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// SPDX-License-Identifier: GPL-2.0
/* planner.c
*
* code that allows us to plan future dives
*
* ( c ) Dirk Hohndel 2013
*/
# include <assert.h>
# include <unistd.h>
# include <ctype.h>
# include <string.h>
# include "dive.h"
# include "deco.h"
# include "divelist.h"
# include "planner.h"
# include "gettext.h"
# include "libdivecomputer/parser.h"
# include "qthelperfromc.h"
# include "version.h"
int diveplan_duration ( struct diveplan * diveplan )
{
struct divedatapoint * dp = diveplan - > dp ;
int duration = 0 ;
while ( dp ) {
if ( dp - > time > duration )
duration = dp - > time ;
dp = dp - > next ;
}
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return ( duration + 30 ) / 60 ;
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}
void add_plan_to_notes ( struct diveplan * diveplan , struct dive * dive , bool show_disclaimer , int error )
{
const unsigned int sz_buffer = 2000000 ;
const unsigned int sz_temp = 100000 ;
char * buffer = ( char * ) malloc ( sz_buffer ) ;
char * temp = ( char * ) malloc ( sz_temp ) ;
const char * deco , * segmentsymbol ;
static char buf [ 1000 ] ;
int len , lastdepth = 0 , lasttime = 0 , lastsetpoint = - 1 , newdepth = 0 , lastprintdepth = 0 , lastprintsetpoint = - 1 ;
struct gasmix lastprintgasmix = { { - 1 } , { - 1 } } ;
struct divedatapoint * dp = diveplan - > dp ;
bool plan_verbatim = prefs . verbatim_plan ;
bool plan_display_runtime = prefs . display_runtime ;
bool plan_display_duration = prefs . display_duration ;
bool plan_display_transitions = prefs . display_transitions ;
bool gaschange_after = ! plan_verbatim ;
bool gaschange_before ;
bool lastentered = true ;
struct divedatapoint * nextdp = NULL ;
struct divedatapoint * lastbottomdp = NULL ;
if ( decoMode ( ) = = VPMB ) {
deco = translate ( " gettextFromC " , " VPM-B " ) ;
} else {
deco = translate ( " gettextFromC " , " BUHLMANN " ) ;
}
snprintf ( buf , sizeof ( buf ) , translate ( " gettextFromC " , " DISCLAIMER / WARNING: THIS IS A NEW IMPLEMENTATION OF THE %s "
" ALGORITHM AND A DIVE PLANNER IMPLEMENTATION BASED ON THAT WHICH HAS "
" RECEIVED ONLY A LIMITED AMOUNT OF TESTING. WE STRONGLY RECOMMEND NOT TO "
" PLAN DIVES SIMPLY BASED ON THE RESULTS GIVEN HERE. " ) , deco ) ;
disclaimer = buf ;
if ( ! dp ) {
free ( ( void * ) buffer ) ;
free ( ( void * ) temp ) ;
return ;
}
if ( error ) {
snprintf ( temp , sz_temp , " %s " ,
translate ( " gettextFromC " , " Decompression calculation aborted due to excessive time " ) ) ;
snprintf ( buffer , sz_buffer , " <span style='color: red;'>%s </span> %s<br> " ,
translate ( " gettextFromC " , " Warning: " ) , temp ) ;
dive - > notes = strdup ( buffer ) ;
free ( ( void * ) buffer ) ;
free ( ( void * ) temp ) ;
return ;
}
len = show_disclaimer ? snprintf ( buffer , sz_buffer , " <div><b>%s</b><br></div> " , disclaimer ) : 0 ;
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if ( diveplan - > surface_interval < 0 ) {
len + = snprintf ( buffer + len , sz_buffer - len , " <div><b>%s (%s) %s<br> " ,
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translate ( " gettextFromC " , " Subsurface " ) ,
subsurface_canonical_version ( ) ,
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translate ( " gettextFromC " , " dive plan</b> (overlapping dives detected) " ) ) ;
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dive - > notes = strdup ( buffer ) ;
free ( ( void * ) buffer ) ;
free ( ( void * ) temp ) ;
return ;
} else if ( diveplan - > surface_interval > = 48 * 60 * 60 ) {
