// Function lib for display of boat data in various chart formats #include "OBPcharts.h" #include "OBPDataOperations.h" #include "OBPRingBuffer.h" std::map Chart::dfltChrtDta = { { "formatWind", { 60.0 * DEG_TO_RAD, 10.0 * DEG_TO_RAD } }, // default course range 60 degrees { "formatCourse", { 60.0 * DEG_TO_RAD, 10.0 * DEG_TO_RAD } }, // default course range 60 degrees { "formatKnots", { 7.71, 2.56 } }, // default speed range in m/s { "formatDepth", { 15.0, 5.0 } }, // default depth range in m { "kelvinToC", { 30.0, 5.0 } } // default temp range in °C/K }; // --- Class Chart --------------- // Chart - object holding the actual chart, incl. data buffer and format definition // Parameters: the history data buffer for the chart // default range of chart, e.g. 30 = [0..30] // common program data; required for logger and color data // flag to indicate if simulation data is active Chart::Chart(RingBuffer& dataBuf, double dfltRng, CommonData& common, bool useSimuData) : dataBuf(dataBuf) , dfltRng(dfltRng) , commonData(&common) , useSimuData(useSimuData) { logger = commonData->logger; fgColor = commonData->fgcolor; bgColor = commonData->bgcolor; dWidth = getdisplay().width(); dHeight = getdisplay().height(); dataBuf.getMetaData(dbName, dbFormat); dbMIN_VAL = dataBuf.getMinVal(); dbMAX_VAL = dataBuf.getMaxVal(); bufSize = dataBuf.getCapacity(); // Initialize chart data format; shorter version of standard format indicator if (dbFormat == "formatCourse" || dbFormat == "formatWind" || dbFormat == "formatRot") { chrtDataFmt = WIND; // Chart is showing data of course / wind format } else if (dbFormat == "formatRot") { chrtDataFmt = ROTATION; // Chart is showing data of rotational format } else if (dbFormat == "formatKnots") { chrtDataFmt = SPEED; // Chart is showing data of speed or windspeed format } else if (dbFormat == "formatDepth") { chrtDataFmt = DEPTH; // Chart ist showing data of format } else if (dbFormat == "kelvinToC") { chrtDataFmt = TEMPERATURE; // Chart ist showing data of format } else { chrtDataFmt = OTHER; // Chart is showing any other data format } // "0" value is the same for any data format but for user defined temperature format zeroValue = 0.0; if (chrtDataFmt == TEMPERATURE) { tempFormat = commonData->config->getString(commonData->config->tempFormat); // [K|°C|°F] if (tempFormat == "K") { zeroValue = 0.0; } else if (tempFormat == "C") { zeroValue = 273.15; } else if (tempFormat == "F") { zeroValue = 255.37; } } // Read default range and range step for this chart type if (dfltChrtDta.count(dbFormat)) { dfltRng = dfltChrtDta[dbFormat].range; rngStep = dfltChrtDta[dbFormat].step; } else { dfltRng = 15.0; rngStep = 5.0; } // Initialize chart range values chrtMin = zeroValue; chrtMax = chrtMin + dfltRng; chrtMid = (chrtMin + chrtMax) / 2; chrtRng = dfltRng; recalcRngMid = true; // initialize and chart borders on first screen call LOG_DEBUG(GwLog::DEBUG, "Chart Init: dWidth: %d, dHeight: %d, timAxis: %d, valAxis: %d, cRoot {x,y}: %d, %d, dbname: %s, rngStep: %.4f, chrtDataFmt: %d", dWidth, dHeight, timAxis, valAxis, cRoot.x, cRoot.y, dbName, rngStep, chrtDataFmt); }; Chart::~Chart() { } // Perform all actions to draw chart // Parameters: : chart timeline direction: 'H' = horizontal, 'V' = vertical // : chart size: [0] = full size, [1] = half size left/top, [2] half size right/bottom // : chart timeline interval // ; print data name on horizontal half chart [true|false] // : print current boat data value [true|false] // : current boat data value; used only for test on valid data void Chart::showChrt(char chrtDir, int8_t