/* * Copyright (C) 2008-2009 Haiku, Inc. All rights reserved. * Distributed under the terms of the MIT license. */ #ifndef _CHANNEL_CONTROL_H #define _CHANNEL_CONTROL_H //! BChannelControl is the base class for controls that have several // independent values, with minima and maxima. #include #include class BChannelControl : public BControl { public: BChannelControl(BRect frame, const char* name, const char* label, BMessage* model, int32 channelCount = 1, uint32 resizeFlags = B_FOLLOW_LEFT | B_FOLLOW_TOP, uint32 viewFlags = B_WILL_DRAW); BChannelControl(const char* name, const char* label, BMessage* model, int32 channelCount = 1, uint32 viewFlags = B_WILL_DRAW); BChannelControl(BMessage* archive); virtual ~BChannelControl(); virtual status_t Archive(BMessage* into, bool deep = true) const; virtual void Draw(BRect updateRect) = 0; virtual void MouseDown(BPoint where) = 0; virtual void KeyDown(const char* bytes, int32 size) = 0; virtual void FrameResized(float width, float height); virtual void SetFont(const BFont* font, uint32 mask = B_FONT_ALL); virtual void AttachedToWindow(); virtual void DetachedFromWindow(); virtual void ResizeToPreferred(); virtual void GetPreferredSize(float* width, float* height) = 0; virtual void MessageReceived(BMessage* message); virtual BHandler* ResolveSpecifier(BMessage* message, int32 index, BMessage* specifier, int32 form, const char* property); virtual status_t GetSupportedSuites(BMessage* data); virtual void SetModificationMessage(BMessage* message); BMessage* ModificationMessage() const; virtual status_t Invoke(BMessage* withMessage = NULL); //! These methods are similar to Invoke() Invoke() and InvokeNotify(), but // include additional information about all of the channels in the control. virtual status_t InvokeChannel(BMessage* message = NULL, int32 fromChannel = 0, int32 channelCount = -1, const bool* _mask = NULL); status_t InvokeNotifyChannel(BMessage* message = NULL, uint32 kind = B_CONTROL_INVOKED, int32 fromChannel = 0, int32 channelCount = -1, const bool* _mask = NULL); virtual void SetValue(int32 value); // SetCurrentChannel() determines which channel virtual status_t SetCurrentChannel(int32 index); int32 CurrentChannel() const; virtual int32 CountChannels() const; virtual int32 MaxChannelCount() const = 0; virtual status_t SetChannelCount(int32 count); int32 ValueFor(int32 channel) const; virtual int32 GetValue(int32* _values, int32 fromChannel, int32 channelCount) const; status_t SetValueFor(int32 channel, int32 value); virtual status_t SetValue(int32 fromChannel, int32 channelCount, const int32* values); status_t SetAllValue(int32 values); status_t SetLimitsFor(int32 channel, int32 minimum, int32 maximum); status_t GetLimitsFor(int32 channel, int32* _minimum, int32* _maximum) const ; virtual status_t SetLimitsFor(int32 fromChannel, int32 channelCount, const int32* minima, const int32* maxima); virtual status_t GetLimitsFor(int32 fromChannel, int32 channelCount, int32* minima, int32* maxima) const; status_t SetLimits(int32 minimum, int32 maximum); status_t GetLimits(int32* _minimum, int32* _maximum) const; virtual bool SupportsIndividualLimits() const = 0; virtual status_t SetLimitLabels(const char* minLabel, const char* maxLabel); const char* MinLimitLabel() const; const char* MaxLimitLabel() const; virtual status_t SetLimitLabelsFor(int32 channel, const char* minLabel, const char* maxLabel); virtual status_t SetLimitLabelsFor(int32 fromChannel, int32 channelCount, const char* minLabel, const char* maxLabel); const char* MinLimitLabelFor(int32 channel) const; const char* MaxLimitLabelFor(int32 channel) const; private: // Forbidden (and unimplemented) BChannelControl(const BChannelControl& other); BChannelControl& operator=(const BChannelControl& other); virtual void _Reserverd_ChannelControl_0(void *, ...); virtual void _Reserverd_ChannelControl_1(void *, ...); virtual void _Reserverd_ChannelControl_2(void *, ...); virtual void _Reserverd_ChannelControl_3(void *, ...); virtual void _Reserverd_ChannelControl_4(void *, ...); virtual void _Reserverd_ChannelControl_5(void *, ...); virtual void _Reserverd_ChannelControl_6(void *, ...); virtual void _Reserverd_ChannelControl_7(void *, ...); virtual void _Reserverd_ChannelControl_8(void *, ...); virtual void _Reserverd_ChannelControl_9(void *, ...); virtual void _Reserverd_ChannelControl_10(void *, ...); virtual void _Reserverd_ChannelControl_11(void *, ...); protected: inline int32* const& MinLimitList() const; inline int32* const& MaxLimitList() const; inline int32* const& ValueList() const; private: int32 fChannelCount; int32 fCurrentChannel; int32* fChannelMin; int32* fChannelMax; int32* fChannelValues; BString fMinLabel; BString fMaxLabel; void* fMultiLabels; BMessage* fModificationMsg; uint32 _reserved_[15]; status_t StuffValues(int32 fromChannel, int32 channelCount, const int32* values); }; inline int32* const& BChannelControl::MinLimitList() const { return fChannelMin; } inline int32* const& BChannelControl::MaxLimitList() const { return fChannelMax; } inline int32* const& BChannelControl::ValueList() const { return fChannelValues; } #endif // _CHANNEL_CONTROL_H