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len + = snprintf ( buffer + len , sz_buffer - len , " <div><b>%s (%s) %s %s</b><br> " ,
translate ( " gettextFromC " , " Subsurface " ) ,
subsurface_canonical_version ( ) ,
translate ( " gettextFromC " , " dive plan</b> created on " ) ,
get_current_date ( ) ) ;
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} else {
len + = snprintf ( buffer + len , sz_buffer - len , " <div><b>%s (%s) %s %d:%02d) %s %s<br> " ,
translate ( " gettextFromC " , " Subsurface " ) ,
subsurface_canonical_version ( ) ,
translate ( " gettextFromC " , " dive plan</b> (surface interval " ) ,
FRACTION ( diveplan - > surface_interval / 60 , 60 ) ,
translate ( " gettextFromC " , " created on " ) ,
get_current_date ( ) ) ;
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}
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if ( prefs . display_variations & & decoMode ( ) ! = RECREATIONAL )
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len + = snprintf ( buffer + len , sz_buffer - len , translate ( " gettextFromC " , " Runtime: %dmin%s " ) ,
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diveplan_duration ( diveplan ) , " VARIATIONS<br></div> " ) ;
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else
len + = snprintf ( buffer + len , sz_buffer - len , translate ( " gettextFromC " , " Runtime: %dmin<br></div> " ) ,
diveplan_duration ( diveplan ) ) ;
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if ( ! plan_verbatim ) {
len + = snprintf ( buffer + len , sz_buffer - len , " <table><thead><tr><th></th><th>%s</th> " ,
translate ( " gettextFromC " , " depth " ) ) ;
if ( plan_display_duration )
len + = snprintf ( buffer + len , sz_buffer - len , " <th style='padding-left: 10px;'>%s</th> " ,
translate ( " gettextFromC " , " duration " ) ) ;
if ( plan_display_runtime )
len + = snprintf ( buffer + len , sz_buffer - len , " <th style='padding-left: 10px;'>%s</th> " ,
translate ( " gettextFromC " , " runtime " ) ) ;
len + = snprintf ( buffer + len , sz_buffer - len ,
" <th style='padding-left: 10px; float: left;'>%s</th></tr></thead><tbody style='float: left;'> " ,
translate ( " gettextFromC " , " gas " ) ) ;
}
do {
struct gasmix gasmix , newgasmix = { } ;
const char * depth_unit ;
double depthvalue ;
int decimals ;
bool isascent = ( dp - > depth . mm < lastdepth ) ;
nextdp = dp - > next ;
if ( dp - > time = = 0 )
continue ;
gasmix = dive - > cylinder [ dp - > cylinderid ] . gasmix ;
depthvalue = get_depth_units ( dp - > depth . mm , & decimals , & depth_unit ) ;
/* analyze the dive points ahead */
while ( nextdp & & nextdp - > time = = 0 )
nextdp = nextdp - > next ;
if ( nextdp )
newgasmix = dive - > cylinder [ nextdp - > cylinderid ] . gasmix ;
gaschange_after = ( nextdp & & ( gasmix_distance ( & gasmix , & newgasmix ) | | dp - > setpoint ! = nextdp - > setpoint ) ) ;
gaschange_before = ( gasmix_distance ( & lastprintgasmix , & gasmix ) | | lastprintsetpoint ! = dp - > setpoint ) ;
/* do we want to skip this leg as it is devoid of anything useful? */
if ( ! dp - > entered & &
nextdp & &
dp - > depth . mm ! = lastdepth & &
nextdp - > depth . mm ! = dp - > depth . mm & &
! gaschange_before & &
! gaschange_after )
continue ;
if ( dp - > time - lasttime < 10 & & ! ( gaschange_after & & dp - > next & & dp - > depth . mm ! = dp - > next - > depth . mm ) )
continue ;
/* Store pointer to last entered datapoint for minimum gas calculation */
if ( dp - > entered & & ! nextdp - > entered )
lastbottomdp = dp ;
len = strlen ( buffer ) ;
if ( plan_verbatim ) {
/* When displaying a verbatim plan, we output a waypoint for every gas change.
