mirror of
https://github.com/g4klx/MMDVMHost
synced 2025-12-23 00:35:53 +08:00
Impliment clock on all HD44780 sizes and redesigned IDLE screen
This commit is contained in:
Tony Corbett
130
HD44780.cpp
130
HD44780.cpp
@@ -31,6 +31,9 @@
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const char* LISTENING = "Listening ";
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const char* DEADSPACE = " ";
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char m_buffer1[128U];
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char m_buffer2[128U];
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CHD44780::CHD44780(unsigned int rows, unsigned int cols, const std::string& callsign, unsigned int dmrid, const std::vector<unsigned int>& pins, bool pwm, unsigned int pwmPin, unsigned int pwmBright, unsigned int pwmDim, bool displayClock, bool utc, bool duplex) :
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CDisplay(),
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m_rows(rows),
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@@ -304,19 +307,21 @@ void CHD44780::setIdleInt()
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::pwmWrite(m_pwmPin, (m_pwmDim / 100) * 1024);
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}
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// Print callsign and ID at on top row for all screen sizes
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::lcdPosition(m_fd, 0, 0);
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::lcdPrintf(m_fd, "%-6s", m_callsign.c_str());
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::lcdPosition(m_fd, m_cols - 7, 0);
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::lcdPrintf(m_fd, "%7u", m_dmrid);
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::lcdPosition(m_fd, 0, 1);
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// Print MMDVM and Idle on bottom row for all screen sizes
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::lcdPosition(m_fd, 0, m_rows - 1);
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::lcdPutchar(m_fd, 2);
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::lcdPutchar(m_fd, 2);
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::lcdPutchar(m_fd, 3);
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::lcdPutchar(m_fd, 4);
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::lcdPutchar(m_fd, 2);
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if (!m_displayClock || m_cols > 16)
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::lcdPuts(m_fd, " Idle");
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::lcdPosition(m_fd, m_cols - 4, m_rows - 1);
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::lcdPuts(m_fd, "Idle"); // Gets overwritten by clock on 2 line screen
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m_dmr = false;
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}
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@@ -407,45 +412,45 @@ void CHD44780::writeDStarInt(const char* my1, const char* my2, const char* your,
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::lcdPuts(m_fd, "D-Star");
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if (m_rows == 2U && m_cols == 16U) {
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char buffer[16U];
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::sprintf(buffer, "%s %.8s/%.4s", type, my1, my2);
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// char buffer[16U];
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::sprintf(m_buffer1, "%s %.8s/%.4s", type, my1, my2);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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} else if (m_rows == 4U && m_cols == 16U) {
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char buffer[16U];
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::sprintf(buffer, "%s %.8s/%.4s", type, my1, my2);
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// char buffer[16U];
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::sprintf(m_buffer1, "%s %.8s/%.4s", type, my1, my2);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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if (strcmp(reflector, " ") == 0)
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::sprintf(buffer, "%.8s", your);
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::sprintf(m_buffer1, "%.8s", your);
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else
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::sprintf(buffer, "%.8s<%.8s", your, reflector);
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::sprintf(m_buffer1, "%.8s<%.8s", your, reflector);
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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} else if (m_rows == 4U && m_cols == 20U) {
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char buffer[20U];
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::sprintf(buffer, "%s %.8s/%.4s >", type, my1, my2);
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char m_buffer1[20U];
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::sprintf(m_buffer1, "%s %.8s/%.4s >", type, my1, my2);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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if (strcmp(reflector, " ") == 0)
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::sprintf(buffer, "%.8s", your);
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::sprintf(m_buffer1, "%.8s", your);
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else
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::sprintf(buffer, "%.8s <- %.8s", your, reflector);
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::sprintf(m_buffer1, "%.8s <- %.8s", your, reflector);
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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} else if (m_rows == 2 && m_cols == 40U) {
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char buffer[40U];
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char m_buffer1[40U];
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if (strcmp(reflector, " ") == 0)
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::sprintf(buffer, "%s %.8s/%.4s > %.8s", type, my1, my2, your);
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::sprintf(m_buffer1, "%s %.8s/%.4s > %.8s", type, my1, my2, your);
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else
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::sprintf(buffer, "%s %.8s/%.4s > %.8s via %.8s", type, my1, my2, your, reflector);
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::sprintf(m_buffer1, "%s %.8s/%.4s > %.8s via %.8s", type, my1, my2, your, reflector);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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}
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m_dmr = false;
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@@ -482,7 +487,7 @@ void CHD44780::clearDStarInt()
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void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool group, const std::string& dst, const char* type)
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{
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char buffer[128]; // force 128 char buffer - we're never getting that far but stops us overflowing it!
