28#include <magic_enum.hpp>
30#include <unordered_map>
102 return wxT(
"TUNING_STATUS" );
106void TUNING_STATUS_VIEW_ITEM::Show(
int nestLevel, std::ostream& os )
const {}
140 m_max = std::numeric_limits<double>::max();
149 m_chainMax = std::numeric_limits<double>::max();
194 gal->
Scale( { 1., 1. } );
206 int totalHeaderLines = scopeLines + 1;
207 int totalLines = totalHeaderLines + valueLines;
208 VECTOR2I size( glyphWidth * 38 + margin.
x * 2,
210 VECTOR2I offset( margin.
x * 2, -( size.
y + margin.
y * 2 ) );
212 if( drawingDropShadows )
217 gal->
SetStrokeColor( wxSystemSettings::GetColour( wxSYS_COLOUR_BTNTEXT ) );
218 KIGFX::COLOR4D bgColor( wxSystemSettings::GetColour( wxSYS_COLOUR_BTNFACE ) );
227 COLOR4D bg = wxSystemSettings::GetColour( wxSYS_COLOUR_BTNFACE );
228 COLOR4D normal = wxSystemSettings::GetColour( wxSYS_COLOUR_BTNTEXT );
232 double bg_h, bg_s, bg_l;
233 bg.
ToHSL( bg_h, bg_s, bg_l );
236 red.FromHSL( 0.0, 1.0, bg_l < 0.5 ? 0.7 : 0.3 );
237 green.FromHSL( 120.0, 1.0, bg_l < 0.5 ? 0.8 : 0.2 );
271 textPos.
x += glyphWidth * 18 + margin.
x;
272 font->
Draw( gal,
_(
"min" ), textPos, textAttrs, fontMetrics );
273 textPos.
x += glyphWidth * 7 + margin.
x;
274 font->
Draw( gal,
_(
"max" ), textPos, textAttrs, fontMetrics );
290 textPos.
x += glyphWidth * 18 + margin.
x;
291 font->
Draw( gal,
m_minText, textPos, textAttrs, fontMetrics );
292 textPos.
x += glyphWidth * 7 + margin.
x;
293 font->
Draw( gal,
m_maxText, textPos, textAttrs, fontMetrics );
304 textPos.
x += glyphWidth * 18 + margin.
x;
306 textPos.
x += glyphWidth * 7 + margin.
x;
316 if( aStr ==
"single" )
318 else if( aStr ==
"diff_pair" )
320 else if( aStr ==
"diff_pair_skew" )
324 wxFAIL_MSG( wxS(
"Unknown length tuning token" ) );
337 default: wxFAIL;
return "";
344 switch( aRouterMode )
356 if( aStr ==
"default" )
358 else if( aStr ==
"left" )
360 else if( aStr ==
"right" )
364 wxFAIL_MSG( wxS(
"Unknown length-tuning side token" ) );
377 default: wxFAIL;
return "";
384 if( aStr ==
"too_long" )
386 else if( aStr ==
"too_short" )
388 else if( aStr ==
"tuned" )
392 wxFAIL_MSG( wxS(
"Unknown tuning status token" ) );
405 default: wxFAIL;
return "";
414 double* aDelayIUOut )
421 padCount += fp->Pads().size();
510 bool hasConstraint =
false;
511 bool isTimeDomain =
false;
516 effectiveTarget = netConstraint.
GetValue();
518 hasConstraint =
true;
525 wxString chainName = netInfo ? netInfo->
GetNetChain() : wxString();
527 if( !chainName.IsEmpty() )
533 double bridgingDelayIU = 0.0;
539 long long bridgingIU = isTimeDomain ?
static_cast<long long>( bridgingDelayIU )
542 if( adjustedTarget.
HasMin() )
546 if( adjustedTarget.
HasOpt() )
550 if( adjustedTarget.
HasMax() )
568 constraint = netConstraint.
IsNull() ? chainConstraint : netConstraint;
583 else if( isTimeDomain )
591 const std::shared_ptr<TUNING_PROFILES> tuningParams =
604 if( !constraint.
IsNull() )
632 aCommit->
Add(
this );
658 centerlineOffsetEnd =
665 baseEnd.
A += centerlineOffsetEnd;
666 baseEnd.
B += centerlineOffsetEnd;
668 if( baseEnd.
A != baseEnd.
B )
687 auto getTimeDomainTuningEnabled = [
this, aBoard]()
689 const std::shared_ptr<TUNING_PROFILES> tuningParams =
710 &pnsItem,
nullptr, layer, &constraint ) )
728 m_settings.m_isTimeDomain = getTimeDomainTuningEnabled();
741 pnsCoupledItem.
SetParent( coupledTrack );
742 pnsCoupledItem.
SetNet( coupledNet );
747 &pnsItem, &pnsCoupledItem, layer, &constraint ) )
765 m_settings.m_isTimeDomain = getTimeDomainTuningEnabled();
772 &pnsItem, &pnsCoupledItem, layer, &constraint ) )
821 std::optional<SHAPE_LINE_CHAIN>& aBaseLine )
828 VECTOR2I startSnapPoint, endSnapPoint;
833 wxASSERT( startItem );
836 if( !startItem || !endItem )
844 wxASSERT(
chain.PointOnEdge( startSnapPoint, 40000 ) );
845 wxASSERT(
chain.PointOnEdge( endSnapPoint, 40000 ) );
851 chain.Split( startSnapPoint, endSnapPoint, pre, mid, post );
866 wxCHECK( track,
false );
882 return initBaseLine( aRouter, aPNSLayer, aBoard, coupledStart, coupledEnd, coupledNet,
917 VECTOR2I startSnapPoint, endSnapPoint;
920 aPNSLayer, startSnapPoint, endSnapPoint );
922 wxCHECK( pnsLine,
false );
927 pnsLine->CLine().
Split( startSnapPoint, endSnapPoint, pre, mid, post );
935 straightChain.
Append( pre );
936 straightChain.
Append( aBaseLine );
937 straightChain.
Append( post );
940 PNS::LINE straightLine( *pnsLine, straightChain );
981 const std::vector<GENERATOR_PNS_CHANGES>& allPnsChanges = aTool->
GetRouterChanges();
985 const std::set<BOARD_ITEM*> routerRemovedItems = pnsChanges.removedItems;
986 const std::set<BOARD_ITEM*> routerAddedItems = pnsChanges.addedItems;
994 item->ClearSelected();
999 aCommit->
Add( item );
1032 if( lineWidth == 0 || li->Width() < lineWidth )
1033 lineWidth = li->Width();
1043 if( lineWidth == 0 )
1054 recoverLine.