chrtSz, const int8_t chrtIntv, bool prntName, bool showCurrValue, GwApi::BoatValue currValue) { if (!setChartDimensions(chrtDir, chrtSz)) { return; // wrong chart dimension parameters } drawChrt(chrtDir, chrtIntv, currValue); drawChrtTimeAxis(chrtDir, chrtSz, chrtIntv); drawChrtValAxis(chrtDir, chrtSz, prntName); if (!bufDataValid) { // No valid data available prntNoValidData(chrtDir); return; } if (showCurrValue) { // show latest value from history buffer; this should be the most current one currValue.value = dataBuf.getLast(); currValue.valid = currValue.value != dbMAX_VAL; prntCurrValue(chrtDir, currValue); } } // define dimensions and start points for chart bool Chart::setChartDimensions(const char direction, const int8_t size) { if ((direction != HORIZONTAL && direction != VERTICAL) || (size < 0 || size > 2)) { LOG_DEBUG(GwLog::ERROR, "obp60:setChartDimensions %s: wrong parameters", dataBuf.getName()); return false; } if (direction == HORIZONTAL) { // horizontal chart timeline direction timAxis = dWidth - 1; switch (size) { case 0: valAxis = dHeight - top - bottom; cRoot = { 0, top - 1 }; break; case 1: valAxis = (dHeight - top - bottom) / 2 - hGap; cRoot = { 0, top - 1 }; break; case 2: valAxis = (dHeight - top - bottom) / 2 - hGap; cRoot = { 0, top + (valAxis + hGap) + hGap - 1 }; break; } } else if (direction == VERTICAL) { // vertical chart timeline direction timAxis = dHeight - top - bottom; switch (size) { case 0: valAxis = dWidth - 1; cRoot = { 0, top - 1 }; break; case 1: valAxis = dWidth / 2 - vGap; cRoot = { 0, top - 1 }; break; case 2: valAxis = dWidth / 2 - vGap; cRoot = { dWidth / 2 + vGap - 1, top - 1 }; break; } } LOG_DEBUG(GwLog::ERROR, "obp60:setChartDimensions %s: direction: %c, size: %d, dWidth: %d, dHeight: %d, timAxis: %d, valAxis: %d, cRoot{%d, %d}, top: %d, bottom: %d, hGap: %d, vGap: %d", dataBuf.getName(), direction, size, dWidth, dHeight, timAxis, valAxis, cRoot.x, cRoot.y, top, bottom, hGap, vGap); return true; } // draw chart void Chart::drawChrt(const char chrtDir, const int8_t chrtIntv, GwApi::BoatValue& currValue) { double chrtScale; // Scale for data values in pixels per value getBufferStartNSize(chrtIntv); // LOG_DEBUG(GwLog::DEBUG, "Chart:drawChart: min: %.1f, mid: %.1f, max: %.1f, rng: %.1f", chrtMin, chrtMid, chrtMax, chrtRng); calcChrtBorders(chrtMin, chrtMid, chrtMax, chrtRng); chrtScale = double(valAxis) / chrtRng; // Chart scale: pixels per value step LOG_DEBUG(GwLog::DEBUG, "Chart:drawChart: min: %.1f, mid: %.1f, max: %.1f, rng: %.1f", chrtMin, chrtMid, chrtMax, chrtRng); // Do we have valid buffer data? if (dataBuf.getMax() == dbMAX_VAL) { // only values in buffer -> no valid wind data available bufDataValid = false; return; } else if (currValue.valid || useSimuData) { // latest boat data valid or simulation mode numNoData = 0; // reset data error counter bufDataValid = true; } else { // currently no valid data numNoData++; bufDataValid = true; if (numNoData > THRESHOLD_NO_DATA) { // If more than 4 invalid values in a row, flag for invalid data bufDataValid = false; return; } } drawChartLines(chrtDir, chrtIntv, chrtScale); } // Identify buffer size and buffer start position for chart void Chart::getBufferStartNSize(const int8_t chrtIntv) { count = dataBuf.getCurrentSize(); currIdx = dataBuf.getLastIdx(); numAddedBufVals = (currIdx - lastAddedIdx + bufSize) % bufSize; // Number of values added to buffer since last display if (chrtIntv != oldChrtIntv || count == 1) { // new data interval selected by user; this is only x * 230 values instead of 240 seconds (4 minutes) per