diff --git a/projects/rgb_stuff/anim_rainbow/Makefile b/projects/rgb_anim_rainbow/Makefile similarity index 100% rename from projects/rgb_stuff/anim_rainbow/Makefile rename to projects/rgb_anim_rainbow/Makefile diff --git a/projects/rgb_stuff/anim_rainbow/lib/arduino_pins.h b/projects/rgb_anim_rainbow/lib/arduino_pins.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/arduino_pins.h rename to projects/rgb_anim_rainbow/lib/arduino_pins.h diff --git a/projects/rgb_stuff/anim_rainbow/lib/calc.h b/projects/rgb_anim_rainbow/lib/calc.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/calc.h rename to projects/rgb_anim_rainbow/lib/calc.h diff --git a/projects/rgb_stuff/anim_rainbow/lib/colors.h b/projects/rgb_anim_rainbow/lib/colors.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/colors.h rename to projects/rgb_anim_rainbow/lib/colors.h diff --git a/projects/rgb_stuff/anim_rainbow/lib/meta.h b/projects/rgb_anim_rainbow/lib/meta.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/meta.h rename to projects/rgb_anim_rainbow/lib/meta.h diff --git a/projects/rgb_stuff/anim_rainbow/lib/nsdelay.h b/projects/rgb_anim_rainbow/lib/nsdelay.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/nsdelay.h rename to projects/rgb_anim_rainbow/lib/nsdelay.h diff --git a/projects/rgb_stuff/anim_rainbow/lib/pins.h b/projects/rgb_anim_rainbow/lib/pins.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/pins.h rename to projects/rgb_anim_rainbow/lib/pins.h diff --git a/projects/rgb_stuff/anim_rainbow/lib/ws2812.h b/projects/rgb_anim_rainbow/lib/ws2812.h similarity index 100% rename from projects/rgb_stuff/anim_rainbow/lib/ws2812.h rename to projects/rgb_anim_rainbow/lib/ws2812.h diff --git a/projects/rgb_stuff/anim_rainbow/main.c b/projects/rgb_anim_rainbow/main.c similarity index 100% rename from projects/rgb_stuff/anim_rainbow/main.c rename to projects/rgb_anim_rainbow/main.c diff --git a/projects/rgb_random_hsl/Makefile b/projects/rgb_random_hsl/Makefile new file mode 100644 index 0000000..7dfd065 --- /dev/null +++ b/projects/rgb_random_hsl/Makefile @@ -0,0 +1,169 @@ + +MCU = atmega328p + +F_CPU = 16000000 + +LFUSE = 0xFF +HFUSE = 0xDE +EFUSE = 0x05 + +MAIN = main.c + +## If you've split your program into multiple files, +## include the additional .c source (in same directory) here +## (and include the .h files in your foo.c) +LOCAL_SOURCE = + +## Here you can link to one more directory (and multiple .c files) +# EXTRA_SOURCE_DIR = ../AVR-Programming-Library/ +EXTRA_SOURCE_DIR = lib/ +EXTRA_SOURCE_FILES = colors.c adc.c hsl.h + +EXTRA_FLAGS = -DHSL_LINEAR=1 + + + +##########------------------------------------------------------########## +########## Programmer Defaults ########## +########## Set up once, then forget about it ########## +########## (Can override. See bottom of file.) ########## +##########------------------------------------------------------########## +#19200 +PROGRAMMER_TYPE = arduino +PROGRAMMER_ARGS = -b 57600 -P /dev/ttyUSB0 + + +##########------------------------------------------------------########## +########## Makefile Magic! ########## +########## Summary: ########## +########## We want a .hex file ########## +########## Compile source files into .elf ########## +########## Convert .elf file into .hex ########## +########## You shouldn't need to edit below. ########## +##########------------------------------------------------------########## + +## Defined programs / locations +CC = avr-gcc +OBJCOPY = avr-objcopy +OBJDUMP = avr-objdump +AVRSIZE = avr-size +AVRDUDE = avrdude + +## Compilation options, type man avr-gcc if you're curious. +CFLAGS = -std=gnu99 -mmcu=$(MCU) -DF_CPU=$(F_CPU)UL -I. -I$(EXTRA_SOURCE_DIR) +CFLAGS += -funsigned-char -funsigned-bitfields -fpack-struct -fshort-enums +CFLAGS += -Wall -Wno-main -Wno-strict-prototypes -Wno-comment +CFLAGS += -g2 -Wextra -pedantic -Wfatal-errors +CFLAGS += -ffunction-sections -fdata-sections -Wl,--gc-sections -Wl,--relax +CFLAGS += $(EXTRA_FLAGS) + +CFLAGS_BUILD = $(CFLAGS) -Os + +# CFLAGS += -lm +## CFLAGS += -Wl,-u,vfprintf -lprintf_flt -lm ## for floating-point printf +## CFLAGS += -Wl,-u,vfprintf -lprintf_min ## for smaller printf + +## Lump target and extra source files together +TARGET = $(strip $(basename $(MAIN))) +SRC1 = $(TARGET).c +SRC = $(SRC1) +EXTRA_SOURCE = $(addprefix $(EXTRA_SOURCE_DIR), $(EXTRA_SOURCE_FILES)) +SRC += $(EXTRA_SOURCE) +SRC += $(LOCAL_SOURCE) + +## List of all header files +HEADERS = $(SRC:.c=.h) + +## For every .c file, compile an .o object file +OBJ = $(SRC:.c=.o) + +## Generic Makefile targets. (Only .hex file is necessary) +all: $(TARGET).hex size +pre: $(TARGET).pre + +%.hex: %.elf + $(OBJCOPY) -R .eeprom -O ihex $< $@ + +%.elf: $(SRC) + $(CC) $(CFLAGS_BUILD) $(SRC) --output $@ + +%.pre: $(SRC1) + $(CC) $(CFLAGS) -E $(SRC1) --output $@ + +%.eeprom: %.elf + $(OBJCOPY) -j .eeprom --change-section-lma .eeprom=0 -O ihex $< $@ + +debug: + @echo + @echo "Source files:" $(SRC) + @echo "MCU, F_CPU, BAUD:" $(MCU), $(F_CPU), $(BAUD) + @echo + +# Optionally create listing file from .elf +# This creates approximate assembly-language equivalent of your code. +# Useful for debugging time-sensitive bits, +# or making sure the compiler does what you want. +disassemble: $(TARGET).lst + +dis: disassemble +lst: disassemble + +eeprom: $(TARGET).eeprom + +%.lst: %.elf + $(OBJDUMP) -S $< > $@ + +# Optionally show how big the resulting program is +size: $(TARGET).elf + $(AVRSIZE) -C --mcu=$(MCU) $(TARGET).elf + +clean: + rm -f $(TARGET).elf $(TARGET).hex $(TARGET).obj \ + $(TARGET).o $(TARGET).d $(TARGET).eep $(TARGET).lst \ + $(TARGET).lss $(TARGET).sym $(TARGET).map $(TARGET)~ \ + $(TARGET).eeprom + +squeaky_clean: + rm -f *.elf *.hex *.obj *.o *.d *.eep *.lst *.lss *.sym *.map *~ + + +##########------------------------------------------------------########## +########## Programmer-specific details ########## +########## Flashing code to AVR using avrdude ########## +##########------------------------------------------------------########## + +flash: $(TARGET).hex + $(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -U flash:w:$< + +flash_eeprom: $(TARGET).eeprom + $(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -U eeprom:w:$< + +terminal: + $(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -nt + + +flash_arduino: PROGRAMMER_TYPE = arduino +flash_arduino: PROGRAMMER_ARGS = +flash_arduino: flash + +flash_dragon_isp: PROGRAMMER_TYPE = dragon_isp +flash_dragon_isp: PROGRAMMER_ARGS = +flash_dragon_isp: flash + + +##########------------------------------------------------------########## +########## Fuse settings and suitable defaults ########## +##########------------------------------------------------------########## + +## Generic +FUSE_STRING = -U lfuse:w:$(LFUSE):m -U hfuse:w:$(HFUSE):m -U efuse:w:$(EFUSE):m + +fuses: + $(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) \ + $(PROGRAMMER_ARGS) $(FUSE_STRING) +show_fuses: + $(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -nv + +## Called with no extra definitions, sets to defaults +set_default_fuses: FUSE_STRING = -U lfuse:w:$(LFUSE):m -U hfuse:w:$(HFUSE):m -U efuse:w:$(EFUSE):m +set_default_fuses: fuses diff --git a/projects/rgb_random_hsl/README.md b/projects/rgb_random_hsl/README.md new file mode 100644 index 0000000..5dedb9b --- /dev/null +++ b/projects/rgb_random_hsl/README.md @@ -0,0 +1,3 @@ +Randomly turns on and the fades out pixels + +Uses HSL for picking the color. \ No newline at end of file diff --git a/projects/rgb_random_hsl/lib/README.md b/projects/rgb_random_hsl/lib/README.md new file mode 100644 index 0000000..876f46e --- /dev/null +++ b/projects/rgb_random_hsl/lib/README.md @@ -0,0 +1,10 @@ +AVR utils library +================= + +This is my ever-evolving library (not only) for AVR programming. + +When I'm done with a project, I copy the current library to the project, so it doesn't break when I do further improvements. + +Each library file contains a large comment block explaining it's function. + +You may need to add "c" files to your makefile for some of the library files. diff --git a/projects/rgb_random_hsl/lib/adc.c b/projects/rgb_random_hsl/lib/adc.c new file mode 100644 index 0000000..66a4482 --- /dev/null +++ b/projects/rgb_random_hsl/lib/adc.c @@ -0,0 +1,46 @@ +#include +#include + +#include "calc.h" +#include "adc.h" + +/** Initialize the ADC */ +void adc_init() +{ + ADCSRA |= _BV(ADPS2) | _BV(ADPS1) | _BV(ADPS0); // 128 prescaler -> 125 kHz + ADMUX |= _BV(REFS0); // Voltage reference + sbi(ADCSRA, ADEN); // Enable ADC +} + + +/** Disable AD */ +void adc_disable() +{ + cbi(ADCSRA, ADEN); +} + + +/** Sample analog pin with 8-bit precision */ +uint8_t adc_read_byte(uint8_t channel) +{ + write_low_nibble(ADMUX, channel); // Select channel to sample + sbi(ADMUX, ADLAR); // Align result to left + sbi(ADCSRA, ADSC); // Start conversion + + while(bit_is_high(ADCSRA, ADSC)); // Wait for it... + + return ADCH; // The upper 8 bits of ADC result +} + + +/** Sample analog pin with 10-bit precision */ +uint16_t adc_read_word(uint8_t channel) +{ + write_low_nibble(ADMUX, channel); // Select channel to sample + cbi(ADMUX, ADLAR); // Align result to right + sbi(ADCSRA, ADSC); // Start conversion + + while(get_bit(ADCSRA, ADSC)); // Wait for it... + + return ADCW; // The whole ADC word (10 bits) +} diff --git a/projects/rgb_random_hsl/lib/adc.h b/projects/rgb_random_hsl/lib/adc.h new file mode 100644 index 0000000..64244f5 --- /dev/null +++ b/projects/rgb_random_hsl/lib/adc.h @@ -0,0 +1,19 @@ +#pragma once + +/* + Utilities for build-in A/D converter +*/ + +#include + +/** Initialize the ADC */ +void adc_init(); + +/** Disable AD (for power saving?) */ +void adc_disable(); + +/** Sample analog pin with 8-bit precision */ +uint8_t adc_read_byte(uint8_t channel); + +/** Sample analog pin with 10-bit precision */ +uint16_t adc_read_word(uint8_t channel); diff --git a/projects/rgb_stuff/random_wander/lib/arduino_pins.h b/projects/rgb_random_hsl/lib/arduino_pins.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/arduino_pins.h rename to projects/rgb_random_hsl/lib/arduino_pins.h diff --git a/projects/rgb_stuff/random_wander/lib/calc.h b/projects/rgb_random_hsl/lib/calc.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/calc.h rename to projects/rgb_random_hsl/lib/calc.h diff --git a/projects/rgb_random_hsl/lib/colors.h b/projects/rgb_random_hsl/lib/colors.h new file mode 100644 index 0000000..b6544de --- /dev/null +++ b/projects/rgb_random_hsl/lib/colors.h @@ -0,0 +1,84 @@ +#pragma once + +/* + Some useful utilities for RGB color manipulation + + The XXXc macros don't use cast, so they can be used in array initializers. + + xrgb ... 3-byte true-color RGB (8 bits per component) + rgbXX ... XX-bit color value, with equal nr of bits per component + + XX_r (_g, _b) ... extract component from the color, and convert it to 0..255 +*/ + + +typedef struct { + uint8_t r; + uint8_t g; + uint8_t b; +} xrgb_t; + +typedef uint32_t rgb24_t; +typedef uint16_t rgb16_t; +typedef uint16_t rgb12_t; +typedef uint8_t rgb6_t; + + +#define xrgb(rr, gg, bb) ((xrgb_t)xrgbc(rr, gg, bb)) +// xrgb for constant array declarations +#define xrgbc(rr, gg, bb) { .r = ((uint8_t)(rr)), .g = ((uint8_t)(gg)), .b = ((uint8_t)(bb)) } +#define xrgb_r(c) ((uint8_t)(c.r)) +#define xrgb_g(c) ((uint8_t)(c.g)) +#define xrgb_b(c) ((uint8_t)(c.b)) +#define xrgb_rgb24(c) ((((rgb24_t)c.r) << 16) | (((rgb24_t)c.g) << 8) | (((rgb24_t)c.b))) +#define xrgb_rgb15(c) (((((rgb15_t)c.r) & 0xF8) << 7) | ((((rgb15_t)c.g) & 0xF8) << 2) | ((((rgb15_t)c.b) & 0xF8) >> 3)) +#define