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DSRemote/decode_dialog.cpp

1457 wiersze
40 KiB
C++
Czysty Bezpośredni odnośnik Wina Historia

/*
***************************************************************************
*
* Author: Teunis van Beelen
*
* Copyright (C) 2016 - 2023 Teunis van Beelen
*
* Email: teuniz@protonmail.com
*
***************************************************************************
*
* 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 3 of the License, 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. If not, see <http://www.gnu.org/licenses/>.
*
***************************************************************************
*/
#include "decode_dialog.h"
UI_decoder_window::UI_decoder_window(QWidget *w_parent)
{
mainwindow = (UI_Mainwindow *)w_parent;
devparms = &mainwindow->devparms;
setWindowTitle("Decode");
setMinimumSize(690, 525);
setMaximumSize(690, 525);
tabholder = new QTabWidget(this);
tabholder->setGeometry(0, 0, 250, 455);
tab_par = new QWidget;
tab_uart = new QWidget;
tab_spi = new QWidget;
tab_iic = new QWidget;
spi_clk_src_label = new QLabel(tab_spi);
spi_clk_src_label->setGeometry(10, 20, 100, 25);
spi_clk_src_label->setText("Clock");
spi_clk_src_combobox = new QComboBox(tab_spi);
spi_clk_src_combobox->setGeometry(130, 20, 100, 25);
spi_clk_src_combobox->addItem("Ch. 1");
spi_clk_src_combobox->addItem("Ch. 2");
if(devparms->channel_cnt == 4)
{
spi_clk_src_combobox->addItem("Ch. 3");
spi_clk_src_combobox->addItem("Ch. 4");
}
spi_clk_src_combobox->setCurrentIndex(devparms->math_decode_spi_clk);
threshold_1_label = new QLabel(this);
threshold_1_label->setGeometry(270, 42, 100, 25);
threshold_1_label->setText("Threshold");
threshold_1_dspinbox = new QDoubleSpinBox(this);
threshold_1_dspinbox->setGeometry(370, 42, 100, 25);
threshold_1_dspinbox->setDecimals(3);
threshold_1_dspinbox->setRange(-20.0, 20.0);
threshold_auto_combobox = new QComboBox(this);
threshold_auto_combobox->setGeometry(510, 42, 140, 25);
threshold_auto_combobox->addItem("Manual threshold");
threshold_auto_combobox->addItem("Auto threshold");
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold_auto = 0;
threshold_auto_combobox->setCurrentIndex(0);
threshold_auto_combobox->setEnabled(false);
}
else
{
threshold_auto_combobox->setCurrentIndex(devparms->math_decode_threshold_auto);
}
spi_mosi_src_label = new QLabel(tab_spi);
spi_mosi_src_label->setGeometry(10, 55, 100, 25);
spi_mosi_src_label->setText("MOSI");
spi_mosi_src_combobox = new QComboBox(tab_spi);
spi_mosi_src_combobox->setGeometry(130, 55, 100, 25);
spi_mosi_src_combobox->addItem("Off");
spi_mosi_src_combobox->addItem("Ch. 1");
spi_mosi_src_combobox->addItem("Ch. 2");
if(devparms->channel_cnt == 4)
{
spi_mosi_src_combobox->addItem("Ch. 3");
spi_mosi_src_combobox->addItem("Ch. 4");
}
spi_mosi_src_combobox->setCurrentIndex(devparms->math_decode_spi_mosi);
threshold_2_label = new QLabel(this);
threshold_2_label->setGeometry(270, 77, 100, 25);
threshold_2_label->setText("Threshold");
threshold_2_dspinbox = new QDoubleSpinBox(this);
threshold_2_dspinbox->setGeometry(370, 77, 100, 25);
threshold_2_dspinbox->setDecimals(3);
threshold_2_dspinbox->setRange(-20.0, 20.0);
spi_miso_src_label = new QLabel(tab_spi);
spi_miso_src_label->setGeometry(10, 90, 100, 25);
spi_miso_src_label->setText("MISO");
spi_miso_src_combobox = new QComboBox(tab_spi);
spi_miso_src_combobox->setGeometry(130, 90, 100, 25);
spi_miso_src_combobox->addItem("Off");
spi_miso_src_combobox->addItem("Ch. 1");
spi_miso_src_combobox->addItem("Ch. 2");
if(devparms->channel_cnt == 4)
{
spi_miso_src_combobox->addItem("Ch. 3");
spi_miso_src_combobox->addItem("Ch. 4");
}
spi_miso_src_combobox->setCurrentIndex(devparms->math_decode_spi_miso);
threshold_3_label = new QLabel(this);
threshold_3_label->setGeometry(270, 112, 100, 25);
threshold_3_label->setText("Threshold");
threshold_3_dspinbox = new QDoubleSpinBox(this);
threshold_3_dspinbox->setGeometry(370, 112, 100, 25);
threshold_3_dspinbox->setDecimals(3);
threshold_3_dspinbox->setRange(-20.0, 20.0);
spi_cs_src_label = new QLabel(tab_spi);
spi_cs_src_label->setGeometry(10, 125, 100, 25);
spi_cs_src_label->setText("CS");
spi_cs_src_combobox = new QComboBox(tab_spi);
spi_cs_src_combobox->setGeometry(130, 125, 100, 25);
spi_cs_src_combobox->addItem("Off");
spi_cs_src_combobox->addItem("Ch. 1");
spi_cs_src_combobox->addItem("Ch. 2");
