mk2: code_part1/OSTC_code_c_part2/p2

comparison code_part1/OSTC_code_c_part2/p2_deco.c @ 116:14a074e1a375

Split C code, and use direct linking.

author	JeanDo
date	Sun, 26 Dec 2010 14:30:13 +0100
parents
children	3003a8040b78

comparison

equal deleted inserted replaced

-:50a06adabc67
+:14a074e1a375
+// **************************************************************
+// p2_deco.c
+//
+//  Created on: 12.05.2009
+//  Author: chsw
+//
+// **************************************************************
+//////////////////////////////////////////////////////////////////////////////
+// OSTC - diving computer code
+// Copyright (C) 2008 HeinrichsWeikamp GbR
+//
+//    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/>.
+//
+//////////////////////////////////////////////////////////////////////////////
+// *****************************
+// ** I N T R O D U C T I O N **
+// *****************************
+//
+// OSTC
+//
+// code:
+// p2_deco_main_c_v101.c
+// part2 of the OSTC code
+// code with constant O2 partial pressure routines
+// under construction !!
+//
+// summary:
+// decompression routines
+// for the OSTC experimental project
+// written by Christian Weikamp
+// last revision __________
+// comments added _________
+//
+// additional files:
+// p2_tables_v100.romdata (other files)
+// 18f4685_ostc_v100.lkr (linker script)
+//
+// history:
+// 01/03/08 v100: first release candidate
+// 03/13/08 v101: start of programming ppO2 code
+// 03/13/25 v101a: backup of interrim version with ppO2 calculation
+// 03/13/25 v101: open circuit gas change during deco
+// 03/13/25 v101: CNS_fraction calculation
+// 03/13/26 v101: optimization of tissue calc routines
+// 07/xx/08 v102a: debug of bottom time routine
+// 09/xx/08 v102d: Gradient Factor Model implemenation
+// 10/10/08 v104: renamed to build v103 for v118 stable
+// 10/14/08	v104: integration of temp_depth_last_deco for Gradient Model
+// 03/31/09 v107: integration of FONT Incon24
+// 05/23/10 v109: 5 gas changes & 1 min timer
+// 07/13/10 v110: cns vault added
+// 12/25/10 v110: split in three files (deco.c, main.c, definitions.h)
+//
+//
+// literature:
+// B"uhlmann, Albert: Tauchmedizin; 4. Auflage;
+// Schr"oder, Kai & Reith, Steffen; 2000; S"attigungsvorg"ange beim Tauchen, das Modell ZH-L16, Funktionsweise von Tauchcomputern; http://www.achim-und-kai.de/kai/tausim/saett_faq
+// Morrison, Stuart; 2000; DIY DECOMPRESSION; http://www.lizardland.co.uk/DIYDeco.html
+// Balthasar, Steffen; Dekompressionstheorie I: Neo Haldane Modelle; http://www.txfreak.de/dekompressionstheorie_1.pdf
+// Baker, Erik C.; Clearing Up The Confusion About "Deep Stops"
+// Baker, Erik C.; Understanding M-values; http://www.txfreak.de/understanding_m-values.pdf
+// *********************
+// ** I N C L U D E S **
+// *********************
+#include <math.h>
+#include "p2_definitions.h"
+// ***********************************************
+// ** V A R I A B L E S   D E F I N I T I O N S **
+// ***********************************************
+#pragma udata bank2a=0x200
+// output:
+unsigned int	int_O_tissue_for_debug[32];
+unsigned int	int_O_GF_spare____;						// 0x240
+unsigned int	int_O_GF_step;							// 0x242
+unsigned int 	int_O_gtissue_limit;					// 0x244
+unsigned int 	int_O_gtissue_press;					// 0x246
+unsigned int 	int_O_limit_GF_low;						// 0x248
+unsigned int 	int_O_gtissue_press_at_GF_low;			// 0x24A
+unsigned char	char_I_step_is_1min;					// 0x24C
+// ...
+#pragma udata bank2b=0x24E
+unsigned char	char_O_GF_low_pointer;					// 0x24E
+unsigned char	char_O_actual_pointer;					// 0x24F
+#pragma udata bank2c=0x250
+unsigned char	char_O_deco_table[32];					// 0x250
+#pragma udata bank2d=0x270
+unsigned char	char_I_table_deco_done[32];
+#pragma udata bank2e=0x290
+unsigned int 	int_O_calc_tissue_call_counter;			// 0x290
+// internal:
+static unsigned char 	lock_GF_depth_list;
+static float			temp_limit;
+static float			GF_low;
+static float			GF_high;
+static float			GF_delta;
+static float			GF_temp;
+static float			GF_step;
+static float			GF_step2;
+static float			temp_pres_gtissue;
+static float			temp_pres_gtissue_diff;
+static float			temp_pres_gtissue_limit_GF_low;
+static float			temp_pres_gtissue_limit_GF_low_below_surface;
+static	unsigned int	temp_depth_limit;
+static unsigned char	temp_decotime;
+static unsigned char	temp_gtissue_no;
+static	unsigned int	temp_depth_last_deco;				// new in v.101
+static unsigned char	temp_depth_GF_low_meter;
+static unsigned char	temp_depth_GF_low_number;
+static unsigned char	internal_deco_pointer;
+#pragma udata bank2f=0x2C8
+static unsigned char	internal_deco_table[32];			//  0x2C8
+static float			temp_pres_deco_GF_low;
+#pragma udata bank3a=0x300
+static char output[32];                 // used by the math routines
+#pragma udata bank3b=0x37C
+static float cns_vault;
+#pragma udata bank3c=0x380
+static float pres_tissue_vault[32];
+#pragma udata bank4a=0x400
+// internal:
+static unsigned char	ci ; // don't move - used in _asm routines - if moved then modify movlb commands
+static unsigned char 	x;
+static unsigned int 	main_i_dummy;
+static unsigned int 	int_temp;
+static unsigned int 	int_temp2;
+static unsigned int 	int_temp_decostatus;
+static float 			pres_respiration;
+static float			pres_surface;
+static float			temp1;
+static float			temp2;
+static float			temp3;
+static float			temp4;
+static float			temp_deco;
+static float			temp_atem;
+static float			temp2_atem;
+static float			temp_tissue;
+static float			temp_surface;
+static float			N2_ratio;
+static float			He_ratio;
+static float			temp_ratio;
+static float 			var_a;
+static float 			var2_a;
+static float 			var_b;
+static float 			var2_b;
+static float 			var_t05nc;
+static float 			var2_t05nc;
+static float  			var_e2secs;
+static float  			var2_e2secs;
+static float  			var_e1min;
+static float  			var2_e1min;
+static float  			var_halftimes;
+static float  			var2_halftimes;
+static float			pres_gtissue_limit;
+static float			temp_pres_gtissue_limit;
+static float			actual_ppO2;						// new in v.102
+#pragma udata bank4b=0x480
+static float			pres_tissue[32];
+#pragma udata bank5=0x500
+// don't move positions in this bank, the registers are addressed directly from assembler code
+// input:
+unsigned int  int_I_pres_respiration;	        // 0x500
+unsigned int  int_I_pres_surface;		        // 0x502
+unsigned int  int_I_temp;				        // 0x504  new in v101
+unsigned char char_I_temp;			            // 0x506  new in v101
+unsigned char char_I_actual_ppO2;		        // 0x507
+unsigned char char_I_deco_N2_ratio2;            // 0x508 new in v.109
+unsigned char char_I_deco_He_ratio2;            // 0x509 new in v.109
+unsigned char char_I_deco_N2_ratio3;            // 0x50A new in v.109
+unsigned char char_I_deco_He_ratio3;            // 0x50B new in v.109
+unsigned char char_I_deco_N2_ratio4;            // 0x50C new in v.109
+unsigned char char_I_deco_He_ratio4;            // 0x50D new in v.109
+unsigned char char_I_deco_N2_ratio5;            // 0x50E new in v.109
+unsigned char char_I_deco_He_ratio5;            // 0x50F new in v.109
+unsigned char char_I_N2_ratio;		            // 0x510
+unsigned char char_I_He_ratio;		            // 0x511
+unsigned char char_I_saturation_multiplier;		// for conservatism/safety values 1.0 (no conservatism) to 1.5 (50% faster saturation
+unsigned char char_I_desaturation_multiplier; 	// for conservatism/safety values 0.66 (50% slower desaturation) to 1.0 (no conservatism)// consveratism used in calc_tissue(), calc_tissue_step_1_min() and sim_tissue_1min()
+unsigned char char_I_GF_High_percentage;        // 0x514	new in v.102
+unsigned char char_I_GF_Low_percentage;			// 0x515	new in v.102
+unsigned char char_I_spare;					    // 0x516
+unsigned char char_I_deco_distance;				// 0x517
+unsigned char char_I_const_ppO2;				// 0x518	new in v.101
+unsigned char char_I_deco_ppO2_change;			// 0x519	new in v.101
+unsigned char char_I_deco_ppO2;					// 0x51A	new in v.101
+unsigned char char_I_deco_gas_change;			// 0x51B	new in v.101
+unsigned char char_I_deco_N2_ratio;				// 0x51C	new in v.101
+unsigned char char_I_deco_He_ratio;				// 0x51D	new in v.101
+unsigned char char_I_depth_last_deco;			// 0x51E	new in v.101 unit: [m]
+unsigned char char_I_deco_model;				// 0x51F	new in v.102	( 1 = MultiGraF, sonst Std. mit (de-)saturation_multiplier)
+// output:
+unsigned int  int_O_desaturation_time;			// 0x520
+unsigned char char_O_nullzeit;					// 0x522
+unsigned char char_O_deco_status;				// 0x523
+unsigned char char_O_array_decotime[7];			// 0x524
+unsigned char char_O_array_decodepth[6];		// 0x52B
+unsigned char char_O_ascenttime;				// 0x531
+unsigned char char_O_gradient_factor;			// 0x532
+unsigned char char_O_tissue_saturation[32];		// 0x533
+unsigned char char_O_array_gradient_weighted[16];	// 0x553
+unsigned char char_O_gtissue_no;				// 0x563
+unsigned char char_O_diluent;					// 0x564	new in v.101
+unsigned char char_O_CNS_fraction;				// 0x565	new in v.101
+unsigned char char_O_relative_gradient_GF;		// 0x566	new in v.102
+unsigned char char_I_deco_gas_change2;          // 0x567 new in v.109
+unsigned char char_I_deco_gas_change3;          // 0x568 new in v.109
+unsigned char char_I_deco_gas_change4;          // 0x569 new in v.109
+unsigned char char_I_deco_gas_change5;          // 0x56A new in v.109
+// internal:
+static float  pres_tissue_limit[16];
+static float  sim_pres_tissue_limit[16];
+static float  pres_diluent;			            // new in v.101
+static float  deco_diluent;			            // new in v.101
+static float  const_ppO2;				        // new in v.101
+static float  deco_ppO2_change;	            	// new in v.101
+static float  deco_ppO2;				        // new in v.101
+#pragma udata bank6=0x600
+// internal:
+static float  sim_pres_tissue[32];
+static float  sim_pres_tissue_backup[32];
+#pragma udata bank8=0x800
+static char	  md_pi_subst[256];
+#pragma udata bank9a=0x900
+// output:
+static char	  md_state[48];		        // DONT MOVE !! // has to be at the beginning of bank 9 for the asm code!!!