xrgb_rgb12(c) (((((rgb12_t)c.r) & 0xF0) << 4) | ((((rgb12_t)c.g) & 0xF0)) | ((((rgb12_t)c.b) & 0xF0) >> 4)) +#define xrgb_rgb6(c) (((((rgb6_t)c.r) & 0xC0) >> 2) | ((((rgb6_t)c.g) & 0xC0) >> 4) | ((((rgb6_t)c.b) & 0xC0) >> 6)) + + +#define rgb24c(r,g,b) (((((rgb24_t)r) & 0xFF) << 16) | ((((rgb24_t)g) & 0xFF) << 8) | (((rgb24_t)b) & 0xFF)) +#define rgb24(r,g,b) ((rgb24_t) rgb24(r,g,b)) + +#define rgb24_r(c) ((((rgb24_t) (c)) >> 16) & 0xFF) +#define rgb24_g(c) ((((rgb24_t) (c)) >> 8) & 0xFF) +#define rgb24_b(c) ((((rgb24_t) (c)) >> 0) & 0xFF) +#define rgb24_xrgb(c) xrgb(rgb24_r(c), rgb24_g(c), rgb24_b(c)) +#define rgb24_xrgbc(c) xrgbc(rgb24_r(c), rgb24_g(c), rgb24_b(c)) + + +#define rgb15(r,g,b) ((rgb16_t) rgb15c(r,g,b)) +#define rgb15c(r,g,b) (((r & 0x1F) << 10) | ((g & 0x1F) << 5) | (b & 0x1F)) + +#define rgb15_r(c) ((((rgb15_t) (c)) & 0x7C00) >> 7) +#define rgb15_g(c) ((((rgb15_t) (c)) & 0x3E0) >> 2) +#define rgb15_b(c) ((((rgb15_t) (c)) & 0x1F) << 3) +#define rgb15_xrgb(c) xrgb(rgb15_r(c), rgb15_g(c), rgb15_b(c)) +#define rgb15_rgb24(c) rgb24(rgb15_r(c), rgb15_g(c), rgb15_b(c)) +#define rgb15_rgb24c(c) rgb24c(rgb15_r(c), rgb15_g(c), rgb15_b(c)) + + +#define rgb12(r,g,b) ((rgb12_t) rgb12c(r,g,b)) +#define rgb12c(r,g,b) (((r & 0xF) << 8) | ((g & 0xF) << 4) | (b & 0xF)) + +#define rgb12_r(c) ((((rgb12_t) (c)) & 0xF00) >> 4) +#define rgb12_g(c) (((rgb12_t) (c)) & 0xF0) +#define rgb12_b(c) (((r(rgb12_t) (c)gb) & 0x0F) << 4) +#define rgb12_xrgb(c) xrgb(rgb12_r(c), rgb12_g(c), rgb12_b(c)) +#define rgb12_xrgbc(c) xrgbc(rgb12_r(c), rgb12_g(c), rgb12_b(c)) +#define rgb12_rgb24(c) rgb24(rgb12_r(c), rgb12_g(c), rgb12_b(c)) +#define rgb12_rgb24c(c) rgb24c(rgb12_r(c), rgb12_g(c), rgb12_b(c)) + + +#define rgb6(r,g,b) ((rgb6_t) rgb6c(r,g,b)) +#define rgb6c(r,g,b) (((r & 3) << 4) | ((g & 3) << 2) | (b & 3)) + +#define rgb6_r(c) ((((rgb6_t) (c)) & 0x30) << 2) +#define rgb6_g(c) ((((rgb6_t) (c)) & 0xC) << 4) +#define rgb6_b(c) ((((rgb6_t) (c)) & 0x3) << 6) +#define rgb6_xrgb(c) xrgb(rgb6_r(c), rgb6_g(c), rgb6_b(c)) +#define rgb6_xrgbc(c) xrgbc(rgb6_r(c), rgb6_g(c), rgb6_b(c)) +#define rgb6_rgb24(c) rgb24(rgb6_r(c), rgb6_g(c), rgb6_b(c)) +#define rgb6_rgb24c(c) rgb24c(rgb6_r(c), rgb6_g(c), rgb6_b(c)) + +#define add_xrgb(x, y) ((xrgb_t) { (((y).r > (255 - (x).r)) ? 255 : ((x).r + (y).r)), (((y).g > (255 - (x).g)) ? 255 : ((x).g + (y).g)), (((y).b > 255 - (x).b) ? 255 : ((x).b + (y).b)) }) + diff --git a/projects/rgb_random_hsl/lib/debounce.c b/projects/rgb_random_hsl/lib/debounce.c new file mode 100644 index 0000000..409e80f --- /dev/null +++ b/projects/rgb_random_hsl/lib/debounce.c @@ -0,0 +1,45 @@ +#include +#include + +#include "debounce.h" +#include "calc.h" +#include "pins.h" +#include "debo_config.h" + +/** Debounce data array */ +uint8_t debo_next_slot = 0; + +uint8_t debo_register(PORT_P reg, uint8_t bit, bool invert) +{ + debo_slots[debo_next_slot] = (debo_slot_t){ + .reg = reg, + .bit = bit | ((invert & 1) << 7) | (get_bit_p(reg, bit) << 6), // bit 7 = invert, bit 6 = state + .count = 0, + }; + + return debo_next_slot++; +} + + +/** Check debounced pins, should be called periodically. */ +void debo_tick() +{ + for (uint8_t i = 0; i < debo_next_slot; i++) { + // current pin value (right 3 bits, xored with inverse bit) + bool value = get_bit_p(debo_slots[i].reg, debo_slots[i].bit & 0x7); + + if (value != get_bit(debo_slots[i].bit, 6)) { + + // different pin state than last recorded state + if (debo_slots[i].count < DEBO_TICKS) { + debo_slots[i].count++; + } else { + // overflown -> latch value + set_bit(debo_slots[i].bit, 6, value); // set state bit + debo_slots[i].count = 0; + } + } else { + debo_slots[i].count = 0; // reset the counter + } + } +} diff --git a/projects/rgb_random_hsl/lib/debounce.h b/projects/rgb_random_hsl/lib/debounce.h new file mode 100644 index 0000000..62af351 --- /dev/null +++ b/projects/rgb_random_hsl/lib/debounce.h @@ -0,0 +1,63 @@ +#pragma once + +/** + An implementation of button debouncer. + + ---- + + You must provide a config file debo_config.h (next to your main.c) + + Example: + #pragma once + #define DEBO_CHANNELS 2 + #define DDEBO_TICKS 5 + + ---- + + A pin is registered like this: + + #define BTN1 B,0 + #define BTN2 B,1 + + debo_add(BTN0); // The function returns number assigned to the pin (0, 1, ...) + debo_add_rev(BTN1); // active low + debo_register(&PINB, PB2, 0); // direct access - register, pin & invert + + Then periodically call the tick function (perhaps in a timer interrupt): + + debo_tick(); + + To check if input is active, use + + debo_get_pin(0); // state of input #0 (registered first) + debo_get_pin(1); // state of input #1 (registered second) +*/ + +#include +#include + +#include "calc.h" +#include "pins.h" +#include "debo_config.h" + +/* Internal deboucer entry */ +typedef struct { + PORT_P reg; // pointer to IO register + uint8_t bit; // bits 6 and 7 of this hold "state" & "invert" flag + uint8_t count; // number of ticks this was in the new state +} debo_slot_t; + +debo_slot_t debo_slots[DEBO_CHANNELS]; + +/** Add a pin for debouncing */ +#define debo_add_rev(io) debo_register(&io2pin(io_pack(io)), io2n(io_pack(io)), 1) +#define debo_add(io) debo_register(&io2pin(io_pack(io)), io2n(io_pack(io)), 0) + +/** Add a pin for debouncing (low level function) */ +uint8_t debo_register(PORT_P pin_reg_pointer, uint8_t bit, bool invert); + +/** Check debounced pins, should be called periodically. */ +void debo_tick(); + +/** Get a value of debounced pin */ +#define debo_get_pin(i) (get_bit(debo_slots[i].bit, 6) ^ get_bit(debo_slots[i].bit, 7)) diff --git a/projects/rgb_random_hsl/lib/hsl.c b/projects/rgb_random_hsl/lib/hsl.c new file mode 100644 index 0000000..8e0bc8b --- /dev/null +++ b/projects/rgb_random_hsl/lib/hsl.c @@ -0,0 +1,76 @@ +#include +#include +#include "colors.h" +#include "hsl.h" + +// based on: https://github.com/lewisd32/avr-hsl2rgb +xrgb_t hsl2xrgb(const hsl_t cc) +{ + // 0 .. 