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Added log entry for surface GF: The surface GF has been added to the logbook data. A function records the GF which is present while entering close to surface condition for later storage. This is needed to avoid that an already decreased GF (after dive mode exit time) GF is stored. The surface GF is shown at logbook page1 and is available in the header data for external logbook services.
author Ideenmodellierer
date Sat, 10 Jan 2026 19:53:01 +0100
parents 65d35e66efb9
children
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///////////////////////////////////////////////////////////////////////////////
/// -*- coding: UTF-8 -*-
///
/// \file   Discovery/Src/tInfoCompass.c
/// \brief  there is only compass_DX_f, compass_DY_f, compass_DZ_f output during this mode
/// \author heinrichs weikamp gmbh
/// \date   23-Feb-2015
///
/// \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/>.
//////////////////////////////////////////////////////////////////////////////

/* Includes ------------------------------------------------------------------*/


#include "gfx_fonts.h"
#include "tHome.h"
#include "tInfo.h"
#include "tInfoCompass.h"

#include <string.h>
#include <math.h>

#define PI 3.14159265358979323846

#define PITCH 	(0)
#define ROLL	(1)
#define YAW 	(2)

/* Private variables ---------------------------------------------------------*/

static uint16_t tInfoCompassTimeout = 0;
static int16_t minMaxCompassDX[3][2] = { 0 };

static axisIndicator_t axis[3];
static uint8_t activeAxis = PITCH;
static uint32_t checkTick = 0;

/* Exported functions --------------------------------------------------------*/
void openInfo_Compass(void)
{
	uint16_t angle = 0;
	uint8_t axisIndex = 0;
    set_globalState(StICOMPASS);
    tInfoCompassTimeout = settingsGetPointer()->timeoutInfoCompass;
    tInfoCompassTimeout *= 10;

    for(axisIndex = 0; axisIndex < 3; axisIndex++)
    {
    	memset(axis[axisIndex].check,0, 360);
    }
    for(angle = 170; angle < 360; angle++)
    {
       	axis[PITCH].check[angle] = 1;	/* pitch only from -90 to +90 */
    }
    axis[YAW].coord.x = 100;
    axis[YAW].coord.y = 70;
    axis[PITCH].coord.x = 100;
    axis[PITCH].coord.y = 300;
    axis[ROLL].coord.x = 100;
    axis[ROLL].coord.y = 200;

    axis[YAW].eclipse.x = 50;
    axis[YAW].eclipse.y = 50;
    axis[PITCH].eclipse.x = 20;
    axis[PITCH].eclipse.y = 50;
    axis[ROLL].eclipse.x = 50;
    axis[ROLL].eclipse.y = 20;

    for(int i = 0; i<3;i ++)
    {
            minMaxCompassDX[i][0] = 999;
            minMaxCompassDX[i][1] = -999;
    }
    checkTick = HAL_GetTick();

    activeAxis = PITCH;
}

void getElipsePoint(uint16_t elipseX , int16_t elipseY, int16_t degree, int16_t *x, int16_t *y)
{
    double rad = degree * (PI / 180.0);
    *x = (int16_t) (elipseX * cos(rad));
    *y = (int16_t) (elipseY * sin(rad));
}
//  ===============================================================================
//	refreshInfo_Compass
/// @brief	there is only compass_DX_f, compass_DY_f, compass_DZ_f output during this mode
///					the accel is not called during this process
//  ===============================================================================
void refreshInfo_Compass(GFX_DrawCfgScreen s)
{
	static int16_t cursorAngle = 0;

	int16_t angle = 0.0;
	int16_t drawX = 0;
	int16_t drawY = 0;
	uint8_t color = 0;
	point_t start;
	point_t stop;
	point_t center;

	int8_t offset = 0;
	uint8_t axisIndex = 0;
	int16_t index = 0;
	uint8_t textIndex = 0;

	tHome_show_lost_connection_count(&s);
    tInfoCompassTimeout--;
    if(tInfoCompassTimeout == 0)
    {
        exitInfo();
        return;
    }

    char text[80];

    int16_t compassValues[3];

    compassValues[0] = stateUsed->lifeData.compass_DX_f;
    compassValues[1] = stateUsed->lifeData.compass_DY_f;
    compassValues[2] = stateUsed->lifeData.compass_DZ_f;

   /* draw indicator */
    for(axisIndex = 0; axisIndex < 3; axisIndex++)
    {
    	switch(axisIndex)
    	{
    		default:
    		case YAW:	index = (uint16_t)(stateUsed->lifeData.compass_heading);
    					textIndex = snprintf(text,80,"yaw %.1f", stateUsed->lifeData.compass_heading);

    					if((tInfoCompassTimeout < 50) && (activeAxis == YAW))
    					{
    						snprintf(&text[textIndex],80,"\023\t(%i, %i)", minMaxCompassDX[YAW][0], minMaxCompassDX[YAW][1]);
    					}

