#include <applicat.h>
#include <colmask.h>
#include <printer.h>
#include <progind.h>
#include <tabutil.h>
#include <urldefid.h>
#include <utility.h>
#include "..\mg\anamag.h"
#include "..\ve\veconf.h"
#include <anagr.h>
#include <nditte.h>
#include "mr2100.h"
#include "mr2100a.h"
#include "mr2100c.h"
///////////////////////////////////////////////////////////
// Utility
///////////////////////////////////////////////////////////
static bool is_production_article(const TCodice_articolo& codart)
{
const TRectype& rec=cache().get(LF_DIST, codart);
bool art_prod = false;
if (rec.empty())
art_prod = cache().get(LF_ANAMAG, codart).get_bool(ANAMAG_ARTPROD);
else
art_prod = rec.get_bool(ANAMAG_ARTPROD);
return art_prod;
}
///////////////////////////////////////////////////////////
// TMRP_record
///////////////////////////////////////////////////////////
void TMRP_record::add_ref(TMRP_docref* ref, TMRP_docrefs* &refs)
{
if (ref != NULL)
{
if (refs == NULL)
refs = new TMRP_docrefs;
refs->add(ref);
}
}
const real& TMRP_record::add_gross_req(const real& val, TMRP_internalref * ref)
{
if (_internal_req == NULL)
_internal_req = new TMRP_internalrefs;
_internal_req->add(ref);
return add_gross_req(val);
}
const real& TMRP_record::add_gross_req(const real& val, TMRP_docref * ref)
{
add_ref(ref, _requirements);
_gross_requirement += val;
return _gross_requirement;
}
const real& TMRP_record::add_sched_rec(const real& val, TMRP_docref * ref)
{
add_ref(ref, _scheduls);
_sched_receipts += val;
return _sched_receipts;
}
const real& TMRP_record::add_planned_ord(const real& val, TMRP_docref * ref)
{
add_ref(ref, _plans);
_planned_orders += val;
return _planned_orders;
}
const real& TMRP_record::add_resched_ord(const real& val)
{
_resched_orders += val;
return _resched_orders;
}
const real& TMRP_record::add_unsched_ord(const real& val)
{
_unsched_orders += val;
return _unsched_orders;
}
const real& TMRP_record::add_net_req(const real& val)
{
_net_requirement += val;
return _net_requirement;
}
TObject * TMRP_record::dup() const
{
TMRP_record *o= new TMRP_record(_time);
o->TMRP_record::operator=(*this);
return o;
}
TMRP_record & TMRP_record::operator=(const TMRP_record& a)
{
_gross_requirement=a._gross_requirement;
_on_hand=a._on_hand;
_sched_receipts=a._sched_receipts;
_net_requirement=a._net_requirement;
_planned_orders=a._planned_orders;
_resched_orders=a._resched_orders;
if (a._plans) _plans = (TMRP_docrefs *)a._plans->dup();
if (a._scheduls) _scheduls = (TMRP_docrefs *)a._scheduls->dup();
if (a._requirements) _requirements = (TMRP_docrefs *)a._requirements->dup();
if (a._internal_req) _internal_req = (TMRP_internalrefs *)a._internal_req->dup();
return *this;
}
TMRP_record::TMRP_record(const TMRP_time& t) : _time(t)
{
_plans = NULL;
_scheduls = NULL;
_requirements = NULL;
_internal_req = NULL;
}
///////////////////////////////////////////////////////////
// TMRP_line
///////////////////////////////////////////////////////////
TArticolo_giacenza *TMRP_line::_articolo_giac = NULL;
// Stringa temporanea di lavoro
static TString16 _sub;
const TString& TMRP_line::codmag() const
{ return _sub = _codmag.left(3); }
const TString& TMRP_line::codmagaz_coll() const
{ return _sub = _codmag_coll.left(3); }
const TString& TMRP_line::coddep() const
{ return _sub = _codmag.mid(3); }
const TString& TMRP_line::coddep_coll() const
{ return _sub = _codmag_coll.mid(3); }
const TString& TMRP_line::livgiac(int l) const
{
const TCodgiac_livelli& lg = livelli_giacenza();
return _sub = _livgiac.mid(lg.code_start(l)-1, lg.code_length(l));
}
void TMRP_line::lotti_riordino(real& minimo, real& increm) const
{
_articolo_giac->read(_codart);
const int i=_articolo_giac->find_mag("", _codmag);
if (i>=0)
{
const TRectype & rec=_articolo_giac->mag("").row(i);
minimo = rec.get_real(MAG_LOTTORIOR);
increm = rec.get_real(MAG_LOTTOIRIOR);
} else
minimo=increm=0;
if (minimo.is_zero())
minimo = _articolo_giac->get_real(MAG_LOTTORIOR);
if (increm.is_zero())
increm = _articolo_giac->get_real(MAG_LOTTOIRIOR);
}
int TMRP_line::add_son(const real& qta, TMRP_line* son)
{
CHECK(son, "Can't add NULL TMRP_line son");
if (son == this)
fatal_box(FR("Riga di MRP %sz %s padre di se stessa"), (const char *)articolo(), (const char *)livgiac());
CHECK(son != this, "Hermafrodite TMRP_line");
_qta_sons.add(qta);
return _sons.add(son);
}
bool TMRP_line::is_son(const TCodice_articolo& art) const
{
int i;
for (i = sons()-1; i >= 0; i--)
{
const TMRP_line& r = son(i);
if (r.articolo() == art)
break;
}
return i >= 0;
}
int TMRP_line::compare(const TSortable& s) const
{
const TMRP_line& line = (const TMRP_line&)s;
const bool imfather = sons() > 0;
const bool hesfather = line.sons() > 0;
/*
if (imfather && (!hesfather || is_son(line.articolo())))
return +1;
if (hesfather && (!imfather || line.is_son(articolo())))
return -1;
return 0;
*/
if (imfather && !hesfather)
return +1;
if (hesfather && !imfather)
return -1;
int c = 0; // Non farti ingannare dalle distinte cicliche!
if (is_son(line.articolo())) c++;
if (line.is_son(articolo())) c--;
return c;
}
TObject* TMRP_line::dup() const
{
TMRP_line* o = new TMRP_line(*this);
return o;
}
TMRP_line& TMRP_line::operator=(const TMRP_line & a)
{
//key
_codart=a._codart;
_livgiac=a._livgiac;
_codmag=a._codmag;
_codimp=a._codimp;
_codlin=a._codlin;
_codclifor=a._codclifor;
_da_rdoc_key=a._da_rdoc_key;
// contents
_descr=a._descr;
_sons=a._sons;
_qta_sons=a._qta_sons;
_req_per_bucket=a._req_per_bucket;
_final_product = a._final_product;
_sheet_row = a._sheet_row;
_articolo_giac= new TArticolo_giacenza(a._articolo_giac->codice());
return *this;
}
TMRP_record& TMRP_line::record(int i) const
{
TMRP_record* rec = (TMRP_record*)_req_per_bucket.objptr(i);
CHECKD(rec, "Invalid MRP record ", i);
return *rec;
}
TMRP_record& TMRP_line::record(const TMRP_time& t) const
{
const int last = last_bucket();
int i;
for (i = 0; i <= last; i++)
{
TMRP_record& rec = record(i);
const int cmp = rec.time().compare(t);
if (cmp == 0)
return rec;
if (cmp > 0)
{
((TArray&)_req_per_bucket).insert(NULL, i);
break;
}
}
TMRP_record* rec = new TMRP_record(t);
((TArray&)_req_per_bucket).add(rec, i);
return *rec;
}
// approssima in base al lotto minimo; prevede valori negativi
real TMRP_line::sizeup_net_requirement(int i, const real &val, const real & oldnet)
{
real req(oldnet); // Azzera net requirement
if (val + oldnet < ZERO)
{
req = -(val + oldnet); // Rende positiva la richiesta effettiva
real lm,li;
lotti_riordino(lm,li);
if (req > lm) // Se la richiesta supera il lotto minimo
{
if (li > ZERO)
{
// Calcola il numero di lotti incrementali
real lotti = (req - lm) / li;
lotti.ceil();
// La quantita' richiesta = minimo + lotti * dim.lotti
req = lm + lotti * li;
}
}
else
req = lm; // Forza la richiesta almeno al lotto minimo
req += oldnet;
}
set_net_req(i, req);
return req;
}
const real& TMRP_line::add_gross_req(const TMRP_time& t, const real& val, TMRP_internalref* ref)
{ return record(t).add_gross_req(val, ref); }
const real& TMRP_line::add_gross_req(const TMRP_time& t, const real& val, TMRP_docref* ref)
{ return record(t).add_gross_req(val, ref); }
const real& TMRP_line::add_sched_rec(const TMRP_time& t, const real &val, TMRP_docref* ref)
{return record(t).add_sched_rec(val, ref);}
const real& TMRP_line::add_planned_ord(const TMRP_time& t, const real &val, TMRP_docref* ref)
{ return record(t).add_planned_ord(val, ref);}
const real& TMRP_line::add_resched_ord(int i, const real &val)
{ return record(i).add_resched_ord(val); }
const real& TMRP_line::add_unsched_ord(int i, const real &val)
{ return record(i).add_unsched_ord(val); }
const real & TMRP_line::set_net_req(int i, const real &val)
{
if (val>ZERO)
return record(i).set_net_req(val);
else
return record(i).set_net_req(ZERO);
}
const real & TMRP_line::add_net_req(const TMRP_time &t, const real &val)
{return record(t).add_net_req(val); }
const real & TMRP_line::add_net_req(int i, const real &val)
{ return record(i).add_net_req(val); }
const real & TMRP_line::set_on_hand(int i, const real &val)
{ return record(i).set_on_hand(val);}
const real & TMRP_line::set_on_hand(const TMRP_time &t, const real &val)
{ return record(t).set_on_hand(val);}
const TMRP_time& TMRP_line::lead_time(int i, TMRP_time& t, bool anticipate) const
{
t = record(i).time();
if (anticipate)
{
const TRectype& dist = cache().get(LF_DIST, articolo());
if (!dist.empty())
{
const int days = dist.get_int("LEADTIME");
const long hours = dist.get_long("LEADHOURS");
t.sub_time(days, hours);
}
else
{
_articolo_giac->read(articolo());
TDate d = t.date();
d -= _articolo_giac->lead_time(codmagdep(), livgiac());
t.set(d, t.hour(), t.impianto(), t.linea());
}
}
return t;
}
real& TMRP_line::giacenza_attuale(real &g) const
{
TDate d(TODAY);
return giacenza_attuale(g, d);
}
real& TMRP_line::giacenza_attuale(real &g, const TDate &d) const
{
_articolo_giac->read(articolo());
g = _articolo_giac->giacenza_anno(codmagdep(),livgiac(),d.year());
return g;
}
real& TMRP_line::scorta_minima(real &g) const
{
TDate d(TODAY);
return scorta_minima(g,d);
}
real& TMRP_line::scorta_minima(real &g, const TDate &d) const
{
_articolo_giac->read(articolo());
g = _articolo_giac->scorta_minima(codmagdep(),livgiac(),d.year());
return g;
}
void TMRP_line::set_imp_lin(const char* imp, const char* lin)
{
_codimp = imp;
_codlin = lin;
if (_codlin.full() && _codimp.full())
{
const TLinea_prod l(_codlin);
imp = l.codimp();
if (_codimp != imp)
{
#ifdef DBG
warning_box("Impianto '%s' incompatibile con la linea '%s':\nforzato a '%s'.",
(const char*)_codimp, lin, imp);
#endif
_codimp = imp;
}
}
}
TMRP_line::TMRP_line(const char* art, const char* giac,
const char* mag, const char* magc,
const char* imp, const char* lin,
long codcli, const char* da_rdoc_key)
: _codart(art), _livgiac(giac), _explosion_depth(0),
_codmag(mag), _codmag_coll(magc),
_codclifor(codcli), _da_rdoc_key(da_rdoc_key),
_final_product(FALSE), _sheet_row(NULL)
{
set_imp_lin(imp, lin);
if (_articolo_giac == NULL)
_articolo_giac= new TArticolo_giacenza();
}
TMRP_line::TMRP_line(const TMRP_line&a)
{
TMRP_line::operator=(a);
}
///////////////////////////////////////////////////////////
// TMRP_lines
///////////////////////////////////////////////////////////
TMRP_lines::TMRP_lines(const TMRP_lines & a)
{
TMRP_lines::operator=(a);
}
TObject* TMRP_lines::dup() const
{
return new TMRP_lines(*this);
}
TMRP_lines & TMRP_lines::operator= (const TMRP_lines &a)
{
TMRP_array::operator= (a);
_ignore_mag=a._ignore_mag;
_ignore_dep=a._ignore_dep;
_ignore_imp=a._ignore_imp;
_ignore_lin=a._ignore_lin;
_ignore_key=a._ignore_key;
return *this;
}
TSortable* TMRP_lines::new_obj(const TToken_string& key) const
{
TCodice_articolo art; key.get(0, art); art.trim();
TString16 gia; key.get(1, gia); gia.trim();
TString8 mag; key.get(2, mag); mag.trim();
TString8 magc; key.get(3, magc); magc.trim();
TString8 imp; key.get(4, imp); imp.trim();
TString8 lin; key.get(5, lin); lin.trim();
long clifor; key.get(6, clifor);
TString da_rdoc_key; key.get(7, da_rdoc_key);
return new TMRP_line(art, gia, mag, magc, imp, lin, clifor, da_rdoc_key);
}
TMRP_line* TMRP_lines::find(const TCodice_articolo& codart, const TString& gia,
const TString& mag, const TString& magc,
const TString& imp, const TString& lin,
long codcli, const char* rdoc_key, bool create)
{
_key = codart;
_key.add(gia);
_key.trim(); // trim to trim giaclevel...
