/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2019 Jean-Pierre Charras, jp.charras at wanadoo.fr * Copyright (C) 2009-2021 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 3 * 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, see . */ /** * @file board_stackup.h */ #ifndef BOARD_STACKUP_H #define BOARD_STACKUP_H #include #include #include class BOARD; class BOARD_DESIGN_SETTINGS; class OUTPUTFORMATTER; // A enum to manage the different layers inside the stackup layers. // Note the stackup layers include both dielectric and some layers handled by the board editor // Therefore a stackup layer item is not exactly like a board layer enum BOARD_STACKUP_ITEM_TYPE { BS_ITEM_TYPE_UNDEFINED, // For not yet initialized BOARD_STACKUP_ITEM item BS_ITEM_TYPE_COPPER, // A initialized BOARD_STACKUP_ITEM item for copper layers BS_ITEM_TYPE_DIELECTRIC, // A initialized BOARD_STACKUP_ITEM item for the // dielectric between copper layers BS_ITEM_TYPE_SOLDERPASTE, // A initialized BOARD_STACKUP_ITEM item for solder paste layers BS_ITEM_TYPE_SOLDERMASK, // A initialized BOARD_STACKUP_ITEM item for solder mask layers // note: this is a specialized dielectric material BS_ITEM_TYPE_SILKSCREEN, // A initialized BOARD_STACKUP_ITEM item for silkscreen layers }; // A enum to manage edge connector fab info enum BS_EDGE_CONNECTOR_CONSTRAINTS { BS_EDGE_CONNECTOR_NONE, // No edge connector in board BS_EDGE_CONNECTOR_IN_USE, // some edge connector in board BS_EDGE_CONNECTOR_BEVELLED // Some connector in board, and the connector must be beveled }; /** * A helper class to manage a dielectric layer set of parameters */ class DIELECTRIC_PRMS { public: DIELECTRIC_PRMS() : m_Thickness(0), m_ThicknessLocked( false ), m_EpsilonR( 1.0 ), m_LossTangent( 0.0 ) {} bool operator==( const DIELECTRIC_PRMS& aOther ) const; bool operator!=( const DIELECTRIC_PRMS& aOther ) const { return !operator==( aOther ); } private: friend class BOARD_STACKUP_ITEM; wxString m_Material; /// type of material (for dielectric and solder mask) int m_Thickness; /// the physical layer thickness in internal units bool m_ThicknessLocked; /// true for dielectric layers with a fixed thickness /// (for impedance controlled purposes), unused for other layers double m_EpsilonR; /// For dielectric (and solder mask) the dielectric constant double m_LossTangent; /// For dielectric (and solder mask) the dielectric loss wxString m_Color; /// mainly for silkscreen and solder mask }; /** * Manage one layer needed to make a physical board. * * It can be a solder mask, silk screen, copper or a dielectric. */ class BOARD_STACKUP_ITEM { public: BOARD_STACKUP_ITEM( BOARD_STACKUP_ITEM_TYPE aType ); BOARD_STACKUP_ITEM( const BOARD_STACKUP_ITEM& aOther ); bool operator==( const BOARD_STACKUP_ITEM& aOther ) const; bool operator!=( const BOARD_STACKUP_ITEM& aOther ) const { return !operator==( aOther ); } /** * Add (insert) a DIELECTRIC_PRMS item to m_DielectricPrmsList * all values are set to default * @param aDielectricPrmsIdx is a index in m_DielectricPrmsList * the new item will be inserted at this position */ void AddDielectricPrms( int aDielectricPrmsIdx ); /** * Remove a DIELECTRIC_PRMS item from m_DielectricPrmsList * @param aDielectricPrmsIdx is the index of the parameters set * to remove in m_DielectricPrmsList */ void RemoveDielectricPrms( int aDielectricPrmsIdx ); /// @return true if the layer has a meaningful Epsilon R parameter /// namely dielectric layers: dielectric and solder mask bool HasEpsilonRValue() const; /// @return true if the layer has a meaningfully Dielectric Loss parameter /// namely dielectric layers: dielectric and solder mask bool HasLossTangentValue() const; /// @return true if the material is specified bool HasMaterialValue( int aDielectricSubLayer = 0 ) const; /// @return true if the material is editable bool IsMaterialEditable() const; /// @return true if the color is editable bool