SetNet( recoverNet );
1055 branch->
Add( recoverLine,
false );
1062 recoverLineCoupled.
SetLayer( aPNSLayer );
1063 recoverLineCoupled.
SetWidth( lineWidth );
1065 recoverLineCoupled.
SetNet( recoverCoupledNet );
1066 branch->
Add( recoverLineCoupled,
false );
1084 VECTOR2I startSnapPoint, endSnapPoint;
1087 aPNSLayer, startSnapPoint, endSnapPoint );
1101 pnsLine->CLine().
Split( startSnapPoint, endSnapPoint, pre, mid, post );
1103 straightChain.
Append( pre );
1104 straightChain.
Append( aBaseLine );
1105 straightChain.
Append( post );
1109 branch->
Remove( *pnsLine );
1122 m_end = endSnapPoint;
1129 newLineChain.
Append( pre );
1130 newLineChain.
Append( mid );
1131 newLineChain.
Append( post );
1143 straightChain.
Split( start,
end, pre, mid, post );
1145 newLineChain.
Append( pre );
1146 newLineChain.
Append( mid );
1147 newLineChain.
Append( post );
1153 PNS::LINE newLine( *pnsLine, newLineChain );
1155 branch->
Add( newLine,
false );
1178 auto hideRemovedItems = [&](
bool aHide )
1184 for(
BOARD_ITEM* item : pnsCommit.removedItems )
1187 view->
Hide( item, aHide, aHide );
1230 hideRemovedItems(
true );
1232 VECTOR2I startSnapPoint, endSnapPoint;
1239 wxASSERT( startItem );
1240 wxASSERT( endItem );
1242 if( !startItem || !endItem )
1247 if( !router->
StartRouting( startSnapPoint, startItem, pnslayer ) )
1276 wxString statusMessage;
1283 default: statusMessage =
_(
"unknown" );
break;
1326 bool forceFinish =
true;
1327 bool forceCommit =
false;
1329 router->
FixRoute(
m_end,
nullptr, forceFinish, forceCommit );
1333 const std::vector<GENERATOR_PNS_CHANGES>& pnsCommits = aTool->
GetRouterChanges();
1337 const std::set<BOARD_ITEM*> routerRemovedItems = pnsCommit.removedItems;
1338 const std::set<BOARD_ITEM*> routerAddedItems = pnsCommit.addedItems;
1347 view->
Hide( item,
false );
1354 aCommit->
Add( item );
1384 for(
BOARD_ITEM* item : pnsCommit.removedItems )
1385 view->Hide( item,
false );
1410 base.
A += centerlineOffset;
1411 base.
B += centerlineOffset;
1421 VECTOR2I widthHandleOffset = ( base.
B - base.
A ).Perpendicular().Resize( amplitude );
1423 aPoints.
AddPoint( base.
A + widthHandleOffset );
1429 aPoints.
AddPoint( base.
A + spacingHandleOffset );
1450 base.
A += centerlineOffset;
1451 base.
B += centerlineOffset;
1469 int side = base.
Side( wHandle );
1505 base.
A += centerlineOffset;
1506 base.
B += centerlineOffset;
1516 VECTOR2I widthHandleOffset = ( base.
B - base.
A ).Perpendicular().Resize( amplitude );
1536 int clampedMaxAmplitude =
m_settings.m_maxAmplitude;
1537 int minAllowedAmplitude = 0;
1547 minAllowedAmplitude = baselineOffset +
correction;
1550 clampedMaxAmplitude = std::max( clampedMaxAmplitude, minAllowedAmplitude );
1568 chain.SetClosed(
true );
1673 size = std::max( size,
pcbIUScale.mmToIU( 0.05 ) );
1679 for(
int i = 0; i <
m_baseLine->SegmentCount(); i++ )
1702 for(
int i = 0; i <
chain.SegmentCount(); i++ )
1720 props.
set(
"corner_radius_percent",
m_settings.m_cornerRadiusPercentage );
1741 props.
set(
"override_custom_rules",
m_settings.m_overrideCustomRules );
1757 wxString tuningMode;
1758 aProps.
get_to(
"tuning_mode", tuningMode );
1762 aProps.
get_to(
"initial_side", side );
1766 aProps.
get_to(
"last_status", status );
1772 aProps.
get_to(
"corner_radius_percent",
m_settings.m_cornerRadiusPercentage );
1776 bool rounded =
false;
1777 aProps.
get_to(
"rounded", rounded );
1782 aProps.
get_to_iu(
"target_length", val );
1785 if( aProps.
get_to_iu(
"target_length_min", val ) )
1788 if( aProps.
get_to_iu(
"target_length_max", val ) )
1791 aProps.
get_to_iu(
"target_delay", val );
1794 if( aProps.
get_to_iu(
"target_delay_min", val ) )
1795 m_settings.m_targetLengthDelay.SetMin( val );
1797 if( aProps.
get_to_iu(
"target_delay_max", val ) )
1798 m_settings.m_targetLengthDelay.SetMax( val );
1802 aProps.
get_to_iu(
"target_skew", int_val );
1805 if( aProps.
get_to_iu(
"target_skew_min", int_val ) )
1808 if( aProps.
get_to_iu(
"target_skew_max", int_val ) )
1817 aProps.
get_to(
"override_custom_rules",
m_settings.m_overrideCustomRules );
1830 wxString statusMessage;
1837 default: statusMessage =
_(
"unknown" );
break;
1844 m_tuningInfo.Printf( wxS(
"%s (%s)" ), lengthStr, statusMessage );
1918 commit.
Push(
_(
"Edit Tuning Pattern" ) );
1925 bool aStatusItemsOnly )
1927 std::vector<EDA_ITEM*> previewItems;
1932 if( !aStatusItemsOnly )
1948 wxString netChainName;
1949 if( board && !netName.
