kicad/eeschema/build_BOM.cpp

1054 lines
30 KiB
C++

/////////////////////////////////////////////////////////////////////////////
// Name: build_BOM.cpp
// Purpose:
// Author: jean-pierre Charras
// License: GPL license
/////////////////////////////////////////////////////////////////////////////
#include <algorithm> // to use sort vector
#include <vector>
#include "fctsys.h"
#include "common.h"
#include "confirm.h"
#include "kicad_string.h"
#include "gestfich.h"
#include "appl_wxstruct.h"
#include "program.h"
#include "general.h"
#include "class_library.h"
#include "netlist.h"
#include "protos.h"
#include "build_version.h"
#include "dialog_build_BOM.h"
/**
* @bug - Every instance of fprintf() and fputs() in this file fails to check
* the return value for an error.
*/
/**
* Class LABEL_OBJECT
* is used in build BOM to handle the list of labels in schematic
* because in a complex hierarchy, a label is used more than once,
* and had more than one sheet path, so we must create a flat list of labels
*/
class LABEL_OBJECT
{
public:
int m_LabelType;
SCH_ITEM* m_Label;
//have to store it here since the object references will be duplicated.
SCH_SHEET_PATH m_SheetPath; //composed of UIDs
public: LABEL_OBJECT()
{
m_Label = NULL;
m_LabelType = 0;
}
};
static void BuildComponentsListFromSchematic(
std::vector <OBJ_CMP_TO_LIST>& aList );
static void GenListeGLabels( std::vector <LABEL_OBJECT>& aList );
static bool SortComponentsByReference( const OBJ_CMP_TO_LIST& obj1,
const OBJ_CMP_TO_LIST& obj2 );
static bool SortComponentsByValue( const OBJ_CMP_TO_LIST& obj1,
const OBJ_CMP_TO_LIST& obj2 );
static bool SortLabelsByValue( const LABEL_OBJECT& obj1,
const LABEL_OBJECT& obj2 );
static bool SortLabelsBySheet( const LABEL_OBJECT& obj1,
const LABEL_OBJECT& obj2 );
static void DeleteSubCmp( std::vector <OBJ_CMP_TO_LIST>& aList );
static int PrintListeGLabel( FILE* f, std::vector <LABEL_OBJECT>& aList );
// separator used in bom export to spreadsheet
static char s_ExportSeparatorSymbol;
void DIALOG_BUILD_BOM::Create_BOM_Lists( int aTypeFile,
bool aIncludeSubComponents,
char aExportSeparatorSymbol,
bool aRunBrowser )
{
wxString wildcard;
static wxFileName fn;
wxFileName current = g_RootSheet->m_AssociatedScreen->m_FileName;
s_ExportSeparatorSymbol = aExportSeparatorSymbol;
if( !fn.HasName() || fn.GetName()==NAMELESS_PROJECT )
{
fn.SetName( current.GetName() );
}
// else use a previous run's name, because fn was set before and user
// is probably just iteratively refining the BOM.
if( fn.GetPath().IsEmpty() )
{
fn.SetPath( current.GetPath() );
}
// else use a previous run's path, because fn was set before and user
// is probably just iteratively refining the BOM.
wxString bomDesc = _( "Bill of Materials" ); // translate once, use twice.
if( aTypeFile == 0 )
{
fn.SetExt( wxT( "lst" ) );
wildcard = bomDesc + wxT( " (*.lst)|*.lst" );
}
else
{
fn.SetExt( wxT( "csv" ) );
wildcard = bomDesc + wxT( " (*.csv)|*.csv" );
}
wxFileDialog dlg( this, bomDesc, fn.GetPath(),
fn.GetFullName(), wildcard,
wxFD_SAVE | wxFD_OVERWRITE_PROMPT );
if( dlg.ShowModal() == wxID_CANCEL )
return;
fn = dlg.GetPath(); // remember path+filename+ext for subsequent runs.