256*3 + const uint16_t hh = (uint16_t) cc.h * 3; + const uint8_t hue_mod = hh % 256; + + uint8_t r_temp, g_temp, b_temp; + if (hh < 256) { + r_temp = hue_mod ^ 255; + g_temp = hue_mod; + b_temp = 0; + } else if (hh < 512) { + r_temp = 0; + g_temp = hue_mod ^ 255; + b_temp = hue_mod; + } else if (hh < 768) { + r_temp = hue_mod; + g_temp = 0; + b_temp = hue_mod ^ 255; + } else { + r_temp = 0; + g_temp = 0; + b_temp = 0; + } + + const uint8_t inverse_sat = (cc.s ^ 255); + + xrgb_t rgb; + + uint8_t t8; + uint16_t t16; + +#ifdef HSL_LINEAR + const uint8_t bri = FADE_128[cc.l>>1]; +#else + const uint8_t bri = cc.l; +#endif + + t8 = r_temp; + t16 = t8 * cc.s + t8; + t16 = t16 + t8; + t8 = t16 >> 8; + t8 = t8 + inverse_sat; + t16 = t8 * bri; + t16 = t16 + t8; + t8 = t16 >> 8; + rgb.r = t8; + + t8 = g_temp; + t16 = t8 * cc.s; + t16 = t16 + t8; + t8 = t16 >> 8; + t8 = t8 + inverse_sat; + t16 = t8 * bri; + t16 = t16 + t8; + t8 = t16 >> 8; + rgb.g = t8; + + t8 = b_temp; + t16 = t8 * cc.s; + t16 = t16 + t8; + t8 = t16 >> 8; + t8 = t8 + inverse_sat; + t16 = t8 * bri; + t16 = t16 + t8; + t8 = t16 >> 8; + rgb.b = t8; + + return rgb; +} diff --git a/projects/rgb_random_hsl/lib/hsl.h b/projects/rgb_random_hsl/lib/hsl.h new file mode 100644 index 0000000..b2bd5a1 --- /dev/null +++ b/projects/rgb_random_hsl/lib/hsl.h @@ -0,0 +1,22 @@ +#pragma once + +/* + HSL support (addition to colors.h) +*/ + +#include "colors.h" + +// Define HSL_LINEAR to get more linear brightness in hsl->rgb conversion +#ifdef HSL_LINEAR +# include "linear_fade.h" +#endif + +// HSL data structure +typedef struct { + uint8_t h; + uint8_t s; + uint8_t l; +} hsl_t; + +/* Convert HSL to XRGB */ +xrgb_t hsl2xrgb(const hsl_t color); diff --git a/projects/rgb_random_hsl/lib/lcd.c b/projects/rgb_random_hsl/lib/lcd.c new file mode 100644 index 0000000..7138562 --- /dev/null +++ b/projects/rgb_random_hsl/lib/lcd.c @@ -0,0 +1,284 @@ +#include +#include +#include +#include +#include + +#include "calc.h" +#include "pins.h" +#include "nsdelay.h" +#include "lcd.h" +#include "lcd_config.h" + +// Start address of rows +const uint8_t LCD_ROW_ADDR[] = {0x00, 0x40, 0x14, 0x54}; + +// Internal prototypes +void _lcd_mode_r(); +void _lcd_mode_w(); +void _lcd_clk(); +void _lcd_wait_bf(); +void _lcd_write_byte(uint8_t bb); +uint8_t _lcd_read_byte(); + + +// Write utilities +#define _lcd_write_low(bb) _lcd_write_nibble((bb) & 0x0F) +#define _lcd_write_high(bb) _lcd_write_nibble(((bb) & 0xF0) >> 4) +#define _lcd_write_nibble(nib) do { \ + write_pin(LCD_D7, get_bit((nib), 3)); \ + write_pin(LCD_D6, get_bit((nib), 2)); \ + write_pin(LCD_D5, get_bit((nib), 1)); \ + write_pin(LCD_D4, get_bit((nib), 0)); \ +} while(0) + + +// 0 W, 1 R +bool _lcd_mode; + + +/** Initialize the display */ +void lcd_init() +{ + // configure pins as output + as_output(LCD_E); + as_output(LCD_RW); + as_output(LCD_RS); + _lcd_mode = 1; // force data pins to output + _lcd_mode_w(); + + // Magic sequence to invoke Cthulhu (or enter 4-bit mode) + _delay_ms(16); + _lcd_write_nibble(0b0011); + _lcd_clk(); + _delay_ms(5); + _lcd_clk(); + _delay_ms(5); + _lcd_clk(); + _delay_ms(5); + _lcd_write_nibble(0b0010); + _lcd_clk(); + _delay_us(100); + + // Configure the display + lcd_write_command(LCD_IFACE_4BIT_2LINE); + lcd_write_command(LCD_DISABLE); + lcd_write_command(LCD_CLEAR); + lcd_write_command(LCD_MODE_INC); + + // mark as enabled + lcd_enable(); +} + + +/** Send a pulse on the ENABLE line */ +void _lcd_clk() +{ + pin_up(LCD_E); + delay_ns(420); + pin_down(LCD_E); +} + + +/** Enter READ mode */ +void _lcd_mode_r() +{ + if (_lcd_mode == 1) return; // already in R mode + + pin_up(LCD_RW); + + as_input_pu(LCD_D7); + as_input_pu(LCD_D6); + as_input_pu(LCD_D5); + as_input_pu(LCD_D4); + + _lcd_mode = 1; +} + + +/** Enter WRITE mode */ +void _lcd_mode_w() +{ + if (_lcd_mode == 0) return; // already in W mode + + pin_down(LCD_RW); + + as_output(LCD_D7); + as_output(LCD_D6); + as_output(LCD_D5); + as_output(LCD_D4); + + _lcd_mode = 0; +} + + +/** Read a byte */ +uint8_t _lcd_read_byte() +{ + _lcd_mode_r(); + + uint8_t res = 0; + + _lcd_clk(); + res = (read_pin(LCD_D7) << 7) | (read_pin(LCD_D6) << 6) | (read_pin(LCD_D5) << 5) | (read_pin(LCD_D4) << 4); + + _lcd_clk(); + res |= (read_pin(LCD_D7) << 3) | (read_pin(LCD_D6) << 2) | (read_pin(LCD_D5) << 1) | (read_pin(LCD_D4) << 0); + + return res; +} + + +/** Write an instruction byte */ +void lcd_write_command(uint8_t bb) +{ + _lcd_wait_bf(); + pin_down(LCD_RS); // select instruction register + _lcd_write_byte(bb); // send instruction byte +} + + +/** Write a data byte */ +void lcd_write_data(uint8_t bb) +{ + _lcd_wait_bf(); + pin_up(LCD_RS); // select data register + _lcd_write_byte(bb); // send data byte +} + + +/** Read BF & Address */ +uint8_t lcd_read_bf_addr() +{ + pin_down(LCD_RS); + return _lcd_read_byte(); +} + + +/** Read CGRAM or DDRAM */ +uint8_t lcd_read_ram() +{ + pin_up(LCD_RS); + return _lcd_read_byte(); +} + + +/** Write a byte using the 8-bit interface */ +void _lcd_write_byte(uint8_t bb) +{ + _lcd_mode_w(); // enter W mode + + _lcd_write_high(bb); + _lcd_clk(); + + _lcd_write_low(bb); + _lcd_clk(); +} + + + +/** Wait until the device is ready */ +void _lcd_wait_bf() +{ + uint8_t d = 0; + while(d++ < 120 && lcd_read_bf_addr() & _BV(7)) + _delay_us(1); +} + + +/** Send a string to LCD */ +void lcd_str(char* str_p) +{ + while (*str_p) + lcd_char(*str_p++); +} + + +/** Sedn a char to LCD */ +void lcd_char(const char c) +{ + lcd_write_data(c); +} + + +/** Set cursor position */ +void lcd_xy(const uint8_t x, const uint8_t y) +{ + lcd_set_addr(LCD_ROW_ADDR[y] + (x)); +} + + +uint8_t _lcd_old_cursor = CURSOR_NONE; +bool _lcd_enabled = false; + +/** Set LCD