if(devparms->channel_cnt == 4)
{
spi_cs_src_combobox->addItem("Ch. 3");
spi_cs_src_combobox->addItem("Ch. 4");
}
if(devparms->math_decode_spi_mode)
{
spi_cs_src_combobox->setCurrentIndex(devparms->math_decode_spi_cs);
}
threshold_4_label = new QLabel(this);
threshold_4_label->setGeometry(270, 147, 100, 25);
threshold_4_label->setText("Threshold");
threshold_4_dspinbox = new QDoubleSpinBox(this);
threshold_4_dspinbox->setGeometry(370, 147, 100, 25);
threshold_4_dspinbox->setDecimals(3);
threshold_4_dspinbox->setRange(-20.0, 20.0);
spi_select_label = new QLabel(tab_spi);
spi_select_label->setGeometry(10, 160, 100, 25);
spi_select_label->setText("CS active level");
spi_select_combobox = new QComboBox(tab_spi);
spi_select_combobox->setGeometry(130, 160, 100, 25);
spi_select_combobox->addItem("Low");
spi_select_combobox->addItem("High");
spi_select_combobox->setCurrentIndex(devparms->math_decode_spi_select);
format_label = new QLabel(this);
format_label->setGeometry(270, 182, 100, 25);
format_label->setText("Format");
format_combobox = new QComboBox(this);
format_combobox->setGeometry(370, 182, 100, 25);
format_combobox->addItem("Hexadecimal");
format_combobox->addItem("ASCII");
format_combobox->addItem("Decimal");
format_combobox->addItem("Binary");
if(devparms->modelserie == 1)
{
format_combobox->addItem("Line");
}
format_combobox->setCurrentIndex(devparms->math_decode_format);
spi_mode_label = new QLabel(tab_spi);
spi_mode_label->setGeometry(10, 195, 100, 25);
spi_mode_label->setText("Mode");
spi_mode_combobox = new QComboBox(tab_spi);
spi_mode_combobox->setGeometry(130, 195, 100, 25);
spi_mode_combobox->addItem("Timeout");
spi_mode_combobox->addItem("CS");
spi_mode_combobox->setCurrentIndex(devparms->math_decode_spi_mode);
spi_timeout_label = new QLabel(tab_spi);
spi_timeout_label->setGeometry(10, 230, 100, 25);
spi_timeout_label->setText("Timeout");
spi_timeout_dspinbox = new QDoubleSpinBox(tab_spi);
spi_timeout_dspinbox->setGeometry(110, 230, 120, 25);
spi_timeout_dspinbox->setSuffix(" Sec.");
spi_timeout_dspinbox->setDecimals(7);
if(devparms->modelserie != 1)
{
spi_timeout_dspinbox->setValue(0.0);
spi_timeout_dspinbox->setEnabled(false);
}
else
{
spi_timeout_dspinbox->setRange(1e-7, 1.0);
spi_timeout_dspinbox->setValue(devparms->math_decode_spi_timeout);
}
spi_polarity_label = new QLabel(tab_spi);
spi_polarity_label->setGeometry(10, 265, 100, 25);
spi_polarity_label->setText("Polarity");
spi_polarity_combobox = new QComboBox(tab_spi);
spi_polarity_combobox->setGeometry(130, 265, 100, 25);
spi_polarity_combobox->addItem("Negative");
spi_polarity_combobox->addItem("Positive");
spi_polarity_combobox->setCurrentIndex(devparms->math_decode_spi_pol);
spi_edge_label = new QLabel(tab_spi);
spi_edge_label->setGeometry(10, 300, 100, 25);
spi_edge_label->setText("Edge");
spi_edge_combobox = new QComboBox(tab_spi);
spi_edge_combobox->setGeometry(130, 300, 100, 25);
spi_edge_combobox->addItem("Falling");
spi_edge_combobox->addItem("Rising");
spi_edge_combobox->setCurrentIndex(devparms->math_decode_spi_edge);
spi_endian_label = new QLabel(tab_spi);
spi_endian_label->setGeometry(10, 335, 100, 25);
spi_endian_label->setText("Endian");
spi_endian_combobox = new QComboBox(tab_spi);
spi_endian_combobox->setGeometry(130, 335, 100, 25);
spi_endian_combobox->addItem("LSB");
spi_endian_combobox->addItem("MSB");
spi_endian_combobox->setCurrentIndex(devparms->math_decode_spi_end);
spi_width_label = new QLabel(tab_spi);
spi_width_label->setGeometry(10, 370, 100, 25);
spi_width_label->setText("Width");
spi_width_spinbox = new QSpinBox(tab_spi);
spi_width_spinbox->setGeometry(130, 370, 100, 25);
spi_width_spinbox->setSuffix(" bits");
spi_width_spinbox->setRange(8, 32);
spi_width_spinbox->setValue(devparms->math_decode_spi_width);
trace_pos_label = new QLabel(this);
trace_pos_label->setGeometry(270, 392, 100, 25);
trace_pos_label->setText("Vertical position");
trace_pos_spinbox = new QSpinBox(this);
trace_pos_spinbox->setGeometry(370, 392, 100, 25);
if(devparms->modelserie != 1)
{
trace_pos_spinbox->setRange(-163, 143);
}
else
{
trace_pos_spinbox->setRange(50, 350);
}
trace_pos_spinbox->setValue(devparms->math_decode_pos);
uart_tx_src_label = new QLabel(tab_uart);
uart_tx_src_label->setGeometry(10, 20, 100, 25);
uart_tx_src_label->setText("TX");
uart_tx_src_combobox = new QComboBox(tab_uart);
