/* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek * * This file is part of PortaPack. * * This program 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 2, or (at your option) * any later version. * * This program 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 this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "ui_receiver.hpp" #include "ui_freqman.hpp" #include "portapack.hpp" using namespace portapack; #include "string_format.hpp" #include "max283x.hpp" namespace ui { /* FrequencyField ********************************************************/ FrequencyField::FrequencyField( const Point parent_pos) : Widget{{parent_pos, {8 * 10, 16}}}, length_{11}, range(rf::tuning_range) { set_focusable(true); } rf::Frequency FrequencyField::value() const { return value_; } void FrequencyField::set_value(rf::Frequency new_value) { new_value = clamp_value(new_value); if (new_value != value_) { value_ = new_value; if (on_change) { on_change(value_); } set_dirty(); } } void FrequencyField::set_step(rf::Frequency new_value) { step = new_value; // TODO: Quantize current frequency to a step of the new size? } void FrequencyField::paint(Painter& painter) { const std::string str_value = to_string_short_freq(value_); const auto paint_style = has_focus() ? style().invert() : style(); painter.draw_string( screen_pos(), paint_style, str_value); } bool FrequencyField::on_key(const ui::KeyEvent event) { if (event == ui::KeyEvent::Select) { if (on_edit) { on_edit(); return true; } } return false; } bool FrequencyField::on_encoder(const EncoderEvent delta) { if (step == 0) { // 'Auto' mode.' auto ms = RTT2MS(halGetCounterValue()); auto delta_ms = last_ms_ <= ms ? ms - last_ms_ : ms; last_ms_ = ms; // The goal is to map 'scale' to a range of about 10 to 10M. // The faster the encoder is rotated, the larger the step. // Linear doesn't feel right. Hyperbolic felt better. // To get these magic numbers, I graphed the function until the // curve shape seemed about right then tested on device. delta_ms = std::min(145ull, delta_ms) + 5; // Prevent DIV/0 int64_t scale = 200'000'000 / (0.001'55 * pow(delta_ms, 5.45)) + 8; set_value(value() + (delta * scale)); } else { set_value(value() + (delta * step)); } return true; } bool FrequencyField::on_touch(const TouchEvent event) { if (event.type == TouchEvent::Type::Start) { focus(); } return true; } void FrequencyField::on_focus() { if (on_show_options) { on_show_options(); } } rf::Frequency FrequencyField::clamp_value(rf::Frequency value) { return range.clip(value); } /* FrequencyKeypadView ***************************************************/ bool FrequencyKeypadView::on_encoder(const EncoderEvent delta) { focused_button += delta; if (focused_button < 0) { focused_button = buttons.size() - 1; } else if (focused_button >= (int16_t)buttons.size()) { focused_button = 0; } buttons[focused_button].focus(); return true; } FrequencyKeypadView::FrequencyKeypadView( NavigationView& nav, const rf::Frequency value) { add_child(&text_value); const auto button_fn = [this](Button& button) { this->on_button(button); }; const char* const key_caps = "123456789<0."; int n = 0; for (auto& button : buttons) { add_child(&button); const std::string label{ key_caps[n]}; button.id = n; button.on_highlight = [this](Button& button) { focused_button = button.id; }; button.on_select = button_fn; button.set_parent_rect({(n % 3) * button_w, (n / 3) * button_h + 24, button_w, button_h}); button.set_text(label); n++; } add_children({&button_save, &button_load, &button_close}); button_save.on_select = [this, &nav](Button&) { nav.push(this->value()); }; button_load.on_select = [this, &nav](Button&) { auto load_view = nav.push(); load_view->on_frequency_loaded = [this](rf::Frequency value) { set_value(value); }; }; button_close.on_select = [this, &nav](Button&) { if (on_changed) { on_changed(this->value()); } nav.pop(); }; set_value(value); } void FrequencyKeypadView::focus() { button_close.focus(); } rf::Frequency FrequencyKeypadView::value() const { return mhz.as_int() * 1000000ULL + submhz.as_int() * submhz_base; } void FrequencyKeypadView::set_value(const rf::Frequency new_value) { mhz.set(new_value / 1000000); mhz.remove_leading_zeros(); submhz.set((new_value % 1000000) / submhz_base); submhz.remove_trailing_zeros(); update_text(); } void FrequencyKeypadView::on_button(Button& button) { const auto s = button.text(); if (s == ".") { field_toggle(); } else if (s == "<") { digit_delete(); } else { digit_add(s[0]); } update_text(); } void FrequencyKeypadView::digit_add(const char c) { if (state == State::DigitMHz) { if (clear_field_if_digits_entered) { mhz.clear(); } mhz.add_digit(c); } else { submhz.add_digit(c); } clear_field_if_digits_entered = false; } void FrequencyKeypadView::digit_delete() { if (state == State::DigitMHz) { mhz.delete_digit(); } else { submhz.delete_digit(); } } void FrequencyKeypadView::field_toggle() { if (state == State::DigitMHz) { state = State::DigitSubMHz; submhz.clear(); } else { state = State::DigitMHz; clear_field_if_digits_entered = true; } } void FrequencyKeypadView::update_text() { const auto s = mhz.as_string() + "." + submhz.as_string(); text_value.set(s); } /* FrequencyOptionsView **************************************************/ FrequencyOptionsView::FrequencyOptionsView( const Rect parent_rect, const Style* const style) : View{parent_rect} { set_style(style); field_step.on_change = [this](size_t n, OptionsField::value_t v) { (void)n; this->on_step_changed(v); }; field_ppm.on_change = [this](int32_t v) { this->on_reference_ppm_correction_changed(v); }; add_children({ &text_step, &field_step, }); if (portapack::clock_manager.get_reference().source == ClockManager::ReferenceSource::Xtal) { add_child(&field_ppm); add_child(&text_ppm); } } void FrequencyOptionsView::set_step(rf::Frequency f) { field_step.set_by_value(f); } void FrequencyOptionsView::set_reference_ppm_correction(int32_t v) { field_ppm.set_value(v); } void FrequencyOptionsView::on_step_changed(rf::Frequency v) { if (on_change_step) { on_change_step(v); } } void FrequencyOptionsView::on_reference_ppm_correction_changed(int32_t v) { if (on_change_reference_ppm_correction) { on_change_reference_ppm_correction(v); } } /* RFAmpField ************************************************************/ RFAmpField::RFAmpField( Point parent_pos) : NumberField{ parent_pos, 1, {0, 1}, 1, ' ', } { set_value(receiver_model.rf_amp()); on_change = [](int32_t v) { receiver_model.set_rf_amp(v); }; } /* RadioGainOptionsView **************************************************/ RadioGainOptionsView::RadioGainOptionsView( const Rect parent_rect, const Style* const style) : View{parent_rect} { set_style(style); add_children({ &label_rf_amp, &field_rf_amp, }); } /* LNAGainField **********************************************************/ LNAGainField::LNAGainField( Point parent_pos) : NumberField{ parent_pos, 2, {max283x::lna::gain_db_range.minimum, max283x::lna::gain_db_range.maximum}, max283x::lna::gain_db_step, ' ', } { set_value(receiver_model.lna()); on_change = [](int32_t v) { receiver_model.set_lna(v); }; } void LNAGainField::on_focus() { if (on_show_options) { on_show_options(); } } /* VGAGainField **********************************************************/ VGAGainField::VGAGainField( Point parent_pos) : NumberField{ parent_pos, 2, {max283x::vga::gain_db_range.minimum, max283x::vga::gain_db_range.maximum}, max283x::vga::gain_db_step, ' ', } { set_value(receiver_model.vga()); on_change = [](int32_t v) { receiver_model.set_vga(v); }; } void VGAGainField::on_focus() { if (on_show_options) { on_show_options(); } } /* AudioVolumeField *******************************************************/ AudioVolumeField::AudioVolumeField( Point parent_pos) : NumberField{ parent_pos, /* length */ 2, /* range */ {0, 99}, /* step */ 1, /* fill char */ ' '} { set_value(receiver_model.normalized_headphone_volume()); on_change = [](int32_t v) { receiver_model.set_normalized_headphone_volume(v); }; } } /* namespace ui */