m_ListFileName = dlg.GetPath();
// Close dialog, then show the list (if so requested)
switch( aTypeFile )
{
case 0: // list
GenereListeOfItems( m_ListFileName, aIncludeSubComponents );
break;
case 1: // speadsheet
CreateExportList( m_ListFileName, aIncludeSubComponents );
break;
case 2: // Single Part per line
CreatePartsList( m_ListFileName, aIncludeSubComponents );
break;
}
EndModal( 1 );
if( aRunBrowser )
{
wxString editorname = wxGetApp().GetEditorName();
wxString filename = m_ListFileName;
AddDelimiterString( filename );
ExecuteFile( this, editorname, filename );
}
}
/** Helper function IsFieldChecked
* return the state of the wxCheckbox corresponding to the
* field aFieldId (FOOTPRINT and FIELD1 to FIELD8
* if the option "All user fields" is checked, return always true
* for fileds ids >= FIELD1
* @param aFieldId = the field id : FOOTPRINT to FIELD8
*/
bool DIALOG_BUILD_BOM::IsFieldChecked(int aFieldId)
{
if( m_AddAllFields->IsChecked() && (aFieldId>= FIELD1) )
return true;
switch ( aFieldId )
{
case FIELD1:
return m_AddField1->IsChecked();
case FIELD2:
return m_AddField2->IsChecked();
case FIELD3:
return m_AddField3->IsChecked();
case FIELD4:
return m_AddField4->IsChecked();
case FIELD5:
return m_AddField5->IsChecked();
case FIELD6:
return m_AddField6->IsChecked();
case FIELD7:
return m_AddField7->IsChecked();
case FIELD8:
return m_AddField8->IsChecked();
case FOOTPRINT:
return m_AddFootprintField->IsChecked();
}
return false;
}
void DIALOG_BUILD_BOM::CreatePartsList( const wxString& aFullFileName, bool aIncludeSubComponents )
{
FILE* f;
wxString msg;
if( ( f = wxFopen( aFullFileName, wxT( "wt" ) ) ) == NULL )
{
msg = _( "Failed to open file " );
msg << aFullFileName;
DisplayError( this, msg );
return;
}
std::vector <OBJ_CMP_TO_LIST> cmplist;
BuildComponentsListFromSchematic( cmplist );
// sort component list by ref and remove sub components
if( !aIncludeSubComponents )
{
sort( cmplist.begin(), cmplist.end(), SortComponentsByReference );
DeleteSubCmp( cmplist );
}
// sort component list by value
sort( cmplist.begin(), cmplist.end(), SortComponentsByValue );
PrintComponentsListByPart( f, cmplist,aIncludeSubComponents );
fclose( f );
}
/*
* Print a list of components, in a form which can be imported by a spreadsheet
* form is:
* cmp name; cmp val; fields;
*/
void DIALOG_BUILD_BOM::CreateExportList( const wxString& aFullFileName,
bool aIncludeSubComponents )
{
FILE* f;
wxString msg;
if( ( f = wxFopen( aFullFileName, wxT( "wt" ) ) ) == NULL )
{
msg = _( "Failed to open file " );
msg << aFullFileName;
DisplayError( this, msg );
return;
}
std::vector <OBJ_CMP_TO_LIST> cmplist;
BuildComponentsListFromSchematic( cmplist );
// sort component list
sort( cmplist.begin(), cmplist.end(), SortComponentsByReference );
if( !aIncludeSubComponents )
DeleteSubCmp( cmplist );
// create the file
PrintComponentsListByRef( f, cmplist, TRUE, aIncludeSubComponents );
fclose( f );
}
/** GenereListeOfItems()
* Main function to create the list of components and/or labels
