Rewritten. Note that the implementation for this class seems to be completely
missing. IIRC, I did write an app way back that used this class... +alphabranch git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@32713 a95241bf-73f2-0310-859d-f6bbb57e9c96
This commit is contained in:
Stephan Aßmus
parent
f437d20ef3
commit
a744468925
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@ -1,165 +1,131 @@
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/*******************************************************************************
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/
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/ File: MultiChannelControl.h
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/
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/ Description: BMultiChannelControl is the base class for controls that
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/ have several independent values, with minima and maxima.
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/
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/ Copyright 1998-99, Be Incorporated, All Rights Reserved
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/
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*******************************************************************************/
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#if !defined(_MULTI_CHANNEL_CONTROL_H)
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/*
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* Copyright 2009, Haiku Inc. All rights reserved.
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* Distributed under the terms of the MIT license.
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*/
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#ifndef _MULTI_CHANNEL_CONTROL_H
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#define _MULTI_CHANNEL_CONTROL_H
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#include <Control.h>
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class BMultiChannelControl :
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public BControl
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{
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class BMultiChannelControl : public BControl {
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public:
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BMultiChannelControl(
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BRect frame,
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const char * name,
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const char * label,
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BMessage * model,
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int32 channel_count = 1,
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uint32 resize = B_FOLLOW_LEFT | B_FOLLOW_TOP,
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uint32 flags = B_WILL_DRAW);
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BMultiChannelControl(
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BMessage * from);
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virtual ~BMultiChannelControl();
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virtual status_t Archive(
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BMessage * into,
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bool deep = true) const;
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BMultiChannelControl(BRect frame,
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const char* name, const char* label,
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BMessage* message, int32 channelCount = 1,
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uint32 resize = B_FOLLOW_LEFT
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| B_FOLLOW_TOP,
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uint32 flags = B_WILL_DRAW);
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BMultiChannelControl(BMessage* archive);
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virtual ~BMultiChannelControl();
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virtual void Draw(
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BRect area) = 0;
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virtual void MouseDown(
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BPoint where) = 0;
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virtual void KeyDown(
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const char * bytes,
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int32 size) = 0;
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virtual status_t Archive(BMessage* archive,
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bool deep = true) const;
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virtual void FrameResized(
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float width,
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float height);
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virtual void SetFont(
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const BFont * font,
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uint32 mask = B_FONT_ALL);
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virtual void AttachedToWindow();
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virtual void DetachedFromWindow();
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virtual void ResizeToPreferred();
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virtual void GetPreferredSize(
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float * width,
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float * height) = 0;
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virtual void MessageReceived(
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BMessage * message);
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virtual void Draw(BRect updateRect) = 0;
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virtual void MouseDown(BPoint where) = 0;
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virtual void KeyDown(const char* bytes, int32 numBytes) = 0;
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virtual void SetValue( /* SetValueChannel() determines which channel */
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int32 value);
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virtual status_t SetCurrentChannel(
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int32 channel);
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int32 CurrentChannel() const;
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virtual void FrameResized(float width, float height);
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virtual void SetFont(const BFont* font,
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uint32 mask = B_FONT_ALL);
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virtual int32 CountChannels() const;
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virtual int32 MaxChannelCount() const = 0;
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virtual status_t SetChannelCount(
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int32 channel_count);
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int32 ValueFor(
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int32 channel) const;
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virtual int32 GetValues(
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int32 * out_values,
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int32 from_channel,
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int32 channel_count) const;
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status_t SetValueFor(
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int32 channel,
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int32 value);
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virtual status_t SetValues(
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int32 from_channel,
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int32 channel_count,
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const int32 * in_values);
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status_t SetAllValues(
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int32 values);
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status_t SetLimitsFor(
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int32 channel,
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int32 minimum,
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int32 maximum);
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status_t GetLimitsFor(
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int32 channel,
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int32 * minimum,
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int32 * maximum) const ;
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virtual status_t SetLimits(
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int32 from_channel,
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int32 channel_count,
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const int32 * minimum,
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const int32 * maximum);
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virtual status_t GetLimits(
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int32 from_channel,
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int32 channel_count,
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int32 * minimum,
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int32 * maximum) const;
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status_t SetAllLimits(
