forked from forks/qmk_firmware
1b8cb95f2e
* Basic functionality to synchronize the strings and enums using C preprocessor macros. * Updated all the custom convenience macros to work. * Removed some duplicate update_tri_layer calls. * Simplified the convenience accelerator macros for synchronizing enums and strings by removing the short enum names. * Updated the CUSTOM_MACROS macro to use SS_LCTL instead of SS_LCTRL. * Fixed a bug where the right side of the convenience layer in the Iris keymap was incorrectly listed twice. * Removed the tenkey from the convenience layer. Added Windows 10 virtual desktop shortcuts to the convenience layer. * Fixed a bug where the macro range was not set correctly. * Added sigil values for the keycode enum so that additions to the sync macros will not require changes to the process_record_user ranges. * Hacked send_string_P to work with ChibiOS boards. * Switched to using I2C for the Iris keyboard. * Finished a comment. * Updated comments to explain that for non-AVR MCUs, the PROGMEM macro doesn't do anything. * Updated the synchronization macros to use the more descriptive "NAME" instead of "CALL". Moved the Control-Alt-Delete chord macro to the synchronization macro. * Simplified the custom macros by consolidating the macros into a context change macro instead of using alt-tab and minimize macros. * Fixed a formatting issue where several tabs were used instead of 4 spaces. * Added more comments to explain the synchronization macros. * Simplified the PARAMS macro, since any parameters could be passed with a space by the declarer instead. * Consolidated the synchronization macros into a single list. Simplified the synchronization mechanism. * Removed the overloading macro, since it is no longer needed. * Updated the convenience layer comments to reflect the changes made. * Renamed the git_macros pointer table to custom_macros, since it no longer solely consists of git macros. * Clarified that the send_string_P function's use of pgm_read_byte is different for AVR and non-AVR compilation targets.
54 lines
2 KiB
C
54 lines
2 KiB
C
#include "csc027.h"
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// Declare the strings in PROGMEM using the convenience macro
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CUSTOM_MACROS(CUSTOM_DEF, CUSTOM_MACRO_STRING, SEMI_DELIM);
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static const char* const custom_macros[] PROGMEM = {
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// Declare the pointer to the strings in PROGMEM
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CUSTOM_MACROS(CUSTOM_VAR, DROP, COMMA_DELIM)
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};
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bool process_record_user(uint16_t keycode, keyrecord_t *record) {
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switch(keycode) {
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case LOWER:
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if(record->event.pressed) {
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layer_on(_LW);
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} else {
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layer_off(_LW);
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}
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update_tri_layer(_LW, _RS, _MS);
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return false;
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case RAISE:
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if(record->event.pressed) {
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layer_on(_RS);
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} else {
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layer_off(_RS);
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}
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update_tri_layer(_LW, _RS, _MS);
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return false;
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case (MC_first + 1)...(MC_last - 1):
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if(record->event.pressed) {
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send_string_P(
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#if defined(__AVR__)
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// The accessor here first reads from the pointer array that is located
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// in PROGMEM. The pointer is taken and passed to the send_string_P
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// function, which is aware of the difference between RAM and PROGMEM
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// pointers.
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(char*)pgm_read_word(&custom_macros[keycode - MC_first - 1])
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#else
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// For non-AVR MCUs, the PROGMEM macro is defined as nothing. So, the strings are
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// declared in RAM instead of flash. The send_string_P function, when compiled for
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// non-AVR targets, uses a different definition of pgm_read_byte internally. This
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// definition uses RAM pointers instead. This is why the raw pointer is passed for
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// non-AVR MCUs.
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custom_macros[keycode - MC_first - 1]
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#endif
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);
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return true;
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}
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return false;
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default:
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return true;
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}
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}
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