CompositeFontFamily.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / Orcas / NetFXw7 / wpf / src / Core / CSharp / MS / Internal / Shaping / CompositeFontFamily.cs / 1 / CompositeFontFamily.cs

                            //------------------------------------------------------------------------ 
//
//  Microsoft Windows Client Platform
//  Copyright (C) Microsoft Corporation, 2002
// 
//  File:      CompositeFontFamily.cs
// 
//  Contents:  Composite font family 
//
//  Created:   5-25-2003 Worachai Chaoweeraprasit (wchao) 
//
//-----------------------------------------------------------------------

using System; 
using System.Globalization;
using System.Collections; 
using System.Collections.Generic; 
using System.Diagnostics;
using System.Security; 
using System.Windows;
using System.Windows.Markup;    // for XmlLanguage
using System.Windows.Media;
using System.Windows.Media.TextFormatting; 

using MS.Internal.FontCache; 
using MS.Internal.FontFace; 
using MS.Internal.TextFormatting;
using FontFamily = System.Windows.Media.FontFamily; 
using SR=MS.Internal.PresentationCore.SR;
using SRID=MS.Internal.PresentationCore.SRID;

namespace MS.Internal.Shaping 
{
    ///  
    /// Composite font family 
    /// 
    internal sealed class CompositeFontFamily : IFontFamily 
    {
        private CompositeFontInfo   _fontInfo;

        private IFontFamily         _firstFontFamily; 

        #region Constructors 
 
        /// 
        /// Construct a default composite font family 
        /// 
        internal CompositeFontFamily()
            : this(new CompositeFontInfo())
        {} 

 
        ///  
        /// Construct a composite font family from composite font info
        ///  
        internal CompositeFontFamily(CompositeFontInfo fontInfo)
        {
            _fontInfo = fontInfo;
        } 

 
        ///  
        /// Construct a composite font family with a single target family name
        ///  
        internal CompositeFontFamily(
            string      friendlyName
            ) :
            this( 
                friendlyName,
                null    // firstFontFamily 
                ) 
        {}
 

        /// 
        /// Construct a composite font family with a single target family name
        /// after the first font family in the target family is known 
        /// 
        ///  
        /// Critical - as this accesses _firstFontFamily which is marked critical. 
        /// Safe - as this doesn't expose it.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        internal CompositeFontFamily(
            string          friendlyName,
            IFontFamily     firstFontFamily 
            ) :
            this() 
        { 
            FamilyMaps.Add(
                new FontFamilyMap( 
                    0, FontFamilyMap.LastUnicodeScalar,
                    null, // any language
                    friendlyName,
                    1     // scaleInEm 
                    )
                ); 
 

            _firstFontFamily = firstFontFamily; 
        }

        #endregion
 
        #region IFontFamily properties
 
 
        /// 
        /// Font family name table indexed by culture 
        /// 
        IDictionary IFontFamily.Names
        {
            get 
            {
                return _fontInfo.FamilyNames; 
            } 
        }
 
        /// 
        /// Distance from character cell top to English baseline relative to em size.
        /// 
        public double Baseline 
        {
            get 
            { 
                if(_fontInfo.Baseline == 0)
                { 
                    _fontInfo.Baseline = GetFirstFontFamily().Baseline;
                }
                return _fontInfo.Baseline;
            } 
        }
 
        public void SetBaseline(double value) 
        {
            _fontInfo.Baseline = value; 
        }

        /// 
        /// Recommended baseline-to-baseline distance for text in this font. 
        /// 
        public double LineSpacing 
        { 
            get
            { 
                if (_fontInfo.LineSpacing == 0)
                {
                    _fontInfo.LineSpacing = GetFirstFontFamily().LineSpacing;
                } 
                return _fontInfo.LineSpacing;
            } 
        } 

        public void SetLineSpacing(double value) 
        {
            _fontInfo.LineSpacing = value;
        }
 