+#pragma udata bank9b=0x930
+// output:
+unsigned int  int_O_DBS_bitfield;				// 0x930	new in v.108
+unsigned int  int_O_DBS2_bitfield;				// 0x932	new in v.108
+unsigned int  int_O_DBG_pre_bitfield;			// 0x934	new in v.108
+unsigned int  int_O_DBG_post_bitfield;			// 0x936	new in v.108
+unsigned char char_O_NDL_at_20mtr;				// 0x938	new in v.108 // 0xFF == undefined, max. 254
+// internal:
+static char            md_t;
+static char            md_buffer[16];
+static char            md_cksum[16];
+static char            md_i;
+static char            md_j;
+static char            md_temp;
+static unsigned int	md_pointer;
+static float			deco_N2_ratio;			// new in v.101
+static float			deco_He_ratio;			// new in v.101
+static float			calc_N2_ratio;			// new in v.101
+static float			calc_He_ratio;			// new in v.101
+static float			deco_gas_change;		// new in v.101
+static float			CNS_fraction;			// new in v.101
+static float			float_saturation_multiplier;		// new in v.101
+static float			float_desaturation_multiplier;		// new in v.101
+static float			float_deco_distance;	// new in v.101
+// internal, dbg:
+static unsigned char	DBG_char_I_deco_model;	// new in v.108
+static unsigned char	DBG_char_I_depth_last_deco;			// new in v.108
+static float			DBG_pres_surface;		// new in v.108
+static float			DBG_GF_low;				// new in v.108
+static float			DBG_GF_high;			// new in v.108
+static float			DBG_const_ppO2;			// new in v.108
+static float			DBG_deco_ppO2_change;	// new in v.108
+static float			DBG_deco_ppO2;			// new in v.108
+static float			DBG_deco_N2_ratio;		// new in v.108
+static float			DBG_deco_He_ratio;		// new in v.108
+static float			DBG_deco_gas_change;	// new in v.108
+static float			DBG_float_saturation_multiplier;	// new in v.108
+static float			DBG_float_desaturation_multiplier;	// new in v.108
+static float			DBG_float_deco_distance;			// new in v.108
+static float			DBG_deco_N2_ratio;		// new in v.108
+static float			DBG_deco_He_ratio;		// new in v.108
+static float			DBG_N2_ratio;			// new in v.108
+static float			DBG_He_ratio;			// new in v.108
+static char			flag_in_divemode;		// new in v.108
+static	int 			int_dbg_i;				// new in v.108
+static unsigned int 	temp_DBS;
+static float			deco_gas_change2;		// new in v.109
+static float			deco_gas_change3;		// new in v.109
+static float			deco_gas_change4;		// new in v.109
+static float			deco_gas_change5;		// new in v.109
+static float			deco_N2_ratio2;			// new in v.109
+static float			deco_N2_ratio3;			// new in v.109
+static float			deco_N2_ratio4;			// new in v.109
+static float			deco_N2_ratio5;			// new in v.109
+static float			deco_He_ratio2;			// new in v.109
+static float			deco_He_ratio3;			// new in v.109
+static float			deco_He_ratio4;			// new in v.109
+static float			deco_He_ratio5;			// new in v.109
+// ***********************
+// ***********************
+// ** THE LOOKUP TABLES **
+// ***********************
+// ***********************
+#pragma romdata tables = 0x10200
+#include	"p2_tables.romdata" 		// new table for deco_main_v.101 (var_a modified)
+#pragma romdata tables2 = 0x10600
+rom const rom unsigned int md_pi[] =
+{
+0x292E, 0x43C9, 0xA2D8, 0x7C01, 0x3D36, 0x54A1, 0xECF0, 0x0613
+, 0x62A7, 0x05F3, 0xC0C7, 0x738C, 0x9893, 0x2BD9, 0xBC4C, 0x82CA
+, 0x1E9B, 0x573C, 0xFDD4, 0xE016, 0x6742, 0x6F18, 0x8A17, 0xE512
+, 0xBE4E, 0xC4D6, 0xDA9E, 0xDE49, 0xA0FB, 0xF58E, 0xBB2F, 0xEE7A
+, 0xA968, 0x7991, 0x15B2, 0x073F, 0x94C2, 0x1089, 0x0B22, 0x5F21
+, 0x807F, 0x5D9A, 0x5A90, 0x3227, 0x353E, 0xCCE7, 0xBFF7, 0x9703
+, 0xFF19, 0x30B3, 0x48A5, 0xB5D1, 0xD75E, 0x922A, 0xAC56, 0xAAC6
+, 0x4FB8, 0x38D2, 0x96A4, 0x7DB6, 0x76FC, 0x6BE2, 0x9C74, 0x04F1
+, 0x459D, 0x7059, 0x6471, 0x8720, 0x865B, 0xCF65, 0xE62D, 0xA802
+, 0x1B60, 0x25AD, 0xAEB0, 0xB9F6, 0x1C46, 0x6169, 0x3440, 0x7E0F
+, 0x5547, 0xA323, 0xDD51, 0xAF3A, 0xC35C, 0xF9CE, 0xBAC5, 0xEA26
+, 0x2C53, 0x0D6E, 0x8528, 0x8409, 0xD3DF, 0xCDF4, 0x4181, 0x4D52
+, 0x6ADC, 0x37C8, 0x6CC1, 0xABFA, 0x24E1, 0x7B08, 0x0CBD, 0xB14A
+, 0x7888, 0x958B, 0xE363, 0xE86D, 0xE9CB, 0xD5FE, 0x3B00, 0x1D39
+, 0xF2EF, 0xB70E, 0x6658, 0xD0E4, 0xA677, 0x72F8, 0xEB75, 0x4B0A
+, 0x3144, 0x50B4, 0x8FED, 0x1F1A, 0xDB99, 0x8D33, 0x9F11, 0x8314
+};
+// *********************
+// *********************
+// ** THE SUBROUTINES **
+// *********************
+// *********************
+// all new in v.102
+// moved from 0x0D000 to 0x0C000 in v.108
+#pragma code p2_deco = 0x0C000
+// -------------------------------
+// DBS - debug on start of dive //
+// -------------------------------
+void create_dbs_set_dbg_and_ndl20mtr(void)
+{
+	int_O_DBS_bitfield = 0;
+	int_O_DBS2_bitfield = 0;
+	if(int_O_DBG_pre_bitfield & DBG_RUN)
+		int_O_DBG_pre_bitfield = DBG_RESTART;
+	else
+		int_O_DBG_pre_bitfield = DBG_RUN;
+	int_O_DBG_post_bitfield = 0;
+	char_O_NDL_at_20mtr = 255;
+	DBG_N2_ratio = N2_ratio;
+	DBG_He_ratio = He_ratio;
+	DBG_char_I_deco_model = char_I_deco_model;
+	DBG_char_I_depth_last_deco = char_I_depth_last_deco;
+	DBG_pres_surface = pres_surface;
+	DBG_GF_low = GF_low;
+	DBG_GF_high = GF_high;
+	DBG_const_ppO2 = const_ppO2;
+	DBG_deco_ppO2_change = deco_ppO2_change;
+	DBG_deco_ppO2 = deco_ppO2;
+	DBG_deco_N2_ratio = deco_N2_ratio;
+	DBG_deco_He_ratio = deco_He_ratio;
+	DBG_deco_gas_change = deco_gas_change;
+	DBG_float_saturation_multiplier = float_saturation_multiplier;
+	DBG_float_desaturation_multiplier = float_desaturation_multiplier;
+	DBG_float_deco_distance = float_deco_distance;
+	if(char_I_deco_model)
+		int_O_DBS_bitfield |= DBS_mode;
+	if(const_ppO2)
+		int_O_DBS_bitfield |= DBS_ppO2;
+	for(int_dbg_i = 16; int_dbg_i < 32; int_dbg_i++)
+		if(pres_tissue[int_dbg_i])
+			int_O_DBS_bitfield |= DBS_HE_sat;
+	if(deco_ppO2_change)
+		int_O_DBS_bitfield |= DBS_ppO2chg;
+	if(float_saturation_multiplier < 0.99)
+		int_O_DBS_bitfield |= DBS_SAT2l;
+	if(float_saturation_multiplier > 1.3)
+		int_O_DBS_bitfield |= DBS_SAT2h;
+	if(GF_low < 0.19)
+		int_O_DBS_bitfield |= DBS_GFLOW2l;
+	if(GF_low > 1.01)
+		int_O_DBS_bitfield |= DBS_GFLOW2h;
+	if(GF_high < 0.6)
+		int_O_DBS_bitfield |= DBS_GFHGH2l;
+	if(GF_high > 1.01)
+		int_O_DBS_bitfield |= DBS_GFHGH2h;
+	if((N2_ratio + He_ratio) > 0.95)
+		int_O_DBS_bitfield |= DBS_GASO22l;
+	if((N2_ratio + He_ratio) < 0.05)
+		int_O_DBS_bitfield |= DBS_GASO22h;
+	if(float_deco_distance > 0.25)
+		int_O_DBS_bitfield |= DBS_DIST2h;
+	if(char_I_depth_last_deco > 8)
+		int_O_DBS_bitfield |= DBS_LAST2h;
+	if(DBG_deco_gas_change && ((deco_N2_ratio + deco_He_ratio) > 0.95))
+		int_O_DBS_bitfield |= DBS_DECOO2l;
+	if(DBG_deco_gas_change && ((deco_N2_ratio + deco_He_ratio) < 0.05))
+		int_O_DBS_bitfield |= DBS_DECOO2h;
+	if(pres_respiration > 3.0)
+		int_O_DBS2_bitfield |= DBS2_PRES2h;
+	if(pres_surface - pres_respiration > 0.2)
+		int_O_DBS2_bitfield |= DBS2_PRES2l;
+	if(pres_surface < 0.75)
+		int_O_DBS2_bitfield |= DBS2_SURF2l;
+	if(pres_surface > 1.11)
+		int_O_DBS2_bitfield |= DBS2_SURF2h;
+	if(float_desaturation_multiplier < 0.70)
+		int_O_DBS2_bitfield |= DBS2_DESAT2l;
+	if(float_desaturation_multiplier > 1.01)
+		int_O_DBS2_bitfield |= DBS2_DESAT2h;
+	if(GF_low > GF_high)
+		int_O_DBS2_bitfield |= DBS2_GFDneg;
+}
+// -------------------------------
+// DBG - set DBG to end_of_dive //
+// -------------------------------
+void set_dbg_end_of_dive(void)
+{
+	int_O_DBG_pre_bitfield &= (~DBG_RUN);
+	int_O_DBG_post_bitfield &= (~DBG_RUN);
+}
+// -------------------------------
+// DBG - NDL at first 20 m. hit //
+// -------------------------------
+void check_ndl(void)
+{
+	if((char_O_NDL_at_20mtr == -1) && (int_I_pres_respiration > 3000))
+	{
+		char_O_NDL_at_20mtr = char_O_nullzeit;
+		if(char_O_NDL_at_20mtr == 255)
+			char_O_NDL_at_20mtr == 254;
+	}
+}
+// -------------------------------
+// DBG - multi main during dive //
+// -------------------------------
+void check_dbg(char is_post_check)
+{
+	temp_DBS = 0;
+	if( (DBG_N2_ratio != N2_ratio) || (DBG_He_ratio != He_ratio) )
+		temp_DBS |= DBG_c_gas;
+	if(DBG_const_ppO2 != const_ppO2)
+		temp_DBS |= DBG_c_ppO2;
+	if((DBG_float_saturation_multiplier != float_saturation_multiplier) || (DBG_float_desaturation_multiplier != float_desaturation_multiplier))
+		temp_DBS |= DBG_CdeSAT;
+	if(DBG_char_I_deco_model != char_I_deco_model)
