/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, maxp table is invalid or missing");
return false;
}
if (v.PerformTest(T.vmtx_TableLength))
{
uint CalcTableLength = GetNumOfLongVerMetrics(fontOwner)*4
+ (fontOwner.GetMaxpNumGlyphs() - GetNumOfLongVerMetrics(fontOwner))*2;
if (CalcTableLength == GetLength())
{
v.Pass(T.vmtx_TableLength, P.vmtx_P_TableLength, m_tag);
}
else
{
v.Error(T.vmtx_TableLength, E.vmtx_E_TableLength, m_tag);
bRet = false;
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, maxp table is invalid or missing");
return(false);
}
if (v.PerformTest(T.vmtx_TableLength))
{
uint CalcTableLength = GetNumOfLongVerMetrics(fontOwner) * 4
+ (fontOwner.GetMaxpNumGlyphs() - GetNumOfLongVerMetrics(fontOwner)) * 2;
if (CalcTableLength == GetLength())
{
v.Pass(T.vmtx_TableLength, P.vmtx_P_TableLength, m_tag);
}
else
{
v.Error(T.vmtx_TableLength, E.vmtx_E_TableLength, m_tag);
bRet = false;
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.OS_2_Version))
{
if (version == 0 || version == 1 || version == 2)
{
v.Warning(T.OS_2_Version, W.OS_2_W_Version_old, m_tag, version.ToString());
}
else if (version == 3)
{
v.Pass(T.OS_2_Version, P.OS_2_P_Version, m_tag, version.ToString());
}
else
{
v.Error(T.OS_2_Version, E.OS_2_E_Version, m_tag, version.ToString());
bRet = false;
}
}
if (v.PerformTest(T.OS_2_TableLength))
{
uint len = GetLength();
if ((version == 0 && len == 78)
|| (version == 1 && len == 86)
|| (version == 2 && len == 96)
|| (version == 3 && len == 96))
{
v.Pass(T.OS_2_TableLength, P.OS_2_P_TableLength, m_tag);
}
else
{
v.Error(T.OS_2_TableLength, E.OS_2_E_TableLength, m_tag);
bRet = false;
}
}
if (!bRet)
{
v.Warning(T.T_NULL, W._TEST_W_OtherErrorsInTable, m_tag, "OS/2 table appears to be corrupt. No further tests will be performed.");
return bRet;
}
if (v.PerformTest(T.OS_2_xAvgCharWidth))
{
if (fontOwner.GetTable("maxp") == null)
{
v.Warning(T.OS_2_xAvgCharWidth, W._TEST_W_ErrorInAnotherTable, m_tag, "maxp table inaccessible, can't check Avg Char Width");
}
else
{
if (fontOwner.ContainsTrueTypeOutlines())
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
val_loca locaTable = (val_loca)fontOwner.GetTable("loca");
val_maxp maxpTable = (val_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.OS_2_xAvgCharWidth, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (locaTable == null)
{
v.Error(T.OS_2_xAvgCharWidth, E._TEST_E_TableMissing, m_tag, "loca");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.OS_2_xAvgCharWidth, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
if ( version == 3
|| fontOwner.ContainsMsSymbolEncodedCmap())
{
int nTotalWidth = 0;
int nTotalGlyphs = 0;
for (uint iGlyph=0; iGlyph<fontOwner.GetMaxpNumGlyphs(); iGlyph++)
{
Table_hmtx.longHorMetric hm = hmtxTable.GetOrMakeHMetric(iGlyph, fontOwner);
if (hm != null)
{
nTotalWidth += hm.advanceWidth;
// only average non-zero width glyphs
if (hm.advanceWidth > 0)
{
nTotalGlyphs ++;
}
}
}
short CalcAvgWidth = 0;
if (nTotalGlyphs > 0)
CalcAvgWidth = (short)(nTotalWidth / nTotalGlyphs);
if (xAvgCharWidth == CalcAvgWidth)
{
v.Pass(T.OS_2_xAvgCharWidth, P.OS_2_P_xAvgCharWidth, m_tag);
}
else
{
string s = "actual = " + xAvgCharWidth + ", calc = " + CalcAvgWidth;
v.Error(T.OS_2_xAvgCharWidth, E.OS_2_E_xAvgCharWidth, m_tag, s);
bRet = false;
}
}
else
{
// do weighed average
ushort [] weightLC = {
64, 14, 27, 35, 100, 20, 14, 42, 63, 3, 6, 35, 20,
56, 56, 17, 4, 49, 56, 71, 31, 10, 18, 3, 18, 2
};
ushort weightSpace = 166;
try
{
uint iSpaceGlyph = fontOwner.FastMapUnicodeToGlyphID(' ');
if (iSpaceGlyph >= fontOwner.GetMaxpNumGlyphs())
{
throw new ApplicationException("error in cmap table");
}
Table_hmtx.longHorMetric hmSpace = hmtxTable.GetOrMakeHMetric(iSpaceGlyph, fontOwner);
if (hmSpace != null)
{
int nTotalWeight = hmSpace.advanceWidth * weightSpace;
int nLowerCase = 0;
for (char c = 'a'; c <= 'z'; c++)
{
uint iGlyph = fontOwner.FastMapUnicodeToGlyphID(c);
if (iGlyph > 0
&& iGlyph < fontOwner.GetMaxpNumGlyphs())
{
nLowerCase ++;
Table_hmtx.longHorMetric hm = hmtxTable.GetOrMakeHMetric(iGlyph, fontOwner);
nTotalWeight += hm.advanceWidth * weightLC[c-'a'];
}
}
short CalcAvgWidth = 0;
if (nLowerCase == 26)
{
CalcAvgWidth = (short)(nTotalWeight / 1000);
}
else
{
int nTotalWidth = 0;
int nTotalGlyphs = 0;
for (uint iGlyph=0; iGlyph<fontOwner.GetMaxpNumGlyphs(); iGlyph++)
{
Table_hmtx.longHorMetric hm = hmtxTable.GetOrMakeHMetric(iGlyph, fontOwner);
nTotalWidth += hm.advanceWidth;
nTotalGlyphs ++;
}
CalcAvgWidth = (short)(nTotalWidth / nTotalGlyphs);
}
if (xAvgCharWidth == CalcAvgWidth)
{
v.Pass(T.OS_2_xAvgCharWidth, P.OS_2_P_xAvgCharWidth, m_tag);
}
else
{
string s = "actual = " + xAvgCharWidth + ", calc = " + CalcAvgWidth;
v.Error(T.OS_2_xAvgCharWidth, E.OS_2_E_xAvgCharWidth, m_tag, s);
bRet = false;
}
}
else
{
v.Warning(T.OS_2_xAvgCharWidth, W.OS_2_W_hmtx_invalid, m_tag, "unable to parse hmtx table");
}
}
catch (ApplicationException e)
{
v.Warning(T.OS_2_xAvgCharWidth, W._TEST_W_ErrorInAnotherTable, m_tag, "xAvgCharWidth cannot be validated due to " + e.Message);
}
}
}
}
else
{
// not a TT outline font - should embedded bitmap only font be handled here?
v.Info(T.OS_2_xAvgCharWidth, I._TEST_I_NotForCFF, m_tag, "test = OS/2_xAvgCharWidth");
}
}
}
if (v.PerformTest(T.OS_2_WeightClass))
{
if (usWeightClass >= 100 &&
usWeightClass <= 900 &&
usWeightClass% 100 == 0)
{
bool bWeightClassOk = true;
// compare to the PANOSE weight value
if (panose_byte1 == 2 || panose_byte1 == 3 || panose_byte1 == 4) // latin text, hand writing, or decorative
{
if (panose_byte3 > 1)
{
// convert PANOSE weight value from a range of [2..11] to a range of [100..900] (reasonably close anyway, given integer math)
int nConvertedPANOSE = (panose_byte3-2)*89+100;
int nDifference = Math.Abs(usWeightClass - nConvertedPANOSE);
if (nDifference < 200)
{
v.Pass(T.OS_2_WeightClass, P.OS_2_P_WeightClass_PANOSE, m_tag);
}
else
{
v.Warning(T.OS_2_WeightClass, W.OS_2_W_WeightClass_PANOSE, m_tag, "usWeightClass = " + usWeightClass + ", PANOSE weight = " + panose_byte3);
bWeightClassOk = false;
}
}
}
if (bWeightClassOk)
{
v.Pass(T.OS_2_WeightClass, P.OS_2_P_WeightClass, m_tag, usWeightClass.ToString());
}
}
else
{
v.Error(T.OS_2_WeightClass, E.OS_2_E_WeightClass, m_tag, usWeightClass.ToString());
bRet = false;
}
}
if (v.PerformTest(T.OS_2_WidthClass))
{
if (usWidthClass >=1 && usWidthClass <= 9)
{
v.Pass(T.OS_2_WidthClass, P.OS_2_P_WidthClass, m_tag, usWidthClass.ToString());
}
else
{
v.Error(T.OS_2_WidthClass, E.OS_2_E_WidthClass, m_tag, usWidthClass.ToString());
bRet = false;
}
}
if (v.PerformTest(T.OS_2_fsType))
{
bool bPass = true;
if ((fsType & 0xfcf1) != 0)
{
v.Error(T.OS_2_fsType, E.OS_2_E_fsTypeReserved, m_tag, "0x"+fsType.ToString("x4"));
bRet = false;
bPass = false;
}
else
{
int nExclusiveBits = 0;
if ((fsType & 0x0002) !=0) //Restricted License Embedding
{
nExclusiveBits++;
}
if ((fsType & 0x0004) != 0) // Preview and Print embedding
{
nExclusiveBits++;
}
if ((fsType & 0x0008) != 0) // Editable embedding
{
nExclusiveBits++;
}
if (nExclusiveBits > 1)
{
string sDetails = "0x"+fsType.ToString("x4");
if ((fsType & 0x0002) !=0)
{
sDetails += ", Restricted License Embedding";
}
if ((fsType & 0x0004) != 0)
{
sDetails += ", Preview and Print embedding";
}
if ((fsType & 0x0008) != 0)
{
sDetails += ", Editable embedding";
}
v.Error(T.OS_2_fsType, E.OS_2_E_fsTypeExclusiveBits, m_tag, sDetails);
bRet = false;
bPass = false;
}
}
if (bPass)
{
string sDetails = "0x"+fsType.ToString("x4");
if (fsType == 0)
{
sDetails += ", Installable Embedding";
}
if ((fsType & 0x0002) !=0)
{
sDetails += ", Restricted License Embedding";
}
if ((fsType & 0x0004) != 0)
{
sDetails += ", Preview and Print embedding";
}
if ((fsType & 0x0008) != 0)
{
sDetails += ", Editable embedding";
}
if ((fsType & 0x0100) != 0)
{
sDetails += ", No subsetting";
}
if ((fsType & 0x0200) != 0)
{
sDetails += ", Bitmap embedding only";
}
v.Pass(T.OS_2_fsType, P.OS_2_P_fsType, m_tag, sDetails);
}
}
if (v.PerformTest(T.OS_2_SubscriptSuperscript))
{
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
ushort unitsPerEm = headTable.unitsPerEm;
ushort SmallestScript = (ushort)(unitsPerEm / 10);
bool bNoWarnOrErr = true;
if (ySubscriptXSize < SmallestScript ||
ySubscriptXSize > unitsPerEm )
{
v.Warning(T.OS_2_SubscriptSuperscript, W.OS_2_W_ySubscriptXSize_unlikely, m_tag, ySubscriptXSize.ToString());
bNoWarnOrErr = false;
}
if (ySubscriptYSize < SmallestScript ||
ySubscriptYSize > unitsPerEm )
{
v.Warning(T.OS_2_SubscriptSuperscript, W.OS_2_W_ySubscriptYSize_unlikely, m_tag, ySubscriptYSize.ToString());
bNoWarnOrErr = false;
}
if (ySubscriptYOffset < 0 )
{
v.Warning(T.OS_2_SubscriptSuperscript, W.OS_2_W_ySubscriptYOffset_LTZero, m_tag, ySubscriptYOffset.ToString());
bNoWarnOrErr = false;
}
if (ySuperscriptXSize < SmallestScript ||
ySuperscriptXSize > unitsPerEm )
{
v.Warning(T.OS_2_SubscriptSuperscript, W.OS_2_W_ySuperscriptXSize_unlikely, m_tag, ySuperscriptXSize.ToString());
bNoWarnOrErr = false;
}
if (ySuperscriptYSize < SmallestScript ||
ySuperscriptYSize > unitsPerEm )
{
v.Warning(T.OS_2_SubscriptSuperscript, W.OS_2_W_ySuperscriptYSize_unlikely, m_tag, ySuperscriptYSize.ToString());
bNoWarnOrErr = false;
}
if (ySuperscriptYOffset < 0 )
{
v.Warning(T.OS_2_SubscriptSuperscript, W.OS_2_W_ySuperscriptYOffset_unlikely, m_tag, ySuperscriptYOffset.ToString());
bNoWarnOrErr = false;
}
if (bNoWarnOrErr)
{
v.Pass(T.OS_2_SubscriptSuperscript, P.OS_2_P_SuperscriptSubscript, m_tag);
}
}
else
{
v.Error(T.OS_2_SubscriptSuperscript, E._TEST_E_TableMissing, m_tag, "head");
bRet = false;
}
}
if (v.PerformTest(T.OS_2_Strikeout))
{
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
ushort unitsPerEm = headTable.unitsPerEm;
bool bNoWarnings = true;
if (yStrikeoutSize < 0 || yStrikeoutSize > unitsPerEm / 2 )
{
v.Warning(T.OS_2_Strikeout, W.OS_2_W_yStrikeoutSize_unlikely, m_tag, yStrikeoutSize.ToString());
bNoWarnings = false;
}
if (yStrikeoutPosition <= 0 )
{
v.Warning(T.OS_2_Strikeout, W.OS_2_W_yStrikeoutPosition_unlikely, m_tag, yStrikeoutPosition.ToString());
bNoWarnings = false;
}
if (bNoWarnings)
{
v.Pass(T.OS_2_Strikeout, P.OS_2_P_Strikeout, m_tag);
}
}
else
{
v.Error(T.OS_2_Strikeout, E._TEST_E_TableMissing, m_tag, "head");
bRet = false;
}
}
if (v.PerformTest(T.OS_2_FamilyClass))
{
bool bIDsOk = true;
byte ClassID = (byte)(sFamilyClass >> 8);
byte SubclassID = (byte)(sFamilyClass);
if (ClassID == 6 || ClassID == 11 || ClassID == 13 || ClassID == 14 )
{
v.Error(T.OS_2_FamilyClass, E.OS_2_E_sFamilyClass_classID_reserved, m_tag, ClassID.ToString());
bIDsOk = false;
bRet = false;
}
if (ClassID > 14 )
{
v.Error(T.OS_2_FamilyClass, E.OS_2_E_sFamilyClass_ClassID_undefined, m_tag, ClassID.ToString());
bIDsOk = false;
bRet = false;
}
if (SubclassID > 15 )
{
v.Error(T.OS_2_FamilyClass, E.OS_2_E_sFamilyClass_subclassID_undefined, m_tag, ClassID.ToString());
bIDsOk = false;
bRet = false;
}
if (bIDsOk)
{
v.Pass(T.OS_2_FamilyClass, P.OS_2_P_sFamilyClass, m_tag);
}
}
if (v.PerformTest(T.OS_2_Panose))
{
bool bPanoseOk = true;
if (panose_byte1 < 5) // panose kind valid, but not latin symbol
{
if (fontOwner.ContainsSymbolsOnly())
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_FamilyTypeNotSymbol, m_tag, "PANOSE byte 1 = " + panose_byte1.ToString());
bPanoseOk = false;
bRet = false;
}
}
else if (panose_byte1 == 5) // panose family kind == latin symbol
{
if (!fontOwner.ContainsSymbolsOnly())
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_FamilyTypeSymbol, m_tag, "PANOSE byte 1 = " + panose_byte1.ToString());
bPanoseOk = false;
bRet = false;
}
}
else if ( panose_byte1 > 5 ) // family kind is invalid
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bFamilyType, m_tag, panose_byte1.ToString());
bPanoseOk = false;
bRet = false;
}
if (panose_byte1 == 2) // family kind == latin text
{
if ( panose_byte2 > 15 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bSerifStyle, m_tag, panose_byte2.ToString());
bPanoseOk = false;
bRet = false;
}
}
if ( panose_byte3 > 11 ) // byte3 always means weight
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bWeight, m_tag, panose_byte3.ToString());
bPanoseOk = false;
bRet = false;
}
if (panose_byte1 == 5) // panose family kind == latin symbol
{
if (panose_byte3 != 1) // weight must be 1 for symbols
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_SymbolWeight, m_tag, panose_byte3.ToString());
bPanoseOk = false;
bRet = false;
}
if (panose_byte5 != 1) // aspect ratio & contrast must be 1 for symbols
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_SymbolAspectRatio, m_tag, panose_byte5.ToString());
bPanoseOk = false;
bRet = false;
}
}
if (panose_byte1 == 2) // family kind == latin text
{
// the following tests are only valid when family kind is latin text
if ( panose_byte4 > 9 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bProportion, m_tag, panose_byte4.ToString());
bPanoseOk = false;
bRet = false;
}
if ( panose_byte5 > 9 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bContrast, m_tag, panose_byte5.ToString());
bPanoseOk = false;
bRet = false;
}
if ( panose_byte6 > 10 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bStrokeVariation, m_tag, panose_byte6.ToString());
bPanoseOk = false;
bRet = false;
}
if ( panose_byte7 > 11 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bArmStyle, m_tag, panose_byte7.ToString());
bPanoseOk = false;
bRet = false;
}
if ( panose_byte8 > 15 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bLetterform, m_tag, panose_byte8.ToString());
bPanoseOk = false;
bRet = false;
}
if ( panose_byte9 > 13 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bMidline, m_tag, panose_byte9.ToString());
bPanoseOk = false;
bRet = false;
}
if ( panose_byte10 > 7 )
{
v.Error(T.OS_2_Panose, E.OS_2_E_Panose_bXHeight, m_tag, panose_byte10.ToString());
bPanoseOk = false;
bRet = false;
}
}
if (panose_byte1 == 0 &&
panose_byte2 == 0 &&
panose_byte3 == 0 &&
panose_byte4 == 0 &&
panose_byte5 == 0 &&
panose_byte6 == 0 &&
panose_byte7 == 0 &&
panose_byte8 == 0 &&
panose_byte9 == 0 &&
panose_byte10 == 0 )
{
v.Warning(T.OS_2_Panose, W.OS_2_W_Panose_undefined, m_tag);
bPanoseOk = false;
}
if (bPanoseOk)
{
v.Pass(T.OS_2_Panose, P.OS_2_P_Panose, m_tag);
}
}
if (v.PerformTest(T.OS_2_UnicodeRanges))
{
bRet &= CheckUnicodeRanges(v, fontOwner);
}
if (v.PerformTest(T.OS_2_fsSelection))
{
bool bSelOk = true;
Table_name nameTable = (Table_name)fontOwner.GetTable("name");
string sStyle = null;
string sStyleLower = null;
if (nameTable != null)
{
sStyle = nameTable.GetStyleString();
if (sStyle != null)
{
sStyleLower = sStyle.ToLower();
}
}
// reserved bits
if ( (fsSelection & 0xFF80 ) != 0 )
{
// we need to look for Win 3.1 font pages
// Fonts with these
const ushort HEBREW_FONT_PAGE = 0xB100;
const ushort SIMP_ARABIC_FONT_PAGE = 0xB200;
const ushort TRAD_ARABIC_FONT_PAGE = 0xB300;
const ushort OEM_ARABIC_FONT_PAGE = 0xB400;
const ushort SIMP_FARSI_FONT_PAGE = 0xBA00;
const ushort TRAD_FARSI_FONT_PAGE = 0xBB00;
const ushort THAI_FONT_PAGE = 0xDE00;
String sDetails = "Bit(s) ";
bool bFoundFirstBadBit = false;
if (version == 0)
{
switch (fsSelection & 0xFF00)
{
case HEBREW_FONT_PAGE:
sDetails = "Hebrew Windows 3.1 font page";
break;
case SIMP_ARABIC_FONT_PAGE:
sDetails = "Simplified Arabic Windows 3.1 font page";
break;
case TRAD_ARABIC_FONT_PAGE:
sDetails = "Traditional Arabic Windows 3.1 font page";
break;
case OEM_ARABIC_FONT_PAGE:
sDetails = "OEM Arabic Windows 3.1 font page";
break;
case SIMP_FARSI_FONT_PAGE:
sDetails = "Simplified Farsi Windows 3.1 font page";
break;
case TRAD_FARSI_FONT_PAGE:
sDetails = "Traditional Farsi Windows 3.1 font page";
break;
case THAI_FONT_PAGE:
sDetails = "Thai Windows 3.1 font page";
break;
default:
for (int i=0; i<16; i++)
{
int nBitValue = 1<<i;
if ((nBitValue & 0xFF80) != 0)
{
if ((fsSelection & nBitValue) != 0)
{
if (bFoundFirstBadBit)
{
sDetails += ", " + i;
}
else
{
sDetails += i.ToString();
bFoundFirstBadBit = true;
}
}
}
}
break;
}
}
else
{
for (int i=0; i<16; i++)
{
int nBitValue = 1<<i;
if ((nBitValue & 0xFF80) != 0)
{
if ((fsSelection & nBitValue) != 0)
{
if (bFoundFirstBadBit)
{
sDetails += ", " + i;
}
else
{
sDetails += i.ToString();
bFoundFirstBadBit = true;
}
}
}
}
}
v.Error(T.OS_2_fsSelection, E.OS_2_E_fsSelection_undefbits, m_tag, sDetails);
bSelOk = false;
bRet = false;
}
// compare to head.macStyle italic and bold bits
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
bool bItalic = ((fsSelection & 0x01) != 0 );
bool bBold = ((fsSelection & 0x20) != 0 );
bool bMacBold = ((headTable.macStyle & 0x0001) != 0);
bool bMacItal = ((headTable.macStyle & 0x0002) != 0);
if (bItalic != bMacItal)
{
string sDetails = null;
if (bItalic) sDetails = "fsSelection italic bit is set, but macstyle italic bit is clear";
else sDetails = "fsSelection italic bit is clear, but macstyle italic bit is set";
v.Error(T.OS_2_fsSelection, E.OS_2_E_fsSelection_macStyle_italic, m_tag, sDetails);
bSelOk = false;
bRet = false;
}
if (bBold != bMacBold)
{
string sDetails = null;
if (bBold) sDetails = "fsSelection bold bit is set, but macstyle bold bit is clear";
else sDetails = "fsSelection bold bit is clear, but macstyle bold bit is set";
v.Error(T.OS_2_fsSelection, E.OS_2_E_fsSelection_macStyle_bold, m_tag, sDetails);
bSelOk = false;
bRet = false;
}
}
if ((fsSelection & 0x01) != 0 ) // italic bit
{
// compare to name subfamily
if (sStyleLower != null)
{
if (sStyleLower.IndexOf("italic") == -1 && sStyleLower.IndexOf("oblique") == -1)
{
v.Error(T.OS_2_fsSelection, E.OS_2_E_fsSelection_subfamily, m_tag, "fsSelection italic bit is set, but subfamily is " + sStyle);
bSelOk = false;
bRet = false;
}
}
}
if ((fsSelection & 0x20) != 0 ) // bold bit
{
// compare to name subfamily
if (sStyleLower != null)
{
if (sStyleLower.IndexOf("bold") == -1)
{
v.Error(T.OS_2_fsSelection, E.OS_2_E_fsSelection_subfamily, m_tag, "fsSelection bold bit is set, but subfamily is " + sStyle);
bSelOk = false;
bRet = false;
}
}
if (usWeightClass <= 500)
{
v.Warning(T.OS_2_fsSelection, W.OS_2_W_fsSelection_weight, m_tag, "usWeightClass = " + usWeightClass);
bSelOk = false;
}
}
if ((fsSelection & 0x40) != 0 ) // regular bit
{
if ((fsSelection & 0x20) != 0 )
{
v.Error(T.OS_2_fsSelection, E.OS_2_E_reg_bold, m_tag);
bSelOk = false;
bRet = false;
}
if ((fsSelection & 0x01) != 0)
{
v.Error(T.OS_2_fsSelection, E.OS_2_E_reg_ital, m_tag);
bSelOk = false;
bRet = false;
}
if (sStyleLower != null)
{
// compare to name subfamily
if (sStyleLower.CompareTo("regular") != 0)
{
v.Error(T.OS_2_fsSelection, E.OS_2_E_fsSelection_subfamily, m_tag, "fsSelection regular bit is set, but subfamily is " + sStyle);
bSelOk = false;
bRet = false;
}
}
}
if (bSelOk)
{
v.Pass(T.OS_2_fsSelection, P.OS_2_P_fsSelection, m_tag);