uart_tx_src_combobox->setGeometry(130, 20, 100, 25);
uart_tx_src_combobox->addItem("Off");
uart_tx_src_combobox->addItem("Ch. 1");
uart_tx_src_combobox->addItem("Ch. 2");
if(devparms->channel_cnt == 4)
{
uart_tx_src_combobox->addItem("Ch. 3");
uart_tx_src_combobox->addItem("Ch. 4");
}
uart_tx_src_combobox->setCurrentIndex(devparms->math_decode_uart_tx);
uart_rx_src_label = new QLabel(tab_uart);
uart_rx_src_label->setGeometry(10, 55, 100, 25);
uart_rx_src_label->setText("RX");
uart_rx_src_combobox = new QComboBox(tab_uart);
uart_rx_src_combobox->setGeometry(130, 55, 100, 25);
uart_rx_src_combobox->addItem("Off");
uart_rx_src_combobox->addItem("Ch. 1");
uart_rx_src_combobox->addItem("Ch. 2");
if(devparms->channel_cnt == 4)
{
uart_rx_src_combobox->addItem("Ch. 3");
uart_rx_src_combobox->addItem("Ch. 4");
}
uart_rx_src_combobox->setCurrentIndex(devparms->math_decode_uart_rx);
uart_polarity_label = new QLabel(tab_uart);
uart_polarity_label->setGeometry(10, 90, 100, 25);
uart_polarity_label->setText("Polarity");
uart_polarity_combobox = new QComboBox(tab_uart);
uart_polarity_combobox->setGeometry(130, 90, 100, 25);
uart_polarity_combobox->addItem("Negative");
uart_polarity_combobox->addItem("Positive");
uart_polarity_combobox->setCurrentIndex(devparms->math_decode_uart_pol);
uart_endian_label = new QLabel(tab_uart);
uart_endian_label->setGeometry(10, 125, 100, 25);
uart_endian_label->setText("Endian");
uart_endian_combobox = new QComboBox(tab_uart);
uart_endian_combobox->setGeometry(130, 125, 100, 25);
uart_endian_combobox->addItem("LSB");
uart_endian_combobox->addItem("MSB");
uart_endian_combobox->setCurrentIndex(devparms->math_decode_uart_end);
uart_baud_label = new QLabel(tab_uart);
uart_baud_label->setGeometry(10, 160, 100, 25);
uart_baud_label->setText("Baudrate");
uart_baud_spinbox = new QSpinBox(tab_uart);
uart_baud_spinbox->setGeometry(130, 160, 100, 25);
uart_baud_spinbox->setRange(110, 20000000);
uart_baud_spinbox->setValue(devparms->math_decode_uart_baud);
uart_width_label = new QLabel(tab_uart);
uart_width_label->setGeometry(10, 195, 100, 25);
uart_width_label->setText("Data bits");
uart_width_combobox = new QComboBox(tab_uart);
uart_width_combobox->setGeometry(130, 195, 100, 25);
uart_width_combobox->addItem("5");
uart_width_combobox->addItem("6");
uart_width_combobox->addItem("7");
uart_width_combobox->addItem("8");
if((devparms->math_decode_uart_width >= 5) && (devparms->math_decode_uart_width <= 8))
{
uart_width_combobox->setCurrentIndex(devparms->math_decode_uart_width - 5);
}
uart_stop_label = new QLabel(tab_uart);
uart_stop_label->setGeometry(10, 230, 100, 25);
uart_stop_label->setText("Stop bits");
uart_stop_combobox = new QComboBox(tab_uart);
uart_stop_combobox->setGeometry(130, 230, 100, 25);
uart_stop_combobox->addItem("1");
uart_stop_combobox->addItem("1.5");
uart_stop_combobox->addItem("2");
uart_stop_combobox->setCurrentIndex(devparms->math_decode_uart_stop);
uart_parity_label = new QLabel(tab_uart);
uart_parity_label->setGeometry(10, 265, 100, 25);
uart_parity_label->setText("Parity");
uart_parity_combobox = new QComboBox(tab_uart);
uart_parity_combobox->setGeometry(130, 265, 100, 25);
uart_parity_combobox->addItem("None");
uart_parity_combobox->addItem("Odd");
uart_parity_combobox->addItem("Even");
uart_parity_combobox->setCurrentIndex(devparms->math_decode_uart_par);
threshold_auto_clicked(devparms->math_decode_threshold_auto);
toggle_decode_button = new QPushButton(this);
toggle_decode_button->setGeometry(20, 475, 100, 25);
if(devparms->math_decode_display == 1)
{
toggle_decode_button->setText("Stop Decoding");
}
else
{
toggle_decode_button->setText("Start Decoding");
}
toggle_decode_button->setAutoDefault(false);
toggle_decode_button->setDefault(false);
close_button = new QPushButton(this);
close_button->setGeometry(570, 475, 100, 25);
close_button->setText("Close");
close_button->setAutoDefault(false);
close_button->setDefault(false);
tabholder->addTab(tab_par, "Parallel");
tabholder->addTab(tab_uart, "UART");
tabholder->addTab(tab_spi, "SPI");
tabholder->addTab(tab_iic, "I2C");
tabholder->setCurrentIndex(devparms->math_decode_mode);
tabholder_index_changed(devparms->math_decode_mode);
connect(threshold_auto_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(threshold_auto_clicked(int)));
connect(uart_tx_src_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(src_combobox_clicked(int)));
