MMDVMHost-Private/TFTSurenoo.cpp
2020-04-11 20:42:05 +01:00

502 lines
13 KiB
C++

/*
* Copyright (C) 2019 by SASANO Takayoshi JG1UAA
* Copyright (C) 2015,2016,2018,2019,2020 by Jonathan Naylor G4KLX
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 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, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include "TFTSurenoo.h"
#include "Thread.h"
#include "Log.h"
#include <cstdio>
#include <cassert>
#include <cstring>
/*
* UART-TFT LCD Driver for Surenoo JC22-V05 (128x160)
* other Surenoo UART-LCD will be work, but display area is still 160x128
* (tested with JC028-V03 240x320 module)
*/
// x = 0 to 159, y = 0 to 127 - Landscape
// x = 0 to 127, y = 0 to 159 - Portrait
#define X_WIDTH 160
#define Y_WIDTH 128
#define ROTATION_PORTRAIT 0
#define ROTATION_LANDSCAPE 1
enum LcdColour {
COLOUR_BLACK, COLOUR_RED, COLOUR_GREEN, COLOUR_BLUE,
COLOUR_YELLOW, COLOUR_CYAN, COLOUR_MAGENTA, COLOUR_GREY,
COLOUR_DARK_GREY, COLOUR_DARK_RED, COLOUR_DARK_GREEN, COLOUR_DARK_BLUE,
COLOUR_DARK_YELLOW, COLOUR_DARK_CYAN, COLOUR_DARK_MAGENTA, COLOUR_WHITE
};
#define FONT_SMALL 16 // 8x16
#define FONT_MEDIUM 24 // 12x24
#define FONT_LARGE 32 // 16x32
#define INFO_COLOUR COLOUR_CYAN
#define EXT_COLOUR COLOUR_DARK_GREEN
#define BG_COLOUR COLOUR_BLACK
#define ERROR_COLOUR COLOUR_DARK_RED
#define MODE_COLOUR COLOUR_YELLOW
// MODE_FONT_SIZE should be equal or larger than STATUS_FONT_SIZE
#define MODE_FONT_SIZE FONT_MEDIUM
#define STATUS_FONT_SIZE FONT_SMALL
#define STATUS_MARGIN 32 // pixel
#define MODE_CHARS (X_WIDTH / (MODE_FONT_SIZE / 2))
#define STATUS_CHARS (X_WIDTH / (STATUS_FONT_SIZE / 2))
#define STATUS_LINES ((Y_WIDTH - STATUS_MARGIN) / STATUS_FONT_SIZE)
#define statusLineOffset(x) ((STATUS_CHARS + 1) * ((x) + 1))
#define statusLineNo(x) (x)
#define INFO_LINES statusLineNo(2)
// This module sometimes ignores display command (too busy?),
// so supress display refresh
#define REFRESH_PERIOD 600 // msec
#define STR_CRLF "\x0D\x0A"
#define STR_DMR "DMR"
#define STR_DSTAR "D-STAR"
#define STR_MMDVM "MMDVM"
#define STR_NXDN "NXDN"
#define STR_P25 "P25"
#define STR_YSF "SystemFusion"
CTFTSurenoo::CTFTSurenoo(const std::string& callsign, unsigned int dmrid, ISerialPort* serial, unsigned int brightness, bool duplex) :
CDisplay(),
m_callsign(callsign),
m_dmrid(dmrid),
m_serial(serial),
m_brightness(brightness),
m_mode(MODE_IDLE),
m_duplex(duplex),
//m_duplex(true), // uncomment to force duplex display for testing!