        /// 
        /// Get typeface metrics of the specified typeface 
        ///  
        ITypefaceMetrics IFontFamily.GetTypefaceMetrics(
            FontStyle       style, 
            FontWeight      weight,
            FontStretch     stretch
            )
        { 
            if (_fontInfo.FamilyTypefaces == null &&
                _fontInfo.FamilyMaps.Count == 1 && 
                _fontInfo.FamilyMaps[0].IsSimpleFamilyMap) 
            {
                // Typical e.g. "MyFont, sans-serif" 
                return GetFirstFontFamily().GetTypefaceMetrics(style, weight, stretch);
            }

            return FindTypefaceMetrics(style, weight, stretch); 
        }
 
 
        /// 
        /// Look up device font for the typeface. 
        /// 
        IDeviceFont IFontFamily.GetDeviceFont(FontStyle style, FontWeight weight, FontStretch stretch)
        {
            FamilyTypeface bestFace = FindExactFamilyTypeface(style, weight, stretch); 

            if (bestFace != null && bestFace.DeviceFontName != null) 
                return bestFace; 
            else
                return null; 
        }


        ///  
        /// Get family name correspondent to the first n-characters of the specified character string
        ///  
        bool IFontFamily.GetMapTargetFamilyNameAndScale( 
            CharacterBufferRange unicodeString,
            CultureInfo culture, 
            CultureInfo digitCulture,
            double defaultSizeInEm,
            out int cchAdvance,
            out string targetFamilyName, 
            out double scaleInEm
            ) 
        { 
            Invariant.Assert(unicodeString.CharacterBuffer != null && unicodeString.Length > 0);
            Invariant.Assert(culture != null); 

            // Get the family map. This will find the first family map that matches
            // the specified culture, an ancestor neutral culture, or "any" culture.
            FontFamilyMap familyMap = GetTargetFamilyMap( 
                unicodeString,
                culture, 
                digitCulture, 
                out cchAdvance
                ); 

            // Return the values for the matching FontFamilyMap. If there is none this is
            // FontFamilyMap.Default which has Target == null and Scale == 1.0.
            targetFamilyName = familyMap.Target; 
            scaleInEm = familyMap.Scale;
 
            return true; 
        }
 
        ICollection IFontFamily.GetTypefaces(FontFamilyIdentifier familyIdentifier)
        {
            throw new NotImplementedException();
        } 

        #endregion 
 
        #region collections exposed by FontFamily
 
        internal LanguageSpecificStringDictionary FamilyNames
        {
            get { return _fontInfo.FamilyNames; }
        } 

        internal FamilyTypefaceCollection FamilyTypefaces 
        { 
            get { return _fontInfo.GetFamilyTypefaceList(); }
        } 

        internal FontFamilyMapCollection FamilyMaps
        {
            get { return _fontInfo.FamilyMaps; } 
        }
 
        #endregion 

        private FontFamilyMap GetTargetFamilyMap( 
            CharacterBufferRange unicodeString,
            CultureInfo culture,
            CultureInfo digitCulture,
            out int cchAdvance 
            )
        { 
            DigitMap digitMap = new DigitMap(digitCulture); 
            ushort[] familyMaps = _fontInfo.GetFamilyMapsOfLanguage(XmlLanguage.GetLanguage(culture.IetfLanguageTag));
 
            int sizeofChar = 0;
            int ch = 0;

            // skip all the leading joinder characters. They need to be shaped with the 
            // surrounding strong characters.
            cchAdvance = Classification.AdvanceWhile(unicodeString, ItemClass.JoinerClass); 
 
            if (cchAdvance >= unicodeString.Length)
            { 
                // It is rare that the run only contains joiner characters.
                // If it really happens, just map them to the initial family map.
                return _fontInfo.GetFamilyMapOfChar(
                    familyMaps, 
                    Classification.UnicodeScalar(unicodeString, out sizeofChar)
                    ); 
            } 

            // 
            // If the run starts with combining marks, we will not be able to find base characters for them
            // within the run. These combining marks will be mapped to their best fonts as normal characters.
            //
            ch = Classification.UnicodeScalar( 
                new CharacterBufferRange(unicodeString, cchAdvance, unicodeString.Length - cchAdvance),
                out sizeofChar 
                ); 

            bool hasBaseChar = !Classification.IsCombining(ch); 

            ch = digitMap[ch];
            FontFamilyMap familyMap = _fontInfo.GetFamilyMapOfChar(familyMaps, ch);
 