IsEmpty() )
1955 netChainName = net->GetNetChain();
1960 if( !netName.IsEmpty() )
1962 if( !netChainName.IsEmpty() )
1963 scopeLine = wxString::Format(
_(
"%s | %s" ), netName, netChainName );
1965 scopeLine = netName;
1980 bool hasNetConstraint =
false;
1990 if( tr->GetNet() &&
UnescapeString( tr->GetNet()->GetNetname() ) == netName )
2008 hasNetConstraint =
true;
2013 if( !hasNetConstraint )
2067 statusItem->
SetCurrent( 0.0,
_(
"current skew" ) );
2069 statusItem->
SetCurrent( 0.0,
_(
"current delay" ) );
2071 statusItem->
SetCurrent( 0.0,
_(
"current length" ) );
2075 double netVal =
m_settings.m_isTimeDomain ?
static_cast<double>( placer->TuningDelayResult() )
2076 :
static_cast<double>( placer->TuningLengthResult() );
2077 wxString netStr = wxString::Format(
_(
"Net: %s" ),
2082 bool hasSignal =
false;
2083 if( !netChainName.IsEmpty() && board )
2085 double chainBoardLen = 0.0;
2086 double chainBoardDelay = 0.0;
2090 std::unordered_map<int, PCB_TRACK*> repByNet;
2095 repByNet.emplace( tr->GetNetCode(), tr );
2100 if( net->GetNetChain() != netChainName )
2103 auto it = repByNet.find( net->GetNetCode() );
2105 if( it != repByNet.end() && it->second )
2107 int cnt = 0;
double trk = 0, pd = 0, tDel = 0, pdDel = 0;
2108 std::tie( cnt, trk, pd, tDel, pdDel ) = board->
GetTrackLength( *it->second );
2109 chainBoardLen += trk + pd;
2110 chainBoardDelay += tDel + pdDel;
2115 double tuningDelta = 0.0;
2117 if( placer->HasBaseline() )
2120 ?
static_cast<double>( placer->TuningDelayDelta() )
2121 :
static_cast<double>( placer->TuningLengthDelta() );
2124 double sigVal = (
m_settings.m_isTimeDomain ? chainBoardDelay : chainBoardLen )
2128 double delayIU = 0.0;
2136 sigVal +=
static_cast<double>( bridging );
2139 sigStr = wxString::Format(
_(
"Chain: %s" ),
2146 previewItems.push_back( statusItem );
2149 return previewItems;
2154 std::vector<MSG_PANEL_ITEM>& aList )
2163 bool mixedWidth =
false;
2175 primaryItem = track;
2176 primaryNet = track->GetNet();
2178 else if( !coupledNet && track->GetNet() != primaryNet )
2180 coupledItem = track;
2181 coupledNet = track->GetNet();
2185 netclass = track->GetEffectiveNetClass();
2188 width = track->GetWidth();
2189 else if( width != track->GetWidth() )
2200 else if( primaryNet )
2206 aList.emplace_back(
_(
"Resolved Netclass" ),
2212 if( primaryNet && !primaryNet->
GetNetChain().IsEmpty() )
2213 aList.emplace_back(
_(
"Net Chain" ), primaryNet->
GetNetChain() );
2215 if( width && !mixedWidth )
2223 if( board && primaryItem && primaryItem->
GetNetCode() > 0 )
2226 double trackLen = 0.0;
2227 double lenPadToDie = 0.0;
2228 double trackDelay = 0.0;
2229 double delayPadToDie = 0.0;
2231 std::tie( count, trackLen, lenPadToDie, trackDelay, delayPadToDie ) = board->
GetTrackLength( *primaryItem );
2233 if( coupledItem && coupledItem->
GetNetCode() > 0 )
2235 double coupledLen = 0.0;
2236 double coupledLenPadToDie = 0.0;
2237 double coupledTrackDelay = 0.0;
2238 double doubledDelayPadToDie = 0.0;
2240 std::tie( count, coupledLen, coupledLenPadToDie, coupledTrackDelay, doubledDelayPadToDie ) =
2243 if( trackDelay == 0.0 || coupledTrackDelay == 0.0 )
2251 _(
"Routed Delays" ),
2258 if( trackDelay == 0.0 )
2264 aList.emplace_back(
_(
"Routed Delay" ),
2269 if( lenPadToDie != 0 && delayPadToDie == 0.0 )
2272 aList.emplace_back(
_(
"Pad To Die Length" ), msg );
2275 aList.emplace_back(
_(
"Full Length" ), msg );
2277 else if( delayPadToDie > 0.0 )
2280 aList.emplace_back(
_(
"Pad To Die Delay" ), msg );
2283 aList.emplace_back(
_(
"Full Delay" ), msg );
2287 if( primaryNet && !primaryNet->
GetNetChain().IsEmpty() )
2290 double totalOtherLen = 0.0;
2291 double totalOtherDelay = 0.0;
2292 BOARD* boardPtr = board;
2297 if( other->GetNetChain() != chainName || other == primaryNet )
2301 double oTrackLen = 0.0, oPadDieLen = 0.0, oTrackDelay = 0.0, oPadDieDelay = 0.0;
2307 if( tr->GetNetCode() == other->GetNetCode() ) { anyTrack = tr;
break; }
2313 std::tie( dummyCount, oTrackLen, oPadDieLen, oTrackDelay, oPadDieDelay ) =
2315 totalOtherLen += ( oTrackLen + oPadDieLen );
2316 totalOtherDelay += ( oTrackDelay + oPadDieDelay );
2322 if( trackDelay == 0.0 )
2324 double delayIUDummy = 0.0;
2326 aList.emplace_back(
_(
"Net Chain Full Length" ),
2328 + (
double) bridging ) );
2332 double bridgingDelayIU = 0.0;
2334 aList.emplace_back(
_(
"Net Chain Full Delay" ),
2350 aList.emplace_back( wxString::Format(
_(
"Target Skew: %s" ), msg ),
2351 wxString::Format(
_(
"(from tuning pattern properties)" ) ) );
2357 if( !msg.IsEmpty() )
2359 aList.emplace_back( wxString::Format(
_(
"Skew Constraints: %s" ), msg ),
2360 wxString::Format(
_(
"(from %s)" ), constraint.
GetName() ) );
2378 caption =
_(
"Target Delay: %s" );
2384 caption =
_(
"Target Length: %s" );
2388 aList.emplace_back( wxString::Format( caption, msg ),
2389 wxString::Format(
_(
"(from tuning pattern properties)" ) ) );
2395 wxString caption =
m_settings.m_isTimeDomain ?
_(
"Delay Constraints: %s" ) :
_(
"Length Constraints: %s" );
2397 if( !msg.IsEmpty() )
2399 aList.emplace_back( wxString::Format( caption, msg ),
2400 wxString::Format(
_(
"(from %s)" ), constraint.
