/* (c) Magnus Auvinen. See licence.txt in the root of the distribution for more information. */ /* If you are missing that file, acquire a complete release at teeworlds.com. */ #ifndef GAME_CLIENT_UI_H #define GAME_CLIENT_UI_H #include #include #include #include #include class CUIRect { public: float x, y, w, h; /** * Splits 2 CUIRect inside *this* CUIRect horizontally. You can pass null pointers. * * @param pTop This rect will end up taking the top half of this CUIRect. * @param pBottom This rect will end up taking the bottom half of this CUIRect. * @param Spacing Total size of margin between split rects. */ void HSplitMid(CUIRect *pTop, CUIRect *pBottom, float Spacing = 0.0f) const; /** * Splits 2 CUIRect inside *this* CUIRect. * * The cut parameter determines the height of the top rect, so it allows more customization than HSplitMid. * * This method doesn't check if Cut is bigger than *this* rect height. * * @param Cut The height of the pTop rect. * @param pTop The rect that ends up at the top with a height equal to Cut. * @param pBottom The rect that ends up at the bottom with a height equal to *this* rect minus the Cut. */ void HSplitTop(float Cut, CUIRect *pTop, CUIRect *pBottom) const; /** * Splits 2 CUIRect inside *this* CUIRect. * * The cut parameter determines the height of the bottom rect, so it allows more customization than HSplitMid. * * This method doesn't check if Cut is bigger than *this* rect height. * * @param Cut The height of the pBottom rect. * @param pTop The rect that ends up at the top with a height equal to *this* CUIRect height minus Cut. * @param pBottom The rect that ends up at the bottom with a height equal to Cut. */ void HSplitBottom(float Cut, CUIRect *pTop, CUIRect *pBottom) const; /** * Splits 2 CUIRect inside *this* CUIRect vertically. You can pass null pointers. * * @param pLeft This rect will take up the left half of *this* CUIRect. * @param pRight This rect will take up the right half of *this* CUIRect. * @param Spacing Total size of margin between split rects. */ void VSplitMid(CUIRect *pLeft, CUIRect *pRight, float Spacing = 0.0f) const; /** * Splits 2 CUIRect inside *this* CUIRect. * * The cut parameter determines the width of the left rect, so it allows more customization than VSplitMid. * * This method doesn't check if Cut is bigger than *this* rect width. * * @param Cut The width of the pLeft rect. * @param pLeft The rect that ends up at the left with a width equal to Cut. * @param pRight The rect that ends up at the right with a width equal to *this* rect minus the Cut. */ void VSplitLeft(float Cut, CUIRect *pLeft, CUIRect *pRight) const; /** * Splits 2 CUIRect inside *this* CUIRect. * * The cut parameter determines the width of the right rect, so it allows more customization than VSplitMid. * * This method doesn't check if Cut is bigger than *this* rect width. * * @param Cut The width of the pRight rect. * @param pLeft The rect that ends up at the left with a width equal to *this* CUIRect width minus Cut. * @param pRight The rect that ends up at the right with a width equal to Cut. */ void VSplitRight(float Cut, CUIRect *pLeft, CUIRect *pRight) const; /** * Places pOtherRect inside *this* CUIRect with Cut as the margin. * * @param Cut The margin. * @param pOtherRect The CUIRect to place inside *this* CUIRect. */ void Margin(float Cut, CUIRect *pOtherRect) const; /** * Places pOtherRect inside *this* CUIRect applying Cut as the margin only on the vertical axis. * * @param Cut The margin. * @param pOtherRect The CUIRect to place inside *this* CUIRect */ void VMargin(float Cut, CUIRect *pOtherRect) const; /** * Places pOtherRect inside *this* CUIRect applying Cut as the margin only on the horizontal axis. * * @param Cut The margin. * @param pOtherRect The CUIRect to place inside *this* CUIRect */ void HMargin(float Cut, CUIRect *pOtherRect) const; bool Inside(float x_, float y_) const; }; struct SUIAnimator { bool m_Active; bool m_ScaleLabel; bool m_RepositionLabel; std::chrono::nanoseconds m_Time; float m_Value; float m_XOffset; float m_YOffset; float m_WOffset; float m_HOffset; }; class CUI; class CUIElement { friend class CUI; CUI *m_pUI; CUIElement(CUI *pUI, int RequestedRectCount) { Init(pUI, RequestedRectCount); } public: struct SUIElementRect { CUIElement *m_pParent; public: int m_UIRectQuadContainer; int m_UITextContainer; float m_X; float m_Y; float m_Width; float m_Height; std::string m_Text; CTextCursor m_Cursor; ColorRGBA m_TextColor; ColorRGBA m_TextOutlineColor; SUIElementRect(); ColorRGBA m_QuadColor; void Reset(); void Draw(const CUIRect *pRect, ColorRGBA Color, int Corners, float Rounding); }; protected: CUI *UI() const { return m_pUI; } std::vector m_vUIRects; // used for marquees or other user implemented things int64_t m_ElementTime; public: CUIElement() = default; void Init(CUI *pUI, int RequestedRectCount); SUIElementRect *Get(size_t Index) { return &m_vUIRects[Index]; } bool AreRectsInit() { return !m_vUIRects.empty(); } void InitRects(int