* Therefore , we do not need to test for difficult cases that mean we need to
* print a segment just so we don ' t miss a gas change . This makes the logic
* to determine whether or not to print a segment much simpler than with the
* non - verbatim plan .
*/
if ( dp - > depth . mm ! = lastprintdepth ) {
if ( plan_display_transitions | | dp - > entered | | ! dp - > next | | ( gaschange_after & & dp - > next & & dp - > depth . mm ! = nextdp - > depth . mm ) ) {
if ( dp - > setpoint )
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Transition to %.*f %s in %d:%02d min - runtime %d:%02u on %s (SP = %.1fbar) " ) ,
decimals , depthvalue , depth_unit ,
FRACTION ( dp - > time - lasttime , 60 ) ,
FRACTION ( dp - > time , 60 ) ,
gasname ( & gasmix ) ,
( double ) dp - > setpoint / 1000.0 ) ;
else
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Transition to %.*f %s in %d:%02d min - runtime %d:%02u on %s " ) ,
decimals , depthvalue , depth_unit ,
FRACTION ( dp - > time - lasttime , 60 ) ,
FRACTION ( dp - > time , 60 ) ,
gasname ( & gasmix ) ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " %s<br> " , temp ) ;
}
newdepth = dp - > depth . mm ;
lasttime = dp - > time ;
} else {
if ( ( nextdp & & dp - > depth . mm ! = nextdp - > depth . mm ) | | gaschange_after ) {
if ( dp - > setpoint )
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Stay at %.*f %s for %d:%02d min - runtime %d:%02u on %s (SP = %.1fbar) " ) ,
decimals , depthvalue , depth_unit ,
FRACTION ( dp - > time - lasttime , 60 ) ,
FRACTION ( dp - > time , 60 ) ,
gasname ( & gasmix ) ,
( double ) dp - > setpoint / 1000.0 ) ;
else
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Stay at %.*f %s for %d:%02d min - runtime %d:%02u on %s " ) ,
decimals , depthvalue , depth_unit ,
FRACTION ( dp - > time - lasttime , 60 ) ,
FRACTION ( dp - > time , 60 ) ,
gasname ( & gasmix ) ) ;
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len + = snprintf ( buffer + len , sz_buffer - len , " %s<br> " , temp ) ;
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newdepth = dp - > depth . mm ;
lasttime = dp - > time ;
}
}
} else {
/* When not displaying the verbatim dive plan, we typically ignore ascents between deco stops,
* unless the display transitions option has been selected . We output a segment if any of the
* following conditions are met .
* 1 ) Display transitions is selected
* 2 ) The segment was manually entered
* 3 ) It is the last segment of the dive
* 4 ) The segment is not an ascent , there was a gas change at the start of the segment and the next segment
* is a change in depth ( typical deco stop )
* 5 ) There is a gas change at the end of the segment and the last segment was entered ( first calculated
* segment if it ends in a gas change )
* 6 ) There is a gaschange after but no ascent . This should only occur when backgas breaks option is selected
* 7 ) It is an ascent ending with a gas change , but is not followed by a stop . As case 5 already matches
* the first calculated ascent if it ends with a gas change , this should only occur if a travel gas is
* used for a calculated ascent , there is a subsequent gas change before the first deco stop , and zero
* time has been allowed for a gas switch .