if (_ignore_mag)
{
_key.add(" ",2);
_key.add(" ",3);
}
else
{
if (_ignore_dep)
{
_key.add(mag.left(3) ,2);
_key.add(magc.left(3),3);
}
else
{
_key.add(mag,2);
_key.add(magc,3);
}
}
if (_ignore_imp || imp.blank())
_key.add(" ",4);
else
_key.add(imp,4);
if (_ignore_lin || lin.blank())
_key.add(" ",5);
else
_key.add(lin,5);
_key.add(codcli,6);
if (_ignore_key)
_key.add(" ",7);
else
_key.add(rdoc_key,7);
TSortable* s = create ? add_obj(_key) : find_obj(_key);
return (TMRP_line*)s;
}
TMRP_lines::TMRP_lines()
: _ignore_mag(false), _ignore_dep(false), _ignore_imp(false),
_ignore_lin(false), _ignore_key(true)
{ }
TMRP_lines::~TMRP_lines()
{ destroy(); }
///////////////////////////////////////////////////////////
// TRiga_ordine
///////////////////////////////////////////////////////////
#define COMPARE_ALL_CODES 13 //
#define COMPARE_COMPLETE 99 //
#define COMPARE_TDFA -1 //
#define COMPARE_TDAF -2 //
#define COMPARE_TFAD -3 //
#define COMPARE_TFDA -4 //
#define COMPARE_TAFD -5 //
#define COMPARE_TADF -6 //
#define COMPARE_DTFA -7 // data documento + data di consegna + fornitore + articolo
#define COMPARE_DATF -8 // data documento + data di consegna + articolo + fornitore
#define COMPARE_ATFD -9 //
#define COMPARE_ADTF -10 //
#define COMPARE_TCFA -11 //
#define COMPARE_TCAF -12 //
#define COMPARE_TFAC -13 //
#define COMPARE_TFCA -14 //
#define COMPARE_TAFC -15 //
#define COMPARE_TACF -16 //
#define COMPARE_CTFA -17 // data di consegna + data documento + fornitore + articolo
#define COMPARE_CATF -18 // data di consegna + data documento + articolo + fornitore
#define COMPARE_ATFC -19 //
#define COMPARE_ACTF -20 //
class TRiga_ordine : public TToken_string
{
TRiga_ordine() { CHECK(false, "Miiii"); }
public:
int compare(const TToken_string& r, bool compare_orig_doc, int level = COMPARE_ALL_CODES, bool ascending = true) const;
int compare_field(TString &str0, TString &str1,short field_no) const;
TRiga_ordine& operator=(TToken_string& r);
TRiga_ordine& operator+=(TRiga_ordine& r);
TRiga_ordine(const TDate& datadoc, const TDate& datacons, long forn,
const TMRP_line& line, int bucket, const real & price);
virtual ~TRiga_ordine() { }
};
int TRiga_ordine::compare(const TToken_string& riga, bool compare_orig_doc, int level, bool ascending) const
{
TString str0, str1;
int cmp = 0;
if (level>=0)
{
int i;
for (i = 2; i <= level && i <= COMPARE_ALL_CODES && cmp == 0; i++)
{
get(i, str0);
riga.get(i, str1);
cmp = compare_field(str0,str1,short(i+FIRST_FIELD));
}
if (level > COMPARE_ALL_CODES)
{
i = F_DOCANNODOC;
while (cmp == 0 && i <= F_DOCNRIGA)
{
get(i-FIRST_FIELD, str0);
riga.get(i-FIRST_FIELD, str1);
if (str1.blank()) // se la linea trovata non � riferita a un doc, va sempre bene
break;
cmp = compare_field(str0,str1,short(i++));
}
}
} else {
// ordinamenti non standard
short f;
short fields_TFAD[] = {F_ORD_TYPE, F_FORNITORE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_DATADOC, F_DATACONS};
short fields_TFDA[] = {F_ORD_TYPE, F_FORNITORE, F_DATADOC, F_DATACONS, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4};
short fields_TDFA[] = {F_ORD_TYPE, F_DATADOC, F_DATACONS, F_FORNITORE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4};
short fields_TDAF[] = {F_ORD_TYPE, F_DATADOC, F_DATACONS, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_FORNITORE};
short fields_TAFD[] = {F_ORD_TYPE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_FORNITORE, F_DATADOC, F_DATACONS};
short fields_TADF[] = {F_ORD_TYPE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_DATADOC, F_DATACONS, F_FORNITORE};
short fields_DTFA[] = {F_DATADOC, F_DATACONS, F_ORD_TYPE, F_FORNITORE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4};
short fields_DATF[] = {F_DATADOC, F_DATACONS, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_ORD_TYPE, F_FORNITORE};
short fields_ATFD[] = {F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_ORD_TYPE, F_FORNITORE, F_DATADOC, F_DATACONS};
short fields_ADTF[] = {F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_ORD_TYPE, F_DATADOC, F_DATACONS, F_FORNITORE};
short fields_TFAC[] = {F_ORD_TYPE, F_FORNITORE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_DATACONS, F_DATADOC};
short fields_TFCA[] = {F_ORD_TYPE, F_FORNITORE, F_DATACONS, F_DATADOC, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4};
short fields_TCFA[] = {F_ORD_TYPE, F_DATACONS, F_DATADOC, F_FORNITORE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4};
short fields_TCAF[] = {F_ORD_TYPE, F_DATACONS, F_DATADOC, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_FORNITORE};
short fields_TAFC[] = {F_ORD_TYPE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_FORNITORE, F_DATACONS, F_DATADOC};
short fields_TACF[] = {F_ORD_TYPE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_DATACONS, F_DATADOC, F_FORNITORE};
short fields_CTFA[] = {F_DATACONS, F_DATADOC, F_ORD_TYPE, F_FORNITORE, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4};
short fields_CATF[] = {F_DATACONS, F_DATADOC, F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_ORD_TYPE, F_FORNITORE};
short fields_ATFC[] = {F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_ORD_TYPE, F_FORNITORE, F_DATACONS, F_DATADOC};
short fields_ACTF[] = {F_ARTICOLO, F_LIV1, F_LIV2, F_LIV3, F_LIV4, F_ORD_TYPE, F_DATACONS, F_DATADOC, F_FORNITORE};
for (int i = 0; i < 9 && cmp == 0; i++)
{
switch (level)
{
case COMPARE_TFAD: f=fields_TFAD[i]; break;
case COMPARE_TFDA: f=fields_TFDA[i]; break;
case COMPARE_TDFA: f=fields_TDFA[i]; break;
case COMPARE_TDAF: f=fields_TDAF[i]; break;
case COMPARE_TADF: f=fields_TADF[i]; break;
case COMPARE_TAFD: f=fields_TAFD[i]; break;
case COMPARE_DTFA: f=fields_DTFA[i]; break;
case COMPARE_DATF: f=fields_DATF[i]; break;
case COMPARE_ADTF: f=fields_ADTF[i]; break;
case COMPARE_ATFD: f=fields_ATFD[i]; break;
case COMPARE_TFAC: f=fields_TFAC[i]; break;
case COMPARE_TFCA: f=fields_TFCA[i]; break;
case COMPARE_TCFA: f=fields_TCFA[i]; break;
case COMPARE_TCAF: f=fields_TCAF[i]; break;
case COMPARE_TACF: f=fields_TACF[i]; break;
case COMPARE_TAFC: f=fields_TAFC[i]; break;
case COMPARE_CTFA: f=fields_CTFA[i]; break;
case COMPARE_CATF: f=fields_CATF[i]; break;
case COMPARE_ACTF: f=fields_ACTF[i]; break;
case COMPARE_ATFC: f=fields_ATFC[i]; break;
default:
NFCHECK("Ordinamento sconosciuto");
break;
}
get(f - FIRST_FIELD, str0);
riga.get(f - FIRST_FIELD, str1);
cmp=compare_field(str0,str1,f);
}
}
if (compare_orig_doc)
{
int i = F_DAANNO;
while (cmp == 0 && i <= F_DANRIGA)
{
get(i-FIRST_FIELD, str0);
riga.get(i-FIRST_FIELD, str1);
cmp = compare_field(str0,str1,short(i++));
}
}
return ascending ? cmp : -cmp;
}
int TRiga_ordine::compare_field(TString &str0, TString &str1,short field_no) const
{
int cmp;
switch (field_no)
{
case F_DATADOC:
case F_DATACONS:
{
if (str0 != str1)
{
const TDate mine(str0);
const TDate his(str1);
cmp = mine > his ? +1 : -1;
}
else
cmp = 0;
}
break;
case F_FORNITORE: // data doc
{
const long f0 = atol(str0);
const long f1 = atol(str1);
cmp = f0 == f1 ? 0 : (f0 > f1 ? +1 : -1);
}
break;
default:
cmp = str0.compare(str1);
break;
}
return cmp;
}
TRiga_ordine& TRiga_ordine::operator=(TToken_string& r)
{
this->TToken_string::operator=(r);
return *this;
}
TRiga_ordine& TRiga_ordine::operator+=(TRiga_ordine& r)
{
// CHECK(compare(r) == 0, "Can't add incompatible order line");
const real q = r.get(F_QUANTITA - FIRST_FIELD);
if (!q.is_zero())
{
real qta = get(F_QUANTITA - FIRST_FIELD);
qta += q; qta.round(5);
add(qta.is_zero() ? " " : qta.string(), F_QUANTITA - FIRST_FIELD);
}
return *this;
}
TRiga_ordine::TRiga_ordine(const TDate& datadoc, const TDate& datacons, long forn, const TMRP_line& line, int bucket, const real& price)
: TToken_string(128)
{
// Determino il tipo di ordine (PROD/ACQ)
const TCodice_articolo& codart = line.articolo();
const bool art_prod = is_production_article(codart);
add(" ",F_SELECTED - FIRST_FIELD);
add(art_prod ? "P" : "F", F_ORD_TYPE - FIRST_FIELD);
add(datadoc.string(),F_DATADOC - FIRST_FIELD);
add(datacons.string(),F_DATACONS - FIRST_FIELD);
add(line.codclifor() ? line.codclifor() : forn, F_FORNITORE - FIRST_FIELD);
add(codart, F_ARTICOLO - FIRST_FIELD);
for (int l = livelli_giacenza().last_level(); l >= 1; l--)
add(line.livgiac(l), F_LIV1+l-1 - FIRST_FIELD);
add(line.codmag(), F_MAGAZZINO - FIRST_FIELD);
add(line.coddep(),F_DEPOSITO - FIRST_FIELD);
add(line.codimp(),F_CODIMP - FIRST_FIELD);
add(line.codlin(),F_CODLIN - FIRST_FIELD);
real q = line.net_requirement(bucket);
//q -= line.planned_orders(bucket);
const TCodice_um um_nulla;
const TQuantita qta(line.articolo(), um_nulla, q);
if (!q.is_zero()) // cosi' non ci sono inestetici 0.0000 sulla maschera
add(qta.val().string(),F_QUANTITA - FIRST_FIELD);
add(qta.um(),F_UM - FIRST_FIELD);
add(price.string(),F_PREZZO - FIRST_FIELD);
add(line.description(),F_DESCART - FIRST_FIELD);
}
///////////////////////////////////////////////////////////
// TMRP_docref / TMRP_docrefs
///////////////////////////////////////////////////////////
const TRectype& TMRP_docref::get_doc() const
{
TToken_string key;
key.add("D");
key.add(_annodoc);
key.add(_codnum);
key.add(_numdoc);
return cache().get(LF_DOC,key);
}
const TRectype& TMRP_docref::get_rdoc() const
{
TToken_string key;
key.add(_codnum);
key.add(_annodoc);
key.add("D");
key.add(_numdoc);
key.add(_numrig);
return cache().get(LF_RIGHEDOC, key);
}
TDate TMRP_docref::datadoc() const
{
return get_doc().get_date(DOC_DATADOC);
}
TDate TMRP_docref::datacons() const
{
TDate d;
d = get_rdoc().get_date(RDOC_DATACONS);
if (!d.ok())
d=get_doc().get_date(DOC_DATACONS);
return d;
}
const TString & TMRP_docref::tipodoc()
{
static TString4 s;
return s = get_doc().get(DOC_TIPODOC);
}
char TMRP_docref::statodoc()
{
return get_doc().get_char(DOC_STATO);
}
TMRP_docref::TMRP_docref(int anno, const char * codnum,long numdoc,int nriga,
const char *um, const real & qta, const real &prz)
{
_annodoc = anno;
_codnum = codnum;
_numdoc = numdoc;
_numrig = nriga;
_um = um;
_qta = qta;
_prz = prz;
}
TObject* TMRP_docref::dup() const
{
TMRP_docref * o = new TMRP_docref(_annodoc, _codnum, _numdoc, _numrig, _um, _qta, _prz);
return o;
}
TObject* TMRP_internalref::dup() const
{
TMRP_internalref * o = new TMRP_internalref(*this);
return o;
}
TMRP_internalref::TMRP_internalref(TMRP_line *line, int bucket, const real & qta):
_line(line), _qta(qta), _bucket(bucket)
{
_um = cache().get(LF_DIST,line->articolo()).get("UM");
_date = _line->record(bucket).time().date();
}
TMRP_internalref::TMRP_internalref(const TMRP_internalref &r):
_line(r._line), _qta(r._qta) ,_date (r._date), _um(r._um), _bucket(r._bucket)
{ }
TObject* TMRP_docrefs::dup() const
{
TMRP_docrefs * o = new TMRP_docrefs();
*o = *this;
return o;
}
///////////////////////////////////////////////////////////
// TLav_finder Trova la prima lavorazione di un articolo
///////////////////////////////////////////////////////////
class TLav_finder : public TAssoc_array
{
TDecoder _lnp;
bool _keep_imp;
public:
void init(bool ki = TRUE);
const TString& lin2imp(const TString& lin);
TLavorazione& art2lav(const TCodice_articolo& art);
void art2magimpline(const TCodice_articolo& art,
TString& mag, TString& imp,
TString& lin);
TLav_finder();
virtual ~TLav_finder() { }
};
void TLav_finder::init(bool ki)
{
_keep_imp = ki;
TAssoc_array::destroy();
_lnp.destroy();
}
TLavorazione& TLav_finder::art2lav(const TCodice_articolo& art)
{
TLavorazione* lav = (TLavorazione*)objptr(art);
if (lav == NULL)
{
TDistinta_tree tree;
TArray boom;
tree.set_root(art);
tree.explode(boom, FALSE, RAGGR_EXP_UMBASE, 1, "L");
TString80 codlav;
if (boom.items() > 0)
codlav = ((TRiga_esplosione&)boom[0]).articolo();
lav = new TLavorazione(codlav);
add(art, lav);
}
return *lav;
}
void TLav_finder::art2magimpline(const TCodice_articolo& art,
TString& mag, TString& imp,
TString& lin)
{
TLavorazione& lav = art2lav(art);
if (imp.blank() && lin.full())
imp = _lnp.decode(lin);
lin.cut(0);
const int ll = _keep_imp ? lav.linee() : lav.linee_standard();
for (int l = 0; l < ll; l++)
{
const TString& linea = lav.cod_linea(l);
const bool goodimp = imp.empty() || _lnp.decode(linea) == imp;
if (l == 0 || goodimp)
{ lin = linea; lin.trim(); }
if (goodimp)
break;
}
if (lin.full())
{
const TLinea_prod lnp(lin) ;
imp = lnp.codimp();
mag = lnp.codmagdep();
}
else
{
if (!_keep_imp)
imp = mag = "";
}
}
TLav_finder::TLav_finder() : _lnp("LNP", "S6"), _keep_imp(TRUE)