* (global labels and pin sheets" )
*/
void DIALOG_BUILD_BOM::GenereListeOfItems( const wxString& aFullFileName,
bool aIncludeSubComponents )
{
FILE* f;
int itemCount;
char Line[1024];
wxString msg;
if( ( f = wxFopen( aFullFileName, wxT( "wt" ) ) ) == NULL )
{
msg = _( "Failed to open file " );
msg << aFullFileName;
DisplayError( this, msg );
return;
}
std::vector <OBJ_CMP_TO_LIST> cmplist;
BuildComponentsListFromSchematic( cmplist );
itemCount = cmplist.size();
if( itemCount )
{
// creates the list file
DateAndTime( Line );
wxString Title = wxGetApp().GetAppName() + wxT( " " ) +
GetBuildVersion();
fprintf( f, "%s >> Creation date: %s\n", CONV_TO_UTF8( Title ), Line );
// sort component list
sort( cmplist.begin(), cmplist.end(), SortComponentsByReference );
if( !aIncludeSubComponents )
DeleteSubCmp( cmplist );
if( m_ListCmpbyRefItems->GetValue() )
PrintComponentsListByRef( f, cmplist, false, aIncludeSubComponents );
if( m_ListCmpbyValItems->GetValue() )
{
sort( cmplist.begin(), cmplist.end(), SortComponentsByValue );
PrintComponentsListByVal( f, cmplist, aIncludeSubComponents );
}
}
/*************************************************/
/* Create list of global labels and pins sheets */
/*************************************************/
std::vector <LABEL_OBJECT> listOfLabels;
GenListeGLabels( listOfLabels );
if( ( itemCount = listOfLabels.size() ) > 0 )
{
if( m_GenListLabelsbySheet->GetValue() )
{
sort( listOfLabels.begin(), listOfLabels.end(), SortLabelsBySheet );
msg.Printf( _( "\n#Global, Hierarchical Labels and PinSheets \
( order = Sheet Number ) count = %d\n" ),
itemCount );
fprintf( f, "%s", CONV_TO_UTF8( msg ) );
PrintListeGLabel( f, listOfLabels );
}
if( m_GenListLabelsbyVal->GetValue() )
{
sort( listOfLabels.begin(), listOfLabels.end(), SortLabelsByValue );
msg.Printf( _( "\n#Global, Hierarchical Labels and PinSheets ( \
order = Alphab. ) count = %d\n\n" ),
itemCount );
fprintf( f, "%s", CONV_TO_UTF8( msg ) );
PrintListeGLabel( f, listOfLabels );
}
}
msg = _( "\n#End List\n" );
fprintf( f, "%s", CONV_TO_UTF8( msg ) );
fclose( f );
}
/**
* Function BuildComponentsListFromSchematic
* creates the list of components found in the whole schematic.
*
* Goes through the 'sheets', not the screens, so that we account for
* multiple instances of a given screen.
*/
void BuildComponentsListFromSchematic( std::vector <OBJ_CMP_TO_LIST>& aList )
{
// Build the sheet list (which is not screen a screen list)
SCH_SHEET_LIST sheetList; // uses a global
for( SCH_SHEET_PATH* path = sheetList.GetFirst(); path; path = sheetList.GetNext() )
{
for( EDA_BaseStruct* schItem = path->LastDrawList(); schItem; schItem = schItem->Next() )
{
if( schItem->Type() != TYPE_SCH_COMPONENT )
continue;
SCH_COMPONENT* comp = (SCH_COMPONENT*) schItem;
comp->SetParent( path->LastScreen() );
OBJ_CMP_TO_LIST item;
item.m_RootCmp = comp;
item.m_SheetPath = *path;
item.m_Unit = comp->GetUnitSelection( path );
item.SetRef( comp->GetRef( path ) );