connect(uart_rx_src_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(src_combobox_clicked(int)));
connect(uart_polarity_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(uart_polarity_combobox_clicked(int)));
connect(uart_endian_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(uart_endian_combobox_clicked(int)));
connect(uart_width_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(uart_width_combobox_clicked(int)));
connect(uart_stop_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(uart_stop_combobox_clicked(int)));
connect(uart_parity_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(uart_parity_combobox_clicked(int)));
connect(spi_clk_src_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(src_combobox_clicked(int)));
connect(spi_mosi_src_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(src_combobox_clicked(int)));
connect(spi_miso_src_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(src_combobox_clicked(int)));
connect(spi_cs_src_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(src_combobox_clicked(int)));
connect(threshold_1_dspinbox, SIGNAL(editingFinished()), this, SLOT(threshold_1_dspinbox_changed()));
connect(threshold_2_dspinbox, SIGNAL(editingFinished()), this, SLOT(threshold_2_dspinbox_changed()));
connect(threshold_3_dspinbox, SIGNAL(editingFinished()), this, SLOT(threshold_3_dspinbox_changed()));
connect(threshold_4_dspinbox, SIGNAL(editingFinished()), this, SLOT(threshold_4_dspinbox_changed()));
connect(uart_baud_spinbox, SIGNAL(editingFinished()), this, SLOT(uart_baud_spinbox_changed()));
connect(spi_width_spinbox, SIGNAL(editingFinished()), this, SLOT(spi_width_spinbox_changed()));
connect(spi_timeout_dspinbox, SIGNAL(editingFinished()), this, SLOT(spi_timeout_dspinbox_changed()));
connect(trace_pos_spinbox, SIGNAL(editingFinished()), this, SLOT(trace_pos_spinbox_changed()));
connect(tabholder, SIGNAL(currentChanged(int)), this, SLOT(tabholder_index_changed(int)));
connect(spi_select_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(spi_select_combobox_clicked(int)));
connect(spi_mode_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(spi_mode_combobox_clicked(int)));
connect(spi_polarity_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(spi_polarity_combobox_clicked(int)));
connect(spi_edge_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(spi_edge_combobox_clicked(int)));
connect(spi_endian_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(spi_endian_combobox_clicked(int)));
connect(format_combobox, SIGNAL(currentIndexChanged(int)), this, SLOT(format_combobox_clicked(int)));
connect(close_button, SIGNAL(clicked()), this, SLOT(close()));
connect(toggle_decode_button, SIGNAL(clicked()), this, SLOT(toggle_decode()));
exec();
}
void UI_decoder_window::uart_polarity_combobox_clicked(int idx)
{
devparms->math_decode_uart_pol = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:RS232:POL NEG");
}
else
{
mainwindow->set_cue_cmd(":BUS1:RS232:POL POS");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:UART:POL NEG");
}
else
{
mainwindow->set_cue_cmd(":DEC1:UART:POL POS");
}
}
}
void UI_decoder_window::uart_endian_combobox_clicked(int idx)
{
devparms->math_decode_uart_end = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:RS232:END LSB");
}
else
{
mainwindow->set_cue_cmd(":BUS1:RS232:END MSB");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:UART:END LSB");
}
else
{
mainwindow->set_cue_cmd(":DEC1:UART:END MSB");
}
}
}
void UI_decoder_window::uart_baud_spinbox_changed()
{
char str[512];
devparms->math_decode_uart_baud = uart_baud_spinbox->value();
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:RS232:BAUD %i", devparms->math_decode_uart_baud);
}
else
{
snprintf(str, 512, ":DEC1:UART:BAUD %i", devparms->math_decode_uart_baud);
}
mainwindow->set_cue_cmd(str);
}
void UI_decoder_window::uart_width_combobox_clicked(int idx)
{
char str[512];
idx += 5;
devparms->math_decode_uart_width = idx;
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:RS232:DBIT %i", idx);
}
else
{
snprintf(str, 512, ":DEC1:UART:WIDT %i", idx);
}
mainwindow->set_cue_cmd(str);
}
void UI_decoder_window::uart_stop_combobox_clicked(int idx)
{
devparms->math_decode_uart_stop = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:RS232:SBIT 1");
}
else if(idx == 1)
{
mainwindow->set_cue_cmd(":BUS1:RS232:SBIT 1.5");
