portapack-mayhem/firmware/application/apps/ui_sstvtx.cpp

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/*
* Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc.
* Copyright (C) 2016 Furrtek
*
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* 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_sstvtx.hpp"
#include "string_format.hpp"
#include "portapack.hpp"
#include "hackrf_hal.hpp"
#include <cstring>
#include <stdio.h>
using namespace portapack;
namespace ui {
void SSTVTXView::focus() {
if (file_error)
nav_.display_modal("No files", "No valid bitmaps\nin /sstv directory.", ABORT);
else
options_bitmaps.focus();
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}
void SSTVTXView::read_boundary(uint8_t* const buffer, uint32_t position, uint32_t length) {
uint32_t to_read, split;
uint8_t* buffer_copy = buffer;
bmp_file.seek(position);
// FatFS bug workaround: we can't read across 512 byte boundaries ?!
while (length) {
to_read = (length <= 512) ? length : 512;
if ((position & 512) != ((position + to_read - 1) & 512)) {
// Crossing: do 2 reads before and after the boundary
split = 512 - (position & 511);
bmp_file.read(buffer_copy, split);
bmp_file.read(buffer_copy + split, to_read - split);
} else {
// No crossing, just read normally
bmp_file.read(buffer_copy, to_read);
}
position += to_read;
buffer_copy += to_read;
length -= to_read;
}
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}
void SSTVTXView::paint(Painter&) {
ui::Color line_buffer[160];
Coord line;
uint32_t data_idx, bmp_px, pixel_idx;
data_idx = bmp_header.image_data;
for (line = 0; line < (256 / 2); line++) {
// Buffer a whole line
read_boundary(pixels_buffer, data_idx, sizeof(pixels_buffer));
for (bmp_px = 0; bmp_px < 160; bmp_px++) {
pixel_idx = bmp_px * 3 * 2;
line_buffer[bmp_px] = Color(pixels_buffer[pixel_idx + 2],
pixels_buffer[pixel_idx + 1],
pixels_buffer[pixel_idx + 0]);
}
portapack::display.render_line({16, 80 + 128 - line}, 160, line_buffer);
data_idx += sizeof(pixels_buffer) * 2;
}
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}
SSTVTXView::~SSTVTXView() {
transmitter_model.disable();
baseband::shutdown();
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}
void SSTVTXView::prepare_scanline() {
sstv_scanline scanline_buffer;
uint32_t component, pixel_idx;
uint8_t offset;
if (scanline_counter >= (256 * 3)) {
progressbar.set_value(0);
transmitter_model.disable();
options_bitmaps.set_focusable(true);
tx_view.set_transmitting(false);
return;
}
progressbar.set_value(scanline_counter);
// Scottie 2 scanline:
// (First line: 1200 9ms)
// 1500 1.5ms
// Green
// 1500 1.5ms
// Blue
// 1200 9ms
// 1500 1.5ms
// Red
// Scanline time: 88.064ms (275.2us/pixel @ 320 pixels/line)
component = scanline_counter % 3;
if ((!scanline_counter && tx_sstv_mode->sync_on_first) || (component == tx_sstv_mode->sync_index)) {
// Sync
scanline_buffer.start_tone.frequency = SSTV_F2D(1200);
scanline_buffer.start_tone.duration = tx_sstv_mode->samples_per_sync;
scanline_buffer.gap_tone.frequency = SSTV_F2D(1500);
scanline_buffer.gap_tone.duration = tx_sstv_mode->samples_per_gap;
} else {
// Regular scanline
scanline_buffer.start_tone.duration = 0;
if (tx_sstv_mode->gaps) {
scanline_buffer.gap_tone.frequency = SSTV_F2D(1500);
scanline_buffer.gap_tone.duration = tx_sstv_mode->samples_per_gap;
}
}
if (!component) {
// Read a new line
read_boundary(pixels_buffer,
bmp_header.image_data + ((255 - (scanline_counter / 3)) * sizeof(pixels_buffer)),
sizeof(pixels_buffer));
}
offset = component_map[component];
for (uint32_t bmp_px = 0; bmp_px < 320; bmp_px++) {
pixel_idx = bmp_px * 3;
scanline_buffer.luma[bmp_px] = pixels_buffer[pixel_idx + offset];
}
baseband::set_fifo_data((int8_t*)&scanline_buffer);
scanline_counter++;
}
void SSTVTXView::start_tx() {
// The baseband SSTV TX code (proc_sstv) has a 2-scanline buffer. It is preloaded before
// TX start, and asks for fill-up when a new scanline starts being read. This should
// leave enough time for the code in prepare_scanline() before it ends.