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// char buffer[128]; // force 128 char buffer - we're never getting that far but stops us overflowing it!
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assert(type != NULL);
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if (!m_dmr) {
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@@ -503,8 +508,8 @@ void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool gro
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if (m_duplex) {
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if (m_rows > 2U) {
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::lcdPosition(m_fd, 0, (m_rows / 2) - 2);
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::sprintf(buffer, "%s%s", "DMR", DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::sprintf(m_buffer1, "%s%s", "DMR", DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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}
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if (slotNo == 1U) {
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@@ -516,8 +521,8 @@ void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool gro
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}
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} else {
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::lcdPosition(m_fd, 0, (m_rows / 2) - 1);
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::sprintf(buffer, "%s%s", "DMR", DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::sprintf(m_buffer1, "%s%s", "DMR", DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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::lcdPosition(m_fd, 0, (m_rows / 2));
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::lcdPrintf(m_fd, "%.*s", m_cols, LISTENING);
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}
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@@ -531,8 +536,8 @@ void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool gro
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if (slotNo == 1U) {
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::lcdPosition(m_fd, 0, (m_rows / 2) - 1);
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::lcdPuts(m_fd, "1 ");
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::sprintf(buffer, "%s > %s%s", src.c_str(), dst.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 2U, buffer);
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::sprintf(m_buffer1, "%s > %s%s", src.c_str(), dst.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 2U, m_buffer1);
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if (m_cols > 16) {
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::lcdCharDef(m_fd, 6, group ? tgChar : privChar);
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@@ -545,8 +550,8 @@ void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool gro
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} else {
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::lcdPosition(m_fd, 0, (m_rows / 2));
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::lcdPuts(m_fd, "2 ");
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::sprintf(buffer, "%s > %s%s", src.c_str(), dst.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 2U, buffer);
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::sprintf(m_buffer2, "%s > %s%s", src.c_str(), dst.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 2U, m_buffer2);
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if (m_cols > 16) {
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::lcdCharDef(m_fd, 6, group ? tgChar : privChar);
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@@ -560,16 +565,16 @@ void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool gro
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} else {
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::lcdPosition(m_fd, 0, (m_rows / 2) - 1);
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::lcdPutchar(m_fd, 0);
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::sprintf(buffer, " %s%s", src.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 4U, buffer);
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::sprintf(m_buffer2, " %s%s", src.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 4U, m_buffer2);
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::lcdCharDef(m_fd, 5, strcmp(type, "R") == 0 ? rfChar : ipChar);
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::lcdPosition(m_fd, m_cols - 1U, (m_rows / 2) - 1);
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::lcdPutchar(m_fd, 5);
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::lcdPosition(m_fd, 0, (m_rows / 2));
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::lcdPutchar(m_fd, 1);
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::sprintf(buffer, " %s%s", dst.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 4U, buffer);
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::sprintf(m_buffer2, " %s%s", dst.c_str(), DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols - 4U, m_buffer2);
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::lcdCharDef(m_fd, 6, group ? tgChar : privChar);
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::lcdPosition(m_fd, m_cols - 1U, (m_rows / 2));
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::lcdPutchar(m_fd, 6);
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@@ -579,7 +584,7 @@ void CHD44780::writeDMRInt(unsigned int slotNo, const std::string& src, bool gro
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void CHD44780::clearDMRInt(unsigned int slotNo)
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{
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char buffer[128]; // force 128 char buffer - we're never getting that far but stops us overflowing it!