m_refresh(false),
m_refreshTimer(1000U, 0U, REFRESH_PERIOD),
m_lineBuf(NULL)
{
assert(serial != NULL);
assert(brightness >= 0U && brightness <= 255U);
}
CTFTSurenoo::~CTFTSurenoo()
{
}
bool CTFTSurenoo::open()
{
bool ret = m_serial->open();
if (!ret) {
LogError("Cannot open the port for the TFT Serial");
delete m_serial;
return false;
}
m_lineBuf = new char[statusLineOffset(STATUS_LINES)];
if (m_lineBuf == NULL) {
LogError("Cannot allocate line buffer");
m_serial->close();
delete m_serial;
return false;
}
lcdReset();
clearScreen(BG_COLOUR);
setRotation(ROTATION_LANDSCAPE);
setBrightness(m_brightness);
setBackground(BG_COLOUR);
setIdle();
m_refreshTimer.start();
return true;
}
void CTFTSurenoo::setIdleInt()
{
setModeLine(STR_MMDVM);
::snprintf(m_temp, sizeof(m_temp), "%s / %u", m_callsign.c_str(), m_dmrid);
setStatusLine(statusLineNo(0), m_temp);
setStatusLine(statusLineNo(1), "IDLE");
m_mode = MODE_IDLE;
}
void CTFTSurenoo::setErrorInt(const char* text)
{
assert(text != NULL);
setModeLine(STR_MMDVM);
setStatusLine(statusLineNo(0), text);
setStatusLine(statusLineNo(1), "ERROR");
m_mode = MODE_ERROR;
}
void CTFTSurenoo::setLockoutInt()
{
setModeLine(STR_MMDVM);
setStatusLine(statusLineNo(1), "LOCKOUT");
m_mode = MODE_LOCKOUT;
}
void CTFTSurenoo::setQuitInt()
{
// m_refreshTimer has stopped, need delay here
CThread::sleep(REFRESH_PERIOD);
setModeLine(STR_MMDVM);
setStatusLine(statusLineNo(1), "STOPPED");
refreshDisplay();
m_mode = MODE_QUIT;
}
void CTFTSurenoo::setFMInt()
{
setModeLine(STR_MMDVM);
setStatusLine(statusLineNo(1), "FM");
m_mode = MODE_FM;
}
void CTFTSurenoo::writeDStarInt(const char* my1, const char* my2, const char* your, const char* type, const char* reflector)
{
assert(my1 != NULL);
assert(my2 != NULL);
assert(your != NULL);
assert(type != NULL);
assert(reflector != NULL);
setModeLine(STR_MMDVM);
::snprintf(m_temp, sizeof(m_temp), "%s %s/%s", type, my1, my2);
setStatusLine(statusLineNo(0), m_temp);
::snprintf(m_temp, sizeof(m_temp), "%s", your);
setStatusLine(statusLineNo(1), m_temp);
if (::strcmp(reflector, " ") != 0)
::snprintf(m_temp, sizeof(m_temp), "via %s", reflector);
else
::strcpy(m_temp, "");
setStatusLine(statusLineNo(2), m_temp);
m_mode = MODE_DSTAR;
}
void CTFTSurenoo::clearDStarInt()
{
setStatusLine(statusLineNo(0), "Listening");
for (int i = 1; i < STATUS_LINES; i++)
setStatusLine(statusLineNo(i), "");
}
void CTFTSurenoo::writeDMRInt(unsigned int slotNo, const std::string& src, bool group, const std::string& dst, const char* type)
{
assert(type != NULL);
if (m_mode != MODE_DMR) {
setModeLine(STR_DMR);
if (m_duplex) {
setStatusLine(statusLineNo(0), "Listening");
setStatusLine(statusLineNo(1), "TS1");
setStatusLine(statusLineNo(2), "Listening");
setStatusLine(statusLineNo(3), "TS2");
}
}
int pos = m_duplex ? (slotNo - 1) : 0;
::snprintf(m_temp, sizeof(m_temp), "%s %s", type, src.c_str());
setStatusLine(statusLineNo(pos * 2), m_temp);
::snprintf(m_temp, sizeof(m_temp), "TS%d %s%s", slotNo, group ? "TG" : "", dst.c_str());
setStatusLine(statusLineNo(pos * 2 + 1), m_temp);
m_mode = MODE_DMR;
}
int CTFTSurenoo::writeDMRIntEx(unsigned int slotNo, const class CUserDBentry& src, bool group, const std::string& dst, const char* type)
