };
Define_TL( default, 0x29 ) = { 0 };
Define_TL( default, 0x2A ) = { 0 };
Define_TL( default, 0x2B ) = { 0 };
Define_TL( default, 0x2C ) = { 0 };
Define_TL( default, 0x2D ) = { 0 };
Define_TL( default, 0x2E ) = { 0 };
Define_TL( default, 0x2F ) = { 0 };
Define_TL( default, 0x30 ) = { 0 };
Define_TL( default, 0x31 ) = { 0 };
Define_TL( default, 0x32 ) = { 0 };
Define_TL( default, 0x33 ) = { 0 };
Define_TL( default, 0x34 ) = { 0 };
Define_TL( default, 0x35 ) = { 0 };
Define_TL( default, 0x36 ) = { 0 };
Define_TL( default, 0x37 ) = { 0 };
Define_TL( default, 0x38 ) = { 0 };
Define_TL( default, 0x39 ) = { 0 };
Define_TL( default, 0x3A ) = { 0 };
Define_TL( default, 0x3B ) = { 0 };
Define_TL( default, 0x3C ) = { 0 };
Define_TL( default, 0x3D ) = { 0 };
Define_TL( default, 0x3E ) = { 0 };
Define_TL( default, 0x3F ) = { 0 };
Define_TL( default, 0x40 ) = { 0 };
Define_TL( default, 0x41 ) = { 0 };
Define_TL( default, 0x42 ) = { 0 };
Define_TL( default, 0x43 ) = { 0 };
Define_TL( default, 0x44 ) = { 0 };
Define_TL( default, 0x45 ) = { 0 };
Define_TL( default, 0x46 ) = { 0 };
Define_TL( default, 0x47 ) = { 0 };
Define_TL( default, 0x48 ) = { 0 };
Define_TL( default, 0x49 ) = { 0 };
Define_TL( default, 0x4A ) = { 0 };
Define_TL( default, 0x4B ) = { 0 };
Define_TL( default, 0x4C ) = { 0 };
Define_TL( default, 0x4D ) = { 0 };
Define_TL( default, 0x4E ) = { 0 };
Define_TL( default, 0x4F ) = { 0 };
Define_TL( default, 0x50 ) = { 0 };
Define_TL( default, 0x51 ) = { 0 };
Define_TL( default, 0x52 ) = { 0 };
Define_TL( default, 0x53 ) = { 0 };
Define_TL( default, 0x54 ) = { 0 };
Define_TL( default, 0x55 ) = { 0 };
Define_TL( default, 0x56 ) = { 0 };
Define_TL( default, 0x57 ) = { 0 };
Define_TL( default, 0x58 ) = { 0 };
Define_TL( default, 0x59 ) = { 0 };
Define_TL( default, 0x5A ) = { 0 };
Define_TL( default, 0x5B ) = { 0 };
Define_TL( default, 0x5C ) = { 0 };
Define_TL( default, 0x5D ) = { 0 };
Define_TL( default, 0x5E ) = { 0 };
Define_TL( default, 0x5F ) = { 0 };
Define_TL( default, 0x60 ) = { 0 };
Define_TL( default, 0x61 ) = { 0 };
Define_TL( default, 0x62 ) = { 0 };
Define_TL( default, 0x63 ) = { 0 };
Define_TL( default, 0x64 ) = { 0 };
Define_TL( default, 0x65 ) = { 0 };
Define_TL( default, 0x66 ) = { 0 };
Define_TL( default, 0x67 ) = { 0 };
Define_TL( default, 0x68 ) = { 0 };
Define_TL( default, 0x69 ) = { 0 };
Define_TL( default, 0x6A ) = { 0 };
Define_TL( default, 0x6B ) = { 0 };
Define_TL( default, 0x6C ) = { 0 };
Define_TL( default, 0x6D ) = { 0 };
Define_TL( default, 0x6E ) = { 0 };
Define_TL( default, 0x6F ) = { 0 };
Define_TL( default, 0x70 ) = { 0 };
Define_TL( default, 0x71 ) = { 0 };
Define_TL( default, 0x72 ) = { 0 };
Define_TL( default, 0x73 ) = { 1, tm(1) };
Define_TL( default, 0x74 ) = { 0 };
Define_TL( default, 0x75 ) = { 0 };
