mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-30 00:32:06 +03:00
509 lines
16 KiB
C
509 lines
16 KiB
C
#include <furi.h>
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#include <furi_hal.h>
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#include <gui/gui.h>
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#include <input/input.h>
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#include <stdlib.h>
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#include "spectrum_analyzer.h"
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#include <lib/drivers/cc1101_regs.h>
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#include "spectrum_analyzer_worker.h"
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typedef struct {
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uint16_t center_freq;
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uint8_t width;
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uint8_t band;
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uint8_t vscroll;
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uint32_t channel0_frequency;
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uint32_t spacing;
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bool mode_change;
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float max_rssi;
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uint8_t max_rssi_dec;
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uint8_t max_rssi_channel;
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uint8_t channel_ss[NUM_CHANNELS];
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} SpectrumAnalyzerModel;
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typedef struct {
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SpectrumAnalyzerModel* model;
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FuriMutex* model_mutex;
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FuriMessageQueue* event_queue;
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ViewPort* view_port;
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Gui* gui;
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SpectrumAnalyzerWorker* worker;
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} SpectrumAnalyzer;
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void spectrum_analyzer_draw_scale(Canvas* canvas, const SpectrumAnalyzerModel* model) {
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// Draw line
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canvas_draw_line(
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canvas, FREQ_START_X, FREQ_BOTTOM_Y, FREQ_START_X + FREQ_LENGTH_X, FREQ_BOTTOM_Y);
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// Draw minor scale
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for(int i = FREQ_START_X; i < FREQ_START_X + FREQ_LENGTH_X; i += 5) {
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canvas_draw_line(canvas, i, FREQ_BOTTOM_Y, i, FREQ_BOTTOM_Y + 2);
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}
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// Draw major scale
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for(int i = FREQ_START_X; i < FREQ_START_X + FREQ_LENGTH_X; i += 25) {
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canvas_draw_line(canvas, i, FREQ_BOTTOM_Y, i, FREQ_BOTTOM_Y + 4);
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}
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// Draw scale tags
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uint16_t tag_left;
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uint16_t tag_center;
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uint16_t tag_right;
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char temp_str[18];
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tag_center = model->center_freq;
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switch(model->width) {
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case NARROW:
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tag_left = model->center_freq - 2;
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tag_right = model->center_freq + 2;
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break;
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case ULTRANARROW:
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tag_left = model->center_freq - 1;
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tag_right = model->center_freq + 1;
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break;
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case ULTRAWIDE:
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tag_left = model->center_freq - 40;
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tag_right = model->center_freq + 40;
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break;
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default:
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tag_left = model->center_freq - 10;
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tag_right = model->center_freq + 10;
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}
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canvas_set_font(canvas, FontSecondary);
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snprintf(temp_str, 18, "%u", tag_left);
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canvas_draw_str_aligned(canvas, FREQ_START_X, 63, AlignCenter, AlignBottom, temp_str);
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snprintf(temp_str, 18, "%u", tag_center);
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canvas_draw_str_aligned(canvas, 128 / 2, 63, AlignCenter, AlignBottom, temp_str);
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snprintf(temp_str, 18, "%u", tag_right);
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canvas_draw_str_aligned(
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canvas, FREQ_START_X + FREQ_LENGTH_X - 1, 63, AlignCenter, AlignBottom, temp_str);
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}
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static void spectrum_analyzer_render_callback(Canvas* const canvas, void* ctx) {
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SpectrumAnalyzer* spectrum_analyzer = ctx;
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//furi_check(furi_mutex_acquire(spectrum_analyzer->model_mutex, FuriWaitForever) == FuriStatusOk);
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SpectrumAnalyzerModel* model = spectrum_analyzer->model;
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spectrum_analyzer_draw_scale(canvas, model);
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for(uint8_t column = 0; column < 128; column++) {
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uint8_t ss = model->channel_ss[column + 2];
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// Compress height to max of 64 values (255>>2)
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uint8_t s = MAX((ss - model->vscroll) >> 2, 0);
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uint8_t y = FREQ_BOTTOM_Y - s; // bar height
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// Draw each bar
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canvas_draw_line(canvas, column, FREQ_BOTTOM_Y, column, y);