// skip pseudo components, which have a reference starting
// with #, mainly power symbols
if( item.GetRefStr()[0] == '#' )
continue;
// Real component found, keep it
aList.push_back( item );
}
}
}
/* Fill aList with Glabel info
*/
static void GenListeGLabels( std::vector <LABEL_OBJECT>& aList )
{
// Build the sheet list
SCH_SHEET_LIST sheetList;
LABEL_OBJECT lable;
for( SCH_SHEET_PATH* path = sheetList.GetFirst(); path; path = sheetList.GetNext() )
{
SCH_ITEM* schItem = (SCH_ITEM*) path->LastDrawList();
while( schItem )
{
switch( schItem->Type() )
{
case TYPE_SCH_HIERLABEL:
case TYPE_SCH_GLOBALLABEL:
lable.m_LabelType = schItem->Type();
lable.m_SheetPath = *path;
lable.m_Label = schItem;
aList.push_back( lable );
break;
case DRAW_SHEET_STRUCT_TYPE:
{
SCH_SHEET* sheet = (SCH_SHEET*) schItem;
BOOST_FOREACH( SCH_SHEET_PIN sheetLabel, sheet->GetSheetPins() )
{
lable.m_LabelType = DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE;
lable.m_SheetPath = *path;
lable.m_Label = &sheetLabel;
aList.push_back( lable );
}
}
break;
default:
break;
}
schItem = schItem->Next();
}
}
}
/* Compare function for sort()
* components are sorted
* by value
* if same value: by reference
* if same reference: by unit number
*/
bool SortComponentsByValue( const OBJ_CMP_TO_LIST& obj1, const OBJ_CMP_TO_LIST& obj2 )
{
int ii;
const wxString* Text1, * Text2;
Text1 = &( obj1.m_RootCmp->GetField( VALUE )->m_Text );
Text2 = &( obj2.m_RootCmp->GetField( VALUE )->m_Text );
ii = Text1->CmpNoCase( *Text2 );
if( ii == 0 )
{
ii = RefDesStringCompare( obj1.GetRef(), obj2.GetRef() );
}
if( ii == 0 )
{
ii = obj1.m_Unit - obj2.m_Unit;
}
return ii < 0;
}
/* compare function for sorting
* components are sorted
* by reference
* if same reference: by value
* if same value: by unit number
*/
bool SortComponentsByReference( const OBJ_CMP_TO_LIST& obj1,
const OBJ_CMP_TO_LIST& obj2 )
{
int ii;
const wxString* Text1, * Text2;
ii = RefDesStringCompare( obj1.GetRef(), obj2.GetRef() );
if( ii == 0 )
{
Text1 = &( obj1.m_RootCmp->GetField( VALUE )->m_Text );
Text2 = &( obj2.m_RootCmp->GetField( VALUE )->m_Text );
ii = Text1->CmpNoCase( *Text2 );
}
if( ii == 0 )
{
ii = obj1.m_Unit - obj2.m_Unit;
}
return ii < 0;
}
/* compare function for sorting labels
* sort by
* value
* if same value: by sheet
*/
bool SortLabelsByValue( const LABEL_OBJECT& obj1, const LABEL_OBJECT& obj2 )
{
int ii;
wxString* Text1, * Text2;
if( obj1.m_LabelType == DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE )
Text1 = &( (SCH_SHEET_PIN*)(obj1.m_Label) )->m_Text;
else
Text1 = &( (SCH_TEXT*)(obj1.m_Label) )->m_Text;
if( obj2.m_LabelType == DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE )
Text2 = &( (SCH_SHEET_PIN*)(obj2.m_Label) )->m_Text;
else
Text2 = &( (SCH_TEXT*)(obj2.m_Label) )->m_Text;
ii = Text1->CmpNoCase( *Text2 );
if( ii == 0 )
{
ii = obj1.m_SheetPath.Cmp( obj2.m_SheetPath );
}
return ii < 0;
}
/* compare function for sorting labels
* by sheet
* in a sheet, by alphabetic order
*/