Define_TL( default, 0x76 ) = { 0 };
Define_TL( default, 0x77 ) = { 0 };
Define_TL( default, 0x78 ) = { 0 };
Define_TL( default, 0x79 ) = { 0 };
Define_TL( default, 0x7A ) = { 0 };
Define_TL( default, 0x7B ) = { 0 };
Define_TL( default, 0x7C ) = { 0 };
Define_TL( default, 0x7D ) = { 0 };
Define_TL( default, 0x7E ) = { 0 };
Define_TL( default, 0x7F ) = { 0 };
Define_TL( default, 0x80 ) = { 0 };
Define_TL( default, 0x81 ) = { 0 };
Define_TL( default, 0x82 ) = { 0 };
Define_TL( default, 0x83 ) = { 0 };
Define_TL( default, 0x84 ) = { 0 };
Define_TL( default, 0x85 ) = { 0 };
Define_TL( default, 0x86 ) = { 0 };
Define_TL( default, 0x87 ) = { 0 };
Define_TL( default, 0x88 ) = { 0 };
Define_TL( default, 0x89 ) = { 0 };
Define_TL( default, 0x8A ) = { 0 };
Define_TL( default, 0x8B ) = { 0 };
Define_TL( default, 0x8C ) = { 0 };
Define_TL( default, 0x8D ) = { 0 };
Define_TL( default, 0x8E ) = { 0 };
Define_TL( default, 0x8F ) = { 0 };
Define_TL( default, 0x90 ) = { 0 };
Define_TL( default, 0x91 ) = { 0 };
Define_TL( default, 0x92 ) = { 0 };
Define_TL( default, 0x93 ) = { 0 };
Define_TL( default, 0x94 ) = { 0 };
Define_TL( default, 0x95 ) = { 0 };
Define_TL( default, 0x96 ) = { 0 };
Define_TL( default, 0x97 ) = { 0 };
Define_TL( default, 0x98 ) = { 0 };
Define_TL( default, 0x99 ) = { 0 };
Define_TL( default, 0x9A ) = { 0 };
Define_TL( default, 0x9B ) = { 0 };
Define_TL( default, 0x9C ) = { 0 };
Define_TL( default, 0x9D ) = { 0 };
Define_TL( default, 0x9E ) = { 0 };
Define_TL( default, 0x9F ) = { 0 };
Define_TL( default, 0xA0 ) = { 0 };
Define_TL( default, 0xA1 ) = { 0 };
Define_TL( default, 0xA2 ) = { 0 };
Define_TL( default, 0xA3 ) = { 0 };
Define_TL( default, 0xA4 ) = { 0 };
Define_TL( default, 0xA5 ) = { 0 };
Define_TL( default, 0xA6 ) = { 0 };
Define_TL( default, 0xA7 ) = { 0 };
Define_TL( default, 0xA8 ) = { 0 };
Define_TL( default, 0xA9 ) = { 0 };
Define_TL( default, 0xAA ) = { 0 };
Define_TL( default, 0xAB ) = { 0 };
Define_TL( default, 0xAC ) = { 0 };
Define_TL( default, 0xAD ) = { 0 };
Define_TL( default, 0xAE ) = { 0 };
Define_TL( default, 0xAF ) = { 0 };
Define_TL( default, 0xB0 ) = { 0 };
Define_TL( default, 0xB1 ) = { 0 };
Define_TL( default, 0xB2 ) = { 0 };
Define_TL( default, 0xB3 ) = { 0 };
Define_TL( default, 0xB4 ) = { 0 };
Define_TL( default, 0xB5 ) = { 0 };
Define_TL( default, 0xB6 ) = { 0 };
Define_TL( default, 0xB7 ) = { 0 };
Define_TL( default, 0xB8 ) = { 0 };
Define_TL( default, 0xB9 ) = { 0 };
Define_TL( default, 0xBA ) = { 0 };
Define_TL( default, 0xBB ) = { 0 };
Define_TL( default, 0xBC ) = { 0 };
Define_TL( default, 0xBD ) = { 0 };
Define_TL( default, 0xBE ) = { 0 };
Define_TL( default, 0xBF ) = { 0 };
Define_TL( default, 0xC0 ) = { 0 };
Define_TL( default, 0xC1 ) = { 0 };
Define_TL( default, 0xC2 ) = { 0 };
Define_TL( default, 0xC3 ) = { 0 };