{ }
///////////////////////////////////////////////////////////
// TMatResPlanning
///////////////////////////////////////////////////////////
class TMatResMask : public TCalendar_mask
{
TCondizione_vendita *_condv;
TSelect_color_mask _sel_color;
void clear_sheets();
int num_orders();
void round_field(TMask_field& fld, bool up) const;
virtual bool on_field_event(TOperable_field& o, TField_event e, long jolly);
int find_pos(const TRiga_ordine& r, int& cmp, int level=COMPARE_ALL_CODES) const;
void sort_orders();
bool orders_selected(char type, const char * dacatmer,const char * acatmer);
void select_orders(char type, const char * dacatmer, const char * acatmer);
public:
int round_date(TDate& date, bool up = FALSE) const;
int add_order_line(long forn, const TMRP_line& l, int bucket);
TSelect_color_mask & sel() { return _sel_color; }
TMatResMask();
virtual ~TMatResMask() { }
};
class TMatResPlanning : public TSkeleton_application
{
TMRP_lines _articles;
TLav_finder _artinfo;
TMatResMask* _mask;
private:
bool gross2net_logic(TMRP_line &curr_article, int bucket, bool & sc_used);
bool load_gross_requirements();
bool load_planned_orders();
bool ciclica(TDistinta_tree& distinta);
bool explode_articles();
bool test_codnum(const TCodice_numerazione& num, const TString_array& a) const;
bool test_codnum(const TString & codnum, const TString_array& a) const;
int test_status(const TRectype& doc, const TString_array& a) const;
bool has_confirmed_status(const TRectype& doc, const TToken_string& riga) const;
protected:
bool preprocess_cycle(); // req iniziale dai docs
bool net_requirement_cycle();
bool build_orders();
static void print_except_header(TPrinter& pr);
static void print_orders_header(TPrinter& pr);
static void print_orders_body(TPrinter& pr, TToken_string *sheetrow);
static void set_body_order_line(TPrintrow &row, TToken_string *sheetrow);
TMRP_line* find_risalita_line(TToken_string &row);
const TRectype* irefs2rdoc(const TMRP_internalrefs& iref) const;
bool print_risalita(TToken_string &row, int backlevel, bool dett_ord);
bool print_risalita(const TMRP_line & line, const TDate & d, int backlevel, bool dett_ord);
int print_internal_ref(const TMRP_internalref &iref, int backlevel, bool dett_ord);
int print_gross_ref(const TMRP_line& line, int bucket);
void print_exceptions(TExceptions_array &excepts);
bool print_exceptions(TMask &m);
bool print_planning(TMask &m);
bool ask_save();
void save_orders(TAssoc_array& docs);
long compute_production_time(const TMRP_line& line, const real& qta) const;
const TRectype* trova_da_rdoc(const TMRP_line& line, const TDate& datacon) const;
public:
virtual bool menu(MENU_TAG mt);
virtual void main_loop();
virtual bool firm_change_enabled() const { return FALSE; }
void compute();
bool print_orders();
bool emit_orders();
void risalita(const TMask & m);
int round_date(TDate &d, bool up=FALSE) const {return _mask->round_date(d, up);}
};
TMatResPlanning& app() { return (TMatResPlanning&)main_app(); }
///////////////////////////////////////////////////////////
// TRisalita_mask
///////////////////////////////////////////////////////////
class TRisalita_mask : public TAutomask
{
TMRP_line* _line;
bool add_total_row(int pos, const char * um , const real & lordo, const char * umpadre ,const real & lordopadre) ;
protected:
virtual bool on_field_event(TOperable_field& o, TField_event e, long jolly);
bool add_total_rows();
static int compare_rows(TSheet_field &sf, int r1, int r2);
public:
int add_gross_ref(const TMRP_line& line, int bucket);
int add_internal_ref(const TMRP_internalref & iref);
TRisalita_mask(TMRP_line* line, const TDate & from, const TDate & to, bool is_buck0,int extraleadtime);
virtual ~TRisalita_mask() { }
};
int TMatResMask::round_date(TDate& date, bool up) const
{
// Dimensione del bucket in giorni
const int bucket_size = get_int(F_BUCKET)*get_int(F_DAYXBUCK);
// Riporta la data al primo lunedi prima dell'inizio
TDate inizio = get_date(F_DADATA);
int bucket;
if (bucket_size == 31) // mese solare
{
if (up)
{
date.set_end_month();
int wday = date.wday();
wday = (7-wday) % 7;
//wday -= get_int(F_LASTWRKDAY);
if (wday<0)
date += wday;
}
else
date.set_day(1);
bucket = (date.year()-inizio.year())*12 + date.month() - inizio.month();
if (bucket<0) bucket = -1;
}
else
{
if (bucket_size>1) // non vado a giorni
{
const int wday = inizio.wday();
if (wday > 1) inizio -= wday-1;
}
// Calcola il bucket di appartenenza
const int days = int(date - inizio);
if (days<0)
bucket = 0;
else
bucket = days / bucket_size;
if (up) // Arrotonda alla fine del bucket
date = inizio + long((bucket+1 )* bucket_size - 1 /*- get_int(F_LASTWRKDAY)*/);
else // Arrotonda all'inizio del bucket
date = inizio + long(bucket * bucket_size);
}
return bucket;
}
void TMatResMask::round_field(TMask_field& fld, bool up) const
{
TDate date = fld.get();
if (date.ok())
{
round_date(date, up);
fld.set(date);
}
}
int TMatResMask::num_orders()
{
int n = 0;
TSheet_field& s = sfield(F_ORDINI);
FOR_EACH_SHEET_ROW_BACK(s, r, row)
if (!real(row->get(F_QUANTITA-FIRST_FIELD)).is_zero())
n++;
return n;
}
bool TMatResMask::on_field_event(TOperable_field& o, TField_event e, long jolly)
{
const char * confirm_msg=FR("Le attuali %d righe di ordine verranno perse. Confermare?");
switch (o.dlg())
{
case F_DADATA:
if (e == fe_modify)
round_field(o, FALSE);
break;
case F_ADATA:
if (e == fe_modify)
round_field(o, TRUE);
break;
case F_BUCKET:
case F_DAYXBUCK:
if (e == fe_modify)
{
round_field(field(F_DADATA), FALSE);
round_field(field(F_ADATA), TRUE);
}
break;
case F_NUM_ORC:
case F_TIPI_ORC:
case F_NUM_ORF:
case F_TIPI_ORF:
if (e == fe_init)
{
TSheet_field& s = (TSheet_field&)o;
if (s.items() == 0)
{
s.row(0);
s.force_update();
}
}
if (e == fe_close)
{
const TSheet_field& s = (const TSheet_field&)o;
FOR_EACH_SHEET_ROW_BACK(s, r, row)
if (!row->empty_items()) return TRUE;
return error_box(TR("E' necessario inserire almeno una riga"));
}
break;
case F_ORDINI:
{
TSheet_field& s = (TSheet_field&)o;
switch(e)
{
case se_query_add:
return FALSE;
default:
break;
}
}
break;
case F_FORNITORE:
if (jolly == 5) // codice fornitore sullo sheet ordini
{
TSheet_field& so = sfield(F_ORDINI);
TToken_string &row = so.row(so.selected());
switch(e)
{
case fe_modify:
case fe_init:
{
real qta, price;
TString codart;
long codfor;
char tipocf;
row.get(F_FORNITORE - FIRST_FIELD, codfor);
row.get(F_ORD_TYPE - FIRST_FIELD, tipocf);
if (tipocf == 'F')
if (codfor == 0L)
{
}
else
{
row.get(F_QUANTITA - FIRST_FIELD, qta);
row.get(F_ARTICOLO - FIRST_FIELD, codart);
find_price(get(F_TIPOCV),get(F_CODCONDV),get(F_CATVEN_CV),
"F", codfor, codart, qta, price);
row.add(price.string(), F_PREZZO - FIRST_FIELD);
}
}
break;
}
}
break;
case F_YEAR:
case F_IMPIANTO:
case F_LINEA:
if (e == fe_modify || (o.dlg() == F_YEAR && e == fe_init ))
update_calendar(F_CALENDAR, F_YEAR, F_IMPIANTO, F_LINEA);
break;
case DLG_QUIT:
if (e == fe_button && jolly == 0L)
{
const int it=num_orders();
if (it > 0 && !yesno_box(confirm_msg, it))
return FALSE;
}
break;
case DLG_CANCEL:
if (e == fe_button)
if (jolly == 0L)
{
TSheet_field& s = sfield(F_ORDINI);
const int it=s.items();
if (it==0 || yesno_box(confirm_msg, it))
{
enable(-1);
s.destroy();
s.force_update();
} else
return FALSE;
}
break;
case DLG_ELABORA:
if (e == fe_button && check_fields())
{
TSheet_field& s = sfield(F_ORDINI);
const int it=s.items();
if (it==0 || yesno_box(confirm_msg, it))
{
s.destroy();
app().compute();
enable(DLG_SAVEREC, s.items() > 0 && !get_bool(F_DISABLESAVE));
enable(-G_PREPROCESS, s.items() == 0);
sort_orders();
s.set_focus();
// Controlla se e' stato richiesto il salvataggio automatico e se posso salvare
if (app().argc() >= 2 && field(DLG_SAVEREC).active())
{
TString param = app().argv(2);
param.upper();
if (param.find("AUTOR") > 0) // Lancia salvataggio batch
{
app().emit_orders();
stop_run(K_FORCE_CLOSE);
}
}
}
}
break;
case F_RISALITA:
if (e == fe_button)
{
/*TSheet_field & sf= m.sfield(F_ORDINI);
TToken_string & row=sf.row(sf.selected());
TDate datacons(row.get(sf.cid2index(F_DATACONS)));*/
app().risalita(*this);
}
break;
case F_RESORT_ORDINI:
if (e == fe_button)
sort_orders();
break;
case F_SELECT_ORD:
if (e == fe_button)
if (*get(F_SEL_ORD_TYPE)=='F')
select_orders('F', get(F_OF_DAGRMERC), get(F_OF_AGRMERC));
else
select_orders('P', get(F_OP_DAGRMERC), get(F_OP_AGRMERC));
break;
case DLG_SAVEREC:
if (e == fe_button && check_fields())
{
if (!app().emit_orders())
message_box(TR("Nessun ordine generato"));
}
break;
case DLG_PRINT:
if (e == fe_button)
{
app().print_orders();
return FALSE;
}
break;
case DLG_PROFILE:
if (e == fe_modify)
{
clear_sheets();
enable(-1);
}
break;
default:
break;
};
return TRUE;
}
void TMatResMask::clear_sheets()
{
TSheet_field &sa=sfield(F_ORDINI);
if (sa.items()>0)
{
sa.destroy();
sa.force_update();
}
}
int TMatResMask::find_pos(const TRiga_ordine& r, int& cmp, int level) const
{
TSheet_field& s = sfield(F_ORDINI);
TString_array& a = s.rows_array();
const bool cmp_orig = get_bool(F_SINGLE_DOC);
int i;
cmp = +1; // vacca
for (i = 0; i < a.items(); i++)
{
const TRiga_ordine& riga = (const TRiga_ordine&)a[i];
cmp = r.compare(riga, cmp_orig, level);
if (cmp == 0)
break;
}
return i;
}
// Aggiunge le righe d'ordine allo sheet
int TMatResMask::add_order_line(long forn, const TMRP_line& line, int bucket)
{
const TString& num_forn = get(F_NUM_FORN);
const TString& num_prod = get(F_NUM_PROD);
int pos = -1;
TMRP_time deliv_time = line.time(bucket);
TMRP_time plan_time;
if (get_bool(F_IGN_LDTIME))
plan_time = line.time(bucket);
else
line.lead_time(bucket, plan_time, TRUE);
plan_time.sub_time(get_int(F_XTRA_PLTIME));
TDate datadoc = plan_time.date();
round_date(datadoc);
TDate datacons = deliv_time.date();
round_date(datacons);
TSheet_field& s = sfield(F_ORDINI);
TString_array& a = s.rows_array();
real q = line.net_requirement(bucket); // Fabbisogno netto
TMRP_docrefs * pl_orders=NULL,*sc_orders=NULL;
if (get_bool(F_RESCHEDULING))
sc_orders = line.record(bucket).scheduls_refs();
pl_orders = line.record(bucket).plans_refs();
// le proposte di rescheduling sono da mettere su uno sheet a parte...
int nref = pl_orders != NULL ? pl_orders->items() : 0;
real qtaplan; // Quantit� da pianificare
do
{
TRiga_ordine* r = new TRiga_ordine(datadoc, datacons, forn, line, bucket, ZERO);
// Setta un codice numerazione (provvisorio) in base al tipo di ordine
const char ot = r->get_char(F_ORD_TYPE - FIRST_FIELD);
r->add(ot == 'F' ? num_forn : num_prod, F_DOCCODNUM - FIRST_FIELD);
nref--;
if (nref >= 0)
{
const TMRP_docref& dr = pl_orders->get_ref(nref);
const TString& codnum = dr.codnumdoc();
if (codnum == num_prod || codnum == num_forn)
{
qtaplan = dr.qta_residua();
qtaplan.round(5);
q.round(5);
qtaplan = q - qtaplan; // tengo solo in parte questo ordine ...
r->add(dr.annodoc() , F_DOCANNODOC - FIRST_FIELD);
r->add(dr.codnumdoc() , F_DOCCODNUM - FIRST_FIELD);
r->add(dr.numdoc() , F_DOCNUM - FIRST_FIELD);
r->add(dr.numrig() , F_DOCNRIGA - FIRST_FIELD);
r->add(qtaplan.is_zero() ? " " : qtaplan.string(), F_QUANTITA - FIRST_FIELD);
r->add(dr.datacons().string() , F_DATACONS - FIRST_FIELD);
r->add(dr.datadoc().string(), F_DATADOC - FIRST_FIELD);
q = ZERO;
}
else
r->add(" " , F_QUANTITA - FIRST_FIELD);
}
else
{
r->add(q.is_zero() ? " " : q.string() , F_QUANTITA - FIRST_FIELD);
qtaplan = ZERO;
}
const TString dadockey(line.da_rdoc_key());
r->add(dadockey.mid(4, 4), s.cid2index(F_DAANNO));
r->add(dadockey.left(4), s.cid2index(F_DACODNUM));
r->add(dadockey.mid(9, 7), s.cid2index(F_DANUMDOC));
r->add(dadockey.mid(16), s.cid2index(F_DANRIGA));
if ((nref >= 0 && (!qtaplan.is_zero() || get_bool(F_ALL_ORDERSCHANGES))) || // correggo un vecchio ordine ...
(nref < 0 && !q.is_zero()) || // ... o ne genero uno nuovo
get_bool(F_ALL_MRPLINES)) // ...o voglio tutte le righe
{
int cmp = -1;
if (nref >= 0 && qtaplan < ZERO)
pos = find_pos(*r, cmp, COMPARE_COMPLETE);
else
pos = find_pos(*r, cmp, COMPARE_ALL_CODES);
if (cmp == 0) // RIGA GIA' PRESENTE
{
TRiga_ordine& riga = (TRiga_ordine&)a[pos];
const TString4 codnum = riga.get(F_DOCCODNUM - FIRST_FIELD);
// if (!(codnum != get(F_NUM_PROD) && codnum != get(F_NUM_FORN)))
if (codnum == num_prod || codnum == num_forn) // Guy was here!
riga += *r;
delete r;
const TString& qta2or = riga.get(F_QUANTITA - FIRST_FIELD);
if (qta2or[0]==' ' && !
((nref >= 0 && get_bool(F_ALL_ORDERSCHANGES)) // correzione ..