+		temp_DBS |= DBG_C_MODE;
+	if(DBG_pres_surface != pres_surface)
+		temp_DBS |= DBG_C_SURF;
+	if((!DBS_HE_sat) && (!He_ratio))
+		for(int_dbg_i = 16; int_dbg_i < 32; int_dbg_i++)
+			if(pres_tissue[int_dbg_i])
+				temp_DBS |= DBG_HEwoHE;
+	if(DBG_deco_ppO2 != deco_ppO2)
+		temp_DBS |= DBG_C_DPPO2;
+	if((DBG_deco_gas_change != deco_gas_change) || (DBG_deco_N2_ratio != deco_N2_ratio) || (DBG_deco_He_ratio != deco_He_ratio))
+		temp_DBS |= DBG_C_DGAS;
+	if(DBG_float_deco_distance != float_deco_distance)
+		temp_DBS |= DBG_C_DIST;
+	if(DBG_char_I_depth_last_deco != char_I_depth_last_deco)
+		temp_DBS |= DBG_C_LAST;
+	if((DBG_GF_low != GF_low) || (DBG_GF_high != GF_high))
+		temp_DBS |= DBG_C_GF;
+	if(pres_respiration > 13.0)
+		temp_DBS |= DBG_PHIGH;
+	if(pres_surface - pres_respiration > 0.2)
+		temp_DBS |= DBG_PLOW;
+	if(is_post_check)
+		int_O_DBG_post_bitfield |= temp_DBS;
+	else
+		int_O_DBG_pre_bitfield |= temp_DBS;
+}
+// -------------------------------
+// DBG - prior to calc. of dive //
+// -------------------------------
+void check_pre_dbg(void)
+{
+	check_dbg(0);
+}
+// -------------------------------
+// DBG - after decocalc of dive //
+// -------------------------------
+void check_post_dbg(void)
+{
+	check_dbg(1);
+}
+// -------------------------
+// calc_next_decodepth_GF //
+// -------------------------
+// new in v.102
+void calc_nextdecodepth_GF(void)
+{
+// INPUT, changing during dive:
+// temp_pres_gtissue_limit_GF_low
+// temp_pres_gtissue_limit_GF_low_below_surface
+// temp_pres_gtissue
+// temp_pres_gtissue_diff
+// lock_GF_depth_list
+// INPUT, fixed during dive:
+// pres_surface
+// GF_delta
+// GF_high
+// GF_low
+// temp_depth_last_deco
+// float_deco_distance
+// OUTPUT
+// GF_step
+// temp_deco
+// temp_depth_limt
+// lock_GF_depth_list
+// USES
+// temp1
+// temp2
+// int_temp
+	char_I_table_deco_done[0] = 0; // safety if changed somewhere else. Needed for exit
+	if (char_I_deco_model == 1)
+	{
+		if (lock_GF_depth_list == 0)
+		{
+			temp2 =  temp_pres_gtissue_limit_GF_low_below_surface / 0.29985; 					// = ... / 99.95 / 0.003;
+			int_temp = (int) (temp2 + 0.99);
+			if (int_temp > 31)
+				int_temp = 31;						//	deepest deco at 93 meter (31 deco stops)
+			if (int_temp < 0)
+				int_temp = 0;
+			temp_depth_GF_low_number = int_temp;
+			temp_depth_GF_low_meter = 3 * temp_depth_GF_low_number;
+			temp2 = (float)temp_depth_GF_low_meter * 0.09995;
+			temp_pres_deco_GF_low = temp2 + float_deco_distance + pres_surface;
+			if (temp_depth_GF_low_number == 0)
+				GF_step = 0;
+			else
+				GF_step = GF_delta / (float)temp_depth_GF_low_number;
+			if (GF_step < 0)
+				GF_step = 0;
+			if (GF_step > GF_delta)
+				GF_step = GF_delta;
+			int_O_GF_step = (int)(GF_step * 10000);
+			int_O_limit_GF_low = (int)(temp_pres_deco_GF_low * 1000);
+			int_O_gtissue_press_at_GF_low = (int)(temp_pres_gtissue * 1000);
+			char_O_GF_low_pointer = temp_depth_GF_low_number;
+			lock_GF_depth_list = 1;
+			internal_deco_pointer = 0;
+		}
+		if (internal_deco_pointer == 0)		// new run
+		{
+			internal_deco_pointer = temp_depth_GF_low_number;
+			GF_temp = GF_high - ((float)internal_deco_pointer * GF_step);
+			int_temp = char_I_table_deco_done[internal_deco_pointer];
+			output[8] = int_temp;
+			output[9] = 33;
+		}
+		else
+		{
+			int_temp = 1;
+		}
+		while (int_temp == 1)
+		{
+			int_temp = internal_deco_pointer - 1;
+			if (int_temp == 1)								// new in v104
+			{
+				temp2 = (float)(temp_depth_last_deco * int_temp) * 0.09995;
+				GF_step2 = GF_step/3.0 * ((float)(6 - temp_depth_last_deco));
+			}
+			else
+			if (int_temp == 0)
+			{
+				temp2 = 0.0;
+				GF_step2 = GF_high - GF_temp;
+			}
+			else
+			{
+				temp2 = (float)(3 *int_temp) * 0.09995;
+				GF_step2 = GF_step;
+			}
+			temp2 = temp2 + pres_surface; // next deco stop to be tested
+			temp1 = ((GF_temp + GF_step2)* temp_pres_gtissue_diff) + temp_pres_gtissue;	// upper limit (lowest pressure allowed) // changes GF_step2 in v104
+			if (temp1 > temp2) // check if ascent to next deco stop is ok
+			{
+				int_temp = 0;	// no
+			}
+			else
+			{
+				internal_deco_pointer = int_temp;
+				GF_temp = GF_temp + GF_step2; // changed in v104
+				int_temp = char_I_table_deco_done[internal_deco_pointer]; // yes and check for ascent to even next stop if deco_done is set
+			}
+		} // while
+		if (internal_deco_pointer > 0)
+		{
+			temp2 = (float)(0.29985 * internal_deco_pointer);
+			temp_deco = temp2 + float_deco_distance + pres_surface;
+			if (internal_deco_pointer == 1)						// new in v104
+				temp_depth_limit = temp_depth_last_deco;
+			else
+				temp_depth_limit = 3 * internal_deco_pointer;
+			if (output[9] == 33)
+			{
+				output[9] = internal_deco_pointer;
+				output[10] = char_I_table_deco_done[internal_deco_pointer];
+				output[12] = output[12] + 1;
+				if (output[12] == 100)
+					output[12] = 0;
+			}
+		}
+		else	// 	if (char_I_deco_model == 1)
+		{
+			temp_deco = pres_surface;
+			temp_depth_limit = 0;
+		}
+	}
+	else
+	{
+		// calc_nextdecodepth - original
+		// optimized in v.101
+		// depth_last_deco included in v.101
+		temp1 = temp_pres_gtissue_limit - pres_surface;
+		if (temp1 >= 0)
+		{
+			temp1 = temp1 / 0.29985; 									// = temp1 / 99.95 / 0.003;
+			temp_depth_limit = (int) (temp1 + 0.99);
+			temp_depth_limit = 3 * temp_depth_limit; 					// depth for deco [m]
+			if (temp_depth_limit == 0)
+				temp_deco = pres_surface;
+			else
+			{
+				if (temp_depth_limit < temp_depth_last_deco)
+					temp_depth_limit = temp_depth_last_deco;
+				temp1 = (float)temp_depth_limit * 0.09995;
+				temp_deco = temp1 + float_deco_distance + pres_surface; 	// depth for deco [bar]
+			} // if (temp_depth_limit == 0)
+		} // if (temp1 >= 0)
+		else
+		{
+			temp_deco = pres_surface;
+			temp_depth_limit = 0;
+		} // if (temp1 >= 0)
+	} // calc_nextdecodepth original
+} // calc_nextdecodepth_GF
+// ---------------------
+// copy_deco_table_GF //
+// ---------------------
+// new in v.102
+void copy_deco_table_GF(void)
+{
+	if (char_I_deco_model == 1)
+	{
+		int_temp = 32;
+		for (ci=0;ci<int_temp;ci++)
+			char_O_deco_table[ci] = internal_deco_table[ci];
+	}
+}		// copy_deco_table_GF
+// ------------------------------
+// clear_internal_deco_table_GF//
+// ------------------------------
+// new in v.102
+void clear_internal_deco_table_GF(void)
+{
+	if (char_I_deco_model == 1)
+	{
+		for (ci=0;ci<32;ci++)  // cycle through the 16 b"uhlmann tissues for Helium
+		{
+			internal_deco_table[ci] = 0;
+		}
+	}
+}	// clear_internal_deco_table_GF
+// --------------------------------
+// update_internal_deco_table_GF //
+// --------------------------------
+// new in v.102
+void update_internal_deco_table_GF(void)
+{
+	if ((char_I_deco_model == 1) && (internal_deco_table[internal_deco_pointer] < 255))
+		internal_deco_table[internal_deco_pointer] = internal_deco_table[internal_deco_pointer] + 1;
+}	// update_internal_deco_table_GF
+// ---------------------
+// temp_tissue_safety //
+// ---------------------
+// outsourced in v.102
+void temp_tissue_safety(void)
+{
+	if (char_I_deco_model == 1)
+	{
+	}
+	else
+	{
+		if (temp_tissue < 0.0)
+			temp_tissue = temp_tissue * float_desaturation_multiplier;
+		else
+			temp_tissue = temp_tissue * float_saturation_multiplier;
+	}
+} // temp_tissue_safety
+// **********************
+// **********************
+// ** THE JUMP-IN CODE **
+// ** for the asm code **
+// **********************
+// **********************
+void deco_calc_hauptroutine(void)
+{
+calc_hauptroutine();
+int_O_desaturation_time = 65535;
+}
+void deco_calc_without_deco(void)
+{
+calc_without_deco();
+deco_calc_desaturation_time();
+}
+void deco_clear_tissue(void)
+{
+clear_tissue();
+char_I_depth_last_deco	= 0;		// for compatibility with v.101pre_no_last_deco
+}
+void deco_calc_wo_deco_step_1_min(void)
+{
+calc_wo_deco_step_1_min();
+char_O_deco_status = 3; // surface new in v.102 overwrites value of calc_wo_deco_step_1_min
+deco_calc_desaturation_time();
+}
+void deco_debug(void)
+{
+//debug();
+}
+// ---------------
+// CLEAR tissue //
+// ---------------
+// optimized in v.101 (var_a)
+#pragma code p2_deco_suite = 0x10700
+void clear_tissue(void)    // preload tissues with standard pressure for the given ambient pressure