Define_TL( default, 0xC4 ) = { 0 };
Define_TL( default, 0xC5 ) = { 0 };
Define_TL( default, 0xC6 ) = { 0 };
Define_TL( default, 0xC7 ) = { 0 };
Define_TL( default, 0xC8 ) = { 0 };
Define_TL( default, 0xC9 ) = { 0 };
Define_TL( default, 0xCA ) = { 0 };
Define_TL( default, 0xCB ) = { 0 };
Define_TL( default, 0xCC ) = { 0 };
Define_TL( default, 0xCD ) = { 0 };
Define_TL( default, 0xCE ) = { 0 };
Define_TL( default, 0xCF ) = { 0 };
Define_TL( default, 0xD0 ) = { 0 };
Define_TL( default, 0xD1 ) = { 0 };
Define_TL( default, 0xD2 ) = { 0 };
Define_TL( default, 0xD3 ) = { 0 };
Define_TL( default, 0xD4 ) = { 0 };
Define_TL( default, 0xD5 ) = { 0 };
Define_TL( default, 0xD6 ) = { 0 };
Define_TL( default, 0xD7 ) = { 0 };
Define_TL( default, 0xD8 ) = { 0 };
Define_TL( default, 0xD9 ) = { 0 };
Define_TL( default, 0xDA ) = { 0 };
Define_TL( default, 0xDB ) = { 0 };
Define_TL( default, 0xDC ) = { 0 };
Define_TL( default, 0xDD ) = { 0 };
Define_TL( default, 0xDE ) = { 0 };
Define_TL( default, 0xDF ) = { 0 };
Define_TL( default, 0xE0 ) = { 0 };
Define_TL( default, 0xE1 ) = { 0 };
Define_TL( default, 0xE2 ) = { 0 };
Define_TL( default, 0xE3 ) = { 0 };
Define_TL( default, 0xE4 ) = { 0 };
Define_TL( default, 0xE5 ) = { 0 };
Define_TL( default, 0xE6 ) = { 0 };
Define_TL( default, 0xE7 ) = { 0 };
Define_TL( default, 0xE8 ) = { 0 };
Define_TL( default, 0xE9 ) = { 0 };
Define_TL( default, 0xEA ) = { 0 };
Define_TL( default, 0xEB ) = { 0 };
Define_TL( default, 0xEC ) = { 0 };
Define_TL( default, 0xED ) = { 0 };
Define_TL( default, 0xEE ) = { 0 };
Define_TL( default, 0xEF ) = { 0 };
Define_TL( default, 0xF0 ) = { 0 };
Define_TL( default, 0xF1 ) = { 0 };
Define_TL( default, 0xF2 ) = { 0 };
Define_TL( default, 0xF3 ) = { 0 };
Define_TL( default, 0xF4 ) = { 0 };
Define_TL( default, 0xF5 ) = { 0 };
Define_TL( default, 0xF6 ) = { 0 };
Define_TL( default, 0xF7 ) = { 0 };
Define_TL( default, 0xF8 ) = { 0 };
Define_TL( default, 0xF9 ) = { 0 };
Define_TL( default, 0xFA ) = { 0 };
Define_TL( default, 0xFB ) = { 0 };
Define_TL( default, 0xFC ) = { 0 };
Define_TL( default, 0xFD ) = { 0 };
Define_TL( default, 0xFE ) = { 0 };
Define_TL( default, 0xFF ) = { 0 };
// myname Layer
// TODO
// myname2 Layer
// TODO
// -- ScanCode Indexed Maps
// Maps to a trigger list of macro pointers
// _
// <scan code> -> |T|
// |r| -> <trigger macro pointer 1>
// |i|
// |g| -> <trigger macro pointer 2>
// |g|
// |e| -> <trigger macro pointer 3>
// |r|
// |s| -> <trigger macro pointer n>
// -
// Default Map for ScanCode Lookup
static unsigned int *default_scanMap[] = {