}
else if(idx == 2)
{
mainwindow->set_cue_cmd(":BUS1:RS232:SBIT 2");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:UART:STOP 1");
}
else if(idx == 1)
{
mainwindow->set_cue_cmd(":DEC1:UART:STOP 1.5");
}
else if(idx == 2)
{
mainwindow->set_cue_cmd(":DEC1:UART:STOP 2");
}
}
}
void UI_decoder_window::uart_parity_combobox_clicked(int idx)
{
devparms->math_decode_uart_par = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:RS232:PAR NONE");
}
else if(idx == 1)
{
mainwindow->set_cue_cmd(":BUS1:RS232:PAR ODD");
}
else if(idx == 2)
{
mainwindow->set_cue_cmd(":BUS1:RS232:PAR EVEN");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:UART:PAR NONE");
}
else if(idx == 1)
{
mainwindow->set_cue_cmd(":DEC1:UART:PAR ODD");
}
else if(idx == 2)
{
mainwindow->set_cue_cmd(":DEC1:UART:PAR EVEN");
}
}
}
void UI_decoder_window::spi_width_spinbox_changed()
{
char str[512];
devparms->math_decode_spi_width = spi_width_spinbox->value();
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:SPI:DBIT %i", devparms->math_decode_spi_width);
}
else
{
snprintf(str, 512, ":DEC1:SPI:WIDT %i", devparms->math_decode_spi_width);
}
mainwindow->set_cue_cmd(str);
}
void UI_decoder_window::spi_timeout_dspinbox_changed()
{
char str[512];
devparms->math_decode_spi_timeout = spi_timeout_dspinbox->value();
if(devparms->modelserie == 1)
{
snprintf(str, 512, ":DEC1:SPI:TIM %e", devparms->math_decode_spi_timeout);
mainwindow->set_cue_cmd(str);
}
}
void UI_decoder_window::trace_pos_spinbox_changed()
{
char str[512];
devparms->math_decode_pos = trace_pos_spinbox->value();
if(devparms->modelserie != 1)
{
if(devparms->math_decode_mode == DECODE_MODE_SPI)
{
snprintf(str, 512, ":BUS1:SPI:OFFS %i", devparms->math_decode_pos);
}
else if(devparms->math_decode_mode == DECODE_MODE_UART)
{
snprintf(str, 512, ":BUS1:RS232:OFFS %i", devparms->math_decode_pos);
}
else if(devparms->math_decode_mode == DECODE_MODE_I2C)
{
snprintf(str, 512, ":BUS1:IIC:OFFS %i", devparms->math_decode_pos);
}
else if(devparms->math_decode_mode == DECODE_MODE_PAR)
{
snprintf(str, 512, ":BUS1:PARA:OFFS %i", devparms->math_decode_pos);
}
}
else
{
snprintf(str, 512, ":DEC1:POS %i", devparms->math_decode_pos);
}
mainwindow->set_cue_cmd(str);
}
void UI_decoder_window::spi_select_combobox_clicked(int idx)
{
devparms->math_decode_spi_select = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:SPI:SS:POL NEG");
}
else
{
mainwindow->set_cue_cmd(":BUS1:SPI:SS:POL POS");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:SPI:SEL NCS");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:SEL CS");
}
}
}
void UI_decoder_window::spi_mode_combobox_clicked(int idx)
{
char str[512];
devparms->math_decode_spi_mode = idx;
if(devparms->modelserie == 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:SPI:MODE TIM");
spi_cs_src_combobox->setCurrentIndex(0);
devparms->math_decode_spi_cs = 0;
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:MODE CS");
if(spi_cs_src_combobox->currentIndex() > 0)
{
snprintf(str, 512, ":DEC1:SPI:CS CHAN%i", spi_cs_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
}
}
}
void UI_decoder_window::spi_polarity_combobox_clicked(int idx)
{
devparms->math_decode_spi_pol = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:SPI:MISO:POL NEG");
mainwindow->set_cue_cmd(":BUS1:SPI:MOSI:POL NEG");
}
else
{
mainwindow->set_cue_cmd(":BUS1:SPI:MISO:POL POS");
mainwindow->set_cue_cmd(":BUS1:SPI:MOSI:POL POS");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:SPI:POL NEG");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:POL POS");
}
}
}
void UI_decoder_window::spi_edge_combobox_clicked(int idx)
{
devparms->math_decode_spi_edge = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:SPI:SCLK:SLOP NEG");
}
else
{
mainwindow->set_cue_cmd(":BUS1:SPI:SCLK:SLOP POS");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:SPI:EDGE FALL");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:EDGE RISE");
}
}
}
void UI_decoder_window::spi_endian_combobox_clicked(int idx)
{
devparms->math_decode_spi_end = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:SPI:END LSB");
}
else
{
mainwindow->set_cue_cmd(":BUS1:SPI:END MSB");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:SPI:END LSB");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:END MSB");
}
}
}
void UI_decoder_window::format_combobox_clicked(int idx)
{
devparms->math_decode_format = idx;