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// char buffer[128]; // force 128 char buffer - we're never getting that far but stops us overflowing it!
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#ifdef ADAFRUIT_DISPLAY
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adafruitLCDColour(AC_PURPLE);
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@@ -596,8 +601,8 @@ void CHD44780::clearDMRInt(unsigned int slotNo)
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}
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} else {
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::lcdPosition(m_fd, 0, (m_rows / 2) - 1);
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::sprintf(buffer, "%s%s", "DMR", DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::sprintf(m_buffer2, "%s%s", "DMR", DEADSPACE);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer2);
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::lcdPosition(m_fd, 0, (m_rows / 2));
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::lcdPrintf(m_fd, "%.*s", m_cols, LISTENING);
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}
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@@ -628,34 +633,34 @@ void CHD44780::writeFusionInt(const char* source, const char* dest, const char*
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::lcdPuts(m_fd, "System Fusion");
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if (m_rows == 2U && m_cols == 16U) {
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char buffer[16U];
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::sprintf(buffer, "%.10s >", source);
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char m_buffer1[16U];
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::sprintf(m_buffer1, "%.10s >", source);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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} else if (m_rows == 4U && m_cols == 16U) {
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char buffer[16U];
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::sprintf(buffer, "%.10s >", source);
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char m_buffer1[16U];
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::sprintf(m_buffer1, "%.10s >", source);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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::sprintf(buffer, "%.10s", dest);
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::sprintf(m_buffer1, "%.10s", dest);
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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} else if (m_rows == 4U && m_cols == 20U) {
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char buffer[20U];
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::sprintf(buffer, "%.10s >", source);
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char m_buffer1[20U];
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::sprintf(m_buffer1, "%.10s >", source);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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::sprintf(buffer, "%.10s", dest);
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::sprintf(m_buffer1, "%.10s", dest);
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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} else if (m_rows == 2 && m_cols == 40U) {
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char buffer[40U];
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::sprintf(buffer, "%.10s > %.10s", source, dest);
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char m_buffer1[40U];
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::sprintf(m_buffer1, "%.10s > %.10s", source, dest);
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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::lcdPrintf(m_fd, "%.*s", m_cols, m_buffer1);
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}
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m_dmr = false;
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@@ -705,15 +710,24 @@ void CHD44780::clockInt(unsigned int ms)
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Time = localtime(¤tTime);
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}
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//int Day = Time->tm_mday;
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//int Month = Time->tm_mon + 1;
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//int Year = Time->tm_year + 1900;
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int Day = Time->tm_mday;
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int Month = Time->tm_mon + 1;
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int Year = Time->tm_year + 1900;
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int Hour = Time->tm_hour;
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int Min = Time->tm_min;
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int Sec = Time->tm_sec;
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::lcdPosition(m_fd, m_cols - 8, 1);
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if (m_cols == 16U && m_rows == 2U) {
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::lcdPosition(m_fd, m_cols - 8, 1);
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} else {
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::lcdPosition(m_fd, (m_cols - 8) / 2, m_rows == 2 ? 1 : 2);
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}
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::lcdPrintf(m_fd, "%02d:%02d:%02d", Hour, Min, Sec);
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if (m_cols != 16U && m_rows != 2U) {
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::lcdPosition(m_fd, (m_cols - 8) / 2, m_rows == 2 ? 0 : 1);
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::lcdPrintf(m_fd, "%02d/%02d/%2d", Day, Month, Year%100);
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}
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m_clockDisplayTimer.start(); // restart the clock display timer
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}
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}
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