default_tl_0x00, default_tl_0x01, default_tl_0x02, default_tl_0x03, default_tl_0x04, default_tl_0x05, default_tl_0x06, default_tl_0x07, default_tl_0x08, default_tl_0x09, default_tl_0x0A, default_tl_0x0B, default_tl_0x0C, default_tl_0x0D, default_tl_0x0E, default_tl_0x0F, default_tl_0x10, default_tl_0x11, default_tl_0x12, default_tl_0x13, default_tl_0x14, default_tl_0x15, default_tl_0x16, default_tl_0x17, default_tl_0x18, default_tl_0x19, default_tl_0x1A, default_tl_0x1B, default_tl_0x1C, default_tl_0x1D, default_tl_0x1E, default_tl_0x1F, default_tl_0x20, default_tl_0x21, default_tl_0x22, default_tl_0x23, default_tl_0x24, default_tl_0x25, default_tl_0x26, default_tl_0x27, default_tl_0x28, default_tl_0x29, default_tl_0x2A, default_tl_0x2B, default_tl_0x2C, default_tl_0x2D, default_tl_0x2E, default_tl_0x2F, default_tl_0x30, default_tl_0x31, default_tl_0x32, default_tl_0x33, default_tl_0x34, default_tl_0x35, default_tl_0x36, default_tl_0x37, default_tl_0x38, default_tl_0x39, default_tl_0x3A, default_tl_0x3B, default_tl_0x3C, default_tl_0x3D, default_tl_0x3E, default_tl_0x3F, default_tl_0x40, default_tl_0x41, default_tl_0x42, default_tl_0x43, default_tl_0x44, default_tl_0x45, default_tl_0x46, default_tl_0x47, default_tl_0x48, default_tl_0x49, default_tl_0x4A, default_tl_0x4B, default_tl_0x4C, default_tl_0x4D, default_tl_0x4E, default_tl_0x4F, default_tl_0x50, default_tl_0x51, default_tl_0x52, default_tl_0x53, default_tl_0x54, default_tl_0x55, default_tl_0x56, default_tl_0x57, default_tl_0x58, default_tl_0x59, default_tl_0x5A, default_tl_0x5B, default_tl_0x5C, default_tl_0x5D, default_tl_0x5E, default_tl_0x5F, default_tl_0x60, default_tl_0x61, default_tl_0x62, default_tl_0x63, default_tl_0x64, default_tl_0x65, default_tl_0x66, default_tl_0x67, default_tl_0x68, default_tl_0x69, default_tl_0x6A, default_tl_0x6B, default_tl_0x6C, default_tl_0x6D, default_tl_0x6E, default_tl_0x6F, default_tl_0x70, default_tl_0x71, default_tl_0x72, default_tl_0x73, default_tl_0x74, default_tl_0x75, default_tl_0x76, default_tl_0x77, default_tl_0x78, default_tl_0x79, default_tl_0x7A, default_tl_0x7B, default_tl_0x7C, default_tl_0x7D, default_tl_0x7E, default_tl_0x7F, default_tl_0x80, default_tl_0x81, default_tl_0x82, default_tl_0x83, default_tl_0x84, default_tl_0x85, default_tl_0x86, default_tl_0x87, default_tl_0x88, default_tl_0x89, default_tl_0x8A, default_tl_0x8B, default_tl_0x8C, default_tl_0x8D, default_tl_0x8E, default_tl_0x8F, default_tl_0x90, default_tl_0x91, default_tl_0x92, default_tl_0x93, default_tl_0x94, default_tl_0x95, default_tl_0x96, default_tl_0x97, default_tl_0x98, default_tl_0x99, default_tl_0x9A, default_tl_0x9B, default_tl_0x9C, default_tl_0x9D, default_tl_0x9E, default_tl_0x9F, default_tl_0xA0, default_tl_0xA1, default_tl_0xA2, default_tl_0xA3, default_tl_0xA4, default_tl_0xA5, default_tl_0xA6, default_tl_0xA7, default_tl_0xA8, default_tl_0xA9, default_tl_0xAA, default_tl_0xAB, default_tl_0xAC, default_tl_0xAD, default_tl_0xAE, default_tl_0xAF, default_tl_0xB0, default_tl_0xB1