if(devparms->modelserie != 1)
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":BUS1:FORM HEX");
}
else if(idx == 1)
{
mainwindow->set_cue_cmd(":BUS1:FORM ASC");
}
else if(idx == 2)
{
mainwindow->set_cue_cmd(":BUS1:FORM DEC");
}
else if(idx == 3)
{
mainwindow->set_cue_cmd(":BUS1:FORM BIN");
}
}
else
{
if(idx == 0)
{
mainwindow->set_cue_cmd(":DEC1:FORM HEX");
}
else if(idx == 1)
{
mainwindow->set_cue_cmd(":DEC1:FORM ASC");
}
else if(idx == 2)
{
mainwindow->set_cue_cmd(":DEC1:FORM DEC");
}
else if(idx == 3)
{
mainwindow->set_cue_cmd(":DEC1:FORM BIN");
}
else if(idx == 4)
{
mainwindow->set_cue_cmd(":DEC1:FORM LINE");
}
}
}
void UI_decoder_window::tabholder_index_changed(int idx)
{
devparms->math_decode_mode = idx;
threshold_auto_clicked(devparms->math_decode_threshold_auto);
if(devparms->modelserie != 1)
{
if(idx == DECODE_MODE_TAB_PAR)
{
mainwindow->set_cue_cmd(":BUS1:MODE PAR");
}
else if(idx == DECODE_MODE_TAB_UART)
{
mainwindow->set_cue_cmd(":BUS1:MODE RS232");
}
else if(idx == DECODE_MODE_TAB_SPI)
{
mainwindow->set_cue_cmd(":BUS1:MODE SPI");
}
else if(idx == DECODE_MODE_TAB_I2C)
{
mainwindow->set_cue_cmd(":BUS1:MODE IIC");
}
}
else
{
if(idx == DECODE_MODE_TAB_PAR)
{
mainwindow->set_cue_cmd(":DEC1:MODE PAR");
}
else if(idx == DECODE_MODE_TAB_UART)
{
mainwindow->set_cue_cmd(":DEC1:MODE UART");
}
else if(idx == DECODE_MODE_TAB_SPI)
{
mainwindow->set_cue_cmd(":DEC1:MODE SPI");
}
else if(idx == DECODE_MODE_TAB_I2C)
{
mainwindow->set_cue_cmd(":DEC1:MODE IIC");
}
}
}
void UI_decoder_window::threshold_1_dspinbox_changed()
{
char str[512];
if(tabholder->currentIndex() == DECODE_MODE_TAB_UART)
{
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold_uart_tx = threshold_1_dspinbox->value();
snprintf(str, 512, ":BUS1:RS232:TTHR %e", devparms->math_decode_threshold_uart_tx);
mainwindow->set_cue_cmd(str);
}
else if(uart_tx_src_combobox->currentIndex() > 0)
{
devparms->math_decode_threshold[uart_tx_src_combobox->currentIndex() - 1] = threshold_1_dspinbox->value();
snprintf(str, 512, ":DEC1:THRE:CHAN%i %e", uart_tx_src_combobox->currentIndex(),
devparms->math_decode_threshold[uart_tx_src_combobox->currentIndex() - 1]);
mainwindow->set_cue_cmd(str);
}
}
else if(tabholder->currentIndex() == DECODE_MODE_TAB_SPI)
{
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold[2] = threshold_1_dspinbox->value();
snprintf(str, 512, ":BUS1:SPI:SCLK:THR %e", devparms->math_decode_threshold[2]);
mainwindow->set_cue_cmd(str);
}
else
{
devparms->math_decode_threshold[spi_clk_src_combobox->currentIndex()] = threshold_1_dspinbox->value();
snprintf(str, 512, ":DEC1:THRE:CHAN%i %e", spi_clk_src_combobox->currentIndex() + 1,
devparms->math_decode_threshold[spi_clk_src_combobox->currentIndex()]);
mainwindow->set_cue_cmd(str);
}
}
threshold_auto_clicked(devparms->math_decode_threshold_auto);
}
void UI_decoder_window::threshold_2_dspinbox_changed()
{
char str[512];
if(tabholder->currentIndex() == DECODE_MODE_TAB_UART)
{
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold_uart_rx = threshold_2_dspinbox->value();
snprintf(str, 512, ":BUS1:RS232:RTHR %e", devparms->math_decode_threshold_uart_rx);
mainwindow->set_cue_cmd(str);
}
else if(uart_rx_src_combobox->currentIndex() > 0)
{
devparms->math_decode_threshold[uart_rx_src_combobox->currentIndex() - 1] = threshold_2_dspinbox->value();
snprintf(str, 512, ":DEC1:THRE:CHAN%i %e", uart_rx_src_combobox->currentIndex(),
devparms->math_decode_threshold[uart_rx_src_combobox->currentIndex() - 1]);
mainwindow->set_cue_cmd(str);
}
}
else if(tabholder->currentIndex() == DECODE_MODE_TAB_SPI)
{
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold[1] = threshold_2_dspinbox->value();
snprintf(str, 512, ":BUS1:SPI:MOSI:THR %e", devparms->math_decode_threshold[1]);
mainwindow->set_cue_cmd(str);
}
else if(spi_mosi_src_combobox->currentIndex() > 0)
{
devparms->math_decode_threshold[spi_mosi_src_combobox->currentIndex() - 1] = threshold_2_dspinbox->value();
snprintf(str, 512, ":DEC1:THRE:CHAN%i %e", spi_mosi_src_combobox->currentIndex(),
devparms->math_decode_threshold[spi_mosi_src_combobox->currentIndex() - 1]);
mainwindow->set_cue_cmd(str);
}
}
threshold_auto_clicked(devparms->math_decode_threshold_auto);
}
void UI_decoder_window::threshold_3_dspinbox_changed()
{
char str[512];
if(tabholder->currentIndex() == DECODE_MODE_TAB_UART)
{
}
else if(tabholder->currentIndex() == DECODE_MODE_TAB_SPI)