|| get_bool(F_ALL_MRPLINES))) // ... o voglio tutte le righe
{
// riabilita i campi del doc
s.enable_cell(pos, F_ORD_TYPE - FIRST_FIELD);
s.enable_cell(pos, F_DATADOC - FIRST_FIELD);
s.enable_cell(pos, F_DATACONS - FIRST_FIELD);
s.enable_cell(pos, F_FORNITORE - FIRST_FIELD);
s.enable_cell(pos, F_MAGAZZINO - FIRST_FIELD);
s.enable_cell(pos, F_DEPOSITO - FIRST_FIELD);
s.enable_cell(pos, F_CODIMP - FIRST_FIELD);
s.enable_cell(pos, F_CODLIN - FIRST_FIELD);
a.destroy(pos, nref < 0); // no null rows if not desired
}
}
else
{
// RIGA DA AGGIUNGERE
a.add(r);
pos = a.items()-1;
}
if (nref >= 0)
{
const TMRP_docref& dr = pl_orders->get_ref(nref);
const TString& codnum = dr.codnumdoc();
TRiga_ordine& riga = (TRiga_ordine&)a[pos];
riga.add(codnum, F_DOCCODNUM - FIRST_FIELD);
riga.add(dr.annodoc(), F_DOCANNODOC - FIRST_FIELD);
riga.add(dr.numdoc(), F_DOCNUM - FIRST_FIELD);
riga.add(dr.numrig(), F_DOCNRIGA - FIRST_FIELD);
if (codnum != get(F_NUM_PROD) && codnum != get(F_NUM_FORN))
riga.add(" ", F_QUANTITA - FIRST_FIELD);
// disabilita i campi del doc
s.disable_cell(pos, F_ORD_TYPE - FIRST_FIELD);
s.disable_cell(pos, F_DATADOC - FIRST_FIELD);
s.disable_cell(pos, F_DATACONS - FIRST_FIELD);
s.disable_cell(pos, F_FORNITORE - FIRST_FIELD);
s.disable_cell(pos, F_MAGAZZINO - FIRST_FIELD);
s.disable_cell(pos, F_DEPOSITO - FIRST_FIELD);
s.disable_cell(pos, F_CODIMP - FIRST_FIELD);
s.disable_cell(pos, F_CODLIN - FIRST_FIELD);
}
}
else
delete r;
} while (nref >= 0 /*&& q > ZERO*/);
if (line.final_product())
{
COLOR back;
COLOR fore;
_sel_color.get_color("NODIST", back, fore);
s.set_back_and_fore_color(back, fore, pos);
}
return pos;
}
static int order_compare(TSheet_field& s, int i1, int i2, int sorttype)
{
TMask &m=s.mask();
const bool ascending=!m.get_bool(F_SORT_ORDER);
const bool cmp_orig = m.get_bool(F_SINGLE_DOC);
const TRiga_ordine& r1 = (TRiga_ordine&)s.row(i1);
const TRiga_ordine& r2 = (TRiga_ordine&)s.row(i2);
return r1.compare(r2, cmp_orig, sorttype, ascending);
}
static int order_compareDTFA(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_DTFA);}
static int order_compareDATF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_DATF);}
static int order_compareATFD(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_ATFD);}
static int order_compareADTF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_ADTF);}
static int order_compareTFAD(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TFAD);}
static int order_compareTFDA(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TFDA);}
static int order_compareTDFA(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TDFA);}
static int order_compareTDAF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TDAF);}
static int order_compareTAFD(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TAFD);}
static int order_compareTADF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TADF);}
static int order_compareCTFA(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_CTFA);}
static int order_compareCATF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_CATF);}
static int order_compareATFC(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_ATFC);}
static int order_compareACTF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_ACTF);}
static int order_compareTFAC(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TFAC);}
static int order_compareTFCA(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TFCA);}
static int order_compareTCFA(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TCFA);}
static int order_compareTCAF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TCAF);}
static int order_compareTAFC(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TAFC);}
static int order_compareTACF(TSheet_field &s,int i1,int i2)
{ return order_compare(s,i1,i2,COMPARE_TACF);}
void TMatResMask::sort_orders()
{
TWait_cursor clessidra;
TSheet_field& a = sfield(F_ORDINI);
int choose = -(get_int(F_SORT)+ (get_bool(F_DATE_SORT_ORDER) ? 10 : 1));
switch (choose)
{
case COMPARE_ATFD: a.sort(order_compareATFD); break;
case COMPARE_ADTF: a.sort(order_compareADTF); break;
case COMPARE_DTFA: a.sort(order_compareDTFA); break;
case COMPARE_DATF: a.sort(order_compareDATF); break;
case COMPARE_TFAD: a.sort(order_compareTFAD); break;
case COMPARE_TFDA: a.sort(order_compareTFDA); break;
case COMPARE_TAFD: a.sort(order_compareTAFD); break;
case COMPARE_TADF: a.sort(order_compareTADF); break;
case COMPARE_TDAF: a.sort(order_compareTDAF); break;
case COMPARE_TDFA: a.sort(order_compareTDFA); break;
case COMPARE_ATFC: a.sort(order_compareATFC); break;
case COMPARE_ACTF: a.sort(order_compareACTF); break;
case COMPARE_CTFA: a.sort(order_compareCTFA); break;
case COMPARE_CATF: a.sort(order_compareCATF); break;
case COMPARE_TFAC: a.sort(order_compareTFAC); break;
case COMPARE_TFCA: a.sort(order_compareTFCA); break;
case COMPARE_TAFC: a.sort(order_compareTAFC); break;
case COMPARE_TACF: a.sort(order_compareTACF); break;
case COMPARE_TCAF: a.sort(order_compareTCAF); break;
case COMPARE_TCFA: a.sort(order_compareTCFA); break;
default:
return;
}
a.force_update();
}
bool TMatResMask::orders_selected(char type, const char * dacatmer,const char * acatmer)
{
TSheet_field& s = sfield(F_ORDINI);
const int it=s.items();
for (int r=0; r< it; r++)
{
if ( *s.cell(r, s.cid2index(F_ORD_TYPE))==type
&& *s.cell(r, s.cid2index(F_SELECTED))=='X')
if (*dacatmer <= ' ' ||
cache().get(LF_ANAMAG,s.cell(r, s.cid2index(F_ARTICOLO))).get(ANAMAG_GRMERC).left(3) >= dacatmer)
if (*acatmer <= ' ' ||
cache().get(LF_ANAMAG,s.cell(r, s.cid2index(F_ARTICOLO))).get(ANAMAG_GRMERC).left(3) <= acatmer)
return TRUE;
}
return FALSE;
}
void TMatResMask::select_orders(char type, const char * dacatmer,const char * acatmer)
{
TSheet_field& s = sfield(F_ORDINI);
bool on=!orders_selected(type, dacatmer, acatmer);
const int it=s.items();
for (int r=0; r< it; r++)
{
if ( *s.cell(r, s.cid2index(F_ORD_TYPE))==type )
if (*dacatmer <= ' ' ||
cache().get(LF_ANAMAG,s.cell(r, s.cid2index(F_ARTICOLO))).get(ANAMAG_GRMERC).left(3) >= dacatmer)
if (*acatmer <= ' ' ||
cache().get(LF_ANAMAG,s.cell(r, s.cid2index(F_ARTICOLO))).get(ANAMAG_GRMERC).left(3) <= acatmer)
{
s.row(r).add(on ? "X" : " ", s.cid2index(F_SELECTED));
s.force_update(r);
}
}
TString msg=format(FR("Ordini %s %s"),type=='F' ? TR("fornitore") : TR("di produzione") ,on ? TR("selezionati") :TR("de-selezionati"));
xvtil_statbar_set(msg);
}
static bool handle_interval(TMask_field &fld, KEY k)
{
if (fld.to_check(k, true))
{
TMatResMask & m = ((TMatResMask &)fld.mask());
const TDate & from = m.get_date(F_DADATA);
const TDate & to = m.get_date(F_ADATA);
m.calendar().set_highlight_interval(from, to);
}
return true;
}
TMatResMask::TMatResMask() : TCalendar_mask("mr2100a"), _sel_color("mr2100a")
{
_condv = NULL;
TSheet_field& sf = sfield(F_ORDINI);
livelli_giacenza().set_sheet_columns(sf, F_LIV1);
TConfig ini(CONFIG_DITTA, "mg");
if (!ini.get_bool("GESDEPOSITI", "mg"))
{
sf.delete_column(F_DEPOSITO);
sf.sheet_mask().hide(F_DEPOSITO);
}
if (!ini.get_bool("GESTIMPIANTI", "mr"))
{
sf.delete_column(F_CODIMP); // Elimina colonna impianto
sf.sheet_mask().hide(F_CODIMP);
sf.sheet_mask().hide(F_DESCIMP);
disable(F_NOIMP); // Forza l'ignoramento degli impianti
set(F_NOIMP, "X");
}
_sel_color.add_color_def("NODIST", TR("Art.pianificati senza distinta"), COLOR_YELLOW, COLOR_BLACK);
set_handler(F_DADATA, handle_interval);
set_handler(F_ADATA, handle_interval);
TCalendar_field & cf = (TCalendar_field &) field(F_CALENDAR);
cf.set_immediate_write();
}
///////////////////////////////////////////////////////////
// TRisalita_mask :
///////////////////////////////////////////////////////////
TRisalita_mask::TRisalita_mask(TMRP_line* line, const TDate& fromdate, const TDate& todate,
bool isbuck0, int extraleadtime)
: TAutomask("mr2100b.msk"), _line (line)
{
TSheet_field& sf = sfield(F_ORDINI);
sf.disable();
livelli_giacenza().set_sheet_columns(sf, F_LIV1);
livelli_giacenza().set_mask_fields(*this, F_LIV1);
TConfig ini(CONFIG_DITTA, "mg");
if (!ini.get_bool("GESDEPOSITI", "mg"))
{
sf.delete_column(F_DEPOSITO);
sf.sheet_mask().hide(F_DEPOSITO);
}
if (!ini.get_bool("GESTIMPIANTI", "mr"))
{
sf.delete_column(F_CODIMP); // Elimina colonna impianto
sf.sheet_mask().hide(F_CODIMP);
sf.sheet_mask().hide(F_DESCIMP);
}
TToken_string cod = line->articolo();
set(F_ARTICOLO,cod);
set(F_DESCART,line->description());
cod.add("1");
set(F_UM,cache().get(LF_UMART,cod).get("UM"));
for (int l = livelli_giacenza().last_level(); l>=1 ; l--)
set(F_LIV1+l-1, line->livgiac(l));
bool has_internal_refs=FALSE;
real lordo,netto,plan,sched;
for (int b = line->last_bucket(); b >= 0 ; b--)
{
// TMRP_time dtime = line->record(b).time();
// if (extraleadtime && line->sons() == 0)
// dtime.sub_time(extraleadtime);
// const TDate &d = dtime.date();
const TDate &d = line->record(b).time().date();
if (isbuck0 || d >= fromdate)
{
set(F_FABB_DADATA, isbuck0 ? "" : fromdate);
set(F_FABB_ADATA, todate);
set(F_FABB_GIAC, line->record(b).on_hand().string());
if (d <= todate)
{
lordo += line->gross_requirement(b);
netto += line->net_requirement(b);
plan += line->planned_orders(b);
sched += line->sched_receipts(b);
TMRP_internalrefs *irefs = line->record(b).internal_refs();
if (irefs)
{
int ir = 0;
while (ir < irefs->items())
{
TMRP_internalref &iref = irefs->get_ref(ir);
add_internal_ref(iref);
ir ++;
}
has_internal_refs = TRUE;
} else {
add_gross_ref(*line,b);
}
}
}
}
if (!has_internal_refs)
for (int c = F_ARTICOLO; c < F_DOCANNODOC; c++)
sf.delete_column(c);
add_total_rows();
set(F_FABB_LORDO,lordo.string());
set(F_FABB_PIAN, plan.string());
set(F_FABB_SCHED, sched.string());
netto -= plan;
set(F_TOPLAN, netto.string());
netto += plan + sched;
set(F_FABB_NETTO,netto.string());
}
bool TRisalita_mask::add_total_rows()
{
TSheet_field& sf = sfield(F_ORDINI);
if (sf.items() == 0)
return FALSE;
sf.sort(compare_rows);
TString codice(get(F_ARTICOLO)), codpadre, um;
const TCodice_um um_nulla;
TQuantita totale(codice, um_nulla, ZERO);
TQuantita parziale(totale), qta, lordopadre;
real val;
int padri(0), riga(0);
TToken_string * row;
TString_array& ra = sf.rows_array();
while (row = (TToken_string *)ra.objptr(riga++))
{
if (codpadre != row->get(sf.cid2index(F_ARTICOLO)))
{
if (!codpadre.blank())
{
add_total_row(riga++, parziale.um(), parziale.val(), lordopadre.um(), lordopadre.val());
parziale.set_val(ZERO);
lordopadre.set_articolo(codpadre, um_nulla);
lordopadre.set_val(ZERO);
padri++;
}
codpadre = row->get(sf.cid2index(F_ARTICOLO));
}
// fabbisogno articolo
row->get(sf.cid2index(F_FABBISOGNO), val);
row->get(sf.cid2index(F_UMFABB), um);
qta.set(codice, um, val);
parziale += qta;
totale += qta;
// qta padre
row->get(sf.cid2index(F_QUANTITA), val);
row->get(sf.cid2index(F_UM), um);
qta.set(codpadre.blank() ? codice : codpadre, um, val);
lordopadre += qta;
}
add_total_row(riga++, parziale.um(), parziale.val(), lordopadre.um(), lordopadre.val());
if (padri > 0)
add_total_row(riga, totale.um(), totale.val(), "", ZERO);
sf.force_update();
return padri != 0;
}
int TRisalita_mask::compare_rows(TSheet_field &sf, int r1, int r2)
{
const TToken_string& s1 = sf.row(r1);
const TToken_string& s2 = sf.row(r2);
TString80 ss1, ss2;
s1.get(sf.cid2index(F_ARTICOLO), ss1);
s2.get(sf.cid2index(F_ARTICOLO), ss2);
int d = ss1.compare(ss2);
if (d == 0)
{
TDate d1, d2;
s1.get(sf.cid2index(F_DATACONS), ss1);
s2.get(sf.cid2index(F_DATACONS), ss2);
d1 = ss1;
d2 = ss2;
d = int (d1 - d2);
if (d == 0)
{
s1.get(sf.cid2index(F_FABBISOGNO), ss1);
s2.get(sf.cid2index(F_FABBISOGNO), ss2);
real r1(ss1),r2(ss2);
r1 -= r2;
d = r1.sign();
}
}
return d;
}
bool TRisalita_mask::add_total_row(int pos, const char* um , const real& lordo, const char* umpadre ,const real& lordopadre)
{
TSheet_field& sf = sfield(F_ORDINI);
sf.insert(--pos);
TToken_string & row = sf.row(pos);
row.add(um, sf.cid2index(F_UMFABB));
row.add(lordo.string(), sf.cid2index(F_FABBISOGNO));
row.add(umpadre, sf.cid2index(F_UM));
row.add(lordopadre.string(), sf.cid2index(F_QUANTITA));
sf.disable_row(pos);
return true;
}
bool TRisalita_mask::on_field_event(TOperable_field& o, TField_event e, long jolly)
{
switch (o.dlg())
{
case F_RISALITA:
if (e == fe_button)
app().risalita(*this);
break;
default:
break;
}
return true;
}
int TRisalita_mask::add_internal_ref(const TMRP_internalref &iref)
{
const TMRP_line& line=*iref.line();
int bucket=iref.bucket();
const TMRP_time &deliv_time = line.time(bucket);
TMRP_time doc_time;
line.lead_time(bucket,doc_time, TRUE);
TSheet_field& s = sfield(F_ORDINI);
TString_array& a = s.rows_array();
TToken_string dockey;
TMRP_docrefs * gr_refs= line.record(bucket).requirements_refs();
int grref = gr_refs ? gr_refs->items() : 0;
TMRP_docrefs * pl_refs= line.record(bucket).plans_refs();
int plref = pl_refs ? pl_refs->items() : 0;
TMRP_docrefs * sr_refs = line.record(bucket).scheduls_refs();
int srref = sr_refs ? sr_refs->items() : 0;
real totreq = line.net_requirement(bucket);
totreq += line.sched_receipts(bucket);
real qtaplan(totreq);
real qtareq(totreq);
do {
TCodice_um um;
TToken_string r;
real q = iref.qta();
TMRP_docref * docref = NULL;
if (grref > 0)
docref = gr_refs->get_ref_ptr(--grref);
else if (srref > 0)
docref = sr_refs->get_ref_ptr(--srref);
else if (plref > 0)
docref = pl_refs->get_ref_ptr(--plref);
if (docref)
{
dockey.add("D",0);
dockey.add(docref->annodoc(),1);
dockey.add(docref->codnumdoc(),2);
dockey.add(docref->numdoc(),3);
//const TString & codnum = docref->codnumdoc();
qtaplan = docref->qta_residua();
qtaplan.round(5);
TQuantita qta(line.articolo(), docref->um(), docref->qta_residua());
qta.convert2umbase();
qtareq = qtareq - qta.val();
qtareq.round(5);
// qtareq = qtareq - qtaplan;
r.add(cache().get(LF_DOC,dockey).get(DOC_DATADOC),F_DATADOC - FIRST_FIELD); // data del documento di rif.
r.add(docref->annodoc() , F_DOCANNODOC - FIRST_FIELD);
r.add(docref->codnumdoc() , F_DOCCODNUM - FIRST_FIELD);
r.add(docref->numdoc() , F_DOCNUM - FIRST_FIELD);
r.add(docref->numrig() , F_DOCNRIGA - FIRST_FIELD);
r.add(qtaplan.string() , F_QUANTITA - FIRST_FIELD);
um = docref->um();
const TRectype& rdoc = docref->get_rdoc();
r.add(rdoc.get(RDOC_DAANNO), F_DAANNO - FIRST_FIELD);
r.add(rdoc.get(RDOC_DACODNUM), F_DACODNUM - FIRST_FIELD);
r.add(rdoc.get(RDOC_DANDOC), F_DANUMDOC - FIRST_FIELD);
}
else
{
qtaplan = qtareq;
r.add(doc_time.date().string(), F_DATADOC - FIRST_FIELD);
}
TQuantita qta(line.articolo(), um, qtaplan);
r.add(get(F_UM), F_UMFABB - FIRST_FIELD);
r.add(deliv_time.date().string(), F_DATACONS - FIRST_FIELD);
r.add(" ",F_FORNITORE - FIRST_FIELD);
r.add(line.articolo(),F_ARTICOLO - FIRST_FIELD);
const TString& liv = line.livgiac();
for (int l = livelli_giacenza().last_level(); l >= 1; l--)
r.add(line.livgiac(l), F_LIV1+l-1 - FIRST_FIELD);
r.add(line.codmag(), F_MAGAZZINO - FIRST_FIELD);
r.add(line.coddep(), F_DEPOSITO - FIRST_FIELD);
r.add(line.codimp(),F_CODIMP - FIRST_FIELD);
r.add(line.codlin(),F_CODLIN - FIRST_FIELD);
r.add("",F_PREZZO - FIRST_FIELD);
r.add(line.description(),F_DESCART - FIRST_FIELD);
r.add(qta.val().string(),F_QUANTITA - FIRST_FIELD);
r.add(qta.um(),F_UM - FIRST_FIELD);
// aggiunge il fabbisogno
qta.convert2umbase();
q = iref.qta() * qta.val() / totreq;
r.add(q.string(), F_FABBISOGNO - FIRST_FIELD);
a.add(r);
} while ((grref > 0 || srref > 0 || plref > 0) && qtareq > ZERO);
return 0;
}
int TRisalita_mask::add_gross_ref(const TMRP_line& line, int bucket)
{
TSheet_field& s = sfield(F_ORDINI);
TString_array& a = s.rows_array();
TToken_string dockey;
real totreq, qtaplan, qtareq;
TMRP_time deliv_time = line.time(bucket);
TMRP_time doc_time;
line.lead_time(bucket,doc_time, TRUE);
TToken_string r;
//const TString & codnum = docref->codnumdoc();
TMRP_docref * docref = NULL;
TMRP_docrefs * gr_refs= line.record(bucket).requirements_refs();
int grref = gr_refs ? gr_refs->items() : 0;
while (grref)
{
docref = gr_refs->get_ref_ptr(--grref);
qtaplan = docref->qta_residua();
qtaplan.round(5);
dockey.add("D",0);
dockey.add(docref->annodoc(),1);
dockey.add(docref->codnumdoc(),2);
dockey.add(docref->numdoc(),3);
r.add(cache().get(LF_DOC,dockey).get(DOC_DATADOC),F_DATADOC - FIRST_FIELD); // data del documento di rif.
