Mercurial > public > ostc4
view Discovery/Src/show_logbook.c @ 795:d4083ac09b5d
Moved DiveO2 sensor specific funtionality into separated file:
Having the protocol functions of all sensors within one file made the code hard to ready and created aa risk of interference between the protocols. In furture every (new) sensor should be maintained in its own source file. The ols UART.c does only contain the function which are used by all UART protocols (common functions).
author | Ideenmodellierer |
---|---|
date | Mon, 31 Jul 2023 19:50:36 +0200 |
parents | aa6006975e76 |
children |
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/////////////////////////////////////////////////////////////////////////////// /// -*- coding: UTF-8 -*- /// /// \file Discovery/Src/show_logbook.c /// \brief show_logbook_logbook_show_log_page1 / /// \author Heinrichs Weikamp gmbh /// \date 07-July-2014 /// /// \details /// /// $Id$ /////////////////////////////////////////////////////////////////////////////// /// \par Copyright (c) 2014-2018 Heinrichs Weikamp gmbh /// /// 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 "base.h" #include "logbook.h" #include "gfx_colors.h" #include "gfx_engine.h" #include "gfx_fonts.h" #include "show_logbook.h" #include "unit.h" #include "configuration.h" #include "logbook_miniLive.h" #include "text_multilanguage.h" #include <stdint.h> #include <stdio.h> #include <stdlib.h> // for abs() #define LOG_BORDER_OFFSET (50u) /* text offset from left / right display to text start/end */ /* Private variables ---------------------------------------------------------*/ static GFX_DrawCfgScreen tLOGscreen; static GFX_DrawCfgScreen tLOGbackground; static void print_gas_name(char* output,uint8_t lengh,uint8_t oxygen,uint8_t helium); static int16_t get_colour(int16_t color); static uint8_t active_log_page = 1; static uint8_t active_log_offset = 0; /* Overview */ static void show_logbook_logbook_show_log_page1(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards); /* Temperature */ static void show_logbook_logbook_show_log_page2(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards); /* Gas List */ static void show_logbook_logbook_show_log_page3(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards); /* ppO2 */ static void show_logbook_logbook_show_log_page4(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards); static inline uint32_t MaxU32LOG(uint32_t a, uint32_t b) { return((a>b)?a:b); } /** ****************************************************************************** * @brief GFX write label. / print coordinate system & depth graph * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 07-July-2014 ****************************************************************************** * * @param hgfx: * @param window: WindowGimpStyle * @param mode: different modes depending witch page uses the function * @param dataLength: * @param depthdata: * @param colordata: 1 * @retval None */ static void show_logbook_draw_depth_graph(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards, SWindowGimpStyle* window, short mode, uint16_t dataLength, uint16_t* depthdata, uint8_t * colordata, uint16_t * decostopdata) { SLogbookHeader logbookHeader; SWindowGimpStyle wintemp = *window; SWindowGimpStyle winsmal; logbook_getHeader(StepBackwards, &logbookHeader); int divetime = logbookHeader.diveTimeMinutes; int maxDepth = logbookHeader.maxDepth/100; int16_t saveBottom = wintemp.bottom; int16_t saveTop = 0 - wintemp.top; //*** Horisontal (depth) *************************************************** //--- calc depth lines and labels -- int vscale = 0; int vstep = 0; vstep = maxDepth / 5; vscale = vstep * 5; if(vscale < maxDepth) { vstep += 1; vscale += 5; } /* if(vscale < for(int i=1; i <= 20; i++) { vscale = i * 25; vstep = i * 5; if( vscale > maxDepth) break; } */ //--- print depth labels --- winsmal.left = wintemp.left - 48; winsmal.top = wintemp.top - 3; winsmal.right = wintemp.left -1; winsmal.bottom = winsmal.top + 16; if(settingsGetPointer()->nonMetricalSystem) { Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_GasSensor1,"[ft]"); } else { Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_GasSensor1,"[m]"); } // winsmal.left = wintemp.left - 48; char msg[10]; float deltaline = ((float)(wintemp.bottom - wintemp.top))/5; for(int i = 1; i<=5; i++) { winsmal.top = wintemp.top + deltaline * i - 14; winsmal.bottom = winsmal.top + 16; // winsmal.right = wintemp.left - 2; snprintf(msg,10,"%i",unit_depth_integer(i * vstep)); Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_GasSensor1,msg); } //vertical (Time) ******************************************************************* //--- calc time lines and labels -- int timestep = 0; int lines = 0; for(int i=1; i <= 60; i++) { timestep = i * 5; lines = divetime/timestep; if(lines < 7) { break; } } //*** print coordinate system grit *** int winwidth = wintemp.right - wintemp.left; float vdeltaline = ((float)(winwidth * timestep))/divetime; GFX_draw_Grid( &tLOGbackground,wintemp, 0, vdeltaline, 5,0, CLUT_LogbookGrid); //--- print time labels --- winsmal.left = wintemp.left; winsmal.top = wintemp.top - 40; winsmal.right = winsmal.left + 60; winsmal.bottom = winsmal.top + 16; Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_GasSensor1,"min"); for(int i = 1; i<=lines; i++) { winsmal.left= wintemp.left + vdeltaline * i - 15; winsmal.right = winsmal.left + 30; snprintf(msg,10,"%3i",i * timestep); Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_GasSensor1,msg); } winsmal.left = wintemp.left;// - 9; winsmal.top = wintemp.top - 40; winsmal.right = winsmal.left + 60; //--- print depth graph --- //adapt window int winhight = wintemp.bottom - wintemp.top; int newhight = (winhight * maxDepth)/vscale; wintemp.bottom = wintemp.top + newhight; //wintemp.fontcolor = LOGBOOK_GRAPH_DEPTH; int datamax = 0; for(int i=0;i<dataLength;i++) { if(depthdata[i]>datamax) datamax = depthdata[i]; } if(decostopdata) { if(dataLength <= 1000) { uint8_t colortemp[1000]; for(int i = 0; i<dataLength; i++) { if(decostopdata[i] > depthdata[i]) { colortemp[i] = CLUT_WarningRed; } else { colortemp[i] = CLUT_NiceGreen; } } GFX_graph_print(hgfx,&wintemp,saveTop,1,0,datamax, decostopdata,dataLength, 0, colortemp); } else GFX_graph_print(hgfx,&wintemp,saveTop,1,0,datamax, decostopdata,dataLength, CLUT_NiceGreen, NULL); } if(settingsGetPointer()->FlipDisplay) { winsmal.right = 800 - wintemp.left; winsmal.left = 800 - wintemp.right; winsmal.bottom = wintemp.bottom; winsmal.top = wintemp.top; } else { winsmal.right = wintemp.right; winsmal.left = wintemp.left; winsmal.bottom = wintemp.bottom; winsmal.top = wintemp.top; } switch(mode) { case 0: GFX_graph_print(hgfx,&winsmal,0,1,0,datamax, depthdata,dataLength,CLUT_GasSensor1, NULL); break; case 1: GFX_graph_print(hgfx,&winsmal,saveBottom,1,0,datamax, depthdata,dataLength,CLUT_GasSensor0,colordata); break; case 2: if(*colordata) GFX_graph_print(hgfx,&winsmal,0,1,0,datamax, depthdata,dataLength,CLUT_GasSensor0,colordata); else GFX_graph_print(hgfx,&winsmal,0,1,0,datamax, depthdata,dataLength,CLUT_GasSensor1, NULL); } } /** ****************************************************************************** * @brief scaleAdapt * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 29-Nov-2016 ****************************************************************************** * * @param ... * @retval *OutputStepOfScale, *OutputMaxValueOnScale, *OutputTop, *OutputBottom * fit to multiples of 1�C (data format is 1/10�C) */ static void scaleAdapt( int InputTop, int InputBottom, int16_t *OutputMinValue, int16_t *OutputMaxValue, int *OutputTop, int *OutputBottom, uint16_t *OutputStepOfScale, int16_t *OutputMaxValueOnScale) { // uint16_t oldScale; uint16_t newScale; // uint16_t diff_newScale; // int16_t oldMaxOnScale; int16_t newMaxOnScale; // int16_t diff_newMaxOnScale; _Bool negativeMaxValue = 0; // float oldRange; float newRange; float sizeOfScreen; // float InputTopValue; // float InputBottomValue; float screenToRangeRatio; float diffOutMaxToMaxOnScale; float diffOutMinToMaxOnScale; int positonOutputMaxValue; int positonOutputMinValue; // scale // oldScale = *OutputStepOfScale; newScale = *OutputStepOfScale + 9; newScale /= 10; newScale *= 10; // diff_newScale = newScale - *OutputStepOfScale; // oldRange = 5 * oldScale; newRange = 5 * newScale; *OutputStepOfScale = newScale; // MaxValueOnScale // oldMaxOnScale = *OutputMaxValueOnScale; if(OutputMaxValueOnScale < 0) { negativeMaxValue = 1; newMaxOnScale = 0 - *OutputMaxValueOnScale; } else { negativeMaxValue = 0; newMaxOnScale = *OutputMaxValueOnScale; } newMaxOnScale += 9; newMaxOnScale /= 10; newMaxOnScale *= 10; if(negativeMaxValue) { // diff_newMaxOnScale = newMaxOnScale + *OutputMaxValueOnScale; *OutputMaxValueOnScale = 0 - newMaxOnScale; } else { // diff_newMaxOnScale = newMaxOnScale - *OutputMaxValueOnScale; *OutputMaxValueOnScale = newMaxOnScale; } // new coordinates sizeOfScreen = 1 + InputBottom - InputTop; // InputTopValue = *OutputMaxValueOnScale; // InputBottomValue = InputTopValue + (6 * *OutputStepOfScale); screenToRangeRatio = sizeOfScreen / newRange; diffOutMaxToMaxOnScale = abs(*OutputMaxValueOnScale) - abs(*OutputMaxValue); // diffOutMinToMax = abs(*OutputMinValue - *OutputMaxValue); diffOutMinToMaxOnScale = abs(*OutputMaxValueOnScale - *OutputMinValue); positonOutputMaxValue = (int)(diffOutMaxToMaxOnScale * screenToRangeRatio); positonOutputMaxValue += *OutputTop; positonOutputMinValue = (int)(diffOutMinToMaxOnScale * screenToRangeRatio); positonOutputMinValue += *OutputTop; // positonOutputMinValue = (int)(diffOutMinToMax * screenToRangeRatio); // positonOutputMinValue += positonOutputMaxValue; *OutputTop = positonOutputMaxValue; *OutputBottom = positonOutputMinValue; } /** ****************************************************************************** * @brief scaleHelper * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 13-Oct-2016 ****************************************************************************** * * @param hgfx: * @retval None * pixel 50 oben * pixel 439 unten * pixel 390 gesamt h�he * for temperature, input is �C * 10 */ static void scaleHelper( uint16_t InputDataLength, int16_t *InputDataArray, int InputTop, int InputBottom, int16_t *OutputMinValue, int16_t *OutputMaxValue, int *OutputTop, int *OutputBottom, uint16_t *OutputStepOfScale, int16_t *OutputMaxValueOnScale) { int32_t datamin = INT16_MAX; // 32 bit for delta calculation ( delta is unsigned -> value can be 2x INT16_MAX) int32_t datamax = INT16_MIN; uint16_t deltaMinMax = 1; // uint16_t deltaMinMaxUsed = 1; // uint16_t digits = 1; // uint16_t scaler = 1; uint32_t step = 1; const int sizeOfScreen = InputBottom - InputTop; float pixel2range = 1.0; // min, max, deltaMinMax, OutputMinValue, OutputMaxValue for(uint16_t i = 0; i < InputDataLength; i++) { if(InputDataArray[i] > datamax) datamax = InputDataArray[i]; if(InputDataArray[i] < datamin) datamin = InputDataArray[i]; } deltaMinMax = (uint16_t)(datamax - datamin); *OutputMinValue = (int16_t)datamin; *OutputMaxValue = (int16_t)datamax; // step step = deltaMinMax / 5; while(deltaMinMax > (step * 5)) { step += 1; } pixel2range = ((float)sizeOfScreen) / (step * 5); *OutputStepOfScale = (uint16_t)step; *OutputMaxValueOnScale = *OutputMaxValue; *OutputTop = InputTop; *OutputBottom = ((int)(pixel2range * deltaMinMax)) + *OutputTop; } /** ****************************************************************************** * @brief show_logbook_logbook_show_log_page1 / * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 07-July-2014 ****************************************************************************** * * @param hgfx: * @retval None */ static void show_logbook_logbook_show_log_page1(GFX_DrawCfgScreen *hgfx,uint8_t StepBackwards) { SWindowGimpStyle wintemp; SWindowGimpStyle winsmal; wintemp.left = LOG_BORDER_OFFSET; wintemp.right = 799 - wintemp.left; wintemp.top = LOG_BORDER_OFFSET; wintemp.bottom = 479 - 40; char timeSuffix; uint8_t hoursToDisplay; SLogbookHeader logbookHeader; logbook_getHeader(StepBackwards ,&logbookHeader); uint16_t depthdata[1000] = { 0 }; uint8_t gasdata[1000] = { 0 }; int16_t tempdata[1000] = { 0 }; uint16_t tankdata[1000] = { 0 }; #ifdef ENABLE_BOTTLE_SENSOR uint16_t bottlePressureStart = 0; uint16_t bottlePressureEnd = 0; uint16_t loop = 0; #endif uint16_t dataLength = 0; dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, tempdata, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, tankdata,NULL); //Print Date uint8_t year = logbookHeader.dateYear; uint8_t month = logbookHeader.dateMonth; uint8_t