cursor. If not enabled, only remember it. */ +void lcd_cursor(uint8_t type) +{ + _lcd_old_cursor = (type & CURSOR_BOTH); + + if (_lcd_enabled) lcd_write_command(LCD_CURSOR_NONE | _lcd_old_cursor); +} + + +/** Display display (preserving cursor) */ +void lcd_disable() +{ + lcd_write_command(LCD_DISABLE); + _lcd_enabled = false; +} + + +/** Enable display (restoring cursor) */ +void lcd_enable() +{ + _lcd_enabled = true; + lcd_cursor(_lcd_old_cursor); +} + + +/** Go home */ +void lcd_home() +{ + lcd_write_command(LCD_HOME); +} + + +/** Clear the screen */ +void lcd_clear() +{ + lcd_write_command(LCD_CLEAR); +} + + +/** Define a glyph */ +void lcd_define_glyph(const uint8_t index, const uint8_t* array) +{ + lcd_set_addr_cgram(index * 8); + for (uint8_t i = 0; i < 8; ++i) { + lcd_write_data(array[i]); + } +} + + +/** Define a glyph */ +void lcd_define_glyph_pgm(const uint8_t index, const uint8_t* array) +{ + lcd_set_addr_cgram(index * 8); + for (uint8_t i = 0; i < 8; ++i) { + lcd_write_data(pgm_read_byte(&array[i])); + } +} + + +/** Set address in CGRAM */ +void lcd_set_addr_cgram(const uint8_t acg) +{ + lcd_write_command(0b01000000 | ((acg) & 0b00111111)); +} + + +/** Set address in DDRAM */ +void lcd_set_addr(const uint8_t add) +{ + lcd_write_command(0b10000000 | ((add) & 0b01111111)); +} diff --git a/projects/rgb_random_hsl/lib/lcd.h b/projects/rgb_random_hsl/lib/lcd.h new file mode 100644 index 0000000..d2f3f95 --- /dev/null +++ b/projects/rgb_random_hsl/lib/lcd.h @@ -0,0 +1,130 @@ +#pragma once + +/* + HD44780 LCD display driver - 4-bit mode + + LCD pins are configured using a file lcd_config.h, which you + have to add next to your main.c file. + + Content can be something like this: + + #pragma once + #include "lib/arduino_pins.h" + #define LCD_RS D10 + #define LCD_RW D11 + #define LCD_E D12 + #define LCD_D4 D13 + #define LCD_D5 D14 + #define LCD_D6 D15 + #define LCD_D7 D16 + +*/ + +#include +#include "lcd_config.h" + +// Commands + +// Clear screen (reset) +#define LCD_CLEAR 0b00000001 +// Move cursor to (0,0), unshift... +#define LCD_HOME 0b00000010 + +// Set mode: Increment + NoShift +#define LCD_MODE_INC 0b00000110 +// Set mode: Increment + Shift +#define LCD_MODE_INC_SHIFT 0b00000111 + +// Set mode: Decrement + NoShift +#define LCD_MODE_DEC 0b00000100 +// Set mode: Decrement + Shift +#define LCD_MODE_DEC_SHIFT 0b00000101 + +// Disable display (data remains untouched) +#define LCD_DISABLE 0b00001000 + +// Disable cursor +#define LCD_CURSOR_NONE 0b00001100 +// Set cursor to still underscore +#define LCD_CURSOR_BAR 0b00001110 +// Set cursor to blinking block +#define LCD_CURSOR_BLINK 0b00001101 +// Set cursor to both of the above at once +#define LCD_CURSOR_BOTH (LCD_CURSOR_BAR | LCD_CURSOR_BLINK) + +// Move cursor +#define LCD_MOVE_LEFT 0b00010000 +#define LCD_MOVE_RIGHT 0b00010100 + +// Shift display +#define LCD_SHIFT_LEFT 0b00011000 +#define LCD_SHIFT_RIGHT 0b00011100 + +// Set iface to 5x7 font, 1-line +#define LCD_IFACE_4BIT_1LINE 0b00100000 +#define LCD_IFACE_8BIT_1LINE 0b00110000 +// Set iface to 5x7 font, 2-line +#define LCD_IFACE_4BIT_2LINE 0b00101000 +#define LCD_IFACE_8BIT_2LINE 0b00111000 + + +/** Initialize the display */ +void lcd_init(); + +/** Write an instruction byte */ +void lcd_write_command(uint8_t bb); + +/** Write a data byte */ +void lcd_write_data(uint8_t bb); + +/** Read BF & Address */ +uint8_t lcd_read_bf_addr(); + +/** Read CGRAM or DDRAM */ +uint8_t lcd_read_ram(); + +/** Send a string to LCD */ +void lcd_str(char* str_p); + +/** Sedn a char to LCD */ +void lcd_char(const char c); + +/** Show string at X, Y */ +#define lcd_str_xy(x, y, str_p) do { lcd_xy((x), (y)); lcd_str((str_p)); } while(0) + +/** Show char at X, Y */ +#define lcd_char_xy(x, y, c) do { lcd_xy((x), (y)); lcd_char((c)); } while(0) + +/** Set cursor position */ +void lcd_xy(const uint8_t x, const uint8_t y); + +/** Set LCD cursor. If not enabled, only remember it. */ +#define CURSOR_NONE 0b00 +#define CURSOR_BAR 0b10 +#define CURSOR_BLINK 0b01 +#define CURSOR_BOTH 0b11 +void lcd_cursor(uint8_t type); + +/** Display display (preserving cursor) */ +void lcd_disable(); + +/** Enable display (restoring cursor) */ +void lcd_enable(); + +/** Go home */ +void lcd_home(); + +/** Clear the screen */ +void lcd_clear(); + +/** Define a glyph */ +void lcd_define_glyph(const uint8_t index, const uint8_t* array); + +/** Define a glyph */ +void lcd_define_glyph_pgm(const uint8_t index, const uint8_t* array); + +/** Set address in CGRAM */ +void lcd_set_addr_cgram(const uint8_t acg); + +/** Set address in DDRAM */ +void lcd_set_addr(const uint8_t add); diff --git a/projects/rgb_random_hsl/lib/linear_fade.h b/projects/rgb_random_hsl/lib/linear_fade.h new file mode 100644 index 0000000..6f1a3f8 --- /dev/null +++ b/projects/rgb_random_hsl/lib/linear_fade.h @@ -0,0 +1,13 @@ +#pragma once +#include + +const uint8_t FADE_128[] = { + 0, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 3, 3, 3, 4, 4, 4, 4, + 5, 5, 6, 6, 6, 7, 7, 8, 8, 8, 9, 10, 10, 10, 11, 12, 13, 14, + 14, 15, 16, 17, 18, 20, 21, 22, 24, 26, 27, 28, 30, 31, 32, 34, 35, 36, + 38, 39, 40, 41, 42, 44, 45, 46, 48, 49, 50, 52, 54, 56, 58, 59, 61, 63, + 65, 67, 68, 69, 71, 72, 74, 76, 78, 80, 82, 85, 88, 90, 92, 95, 98, 100, + 103, 106, 109, 112, 116, 119, 122, 125, 129, 134, 138, 142, 147, 151, + 153, 156, 160, 163, 165, 170, 175, 180, 185, 190, 195, 200, 207, 214, 218, + 221, 225, 228, 232, 234, 241, 248, 254, 255 +}; \ No newline at end of file diff --git a/projects/rgb_stuff/random_wander/lib/loops.h b/projects/rgb_random_hsl/lib/loops.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/loops.h rename to projects/rgb_random_hsl/lib/loops.h diff --git a/projects/rgb_stuff/random_wander/lib/meta.h b/projects/rgb_random_hsl/lib/meta.