wxWidgets/include/wx/valnum.h
Vadim Zeitlin f4b80e5337 Remove MSVC6 support.
Don't support this compiler any more, this allows to get rid of tons of
MSVC6-specific workarounds, in particular we can now use Bind() and natural
template functions calls in the library code.

Also remove MSVC6 project and solution files and don't generate them when
bakefile_gen is ran any more (removing the remaining occurrences of msvc6prj
from the bakefiles results in weird bake-time errors, so it's simpler to just
leave them there).

git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@76532 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
2014-05-15 22:32:17 +00:00

458 lines
14 KiB
C++

/////////////////////////////////////////////////////////////////////////////
// Name: wx/valnum.h
// Purpose: Numeric validator classes.
// Author: Vadim Zeitlin based on the submission of Fulvio Senore
// Created: 2010-11-06
// Copyright: (c) 2010 wxWidgets team
// (c) 2011 Vadim Zeitlin <vadim@wxwidgets.org>
// Licence: wxWindows licence
/////////////////////////////////////////////////////////////////////////////
#ifndef _WX_VALNUM_H_
#define _WX_VALNUM_H_
#include "wx/defs.h"
#if wxUSE_VALIDATORS
#include "wx/validate.h"
#include <limits>
// Bit masks used for numeric validator styles.
enum wxNumValidatorStyle
{
wxNUM_VAL_DEFAULT = 0x0,
wxNUM_VAL_THOUSANDS_SEPARATOR = 0x1,
wxNUM_VAL_ZERO_AS_BLANK = 0x2,
wxNUM_VAL_NO_TRAILING_ZEROES = 0x4
};
// ----------------------------------------------------------------------------
// Base class for all numeric validators.
// ----------------------------------------------------------------------------
class WXDLLIMPEXP_CORE wxNumValidatorBase : public wxValidator
{
public:
// Change the validator style. Usually it's specified during construction.
void SetStyle(int style) { m_style = style; }
// Override base class method to not do anything but always return success:
// we don't need this as we do our validation on the fly here.
virtual bool Validate(wxWindow * WXUNUSED(parent)) { return true; }
protected:
wxNumValidatorBase(int style)
{
m_style = style;
}
wxNumValidatorBase(const wxNumValidatorBase& other) : wxValidator()
{
m_style = other.m_style;
}
bool HasFlag(wxNumValidatorStyle style) const
{
return (m_style & style) != 0;
}
// Get the text entry of the associated control. Normally shouldn't ever
// return NULL (and will assert if it does return it) but the caller should
// still test the return value for safety.
wxTextEntry *GetTextEntry() const;
// Convert wxNUM_VAL_THOUSANDS_SEPARATOR and wxNUM_VAL_NO_TRAILING_ZEROES
// bits of our style to the corresponding wxNumberFormatter::Style values.
int GetFormatFlags() const;
// Return true if pressing a '-' key is acceptable for the current control
// contents and insertion point. This is meant to be called from the
// derived class IsCharOk() implementation.
bool IsMinusOk(const wxString& val, int pos) const;
// Return the string which would result from inserting the given character
// at the specified position.
wxString GetValueAfterInsertingChar(wxString val, int pos, wxChar ch) const
{
val.insert(pos, ch);
return val;
}
private:
// Check whether the specified character can be inserted in the control at
// the given position in the string representing the current controls
// contents.
//
// Notice that the base class checks for '-' itself so it's never passed to
// this function.
virtual bool IsCharOk(const wxString& val, int pos, wxChar ch) const = 0;
// NormalizeString the contents of the string if it's a valid number, return
// empty string otherwise.
virtual wxString NormalizeString(const wxString& s) const = 0;
// Event handlers.
void OnChar(wxKeyEvent& event);
void OnKillFocus(wxFocusEvent& event);
// Determine the current insertion point and text in the associated control.
void GetCurrentValueAndInsertionPoint(wxString& val, int& pos) const;
// Combination of wxVAL_NUM_XXX values.
int m_style;
wxDECLARE_EVENT_TABLE();
wxDECLARE_NO_ASSIGN_CLASS(wxNumValidatorBase);
};
namespace wxPrivate
{
// This is a helper class used by wxIntegerValidator and wxFloatingPointValidator
// below that implements Transfer{To,From}Window() adapted to the type of the
// variable.
//
// The template argument B is the name of the base class which must derive from
// wxNumValidatorBase and define LongestValueType type and {To,As}String()
// methods i.e. basically be one of wx{Integer,Number}ValidatorBase classes.