}
}
if (v.PerformTest(T.OS_2_CharIndexes))
{
Table_cmap cmapTable = (Table_cmap)fontOwner.GetTable("cmap");
if (cmapTable != null)
{
ushort charFirst = 0xffff;
ushort charLast = 0;
Table_cmap.EncodingTableEntry eteUni = cmapTable.GetEncodingTableEntry(3,1);
if (eteUni == null)
{
// presumably a symbol font
eteUni = cmapTable.GetEncodingTableEntry(3,0);
}
if (eteUni != null)
{
Table_cmap.Subtable st = cmapTable.GetSubtable(eteUni);
if (st != null)
{
bool bCmapOk = true;
byte[] charbuf = new byte[2];
// find the first char
for (ushort c=0; c<0xffff; c++)
{
charbuf[0] = (byte)c;
charbuf[1] = (byte)(c>>8);
uint glyphID;
try
{
glyphID = st.MapCharToGlyph(charbuf, 0);
}
catch
{
bCmapOk = false;
break;
}
if (glyphID != 0)
{
charFirst = c;
break;
}
}
// find the last char (start at fffd: fffe and ffff aren't legal characters)
if (bCmapOk)
{
for (ushort c=0xfffd; c>0; c--)
{
charbuf[0] = (byte)c;
charbuf[1] = (byte)(c>>8);
uint glyphID;
try
{
glyphID = st.MapCharToGlyph(charbuf, 0);
}
catch
{
bCmapOk = false;
break;
}
if (glyphID != 0)
{
charLast = c;
break;
}
}
}
if (!bCmapOk)
{
v.Warning(T.OS_2_CharIndexes, W._TEST_W_ErrorInAnotherTable, m_tag, "usFirstCharIndex and usLastCharIndex cannot be validated due to errors in the cmap table");
}
else if (usFirstCharIndex == charFirst && usLastCharIndex == charLast)
{
v.Pass(T.OS_2_CharIndexes, P.OS_2_P_CharIndexes, m_tag, "first = 0x" + usFirstCharIndex.ToString("x4") + ", last = 0x" + usLastCharIndex.ToString("x4"));
}
else
{
if (usFirstCharIndex != charFirst)
{
String sDetails = "actual = 0x" + usFirstCharIndex.ToString("x4") + ", calculated = 0x" + charFirst.ToString("x4");
v.Error(T.OS_2_CharIndexes, E.OS_2_E_usFirstCharIndex, m_tag, sDetails);
bRet = false;
}
if (usLastCharIndex != charLast)
{
String sDetails = "actual = 0x" + usLastCharIndex.ToString("x4") + ", calculated = 0x" + charLast.ToString("x4");
v.Error(T.OS_2_CharIndexes, E.OS_2_E_usLastCharIndex, m_tag, sDetails);
bRet = false;
}
}
}
else
{
v.Warning(T.OS_2_CharIndexes, W._TEST_W_ErrorInAnotherTable, m_tag, "usFirstCharIndex and usLastCharIndex cannot be validated due to errors in the cmap table");
}
}
}
else
{
v.Error(T.OS_2_CharIndexes, E._TEST_E_TableMissing, m_tag, "cmap");
bRet = false;
}
}
if (v.PerformTest(T.OS_2_TypoMetrics))
{
bool bOk = true;
if (sTypoAscender <= 0)
{
v.Error(T.OS_2_TypoMetrics, E.OS_2_E_sTypoAscender_notpositive, m_tag, sTypoAscender.ToString());
bOk = false;
bRet = false;
}
if (sTypoDescender > 0)
{
v.Error(T.OS_2_TypoMetrics, E.OS_2_E_sTypoDescender_positive, m_tag, sTypoDescender.ToString());
bOk = false;
bRet = false;
}
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if (sTypoAscender - sTypoDescender > headTable.unitsPerEm)
{
string sDetails = "sTypoAscender = " + sTypoAscender + ", sTypoDescender = " + sTypoDescender;
v.Warning(T.OS_2_TypoMetrics, W.OS_2_W_sTypoAscenderDescender_difference, m_tag, sDetails);
bOk = false;
}
}
else
{
v.Error(T.OS_2_TypoMetrics, E._TEST_E_TableMissing, m_tag, "head");
bRet = false;
}
if (bOk)
{
string sDetails = "sTypoAscender = " + sTypoAscender + ", sTypoDescender = " + sTypoDescender;
v.Pass(T.OS_2_TypoMetrics, P.OS_2_P_sTypoAscenderDescender, m_tag, sDetails);
}
}
if (v.PerformTest(T.OS_2_CodePageRanges))
{
if (version >= 1)
{
bRet &= CheckCodePageRanges(v, fontOwner);
}
}
if (v.PerformTest(T.OS_2_sxHeight))
{
if (version >= 2)
{
if (sxHeight == 0)
{
if (fontOwner.FastMapUnicodeToGlyphID((char)0x0078) != 0)
{
v.Error(T.OS_2_sxHeight, E.OS_2_E_sxHeight, m_tag);
bRet = false;
}
else
{
v.Pass(T.OS_2_sxHeight, P.OS_2_P_sxHeight_zero, m_tag, sxHeight.ToString());
}
}
else
{
v.Pass(T.OS_2_sxHeight, P.OS_2_P_sxHeight_nonzero, m_tag, sxHeight.ToString());
}
}
}
if (v.PerformTest(T.OS_2_sCapHeight))
{
if (version >= 2)
{
if (sCapHeight == 0)
{
if (fontOwner.FastMapUnicodeToGlyphID((char)0x0048) != 0)
{
v.Error(T.OS_2_sCapHeight, E.OS_2_E_sCapHeight, m_tag);
bRet = false;
}
else
{
v.Pass(T.OS_2_sCapHeight, P.OS_2_P_sCapHeight_zero, m_tag, sCapHeight.ToString());
}
}
else
{
v.Pass(T.OS_2_sCapHeight, P.OS_2_P_sCapHeight_nonzero, m_tag, sCapHeight.ToString());
}
}
}
if (v.PerformTest(T.OS_2_usDefaultChar))
{
if (version >= 2)
{
if (usDefaultChar == 0)
{
v.Pass(T.OS_2_usDefaultChar, P.OS_2_P_usDefaultChar_zero, m_tag);
}
else if (fontOwner.FastMapUnicodeToGlyphID((char)usDefaultChar) != 0)
{
v.Pass(T.OS_2_usDefaultChar, P.OS_2_P_usDefaultChar_nonzero, m_tag, "0x" + usDefaultChar.ToString("x4"));
}
else
{
v.Error(T.OS_2_usDefaultChar, E.OS_2_E_usDefaultChar_notmapped, m_tag, "0x" + usDefaultChar.ToString("x4"));
bRet = false;
}
}
}
if (v.PerformTest(T.OS_2_usBreakChar))
{
if (version >= 2)
{
if (fontOwner.FastMapUnicodeToGlyphID((char)usBreakChar) != 0)
{
v.Pass(T.OS_2_usBreakChar, P.OS_2_P_usBreakChar_mapped, m_tag);
}
else
{
v.Error(T.OS_2_usBreakChar, E.OS_2_E_usBreakChar_notmapped, m_tag, "0x" + usBreakChar.ToString("x4"));
bRet = false;
}
}
}
if (v.PerformTest(T.OS_2_usMaxContext))
{
if (version >= 2)
{
ushort GPOSMaxContext = 0;
Table_GPOS GPOSTable = (Table_GPOS)fontOwner.GetTable("GPOS");
if (GPOSTable != null)
{
GPOSMaxContext = GPOSTable.GetMaxContext();
}
ushort GSUBMaxContext = 0;
Table_GSUB GSUBTable = (Table_GSUB)fontOwner.GetTable("GSUB");
if (GSUBTable != null)
{
GSUBMaxContext = GSUBTable.GetMaxContext();
}
ushort CalcMaxContext = Math.Max(GPOSMaxContext, GSUBMaxContext);
if (usMaxContext == CalcMaxContext)
{
v.Pass(T.OS_2_usMaxContext, P.OS_2_P_usMaxContext, m_tag, usMaxContext.ToString());
}
else
{
v.Error(T.OS_2_usMaxContext, E.OS_2_E_usMaxContext, m_tag, "calc = " + CalcMaxContext + ", actual = " + usMaxContext);
bRet = false;
}
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, hhea table is invalid or missing");
return(false);
}
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, maxp table is invalid or missing");
return(false);
}
if (v.PerformTest(T.hmtx_TableSize))
{
uint nhm = GetNumberOfHMetrics(fontOwner);
uint nlsb = GetNumLeftSideBearingEntries(fontOwner);
uint CalcTableLength = nhm * 4 + nlsb * 2;
if (CalcTableLength == GetLength())
{
v.Pass(T.hmtx_TableSize, P.hmtx_P_TableSize, m_tag);
}
else
{
v.Error(T.hmtx_TableSize, E.hmtx_E_TableSize, m_tag);
bRet = false;
}
}
if (v.PerformTest(T.hmtx_CheckMetrics))
{
bool bMetricsOk = true;
for (uint iGlyph = 0; iGlyph < fontOwner.GetMaxpNumGlyphs(); iGlyph++)
{
longHorMetric hm = this.GetOrMakeHMetric(iGlyph, fontOwner);
if (hm != null)
{
if (hm.lsb > hm.advanceWidth)
{
v.Warning(T.hmtx_CheckMetrics, W.hmtx_W_CheckMetrics_lsb_gt_adv, m_tag, "glyph# " + iGlyph);
bMetricsOk = false;
}
}
else
{
// unable to fetch this horizontal metric
// (probably bad hheaTable.numberOfHMetrics or bad table length)
bMetricsOk = false;
}
}
if (bMetricsOk)
{
v.Pass(T.hmtx_CheckMetrics, P.hmtx_P_CheckMetrics, m_tag);
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.post_TableLength))
{
bool bLenOk = true;
if (Version.GetUint() == 0x00010000 ||
Version.GetUint() == 0x00030000)
{
if (GetLength() != 32)
{
v.Error(T.post_TableLength, E.post_E_TableLenNot32, m_tag);
bLenOk = false;
bRet = false;
}
}
if (Version.GetUint() == 0x00020000)
{
if (GetLength() < 34)
{
v.Error(T.post_TableLength, E.post_E_InvalidTableLen, m_tag);
bLenOk = false;
bRet = false;
}
}
if (bLenOk)
{
v.Pass(T.post_TableLength, P.post_P_TableLength, m_tag);
}
}
if (v.PerformTest(T.post_Version))
{
uint ver = Version.GetUint();
if (ver == 0x00025000)
{
v.Warning(T.post_Version, W.post_W_Version_2_5, m_tag);
}
else if (ver == 0x00010000 || ver == 0x00020000)
{
v.Pass(T.post_Version, P.post_P_Version, m_tag);
}
else if (ver == 0x00030000)
{
v.Warning(T.post_Version, W.post_W_Version_3_Apple, m_tag);
}
else if (ver == 0x00040000)
{
v.Warning(T.post_Version, W.post_W_Version_4_Apple, m_tag);
}
else
{
v.Error(T.post_Version, E.post_E_Version, m_tag, "0x" + ver.ToString("x8"));
}
}
if (v.PerformTest(T.post_italicAngle))
{
bool bItalOk = true;
uint ia = italicAngle.GetUint();
double dItalicAngle = italicAngle.GetDouble();
if (dItalicAngle < -30.0 || dItalicAngle > 360.0 || (dItalicAngle > 0.0 && dItalicAngle < 330.0))
{
v.Warning(T.post_italicAngle, W.post_W_italicAngle_unlikely, m_tag, "0x" + ia.ToString("x8"));
bItalOk = false;
}
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if ((headTable.macStyle & 0x0002) != 0)
{
if (ia == 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleZero_macStyle, m_tag);
bItalOk = false;
bRet = false;
}
}
else
{
if (ia != 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleNonzero_macStyle, m_tag);
bItalOk = false;
bRet = false;
}
}
}
else
{
v.Error(T.post_italicAngle, E._TEST_E_TableMissing, m_tag, "head table missing, can't compare italicAngle to head.macStyle");
bItalOk = false;
}
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable != null)
{
if (ia == 0)
{
if (hheaTable.caretSlopeRun != 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleZero_caretSlopeRun, m_tag);
bItalOk = false;
bRet = false;
}
}
else
{
if (hheaTable.caretSlopeRun == 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleNonzero_caretSlopeRun, m_tag);
bItalOk = false;
bRet = false;
}
else
{
double dActualAngle = 90.0 + italicAngle.GetDouble();
double dhheaAngle = (Math.Atan2(hheaTable.caretSlopeRise, hheaTable.caretSlopeRun)) * (180.0 / Math.PI);
if (Math.Abs(dActualAngle - dhheaAngle) >= 1.0)
{
string sDetails = "italicAngle = 0x" + ia.ToString("x8") +
" (" + italicAngle.GetDouble() + " degrees)" +
",caretSlope Rise:Run = " + hheaTable.caretSlopeRise + ":" + hheaTable.caretSlopeRun +
" (" + (dhheaAngle - 90.0) + " degrees)";
v.Error(T.post_italicAngle, E.post_E_italicAngleNonzero_hheaAngle, m_tag, sDetails);
bItalOk = false;
bRet = false;
}
}
}
}
else
{
v.Error(T.post_italicAngle, E._TEST_E_TableMissing, m_tag, "hhea table missing, can't compare italicAngle to hhea.caretSlopeRun");
bItalOk = false;
bRet = false;
}
if (bItalOk)
{
v.Pass(T.post_italicAngle, P.post_P_italicAngle, m_tag);
}
}
if (v.PerformTest(T.post_underlinePosition))
{
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable != null)
{
if (underlinePosition >= hheaTable.Descender)
{
v.Pass(T.post_underlinePosition, P.post_P_underlinePosition, m_tag);
}
else
{
v.Warning(T.post_underlinePosition, W.post_W_underlinePos_LT_descender, m_tag);
//bRet = false;
}
}
else
{
v.Error(T.post_underlinePosition, E._TEST_E_TableMissing, m_tag, "hhea table missing, can't compare underlinePosition to hhea.Descender");
}
}
if (v.PerformTest(T.post_underlineThickness))
{
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if (underlineThickness >= 0 && underlineThickness < headTable.unitsPerEm / 2)
{
v.Pass(T.post_underlineThickness, P.post_P_underlineThickness, m_tag);
}
else
{
v.Warning(T.post_underlineThickness, W.post_W_underlineThickness, m_tag, underlineThickness.ToString());
}
}
else
{
v.Error(T.post_underlineThickness, E._TEST_E_TableMissing, m_tag, "head table missing, can't compare underlineThickness to head.unitsPerEm");
bRet = false;
}
}
if (v.PerformTest(T.post_isFixedPitch))
{
bool bFixedPitchOk = true;
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
if (hmtxTable != null)
{
uint numberOfHMetrics = 0;
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable != null)
{
numberOfHMetrics = hheaTable.numberOfHMetrics;
}
else
{
v.Error(T.post_isFixedPitch, E._TEST_E_TableMissing, m_tag, "hhea table missing, can't compare isFixedPitch to horizontal metrics");
bRet = false;
}
bool bHmtxMono = hmtxTable.IsMonospace(fontOwner);
if (isFixedPitch == 0 && bHmtxMono)
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchZero_hmtx, m_tag);
bFixedPitchOk = false;
bRet = false;
}
else if (isFixedPitch != 0 && !bHmtxMono)
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchNonzero_hmtx, m_tag);
bFixedPitchOk = false;
bRet = false;
}
}
else
{
v.Error(T.post_isFixedPitch, E._TEST_E_TableMissing, m_tag, "hmtx table missing, can't compare isFixedPitch to horizontal metrics");
bRet = false;
}
Table_OS2 OS2Table = (Table_OS2)fontOwner.GetTable("OS/2");
if (OS2Table != null)
{
if (OS2Table.panose_byte1 == 2) // PANOSE family kind == LatinText
{
if (isFixedPitch == 0 && OS2Table.panose_byte4 == 9) // PANOSE proportion == monospaced
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchZero_OS_2, m_tag);
bFixedPitchOk = false;
bRet = false;
}
else if (isFixedPitch != 0 && OS2Table.panose_byte4 != 9)
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchNonzero_OS_2, m_tag);
bFixedPitchOk = false;
bRet = false;
}
}
}
else
{
v.Error(T.post_isFixedPitch, E._TEST_E_TableMissing,
m_tag, "OS/2 table is missing, can't compare isFixedPitch to OS/2 PANOSE");
bRet = false;
}
if (bFixedPitchOk && hmtxTable != null && OS2Table != null)
{
v.Pass(T.post_isFixedPitch, P.post_P_isFixedPitch, m_tag, "matches the hmtx and OS/2 tables");
}
else if (bFixedPitchOk && hmtxTable == null && OS2Table != null)
{
v.Pass(T.post_isFixedPitch, P.post_P_isFixedPitch, m_tag, "matches the OS/2 table");
}
else if (bFixedPitchOk && hmtxTable != null && OS2Table == null)
{
v.Pass(T.post_isFixedPitch, P.post_P_isFixedPitch, m_tag, "matches the hmtx table");
}
}
if (v.PerformTest(T.post_v2_numberOfGlyphs))
{
if (Version.GetUint() == 0x00020000)
{
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.post_v2_numberOfGlyphs, E._TEST_E_TableMissing, m_tag, "maxp table is missing");
bRet = false;
}
else
{
if (numberOfGlyphs == fontOwner.GetMaxpNumGlyphs())
{
v.Pass(T.post_v2_numberOfGlyphs, P.post_P_v2_numberOfGlyphs, m_tag);
}
else
{
v.Error(T.post_v2_numberOfGlyphs, E.post_E_v2_numberOfGlyphs,
m_tag, "numberOfGlyphs = " + numberOfGlyphs +
", maxp.numGlyphs = " + fontOwner.GetMaxpNumGlyphs());
bRet = false;
}
}
}
else
{
v.Info(T.post_v2_numberOfGlyphs, I.post_I_v2_numberOfGlyphs_notv2, m_tag);
}
}
if (v.PerformTest(T.post_v2_glyphNameIndex))
{
if (Version.GetUint() == 0x00020000 && GetLength() >= 34)
{
bool bIndexOk = true;
for (uint i = 0; i < numberOfGlyphs; i++)
{
if ((uint)FieldOffsetsVer2.glyphNameIndex + i * 2 + 2 <= m_bufTable.GetLength())
{
ushort index = GetGlyphNameIndex((ushort)i);
if (index - 258 >= m_nameOffsets.Length)
{
string s = "glyphNameIndex[" + i + "] = " +
index + ", # names = " + m_nameOffsets.Length;
v.Error(T.post_v2_glyphNameIndex, E.post_E_glyphNameIndex_range, m_tag, s);
bIndexOk = false;
bRet = false;
}
}
else
{
v.Warning(T.post_v2_glyphNameIndex,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate any more glyph indexes, index " +
i + " is past end of table");
bIndexOk = false;
break;
}
}
if (bIndexOk)
{
v.Pass(T.post_v2_glyphNameIndex, P.post_P_glyphNameIndex, m_tag);
}
}
else
{
v.Info(T.post_v2_glyphNameIndex, I.post_I_v2_glyphNameIndex_notv2, m_tag);
}
}
if (v.PerformTest(T.post_v2_names))
{
if (Version.GetUint() == 0x00020000)
{
PostNames pn = new PostNames();
bool bNamesOk = true;
byte [] buf = new byte[2];
for (uint iGlyph = 0; iGlyph < numberOfGlyphs; iGlyph++)
{
if ((uint)FieldOffsetsVer2.glyphNameIndex + iGlyph * 2 + 2
<= m_bufTable.GetLength())
{
uint index = GetGlyphNameIndex((ushort)iGlyph);
if (index >= 258 && index - 258 < m_nameOffsets.Length)
{
if (m_nameOffsets[index - 258] >= GetLength())
{
string s = "name index = " + index;
v.Error(T.post_v2_names,
E.post_E_v2_NameOffsetInvalid,
m_tag, s);
bNamesOk = false;
bRet = false;
}
else
{
uint length =
m_bufTable.GetByte(m_nameOffsets[index - 258]);
if (m_nameOffsets[index - 258] + length < GetLength())
{
bNamesOk = CheckNames(v, fontOwner, pn, iGlyph, index);
}
else
{
string s = "name index = " + index;
v.Error(T.post_v2_names, E.post_E_v2_NameLengthInvalid, m_tag, s);
bNamesOk = false;
bRet = false;
}
}
}
}
else
{
v.Warning(T.post_v2_names, W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate any more names, index " +
iGlyph + " is past end of table");
bNamesOk = false;
break;
}
}
if (bNamesOk)
{
v.Pass(T.post_v2_names, P.post_P_names, m_tag);
}
}
else
{
v.Info(T.post_v2_names, I.post_I_v2_names_notv2, m_tag);
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
v.Info(T.T_NULL, I.CFF_I_Version, m_tag, major + "." + minor);
if (major == 1 && minor == 0 && hdrSize == 4)
{
v.Pass(T.CFF_Header, P.CFF_P_Header, m_tag);
}
else
{
v.Error(T.CFF_Header, E.CFF_E_Header, m_tag,
"major=" + major + ", minor=" + minor + ", hdrSize=" + hdrSize + ", offSize=" + offSize);
}
try
{
v.Pass(T.CFF_MAININDEX_Enumeration, P.CFF_P_MAININDEX_Enumeration, m_tag,
"Name=" + Name.count + ", TopDICT=" + TopDICT.count + ", String=" + String.count + ", GlobalSubr=" + GlobalSubr.count);
}
catch (Exception e)
{
v.Error(T.CFF_MAININDEX_Enumeration, E.CFF_E_MAININDEX_Enumeration, m_tag,
e.Message);
return(false);
}
if (Name.count == TopDICT.count && TopDICT.count == 1)
{
v.Pass(T.CFF_NameDICTSize, P.CFF_P_NameDICTSize, m_tag);
}
else
{
v.Error(T.CFF_NameDICTSize, E.CFF_E_NameDICTSize, m_tag,
"Name=" + Name.count + ", TopDICT=" + TopDICT.count);
}
if (Name.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "Name=" + Name.GetOffset(0));
}
if (TopDICT.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "TopDICT=" + TopDICT.GetOffset(0));
}
if (String.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "String=" + String.GetOffset(0));
}
if (GlobalSubr.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "GlobalSubr=" + GlobalSubr.GetOffset(0));
}
var overlap = new DataOverlapDetector();
if (!overlap.CheckForNoOverlap(0, hdrSize))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "hdrSize");
}
if (!overlap.CheckForNoOverlap(Name.begin, Name.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "Name");
}
if (!overlap.CheckForNoOverlap(TopDICT.begin, TopDICT.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "TopDICT");
}
if (!overlap.CheckForNoOverlap(String.begin, String.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "String");
}
if (!overlap.CheckForNoOverlap(GlobalSubr.begin, GlobalSubr.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "GlobalSubr");
}
try
{
for (uint i = 0; i < Name.count; i++)
{
var name = Name.GetString(i);
}
v.Pass(T.CFF_Non_ASCII_String_or_Name, P.CFF_P_Non_ASCII_String_or_Name, m_tag, "Name INDEX");
}
catch (DecoderFallbackException)
{
v.Error(T.CFF_Non_ASCII_String_or_Name, E.CFF_E_Non_ASCII_String_or_Name, m_tag, "Name INDEX");
}
try{
for (uint i = 0; i < String.count; i++)
{
var a = String.GetString(i);
}
v.Pass(T.CFF_Non_ASCII_String_or_Name, P.CFF_P_Non_ASCII_String_or_Name, m_tag, "String INDEX");
}
catch (DecoderFallbackException)
{
v.Error(T.CFF_Non_ASCII_String_or_Name, E.CFF_E_Non_ASCII_String_or_Name, m_tag, "String INDEX");
}
for (uint iDICT = 0; iDICT < TopDICT.count; iDICT++)
{
Table_CFF.DICTData curTopDICT = null;
try
{
curTopDICT = GetTopDICT(iDICT);
v.Pass(T.CFF_DICTUnwind, P.CFF_P_DICTUnwind, m_tag, curTopDICT.FullName);