bool SortLabelsBySheet( const LABEL_OBJECT& obj1, const LABEL_OBJECT& obj2 )
{
int ii;
wxString Text1, Text2;
ii = obj1.m_SheetPath.Cmp( obj2.m_SheetPath );
if( ii == 0 )
{
if( obj1.m_LabelType == DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE )
Text1 = ( (SCH_SHEET_PIN*) obj1.m_Label )->m_Text;
else
Text1 = ( (SCH_TEXT*) obj1.m_Label )->m_Text;
if( obj2.m_LabelType == DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE )
Text2 = ( (SCH_SHEET_PIN*) obj2.m_Label )->m_Text;
else
Text2 = ( (SCH_TEXT*) obj2.m_Label )->m_Text;
ii = Text1.CmpNoCase( Text2 );
}
return ii < 0;
}
/* Remove sub components from the list, when multiples parts per package are
* found in this list
* The component list **MUST** be sorted by reference and by unit number
*/
static void DeleteSubCmp( std::vector <OBJ_CMP_TO_LIST>& aList )
{
SCH_COMPONENT* libItem;
wxString oldName;
wxString currName;
for( unsigned ii = 0; ii < aList.size(); ii++ )
{
libItem = aList[ii].m_RootCmp;
if( libItem == NULL )
continue;
currName = aList[ii].GetRef();
if( !oldName.IsEmpty() )
{
if( oldName == currName ) // currName is a subpart of oldName:
// remove it
{
aList.erase( aList.begin() + ii );
ii--;
}
}
oldName = currName;
}
}
void DIALOG_BUILD_BOM::PrintFieldData( FILE* f, SCH_COMPONENT* DrawLibItem,
bool CompactForm )
{
int ii;
if( IsFieldChecked( FOOTPRINT ) )
{
if( CompactForm )
{
fprintf( f, "%c%s", s_ExportSeparatorSymbol,
CONV_TO_UTF8( DrawLibItem->GetField( FOOTPRINT )->m_Text ) );
}
else
{
fprintf( f, "; %-12s",
CONV_TO_UTF8( DrawLibItem->GetField( FOOTPRINT )->m_Text ) );
}
}
for( ii = FIELD1; ii < DrawLibItem->GetFieldCount(); ii++ )
{
if( ! IsFieldChecked( ii ) )
continue;
if( CompactForm )
fprintf( f, "%c%s", s_ExportSeparatorSymbol,
CONV_TO_UTF8( DrawLibItem->GetField( ii )->m_Text ) );
else
fprintf( f, "; %-12s",
CONV_TO_UTF8( DrawLibItem->GetField( ii )->m_Text ) );
}
}
/* Print the B.O.M sorted by reference
*/
int DIALOG_BUILD_BOM::PrintComponentsListByRef(
FILE* f,
std::vector <OBJ_CMP_TO_LIST>& aList,
bool CompactForm,
bool aIncludeSubComponents )
{
wxString msg;
if( CompactForm )
{
// Print comment line:
#if defined(KICAD_GOST)
fprintf( f, "ref%cvalue%cdatasheet", s_ExportSeparatorSymbol, s_ExportSeparatorSymbol );
#else
fprintf( f, "ref%cvalue", s_ExportSeparatorSymbol );
#endif
if( aIncludeSubComponents )
{
fprintf( f, "%csheet path", s_ExportSeparatorSymbol );
fprintf( f, "%clocation", s_ExportSeparatorSymbol );
}
if( IsFieldChecked( FOOTPRINT ) )
fprintf( f, "%cfootprint", s_ExportSeparatorSymbol );
for( int ii = FIELD1; ii <= FIELD8; ii++ )
{
if( !IsFieldChecked( ii ) )
continue;
msg = _( "Field" );
fprintf( f, "%c%s%d", s_ExportSeparatorSymbol, CONV_TO_UTF8( msg ), ii - FIELD1 + 1 );
}
fprintf( f, "\n" );
}
else
{
msg = _( "\n#Cmp ( order = Reference )" );
if( aIncludeSubComponents )
msg << _( " (with SubCmp)" );
fprintf( f, "%s\n", CONV_TO_UTF8( msg ) );
}
std::string CmpName;
wxString subRef;
// Print list of items
for( unsigned ii = 0; ii < aList.size(); ii++ )
{