IsColorEditable() const; /// @return true if Thickness is editable bool IsThicknessEditable() const; /// @return a reasonable default value for a copper layer thickness static int GetCopperDefaultThickness(); /// @return a reasonable default value for a solder mask layer thickness static int GetMaskDefaultThickness(); /// @return a the number of sublayers in a dielectric layer. /// the count is >= 1 (there is at least one layer) int GetSublayersCount() const { return m_DielectricPrmsList.size(); } /// @return a wxString to print/display Epsilon R wxString FormatEpsilonR( int aDielectricSubLayer = 0 ) const; /// @return a wxString to print/display Loss Tangent wxString FormatLossTangent( int aDielectricSubLayer = 0 ) const; /// @return a wxString to print/display a dielectric name wxString FormatDielectricLayerName() const; // Getters: bool IsEnabled() const { return m_enabled; } BOARD_STACKUP_ITEM_TYPE GetType() const { return m_Type; } PCB_LAYER_ID GetBrdLayerId() const { return m_LayerId; } wxString GetLayerName() const { return m_LayerName; } wxString GetTypeName() const { return m_TypeName; } int GetDielectricLayerId() const { return m_DielectricLayerId; } wxString GetColor( int aDielectricSubLayer = 0 ) const; int GetThickness( int aDielectricSubLayer = 0 ) const; bool IsThicknessLocked( int aDielectricSubLayer = 0 ) const; double GetEpsilonR( int aDielectricSubLayer = 0 ) const; double GetLossTangent( int aDielectricSubLayer = 0 ) const; wxString GetMaterial( int aDielectricSubLayer = 0 ) const; // Setters: void SetEnabled( bool aEnable) { m_enabled = aEnable; } void SetBrdLayerId( PCB_LAYER_ID aBrdLayerId ) { m_LayerId = aBrdLayerId; } void SetLayerName( const wxString& aName ) { m_LayerName = aName; } void SetTypeName( const wxString& aName ) { m_TypeName = aName; } void SetDielectricLayerId( int aLayerId ) { m_DielectricLayerId = aLayerId; } void SetColor( const wxString& aColorName, int aDielectricSubLayer = 0 ); void SetThickness( int aThickness, int aDielectricSubLayer = 0 ); void SetThicknessLocked( bool aLocked, int aDielectricSubLayer = 0 ); void SetEpsilonR( double aEpsilon, int aDielectricSubLayer = 0 ); void SetLossTangent( double aTg, int aDielectricSubLayer = 0 ); void SetMaterial( const wxString& aName, int aDielectricSubLayer = 0 ); private: BOARD_STACKUP_ITEM_TYPE m_Type; wxString m_LayerName; /// name of layer as shown in layer manager. Useful to create reports wxString m_TypeName; /// type name of layer (copper, silk screen, core, prepreg ...) PCB_LAYER_ID m_LayerId; /// the layer id (F.Cu to B.Cu, F.Silk, B.silk, F.Mask, B.Mask) /// and UNDEFINED_LAYER (-1) for dielectric layers that are not /// really layers for the board editor int m_DielectricLayerId;/// the "layer" id for dielectric layers, /// from 1 (top) to 31 (bottom) /// (only 31 dielectric layers for 32 copper layers) /// List of dielectric parameters /// usually only one item, but in complex (microwave) boards, one can have /// more than one dielectric layer between 2 copper layers, and therefore /// more than one item in list std::vector m_DielectricPrmsList; bool m_enabled; /// true if this stackup item must be taken in account, /// false to ignore it. Mainly used in dialog stackup editor. }; /** * Manage layers needed to make a physical board. * * They are solder mask, silk screen, copper and dielectric. Some other layers, used in * fabrication, are not managed here because they are not used to make a physical board itself. * * @note There are a few other parameters related to the physical stackup like finish type, * impedance control and a few others. */ class BOARD_STACKUP { public: BOARD_STACKUP(); BOARD_STACKUP( const BOARD_STACKUP& aOther ); BOARD_STACKUP& operator=( const BOARD_STACKUP& aOther ); bool operator==( const BOARD_STACKUP& aOther ) const; bool operator!