day = logbookHeader.dateDay; char text[40]; snprintf(text, 20, "20%02i-%02i-%02i", year, month, day); Gfx_write_label_var(hgfx, 30, 250,10, &FontT42,CLUT_GasSensor1,text); // Print logbook number with offset if(settingsGetPointer()->logbookOffset) { int32_t logNumber; logNumber = settingsGetPointer()->logbookOffset - StepBackwards; if(logNumber < 0) logNumber = 0; else if(logNumber > 9999) logNumber = 9999; snprintf(text,20,"#%ld",logNumber); Gfx_write_label_var(hgfx, 300, 590,10, &FontT42,CLUT_GasSensor1,text); } //Print time uint8_t minute = logbookHeader.timeMinute; if (settingsGetPointer()->amPMTime) { if (logbookHeader.timeHour > 11) { timeSuffix = 'P'; } else { timeSuffix = 'A'; } if (logbookHeader.timeHour % 12 == 0) { hoursToDisplay = 12; } else { hoursToDisplay = (logbookHeader.timeHour % 12); } snprintf(text,20,"\002%02i:%02i %cM",hoursToDisplay,minute,timeSuffix); } else { hoursToDisplay = logbookHeader.timeHour; snprintf(text,20,"\002%02i:%02i",hoursToDisplay,minute); } Gfx_write_label_var(hgfx, 600, wintemp.right,10, &FontT42,CLUT_GasSensor1,text); //Print Dive Mode (OC/CCR/...) switch(logbookHeader.diveMode) { case DIVEMODE_OC: snprintf(text,20,"%c",TXT_OpenCircuit); break; case DIVEMODE_CCR: snprintf(text,20,"%c",TXT_ClosedCircuit); break; case DIVEMODE_Gauge: snprintf(text,20,"%c",TXT_Gauge); break; case DIVEMODE_Apnea: snprintf(text,20,"%c",TXT_Apnoe); break; case DIVEMODE_PSCR: snprintf(text,20,"%c",TXT_PSClosedCircuit); break; } Gfx_write_label_var(hgfx, 30, 250,60, &FontT42,CLUT_GasSensor4,text); // Decomodel if(logbookHeader.diveMode <= DIVEMODE_CCR) { switch(logbookHeader.decoModel) { case GF_MODE: snprintf(text,20,"\002GF%u/%u",logbookHeader.gfLow_or_Vpm_conservatism,logbookHeader.gfHigh); break; case VPM_MODE: snprintf(text,20,"\002VPM +%u",logbookHeader.gfLow_or_Vpm_conservatism); break; default: snprintf(text,20," "); /* no information to be displayed */ break; } Gfx_write_label_var(hgfx, 500, wintemp.right,60, &FontT42,CLUT_GasSensor1,text); } //Write Dive Time int minutes = logbookHeader.diveTimeMinutes; int seconds = logbookHeader.diveTimeSeconds; int hours = minutes/60; minutes -= hours * 60; snprintf(text,20,"%02i:%02i:%02i",hours,minutes,seconds); Gfx_write_label_var(hgfx, 30, 250,360, &FontT42,CLUT_GasSensor1,text); Gfx_write_label_var(hgfx, 200, 250,360, &FontT42,CLUT_GasSensor4,"s"); // Max Depth int maxdepth =logbookHeader.maxDepth/100; int maxdepth_dcm = logbookHeader.maxDepth/10 - maxdepth * 10; int top = 150; if(settingsGetPointer()->nonMetricalSystem) { float maxDepthFeet = 0; maxDepthFeet = unit_depth_float(((float)logbookHeader.maxDepth)/100); snprintf(text,20,"%.0f",maxDepthFeet); } else { snprintf(text,20,"%i.%i",maxdepth,maxdepth_dcm); } Gfx_write_label_var(hgfx, 30, 250,top, &FontT42,CLUT_GasSensor1,text); winsmal.left = 30; winsmal.top = top -3; winsmal.bottom = winsmal.top + FontT42.height; if(maxdepth < 10) { winsmal.left = 137; } else if(maxdepth < 100) { winsmal.left = 151; } else { winsmal.left = 147; } winsmal.right = winsmal.left + 50; Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,top, &FontT24,CLUT_GasSensor4,"max"); snprintf(text,3,"%c%c" , unit_depth_char1() , unit_depth_char2() ); Gfx_write_label_var(hgfx, winsmal.left - 37, 250,top, &FontT42,CLUT_GasSensor4,text); // Average Depth int avrdepth =logbookHeader.averageDepth_mbar/100; int avrdepth_dcm = logbookHeader.averageDepth_mbar/10 - avrdepth * 10; top = 200; if(settingsGetPointer()->nonMetricalSystem) { float avgDepthFeet = 0; avgDepthFeet = unit_depth_float(((float)logbookHeader.averageDepth_mbar)/100); snprintf(text,20,"%.0f",avgDepthFeet); } else { snprintf(text,20,"%i.