diff options
Diffstat (limited to 'tmk_core/protocol/arm_atsam/md_rgb_matrix.h')
-rw-r--r-- | tmk_core/protocol/arm_atsam/md_rgb_matrix.h | 142 |
1 files changed, 71 insertions, 71 deletions
diff --git a/tmk_core/protocol/arm_atsam/md_rgb_matrix.h b/tmk_core/protocol/arm_atsam/md_rgb_matrix.h index deea12b888..f27da028a0 100644 --- a/tmk_core/protocol/arm_atsam/md_rgb_matrix.h +++ b/tmk_core/protocol/arm_atsam/md_rgb_matrix.h @@ -31,10 +31,10 @@ along with this program. If not, see <http://www.gnu.org/licenses/>. #define ISSI3733_SW_COUNT 12 #define ISSI3733_LED_RGB_COUNT ISSI3733_CS_COUNT *ISSI3733_SW_COUNT -#define ISSI3733_PG0_BYTES ISSI3733_LED_RGB_COUNT / 8 + 1 //+1 for first byte being memory start offset for I2C transfer -#define ISSI3733_PG1_BYTES ISSI3733_LED_RGB_COUNT + 1 //+1 for first byte being memory start offset for I2C transfer -#define ISSI3733_PG2_BYTES ISSI3733_LED_RGB_COUNT + 1 //+1 for first byte being memory start offset for I2C transfer -#define ISSI3733_PG3_BYTES 18 + 1 //+1 for first byte being memory start offset for I2C transfer +#define ISSI3733_PG0_BYTES ISSI3733_LED_RGB_COUNT / 8 + 1 //+1 for first byte being memory start offset for I2C transfer +#define ISSI3733_PG1_BYTES ISSI3733_LED_RGB_COUNT + 1 //+1 for first byte being memory start offset for I2C transfer +#define ISSI3733_PG2_BYTES ISSI3733_LED_RGB_COUNT + 1 //+1 for first byte being memory start offset for I2C transfer +#define ISSI3733_PG3_BYTES 18 + 1 //+1 for first byte being memory start offset for I2C transfer #define ISSI3733_PG_ONOFF_BYTES ISSI3733_PG0_BYTES #define ISSI3733_PG_OR_BYTES ISSI3733_PG0_BYTES @@ -44,38 +44,38 @@ along with this program. If not, see <http://www.gnu.org/licenses/>. #define ISSI3733_PG_FN_BYTES ISSI3733_PG3_BYTES typedef struct issi3733_driver_s { - uint8_t addr; // Address of the driver according to wiring "ISSI3733: Table 1 Slave Address" - uint8_t onoff[ISSI3733_PG_ONOFF_BYTES]; // PG0 - LED Control Register - LED On/Off Register - uint8_t open[ISSI3733_PG_OR_BYTES]; // PG0 - LED Control Register - LED Open Register - uint8_t shrt[ISSI3733_PG_SR_BYTES]; // PG0 - LED Control Register - LED Short Register - uint8_t pwm[ISSI3733_PG_PWM_BYTES]; // PG1 - PWM Register - uint8_t abm[ISSI3733_PG_ABM_BYTES]; // PG2 - Auto Breath Mode Register - uint8_t conf[ISSI3733_PG_FN_BYTES]; // PG3 - Function Register + uint8_t addr; // Address of the driver according to wiring "ISSI3733: Table 1 Slave Address" + uint8_t onoff[ISSI3733_PG_ONOFF_BYTES]; // PG0 - LED Control Register - LED On/Off Register + uint8_t open[ISSI3733_PG_OR_BYTES]; // PG0 - LED Control Register - LED Open Register + uint8_t shrt[ISSI3733_PG_SR_BYTES]; // PG0 - LED Control Register - LED Short Register + uint8_t pwm[ISSI3733_PG_PWM_BYTES]; // PG1 - PWM Register + uint8_t abm[ISSI3733_PG_ABM_BYTES]; // PG2 - Auto Breath Mode Register + uint8_t conf[ISSI3733_PG_FN_BYTES]; // PG3 - Function Register } issi3733_driver_t; typedef struct issi3733_rgb_s { - uint8_t *r; // Direct access into PWM data - uint8_t *g; // Direct access into PWM data - uint8_t *b; // Direct access into PWM data + uint8_t *r; // Direct access into PWM data + uint8_t *g; // Direct access into PWM data + uint8_t *b; // Direct access into PWM data } issi3733_rgb_t; typedef struct issi3733_rgb_adr_s { - uint8_t drv; // Driver from given list - uint8_t cs; // CS - uint8_t swr; // SW Red - uint8_t swg; // SW Green - uint8_t swb; // SW Blue + uint8_t drv; // Driver from given list + uint8_t cs; // CS + uint8_t swr; // SW Red + uint8_t swg; // SW Green + uint8_t swb; // SW Blue } issi3733_rgb_adr_t; typedef struct issi3733_led_s { - uint8_t id; // According to PCB ref - issi3733_rgb_t rgb; // PWM settings of R G B - issi3733_rgb_adr_t