if (!overlap.CheckForNoOverlap((uint)curTopDICT.offsetPrivate, (uint)curTopDICT.sizePrivate))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "TopDICTPriv");
}
}
catch (Exception e)
{
v.Error(T.CFF_DICTUnwind, E.CFF_E_DICTUnwind, m_tag, "TopDICT: " + e.Message);
}
Table_CFF.DICTData topPrivateDict = null;
try
{
topPrivateDict = GetPrivate(curTopDICT);
v.Pass(T.CFF_PrivDICTUnwind, P.CFF_P_PrivDICTUnwind, m_tag, "topPrivateDict");
}
catch (Exception e)
{
v.Error(T.CFF_PrivDICTUnwind, E.CFF_E_PrivDICTUnwind, m_tag, "topPrivateDict: " + e.Message);
}
if (topPrivateDict != null && topPrivateDict.Subrs != 0)
{
try
{
Table_CFF.INDEXData topPrivSubrs = GetINDEX(curTopDICT.offsetPrivate + topPrivateDict.Subrs);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "topPrivSubrs: " + topPrivSubrs.count);
if (topPrivSubrs.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "topPrivSubrs=" + topPrivSubrs.GetOffset(0));
}
if (!overlap.CheckForNoOverlap(topPrivSubrs.begin, topPrivSubrs.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "topPrivSubrs");
}
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "topPrivSubrs: " + e.Message);
}
}
Table_CFF.INDEXData CharStrings = null;
try
{
CharStrings = GetINDEX(curTopDICT.offsetCharStrings);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "CharStrings: " + CharStrings.count);
if (CharStrings.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "CharStrings=" + CharStrings.GetOffset(0));
}
if (!overlap.CheckForNoOverlap(CharStrings.begin, CharStrings.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "CharStrings");
}
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "CharStrings: " + e.Message);
}
if (CharStrings.count == fontOwner.GetMaxpNumGlyphs())
{
v.Pass(T.CFF_CharStringsCount, P.CFF_P_CharStringsCount, m_tag);
}
else
{
v.Error(T.CFF_CharStringsCount, E.CFF_E_CharStringsCount, m_tag,
CharStrings.count.ToString() + "!=" + fontOwner.GetMaxpNumGlyphs());
}
if (curTopDICT.ROS != null)
{
v.Info(T.CFF_CIDROS, I.CFF_I_CIDROS, m_tag, curTopDICT.ROS);
}
if (curTopDICT.offsetFDArray > 0)
{
Table_CFF.INDEXData FDArray = null;
try {
FDArray = GetINDEX(curTopDICT.offsetFDArray);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "FDArray: " + FDArray.count);
if (FDArray.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "FDArray=" + FDArray.GetOffset(0));
}
if (!overlap.CheckForNoOverlap(FDArray.begin, FDArray.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "FDArray");
}
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "FDArray: " + e.Message);
}
for (uint i = 0; i < FDArray.count; i++)
{
Table_CFF.DICTData FDict = null;
try
{
FDict = GetDICT(FDArray.GetData(i));
v.Pass(T.CFF_DICTUnwind, P.CFF_P_DICTUnwind, m_tag, "CID FontDict #" + i + ": " + FDict.FontName);
if (!overlap.CheckForNoOverlap((uint)FDict.offsetPrivate, (uint)FDict.sizePrivate))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "FDictPriv#" + i);
}
}
catch (Exception e)
{
v.Error(T.CFF_DICTUnwind, E.CFF_E_DICTUnwind, m_tag, "CID FontDict #" + i + ": " + e.Message);
}
Table_CFF.DICTData FDictPrivate = null;
try
{
FDictPrivate = GetPrivate(FDict);
v.Pass(T.CFF_PrivDICTUnwind, P.CFF_P_PrivDICTUnwind, m_tag, "CID FontDict Private DICT#" + i);
}
catch (Exception e)
{
v.Error(T.CFF_PrivDICTUnwind, E.CFF_E_PrivDICTUnwind, m_tag, "CID FontDict Private DICT#" + i + ": " + e.Message);
}
if (FDictPrivate != null && FDictPrivate.Subrs != 0)
{
Table_CFF.INDEXData PrivSubrs = null;
try
{
PrivSubrs = GetINDEX(FDict.offsetPrivate + FDictPrivate.Subrs);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "PrivSubrs#" + i + ": " + PrivSubrs.count);
if (PrivSubrs.GetOffset(0) != 1)
{
v.Warning(T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag,
"PrivSubrs#" + i + "=" + PrivSubrs.GetOffset(0));
}
if (!overlap.CheckForNoOverlap(PrivSubrs.begin, PrivSubrs.size))
{
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "PrivSubrs#" + i);
}
;
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "PrivSubrs#" + i + ": " + e.Message);
}
}
}
}
string result = "Tested Region: " + overlap.Occupied + " of " + GetLength() + ", not testing" +
(curTopDICT.offsetCharset == 0 ? "" : " Charset: " + curTopDICT.offsetCharset) +
(curTopDICT.offsetEncoding == 0 ? "" : " Encoding: " + curTopDICT.offsetEncoding) +
(curTopDICT.offsetFDSelect == 0 ? "" : " FDSelect: " + curTopDICT.offsetFDSelect);
v.Info(T.CFF_TestCoverage, I.CFF_I_NotValidated, m_tag, result);
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.hhea_version))
{
if (TableVersionNumber.GetUint() == 0x00010000)
{
v.Pass(T.hhea_version, P.hhea_P_version, m_tag);
}
else
{
v.Error(T.hhea_version, E.hhea_E_version, m_tag, "0x"+TableVersionNumber.GetUint().ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.hhea_AscenderPositive))
{
if (Ascender <= 0)
{
string s = "Ascender = " + Ascender;
v.Error(T.hhea_AscenderPositive, E.hhea_E_AscenderPositive, m_tag, s);
bRet = false;
}
else
{
v.Pass(T.hhea_AscenderPositive, P.hhea_P_AscenderPositive, m_tag);
}
}
if (v.PerformTest(T.hhea_DescenderNegative))
{
if (Descender >= 0)
{
string s = "Descender = " + Descender;
v.Error(T.hhea_DescenderNegative, E.hhea_E_DescenderNegative, m_tag, s);
bRet = false;
}
else
{
v.Pass(T.hhea_DescenderNegative, P.hhea_P_DescenderNegative, m_tag);
}
}
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if (v.PerformTest(T.hhea_Ascender_yMax))
{
if (Ascender > headTable.yMax)
{
string s = "Ascender = " + Ascender + ", head.yMax = " + headTable.yMax;
v.Info(T.hhea_Ascender_yMax, I.hhea_I_Ascender_yMax, m_tag, s);
// bRet = false;
}
else
{
v.Pass(T.hhea_Ascender_yMax, P.hhea_P_Ascender_yMax, m_tag);
}
}
if (v.PerformTest(T.hhea_Descender_yMin))
{
if (Descender < headTable.yMin)
{
string s = "Descender = " + Descender + ", head.yMin = " + headTable.yMin;
v.Info(T.hhea_Descender_yMin, I.hhea_I_Descender_yMin, m_tag, s);
// bRet = false;
}
else
{
v.Pass(T.hhea_Descender_yMin, P.hhea_P_Descender_yMin, m_tag);
}
}
}
else
{
v.Error(T.hhea_Ascender_yMax, E._TEST_E_TableMissing, m_tag, "head");
bRet = false;
}
if (v.PerformTest(T.hhea_LineGapPositive))
{
if (LineGap < 0)
{
string s = "LineGap = " + LineGap;
v.Warning(T.hhea_LineGapPositive, W.hhea_W_LineGapPositive, m_tag, s);
//bRet = false;
}
else
{
v.Pass(T.hhea_LineGapPositive, P.hhea_P_LineGapPositive, m_tag);
}
}
Table_OS2 OS2Table = (Table_OS2)fontOwner.GetTable("OS/2");
if (OS2Table != null)
{
if (v.PerformTest(T.hhea_Ascender_usWinAscent))
{
if (OS2Table.usWinAscent != Ascender)
{
string s = "hhea.Ascender = " + Ascender + ", OS/2.usWinAscent = " + OS2Table.usWinAscent;
v.Warning(T.hhea_Ascender_usWinAscent, W.hhea_W_Ascender_usWinAscent, m_tag, s);
}
else
{
v.Pass(T.hhea_Ascender_usWinAscent, P.hhea_P_Ascender_usWinAscent, m_tag);
}
}
if (v.PerformTest(T.hhea_Descender_usWinDescent))
{
if (OS2Table.usWinDescent != (Descender * -1))
{
string s = "hhea.Descender = " + Descender + ", OS/2.usWinDescent = " + OS2Table.usWinDescent;
v.Warning(T.hhea_Descender_usWinDescent, W.hhea_W_Descender_usWinDescent, m_tag, s);
}
else
{
v.Pass(T.hhea_Descender_usWinDescent, P.hhea_P_Descender_usWinDescent, m_tag);
}
}
// Microsoft is recommending that Ascender, Descender and LineGap be in line with OS2.winAscent, OS2.winDescent
// and formulated value for LineGap to make sure font displays the same on Apple as it does no Windows.
if (v.PerformTest(T.hhea_LineGap_minGap))
{
int sMinGap = (OS2Table.usWinAscent + OS2Table.usWinDescent) - (Ascender - Descender);
if (LineGap < sMinGap)
{
string s = "LineGap = " + LineGap + ", recommended = " + sMinGap;
v.Warning(T.hhea_LineGap_minGap, W.hhea_W_LineGap_minGap, m_tag, s);
//bRet = false;
}
else
{
v.Pass(T.hhea_LineGap_minGap, P.hhea_P_LineGap_minGap, m_tag);
}
}
else
{
v.Error(T.hhea_LineGap_minGap, E._TEST_E_TableMissing, m_tag, "OS/2");
}
}
else
{
v.Error(T.hhea_Ascender_usWinAscent, E._TEST_E_TableMissing, m_tag, "OS/2");
v.Error(T.hhea_Descender_usWinDescent, E._TEST_E_TableMissing, m_tag, "OS/2");
v.Error(T.hhea_LineGap_minGap, E._TEST_E_TableMissing, m_tag, "OS/2");
bRet = false;
}
if (v.PerformTest(T.hhea_MinMax))
{
if (fontOwner.ContainsTrueTypeOutlines())
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
Table_glyf glyfTable = (Table_glyf)fontOwner.GetTable("glyf");
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.hhea_MinMax, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (glyfTable == null)
{
v.Error(T.hhea_MinMax, E._TEST_E_TableMissing, m_tag, "glyf");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.hhea_MinMax, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
ushort awMax = 0;
short minLSB = 32767;
short minRSB = 32767;
short xmaxEx = -32768;
Table_hmtx.longHorMetric hm = null;
for (uint iGlyph = 0; iGlyph < numGlyphs; iGlyph++)
{
hm = hmtxTable.GetOrMakeHMetric(iGlyph, fontOwner);
if (hm == null)
{
break;
}
if (awMax < hm.advanceWidth)
{
awMax = hm.advanceWidth;
// We want to give the user feedback to know what glyph id
// has the bad width assigned
if (awMax > advanceWidthMax)
{
string s = "glyph ID = " + iGlyph + ", advance width = " + awMax;
v.Error(T.hhea_MinMax, E.hhea_E_advanceWidthMax, m_tag, s);
bRet = false;
}
}
Table_glyf.header gh = glyfTable.GetGlyphHeader(iGlyph, fontOwner);
// calculate for all non-zero contours...this includes composites
if (gh != null
&& gh.numberOfContours != 0)
{
if (minLSB > hm.lsb) minLSB = hm.lsb;
short rsb = (short)(hm.advanceWidth - hm.lsb - (gh.xMax - gh.xMin));
if (minRSB > rsb) minRSB = rsb;
short extent = (short)(hm.lsb + (gh.xMax - gh.xMin));
if (xmaxEx < extent) xmaxEx = extent;
}
}
if (hm != null)
{
if (advanceWidthMax == awMax)
{
v.Pass(T.hhea_MinMax, P.hhea_P_advanceWidthMax, m_tag);
}
else
{
string s = "actual = " + advanceWidthMax + ", calc = " + awMax;
v.Error(T.hhea_MinMax, E.hhea_E_advanceWidthMax, m_tag, s);
bRet = false;
}
if (minLeftSideBearing == minLSB)
{
v.Pass(T.hhea_MinMax, P.hhea_P_minLeftSideBearing, m_tag);
}
else
{
string s = "actual = " + minLeftSideBearing + ", calc = " + minLSB;
v.Error(T.hhea_MinMax, E.hhea_E_minLeftSideBearing, m_tag, s);
bRet = false;
}
if (minRightSideBearing == minRSB)
{
v.Pass(T.hhea_MinMax, P.hhea_P_minRightSideBearing, m_tag);
}
else
{
string s = "actual = " + minRightSideBearing + ", calc = " + minRSB;
v.Error(T.hhea_MinMax, E.hhea_E_minRightSideBearing, m_tag, s);
bRet = false;
}
if (xMaxExtent == xmaxEx)
{
v.Pass(T.hhea_MinMax, P.hhea_P_xMaxExtent, m_tag);
}
else
{
string s = "actual = " + xMaxExtent + ", calc = " + xmaxEx;
v.Error(T.hhea_MinMax, E.hhea_E_xMaxExtent, m_tag, s);
bRet = false;
}
}
else
{
v.Warning(T.hhea_MinMax, W.hhea_W_hmtx_invalid, m_tag, "unable to parse hmtx table");
}
}
}
else
{
v.Info(T.hhea_MinMax, I._TEST_I_NotForCFF, m_tag, "test = hhea_MinMax");
}
}
if (v.PerformTest(T.hhea_reserved))
{
if (reserved1 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved1, m_tag, reserved1.ToString());
bRet = false;
}
else if (reserved2 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved2, m_tag, reserved2.ToString());
bRet = false;
}
else if (reserved3 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved3, m_tag, reserved3.ToString());
bRet = false;
}
else if (reserved4 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved4, m_tag, reserved4.ToString());
bRet = false;
}
else
{
v.Pass(T.hhea_reserved, P.hhea_P_reserved, m_tag);
}
}
if (v.PerformTest(T.hhea_metricDataFormat))
{
if (metricDataFormat == 0)
{
v.Pass(T.hhea_metricDataFormat, P.hhea_P_metricDataFormat, m_tag);
}
else
{
v.Error(T.hhea_metricDataFormat, E.hhea_E_metricDataFormat, m_tag, metricDataFormat.ToString());
bRet = false;
}
}
if (v.PerformTest(T.hhea_numberOfHMetrics))
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.hhea_numberOfHMetrics, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.hhea_numberOfHMetrics, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
if (numberOfHMetrics*4 + (numGlyphs-numberOfHMetrics)*2 == hmtxTable.GetLength())
{
v.Pass(T.hhea_numberOfHMetrics, P.hhea_P_numberOfHMetrics, m_tag);
}
else
{
v.Error(T.hhea_numberOfHMetrics, E.hhea_E_numberOfHMetrics, m_tag);
bRet = false;
}
}
}
if (v.PerformTest(T.hhea_caretSlope))
{
bool bSlopeOk = true;
Table_post postTable = (Table_post)fontOwner.GetTable("post");
if (postTable != null)
{
uint ia = postTable.italicAngle.GetUint();
double dItalicAngle = postTable.italicAngle.GetDouble();
if (ia == 0)
{
if (caretSlopeRun != 0)
{
v.Error(T.hhea_caretSlope, E.hhea_E_caretSlopeRunNonZero_italicAngle, m_tag);
bSlopeOk = false;
bRet = false;
}
}
else
{
if (caretSlopeRun == 0)
{
v.Error(T.hhea_caretSlope, E.hhea_E_caretSlopeRunZero_italicAngle, m_tag);
bSlopeOk = false;
bRet = false;
}
else
{
double dActualAngle = 90.0 + postTable.italicAngle.GetDouble();
double dhheaAngle = (Math.Atan2(caretSlopeRise, caretSlopeRun)) * (180.0 / Math.PI);
if (Math.Abs(dActualAngle-dhheaAngle) >= 1.0)
{
string sDetails = "caretSlope Rise:Run = " + caretSlopeRise + ":" + caretSlopeRun +
" (" + (dhheaAngle-90.0) + " degrees)" +
", post.italicAngle = 0x" + ia.ToString("x8") +
" (" + postTable.italicAngle.GetDouble() + " degrees)";
v.Error(T.hhea_caretSlope, E.hhea_E_caretSlopeAngle_italicAngle, m_tag, sDetails);
bSlopeOk = false;
bRet = false;
}
}
}
}
else
{
v.Error(T.hhea_caretSlope, E._TEST_E_TableMissing, m_tag, "post table missing, can't compare caret slope to italicAngle");
bSlopeOk = false;
bRet = false;
}
if (bSlopeOk)
{
v.Pass(T.hhea_caretSlope, P.hhea_P_caretSlopeAngle_italicAngle, m_tag);
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.kern_TableVersion))
{
if (version == 0)
{
v.Pass(T.kern_TableVersion, P.kern_P_TableVersion, m_tag);
}
else
{
v.Error(T.kern_TableVersion, E.kern_E_TableVersion, m_tag, "version = " + version.ToString() + ", unrecognized version #, no further tests can be performed");
return(false);
}
}
if (v.PerformTest(T.kern_NumSubtables))
{
if (nTables != 0)
{
v.Pass(T.kern_NumSubtables, P.kern_P_NumSubTables, m_tag, nTables.ToString());
}
else
{
v.Error(T.kern_NumSubtables, E.kern_E_NumSubTables, m_tag);
bRet = false;
}
}
if (v.PerformTest(T.kern_SubtableFormats))
{
bool bFormatsOk = true;
for (uint i = 0; i < nTables; i++)
{
SubTableHeader sth = GetSubTableHeader(i);
if (sth != null)
{
if (sth.GetFormat() != 0 && sth.GetFormat() != 2)
{
v.Error(T.kern_SubtableFormats, E.kern_E_SubtableFormats, m_tag, "subtable #" + i + ", format " + sth.GetFormat());
bFormatsOk = false;
bRet = false;
}
}
else
{
v.Error(T.kern_SubtableFormats, E.kern_E_SubTableExtendsPastEOT, m_tag, "subtable #" + i);
bFormatsOk = false;
bRet = false;
break;
}
}
if (bFormatsOk)
{
v.Pass(T.kern_SubtableFormats, P.kern_P_SubtableFormats, m_tag);
}
}
if (!bRet)
{
v.Warning(T.kern_SubtableFormats, W._TEST_W_OtherErrorsInTable, m_tag, "kern table appears to be corrupt. No further tests will be performed.");
return(bRet);
}
if (v.PerformTest(T.kern_SubtableLength))
{
bool bLengthsOk = true;
for (uint i = 0; i < nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.length != st.CalculatedLength())
{
v.Error(T.kern_SubtableLength, E.kern_E_SubtableLength, m_tag, "subtable #" + i + ", length = " + st.length + ", calculated length = " + st.CalculatedLength());
bLengthsOk = false;
bRet = false;
}
}
if (bLengthsOk)
{
v.Pass(T.kern_SubtableLength, P.kern_P_SubtableLengths, m_tag);
}
}
if (v.PerformTest(T.kern_CoverageReservedBits))
{
bool bReservedOk = true;
for (uint i = 0; i < nTables; i++)
{
SubTable st = this.GetSubTable(i);
if ((st.coverage & 0xf0) != 0)
{
bReservedOk = false;
v.Error(T.kern_CoverageReservedBits, E.kern_E_ReservedCoverageBits, m_tag, "subtable #" + i);
bRet = false;
break;
}
}
if (bReservedOk)
{
v.Pass(T.kern_CoverageReservedBits, P.kern_P_ReservedCoverageBits, m_tag);
}
}
if (v.PerformTest(T.kern_Format0_SearchFields))
{
bool bBinaryFieldsOk = true;
for (uint i = 0; i < nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
SubTableFormat0 stf0 = (SubTableFormat0)st;
ushort nPairs = stf0.nPairs;
ushort sizeofEntry = 6;
if (nPairs != 0)
{
ushort CalculatedSearchRange = (ushort)(util.MaxPower2LE(nPairs) * sizeofEntry);
ushort CalculatedEntrySelector = util.Log2(util.MaxPower2LE(nPairs));
ushort CalculatedRangeShift = (ushort)((nPairs - util.MaxPower2LE(nPairs)) * sizeofEntry);
if (stf0.searchRange != CalculatedSearchRange)
{
string s = "subtable #" + i
+ ", calc = " + CalculatedSearchRange
+ ", actual = " + stf0.searchRange;
v.Error(T.kern_Format0_SearchFields, E.kern_E_Format0_searchRange, m_tag, s);
bBinaryFieldsOk = false;
bRet = false;
}
if (stf0.entrySelector != CalculatedEntrySelector)
{
string s = "subtable #" + i
+ ", calc = " + CalculatedEntrySelector
+ ", actual = " + stf0.entrySelector;
v.Error(T.kern_Format0_SearchFields, E.kern_E_Format0_entrySelector, m_tag, s);
bBinaryFieldsOk = false;
bRet = false;
}
if (stf0.rangeShift != CalculatedRangeShift)
{
string s = "subtable #" + i
+ ", calc = " + CalculatedRangeShift
+ ", actual = " + stf0.rangeShift;
v.Error(T.kern_Format0_SearchFields, E.kern_E_Format0_rangeShift, m_tag, s);
bBinaryFieldsOk = false;
bRet = false;
}
}
else
{
// cannot validate fields since they are undefined when nPairs is zero
v.Warning(T.kern_Format0_SearchFields, W.kern_W_Format0_SearchFields, m_tag, "subtable #" + i + ", nPairs = " + stf0.nPairs);
bBinaryFieldsOk = false;
}
}
}
if (bBinaryFieldsOk)
{
v.Pass(T.kern_Format0_SearchFields, P.kern_P_Format0_SearchFields, m_tag);
}
}
if (v.PerformTest(T.kern_Format0_GlyphIDs))
{
for (uint i = 0; i < nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
bool bGlyphIDsOk = true;
SubTableFormat0 stf0 = (SubTableFormat0)st;
for (int iPair = 0; iPair < stf0.nPairs; iPair++)
{
ushort left = 0, right = 0;
short kernvalue = 0;
stf0.GetKerningPairAndValue(iPair, ref left, ref right, ref kernvalue);
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
if (left >= numGlyphs)
{
v.Error(T.kern_Format0_GlyphIDs, E.kern_E_Format0_GlyphIDs, m_tag, "kern pair[" + iPair + "]: left = " + left);
bGlyphIDsOk = false;
bRet = false;
}
if (right >= numGlyphs)
{
v.Error(T.kern_Format0_GlyphIDs, E.kern_E_Format0_GlyphIDs, m_tag, "kern pair[" + iPair + "]: right = " + right);
bGlyphIDsOk = false;
bRet = false;
}
}
if (bGlyphIDsOk)
{
v.Pass(T.kern_Format0_GlyphIDs, P.kern_P_Format0_GlyphIDs, m_tag);
}
}
}
}
if (v.PerformTest(T.kern_Format0_Values))
{
for (uint i = 0; i < nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
SubTableFormat0 stf0 = (SubTableFormat0)st;
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
if (hmtxTable != null)
{
bool bValuesOk = true;
for (int iPair = 0; iPair < stf0.nPairs; iPair++)
{
ushort left = 0, right = 0;
short kernvalue = 0;
stf0.GetKerningPairAndValue(iPair, ref left, ref right, ref kernvalue);
short absKernValue = Math.Abs(kernvalue);