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}
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if(model->mode_change) {
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char temp_mode_str[12];
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switch(model->width) {
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case NARROW:
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strncpy(temp_mode_str, "NARROW", 12);
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break;
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case ULTRANARROW:
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strncpy(temp_mode_str, "ULTRANARROW", 12);
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break;
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case ULTRAWIDE:
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strncpy(temp_mode_str, "ULTRAWIDE", 12);
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break;
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default:
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strncpy(temp_mode_str, "WIDE", 12);
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break;
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}
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// Current mode label
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char tmp_str[21];
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snprintf(tmp_str, 21, "Mode: %s", temp_mode_str);
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canvas_draw_str_aligned(canvas, 127, 4, AlignRight, AlignTop, tmp_str);
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}
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// Draw cross and label
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if(model->max_rssi > PEAK_THRESHOLD) {
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// Compress height to max of 64 values (255>>2)
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uint8_t max_y = MAX((model->max_rssi_dec - model->vscroll) >> 2, 0);
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max_y = (FREQ_BOTTOM_Y - max_y);
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// Cross
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int16_t x1, x2, y1, y2;
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x1 = model->max_rssi_channel - 2 - 2;
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if(x1 < 0) x1 = 0;
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y1 = max_y - 2;
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if(y1 < 0) y1 = 0;
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x2 = model->max_rssi_channel - 2 + 2;
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if(x2 > 127) x2 = 127;
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y2 = max_y + 2;
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if(y2 > 63) y2 = 63; // SHOULD NOT HAPPEN CHECK!
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canvas_draw_line(canvas, x1, y1, x2, y2);
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x1 = model->max_rssi_channel - 2 + 2;
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if(x1 > 127) x1 = 127;
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y1 = max_y - 2;
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if(y1 < 0) y1 = 0;
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x2 = model->max_rssi_channel - 2 - 2;
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if(x2 < 0) x2 = 0;
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y2 = max_y + 2;
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if(y2 > 63) y2 = 63; // SHOULD NOT HAPPEN CHECK!
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canvas_draw_line(canvas, (uint8_t)x1, (uint8_t)y1, (uint8_t)x2, (uint8_t)y2);
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// Label
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char temp_str[36];
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snprintf(
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temp_str,
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36,
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"Peak: %3.2f Mhz %3.1f dbm",
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((double)(model->channel0_frequency + (model->max_rssi_channel * model->spacing)) /
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1000000),
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(double)model->max_rssi);
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canvas_draw_str_aligned(canvas, 127, 0, AlignRight, AlignTop, temp_str);
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}
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//furi_mutex_release(spectrum_analyzer->model_mutex);
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// FURI_LOG_D("Spectrum", "model->vscroll %u", model->vscroll);
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}
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static void spectrum_analyzer_input_callback(InputEvent* input_event, void* ctx) {
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SpectrumAnalyzer* spectrum_analyzer = ctx;
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// Only handle short presses
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if(input_event->type == InputTypeShort) {
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furi_message_queue_put(spectrum_analyzer->event_queue, input_event, FuriWaitForever);
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}
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}
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static void spectrum_analyzer_worker_callback(
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void* channel_ss,
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float max_rssi,
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uint8_t max_rssi_dec,
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uint8_t max_rssi_channel,
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void* context) {
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SpectrumAnalyzer* spectrum_analyzer = context;
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furi_check(
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furi_mutex_acquire(spectrum_analyzer->model_mutex, FuriWaitForever) == FuriStatusOk);
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SpectrumAnalyzerModel* model = (SpectrumAnalyzerModel*)spectrum_analyzer->model;
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memcpy(model->channel_ss, (uint8_t*)channel_ss, sizeof(uint8_t) * NUM_CHANNELS);
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model->max_rssi = max_rssi;
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model->max_rssi_dec = max_rssi_dec;
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model->max_rssi_channel = max_rssi_channel;
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furi_mutex_release(spectrum_analyzer->model_mutex);
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view_port_update(spectrum_analyzer->view_port);
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}
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void spectrum_analyzer_calculate_frequencies(SpectrumAnalyzerModel* model) {
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// REDO ALL THIS. CALCULATE ONLY WITH SPACING!