, default_tl_0xB2, default_tl_0xB3, default_tl_0xB4, default_tl_0xB5, default_tl_0xB6, default_tl_0xB7, default_tl_0xB8, default_tl_0xB9, default_tl_0xBA, default_tl_0xBB, default_tl_0xBC, default_tl_0xBD, default_tl_0xBE, default_tl_0xBF, default_tl_0xC0, default_tl_0xC1, default_tl_0xC2, default_tl_0xC3, default_tl_0xC4, default_tl_0xC5, default_tl_0xC6, default_tl_0xC7, default_tl_0xC8, default_tl_0xC9, default_tl_0xCA, default_tl_0xCB, default_tl_0xCC, default_tl_0xCD, default_tl_0xCE, default_tl_0xCF, default_tl_0xD0, default_tl_0xD1, default_tl_0xD2, default_tl_0xD3, default_tl_0xD4, default_tl_0xD5, default_tl_0xD6, default_tl_0xD7, default_tl_0xD8, default_tl_0xD9, default_tl_0xDA, default_tl_0xDB, default_tl_0xDC, default_tl_0xDD, default_tl_0xDE, default_tl_0xDF, default_tl_0xE0, default_tl_0xE1, default_tl_0xE2, default_tl_0xE3, default_tl_0xE4, default_tl_0xE5, default_tl_0xE6, default_tl_0xE7, default_tl_0xE8, default_tl_0xE9, default_tl_0xEA, default_tl_0xEB, default_tl_0xEC, default_tl_0xED, default_tl_0xEE, default_tl_0xEF, default_tl_0xF0, default_tl_0xF1, default_tl_0xF2, default_tl_0xF3, default_tl_0xF4, default_tl_0xF5, default_tl_0xF6, default_tl_0xF7, default_tl_0xF8, default_tl_0xF9, default_tl_0xFA, default_tl_0xFB, default_tl_0xFC, default_tl_0xFD, default_tl_0xFE, default_tl_0xFF,
};
// Layer <name> for ScanCode Lookup
static unsigned int myname_scanMap[] = {
};
// Layer <name> for ScanCode Lookup
static unsigned int myname2_scanMap[] = {
};
// ----- Result Maps -----
#endif // __generatedKeymap_h

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@ -1,22 +1,17 @@
/* Copyright (C) 2014 by Jacob Alexander /* Copyright (C) 2014 by Jacob Alexander
* *
* Permission is hereby granted, free of charge, to any person obtaining a copy * This file is free software: you can redistribute it and/or modify
* of this software and associated documentation files (the "Software"), to deal * it under the terms of the GNU General Public License as published by
* in the Software without restriction, including without limitation the rights * the Free Software Foundation, either version 3 of the License, or
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * (at your option) any later version.
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
* *
* The above copyright notice and this permission notice shall be included in * This file is distributed in the hope that it will be useful,
* all copies or substantial portions of the Software. * 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.
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * You should have received a copy of the GNU General Public License
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * along with this file. If not, see <http://www.gnu.org/licenses/>.