adr; // Hardware addresses - float x; // Physical position X - float y; // Physical position Y - float px; // Physical position X in percent - float py; // Physical position Y in percent - uint8_t scan; // Key scan code from wiring (set 0xFF if no key) + uint8_t id; // According to PCB ref + issi3733_rgb_t rgb; // PWM settings of R G B + issi3733_rgb_adr_t adr; // Hardware addresses + float x; // Physical position X + float y; // Physical position Y + float px; // Physical position X in percent + float py; // Physical position Y in percent + uint8_t scan; // Key scan code from wiring (set 0xFF if no key) } issi3733_led_t; extern issi3733_driver_t issidrv[ISSI3733_DRIVER_COUNT]; @@ -92,44 +92,44 @@ void md_rgb_matrix_indicators_advanced(uint8_t led_min, uint8_t led_max); #ifdef USE_MASSDROP_CONFIGURATOR -# define EF_NONE 0x00000000 // No effect -# define EF_OVER 0x00000001 // Overwrite any previous color information with new -# define EF_SCR_L 0x00000002 // Scroll left -# define EF_SCR_R 0x00000004 // Scroll right -# define EF_SUBTRACT 0x00000008 // Subtract color values +# define EF_NONE 0x00000000 // No effect +# define EF_OVER 0x00000001 // Overwrite any previous color information with new +# define EF_SCR_L 0x00000002 // Scroll left +# define EF_SCR_R 0x00000004 // Scroll right +# define EF_SUBTRACT 0x00000008 // Subtract color values typedef struct led_setup_s { - float hs; // Band begin at percent - float he; // Band end at percent - uint8_t rs; // Red start value - uint8_t re; // Red end value - uint8_t gs; // Green start value - uint8_t ge; // Green end value - uint8_t bs; // Blue start value - uint8_t be; // Blue end value - uint32_t ef; // Animation and color effects - uint8_t end; // Set to signal end of the setup + float hs; // Band begin at percent + float he; // Band end at percent + uint8_t rs; // Red start value + uint8_t re; // Red end value + uint8_t gs; // Green start value + uint8_t ge; // Green end value + uint8_t bs; // Blue start value + uint8_t be; // Blue end value + uint32_t ef; // Animation and color effects + uint8_t end; // Set to signal end of the setup } led_setup_t; extern const uint8_t led_setups_count; extern void * led_setups[]; // LED Extra Instructions -# define LED_FLAG_NULL 0x00 // Matching and coloring not used (default) -# define LED_FLAG_MATCH_ID 0x01 // Match on the ID of the LED (set id#'s to desired bit pattern, first LED is id 1) -# define LED_FLAG_MATCH_LAYER 0x02 // Match on the current active layer (set layer to desired match layer) -# define LED_FLAG_USE_RGB 0x10 // Use a specific RGB value (set r, g, b to desired output color values) -# define LED_FLAG_USE_PATTERN 0x20 // Use a specific pattern ID (set pattern_id to desired output pattern) -# define LED_FLAG_USE_ROTATE_PATTERN 0x40 // Use pattern the user has cycled to manually +# define LED_FLAG_NULL 0x00 // Matching and coloring not used (default) +# define LED_FLAG_MATCH_ID 0x01 // Match on the ID of the LED (set id#'s to desired bit pattern, first LED is id 1) +# define LED_FLAG_MATCH_LAYER 0x02 // Match on the current active layer (set layer to desired match layer) +# define LED_FLAG_USE_RGB 0x10 // Use a specific RGB value (set r, g, b to desired output color values) +# define LED_FLAG_USE_PATTERN 0x20 // Use a specific pattern ID (set pattern_id to desired output pattern) +# define LED_FLAG_USE_ROTATE_PATTERN 0x40 // Use pattern the user has cycled to manually typedef struct led_instruction_s { - uint16_t flags; // Bitfield for LED instructions - uint32_t id0; // Bitwise id, IDs 0-31 - uint32_t id1; // Bitwise id, IDs 32-63 - uint32_t id2; // Bitwise id, IDs 64-95 - uint32_t id3; // Bitwise id, IDs 96-127 - uint32_t id4; // Bitwise id, IDs 128-159 - uint32_t