scanline_counter = 0;
prepare_scanline(); // Preload one scanline
transmitter_model.enable();
baseband::set_sstv_data(
tx_sstv_mode->vis_code,
tx_sstv_mode->samples_per_pixel);
// Todo: Find a better way to prevent user from changing bitmap during tx
options_bitmaps.set_focusable(false);
tx_view.focus();
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}
void SSTVTXView::on_bitmap_changed(const size_t index) {
bmp_file.open("/sstv/" + bitmaps[index].string());
bmp_file.read(&bmp_header, sizeof(bmp_header));
set_dirty();
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}
void SSTVTXView::on_mode_changed(const size_t index) {
sstv_color_seq tx_color_sequence;
tx_sstv_mode = &sstv_modes[index];
tx_color_sequence = sstv_modes[index].color_sequence;
if (tx_color_sequence == SSTV_COLOR_RGB) {
component_map[0] = 2;
component_map[1] = 1;
component_map[2] = 0;
} else if (tx_color_sequence == SSTV_COLOR_GBR) {
component_map[0] = 1;
component_map[1] = 0;
component_map[2] = 2;
}
progressbar.set_max(sstv_modes[index].lines * 3);
}
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SSTVTXView::SSTVTXView(
NavigationView& nav)
: nav_(nav) {
std::vector<std::filesystem::path> file_list;
using option_t = std::pair<std::string, int32_t>;
using options_t = std::vector<option_t>;
options_t bitmap_options;
options_t mode_options;
uint32_t c;
// Search for valid bitmaps
file_list = scan_root_files(u"/sstv", u"*.bmp");
if (!file_list.size()) {
file_error = true;
return;
}
for (const auto& file_name : file_list) {
if (!bmp_file.open("/sstv/" + file_name.string()).is_valid()) {
bmp_file.read(&bmp_header, sizeof(bmp_header));
if ((bmp_header.signature == 0x4D42) && // "BM"
(bmp_header.width == 320) && // Must be exactly 320x256 pixels for now
(bmp_header.height == 256) &&
(bmp_header.planes == 1) &&
(bmp_header.bpp == 24) && // 24 bpp only
(bmp_header.compression == 0)) { // No compression
bitmaps.push_back(file_name);
}
}
}
if (!bitmaps.size()) {
file_error = true;
return;
}
// Maybe this could be merged with proc_tones ? Pretty much the same except lots
// of different tones (256+)
baseband::run_image(portapack::spi_flash::image_tag_sstv_tx);
add_children({&labels,
&options_bitmaps,
&options_modes,
&progressbar,
&tx_view});
// Populate file list
for (const auto& bitmap : bitmaps)
bitmap_options.emplace_back(bitmap.string().substr(0, 16), 0);
options_bitmaps.set_options(bitmap_options);
// Populate mode list
for (c = 0; c < SSTV_MODES_NB; c++)
mode_options.emplace_back(sstv_modes[c].name, c);
options_modes.set_options(mode_options);
options_bitmaps.on_change = [this](size_t i, int32_t) {
this->on_bitmap_changed(i);
};
options_bitmaps.set_selected_index(0); // First file
on_bitmap_changed(0);
options_modes.on_change = [this](size_t i, int32_t) {
this->on_mode_changed(i);
};
options_modes.set_selected_index(1); // Scottie 2
on_mode_changed(1);
tx_view.on_edit_frequency = [this, &nav]() {
auto new_view = nav.push<FrequencyKeypadView>(transmitter_model.target_frequency());
new_view->on_changed = [this](rf::Frequency f) {
transmitter_model.set_target_frequency(f);
// NB: The freq field is only updated because TXView's on_show runs again.
};
};
tx_view.on_start = [this]() {
start_tx();
tx_view.set_transmitting(true);
};
tx_view.on_stop = [this]() {
baseband::set_sstv_data(0, 0);
tx_view.set_transmitting(false);
transmitter_model.disable();
options_bitmaps.set_focusable(true);
};
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}
} /* namespace ui */