Table_hmtx.longHorMetric lhmLeft = null;
Table_hmtx.longHorMetric lhmRight = null;
try {
lhmLeft = hmtxTable.GetOrMakeHMetric(left, fontOwner);
lhmRight = hmtxTable.GetOrMakeHMetric(right, fontOwner);
}
catch (Exception e)
{
v.ApplicationError(T.kern_Format0_Values, E._Table_E_Exception, m_tag, "GetOrMakeHMetric:" + e.Message);
bValuesOk = false;
bRet = false;
break;
}
if (lhmLeft == null || lhmRight == null)
{
v.ApplicationError(T.kern_Format0_Values, E._Table_E_Exception, m_tag, "hmtx Left or Right null");
bValuesOk = false;
bRet = false;
break;
}
if (absKernValue > lhmLeft.advanceWidth && absKernValue > lhmRight.advanceWidth)
{
v.Error(T.kern_Format0_Values, E.kern_E_Format0_Values, m_tag, "kern pair[" + iPair + "]: left id = " + left + ", right id = " + right + ", value = " + kernvalue);
bValuesOk = false;
bRet = false;
}
}
if (bValuesOk)
{
v.Pass(T.kern_Format0_Values, P.kern_P_Format0_Values, m_tag);
}
}
}
}
}
if (v.PerformTest("kern_Format0_IDsInCmap"))
{
for (uint i = 0; i < nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
SubTableFormat0 stf0 = (SubTableFormat0)st;
Table_cmap cmapTable = (Table_cmap)fontOwner.GetTable("cmap");
if (cmapTable != null)
{
Table_cmap.Subtable cmapSubtable = cmapTable.GetSubtable(3, 10);
if (cmapSubtable == null)
{
cmapSubtable = cmapTable.GetSubtable(3, 1);
}
if (cmapSubtable == null)
{
Table_cmap.EncodingTableEntry ete = cmapTable.GetEncodingTableEntry(0);
cmapSubtable = cmapTable.GetSubtable(ete);
}
if (cmapSubtable != null)
{
uint [] map = cmapSubtable.GetMap();
bool bAllIDsInCmap = true;
for (int iPair = 0; iPair < stf0.nPairs; iPair++)
{
ushort left = 0, right = 0;
short kernvalue = 0;
stf0.GetKerningPairAndValue(iPair, ref left, ref right, ref kernvalue);
bool bFoundLeft = false;
bool bFoundRight = false;
for (int j = 0; j < map.Length; j++)
{
if (left == map[j])
{
bFoundLeft = true;
break;
}
}
for (int j = 0; j < map.Length; j++)
{
if (right == map[j])
{
bFoundRight = true;
break;
}
}
if (bFoundLeft == false)
{
v.Error(T.kern_Format0_IDsInCmap, E.kern_E_Format0_GlyphIdInCmap, m_tag, "kern pair[" + iPair + "]: left id = " + left);
bAllIDsInCmap = false;
bRet = false;
}
if (bFoundRight == false)
{
v.Error(T.kern_Format0_IDsInCmap, E.kern_E_Format0_GlyphIdInCmap, m_tag, "kern pair[" + iPair + "]: right id = " + right);
bAllIDsInCmap = false;
bRet = false;
}
}
if (bAllIDsInCmap)
{
v.Pass(T.kern_Format0_IDsInCmap, P.kern_P_Format0_GlyphIdInCmap, m_tag);
}
}
}
}
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.head_TableLength))
{
if (m_bufTable.GetLength() == 54)
{
v.Pass(T.head_TableLength, P.head_P_TableLength, m_tag);
}
else
{
v.Error(T.head_TableLength, E.head_E_TableLength, m_tag, m_bufTable.GetLength().ToString());
bRet = false;
}
}
if (v.PerformTest(T.head_TableVersion))
{
if (TableVersionNumber.GetUint() == 0x00010000)
{
v.Pass(T.head_TableVersion, P.head_P_TableVersion, m_tag);
}
else
{
v.Error(T.head_TableVersion, E.head_E_TableVersion, m_tag, "0x"+TableVersionNumber.GetUint().ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.head_fontRevision))
{
string sVersion = fontOwner.GetFontVersion();
if (sVersion != null)
{
if (sVersion.Length >= 11
&& sVersion.StartsWith("Version ")
&& Char.IsDigit(sVersion, 8))
{
string sVersionNum = sVersion.Substring(8);
bool bFoundDecPt = false;
int nLastDigitPos = 0;
for (int i=0; i<sVersionNum.Length; i++)
{
if (Char.IsDigit(sVersionNum, i))
{
nLastDigitPos = i;
}
else if (sVersionNum[i] == '.')
{
if (!bFoundDecPt)
{
bFoundDecPt = true;
}
else
{
break;
}
}
else
{
break;
}
}
double fVersion = Double.Parse(sVersionNum.Substring(0, nLastDigitPos+1));
double fRevision = fontRevision.GetDouble();
if (Math.Round(fVersion, 3) == Math.Round(fRevision, 3))
{
v.Pass(T.head_fontRevision, P.head_P_fontRevision, m_tag, fRevision.ToString("f3"));
}
else
{
string s = "revision: " + fRevision.ToString("f3") + ", version: " + sVersionNum;
v.Warning(T.head_fontRevision, W.head_W_fontRevision, m_tag, s);
}
}
}
}
if (v.PerformTest(T.head_ChecksumAdjustment))
{
if (checkSumAdjustment == 0xb1b0afba - fontOwner.CalcChecksum())
{
v.Pass(T.head_ChecksumAdjustment, P.head_P_FontChecksum, m_tag, "0x"+checkSumAdjustment.ToString("x8"));
}
else
{
v.Error(T.head_ChecksumAdjustment, E.head_E_FontChecksum, m_tag, "0x"+checkSumAdjustment.ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.head_MagicNumber))
{
if (magicNumber == 0x5f0f3cf5)
{
v.Pass(T.head_MagicNumber, P.head_P_MagicNumber, m_tag);
}
else
{
v.Error(T.head_MagicNumber, E.head_E_MagicNumber, m_tag, "0x"+magicNumber.ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.head_FlagTests))
{
ushort val = flags;
// bit 0 indicates baseline for font at y=0
// bit 1 indicates left sidebearing point at x=0
// bit 2 indicates instructions may depend on point size
// bit 3 indicates forcing ppem to integer values instead of fractional values
// bit 4 indicates non-linear scaling - if set allows presence of LTSH and/or hdmx tables
Table_hdmx hdmxTable = (Table_hdmx)fontOwner.GetTable("hdmx");
Table_LTSH LTSHTable = (Table_LTSH)fontOwner.GetTable("LTSH");
if ((val & 0x0010) == 0)
{
if (hdmxTable == null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_0_hdmx, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit4_0_hdmx, m_tag);
}
if (LTSHTable == null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_0_LTSH, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit4_0_LTSH, m_tag);
}
}
else
{
if (hdmxTable != null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_1_hdmx, m_tag);
}
else
{
v.Warning(T.head_FlagTests, W.head_W_flags_bit4_1_hdmx, m_tag);
}
if (LTSHTable != null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_1_LTSH, m_tag);
}
else
{
v.Warning(T.head_FlagTests, W.head_W_flags_bit4_1_LTSH, m_tag);
}
}
// bits 5 - 10 are used by apple and ignored by windows
// bit 11 indicates font data is 'lossless' as a result of having been compressed/decompressed
// bit 12 indicates a converted font
// bit 13 indicates optimized for cleartype
// bit 14 reserved
if ((val & 0x4000) == 0)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit14, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit14, m_tag, val.ToString());
bRet = false;
}
// bit 15 reserved
if ((val & 0x8000) == 0)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit15, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit15, m_tag, val.ToString());
bRet = false;
}
}
if (v.PerformTest(T.head_UnitsPerEmValues))
{
ushort val = unitsPerEm;
bool bInRange = false;
if (val < 16) // opentype spec says min value is 16
{
v.Error(T.head_UnitsPerEmValues, E.head_E_unitsPerEm_LT16, m_tag, val.ToString());
bRet = false;
}
else if (val < 64) // apple spec says min value is 64
{
v.Warning(T.head_UnitsPerEmValues, W.head_W_unitsPerEM_LT64, m_tag, val.ToString());
}
else if (val > 16384)
{
v.Error(T.head_UnitsPerEmValues, E.head_E_unitsPerEM_GT16384, m_tag, val.ToString());
bRet = false;
}
else
{
bInRange = true;
}
// apple spec says unitsPerEm must be power of two
// but don't check if it's a CFF font
if (!fontOwner.ContainsPostScriptOutlines())
{
bool bPowerOfTwo = false;
for (int i=0; i<16; i++)
{
ushort nPow2 = (ushort)(1<<i);
if (val == nPow2)
{
bPowerOfTwo = true;
break;
}
}
if (bPowerOfTwo)
{
if (bInRange)
{
v.Pass(T.head_UnitsPerEmValues, P.head_P_unitsPerEm, m_tag, val.ToString());
}
}
else
{
v.Warning(T.head_UnitsPerEmValues, W.head_W_unitsPerEm_Pow2, m_tag, val.ToString());
}
}
}
if (v.PerformTest(T.head_Dates))
{
DateTime dtBeforeTrueType = new DateTime(1985, 1, 1);
if ((created >> 32) == 0)
{
DateTime dtCreated = this.GetCreatedDateTime();
if (created == 0)
{
v.Warning(T.head_Dates, W.head_W_created_0, m_tag);
}
else if (dtCreated < dtBeforeTrueType || dtCreated > DateTime.Now)
{
string sDetails = "created = " + created + " (" + dtCreated.ToString("f", null) + ")";
v.Warning(T.head_Dates, W.head_W_created_unlikely, m_tag, sDetails);
}
else
{
v.Pass(T.head_Dates, P.head_P_created_0, m_tag);
}
}
else
{
string sDetails = "created = 0x" + created.ToString("x16");
v.Error(T.head_Dates, E.head_E_created_invalid, m_tag, sDetails);
bRet = false;
}
if ((modified >> 32) == 0)
{
DateTime dtModified = this.GetModifiedDateTime();
if (modified == 0)
{
v.Warning(T.head_Dates, W.head_W_modified_0, m_tag);
}
else if (dtModified < dtBeforeTrueType || dtModified > DateTime.Now)
{
string sDetails = "modified = " + modified + " (" + dtModified.ToString("f", null) + ")";
v.Warning(T.head_Dates, W.head_W_modified_unlikely, m_tag, sDetails);
}
else
{
v.Pass(T.head_Dates, P.head_P_modified_0, m_tag);
}
}
else
{
string sDetails = "modified = 0x" + modified.ToString("x16");
v.Error(T.head_Dates, E.head_E_modified_invalid, m_tag, sDetails);
bRet = false;
}
}
if (v.PerformTest(T.head_MinMaxValues))
{
if (fontOwner.ContainsTrueTypeOutlines())
{
if (xMin > xMax)
{
v.Error(T.head_MinMaxValues, E.head_E_xMin_GT_xMax, m_tag);
bRet = false;
}
if (yMin > yMax)
{
v.Error(T.head_MinMaxValues, E.head_E_yMin_GT_yMax, m_tag);
bRet = false;
}
short xMinExpected = 32767;
short xMaxExpected = -32768;
short yMinExpected = 32767;
short yMaxExpected = -32768;
Table_glyf glyfTable = (Table_glyf)fontOwner.GetTable("glyf");
if (glyfTable != null)
{
Table_maxp maxp = (Table_maxp)fontOwner.GetTable("maxp");
if (maxp != null)
{
for (uint i=0; i<fontOwner.GetMaxpNumGlyphs(); i++)
{
Table_glyf.header h = glyfTable.GetGlyphHeader(i, fontOwner);
if (h != null)
{
if (xMinExpected > h.xMin) xMinExpected = h.xMin;
if (xMaxExpected < h.xMax) xMaxExpected = h.xMax;
if (yMinExpected > h.yMin) yMinExpected = h.yMin;
if (yMaxExpected < h.yMax) yMaxExpected = h.yMax;
}
}
if (xMin == xMinExpected)
{
String s = "xMin = " + xMin;
v.Pass(T.head_MinMaxValues, P.head_P_xMin_glyf, m_tag, s);
}
else
{
string s = "actual: " + xMin + ", expected: " + xMinExpected;
v.Error(T.head_MinMaxValues, E.head_E_xMin_glyf, m_tag, s);
bRet = false;
}
if (yMin == yMinExpected)
{
String s = "yMin = " + yMin;
v.Pass(T.head_MinMaxValues, P.head_P_yMin_glyf, m_tag, s);
}
else
{
string s = "actual: " + yMin + ", expected: " + yMinExpected;
v.Error(T.head_MinMaxValues, E.head_E_yMin_glyf, m_tag, s);
bRet = false;
}
if (xMax == xMaxExpected)
{
String s = "xMax = " + xMax;
v.Pass(T.head_MinMaxValues, P.head_P_xMax_glyf, m_tag, s);
}
else
{
string s = "actual: " + xMax + ", expected: " + xMaxExpected;
v.Error(T.head_MinMaxValues, E.head_E_xMax_glyf, m_tag, s);
bRet = false;
}
if (yMax == yMaxExpected)
{
String s = "yMax = " + yMax;
v.Pass(T.head_MinMaxValues, P.head_P_yMax_glyf, m_tag, s);
}
else
{
string s = "actual: " + yMax + ", expected: " + yMaxExpected;
v.Error(T.head_MinMaxValues, E.head_E_yMax_glyf, m_tag, s);
bRet = false;
}
}
else
{
v.Error(T.head_MinMaxValues, E._TEST_E_TableMissing, m_tag, "maxp");
}
}
else
{
v.Error(T.head_MinMaxValues, E._TEST_E_TableMissing, m_tag, "glyf");
}
}
else
{
v.Info(T.head_MinMaxValues, I._TEST_I_NotForCFF, m_tag, "test = head_MinMaxValues");
}
}
if (v.PerformTest(T.head_MacStyleBits))
{
bool bMacBold = ((macStyle & 0x0001) != 0);
bool bMacItal = ((macStyle & 0x0002) != 0);
// subfamily (style) string
Table_name nameTable = (Table_name)fontOwner.GetTable("name");
string sStyle = null;
string sStyleLower = null;
if (nameTable != null)
{
sStyle = nameTable.GetStyleString();
if (sStyle != null)
{
sStyleLower = sStyle.ToLower();
}
}
if (sStyleLower != null)
{
if (bMacBold && sStyleLower.IndexOf("bold") == -1)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold_subfamily, m_tag, "macStyle bold bit is set, but subfamily is " + sStyle);
bRet = false;
}
else if (!bMacBold && sStyleLower.IndexOf("bold") != -1)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold_subfamily, m_tag, "macStyle bold bit is clear, but subfamily is " + sStyle);
bRet = false;
}
else
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleBold_subfamily, m_tag);
}
if (bMacItal && sStyleLower.IndexOf("italic") == -1 && sStyleLower.IndexOf("oblique") == -1)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal_subfamily, m_tag, "macStyle italic bit is set, but subfamily is " + sStyle);
bRet = false;
}
else if (!bMacItal && (sStyleLower.IndexOf("italic") != -1 || sStyleLower.IndexOf("oblique") != -1))
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal_subfamily, m_tag, "macStyle italic bit is clear, but subfamily is " + sStyle);
bRet = false;
}
else
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleItal_subfamily, m_tag);
}
}
Table_OS2 OS2Table = (Table_OS2)fontOwner.GetTable("OS/2");
if (OS2Table != null)
{
// fsSelection
bool bOS2Bold = ((OS2Table.fsSelection & 0x0020) != 0);
bool bOS2Ital = ((OS2Table.fsSelection & 0x0001) != 0);
if (bMacBold == bOS2Bold)
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleBold_OS2, m_tag);
}
else if (bMacBold)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold1_OS2, m_tag);
bRet = false;
}
else
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold0_OS2, m_tag);
bRet = false;
}
if (bMacItal == bOS2Ital)
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleItal_OS2, m_tag);
}
else if (bMacItal)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal1_OS2, m_tag);
bRet = false;
}
else
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal0_OS2, m_tag);
bRet = false;
}
}
Table_post postTable = (Table_post)fontOwner.GetTable("post");
if (postTable != null)
{
bool bPostItal = (postTable.italicAngle.GetUint() != 0);
if (bMacItal == bPostItal)
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleItal_post, m_tag);
}
else if (bMacItal)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal1_post, m_tag);
bRet = false;
}
else
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal0_post, m_tag);
bRet = false;
}
}
}
if (v.PerformTest(T.head_LowestRecSize))
{
if (lowestRecPPEM == 0)
{
v.Error(T.head_LowestRecSize, E.head_E_lowestRecPPEM_zero, m_tag);
bRet = false;
}
else if (lowestRecPPEM >= 1 && lowestRecPPEM <= 6)
{
v.Warning(T.head_LowestRecSize, W.head_W_lowestRecPPEM_small, m_tag, "lowestRecPPEM = " + lowestRecPPEM.ToString());
}
else if (lowestRecPPEM >= 36)
{
v.Warning(T.head_LowestRecSize, W.head_W_lowestRecPPEM_large, m_tag, "lowestRecPPEM = " + lowestRecPPEM.ToString());
}
else
{
v.Pass(T.head_LowestRecSize, P.head_P_lowestRecPPEM, m_tag);
}
}
if (v.PerformTest(T.head_FontDirectionHint))
{
if (fontDirectionHint >= -2 && fontDirectionHint <= 2)
{
v.Pass(T.head_FontDirectionHint, P.head_P_fontDirectionHint, m_tag, fontDirectionHint.ToString());
}
else
{
v.Error(T.head_FontDirectionHint, E.head_E_fontDirectionHint, m_tag, fontDirectionHint.ToString());
bRet = false;
}
}
if (v.PerformTest(T.head_IndexToLocFormat))
{
if (fontOwner.ContainsPostScriptOutlines())
{
v.Pass(T.head_IndexToLocFormat, P.head_P_indexToLocFormat_ignore, m_tag, "indexToLocFormat = " + indexToLocFormat);
}
else
{
if (indexToLocFormat == 0 || indexToLocFormat == 1)
{
v.Pass(T.head_IndexToLocFormat, P.head_P_indexToLocFormat_range, m_tag, indexToLocFormat.ToString());
}
else
{
v.Error(T.head_IndexToLocFormat, E.head_E_indexToLocFormat_range, m_tag, indexToLocFormat.ToString());
bRet = false;
}
if (indexToLocFormat == 0 || indexToLocFormat == 1)
{
Table_loca locaTable = (Table_loca)fontOwner.GetTable("loca");
if (locaTable != null)
{
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable != null)
{
uint locaTableElementSize = 0;
if (indexToLocFormat == 0)
locaTableElementSize = 2;
else if (indexToLocFormat == 1)
locaTableElementSize = 4;
uint CalcLocaLength = (uint)(maxpTable.NumGlyphs + 1) * locaTableElementSize;
if (CalcLocaLength == locaTable.GetLength())
{
v.Pass(T.head_IndexToLocFormat, P.head_P_indexToLocFormat_match, m_tag, indexToLocFormat.ToString());
}
else
{
v.Error(T.head_IndexToLocFormat, E.head_E_indexToLocFormat_match, m_tag, indexToLocFormat.ToString());
bRet = false;
}
}
else
{
v.Error(T.head_IndexToLocFormat, E._TEST_E_TableMissing, m_tag, "maxp");
}
}
else
{
v.Error(T.head_IndexToLocFormat, E._TEST_E_TableMissing, m_tag, "loca");
}
}
}
}
if (v.PerformTest(T.head_GlyphDataFormat))
{
if (glyphDataFormat == 0)
{
v.Pass(T.head_GlyphDataFormat, P.head_P_glyphDataFormat, m_tag);
}
else
{
v.Error(T.head_GlyphDataFormat, E.head_E_glyphDataFormat, m_tag);
bRet = false;
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
m_nCachedMaxpNumGlyphs = fontOwner.GetMaxpNumGlyphs();
if (v.PerformTest(T.EBDT_version))
{
if (version.GetUint() == 0x00020000)
{
v.Pass(T.EBDT_version, P.EBDT_P_version, m_tag);
}
else
{
v.Error(T.EBDT_version, E.EBDT_E_version, m_tag, "version = 0x" + version.GetUint().ToString("x8") + ", unable to continue validation");
return(false);
}
}
if (v.PerformTest(T.EBDT_TableDependency))
{
Table_EBLC EBLCTable = (Table_EBLC)fontOwner.GetTable("EBLC");
if (EBLCTable != null)
{
v.Pass(T.EBDT_TableDependency, P.EBDT_P_TableDependency, m_tag);
}
else
{
v.Error(T.EBDT_TableDependency, E.EBDT_E_TableDependency, m_tag);
bRet = false;
}
}
if (v.PerformTest(T.EBDT_GlyphImageData))
{
bool bGlyphImageDataOk = true;
Table_EBLC EBLCTable = (Table_EBLC)fontOwner.GetTable("EBLC");
// for each bitmap size
for (uint i = 0; i < EBLCTable.numSizes; i++)
{
Table_EBLC.bitmapSizeTable bst = EBLCTable.GetBitmapSizeTable(i);
string sSize = "bitmapsize[" + i + "], ppemX=" + bst.ppemX + ", ppemY=" + bst.ppemY;
Table_EBLC.indexSubTableArray[] ista = EBLCTable.GetIndexSubTableArray(bst);
if (ista != null)
{
for (uint j = 0; j < bst.numberOfIndexSubTables; j++)
{
Table_EBLC.indexSubTable ist = null;
if (ista[j] != null)
{
ist = bst.GetIndexSubTable(ista[j]);
}
if (ist != null)
{
string sID = sSize + ", indexSubTable[" + j + "](index fmt " + ist.header.indexFormat +
", image fmt " + ist.header.imageFormat + ")";
switch (ist.header.imageFormat)
{
case 1:
if (!Validate_Format1(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 2:
if (!Validate_Format2(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 3:
if (!Validate_Format3(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 4:
if (!Validate_Format4(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 5:
if (!Validate_Format5(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 6:
if (!Validate_Format6(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 7:
if (!Validate_Format7(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 8:
if (!Validate_Format8(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 9:
if (!Validate_Format9(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
default:
break;
}
}
}
}
}
if (bGlyphImageDataOk)
{
v.Pass(T.EBDT_GlyphImageData, P.EBDT_P_GlyphImageData, m_tag);
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (fontOwner.GetFile().IsCollection())
{
if (fontOwner.GetFontIndexInFile() > 0)
{
// checksum not matching data is covered by check elsewhere. Assume they match.