*/
if ( plan_display_transitions | | dp - > entered | | ! dp - > next | |
( nextdp & & dp - > depth . mm ! = nextdp - > depth . mm ) | |
( ! isascent & & gaschange_before & & nextdp & & dp - > depth . mm ! = nextdp - > depth . mm ) | |
( gaschange_after & & lastentered ) | | ( gaschange_after & & ! isascent ) | |
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( isascent & & gaschange_after & & nextdp & & dp - > depth . mm ! = nextdp - > depth . mm ) | |
( lastentered & & ! dp - > entered ) ) {
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// Print a symbol to indicate whether segment is an ascent, descent, constant depth (user entered) or deco stop
if ( isascent )
segmentsymbol = " ➚ " ; // up-right arrow for ascent
else if ( dp - > depth . mm > lastdepth )
segmentsymbol = " ➘ " ; // down-right arrow for descent
else if ( dp - > entered )
segmentsymbol = " ➙ " ; // right arrow for entered entered segment at constant depth
else
segmentsymbol = " - " ; // minus sign (a.k.a. horizontal line) for deco stop
len + = snprintf ( buffer + len , sz_buffer - len , " <tr><td style='padding-left: 10px; float: right;'>%s</td> " , segmentsymbol ) ;
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %3.0f%s " ) , depthvalue , depth_unit ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; float: right;'>%s</td> " , temp ) ;
if ( plan_display_duration ) {
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %3dmin " ) , ( dp - > time - lasttime + 30 ) / 60 ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; float: right;'>%s</td> " , temp ) ;
}
if ( plan_display_runtime ) {
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %3dmin " ) , ( dp - > time + 30 ) / 60 ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; float: right;'>%s</td> " , temp ) ;
}
/* Normally a gas change is displayed on the stopping segment, so only display a gas change at the end of
* an ascent segment if it is not followed by a stop
*/
if ( ( isascent | | dp - > entered ) & & gaschange_after & & dp - > next & & nextdp & & ( dp - > depth . mm ! = nextdp - > depth . mm | | nextdp - > entered ) ) {
if ( dp - > setpoint ) {
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " (SP = %.1fbar) " ) , ( double ) nextdp - > setpoint / 1000.0 ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; color: red; float: left;'><b>%s %s</b></td> " , gasname ( & newgasmix ) ,
temp ) ;
} else {
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; color: red; float: left;'><b>%s</b></td> " , gasname ( & newgasmix ) ) ;
}
lastprintsetpoint = nextdp - > setpoint ;
lastprintgasmix = newgasmix ;
gaschange_after = false ;
} else if ( gaschange_before ) {
// If a new gas has been used for this segment, now is the time to show it
if ( dp - > setpoint ) {
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " (SP = %.1fbar) " ) , ( double ) dp - > setpoint / 1000.0 ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; color: red; float: left;'><b>%s %s</b></td> " , gasname ( & gasmix ) ,
temp ) ;
} else {
len + = snprintf ( buffer + len , sz_buffer - len , " <td style='padding-left: 10px; color: red; float: left;'><b>%s</b></td> " , gasname ( & gasmix ) ) ;
}
// Set variables so subsequent iterations can test against the last gas printed
lastprintsetpoint = dp - > setpoint ;
lastprintgasmix = gasmix ;
gaschange_after = false ;
} else {
len + = snprintf ( buffer + len , sz_buffer - len , " <td> </td> " ) ;
}
len + = snprintf ( buffer + len , sz_buffer - len , " </tr> " ) ;
newdepth = dp - > depth . mm ;
lasttime = dp - > time ;
}
}
if ( gaschange_after ) {
// gas switch at this waypoint
if ( plan_verbatim ) {
if ( lastsetpoint > = 0 ) {
if ( nextdp & & nextdp - > setpoint )
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Switch gas to %s (SP = %.1fbar) " ) , gasname ( & newgasmix ) , ( double ) nextdp - > setpoint / 1000.0 ) ;
else