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/meta.h rename to projects/rgb_random_hsl/lib/meta.h diff --git a/projects/rgb_stuff/random_wander/lib/nsdelay.h b/projects/rgb_random_hsl/lib/nsdelay.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/nsdelay.h rename to projects/rgb_random_hsl/lib/nsdelay.h diff --git a/projects/rgb_stuff/random_wander/lib/pins.h b/projects/rgb_random_hsl/lib/pins.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/pins.h rename to projects/rgb_random_hsl/lib/pins.h diff --git a/projects/rgb_stuff/random_wander/lib/ws_rgb.h b/projects/rgb_random_hsl/lib/ws_rgb.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/ws_rgb.h rename to projects/rgb_random_hsl/lib/ws_rgb.h diff --git a/projects/rgb_random_hsl/main.c b/projects/rgb_random_hsl/main.c new file mode 100644 index 0000000..9b9d363 --- /dev/null +++ b/projects/rgb_random_hsl/main.c @@ -0,0 +1,66 @@ +#include +#include +#include +#include +#include + +#include "lib/meta.h" +#include "lib/arduino_pins.h" +#include "lib/calc.h" + +#include "lib/colors.h" +#include "lib/hsl.h" +#include "lib/adc.h" + +#define WS_T_1H 800 +#define WS_T_1L 400 +#define WS_T_0H 120 +#define WS_T_0L 900 + +#include "lib/ws_rgb.h" + +#define WS1 D2 + +void SECTION(".init8") init() +{ + adc_init(); + srand(adc_read_word(0)); + + as_output(WS1); +} + + +void main() +{ + #define SIZE 16 + hsl_t board[SIZE]; + xrgb_t screen[SIZE]; + + for (uint8_t i = 0; i < SIZE; i++) { + board[i] = (hsl_t) {.h=0, .s=255, .l=0}; + screen[i] = (xrgb_t) {.r=0, .g=0, .b=0}; + } + + while(1) { + for(uint8_t i = 0; i < SIZE; i++) { + if (board[i].l > 0) { + board[i].l--; + } + + screen[i] = hsl2xrgb(board[i]); + } + + if (rand() % 50 == 0) { + uint8_t i = rand() % SIZE; + + if (board[i].l == 0) { + board[i].h = rand() % 256; + board[i].s = 200 + rand() % 56; + board[i].l = 255; + } + } + + ws_send_xrgb_array(WS1, screen, SIZE); + _delay_ms(2); + } +} diff --git a/projects/rgb_stuff/random_wander/Makefile b/projects/rgb_random_wander/Makefile similarity index 100% rename from projects/rgb_stuff/random_wander/Makefile rename to projects/rgb_random_wander/Makefile diff --git a/projects/rgb_stuff/random_wander/lib/README.md b/projects/rgb_random_wander/lib/README.md similarity index 100% rename from projects/rgb_stuff/random_wander/lib/README.md rename to projects/rgb_random_wander/lib/README.md diff --git a/projects/rgb_stuff/random_wander/lib/adc.h b/projects/rgb_random_wander/lib/adc.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/adc.h rename to projects/rgb_random_wander/lib/adc.h diff --git a/projects/rgb_random_wander/lib/arduino_pins.h b/projects/rgb_random_wander/lib/arduino_pins.h new file mode 100644 index 0000000..ca4f4c6 --- /dev/null +++ b/projects/rgb_random_wander/lib/arduino_pins.h @@ -0,0 +1,42 @@ +#pragma once + +/** + Pin definitions for Arduino (Pro Mini with ATmega328P) +*/ + +#include "pins.h" + +#define D0 D,0 +#define D1 D,1 +#define D2 D,2 +#define D3 D,3 +#define D4 D,4 +#define D5 D,5 +#define D6 D,6 +#define D7 D,7 +#define D8 B,0 +#define D9 B,1 +#define D10 B,2 + +// MOSI MISO SCK - not good for input +#define D11 B,3 +#define D12 B,4 +#define D13 B,5 + +#define D14 C,0 +#define D15 C,1 +#define D16 C,2 +#define D17 C,3 +#define D18 C,4 +#define D19 C,5 +#define D20 C,6 +#define D21 C,7 + +#define A0 C,0 +#define A1 C,1 +#define A2 C,2 +#define A3 C,3 +#define A4 C,4 +#define A5 C,5 +#define A6 C,6 +#define A7 C,7 diff --git a/projects/rgb_random_wander/lib/calc.h b/projects/rgb_random_wander/lib/calc.h new file mode 100644 index 0000000..750e173 --- /dev/null +++ b/projects/rgb_random_wander/lib/calc.h @@ -0,0 +1,89 @@ +#pragma once + +/** + Bit and byte manipulation utilities +*/ + + +// --- Increment in range --- +// when overflown, wraps within range. Lower bound < upper bound. +// ..., upper bound excluded +#define inc_wrap(var, min, max) do { if ((var) >= (max - 1)) { (var) = (min); } else { (var)++; } } while(0) +// ..., upper bound included +#define inc_wrapi(var, min, max) inc_wrap((var), (min), (max) + 1) + + +// --- Decrement in range --- +// when underflown, wraps within range. Lower bound < upper bound. +// ..., upper bound excluded +#define dec_wrap(var, min, max) do { if ((var) <= (min)) { (var) = (max) - 1; } else { (var)--; } } while(0) +// ..., upper bound included +#define dec_wrapi(var, min, max) dec_wrap((var), (min), (max) + 1) + + +// --- Bit manipulation -- + +// Set bit +#define sbi(reg, bit) do { (reg) |= (1 << (uint8_t)(bit)); } while(0) + +// Clear bit +#define cbi(reg, bit) do { (reg) &= ~(1 << (uint8_t)(bit)); } while(0) + +// Get n-th bit +#define read_bit(reg, bit) (((reg) >> (uint8_t)(bit)) & 0x1) +#define get_bit(reg, bit) read_bit(reg, bit) + +// Test n-th bit (Can't use bit_is_set, as it's redefined in sfr_def.h) +#define bit_is_high(reg, bit) read_bit(reg, bit) +#define bit_is_low(reg, bit) (!read_bit(reg, bit)) + +// Write value to n-th bit +#define write_bit(reg, bit, value) do { (reg) = ((reg) & ~(1 << (uint8_t)(bit))) | (((uint8_t)(value) & 0x1) << (uint8_t)(bit)); } while(0) +#define set_bit(reg, bit, value) write_bit(reg, bit, value) + +// Invert n-th bit +#define toggle_bit(reg, bit) do { (reg) ^= (1 << (uint8_t)(bit)); } while(0) + + +// --- Bit manipulation with pointer to variable --- + +// Set n-th bit in pointee +#define sbi_p(reg_p, bit) do { (*(reg_p)) |= (1 << (uint8_t)(bit)); } while(0) +// Clear n-th bit in pointee +#define cbi_p(reg_p, bit) do { (*(reg_p)) &= ~(1 << (uint8_t)(bit)); } while(0) + +// Get n-th bit in pointee +#define read_bit_p(reg_p, bit) ((*(reg_p) >> (uint8_t)(bit)) & 0x1) +#define get_bit_p(reg_p, bit) read_bit_p(reg_p, bit) + +// Test n-th bit in pointee (Can't use bit_is_set, as it's redefined in sfr_def.h) +#define bit_is_high_p(reg_p, bit) read_bit_p(reg_p, bit) +#define