+{
+	flag_in_divemode = 0;
+	int_O_DBS_bitfield = 0;
+	int_O_DBS2_bitfield = 0;
+	int_O_DBG_pre_bitfield = 0;
+	int_O_DBG_post_bitfield = 0;
+	char_O_NDL_at_20mtr = 255;
+_asm
+lfsr 1, 0x300 // C math routines shall use this variable bank
+movlw	0x01
+movwf	TBLPTRU,0
+_endasm
+// N2_ratio = (float)char_I_N2_ratio; // the 0.0002 of 0.7902 are missing with standard air
+N2_ratio = 0.7902; // N2_ratio / 100.0;
+pres_respiration = (float)int_I_pres_respiration / 1000.0;
+for (ci=0;ci<16;ci++)  // cycle through the 16 b"uhlmann tissues
+{
+pres_tissue[ci] =  N2_ratio * (pres_respiration -  0.0627) ;
+_asm
+movlw	0x02
+movwf	TBLPTRH,0
+movlb	4 // fuer ci
+movf ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addlw	0x80
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_a+1
+TBLRDPOSTINC
+movff	TABLAT,var_a
+TBLRDPOSTINC
+movff	TABLAT,var_a+3
+TBLRD
+movff	TABLAT,var_a+2
+addlw	0x80
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_b+1
+TBLRDPOSTINC
+movff	TABLAT,var_b
+TBLRDPOSTINC
+movff	TABLAT,var_b+3
+TBLRD
+movff	TABLAT,var_b+2
+_endasm
+pres_tissue_limit[ci] = (pres_tissue[ci] - var_a) * var_b ;
+// now update the guiding tissue
+if (pres_tissue_limit[ci] < 0)
+pres_tissue_limit[ci] = 0;
+} // for 0 to 16
+for (ci=16;ci<32;ci++)  // cycle through the 16 b"uhlmann tissues for Helium
+{
+pres_tissue[ci] = 0.0;
+}  // for
+clear_decoarray();
+char_O_deco_status = 0;
+char_O_nullzeit = 0;
+char_O_ascenttime = 0;
+char_O_gradient_factor = 0;
+char_O_relative_gradient_GF = 0;
+} // clear_tissue(void)
+// --------------------
+// calc_without_deco //
+// fixed N2_ratio !  //
+// --------------------
+// optimized in v.101 (float_..saturation_multiplier)
+void calc_without_deco(void)
+{
+_asm
+lfsr 1, 0x300
+_endasm
+N2_ratio = 0.7902; // FIXED RATIO !! sum as stated in b"uhlmann
+pres_respiration = (float)int_I_pres_respiration / 1000.0; // assembler code uses different digit system
+pres_surface = (float)int_I_pres_surface / 1000.0;
+temp_atem = N2_ratio * (pres_respiration - 0.0627); // 0.0627 is the extra pressure in the body
+temp2_atem = 0.0;
+temp_surface = pres_surface; // the b"uhlmann formula using temp_surface does apply to the pressure without any inert ratio
+float_desaturation_multiplier = char_I_desaturation_multiplier / 100.0;
+float_saturation_multiplier = char_I_saturation_multiplier / 100.0;
+calc_tissue();  // update the pressure in the 16 tissues in accordance with the new ambient pressure
+clear_decoarray();
+char_O_deco_status = 0;
+char_O_nullzeit = 0;
+char_O_ascenttime = 0;
+calc_gradient_factor();
+} // calc_without_deco
+// --------------------
+// calc_hauptroutine //
+// --------------------
+// this is the major code in dive mode
+// calculates:
+// 		the tissues,
+//		the bottom time
+//		and simulates the ascend with all deco stops
+void calc_hauptroutine(void)
+{
+	calc_hauptroutine_data_input();
+	if(!flag_in_divemode)
+	{
+		flag_in_divemode = 1;
+		create_dbs_set_dbg_and_ndl20mtr();
+	}
+	else
+		check_pre_dbg();
+	calc_hauptroutine_update_tissues();
+	calc_gradient_factor();
+	switch (char_O_deco_status)	// toggle between calculation for nullzeit (bottom time), deco stops and more deco stops (continue)
+	{
+		case 0:
+			update_startvalues();
+			calc_nullzeit();
+			check_ndl();
+			char_O_deco_status = 255; // calc deco next time
+			break;
+		case 1:
+			if (char_O_deco_status == 3)
+				break;
+			char_O_deco_status = 0;
+//			char_O_lock_depth_list = 255;
+			calc_hauptroutine_calc_deco();
+//			build_debug_output();
+			break;
+		case 3:				// new dive
+			clear_decoarray();
+			clear_internal_deco_table_GF();
+			copy_deco_table_GF();
+			internal_deco_pointer = 0;
+			lock_GF_depth_list = 0;
+			update_startvalues();
+			calc_nextdecodepth_GF();
+			char_O_deco_status = 0;
+			break;
+		default:
+			update_startvalues();
+			clear_decoarray();
+			clear_internal_deco_table_GF();
+			output[6] = 1;
+			calc_hauptroutine_calc_ascend_to_deco();
+			if (char_O_deco_status > 15)		// can't go up to first deco, too deep to calculate in the given time slot
+			{
+				char_O_deco_status = 2;
+//				char_O_lock_depth_list = 255;
+			}
+			else
+			{
+//				char_O_lock_depth_list = lock_GF_depth_list;
+				calc_hauptroutine_calc_deco();
+			}
+//			build_debug_output();
+			break;
+	}
+	calc_ascenttime();
+	check_post_dbg();
+}
+void calc_hauptroutine_data_input(void)
+{
+pres_respiration = (float)int_I_pres_respiration / 1000.0;
+pres_surface = (float)int_I_pres_surface / 1000.0;
+N2_ratio = (float)char_I_N2_ratio / 100.0;; // the 0.0002 of 0.7902 are missing with standard air
+He_ratio = (float)char_I_He_ratio / 100.0;;
+deco_N2_ratio = (float)char_I_deco_N2_ratio / 100.0;
+deco_He_ratio = (float)char_I_deco_He_ratio / 100.0;
+deco_N2_ratio2 = (float)char_I_deco_N2_ratio2 / 100.0;
+deco_He_ratio2 = (float)char_I_deco_He_ratio2 / 100.0;
+deco_N2_ratio3 = (float)char_I_deco_N2_ratio3 / 100.0;
+deco_He_ratio3 = (float)char_I_deco_He_ratio3 / 100.0;
+deco_N2_ratio4 = (float)char_I_deco_N2_ratio4 / 100.0;
+deco_He_ratio4 = (float)char_I_deco_He_ratio4 / 100.0;
+deco_N2_ratio5 = (float)char_I_deco_N2_ratio5 / 100.0;
+deco_He_ratio5 = (float)char_I_deco_He_ratio5 / 100.0;
+float_deco_distance = (float)char_I_deco_distance / 100.0;
+// ____________________________________________________
+//
+// _____________ G A S _ C H A N G E S ________________
+// ____________________________________________________
+int_temp = (int_I_pres_respiration - int_I_pres_surface) + MBAR_REACH_GASCHANGE_AUTO_CHANGE_OFF;
+deco_gas_change = 0;
+deco_gas_change2 = 0;
+deco_gas_change3 = 0;
+deco_gas_change4 = 0;
+deco_gas_change5 = 0;
+if(char_I_deco_gas_change)
+{
+	int_temp2 = ((int)char_I_deco_gas_change) * 100;
+	if(int_temp > int_temp2)
+	{
+		deco_gas_change = (float)char_I_deco_gas_change / 9.995 + pres_surface;
+		deco_gas_change += float_deco_distance;
+	}
+}
+if(char_I_deco_gas_change2)
+{
+	int_temp2 = ((int)char_I_deco_gas_change2) * 100;
+	if(int_temp > int_temp2)
+	{
+		deco_gas_change2 = (float)char_I_deco_gas_change2 / 9.995 + pres_surface;
+		deco_gas_change2 += float_deco_distance;
+	}
+}
+if(char_I_deco_gas_change3)
+{
+	int_temp2 = ((int)char_I_deco_gas_change3) * 100;
+	if(int_temp > int_temp2)
+	{
+		deco_gas_change3 = (float)char_I_deco_gas_change3 / 9.995 + pres_surface;
+		deco_gas_change3 += float_deco_distance;
+	}
+}
+if(char_I_deco_gas_change4)
+{
+	int_temp2 = ((int)char_I_deco_gas_change4) * 100;
+	if(int_temp > int_temp2)
+	{
+		deco_gas_change4 = (float)char_I_deco_gas_change4 / 9.995 + pres_surface;
+		deco_gas_change4 += float_deco_distance;
+	}
+}
+if(char_I_deco_gas_change5)
+{
+	int_temp2 = ((int)char_I_deco_gas_change5) * 100;
+	if(int_temp > int_temp2)
+	{
+		deco_gas_change5 = (float)char_I_deco_gas_change5 / 9.995 + pres_surface;
+		deco_gas_change5 += float_deco_distance;
+	}
+}
+const_ppO2 = (float)char_I_const_ppO2 / 100.0;
+deco_ppO2_change = (float)char_I_deco_ppO2_change / 99.95 + pres_surface;
+deco_ppO2_change = deco_ppO2_change + float_deco_distance;
+deco_ppO2 = (float)char_I_deco_ppO2 / 100.0;
+float_desaturation_multiplier = char_I_desaturation_multiplier / 100.0;
+float_saturation_multiplier = char_I_saturation_multiplier / 100.0;
+GF_low = (float)char_I_GF_Low_percentage / 100.0;
+GF_high = (float)char_I_GF_High_percentage / 100.0;
+GF_delta = GF_high - GF_low;
+temp2 = (pres_respiration - pres_surface) / 0.29985;
+int_temp = (int)(temp2);
+if (int_temp < 0)
+	int_temp = 0;
+if (int_temp > 255)
+	int_temp = 255;
+char_O_actual_pointer = int_temp;
+temp_depth_last_deco = (int)char_I_depth_last_deco;
+}
+void calc_hauptroutine_update_tissues(void)
+{
+	int_O_calc_tissue_call_counter = int_O_calc_tissue_call_counter + 1;
+	if (char_I_const_ppO2 == 0)																// new in v.101
+		pres_diluent = pres_respiration;															// new in v.101
+	else																						// new in v.101
+		pres_diluent = ((pres_respiration - const_ppO2)/(N2_ratio + He_ratio));					// new in v.101
+	if (pres_diluent > pres_respiration)														// new in v.101
+		pres_diluent = pres_respiration;															// new in v.101
+	if (pres_diluent > 0.0627)																	// new in v.101
+	{
