kicad/eeschema/sch_reference_list.h

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 1992-2011 jean-pierre Charras <jean-pierre.charras@gipsa-lab.inpg.fr>
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* Copyright (C) 1992-2011 Wayne Stambaugh <stambaughw@verizon.net>
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* Copyright (C) 1992-2020 KiCad Developers, see authors.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#ifndef _SCH_REFERENCE_LIST_H_
#define _SCH_REFERENCE_LIST_H_
#include <macros.h>
#include <class_libentry.h>
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#include <sch_sheet_path.h>
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#include <sch_component.h>
#include <sch_text.h>
#include <map>
/**
* SCH_REFERENCE
* is used as a helper to define a component's reference designator in a schematic. This
* helper is required in a complex hierarchy because a component can be used more than
* once and its reference depends on the sheet path. This class is used to flatten the
* schematic hierarchy for annotation, net list generation, and bill of material
* generation.
*/
class SCH_REFERENCE
{
/// Component reference prefix, without number (for IC1, this is IC) )
UTF8 m_Ref; // it's private, use the accessors please
SCH_COMPONENT* m_RootCmp; ///< The component associated the reference object.
LIB_PART* m_Entry; ///< The source component from a library.
wxPoint m_CmpPos; ///< The physical position of the component in schematic
///< used to annotate by X or Y position
int m_Unit; ///< The unit number for components with multiple parts
///< per package.
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SCH_SHEET_PATH m_SheetPath; ///< The sheet path for this reference.
bool m_IsNew; ///< True if not yet annotated.
int m_SheetNum; ///< The sheet number for the reference.
KIID m_Uuid; ///< UUID of the component.
EDA_TEXT* m_Value; ///< The component value of the reference. It is the
///< same for all instances.
int m_NumRef; ///< The numeric part of the reference designator.
int m_Flag;
friend class SCH_REFERENCE_LIST;
public:
SCH_REFERENCE() :
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m_SheetPath()
{
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m_RootCmp = NULL;
m_Entry = NULL;
m_Unit = 0;
m_IsNew = false;
m_Value = NULL;
m_NumRef = 0;
m_Flag = 0;
m_SheetNum = 0;
}
SCH_REFERENCE( SCH_COMPONENT* aComponent, LIB_PART* aLibComponent,
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SCH_SHEET_PATH& aSheetPath );
SCH_COMPONENT* GetComp() const { return m_RootCmp; }
LIB_PART* GetLibPart() const { return m_Entry; }
const SCH_SHEET_PATH& GetSheetPath() const { return m_SheetPath; }
SCH_SHEET_PATH& GetSheetPath() { return m_SheetPath; }
int GetUnit() const { return m_Unit; }
void SetUnit( int aUnit ) { m_Unit = aUnit; }
void SetSheetNumber( int aSheetNumber ) { m_SheetNum = aSheetNumber; }
const wxString GetPath() const
{
return m_RootCmp ? m_SheetPath.PathAsString() + m_RootCmp->m_Uuid.AsString() : "";
}
/**
* Function Annotate
* updates the annotation of the component according the the current object state.
*/
void Annotate();
/**
* Function Split
* attempts to split the reference designator into a name (U) and number (1). If the
* last character is '?' or not a digit, the reference is tagged as not annotated.
* For components with multiple parts per package that are not already annotated, set
* m_Unit to a max value (0x7FFFFFFF).
*/
void Split();
/* Some accessors which hide the strategy of how the reference is stored,
thereby making it easy to change that strategy.
*/
void SetRef( const wxString& aReference )
{
m_Ref = aReference;
}
wxString GetRef() const
{
return m_Ref;
}
void SetRefStr( const std::string& aReference )
{
m_Ref = aReference;
}
const char* GetRefStr() const
{
return m_Ref.c_str();
}
///> Return reference name with unit altogether
wxString GetFullRef()
{
if( GetComp()->GetUnitCount() > 1 )
return GetRef() + LIB_PART::SubReference( GetUnit() );
else
return GetRef();
}
wxString GetRefNumber() const
{
wxString ref;
if( m_NumRef < 0 )
return wxT( "?" );
// To avoid a risk of duplicate, for power components
// the ref number is 0nnn instead of nnn.
// Just because sometimes only power components are annotated
if( GetLibPart() && GetLibPart()->IsPower() )
ref = wxT( "0" );
return ref << m_NumRef;
}
int CompareValue( const SCH_REFERENCE& item ) const
{
return m_Value->GetText().Cmp( item.m_Value->GetText() );
}
int CompareRef( const SCH_REFERENCE& item ) const
{
return m_Ref.compare( item.m_Ref );
}
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int CompareLibName( const SCH_REFERENCE& item ) const
{
return m_RootCmp->GetLibId().GetLibItemName().compare(
item.m_RootCmp->GetLibId().GetLibItemName() );
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}
/**
* Function IsSameInstance
* returns whether this reference refers to the same component instance
* (component and sheet) as another.