interval step numBufVals = min(count, (timAxis - MIN_FREE_VALUES) * chrtIntv); // keep free or release MIN_FREE_VALUES on chart for plotting of new values bufStart = max(0, count - numBufVals); lastAddedIdx = currIdx; oldChrtIntv = chrtIntv; } else { numBufVals = numBufVals + numAddedBufVals; lastAddedIdx = currIdx; if (count == bufSize) { bufStart = max(0, bufStart - numAddedBufVals); } } } // check and adjust chart range and set range borders and range middle void Chart::calcChrtBorders(double& rngMin, double& rngMid, double& rngMax, double& rng) { if (chrtDataFmt == WIND || chrtDataFmt == ROTATION) { if (chrtDataFmt == ROTATION) { // if chart data is of type 'rotation', we want to have always to be '0' rngMid = 0; } else { // WIND: Chart data is of type 'course' or 'wind' // initialize if data buffer has just been started filling if ((count == 1 && rngMid == 0) || rngMid == dbMAX_VAL) { recalcRngMid = true; } if (recalcRngMid) { // Set rngMid rngMid = dataBuf.getMid(numBufVals); if (rngMid == dbMAX_VAL) { rngMid = 0; } else { rngMid = std::round(rngMid / rngStep) * rngStep; // Set new center value; round to next value // Check if range between 'min' and 'max' is > 180° or crosses '0' rngMin = dataBuf.getMin(numBufVals); rngMax = dataBuf.getMax(numBufVals); rng = (rngMax >= rngMin ? rngMax - rngMin : M_TWOPI - rngMin + rngMax); rng = std::max(rng, dfltRng); // keep at least default chart range if (rng > M_PI) { // If wind range > 180°, adjust wndCenter to smaller wind range end rngMid = WindUtils::to2PI(rngMid + M_PI); } } recalcRngMid = false; // Reset flag for determination LOG_DEBUG(GwLog::DEBUG, "calcChrtRange: rngMin: %.1f°, rngMid: %.1f°, rngMax: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMin * RAD_TO_DEG, rngMid * RAD_TO_DEG, rngMax * RAD_TO_DEG, rng * RAD_TO_DEG, rngStep * RAD_TO_DEG); } } // check and adjust range between left, mid, and right chart limit double halfRng = rng / 2.0; // we calculate with range between and edges double tmpRng = getAngleRng(rngMid, numBufVals); tmpRng = (tmpRng == dbMAX_VAL ? 0 : std::ceil(tmpRng / rngStep) * rngStep); // LOG_DEBUG(GwLog::DEBUG, "calcChrtBorders: tmpRng: %.1f°, halfRng: %.1f°", tmpRng * RAD_TO_DEG, halfRng * RAD_TO_DEG); if (tmpRng > halfRng) { // expand chart range to new value halfRng = tmpRng; } else if (tmpRng + rngStep < halfRng) { // Contract chart range for higher resolution if possible halfRng = std::max(dfltRng / 2.0, tmpRng); } rngMin = WindUtils::to2PI(rngMid - halfRng); rngMax = (halfRng < M_PI ? rngMid + halfRng : rngMid + halfRng - (M_TWOPI / 360)); // if chart range is 360°, then make 1° smaller than rngMax = WindUtils::to2PI(rngMax); rng = halfRng * 2.0; LOG_DEBUG(GwLog::DEBUG, "calcChrtBorders: rngMin: %.1f°, rngMid: %.1f°, rngMax: %.1f°, tmpRng: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMin * RAD_TO_DEG, rngMid * RAD_TO_DEG, rngMax * RAD_TO_DEG, tmpRng * RAD_TO_DEG, rng * RAD_TO_DEG, rngStep * RAD_TO_DEG); } else { // chart data is of any other type double currMinVal = dataBuf.getMin(numBufVals); double currMaxVal = dataBuf.getMax(numBufVals); if (currMinVal == dbMAX_VAL || currMaxVal == dbMAX_VAL) { return; // no valid data } // check if current chart border have to be adjusted if (currMinVal < rngMin || (currMinVal > (rngMin + rngStep))) { // decrease rngMin if required or increase if lowest value is higher than old rngMin rngMin = std::floor(currMinVal / rngStep) * rngStep; // align low range to lowest buffer value and nearest range interval } if ((currMaxVal > rngMax) || (currMaxVal < (rngMax - rngStep))) { // increase