kicad/pcbnew/connect.cpp

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/***************************************************************************************/
/* Rastnest calculations: Function to handle existing tracks in rastsnest calculations */
/***************************************************************************************/
#include "fctsys.h"
#include "gr_basic.h"
#include "common.h"
#include "pcbnew.h"
#include "protos.h"
//#include <algorithm>
extern void Merge_SubNets_Connected_By_CopperAreas( BOARD* aPcb );
extern void Merge_SubNets_Connected_By_CopperAreas( BOARD* aPcb, int aNetcode );
/* Local functions */
static void Propagate_SubNet( TRACK* pt_start_conn, TRACK* pt_end_conn );
static void Build_Pads_Info_Connections_By_Tracks( TRACK* pt_start_conn, TRACK* pt_end_conn );
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static void RebuildTrackChain( BOARD* pcb );
/*..*/
/**************************************************************************************************/
static int Merge_Two_SubNets( TRACK* pt_start_conn, TRACK* pt_end_conn, int old_val, int new_val )
/**************************************************************************************************/
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/**
* Function Merge_Two_SubNets
* Used by Propagate_SubNet()
* Change a subnet value to a new value, for tracks ans pads which are connected to corresponding track
* for pads and tracks, this is the .m_Subnet member that is tested and modified
* these members are block numbers (or cluster numbers) for a given net
* The result is merging 2 blocks (or subnets)
* @return modification count
* @param old_val = subnet value to modify
* @param new_val = new subnet value for each item whith have old_val as subnet value
* @param pt_start_conn = first track segment to test
* @param pt_end_conn = last track segment to test
* If pt_end_conn = NULL: search is made from pt_start_conn to end of linked list
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*/
{
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TRACK* pt_conn;
int nb_change = 0;
D_PAD* pt_pad;
if( old_val == new_val )
return 0;
if( (old_val > 0) && (old_val < new_val) )
EXCHG( old_val, new_val );
pt_conn = pt_start_conn;
for( ; pt_conn != NULL; pt_conn = pt_conn->Next() )
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{
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if( pt_conn->GetSubNet() != old_val )
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{
if( pt_conn == pt_end_conn )
break;
continue;
}
nb_change++;
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pt_conn->SetSubNet( new_val );
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if( pt_conn->start && ( pt_conn->start->Type() == TYPE_PAD) )
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{
pt_pad = (D_PAD*) (pt_conn->start);
if( pt_pad->GetSubNet() == old_val )
pt_pad->SetSubNet( pt_conn->GetSubNet() );
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}
if( pt_conn->end && (pt_conn->end->Type() == TYPE_PAD) )
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{
pt_pad = (D_PAD*) (pt_conn->end);
if( pt_pad->GetSubNet() == old_val )
pt_pad->SetSubNet( pt_conn->GetSubNet() );
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}
if( pt_conn == pt_end_conn )
break;
}
return nb_change;
}
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/******************************************************************/
static void Propagate_SubNet( TRACK* pt_start_conn, TRACK* pt_end_conn )
/******************************************************************/
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/**
* Function Propagate_SubNet
* Test a list of track segment, to create or propagate a sub netcode to pads and segments connected together
* the track list must be sorted by nets, and all segments from pt_start_conn to pt_end_conn have the same net
* When 2 items are connected (a track to a pad, or a track to an other track) they are grouped in a cluster.
* for pads, this is the .m_physical_connexion member which is a cluster identifier
* for tracks, this is the .m_Subnet member which is a cluster identifier
* For a given net, if all tracks are created, there is only one cluster.
* but if not all tracks are created, there are more than one cluster, and some ratsnets will be shown.