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uint8_t new_band;
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uint32_t min_hz;
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uint32_t max_hz;
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uint8_t margin;
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uint8_t step;
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uint16_t upper_limit;
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uint16_t lower_limit;
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uint16_t next_up;
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uint16_t next_down;
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uint8_t next_band_up;
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uint8_t next_band_down;
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switch(model->width) {
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case NARROW:
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margin = NARROW_MARGIN;
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step = NARROW_STEP;
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model->spacing = NARROW_SPACING;
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break;
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case ULTRANARROW:
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margin = ULTRANARROW_MARGIN;
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step = ULTRANARROW_STEP;
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model->spacing = ULTRANARROW_SPACING;
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break;
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case ULTRAWIDE:
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margin = ULTRAWIDE_MARGIN;
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step = ULTRAWIDE_STEP;
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model->spacing = ULTRAWIDE_SPACING;
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/* nearest 20 MHz step */
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model->center_freq = ((model->center_freq + 10) / 20) * 20;
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break;
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default:
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margin = WIDE_MARGIN;
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step = WIDE_STEP;
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model->spacing = WIDE_SPACING;
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/* nearest 5 MHz step */
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model->center_freq = ((model->center_freq + 2) / 5) * 5;
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break;
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}
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/* handle cases near edges of bands */
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if(model->center_freq > EDGE_900) {
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new_band = BAND_900;
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upper_limit = UPPER(MAX_900, margin, step);
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lower_limit = LOWER(MIN_900, margin, step);
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next_up = LOWER(MIN_300, margin, step);
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next_down = UPPER(MAX_400, margin, step);
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next_band_up = BAND_300;
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next_band_down = BAND_400;
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} else if(model->center_freq > EDGE_400) {
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new_band = BAND_400;
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upper_limit = UPPER(MAX_400, margin, step);
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lower_limit = LOWER(MIN_400, margin, step);
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next_up = LOWER(MIN_900, margin, step);
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next_down = UPPER(MAX_300, margin, step);
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next_band_up = BAND_900;
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next_band_down = BAND_300;
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} else {
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new_band = BAND_300;
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upper_limit = UPPER(MAX_300, margin, step);
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lower_limit = LOWER(MIN_300, margin, step);
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next_up = LOWER(MIN_400, margin, step);
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next_down = UPPER(MAX_900, margin, step);
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next_band_up = BAND_400;
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next_band_down = BAND_900;
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}
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if(model->center_freq > upper_limit) {
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model->center_freq = upper_limit;
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if(new_band == model->band) {
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new_band = next_band_up;
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model->center_freq = next_up;
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}
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} else if(model->center_freq < lower_limit) {
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model->center_freq = lower_limit;
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if(new_band == model->band) {
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new_band = next_band_down;
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model->center_freq = next_down;
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}
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}
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model->band = new_band;
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/* doing everything in Hz from here on */
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switch(model->band) {
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case BAND_400:
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min_hz = MIN_400 * 1000000;
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max_hz = MAX_400 * 1000000;
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break;
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case BAND_300:
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min_hz = MIN_300 * 1000000;