+		temp_atem = N2_ratio * (pres_diluent - 0.0627);											// changed in v.101
+		temp2_atem = He_ratio * (pres_diluent - 0.0627);											// changed in v.101
+		char_O_diluent = (char)(pres_diluent/pres_respiration*100.0);
+	}
+	else																						// new in v.101
+	{
+		temp_atem = 0.0;																			// new in v.101
+		temp2_atem = 0.0;																			// new in v.101
+		char_O_diluent = 0;
+	}
+	temp_surface = pres_surface;
+	if(!char_I_step_is_1min)
+		calc_tissue();
+	else
+		calc_tissue_step_1_min();
+	int_O_gtissue_limit = (int)(pres_tissue_limit[char_O_gtissue_no] * 1000);
+	int_O_gtissue_press = (int)((pres_tissue[char_O_gtissue_no] + pres_tissue[char_O_gtissue_no+16]) * 1000);
+	if (char_I_deco_model == 1)
+	{
+		temp1 = temp1 * GF_high;
+	}
+	else
+	{
+	temp1 = temp_surface;
+	}
+	if (pres_gtissue_limit > temp1 && char_O_deco_status == 0)  // if guiding tissue can not be exposed to surface pressure immediately
+	{
+		char_O_nullzeit = 0; // deco necessary
+		char_O_deco_status = 255; // calculate deco skip nullzeit calculation
+	}
+} 		// calc_hauptroutine_update_tissues
+void calc_hauptroutine_calc_deco(void)
+{
+	do
+	{
+		int_temp_decostatus = 0;
+		calc_nextdecodepth_GF();
+		if (temp_depth_limit > 0)
+		{
+			calc_N2_ratio = N2_ratio;
+			calc_He_ratio = He_ratio;
+			if (char_I_const_ppO2 == 0)																// new in v.101
+	 		{
+			deco_diluent = temp_deco;																// new in v.101
+				if(deco_gas_change && (temp_deco < deco_gas_change))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio;
+	 				calc_He_ratio = deco_He_ratio;
+	 			}
+				if(deco_gas_change2 && (temp_deco < deco_gas_change2))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio2;
+	 				calc_He_ratio = deco_He_ratio2;
+	 			}
+				if(deco_gas_change3 && (temp_deco < deco_gas_change3))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio3;
+	 				calc_He_ratio = deco_He_ratio3;
+	 			}
+				if(deco_gas_change4 && (temp_deco < deco_gas_change4))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio4;
+	 				calc_He_ratio = deco_He_ratio4;
+	 			}
+				if(deco_gas_change5 && (temp_deco < deco_gas_change5))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio5;
+	 				calc_He_ratio = deco_He_ratio5;
+	 			}
+	 		}
+		else																					// new in v.101
+	 		{
+	 			if (temp_deco > deco_ppO2_change)
+				{
+				deco_diluent = ((temp_deco - const_ppO2)/(N2_ratio + He_ratio));			// new in v.101
+				}
+	 			else
+				{
+				deco_diluent = ((temp_deco - deco_ppO2)/(N2_ratio + He_ratio));			// new in v.101
+				}
+	 		}
+		if (deco_diluent > temp_deco)															// new in v.101
+			deco_diluent = temp_deco;																// new in v.101
+			if (deco_diluent > 0.0627)																// new in v.101
+		{
+			temp_atem = calc_N2_ratio * (deco_diluent - 0.0627);										// changed in v.101
+				temp2_atem = calc_He_ratio * (deco_diluent - 0.0627);										// changed in v.101
+		}
+		else																					// new in v.101
+		{
+			temp_atem = 0.0;																		// new in v.101
+			temp2_atem = 0.0;																		// new in v.101
+		}
+			sim_tissue_1min();
+			update_internal_deco_table_GF();
+			temp_decotime = 1;
+			update_decoarray();
+			char_O_deco_status = char_O_deco_status + 1;
+			if (char_O_deco_status < 16)
+			int_temp_decostatus = 1;
+		}
+		else // if (temp_depth_limit > 0)
+		{
+		char_O_deco_status = 0;
+		}
+	} while (int_temp_decostatus == 1);
+	if (char_O_deco_status > 15)
+	{
+		char_O_deco_status = 1;
+	}
+	else
+	{
+		copy_deco_table_GF();
+		char_O_deco_status = 0;
+	}
+}
+void calc_hauptroutine_calc_ascend_to_deco(void)
+{
+	update_startvalues();
+	char_O_deco_status = 0;
+	temp_deco = pres_respiration;
+	lock_GF_depth_list = 1; 																// new in v.102
+	do								// go up to first deco
+	{
+		int_temp_decostatus = 0;
+		temp_deco = temp_deco - 1.0;
+		if ( char_I_deco_model == 1)																// new in v.102 , 4 = deep stops
+			temp_limit = temp_pres_gtissue_limit_GF_low;
+		else
+			temp_limit = temp_pres_gtissue_limit;
+		if ((temp_deco > temp_limit) && (temp_deco > pres_surface)) 								// changes in v.102
+		{
+			lock_GF_depth_list = 0; 																	// new in v.102, distance to first stop > 10 mtr.
+			output[6] = 0;
+	 		temp_deco += 0.5;
+	 		calc_N2_ratio = N2_ratio;
+			calc_He_ratio = He_ratio;
+			if (char_I_const_ppO2 == 0)																// new in v.101 // calculate at half of the ascent
+			{
+			deco_diluent = temp_deco;															// new in v.101
+				if(deco_gas_change && (temp_deco < deco_gas_change))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio;
+	 				calc_He_ratio = deco_He_ratio;
+	 			}
+				if(deco_gas_change2 && (temp_deco < deco_gas_change2))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio2;
+	 				calc_He_ratio = deco_He_ratio2;
+	 			}
+				if(deco_gas_change3 && (temp_deco < deco_gas_change3))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio3;
+	 				calc_He_ratio = deco_He_ratio3;
+	 			}
+				if(deco_gas_change4 && (temp_deco < deco_gas_change4))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio4;
+	 				calc_He_ratio = deco_He_ratio4;
+	 			}
+				if(deco_gas_change5 && (temp_deco < deco_gas_change5))
+	 			{
+	 				calc_N2_ratio = deco_N2_ratio5;
+	 				calc_He_ratio = deco_He_ratio5;
+	 			}
+			}
+			else																						// new in v.101
+			{
+					if (temp_deco > deco_ppO2_change)
+					deco_diluent = ((temp_deco - const_ppO2)/(N2_ratio + He_ratio));	// new in v.101 // calculate at half of the ascent
+					else
+					deco_diluent = ((temp_deco - deco_ppO2)/(N2_ratio + He_ratio));	// new in v.101 // calculate at half of the ascent
+				if (deco_diluent > (temp_deco))															// new in v.101
+					deco_diluent = temp_deco;															// new in v.101 // calculate at half of the ascent
+			}
+	 		temp_deco -= 0.5;
+			if (deco_diluent > 0.0627)																// new in v.101
+		{
+			temp_atem = calc_N2_ratio * (deco_diluent - 0.0627);											// changed in v.101
+			temp2_atem = calc_He_ratio * (deco_diluent - 0.0627);										// changed in v.101
+		}
+			else																						// new in v.101
+		{
+			temp_atem = 0.0;																		// new in v.101
+			temp2_atem = 0.0;																		// new in v.101
+		}
+			sim_tissue_1min();
+			char_O_deco_status = char_O_deco_status + 1;
+			if (char_O_deco_status < 16)  // 16 is the limit of calculations for one time slot
+			int_temp_decostatus = 1;
+		}
+	} while (int_temp_decostatus == 1);
+}	// calc_hauptroutine_calc_ascend_to_deco
+// --------------
+// calc_tissue //
+// --------------
+// optimized in v.101
+void calc_tissue(void)
+{
+_asm
+lfsr 1, 0x300
+movlw	0x01
+movwf	TBLPTRU,0
+_endasm
+char_O_gtissue_no = 255;
+pres_gtissue_limit = 0.0;
+for (ci=0;ci<16;ci++)
+{
+_asm
+movlw	0x02
+movwf	TBLPTRH,0
+movlb	4 // fuer ci
+movf ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_e2secs+1 // the order is confussing
+TBLRDPOSTINC
+movff	TABLAT,var_e2secs	// low byte first, high afterwards
+TBLRDPOSTINC
+movff	TABLAT,var_e2secs+3
+TBLRD
+movff	TABLAT,var_e2secs+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_e2secs+1
+TBLRDPOSTINC
+movff	TABLAT,var2_e2secs
+TBLRDPOSTINC
+movff	TABLAT,var2_e2secs+3
+TBLRD
+movff	TABLAT,var2_e2secs+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_a+1
+TBLRDPOSTINC
+movff	TABLAT,var_a
+TBLRDPOSTINC
+movff	TABLAT,var_a+3
+TBLRD
+movff	TABLAT,var_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_a+1
+TBLRDPOSTINC
+movff	TABLAT,var2_a
+TBLRDPOSTINC
+movff	TABLAT,var2_a+3
+TBLRD
+movff	TABLAT,var2_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_b+1
+TBLRDPOSTINC
+movff	TABLAT,var_b
+TBLRDPOSTINC
+movff	TABLAT,var_b+3
+TBLRD
+movff	TABLAT,var_b+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_b+1
+TBLRDPOSTINC
+movff	TABLAT,var2_b
+TBLRDPOSTINC
+movff	TABLAT,var2_b+3
+TBLRD
+movff	TABLAT,var2_b+2
+_endasm
+// the start values are the previous end values // write new values in temp
+	if(	(var_e2secs < 0.0000363)
+		|| (var_e2secs > 0.00577)
+		|| (var2_e2secs < 0.0000961)
+		|| (var2_e2secs > 0.150)
+		|| (var_a < 0.231)
+		|| (var_a > 1.27)
+		|| (var_b < 0.504)
+		|| (var_b > 0.966)
+		|| (var2_a < 0.510)
+		|| (var2_a > 1.75)
+		|| (var2_b < 0.423)
+		|| (var2_b > 0.927)