* @param pt_start_conn = first track to test
* @param pt_end_conn = last segment to test
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*/
{
TRACK* pt_conn;
int sub_netcode;
D_PAD* pt_pad;
TRACK* pt_autre_piste;
BOARD_ITEM* PtStruct;
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/* Clear variables used in computations */
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pt_conn = pt_start_conn;
for( ; pt_conn != NULL; pt_conn = pt_conn->Next() )
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{
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pt_conn->SetSubNet( 0 );
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PtStruct = pt_conn->start;
if( PtStruct && (PtStruct->Type() == TYPE_PAD) )
( (D_PAD*) PtStruct )->SetSubNet( 0 );
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PtStruct = pt_conn->end;
if( PtStruct && (PtStruct->Type() == TYPE_PAD) )
( (D_PAD*) PtStruct )->SetSubNet( 0 );
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if( pt_conn == pt_end_conn )
break;
}
sub_netcode = 1;
pt_start_conn->SetSubNet( sub_netcode );
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/* Start of calculation */
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pt_conn = pt_start_conn;
for( ; pt_conn != NULL; pt_conn = pt_conn->Next() )
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{
/* First: handling connections to pads */
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PtStruct = pt_conn->start;
/* The segment starts on a pad */
if( PtStruct && (PtStruct->Type() == TYPE_PAD) )
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{
pt_pad = (D_PAD*) PtStruct;
if( pt_conn->GetSubNet() ) /* the track segment is already a cluster member */
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{
if( pt_pad->GetSubNet() > 0 ) /* The pad is already a cluster member, so we can merge the 2 clusters */
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{
Merge_Two_SubNets( pt_start_conn, pt_end_conn,
pt_pad->GetSubNet(), pt_conn->GetSubNet() );
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}
else /* The pad is not yet attached to a cluster , so we can add this pad to the cluster */
pt_pad->SetSubNet( pt_conn->GetSubNet() );
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}
else /* the track segment is not attached to a cluster */
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{
if( pt_pad->GetSubNet() > 0 ) /* it is connected to a pad in a cluster, merge this track */
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{
pt_conn->SetSubNet( pt_pad->GetSubNet() );
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}
else /* it is connected to a pad not in a cluster, so we must create a new cluster (only with the 2 items: the track and the pad) */
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{
sub_netcode++;
pt_conn->SetSubNet( sub_netcode );
pt_pad->SetSubNet( pt_conn->GetSubNet() );
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}
}
}
PtStruct = pt_conn->end;
if( PtStruct && (PtStruct->Type() == TYPE_PAD) )
/* The segment end on a pad */
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{
pt_pad = (D_PAD*) PtStruct;
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if( pt_conn->GetSubNet() )
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{
if( pt_pad->GetSubNet() > 0 )
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{
Merge_Two_SubNets( pt_start_conn, pt_end_conn,
pt_pad->GetSubNet(), pt_conn->GetSubNet() );
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}
else
pt_pad->SetSubNet( pt_conn->GetSubNet() );
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}
else
{
if( pt_pad->GetSubNet() > 0 )
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{
pt_conn->SetSubNet( pt_pad->GetSubNet() );
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}
else
{
sub_netcode++;
pt_conn->SetSubNet( sub_netcode );
pt_pad->SetSubNet( pt_conn->GetSubNet() );
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}
}
}
/* Test connections between segments */
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PtStruct = pt_conn->start;
if( PtStruct && (PtStruct->Type() != TYPE_PAD) )
{
/* The segment starts on an other track */
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pt_autre_piste = (TRACK*) PtStruct;
if( pt_conn->GetSubNet() ) /* the track segment is already a cluster member */
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{
if( pt_autre_piste->GetSubNet() ) /* The other track is already a cluster member, so we can merge the 2 clusters */
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{
Merge_Two_SubNets( pt_start_conn, pt_end_conn,
pt_autre_piste->GetSubNet(), pt_conn->GetSubNet() );
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}
else /* The other track is not yet attached to a cluster , so we can add this other track to the cluster */
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{
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pt_autre_piste->SetSubNet( pt_conn->GetSubNet() );
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}
}
else /* the track segment is not yet attached to a cluster */
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{
if( pt_autre_piste->GetSubNet() ) /* The other track is already a cluster member, so we can add the segment to the cluster */
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{
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pt_conn->SetSubNet( pt_autre_piste->GetSubNet() );
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}
else /* it is connected to an other segment not in a cluster, so we must create a new cluster (only with the 2 track segments) */
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{
sub_netcode++;
pt_conn->SetSubNet( sub_netcode );
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pt_autre_piste->SetSubNet( pt_conn->GetSubNet() );
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}
}
}
PtStruct = pt_conn->end; // Do the same calculations for the segment end point
if( PtStruct && (PtStruct->Type() != TYPE_PAD) )
{
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pt_autre_piste = (TRACK*) PtStruct;
if( pt_conn->GetSubNet() ) /* the track segment is already a cluster member */
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{
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if( pt_autre_piste->GetSubNet() )
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{
Merge_Two_SubNets( pt_start_conn, pt_end_conn,
pt_autre_piste->GetSubNet(), pt_conn->GetSubNet() );
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}
else
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pt_autre_piste->SetSubNet( pt_conn->GetSubNet() );
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}
else /* the track segment is not yet attached to a cluster */
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{
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if( pt_autre_piste->GetSubNet() )
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{
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pt_conn->SetSubNet( pt_autre_piste->GetSubNet() );
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}
else
{
sub_netcode++;
pt_conn->SetSubNet( sub_netcode );
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pt_autre_piste->SetSubNet( pt_conn->GetSubNet() );
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}
}
}
if( pt_conn == pt_end_conn )
break;
}
}
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/***************************************************/
void PCB_BASE_FRAME::test_connexions( wxDC* DC )
/***************************************************/
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/**
* Function testing the connections relative to all nets
* This function update the status of the ratsnest ( flag CH_ACTIF = 0 if a connection is found, = 1 else)
* track segments are assumed to be sorted by net codes.