r.add(docref->annodoc(), F_DOCANNODOC - FIRST_FIELD);
r.add(docref->codnumdoc(), F_DOCCODNUM - FIRST_FIELD);
r.add(docref->numdoc(), F_DOCNUM - FIRST_FIELD);
r.add(docref->numrig(), F_DOCNRIGA - FIRST_FIELD);
r.add(deliv_time.date().string(), F_DATACONS - FIRST_FIELD);
r.add(" ",F_FORNITORE - FIRST_FIELD);
const TCodice_um um_nulla;
const TQuantita qta(line.articolo(), docref->um(), qtaplan);
r.add(qta.val().string(),F_QUANTITA - FIRST_FIELD);
r.add(qta.um(),F_UM - FIRST_FIELD);
r.add(qtaplan.string(), F_FABBISOGNO - FIRST_FIELD);
r.add(qta.um(),F_UMFABB - FIRST_FIELD);
a.add(r);
}
return 0;
}
///////////////////////////////////////////////////////////
// TMatResPlanning
///////////////////////////////////////////////////////////
bool TMatResPlanning::test_codnum(const TString& codnum, const TString_array& a) const
{
TString4 tmp;
FOR_EACH_ARRAY_ROW(a, i, row)
{
row->get(0, tmp);
if (tmp == codnum)
return true;
}
return false;
}
bool TMatResPlanning::test_codnum(const TCodice_numerazione& num, const TString_array& a) const
{
const TString& codnum = num.codice();
return test_codnum(codnum, a);
}
bool TMatResPlanning::has_confirmed_status(const TRectype& doc, const TToken_string& riga) const
{
char statodoc = doc.get_char(DOC_STATO);
char state_def; riga.get(F_STATODEF - FIRST_FIELD, state_def);
return statodoc >= state_def;
}
int TMatResPlanning::test_status(const TRectype& doc, const TString_array& a) const
{
const TString4 tipodoc = doc.get(DOC_TIPODOC);
const char statodoc = doc.get_char(DOC_STATO);
for (int i = a.items()-1; i >= 0; i--)
{
TToken_string& riga = (TToken_string&)a.row(i);
const char* t = riga.get(0);
if (tipodoc == t)
{
const char state_fr = riga.get_char(F_DASTATO - FIRST_FIELD);
const char state_to = riga.get_char(F_ASTATO - FIRST_FIELD);
if (statodoc >= state_fr && statodoc <= state_to)
return i;
}
}
return -1;
}
/////////// finished: 100%
/////////// tested : 100%
bool TMatResPlanning::load_gross_requirements()
{
const TMatResMask& m = *_mask;
TDate date_fr = m.get(F_DADATA);
const int bucket_fr = m.round_date(date_fr, FALSE);
TDate date_to = m.get(F_ADATA);
const int bucket_to = m.round_date(date_to, TRUE);
const int year_fr = date_fr.year() - (m.get_bool(F_DOC_YEAR_PREC) ? 1 : 0);
const int year_to = date_to.year();
const bool master = m.get(F_ORC_MASTER)[0] == 'M'; // Master Plan o Ordine Cliente
// azzera l'array _requirements
const bool nomag = m.get_bool(F_NOMAG);
const bool nodep = m.get_bool(F_NODEP);
const bool noimp = m.get_bool(F_NOIMP);
const bool nolin = m.get_bool(F_NOLIN);
const bool nokey = !m.get_bool(F_SINGLE_DOC);
_articles.ignore(nomag, nodep, noimp, nolin, nokey);
_articles.destroy();
TTable num("%NUM");
TCodice_numerazione cod;
TRelation rel(LF_DOC);
TCursor cur(&rel);
const TRectype& curr_doc = cur.curr();
TRectype filter_fr(curr_doc), filter_to(curr_doc);
TString_array& n = m.sfield(F_NUM_ORC).rows_array();
TString_array& a = m.sfield(F_TIPI_ORC).rows_array();
// Scandisce tutte le numerazioni considerando solo quelle
// contenenti i tipi documento specificati nella maschera
// Inizializza la cache delle lavorazioni
_artinfo.init(m.get_bool(F_KEEP_IMP));
for (int err = cod.first(num); err == NOERR; err = cod.next(num)) if (test_codnum(cod, n))
{
// Filtra il cursore in modo da limitarlo alla numerazione
// corrente ed agli anni specificati dalle due date limite
cur.freeze(false);
filter_fr.put(DOC_PROVV, "D");
filter_fr.put(DOC_ANNO, year_fr);
filter_fr.put(DOC_CODNUM, cod.codice());
filter_to.put(DOC_PROVV, "D");
filter_to.put(DOC_ANNO, year_to);
filter_to.put(DOC_CODNUM, cod.codice());
cur.setregion(filter_fr, filter_to);
TString16 cfilter;
cfilter << DOC_CODNUM << "==\"" << cod.codice() << '"';
cur.setfilter(cfilter);
const long items = cur.items();
cur.freeze(true);
// Scandisce i documenti inevasi e considera solo
// quelli con uno stato nel range corretto
TString msg; msg << TR("Caricamento fabbisogni lordi") << "... (" << cod.codice() << ')';
TProgind pi(items, msg, true, true);
for (cur = 0; cur.pos() < items; ++cur)
{
if (!pi.addstatus(1))
break;
const bool evaso = curr_doc.get_bool(DOC_DOCEVASO);
if (evaso)
continue;
TDate doc_cons = curr_doc.get(DOC_DATACONS);
if (!doc_cons.ok())
doc_cons = curr_doc.get(DOC_DATADOC);
if (test_status(curr_doc, a)>=0)
{
// Scandisce le righe articolo e memorizza le quantita' richieste
const TDocumento doc(curr_doc);
for (int r = doc.physical_rows(); r > 0; r--)
{
// Seleziona le righe articolo non ancora evase
const TRiga_documento& riga = doc[r];
if (!riga.is_articolo())
continue;
TDate datacons = riga.get(RDOC_DATACONS);
if (!datacons.ok()) datacons = doc_cons;
// Data consegna troppo avanti
if (datacons > date_to)
continue;
const real qta = riga.qtaresidua();
if (qta > ZERO)
{
const TCodice_articolo art = riga.get(RDOC_CODARTMAG);
const TString16 liv = riga.get(RDOC_LIVELLO);
TString8 mag = nomag ? EMPTY_STRING : riga.get(RDOC_CODMAG).left(nodep ? 3 : 5);
TString8 imp = noimp ? EMPTY_STRING : riga.get(RDOC_IMPIANTO);
TString8 lin = nolin ? EMPTY_STRING : riga.get(RDOC_LINEA);
const TCodice_um um = riga.get(RDOC_UMQTA);
// GUY was Here, but it's Koki fault!
const long codcli = is_production_article(art) ? doc.get_long(DOC_CODCF) : 0;
TString80 rdoc_key = riga.build_key();
rdoc_key.format("%-4s%4dD%7ld%4d",
(const char *) riga.get(RDOC_CODNUM), riga.get_int(RDOC_ANNO),
riga.get_long(RDOC_NDOC), riga.get_int(RDOC_IDRIGA));
TPrice prz(riga.prezzo(TRUE,TRUE));
TQuantita q(art, um, qta);
q.convert2umbase();
q.currency2umbase(prz);
if (lin.empty())
_artinfo.art2magimpline(art, mag, imp, lin);
TMRP_line* line = _articles.find(art, liv, mag, EMPTY_STRING, imp, lin, codcli, rdoc_key);
if (line == NULL)
{
// nuova linea
line = _articles.find(art, liv, mag, EMPTY_STRING, imp, lin, codcli, rdoc_key, true);
line->set_description(riga.get(RDOC_DESCR));
line->set_final_product();
}
const int anno = doc.get_int(DOC_ANNO);
const TString4 codnum = doc.get(DOC_CODNUM);
const long ndoc = doc.get_long(DOC_NDOC);
const int numriga = riga.get_int(RDOC_NRIGA);
TMRP_docref* docref = new TMRP_docref(anno, codnum, ndoc,
numriga, um, qta, prz.get_num());
TMRP_time t(datacons, 0, imp, lin);
if (m.get_int(F_LDTIME_MODE) != 0)
{
t.add_time(0, -1); // Toglie un'ora: sposta datacons a fine turno
t.add_time(0, +1); // Riaggiunge un'ora nel giorno stesso
}
line->add_gross_req(t, q.val(), docref);
if (master)
line->add_net_req(t, q.val());
}
}
}
}
}
return _articles.items() > 0L;
}
/////////// finished: 100%
/////////// tested : 100%
static bool cyclic(TTree& tree, void* jolly, word flags)
{
TDistinta_tree & distinta = (TDistinta_tree &) tree;
return distinta.is_cyclic();
}
bool TMatResPlanning::explode_articles()
{
const TMatResMask& m = *_mask;
TDistinta_tree distinta; // albero distinta
TArray boom; // array per i figli
int level = 0;
int maxlevel = m.get_int(F_MAXLEVEL);
bool finiti = TRUE;
TProgind* pi = NULL;
// Inizializza la cache delle lavorazioni
// _artinfo.init(m.get_bool(F_KEEP_IMP)); ??
// Scandisce gli articoli inseriti dal gross requirements ed
// accoda tutti gli articoli risultanti dalla loro esplosione
for (long a = 0; a < _articles.items(); a++)
{
if (pi && pi->isfinished())
{
delete pi; pi = NULL;
finiti = FALSE;
}
if (pi == NULL)
{
if (maxlevel > 0 && level >= maxlevel)
return _articles.items() > 0;
TString80 msg;
msg.format(FR("Esplosione articoli (livello %d)"), ++level);
pi = new TProgind(_articles.items()-a, msg, TRUE, TRUE);
}
if (!pi->addstatus(1))
{
delete pi; pi = NULL;
return FALSE;
}
TMRP_line& line = _articles[a];
// Se la linea dell'articolo principale e' vuota (non c'era sull'ordine) me la invento.
if (line.codlin().empty())
{
TString8 mag = line.codmagdep(), imp = line.codimp(), lin = line.codlin();
_artinfo.art2magimpline(line.articolo(), mag, imp, lin);
if (lin.full())
line.set_imp_lin(imp, lin);
}
distinta.set_global("_DISTINTA", line.articolo());
distinta.set_global("_MAGDEP" , line.codmagdep());
distinta.set_global("_IMPIANTO", line.codimp());
distinta.set_global("_LINEA" , line.codlin());
if (distinta.set_root(line.articolo(), "", 1.0 , line.livgiac()))
{
line.set_final_product(FALSE);
distinta.goto_root();
if (distinta.scan_depth_first(cyclic, NULL))
{
TToken_string & rdoc = (TToken_string &)line.da_rdoc_key();
error_box ("Ordine %s %d/%ld riga n. %d - Distinta %s ciclica", (const char *) rdoc.left(4), atoi(rdoc.mid(4, 4)), atoi(rdoc.mid(9, 7)), atoi(rdoc.mid(16)), (const char *) line.articolo());
continue;
}
distinta.explode(boom, FALSE, RAGGR_EXP_UMBASE, 1, "AV");
for (int i = 0; i < boom.items(); i++)
{
const TRiga_esplosione& riga = (const TRiga_esplosione&)boom[i];
const TCodice_articolo& art = riga.articolo();
const TRectype& articolo=cache().get(LF_ANAMAG,art);
bool add=true;
if (articolo.get(ANAMAG_CODART).full())
{
const char reorder_type=articolo.get_char(ANAMAG_RIORDINO);
if (reorder_type!='F' && reorder_type!=' ' && reorder_type!='\0') // e' a riordino
add=false;
}
if (add)
{
// articolo gestito dall'MRP
TString8 mag = line.codmagdep();
TString8 imp = line.codimp();
TString8 lin = line.codlin();
_artinfo.art2magimpline(art, mag, imp, lin);
// GUY was here with Koki
const long codcli = is_production_article(art) ? line.codclifor() : 0L;
const TString& rdoc_key = line.da_rdoc_key();
TMRP_line* son = _articles.find(art, riga.giacenza(), mag, EMPTY_STRING, imp, lin, codcli, rdoc_key);
if (son == NULL)
{
son = _articles.find(art, riga.giacenza(), mag, EMPTY_STRING, imp, lin, codcli, rdoc_key, true);
son->set_description(distinta.describe(art));
}
const int son_depth = line.explosion_depth()+1;
if (son_depth > son->explosion_depth())
son->set_explosion_depth(son_depth);
line.add_son(riga.val(), son);
distinta.describe(art);
}
}
}
}
if (pi != NULL) delete pi;
return _articles.items() > 0;
}
/////////// finished: 100%
/////////// tested:
bool TMatResPlanning::load_planned_orders()
{
const TMatResMask& m = *_mask;
TDate date_fr = m.get(F_DADATA);
const int bucket_fr = m.round_date(date_fr, FALSE);
TDate date_to = m.get(F_ADATA);
const int bucket_to = m.round_date(date_to, TRUE);
const int year_fr = date_fr.year() - (m.get_bool(F_DOC_YEAR_PREC) ? 1 : 0);
const int year_to = date_to.year();
const bool load_evasi = m.get_bool(F_LOAD_EVASI);
TTable num("%NUM");
TCodice_numerazione cod;
TRelation rel(LF_DOC);
TCursor cur(&rel);
const TRectype& curr = cur.curr();
TRectype filter_fr(curr), filter_to(curr);
const TString_array& n = m.sfield(F_NUM_ORF).rows_array();
const TString_array& a = m.sfield(F_TIPI_ORF).rows_array();
// Scandisce tutte le numerazioni considerando solo quelle
// contenenti i tipi documento specificati nella maschera
for (int err = cod.first(num); err == NOERR; err = cod.next(num)) if (test_codnum(cod, n))
{
// Filtra il cursore in modo da limitarlo alla numerazione
// corrente ed agli anni specificati dalle due date limite
cur.freeze(false);
filter_fr.put(DOC_PROVV, "D");
filter_fr.put(DOC_CODNUM, cod.codice());
filter_fr.put(DOC_ANNO, year_fr);
filter_to.put(DOC_PROVV, "D");
filter_to.put(DOC_CODNUM, cod.codice());
filter_to.put(DOC_ANNO, year_to);
cur.setregion(filter_fr, filter_to);
TString16 cfilter;
cfilter << DOC_CODNUM << "==" << '"' << cod.codice() << '"' ;
cur.setfilter(cfilter);
const long items = cur.items();
cur.freeze(true);
TString msg; msg << TR("Caricamento arrivi futuri") << "... (" << cod.codice() << ')';
TProgind pj(items, msg, true, true);
// Scandisce i documenti inevasi e considera solo
// quelli con uno stato nel range corretto
for (cur = 0; cur.pos() < items; ++cur)
{
if (!pj.addstatus(1))
break;
const bool doc_evaso = curr.get_bool(DOC_DOCEVASO);
const bool evaso = !load_evasi && doc_evaso;
if (evaso)
continue;
const int sheetrow = test_status(curr, a);
if (sheetrow<0)
continue;
// Data di consegna standard
TDate doc_cons = curr.get(DOC_DATACONS);
if (!doc_cons.ok())
doc_cons = curr.get_date(DOC_DATADOC);
// Scandisce le righe articolo e memorizza le quantita' richieste
const TDocumento doc(cur.curr());
for (int r = doc.physical_rows(); r > 0; r--)
{
// Seleziona le righe articolo non ancora evase
const TRiga_documento& riga = doc[r];
if (!riga.is_articolo())
continue;
TDate consegna = riga.get(RDOC_DATACONS);
if (!consegna.ok())
consegna = doc_cons;
// Data consegna troppo avanti
if (consegna > date_to)
continue;
bool padre_evaso = false;
if (load_evasi)
{
const TRectype* dariga = riga.find_original_rdoc();
if (dariga != NULL && dariga->get_bool(RDOC_RIGAEVASA))
{
const TRectype* dadoc = riga.find_original_doc();
if (dadoc != NULL)
padre_evaso = dadoc->get_bool(DOC_DOCEVASO);
}
}
const real qta = load_evasi && !padre_evaso ? riga.quantita() : riga.qtaresidua();
if (qta > ZERO)
{
const TCodice_articolo art = riga.get(RDOC_CODARTMAG);
const TString16 liv = riga.get(RDOC_LIVELLO);
const TString8 mag = riga.get(RDOC_CODMAG);
const TString8 imp = riga.get(RDOC_IMPIANTO);
const TString8 lin = riga.get(RDOC_LINEA);
// GUY was Here, but it's Koki fault!