{
assert(type != NULL);
// duplex mode is not supported
if (m_duplex)
return -1;
setModeLine(STR_DMR);
setStatusLine(statusLineNo(2), (src.get(keyFIRST_NAME) + " " + src.get(keyLAST_NAME)).c_str());
setStatusLine(statusLineNo(3), src.get(keyCITY).c_str());
setStatusLine(statusLineNo(4), src.get(keySTATE).c_str());
setStatusLine(statusLineNo(5), src.get(keyCOUNTRY).c_str());
m_mode = MODE_DMR;
return 1;
}
void CTFTSurenoo::clearDMRInt(unsigned int slotNo)
{
int pos = m_duplex ? (slotNo - 1) : 0;
setStatusLine(statusLineNo(pos * 2), "Listening");
if (m_duplex) {
::snprintf(m_temp, sizeof(m_temp), "TS%d", slotNo);
setStatusLine(statusLineNo(pos * 2 + 1), m_temp);
} else {
for (int i = 1; i < STATUS_LINES; i++)
setStatusLine(statusLineNo(i), "");
}
}
void CTFTSurenoo::writeFusionInt(const char* source, const char* dest, const char* type, const char* origin)
{
assert(source != NULL);
assert(dest != NULL);
assert(type != NULL);
assert(origin != NULL);
setModeLine(STR_YSF);
::snprintf(m_temp, sizeof(m_temp), "%s %s", type, source);
setStatusLine(statusLineNo(0), m_temp);
::snprintf(m_temp, sizeof(m_temp), "%s", dest);
setStatusLine(statusLineNo(1), m_temp);
if (::strcmp(origin, " ") != 0)
::snprintf(m_temp, sizeof(m_temp), "at %s", origin);
else
::strcpy(m_temp, "");
setStatusLine(statusLineNo(2), m_temp);
m_mode = MODE_YSF;
}
void CTFTSurenoo::clearFusionInt()
{
clearDStarInt();
}
void CTFTSurenoo::writeP25Int(const char* source, bool group, unsigned int dest, const char* type)
{
assert(source != NULL);
assert(type != NULL);
setModeLine(STR_P25);
::snprintf(m_temp, sizeof(m_temp), "%s %s", type, source);
setStatusLine(statusLineNo(0), m_temp);
::snprintf(m_temp, sizeof(m_temp), "%s%u", group ? "TG" : "", dest);
setStatusLine(statusLineNo(1), m_temp);
m_mode = MODE_P25;
}
void CTFTSurenoo::clearP25Int()
{
clearDStarInt();
}
void CTFTSurenoo::writeNXDNInt(const char* source, bool group, unsigned int dest, const char* type)
{
assert(source != NULL);
assert(type != NULL);
if (m_mode != MODE_NXDN)
setModeLine(STR_NXDN);
::snprintf(m_temp, sizeof(m_temp), "%s %s", type, source);
setStatusLine(statusLineNo(0), m_temp);
::snprintf(m_temp, sizeof(m_temp), "%s%u", group ? "TG" : "", dest);
setStatusLine(statusLineNo(1), m_temp);
m_mode = MODE_NXDN;
}
int CTFTSurenoo::writeNXDNIntEx(const class CUserDBentry& source, bool group, unsigned int dest, const char* type)
{
assert(type != NULL);
setModeLine(STR_NXDN);
setStatusLine(statusLineNo(2), (source.get(keyFIRST_NAME) + " " + source.get(keyLAST_NAME)).c_str());
setStatusLine(statusLineNo(3), source.get(keyCITY).c_str());
setStatusLine(statusLineNo(4), source.get(keySTATE).c_str());
setStatusLine(statusLineNo(5), source.get(keyCOUNTRY).c_str());
m_mode = MODE_NXDN;
return 1;
}
void CTFTSurenoo::clearNXDNInt()
{
clearDStarInt();
}
void CTFTSurenoo::writePOCSAGInt(uint32_t ric, const std::string& message)
{
setStatusLine(statusLineNo(1), "POCSAG TX");
m_mode = MODE_POCSAG;
}
void CTFTSurenoo::clearPOCSAGInt()
{
setStatusLine(statusLineNo(1), "IDLE");
}
void CTFTSurenoo::writeCWInt()
{
setStatusLine(statusLineNo(1), "CW TX");