{
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold[0] = threshold_3_dspinbox->value();
snprintf(str, 512, ":BUS1:SPI:MISO:THR %e", devparms->math_decode_threshold[0]);
mainwindow->set_cue_cmd(str);
}
else if(spi_miso_src_combobox->currentIndex() > 0)
{
devparms->math_decode_threshold[spi_miso_src_combobox->currentIndex() - 1] = threshold_3_dspinbox->value();
snprintf(str, 512, ":DEC1:THRE:CHAN%i %e", spi_miso_src_combobox->currentIndex(),
devparms->math_decode_threshold[spi_miso_src_combobox->currentIndex() - 1]);
mainwindow->set_cue_cmd(str);
}
}
threshold_auto_clicked(devparms->math_decode_threshold_auto);
}
void UI_decoder_window::threshold_4_dspinbox_changed()
{
char str[512];
if(tabholder->currentIndex() == DECODE_MODE_TAB_UART)
{
}
else if(tabholder->currentIndex() == DECODE_MODE_TAB_SPI)
{
if(devparms->modelserie != 1)
{
devparms->math_decode_threshold[3] = threshold_4_dspinbox->value();
snprintf(str, 512, ":BUS1:SPI:SS:THR %e", devparms->math_decode_threshold[3]);
mainwindow->set_cue_cmd(str);
}
else if(spi_cs_src_combobox->currentIndex() > 0)
{
devparms->math_decode_threshold[spi_cs_src_combobox->currentIndex() - 1] = threshold_4_dspinbox->value();
snprintf(str, 512, ":DEC1:THRE:CHAN%i %e", spi_cs_src_combobox->currentIndex(),
devparms->math_decode_threshold[spi_cs_src_combobox->currentIndex() - 1]);
mainwindow->set_cue_cmd(str);
}
}
threshold_auto_clicked(devparms->math_decode_threshold_auto);
}
void UI_decoder_window::src_combobox_clicked(int)
{
devparms->math_decode_spi_clk = spi_clk_src_combobox->currentIndex();
devparms->math_decode_spi_mosi = spi_mosi_src_combobox->currentIndex();
devparms->math_decode_spi_miso = spi_miso_src_combobox->currentIndex();
devparms->math_decode_spi_cs = spi_cs_src_combobox->currentIndex();
devparms->math_decode_uart_tx = uart_tx_src_combobox->currentIndex();
devparms->math_decode_uart_rx = uart_rx_src_combobox->currentIndex();
devparms->math_decode_spi_mode = spi_mode_combobox->currentIndex();
devparms->math_decode_spi_select = spi_select_combobox->currentIndex();
threshold_auto_clicked(devparms->math_decode_threshold_auto);
}
void UI_decoder_window::threshold_auto_clicked(int thr_auto)
{
char str[512];
devparms->math_decode_threshold_auto = thr_auto;
if(devparms->modelserie == 1)
{
if(thr_auto == 0)
{
mainwindow->set_cue_cmd(":DEC1:THRE:AUTO 0");
}
else
{
mainwindow->set_cue_cmd(":DEC1:THRE:AUTO 1");
}
}
if(tabholder->currentIndex() == DECODE_MODE_TAB_UART)
{
if(uart_tx_src_combobox->currentIndex() > 0)
{
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:RS232:TX CHAN%i", uart_tx_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
else
{
snprintf(str, 512, ":DEC1:UART:TX CHAN%i", uart_tx_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
}
else
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:RS232:TX OFF");
}
else
{
mainwindow->set_cue_cmd(":DEC1:UART:TX OFF");
}
}
if(uart_rx_src_combobox->currentIndex() > 0)
{
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:RS232:RX CHAN%i", uart_rx_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
else
{
snprintf(str, 512, ":DEC1:UART:RX CHAN%i", uart_rx_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
}
else
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:RS232:RX OFF");
}
else
{
mainwindow->set_cue_cmd(":DEC1:UART:RX OFF");
}
}
if(thr_auto == 0)
{
threshold_1_dspinbox->setEnabled(true);
threshold_2_dspinbox->setEnabled(true);
if(devparms->modelserie != 1)
{
threshold_1_dspinbox->setValue(devparms->math_decode_threshold_uart_tx);
threshold_2_dspinbox->setValue(devparms->math_decode_threshold_uart_rx);
}
else
{
threshold_1_dspinbox->setValue(devparms->math_decode_threshold[uart_tx_src_combobox->currentIndex() - 1]);
threshold_2_dspinbox->setValue(devparms->math_decode_threshold[uart_rx_src_combobox->currentIndex() - 1]);
}
}
else
{
threshold_1_dspinbox->setValue(0.0);
threshold_2_dspinbox->setValue(0.0);
threshold_1_dspinbox->setEnabled(false);
threshold_2_dspinbox->setEnabled(false);
}
threshold_1_label->setVisible(true);
threshold_2_label->setVisible(true);
threshold_3_label->setVisible(false);
threshold_4_label->setVisible(false);
threshold_1_dspinbox->setVisible(true);
threshold_2_dspinbox->setVisible(true);
threshold_3_dspinbox->setVisible(false);
threshold_4_dspinbox->setVisible(false);
}
else if(tabholder->currentIndex() == DECODE_MODE_TAB_SPI)