*/
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bool IsSameInstance( const SCH_REFERENCE& other ) const
{
// JEY TODO: should this be checking unit as well?
return GetComp() == other.GetComp()
&& GetSheetPath().Path() == other.GetSheetPath().Path();
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}
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bool IsUnitsLocked()
{
return m_Entry->UnitsLocked();
}
};
/**
* SCH_REFERENCE_LIST
* is used to create a flattened list of components because in a complex hierarchy, a component
* can be used more than once and its reference designator is dependent on the sheet path for
* the same component. This flattened list is used for netlist generation, BOM generation,
* and schematic annotation.
*/
class SCH_REFERENCE_LIST
{
private:
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std::vector <SCH_REFERENCE> flatList;
public:
/** Constructor
*/
SCH_REFERENCE_LIST()
{
}
SCH_REFERENCE& operator[]( int aIndex )
{
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return flatList[ aIndex ];
}
/**
* Function GetCount
* @return the number of items in the list
*/
unsigned GetCount() const
{
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return flatList.size();
}
/**
* Function GetItem
* @return the aIdx item
*/
SCH_REFERENCE& GetItem( int aIdx )
{
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return flatList[aIdx];
}
/**
* Function AddItem
* adds a SCH_REFERENCE object to the list of references.
* @param aItem - a SCH_REFERENCE item to add
*/
void AddItem( SCH_REFERENCE& aItem )
{
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flatList.push_back( aItem );
}
/**
* Function RemoveItem
* removes an item from the list of references.
*
* @param aIndex is the index of the item to be removed.
*/
void RemoveItem( unsigned int aIndex );
/* Sort functions:
* Sort functions are used to sort components for annotation or BOM generation.
* Because sorting depends on what we want to do, there are many sort functions.
* Note:
* When creating BOM, components are fully annotated.
* references are something like U3, U5 or R4, R8
* When annotating, some or all components are not annotated,
* i.e. ref is only U or R, with no number.
*/
/**
* Function SplitReferences
* attempts to split all reference designators into a name (U) and number (1). If the
* last character is '?' or not a digit, the reference is tagged as not annotated.
* For components with multiple parts per package that are not already annotated, set
* m_Unit to a max value (0x7FFFFFFF).
* @see SCH_REFERENCE::Split()
*/
void SplitReferences()
{
for( unsigned ii = 0; ii < GetCount(); ii++ )
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flatList[ii].Split();
}
/**
* function UpdateAnnotation
* Updates the reference components for the schematic project (or the current sheet)
* Note: this function does not calculate the reference numbers stored in m_NumRef
* So, it must be called after calculation of new reference numbers
* @see SCH_REFERENCE::Annotate()
*/
void UpdateAnnotation()
{
/* update the reference numbers */
for( unsigned ii = 0; ii < GetCount(); ii++ )
{
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flatList[ii].Annotate();
}
}
/**
* Function Annotate
* set the reference designators in the list that have not been annotated.
* @param aUseSheetNum Set to true to start annotation for each sheet at the sheet number
* times \a aSheetIntervalId. Otherwise annotate incrementally.
* @param aSheetIntervalId The per sheet reference designator multiplier.
* @param aStartNumber The number to start with if NOT numbering based on sheet number.
* @param aLockedUnitMap A SCH_MULTI_UNIT_REFERENCE_MAP of reference designator wxStrings
* to SCH_REFERENCE_LISTs. May be an empty map. If not empty, any multi-unit parts
* found in this map will be annotated as a group rather than individually.
* <p>
* If a the sheet number is 2 and \a aSheetIntervalId is 100, then the first reference
* designator would be 201 and the last reference designator would be 299 when no overlap
* occurs with sheet number 3. If there are 150 items in sheet number 2, then items are
* referenced U201 to U351, and items in sheet 3 start from U352
* </p>
*/
void Annotate( bool aUseSheetNum, int aSheetIntervalId, int aStartNumber,
SCH_MULTI_UNIT_REFERENCE_MAP aLockedUnitMap );
/**
* Function CheckAnnotation
* check for annotations errors.
* <p>
* The following annotation error conditions are tested:
* <ul>
* <li>Components not annotated.</li>
* <li>Components having the same reference designator (duplicates).</li>
* <li>Components with multiple parts per package having different reference designators.</li>
* <li>Components with multiple parts per package with invalid part count.</li>
* </ul>
* </p>
* @param aReporter A sink for error messages. Use NULL_REPORTER if you don't need errors.
* @return The number of errors found.
*/
int CheckAnnotation( REPORTER& aReporter );
/**
* Function sortByXCoordinate
* sorts the list of references by X position.
* <p>
* Components are sorted as follows:
* <ul>
* <li>Numeric value of reference designator.</li>
* <li>Sheet number.</li>
* <li>X coordinate position.</li>
* <li>Y coordinate position.</li>
* <li>Time stamp.</li>
* </ul>
* </p>
*/
void SortByXCoordinate()
{
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sort( flatList.begin(), flatList.end(), sortByXPosition );
}
/**
* Function sortByYCoordinate
* sorts the list of references by Y position.