rngMax if required or decrease if lowest value is lower than old rngMax rngMax = std::ceil(currMaxVal / rngStep) * rngStep; } // Chart range starts at least at '0' if minimum data value allows it if (rngMin > zeroValue && dbMIN_VAL <= zeroValue) { rngMin = zeroValue; } // ensure minimum chart range in user format if ((rngMax - rngMin) < dfltRng) { rngMax = rngMin + dfltRng; } rngMid = (rngMin + rngMax) / 2.0; rng = rngMax - rngMin; LOG_DEBUG(GwLog::DEBUG, "calcChrtRange-end: currMinVal: %.1f, currMaxVal: %.1f, rngMin: %.1f, rngMid: %.1f, rngMax: %.1f, rng: %.1f, rngStep: %.1f, zeroValue: %.1f, dbMIN_VAL: %.1f", currMinVal, currMaxVal, rngMin, rngMid, rngMax, rng, rngStep, zeroValue, dbMIN_VAL); } } // Draw chart graph void Chart::drawChartLines(const char direction, const int8_t chrtIntv, const double chrtScale) { double chrtVal; // Current data value Pos point, prevPoint; // current and previous chart point for (int i = 0; i < (numBufVals / chrtIntv); i++) { chrtVal = dataBuf.get(bufStart + (i * chrtIntv)); // show the latest wind values in buffer; keep 1st value constant in a rolling buffer if (chrtVal == dbMAX_VAL) { chrtPrevVal = dbMAX_VAL; } else { point = setCurrentChartPoint(i, direction, chrtVal, chrtScale); // if (i >= (numBufVals / chrtIntv) - 5) // log chart data of 1 line (adjust for test purposes) // LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Chart: i: %d, chrtVal: %.2f, chrtMin: %.2f, {x,y} {%d,%d}", i, chrtVal, chrtMin, x, y); if ((i == 0) || (chrtPrevVal == dbMAX_VAL)) { // just a dot for 1st chart point or after some invalid values prevPoint = point; } else if (chrtDataFmt == WIND || chrtDataFmt == ROTATION) { // cross borders check for degree values; shift values to [-PI..0..PI]; when crossing borders, range is 2x PI degrees double normCurrVal = WindUtils::to2PI(chrtVal - chrtMin); double normPrevVal = WindUtils::to2PI(chrtPrevVal - chrtMin); // Check if pixel positions are far apart (crossing chart boundary); happens when one value is near chrtMax and the other near chrtMin bool crossedBorders = std::abs(normCurrVal - normPrevVal) > (chrtRng / 2.0); if (crossedBorders) { // If current value crosses chart borders compared to previous value, split line // LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Chart: crossedBorders: %d, chrtVal: %.2f, chrtPrevVal: %.2f", crossedBorders, chrtVal, chrtPrevVal); bool wrappingFromHighToLow = normCurrVal < normPrevVal; // Determine which edge we're crossing if (direction == HORIZONTAL) { int ySplit = wrappingFromHighToLow ? (cRoot.y + valAxis) : cRoot.y; drawBoldLine(prevPoint.x, prevPoint.y, point.x, ySplit); prevPoint.y = wrappingFromHighToLow ? cRoot.y : (cRoot.y + valAxis); } else { // vertical chart int xSplit = wrappingFromHighToLow ? (cRoot.x + valAxis) : cRoot.x; drawBoldLine(prevPoint.x, prevPoint.y, xSplit, point.y); prevPoint.x = wrappingFromHighToLow ? cRoot.x : (cRoot.x + valAxis); } } } if (chrtDataFmt == DEPTH) { if (direction == HORIZONTAL) { // horizontal chart drawBoldLine(point.x, point.y, point.x, cRoot.y + valAxis); } else { // vertical chart drawBoldLine(point.x, point.y, cRoot.x + valAxis, point.y); } } else { drawBoldLine(prevPoint.x, prevPoint.y, point.x, point.y); } chrtPrevVal = chrtVal; prevPoint = point; } // Reaching chart area top end if (i >= timAxis - 1) { oldChrtIntv = 0; // force reset of buffer start and number of values to show in next display loop if (chrtDataFmt == WIND) { // degree of course or wind recalcRngMid = true; LOG_DEBUG(GwLog::DEBUG, "PageWindPlot: chart end: timAxis: %d, i: %d, bufStart: %d, numBufVals: %d, recalcRngCntr: %d", timAxis, i, bufStart, numBufVals, recalcRngMid); } break; } } } // Set current chart point to draw Pos Chart::setCurrentChartPoint(const int i, const char direction, const double chrtVal, const double chrtScale) { Pos currentPoint; if (direction == HORIZONTAL) { currentPoint.x = cRoot.x + i; // Position in chart area if (chrtDataFmt == WIND || chrtDataFmt == ROTATION) { // degree type value currentPoint.y = cRoot.y + static_cast((WindUtils::to2PI(chrtVal - chrtMin) * chrtScale) + 0.5); // calculate chart point and round } else if (chrtDataFmt == SPEED or chrtDataFmt == TEMPERATURE) { // speed or temperature data format -> print low values at bottom currentPoint.y = cRoot.y + valAxis - static_cast(((chrtVal - chrtMin) * chrtScale) + 0.5); // calculate chart point and round } else { // any other data format currentPoint.y = cRoot.y + static_cast(((chrtVal - chrtMin) * chrtScale) + 0.5); // calculate chart point and round } } else { // vertical chart currentPoint.y = cRoot.y + timAxis - i; // Position in chart area if (chrtDataFmt == WIND || chrtDataFmt == ROTATION) { // degree type value currentPoint.x = cRoot.x + static_cast((WindUtils::to2PI(chrtVal - chrtMin) * chrtScale) + 0.5); // calculate chart point and round } else { currentPoint.x = cRoot.x + static_cast(((chrtVal - chrtMin) * chrtScale) + 0.5); // calculate chart point and round } } return currentPoint; } // chart time axis label + lines void Chart::drawChrtTimeAxis(const char chrtDir, const int8_t chrtSz, const int8_t chrtIntv) { float axSlots, intv, i; char sTime[6]; int timeRng = chrtIntv * 4; // chart time interval: [1] 4 min., [2] 8 min., [3] 12 min., [4] 16 min., [8] 32 min. getdisplay().setFont(&Ubuntu_Bold8pt8b); getdisplay().setTextColor(fgColor); axSlots = 5; // number of axis labels intv = timAxis / (axSlots - 1); // minutes per chart axis interval (interval is 1 less than axSlots) i = timeRng; // Chart axis label start at -32, -16, -12, ... minutes if (chrtDir == HORIZONTAL) { getdisplay().fillRect(0, cRoot.y, dWidth, 2, fgColor); for (float j = 0; j < timAxis - 1; j += intv) { // fill time axis with values but keep area free on right hand side for value label // draw text with appropriate offset int tOffset = j == 0 ? 13 : -4; snprintf(sTime, sizeof(sTime), "-%.0f", i); drawTextCenter(cRoot.x + j + tOffset, cRoot.y - 8, sTime); getdisplay().drawLine(cRoot.x + j, cRoot.y, cRoot.x + j, cRoot.y + 5, fgColor); // draw short vertical time mark i -= chrtIntv; } } else { // vertical chart for (float j = intv; j < timAxis - 1; j += intv) { // don't print time label at upper and lower end of time axis i -= chrtIntv; // we start not at top chart position snprintf(sTime, sizeof(sTime), "-%.0f", i); getdisplay().drawLine(cRoot.x, cRoot.y + j, cRoot.x + valAxis, cRoot.y + j, fgColor); // Grid line if (chrtSz == FULL_SIZE) { // full size chart getdisplay().fillRect(0, cRoot.y + j - 9, 32, 15, bgColor); // clear small area to remove potential chart lines getdisplay().setCursor((4 - strlen(sTime)) * 7, cRoot.y + j + 3); // time value; print left screen; value right-formated getdisplay().printf("%s", sTime); // Range value } else if (chrtSz == HALF_SIZE_RIGHT) { // half size chart; right side drawTextCenter(dWidth / 2, cRoot.y + j, sTime); // time value; print mid screen } } } } // chart value axis labels + lines void Chart::drawChrtValAxis(const char chrtDir, const int8_t chrtSz, bool prntName) { const GFXfont* font; constexpr bool NO_LABEL = false; constexpr bool LABEL = true; getdisplay().setTextColor(fgColor); if (chrtDir == HORIZONTAL) { if (chrtSz == FULL_SIZE) { font = &Ubuntu_Bold12pt8b; // print buffer data name on right hand side of time axis (max. size 5 characters) getdisplay().setFont(font); drawTextRalign(cRoot.x + timAxis, cRoot.y - 3, dbName.substring(0, 5)); if (chrtDataFmt == WIND) { prntHorizChartThreeValueAxisLabel(font); return; } // for any other data formats print multiple axis value lines on full charts prntHorizChartMultiValueAxisLabel(font); return; } else { // half size chart -> just print edge values + middle chart line font = &Ubuntu_Bold10pt8b; if (prntName) { // print buffer data name on right hand side of time axis (max. size 5 characters) getdisplay().setFont(font); drawTextRalign(cRoot.x + timAxis, cRoot.y - 3, dbName.substring(0, 5)); } prntHorizChartThreeValueAxisLabel(font); return; } } else { // vertical chart if (chrtSz == FULL_SIZE) { font = &Ubuntu_Bold12pt8b; getdisplay().setFont(font); // use larger font drawTextRalign(cRoot.x + (valAxis * 0.42), cRoot.y - 2, dbName.substring(0, 6)); // print buffer data name (max. size 5 characters) } else { font = &Ubuntu_Bold10pt8b; } prntVerticChartThreeValueAxisLabel(font); } } // Print current data value void Chart::prntCurrValue(const char direction, GwApi::BoatValue& currValue) { const int xPosVal = (direction == HORIZONTAL) ? cRoot.x + (timAxis / 2) - 56 : cRoot.x + 32; const int yPosVal = (direction == HORIZONTAL) ? cRoot.y + valAxis - 7 : cRoot.y + timAxis - 7; FormattedData frmtDbData = formatValue(&currValue, *commonData, NO_SIMUDATA); String sdbValue = frmtDbData.svalue; // value as formatted string String dbUnit = frmtDbData.unit; // Unit of value; limit length to 3 characters getdisplay().fillRect(xPosVal - 1, yPosVal - 35, 128, 41, bgColor); // Clear area for TWS value getdisplay().drawRect(xPosVal, yPosVal - 34, 126, 40, fgColor); // Draw box for TWS value getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b); getdisplay().setCursor(xPosVal + 1, yPosVal); getdisplay().print(sdbValue); // value getdisplay().setFont(&Ubuntu_Bold10pt8b); getdisplay().setCursor(xPosVal + 76, yPosVal - 17); getdisplay().print(dbName.substring(0, 3)); // Name, limited to 3 characters getdisplay().setFont(&Ubuntu_Bold8pt8b); getdisplay().setCursor(xPosVal + 76, yPosVal + 0); getdisplay().print(dbUnit); // Unit } // print message for no valid data availabletemplate void Chart::prntNoValidData(const char direction) { Pos p; getdisplay().setFont(&Ubuntu_Bold10pt8b); if (direction == HORIZONTAL) { p.x = cRoot.x + (timAxis / 2); p.y = cRoot.y + (valAxis / 2) - 10; } else { p.x = cRoot.x + (valAxis / 2); p.y = cRoot.y + (timAxis / 2) - 10; } getdisplay().fillRect(p.x - 37, p.y - 10, 78, 24, bgColor); // Clear area for message drawTextCenter(p.x, p.y, "No data"); LOG_DEBUG(GwLog::LOG, "Page chart <%s>: No valid data available", dbName); } // Get maximum difference of last of dataBuf ringbuffer values to center chart; for angle data only double Chart::getAngleRng(const double center, size_t amount) { size_t count = dataBuf.getCurrentSize(); if (dataBuf.isEmpty() || amount <= 0) { return dbMAX_VAL; } if (amount > count) amount = count; double value = 0; double range = 0; double maxRng = dbMIN_VAL; // Start from the newest value (last) and go backwards x times for (size_t i = 0; i < amount; i++) { value = dataBuf.get(count - 1 - i); if (value == dbMAX_VAL) { continue; // ignore invalid values } range = abs(fmod((value - center + (M_TWOPI + M_PI)), M_TWOPI) - M_PI); if (range > maxRng) maxRng = range; } if (maxRng > M_PI) { maxRng = M_PI; } return (maxRng != dbMIN_VAL ? maxRng : dbMAX_VAL); // Return range from to } // print value axis label with only three values: top, mid, and bottom for vertical chart void Chart::prntVerticChartThreeValueAxisLabel(const GFXfont* font) { double cVal; char sVal[7]; getdisplay().fillRect(cRoot.x, cRoot.y, valAxis, 2, fgColor); // top chart line getdisplay().setFont(font); cVal = chrtMin; cVal = convertValue(cVal, dbName, dbFormat, *commonData); // value (converted) snprintf(sVal, sizeof(sVal), "%.0f", round(cVal)); getdisplay().setCursor(cRoot.x, cRoot.y - 2); getdisplay().printf("%s", sVal); // Range low end cVal = chrtMid; cVal = convertValue(cVal, dbName, dbFormat, *commonData); // value (converted) snprintf(sVal, sizeof(sVal), "%.0f", round(cVal)); drawTextCenter(cRoot.x + (valAxis / 2), cRoot.y - 9, sVal); // Range mid end cVal = chrtMax; cVal = convertValue(cVal, dbName, dbFormat, *commonData); // value (converted) snprintf(sVal, sizeof(sVal), "%.0f", round(cVal)); drawTextRalign(cRoot.x + valAxis - 2, cRoot.y - 2, sVal); // Range high end // draw vertical grid lines for each axis label for (int j = 0; j <= valAxis; j += (valAxis / 2)) { getdisplay().drawLine(cRoot.x + j, cRoot.y, cRoot.x + j, cRoot.y + timAxis, fgColor); } } // print value axis label with only three values: top, mid, and bottom for horizontal chart void Chart::prntHorizChartThreeValueAxisLabel(const GFXfont* font) { double axLabel; double chrtMin, chrtMid, chrtMax; int xOffset, yOffset; // offset for text position of x axis label for different font sizes String sVal; if (font == &Ubuntu_Bold10pt8b) { xOffset = 39; yOffset = 15; } else if (font == &Ubuntu_Bold12pt8b) { xOffset = 51; yOffset = 18; } getdisplay().setFont(font); // convert & round chart bottom+top label to next range step chrtMin = convertValue(this->chrtMin, dbName, dbFormat, *commonData); chrtMid = convertValue(this->chrtMid, dbName, dbFormat, *commonData); chrtMax = convertValue(this->chrtMax, dbName, dbFormat, *commonData); chrtMin = std::round(chrtMin * 100.0) / 100.0; chrtMid = std::round(chrtMid * 100.0) / 100.0; chrtMax = std::round(chrtMax * 100.0) / 100.0; // print top axis label axLabel = (chrtDataFmt == SPEED || chrtDataFmt == TEMPERATURE) ? chrtMax : chrtMin; sVal = formatLabel(axLabel); getdisplay().fillRect(cRoot.x, cRoot.y + 2, xOffset + 3, yOffset, bgColor); // Clear small area to remove potential chart lines drawTextRalign(cRoot.x + xOffset, cRoot.y + yOffset, sVal); // range value // print mid axis label axLabel = chrtMid; sVal = formatLabel(axLabel); getdisplay().fillRect(cRoot.x, cRoot.y + (valAxis / 2) - 8, xOffset + 3, 16, bgColor); // Clear small area to remove potential chart lines drawTextRalign(cRoot.x + xOffset, cRoot.y + (valAxis / 2) + 6, sVal); // range value getdisplay().drawLine(cRoot.x + xOffset + 3, cRoot.y + (valAxis / 2), cRoot.x + timAxis, cRoot.y + (valAxis / 2), fgColor); // print bottom axis label axLabel = (chrtDataFmt == SPEED || chrtDataFmt == TEMPERATURE) ? chrtMin : chrtMax; sVal = formatLabel(axLabel); getdisplay().fillRect(cRoot.x, cRoot.y + valAxis - 14, xOffset + 3, 15, bgColor); // Clear small area to remove potential chart lines drawTextRalign(cRoot.x + xOffset, cRoot.y + valAxis, sVal); // range value getdisplay().drawLine(cRoot.x + xOffset + 3, cRoot.y + valAxis, cRoot.x + timAxis, cRoot.y + valAxis, fgColor); } // print value axis label with multiple axis lines for horizontal chart void Chart::prntHorizChartMultiValueAxisLabel(const GFXfont* font) { double chrtMin, chrtMax, chrtRng; double axSlots, axIntv, axLabel; int xOffset; // offset for text position of x axis label