//
// The template argument T is just the type handled by the validator that will
// inherit from this one.
template <class B, typename T>
class wxNumValidator : public B
{
public:
typedef B BaseValidator;
typedef T ValueType;
typedef typename BaseValidator::LongestValueType LongestValueType;
wxCOMPILE_TIME_ASSERT
(
sizeof(ValueType) <= sizeof(LongestValueType),
UnsupportedType
);
void SetMin(ValueType min)
{
this->DoSetMin(min);
}
void SetMax(ValueType max)
{
this->DoSetMax(max);
}
void SetRange(ValueType min, ValueType max)
{
SetMin(min);
SetMax(max);
}
virtual bool TransferToWindow()
{
if ( m_value )
{
wxTextEntry * const control = BaseValidator::GetTextEntry();
if ( !control )
return false;
control->SetValue(NormalizeValue(*m_value));
}
return true;
}
virtual bool TransferFromWindow()
{
if ( m_value )
{
wxTextEntry * const control = BaseValidator::GetTextEntry();
if ( !control )
return false;
const wxString s(control->GetValue());
LongestValueType value;
if ( s.empty() && BaseValidator::HasFlag(wxNUM_VAL_ZERO_AS_BLANK) )
value = 0;
else if ( !BaseValidator::FromString(s, &value) )
return false;
if ( !this->IsInRange(value) )
return false;
*m_value = static_cast<ValueType>(value);
}
return true;
}
protected:
wxNumValidator(ValueType *value, int style)
: BaseValidator(style),
m_value(value)
{
}
// Implement wxNumValidatorBase virtual method which is the same for
// both integer and floating point numbers.
virtual wxString NormalizeString(const wxString& s) const
{
LongestValueType value;
return BaseValidator::FromString(s, &value) ? NormalizeValue(value)
: wxString();
}
private:
// Just a helper which is a common part of TransferToWindow() and
// NormalizeString(): returns string representation of a number honouring
// wxNUM_VAL_ZERO_AS_BLANK flag.
wxString NormalizeValue(LongestValueType value) const
{
wxString s;
if ( value != 0 || !BaseValidator::HasFlag(wxNUM_VAL_ZERO_AS_BLANK) )
s = this->ToString(value);
return s;
}
ValueType * const m_value;
wxDECLARE_NO_ASSIGN_CLASS(wxNumValidator);
};
} // namespace wxPrivate
// ----------------------------------------------------------------------------
// Validators for integer numbers.
// ----------------------------------------------------------------------------
// Base class for integer numbers validator. This class contains all non
// type-dependent code of wxIntegerValidator<> and always works with values of
// type LongestValueType. It is not meant to be used directly, please use
// wxIntegerValidator<> only instead.
class WXDLLIMPEXP_CORE wxIntegerValidatorBase : public wxNumValidatorBase
{
protected:
// Define the type we use here, it should be the maximal-sized integer type
// we support to make it possible to base wxIntegerValidator<> for any type
// on it.
#ifdef wxLongLong_t
typedef wxLongLong_t LongestValueType;
#else
typedef long LongestValueType;
#endif
wxIntegerValidatorBase(int style)
: wxNumValidatorBase(style)
{
wxASSERT_MSG( !(style & wxNUM_VAL_NO_TRAILING_ZEROES),
"This style doesn't make sense for integers." );
}
wxIntegerValidatorBase(const wxIntegerValidatorBase& other)
: wxNumValidatorBase(other)
{
m_min = other.m_min;
m_max = other.m_max;
}
// Provide methods for wxNumValidator use.
wxString ToString(LongestValueType value) const;
static bool FromString(const wxString& s, LongestValueType *value);
void DoSetMin(LongestValueType min) { m_min = min; }
void DoSetMax(LongestValueType max) { m_max = max; }
bool IsInRange(LongestValueType value) const
{
return m_min <= value && value <= m_max;
}
// Implement wxNumValidatorBase pure virtual method.
virtual bool IsCharOk(const wxString& val, int pos, wxChar ch) const;
private:
// Minimal and maximal values accepted (inclusive).
LongestValueType m_min, m_max;
wxDECLARE_NO_ASSIGN_CLASS(wxIntegerValidatorBase);
};
// Validator for integer numbers. It can actually work with any integer type
// (short, int or long and long long if supported) and their unsigned versions
// as well.
template <typename T>
class wxIntegerValidator
: public wxPrivate::wxNumValidator<wxIntegerValidatorBase, T>
{
public:
typedef T ValueType;
typedef
wxPrivate::wxNumValidator<wxIntegerValidatorBase, T> Base;
// Ctor for an integer validator.