* This is the case because when a new track is added, it is inserted in the linked list according to its net code.
* and when nets are changed (when a new netlist is read) tracks are sorted before using this function
* @param DC = current Device Context
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*/
{
// Clear the cluster identifier for all pads
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for( unsigned i = 0; i< m_Pcb->GetPadsCount(); ++i )
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{
D_PAD* pad = m_Pcb->m_NetInfo->GetPad(i);
pad->SetZoneSubNet( 0 );
pad->SetSubNet( 0 );
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}
m_Pcb->Test_Connections_To_Copper_Areas();
// Test existing connections net by net
for( TRACK* track = m_Pcb->m_Track; track; )
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{
// this is the current net because pt_start_conn is the first segment of the net
int current_net_code = track->GetNet();
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// this is the last segment of the current net
TRACK* pt_end_conn = track->GetEndNetCode( current_net_code );
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Build_Pads_Info_Connections_By_Tracks( track, pt_end_conn );
track = pt_end_conn->Next(); // this is now the first segment of the next net
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}
Merge_SubNets_Connected_By_CopperAreas( m_Pcb );
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return;
}
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/*************************************************************************/
void PCB_BASE_FRAME::test_1_net_connexion( wxDC* DC, int net_code )
/*************************************************************************/
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/**
* Function testing the connections relative to a given net
* track segments are assumed to be sorted by net codes
* @param DC = current Device Context
* @param net_code = net code to test
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*/
{
wxString msg;
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if( net_code == 0 )
return;
if( (m_Pcb->m_Status_Pcb & LISTE_RATSNEST_ITEM_OK) == 0 )
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Compile_Ratsnest( DC, TRUE );
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for( unsigned i = 0; i<m_Pcb->GetPadsCount(); ++i )
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{
D_PAD* pad = m_Pcb->m_NetInfo->GetPad(i);
int pad_net_code = pad->GetNet();
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if( pad_net_code < net_code )
continue;
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if( pad_net_code > net_code )
break;
pad->SetSubNet( 0 );
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}
m_Pcb->Test_Connections_To_Copper_Areas( net_code );
/* Search for the first and the last segment relative to the given net code */
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if( m_Pcb->m_Track )
{
TRACK* pt_start_conn;
TRACK* pt_end_conn = NULL;
pt_start_conn = m_Pcb->m_Track.GetFirst()->GetStartNetCode( net_code );
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if( pt_start_conn )
pt_end_conn = pt_start_conn->GetEndNetCode( net_code );
if( pt_start_conn && pt_end_conn ) // c.a.d. s'il y a des segments
{
Build_Pads_Info_Connections_By_Tracks( pt_start_conn, pt_end_conn );
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}
}
Merge_SubNets_Connected_By_CopperAreas( m_Pcb, net_code );
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/* Test the rastnest for this net */
int nb_net_noconnect = Test_1_Net_Ratsnest( DC, net_code );
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/* Display results */
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msg.Printf( wxT( "links %d nc %d net:nc %d" ),
m_Pcb->GetRatsnestsCount(), m_Pcb->GetNoconnectCount(),
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nb_net_noconnect );
SetStatusText( msg );
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return;
}
/*******************************************************************************************/
static void Build_Pads_Info_Connections_By_Tracks( TRACK* pt_start_conn, TRACK* pt_end_conn )
/*******************************************************************************************/
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/** Used after a track change (delete a track ou add a track)
* Compute connections (initialize the .start and .end members) for a single net.
* tracks must be sorted by net, as usual
* @param pt_start_conn = first segment of the net
* @param pt_end_conn = last segment of the net
* Connections to pads are assumed to be already initialized.
* If a track is deleted, the other pointers to pads do not change.