DirectoryEntry de_EBDT = fontOwner.GetDirectoryEntry("EBDT");
for (uint i = 0; i < fontOwner.GetFontIndexInFile(); i++)
{
if (fontOwner.GetFile().GetFont(i).GetDirectoryEntry("EBDT").checkSum
== de_EBDT.checkSum)
{
v.Info(T.T_NULL, I.glyf_I_IDENTICAL_GLYF_TABLES_IN_TTC, m_tag);
return(true);
}
}
}
}
m_nCachedMaxpNumGlyphs = fontOwner.GetMaxpNumGlyphs();
if (v.PerformTest(T.EBDT_version))
{
if (version.GetUint() == 0x00020000 || version.GetUint() == 0x00030000)
{
v.Pass(T.EBDT_version, P.EBDT_P_version, m_tag);
}
else
{
v.Error(T.EBDT_version, E.EBDT_E_version, m_tag, "version = 0x" + version.GetUint().ToString("x8") + ", unable to continue validation");
return(false);
}
}
//TODO: check tag for EBDT v3, CBDT v2, bdat
if (v.PerformTest(T.EBDT_TableDependency))
{
Table_EBLC EBLCTable = (Table_EBLC)fontOwner.GetTable("EBLC");
if (EBLCTable != null)
{
v.Pass(T.EBDT_TableDependency, P.EBDT_P_TableDependency, m_tag);
}
else
{
v.Error(T.EBDT_TableDependency, E.EBDT_E_TableDependency, m_tag);
bRet = false;
}
}
// T.EBDT_GlyphImageData depends on T.EBDT_TableDependency passing.
if (v.PerformTest(T.EBDT_GlyphImageData))
{
bool bGlyphImageDataOk = true;
Table_EBLC EBLCTable = (Table_EBLC)fontOwner.GetTable("EBLC");
if (EBLCTable == null)
{
return(bRet); //failed the last test, not going on.
}
// for each bitmap size
for (uint i = 0; i < EBLCTable.numSizes; i++)
{
Table_EBLC.bitmapSizeTable bst = EBLCTable.GetBitmapSizeTable(i);
string sSize = "bitmapsize[" + i + "], ppemX=" + bst.ppemX + ", ppemY=" + bst.ppemY;
if (true)
{
for (uint j = 0; j < bst.numberOfIndexSubTables; j++)
{
Table_EBLC.indexSubTable ist = null;
Table_EBLC.indexSubTableArray ista_j = EBLCTable.GetIndexSubTableArray(bst, j);
if (ista_j != null)
{
ist = bst.GetIndexSubTable(ista_j);
}
if (ist != null)
{
string sID = sSize + ", indexSubTable[" + j + "](index fmt " + ist.header.indexFormat +
", image fmt " + ist.header.imageFormat + ")";
switch (ist.header.imageFormat)
{
case 1:
if (!Validate_Format1(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 2:
if (!Validate_Format2(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 3:
if (!Validate_Format3(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 4:
if (!Validate_Format4(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 5:
if (!Validate_Format5(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 6:
if (!Validate_Format6(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 7:
if (!Validate_Format7(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 8:
if (!Validate_Format8(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 9:
if (!Validate_Format9(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 17:
if (version.GetUint() != 0x00030000)
{
bGlyphImageDataOk = false;
bRet = false;
}
// TODO: adding 3 checks
break;
case 18:
if (version.GetUint() != 0x00030000)
{
bGlyphImageDataOk = false;
bRet = false;
}
// TODO: adding 3 checks
break;
case 19:
if (version.GetUint() != 0x00030000)
{
bGlyphImageDataOk = false;
bRet = false;
}
// TODO: adding 3 checks
break;
default:
// TODO: emit Unknown
break;
}
}
}
}
}
if (bGlyphImageDataOk)
{
v.Pass(T.EBDT_GlyphImageData, P.EBDT_P_GlyphImageData, m_tag);
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.post_TableLength))
{
bool bLenOk = true;
if (Version.GetUint() == 0x00010000 ||
Version.GetUint() == 0x00030000)
{
if (GetLength() != 32)
{
v.Error(T.post_TableLength, E.post_E_TableLenNot32, m_tag);
bLenOk = false;
bRet = false;
}
}
if (Version.GetUint() == 0x00020000)
{
if (GetLength() < 34)
{
v.Error(T.post_TableLength, E.post_E_InvalidTableLen, m_tag);
bLenOk = false;
bRet = false;
}
}
if (bLenOk)
{
v.Pass(T.post_TableLength, P.post_P_TableLength, m_tag);
}
}
if (v.PerformTest(T.post_Version))
{
uint ver = Version.GetUint();
if (ver == 0x00025000)
{
v.Warning(T.post_Version, W.post_W_Version_2_5, m_tag);
}
else if (ver == 0x00010000 || ver == 0x00020000 || ver == 0x00030000)
{
v.Pass(T.post_Version, P.post_P_Version, m_tag);
}
else
{
v.Error(T.post_Version, E.post_E_Version, m_tag, "0x"+ver.ToString("x8"));
}
}
if (v.PerformTest(T.post_italicAngle))
{
bool bItalOk = true;
uint ia = italicAngle.GetUint();
double dItalicAngle = italicAngle.GetDouble();
if (dItalicAngle < -30.0 || dItalicAngle > 360.0 || (dItalicAngle > 0.0 && dItalicAngle < 330.0 ))
{
v.Warning(T.post_italicAngle, W.post_W_italicAngle_unlikely, m_tag, "0x"+ia.ToString("x8"));
bItalOk = false;
}
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if ((headTable.macStyle & 0x0002) != 0)
{
if (ia == 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleZero_macStyle, m_tag);
bItalOk = false;
bRet = false;
}
}
else
{
if (ia != 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleNonzero_macStyle, m_tag);
bItalOk = false;
bRet = false;
}
}
}
else
{
v.Error(T.post_italicAngle, E._TEST_E_TableMissing, m_tag, "head table missing, can't compare italicAngle to head.macStyle");
bItalOk = false;
}
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable != null)
{
if (ia == 0)
{
if (hheaTable.caretSlopeRun != 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleZero_caretSlopeRun, m_tag);
bItalOk = false;
bRet = false;
}
}
else
{
if (hheaTable.caretSlopeRun == 0)
{
v.Error(T.post_italicAngle, E.post_E_italicAngleNonzero_caretSlopeRun, m_tag);
bItalOk = false;
bRet = false;
}
else
{
double dActualAngle = 90.0 + italicAngle.GetDouble();
double dhheaAngle = (Math.Atan2(hheaTable.caretSlopeRise, hheaTable.caretSlopeRun)) * (180.0 / Math.PI);
if (Math.Abs(dActualAngle-dhheaAngle) >= 1.0)
{
string sDetails = "italicAngle = 0x" + ia.ToString("x8") +
" (" + italicAngle.GetDouble() + " degrees)" +
",caretSlope Rise:Run = " + hheaTable.caretSlopeRise + ":" + hheaTable.caretSlopeRun +
" (" + (dhheaAngle-90.0) + " degrees)";
v.Error(T.post_italicAngle, E.post_E_italicAngleNonzero_hheaAngle, m_tag, sDetails);
bItalOk = false;
bRet = false;
}
}
}
}
else
{
v.Error(T.post_italicAngle, E._TEST_E_TableMissing, m_tag, "hhea table missing, can't compare italicAngle to hhea.caretSlopeRun");
bItalOk = false;
bRet = false;
}
if (bItalOk)
{
v.Pass(T.post_italicAngle, P.post_P_italicAngle, m_tag);
}
}
if (v.PerformTest(T.post_underlinePosition))
{
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable != null)
{
if (underlinePosition >= hheaTable.Descender)
{
v.Pass(T.post_underlinePosition, P.post_P_underlinePosition, m_tag);
}
else
{
v.Warning(T.post_underlinePosition, W.post_W_underlinePos_LT_descender, m_tag);
//bRet = false;
}
}
else
{
v.Error(T.post_underlinePosition, E._TEST_E_TableMissing, m_tag, "hhea table missing, can't compare underlinePosition to hhea.Descender");
}
}
if (v.PerformTest(T.post_underlineThickness))
{
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if (underlineThickness >= 0 && underlineThickness < headTable.unitsPerEm / 2 )
{
v.Pass(T.post_underlineThickness, P.post_P_underlineThickness, m_tag);
}
else
{
v.Warning(T.post_underlineThickness, W.post_W_underlineThickness, m_tag, underlineThickness.ToString());
}
}
else
{
v.Error(T.post_underlineThickness, E._TEST_E_TableMissing, m_tag, "head table missing, can't compare underlineThickness to head.unitsPerEm");
bRet = false;
}
}
if (v.PerformTest(T.post_isFixedPitch))
{
bool bFixedPitchOk = true;
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
if (hmtxTable != null)
{
uint numberOfHMetrics = 0;
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable != null)
{
numberOfHMetrics = hheaTable.numberOfHMetrics;
}
else
{
v.Error(T.post_isFixedPitch, E._TEST_E_TableMissing, m_tag, "hhea table missing, can't compare isFixedPitch to horizontal metrics");
bRet = false;
}
bool bHmtxMono = hmtxTable.IsMonospace(fontOwner);
if (isFixedPitch == 0 && bHmtxMono)
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchZero_hmtx, m_tag);
bFixedPitchOk = false;
bRet = false;
}
else if (isFixedPitch != 0 && !bHmtxMono)
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchNonzero_hmtx, m_tag);
bFixedPitchOk = false;
bRet = false;
}
}
else
{
v.Error(T.post_isFixedPitch, E._TEST_E_TableMissing, m_tag, "hmtx table missing, can't compare isFixedPitch to horizontal metrics");
bRet = false;
}
Table_OS2 OS2Table = (Table_OS2)fontOwner.GetTable("OS/2");
if (OS2Table != null)
{
if (OS2Table.panose_byte1 == 2) // PANOSE family kind == LatinText
{
if (isFixedPitch == 0 && OS2Table.panose_byte4 == 9) // PANOSE proportion == monospaced
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchZero_OS_2, m_tag);
bFixedPitchOk = false;
bRet = false;
}
else if (isFixedPitch != 0 && OS2Table.panose_byte4 != 9)
{
v.Error(T.post_isFixedPitch, E.post_E_isFixedPitchNonzero_OS_2, m_tag);
bFixedPitchOk = false;
bRet = false;
}
}
}
else
{
v.Error(T.post_isFixedPitch, E._TEST_E_TableMissing,
m_tag, "OS/2 table is missing, can't compare isFixedPitch to OS/2 PANOSE");
bRet = false;
}
if (bFixedPitchOk && hmtxTable != null && OS2Table != null)
{
v.Pass(T.post_isFixedPitch, P.post_P_isFixedPitch, m_tag, "matches the hmtx and OS/2 tables");
}
else if (bFixedPitchOk && hmtxTable == null && OS2Table != null)
{
v.Pass(T.post_isFixedPitch, P.post_P_isFixedPitch, m_tag, "matches the OS/2 table");
}
else if (bFixedPitchOk && hmtxTable != null && OS2Table == null)
{
v.Pass(T.post_isFixedPitch, P.post_P_isFixedPitch, m_tag, "matches the hmtx table");
}
}
if (v.PerformTest(T.post_v2_numberOfGlyphs))
{
if (Version.GetUint() == 0x00020000)
{
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.post_v2_numberOfGlyphs, E._TEST_E_TableMissing, m_tag, "maxp table is missing");
bRet = false;
}
else
{
if (numberOfGlyphs == fontOwner.GetMaxpNumGlyphs())
{
v.Pass(T.post_v2_numberOfGlyphs, P.post_P_v2_numberOfGlyphs, m_tag);
}
else
{
v.Error(T.post_v2_numberOfGlyphs, E.post_E_v2_numberOfGlyphs,
m_tag, "numberOfGlyphs = " + numberOfGlyphs +
", maxp.numGlyphs = " + fontOwner.GetMaxpNumGlyphs());
bRet = false;
}
}
}
else
{
v.Info(T.post_v2_numberOfGlyphs, I.post_I_v2_numberOfGlyphs_notv2, m_tag);
}
}
if (v.PerformTest(T.post_v2_glyphNameIndex))
{
if (Version.GetUint() == 0x00020000 && GetLength() >= 34)
{
bool bIndexOk = true;
for (uint i=0; i<numberOfGlyphs; i++)
{
if ((uint)FieldOffsetsVer2.glyphNameIndex + i*2 + 2 <= m_bufTable.GetLength())
{
ushort index = GetGlyphNameIndex((ushort)i);
if (index-258 >= m_nameOffsets.Length)
{
string s = "glyphNameIndex[" + i + "] = " +
index + ", # names = " + m_nameOffsets.Length;
v.Error(T.post_v2_glyphNameIndex, E.post_E_glyphNameIndex_range, m_tag, s);
bIndexOk = false;
bRet = false;
}
}
else
{
v.Warning(T.post_v2_glyphNameIndex,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate any more glyph indexes, index " +
i + " is past end of table");
bIndexOk = false;
break;
}
}
if (bIndexOk)
{
v.Pass(T.post_v2_glyphNameIndex, P.post_P_glyphNameIndex, m_tag);
}
}
else
{
v.Info(T.post_v2_glyphNameIndex, I.post_I_v2_glyphNameIndex_notv2, m_tag);
}
}
if (v.PerformTest(T.post_v2_names))
{
if (Version.GetUint() == 0x00020000)
{
PostNames pn = new PostNames();
bool bNamesOk = true;
byte [] buf = new byte[2];
for (uint iGlyph=0; iGlyph<numberOfGlyphs; iGlyph++)
{
if ((uint)FieldOffsetsVer2.glyphNameIndex + iGlyph*2 + 2
<= m_bufTable.GetLength())
{
uint index = GetGlyphNameIndex((ushort)iGlyph);
if (index >= 258 && index-258 < m_nameOffsets.Length)
{
if (m_nameOffsets[index-258] >= GetLength())
{
string s = "name index = " + index;
v.Error(T.post_v2_names,
E.post_E_v2_NameOffsetInvalid,
m_tag, s);
bNamesOk = false;
bRet = false;
}
else
{
uint length =
m_bufTable.GetByte(m_nameOffsets[index-258]);
if (m_nameOffsets[index-258] + length < GetLength())
{
bNamesOk = CheckNames( v, fontOwner, pn, iGlyph, index );
}
else
{
string s = "name index = " + index;
v.Error(T.post_v2_names, E.post_E_v2_NameLengthInvalid, m_tag, s);
bNamesOk = false;
bRet = false;
}
}
}
}
else
{
v.Warning(T.post_v2_names, W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate any more names, index " +
iGlyph + " is past end of table");
bNamesOk = false;
break;
}
}
if (bNamesOk)
{
v.Pass(T.post_v2_names, P.post_P_names, m_tag);
}
}
else
{
v.Info(T.post_v2_names, I.post_I_v2_names_notv2, m_tag);
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.LTSH_version))
{
if (version == 0)
{
v.Pass(T.LTSH_version, P.LTSH_P_version, m_tag);
}
else
{