=( const BOARD_STACKUP& aOther ) const { return !operator==( aOther ); } ~BOARD_STACKUP() { RemoveAll(); } const std::vector& GetList() const { return m_list; } /// @return a reference to the layer aIndex, or nullptr if not exists BOARD_STACKUP_ITEM* GetStackupLayer( int aIndex ); /** * @return the board layers full mask allowed in the stackup list * i.e. the SilkS, Mask, Paste and all copper layers */ static LSET StackupAllowedBrdLayers() { return LSET( 6, F_SilkS, F_Mask, F_Paste, B_SilkS, B_Mask, B_Paste ) | LSET::ExternalCuMask() | LSET::InternalCuMask(); } /// Delete all items in list and clear the list void RemoveAll(); /// @return the number of layers in the stackup int GetCount() const { return (int) m_list.size(); } /// @return the board thickness ( in UI) from the thickness of BOARD_STACKUP_ITEM list int BuildBoardThicknessFromStackup() const; /// Add a new item in stackup layer void Add( BOARD_STACKUP_ITEM* aItem ) { m_list.push_back( aItem ); } /** * Synchronize the BOARD_STACKUP_ITEM* list with the board. * Not enabled layers are removed * Missing layers are added * @param aSettings, is the current board setting. * @return true if changes are made */ bool SynchronizeWithBoard( BOARD_DESIGN_SETTINGS* aSettings ); /** * Create a default stackup, according to the current BOARD_DESIGN_SETTINGS settings. * @param aSettings is the current board setting. * if nullptr, build a full stackup (with 32 copper layers) * @param aActiveCopperLayersCount is used only if aSettings == nullptr is the number * of copper layers to use to calculate a default dielectric thickness. * ((<= 0 to use all copper layers) */ void BuildDefaultStackupList( const BOARD_DESIGN_SETTINGS* aSettings, int aActiveCopperLayersCount = 0 ); /** * Write the stackup info on board file * @param aFormatter is the OUTPUTFORMATTER used to create the file * @param aBoard is the board * @param aNestLevel is the index to nest level to indent the lines in file */ void FormatBoardStackup( OUTPUTFORMATTER* aFormatter, const BOARD* aBoard, int aNestLevel ) const; /** * Calculate the distance (height) between the two given copper layers. * * This factors in the thickness of any dielectric and copper layers between the two given * layers, and half the height of the given start and end layers. This half-height calculation * allows this to be used for consistent length measurements when calculating net length through * a series of vias. A more advanced algorithm would be possible once we have a good concept of * the start and end for a length measurement, but for now this will do. * See https://gitlab.com/kicad/code/kicad/-/issues/8384 for more background. * * @param aFirstLayer is a copper layer * @param aSecondLayer is a different copper layer * @return the height (in IU) between the two layers */ int GetLayerDistance( PCB_LAYER_ID aFirstLayer, PCB_LAYER_ID aSecondLayer ) const; /** * The name of external copper finish */ wxString m_FinishType; /** * True if some layers have impedance controlled tracks or have specific * constrains for micro-wave applications * If the board has dielectric constrains, the .gbrjob will contain * info about dielectric constrains: loss tangent and Epsilon rel. * If not, these values will be not specified in job file. */ bool m_HasDielectricConstrains; /** * True if some layers (copper and/or dielectric) have specific thickness */ bool m_HasThicknessConstrains; /** * If the board has edge connector cards, some constrains can be specified * in job file: * BS_EDGE_CONNECTOR_NONE = no edge connector * BS_EDGE_CONNECTOR_IN_USE = board has edge connectors * BS_EDGE_CONNECTOR_BEVELLED = edge connectors are beveled */ BS_EDGE_CONNECTOR_CONSTRAINTS m_EdgeConnectorConstraints; bool m_CastellatedPads; ///< True if castellated pads exist bool m_EdgePlating; ///< True if the edge board is plated private: // The list of items describing the stackup for fabrication. // this is not just copper layers, but also mask dielectric layers std::vector m_list; }; #endif // BOARD_STACKUP_H