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int32 minimum,
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int32 maximum);
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virtual void AttachedToWindow();
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virtual void DetachedFromWindow();
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virtual void ResizeToPreferred();
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virtual void GetPreferredSize(float* _width,
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float* _height) = 0;
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virtual status_t SetLimitLabels(
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const char * min_label,
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const char * max_label);
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const char * MinLimitLabel() const;
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const char * MaxLimitLabel() const;
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virtual void MessageReceived(BMessage* message);
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//! SetValueChannel() determines which channel
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virtual void SetValue(int32 value);
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virtual status_t SetCurrentChannel(int32 channel);
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int32 CurrentChannel() const;
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virtual int32 CountChannels() const;
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virtual int32 MaxChannelCount() const = 0;
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virtual status_t SetChannelCount(int32 channelCount);
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int32 ValueFor(int32 channel) const;
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virtual int32 GetValues(int32* _values, int32 firstChannel,
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int32 channelCount) const;
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status_t SetValueFor(int32 channel, int32 value);
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virtual status_t SetValues(int32 firstChannel,
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int32 channelCount, const int32* _values);
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status_t SetAllValues(int32 values);
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status_t SetLimitsFor(int32 channel, int32 minimum,
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int32 maximum);
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status_t GetLimitsFor(int32 channel, int32* _minimum,
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int32* _maximum) const;
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virtual status_t SetLimits(int32 firstChannel,
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int32 channelCount, const int32* minimum,
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const int32* maximum);
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virtual status_t GetLimits(int32 firstChannel,
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int32 channelCount, int32* _minimum,
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int32* _maximum) const;
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status_t SetAllLimits(int32 minimum, int32 maximum);
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virtual status_t SetLimitLabels(const char* minLabel,
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const char* maxLabel);
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const char* MinLimitLabel() const;
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const char* MaxLimitLabel() const;
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private:
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// FBC padding
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virtual status_t _Reserverd_MultiChannelControl_0(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_1(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_2(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_3(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_4(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_5(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_6(void*, ...);
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virtual status_t _Reserverd_MultiChannelControl_7(void*, ...);
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// Forbidden
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BMultiChannelControl(
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const BMultiChannelControl&);
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BMultiChannelControl& operator=(const BMultiChannelControl&);
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BMultiChannelControl( /* unimplemented */
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const BMultiChannelControl &);
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BMultiChannelControl & operator=( /* unimplemented */
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const BMultiChannelControl &);
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virtual status_t _Reserverd_MultiChannelControl_0(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_1(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_2(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_3(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_4(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_5(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_6(void *, ...);
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virtual status_t _Reserverd_MultiChannelControl_7(void *, ...);
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protected:
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inline int32 * const & MinLimitList() const;
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inline int32 * const & MaxLimitList() const;
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inline int32 * const & ValueList() const;
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inline int32* const& MinLimitList() const;
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inline int32* const& MaxLimitList() const;
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inline int32* const& ValueList() const;
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private:
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int32 fChannelCount;
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int32 fValueChannel;
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int32* fChannelMinima;
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int32* fChannelMaxima;
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int32* fChannelValues;
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char* fMinLabel;
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char* fMaxLabel;
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int32 _m_channel_count;
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int32 _m_value_channel;
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int32 * _m_channel_min;
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int32 * _m_channel_max;
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int32 * _m_channel_val;
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char * _m_min_label;
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char * _m_max_label;
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uint32 _reserved_[16];
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uint32 _reserved_[16];
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};
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inline int32 * const & BMultiChannelControl::MinLimitList() const
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{
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return _m_channel_min;
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}
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inline int32 * const & BMultiChannelControl::MaxLimitList() const
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inline int32* const&
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BMultiChannelControl::MinLimitList() const
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{
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return _m_channel_max;
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}
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inline int32 * const & BMultiChannelControl::ValueList() const
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{
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return _m_channel_val;
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return fChannelMinima;
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}
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#endif /* _MULTI_CHANNEL_CONTROL_H */
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inline int32* const&
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BMultiChannelControl::MaxLimitList() const
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{
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return fChannelMaxima;
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}
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inline int32* const&
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BMultiChannelControl::ValueList() const
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{
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return fChannelValues;
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}
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#endif // _MULTI_CHANNEL_CONTROL_H
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