GetName() ) );
2414#define HITTEST_THRESHOLD_PIXELS 5
2434 std::shared_ptr<DRC_ENGINE>& drcEngine = bds.
m_DRCEngine;
2462 const auto origTargetLength = aPattern->GetSettings().m_targetLength;
2463 const auto origTargetLengthDelay = aPattern->GetSettings().m_targetLengthDelay;
2464 const auto origTargetSignalLength = aPattern->GetSettings().m_targetSignalLength;
2465 const auto origTargetSignalLengthDelay = aPattern->GetSettings().m_targetSignalLengthDelay;
2466 const auto origTargetSkew = aPattern->GetSettings().m_targetSkew;
2467 const bool origIsTimeDomain = aPattern->GetSettings().m_isTimeDomain;
2469 aPattern->GetSettings() = meanderSettings;
2473 aPattern->GetSettings().m_targetLengthDelay = origTargetLengthDelay;
2474 aPattern->GetSettings().m_targetSignalLength = origTargetSignalLength;
2475 aPattern->GetSettings().m_targetSignalLengthDelay = origTargetSignalLengthDelay;
2476 aPattern->GetSettings().m_targetSkew = origTargetSkew;
2477 aPattern->GetSettings().m_isTimeDomain = origIsTimeDomain;
2480 auto updateHoverStatus =
2483 std::unique_ptr<PCB_TUNING_PATTERN> dummyPattern;
2489 dummyPattern->SetPosition(
m_pickerItem->GetFocusPosition() );
2490 dummyPattern->SetEnd(
m_pickerItem->GetFocusPosition() );
2495 applyCommonSettings( dummyPattern.get() );
2497 dummyPattern->EditStart( generatorTool,
m_board,
nullptr );
2498 dummyPattern->Update( generatorTool,
m_board,
nullptr );
2502 for(
EDA_ITEM* item : dummyPattern->GetPreviewItems( generatorTool,
m_frame ) )
2517 auto updateTuningPattern =
2538 if( evt->IsCancelInteractive() || evt->IsActivate()
2554 else if( evt->IsMotion() )
2564 guide.SetIncludeSecondary(
false );
2566 guide.SetIncludeSecondary(
true );
2568 guide.SetPreferredLayer(
m_frame->GetActiveLayer() );
2579 double min_dist_sq = std::numeric_limits<double>::max();
2581 for(
EDA_ITEM* candidate : collector )
2587 candidatePos =
static_cast<PCB_TRACK*
>( candidate )->GetCenter();
2589 else if( candidate->Type() ==
PCB_ARC_T )
2591 candidatePos =
static_cast<PCB_ARC*
>( candidate )->GetMid();
2594 double dist_sq = ( cursorPos - candidatePos ).SquaredEuclideanNorm();
2596 if( dist_sq < min_dist_sq )
2598 min_dist_sq = dist_sq;
2604 updateHoverStatus();
2613 updateTuningPattern();
2616 else if( evt->IsClick(
BUT_LEFT ) )
2624 m_frame->ShowInfoBarWarning(
_(
"Unable to tune segments inside other "
2625 "tuning patterns." ) );
2641 int dummyClearance = std::numeric_limits<int>::max() / 2;
2646 if(
m_pickerItem->GetEffectiveShape()->Collide( cursorPos, dummyClearance,
2647 &dummyDist, &closestPt ) )
2665 commit.
Push(
_(
"Tune" ) );
2687 meanderSettings.
m_spacing = placer->MeanderSettings().m_spacing;
2689 updateTuningPattern();
2694 m_frame->ShowInfoBarWarning(
_(
"Select a track to tune first." ) );
2707 m_tuningPattern->SetMaxAmplitude( placer->MeanderSettings().m_maxAmplitude );
2708 meanderSettings.
m_maxAmplitude = placer->MeanderSettings().m_maxAmplitude;
2710 updateTuningPattern();
2715 m_frame->ShowInfoBarWarning(
_(
"Select a track to tune first." ) );
2741 updateTuningPattern();
2752 evt->SetPassEvent();
2761 controls->ForceCursorPosition(
false );
2768 m_frame->GetCanvas()->Refresh();
2801 if( layerEnum.
Choices().GetCount() == 0 )
2811 layer->SetChoices( layerEnum.
Choices() );
2821 const wxString groupTechLayers =
_HKI(
"Technical Layers" );
2833 const wxString groupTab =
_HKI(
"Pattern Properties" );
2884 auto isTimeDomain = [](
INSPECTABLE* aItem ) ->
bool
2887 return pattern->GetSettings().m_isTimeDomain;
2892 auto isLengthIsSpaceDomain = [&](
INSPECTABLE* aItem ) ->
bool
2894 return !isSkew( aItem ) && !isTimeDomain( aItem );
2897 auto isLengthIsTimeDomain = [&](
INSPECTABLE* aItem ) ->
bool
2899 return !isSkew( aItem ) && isTimeDomain( aItem );
2902 auto isSkewIsSpaceDomain = [&](
INSPECTABLE* aItem ) ->
bool
2904 return isSkew( aItem ) && !isTimeDomain( aItem );
2907 auto isSkewIsTimeDomain = [&](
INSPECTABLE* aItem ) ->
bool
2909 return isSkew( aItem ) && isTimeDomain( aItem );
2957template <typename
T>
constexpr EDA_IU_SCALE pcbIUScale
constexpr int ARC_LOW_DEF
@ NORMAL
Inactive layers are shown normally (no high-contrast mode)
constexpr BOX2I KiROUND(const BOX2D &aBoxD)
static TOOL_ACTION selectionClear
Clear the current selection.
virtual void Push(const wxString &aMessage=wxEmptyString, int aCommitFlags=0) override
Execute the changes.
A base class derived from BOARD_ITEM for items that can be connected and have a net,...
virtual NETCLASS * GetEffectiveNetClass() const
Return the NETCLASS for this item.
PCB_LAYER_ID GetLayer() const override
Return the primary layer this item is on.
NETINFO_ITEM * GetNet() const
Return #NET_INFO object for a given item.
Container for design settings for a BOARD object.
std::shared_ptr< DRC_ENGINE > m_DRCEngine
int GetDRCEpsilon() const
Return an epsilon which accounts for rounding errors, etc.
PNS::MEANDER_SETTINGS m_DiffPairMeanderSettings
PNS::MEANDER_SETTINGS m_SingleTrackMeanderSettings
PNS::MEANDER_SETTINGS m_SkewMeanderSettings
A base class for any item which can be embedded within the BOARD container class, and therefore insta...
BOARD_ITEM(BOARD_ITEM *aParent, KICAD_T idtype, PCB_LAYER_ID aLayer=F_Cu)
virtual PCB_LAYER_ID GetLayer() const
Return the primary layer this item is on.
virtual const BOARD * GetBoard() const
Return the BOARD in which this BOARD_ITEM resides, or NULL if none.
virtual wxString LayerMaskDescribe() const
Return a string (to be shown to the user) describing a layer mask.
Information pertinent to a Pcbnew printed circuit board.
const NETINFO_LIST & GetNetInfo() const
NETINFO_ITEM * DpCoupledNet(const NETINFO_ITEM *aNet)
std::tuple< int, double, double, double, double > GetTrackLength(const PCB_TRACK &aTrack) const
Return data on the length and number of track segments connected to a given track.