bit_is_low_p(reg_p, bit) (!read_bit_p(reg_p, bit)) + +// Write value to a bit in pointee +#define write_bit_p(reg_p, bit, value) do { *(reg_p) = (*(reg_p) & ~(1 << ((uint8_t)(bit) & 0x1))) | (((uint8_t)(value) & 0x1) << (uint8_t)(bit)); } while(0) +#define set_bit_p(reg_p, bit, value) write_bit_p(reg_p, bit, value) +#define toggle_bit_p(reg_p, bit) do { *(reg_p) ^= (1 << (uint8_t)(bit)); } while(0) + + +// --- Nibble manipulation --- + +// Replace nibble in a byte +#define write_low_nibble(reg, value) do { (reg) = ((reg) & 0xF0) | ((uint8_t)(value) & 0xF); } while(0) +#define write_high_nibble(reg, value) do { (reg) = ((reg) & 0x0F) | (((uint8_t)(value) & 0xF) << 4); } while(0) + +#define write_low_nibble_p(reg_p, value) do { *(reg_p) = (*(reg_p) & 0xF0) | ((uint8_t)(value) & 0xF); } while(0) +#define write_high_nibble_p(reg_p, value) do { *(reg_p) = (*(reg_p) & 0x0F) | (((uint8_t)(value) & 0xF) << 4); } while(0) + + +// --- Range tests --- + +// Test if X is within low..high, regardless of bounds order +#define in_range(x, low, high) ((((low) < (high)) && ((x) >= (low) && (x) < (high))) || (((low) > (high)) && ((x) >= (high) && (x) < (low)))) +// ..., include greater bound +#define in_rangei(x, low, high) ((((low) <= (high)) && ((x) >= (low) && (x) <= (high))) || (((low) > (high)) && ((x) >= (high) && (x) <= (low)))) + +// Test if X in low..high, wrap around ends if needed. +#define in_range_wrap(x, low, high) ((((low) < (high)) && ((x) >= (low) && (x) < (high))) || (((low) > (high)) && ((x) >= (low) || (x) < (high)))) +// ..., include upper bound +#define in_range_wrapi(x, low, high) ((((low) <= (high)) && ((x) >= (low) && (x) <= (high))) || (((low) > (high)) && ((x) >= (low) || (x) <= (high)))) diff --git a/projects/rgb_stuff/random_wander/lib/colors.h b/projects/rgb_random_wander/lib/colors.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/colors.h rename to projects/rgb_random_wander/lib/colors.h diff --git a/projects/rgb_stuff/random_wander/lib/debounce.h b/projects/rgb_random_wander/lib/debounce.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/debounce.h rename to projects/rgb_random_wander/lib/debounce.h diff --git a/projects/rgb_stuff/random_wander/lib/lcd.h b/projects/rgb_random_wander/lib/lcd.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/lcd.h rename to projects/rgb_random_wander/lib/lcd.h diff --git a/projects/rgb_random_wander/lib/loops.h b/projects/rgb_random_wander/lib/loops.h new file mode 100644 index 0000000..4fa963e --- /dev/null +++ b/projects/rgb_random_wander/lib/loops.h @@ -0,0 +1,22 @@ +#pragma once + +/** + Custom loops +*/ + +// Repeat code n times (uint8_t counter) +#define repeat(count) repeat_aux(count, _repeat_##__COUNTER__) +#define repeat_aux(count, cntvar) for (uint8_t cntvar = 0; cntvar < (count); cntvar++) + +// Repeat code n times (uint16_t counter) +#define repeatx(count) repeatx_aux(count, _repeatx_##__COUNTER__) +#define repeatx_aux(count, cntvar) for (uint16_t cntvar = 0; cntvar < (count); cntvar++) + +// Repeat with custom counter name (uint8_t) +#define loop(var, count) repeat_aux(count, var) +// ..., uint16_t +#define loopx(var, count) repeatx_aux(count, var) + +// Do until condition is met +#define until(what) while(!(what)) + diff --git a/projects/rgb_random_wander/lib/meta.h b/projects/rgb_random_wander/lib/meta.h new file mode 100644 index 0000000..ec16799 --- /dev/null +++ b/projects/rgb_random_wander/lib/meta.h @@ -0,0 +1,6 @@ +#pragma once + +/** Weird constructs for the compiler */ + +// general macros +#define SECTION(pos) __attribute__((naked, used, section(pos))) diff --git a/projects/rgb_random_wander/lib/nsdelay.h b/projects/rgb_random_wander/lib/nsdelay.h new file mode 100644 index 0000000..73fd667 --- /dev/null +++ b/projects/rgb_random_wander/lib/nsdelay.h @@ -0,0 +1,21 @@ +#pragma once + +/** + Functions for precise delays (nanoseconds / cycles) +*/ + +#include +#include +#include + +/* Convert nanoseconds to cycle count */ +#define ns2cycles(ns) ( (ns) / (1000000000L / (signed long) F_CPU) ) + +/** Wait c cycles */ +#define delay_c(c) (((c) > 0) ? __builtin_avr_delay_cycles(c) : __builtin_avr_delay_cycles(0)) + +/** Wait n nanoseconds, plus c cycles */ +#define delay_ns_c(ns, c) delay_c(ns2cycles(ns) + (c)) + +/** Wait n nanoseconds */ +#define delay_ns(ns) delay_c(ns2cycles(ns)) diff --git a/projects/rgb_random_wander/lib/pins.h b/projects/rgb_random_wander/lib/pins.h new file mode 100644 index 0000000..93960b4 --- /dev/null +++ b/projects/rgb_random_wander/lib/pins.h @@ -0,0 +1,107 @@ +#pragma once + +/** + This file provides macros for pin manipulation. + + You can define your application pins like so: + + // Led at PORTB, pin 1 + #define LED B,1 + + // Switch at PORTD, pin 7 + #define SW1 D,7 + + Now you can use macros from this file to wirh with the pins, eg: + + as_output(LED); + as_input(SW1); + pullup_on(SW1); + + toggle_pin(LED); + while (pin_is_low(SW1)); + + - The macros io2XXX() can be used to get literal name of register associated with the pin. + - io2n() provides pin number. + - The XXX_aux() macros are internal and should not be used elsewhere. + - The io_pack() macro is used to pass pin (io) to other macro without expanding it. +*/ + +#include +#include "calc.h" + + +// Get particular register associated with the name X (eg. D -> PORTD) +#define reg_ddr(X) DDR ## X +#define reg_port(X) PORT ## X +#define reg_pin(X) PIN ## X + +#define io2ddr_aux(reg, bit) reg_ddr(reg) +#define io2ddr(io) io2ddr_aux(io) +#define io2port_aux(reg, bit) reg_port(reg) +#define io2port(io) io2port_aux(io) +#define io2pin_aux(reg, bit) reg_pin(reg) +#define io2pin(io) io2pin_aux(io) +#define io2n_aux(reg, bit) bit +#define io2n(io) io2n_aux(io) + +#define io_pack(port, bit) port, bit + + +// pointer to port +typedef volatile uint8_t* PORT_P; +// number