v.Error(T.LTSH_version, E.LTSH_E_version, m_tag, version.ToString());
bRet = false;
}
}
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, maxp table is invalid or missing");
return false;
}
if (v.PerformTest(T.LTSH_numGlyphs))
{
if (numGlyphs == fontOwner.GetMaxpNumGlyphs())
{
v.Pass(T.LTSH_numGlyphs, P.LTSH_P_numGlyphs, m_tag);
}
else
{
string s = "LTSH.numGlyphs = " + numGlyphs + ", maxp.numGlyphs = " + fontOwner.GetMaxpNumGlyphs();
v.Error(T.LTSH_numGlyphs, E.LTSH_E_numGlyphs, m_tag, s);
bRet = false;
}
}
if (v.PerformTest(T.LTSH_TableLength))
{
uint CalcLength = (uint)FieldOffsets.yPels + numGlyphs;
if (GetLength() == CalcLength)
{
v.Pass(T.LTSH_TableLength, P.LTSH_P_TableLength, m_tag);
}
else
{
string s = "calc length = " + CalcLength + ", actual length = " + GetLength();
v.Error(T.LTSH_TableLength, E.LTSH_E_TableLength, m_tag, s);
bRet = false;
}
}
if (v.PerformTest(T.LTSH_yPels))
{
bool bYPelsOk = true;
RasterInterf.DevMetricsData dmd = null;
try
{
Version ver = fontOwner.GetFile().GetRasterizer().FTVersion;
if ( ver.CompareTo(new Version(2,6,1)) < 0 )
v.Warning(T.LTSH_yPels, W.LTSH_W_Need_Newer_FreeType, m_tag,
"Using FreeType Version " + ver + " may not get correct results for LTSH");
dmd = fontOwner.GetCalculatedDevMetrics();
}
catch (Exception e)
{
v.ApplicationError(T.LTSH_yPels, E._Table_E_Exception, m_tag, e.Message);
bRet = false;
}
if (dmd != null)
{
for( uint iGlyphIndex = 0; iGlyphIndex < numGlyphs; iGlyphIndex++ )
{
if (iGlyphIndex >= fontOwner.GetMaxpNumGlyphs())
{
// JJF. Figure out what to do
v.Warning(T.LTSH_yPels, W._TEST_W_OtherErrorsInTable, m_tag, "can't test all yPel values, LTSH.numGlyphs does not equal maxp.numGlyphs");
bRet = false;
bYPelsOk = false;
break;
}
if( GetYPel(iGlyphIndex) != dmd.ltshData.yPels[iGlyphIndex] )
{
String sDetails = "glyph# = " + iGlyphIndex + ", value = " + GetYPel(iGlyphIndex) + ", calculated value = " + dmd.ltshData.yPels[iGlyphIndex];
v.Error(T.LTSH_yPels, E.LTSH_E_yPels, m_tag, sDetails);
bRet = false;
bYPelsOk = false;
}
/*
else
{
String sDetails = "glyph# = " + iGlyphIndex + ", value = " + GetYPel(iGlyphIndex);
v.DebugMsg("yPel value OK! " + sDetails, m_tag);
}
*/
if (GetYPel(iGlyphIndex) == 0)
{
String sDetails = "glyph# = " + iGlyphIndex;
v.Warning(T.LTSH_yPels, W.LTSH_W_yPels_zero, m_tag, sDetails);
}
}
if (bYPelsOk)
{
v.Pass(T.LTSH_yPels, P.LTSH_P_yPels, m_tag);
}
}
else
{
// if user didn't cancel, then check for error message
if (!v.CancelFlag)
{
String sDetails = null;
try
{
sDetails = fontOwner.GetDevMetricsDataError();
}
catch (Exception e)
{
v.ApplicationError(T.LTSH_yPels, E._Table_E_Exception, m_tag, e.Message);
}
Debug.Assert(sDetails != null);
v.Error(T.LTSH_yPels, E.LTSH_E_Rasterizer, m_tag, sDetails);
bRet = false;
}
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.kern_TableVersion))
{
if (version == 0)
{
v.Pass(T.kern_TableVersion, P.kern_P_TableVersion, m_tag);
}
else
{
v.Error(T.kern_TableVersion, E.kern_E_TableVersion, m_tag, "version = " + version.ToString() + ", unrecognized version #, no further tests can be performed");
return false;
}
}
if (v.PerformTest(T.kern_NumSubtables))
{
if (nTables != 0)
{
v.Pass(T.kern_NumSubtables, P.kern_P_NumSubTables, m_tag, nTables.ToString());
}
else
{
v.Error(T.kern_NumSubtables, E.kern_E_NumSubTables, m_tag);
bRet = false;
}
}
if (v.PerformTest(T.kern_SubtableFormats))
{
bool bFormatsOk = true;
for (uint i=0; i<nTables; i++)
{
SubTableHeader sth = GetSubTableHeader(i);
if (sth != null)
{
if (sth.GetFormat() != 0 && sth.GetFormat() != 2)
{
v.Error(T.kern_SubtableFormats, E.kern_E_SubtableFormats, m_tag, "subtable #" + i + ", format " + sth.GetFormat());
bFormatsOk = false;
bRet = false;
}
}
else
{
v.Error(T.kern_SubtableFormats, E.kern_E_SubTableExtendsPastEOT, m_tag, "subtable #" + i );
bFormatsOk = false;
bRet = false;
break;
}
}
if (bFormatsOk)
{
v.Pass(T.kern_SubtableFormats, P.kern_P_SubtableFormats, m_tag);
}
}
if (!bRet)
{
v.Warning(T.kern_SubtableFormats, W._TEST_W_OtherErrorsInTable, m_tag, "kern table appears to be corrupt. No further tests will be performed.");
return bRet;
}
if (v.PerformTest(T.kern_SubtableLength))
{
bool bLengthsOk = true;
for (uint i=0; i<nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.length != st.CalculatedLength())
{
v.Error(T.kern_SubtableLength, E.kern_E_SubtableLength, m_tag, "subtable #" + i + ", length = " + st.length + ", calculated length = " + st.CalculatedLength());
bLengthsOk = false;
bRet = false;
}
}
if (bLengthsOk)
{
v.Pass(T.kern_SubtableLength, P.kern_P_SubtableLengths, m_tag);
}
}
if (v.PerformTest(T.kern_CoverageReservedBits))
{
bool bReservedOk = true;
for (uint i=0; i<nTables; i++)
{
SubTable st = this.GetSubTable(i);
if ((st.coverage & 0xf0) != 0)
{
bReservedOk = false;
v.Error(T.kern_CoverageReservedBits, E.kern_E_ReservedCoverageBits, m_tag, "subtable #" + i);
bRet = false;
break;
}
}
if (bReservedOk)
{
v.Pass(T.kern_CoverageReservedBits, P.kern_P_ReservedCoverageBits, m_tag);
}
}
if (v.PerformTest(T.kern_Format0_SearchFields))
{
bool bBinaryFieldsOk = true;
for (uint i=0; i<nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
SubTableFormat0 stf0 = (SubTableFormat0)st;
ushort nPairs = stf0.nPairs;
ushort sizeofEntry = 6;
if (nPairs != 0)
{
ushort CalculatedSearchRange = (ushort)(util.MaxPower2LE(nPairs) * sizeofEntry);
ushort CalculatedEntrySelector = util.Log2(util.MaxPower2LE(nPairs));
ushort CalculatedRangeShift = (ushort)((nPairs - util.MaxPower2LE(nPairs))* sizeofEntry);
if (stf0.searchRange != CalculatedSearchRange)
{
string s = "subtable #" + i
+ ", calc = " + CalculatedSearchRange
+ ", actual = " + stf0.searchRange;
v.Error(T.kern_Format0_SearchFields, E.kern_E_Format0_searchRange, m_tag, s);
bBinaryFieldsOk = false;
bRet = false;
}
if (stf0.entrySelector != CalculatedEntrySelector)
{
string s = "subtable #" + i
+ ", calc = " + CalculatedEntrySelector
+ ", actual = " + stf0.entrySelector;
v.Error(T.kern_Format0_SearchFields, E.kern_E_Format0_entrySelector, m_tag, s);
bBinaryFieldsOk = false;
bRet = false;
}
if (stf0.rangeShift != CalculatedRangeShift)
{
string s = "subtable #" + i
+ ", calc = " + CalculatedRangeShift
+ ", actual = " + stf0.rangeShift;
v.Error(T.kern_Format0_SearchFields, E.kern_E_Format0_rangeShift, m_tag, s);
bBinaryFieldsOk = false;
bRet = false;
}
}
else
{
// cannot validate fields since they are undefined when nPairs is zero
v.Warning(T.kern_Format0_SearchFields, W.kern_W_Format0_SearchFields, m_tag, "subtable #" + i + ", nPairs = " + stf0.nPairs);
bBinaryFieldsOk = false;
}
}
}
if (bBinaryFieldsOk)
{
v.Pass(T.kern_Format0_SearchFields, P.kern_P_Format0_SearchFields, m_tag);
}
}
if (v.PerformTest(T.kern_Format0_GlyphIDs))
{
for (uint i=0; i<nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
bool bGlyphIDsOk = true;
SubTableFormat0 stf0 = (SubTableFormat0)st;
for (int iPair=0; iPair<stf0.nPairs; iPair++)
{
ushort left=0, right=0;
short kernvalue=0;
stf0.GetKerningPairAndValue(iPair, ref left, ref right, ref kernvalue);
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
if (left >= numGlyphs)
{
v.Error(T.kern_Format0_GlyphIDs, E.kern_E_Format0_GlyphIDs, m_tag, "kern pair[" + iPair + "]: left = " + left);
bGlyphIDsOk = false;
bRet = false;
}
if (right >= numGlyphs)
{
v.Error(T.kern_Format0_GlyphIDs, E.kern_E_Format0_GlyphIDs, m_tag, "kern pair[" + iPair + "]: right = " + right);
bGlyphIDsOk = false;
bRet = false;
}
}
if (bGlyphIDsOk)
{
v.Pass(T.kern_Format0_GlyphIDs, P.kern_P_Format0_GlyphIDs, m_tag);
}
}
}
}
if (v.PerformTest(T.kern_Format0_Values))
{
for (uint i=0; i<nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
SubTableFormat0 stf0 = (SubTableFormat0)st;
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
if (hmtxTable != null)
{
bool bValuesOk = true;
for (int iPair=0; iPair<stf0.nPairs; iPair++)
{
ushort left=0, right=0;
short kernvalue=0;
stf0.GetKerningPairAndValue(iPair, ref left, ref right, ref kernvalue);
short absKernValue = Math.Abs(kernvalue);
Table_hmtx.longHorMetric lhmLeft = hmtxTable.GetOrMakeHMetric(left, fontOwner);
Table_hmtx.longHorMetric lhmRight = hmtxTable.GetOrMakeHMetric(right, fontOwner);
if (absKernValue > lhmLeft.advanceWidth && absKernValue > lhmRight.advanceWidth)
{
v.Error(T.kern_Format0_Values, E.kern_E_Format0_Values, m_tag, "kern pair[" + iPair + "]: left id = " + left + ", right id = " + right + ", value = " + kernvalue);
bValuesOk=false;
bRet = false;
}
}
if (bValuesOk)
{
v.Pass(T.kern_Format0_Values, P.kern_P_Format0_Values, m_tag);
}
}
}
}
}
if (v.PerformTest("kern_Format0_IDsInCmap"))
{
for (uint i=0; i<nTables; i++)
{
SubTable st = this.GetSubTable(i);
if (st.version == 0)
{
SubTableFormat0 stf0 = (SubTableFormat0)st;
Table_cmap cmapTable = (Table_cmap)fontOwner.GetTable("cmap");
if (cmapTable != null)
{
Table_cmap.Subtable cmapSubtable = cmapTable.GetSubtable(3,10);
if (cmapSubtable == null)
{
cmapSubtable = cmapTable.GetSubtable(3,1);
}
if (cmapSubtable == null)
{
Table_cmap.EncodingTableEntry ete = cmapTable .GetEncodingTableEntry(0);
cmapSubtable = cmapTable.GetSubtable(ete);
}
if (cmapSubtable != null)
{
uint [] map = cmapSubtable.GetMap();
bool bAllIDsInCmap = true;
for (int iPair=0; iPair<stf0.nPairs; iPair++)
{
ushort left=0, right=0;
short kernvalue=0;
stf0.GetKerningPairAndValue(iPair, ref left, ref right, ref kernvalue);
bool bFoundLeft = false;
bool bFoundRight = false;
for (int j=0; j<map.Length; j++)
{
if (left == map[j])
{
bFoundLeft = true;
break;
}
}
for (int j=0; j<map.Length; j++)
{
if (right == map[j])
{
bFoundRight = true;
break;
}
}
if (bFoundLeft==false)
{
v.Error(T.kern_Format0_IDsInCmap, E.kern_E_Format0_GlyphIdInCmap, m_tag, "kern pair[" + iPair + "]: left id = " + left);
bAllIDsInCmap = false;
bRet = false;
}
if (bFoundRight==false)
{
v.Error(T.kern_Format0_IDsInCmap, E.kern_E_Format0_GlyphIdInCmap, m_tag, "kern pair[" + iPair + "]: right id = " + right);
bAllIDsInCmap = false;
bRet = false;
}
}
if (bAllIDsInCmap)
{
v.Pass(T.kern_Format0_IDsInCmap, P.kern_P_Format0_GlyphIdInCmap, m_tag);
}
}
}
}
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
Table_hhea hheaTable = (Table_hhea)fontOwner.GetTable("hhea");
if (hheaTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, hhea table is invalid or missing");
return false;
}
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, maxp table is invalid or missing");
return false;
}
if (v.PerformTest(T.hmtx_TableSize))
{
uint nhm = GetNumberOfHMetrics(fontOwner);
uint nlsb = GetNumLeftSideBearingEntries(fontOwner);
uint CalcTableLength = nhm*4 + nlsb*2;
if (CalcTableLength == GetLength())
{
v.Pass(T.hmtx_TableSize, P.hmtx_P_TableSize, m_tag);
}
else
{
v.Error(T.hmtx_TableSize, E.hmtx_E_TableSize, m_tag);
bRet = false;
}
}
if (v.PerformTest(T.hmtx_CheckMetrics))
{
bool bMetricsOk = true;
for (uint iGlyph=0; iGlyph<fontOwner.GetMaxpNumGlyphs(); iGlyph++)
{
longHorMetric hm = this.GetOrMakeHMetric(iGlyph, fontOwner);
if (hm != null)
{
if (hm.lsb > hm.advanceWidth)
{
v.Warning(T.hmtx_CheckMetrics, W.hmtx_W_CheckMetrics_lsb_gt_adv, m_tag, "glyph# " + iGlyph);
bMetricsOk = false;
}
}
else
{
// unable to fetch this horizontal metric
// (probably bad hheaTable.numberOfHMetrics or bad table length)
bMetricsOk = false;
}
}
if (bMetricsOk)
{
v.Pass(T.hmtx_CheckMetrics, P.hmtx_P_CheckMetrics, m_tag);
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.head_TableLength))
{
if (m_bufTable.GetLength() == 54)
{
v.Pass(T.head_TableLength, P.head_P_TableLength, m_tag);
}
else
{
v.Error(T.head_TableLength, E.head_E_TableLength, m_tag, m_bufTable.GetLength().ToString());
bRet = false;
}
}
if (v.PerformTest(T.head_TableVersion))
{
if (TableVersionNumber.GetUint() == 0x00010000)
{
v.Pass(T.head_TableVersion, P.head_P_TableVersion, m_tag);
}
else
{
v.Error(T.head_TableVersion, E.head_E_TableVersion, m_tag, "0x" + TableVersionNumber.GetUint().ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.head_fontRevision))
{
string sVersion = fontOwner.GetFontVersion();
if (sVersion != null)
{
if (sVersion.Length >= 11 &&
sVersion.StartsWith("Version ") &&
Char.IsDigit(sVersion, 8))
{
string sVersionNum = sVersion.Substring(8);
bool bFoundDecPt = false;
int nLastDigitPos = 0;
for (int i = 0; i < sVersionNum.Length; i++)
{
if (Char.IsDigit(sVersionNum, i))
{
nLastDigitPos = i;
}
else if (sVersionNum[i] == '.')