NETINFO_ITEM * FindNet(int aNetcode) const
Search for a net with the given netcode.
const FOOTPRINTS & Footprints() const
const TRACKS & Tracks() const
PROJECT * GetProject() const
BOARD_DESIGN_SETTINGS & GetDesignSettings() const
constexpr void SetMaximum()
int GetCount() const
Return the number of objects in the list.
COMMIT & Remove(EDA_ITEM *aItem, BASE_SCREEN *aScreen=nullptr)
Remove a new item from the model.
COMMIT & Modify(EDA_ITEM *aItem, BASE_SCREEN *aScreen=nullptr, RECURSE_MODE aRecurse=RECURSE_MODE::NO_RECURSE)
Modify a given item in the model.
COMMIT & Add(EDA_ITEM *aItem, BASE_SCREEN *aScreen=nullptr)
Add a new item to the model.
SEVERITY GetSeverity() const
const MINOPTMAX< int > & GetValue() const
bool GetOption(OPTIONS option) const
DRC_CONSTRAINT EvalRules(DRC_CONSTRAINT_T aConstraintType, const BOARD_ITEM *a, const BOARD_ITEM *b, PCB_LAYER_ID aLayer, REPORTER *aReporter=nullptr)
The base class for create windows for drawing purpose.
std::unordered_set< EDA_ITEM * > m_items
std::unordered_set< EDA_ITEM * > & GetItems()
void AddItem(EDA_ITEM *aItem)
Add item to group.
A base class for most all the KiCad significant classes used in schematics and boards.
void SetFlags(EDA_ITEM_FLAGS aMask)
void ClearFlags(EDA_ITEM_FLAGS aMask=EDA_ITEM_ALL_FLAGS)
bool HasFlag(EDA_ITEM_FLAGS aFlag) const
EDA_ITEM_FLAGS GetFlags() const
EDA_ITEM(EDA_ITEM *parent, KICAD_T idType, bool isSCH_ITEM=false, bool isBOARD_ITEM=false)
EDIT_POINTS is a VIEW_ITEM that manages EDIT_POINTs and EDIT_LINEs and draws them.
void AddPoint(const EDIT_POINT &aPoint)
Add an EDIT_POINT.
EDIT_POINT & Point(unsigned int aIndex)
void SetGridConstraint(GRID_CONSTRAINT_TYPE aConstraint)
static const int POINT_SIZE
Single point size in pixels.
virtual void SetPosition(const VECTOR2I &aPosition)
Set new coordinates for an EDIT_POINT.
virtual VECTOR2I GetPosition() const
Return coordinates of an EDIT_POINT.
ENUM_MAP & Map(T aValue, const wxString &aName)
static ENUM_MAP< T > & Instance()
ENUM_MAP & Undefined(T aValue)
static const TOOL_EVENT SelectedItemsModified
Selected items were moved, this can be very high frequency on the canvas, use with care.
A general implementation of a COLLECTORS_GUIDE.
Used when the right click button is pressed, or when the select tool is in effect.
void Collect(BOARD_ITEM *aItem, const std::vector< KICAD_T > &aScanList, const VECTOR2I &aRefPos, const COLLECTORS_GUIDE &aGuide)
Scan a BOARD_ITEM using this class's Inspector method, which does the collection.
A factory which returns an instance of a PCB_GENERATOR.
void Register(const wxString &aTypeStr, const wxString &aName, std::function< PCB_GENERATOR *(void)> aCreateFunc)
Associate a type string to display name and create function.
static GENERATORS_MGR & Instance()
Class that other classes need to inherit from, in order to be inspectable.
FONT is an abstract base class for both outline and stroke fonts.
static FONT * GetFont(const wxString &aFontName=wxEmptyString, bool aBold=false, bool aItalic=false, const std::vector< wxString > *aEmbeddedFiles=nullptr, bool aForDrawingSheet=false)
void Draw(KIGFX::GAL *aGal, const wxString &aText, const VECTOR2I &aPosition, const VECTOR2I &aCursor, const TEXT_ATTRIBUTES &aAttributes, const METRICS &aFontMetrics, std::optional< VECTOR2I > aMousePos=std::nullopt, wxString *aActiveUrl=nullptr) const
Draw a string.
static const METRICS & Default()
A color representation with 4 components: red, green, blue, alpha.
COLOR4D WithAlpha(double aAlpha) const
Return a color with the same color, but the given alpha.
void ToHSL(double &aOutHue, double &aOutSaturation, double &aOutLightness) const
Converts current color (stored in RGB) to HSL format.
Abstract interface for drawing on a 2D-surface.
virtual void SetIsFill(bool aIsFillEnabled)
Enable/disable fill.
virtual void DrawRectangle(const VECTOR2D &aStartPoint, const VECTOR2D &aEndPoint)
Draw a rectangle.
virtual void SetFillColor(const COLOR4D &aColor)
Set the fill color.
const MATRIX3x3D & GetScreenWorldMatrix() const
Get the screen <-> world transformation matrix.
virtual void Restore()
Restore the context.
virtual void SetLineWidth(float aLineWidth)
Set the line width.
virtual void SetStrokeColor(const COLOR4D &aColor)
Set the stroke color.
virtual void SetIsStroke(bool aIsStrokeEnabled)
Enable/disable stroked outlines.
virtual void Scale(const VECTOR2D &aScale)
Scale the context.
virtual void Save()
Save the context.
A KIGFX::PREVIEW::DRAW_CONTEXT is a wrapper around a GAL and some other settings that makes it easy t...
void DrawLineDashed(const VECTOR2I &aStart, const VECTOR2I &aEn, int aDashStep, int aDashFill, bool aDeEmphasised)
Draw a dashed line on the current layer.
An interface for classes handling user events controlling the view behavior such as zooming,...
Hold a (potentially large) number of VIEW_ITEMs and renders them on a graphics device provided by the...
GAL * GetGAL() const
Return the GAL this view is using to draw graphical primitives.
VECTOR2D ToWorld(const VECTOR2D &aCoord, bool aAbsolute=true) const
Converts a screen space point/vector to a point/vector in world space coordinates.
void Hide(VIEW_ITEM *aItem, bool aHide=true, bool aHideOverlay=false)
Temporarily hide the item in the view (e.g.
static const LSET & AllLayersMask()
static wxString Name(PCB_LAYER_ID aLayerId)
Return the fixed name association with aLayerId.
VECTOR2< T > GetScale() const
Get the scale components of the matrix.