%i",avrdepth,avrdepth_dcm); } Gfx_write_label_var(hgfx, 30, 250,top, &FontT42,CLUT_GasSensor1,text); winsmal.left = 30; winsmal.top = top -3; winsmal.bottom = winsmal.top + FontT42.height; /* put avg behind previous string */ if(avrdepth < 10) { winsmal.left = 137 ; } else if(avrdepth < 100) { winsmal.left = 151; } else { winsmal.left = 147; } winsmal.right = winsmal.left + 50; Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_GasSensor4,"avg"); snprintf(text,3,"%c%c" , unit_depth_char1() , unit_depth_char2() ); Gfx_write_label_var(hgfx, winsmal.left - 37, 250,top, &FontT42,CLUT_GasSensor4,text); // Temperature top+= 50; float temp_Temperature; uint16_t start; temp_Temperature = ((float)logbookHeader.minTemp)/10; snprintf(text,20,"%.1f",unit_temperature_float(temp_Temperature)); Gfx_write_label_var(hgfx, 30, 250,top, &FontT42,CLUT_GasSensor1,text); if(settingsGetPointer()->nonMetricalSystem) start = 121; else if((logbookHeader.minTemp >= 0) && (logbookHeader.minTemp < 10)) start = 100; else if((logbookHeader.minTemp >= -10) && (logbookHeader.minTemp < 100)) start = 114; else start = 121; text[0] = '\140'; if(settingsGetPointer()->nonMetricalSystem) text[1] = 'F'; else text[1] = 'C'; text[2] = 0; Gfx_write_label_var(hgfx, start, 300,top, &FontT42,CLUT_GasSensor4,text); // CNS snprintf(text,20,"CNS: %i %%",logbookHeader.maxCNS); Gfx_write_label_var(hgfx, 30, 250,440, &FontT42,CLUT_GasSensor1,text); // Surface Pressure // snprintf(text,20,"\001%i\016\016 mbar",logbookHeader.surfacePressure_mbar); // Gfx_write_label_var(hgfx,300,500,750, &FontT42,CLUT_GasSensor1,text); // snprintf(text,40,"%i\016\016 mbar\017 (%i\016\016 m\017)",logbookHeader.surfacePressure_mbar, unit_SeaLevelRelation_integer(logbookHeader.surfacePressure_mbar)); snprintf(text,40,"%i\016\016 hPa\017",logbookHeader.surfacePressure_mbar); Gfx_write_label_var(hgfx,320,600,440, &FontT42,CLUT_GasSensor1,text); /* show symbol in case log entry is marked for usage in profile custom view */ snprintf(text,10,"\002>"); if(StepBackwards == getReplayOffset()) { Gfx_write_label_var(hgfx,750,799,440, &FontT42,CLUT_GasSensor1,text); } else { Gfx_write_label_var(hgfx,750,799,440, &FontT42,CLUT_MenuTopBackground,text); } /* Show tank info */ #ifdef ENABLE_BOTTLE_SENSOR for(loop = 0; loop < dataLength; loop++) { if((bottlePressureStart == 0) && (tankdata[loop] != 0)) /* find first pressure value */ { bottlePressureStart = tankdata[loop]; } if((tankdata[loop] != 0)) /* store last pressure value */ { bottlePressureEnd = tankdata[loop]; } } if(bottlePressureStart != 0) { snprintf(text,40,"\002%i | %i\016\016 Bar\017",bottlePressureStart,bottlePressureEnd); Gfx_write_label_var(hgfx,450,wintemp.right,440, &FontT42,CLUT_GasSensor1,text); } #endif //--- print coordinate system & depth graph with gaschanges --- wintemp.left = 330; wintemp.top = 160; wintemp.bottom -= 40; show_logbook_draw_depth_graph(hgfx, StepBackwards, &wintemp, 1, dataLength, depthdata, gasdata, NULL); } static void show_logbook_logbook_show_log_page2(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards) { //*** Page2: Depth and Temperature **** SWindowGimpStyle wintemp; SWindowGimpStyle winsmal; wintemp.left = 50; wintemp.right = 799 - wintemp.left; wintemp.top = 50; wintemp.bottom = 479 - 40; SLogbookHeader logbookHeader; logbook_getHeader(StepBackwards,&logbookHeader); uint16_t dataLength = 0; uint16_t depthdata[1000]; uint8_t gasdata[1000]; int16_t tempdata[1000]; uint16_t decoDepthdata[1000]; uint16_t *pDecoDepthData = 0; dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, tempdata, NULL, NULL, NULL, NULL, NULL, NULL, NULL, decoDepthdata, NULL, NULL); for(int i = 0; i<dataLength; i++) { if(decoDepthdata[i] >= 300) { pDecoDepthData = decoDepthdata; break; } } //--- print coordinate system & depth graph --- show_logbook_draw_depth_graph(hgfx, StepBackwards, &wintemp, 0, dataLength, depthdata, gasdata, pDecoDepthData); //*** Temperature ************************************************* //--- print temperature labels --- // input maxtmpline, tmpstep, deltaline winsmal.left = wintemp.right +6; winsmal.top = wintemp.top - 3; winsmal.right = wintemp.right + 30; winsmal.bottom = winsmal.top + 16; if(settingsGetPointer()->nonMetricalSystem) { Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_LogbookTemperature,"[F]"); } else { Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_LogbookTemperature,"[C]"); } int16_t minVal = 0; int16_t maxVal = 0; int newTop = 0; int newBottom = 0; uint16_t step = 0; int16_t maxValTop = 0; int16_t tmp = 0; scaleHelper(dataLength, tempdata, wintemp.top, wintemp.bottom, &minVal, &maxVal, &newTop, &newBottom, &step, &maxValTop); // newTop is wintemp.top