//
// Sets the range appropriately for the type, including setting 0 as the
// minimal value for the unsigned types.
wxIntegerValidator(ValueType *value = NULL, int style = wxNUM_VAL_DEFAULT)
: Base(value, style)
{
this->DoSetMin(std::numeric_limits<ValueType>::min());
this->DoSetMax(std::numeric_limits<ValueType>::max());
}
virtual wxObject *Clone() const { return new wxIntegerValidator(*this); }
private:
wxDECLARE_NO_ASSIGN_CLASS(wxIntegerValidator);
};
// Helper function for creating integer validators which allows to avoid
// explicitly specifying the type as it deduces it from its parameter.
template <typename T>
inline wxIntegerValidator<T>
wxMakeIntegerValidator(T *value, int style = wxNUM_VAL_DEFAULT)
{
return wxIntegerValidator<T>(value, style);
}
// ----------------------------------------------------------------------------
// Validators for floating point numbers.
// ----------------------------------------------------------------------------
// Similar to wxIntegerValidatorBase, this class is not meant to be used
// directly, only wxFloatingPointValidator<> should be used in the user code.
class WXDLLIMPEXP_CORE wxFloatingPointValidatorBase : public wxNumValidatorBase
{
public:
// Set precision i.e. the number of digits shown (and accepted on input)
// after the decimal point. By default this is set to the maximal precision
// supported by the type handled by the validator.
void SetPrecision(unsigned precision) { m_precision = precision; }
protected:
// Notice that we can't use "long double" here because it's not supported
// by wxNumberFormatter yet, so restrict ourselves to just double (and
// float).
typedef double LongestValueType;
wxFloatingPointValidatorBase(int style)
: wxNumValidatorBase(style)
{
}
wxFloatingPointValidatorBase(const wxFloatingPointValidatorBase& other)
: wxNumValidatorBase(other)
{
m_precision = other.m_precision;
m_min = other.m_min;
m_max = other.m_max;
}
// Provide methods for wxNumValidator use.
wxString ToString(LongestValueType value) const;
static bool FromString(const wxString& s, LongestValueType *value);
void DoSetMin(LongestValueType min) { m_min = min; }
void DoSetMax(LongestValueType max) { m_max = max; }
bool IsInRange(LongestValueType value) const
{
return m_min <= value && value <= m_max;
}
// Implement wxNumValidatorBase pure virtual method.
virtual bool IsCharOk(const wxString& val, int pos, wxChar ch) const;
private:
// Maximum number of decimals digits after the decimal separator.
unsigned m_precision;
// Minimal and maximal values accepted (inclusive).
LongestValueType m_min, m_max;
wxDECLARE_NO_ASSIGN_CLASS(wxFloatingPointValidatorBase);
};
// Validator for floating point numbers. It can be used with float, double or
// long double values.
template <typename T>
class wxFloatingPointValidator
: public wxPrivate::wxNumValidator<wxFloatingPointValidatorBase, T>
{
public:
typedef T ValueType;
typedef wxPrivate::wxNumValidator<wxFloatingPointValidatorBase, T> Base;
// Ctor using implicit (maximal) precision for this type.
wxFloatingPointValidator(ValueType *value = NULL,
int style = wxNUM_VAL_DEFAULT)
: Base(value, style)
{
DoSetMinMax();
this->SetPrecision(std::numeric_limits<ValueType>::digits10);
}
// Ctor specifying an explicit precision.
wxFloatingPointValidator(int precision,
ValueType *value = NULL,
int style = wxNUM_VAL_DEFAULT)
: Base(value, style)
{
DoSetMinMax();
this->SetPrecision(precision);
}
virtual wxObject *Clone() const
{
return new wxFloatingPointValidator(*this);
}
private:
void DoSetMinMax()
{
// NB: Do not use min(), it's not the smallest representable value for
// the floating point types but rather the smallest representable
// positive value.
this->DoSetMin(-std::numeric_limits<ValueType>::max());
this->DoSetMax( std::numeric_limits<ValueType>::max());
}
};
// Helper similar to wxMakeIntValidator().
//
// NB: Unfortunately we can't just have a wxMakeNumericValidator() which would
// return either wxIntegerValidator<> or wxFloatingPointValidator<> so we
// do need two different functions.
template <typename T>
inline wxFloatingPointValidator<T>
wxMakeFloatingPointValidator(T *value, int style = wxNUM_VAL_DEFAULT)
{
return wxFloatingPointValidator<T>(value, style);
}
template <typename T>
inline wxFloatingPointValidator<T>
wxMakeFloatingPointValidator(int precision, T *value, int style = wxNUM_VAL_DEFAULT)
{
return wxFloatingPointValidator<T>(precision, value, style);
}
#endif // wxUSE_VALIDATORS
#endif // _WX_VALNUM_H_