+		)
+		int_O_DBG_pre_bitfield |= DBG_ZH16ERR;
+// N2
+temp_tissue = (temp_atem - pres_tissue[ci]) * var_e2secs;
+temp_tissue_safety();
+pres_tissue[ci] = pres_tissue[ci] + temp_tissue;
+// He
+temp_tissue = (temp2_atem - pres_tissue[ci+16]) * var2_e2secs;
+temp_tissue_safety();
+pres_tissue[ci+16] = pres_tissue[ci+16] + temp_tissue;
+temp_tissue = pres_tissue[ci] + pres_tissue[ci+16];
+var_a = (var_a * pres_tissue[ci] + var2_a * pres_tissue[ci+16]) / temp_tissue;
+var_b = (var_b * pres_tissue[ci] + var2_b * pres_tissue[ci+16]) / temp_tissue;
+pres_tissue_limit[ci] = (temp_tissue - var_a) * var_b;
+if (pres_tissue_limit[ci] < 0)
+pres_tissue_limit[ci] = 0;
+if (pres_tissue_limit[ci] > pres_gtissue_limit)
+{
+pres_gtissue_limit = pres_tissue_limit[ci];
+char_O_gtissue_no = ci;
+}//if
+} // for
+}//calc_tissue(void)
+// ----------------
+// calc_nullzeit //
+// ----------------
+// calculates the remaining bottom time
+// unchanged in v.101
+void calc_nullzeit(void)
+{
+	char_O_nullzeit = 0;
+	int_temp = 1;
+	do
+	{
+		backup_sim_pres_tissue();
+		sim_tissue_10min();
+		char_O_nullzeit = char_O_nullzeit + 10;
+		int_temp = int_temp + 1;
+		if (char_I_deco_model == 1)
+			temp1 = GF_high * temp_pres_gtissue_diff + temp_pres_gtissue;
+		else
+			temp1 = temp_pres_gtissue_limit;
+		if (temp1 > temp_surface)  // changed in v.102 , if guiding tissue can not be exposed to surface pressure immediately
+			int_temp = 255;
+	} while (int_temp < 17);
+	if (int_temp == 255)
+	{
+		restore_sim_pres_tissue();
+		char_O_nullzeit = char_O_nullzeit - 10;
+	} //if int_temp == 255]
+	int_temp = 1;
+	if (char_O_nullzeit < 60)
+	{
+		do
+		{
+			sim_tissue_1min();
+			char_O_nullzeit = char_O_nullzeit + 1;
+			int_temp = int_temp + 1;			// new in v.102a
+		if (char_I_deco_model == 1)
+			temp1 = GF_high * temp_pres_gtissue_diff + temp_pres_gtissue;
+		else
+			temp1 = temp_pres_gtissue_limit;
+		if (temp1 > temp_surface)  // changed in v.102 , if guiding tissue can not be exposed to surface pressure immediately
+			int_temp = 255;
+		} while (int_temp < 10);
+		if (int_temp == 255)
+			char_O_nullzeit = char_O_nullzeit - 1;
+	} // if char_O_nullzeit < 60
+} //calc_nullzeit
+// -------------------------
+// backup_sim_pres_tissue //
+// -------------------------
+void backup_sim_pres_tissue(void)
+{
+for (x = 0;x<16;x++)
+{
+sim_pres_tissue_backup[x] = sim_pres_tissue[x];
+sim_pres_tissue_backup[x+16] = sim_pres_tissue[x+16];
+}
+} // backup_sim
+// --------------------------
+// restore_sim_pres_tissue //
+// --------------------------
+void restore_sim_pres_tissue(void)
+{
+for (x = 0;x<16;x++)
+{
+sim_pres_tissue[x] = sim_pres_tissue_backup[x];
+sim_pres_tissue[x+16] = sim_pres_tissue_backup[x+16];
+}
+} // restore_sim
+// ------------------
+// calc_ascenttime //
+// ------------------
+void calc_ascenttime(void)
+{
+if (pres_respiration > pres_surface)
+{
+switch (char_O_deco_status)
+{
+case 2:
+	char_O_ascenttime = 255;
+	break;
+case 1:
+	break;
+default:
+	temp1 = pres_respiration - pres_surface + 0.6; // + 0.6 hence 1 minute ascent time from a depth of 4 meter on
+	if (temp1 < 0)
+		temp1 = 0;
+	if (temp1 > 255)
+		temp1 = 255;
+char_O_ascenttime = (char)temp1;
+	for(ci=0;ci<7;ci++)
+	{
+	x = char_O_ascenttime + char_O_array_decotime[ci];
+	if (x < char_O_ascenttime)
+		char_O_ascenttime = 255;
+	else
+		char_O_ascenttime = x;
+	}
+}
+}
+else
+char_O_ascenttime = 0;
+} // calc_ascenttime()
+// ---------------------
+// update_startvalues //
+// ---------------------
+// updated in v.102
+void update_startvalues(void)
+{
+	temp_pres_gtissue_limit = pres_gtissue_limit;
+	temp_pres_gtissue = pres_tissue[char_O_gtissue_no] + pres_tissue[char_O_gtissue_no+16];
+	temp_pres_gtissue_diff = temp_pres_gtissue_limit - temp_pres_gtissue;						// negative number
+	temp_pres_gtissue_limit_GF_low = GF_low * temp_pres_gtissue_diff + temp_pres_gtissue;
+	temp_pres_gtissue_limit_GF_low_below_surface = temp_pres_gtissue_limit_GF_low - pres_surface;
+	if (temp_pres_gtissue_limit_GF_low_below_surface < 0)
+		temp_pres_gtissue_limit_GF_low_below_surface = 0;
+	temp_gtissue_no = char_O_gtissue_no;
+	for (x = 0;x<16;x++)
+	{
+		sim_pres_tissue[x] = pres_tissue[x];
+		sim_pres_tissue[x+16] = pres_tissue[x+16];
+		sim_pres_tissue_limit[x] = pres_tissue_limit[x];
+	}
+} // update_startvalues
+// ------------------
+// sim_tissue_1min //
+// ------------------
+// optimized in v.101
+void sim_tissue_1min(void)
+{
+temp_pres_gtissue_limit = 0.0;
+temp_gtissue_no = 255;
+_asm
+lfsr 1, 0x300
+movlw	0x01
+movwf	TBLPTRU,0
+_endasm
+for (ci=0;ci<16;ci++)
+{
+_asm
+movlw	0x02
+movwf	TBLPTRH,0
+movlb	4 // fuer ci
+movf ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addlw	0x80
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_a+1
+TBLRDPOSTINC
+movff	TABLAT,var_a
+TBLRDPOSTINC
+movff	TABLAT,var_a+3
+TBLRD
+movff	TABLAT,var_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_a+1
+TBLRDPOSTINC
+movff	TABLAT,var2_a
+TBLRDPOSTINC
+movff	TABLAT,var2_a+3
+TBLRD
+movff	TABLAT,var2_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_b+1
+TBLRDPOSTINC
+movff	TABLAT,var_b
+TBLRDPOSTINC
+movff	TABLAT,var_b+3
+TBLRD
+movff	TABLAT,var_b+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_b+1
+TBLRDPOSTINC
+movff	TABLAT,var2_b
+TBLRDPOSTINC
+movff	TABLAT,var2_b+3
+TBLRD
+movff	TABLAT,var2_b+2
+addlw	0xC0
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_e1min+1
+TBLRDPOSTINC
+movff	TABLAT,var_e1min
+TBLRDPOSTINC
+movff	TABLAT,var_e1min+3
+TBLRD
+movff	TABLAT,var_e1min+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min+1
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min+3
+TBLRD
+movff	TABLAT,var2_e1min+2
+_endasm
+// N2
+temp_tissue = (temp_atem - sim_pres_tissue[ci]) * var_e1min;
+temp_tissue_safety();
+sim_pres_tissue[ci] = sim_pres_tissue[ci] + temp_tissue;
+// He
+temp_tissue = (temp2_atem - sim_pres_tissue[ci+16]) * var2_e1min;
+temp_tissue_safety();
+sim_pres_tissue[ci+16] = sim_pres_tissue[ci+16] + temp_tissue;
+// pressure limit
+temp_tissue = sim_pres_tissue[ci] + sim_pres_tissue[ci+16];
+var_a = (var_a * sim_pres_tissue[ci] + var2_a * sim_pres_tissue[ci+16]) / temp_tissue;
+var_b = (var_b * sim_pres_tissue[ci] + var2_b * sim_pres_tissue[ci+16]) / temp_tissue;
+sim_pres_tissue_limit[ci] = (temp_tissue - var_a) * var_b;
+if (sim_pres_tissue_limit[ci] < 0)
+sim_pres_tissue_limit[ci] = 0;
+if (sim_pres_tissue_limit[ci] > temp_pres_gtissue_limit)
+{
+temp_pres_gtissue = temp_tissue;
+temp_pres_gtissue_limit = sim_pres_tissue_limit[ci];
+temp_gtissue_no = ci;
+}
+} // for
+	temp_pres_gtissue_diff = temp_pres_gtissue_limit - temp_pres_gtissue;
+	temp_pres_gtissue_limit_GF_low = GF_low * temp_pres_gtissue_diff + temp_pres_gtissue;
+	temp_pres_gtissue_limit_GF_low_below_surface = temp_pres_gtissue_limit_GF_low - pres_surface;
+	if (temp_pres_gtissue_limit_GF_low_below_surface < 0)
+		temp_pres_gtissue_limit_GF_low_below_surface = 0;
+} //sim_tissue_1min()
+//--------------------
+// sim_tissue_10min //
+//--------------------
+// Attention!! uses var_e1min und var2_e1min to load 10min data !!!
+// is identical to sim_tissue_1min routine except for the different load of those variables
+// optimized in v.101
+void sim_tissue_10min(void)
+{
+temp_pres_gtissue_limit = 0.0;
+temp_gtissue_no = 255;
+_asm
+lfsr 1, 0x300
+movlw	0x01
+movwf	TBLPTRU,0
+_endasm
+for (ci=0;ci<16;ci++)
+{
+_asm
+movlw	0x02
+movwf	TBLPTRH,0
+movlb	4 // fuer ci
+movf ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addlw	0x80
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_a+1
+TBLRDPOSTINC
+movff	TABLAT,var_a
+TBLRDPOSTINC
+movff	TABLAT,var_a+3
+TBLRD
+movff	TABLAT,var_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_a+1
+TBLRDPOSTINC
+movff	TABLAT,var2_a
+TBLRDPOSTINC
+movff	TABLAT,var2_a+3
+TBLRD
+movff	TABLAT,var2_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_b+1
+TBLRDPOSTINC
+movff	TABLAT,var_b
+TBLRDPOSTINC
+movff	TABLAT,var_b+3
+TBLRD
+movff	TABLAT,var_b+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_b+1
+TBLRDPOSTINC
+movff	TABLAT,var2_b
+TBLRDPOSTINC
+movff	TABLAT,var2_b+3
+TBLRD
+movff	TABLAT,var2_b+2
+addlw	0xC0				// different to 1 min
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+incf	TBLPTRH,1,0			// different to 1 min