EDA_BaseStruct* item = aList[ii].m_RootCmp;
if( item == NULL )
continue;
if( item->Type() != TYPE_SCH_COMPONENT )
continue;
SCH_COMPONENT* comp = (SCH_COMPONENT*) item;
bool isMulti = false;
LIB_COMPONENT* entry = CMP_LIBRARY::FindLibraryComponent( comp->m_ChipName );
if( entry )
isMulti = entry->IsMulti();
if( isMulti && aIncludeSubComponents )
subRef = LIB_COMPONENT::ReturnSubReference( aList[ii].m_Unit );
else
subRef.Empty();
CmpName = aList[ii].GetRefStr();
if( !CompactForm )
CmpName += CONV_TO_UTF8(subRef);
if( CompactForm )
#if defined(KICAD_GOST)
fprintf( f, "%s%c%s%c%s", CmpName.c_str(), s_ExportSeparatorSymbol,
CONV_TO_UTF8( comp->GetField( VALUE )->m_Text ), s_ExportSeparatorSymbol,
CONV_TO_UTF8( comp->GetField( DATASHEET )->m_Text ) );
#else
fprintf( f, "%s%c%s", CmpName.c_str(), s_ExportSeparatorSymbol,
CONV_TO_UTF8( comp->GetField( VALUE )->m_Text ) );
#endif
else
#if defined(KICAD_GOST)
fprintf( f, "| %-10s %-12s %-20s", CmpName.c_str(),
CONV_TO_UTF8( comp->GetField( VALUE )->m_Text ),
CONV_TO_UTF8( comp->GetField( DATASHEET )->m_Text ) );
#else
fprintf( f, "| %-10s %-12s", CmpName.c_str(),
CONV_TO_UTF8( comp->GetField( VALUE )->m_Text ) );
#endif
if( aIncludeSubComponents )
{
msg = aList[ii].m_SheetPath.PathHumanReadable();
if( CompactForm )
{
fprintf( f, "%c%s", s_ExportSeparatorSymbol, CONV_TO_UTF8( msg ) );
msg = m_Parent->GetXYSheetReferences( (BASE_SCREEN*) comp->GetParent(),
comp->m_Pos );
fprintf( f, "%c%s)", s_ExportSeparatorSymbol,
CONV_TO_UTF8( msg ) );
}
else
{
fprintf( f, " (Sheet %s)", CONV_TO_UTF8( msg ) );
msg = m_Parent->GetXYSheetReferences( (BASE_SCREEN*) comp->GetParent(),
comp->m_Pos );
fprintf( f, " (loc %s)", CONV_TO_UTF8( msg ) );
}
}
PrintFieldData( f, comp, CompactForm );
fprintf( f, "\n" );
}
if( !CompactForm )
{
msg = _( "#End Cmp\n" );
fputs( CONV_TO_UTF8( msg ), f );
}
return 0;
}
/* Bom Output format option - single part per line
* a common part being defined as have a common value.
* This is true for most designs but will produce an
* incorrect output if two or more parts with the same
* value have different footprints, tolerances, voltage
* rating, etc. Also usefull if the following fields
* are edited:
* FIELD1 - manufacture
* FIELD2 - manufacture part number
* FIELD3 - distributor part number
*/
int DIALOG_BUILD_BOM::PrintComponentsListByPart(
FILE* f,
std::vector <OBJ_CMP_TO_LIST>& aList,
bool aIncludeSubComponents)
{
int qty = 0;
wxString refName;
wxString fullRefName; // reference + part Id (for multiple parts per package
wxString valName;
#if defined(KICAD_GOST)
wxString footName;
wxString datsName;
#endif
wxString refNames;
wxString lastRef;
wxString unitId;
SCH_COMPONENT* currCmp;
SCH_COMPONENT* nextCmp;
SCH_COMPONENT dummyCmp; // A dummy component, to store fields
for( unsigned ii = 0; ii < aList.size(); ii++ )
{
currCmp = (SCH_COMPONENT*) aList[ii].m_RootCmp;
if( ii < aList.size() -1 )
nextCmp = aList[ii+1].m_RootCmp;
else
nextCmp = NULL;
// Store fields. Store non empty fields only.