* <p>
* Components are sorted as follows:
* <ul>
* <li>Numeric value of reference designator.</li>
* <li>Sheet number.</li>
* <li>Y coordinate position.</li>
* <li>X coordinate position.</li>
* <li>Time stamp.</li>
* </ul>
* </p>
*/
void SortByYCoordinate()
{
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sort( flatList.begin(), flatList.end(), sortByYPosition );
}
/**
* Function SortComponentsByTimeStamp
* sort the flat list by Time Stamp (sheet path + timestamp).
* Useful to detect duplicate Time Stamps
*/
void SortByTimeStamp()
{
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sort( flatList.begin(), flatList.end(), sortByTimeStamp );
}
/**
* Function SortByRefAndValue
* sorts the list of references by value.
* <p>
* Components are sorted in the following order:
* <ul>
* <li>Numeric value of reference designator.</li>
* <li>Value of component.</li>
* <li>Unit number when component has multiple parts.</li>
* <li>Sheet number.</li>
* <li>X coordinate position.</li>
* <li>Y coordinate position.</li>
* </ul>
* </p>
*/
void SortByRefAndValue()
{
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sort( flatList.begin(), flatList.end(), sortByRefAndValue );
}
/**
* Function SortByReferenceOnly
* sorts the list of references by reference.
* <p>
* Components are sorted in the following order:
* <ul>
* <li>Numeric value of reference designator.</li>
* <li>Unit number when component has multiple parts.</li>
* </ul>
* </p>
*/
void SortByReferenceOnly()
{
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sort( flatList.begin(), flatList.end(), sortByReferenceOnly );
}
/**
* searches the sorted list of components for a another component with the same
* reference and a given part unit. Use this method to manage components with
* multiple parts per package.
* @param aIndex = index in aComponentsList for of given SCH_REFERENCE item to test.
* @param aUnit = the given unit number to search
* @return index in aComponentsList if found or -1 if not found
*/
int FindUnit( size_t aIndex, int aUnit );
/**
* @brief Searches unit with designated path
* @param aPath path to search
* @return index in aComponentsList if found or -1 if not found
*/
int FindRefByPath( const wxString& aPath ) const;
/**
* Function GetRefsInUse
* adds all the reference designator numbers greater than \a aMinRefId to \a aIdList
* skipping the reference at \a aIndex.
* @param aIndex = the current component index to use for reference prefix filtering.
* @param aIdList = the buffer to fill
* @param aMinRefId = the min id value to store. all values < aMinRefId are ignored
*/
void GetRefsInUse( int aIndex, std::vector< int >& aIdList, int aMinRefId );
/**
* Function GetLastReference
* returns the last used (greatest) reference number in the reference list
* for the prefix reference given by \a aIndex. The component list must be
* sorted.
*
* @param aIndex The index of the reference item used for the search pattern.
* @param aMinValue The minimum value for the current search.
*/
int GetLastReference( int aIndex, int aMinValue );
#if defined(DEBUG)
void Show( const char* aPrefix = "" )
{
printf( "%s\n", aPrefix );
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for( unsigned i=0; i < flatList.size(); ++i )
{
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SCH_REFERENCE& schref = flatList[i];
printf( " [%-2d] ref:%-8s num:%-3d lib_part:%s\n",
i,
schref.m_Ref.c_str(),
schref.m_NumRef,
TO_UTF8( schref.GetLibPart()->GetName() )
);
}
}
#endif
/**
* Function Shorthand
* Returns a shorthand string representing all the references in the list. For instance,
* "R1, R2, R4 - R7, U1"
* @param aList
*/
static wxString Shorthand( std::vector<SCH_REFERENCE> aList );
friend class BACK_ANNOTATION;
private:
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/* sort functions used to sort flatList
*/
static bool sortByRefAndValue( const SCH_REFERENCE& item1, const SCH_REFERENCE& item2 );
static bool sortByXPosition( const SCH_REFERENCE& item1, const SCH_REFERENCE& item2 );
static bool sortByYPosition( const SCH_REFERENCE& item1, const SCH_REFERENCE& item2 );
static bool sortByTimeStamp( const SCH_REFERENCE& item1, const SCH_REFERENCE& item2 );
static bool sortByReferenceOnly( const SCH_REFERENCE& item1, const SCH_REFERENCE& item2 );
/**
* Function CreateFirstFreeRefId
* searches for the first free reference number in \a aListId of reference numbers in use.
* This function just searches for a hole in a list of incremented numbers, this list must
* be sorted by increasing values and each value can be stored only once. The new value
* is added to the list.
* @see BuildRefIdInUseList to prepare this list
* @param aIdList The buffer that contains the reference numbers in use.
* @param aFirstValue The first expected free value
* @return The first free (not yet used) value.
*/
int CreateFirstFreeRefId( std::vector<int>& aIdList, int aFirstValue );
// Used for sorting static sortByTimeStamp function
friend class BACK_ANNOTATE;
};
#endif // _SCH_REFERENCE_LIST_H_