* When a track is added, its pointers to pads are already initialized
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*/
{
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TRACK* Track;
/* Reset the old connections type track to track */
for( Track = pt_start_conn; Track != NULL; Track = Track->Next() )
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{
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Track->SetSubNet( 0 );
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if( Track->GetState( BEGIN_ONPAD ) == 0 )
Track->start = NULL;
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if( Track->GetState( END_ONPAD ) == 0 )
Track->end = NULL;
if( Track == pt_end_conn )
break;
}
/* Update connections type track to track */
for( Track = pt_start_conn; Track != NULL; Track = Track->Next() )
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{
if( Track->Type() == TYPE_VIA ) // A via can connect many tracks, we must search for all track segments in this net
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{
TRACK* pt_segm;
int layermask = Track->ReturnMaskLayer();
for( pt_segm = pt_start_conn; pt_segm != NULL; pt_segm = pt_segm->Next() )
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{
int curlayermask = pt_segm->ReturnMaskLayer();
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if( !pt_segm->start && (pt_segm->m_Start == Track->m_Start)
&& ( layermask & curlayermask ) )
{
pt_segm->start = Track;
}
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if( !pt_segm->end && (pt_segm->m_End == Track->m_Start)
&& (layermask & curlayermask) )
{
pt_segm->end = Track;
}
if( pt_segm == pt_end_conn )
break;
}
}
if( Track->start == NULL ) // end track not already connected, search a connection
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{
Track->start = Locate_Piste_Connectee( Track, Track, pt_end_conn, START );
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}
if( Track->end == NULL ) // end track not already connected, search a connection
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{
Track->end = Locate_Piste_Connectee( Track, Track, pt_end_conn, END );
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}
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if( Track == pt_end_conn )
break;
}
/* Creates sub nets (cluster) for the current net: */
Propagate_SubNet( pt_start_conn, pt_end_conn );
}
#define POS_AFF_CHREF 62
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/**
* Function SuperFast_Locate_Pad_Connecte
* locates the pad connected to a track ended at coord px, py.
* A track is seen as connected if the px, py position is same as the pad position.
*
* @param aPcb = the board.
* @param pt_liste = Pointers to pads buffer
* This buffer is a list like the list created by build_liste_pad, but sorted by increasing X pad coordinate
* @param posref = reference coordinate
* @param masque_layer = Layers (bit to bit) to consider
* @return : pointer on the connected pad
* This function uses a fast search in this sorted pad list and it is faster than Fast_Locate_Pad_connecte(),
* But this sorted pad list must be built before calling this function.
*
* (Note: The usual pad list (created by build_liste_pad) m_Pcb->m_Pads is sorted by increasing netcodes )
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*/
static D_PAD* SuperFast_Locate_Pad_Connecte( BOARD* aPcb, LISTE_PAD* pt_liste,
const wxPoint& posref, int masque_layer )
{
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D_PAD* pad;
int ii;
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int nb_pad = aPcb->GetPadsCount();
LISTE_PAD* ptr_pad = pt_liste;
LISTE_PAD* lim = pt_liste + nb_pad - 1;
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ptr_pad = pt_liste;
while( nb_pad )
{
pad = *ptr_pad;
ii = nb_pad;
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nb_pad >>= 1;
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if( (ii & 1) && ( ii > 1 ) )
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nb_pad++;
if( pad->m_Pos.x < posref.x ) /* Must search after this item */
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{
ptr_pad += nb_pad;
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if( ptr_pad > lim )
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ptr_pad = lim;
continue;
}
if( pad->m_Pos.x > posref.x ) /* Must search before this item */
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{
ptr_pad -= nb_pad;
if( ptr_pad < pt_liste )
ptr_pad = pt_liste;
continue;
}
if( pad->m_Pos.x == posref.x ) /* A suitable block is found (X coordinate matches the px reference: but wue must matches the Y coordinate */
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{
/* Search the beginning of the block */
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while( ptr_pad >= pt_liste )
{
pad = *ptr_pad;
if( pad->m_Pos.x == posref.x )
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ptr_pad--;
else
break;
}
ptr_pad++; /* ptr_pad = first pad which have pad->m_Pos.x = px */
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for( ; ; ptr_pad++ )
{
if( ptr_pad > lim )
return NULL; /* outside suitable block */
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pad = *ptr_pad;
if( pad->m_Pos.x != posref.x )
return NULL; /* outside suitable block */
if( pad->m_Pos.y != posref.y )
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continue;
/* A Pad if found here: but it must mach the layer */
if( pad->m_Masque_Layer & masque_layer ) // Matches layer => a connected pad is found !