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/ */
// ----- Includes ----- // ----- Includes -----
@ -34,6 +29,7 @@
// Keymaps // Keymaps
#include "usb_hid.h" #include "usb_hid.h"
#include <defaultMap.h> #include <defaultMap.h>
#include "generatedKeymap.h" // TODO Use actual generated version
// Local Includes // Local Includes
#include "macro.h" #include "macro.h"
@ -69,43 +65,114 @@ CLIDictItem macroCLIDict[] = {
// Macro debug flag - If set, clears the USB Buffers after signalling processing completion // Macro debug flag - If set, clears the USB Buffers after signalling processing completion
uint8_t macroDebugMode = 0; uint8_t macroDebugMode = 0;
// Key Trigger List Buffer
// * Item 1: scan code
// * Item 2: state
// ...
uint8_t macroTriggerListBuffer[0xFF * 2] = { 0 }; // Each key has a state to be cached (this can be decreased to save RAM)
uint8_t macroTriggerListBufferSize = 0;
// TODO, figure out a good way to scale this array size without wasting too much memory, but not rejecting macros
// Possibly could be calculated by the KLL compiler
TriggerMacro *triggerMacroPendingList[30];
// ----- Functions ----- // ----- Functions -----
// Looks up the start of the function ptr list for the active layer, by scan code // Looks up the trigger list for the given scan code (from the active layer)
inline void *Macro_layerLookup( uint8_t scanCode ) unsigned int *Macro_layerLookup( uint8_t scanCode )
{
// TODO - No layer fallthrough lookup
return default_scanMap[ scanCode ];
}
// Update the scancode key state
// States:
// * 0x00 - Reserved
// * 0x01 - Pressed
// * 0x02 - Held
// * 0x03 - Released
// * 0x04 - Unpressed (this is currently ignored)
inline void Macro_keyState( uint8_t scanCode, uint8_t state )
{
// Only add to macro trigger list if one of three states
switch ( state )
{
case 0x01: // Pressed
case 0x02: // Held
case 0x03: // Released
macroTriggerListBuffer[ macroTriggerListBufferSize++ ] = scanCode;
macroTriggerListBuffer[ macroTriggerListBufferSize++ ] = state;
break;
}
}
// Update the scancode analog state
// States:
// * 0x00 - Reserved
// * 0x01 - Released
// * 0x02-0xFF - Analog value (low to high)
inline void Macro_analogState( uint8_t scanCode, uint8_t state )
{ {
// TODO // TODO
return 0;
} }
// Called for each key from the Scan Module for one of three cases: // Update led state
// 1. Key is pressed (PRESSED) // States:
// 2. Key is being held down (HELD) // * 0x00 - Reserved
// 3. Key is released (RELEASED) // * 0x01 - On
// If Scan Module is for an analog sense keyboard, do not use the defined keystates // * 0x02 - Off
// This function should not be called if not pressed (depressed) or at 0% inline void Macro_ledState( uint8_t ledCode, uint8_t state )
inline void Macro_keyUpdate( uint8_t scanCode, uint8_t state )
{ {
// Do layer lookup to find which capabilities to map // TODO
void *capabilities = Macro_layerLookup( scanCode );
} }
// Evaluate/Update the TriggerMacro
void Macro_evalTriggerMacro( TriggerMacro *triggerMacro )
{
// Which combo in the sequence is being evaluated
unsigned int comboPos = triggerMacro->pos;
// If combo length is more than 1, cancel trigger macro if an incorrect key is found
uint8_t comboLength = triggerMacro->guide[ comboPos ];
// Iterate over list of keys currently pressed
for ( uint8_t keyPressed = 0; keyPressed < macroTriggerListBufferSize; keyPressed += 2 )
{
// Compare with keys in combo
for ( unsigned int comboKey = 0; comboKey < comboLength; comboKey++ )
{
// Lookup key in combo
uint8_t guideKey = triggerMacro->guide[ comboPos + comboKey + 2 ]; // TODO Only Press/Hold/Release atm
// Sequence Case