{
if (!bFoundDecPt)
{
bFoundDecPt = true;
}
else
{
break;
}
}
else
{
break;
}
}
double fVersion = Double.Parse(sVersionNum.Substring(0, nLastDigitPos + 1));
double fRevision = fontRevision.GetDouble();
if (Math.Round(fVersion, 3) == Math.Round(fRevision, 3))
{
v.Pass(T.head_fontRevision, P.head_P_fontRevision, m_tag, fRevision.ToString("f3"));
}
else
{
string s = "revision: " + fRevision.ToString("f3") + ", version: " + sVersionNum;
v.Warning(T.head_fontRevision, W.head_W_fontRevision, m_tag, s);
}
}
}
}
if (v.PerformTest(T.head_ChecksumAdjustment))
{
if (checkSumAdjustment == 0xb1b0afba - fontOwner.CalcChecksum())
{
v.Pass(T.head_ChecksumAdjustment, P.head_P_FontChecksum, m_tag, "0x" + checkSumAdjustment.ToString("x8"));
}
else
{
v.Error(T.head_ChecksumAdjustment, E.head_E_FontChecksum, m_tag, "0x" + checkSumAdjustment.ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.head_MagicNumber))
{
if (magicNumber == 0x5f0f3cf5)
{
v.Pass(T.head_MagicNumber, P.head_P_MagicNumber, m_tag);
}
else
{
v.Error(T.head_MagicNumber, E.head_E_MagicNumber, m_tag, "0x" + magicNumber.ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.head_FlagTests))
{
ushort val = flags;
// bit 0 indicates baseline for font at y=0
// bit 1 indicates left sidebearing point at x=0
// bit 2 indicates instructions may depend on point size
// bit 3 indicates forcing ppem to integer values instead of fractional values
// bit 4 indicates non-linear scaling - if set allows presence of LTSH and/or hdmx tables
Table_hdmx hdmxTable = (Table_hdmx)fontOwner.GetTable("hdmx");
Table_LTSH LTSHTable = (Table_LTSH)fontOwner.GetTable("LTSH");
if ((val & 0x0010) == 0)
{
if (hdmxTable == null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_0_hdmx, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit4_0_hdmx, m_tag);
}
if (LTSHTable == null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_0_LTSH, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit4_0_LTSH, m_tag);
}
}
else
{
if (hdmxTable != null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_1_hdmx, m_tag);
}
else
{
v.Warning(T.head_FlagTests, W.head_W_flags_bit4_1_hdmx, m_tag);
}
if (LTSHTable != null)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit4_1_LTSH, m_tag);
}
else
{
v.Warning(T.head_FlagTests, W.head_W_flags_bit4_1_LTSH, m_tag);
}
}
// bits 5 - 10 are used by apple and ignored by windows
// bit 11 indicates font data is 'lossless' as a result of having been compressed/decompressed
// bit 12 indicates a converted font
// bit 13 indicates optimized for cleartype
// bit 14 reserved
if ((val & 0x4000) == 0)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit14, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit14, m_tag, val.ToString());
bRet = false;
}
// bit 15 reserved
if ((val & 0x8000) == 0)
{
v.Pass(T.head_FlagTests, P.head_P_flags_bit15, m_tag);
}
else
{
v.Error(T.head_FlagTests, E.head_E_flags_bit15, m_tag, val.ToString());
bRet = false;
}
}
if (v.PerformTest(T.head_UnitsPerEmValues))
{
ushort val = unitsPerEm;
bool bInRange = false;
if (val < 16) // opentype spec says min value is 16
{
v.Error(T.head_UnitsPerEmValues, E.head_E_unitsPerEm_LT16, m_tag, val.ToString());
bRet = false;
}
else if (val < 64) // apple spec says min value is 64
{
v.Warning(T.head_UnitsPerEmValues, W.head_W_unitsPerEM_LT64, m_tag, val.ToString());
}
else if (val > 16384)
{
v.Error(T.head_UnitsPerEmValues, E.head_E_unitsPerEM_GT16384, m_tag, val.ToString());
bRet = false;
}
else
{
bInRange = true;
}
// apple spec says unitsPerEm must be power of two
// but don't check if it's a CFF font
if (!fontOwner.ContainsPostScriptOutlines())
{
bool bPowerOfTwo = false;
for (int i = 0; i < 16; i++)
{
ushort nPow2 = (ushort)(1 << i);
if (val == nPow2)
{
bPowerOfTwo = true;
break;
}
}
if (bPowerOfTwo)
{
if (bInRange)
{
v.Pass(T.head_UnitsPerEmValues, P.head_P_unitsPerEm, m_tag, val.ToString());
}
}
else
{
v.Warning(T.head_UnitsPerEmValues, W.head_W_unitsPerEm_Pow2, m_tag, val.ToString());
}
}
}
if (v.PerformTest(T.head_Dates))
{
DateTime dtBeforeTrueType = new DateTime(1985, 1, 1);
if ((created >> 32) == 0)
{
DateTime dtCreated = this.GetCreatedDateTime();
string sDetails = "created = " + created + " (" + dtCreated.ToString("f", null) + ")";
if (created == 0)
{
v.Warning(T.head_Dates, W.head_W_created_0, m_tag);
}
else if (dtCreated < dtBeforeTrueType || dtCreated > DateTime.Now)
{
v.Warning(T.head_Dates, W.head_W_created_unlikely, m_tag, sDetails);
}
else
{
v.Pass(T.head_Dates, P.head_P_created_0, m_tag, sDetails);
}
}
else
{
string sDetails = "created = 0x" + created.ToString("x16");
v.Error(T.head_Dates, E.head_E_created_invalid, m_tag, sDetails);
bRet = false;
}
if ((modified >> 32) == 0)
{
DateTime dtModified = this.GetModifiedDateTime();
string sDetails = "modified = " + modified + " (" + dtModified.ToString("f", null) + ")";
if (modified == 0)
{
v.Warning(T.head_Dates, W.head_W_modified_0, m_tag);
}
else if (dtModified < dtBeforeTrueType || dtModified > DateTime.Now)
{
v.Warning(T.head_Dates, W.head_W_modified_unlikely, m_tag, sDetails);
}
else
{
v.Pass(T.head_Dates, P.head_P_modified_0, m_tag, sDetails);
}
}
else
{
string sDetails = "modified = 0x" + modified.ToString("x16");
v.Error(T.head_Dates, E.head_E_modified_invalid, m_tag, sDetails);
bRet = false;
}
}
if (v.PerformTest(T.head_MinMaxValues))
{
if (fontOwner.ContainsTrueTypeOutlines())
{
if (xMin > xMax)
{
v.Error(T.head_MinMaxValues, E.head_E_xMin_GT_xMax, m_tag);
bRet = false;
}
if (yMin > yMax)
{
v.Error(T.head_MinMaxValues, E.head_E_yMin_GT_yMax, m_tag);
bRet = false;
}
short xMinExpected = 32767;
short xMaxExpected = -32768;
short yMinExpected = 32767;
short yMaxExpected = -32768;
Table_glyf glyfTable = (Table_glyf)fontOwner.GetTable("glyf");
if (glyfTable != null)
{
Table_maxp maxp = (Table_maxp)fontOwner.GetTable("maxp");
if (maxp != null)
{
for (uint i = 0; i < fontOwner.GetMaxpNumGlyphs(); i++)
{
Table_glyf.header h = glyfTable.GetGlyphHeader(i, fontOwner);
if (h != null)
{
if (xMinExpected > h.xMin)
{
xMinExpected = h.xMin;
}
if (xMaxExpected < h.xMax)
{
xMaxExpected = h.xMax;
}
if (yMinExpected > h.yMin)
{
yMinExpected = h.yMin;
}
if (yMaxExpected < h.yMax)
{
yMaxExpected = h.yMax;
}
}
}
if (xMin == xMinExpected)
{
String s = "xMin = " + xMin;
v.Pass(T.head_MinMaxValues, P.head_P_xMin_glyf, m_tag, s);
}
else
{
string s = "actual: " + xMin + ", expected: " + xMinExpected;
v.Error(T.head_MinMaxValues, E.head_E_xMin_glyf, m_tag, s);
bRet = false;
}
if (yMin == yMinExpected)
{
String s = "yMin = " + yMin;
v.Pass(T.head_MinMaxValues, P.head_P_yMin_glyf, m_tag, s);
}
else
{
string s = "actual: " + yMin + ", expected: " + yMinExpected;
v.Error(T.head_MinMaxValues, E.head_E_yMin_glyf, m_tag, s);
bRet = false;
}
if (xMax == xMaxExpected)
{
String s = "xMax = " + xMax;
v.Pass(T.head_MinMaxValues, P.head_P_xMax_glyf, m_tag, s);
}
else
{
string s = "actual: " + xMax + ", expected: " + xMaxExpected;
v.Error(T.head_MinMaxValues, E.head_E_xMax_glyf, m_tag, s);
bRet = false;
}
if (yMax == yMaxExpected)
{
String s = "yMax = " + yMax;
v.Pass(T.head_MinMaxValues, P.head_P_yMax_glyf, m_tag, s);
}
else
{
string s = "actual: " + yMax + ", expected: " + yMaxExpected;
v.Error(T.head_MinMaxValues, E.head_E_yMax_glyf, m_tag, s);
bRet = false;
}
}
else
{
v.Error(T.head_MinMaxValues, E._TEST_E_TableMissing, m_tag, "maxp");
}
}
else
{
v.Error(T.head_MinMaxValues, E._TEST_E_TableMissing, m_tag, "glyf");
}
}
else
{
v.Info(T.head_MinMaxValues, I._TEST_I_NotForCFF, m_tag, "test = head_MinMaxValues");
}
}
if (v.PerformTest(T.head_MacStyleBits))
{
bool bMacBold = ((macStyle & 0x0001) != 0);
bool bMacItal = ((macStyle & 0x0002) != 0);
// subfamily (style) string
Table_name nameTable = (Table_name)fontOwner.GetTable("name");
string sStyle = null;
string sStyleLower = null;
if (nameTable != null)
{
sStyle = nameTable.GetStyleString();
if (sStyle != null)
{
sStyleLower = sStyle.ToLower();
}
}
if (sStyleLower != null)
{
if (bMacBold && sStyleLower.IndexOf("bold") == -1)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold_subfamily, m_tag, "macStyle bold bit is set, but subfamily is " + sStyle);
bRet = false;
}
else if (!bMacBold && sStyleLower.IndexOf("bold") != -1)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold_subfamily, m_tag, "macStyle bold bit is clear, but subfamily is " + sStyle);
bRet = false;
}
else
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleBold_subfamily, m_tag);
}
if (bMacItal && sStyleLower.IndexOf("italic") == -1 && sStyleLower.IndexOf("oblique") == -1)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal_subfamily, m_tag, "macStyle italic bit is set, but subfamily is " + sStyle);
bRet = false;
}
else if (!bMacItal && (sStyleLower.IndexOf("italic") != -1 || sStyleLower.IndexOf("oblique") != -1))
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal_subfamily, m_tag, "macStyle italic bit is clear, but subfamily is " + sStyle);
bRet = false;
}
else
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleItal_subfamily, m_tag);
}
}
Table_OS2 OS2Table = (Table_OS2)fontOwner.GetTable("OS/2");
if (OS2Table != null)
{
// fsSelection
bool bOS2Bold = ((OS2Table.fsSelection & 0x0020) != 0);
bool bOS2Ital = ((OS2Table.fsSelection & 0x0001) != 0);
if (bMacBold == bOS2Bold)
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleBold_OS2, m_tag);
}
else if (bMacBold)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold1_OS2, m_tag);
bRet = false;
}
else
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleBold0_OS2, m_tag);
bRet = false;
}
if (bMacItal == bOS2Ital)
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleItal_OS2, m_tag);
}
else if (bMacItal)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal1_OS2, m_tag);
bRet = false;
}
else
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal0_OS2, m_tag);
bRet = false;
}
}
Table_post postTable = (Table_post)fontOwner.GetTable("post");
if (postTable != null)
{
bool bPostItal = (postTable.italicAngle.GetUint() != 0);
if (bMacItal == bPostItal)
{
v.Pass(T.head_MacStyleBits, P.head_P_macStyleItal_post, m_tag);
}
else if (bMacItal)
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal1_post, m_tag);
bRet = false;
}
else
{
v.Error(T.head_MacStyleBits, E.head_E_macStyleItal0_post, m_tag);
bRet = false;
}
}
}
if (v.PerformTest(T.head_LowestRecSize))
{
if (lowestRecPPEM == 0)
{
v.Error(T.head_LowestRecSize, E.head_E_lowestRecPPEM_zero, m_tag);
bRet = false;
}
else if (lowestRecPPEM >= 1 && lowestRecPPEM <= 6)
{
v.Warning(T.head_LowestRecSize, W.head_W_lowestRecPPEM_small, m_tag, "lowestRecPPEM = " + lowestRecPPEM.ToString());
}
else if (lowestRecPPEM >= 36)
{
v.Warning(T.head_LowestRecSize, W.head_W_lowestRecPPEM_large, m_tag, "lowestRecPPEM = " + lowestRecPPEM.ToString());
}
else
{
v.Pass(T.head_LowestRecSize, P.head_P_lowestRecPPEM, m_tag);
}
}
if (v.PerformTest(T.head_FontDirectionHint))
{
if (fontDirectionHint >= -2 && fontDirectionHint <= 2)
{
v.Pass(T.head_FontDirectionHint, P.head_P_fontDirectionHint, m_tag, fontDirectionHint.ToString());
}
else
{
v.Error(T.head_FontDirectionHint, E.head_E_fontDirectionHint, m_tag, fontDirectionHint.ToString());
bRet = false;
}
}
if (v.PerformTest(T.head_IndexToLocFormat))
{
if (fontOwner.ContainsPostScriptOutlines())
{
v.Pass(T.head_IndexToLocFormat, P.head_P_indexToLocFormat_ignore, m_tag, "indexToLocFormat = " + indexToLocFormat);
}
else
{
if (indexToLocFormat == 0 || indexToLocFormat == 1)
{
v.Pass(T.head_IndexToLocFormat, P.head_P_indexToLocFormat_range, m_tag, indexToLocFormat.ToString());
}
else
{
v.Error(T.head_IndexToLocFormat, E.head_E_indexToLocFormat_range, m_tag, indexToLocFormat.ToString());
bRet = false;
}
if (indexToLocFormat == 0 || indexToLocFormat == 1)
{
Table_loca locaTable = (Table_loca)fontOwner.GetTable("loca");
if (locaTable != null)
{
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable != null)
{
uint locaTableElementSize = 0;
if (indexToLocFormat == 0)
{
locaTableElementSize = 2;
}
else if (indexToLocFormat == 1)
{
locaTableElementSize = 4;
}
uint CalcLocaLength = (uint)(maxpTable.NumGlyphs + 1) * locaTableElementSize;
if (CalcLocaLength == locaTable.GetLength())
{
v.Pass(T.head_IndexToLocFormat, P.head_P_indexToLocFormat_match, m_tag, indexToLocFormat.ToString());
}
else
{
v.Error(T.head_IndexToLocFormat, E.head_E_indexToLocFormat_match, m_tag, indexToLocFormat.ToString());
bRet = false;
}
}
else
{
v.Error(T.head_IndexToLocFormat, E._TEST_E_TableMissing, m_tag, "maxp");
}
}
else
{
v.Error(T.head_IndexToLocFormat, E._TEST_E_TableMissing, m_tag, "loca");
}
}
}
}
if (v.PerformTest(T.head_GlyphDataFormat))
{
if (glyphDataFormat == 0)
{
v.Pass(T.head_GlyphDataFormat, P.head_P_glyphDataFormat, m_tag);
}
else
{
v.Error(T.head_GlyphDataFormat, E.head_E_glyphDataFormat, m_tag);
bRet = false;
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.PCLT_TableLength))
{
if (GetLength() == 54)
{
v.Pass(T.PCLT_TableLength, P.PCLT_P_TableLength, m_tag);
}
else
{
v.Error(T.PCLT_TableLength, E.PCLT_E_TableLength, m_tag, GetLength().ToString());
bRet = false;
}
}
if (v.PerformTest(T.PCLT_Version))
{
if (Version.GetUint() == 0x00010000)
{
v.Pass(T.PCLT_Version, P.PCLT_P_Version, m_tag);
}
else
{
v.Error(T.PCLT_Version, E.PCLT_E_Version, m_tag, "0x"+Version.GetUint().ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.PCLT_Pitch))
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.PCLT_Pitch, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.PCLT_Pitch, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
uint iSpaceGlyph = fontOwner.FastMapUnicodeToGlyphID(' ');
if (iSpaceGlyph < fontOwner.GetMaxpNumGlyphs())
{
Table_hmtx.longHorMetric hmSpace = hmtxTable.GetOrMakeHMetric(iSpaceGlyph, fontOwner);
if (hmSpace != null)
{
if (Pitch == hmSpace.advanceWidth)
{
v.Pass(T.PCLT_Pitch, P.PCLT_P_Pitch, m_tag);
}
else
{
string s = "actual = " + Pitch + ", expected = " + hmSpace.advanceWidth;
v.Error(T.PCLT_Pitch, E.PCLT_E_Pitch, m_tag, s);
bRet = false;
}
}
}
else
{
// JJF Figure out what to do
v.Warning(T.PCLT_Pitch, W._TEST_W_ErrorInAnotherTable, m_tag, "can't validate Pitch field, error getting the space glyph");
bRet = false;
}
}
}
if (v.PerformTest(T.PCLT_Style))
{
ushort Posture = (ushort)(Style & 0x0003);
ushort Width = (ushort)((Style>>2) & 0x0007);
ushort Structure = (ushort)((Style>>5) & 0x001f);
ushort Reserved = (ushort)(Style>>10);
bool bBitsOk = true;
if (Posture == 3)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Posture, m_tag, "0x"+Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (Width == 5)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Width, m_tag, "0x"+Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (Structure > 17)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Structure, m_tag, "0x"+Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (Reserved != 0)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Reserved, m_tag, "0x"+Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (bBitsOk)
{
v.Pass(T.PCLT_Style, P.PCLT_P_Style, m_tag);
}
}
if (v.PerformTest(T.PCLT_StrokeWeight))
{
if (StrokeWeight >= -7 && StrokeWeight <= 7)
{
v.Pass(T.PCLT_StrokeWeight, P.PCLT_P_StrokeWeight, m_tag, StrokeWeight.ToString());
}
else
{
v.Error(T.PCLT_StrokeWeight, E.PCLT_E_StrokeWeight, m_tag, StrokeWeight.ToString());
bRet = false;
}
}
if (v.PerformTest(T.PCLT_WidthType))
{
if (WidthType >= -5 && WidthType <= 5)
{
v.Pass(T.PCLT_WidthType, P.PCLT_P_WidthType, m_tag, WidthType.ToString());
}
else
{
v.Error(T.PCLT_WidthType, E.PCLT_E_WidthType, m_tag, WidthType.ToString());
bRet = false;
}
}
if (v.PerformTest(T.PCLT_SerifStyle))
{
uint bot6 = (uint)SerifStyle & 0x3f;
uint top2 = (uint)SerifStyle>>6;
bool bBitsOk = true;
if (bot6 > 12)
{
v.Error(T.PCLT_SerifStyle, E.PCLT_E_Bottom6, m_tag, "0x"+SerifStyle.ToString("x2"));
bBitsOk = false;
bRet = false;
}
if (top2 == 0 || top2 == 3)
{
v.Error(T.PCLT_SerifStyle, E.PCLT_E_Top2, m_tag);
bBitsOk = false;
bRet = false;
}
if (bBitsOk)
{
v.Pass(T.PCLT_SerifStyle, P.PCLT_P_SerifStyle, m_tag);
}
}
if (v.PerformTest(T.PCLT_Reserved))
{
if (Reserved == 0)
{
v.Pass(T.PCLT_Reserved, P.PCLT_P_Reserved, m_tag);
}
else
{
v.Error(T.PCLT_Reserved, E.PCLT_E_Reserved, m_tag, Reserved.ToString());
bRet = false;
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
m_nCachedMaxpNumGlyphs = fontOwner.GetMaxpNumGlyphs();
if (v.PerformTest(T.EBDT_version))
{
if (version.GetUint() == 0x00020000)
{
v.Pass(T.EBDT_version, P.EBDT_P_version, m_tag);
}
else
{
v.Error(T.EBDT_version, E.EBDT_E_version, m_tag, "version = 0x" + version.GetUint().ToString("x8") + ", unable to continue validation");
return false;
}
}
if (v.PerformTest(T.EBDT_TableDependency))
{
Table_EBLC EBLCTable = (Table_EBLC)fontOwner.GetTable("EBLC");
if (EBLCTable != null)
{
v.Pass(T.EBDT_TableDependency, P.EBDT_P_TableDependency, m_tag);
}
else
{
v.Error(T.EBDT_TableDependency, E.EBDT_E_TableDependency, m_tag);
bRet = false;
}
}
if (v.PerformTest(T.EBDT_GlyphImageData))
{
bool bGlyphImageDataOk = true;
Table_EBLC EBLCTable = (Table_EBLC)fontOwner.GetTable("EBLC");
// for each bitmap size
for (uint i=0; i<EBLCTable.numSizes; i++)
{
Table_EBLC.bitmapSizeTable bst = EBLCTable.GetBitmapSizeTable(i);
string sSize = "bitmapsize[" + i + "], ppemX=" + bst.ppemX + ", ppemY=" + bst.ppemY;
Table_EBLC.indexSubTableArray[] ista = EBLCTable.GetIndexSubTableArray(bst);
if (ista != null)
{
for (uint j=0; j < bst.numberOfIndexSubTables; j++)
{
Table_EBLC.indexSubTable ist = null;
if (ista[j] != null)
{
ist = bst.GetIndexSubTable(ista[j]);
}
if (ist != null)
{
string sID = sSize + ", indexSubTable[" + j + "](index fmt " + ist.header.indexFormat +
", image fmt " + ist.header.imageFormat + ")";
switch(ist.header.imageFormat)
{
case 1:
if (!Validate_Format1(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 2:
if (!Validate_Format2(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 3:
if (!Validate_Format3(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 4:
if (!Validate_Format4(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 5:
if (!Validate_Format5(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 6:
if (!Validate_Format6(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 7:
if (!Validate_Format7(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 8:
if (!Validate_Format8(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
case 9:
if (!Validate_Format9(v, sID, ist))
{
bGlyphImageDataOk = false;
bRet = false;
}
break;
default:
break;
}
}
}
}
}
if (bGlyphImageDataOk)
{
v.Pass(T.EBDT_GlyphImageData, P.EBDT_P_GlyphImageData, m_tag);
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
v.Info(T.T_NULL, I.CFF_I_Version, m_tag, major + "." + minor);
if ( major == 1 && minor == 0 && hdrSize == 4 )
{
v.Pass(T.CFF_Header, P.CFF_P_Header, m_tag);
}
else
{
v.Error(T.CFF_Header, E.CFF_E_Header, m_tag,
"major=" + major + ", minor=" + minor + ", hdrSize=" + hdrSize + ", offSize=" + offSize);
}
try
{
v.Pass(T.CFF_MAININDEX_Enumeration, P.CFF_P_MAININDEX_Enumeration, m_tag,
"Name=" + Name.count + ", TopDICT=" + TopDICT.count + ", String=" + String.count + ", GlobalSubr=" + GlobalSubr.count);
}
catch (Exception e)
{
v.Error(T.CFF_MAININDEX_Enumeration, E.CFF_E_MAININDEX_Enumeration, m_tag,
e.Message);
return false;
}
if ( Name.count == TopDICT.count && TopDICT.count == 1)
{
v.Pass(T.CFF_NameDICTSize, P.CFF_P_NameDICTSize, m_tag);
}
else
{
v.Error(T.CFF_NameDICTSize, E.CFF_E_NameDICTSize, m_tag,
"Name=" + Name.count + ", TopDICT=" + TopDICT.count);
}
if (Name.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "Name=" + Name.GetOffset(0) );
if (TopDICT.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "TopDICT=" + TopDICT.GetOffset(0) );
if (String.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "String=" + String.GetOffset(0) );
if (GlobalSubr.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "GlobalSubr=" + GlobalSubr.GetOffset(0) );
var overlap = new DataOverlapDetector();
if ( !overlap.CheckForNoOverlap(0, hdrSize) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "hdrSize");
if ( !overlap.CheckForNoOverlap(Name.begin, Name.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "Name");
if ( !overlap.CheckForNoOverlap(TopDICT.begin, TopDICT.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "TopDICT");
if ( !overlap.CheckForNoOverlap(String.begin, String.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "String");