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return pad;
}
}
}
return NULL;
}
/**
* Function SortPadsByXCoord
* is used to Sort a pad list by x coordinate value.
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*/
static int SortPadsByXCoord( const void* pt_ref, const void* pt_comp )
{
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D_PAD* ref = *(LISTE_PAD*) pt_ref;
D_PAD* comp = *(LISTE_PAD*) pt_comp;
return ref->m_Pos.x - comp->m_Pos.x;
}
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/*****************************************************************************/
void CreateSortedPadListByXCoord( BOARD* aBoard, std::vector<D_PAD*>* aVector )
/*****************************************************************************/
{
aVector->insert( aVector->end(), aBoard->m_NetInfo->m_PadsFullList.begin(), aBoard->m_NetInfo->m_PadsFullList.end() );
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qsort( &(*aVector)[0], aBoard->GetPadsCount(), sizeof( D_PAD*), SortPadsByXCoord );
}
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/********************************************************************/
void PCB_BASE_FRAME::RecalculateAllTracksNetcode()
/********************************************************************/
/* search connections between tracks and pads, and propagate pad net codes to the track segments
* This is a 2 pass computation.
* First:
* We search a connection between a track segment and a pad: if found : this segment netcode is set to the pad netcode
*/
{
TRACK* pt_piste;
TRACK* pt_next;
char new_passe_request = 1;
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std::vector<D_PAD*> sortedPads;
BOARD_ITEM* PtStruct;
int masque_layer;
wxString msg;
// Build the net info list
GetBoard()->m_NetInfo->BuildListOfNets();
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if( m_Pcb->GetPadsCount() == 0 ) // If no pad, reset pointers and netcode, and do nothing else
{
pt_piste = m_Pcb->m_Track;
for( ; pt_piste != NULL; pt_piste = pt_piste->Next() )
{
pt_piste->start = NULL;
pt_piste->SetState( BEGIN_ONPAD | END_ONPAD, OFF );
pt_piste->SetNet( 0 );
pt_piste->end = NULL;
}
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return;
}
/**************************************************************/
/* Pass 1: search the connections between track ends and pads */
/**************************************************************/
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CreateSortedPadListByXCoord( m_Pcb, &sortedPads );
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/* Reset variables and flags used in computation */
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pt_piste = m_Pcb->m_Track;
for( ; pt_piste != NULL; pt_piste = pt_piste->Next() )
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{
pt_piste->SetState( BUSY | IN_EDIT | BEGIN_ONPAD | END_ONPAD, OFF );
pt_piste->SetZoneSubNet( 0 );
pt_piste->SetNet( 0 ); // net code = 0 means not connected
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}
/* First pass: search connection between a track segment and a pad.
* if found, set the track net code to the pad netcode
*/
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pt_piste = m_Pcb->m_Track;
for( ; pt_piste != NULL; pt_piste = pt_piste->Next() )
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{
masque_layer = g_TabOneLayerMask[pt_piste->GetLayer()];
/* Search for a pad on the segment starting point */
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pt_piste->start = SuperFast_Locate_Pad_Connecte( m_Pcb,
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&sortedPads[0],
pt_piste->m_Start,
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masque_layer );
if( pt_piste->start != NULL )
{
pt_piste->SetState( BEGIN_ONPAD, ON );
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pt_piste->SetNet( ( (D_PAD*) (pt_piste->start) )->GetNet() );
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}
/* Search for a pad on the segment ending point */
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pt_piste->end = SuperFast_Locate_Pad_Connecte( m_Pcb,
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&sortedPads[0],
pt_piste->m_End,
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masque_layer );
if( pt_piste->end != NULL )
{
pt_piste->SetState( END_ONPAD, ON );
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pt_piste->SetNet( ( (D_PAD*) (pt_piste->end) )->GetNet() );
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}
}
/*****************************************************/
/* Pass 2: search the connections between track ends */
/*****************************************************/
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/* the .start et .end member pointers are updated, only if NULLs
* (if not nuls, the end is already connected to a pad).