A collection of nets and the parameters used to route or test these nets.
const wxString GetHumanReadableName() const
Gets the consolidated name of this netclass (which may be an aggregate).
wxString GetTuningProfile() const
bool HasTuningProfile() const
Handle the data for a net.
const wxString & GetNetChain() const
const wxString & GetNetname() const
static TOOL_ACTION properties
Activation of the edit tool.
static TOOL_ACTION spacingDecrease
static TOOL_ACTION amplIncrease
static TOOL_ACTION amplDecrease
static TOOL_ACTION lengthTunerSettings
static TOOL_ACTION spacingIncrease
Common, abstract interface for edit frames.
PCB_DRAW_PANEL_GAL * GetCanvas() const override
Return a pointer to GAL-based canvas of given EDA draw frame.
virtual KIGFX::PCB_VIEW * GetView() const override
Return a pointer to the #VIEW instance used in the panel.
virtual void SetProperties(const STRING_ANY_MAP &aProps)
PCB_GENERATOR(BOARD_ITEM *aParent, PCB_LAYER_ID aLayer)
virtual const STRING_ANY_MAP GetProperties() const
void SetTargetSkew(int aValue)
bool initBaseLines(PNS::ROUTER *aRouter, int aPNSLayer, BOARD *aBoard)
const STRING_ANY_MAP GetProperties() const override
void SetLocalSolderMaskMargin(std::optional< int > aMargin)
void SetMinAmplitude(int aValue)
bool recoverBaseline(PNS::ROUTER *aRouter, int aPNSLayer)
void SetSpacing(int aValue)
static const wxString DISPLAY_NAME
size_t m_cachedBridgingPadCount
void GetMsgPanelInfo(EDA_DRAW_FRAME *aFrame, std::vector< MSG_PANEL_ITEM > &aList) override
Populate aList of MSG_PANEL_ITEM objects with it's internal state for display purposes.
PNS::ROUTER_MODE GetPNSMode()
bool initBaseLine(PNS::ROUTER *aRouter, int aPNSLayer, BOARD *aBoard, VECTOR2I &aStart, VECTOR2I &aEnd, NETINFO_ITEM *aNet, std::optional< SHAPE_LINE_CHAIN > &aBaseLine)
void SetTargetSkewDelay(int aValue)
PCB_TUNING_PATTERN(BOARD_ITEM *aParent=nullptr, PCB_LAYER_ID aLayer=F_Cu, LENGTH_TUNING_MODE aMode=LENGTH_TUNING_MODE::SINGLE)
void SetLayer(PCB_LAYER_ID aLayer) override
Set the layer this item is on.
void SetWidth(int aValue)
PNS::MEANDER_SIDE GetInitialSide() const
std::optional< int > GetLocalSolderMaskMargin() const
bool HasSolderMask() const
void SetInitialSide(PNS::MEANDER_SIDE aValue)
wxString GetFriendlyName() const override
void SetTargetDelay(std::optional< int > aValue)
LENGTH_TUNING_MODE GetTuningMode() const
void SetHasSolderMask(bool aVal)
std::optional< int > GetTargetDelay() const
std::vector< EDA_ITEM * > GetPreviewItems(GENERATOR_TOOL *aTool, PCB_BASE_EDIT_FRAME *aFrame, bool aStatusItemsOnly=false) override
int GetMinAmplitude() const
long long m_cachedBridgingLen
double m_cachedBridgingDelayIU
void EditStart(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
long long GetCachedBridgingLength(BOARD *aBoard, const wxString &aNetChain, double *aDelayIUOut)
void SetOverrideCustomRules(bool aOverride)
void SetRounded(bool aFlag)
LENGTH_TUNING_MODE m_tuningMode
static const wxString GENERATOR_TYPE
bool resetToBaseline(GENERATOR_TOOL *aTool, int aPNSLayer, SHAPE_LINE_CHAIN &aBaseLine, bool aPrimary)
bool MakeEditPoints(EDIT_POINTS &points) const override
void SetCornerRadiusPercentage(int aValue)
PNS::MEANDER_PLACER_BASE::TUNING_STATUS m_tuningStatus
std::optional< SHAPE_LINE_CHAIN > m_baseLineCoupled
const BOARD * m_cachedBridgingBoardPtr
void SetProperties(const STRING_ANY_MAP &aProps) override
void ViewDraw(int aLayer, KIGFX::VIEW *aView) const override final
Draw the parts of the object belonging to layer aLayer.
void Remove(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
bool UpdateFromEditPoints(EDIT_POINTS &aEditPoints) override
std::optional< SHAPE_LINE_CHAIN > m_baseLine
int GetMaxAmplitude() const
PNS::MEANDER_SETTINGS m_settings
wxString m_cachedBridgingSignal
void ShowPropertiesDialog(PCB_BASE_EDIT_FRAME *aEditFrame) override
PCB_LAYER_ID GetLayer() const override
Return the primary layer this item is on.
bool Update(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
void SetNetCode(int aNetCode)
bool UpdateEditPoints(EDIT_POINTS &aEditPoints) override
int GetTargetSkewDelay() const
void EditCancel(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
bool GetOverrideCustomRules() const
void SetMaxAmplitude(int aValue)
PNS::MEANDER_SETTINGS & GetSettings()
void SetSingleSided(bool aValue)
bool removeToBaseline(PNS::ROUTER *aRouter, int aPNSLayer, SHAPE_LINE_CHAIN &aBaseLine)
std::optional< int > GetTargetLength() const
void EditFinish(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
int GetCornerRadiusPercentage() const
SHAPE_LINE_CHAIN getOutline() const
void SetTargetLength(std::optional< int > aValue)
bool IsSingleSided() const
static PCB_TUNING_PATTERN * CreateNew(GENERATOR_TOOL *aTool, PCB_BASE_EDIT_FRAME *aFrame, BOARD_CONNECTED_ITEM *aStartItem, LENGTH_TUNING_MODE aMode)
int GetTargetSkew() const
Differential Pair length-matching/meandering tool.
Base class for PNS router board items.
virtual NET_HANDLE Net() const
void SetNet(NET_HANDLE aNet)
void SetLayer(int aLayer)
void SetParent(BOARD_ITEM *aParent)
bool OfKind(int aKindMask) const
virtual VECTOR2I Anchor(int n) const
Represents a track on a PCB, connecting two non-trivial joints (that is, vias, pads,...
const SHAPE_LINE_CHAIN & CLine() const
SHAPE_LINE_CHAIN & Line()
void SetWidth(int aWidth)
Return line width.
virtual int Width() const
bool ContainsLink(const LINKED_ITEM *aItem) const
std::vector< LINKED_ITEM * > & Links()
Base class for Single trace & Differential pair meandering tools, as both of them share a lot of code...
virtual void UpdateSettings(const MEANDER_SETTINGS &aSettings)
TUNING_STATUS
< Result of the length tuning operation
virtual TUNING_STATUS TuningStatus() const =0
Return the tuning status (too short, too long, etc.) of the trace(s) being tuned.
virtual const MEANDER_SETTINGS & MeanderSettings() const
Return the current meandering configuration.
virtual long long int TuningLengthResult() const =0
Return the resultant length or skew of the tuned traces.