const long codcli = is_production_article(art) ? doc.get_long(DOC_CODCF) : 0;
TString80 rdoc_key ;
rdoc_key.format("%-4s%4dD%7ld%4d",
(const char *) riga.get(RDOC_DACODNUM), riga.get_int(RDOC_DAANNO),
riga.get_long(RDOC_DANDOC), riga.get_int(RDOC_DAIDRIGA));
TMRP_line* line = _articles.find(art, liv, mag, EMPTY_STRING, imp, lin, codcli, rdoc_key);
if (line == NULL)
{
line = _articles.find(art, liv, mag, EMPTY_STRING, imp, lin, codcli, rdoc_key, true);
line->set_description(riga.get(RDOC_DESCR));
}
TPrice prz(riga.prezzo(TRUE,TRUE));
const TCodice_um um = riga.get(RDOC_UMQTA);
TQuantita q(art, um, qta);
q.convert2umbase();
q.currency2umbase(prz);
const TString4 codnum = doc.get(DOC_CODNUM);
const long docnum = doc.get_long(DOC_NDOC);
const int numriga = riga.get_int(RDOC_NRIGA);
TMRP_docref* docref = new TMRP_docref(doc.get_int(DOC_ANNO), codnum, docnum,
numriga, um, q.val(), prz.get_num());
const TMRP_time t(consegna, 0, imp, lin);
if (has_confirmed_status(doc, a.row(sheetrow)) ||
(codnum != m.get(F_NUM_PROD) && codnum != m.get(F_NUM_FORN)))
line->add_sched_rec(t, q.val(), docref);
else
line->add_planned_ord(t, q.val(), docref);
}
}
}
}
return _articles.items() > 0L;
}
/////////// finished: 99%
/////////// tested: 99%
bool TMatResPlanning::preprocess_cycle()
{
// costruisce il gross requirement dai DOC di planning
bool ok=load_gross_requirements();
// costruisce gli sched rec degli elementi dai DOCS ordini fornitore emessi
ok |= load_planned_orders();
if (ok)
// esplode l'array mediante la Distinta Base
return explode_articles();
/*
// costruisce il gross requirement dai DOC di planning
if (load_gross_requirements(m))
// esplode l'array mediante la DIBA
if (explode_articles(m))
// costruisce gli sched rec degli elementi dai DOCS ordini fornitore emessi
return load_planned_orders(m);
*/
return false;
}
long TMatResPlanning::compute_production_time(const TMRP_line& line, const real& qta) const
{
real tot;
if (line.codlin().not_empty())
{
TDistinta_tree tree;
tree.set_global("_MAGDEP", line.codmagdep());
tree.set_global("_LINEA", line.codlin());
tree.set_global("_IMPIANTO", line.codimp());
tree.set_root(line.articolo(), "", qta, line.livgiac());
TArray lav_array;
for (TRiga_esplosione* llav = tree.first_labor(lav_array, RAGGR_EXP_UMBASE); llav;
llav = tree.next_labor(lav_array))
{
TLavorazione* lavorazione = tree.find_labor(llav);
const int linea = lavorazione->find_linea(line.codlin());
if (linea >= 0)
{
const real prod_linea = lavorazione->produttiv_linea(linea);
real ore = (llav->val() * lavorazione->um_temporale().converti_in_ore()) / prod_linea;
// if (carico_uomo) ore *= lavorazione->numpers_linea(linea);
tot += ore;
}
}
tot.ceil();
}
return tot.integer();
}
/////////// finished: 99%
/////////// tested:
// implementa la logica che porta dal fabbisogno lordo a quello netto
// per quel bucket e riporta il balance on hand sul bucket successivo
// ipotesi essenziale per il rescheduling: la chiamata della funzione
// deve essere fatta ciclicamente su tutti i bucket di un articolo
// prima di passare ad un altro articolo
bool TMatResPlanning::gross2net_logic(TMRP_line &curr_article, int bucket, bool & sc_used)
{
const TMatResMask& m = *_mask;
const TDate start_date =m.get_date(F_DADATA);
const bool lotsizing_p =m.get_bool(F_LOTSIZING_P);
const bool lotsizing_f =m.get_bool(F_LOTSIZING_F);
const bool use_leadtime =!m.get_bool(F_IGN_LDTIME);
// Verifico se esiste gia' un fabbisogno netto
real sm,tmpreal = -curr_article.net_requirement(bucket);
if (tmpreal >= ZERO) // Devo calcolare il fabbisogno netto
{
tmpreal = curr_article.on_hand(bucket);
tmpreal -= curr_article.gross_requirement(bucket);
if (!sc_used)
{
curr_article.scorta_minima(sm, curr_article.time(bucket).date());
sc_used = true;
tmpreal -= sm;
}
}
// tmpreal += curr_article.planned_orders(bucket); //planned orders are not added here, but in build orders phase
if (!m.get_bool(F_RESCHEDULING))
tmpreal += curr_article.sched_receipts(bucket);//scheduled orders are not added if we reschedule them
// adegua il quantitativo del fabbisogno netto in base al lot-sizing, se il valore risulta negativo
const int n_figli = curr_article.sons();
real net_req;
if ((lotsizing_p && n_figli!=0 )||(lotsizing_f && n_figli==0) )
net_req = curr_article.sizeup_net_requirement(bucket, tmpreal);
else
net_req = curr_article.set_net_req(bucket, -tmpreal);
// calcola la giacenza del bucket successivo
tmpreal += net_req;
if (tmpreal > ZERO)
{
const int nb = curr_article.next_bucket(bucket);
if (nb <= curr_article.last_bucket())
curr_article.set_on_hand(nb, tmpreal);
}
// trasforma i fabbisogni totali nel fabbisogno lordo dei figli
net_req += curr_article.sched_receipts(bucket);
// net_req += curr_article.planned_orders(bucket);//planned orders are not added here, but in build orders phase
if (net_req > ZERO && n_figli > 0)
{
TMRP_time lead_time;
curr_article.lead_time(bucket, lead_time, use_leadtime);
const int ldtime_mode = m.get_int(F_LDTIME_MODE);
if (ldtime_mode == 1 || ldtime_mode == 2)
{
const long xtrahours = compute_production_time(curr_article, net_req);
if (xtrahours > 0)
{
if (ldtime_mode == 1)
lead_time.sub_time(0, xtrahours);
else
{
TMRP_time prod_time = curr_article.time(bucket);
prod_time.sub_time(0, xtrahours);
if (prod_time < lead_time)
lead_time = prod_time;
}
}
}
const int xtradays = m.get_int(F_XTRA_LDTIME);
if (xtradays)
lead_time.sub_time(xtradays);
for (int o = 0; o < n_figli; o++)
{
TMRP_line& article_son = curr_article.son(o);
tmpreal = net_req * curr_article.qta_son(o);
tmpreal.round(5);
if (tmpreal > ZERO)
{
TMRP_internalref * iref = new TMRP_internalref( &curr_article, bucket, tmpreal);
article_son.add_gross_req(lead_time, tmpreal, iref);
}
}
}
return true;
}
/////////// finished: 99%
/////////// tested:
bool TMatResPlanning::net_requirement_cycle()
{
const TMatResMask& m = *_mask;
const bool use_mag = !m.get_bool(F_DONT_USE_MAG);
bool ok = true;
// ordina gli articoli
const long total = _articles.sort();
TProgind pi(total, TR("Calcolo dei fabbisogni netti"), false, true);
// cicla iterativamente sugli elementi di _articles
for (long a = 0; a < total; a++)
{
pi.addstatus(1);
TMRP_line& curr_article = _articles[a];
const int last = curr_article.last_bucket();
if (last >= 0)
{
real curgiac;
if (use_mag)
curr_article.giacenza_attuale(curgiac, m.get_date(F_DADATA));
curr_article.set_on_hand(0, curgiac);
bool sc_used = false;
for (int bucket = 0; ok && bucket <= last; bucket = curr_article.next_bucket(bucket))
{
// !?!?! la logica gross2net dovrebbe funzionare in termini di intervalli di date
// (bucket-utente) piuttosto che di bucket di MRPline (che possono essere pi� di uno
// in un intervallo, altrimenti i ragionamenti di scorte minime e lotti
// funzionano in modo sbagliato, perch� approssimano pi� volte
ok = gross2net_logic(curr_article, bucket, sc_used);
if (!ok)
break;
}
}
}
return ok;
}
/////////// finished: 100%
/////////// tested : 100%
// genera le righe degli ordini di produzione o a fornitore
bool TMatResPlanning::build_orders()
{
TMatResMask& m = *_mask;
TSheet_field& sf = m.sfield(F_ORDINI);
sf.destroy();
const long tot = _articles.items();
if (tot > 0L)
{
TProgind pi(tot, TR("Generazione righe ordini..."), false, true);
for (long a = 0; a < tot; a++)
{
pi.addstatus(1);
const TMRP_line& line = _articles[a];
const bool prod = is_production_article(line.articolo());
long forn = 0;
if (!prod) // Se l'articolo NON e' di produzione ...
{
TString80 key = line.codimp();
key.rpad(5);
key << line.articolo();
// Cerco il fornitore specifico per l'impianto
forn = atol(cache().get("FIA", key, "I0"));
if (forn == 0L) // Cerco il fornitore di default in anagrafica
{
const TRectype& anarec = cache().get(LF_ANAMAG,line.articolo());
forn = anarec.get_long("CODFORN");
}
}
else
forn = line.codclifor(); // Prendo il codice "eventualmente" proveniente dall'ordine
for (int b = line.last_bucket(); b >= 0; b--)
{
/*
const TMRP_record & rrr = line.record(b);
const real r0 = line.gross_requirement(b);
const real r1 = line.planned_orders(b);
const real r2 = line.sched_receipts(b);
real qta = line.net_requirement(b);
qta -= line.planned_orders(b);
qta.round(5);
if (!qta.is_zero() ||
line.planned_orders(b)>0 ||
line.sched_receipts(b)>line.gross_requirement(b))
m.add_order_line(forn, line, b);
else
*/
m.add_order_line(forn, line, b);
}
}
}
const int orders=sf.items();
if (orders==0)
message_box(TR("Nessun ordine da emettere"));
real price, qta;
TCodice_articolo codart;
FOR_EACH_SHEET_ROW(sf,n,row)
{
row->get(F_QUANTITA - FIRST_FIELD,qta);
row->get(F_ARTICOLO - FIRST_FIELD,codart);
const long codcli=row->get_long(F_FORNITORE - FIRST_FIELD);
const TRectype& rec=cache().get(LF_DIST, codart);
bool art_prod, art_acq;
if (rec.empty())
{
art_acq=TRUE;
art_prod = is_production_article(codart);
}
else
{
art_prod = rec.get_bool("ARTPROD");
art_acq = rec.get_bool("ARTACQ") || codcli!=0L;
}
TString4 tipoord = art_prod ? "P" : "F" ;
row->add(tipoord, F_ORD_TYPE - FIRST_FIELD);
sf.check_row(n);
if (tipoord=="P")
tipoord=" ";
else
tipoord=m.get(F_TIPOCF_CONDV);
find_price(m.get(F_TIPOCV),m.get(F_CODCONDV),m.get(F_CATVEN_CV),
tipoord, codcli, codart, qta, price);
row->add(price.string(), F_PREZZO - FIRST_FIELD);
if (!art_prod || !art_acq)
sf.disable_cell(n,F_ORD_TYPE - FIRST_FIELD);
}
sf.enable(!m.get_bool(F_DISABLESAVE));
return TRUE;
}
/////////// finished: 0%
void TMatResPlanning::print_orders_header(TPrinter& pr)
{
TPrintrow row;
print_header(pr);
row.put(FR("@48G@BSTAMPA PROPOSTE D'ORDINE DA M.R.P."));
pr.setheaderline(1,row);
row.reset();
set_body_order_line(row, NULL);
pr.setheaderline(3,row);
row.reset();
row.put((const char *)TString(131,'-'));
pr.setheaderline(4,row);
}
void TMatResPlanning::print_orders_body(TPrinter& pr, TToken_string *sheetrow)
{
TPrintrow row;
// riga 1
set_body_order_line(row, sheetrow);
// riga 2
pr.print(row);
row.reset();
int pos = 31;
row.put(format("@%dG%s", pos, (const char *)sheetrow->get(F_DESCART-FIRST_FIELD)));
if (*sheetrow->get(F_DOCCODNUM-FIRST_FIELD) > ' ')
{
row.put(format(FR("@%dGDocumento %s"), pos+= 54+1, (const char *)sheetrow->get(F_DOCCODNUM-FIRST_FIELD)));
row.put(format("@%dG%d", pos+= 4+10+1, sheetrow->get_int(F_DOCANNODOC-FIRST_FIELD)));
row.put(format("@%dGn.%6ld", pos+= 4+1, sheetrow->get_long(F_DOCNUM-FIRST_FIELD)));
row.put(format(FR("@%dGriga %3d"), pos+= 2+6+1, sheetrow->get_int(F_DOCNRIGA-FIRST_FIELD)));
}
pr.print(row);
}
void TMatResPlanning::set_body_order_line(TPrintrow &row, TToken_string *sheetrow)
{
int pos = 0;
row.put(format("@b@%dG%1s", pos, sheetrow ? (const char *)sheetrow->get(F_ORD_TYPE-FIRST_FIELD): ""));
row.put(format("@%dG%6s", pos+= 1+1, sheetrow ? (const char *)sheetrow->get(F_FORNITORE-FIRST_FIELD): "CliFor"));