            Invariant.Assert(familyMap != null);
 
            for (cchAdvance += sizeofChar; cchAdvance < unicodeString.Length; cchAdvance += sizeofChar) 
            {
                ch = Classification.UnicodeScalar( 
                        new CharacterBufferRange(unicodeString, cchAdvance, unicodeString.Length - cchAdvance),
                        out sizeofChar
                     );
 
                if (Classification.IsJoiner(ch))
                    continue; // continue to advance if current char is a joiner 
 
                if (!Classification.IsCombining(ch))
                { 
                    hasBaseChar = true;
                }
                else if (hasBaseChar)
                { 
                    continue; // continue to advance for combining mark with base char
                } 
 
                ch = digitMap[ch];
 
                if (_fontInfo.GetFamilyMapOfChar(familyMaps, ch) != familyMap)
                    break;
            }
 
            return familyMap;
        } 
 

        ///  
        /// Get the first font family of the first target family name
        /// 
        private IFontFamily GetFirstFontFamily()
        { 
            if(_firstFontFamily == null)
            { 
                if (_fontInfo.FamilyMaps.Count != 0) 
                {
                    _firstFontFamily = FontFamily.FindFontFamilyFromFriendlyNameList(_fontInfo.FamilyMaps[0].Target); 
                }
                else
                {
                    _firstFontFamily = FontFamily.LookupFontFamily(FontFamily.NullFontFamilyCanonicalName); 
                }
 
                Invariant.Assert(_firstFontFamily != null); 
            }
 
            return _firstFontFamily;
        }

        private ITypefaceMetrics FindTypefaceMetrics( 
            FontStyle       style,
            FontWeight      weight, 
            FontStretch     stretch 
            )
        { 
            FamilyTypeface bestFace = FindNearestFamilyTypeface(style, weight, stretch);

            if (bestFace == null)
                return new CompositeTypefaceMetrics(); 
            else
                return bestFace; 
        } 

 
        /// 
        /// Find the face closest to the specified style, weight and stretch.
        /// Returns null if there is no matching face.
        ///  
        private FamilyTypeface FindNearestFamilyTypeface(
            FontStyle style, 
            FontWeight weight, 
            FontStretch stretch
            ) 
        {
            if (_fontInfo.FamilyTypefaces == null || _fontInfo.FamilyTypefaces.Count == 0)
            {
                return null; 
            }
 
            FamilyTypeface bestFace = (FamilyTypeface)_fontInfo.FamilyTypefaces[0]; 
            MatchingStyle bestMatch = new MatchingStyle(bestFace.Style, bestFace.Weight, bestFace.Stretch);
            MatchingStyle target = new MatchingStyle(style, weight, stretch); 

            for (int i = 1; i < _fontInfo.FamilyTypefaces.Count; i++)
            {
                FamilyTypeface currentFace = (FamilyTypeface)_fontInfo.FamilyTypefaces[i]; 
                MatchingStyle currentMatch = new MatchingStyle(currentFace.Style, currentFace.Weight, currentFace.Stretch);
                if (MatchingStyle.IsBetterMatch(target, bestMatch, ref currentMatch)) 
                { 
                    bestFace = currentFace;
                    bestMatch = currentMatch; 
                }
            }

            return bestFace; 
        }
 
 
        /// 
        /// Find the face exactly matching the specified style, weight and stretch. 
        /// Returns null if there is no matching face.
        /// 
        private FamilyTypeface FindExactFamilyTypeface(
            FontStyle style, 
            FontWeight weight,
            FontStretch stretch 
            ) 
        {
            if (_fontInfo.FamilyTypefaces == null || _fontInfo.FamilyTypefaces.Count == 0) 
            {
                return null;
            }
 