Dimensions for the meandering algorithm.
void SetTargetLength(long long int aOpt)
bool m_isTimeDomain
The net class this meander pattern belongs to.
void SetTargetLengthDelay(long long int aOpt)
MINOPTMAX< long long int > m_targetLength
Desired propagation delay of the tuned line.
void SetTargetSignalLengthDelay(long long int aOpt)
void SetTargetSkew(int aOpt)
void SetTargetSignalLength(long long int aOpt)
int m_maxAmplitude
Meandering period/spacing (see dialog picture for explanation).
bool m_overrideCustomRules
Type of corners for the meandered line.
void SetTargetSkewDelay(int aOpt)
int m_spacing
Amplitude/spacing adjustment step.
Keep the router "world" - i.e.
NODE * Branch()
Create a lightweight copy (called branch) of self that tracks the changes (added/removed items) wrs t...
bool Add(std::unique_ptr< SEGMENT > aSegment, bool aAllowRedundant=false)
Add an item to the current node.
std::set< OBSTACLE > OBSTACLES
const LINE AssembleLine(LINKED_ITEM *aSeg, int *aOriginSegmentIndex=nullptr, bool aStopAtLockedJoints=false, bool aFollowLockedSegments=false, bool aAllowSegmentSizeMismatch=true)
Follow the joint map to assemble a line connecting two non-trivial joints starting from segment aSeg.
int QueryColliding(const ITEM *aItem, OBSTACLES &aObstacles, const COLLISION_SEARCH_OPTIONS &aOpts=COLLISION_SEARCH_OPTIONS()) const
Find items colliding (closer than clearance) with the item aItem.
void Remove(ARC *aArc)
Remove an item from this branch.
virtual int GetPNSLayerFromBoardLayer(PCB_LAYER_ID aLayer) const =0
virtual void RemoveItem(ITEM *aItem)=0
virtual void AddItem(ITEM *aItem)=0
void SetMode(ROUTER_MODE aMode)
PLACEMENT_ALGO * Placer()
ROUTER_IFACE * GetInterface() const
RULE_RESOLVER * GetRuleResolver() const
bool RoutingInProgress() const
bool StartRouting(const VECTOR2I &aP, ITEM *aItem, int aLayer)
bool FixRoute(const VECTOR2I &aP, ITEM *aItem, bool aForceFinish, bool aForceCommit)
bool Move(const VECTOR2I &aP, ITEM *aItem)
virtual int Clearance(const ITEM *aA, const ITEM *aB, bool aUseClearanceEpsilon=true)=0
void SetShape(SHAPE *shape)
void SetStartLayerFromPCBNew(PCB_LAYER_ID aLayer)
int GetPNSLayerFromBoardLayer(PCB_LAYER_ID aLayer) const override
void DisplayItem(const PNS::ITEM *aItem, int aClearance, bool aEdit=false, int aFlags=0) override
void EraseView() override
wxString GetNetName(PNS::NET_HANDLE aNet) const override
std::shared_ptr< TUNING_PROFILES > & TuningProfileParameters()
virtual PROJECT_FILE & GetProjectFile() const
PROPERTY_BASE & SetAvailableFunc(std::function< bool(INSPECTABLE *)> aFunc)
Set a callback function to determine whether an object provides this property.
Provide class metadata.Helper macro to map type hashes to names.
void InheritsAfter(TYPE_ID aDerived, TYPE_ID aBase)
Declare an inheritance relationship between types.
static PROPERTY_MANAGER & Instance()
PROPERTY_BASE & AddProperty(PROPERTY_BASE *aProperty, const wxString &aGroup=wxEmptyString)
Register a property.
PROPERTY_BASE & ReplaceProperty(size_t aBase, const wxString &aName, PROPERTY_BASE *aNew, const wxString &aGroup=wxEmptyString)
Replace an existing property for a specific type.
void AddTypeCast(TYPE_CAST_BASE *aCast)
Register a type converter.
RAII class that sets an value at construction and resets it to the original value at destruction.
int LineDistance(const VECTOR2I &aP, bool aDetermineSide=false) const
Return the closest Euclidean distance between point aP and the line defined by the ends of segment (t...
int Side(const VECTOR2I &aP) const
Determine on which side of directed line passing via segment ends point aP lies.
bool PointOnEdge(const VECTOR2I &aP, int aAccuracy=0) const
Check if point aP lies on an edge or vertex of the line chain.
Represent a polyline containing arcs as well as line segments: A chain of connected line and/or arc s...
const SHAPE_LINE_CHAIN Reverse() const
Reverse point order in the line chain.
int Split(const VECTOR2I &aP, bool aExact=false)
Insert the point aP belonging to one of the our segments, splitting the adjacent segment in two.
void SetClosed(bool aClosed)
Mark the line chain as closed (i.e.
void Simplify(int aTolerance=0)
Simplify the line chain by removing colinear adjacent segments and duplicate vertices.
void Append(int aX, int aY, bool aAllowDuplication=false)
Append a new point at the end of the line chain.
const VECTOR2I & CPoint(int aIndex) const
Return a reference to a given point in the line chain.
const VECTOR2I NearestPoint(const VECTOR2I &aP, bool aAllowInternalShapePoints=true) const
Find a point on the line chain that is closest to point aP.
const VECTOR2I & CLastPoint() const
Return the last point in the line chain.
bool PointInside(const VECTOR2I &aPt, int aAccuracy=0, bool aUseBBoxCache=false) const override
Check if point aP lies inside a closed shape.
SHAPE * Clone() const override
Return a dynamically allocated copy of the shape.
bool OffsetLine(int aAmount, CORNER_STRATEGY aCornerStrategy, int aMaxError, SHAPE_LINE_CHAIN &aLeft, SHAPE_LINE_CHAIN &aRight, bool aSimplify=false) const
Creates line chains aLeft and aRight offset to this line chain.
Represent a set of closed polygons.
void BooleanAdd(const SHAPE_POLY_SET &b)
Perform boolean polyset union.
void ClearArcs()
Removes all arc references from all the outlines and holes in the polyset.
SHAPE_LINE_CHAIN & Outline(int aIndex)
Return the reference to aIndex-th outline in the set.
void OffsetLineChain(const SHAPE_LINE_CHAIN &aLine, int aAmount, CORNER_STRATEGY aCornerStrategy, int aMaxError, bool aSimplify)
Perform offsetting of a line chain.
int OutlineCount() const
Return the number of outlines in the set.