RequestedRectCount); }; struct SLabelProperties { float m_MaxWidth = -1; int m_AlignVertically = 1; bool m_StopAtEnd = false; class CTextCursor *m_pSelCursor = nullptr; bool m_EnableWidthCheck = true; }; class CButtonContainer { }; class CUI { bool m_Enabled; const void *m_pHotItem; const void *m_pActiveItem; const void *m_pLastActiveItem; const void *m_pBecomingHotItem; const void *m_pActiveTooltipItem; bool m_ActiveItemValid = false; float m_MouseX, m_MouseY; // in gui space float m_MouseDeltaX, m_MouseDeltaY; // in gui space float m_MouseWorldX, m_MouseWorldY; // in world space unsigned m_MouseButtons; unsigned m_LastMouseButtons; CUIRect m_Screen; std::vector m_vClips; void UpdateClipping(); class IInput *m_pInput; class IGraphics *m_pGraphics; class ITextRender *m_pTextRender; std::vector m_vpOwnUIElements; // ui elements maintained by CUI class std::vector m_vpUIElements; public: static float ms_FontmodHeight; // TODO: Refactor: Fill this in void Init(class IInput *pInput, class IGraphics *pGraphics, class ITextRender *pTextRender); class IInput *Input() const { return m_pInput; } class IGraphics *Graphics() const { return m_pGraphics; } class ITextRender *TextRender() const { return m_pTextRender; } CUI(); ~CUI(); void ResetUIElement(CUIElement &UIElement); CUIElement *GetNewUIElement(int RequestedRectCount); void AddUIElement(CUIElement *pElement); void OnElementsReset(); void OnWindowResize(); void OnLanguageChange(); void SetEnabled(bool Enabled) { m_Enabled = Enabled; } bool Enabled() const { return m_Enabled; } void Update(float MouseX, float MouseY, float MouseWorldX, float MouseWorldY); float MouseDeltaX() const { return m_MouseDeltaX; } float MouseDeltaY() const { return m_MouseDeltaY; } float MouseX() const { return m_MouseX; } float MouseY() const { return m_MouseY; } float MouseWorldX() const { return m_MouseWorldX; } float MouseWorldY() const { return m_MouseWorldY; } int MouseButton(int Index) const { return (m_MouseButtons >> Index) & 1; } int MouseButtonClicked(int Index) const { return MouseButton(Index) && !((m_LastMouseButtons >> Index) & 1); } int MouseButtonReleased(int Index) const { return ((m_LastMouseButtons >> Index) & 1) && !MouseButton(Index); } void SetHotItem(const void *pID) { m_pBecomingHotItem = pID; } void SetActiveItem(const void *pID) { m_ActiveItemValid = true; m_pActiveItem = pID; if(pID) m_pLastActiveItem = pID; } bool CheckActiveItem(const void *pID) { if(m_pActiveItem == pID) { m_ActiveItemValid = true; return true; } return false; } void SetActiveTooltipItem(const void *pID) { m_pActiveTooltipItem = pID; } void ClearLastActiveItem() { m_pLastActiveItem = nullptr; } const void *HotItem() const { return m_pHotItem; } const void *NextHotItem() const { return m_pBecomingHotItem; } const void *ActiveItem() const { return m_pActiveItem; } const void *ActiveTooltipItem() const { return m_pActiveTooltipItem; } const void *LastActiveItem() const { return m_pLastActiveItem; } void StartCheck() { m_ActiveItemValid = false; } void FinishCheck() { if(!m_ActiveItemValid && m_pActiveItem != nullptr) { SetActiveItem(nullptr); m_pHotItem = nullptr; m_pBecomingHotItem = nullptr; } } bool MouseInside(const CUIRect *pRect) const; bool MouseInsideClip() const { return !IsClipped() || MouseInside(ClipArea()); } bool MouseHovered(const CUIRect *pRect) const { return MouseInside(pRect) && MouseInsideClip(); } void ConvertMouseMove(float *pX, float *pY, IInput::ECursorType CursorType) const; float ButtonColorMulActive() { return 0.5f; } float ButtonColorMulHot() { return 1.5f; } float ButtonColorMulDefault() { return 1.0f; } float ButtonColorMul(const void *pID); CUIRect *Screen(); void MapScreen(); float PixelSize(); void ClipEnable(const CUIRect *pRect); void ClipDisable(); const CUIRect *ClipArea() const; inline bool IsClipped() const { return !m_vClips.empty(); } int DoButtonLogic(const void *pID, int Checked, const CUIRect *pRect); int DoPickerLogic(const void *pID, const CUIRect *pRect, float *pX, float *pY); float DoTextLabel(float x, float y, float w, float h, const char *pText, float Size, int Align, const SLabelProperties &LabelProps = {}); void DoLabel(const CUIRect *pRect, const char *pText, float Size, int Align, const SLabelProperties &LabelProps = {}); void DoLabel(CUIElement::SUIElementRect &RectEl, const CUIRect *pRect, const char *pText, float Size, int Align, const SLabelProperties &LabelProps, int StrLen = -1, class CTextCursor *pReadCursor = nullptr); void DoLabelStreamed(CUIElement::SUIElementRect &RectEl, float x, float y, float w, float h, const char *pText, float Size, int Align, float MaxWidth = -1, int AlignVertically = 1, bool StopAtEnd = false, int StrLen = -1, class CTextCursor *pReadCursor = nullptr); void DoLabelStreamed(CUIElement::SUIElementRect &RectEl, const CUIRect *pRect, const char *pText, float Size, int Align, float MaxWidth = -1, int AlignVertically = 1, bool StopAtEnd = false, int StrLen = -1, class CTextCursor *pReadCursor = nullptr); }; #endif