for( int jj = FOOTPRINT; jj < currCmp->GetFieldCount(); jj++ )
{
// Ensure fields exists in dummy component
if( dummyCmp.GetFieldCount() <= jj )
dummyCmp.AddField( *currCmp->GetField( jj ) );
// store useful data
if( !currCmp->GetField( jj )->m_Text.IsEmpty() )
dummyCmp.GetField( jj )->m_Text = currCmp->GetField( jj )->m_Text;
}
refName = aList[ii].GetRef();
valName = currCmp->GetField( VALUE )->m_Text;
#if defined(KICAD_GOST)
footName = currCmp->GetField( FOOTPRINT )->m_Text;
datsName = currCmp->GetField( DATASHEET )->m_Text;
#endif
int multi = 0;
if( aIncludeSubComponents )
{
LIB_COMPONENT* entry = CMP_LIBRARY::FindLibraryComponent( currCmp->m_ChipName );
if( entry )
multi = entry->GetPartCount();
if ( multi <= 1 )
multi = 0;
}
if ( multi && aList[ii].m_Unit > 0 )
unitId.Printf( wxT("%c"), 'A' -1 + aList[ii].m_Unit );
else
unitId.Empty();
fullRefName = refName + unitId;
if( refNames.IsEmpty() )
refNames = fullRefName;
else
refNames << wxT( ", " ) << fullRefName;
// In multi parts per package, we have the reference more than once
// but we must count only one package
if( lastRef != refName )
qty++;
lastRef = refName;
// if the next cmoponent has same value the line will be printed after.
#if defined(KICAD_GOST)
if( nextCmp && nextCmp->GetField( VALUE )->m_Text.CmpNoCase( valName ) == 0
&& nextCmp->GetField( FOOTPRINT )->m_Text.CmpNoCase( footName ) == 0
&& nextCmp->GetField( DATASHEET )->m_Text.CmpNoCase( datsName ) == 0 )
#else
if( nextCmp && nextCmp->GetField( VALUE )->m_Text.CmpNoCase( valName ) == 0 )
#endif
continue;
// Print line for the current component value:
fprintf( f, "%15s%c%3d", CONV_TO_UTF8( valName ), s_ExportSeparatorSymbol, qty );
if( IsFieldChecked(FOOTPRINT ) )
fprintf( f, "%c%15s", s_ExportSeparatorSymbol,
#if defined(KICAD_GOST)
CONV_TO_UTF8( footName ) );
#else
CONV_TO_UTF8( currCmp->GetField( FOOTPRINT )->m_Text ) );
#endif
#if defined(KICAD_GOST)
fprintf( f, "%c%20s", s_ExportSeparatorSymbol,
CONV_TO_UTF8( datsName ) );
#endif
// wrap the field in quotes, since it has commas in it.
fprintf( f, "%c\"%s\"", s_ExportSeparatorSymbol,
CONV_TO_UTF8( refNames ) );
// print fields, on demand
int last_nonempty_field_idx = 0;
for( int jj = FOOTPRINT; jj < dummyCmp.GetFieldCount(); jj++ )
if ( !dummyCmp.GetField( jj )->m_Text.IsEmpty() )
last_nonempty_field_idx = jj;
for( int jj = FIELD1; jj <= last_nonempty_field_idx ; jj++ )
{
if ( IsFieldChecked( jj ) )
fprintf( f, "%c%4s", s_ExportSeparatorSymbol,
CONV_TO_UTF8( dummyCmp.GetField( jj )->m_Text ) );
}
fprintf( f, "\n" );
// Clear strings and values, to prepare next component
qty = 0;
refNames.Empty();
for( int jj = FOOTPRINT; jj < dummyCmp.GetFieldCount(); jj++ )
dummyCmp.GetField( jj )->m_Text.Empty();
}
return 0;
}
int DIALOG_BUILD_BOM::PrintComponentsListByVal(
FILE* f,
std::vector <OBJ_CMP_TO_LIST>& aList,