scaleAdapt( wintemp.top, wintemp.bottom, &minVal, &maxVal, &newTop, &newBottom, &step, &maxValTop); // temperature in 1/10 �C int deltaline = (1 + wintemp.bottom - wintemp.top)/5; char msg[15]; /* temperature is provided in centi scaling => convert */ maxValTop /= 10; step /= 10; tmp = maxValTop; for(int i = 1; i<=5; i++) { tmp -= step; winsmal.top = wintemp.top + deltaline * i - 14; winsmal.bottom = winsmal.top + 16; snprintf(msg,15,"%2i",unit_temperature_integer(tmp)); Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,CLUT_LogbookTemperature,msg); } //--- print temperature graph --- // input tempdata[i], maxtmpline, mintmpline, maxTmp, minTmp, deltaline, wintemp.top, dataLength, datamax, //adapt window wintemp.bottom = newBottom; wintemp.top = newTop; GFX_graph_print(hgfx,&wintemp,0,1,maxVal,minVal, (uint16_t *)tempdata,dataLength,CLUT_LogbookTemperature, NULL); } static void build_logbook_test(uint8_t page, uint8_t StepBackwards) { uint32_t lastScreen,lastBackground; lastScreen = tLOGscreen.FBStartAdress; lastBackground = tLOGbackground.FBStartAdress; tLOGscreen.FBStartAdress = getFrame(16); tLOGscreen.ImageHeight = 480; tLOGscreen.ImageWidth = 800; tLOGscreen.LayerIndex = 1; tLOGbackground.FBStartAdress = getFrame(17); tLOGbackground.ImageHeight = 480; tLOGbackground.ImageWidth = 800; tLOGbackground.LayerIndex = 0; switch(page) { case 1: show_logbook_logbook_show_log_page1(&tLOGscreen,StepBackwards); break; case 2: show_logbook_logbook_show_log_page2(&tLOGscreen,StepBackwards); break; case 3: show_logbook_logbook_show_log_page3(&tLOGscreen,StepBackwards); break; case 4: show_logbook_logbook_show_log_page4(&tLOGscreen,StepBackwards); break; } releaseFrame(16,lastScreen); releaseFrame(17,lastBackground); } void show_logbook_test(_Bool firstPage, uint8_t StepBackwards) { if(firstPage) { active_log_page = 1; active_log_offset = StepBackwards; } else { active_log_page++; if(active_log_page > 4) { active_log_page = 1; } } build_logbook_test(active_log_page,StepBackwards); // GFX_ResetLayer(TOP_LAYER); // GFX_ResetLayer(BACKGRD_LAYER); set_globalState(StILOGSHOW); GFX_SetFramesTopBottom(tLOGscreen.FBStartAdress, tLOGbackground.FBStartAdress,480); } void show_logbook_exit(void) { releaseFrame(16,tLOGscreen.FBStartAdress); releaseFrame(17,tLOGbackground.FBStartAdress); } static void show_logbook_logbook_show_log_page3(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards) { SWindowGimpStyle wintemp; SWindowGimpStyle winsmal; uint8_t gasWasUsed[NUM_GASES * 2]; int16_t index = 0; uint8_t loopMode = 0; wintemp.left = 50; wintemp.right = 799 - wintemp.left; wintemp.top = 50; wintemp.bottom = 479 - 40; SLogbookHeader logbookHeader; logbook_getHeader(StepBackwards, &logbookHeader); uint16_t dataLength = 0; uint16_t depthdata[1000]; uint8_t gasdata[1000]; dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); char msg[15]; char gas_name[15]; int j = 0; loopMode = isLoopMode(logbookHeader.diveMode); /* check if gas was used, independent from its active state */ for(index = 0; index < NUM_GASES * 2; index++) { gasWasUsed[index] = 0; } for(index = 0; index < dataLength; index++) { if(loopMode) { if(gasdata[index] < NUM_GASES) /* the log entry starts with a ID in range 1..4 independend if diluent is used at start */ { gasdata[index] += NUM_GASES; } else { loopMode = 0; /* after the first gas change, no matter if diluent or bailout, the correct ID will be stored */ } } if(gasdata[index] > 0) { gasWasUsed[gasdata[index]-1] = 1; /* The ID stored in the samples is starting with 1 (array[0] = gasID1) */ } else { gasWasUsed[0] = 1; } } //--- print coordinate system & depth graph with gaschanges --- show_logbook_draw_depth_graph(hgfx, StepBackwards, &wintemp, 1, dataLength, depthdata, gasdata, NULL); //--- print gas list --- winsmal.left = wintemp.right - 190; winsmal.right = winsmal.left + 150; loopMode = isLoopMode(logbookHeader.diveMode); for(index = (2 * NUM_GASES) -1; index >= 0; index--) { if(gasWasUsed[index]) { j++; if(j > 5) /* limit number of gases displayed to 5 */ { break; } winsmal.top = wintemp.bottom - 5 - j * 26 ; winsmal.bottom = winsmal.top + 21 ; uint8_t color = get_colour(index); if(loopMode) { if(index < NUM_GASES) /* Switch to Bailout is not covered by log gas list */ { snprintf(gas_name,15,"Bailout"); snprintf(msg,15,"G%d: %s",index +1, gas_name); } else { print_gas_name(gas_name,15,logbookHeader.gasordil[index-NUM_GASES].oxygen_percentage,logbookHeader.gasordil[index-NUM_GASES].helium_percentage); snprintf(msg,15,"D%d: %s",index +1 - NUM_GASES, gas_name); } } else { print_gas_name(gas_name,15,logbookHeader.gasordil[index].oxygen_percentage,logbookHeader.gasordil[index].helium_percentage); snprintf(msg,15,"G%d: %s",index +1, gas_name); } Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,msg); } } //--- define buttons --- /*if(*ghost_char_logfile_oxydata) button_start_single_action(surf1_menu_logbook_current_page, surf1_menu_logbook_show_log_page4, surf1_menu_logbook_show_log_next); else button_start_single_action(surf1_menu_logbook_current_page, surf1_menu_logbook_show_log_page1, surf1_menu_logbook_show_log_next); */ } static uint8_t check_data_array_empty(uint16_t* pdata) { uint8_t ret = 0; uint8_t index = 0; uint8_t emptyCnt = 0; for (index=0; index < 10; index++) /* read the first 10 data points. If all are 0 then the array is rated as empty */ { if(*(pdata+index) == 0) { emptyCnt++; } } if(emptyCnt == 10) { ret = 1; } return ret; } static void show_logbook_logbook_show_log_page4(GFX_DrawCfgScreen *hgfx, uint8_t StepBackwards) { SWindowGimpStyle wintemp; SWindowGimpStyle winsmal; wintemp.left = 50; wintemp.right = 799 - wintemp.left; wintemp.top = 50; wintemp.bottom = 479 - 40; uint8_t color = 0; SLogbookHeader logbookHeader; logbook_getHeader(StepBackwards, &logbookHeader); uint16_t dataLength = 0; uint16_t depthdata[1000]; uint8_t gasdata[1000]; uint16_t ppO2data[1000]; uint16_t sensor2[1000]; uint16_t sensor3[1000]; uint16_t *setpoint = ppO2data; uint16_t *sensor1 = ppO2data; uint8_t sensorDataAvailable[] = {0,0,0}; if(!isLoopMode(logbookHeader.diveMode)) dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, NULL, ppO2data, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); else { switch(logbookHeader.CCRmode) { case CCRMODE_FixedSetpoint: default: dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata, gasdata, NULL, NULL, setpoint, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); break; case CCRMODE_Sensors: dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata, gasdata, NULL, NULL, NULL, sensor1, sensor2, sensor3, NULL, NULL, NULL, NULL, NULL); if(!check_data_array_empty(sensor1)) { sensorDataAvailable[0] = 1; } if(!check_data_array_empty(sensor2)) { sensorDataAvailable[1] = 1; } if(!check_data_array_empty(sensor3)) { sensorDataAvailable[2] = 1; } if((logbookHeader.diveMode == DIVEMODE_PSCR) && (sensorDataAvailable[0] + sensorDataAvailable[1] + sensorDataAvailable[2] != 3)) /*insert sim data if not all three sensors are in use*/ { if(sensorDataAvailable[0] == 0) { logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, NULL, sensor1, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); sensorDataAvailable[0] = 1; } else if(sensorDataAvailable[1] == 0) { logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, NULL, sensor2, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); sensorDataAvailable[1] = 1; } else if(sensorDataAvailable[2] == 0) { logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, NULL, sensor3, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); sensorDataAvailable[2] = 1; } } break; case CCRMODE_Simulation: dataLength = logbook_readSampleData(StepBackwards, 1000, depthdata,gasdata, NULL, ppO2data, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL); break; } } //--- print coordinate system & depth graph with bailout--- show_logbook_draw_depth_graph(hgfx, StepBackwards, &wintemp, 0, dataLength, depthdata, gasdata, NULL); //*** Desciption at bottom of page *************************** winsmal.top = wintemp.bottom +2 ; winsmal.bottom = winsmal.top + 16; /*if(strcmp( (char*)ghost_char_logfile_text_oc_ccr,"ccr/bailout") == 0) { winsmal.left = wintemp.left + 2; winsmal.right = winsmal.left + 55; oled_write(OVERLAY, &winsmal,"CCR -",false,true); winsmal.left = winsmal.right; winsmal.right = winsmal.left + 90; //winsmal.fontcolor = oled_get_colour(15); oled_write(OVERLAY, &winsmal,"bailout",false,true); } else*/ { winsmal.left = wintemp.left + 2; winsmal.right = winsmal.left + 55; color = CLUT_GasSensor1;//LOGBOOK_GRAPH_DEPTH; Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,"depth"); } winsmal.left = 799 - 67;//wintemp.right -67; winsmal.right = winsmal.left;// + 45; color = CLUT_LogbookTemperature; if(!isLoopMode(logbookHeader.diveMode)) { Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,"\002PP O2"); } else { switch(logbookHeader.CCRmode) { case CCRMODE_FixedSetpoint: default: Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,"\002SETPOINT"); break; case CCRMODE_Sensors: Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,"\002SENSORS"); break; case CCRMODE_Simulation: Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,"\002SIM PPO2"); break; } } //*** PP O2 **************************************************** //calc lines and labels int datamax = 0; int datamin = 10000; for(int i=1;i<dataLength;i++) { if(ppO2data[i]>datamax) datamax = ppO2data[i]; if(ppO2data[i]<datamin) datamin = ppO2data[i]; } if(isLoopMode(logbookHeader.diveMode) && (logbookHeader.CCRmode == CCRMODE_Sensors)) { for(int i=1;i<dataLength;i++) { if(sensor2[i]>datamax) datamax = sensor2[i]; if(sensor2[i]<datamin) datamin = sensor2[i]; if(sensor3[i]>datamax) datamax = sensor3[i]; if(sensor3[i]<datamin) datamin = sensor3[i]; } } float maxoxy = ((float)datamax)/100; float minoxy = ((float)datamin)/100; float oxystep = 0.5; float maxoxyline = 2.5; //--- print PP O2 labels ---- winsmal.left = wintemp.right + 2; winsmal.top = wintemp.top ; winsmal.right = wintemp.right + 30; winsmal.bottom = winsmal.top + 16; //winsmal.font = ft_tiny + ft_SLIM; color = CLUT_LogbookTemperature;// = LOGBOOK_GRAPH_TEMP; Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,"bar"); int deltaline = (wintemp.bottom - wintemp.top)/5; char msg[4]; float oxy = maxoxyline; for(int i = 1; i<=5; i++) { oxy -= oxystep; if(oxy < 0) break; winsmal.top = wintemp.top + deltaline * i - 8; winsmal.bottom = winsmal.top + 16; snprintf(msg,4,"%1.1f",oxy); Gfx_write_label_var(hgfx, winsmal.left, winsmal.right,winsmal.top, &FontT24,color,msg); //oled_write(OVERLAY, &winsmal,msg,false,true); } //--- print PP O2 graph --- //Adapt window float ftmp = ((maxoxyline - minoxy) * deltaline) /oxystep + wintemp.top; wintemp.bottom = ftmp; if((ftmp - (int)ftmp) >= 0.5f) wintemp.bottom++; ftmp = wintemp.top + ((maxoxyline - maxoxy) * deltaline) /oxystep; wintemp.top = ftmp; if((ftmp - (int)ftmp) >= 0.5f) wintemp.top++; wintemp.top = MaxU32LOG(wintemp.top ,0); if(wintemp.top < wintemp.bottom) { if(isLoopMode(logbookHeader.diveMode) && (logbookHeader.CCRmode == CCRMODE_Sensors)) { if(sensorDataAvailable[0]) { GFX_graph_print(hgfx,&wintemp,0,1,datamax,datamin, ppO2data,dataLength,CLUT_GasSensor2, NULL); } if(sensorDataAvailable[1]) { GFX_graph_print(hgfx,&wintemp,0,1,datamax,datamin, sensor2,dataLength,CLUT_GasSensor3, NULL); } if(sensorDataAvailable[2]) { GFX_graph_print(hgfx,&wintemp,0,1,datamax,datamin, sensor3,dataLength,CLUT_GasSensor4, NULL); } } else GFX_graph_print(hgfx,&wintemp,0,1,datamax,datamin, ppO2data,dataLength,CLUT_LogbookTemperature, NULL); } else { point_t startPoint, stopPoint; startPoint.x = wintemp.left; stopPoint.x = wintemp.right; stopPoint.y = startPoint.y = 479 - wintemp.top; GFX_draw_colorline(hgfx, startPoint, stopPoint, CLUT_LogbookTemperature); } //--- define buttons --- //button_start_single_action(surf1_menu_logbook_current_page, surf1_menu_logbook_show_log_page1, surf1_menu_logbook_show_log_next); } static void print_gas_name(char* output,uint8_t length,uint8_t oxygen,uint8_t helium) { if(helium == 0) { if(oxygen == 21) snprintf(output, length, "Air"); else if(oxygen == 100) snprintf(output, length, "Oxy"); else snprintf(output, length, "NX%i",oxygen); } else { if((oxygen + helium) == 100) snprintf(output, length, "HX%i",oxygen); else snprintf(output, length, "TMX%i/%i", oxygen, helium); } } static int16_t get_colour(int16_t color) { return CLUT_GasSensor1 + color; } uint8_t getActiveLogPage() { return active_log_page; } void updateReplayIncdicator(GFX_DrawCfgScreen *hgfx) { build_logbook_test(1,active_log_offset); GFX_SetFramesTopBottom(tLOGscreen.FBStartAdress, tLOGbackground.FBStartAdress,480); }