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Switch gas to %s " ) , gasname ( & newgasmix ) ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " %s<br> " , temp ) ;
}
gaschange_after = false ;
gasmix = newgasmix ;
}
}
lastprintdepth = newdepth ;
lastdepth = dp - > depth . mm ;
lastsetpoint = dp - > setpoint ;
lastentered = dp - > entered ;
} while ( ( dp = nextdp ) ! = NULL ) ;
if ( ! plan_verbatim )
len + = snprintf ( buffer + len , sz_buffer - len , " </tbody></table><br> " ) ;
/* Print the CNS and OTU next.*/
dive - > cns = 0 ;
dive - > maxcns = 0 ;
update_cylinder_related_info ( dive ) ;
snprintf ( temp , sz_temp , " %s " , translate ( " gettextFromC " , " CNS " ) ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <div>%s: %i%% " , temp , dive - > cns ) ;
snprintf ( temp , sz_temp , " %s " , translate ( " gettextFromC " , " OTU " ) ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <br>%s: %i<br></div> " , temp , dive - > otu ) ;
/* Print the settings for the diveplan next. */
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if ( decoMode ( ) = = BUEHLMANN ) {
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snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Deco model: Bühlmann ZHL-16C with GFLow = %d%% and GFHigh = %d%% " ) ,
diveplan - > gflow , diveplan - > gfhigh ) ;
} else if ( decoMode ( ) = = VPMB ) {
int temp_len ;
if ( diveplan - > vpmb_conservatism = = 0 )
temp_len = snprintf ( temp , sz_temp , " %s " , translate ( " gettextFromC " , " Deco model: VPM-B at nominal conservatism " ) ) ;
else
temp_len = snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Deco model: VPM-B at +%d conservatism " ) , diveplan - > vpmb_conservatism ) ;
if ( diveplan - > eff_gflow )
temp_len + = snprintf ( temp + temp_len , sz_temp - temp_len , translate ( " gettextFromC " , " , effective GF=%d/%d " ) , diveplan - > eff_gflow
, diveplan - > eff_gfhigh ) ;
} else if ( decoMode ( ) = = RECREATIONAL ) {
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " Deco model: Recreational mode based on Bühlmann ZHL-16B with GFLow = %d%% and GFHigh = %d%% " ) ,
diveplan - > gflow , diveplan - > gfhigh ) ;
}
len + = snprintf ( buffer + len , sz_buffer - len , " <div>%s<br> " , temp ) ;
const char * depth_unit ;
int altitude = ( int ) get_depth_units ( ( int ) ( log ( 1013.0 / diveplan - > surface_pressure ) * 7800000 ) , NULL , & depth_unit ) ;
len + = snprintf ( buffer + len , sz_buffer - len , translate ( " gettextFromC " , " ATM pressure: %dmbar (%d%s)<br></div> " ) ,
diveplan - > surface_pressure ,
altitude ,
depth_unit ) ;
/* Get SAC values and units for printing it in gas consumption */
double bottomsacvalue , decosacvalue ;
int sacdecimals ;
const char * sacunit ;
bottomsacvalue = get_volume_units ( prefs . bottomsac , & sacdecimals , & sacunit ) ;
decosacvalue = get_volume_units ( prefs . decosac , NULL , NULL ) ;
/* Reduce number of decimals from 1 to 0 for bar/min, keep 2 for cuft/min */
if ( sacdecimals = = 1 ) sacdecimals - - ;
/* Print the gas consumption next.*/
if ( dive - > dc . divemode = = CCR )
snprintf ( temp , sz_temp , " %s " , translate ( " gettextFromC " , " Gas consumption (CCR legs excluded): " ) ) ;
else
snprintf ( temp , sz_temp , " %s %.*f|%.*f%s/min): " , translate ( " gettextFromC " , " Gas consumption (based on SAC " ) ,
sacdecimals , bottomsacvalue , sacdecimals , decosacvalue , sacunit ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <div>%s<br> " , temp ) ;
/* Print gas consumption: This loop covers all cylinders */
for ( int gasidx = 0 ; gasidx < MAX_CYLINDERS ; gasidx + + ) {
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double volume , pressure , deco_volume , deco_pressure , mingas_volume , mingas_pressure , mingas_d_pressure , mingas_depth ;
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const char * unit , * pressure_unit , * depth_unit ;
char warning [ 1000 ] = " " ;
char mingas [ 1000 ] = " " ;
cylinder_t * cyl = & dive - > cylinder [ gasidx ] ;
