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unicontroller.inl
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unicontroller.inl
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/* Kabuki Tek Toolkit @version 0.x
@link https://github.com/kabuki-starship/kabuki.toolkit.tek.git
@file /unicontroller.inl
@author Cale McCollough <https://cookingwithcale.org>
@license Copyright 2014-20 (C) Kabuki Starship (TM) <kabukistarship.com>.
This Source Code Form is subject to the terms of the Mozilla Public License, v.
2.0. If a copy of the MPL was not distributed with this file, You can obtain one
at <https://mozilla.org/MPL/2.0/>. */
#include "unicontroller.h"
namespace _ {
Unicontroller::Unicontroller(IUA* mixer, ch_t num_channels, Led** leds,
ch_t num_leds, LEDRGB** rgb_leds,
ch_t num_rgb_leds, Button** buttons,
ch_t num_buttons, Pot** pots, ch_t num_pots,
RotaryKnob** knobs, ch_t num_knobs,
RotaryKnobBank** knob_banks, ch_t num_banks,
// PortIn ** port_in , ch_t num_ports_in,
IoExpander** extra_io, ch_t num_expanders)
: brightness_(kDefaultLedBrightness),
red_mix_(kDefaultLedBrightness),
green_mix_(kDefaultLedBrightness),
blue_mix_(kDefaultLedBrightness),
pulse_count_(0),
num_pulses_(0),
spi_index_(0),
channel_count_(num_channels),
num_leds_(num_leds),
num_rgb_leds_(num_rgb_leds),
num_buttons_(num_buttons),
num_pots_(num_pots),
num_knobs_(num_knobs),
num_knob_banks_(num_banks),
// num_ports_in_ (num_ports_in),
num_expanders_(num_expanders),
leds_(leds),
rgb_leds_(rgb_leds),
knobs_(knobs),
buttons_(buttons),
pots_(pots),
extra_io_(extra_io),
// ports_in_ (ports_in),
mixer_(mixer) {
ch_t longest_chain = 0, i;
IUA temp;
for (i = 0; i < num_expanders; ++i) {
temp = extra_io_[i]->GetNumInBytes();
if (temp > longest_chain) {
longest_chain = temp;
}
}
longest_chain_ = longest_chain;
}
RotaryKnob** Unicontroller::GetRotaryKnobs() { return knobs_; }
Pot** Unicontroller::GetPots() { return pots_; }
IoExpander** Unicontroller::GetIoExpanders() { return extra_io_; }
// PortIn** Unicontroller::GetPortsIn () {
// return ports_in_;
//}
Led** Unicontroller::GetLeds() { return leds_; }
void Unicontroller::SetColorBalance(IUA r, IUA g, IUA b) {
red_mix_ = r;
green_mix_ = g;
blue_mix_ = b;
}
void Unicontroller::PollInputs() {
// ISC i;
// IUB value;
// poll potentiometers.
// value = pot_1_->read_u16 ();
// ISC time_us = timer_.read_us ();
// CPU ALU divide rounds down so add 1 to aligned memory if needed.
// ch_t num_words = (num_in_bytes_ & 3) ? 1 : 0;
// num_words += num_in_bytes_ / sizeof (uintptr_t);
// uintptr_t debounced_xor_[num_words]; //<
// for (i = 0; i < num_words; ++i) {
// debounced_xor_[i] = debouncers_[i].Debounce (*((ISC)DigitalIns));
//}
// Debounce General Purpose Input (GPI) Ports.
// for (; i < num_words + NumGPIPorts; ++i) {
// ISC temp = PortsIn[i - num_words],
// result = debouncers_[i - num_words].Debounce (temp);
// debounced_xor_[i] = result;
//}
// Debounce buttons.
// for (i = 0; i < num_buttons_; ++i) {
// buttons_[i].Poll (this);
//}
// Debounce rotary Encoders.
// ISC time = timer_.read_us ();
// for (i = 0; i < num_encoders_; ++i)
// rotary_knobs_[i].Poll (this, i, debounced_xor_, time);
}
inline void Unicontroller::UpdateLEDs() {
ISB count = pulse_count_; //< local copy.
pulse_count_ = (--count < 0) ? num_pulses_ - 1 : count;
//< Increment counter or loop around.
// for (ISC i = numLEDs - 1; i >= 0; --i)
// lights_[i].Update ();
// for (ISC i = 0; i < num_led_ring_sets_; ++i) {
// //led_rings[i].Update (channels_, min_values_, max_values_,
// count >> 8, count);
//}
}
void Unicontroller::UpdateSpiByte() {
// for (ISC i = num_spi_ports_ - 1; i >= 0; --i)
// spi_ports_[i].Update (spi_index_);
if (++spi_index_ < longest_chain_) return;
spi_index_ = 0;
PollInputs();
UpdateLEDs();
}
ISC Unicontroller::GetTimerCount() { return timer_.read_us(); }
} // namespace _