bool aIncludeSubComponents )
{
EDA_BaseStruct* schItem;
SCH_COMPONENT* DrawLibItem;
LIB_COMPONENT* entry;
std::string CmpName;
wxString msg;
msg = _( "\n#Cmp ( order = Value )" );
if( aIncludeSubComponents )
msg << _( " (with SubCmp)" );
msg << wxT( "\n" );
fputs( CONV_TO_UTF8( msg ), f );
for( unsigned ii = 0; ii < aList.size(); ii++ )
{
schItem = aList[ii].m_RootCmp;
if( schItem == NULL )
continue;
if( schItem->Type() != TYPE_SCH_COMPONENT )
continue;
DrawLibItem = (SCH_COMPONENT*) schItem;
bool isMulti = false;
entry = CMP_LIBRARY::FindLibraryComponent( DrawLibItem->m_ChipName );
if( entry )
isMulti = entry->IsMulti();
wxString subRef;
if( isMulti && aIncludeSubComponents )
subRef = LIB_COMPONENT::ReturnSubReference( aList[ii].m_Unit );
else
subRef.Empty();
CmpName = aList[ii].GetRefStr();
CmpName += CONV_TO_UTF8(subRef);
fprintf( f, "| %-12s %-10s",
CONV_TO_UTF8( DrawLibItem->GetField( VALUE )->m_Text ),
CmpName.c_str() );
// print the sheet path
if( aIncludeSubComponents )
{
msg = aList[ii].m_SheetPath.PathHumanReadable();
fprintf( f, " (Sheet %s)", CONV_TO_UTF8( msg ) );
msg = m_Parent->GetXYSheetReferences( (BASE_SCREEN*) DrawLibItem->GetParent(),
DrawLibItem->m_Pos );
fprintf( f, " (loc %s)", CONV_TO_UTF8( msg ) );
}
PrintFieldData( f, DrawLibItem );
fputs( "\n", f );
}
msg = _( "#End Cmp\n" );
fputs( CONV_TO_UTF8( msg ), f );
return 0;
}
static int PrintListeGLabel( FILE* f, std::vector <LABEL_OBJECT>& aList )
{
SCH_LABEL* DrawTextItem;
SCH_SHEET_PIN* DrawSheetLabel;
wxString msg, sheetpath;
wxString labeltype;
for( unsigned ii = 0; ii < aList.size(); ii++ )
{
switch( aList[ii].m_LabelType )
{
case TYPE_SCH_HIERLABEL:
case TYPE_SCH_GLOBALLABEL:
DrawTextItem = (SCH_LABEL*)(aList[ii].m_Label);
if( aList[ii].m_LabelType == TYPE_SCH_HIERLABEL )
labeltype = wxT( "Hierarchical" );
else
labeltype = wxT( "Global " );
sheetpath = aList[ii].m_SheetPath.PathHumanReadable();
msg.Printf( _( "> %-28.28s %s (Sheet %s) pos: %3.3f, %3.3f\n" ),
GetChars( DrawTextItem->m_Text ),
GetChars( labeltype ),
GetChars( sheetpath ),
(float) DrawTextItem->m_Pos.x / 1000,
(float) DrawTextItem->m_Pos.y / 1000 );
fputs( CONV_TO_UTF8( msg ), f );
break;
case DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE:
{
DrawSheetLabel = (SCH_SHEET_PIN*) aList[ii].m_Label;
int jj = DrawSheetLabel->m_Shape;
if( jj < 0 )
jj = NET_TMAX;
if( jj > NET_TMAX )
jj = 4;
wxString labtype = CONV_FROM_UTF8( SheetLabelType[jj] );
msg.Printf( _( "> %-28.28s PinSheet %-7.7s (Sheet %s) pos: %3.3f, %3.3f\n" ),
GetChars( DrawSheetLabel->m_Text ),
GetChars( labtype ),
GetChars( aList[ii].m_SheetPath.PathHumanReadable() ),
(float) DrawSheetLabel->m_Pos.x / 1000,
(float) DrawSheetLabel->m_Pos.y / 1000 );
fputs( CONV_TO_UTF8( msg ), f );
}
break;
default:
break;
}
}
msg = _( "#End labels\n" );
fputs( CONV_TO_UTF8( msg ), f );
return 0;
}