if ( cylinder_none ( cyl ) )
break ;
volume = get_volume_units ( cyl - > gas_used . mliter , NULL , & unit ) ;
deco_volume = get_volume_units ( cyl - > deco_gas_used . mliter , NULL , & unit ) ;
if ( cyl - > type . size . mliter ) {
int remaining_gas = lrint ( ( double ) cyl - > end . mbar * cyl - > type . size . mliter / 1000.0 / gas_compressibility_factor ( & cyl - > gasmix , cyl - > end . mbar / 1000.0 ) ) ;
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double deco_pressure_mbar = isothermal_pressure ( & cyl - > gasmix , 1.0 , remaining_gas + cyl - > deco_gas_used . mliter , cyl - > type . size . mliter ) * 1000
- cyl - > end . mbar ;
deco_pressure = get_pressure_units ( lrint ( deco_pressure_mbar ) , & pressure_unit ) ;
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pressure = get_pressure_units ( cyl - > start . mbar - cyl - > end . mbar , & pressure_unit ) ;
/* Warn if the plan uses more gas than is available in a cylinder
* This only works if we have working pressure for the cylinder
* 10 bar is a made up number - but it seemed silly to pretend you could breathe cylinder down to 0 */
if ( cyl - > end . mbar < 10000 )
snprintf ( warning , sizeof ( warning ) , " <br> — <span style='color: red;'>%s </span> %s " ,
translate ( " gettextFromC " , " Warning: " ) ,
translate ( " gettextFromC " , " this is more gas than available in the specified cylinder! " ) ) ;
else
if ( ( float ) cyl - > end . mbar * cyl - > type . size . mliter / 1000.0 / gas_compressibility_factor ( & cyl - > gasmix , cyl - > end . mbar / 1000.0 )
< ( float ) cyl - > deco_gas_used . mliter )
snprintf ( warning , sizeof ( warning ) , " <br> — <span style='color: red;'>%s </span> %s " ,
translate ( " gettextFromC " , " Warning: " ) ,
translate ( " gettextFromC " , " not enough reserve for gas sharing on ascent! " ) ) ;
/* Do and print minimum gas calculation for last bottom gas, but only for OC mode, */
/* not for recreational mode and if no other warning was set before. */
else
if ( lastbottomdp & & gasidx = = lastbottomdp - > cylinderid
& & dive - > dc . divemode = = OC & & decoMode ( ) ! = RECREATIONAL ) {
/* Calculate minimum gas volume. */
volume_t mingasv ;
mingasv . mliter = lrint ( prefs . sacfactor / 100.0 * prefs . problemsolvingtime * prefs . bottomsac
* depth_to_bar ( lastbottomdp - > depth . mm , dive )
+ prefs . sacfactor / 100.0 * cyl - > deco_gas_used . mliter ) ;
/* Calculate minimum gas pressure for cyclinder. */
lastbottomdp - > minimum_gas . mbar = lrint ( isothermal_pressure ( & cyl - > gasmix , 1.0 ,
mingasv . mliter , cyl - > type . size . mliter ) * 1000 ) ;
/* Translate all results into correct units */
mingas_volume = get_volume_units ( mingasv . mliter , NULL , & unit ) ;
mingas_pressure = get_pressure_units ( lastbottomdp - > minimum_gas . mbar , & pressure_unit ) ;
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mingas_d_pressure = get_pressure_units ( lrint ( ( double ) cyl - > end . mbar + deco_pressure_mbar - lastbottomdp - > minimum_gas . mbar ) , & pressure_unit ) ;
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mingas_depth = get_depth_units ( lastbottomdp - > depth . mm , NULL , & depth_unit ) ;
/* Print it to results */
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if ( cyl - > start . mbar > lastbottomdp - > minimum_gas . mbar ) {
snprintf ( mingas , sizeof ( mingas ) , " <br> — <span style='color: %s;'>%s</span> (%s %.1fx%s/+%d%s@%.0f%s): \
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% .0f % s / % .0f % s < span style = ' color : % s ; ' > / & Delta ; : % + .0f % s < / span > " ,
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mingas_d_pressure > 0 ? " green " : " red " ,
translate ( " gettextFromC " , " Minimum gas " ) ,
translate ( " gettextFromC " , " based on " ) ,
prefs . sacfactor / 100.0 ,
translate ( " gettextFromC " , " SAC " ) ,
prefs . problemsolvingtime ,
translate ( " gettextFromC " , " min " ) ,