            MatchingStyle target = new MatchingStyle(style, weight, stretch);
 
            foreach (FamilyTypeface currentFace in _fontInfo.FamilyTypefaces) 
            {
                MatchingStyle  currentMatch = new MatchingStyle(currentFace.Style, currentFace.Weight, currentFace.Stretch); 
                if (currentMatch == target)
                {
                    return currentFace;
                } 
            }
 
            return null; 
        }
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------ 
//
//  Microsoft Windows Client Platform
//  Copyright (C) Microsoft Corporation, 2002
// 
//  File:      CompositeFontFamily.cs
// 
//  Contents:  Composite font family 
//
//  Created:   5-25-2003 Worachai Chaoweeraprasit (wchao) 
//
//-----------------------------------------------------------------------

using System; 
using System.Globalization;
using System.Collections; 
using System.Collections.Generic; 
using System.Diagnostics;
using System.Security; 
using System.Windows;
using System.Windows.Markup;    // for XmlLanguage
using System.Windows.Media;
using System.Windows.Media.TextFormatting; 

using MS.Internal.FontCache; 
using MS.Internal.FontFace; 
using MS.Internal.TextFormatting;
using FontFamily = System.Windows.Media.FontFamily; 
using SR=MS.Internal.PresentationCore.SR;
using SRID=MS.Internal.PresentationCore.SRID;

namespace MS.Internal.Shaping 
{
    ///  
    /// Composite font family 
    /// 
    internal sealed class CompositeFontFamily : IFontFamily 
    {
        private CompositeFontInfo   _fontInfo;

        private IFontFamily         _firstFontFamily; 

        #region Constructors 
 
        /// 
        /// Construct a default composite font family 
        /// 
        internal CompositeFontFamily()
            : this(new CompositeFontInfo())
        {} 

 
        ///  
        /// Construct a composite font family from composite font info
        ///  
        internal CompositeFontFamily(CompositeFontInfo fontInfo)
        {
            _fontInfo = fontInfo;
        } 

 
        ///  
        /// Construct a composite font family with a single target family name
        ///  
        internal CompositeFontFamily(
            string      friendlyName
            ) :
            this( 
                friendlyName,
                null    // firstFontFamily 
                ) 
        {}
 

        /// 
        /// Construct a composite font family with a single target family name
        /// after the first font family in the target family is known 
        /// 
        ///  
        /// Critical - as this accesses _firstFontFamily which is marked critical. 
        /// Safe - as this doesn't expose it.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        internal CompositeFontFamily(
            string          friendlyName,
            IFontFamily     firstFontFamily 
            ) :
            this() 
        { 
            FamilyMaps.Add(
                new FontFamilyMap( 
                    0, FontFamilyMap.LastUnicodeScalar,
                    null, // any language
                    friendlyName,
                    1     // scaleInEm 
                    )
                ); 
 

            _firstFontFamily = firstFontFamily; 
        }

        #endregion
 
        #region IFontFamily properties
 
 
        /// 
        /// Font family name table indexed by culture 
        /// 
        IDictionary IFontFamily.Names
        {
            get 
            {
                return _fontInfo.FamilyNames; 
            } 
        }
 
        /// 
        /// Distance from character cell top to English baseline relative to em size.
        /// 
        public double Baseline 
        {
            get 
            { 
                if(_fontInfo.Baseline == 0)
                { 
                    _fontInfo.Baseline = GetFirstFontFamily().Baseline;
                }
                return _fontInfo.Baseline;
            } 
        }
 
        public void SetBaseline(double value) 
        {
            _fontInfo.Baseline = value; 
        }

        /// 
        /// Recommended baseline-to-baseline distance for text in this font. 
        /// 
        public double LineSpacing 
        { 
            get
            { 
                if (_fontInfo.LineSpacing == 0)
                {
                    _fontInfo.LineSpacing = GetFirstFontFamily().LineSpacing;
                } 
                return _fontInfo.LineSpacing;
            } 
        } 

        public void SetLineSpacing(double value) 
        {
            _fontInfo.LineSpacing = value;
        }
 