for different font sizes String sVal; if (font == &Ubuntu_Bold10pt8b) { xOffset = 38; } else if (font == &Ubuntu_Bold12pt8b) { xOffset = 50; } getdisplay().setFont(font); chrtMin = convertValue(this->chrtMin, dbName, dbFormat, *commonData); // chrtMin = std::floor(chrtMin / rngStep) * rngStep; chrtMin = std::round(chrtMin * 100.0) / 100.0; chrtMax = convertValue(this->chrtMax, dbName, dbFormat, *commonData); // chrtMax = std::ceil(chrtMax / rngStep) * rngStep; chrtMax = std::round(chrtMax * 100.0) / 100.0; chrtRng = std::round((chrtMax - chrtMin) * 100) / 100; axSlots = valAxis / static_cast(VALAXIS_STEP); // number of axis labels (and we want to have a double calculation, no integer) axIntv = chrtRng / axSlots; axLabel = chrtMin + axIntv; LOG_DEBUG(GwLog::DEBUG, "Chart::printHorizMultiValueAxisLabel: chrtRng: %.2f, th-chrtRng: %.2f, axSlots: %.2f, axIntv: %.2f, axLabel: %.2f, chrtMin: %.2f, chrtMid: %.2f, chrtMax: %.2f", chrtRng, this->chrtRng, axSlots, axIntv, axLabel, this->chrtMin, chrtMid, chrtMax); int loopStrt, loopEnd, loopStp; if (chrtDataFmt == SPEED || chrtDataFmt == TEMPERATURE || chrtDataFmt == OTHER) { // High value at top loopStrt = valAxis - VALAXIS_STEP; loopEnd = VALAXIS_STEP / 2; loopStp = VALAXIS_STEP * -1; } else { // Low value at top loopStrt = VALAXIS_STEP; loopEnd = valAxis - (VALAXIS_STEP / 2); loopStp = VALAXIS_STEP; } for (int j = loopStrt; (loopStp > 0) ? (j < loopEnd) : (j > loopEnd); j += loopStp) { sVal = formatLabel(axLabel); getdisplay().fillRect(cRoot.x, cRoot.y + j - 11, xOffset + 3, 21, bgColor); // Clear small area to remove potential chart lines drawTextRalign(cRoot.x + xOffset, cRoot.y + j + 7, sVal); // range value getdisplay().drawLine(cRoot.x + xOffset + 3, cRoot.y + j, cRoot.x + timAxis, cRoot.y + j, fgColor); axLabel += axIntv; } } // Draw chart line with thickness of 2px void Chart::drawBoldLine(const int16_t x1, const int16_t y1, const int16_t x2, const int16_t y2) { int16_t dx = std::abs(x2 - x1); int16_t dy = std::abs(y2 - y1); getdisplay().drawLine(x1, y1, x2, y2, fgColor); if (dx >= dy) { // line has horizontal tendency getdisplay().drawLine(x1, y1 - 1, x2, y2 - 1, fgColor); } else { // line has vertical tendency getdisplay().drawLine(x1 - 1, y1, x2 - 1, y2, fgColor); } } // Convert and format current axis label to user defined format; helper function for easier handling of OBP60Formatter String Chart::convNformatLabel(const double& label) { GwApi::BoatValue tmpBVal(dbName); // temporary boat value for string formatter String sVal; tmpBVal.setFormat(dbFormat); tmpBVal.valid = true; tmpBVal.value = label; sVal = formatValue(&tmpBVal, *commonData, NO_SIMUDATA).svalue; // Formatted value as string including unit conversion and switching decimal places if (sVal.length() > 0 && sVal[0] == '!') { sVal = sVal.substring(1); // cut leading "!" created at OBPFormatter; doesn't work for other fonts than 7SEG } return sVal; } // Format current axis label for printing w/o data format conversion (has been done earlier) String Chart::formatLabel(const double& label) { char sVal[11]; if (dbFormat == "formatCourse" || dbFormat == "formatWind") { // Format 3 numbers with prefix zero snprintf(sVal, sizeof(sVal), "%03.0f", label); } else if (dbFormat == "formatRot") { if (label > -10 && label < 10) { snprintf(sVal, sizeof(sVal), "%3.2f", label); } else { snprintf(sVal, sizeof(sVal), "%3.0f", label); } } else { if (label < 10) { snprintf(sVal, sizeof(sVal), "%3.1f", label); } else { snprintf(sVal, sizeof(sVal), "%3.0f", label); } } return String(sVal); } // --- Class Chart ---------------