if ( comboLength == 1 )
{
// If key matches and only 1 key pressed, increment the TriggerMacro combo position
if ( guideKey == macroTriggerListBuffer[ keyPressed ] && macroTriggerListBufferSize == 1 )
{
triggerMacro->pos += comboLength * 2 + 1;
// TODO check if TriggerMacro is finished, register ResultMacro
return;
}
// If key does not match or more than 1 key pressed, reset the TriggerMacro combo position
triggerMacro->pos = 0;
return;
}
// Combo Case
else
{
// TODO
}
}
}
}
@ -166,6 +233,37 @@ inline void Macro_process()
if ( USBKeys_Sent != 0 ) if ( USBKeys_Sent != 0 )
return; return;
// Loop through macro trigger buffer
for ( uint8_t index = 0; index < macroTriggerListBufferSize; index += 2 )
{
// Get scanCode, first item of macroTriggerListBuffer pairs
uint8_t scanCode = macroTriggerListBuffer[ index ];
// Lookup trigger list for this key
unsigned int *triggerList = Macro_layerLookup( scanCode );
// The first element is the length of the trigger list
unsigned int triggerListSize = triggerList[0];
// Loop through the trigger list
for ( unsigned int trigger = 0; trigger < triggerListSize; trigger++ )
{
// Lookup TriggerMacro
TriggerMacro *triggerMacro = (TriggerMacro*)triggerList[ trigger + 1 ];
// Get triggered state of scan code, second item of macroTriggerListBuffer pairs
uint8_t state = macroTriggerListBuffer[ index + 1 ];
// Evaluate Macro
Macro_evalTriggerMacro( triggerMacro );
}
}
/* TODO
// Loop through input buffer // Loop through input buffer
for ( uint8_t index = 0; index < KeyIndex_BufferUsed && !macroDebugMode; index++ ) for ( uint8_t index = 0; index < KeyIndex_BufferUsed && !macroDebugMode; index++ )
{ {
@ -204,6 +302,7 @@ inline void Macro_process()
errorLED( 1 ); errorLED( 1 );
} }
} }
*/
// Signal buffer that we've used it // Signal buffer that we've used it
Scan_finishedWithBuffer( KeyIndex_BufferUsed ); Scan_finishedWithBuffer( KeyIndex_BufferUsed );
@ -223,6 +322,9 @@ inline void Macro_setup()
// Disable Macro debug mode // Disable Macro debug mode
macroDebugMode = 0; macroDebugMode = 0;
// Make sure macro trigger buffer is empty
macroTriggerListBufferSize = 0;
} }

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@ -48,6 +48,9 @@
// ----- Functions ----- // ----- Functions -----
void Macro_keyState( uint8_t scanCode, uint8_t state );
void Macro_analogState( uint8_t scanCode, uint8_t state );
void Macro_ledState( uint8_t ledCode, uint8_t state );
void Macro_bufferAdd( uint8_t byte ); void Macro_bufferAdd( uint8_t byte );
void Macro_bufferRemove( uint8_t byte ); void Macro_bufferRemove( uint8_t byte );
void Macro_finishWithUSBBuffer( uint8_t sentKeys ); void Macro_finishWithUSBBuffer( uint8_t sentKeys );

View File

@ -803,10 +803,13 @@ void testColumn( uint8_t strobe )
print(" "); print(" ");
} }
// Only add the key to the buffer once // Initial Keypress
// NOTE: Buffer can easily handle multiple adds, just more efficient Macro_keyState( key, 0x01 );
// and nicer debug messages :P }
Macro_bufferAdd( key ); else if ( keys_debounce[key] >= DEBOUNCE_THRESHOLD )
{
// Held Key
Macro_keyState( key, 0x02 );
} }
keys_debounce[key]++; keys_debounce[key]++;
@ -840,10 +843,10 @@ void testColumn( uint8_t strobe )
// Clear debounce entry if no keypress detected // Clear debounce entry if no keypress detected
else else
{ {
// If the key was previously pressed, remove from the buffer // Release Key
if ( KeyIndex_BufferUsed > 0 && keys_debounce[key] >= DEBOUNCE_THRESHOLD ) if ( KeyIndex_BufferUsed > 0 && keys_debounce[key] >= DEBOUNCE_THRESHOLD )
{ {
Macro_bufferRemove( key ); Macro_keyState( key, 0x03 );
} }
// Clear debounce entry // Clear debounce entry