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max_hz = MAX_300 * 1000000;
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break;
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default:
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min_hz = MIN_900 * 1000000;
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max_hz = MAX_900 * 1000000;
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break;
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}
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model->channel0_frequency =
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model->center_freq * 1000000 - (model->spacing * ((NUM_CHANNELS / 2) + 1));
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// /* calibrate upper channels */
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// hz = model->center_freq * 1000000;
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// max_chan = NUM_CHANNELS / 2;
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// while (hz <= max_hz && max_chan < NUM_CHANNELS) {
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// instance->chan_table[max_chan].frequency = hz;
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// FURI_LOG_T("Spectrum", "calibrate_freq ch[%u]: %lu", max_chan, hz);
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// hz += model->spacing;
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// max_chan++;
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// }
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// /* calibrate lower channels */
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// hz = instance->freq * 1000000 - model->spacing;
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// min_chan = NUM_CHANNELS / 2;
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// while (hz >= min_hz && min_chan > 0) {
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// min_chan--;
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// instance->chan_table[min_chan].frequency = hz;
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// FURI_LOG_T("Spectrum", "calibrate_freq ch[%u]: %lu", min_chan, hz);
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// hz -= model->spacing;
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// }
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model->max_rssi = -200.0;
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model->max_rssi_dec = 0;
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FURI_LOG_D("Spectrum", "setup_frequencies - max_hz: %u - min_hz: %u", max_hz, min_hz);
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FURI_LOG_D("Spectrum", "center_freq: %u", model->center_freq);
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FURI_LOG_D(
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"Spectrum",
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"ch[0]: %lu - ch[%u]: %lu",
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model->channel0_frequency,
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NUM_CHANNELS - 1,
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model->channel0_frequency + ((NUM_CHANNELS - 1) * model->spacing));
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}
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SpectrumAnalyzer* spectrum_analyzer_alloc() {
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SpectrumAnalyzer* instance = malloc(sizeof(SpectrumAnalyzer));
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instance->model = malloc(sizeof(SpectrumAnalyzerModel));
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SpectrumAnalyzerModel* model = instance->model;
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for(uint8_t ch = 0; ch < NUM_CHANNELS - 1; ch++) {
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model->channel_ss[ch] = 0;
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}
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model->max_rssi_dec = 0;
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model->max_rssi_channel = 0;
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model->max_rssi = PEAK_THRESHOLD - 1; // Should initializar to < PEAK_THRESHOLD
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model->center_freq = DEFAULT_FREQ;
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model->width = WIDE;
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model->band = BAND_400;
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model->vscroll = DEFAULT_VSCROLL;
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instance->model_mutex = furi_mutex_alloc(FuriMutexTypeNormal);
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instance->event_queue = furi_message_queue_alloc(8, sizeof(InputEvent));
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instance->worker = spectrum_analyzer_worker_alloc();
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spectrum_analyzer_worker_set_callback(
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instance->worker, spectrum_analyzer_worker_callback, instance);
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// Set system callbacks
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instance->view_port = view_port_alloc();
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view_port_draw_callback_set(instance->view_port, spectrum_analyzer_render_callback, instance);
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view_port_input_callback_set(instance->view_port, spectrum_analyzer_input_callback, instance);
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// Open GUI and register view_port
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instance->gui = furi_record_open("gui");
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gui_add_view_port(instance->gui, instance->view_port, GuiLayerFullscreen);
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return instance;
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}
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void spectrum_analyzer_free(SpectrumAnalyzer* instance) {
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// view_port_enabled_set(view_port, false);
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gui_remove_view_port(instance->gui, instance->view_port);
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furi_record_close("gui");
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view_port_free(instance->view_port);
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spectrum_analyzer_worker_free(instance->worker);
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furi_message_queue_free(instance->event_queue);
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furi_mutex_free(instance->model_mutex);