row.put(format("@%dG%s", pos+= 6+1, sheetrow ? (const char *)sheetrow->get(F_DATADOC-FIRST_FIELD): "Data doc."));
row.put(format("@%dG%s", pos+= 10+1, sheetrow ? (const char *)sheetrow->get(F_DATACONS-FIRST_FIELD): "Consegna"));
row.put(format("@%dG%s", pos+= 10+1, sheetrow ? (const char *)sheetrow->get(F_ARTICOLO-FIRST_FIELD): "Codice articolo"));
pos += 20+1;
for (int l = 1; l <= livelli_giacenza().last_level(); l++)
{
const int len = livelli_giacenza().code_length(l);
if (sheetrow == NULL)
{
if (l == 1)
row.put(format("@%dG%s", pos, "Livello"));
}
else
row.put(format("@%dG%s", pos, (const char *)sheetrow->get(F_LIV1+l-1-FIRST_FIELD)));
pos += len+1;
}
real r;
if (sheetrow)
{
sheetrow->get(F_QUANTITA-FIRST_FIELD, r);
row.put(format("@%dG%18s", pos, (const char *)r.string(18,5)));
} else {
row.put(format(FR("@%dGQuantita'"), pos+8));
}
row.put(format("@%dG%s", pos+= 18+1, sheetrow ? (const char *)sheetrow->get(F_UM-FIRST_FIELD): "UM"));
if (sheetrow)
sheetrow->get(F_PREZZO-FIRST_FIELD, r);
const TPrice c(r);
row.put(format("@%dG%18s", pos+=2+1, sheetrow ? (const char *)c.string(): "Prezzo"));
row.put(format("@%dG%3s", pos+=18+1, sheetrow ? (const char *)sheetrow->get(F_MAGAZZINO-FIRST_FIELD): "Mag."));
row.put(format("@%dG%2s", pos+= 3+1, sheetrow ? (const char *)sheetrow->get(F_DEPOSITO-FIRST_FIELD): ""));
row.put(format("@%dG%5s", pos+= 2+1, sheetrow ? (const char *)sheetrow->get(F_CODIMP-FIRST_FIELD): "Imp."));
row.put(format("@%dG%5s", pos+= 5+1, sheetrow ? (const char *)sheetrow->get(F_CODLIN-FIRST_FIELD): "Linea"));
pos += 5+1;
}
/////////// tested : 0%
// stampa le proposte d'ordine
bool TMatResPlanning::print_orders()
{
TMatResMask& m = *_mask;
TSheet_field& sf = m.sfield(F_ORDINI);
if (sf.items() <= 0)
{
message_box(TR("Nessun ordine da stampare"));
return FALSE;
}
TMask pmask("mr2100c.msk");
pmask.set(S_LIV_RISALITA,1);
while (pmask.run() != K_ESC)
{
if (pmask.get(S_PRINTTYPE)[0] == 'O')
{
print_planning(pmask);
} else {
print_exceptions(pmask);
}
}
return TRUE;
}
bool TMatResPlanning::print_planning(TMask &pmask)
{
TMatResMask& m = *_mask;
TSheet_field& sf = m.sfield(F_ORDINI);
TPrinter& pr = printer();
pr.open();
if (pmask.get_bool(S_RISALITA))
{
TIndwin(60,TR("Ordinamento proposte per articolo/data..."),FALSE);
sf.sort(order_compareADTF);
sf.force_update();
}
pr.setheaderhandler(print_orders_header);
pr.headerlen(6);
pr.setfooterhandler(print_footer);
pr.footerlen(2);
TString last_key;
TString key;
FOR_EACH_SHEET_ROW(sf, r, row)
{
if (!pmask.get_bool(S_SELECTEDONLY) || *row->get(sf.cid2index(F_SELECTED)) == 'X')
{
key = row->get(sf.cid2index(F_ARTICOLO));
key << row->get(sf.cid2index(F_DATACONS));
if (last_key.blank())
last_key = key;
print_orders_body(pr,row);
if (pmask.get_bool(S_RISALITA) /*&& (key != last_key || sf.items() == r)*/)
{
print_risalita(*row, pmask.get_int(S_LIV_RISALITA), pmask.get_bool(S_DETT_ORDINI));
last_key=key;
}
if (pmask.get_bool(S_INTERLINEA))
{
TPrintrow prow;
pr.print(prow);
}
}
}
pr.close();
return true;
}
TMRP_line* TMatResPlanning::find_risalita_line(TToken_string &row)
{
TSheet_field& sf = _mask->sfield(F_ORDINI);
TCodice_articolo art;
row.get(sf.cid2index(F_ARTICOLO), art);
if (art.blank())
return NULL;
TString16 liv;
for (int l= livelli_giacenza().last_level(); l>=1; l--)
livelli_giacenza().pack_grpcode(liv, row.get(sf.cid2index(F_LIV1+l-1)), l);
TString8 mag, magc, imp, lin;
add_magcode(mag, row.get(sf.cid2index(F_MAGAZZINO)));
add_depcode(mag, row.get(sf.cid2index(F_DEPOSITO )));
row.get(sf.cid2index(F_CODIMP), imp);
row.get(sf.cid2index(F_CODLIN), lin);
const long codcf = row.get_long(sf.cid2index(F_FORNITORE));
TString80 rdoc_key;
rdoc_key.format("%-4s%4dD%7ld%4d",
row.get(sf.cid2index(F_DACODNUM)), row.get_int(sf.cid2index(F_DAANNO)),
row.get_long(sf.cid2index(F_DANUMDOC)), row.get_int(sf.cid2index(F_DANRIGA)));
TMRP_line* line = NULL;
if (_mask->get_bool(F_SINGLE_DOC))
line = _articles.find(art, liv, mag, magc, imp, lin, codcf, rdoc_key);
if (line == NULL)
{
line = _articles.find(art, liv, mag, magc, imp, lin, codcf, EMPTY_STRING);
if (line == NULL)
{
line = _articles.find(art, liv, mag, magc, imp, lin, 0L, EMPTY_STRING); // Riprovo senza clifo
if (line == NULL)
{
line = _articles.find(art, liv, mag, magc, imp, EMPTY_STRING, codcf, EMPTY_STRING); // Riprovo senza linea
if (line == NULL)
{
line = _articles.find(art, liv, mag, magc, EMPTY_STRING, lin, codcf, EMPTY_STRING); // Riprovo senza impianto
if (line == NULL)
{
line = _articles.find(art, liv, mag, magc, imp, EMPTY_STRING, 0L, EMPTY_STRING); // Riprovo senza nulla
}
}
}
}
}
return line;
}
bool TMatResPlanning::print_risalita(TToken_string &row, int ris_level, bool dett_ord)
{
TMRP_line* line = find_risalita_line(row);
if (line != NULL)
{
const TSheet_field& sf = _mask->sfield(F_ORDINI);
print_risalita(*line, row.get(sf.cid2index(F_DATACONS)), ris_level, dett_ord);
return true;
}
else
{
TPrintrow prow;
prow.put(format(FR("@32gRisalita: impossibile rintracciare la proposta originale")));
printer().print(prow);
return false;
}
}
bool TMatResPlanning::print_risalita(const TMRP_line & line, const TDate &date, int backlevel, bool dett_ord)
{
TPrinter& pr = printer();
TDate todate(date);
TDate fromdate = todate;
const bool isbuck0 = round_date(fromdate) == 0;
round_date(todate,TRUE);
int rows=0;
//int extraleadtime = _mask->get_int(F_XTRA_LDTIME);
real on_hand, lordo, netto, plan, sched;
for (int b = line.last_bucket(); b >= 0 ; b--)
{
//TMRP_time dtime = line.record(b).time();
//if (extraleadtime && line.sons() == 0)
// dtime.sub_time(extraleadtime);
//const TDate &d = dtime.date();
const TDate &d = line.record(b).time().date();
if ((isbuck0 || d >= fromdate))
{
if (d <= todate)
{
on_hand = line.record(b).on_hand();
lordo += line.gross_requirement(b);
netto += line.net_requirement(b);
plan += line.planned_orders(b);
sched += line.sched_receipts(b);
TMRP_internalrefs *irefs = line.record(b).internal_refs();
if (irefs != NULL)
{
int ir = 0;
while (ir < irefs->items())
{
TMRP_internalref &iref = irefs->get_ref(ir);
rows += print_internal_ref(iref, backlevel, dett_ord);
ir ++;
}
} else {
rows += print_gross_ref(line, b);
}
}
}
}
if (rows==0)
return FALSE;
TPrintrow prow;
int pos = 30;
prow.put(format(FR("@%dg Totale fabbisogno lordo %s"), pos, lordo.string(18,5)));
pr.print(prow);
prow.put(format(FR("@%dg Giacenza iniziale %s"), pos, on_hand.string(18,5)));
pr.print(prow);
if (dett_ord)
{
prow.put(format(FR("@%dg Ordini pianificati %s"), pos, plan.string(18,5)));
pr.print(prow);
prow.put(format(FR("@%dg Ordini confermati %s"), pos, sched.string(18,5)));
pr.print(prow);
}
sched += plan;
prow.put(format(FR("@%dg Totale ordinato %s"), pos, sched.string(18,5)));
pr.print(prow);
netto -= plan;
prow.put(format(FR("@%dg Totale da pianificare %s"), pos, netto.string(18,5)));
pr.print(prow);
if (backlevel>1 || backlevel<0)
{
prow.reset();
pr.print(prow);
}
return TRUE;
}
int TMatResPlanning::print_internal_ref(const TMRP_internalref &iref, int backlevel, bool dett_ord)
{
TPrinter& pr = printer();
int rows=0;
const TMRP_line& line=*iref.line();
int bucket=iref.bucket();
const TMRP_time &deliv_time = line.time(bucket);
{
TMRP_time doc_time;
line.lead_time(bucket,doc_time, TRUE);
TDate docdate = doc_time.date();
TToken_string dockey;
TMRP_docrefs * gr_refs= line.record(bucket).requirements_refs();
int grref = gr_refs ? gr_refs->items() : 0;
TMRP_docrefs * pl_refs= line.record(bucket).plans_refs();
int plref = pl_refs ? pl_refs->items() : 0;
TMRP_docrefs * sr_refs = line.record(bucket).scheduls_refs();
int srref = sr_refs ? sr_refs->items() : 0;
real totreq = line.net_requirement(bucket);
totreq += line.sched_receipts(bucket);
real qtaplan(totreq);
real qtareq(totreq);
do {
TCodice_um um;
TPrintrow r1, r2;
real q = iref.qta();
TMRP_docref * docref = NULL;
if (grref > 0)
docref = gr_refs->get_ref_ptr(--grref);
else if (srref > 0)
docref = sr_refs->get_ref_ptr(--srref);
else if (plref > 0)
docref = pl_refs->get_ref_ptr(--plref);
if (docref)
{
dockey.add("D",0);
dockey.add(docref->annodoc(),1);
dockey.add(docref->codnumdoc(),2);
dockey.add(docref->numdoc(),3);
qtaplan = docref->qta_residua();
qtaplan.round(5);
TQuantita qta(line.articolo(), docref->um(), docref->qta_residua());
qta.convert2umbase();
qtareq = qtareq - qta.val();
qtareq.round(5);
// documento di rif.
docdate = cache().get(LF_DOC,dockey).get(DOC_DATADOC);
r2.put(format(FR("@86gDocumento %s"),(const char *)docref->codnumdoc() ));
r2.put(format("@101g%d",docref->annodoc() ));
r2.put(format("@106gn.%6ld",docref->numdoc()));
r2.put(format(FR("@115griga %3d"),docref->numrig()));
um = docref->um();
}
else
{
qtaplan = qtareq;
}
TQuantita qta(line.articolo(), um, qtaplan);
r1.put(format("@9g%s", (const char *) docdate.string()));
r1.put(format("@20g%s", (const char *)deliv_time.date().string()));
r1.put(format("@31g%s", (const char *)line.articolo()));
int pos= 52;
for (int l = 1; l <= livelli_giacenza().last_level(); l++)
{
r1.put(format("@%dg%s",pos, (const char *)line.livgiac(l)));
pos += livelli_giacenza().code_length(l)+1;
}
// aggiunge il fabbisogno
r1.put(format("@%dg%s", pos+18+1+2+1, (const char *)qta.val().string(15,2)));
r1.put(format("@%dg%s", pos+18+1+2+1+15+1, (const char *)qta.um()));
qta.convert2umbase();
q = iref.qta() / totreq * qta.val();
r1.put(format("@%dg%s", pos, (const char *)q.string(18,5)));
r1.put(format("@%dg%s", pos+=18+1, (const char *)"\"\""));
pos +=2+1+15+1;
r1.put(format("@%dg%s", pos+=2+1, (const char *)line.codmag()));
r1.put(format("@%dg%s", pos+=3+1, (const char *)line.coddep()));
r1.put(format("@%dg%s", pos+=2+1, (const char *)line.codimp()));
r1.put(format("@%dg%s", pos+=5+1, (const char *)line.codlin()));
r2.put(format("@31g%s", (const char *)line.description()));
pr.print(r1);
pr.print(r2);
rows++;
} while ((grref > 0 || srref > 0 || plref > 0) && qtareq > ZERO);
}
if (--backlevel != 0)
print_risalita(line, deliv_time.date(), backlevel, dett_ord);
return rows;
}
int TMatResPlanning::print_gross_ref(const TMRP_line& line, int bucket)
{
return 0;
// Guy: a cosa serve ????????????????????????????????????????????????
TPrinter& pr = printer();
TToken_string dockey;
real totreq, qtaplan, qtareq;
TMRP_time deliv_time = line.time(bucket);
TMRP_time doc_time;
line.lead_time(bucket,doc_time, TRUE);
TPrintrow r;
TMRP_docref * docref = NULL;
TMRP_docrefs * gr_refs= line.record(bucket).requirements_refs();
int grref = gr_refs ? gr_refs->items() : 0;
while (grref)
{
docref = gr_refs->get_ref_ptr(--grref);
qtaplan = docref->qta_residua();
qtaplan.round(5);
dockey.add("D",0);
dockey.add(docref->annodoc(),1);
dockey.add(docref->codnumdoc(),2);
dockey.add(docref->numdoc(),3);
// data del documento di rif.