m_mode = MODE_CW;
}
void CTFTSurenoo::clearCWInt()
{
setStatusLine(statusLineNo(1), "IDLE");
}
void CTFTSurenoo::close()
{
delete[] m_lineBuf;
m_serial->close();
delete m_serial;
}
void CTFTSurenoo::clockInt(unsigned int ms)
{
m_refreshTimer.clock(ms); // renew timer status
if (m_refreshTimer.isRunning() && m_refreshTimer.hasExpired()) {
refreshDisplay();
m_refreshTimer.start(); // reset timer, wait for next period
}
}
void CTFTSurenoo::setLineBuffer(char *buf, const char *text, int maxchar)
{
int i;
for (i = 0; i < maxchar && text[i] != '\0'; i++)
buf[i] = text[i];
buf[i] = '\0';
m_refresh = true;
}
void CTFTSurenoo::setModeLine(const char *text)
{
setLineBuffer(m_lineBuf, text, MODE_CHARS);
// clear all status line
for (int i = 0; i < STATUS_LINES; i++) setStatusLine(i, "");
}
void CTFTSurenoo::setStatusLine(unsigned int line, const char *text)
{
setLineBuffer(m_lineBuf + statusLineOffset(line), text, STATUS_CHARS);
}
void CTFTSurenoo::refreshDisplay(void)
{
if (!m_refresh) return;
// send CR+LF to avoid first command is not processed
::snprintf(m_temp, sizeof(m_temp), STR_CRLF);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
// clear display
::snprintf(m_temp, sizeof(m_temp), "BOXF(%d,%d,%d,%d,%d);",
0, 0, X_WIDTH - 1, Y_WIDTH - 1, BG_COLOUR);
m_serial->write((unsigned char*)m_temp, ::strlen(m_temp));
// mode line
::snprintf(m_temp, sizeof(m_temp), "DCV%d(%d,%d,'%s',%d);",
MODE_FONT_SIZE, 0, 0, m_lineBuf, MODE_COLOUR);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
// status line
for (int i = 0; i < STATUS_LINES; i++) {
char *p = m_lineBuf + statusLineOffset(i);
if (!::strlen(p)) continue;
::snprintf(m_temp, sizeof(m_temp), "DCV%d(%d,%d,'%s',%d);",
STATUS_FONT_SIZE, 0,
STATUS_MARGIN + STATUS_FONT_SIZE * i, p,
(!m_duplex && i >= INFO_LINES) ? EXT_COLOUR : INFO_COLOUR);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
}
// sending CR+LF finishes commands
::snprintf(m_temp, sizeof(m_temp), STR_CRLF);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
m_refresh = false;
}
void CTFTSurenoo::lcdReset(void)
{
::snprintf(m_temp, sizeof(m_temp), "RESET;" STR_CRLF);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
CThread::sleep(250); // document says 230ms
}
void CTFTSurenoo::clearScreen(unsigned char colour)
{
assert(colour >= 0U && colour <= 63U);
::snprintf(m_temp, sizeof(m_temp), "CLR(%d);" STR_CRLF, colour);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
CThread::sleep(100); // at least 60ms (@240x320 panel)
}
void CTFTSurenoo::setBackground(unsigned char colour)
{
assert(colour >= 0U && colour <= 63U);
::snprintf(m_temp, sizeof(m_temp), "SBC(%d);", colour);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
}
void CTFTSurenoo::setRotation(unsigned char rotation)
{
assert(rotation >= 0U && rotation <= 1U);
::snprintf(m_temp, sizeof(m_temp), "DIR(%d);", rotation);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
}
void CTFTSurenoo::setBrightness(unsigned char brightness)
{
assert(brightness >= 0U && brightness <= 255U);
::snprintf(m_temp, sizeof(m_temp), "BL(%d);", brightness);
m_serial->write((unsigned char*)m_temp, (unsigned int)::strlen(m_temp));
}