mingas_depth , depth_unit ,
mingas_volume , unit ,
mingas_pressure , pressure_unit ,
mingas_d_pressure > 0 ? " grey " : " indianred " ,
mingas_d_pressure , pressure_unit ) ;
} else {
snprintf ( warning , sizeof ( warning ) , " <br> — <span style='color: red;'>%s </span> %s " ,
translate ( " gettextFromC " , " Warning: " ) ,
translate ( " gettextFromC " , " required minimum gas for ascent already exceeding start pressure of cylinder! " ) ) ;
}
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}
/* Print the gas consumption for every cylinder here to temp buffer. */
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if ( lrint ( volume ) > 0 )
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %.0f%s/%.0f%s of <span style='color: red;'><b>%s</b></span> (%.0f%s/%.0f%s in planned ascent) " ) , volume , unit , pressure , pressure_unit , gasname ( & cyl - > gasmix ) , deco_volume , unit , deco_pressure , pressure_unit ) ;
else
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %.0f%s/%.0f%s of <span style='color: red;'><b>%s</b></span> " ) , volume , unit , pressure , pressure_unit , gasname ( & cyl - > gasmix ) ) ;
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} else {
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if ( lrint ( volume ) > 0 )
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %.0f%s of <span style='color: red;'><b>%s</b></span> (%.0f%s during planned ascent) " ) ,
volume , unit , gasname ( & cyl - > gasmix ) , deco_volume , unit ) ;
else
snprintf ( temp , sz_temp , translate ( " gettextFromC " , " %.0f%s of <span style='color: red;'><b>%s</b></span> " ) ,
volume , unit , gasname ( & cyl - > gasmix ) ) ;
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}
/* Gas consumption: Now finally print all strings to output */
len + = snprintf ( buffer + len , sz_buffer - len , " %s%s%s<br> " , temp , warning , mingas ) ;
}
/* Print warnings for pO2 */
dp = diveplan - > dp ;
bool o2warning_exist = false ;
if ( dive - > dc . divemode ! = CCR ) {
while ( dp ) {
if ( dp - > time ! = 0 ) {
struct gas_pressures pressures ;
struct gasmix * gasmix = & dive - > cylinder [ dp - > cylinderid ] . gasmix ;
fill_pressures ( & pressures , depth_to_atm ( dp - > depth . mm , dive ) , gasmix , 0.0 , dive - > dc . divemode ) ;
if ( pressures . o2 > ( dp - > entered ? prefs . bottompo2 : prefs . decopo2 ) / 1000.0 ) {
const char * depth_unit ;
int decimals ;
double depth_value = get_depth_units ( dp - > depth . mm , & decimals , & depth_unit ) ;
len = strlen ( buffer ) ;
if ( ! o2warning_exist ) len + = snprintf ( buffer + len , sz_buffer - len , " <br> " ) ;
o2warning_exist = true ;
snprintf ( temp , sz_temp ,
translate ( " gettextFromC " , " high pO₂ value %.2f at %d:%02u with gas %s at depth %.*f %s " ) ,
pressures . o2 , FRACTION ( dp - > time , 60 ) , gasname ( gasmix ) , decimals , depth_value , depth_unit ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <span style='color: red;'>%s </span> %s<br> " ,
translate ( " gettextFromC " , " Warning: " ) , temp ) ;
} else if ( pressures . o2 < 0.16 ) {
const char * depth_unit ;
int decimals ;
double depth_value = get_depth_units ( dp - > depth . mm , & decimals , & depth_unit ) ;
len = strlen ( buffer ) ;
if ( ! o2warning_exist ) len + = snprintf ( buffer + len , sz_buffer - len , " <br> " ) ;
o2warning_exist = true ;
snprintf ( temp , sz_temp ,
translate ( " gettextFromC " , " low pO₂ value %.2f at %d:%02u with gas %s at depth %.*f %s " ) ,
pressures . o2 , FRACTION ( dp - > time , 60 ) , gasname ( gasmix ) , decimals , depth_value , depth_unit ) ;
len + = snprintf ( buffer + len , sz_buffer - len , " <span style='color: red;'>%s </span> %s<br> " ,
translate ( " gettextFromC " , " Warning: " ) , temp ) ;
}
}
dp = dp - > next ;
}
}
snprintf ( buffer + len , sz_buffer - len , " </div> " ) ;
dive - > notes = strdup ( buffer ) ;
free ( ( void * ) buffer ) ;
free ( ( void * ) temp ) ;
}