//r.put(format("", add(cache().get(LF_DOC,dockey).get(DOC_DATADOC)));
r.put(format("@82g%d",docref->annodoc()));
r.put(format("@86g%s",(const char *) docref->codnumdoc()));
r.put(format("@90g%ld", docref->numdoc()));
r.put(format("@100g%riga n.d", docref->numrig()));
//r.put(format("", deliv_time.date().string());
const TCodice_um um_nulla;
const TQuantita qta(line.articolo(), docref->um(), qtaplan);
r.put(format("@10g%s", (const char *)qta.val().string()));
r.put(format("@30g%s", (const char *)qta.um()));
r.put(format("@50g%s", (const char *)qtaplan.string()));
r.put(format("@70g%s", (const char *)qta.um()));
}
return 0;
}
void TMatResPlanning::save_orders(TAssoc_array& docs)
{
TMatResMask& m = *_mask;
FOR_EACH_ASSOC_OBJECT(docs, hash, str, obj)
{
TDocumento& doc = (TDocumento&)*obj;
int err;
if (doc.get_long(DOC_NDOC))
{
// riscrittura; elimina righe con qta zero
// if (!m.get_bool(F_ALL_ORDERSCHANGES))
int nrows = doc.physical_rows();
for (int numriga = nrows; numriga >0 ; numriga--)
{
if (doc[numriga].get_real(RDOC_QTA).is_zero())
doc.destroy_row(numriga, TRUE);
}
nrows = doc.physical_rows();
if (nrows > 0)
err = doc.rewrite();
else
{
TDocumento d;
if (d.read(doc, _isequal, _testandlock) == NOERR)
d.remove();
}
}
else
// generazione
err = doc.write();
if (err != NOERR)
doc.read(); // unlock
}
docs.destroy();
}
bool TMatResPlanning::ask_save()
{
TMatResMask& m = *_mask;
TSheet_field& sf = m.sfield(F_ORDINI);
int tot = 0;
FOR_EACH_SHEET_ROW(sf, r, row)
{
TToken_string& riga = *row;
if (*riga.get(0) == 'X')
tot++;
}
bool yes = TRUE;
if (tot > 0)
yes = yesno_box(FR("Si desidera elaborare %d righe?"), tot);
return yes;
}
const TRectype* TMatResPlanning::irefs2rdoc(const TMRP_internalrefs& irefs) const
{
const TRectype* rdoc = NULL;
for (int i = irefs.items()-1; i >= 0 && rdoc == NULL; i--)
{
const TMRP_internalref& iref = irefs.get_ref(i);
const TMRP_line& line = *iref.line();
const int bucket = iref.bucket();
const TMRP_record& rec = line.record(bucket);
for (int i = 0; i < 3 && rdoc == NULL; i++)
{
TMRP_docrefs* refs = NULL;
switch (i)
{
case 0: refs = rec.requirements_refs(); break;
case 1: refs = rec.plans_refs(); break;
case 2: refs = rec.scheduls_refs(); break;
default: break;
}
if (refs != NULL && refs->items() > 0)
{
for (int j = refs->last(); j >= 0; j--)
{
const TMRP_docref& docref = *refs->get_ref_ptr(j);
if (docref.numrig() > 0)
{
rdoc = &docref.get_rdoc();
break;
}
}
}
}
// Qui comincia la magia, perche' differente dalla risalita standard
if (rdoc == NULL)
{
const TMRP_internalrefs* inter = rec.internal_refs();
if (inter != NULL && inter->items() > 0)
rdoc = irefs2rdoc(*inter);
}
}
return rdoc;
}
const TRectype* TMatResPlanning::trova_da_rdoc(const TMRP_line& line, const TDate& datacon) const
{
const TRectype* dardoc = NULL;
// Cerco la riga di risalita
const int last_bucket = line.last_bucket();
for (int bucket = last_bucket; bucket >= 0; bucket--)
{
const TMRP_record& buck = line.record(bucket);
if (datacon >= buck.time().date())
{
TMRP_internalrefs *irefs = buck.internal_refs();
if (irefs != NULL && irefs->items() > 0)
{
dardoc = irefs2rdoc(*irefs);
}
if (dardoc == NULL)
{
TMRP_docrefs* gr_refs = buck.requirements_refs();
if (gr_refs != NULL && gr_refs->items() > 0) // Esiste almeno una riga di risalita
{
const TMRP_docref& docref = *gr_refs->get_ref_ptr(0);
dardoc = &docref.get_rdoc();
break;
}
}
else
break;
}
}
return dardoc;
}
/////////// finished: 90%
/////////// tested : 10%
// genera gli ordini di produzione o a fornitore
bool TMatResPlanning::emit_orders()
{
TMatResMask& m = *_mask;
TSheet_field& sf = m.sfield(F_ORDINI);
const bool divide_by_date = m.get_bool(F_DIVIDEBYDATE);
const bool divide_by_art = m.get_bool(F_DIVIDEBYART);
TTipo_documento tipo_doc_forn(m.get(F_TIPO_FORN ));
TTipo_documento tipo_doc_prod(m.get(F_TIPO_PROD ));
TDate today(TODAY);
int docf = 0, docp = 0;
TAssoc_array docs;
TToken_string key;
int ignore_docdate_too_soon = 0;
int ignore_duedate_lt_docdate = 0;
if (!ask_save())
return FALSE;
TProgind pi(sf.items(), TR("Generazione ordini"), FALSE, TRUE);
FOR_EACH_SHEET_ROW(sf, r, row)
{
pi.addstatus(1);
TToken_string& riga = *row;
if (riga[0] == 'X')
{
bool ok = true;
const bool newdoc = riga.get_long(F_DOCNUM - FIRST_FIELD) == 0L;
const TDate datadoc = riga.get(sf.cid2index(F_DATADOC));
const TDate datacon = riga.get(sf.cid2index(F_DATACONS));
const char type = riga.get_char(sf.cid2index(F_ORD_TYPE));
const bool prod = type == 'P';
const long forn = riga.get_long(sf.cid2index(F_FORNITORE));
const long numdoc = riga.get_long(sf.cid2index(F_DOCNUM));
real qta(riga.get(sf.cid2index(F_QUANTITA)));
const TString4 realcodnum = riga.get(sf.cid2index(F_DOCCODNUM));
riga.add(" ",sf.cid2index(F_OK));
if (qta.is_zero())
continue;
if (datadoc < today && newdoc)
if (ignore_docdate_too_soon != K_ENTER && ignore_docdate_too_soon != K_ESC)
{
TYesnoallnone_box b(format(FR("Riga %d: data di emissione del documento (%s) inferiore a quella odierna. Confermare?"),r+1,(const char *)datadoc.string()), K_NO);
ignore_docdate_too_soon = b.run();
}
if (ignore_docdate_too_soon == K_NO || ignore_docdate_too_soon == K_ESC)
continue;
if (datacon < datadoc && newdoc)
if (ignore_duedate_lt_docdate != K_ENTER && ignore_duedate_lt_docdate != K_ESC)
{
TYesnoallnone_box b(format(FR("Riga %d: data di consegna (%s) inferiore a quella di emissione del documento (%s). Confermare?"),r+1,(const char *)datacon.string(), (const char *)datadoc.string()), K_NO);
ignore_duedate_lt_docdate = b.run();
}
if (ignore_duedate_lt_docdate == K_NO || ignore_duedate_lt_docdate == K_ESC)
continue;
if (forn == 0L && newdoc)
{
if ((prod && !tipo_doc_prod.clifo_optional()) ||
(!prod && !tipo_doc_forn.clifo_optional()))
{
error_box(FR("Codice fornitore mancante alla riga %d"), r+1);
continue;
}
}
key.cut(0);
if (newdoc)
{
key.add(type);
key.add(forn);
key.add(datadoc.string());
key.add(divide_by_date ? datacon.string() : " ");
key.add(divide_by_art ? riga.get(sf.cid2index(F_ARTICOLO)) : " ");
}
else
{
key.format("%c%ld",prod ? 'P':'F',numdoc);
}
TDocumento* doc = (TDocumento*)docs.objptr(key);
if (doc == NULL)
{
if (docs.items() >= 200)
save_orders(docs);
TString4 codnum = m.get(prod ? F_NUM_PROD : F_NUM_FORN );
const TString& tipdoc = m.get(prod ? F_TIPO_PROD: F_TIPO_FORN );
if (numdoc)
{
if (codnum != realcodnum)
codnum = realcodnum;
}
doc = new TDocumento('D', datadoc.year(), codnum, 0);
doc->set_tipo(tipdoc);
TRectype& testata = doc->head();
if (numdoc)
{
doc->put(DOC_NDOC, numdoc);
ok = doc->read()==NOERR;
}
else
{
testata.put(DOC_DATADOC, datadoc);
testata.put(DOC_DATACONS, divide_by_date ? datacon : datadoc);
}
if (ok)
{
if (prod)
{
testata.put(DOC_TIPOCF, doc->tipo().tipocf()); // Puo' essere C o F
testata.put(DOC_CODCF, forn);
docp++;
}
else
{
testata.put(DOC_TIPOCF, "F");
testata.put(DOC_CODCF, forn);
docf++;
}
testata.put(DOC_CAUSMAG, doc->tipo().caus_mov());
docs.add(key, doc);
}
}
if (ok)
{
const int numriga = riga.get_int(sf.cid2index(F_DOCNRIGA));
TRiga_documento& rdoc = numdoc ? (*doc)[numriga] : doc->new_row(m.get(prod ? F_RIGA_PROD : F_RIGA_FORN));
if (numdoc)
qta += rdoc.get_real(RDOC_QTA);
rdoc.put(RDOC_CODART, riga.get(sf.cid2index(F_ARTICOLO)));
TString80 str;
for (int l= livelli_giacenza().last_level(); l>0; l--)
livelli_giacenza().pack_grpcode(str, riga.get(sf.cid2index(F_LIV1+l-1)), l);
rdoc.put(RDOC_LIVELLO,str);
add_magcode(str,riga.get(sf.cid2index(F_MAGAZZINO)));
add_depcode(str,riga.get(sf.cid2index(F_DEPOSITO)));
rdoc.put(RDOC_CODMAG, str);
rdoc.put(RDOC_IMPIANTO, riga.get(sf.cid2index(F_CODIMP)));
rdoc.put(RDOC_LINEA, riga.get(sf.cid2index(F_CODLIN)));
rdoc.put(RDOC_QTA, qta);
rdoc.put(RDOC_UMQTA, riga.get(sf.cid2index(F_UM)));
rdoc.put(RDOC_PREZZO, riga.get(sf.cid2index(F_PREZZO)));
rdoc.put(RDOC_DESCR, riga.get(sf.cid2index(F_DESCART)));
if (!divide_by_date)
rdoc.put(RDOC_DATACONS,datacon.string());
// Cerca il codice di assoggettamento fiscale sul fornitore
TString16 cod;
if (forn > 0)
{
cod.format("F|%ld", forn);
cod = cache().get(LF_CFVEN, cod, CFV_ASSFIS);
}
// Se non lo trova lo cerca sull'articolo
if (cod.empty())
cod = cache().get(LF_ANAMAG, riga.get(sf.cid2index(F_ARTICOLO)), ANAMAG_CODIVA);
rdoc.put(RDOC_CODIVA, cod);
riga.add("X",sf.cid2index(F_OK));
// Cerca di impostare la riga di provenienza dell'ordine
if (rdoc.get(RDOC_DAPROVV).blank()) // Se e' una riga nuova ...
{
TMRP_line* line = find_risalita_line(riga); // ... cerco la riga di risalita
if (line != NULL)
{
const int depth = line->explosion_depth()+1; // Profondita' esplosione (+1 per non avere zeri)
rdoc.put(RDOC_QTAGG5, depth); // Per ora memorizziamo in QTAGG5, scelto a caso
const TRectype* dardoc = trova_da_rdoc(*line, datacon);
if (dardoc != NULL)
{
int rifdepth = m.get_int(F_RIFERIMENTO_MRP);
if (rifdepth == 0 && dardoc->get(RDOC_DACODNUM).full())
{
// rifdepth = 1;
const TString_array& n = m.sfield(F_NUM_ORC).rows_array();
while (dardoc != NULL)
{
const TString& codnum = dardoc->get(RDOC_CODNUM);
if (test_codnum(codnum, n))
break;
dardoc = ((const TRiga_documento*)dardoc)->find_original_rdoc();
}
}
if (dardoc != NULL)
rdoc.set_original_rdoc_key(*dardoc, rifdepth); // Imposto DAPROVV, DAANNO, DACODNUM, DANDOC, DAIDRIGA
else
{
TString80 msg; msg.format(FR("Riferimento non trovato: riga %d"), r+1);
xvtil_statbar_set(msg);
beep();
}
}
else
{
TString80 msg; msg.format(FR("Riferimento non trovato: riga %d"), r+1);
xvtil_statbar_set(msg);
beep();
}
}
else
{
TString80 msg; msg.format(FR("Linea risalita non trovata: riga %d"), r+1);
xvtil_statbar_set(msg);
beep();
}
}
}
}
}
save_orders(docs);
if (sf.items())
{
FOR_EACH_SHEET_ROW_BACK(sf, r, row)
{
if ((*row->get(sf.cid2index(F_SELECTED)) == 'X' && *row->get(sf.cid2index(F_OK))=='X')
|| real(row->get(sf.cid2index(F_QUANTITA))).is_zero())
{
if (m.get_bool(F_ALL_ORDERSCHANGES))
row->add("", sf.cid2index(F_QUANTITA));
else
sf.destroy(r, FALSE);
}
}
sf.force_update();
}
m.enable(DLG_SAVEREC, sf.items() > 0);
return TRUE;
}
void TMatResPlanning::compute()
{
if (preprocess_cycle()) // req iniziale dai docs
if (net_requirement_cycle())
build_orders();
}
void TMatResPlanning::risalita(const TMask & m)
{
TSheet_field & sf= m.sfield(F_ORDINI);
TToken_string& row=sf.row(sf.selected());
TCodice_articolo art;
row.get(sf.cid2index(F_ARTICOLO), art);
if (art.blank())
return;
TMRP_line* line = find_risalita_line(row);
if (line != NULL)
{
TDate todate(row.get(sf.cid2index(F_DATACONS)));
TDate fromdate = todate;
round_date(fromdate);
round_date(todate,TRUE);
TRisalita_mask *rismask;
rismask = new TRisalita_mask(line, fromdate, todate, fromdate <= _mask->get_date(F_DADATA),_mask->get_int(F_XTRA_LDTIME));
rismask->run();
delete rismask;
}
else
message_box(TR("Impossibile rintracciare la riga d'ordine indicata tra quelle generate in MRP"));
}
bool TMatResPlanning::print_exceptions(TMask &m)
{
TExceptions_array e;
bool anticipi = m.get_bool(S_HURRYUP_EXCEPT);
bool posticipi = m.get_bool(S_DELAY_EXCEPT);
bool extra = m.get_bool(S_EXTRA_EXCEPT);
if (_articles.items()>0)
{
// PER OGNI ARTICOLO ...
const long max_mrp_rows=_articles.items();
TProgind pi=((max_mrp_rows+1) ,TR("Ricerca eccezioni..."), TRUE, TRUE);
for (long mrp_row=0; mrp_row < max_mrp_rows; mrp_row++)
{
pi.addstatus(1);
if (pi.iscancelled())
return FALSE;
TMRP_line &mrpline=_articles[mrp_row];
mrpline.reset_excepts();
mrpline.find_ad_excepts(anticipi, posticipi, e);
if (extra)
mrpline.find_extra_excepts(_mask->get_bool(F_DIVIDEBYART)||_mask->get_bool(F_DIVIDEBYDATE), e);
} // ... for each article
}
if (e.items()<=0)
message_box(TR("Nessuna eccezione rilevata"));
else
print_exceptions(e);
return e.items()>0;
}
void TMatResPlanning::print_except_header(TPrinter& pr)
{
TString format;
TPrintrow row;
print_header(pr);
row.put(FR("@48G@BSTAMPA TABULATO ECCEZIONI DA M.R.P."));
pr.setheaderline(1,row);
row.reset();
row.put((const char *)TString(131,'-'));
pr.setheaderline(4,row);
}
void TMatResPlanning::print_exceptions(TExceptions_array &excepts)
{
if (excepts.items())
{
TPrinter& pr = printer();
pr.open();
pr.setheaderhandler(print_except_header);
pr.headerlen(6);
pr.setfooterhandler(print_footer);
pr.footerlen(2);
TString_array keys;
TToken_string key, lastkey;
TString tmp;
excepts.get_keys(keys);
keys.sort();
int header=0;
for (int k=0; k< keys.items(); k++)
{
key = keys.row(k);
key.get(0,tmp);
if (tmp != lastkey.get(0))
header = 0;
else if (key.get(1,tmp)&& tmp != lastkey.get(1))
header = 0;
else if (key.get(2,tmp) && tmp != lastkey.get(2))
header = 1;
else
header = 2;
const TException & e = (const TException &)excepts[key];
const TMRP_line &line = e.mrpline();
line.print_exception(e.from(), e.to(), e.qta(), header);
lastkey = key;
}
pr.close();
}
}
bool TMatResPlanning::menu(MENU_TAG mt)
{
bool ok = TRUE;
if (mt == MENU_ITEM_ID(1))
_mask->sel().run();
else
ok = TSkeleton_application::menu(mt);
return ok;
}
void TMatResPlanning::main_loop()
{
open_files(LF_TABCOM, LF_TAB, LF_DOC, LF_RIGHEDOC, LF_CLIFO, LF_CFVEN, LF_OCCAS, LF_INDSP,LF_CONDV,
LF_ANAMAG, LF_DIST, LF_RDIST, LF_MAG, LF_STOMAG, LF_DESLIN, LF_CODCORR, 0);
TSheet_field::set_line_number_width(4); // Allarga numeri di riga (default = 3)
_mask = new TMatResMask;
// Graffe necessarie per chiudere TConfig prassid
{
TConfig prassid(CONFIG_DITTA, "ve"); // apre il file di configurazione della ditta corrente
if (prassid.get_bool("GES", NULL, A_LISTINI))
{
_mask->enable(F_CATVEN_CV,prassid.get_bool("GESLISCV"));
}
else
{
_mask->disable(F_TIPOCV);
_mask->disable(F_CATVEN_CV);
}
if (!prassid.get_bool("GES", NULL, A_CONTRATTI) || !prassid.get_bool("GESCONCC"))
_mask->disable(F_TIPOCF_CONDV);
}
if (argc() >= 2)
{
TString param = argv(2);
param.upper();
if (param.find("AUTO") > 0) // Lancia elaborazione batch (AUTOC o AUTOR)
_mask->send_key(K_CTRL+'L', 0); // Preme tasto ricalcola
}
while (_mask->run()!=K_QUIT);
delete _mask;
_mask = NULL;
}
void print_header(TPrinter& pr)
{
TPrintrow row;
const TRectype& firm = cache().get(LF_NDITTE, main_app().get_firm());
TString16 key; key.format("%s|%s", (const char*)firm.get(NDT_TIPOA), (const char*)firm.get(NDT_CODANAGR));
const TString& anag= cache().get(LF_ANAG, key, ANA_RAGSOC);
TString format;
format << "@2g" << anag << "@80g@>@110gPagina @#";
row.put(format);
pr.setheaderline(0,row);
}
void print_footer(TPrinter& pr)
{
TPrintrow row;
pr.setfooterline(1,row);
}
int mr2100(int argc, char* argv[])
{
TMatResPlanning a;
a.run(argc, argv, TR("Material Requirements Planning"));
return 0;
}