        /// 
        /// Get typeface metrics of the specified typeface 
        ///  
        ITypefaceMetrics IFontFamily.GetTypefaceMetrics(
            FontStyle       style, 
            FontWeight      weight,
            FontStretch     stretch
            )
        { 
            if (_fontInfo.FamilyTypefaces == null &&
                _fontInfo.FamilyMaps.Count == 1 && 
                _fontInfo.FamilyMaps[0].IsSimpleFamilyMap) 
            {
                // Typical e.g. "MyFont, sans-serif" 
                return GetFirstFontFamily().GetTypefaceMetrics(style, weight, stretch);
            }

            return FindTypefaceMetrics(style, weight, stretch); 
        }
 
 
        /// 
        /// Look up device font for the typeface. 
        /// 
        IDeviceFont IFontFamily.GetDeviceFont(FontStyle style, FontWeight weight, FontStretch stretch)
        {
            FamilyTypeface bestFace = FindExactFamilyTypeface(style, weight, stretch); 

            if (bestFace != null && bestFace.DeviceFontName != null) 
                return bestFace; 
            else
                return null; 
        }


        ///  
        /// Get family name correspondent to the first n-characters of the specified character string
        ///  
        bool IFontFamily.GetMapTargetFamilyNameAndScale( 
            CharacterBufferRange unicodeString,
            CultureInfo culture, 
            CultureInfo digitCulture,
            double defaultSizeInEm,
            out int cchAdvance,
            out string targetFamilyName, 
            out double scaleInEm
            ) 
        { 
            Invariant.Assert(unicodeString.CharacterBuffer != null && unicodeString.Length > 0);
            Invariant.Assert(culture != null); 

            // Get the family map. This will find the first family map that matches
            // the specified culture, an ancestor neutral culture, or "any" culture.
            FontFamilyMap familyMap = GetTargetFamilyMap( 
                unicodeString,
                culture, 
                digitCulture, 
                out cchAdvance
                ); 

            // Return the values for the matching FontFamilyMap. If there is none this is
            // FontFamilyMap.Default which has Target == null and Scale == 1.0.
            targetFamilyName = familyMap.Target; 
            scaleInEm = familyMap.Scale;
 
            return true; 
        }
 
        ICollection IFontFamily.GetTypefaces(FontFamilyIdentifier familyIdentifier)
        {
            throw new NotImplementedException();
        } 

        #endregion 
 
        #region collections exposed by FontFamily
 
        internal LanguageSpecificStringDictionary FamilyNames
        {
            get { return _fontInfo.FamilyNames; }
        } 

        internal FamilyTypefaceCollection FamilyTypefaces 
        { 
            get { return _fontInfo.GetFamilyTypefaceList(); }
        } 

        internal FontFamilyMapCollection FamilyMaps
        {
            get { return _fontInfo.FamilyMaps; } 
        }
 
        #endregion 

        private FontFamilyMap GetTargetFamilyMap( 
            CharacterBufferRange unicodeString,
            CultureInfo culture,
            CultureInfo digitCulture,
            out int cchAdvance 
            )
        { 
            DigitMap digitMap = new DigitMap(digitCulture); 
            ushort[] familyMaps = _fontInfo.GetFamilyMapsOfLanguage(XmlLanguage.GetLanguage(culture.IetfLanguageTag));
 
            int sizeofChar = 0;
            int ch = 0;

            // skip all the leading joinder characters. They need to be shaped with the 
            // surrounding strong characters.
            cchAdvance = Classification.AdvanceWhile(unicodeString, ItemClass.JoinerClass); 
 
            if (cchAdvance >= unicodeString.Length)
            { 
                // It is rare that the run only contains joiner characters.
                // If it really happens, just map them to the initial family map.
                return _fontInfo.GetFamilyMapOfChar(
                    familyMaps, 
                    Classification.UnicodeScalar(unicodeString, out sizeofChar)
                    ); 
            } 

            // 
            // If the run starts with combining marks, we will not be able to find base characters for them
            // within the run. These combining marks will be mapped to their best fonts as normal characters.
            //
            ch = Classification.UnicodeScalar( 
                new CharacterBufferRange(unicodeString, cchAdvance, unicodeString.Length - cchAdvance),
                out sizeofChar 
                ); 

            bool hasBaseChar = !Classification.IsCombining(ch); 

            ch = digitMap[ch];
            FontFamilyMap familyMap = _fontInfo.GetFamilyMapOfChar(familyMaps, ch);
 
