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https://github.com/saitohirga/WSJT-X.git
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4b4f65eb9f
Some logging applications export the BAND ADIF field with uppercase characters. This change makes sure that the internal worked before lookup indexes use uppercase throughout when fields that can come from external sources are stored.
163 lines
4.4 KiB
C++
163 lines
4.4 KiB
C++
#include "Radio.hpp"
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#include <cmath>
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#include <limits>
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#include <QString>
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#include <QChar>
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#include <QRegularExpression>
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namespace Radio
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{
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namespace
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{
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double constexpr MHz_factor {1.e6};
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int constexpr frequency_precsion {6};
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// very loose validation - callsign must contain a letter next to
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// a number
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QRegularExpression valid_callsign_regexp {R"(\d[[:alpha:]]|[[:alpha:]]\d)"};
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// suffixes that are often used and should not be interpreted as a
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// DXCC Entity prefix used as a suffix
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QRegularExpression non_prefix_suffix {R"(\A([0-9AMPQR]|QRP|F[DF]|[AM]M|L[HT]|LGT)\z)"};
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}
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Frequency frequency (QVariant const& v, int scale, bool * ok, QLocale const& locale)
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{
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double value {0.};
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if (QVariant::String == v.type ())
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{
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value = locale.toDouble (v.value<QString> (), ok);
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}
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else
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{
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value = v.toDouble ();
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if (ok) *ok = true;
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}
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value *= std::pow (10., scale);
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if (ok)
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{
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if (value < 0. || value > std::numeric_limits<Frequency>::max ())
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{
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value = 0.;
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*ok = false;
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}
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}
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return std::llround (value);
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}
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FrequencyDelta frequency_delta (QVariant const& v, int scale, bool * ok, QLocale const& locale)
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{
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double value {0.};
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if (QVariant::String == v.type ())
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{
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value = locale.toDouble (v.value<QString> (), ok);
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}
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else
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{
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value = v.toDouble ();
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if (ok) *ok = true;
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}
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value *= std::pow (10., scale);
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if (ok)
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{
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if (value < -std::numeric_limits<Frequency>::max ()
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|| value > std::numeric_limits<Frequency>::max ())
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{
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value = 0.;
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*ok = false;
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}
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}
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return std::llround (value);
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}
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QString frequency_MHz_string (Frequency f, QLocale const& locale)
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{
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return locale.toString (f / MHz_factor, 'f', frequency_precsion);
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}
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QString frequency_MHz_string (FrequencyDelta d, QLocale const& locale)
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{
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return locale.toString (d / MHz_factor, 'f', frequency_precsion);
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}
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QString pretty_frequency_MHz_string (Frequency f, QLocale const& locale)
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{
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auto f_string = locale.toString (f / MHz_factor, 'f', frequency_precsion);
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return f_string.insert (f_string.size () - 3, QChar::Nbsp);
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}
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QString pretty_frequency_MHz_string (double f, int scale, QLocale const& locale)
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{
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auto f_string = locale.toString (f / std::pow (10., scale - 6), 'f', frequency_precsion);
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return f_string.insert (f_string.size () - 3, QChar::Nbsp);
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}
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QString pretty_frequency_MHz_string (FrequencyDelta d, QLocale const& locale)
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{
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auto d_string = locale.toString (d / MHz_factor, 'f', frequency_precsion);
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return d_string.insert (d_string.size () - 3, QChar::Nbsp);
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}
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bool is_callsign (QString const& callsign)
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{
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return callsign.contains (valid_callsign_regexp);
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}
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bool is_compound_callsign (QString const& callsign)
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{
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return callsign.contains ('/');
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}
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// split on first '/' and return the larger portion or the whole if
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// there is no '/'
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QString base_callsign (QString callsign)
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{
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auto slash_pos = callsign.indexOf ('/');
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if (slash_pos >= 0)
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{
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auto right_size = callsign.size () - slash_pos - 1;
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if (right_size>= slash_pos)
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{
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callsign = callsign.mid (slash_pos + 1);
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}
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else
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{
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callsign = callsign.left (slash_pos);
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}
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}
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return callsign.toUpper ();
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}
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// analyze the callsign and determine the effective prefix, returns
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// the full call if no valid prefix (or prefix as a suffix) is specified
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QString effective_prefix (QString callsign)
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{
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auto prefix = callsign;
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auto slash_pos = callsign.indexOf ('/');
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if (slash_pos >= 0)
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{
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auto right_size = callsign.size () - slash_pos - 1;
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if (right_size >= slash_pos) // native call is longer than
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// prefix/suffix algorithm
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{
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prefix = callsign.left (slash_pos);
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}
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else
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{
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prefix = callsign.mid (slash_pos + 1);
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if (prefix.contains (non_prefix_suffix))
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{
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prefix = callsign.left (slash_pos); // ignore
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// non-prefix
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// suffixes
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}
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}
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}
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return prefix.toUpper ();
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}
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}
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