of bit in port +typedef uint8_t BIT_N; + + +// === pin manipulation === +#define set_pin_aux(port, bit) sbi(reg_port(port), (bit)) +#define clear_pin_aux(port, bit) cbi(reg_port(port), (bit)) +#define read_pin_aux(port, bit) get_bit(reg_pin(port), (bit)) +#define write_pin_aux(port, bit, value) set_bit(reg_port(port), (bit), (value)) +#define toggle_pin_aux(port, bit) sbi(reg_pin(port), (bit)) + + +#define pin_up(io) set_pin_aux(io) +#define pin_high(io) set_pin_aux(io) + +#define pin_down(io) clear_pin_aux(io) +#define pin_low(io) clear_pin_aux(io) + +#define get_pin(io) read_pin_aux(io) +#define read_pin(io) read_pin_aux(io) + +#define pin_is_low(io) !read_pin_aux(io) +#define pin_is_high(io) read_pin_aux(io) + +#define set_pin(io, value) write_pin_aux(io, (value)) +#define write_pin(io, value) write_pin_aux(io, (value)) +#define toggle_pin(io) toggle_pin_aux(io) + + + +// setting pin direction +#define as_input_aux(port, bit) cbi(reg_ddr(port), (bit)) +#define as_output_aux(port, bit) sbi(reg_ddr(port), (bit)) +#define set_dir_aux(port, bit, dir) write_bit(reg_ddr(port), (bit), (dir)) + + +#define as_input(io) as_input_aux(io) +#define as_input_pu(io) do { as_input_aux(io); pullup_enable_aux(io); } while(0) + +#define as_output(io) as_output_aux(io) +#define set_dir(io, dir) set_dir_aux(io, (dir)) + + +// setting pullup +#define pullup_enable_aux(port, bit) sbi(reg_port(port), (bit)) +#define pullup_disable_aux(port, bit) cbi(reg_port(port), (bit)) +#define set_pullup_aux(port, bit, on) write_bit(reg_port(port), (bit), (on)) + + +#define pullup_enable(io) pullup_enable_aux(io) +#define pullup_on(io) pullup_enable_aux(io) + +#define pullup_disable(io) pullup_disable_aux(io) +#define pullup_off(io) pullup_disable_aux(io) + +#define set_pullup(io, on) set_pullup_aux(io, on) diff --git a/projects/rgb_random_wander/lib/ws_rgb.h b/projects/rgb_random_wander/lib/ws_rgb.h new file mode 100644 index 0000000..80223c2 --- /dev/null +++ b/projects/rgb_random_wander/lib/ws_rgb.h @@ -0,0 +1,98 @@ +#pragma once + +/** + Utils for driving a WS28xx (tested on WS2812B) RGB LED strips. + + It's implemented as macros to avoid overhead when passing values, and to + enable driving multiple strips at once. + + To avoid bloating your code, try to reduce the number of invocations - + compute color and then send it. + + [IMPORTANT] + + Some seemingly random influences can ruin the communication. + If you have enough memory, consider preparing the colors in array, + and sending this array using one of the "ws_send_XXX_array" macros. + +*/ + +#include + +#include "pins.h" +#include "nsdelay.h" +#include "colors.h" + +/* Driver code for WS2812B */ + +// --- timing constraints (NS) --- + +#ifndef WS_T_1H +# define WS_T_1H 700 +#endif + +#ifndef WS_T_1L +# define WS_T_1L 150 +#endif + +#ifndef WS_T_0H +# define WS_T_0H 150 +#endif + +#ifndef WS_T_0L +# define WS_T_0L 700 +#endif + +#ifndef WS_T_LATCH +# define WS_T_LATCH 7000 +#endif + + +/** Wait long enough for the colors to show */ +#define ws_show() do {delay_ns_c(WS_T_LATCH, 0); } while(0) + + +/** Send one byte to the RGB strip */ +#define ws_send_byte(io, bb) do { \ + for (volatile int8_t __ws_tmp = 7; __ws_tmp >= 0; --__ws_tmp) { \ + if ((bb) & (1 << __ws_tmp)) { \ + pin_high(io_pack(io)); delay_ns_c(WS_T_1H, -2); \ + pin_low(io_pack(io)); delay_ns_c(WS_T_1L, -10); \ + } else { \ + pin_high(io_pack(io)); delay_ns_c(WS_T_0H, -2); \ + pin_low(io_pack(io)); delay_ns_c(WS_T_0L, -10); \ + } \ + } \ +} while(0) + + +/** Send R,G,B color to the strip */ +#define ws_send_rgb(io, r, g, b) do { \ + ws_send_byte(io_pack(io), g); \ + ws_send_byte(io_pack(io), r); \ + ws_send_byte(io_pack(io), b); \ +} while(0) + +/** Send a RGB struct */ +#define ws_send_xrgb(io, xrgb) ws_send_rgb(io_pack(io), (xrgb).r, (xrgb).g, (xrgb).b) + +/** Send color hex */ +#define ws_send_rgb24(io, rgb) ws_send_rgb(io_pack(io), rgb24_r(rgb), rgb24_g(rgb), rgb24_b(rgb)) +#define ws_send_rgb15(io, rgb) ws_send_rgb(io_pack(io), rgb15_r(rgb), rgb15_g(rgb), rgb15_b(rgb)) +#define ws_send_rgb12(io, rgb) ws_send_rgb(io_pack(io), rgb12_r(rgb), rgb12_g(rgb), rgb12_b(rgb)) +#define ws_send_rgb6(io, rgb) ws_send_rgb(io_pack(io), rgb6_r(rgb), rgb6_g(rgb), rgb6_b(rgb)) + +/** Send array of colors */ +#define ws_send_xrgb_array(io, rgbs, length) __ws_send_array_proto(io_pack(io), (rgbs), (length), xrgb) +#define ws_send_rgb24_array(io, rgbs, length) __ws_send_array_proto(io_pack(io), (rgbs), (length), rgb24) +#define ws_send_rgb15_array(io, rgbs, length) __ws_send_array_proto(io_pack(io), (rgbs), (length), rgb15) +#define ws_send_rgb12_array(io, rgbs, length) __ws_send_array_proto(io_pack(io), (rgbs), (length), rgb12) +#define ws_send_rgb6_array(io, rgbs, length) __ws_send_array_proto(io_pack(io), (rgbs), (length), rgb6) + +// prototype for sending array. it's ugly, sorry. +#define __ws_send_array_proto(io, rgbs, length, style) do { \ + for (uint8_t __ws_tmp_sap_i = 0; __ws_tmp_sap_i < length; __ws_tmp_sap_i++) { \ + style ## _t __ws_tmp_sap2 = (rgbs)[__ws_tmp_sap_i]; \ + ws_send_ ## style(io_pack(io), __ws_tmp_sap2); \ + } \ +} while(0) diff --git a/projects/rgb_stuff/random_wander/lib/yeolde.h b/projects/rgb_random_wander/lib/yeolde.h similarity index 100% rename from projects/rgb_stuff/random_wander/lib/yeolde.h rename to projects/rgb_random_wander/lib/yeolde.h diff --git a/projects/rgb_stuff/random_wander/main.c b/projects/rgb_random_wander/main.c similarity index 98% rename from projects/rgb_stuff/random_wander/main.c rename to projects/rgb_random_wander/main.c index 00a06ff..daf9006 100644 --- a/projects/rgb_stuff/random_wander/main.c +++ b/projects/rgb_random_wander/main.c @@ -74,7 +74,7 @@ void update_cell(cell_t* cell) void main() { - #define LEN 8 + #define LEN 16 cell_t rainbow[LEN]; for(uint8_t i=0; i