            Invariant.Assert(familyMap != null);
 
            for (cchAdvance += sizeofChar; cchAdvance < unicodeString.Length; cchAdvance += sizeofChar) 
            {
                ch = Classification.UnicodeScalar( 
                        new CharacterBufferRange(unicodeString, cchAdvance, unicodeString.Length - cchAdvance),
                        out sizeofChar
                     );
 
                if (Classification.IsJoiner(ch))
                    continue; // continue to advance if current char is a joiner 
 
                if (!Classification.IsCombining(ch))
                { 
                    hasBaseChar = true;
                }
                else if (hasBaseChar)
                { 
                    continue; // continue to advance for combining mark with base char
                } 
 
                ch = digitMap[ch];
 
                if (_fontInfo.GetFamilyMapOfChar(familyMaps, ch) != familyMap)
                    break;
            }
 
            return familyMap;
        } 
 

        ///  
        /// Get the first font family of the first target family name
        /// 
        private IFontFamily GetFirstFontFamily()
        { 
            if(_firstFontFamily == null)
            { 
                if (_fontInfo.FamilyMaps.Count != 0) 
                {
                    _firstFontFamily = FontFamily.FindFontFamilyFromFriendlyNameList(_fontInfo.FamilyMaps[0].Target); 
                }
                else
                {
                    _firstFontFamily = FontFamily.LookupFontFamily(FontFamily.NullFontFamilyCanonicalName); 
                }
 
                Invariant.Assert(_firstFontFamily != null); 
            }
 
            return _firstFontFamily;
        }

        private ITypefaceMetrics FindTypefaceMetrics( 
            FontStyle       style,
            FontWeight      weight, 
            FontStretch     stretch 
            )
        { 
            FamilyTypeface bestFace = FindNearestFamilyTypeface(style, weight, stretch);

            if (bestFace == null)
                return new CompositeTypefaceMetrics(); 
            else
                return bestFace; 
        } 

 
        /// 
        /// Find the face closest to the specified style, weight and stretch.
        /// Returns null if there is no matching face.
        ///  
        private FamilyTypeface FindNearestFamilyTypeface(
            FontStyle style, 
            FontWeight weight, 
            FontStretch stretch
            ) 
        {
            if (_fontInfo.FamilyTypefaces == null || _fontInfo.FamilyTypefaces.Count == 0)
            {
                return null; 
            }
 
            FamilyTypeface bestFace = (FamilyTypeface)_fontInfo.FamilyTypefaces[0]; 
            MatchingStyle bestMatch = new MatchingStyle(bestFace.Style, bestFace.Weight, bestFace.Stretch);
            MatchingStyle target = new MatchingStyle(style, weight, stretch); 

            for (int i = 1; i < _fontInfo.FamilyTypefaces.Count; i++)
            {
                FamilyTypeface currentFace = (FamilyTypeface)_fontInfo.FamilyTypefaces[i]; 
                MatchingStyle currentMatch = new MatchingStyle(currentFace.Style, currentFace.Weight, currentFace.Stretch);
                if (MatchingStyle.IsBetterMatch(target, bestMatch, ref currentMatch)) 
                { 
                    bestFace = currentFace;
                    bestMatch = currentMatch; 
                }
            }

            return bestFace; 
        }
 
 
        /// 
        /// Find the face exactly matching the specified style, weight and stretch. 
        /// Returns null if there is no matching face.
        /// 
        private FamilyTypeface FindExactFamilyTypeface(
            FontStyle style, 
            FontWeight weight,
            FontStretch stretch 
            ) 
        {
            if (_fontInfo.FamilyTypefaces == null || _fontInfo.FamilyTypefaces.Count == 0) 
            {
                return null;
            }
 
            MatchingStyle target = new MatchingStyle(style, weight, stretch);
 
            foreach (FamilyTypeface currentFace in _fontInfo.FamilyTypefaces) 
            {
                MatchingStyle  currentMatch = new MatchingStyle(currentFace.Style, currentFace.Weight, currentFace.Stretch); 
                if (currentMatch == target)
                {
                    return currentFace;
                } 
            }
 
            return null; 
        }
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
                        

Link Menu

Network programming in C#, Network Programming in VB.NET, Network Programming in .NET
This book is available now!
Buy at Amazon US or
Buy at Amazon UK