+TBLRDPOSTINC
+movff	TABLAT,var_e1min+1
+TBLRDPOSTINC
+movff	TABLAT,var_e1min
+TBLRDPOSTINC
+movff	TABLAT,var_e1min+3
+TBLRD
+movff	TABLAT,var_e1min+2
+addlw	0x40
+movwf	TBLPTRL,0
+//incf	TBLPTRH,1,0			// different to 1 min
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min+1
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min+3
+TBLRD
+movff	TABLAT,var2_e1min+2
+_endasm
+// N2
+temp_tissue = (temp_atem - sim_pres_tissue[ci]) * var_e1min;
+temp_tissue_safety();
+sim_pres_tissue[ci] = sim_pres_tissue[ci] + temp_tissue;
+// He
+temp_tissue = (temp2_atem - sim_pres_tissue[ci+16]) * var2_e1min;
+temp_tissue_safety();
+sim_pres_tissue[ci+16] = sim_pres_tissue[ci+16] + temp_tissue;
+// pressure limit
+temp_tissue = sim_pres_tissue[ci] + sim_pres_tissue[ci+16];
+var_a = (var_a * sim_pres_tissue[ci] + var2_a * sim_pres_tissue[ci+16]) / temp_tissue;
+var_b = (var_b * sim_pres_tissue[ci] + var2_b * sim_pres_tissue[ci+16]) / temp_tissue;
+sim_pres_tissue_limit[ci] = (temp_tissue - var_a) * var_b;
+if (sim_pres_tissue_limit[ci] < 0)
+sim_pres_tissue_limit[ci] = 0;
+if (sim_pres_tissue_limit[ci] > temp_pres_gtissue_limit)
+{
+temp_pres_gtissue = temp_tissue;
+temp_pres_gtissue_limit = sim_pres_tissue_limit[ci];
+temp_gtissue_no = ci;
+}
+} // for
+	temp_pres_gtissue_diff = temp_pres_gtissue_limit - temp_pres_gtissue;							// negative number
+	temp_pres_gtissue_limit_GF_low = GF_low * temp_pres_gtissue_diff + temp_pres_gtissue;
+	temp_pres_gtissue_limit_GF_low_below_surface = temp_pres_gtissue_limit_GF_low - pres_surface;
+	if (temp_pres_gtissue_limit_GF_low_below_surface < 0)
+		temp_pres_gtissue_limit_GF_low_below_surface = 0;
+} //sim_tissue_10min()
+// ------------------
+// clear_decoarray //
+// ------------------
+// unchanged in v.101
+void clear_decoarray(void)
+{
+char_O_array_decodepth[0] = 0;
+char_O_array_decodepth[1] = 0;
+char_O_array_decodepth[2] = 0;
+char_O_array_decodepth[3] = 0;
+char_O_array_decodepth[4] = 0;
+char_O_array_decodepth[5] = 0;
+char_O_array_decotime[0] = 0;
+char_O_array_decotime[1] = 0;
+char_O_array_decotime[2] = 0;
+char_O_array_decotime[3] = 0;
+char_O_array_decotime[4] = 0;
+char_O_array_decotime[5] = 0;
+char_O_array_decotime[6] = 0;
+} // clear_decoarray
+// -------------------
+// update_decoarray //
+// -------------------
+// unchanged in v.101
+void update_decoarray()
+{
+	x = 0;
+	do
+	{
+		if (char_O_array_decodepth[x] == temp_depth_limit)
+		{
+			int_temp = char_O_array_decotime[x] + temp_decotime;
+			if (int_temp < 0)
+				int_temp = 0;
+			if (int_temp > 240)
+				int_temp = 240;
+			char_O_array_decotime[x] = int_temp;
+			x = 10; // exit
+		} // if
+		else
+		{
+			if (char_O_array_decodepth[x] == 0)
+			{
+				if (temp_depth_limit > 255)
+					char_O_array_decodepth[x] = 255;
+				else
+					char_O_array_decodepth[x] = (char)temp_depth_limit;
+				int_temp = char_O_array_decotime[x] + temp_decotime;
+				if (int_temp > 240)
+					char_O_array_decotime[x] = 240;
+				else
+					char_O_array_decotime[x] = (char)int_temp;
+				x = 10; // exit
+			} // if
+			else
+				x++;
+		} // else
+	} while (x<6);
+	if (x == 6)
+	{
+		int_temp = char_O_array_decotime[6] + temp_decotime;
+		if (int_temp > 220)
+			char_O_array_decotime[6] = 220;
+		else
+			char_O_array_decotime[6] = (char)int_temp;
+	} // if x == 6
+} // update_decoarray
+// -----------------------
+// calc_gradient_factor //
+// -----------------------
+// optimized in v.101 (var_a)
+// new code in v.102
+void calc_gradient_factor(void)
+{
+	// tissue > respiration (entsaettigungsvorgang)
+	// gradient ist wieviel prozent an limit mit basis tissue
+	// dh. 0% = respiration == tissue
+	// dh. 100% = respiration == limit
+	temp_tissue = pres_tissue[char_O_gtissue_no] + pres_tissue[char_O_gtissue_no+16];
+	temp1 = temp_tissue - pres_respiration;
+	temp2 = temp_tissue - pres_tissue_limit[char_O_gtissue_no];	// changed in v.102
+	temp2 = temp1/temp2;
+	temp2 = temp2 * 100; // displayed in percent
+	if (temp2 < 0)
+		temp2 = 0;
+	if (temp2 > 255)
+		temp2 = 255;
+	if (temp1 < 0)
+		char_O_gradient_factor = 0;
+	else
+		char_O_gradient_factor = (char)temp2;
+	temp3 = temp2;
+	if (char_I_deco_model == 1)		// calculate relative gradient factor
+	{
+		temp1 = (float)temp_depth_GF_low_meter * 0.09995;
+		temp2 = pres_respiration - pres_surface;
+		if (temp2 <= 0)
+			temp1 = GF_high;
+		else
+		if (temp2 >= temp1)
+			temp1 = GF_low;
+		else
+			temp1 = GF_low + (temp1 - temp2)/temp1*GF_delta;
+		if (temp_depth_GF_low_meter == 0)
+			temp1 = GF_high;
+		temp2 = temp3 / temp1; // temp3 is already in percent
+		if (temp2 < 0)
+			temp2 = 0;
+		if (temp2 > 255)
+			temp2 = 255;
+		char_O_relative_gradient_GF  = (char)temp2;
+	}	// calc relative gradient factor
+	else
+	{
+			char_O_relative_gradient_GF = char_O_gradient_factor;
+	}
+} // calc_gradient
+// ---------------------------
+// deco_gradient_array //
+// ---------------------------
+// optimized in v.101 (var_a)
+// new code in v.102
+void deco_gradient_array()
+{
+pres_respiration = (float)int_I_pres_respiration / 1000.0; // assembler code uses different digit system
+for (ci=0;ci<16;ci++)
+{
+	temp_tissue = pres_tissue[ci] + pres_tissue[ci+16];
+	temp1 = temp_tissue - pres_respiration;
+	temp2 = temp_tissue - pres_tissue_limit[ci];
+	temp2 = temp1/temp2;
+	temp2 = temp2 * 200; // because of output in (Double-)percentage
+	if (temp2 < 0)
+		temp2 = 0;
+	if (temp2 > 255)
+		temp2 = 255;
+	if (temp1 < 0)
+		char_O_array_gradient_weighted[ci] = 0;
+	else
+		char_O_array_gradient_weighted[ci] = (char)temp2;
+} // for
+} // deco_gradient_array
+// ------------------------------
+// deco_calc_desaturation_time //
+// ------------------------------
+// FIXED N2_ratio
+// unchanged in v.101
+void deco_calc_desaturation_time(void)
+{
+_asm
+lfsr 1, 0x300
+movlw	0x01
+movwf	TBLPTRU,0
+_endasm
+N2_ratio = 0.7902; // FIXED sum as stated in b"uhlmann
+pres_surface = (float)int_I_pres_surface / 1000.0;
+temp_atem = N2_ratio * (pres_surface - 0.0627);
+int_O_desaturation_time = 0;
+float_desaturation_multiplier = char_I_desaturation_multiplier / 142.0; // new in v.101	(70,42%/100.=142)
+for (ci=0;ci<16;ci++)
+{
+_asm
+movlw	0x04
+movwf	TBLPTRH,0
+movlb	4 // fuer ci
+movf ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addlw	0x80
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_halftimes+1
+TBLRDPOSTINC
+movff	TABLAT,var_halftimes
+TBLRDPOSTINC
+movff	TABLAT,var_halftimes+3
+TBLRD
+movff	TABLAT,var_halftimes+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_halftimes+1
+TBLRDPOSTINC
+movff	TABLAT,var2_halftimes
+TBLRDPOSTINC
+movff	TABLAT,var2_halftimes+3
+TBLRD
+movff	TABLAT,var2_halftimes+2
+_endasm
+// saturation_time (for flight) and N2_saturation in multiples of halftime
+// version v.100: 1.1 = 10 percent distance to totally clean (totally clean is not possible, would take infinite time )
+// new in version v.101: 1.07 = 7 percent distance to totally clean (totally clean is not possible, would take infinite time )
+// changes in v.101: 1.05 = 5 percent dist to totally clean is new desaturation point for display and noFly calculations
+// N2
+temp1 = 1.05 * temp_atem;
+temp1 = temp1 - pres_tissue[ci];
+temp2 = temp_atem - pres_tissue[ci];
+if (temp2 >= 0.0)
+	{
+	temp1 = 0;
+	temp2 = 0;
+	}
+else
+temp1 = temp1 / temp2;
+if (temp1 > 0.0)
+	{
+	temp1 = log(1.0 - temp1);
+	temp1 = temp1 / -0.6931; // temp1 is the multiples of half times necessary.
+							 // 0.6931 is ln(2), because the math function log() calculates with a base of e not 2 as requested.
+							 // minus because log is negative
+	temp2 = var_halftimes * temp1 / float_desaturation_multiplier; // time necessary (in minutes ) for complete desaturation (see comment about 10 percent) , new in v.101: float_desaturation_multiplier
+	}
+else
+	{
+	temp1 = 0;
+	temp2 = 0;
+	}
+// He
+temp3 = 0.1 - pres_tissue[ci+16];
+if (temp3 >= 0.0)
+	{
+	temp3 = 0;
+	temp4 = 0;
+	}
+else
+temp3 = -1.0 * temp3 / pres_tissue[ci+16];
+if (temp3 > 0.0)
+	{
+	temp3 = log(1.0 - temp3);
+	temp3 = temp3 / -0.6931; // temp1 is the multiples of half times necessary.
+							 // 0.6931 is ln(2), because the math function log() calculates with a base of e  not 2 as requested.