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free(instance->model);
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free(instance);
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furi_hal_subghz_idle();
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furi_hal_subghz_sleep();
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}
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int32_t spectrum_analyzer_app(void* p) {
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UNUSED(p);
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SpectrumAnalyzer* spectrum_analyzer = spectrum_analyzer_alloc();
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InputEvent input;
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FURI_LOG_D("Spectrum", "Main Loop - Starting worker");
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furi_delay_ms(50);
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spectrum_analyzer_worker_start(spectrum_analyzer->worker);
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FURI_LOG_D("Spectrum", "Main Loop - Wait on queue");
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furi_delay_ms(50);
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while(furi_message_queue_get(spectrum_analyzer->event_queue, &input, FuriWaitForever) ==
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FuriStatusOk) {
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furi_check(
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furi_mutex_acquire(spectrum_analyzer->model_mutex, FuriWaitForever) == FuriStatusOk);
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FURI_LOG_D("Spectrum", "Main Loop - Input: %u", input.key);
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SpectrumAnalyzerModel* model = spectrum_analyzer->model;
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uint8_t vstep = VERTICAL_SHORT_STEP;
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uint8_t hstep;
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bool exit_loop = false;
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switch(model->width) {
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case NARROW:
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hstep = NARROW_STEP;
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break;
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case ULTRANARROW:
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hstep = ULTRANARROW_STEP;
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break;
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case ULTRAWIDE:
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hstep = ULTRAWIDE_STEP;
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break;
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default:
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hstep = WIDE_STEP;
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break;
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}
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switch(input.key) {
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case InputKeyUp:
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model->vscroll = MAX(model->vscroll - vstep, MIN_VSCROLL);
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FURI_LOG_D("Spectrum", "Vscroll: %u", model->vscroll);
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break;
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case InputKeyDown:
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model->vscroll = MIN(model->vscroll + vstep, MAX_VSCROLL);
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FURI_LOG_D("Spectrum", "Vscroll: %u", model->vscroll);
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break;
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case InputKeyRight:
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model->center_freq += hstep;
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FURI_LOG_D("Spectrum", "center_freq: %lu", model->center_freq);
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spectrum_analyzer_calculate_frequencies(model);
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spectrum_analyzer_worker_set_frequencies(
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spectrum_analyzer->worker, model->channel0_frequency, model->spacing, model->width);
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break;
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case InputKeyLeft:
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model->center_freq -= hstep;
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spectrum_analyzer_calculate_frequencies(model);
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spectrum_analyzer_worker_set_frequencies(
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spectrum_analyzer->worker, model->channel0_frequency, model->spacing, model->width);
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FURI_LOG_D("Spectrum", "center_freq: %lu", model->center_freq);
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break;
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case InputKeyOk: {
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switch(model->width) {
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case WIDE:
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model->width = NARROW;
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break;
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case NARROW:
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model->width = ULTRANARROW;
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break;
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case ULTRANARROW:
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model->width = ULTRAWIDE;
|
|
break;
|
|
case ULTRAWIDE:
|
|
model->width = WIDE;
|
|
break;
|
|
default:
|
|
model->width = WIDE;
|
|
break;
|
|
}
|
|
}
|
|
|
|
model->mode_change = true;
|
|
view_port_update(spectrum_analyzer->view_port);
|
|
|
|
furi_delay_ms(1000);
|
|
|
|
model->mode_change = false;
|
|
spectrum_analyzer_calculate_frequencies(model);
|
|
spectrum_analyzer_worker_set_frequencies(
|
|
spectrum_analyzer->worker, model->channel0_frequency, model->spacing, model->width);
|
|
FURI_LOG_D("Spectrum", "Width: %u", model->width);
|
|
break;
|
|
case InputKeyBack:
|
|
exit_loop = true;
|
|
break;
|
|
}
|
|
|
|
furi_mutex_release(spectrum_analyzer->model_mutex);
|
|
view_port_update(spectrum_analyzer->view_port);
|
|
if(exit_loop == true) break;
|
|
}
|
|
|
|
spectrum_analyzer_worker_stop(spectrum_analyzer->worker);
|
|
|
|
spectrum_analyzer_free(spectrum_analyzer);
|
|
|
|
return 0;
|
|
} |