A name/value tuple with unique names and wxAny values.
void set_iu(const std::string &aKey, const T &aVar)
bool get_to(const std::string &aKey, T &aVar) const
std::optional< T > get_opt(const std::string &aKey) const
void set(const std::string &aKey, const T &aVar)
bool get_to_iu(const std::string &aKey, T &aVar) const
GR_TEXT_H_ALIGN_T m_Halign
void SetIsTimeDomain(const bool aIsTimeDomain)
void SetCurrent(const double aCurrent, const wxString &aLabel)
wxString GetClass() const override
Return the class name.
VECTOR2I GetPosition() const override
void SetScopeLine(const wxString &aLine)
void SetMinMax(const double aMin, const double aMax)
void ViewDraw(int aLayer, KIGFX::VIEW *aView) const override
Draw the parts of the object belonging to layer aLayer.
void SetChainMinMax(const double aMin, const double aMax)
std::vector< int > ViewGetLayers() const override
Return the all the layers within the VIEW the object is painted on.
TUNING_STATUS_VIEW_ITEM(PCB_BASE_EDIT_FRAME *aFrame)
const BOX2I ViewBBox() const override
Return the bounding box of the item covering all its layers.
void SetNetAndSignalValues(const wxString &aNetVal, const wxString &aSignalVal, bool aHasSignal)
void SetPosition(const VECTOR2I &aPos) override
wxString MessageTextFromValue(double aValue, bool aAddUnitLabel=true, EDA_DATA_TYPE aType=EDA_DATA_TYPE::DISTANCE) const
A lower-precision version of StringFromValue().
wxString MessageTextFromMinOptMax(const MINOPTMAX< int > &aValue, EDA_DATA_TYPE aType=EDA_DATA_TYPE::DISTANCE) const
PCB_TUNING_PATTERN * m_pattern
UNLOCKER(PCB_TUNING_PATTERN *aPattern)
@ ROUND_ALL_CORNERS
All angles are rounded.
@ NET_CHAIN_LENGTH_CONSTRAINT
#define IS_NEW
New item, just created.
#define IN_EDIT
Item currently edited.
EDA_DATA_TYPE
The type of unit.
static FILENAME_RESOLVER * resolver
a few functions useful in geometry calculations.
PCB_LAYER_ID
A quick note on layer IDs:
KICOMMON_API wxString MessageTextFromValue(const EDA_IU_SCALE &aIuScale, EDA_UNITS aUnits, double aValue, bool aAddUnitsText=true, EDA_DATA_TYPE aType=EDA_DATA_TYPE::DISTANCE)
A helper to convert the double length aValue to a string in inches, millimeters, or unscaled units.
TEXT_DIMS GetConstantGlyphHeight(KIGFX::GAL *aGal, int aRelativeSize=0)
Set the GAL glyph height to a constant scaled value, so that it always looks the same on screen.
Push and Shove diff pair dimensions (gap) settings dialog.
@ PNS_MODE_TUNE_DIFF_PAIR
@ PNS_MODE_TUNE_DIFF_PAIR_SKEW
std::tuple< double, double > BoardChainBridging(const BOARD *aBoard, const wxString &aNetChain)
Compute both the chain bridging length and its associated propagation delay (in internal delay IU,...
int SubtractBridgingClamped(int aValue, long long aDelta)
Saturating subtract for bridge-adjusting MINOPTMAX<int> bounds without overflow when the delta is in ...
Class to handle a set of BOARD_ITEMs.
static PNS::MEANDER_SIDE sideFromString(const std::string &aStr)
static LENGTH_TUNING_MODE tuningFromString(const std::string &aStr)
static std::string tuningToString(const LENGTH_TUNING_MODE aTuning)
static struct PCB_TUNING_PATTERN_DESC _PCB_TUNING_PATTERN_DESC
static LENGTH_TUNING_MODE fromPNSMode(PNS::ROUTER_MODE aRouterMode)
static PNS::MEANDER_PLACER_BASE::TUNING_STATUS statusFromString(const std::string &aStr)
static std::string sideToString(const PNS::MEANDER_SIDE aValue)
static std::string statusToString(const PNS::MEANDER_PLACER_BASE::TUNING_STATUS aStatus)
static GENERATORS_MGR::REGISTER< PCB_TUNING_PATTERN > registerMe
static std::optional< PNS::LINE > getPNSLine(const VECTOR2I &aStart, const VECTOR2I &aEnd, PNS::ROUTER *router, int layer, VECTOR2I &aStartOut, VECTOR2I &aEndOut)
SCOPED_SET_RESET< DRAWING_TOOL::MODE > SCOPED_DRAW_MODE
static REGISTER_LEGACY_TUNING_PATTERN< PCB_TUNING_PATTERN > registerMeToo
#define NO_SETTER(owner, type)
#define ENUM_TO_WXANY(type)
Macro to define read-only fields (no setter method available)
@ PT_DEFAULT
Default property for a given type.
@ PT_SIZE
Size expressed in distance units (mm/inch)
@ PT_NET
Net selection property.
@ PT_TIME
Time expressed in ps.
constexpr double correction
#define HITTEST_THRESHOLD_PIXELS
std::vector< FAB_LAYER_COLOR > dummy
wxString UnescapeString(const wxString &aSource)
PCB_TUNING_PATTERN_DESC()
bool m_useClearanceEpsilon
An abstract function object, returning a design rule (clearance, diff pair gap, etc) required between...
static VECTOR2I SnapToNearestTrack(const VECTOR2I &aP, BOARD *aBoard, NETINFO_ITEM *aNet, PCB_TRACK **aNearestTrack)
static LINKED_ITEM * PickSegment(ROUTER *aRouter, const VECTOR2I &aWhere, int aLayer, VECTOR2I &aPointOut, const SHAPE_LINE_CHAIN &aBaseline=SHAPE_LINE_CHAIN())
Hold an object colliding with another object, along with some useful data about the collision.
REGISTER_LEGACY_TUNING_PATTERN()
Represents a single line in the tuning profile configuration grid.
bool m_EnableTimeDomainTuning
const SHAPE_LINE_CHAIN chain
wxString result
Test unit parsing edge cases and error handling.
double DEG2RAD(double deg)
@ NOT_USED
the 3d code uses this value
@ PCB_ARC_T
class PCB_ARC, an arc track segment on a copper layer
@ PCB_TRACE_T
class PCB_TRACK, a track segment (segment on a copper layer)
VECTOR2< int32_t > VECTOR2I
VECTOR2< double > VECTOR2D