    					start.x = axis[axisIndex].coord.x - 1;
    		    	    start.y = axis[axisIndex].coord.y;
    		    	    stop.x = axis[axisIndex].coord.x + 1;
    		    	    stop.y = axis[axisIndex].coord.y;
    			break;
    		case PITCH:	index = (uint16_t)(stateUsed->lifeData.compass_pitch + 90);
    					textIndex = snprintf(text,80,"pitch %.1f", stateUsed->lifeData.compass_pitch);
    					if((tInfoCompassTimeout < 50) && (activeAxis == YAW))
    					{
    						snprintf(&text[textIndex],80,"\023\t(%i, %i)", minMaxCompassDX[PITCH][0], minMaxCompassDX[PITCH][1]);
    					}
    					start.x = axis[axisIndex].coord.x - 30;
    					start.y = axis[axisIndex].coord.y;
    					stop.x = axis[axisIndex].coord.x + 30;
    					stop.y = axis[axisIndex].coord.y;

    			break;
    		case ROLL: index = (uint16_t)(stateUsed->lifeData.compass_roll + 180);
    					textIndex = snprintf(text,80,"roll %.1f", stateUsed->lifeData.compass_roll);
    					if((tInfoCompassTimeout < 50) && (activeAxis == YAW))
    					{
    						snprintf(&text[textIndex],80,"\023\t(%i, %i)", minMaxCompassDX[ROLL][0], minMaxCompassDX[ROLL][1]);
    					}
    					start.x = axis[axisIndex].coord.x;
    					start.y = axis[axisIndex].coord.y - 30;
    					stop.x = axis[axisIndex].coord.x;
    					stop.y = axis[axisIndex].coord.y +30;
    			break;
    	}
		if(settingsGetPointer()->FlipDisplay)
		{
			start.x = 800 - start.x;
			stop.x = 800 - stop.x;
			start.y = 480 - start.y;
			stop.y = 480 - stop.y;
		}
    	if(activeAxis == axisIndex)			/* only check one axis at a time. reason: yaw will be unstable at the beginning of calibration */
    	{
    		for(offset = -6; offset <= 6; offset++)	/* it is hard to hit every single angle and the resolution is not needed */
    		{
				if(( (index + offset) >= 0) && (index + offset < 360))
				{
					axis[axisIndex].check[index + offset] = 1;							/* => check surrounding angles as well */
				}
    		}
    	}
    	if(axisIndex == activeAxis)
    	{
    		color = CLUT_InfoCompass;
    		getElipsePoint(axis[axisIndex].eclipse.x,axis[axisIndex].eclipse.y,cursorAngle, &drawX, &drawY);
    		center.x = axis[axisIndex].coord.x + drawX;
    		center.y = axis[axisIndex].coord.y + drawY;

    		t_Info_draw_circle(center, 4, CLUT_Font020);
    		cursorAngle += 15;
    		if(cursorAngle >= 360)
    		{
    			cursorAngle = 0;
    		}
    	}
    	else
    	{
    		color = CLUT_Font021;
    	}
    	tInfo_write_content_simple(  200, 600, 480 - axis[axisIndex].coord.y - 35 , &FontT42, text, color);
  	    tInfo_draw_colorline(start, stop, CLUT_Font020);
  	    for(angle = 0; angle < 360; angle = angle + 3)
  	    {
  	    	if(axis[axisIndex].check[angle])
  	    	{
  	    		color = CLUT_NiceGreen;
  	    	}
  	    	else
  	    	{
  	    		color = CLUT_WarningRed;
  	    	}
  	    	getElipsePoint(axis[axisIndex].eclipse.x,axis[axisIndex].eclipse.y,angle, &drawX, &drawY);
  	    	tInfo_drawPixel(axis[axisIndex].coord.x + drawX, axis[axisIndex].coord.y + drawY,color);
  	    	if((axisIndex == PITCH) && (angle == 180))		/* pitch only from -90 to +90 */
  	    	{
  	    		break;
  	    	}
  	    }

    }

    for(int i = 0; i<3;i ++)
    {
        // do not accept zero
        if(minMaxCompassDX[i][0] == 0)
            minMaxCompassDX[i][0] = compassValues[i];

        // do not accept zero
        if(minMaxCompassDX[i][1] == 0)
            minMaxCompassDX[i][1] = compassValues[i];

        if(compassValues[i] < minMaxCompassDX[i][0])
            minMaxCompassDX[i][0] = compassValues[i];

        if(compassValues[i] > minMaxCompassDX[i][1])
            minMaxCompassDX[i][1] = compassValues[i];
    }

    snprintf(text,80,"Time left: %u s",(tInfoCompassTimeout+9)/10);
    tInfo_write_content_simple(  20,800,  25, &FontT42, text, CLUT_InfoCompass);


    if(time_elapsed_ms(checkTick, HAL_GetTick() > 1000))
    {
    	index = 0;
    	 for(angle = 0; angle < 360; angle++)
    	 {
    		 if(axis[activeAxis].check[angle])
    		 {
    			 index++;
    		 }
    	 }
    	 if(index > 350)
    	 {
    		 if(activeAxis < 2)
    		 {
    			 activeAxis++;
    		 }
    		 else
    		 {
    			 if(tInfoCompassTimeout > 50)
    			 {
    				 tInfoCompassTimeout = 50;	/* reduce exit time to five seconds */
    			 }
    		 }
    	 }


    	checkTick = HAL_GetTick();
    }
}