id5; // Bitwise id, IDs 160-191 + uint16_t flags; // Bitfield for LED instructions + uint32_t id0; // Bitwise id, IDs 0-31 + uint32_t id1; // Bitwise id, IDs 32-63 + uint32_t id2; // Bitwise id, IDs 64-95 + uint32_t id3; // Bitwise id, IDs 96-127 + uint32_t id4; // Bitwise id, IDs 128-159 + uint32_t id5; // Bitwise id, IDs 160-191 uint8_t layer; uint8_t r; uint8_t g; @@ -141,7 +141,7 @@ typedef struct led_instruction_s { extern led_instruction_t led_instructions[]; typedef struct led_config_s { - uint8_t ver; // assumed to be zero on eeprom reset + uint8_t ver; // assumed to be zero on eeprom reset uint8_t desired_gcr; uint8_t animation_breathing; @@ -178,27 +178,27 @@ void md_led_changed(void); # define led_ratio_brightness md_led_config.ratio_brightness # define led_edge_mode md_led_config.edge_mode -# define LED_MODE_NORMAL 0 // Must be 0 +# define LED_MODE_NORMAL 0 // Must be 0 # define LED_MODE_KEYS_ONLY 1 # define LED_MODE_NON_KEYS_ONLY 2 # define LED_MODE_INDICATORS_ONLY 3 -# define LED_MODE_MAX_INDEX LED_MODE_INDICATORS_ONLY // Must be highest value +# define LED_MODE_MAX_INDEX LED_MODE_INDICATORS_ONLY // Must be highest value -# define LED_EDGE_MODE_ALL 0 // All edge LEDs are active (Must be 0) -# define LED_EDGE_MODE_ALTERNATE 1 // Alternate mode of edge LEDs are active (Intention is for 'only every other edge LED' to be active) -# define LED_EDGE_MODE_MAX LED_EDGE_MODE_ALTERNATE // Must be the highest valued LED edge mode +# define LED_EDGE_MODE_ALL 0 // All edge LEDs are active (Must be 0) +# define LED_EDGE_MODE_ALTERNATE 1 // Alternate mode of edge LEDs are active (Intention is for 'only every other edge LED' to be active) +# define LED_EDGE_MODE_MAX LED_EDGE_MODE_ALTERNATE // Must be the highest valued LED edge mode -# define LED_EDGE_FULL_MODE 255 // LEDs configured with this scan code will always be on for edge lighting modes -# define LED_EDGE_ALT_MODE 254 // LEDs configured with this scan code will turn off in edge alternating mode -# define LED_EDGE_MIN_SCAN 254 // LEDs configured with scan code >= to this are assigned as edge LEDs -# define LED_INDICATOR_SCAN 253 // LEDs configured as dedicated indicators +# define LED_EDGE_FULL_MODE 255 // LEDs configured with this scan code will always be on for edge lighting modes +# define LED_EDGE_ALT_MODE 254 // LEDs configured with this scan code will turn off in edge alternating mode +# define LED_EDGE_MIN_SCAN 254 // LEDs configured with scan code >= to this are assigned as edge LEDs +# define LED_INDICATOR_SCAN 253 // LEDs configured as dedicated indicators -# define LED_IS_KEY(scan) (scan < LED_INDICATOR_SCAN) // Return true if an LED's scan value indicates it is a key LED -# define LED_IS_EDGE(scan) (scan >= LED_EDGE_MIN_SCAN) // Return true if an LED's scan value indicates an edge LED -# define LED_IS_EDGE_ALT(scan) (scan == LED_EDGE_ALT_MODE) // Return true if an LED's scan value indicates an alternate edge mode LED -# define LED_IS_INDICATOR(scan) (scan == LED_INDICATOR_SCAN) // Return true if an LED's scan value indicates it is a dedicated Indicator +# define LED_IS_KEY(scan) (scan < LED_INDICATOR_SCAN) // Return true if an LED's scan value indicates it is a key LED +# define LED_IS_EDGE(scan) (scan >= LED_EDGE_MIN_SCAN) // Return true if an LED's scan value indicates an edge LED +# define LED_IS_EDGE_ALT(scan) (scan == LED_EDGE_ALT_MODE) // Return true if an LED's scan value indicates an alternate edge mode LED +# define LED_IS_INDICATOR(scan) (scan == LED_INDICATOR_SCAN) // Return true if an LED's scan value indicates it is a dedicated Indicator #else extern uint8_t gcr_desired; -#endif // USE_MASSDROP_CONFIGURATOR +#endif // USE_MASSDROP_CONFIGURATOR -#endif //_LED_MATRIX_H_ +#endif //_LED_MATRIX_H_ |