* the connection (if found) is between segments
* when a track has a net code and the other has a null net code, the null net code is changed
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*/
for( pt_piste = m_Pcb->m_Track; pt_piste != NULL; pt_piste = pt_piste->Next() )
{
if( pt_piste->start == NULL )
{
pt_piste->start = Locate_Piste_Connectee( pt_piste, m_Pcb->m_Track, NULL, START );
}
if( pt_piste->end == NULL )
{
pt_piste->end = Locate_Piste_Connectee( pt_piste, m_Pcb->m_Track, NULL, END );
}
}
/**********************************************************/
/* Propagate net codes from a segment to an other segment */
/**********************************************************/
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while( new_passe_request )
{
bool reset_flag = FALSE;
new_passe_request = 0;
/* look for vias which could be connect many tracks */
for( TRACK* via = m_Pcb->m_Track; via != NULL; via = via->Next() )
{
if( via->Type() != TYPE_VIA )
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continue;
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if( via->GetNet() > 0 )
continue; // Netcode already known
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// Lock for a connection to a track with a known netcode
pt_next = m_Pcb->m_Track;
while( ( pt_next = Locate_Piste_Connectee( via, pt_next, NULL, START ) ) != NULL )
{
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if( pt_next->GetNet() )
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{
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via->SetNet( pt_next->GetNet() );
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break;
}
pt_next->SetState( BUSY, ON );
reset_flag = TRUE;
}
}
if( reset_flag )
for( pt_piste = m_Pcb->m_Track; pt_piste != NULL; pt_piste = pt_piste->Next() )
{
pt_piste->SetState( BUSY, OFF );
}
/* set the netcode of connected tracks: if at track is connected to a pad, its net code is already set.
* if the current track is connected to an other track:
* if a track has a net code, it is used for the other track.
* Thus there is a propagation of the netcode from a track to an other.
* if none of the 2 track has a net code we do nothing
* the iteration is stopped when no new change occurs
*/
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for( pt_piste = m_Pcb->m_Track; pt_piste != NULL; pt_piste = pt_piste->Next() )
{
/* look for the connection to the current segment starting point */
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PtStruct = (BOARD_ITEM*) pt_piste->start;
if( PtStruct && (PtStruct->Type() != TYPE_PAD) )
{
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// Begin on an other track segment
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pt_next = (TRACK*) PtStruct;
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if( pt_piste->GetNet() )
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{
if( pt_next->GetNet() == 0 ) // the current track has a netcode, we use it for the other track
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{
new_passe_request = 1; // A change is made: a new iteration is requested.
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pt_next->SetNet( pt_piste->GetNet() );
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}
}
else
{
if( pt_next->GetNet() != 0 ) // the other track has a netcode, we use it for the current track
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{
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pt_piste->SetNet( pt_next->GetNet() );
new_passe_request = 1;
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}
}
}
/* look for the connection to the current segment ending point */
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PtStruct = pt_piste->end;
if( PtStruct &&(PtStruct->Type() != TYPE_PAD) )
{
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pt_next = (TRACK*) PtStruct;
// End on an other track: propagate netcode if possible
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if( pt_piste->GetNet() )
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{
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if( pt_next->GetNet() == 0 )
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{
new_passe_request = 1;
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pt_next->SetNet( pt_piste->GetNet() );
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}
}
else
{
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if( pt_next->GetNet() != 0 )
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{
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pt_piste->SetNet( pt_next->GetNet() );
new_passe_request = 1;
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}
}
}
}
}
/* Sort the track list by net codes: */
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RebuildTrackChain( m_Pcb );
}
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/**
* Function Sort_By_NetCode
* sorts track segments used in RebuildTrackChain() (for the qsort C function)
* The sorting is made by net code.
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*/
static int Sort_By_NetCode( const void* left, const void* right )
{
TRACK* pt_ref = *(TRACK**) left;
TRACK* pt_compare = *(TRACK**) right;
int ret = pt_ref->GetNet() - pt_compare->GetNet();
return ret;
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}
/**
* Function RebuildTrackChain
* rebuilds the track segment linked list in order to have a chain
* sorted by increasing netcodes.
* @param pcb = board to rebuild
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*/
static void RebuildTrackChain( BOARD* pcb )
{
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if( pcb->m_Track == NULL )
return;
int nbsegm = pcb->m_Track.GetCount();
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TRACK** array = (TRACK**) MyZMalloc( nbsegm * sizeof(TRACK*) );
for( int i = 0; i<nbsegm; ++i )
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{
array[i] = pcb->m_Track.PopFront();
wxASSERT( array[i] );
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}
// the list is empty now
wxASSERT( pcb->m_Track == NULL && pcb->m_Track.GetCount()==0 );
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qsort( array, nbsegm, sizeof(TRACK*), Sort_By_NetCode );
// add them back to the list
for( int i = 0; i<nbsegm; ++i )
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{
pcb->m_Track.PushBack( array[i] );
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}
MyFree( array );
}