+							 // minus because log is negative
+	temp4 = var2_halftimes * temp3 / float_desaturation_multiplier; // time necessary (in minutes ) for "complete" desaturation, new in v.101 float_desaturation_multiplier
+	}
+else
+	{
+	temp3 = 0;
+	temp4 = 0;
+	}
+// saturation_time (for flight)
+if (temp4 > temp2)
+	 int_temp = (int)temp4;
+else
+	 int_temp = (int)temp2;
+if(int_temp > int_O_desaturation_time)
+	int_O_desaturation_time = int_temp;
+// N2 saturation in multiples of halftime for display purposes
+temp2 = temp1 * 20.0;  // 0 = 1/8, 120 = 0, 249 = 8
+temp2 = temp2 + 80.0; // set center
+if (temp2 < 0.0)
+	 temp2 = 0.0;
+if (temp2 > 255.0)
+	 temp2 = 255.0;
+char_O_tissue_saturation[ci] = (char)temp2;
+// He saturation in multiples of halftime for display purposes
+temp4 = temp3 * 20.0;  // 0 = 1/8, 120 = 0, 249 = 8
+temp4 = temp4 + 80.0; // set center
+if (temp4 < 0.0)
+	 temp4 = 0.0;
+if (temp4 > 255.0)
+	 temp4 = 255.0;
+char_O_tissue_saturation[ci+16] = (char)temp4;
+} // for
+} // deco_calc_desaturation_time
+// --------------------------
+// calc_wo_deco_step_1_min //
+// --------------------------
+// FIXED N2 Ratio
+// optimized in v.101 (...saturation_multiplier)
+// desaturation slowed down to 70,42%
+void calc_wo_deco_step_1_min(void)
+{
+	if(flag_in_divemode)
+	{
+		flag_in_divemode = 0;
+		set_dbg_end_of_dive();
+	}
+_asm
+lfsr 1, 0x300
+_endasm
+N2_ratio = 0.7902; // FIXED, sum lt. buehlmann
+pres_respiration = (float)int_I_pres_respiration / 1000.0; // assembler code uses different digit system
+pres_surface = (float)int_I_pres_surface / 1000.0;
+temp_atem = N2_ratio * (pres_respiration - 0.0627); // 0.0627 is the extra pressure in the body
+temp2_atem = 0.0;
+temp_surface = pres_surface; // the b"uhlmann formula using temp_surface does not use the N2_ratio
+float_desaturation_multiplier = char_I_desaturation_multiplier / 142.0; // new in v.101	(70,42%/100.=142)
+float_saturation_multiplier = char_I_saturation_multiplier / 100.0;
+calc_tissue_step_1_min();  // update the pressure in the 16 tissues in accordance with the new ambient pressure
+clear_decoarray();
+char_O_deco_status = 0;
+char_O_nullzeit = 0;
+char_O_ascenttime = 0;
+calc_gradient_factor();
+} // calc_wo_deco_step_1_min(void)
+// -------------------------
+// calc_tissue_step_1_min //
+// -------------------------
+// optimized in v.101
+void calc_tissue_step_1_min(void)
+{
+_asm
+lfsr 1, 0x300
+movlw	0x01
+movwf	TBLPTRU,0
+_endasm
+char_O_gtissue_no = 255;
+pres_gtissue_limit = 0.0;
+for (ci=0;ci<16;ci++)
+{
+_asm
+movlw	0x02
+movwf	TBLPTRH,0
+movlb	4 // fuer ci
+movf ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addwf	ci,0,1
+addlw	0x80
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var_a+1
+TBLRDPOSTINC
+movff	TABLAT,var_a
+TBLRDPOSTINC
+movff	TABLAT,var_a+3
+TBLRD
+movff	TABLAT,var_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_a+1
+TBLRDPOSTINC
+movff	TABLAT,var2_a
+TBLRDPOSTINC
+movff	TABLAT,var2_a+3
+TBLRD
+movff	TABLAT,var2_a+2
+addlw	0x40
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_b+1
+TBLRDPOSTINC
+movff	TABLAT,var_b
+TBLRDPOSTINC
+movff	TABLAT,var_b+3
+TBLRD
+movff	TABLAT,var_b+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_b+1
+TBLRDPOSTINC
+movff	TABLAT,var2_b
+TBLRDPOSTINC
+movff	TABLAT,var2_b+3
+TBLRD
+movff	TABLAT,var2_b+2
+addlw	0xC0
+movwf	TBLPTRL,0
+incf	TBLPTRH,1,0
+TBLRDPOSTINC
+movff	TABLAT,var_e1min+1
+TBLRDPOSTINC
+movff	TABLAT,var_e1min
+TBLRDPOSTINC
+movff	TABLAT,var_e1min+3
+TBLRD
+movff	TABLAT,var_e1min+2
+addlw	0x40
+movwf	TBLPTRL,0
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min+1
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min
+TBLRDPOSTINC
+movff	TABLAT,var2_e1min+3
+TBLRD
+movff	TABLAT,var2_e1min+2
+_endasm
+// N2 1 min
+temp_tissue = (temp_atem - pres_tissue[ci]) * var_e1min;
+temp_tissue_safety();
+pres_tissue[ci] = pres_tissue[ci] + temp_tissue;
+// He 1 min
+temp_tissue = (temp2_atem - pres_tissue[ci+16]) * var2_e1min;
+temp_tissue_safety();
+pres_tissue[ci+16] = pres_tissue[ci+16] + temp_tissue;
+temp_tissue = pres_tissue[ci] + pres_tissue[ci+16];
+var_a = (var_a * pres_tissue[ci] + var2_a * pres_tissue[ci+16]) / temp_tissue;
+var_b = (var_b * pres_tissue[ci] + var2_b * pres_tissue[ci+16]) / temp_tissue;
+pres_tissue_limit[ci] = (temp_tissue - var_a) * var_b;
+if (pres_tissue_limit[ci] < 0)
+pres_tissue_limit[ci] = 0;
+if (pres_tissue_limit[ci] > pres_gtissue_limit)
+{
+pres_gtissue_limit = pres_tissue_limit[ci];
+char_O_gtissue_no = ci;
+}//if
+if(!char_I_step_is_1min)
+{
+	 // gradient factor array for graphical display
+	 // display range is 0 to 250! in steps of 5 for 1 pixel
+	 // the display is divided in 6 blocks
+	 // -> double the gradient 100% = 200
+	 // tissue > respiration (entsaettigungsvorgang)
+	 // gradient ist wieviel prozent an limit von tissue aus
+	 // dh. 0% = respiration == tissue
+	 // dh. 100% = respiration == limit
+	 temp1 = temp_tissue - pres_respiration;
+	 temp2 = temp_tissue - pres_tissue_limit[ci];	// changed in v.102
+	 temp2 = temp1/temp2;
+	 temp2 = temp2 * 200; // because of output in (Double-)percentage
+	 if (temp2 < 0)
+	 	temp2 = 0;
+	 if (temp2 > 255)
+	 	temp2 = 255;
+	 if (temp1 < 0)
+	  char_O_array_gradient_weighted[ci] = 0;
+	 else
+	  char_O_array_gradient_weighted[ci] = (char)temp2;
+}
+} // for
+} // calc wo deco 1min
+// ----------
+// deco_hash //
+// ----------
+void deco_hash(void)
+{
+// init
+for (md_i=0;md_i<16;md_i++)
+{
+md_state[md_i] = 0;
+md_cksum[md_i] = 0;
+} // for md_i 16
+_asm
+movlw	0x01
+movwf	TBLPTRU,0
+movlw	0x06
+movwf	TBLPTRH,0
+movlw	0x00
+movwf	TBLPTRL,0
+_endasm;
+for (md_i=0;md_i<127;md_i++)
+{
+_asm
+TBLRDPOSTINC
+movff	TABLAT,md_temp
+_endasm
+md_pi_subst[md_i] = md_temp;
+} // for md_i 256
+_asm
+TBLRDPOSTINC
+movff	TABLAT,md_temp
+_endasm;
+md_pi_subst[127] = md_temp;
+for (md_i=0;md_i<127;md_i++)
+{
+_asm
+TBLRDPOSTINC
+movff	TABLAT,md_temp
+_endasm
+md_pi_subst[md_i+128] = md_temp;
+} // for md_i 256
+_asm
+TBLRD
+movff	TABLAT,md_temp
+_endasm
+md_pi_subst[255] = md_temp;
+_asm
+movlw	0x00
+movwf	TBLPTRU,0
+movlw	0x00
+movwf	TBLPTRH,0
+movlw	0x00
+movwf	TBLPTRL,0
+_endasm
+// cycle buffers
+for (md_pointer=0x0000;md_pointer<0x17f3;md_pointer++)
+{
+md_t = 0;
+for (md_i=0;md_i<16;md_i++)
+{
+if(md_pointer == 9)
+md_temp = md_cksum[md_i];
+else
+{
+_asm
+TBLRDPOSTINC
+movff	TABLAT,md_temp
+_endasm
+} // else
+md_buffer[md_i] = md_temp;
+md_state[md_i+16] = md_buffer[md_i];
+md_state[md_i+32] = (unsigned char)(md_buffer[md_i] ^ md_state[md_i]);
+} // for md_i 16
+for (md_i=0;md_i<18;md_i++)
+{
+for (md_j=0;md_j<48;md_j++)
+{
+md_state[md_j] = (unsigned char)(md_state[md_j] ^ md_pi_subst[md_t]);
+md_t = md_state[md_j];
+} // for md_j 48
+md_t = (unsigned char)(md_t+1);
+} // for md_i 18
+md_t = md_cksum[15];
+for (md_i=0;md_i<16;md_i++)
+{
+md_cksum[md_i] = (unsigned char)(md_cksum[md_i] ^ md_pi_subst[(md_buffer[md_i] ^ md_t)]);
+md_t = md_cksum[md_i];
+} // for md_i 16
+} // for md_pointer
+} // void deco_hash(void)
+// ---------------------
+// deco_clear_CNS_fraction //
+// ---------------------
+// new in v.101
+void deco_clear_CNS_fraction(void)
+{
+CNS_fraction = 0.0;
+char_O_CNS_fraction = 0;
+} // void deco_clear_CNS_fraction(void)
+// -------------------------
+// deco_calc_CNS_fraction //
+// -------------------------
+// new in v.101
+// optimized in v.102 : with new variables char_I_actual_ppO2 and actual_ppO2
+// Input: char_I_actual_ppO2
+// Output: char_O_CNS_fraction
+// Uses and Updates: CNS_fraction
+// Uses: acutal_ppO2
+void deco_calc_CNS_fraction(void)
+{
+actual_ppO2 = (float)char_I_actual_ppO2 / 100.0;
+if (char_I_actual_ppO2 < 50)
+CNS_fraction = CNS_fraction;// no changes
+else if (char_I_actual_ppO2 < 60)
+CNS_fraction = 1/(-54000.0 * actual_ppO2 + 54000.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 70)
+CNS_fraction = 1/(-45000.0 * actual_ppO2 + 48600.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 80)
+CNS_fraction = 1/(-36000.0 * actual_ppO2 + 42300.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 90)
+CNS_fraction = 1/(-27000.0 * actual_ppO2 + 35100.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 110)
+CNS_fraction = 1/(-18000.0 * actual_ppO2 + 27000.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 150)
+CNS_fraction = 1/(-9000.0 * actual_ppO2 + 17100.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 160)
+CNS_fraction = 1/(-22500.0 * actual_ppO2 + 37350.0) + CNS_fraction;
+else if (char_I_actual_ppO2 < 165)
+CNS_fraction =  0.000755 + CNS_fraction; // Arieli et all.(2002): Modeling pulmonary and CNS O2 toxicity... Formula (A1) based on value for 1.55 and c=20
+else if (char_I_actual_ppO2 < 170)
+CNS_fraction =  0.00102 + CNS_fraction; // example calculation: Sqrt((1.7/1.55)^20)*0.000404
+else if (char_I_actual_ppO2 < 175)
+CNS_fraction =  0.00136 + CNS_fraction;
+else if (char_I_actual_ppO2 < 180)
+CNS_fraction =  0.00180 + CNS_fraction;
+else if (char_I_actual_ppO2 < 185)
+CNS_fraction =  0.00237 + CNS_fraction;
+else if (char_I_actual_ppO2 < 190)
+CNS_fraction =  0.00310 + CNS_fraction;
+else if (char_I_actual_ppO2 < 195)
+CNS_fraction =  0.00401 + CNS_fraction;
+else if (char_I_actual_ppO2 < 200)
+CNS_fraction =  0.00517 + CNS_fraction;
+else if (char_I_actual_ppO2 < 230)
+CNS_fraction =  0.0209 + CNS_fraction;
+else
+CNS_fraction =  0.0482 + CNS_fraction; // value for 2.5
+if (CNS_fraction > 2.5)
+CNS_fraction = 2.5;
+if (CNS_fraction < 0.0)
+CNS_fraction = 0.0;
+char_O_CNS_fraction = (char)((CNS_fraction + 0.005)* 100.0);
+} // void deco_calc_CNS_fraction(void)
+// -------------------------------
+// deco_calc_CNS_decrease_15min //
+// -------------------------------
+// new in v.101
+// calculates the half time of 90 minutes in 6 steps of 15 min
+// Output: char_O_CNS_fraction
+// Uses and Updates: CNS_fraction
+void deco_calc_CNS_decrease_15min(void)
+{
+CNS_fraction =  0.890899 * CNS_fraction;
+char_O_CNS_fraction = (char)((CNS_fraction + 0.005)* 100.0);
+}// deco_calc_CNS_decrease_15min(void)
+// -----------------------
+// deco_calc_percentage //
+// -----------------------
+// new in v.101
+// calculates int_I_temp * char_I_temp / 100
+// output is int_I_temp
+void deco_calc_percentage(void)
+{
+temp1 = (float)int_I_temp;
+temp2 = (float)char_I_temp / 100.0;
+temp3 = temp1 * temp2;
+int_I_temp = (int)temp3;
+}
+void deco_push_tissues_to_vault(void)
+{
+	cns_vault = CNS_fraction;
+	for (ci=0;ci<32;ci++)
+		pres_tissue_vault[ci] = pres_tissue[ci];
+}
+void deco_pull_tissues_from_vault(void)
+{
+	CNS_fraction = cns_vault;
+	for (ci=0;ci<32;ci++)
+		pres_tissue[ci] = pres_tissue_vault[ci];
+}

Mercurial > public > mk2

comparison code_part1/OSTC_code_c_part2/p2_deco.c @ 116:14a074e1a375