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rgb.h
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rgb.h
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/*
rgb.h - typedefs, API structure and helper functions for RGB lights and LED strips
Part of grblHAL
Copyright (c) 2024 Terje Io
grblHAL 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.
grblHAL 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 grblHAL. If not, see <http://www.gnu.org/licenses/>.
*/
typedef union {
uint8_t value;
uint8_t mask;
struct {
uint8_t B :1,
G :1,
R :1,
W :1,
unused :4;
};
} rgb_color_mask_t;
typedef union {
uint32_t value;
struct {
uint8_t B; //!< Blue
uint8_t G; //!< Green
uint8_t R; //!< Red
uint8_t W; //!< White
};
} rgb_color_t;
/*! \brief Pointer to function for setting RGB (LED) output.
\param color a \a rgb_color_t union.
*/
typedef void (*rgb_set_color_ptr)(uint16_t device, rgb_color_t color);
/*! \brief Pointer to function for setting RGB (LED) output, with mask for which LEDs to change.
\param color a \a rgb_color_t union.
\param mask a \a rgb_color_mask_t union.
*/
typedef void (*rgb_set_color_masked_ptr)(uint16_t device, rgb_color_t color, rgb_color_mask_t mask);
/*! \brief Pointer to function for setting RGB (LED) intensity.
\param intensity in the range 0 - 255.
\returns previuous intensity.
*/
typedef uint8_t (*rgb_set_intensity_ptr)(uint8_t intensity);
/*! \brief Pointer to function for outputting RGB (LED) data to Neopixel strip.
*/
typedef void (*rgb_write_ptr)(void);
typedef struct {
rgb_set_color_ptr out; //!< Optional handler for setting device (LED) color.
rgb_set_color_masked_ptr out_masked; //!< Optional handler for setting device (LED) color, with mask for which LEDs to change.
rgb_write_ptr write; //!< Optional handler for outputting data to Neopixel strip.
rgb_set_intensity_ptr set_intensity; //!< Optional handler for setting intensity, range 0 - 255.
rgb_color_t cap; //!< Driver capability, color value: 0 - not available, 1 - on off, > 1 - intensity range 0 - n.
uint16_t num_devices; //!< Number of devices (LEDs) available.
} rgb_ptr_t;
// helper structure and functions, not used by the core
typedef struct {
uint16_t num_leds;
uint16_t num_bytes;
uint8_t *leds;
uint8_t intensity;
} neopixel_cfg_t;
static inline bool rgb_is_neopixels (rgb_ptr_t *device)
{
return device->out != NULL && device->cap.R > 126 && device->cap.G > 126 && device->cap.B > 126;
}
static inline bool rgb_is_onoff (rgb_ptr_t *device)
{
return device->out != NULL && device->cap.R == 1 && device->cap.G == 1 && device->cap.B == 1;
}
// Intensity conversions
static inline rgb_color_t rgb_set_intensity (rgb_color_t color, uint8_t intensity)
{
color.R = (uint8_t)(((color.R + 1) * intensity) >> 8);
color.G = (uint8_t)(((color.G + 1) * intensity) >> 8);
color.B = (uint8_t)(((color.B + 1) * intensity) >> 8);
return color;
}
static inline rgb_color_t rgb_reset_intensity (rgb_color_t color, uint8_t intensity)
{
color.R = (uint8_t)((color.R << 8) / (intensity + 1));
color.G = (uint8_t)((color.G << 8) / (intensity + 1));
color.B = (uint8_t)((color.B << 8) / (intensity + 1));
return color;
}
// RGB to/from 3 bytes per pixel packed format
static inline void rgb_3bpp_pack (uint8_t *led, rgb_color_t color, rgb_color_mask_t mask, uint8_t intensity)
{
uint32_t R = 0, G = 0, B = 0;
uint8_t bitmask = 0b10000000;
color = rgb_set_intensity(color, intensity);
do {
R <<= 3;
R |= color.R & bitmask ? 0b110 : 0b100;
G <<= 3;
G |= color.G & bitmask ? 0b110 : 0b100;
B <<= 3;
B |= color.B & bitmask ? 0b110 : 0b100;
} while(bitmask >>= 1);
if(mask.G) {
*led++ = (uint8_t)(G >> 16);
*led++ = (uint8_t)(G >> 8);
*led++ = (uint8_t)G;
} else
led += 3;
if(mask.R) {
*led++ = (uint8_t)(R >> 16);
*led++ = (uint8_t)(R >> 8);
*led++ = (uint8_t)R;
} else
led += 3;
if(mask.B) {
*led++ = (uint8_t)(B >> 16);
*led++ = (uint8_t)(B >> 8);
*led = (uint8_t)B;
}
}
static inline rgb_color_t rgb_3bpp_unpack (uint8_t *led, uint8_t intensity)
{
rgb_color_t color = {0};
if(intensity) {
uint32_t R = 0, G = 0, B = 0;
uint8_t bitmask = 0b00000001;
G = *led++ << 16;
G |= *led++ << 8;
G |= *led++;
R = *led++ << 16;
R |= *led++ << 8;
R |= *led++;
B = *led++ << 16;
B |= *led++ << 8;
B |= *led;
do {
if((R & 0b110) == 0b110)
color.R |= bitmask;
R >>= 3;
if((G & 0b110) == 0b110)
color.G |= bitmask;
G >>= 3;
if((B & 0b110) == 0b110)
color.B |= bitmask;
B >>= 3;
} while(bitmask <<= 1);
color = rgb_reset_intensity(color, intensity);
}
return color;
}
// RGB to/from 1 byte per pixel packed format
static inline void rgb_1bpp_assign (uint8_t *led, rgb_color_t color, rgb_color_mask_t mask)
{
if(mask.G)
*led++ = color.G;
else
led++;
if(mask.R)
*led++ = color.R;
else
led++;
if(mask.B)
*led = color.B;
}
static inline void rgb_1bpp_pack (uint8_t *led, rgb_color_t color, rgb_color_mask_t mask, uint8_t intensity)
{
color = rgb_set_intensity(color, intensity);
rgb_1bpp_assign(led, color, mask);
}
static inline rgb_color_t rgb_1bpp_unpack (uint8_t *led, uint8_t intensity)
{
rgb_color_t color = {0};
if(intensity) {
color.G = *led++;
color.R = *led++;
color.B = *led;
color = rgb_reset_intensity(color, intensity);
}
return color;
}
//