{
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:SPI:SCLK:SOUR CHAN%i", spi_clk_src_combobox->currentIndex() + 1);
mainwindow->set_cue_cmd(str);
}
else
{
snprintf(str, 512, ":DEC1:SPI:CLK CHAN%i", spi_clk_src_combobox->currentIndex() + 1);
mainwindow->set_cue_cmd(str);
}
if(spi_mosi_src_combobox->currentIndex() > 0)
{
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:SPI:MOSI:SOUR CHAN%i", spi_mosi_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
else
{
snprintf(str, 512, ":DEC1:SPI:MOSI CHAN%i", spi_mosi_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
}
else
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:SPI:MOSI:SOUR OFF");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:MOSI OFF");
}
}
if(spi_miso_src_combobox->currentIndex() > 0)
{
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:SPI:MISO:SOUR CHAN%i", spi_miso_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
else
{
snprintf(str, 512, ":DEC1:SPI:MISO CHAN%i", spi_miso_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
}
else
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:SPI:MISO:SOUR OFF");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:MISO OFF");
}
}
if(devparms->modelserie == 1)
{
if(spi_mode_combobox->currentIndex() == 0)
{
mainwindow->set_cue_cmd(":DEC1:SPI:MODE TIM");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:MODE CS");
}
}
if(spi_cs_src_combobox->currentIndex() > 0)
{
if(devparms->modelserie != 1)
{
snprintf(str, 512, ":BUS1:SPI:SS:SOUR CHAN%i", spi_cs_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
else
{
if(devparms->math_decode_spi_mode)
{
snprintf(str, 512, ":DEC1:SPI:CS CHAN%i", spi_cs_src_combobox->currentIndex());
mainwindow->set_cue_cmd(str);
}
}
}
else
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:SPI:SS:SOUR OFF");
}
}
if(spi_select_combobox->currentIndex() == 0)
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:SPI:SS:POL NEG");
}
else
{
if(devparms->math_decode_spi_mode)
{
mainwindow->set_cue_cmd(":DEC1:SPI:SEL NCS");
}
}
}
else
{
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:SPI:SS:POL POS");
}
else
{
mainwindow->set_cue_cmd(":DEC1:SPI:SEL CS");
}
}
if(thr_auto == 0)
{
threshold_1_dspinbox->setEnabled(true);
threshold_2_dspinbox->setEnabled(true);
threshold_3_dspinbox->setEnabled(true);
threshold_4_dspinbox->setEnabled(true);
if(devparms->modelserie != 1)
{
threshold_1_dspinbox->setValue(devparms->math_decode_threshold[2]);
threshold_2_dspinbox->setValue(devparms->math_decode_threshold[1]);
threshold_3_dspinbox->setValue(devparms->math_decode_threshold[0]);
threshold_4_dspinbox->setValue(devparms->math_decode_threshold[3]);
}
else
{
threshold_1_dspinbox->setValue(devparms->math_decode_threshold[spi_clk_src_combobox->currentIndex()]);
threshold_2_dspinbox->setValue(devparms->math_decode_threshold[spi_mosi_src_combobox->currentIndex() - 1]);
threshold_3_dspinbox->setValue(devparms->math_decode_threshold[spi_miso_src_combobox->currentIndex() - 1]);
threshold_4_dspinbox->setValue(devparms->math_decode_threshold[spi_cs_src_combobox->currentIndex() - 1]);
}
}
else
{
threshold_1_dspinbox->setValue(0.0);
threshold_2_dspinbox->setValue(0.0);
threshold_3_dspinbox->setValue(0.0);
threshold_4_dspinbox->setValue(0.0);
threshold_1_dspinbox->setEnabled(false);
threshold_2_dspinbox->setEnabled(false);
threshold_3_dspinbox->setEnabled(false);
threshold_4_dspinbox->setEnabled(false);
}
threshold_1_label->setVisible(true);
threshold_2_label->setVisible(true);
threshold_3_label->setVisible(true);
threshold_4_label->setVisible(true);
threshold_1_dspinbox->setVisible(true);
threshold_2_dspinbox->setVisible(true);
threshold_3_dspinbox->setVisible(true);
threshold_4_dspinbox->setVisible(true);
}
}
void UI_decoder_window::toggle_decode()
{
if(devparms->math_decode_display == 1)
{
devparms->math_decode_display = 0;
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:DISP OFF");
}
else
{
mainwindow->set_cue_cmd(":DEC1:DISP OFF");
}
toggle_decode_button->setText("Start Decoding");
mainwindow->statusLabel->setText("Decode off");
}
else
{
devparms->math_decode_display = 1;
if(devparms->modelserie != 1)
{
mainwindow->set_cue_cmd(":BUS1:DISP ON");
}
else
{
mainwindow->set_cue_cmd(":DEC1:DISP ON");
}
toggle_decode_button->setText("Stop Decoding");
mainwindow->statusLabel->setText("Decode on");
}
}
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