if ( !overlap.CheckForNoOverlap(GlobalSubr.begin, GlobalSubr.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "GlobalSubr");
try
{
for(uint i = 0; i< Name.count; i++)
{
var name = Name.GetString(i);
}
v.Pass(T.CFF_Non_ASCII_String_or_Name, P.CFF_P_Non_ASCII_String_or_Name, m_tag, "Name INDEX");
}
catch (DecoderFallbackException)
{
v.Error(T.CFF_Non_ASCII_String_or_Name, E.CFF_E_Non_ASCII_String_or_Name, m_tag, "Name INDEX");
}
try{
for(uint i = 0; i< String.count; i++)
{
var a = String.GetString(i);
}
v.Pass(T.CFF_Non_ASCII_String_or_Name, P.CFF_P_Non_ASCII_String_or_Name, m_tag, "String INDEX");
}
catch (DecoderFallbackException)
{
v.Error(T.CFF_Non_ASCII_String_or_Name, E.CFF_E_Non_ASCII_String_or_Name, m_tag, "String INDEX");
}
for(uint iDICT = 0; iDICT < TopDICT.count; iDICT++)
{
Table_CFF.DICTData curTopDICT = null;
try
{
curTopDICT = GetTopDICT(iDICT);
v.Pass(T.CFF_DICTUnwind, P.CFF_P_DICTUnwind, m_tag, curTopDICT.FullName);
if ( !overlap.CheckForNoOverlap((uint)curTopDICT.offsetPrivate, (uint)curTopDICT.sizePrivate) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "TopDICTPriv");
}
catch (Exception e)
{
v.Error(T.CFF_DICTUnwind, E.CFF_E_DICTUnwind, m_tag, "TopDICT: " + e.Message);
}
Table_CFF.DICTData topPrivateDict = null;
try
{
topPrivateDict = GetPrivate(curTopDICT);
v.Pass(T.CFF_PrivDICTUnwind, P.CFF_P_PrivDICTUnwind, m_tag, "topPrivateDict");
}
catch (Exception e)
{
v.Error(T.CFF_PrivDICTUnwind, E.CFF_E_PrivDICTUnwind, m_tag, "topPrivateDict: " + e.Message);
}
if (topPrivateDict != null && topPrivateDict.Subrs != 0)
{
try
{
Table_CFF.INDEXData topPrivSubrs = GetINDEX(curTopDICT.offsetPrivate + topPrivateDict.Subrs);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "topPrivSubrs: " + topPrivSubrs.count);
if (topPrivSubrs.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "topPrivSubrs=" + topPrivSubrs.GetOffset(0) );
if ( !overlap.CheckForNoOverlap(topPrivSubrs.begin, topPrivSubrs.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "topPrivSubrs");
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "topPrivSubrs: " + e.Message);
}
}
Table_CFF.INDEXData CharStrings = null;
try
{
CharStrings = GetINDEX(curTopDICT.offsetCharStrings);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "CharStrings: " + CharStrings.count);
if (CharStrings.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "CharStrings=" + CharStrings.GetOffset(0) );
if ( !overlap.CheckForNoOverlap(CharStrings.begin, CharStrings.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "CharStrings");
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "CharStrings: " + e.Message);
}
if ( CharStrings.count == fontOwner.GetMaxpNumGlyphs() )
{
v.Pass(T.CFF_CharStringsCount, P.CFF_P_CharStringsCount, m_tag);
}
else
{
v.Error(T.CFF_CharStringsCount, E.CFF_E_CharStringsCount, m_tag,
CharStrings.count.ToString() + "!=" + fontOwner.GetMaxpNumGlyphs());
}
if (curTopDICT.ROS != null)
{
v.Info(T.CFF_CIDROS, I.CFF_I_CIDROS, m_tag, curTopDICT.ROS);
}
if (curTopDICT.offsetFDArray > 0)
{
Table_CFF.INDEXData FDArray = null;
try {
FDArray = GetINDEX(curTopDICT.offsetFDArray);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "FDArray: " + FDArray.count);
if (FDArray.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag, "FDArray=" + FDArray.GetOffset(0) );
if ( !overlap.CheckForNoOverlap(FDArray.begin, FDArray.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "FDArray");
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "FDArray: " + e.Message);
}
for(uint i = 0; i< FDArray.count; i++)
{
Table_CFF.DICTData FDict = null;
try
{
FDict = GetDICT(FDArray.GetData(i));
v.Pass(T.CFF_DICTUnwind, P.CFF_P_DICTUnwind, m_tag, "CID FontDict #" + i + ": " + FDict.FontName);
if ( !overlap.CheckForNoOverlap((uint)FDict.offsetPrivate, (uint)FDict.sizePrivate) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "FDictPriv#" + i);
}
catch (Exception e)
{
v.Error(T.CFF_DICTUnwind, E.CFF_E_DICTUnwind, m_tag, "CID FontDict #" + i + ": " + e.Message);
}
Table_CFF.DICTData FDictPrivate = null;
try
{
FDictPrivate = GetPrivate(FDict);
v.Pass(T.CFF_PrivDICTUnwind, P.CFF_P_PrivDICTUnwind, m_tag, "CID FontDict Private DICT#" + i);
}
catch (Exception e)
{
v.Error(T.CFF_PrivDICTUnwind, E.CFF_E_PrivDICTUnwind, m_tag, "CID FontDict Private DICT#" + i + ": " + e.Message);
}
if (FDictPrivate != null && FDictPrivate.Subrs != 0)
{
Table_CFF.INDEXData PrivSubrs = null;
try
{
PrivSubrs = GetINDEX(FDict.offsetPrivate + FDictPrivate.Subrs);
v.Pass(T.CFF_INDEXCount, P.CFF_P_INDEXCount, m_tag, "PrivSubrs#" + i + ": " + PrivSubrs.count);
if (PrivSubrs.GetOffset(0) != 1)
v.Warning( T.CFF_INDEXFirstOffset, W.CFF_W_INDEXFirstOffset, m_tag,
"PrivSubrs#" + i + "=" + PrivSubrs.GetOffset(0) );
if ( !overlap.CheckForNoOverlap(PrivSubrs.begin, PrivSubrs.size) )
v.Error(T.CFF_StructOverlap, E.CFF_E_StructOverlap, m_tag, "PrivSubrs#" + i);
;
}
catch (Exception e)
{
v.Error(T.CFF_INDEXCount, E.CFF_E_INDEXCount, m_tag, "PrivSubrs#" + i + ": " + e.Message);
}
}
}
}
string result = "Tested Region: " + overlap.Occupied + " of " + GetLength() + ", not testing" +
( curTopDICT.offsetCharset == 0 ? "" : " Charset: " + curTopDICT.offsetCharset) +
( curTopDICT.offsetEncoding == 0 ? "" : " Encoding: " + curTopDICT.offsetEncoding) +
( curTopDICT.offsetFDSelect == 0 ? "" : " FDSelect: " + curTopDICT.offsetFDSelect ) ;
v.Info(T.CFF_TestCoverage, I.CFF_I_NotValidated, m_tag, result);
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.hhea_version))
{
if (TableVersionNumber.GetUint() == 0x00010000)
{
v.Pass(T.hhea_version, P.hhea_P_version, m_tag);
}
else
{
v.Error(T.hhea_version, E.hhea_E_version, m_tag, "0x" + TableVersionNumber.GetUint().ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.hhea_AscenderPositive))
{
if (Ascender <= 0)
{
string s = "Ascender = " + Ascender;
v.Error(T.hhea_AscenderPositive, E.hhea_E_AscenderPositive, m_tag, s);
bRet = false;
}
else
{
v.Pass(T.hhea_AscenderPositive, P.hhea_P_AscenderPositive, m_tag);
}
}
if (v.PerformTest(T.hhea_DescenderNegative))
{
if (Descender >= 0)
{
string s = "Descender = " + Descender;
v.Error(T.hhea_DescenderNegative, E.hhea_E_DescenderNegative, m_tag, s);
bRet = false;
}
else
{
v.Pass(T.hhea_DescenderNegative, P.hhea_P_DescenderNegative, m_tag);
}
}
Table_head headTable = (Table_head)fontOwner.GetTable("head");
if (headTable != null)
{
if (v.PerformTest(T.hhea_Ascender_yMax))
{
if (Ascender > headTable.yMax)
{
string s = "Ascender = " + Ascender + ", head.yMax = " + headTable.yMax;
v.Info(T.hhea_Ascender_yMax, I.hhea_I_Ascender_yMax, m_tag, s);
// bRet = false;
}
else
{
v.Pass(T.hhea_Ascender_yMax, P.hhea_P_Ascender_yMax, m_tag);
}
}
if (v.PerformTest(T.hhea_Descender_yMin))
{
if (Descender < headTable.yMin)
{
string s = "Descender = " + Descender + ", head.yMin = " + headTable.yMin;
v.Info(T.hhea_Descender_yMin, I.hhea_I_Descender_yMin, m_tag, s);
// bRet = false;
}
else
{
v.Pass(T.hhea_Descender_yMin, P.hhea_P_Descender_yMin, m_tag);
}
}
}
else
{
v.Error(T.hhea_Ascender_yMax, E._TEST_E_TableMissing, m_tag, "head");
bRet = false;
}
if (v.PerformTest(T.hhea_LineGapPositive))
{
if (LineGap < 0)
{
string s = "LineGap = " + LineGap;
v.Warning(T.hhea_LineGapPositive, W.hhea_W_LineGapPositive, m_tag, s);
//bRet = false;
}
else
{
v.Pass(T.hhea_LineGapPositive, P.hhea_P_LineGapPositive, m_tag);
}
}
Table_OS2 OS2Table = (Table_OS2)fontOwner.GetTable("OS/2");
if (OS2Table != null)
{
if (v.PerformTest(T.hhea_Ascender_usWinAscent))
{
if (OS2Table.usWinAscent != Ascender)
{
string s = "hhea.Ascender = " + Ascender + ", OS/2.usWinAscent = " + OS2Table.usWinAscent;
v.Warning(T.hhea_Ascender_usWinAscent, W.hhea_W_Ascender_usWinAscent, m_tag, s);
}
else
{
v.Pass(T.hhea_Ascender_usWinAscent, P.hhea_P_Ascender_usWinAscent, m_tag);
}
}
if (v.PerformTest(T.hhea_Descender_usWinDescent))
{
if (OS2Table.usWinDescent != (Descender * -1))
{
string s = "hhea.Descender = " + Descender + ", OS/2.usWinDescent = " + OS2Table.usWinDescent;
v.Warning(T.hhea_Descender_usWinDescent, W.hhea_W_Descender_usWinDescent, m_tag, s);
}
else
{
v.Pass(T.hhea_Descender_usWinDescent, P.hhea_P_Descender_usWinDescent, m_tag);
}
}
// Microsoft is recommending that Ascender, Descender and LineGap be in line with OS2.winAscent, OS2.winDescent
// and formulated value for LineGap to make sure font displays the same on Apple as it does no Windows.
if (v.PerformTest(T.hhea_LineGap_minGap))
{
int sMinGap = (OS2Table.usWinAscent + OS2Table.usWinDescent) - (Ascender - Descender);
if (LineGap < sMinGap)
{
string s = "LineGap = " + LineGap + ", recommended = " + sMinGap;
v.Warning(T.hhea_LineGap_minGap, W.hhea_W_LineGap_minGap, m_tag, s);
//bRet = false;
}
else
{
v.Pass(T.hhea_LineGap_minGap, P.hhea_P_LineGap_minGap, m_tag);
}
}
else
{
v.Error(T.hhea_LineGap_minGap, E._TEST_E_TableMissing, m_tag, "OS/2");
}
}
else
{
v.Error(T.hhea_Ascender_usWinAscent, E._TEST_E_TableMissing, m_tag, "OS/2");
v.Error(T.hhea_Descender_usWinDescent, E._TEST_E_TableMissing, m_tag, "OS/2");
v.Error(T.hhea_LineGap_minGap, E._TEST_E_TableMissing, m_tag, "OS/2");
bRet = false;
}
if (v.PerformTest(T.hhea_MinMax))
{
if (fontOwner.ContainsTrueTypeOutlines())
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
Table_glyf glyfTable = (Table_glyf)fontOwner.GetTable("glyf");
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.hhea_MinMax, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (glyfTable == null)
{
v.Error(T.hhea_MinMax, E._TEST_E_TableMissing, m_tag, "glyf");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.hhea_MinMax, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
ushort awMax = 0;
short minLSB = 32767;
short minRSB = 32767;
short xmaxEx = -32768;
Table_hmtx.longHorMetric hm = null;
for (uint iGlyph = 0; iGlyph < numGlyphs; iGlyph++)
{
hm = hmtxTable.GetOrMakeHMetric(iGlyph, fontOwner);
if (hm == null)
{
break;
}
if (awMax < hm.advanceWidth)
{
awMax = hm.advanceWidth;
// We want to give the user feedback to know what glyph id
// has the bad width assigned
if (awMax > advanceWidthMax)
{
string s = "glyph ID = " + iGlyph + ", advance width = " + awMax;
v.Error(T.hhea_MinMax, E.hhea_E_advanceWidthMax, m_tag, s);
bRet = false;
}
}
Table_glyf.header gh = glyfTable.GetGlyphHeader(iGlyph, fontOwner);
// calculate for all non-zero contours...this includes composites
if (gh != null &&
gh.numberOfContours != 0)
{
if (minLSB > hm.lsb)
{
minLSB = hm.lsb;
}
short rsb = (short)(hm.advanceWidth - hm.lsb - (gh.xMax - gh.xMin));
if (minRSB > rsb)
{
minRSB = rsb;
}
short extent = (short)(hm.lsb + (gh.xMax - gh.xMin));
if (xmaxEx < extent)
{
xmaxEx = extent;
}
}
}
if (hm != null)
{
if (advanceWidthMax == awMax)
{
v.Pass(T.hhea_MinMax, P.hhea_P_advanceWidthMax, m_tag);
}
else
{
string s = "actual = " + advanceWidthMax + ", calc = " + awMax;
v.Error(T.hhea_MinMax, E.hhea_E_advanceWidthMax, m_tag, s);
bRet = false;
}
if (minLeftSideBearing == minLSB)
{
v.Pass(T.hhea_MinMax, P.hhea_P_minLeftSideBearing, m_tag);
}
else
{
string s = "actual = " + minLeftSideBearing + ", calc = " + minLSB;
v.Error(T.hhea_MinMax, E.hhea_E_minLeftSideBearing, m_tag, s);
bRet = false;
}
if (minRightSideBearing == minRSB)
{
v.Pass(T.hhea_MinMax, P.hhea_P_minRightSideBearing, m_tag);
}
else
{
string s = "actual = " + minRightSideBearing + ", calc = " + minRSB;
v.Error(T.hhea_MinMax, E.hhea_E_minRightSideBearing, m_tag, s);
bRet = false;
}
if (xMaxExtent == xmaxEx)
{
v.Pass(T.hhea_MinMax, P.hhea_P_xMaxExtent, m_tag);
}
else
{
string s = "actual = " + xMaxExtent + ", calc = " + xmaxEx;
v.Error(T.hhea_MinMax, E.hhea_E_xMaxExtent, m_tag, s);
bRet = false;
}
}
else
{
v.Warning(T.hhea_MinMax, W.hhea_W_hmtx_invalid, m_tag, "unable to parse hmtx table");
}
}
}
else
{
v.Info(T.hhea_MinMax, I._TEST_I_NotForCFF, m_tag, "test = hhea_MinMax");
}
}
if (v.PerformTest(T.hhea_reserved))
{
if (reserved1 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved1, m_tag, reserved1.ToString());
bRet = false;
}
else if (reserved2 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved2, m_tag, reserved2.ToString());
bRet = false;
}
else if (reserved3 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved3, m_tag, reserved3.ToString());
bRet = false;
}
else if (reserved4 != 0)
{
v.Error(T.hhea_reserved, E.hhea_E_reserved4, m_tag, reserved4.ToString());
bRet = false;
}
else
{
v.Pass(T.hhea_reserved, P.hhea_P_reserved, m_tag);
}
}
if (v.PerformTest(T.hhea_metricDataFormat))
{
if (metricDataFormat == 0)
{
v.Pass(T.hhea_metricDataFormat, P.hhea_P_metricDataFormat, m_tag);
}
else
{
v.Error(T.hhea_metricDataFormat, E.hhea_E_metricDataFormat, m_tag, metricDataFormat.ToString());
bRet = false;
}
}
if (v.PerformTest(T.hhea_numberOfHMetrics))
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.hhea_numberOfHMetrics, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.hhea_numberOfHMetrics, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
if (numberOfHMetrics * 4 + (numGlyphs - numberOfHMetrics) * 2 == hmtxTable.GetLength())
{
v.Pass(T.hhea_numberOfHMetrics, P.hhea_P_numberOfHMetrics, m_tag);
}
else
{
v.Error(T.hhea_numberOfHMetrics, E.hhea_E_numberOfHMetrics, m_tag);
bRet = false;
}
}
}
if (v.PerformTest(T.hhea_caretSlope))
{
bool bSlopeOk = true;
Table_post postTable = (Table_post)fontOwner.GetTable("post");
if (postTable != null)
{
uint ia = postTable.italicAngle.GetUint();
double dItalicAngle = postTable.italicAngle.GetDouble();
if (ia == 0)
{
if (caretSlopeRun != 0)
{
v.Error(T.hhea_caretSlope, E.hhea_E_caretSlopeRunNonZero_italicAngle, m_tag);
bSlopeOk = false;
bRet = false;
}
}
else
{
if (caretSlopeRun == 0)
{
v.Error(T.hhea_caretSlope, E.hhea_E_caretSlopeRunZero_italicAngle, m_tag);
bSlopeOk = false;
bRet = false;
}
else
{
double dActualAngle = 90.0 + postTable.italicAngle.GetDouble();
double dhheaAngle = (Math.Atan2(caretSlopeRise, caretSlopeRun)) * (180.0 / Math.PI);
if (Math.Abs(dActualAngle - dhheaAngle) >= 1.0)
{
string sDetails = "caretSlope Rise:Run = " + caretSlopeRise + ":" + caretSlopeRun +
" (" + (dhheaAngle - 90.0) + " degrees)" +
", post.italicAngle = 0x" + ia.ToString("x8") +
" (" + postTable.italicAngle.GetDouble() + " degrees)";
v.Error(T.hhea_caretSlope, E.hhea_E_caretSlopeAngle_italicAngle, m_tag, sDetails);
bSlopeOk = false;
bRet = false;
}
}
}
}
else
{
v.Error(T.hhea_caretSlope, E._TEST_E_TableMissing, m_tag, "post table missing, can't compare caret slope to italicAngle");
bSlopeOk = false;
bRet = false;
}
if (bSlopeOk)
{
v.Pass(T.hhea_caretSlope, P.hhea_P_caretSlopeAngle_italicAngle, m_tag);
}
}
return(bRet);
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.LTSH_version))
{
if (version == 0)
{
v.Pass(T.LTSH_version, P.LTSH_P_version, m_tag);
}
else
{
v.Error(T.LTSH_version, E.LTSH_E_version, m_tag, version.ToString());
bRet = false;
}
}
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (maxpTable == null)
{
v.Error(T.T_NULL, E._TEST_E_TableMissing, m_tag, "Unable to test this table, maxp table is invalid or missing");
return(false);
}
if (v.PerformTest(T.LTSH_numGlyphs))
{
if (numGlyphs == fontOwner.GetMaxpNumGlyphs())
{
v.Pass(T.LTSH_numGlyphs, P.LTSH_P_numGlyphs, m_tag);
}
else
{
string s = "LTSH.numGlyphs = " + numGlyphs + ", maxp.numGlyphs = " + fontOwner.GetMaxpNumGlyphs();
v.Error(T.LTSH_numGlyphs, E.LTSH_E_numGlyphs, m_tag, s);
bRet = false;
}
}
if (v.PerformTest(T.LTSH_TableLength))
{
uint CalcLength = (uint)FieldOffsets.yPels + numGlyphs;
if (GetLength() == CalcLength)
{
v.Pass(T.LTSH_TableLength, P.LTSH_P_TableLength, m_tag);
}
else
{
string s = "calc length = " + CalcLength + ", actual length = " + GetLength();
v.Error(T.LTSH_TableLength, E.LTSH_E_TableLength, m_tag, s);
bRet = false;
}
}
if (v.PerformTest(T.LTSH_yPels))
{
bool bYPelsOk = true;
RasterInterf.DevMetricsData dmd = null;
try
{
Version ver = fontOwner.GetFile().GetRasterizer().FTVersion;
if (ver.CompareTo(new Version(2, 6, 1)) < 0)
{
v.Warning(T.LTSH_yPels, W.LTSH_W_Need_Newer_FreeType, m_tag,
"Using FreeType Version " + ver + " may not get correct results for LTSH");
}
dmd = fontOwner.GetCalculatedDevMetrics();
}
catch (Exception e)
{
v.ApplicationError(T.LTSH_yPels, E._Table_E_Exception, m_tag, e.Message);
bRet = false;
}
if (dmd != null)
{
for (uint iGlyphIndex = 0; iGlyphIndex < numGlyphs; iGlyphIndex++)
{
if (iGlyphIndex >= fontOwner.GetMaxpNumGlyphs())
{
// JJF. Figure out what to do
v.Warning(T.LTSH_yPels, W._TEST_W_OtherErrorsInTable, m_tag, "can't test all yPel values, LTSH.numGlyphs does not equal maxp.numGlyphs");
bRet = false;
bYPelsOk = false;
break;
}
if (GetYPel(iGlyphIndex) != dmd.ltshData.yPels[iGlyphIndex])
{
String sDetails = "glyph# = " + iGlyphIndex + ", value = " + GetYPel(iGlyphIndex) + ", calculated value = " + dmd.ltshData.yPels[iGlyphIndex];
v.Error(T.LTSH_yPels, E.LTSH_E_yPels, m_tag, sDetails);
bRet = false;
bYPelsOk = false;
}
/*
* else
* {
* String sDetails = "glyph# = " + iGlyphIndex + ", value = " + GetYPel(iGlyphIndex);
* v.DebugMsg("yPel value OK! " + sDetails, m_tag);
* }
*/
if (GetYPel(iGlyphIndex) == 0)
{
String sDetails = "glyph# = " + iGlyphIndex;
v.Warning(T.LTSH_yPels, W.LTSH_W_yPels_zero, m_tag, sDetails);
}
}
if (bYPelsOk)
{
v.Pass(T.LTSH_yPels, P.LTSH_P_yPels, m_tag);
}
}
else
{
// if user didn't cancel, then check for error message
if (!v.CancelFlag)
{
String sDetails = null;
try
{
sDetails = fontOwner.GetDevMetricsDataError();
}
catch (Exception e)
{
v.ApplicationError(T.LTSH_yPels, E._Table_E_Exception, m_tag, e.Message);
}
Debug.Assert(sDetails != null);
v.Error(T.LTSH_yPels, E.LTSH_E_Rasterizer, m_tag, sDetails);
bRet = false;
}
}
}
return(bRet);
}
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.cmap_Version))
{
if (TableVersionNumber == 0)
{
v.Pass(T.cmap_Version, P.cmap_P_version, m_tag);
}
else
{
v.Error(T.cmap_Version, E.cmap_E_version, m_tag,
TableVersionNumber.ToString());
bRet = false;
}
}
// Check that the number of encoding records seems to
// agree with the numTables field, and that each offset
// is greater than 0 and less than the length of the cmap
// table.
bool bOffsetsOk = true;
if (v.PerformTest(T.cmap_SubtableOffset))
{
for (uint i=0; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
if (ete != null)
{
if (ete.offset == 0)
{
v.Error(T.cmap_SubtableOffset,
E.cmap_E_SubtableOffset_zero, m_tag,
"encoding table entry index = " +
i.ToString() + ", platformID = " +
ete.platformID + ", encodingID = " +
ete.encodingID);
bRet = false;
bOffsetsOk = false;
}
if (ete.offset > m_bufTable.GetLength())
{
v.Error(T.cmap_SubtableOffset,
E.cmap_E_SubtableOffset_eot, m_tag,
"encoding table entry index = " +
i.ToString() + ", platformID = " +
ete.platformID +
", encodingID = " + ete.encodingID);
bRet = false;
bOffsetsOk = false;
}
}
else
{
v.Warning(T.cmap_SubtableOffset,
W._TEST_W_OtherErrorsInTable, m_tag,
"cmap table appears to be corrupt. " +
" No further tests will be performed.");
return bRet;
}
}
if (bOffsetsOk)
{
v.Pass(T.cmap_SubtableOffset, P.cmap_P_SubtableOffset,
m_tag);
}
}
// Check that each subtable can be retrieved from the font
// and that its offset + length lies within the cmap.
bool bLengthsOk = true;
if (v.PerformTest(T.cmap_SubtableLength))
{
for (uint i=0; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
Subtable st = GetSubtable(ete);
if (st != null)
{
if (st.length == 0)
{
v.Error(T.cmap_SubtableLength,
E.cmap_E_SubtableLength_zero, m_tag,
i.ToString());
bRet = false;
bLengthsOk = false;
}
if (ete.offset + st.length > m_bufTable.GetLength())
{
v.Error(T.cmap_SubtableLength,
E.cmap_E_SubtableLength_eot, m_tag,
i.ToString());
bRet = false;
bLengthsOk = false;
}
}
else
{
string sDetails = "PlatID = " + ete.platformID +
", EncID = " + ete.encodingID;
v.Warning(T.cmap_SubtableLength,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate the length of subtable - "
+ sDetails);
bLengthsOk = false;
}
}
if (bLengthsOk)
{
v.Pass(T.cmap_SubtableLength, P.cmap_P_SubtableLength,
m_tag);
}
}
// Assuming previous tests ok, check that sort order is by
// 1. increasing platformID
// 2. increasing encodingID
// 3. increasing language
if (v.PerformTest(T.cmap_SubtableSortOrder))
{
if (bOffsetsOk && bLengthsOk)
{
bool bOrderOk = true;
if (NumberOfEncodingTables > 1)
{
EncodingTableEntry etePrev = GetEncodingTableEntry(0);
for (uint i=1; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
if (etePrev.platformID == ete.platformID)
{
if (etePrev.encodingID == ete.encodingID)
{
Subtable stPrev = GetSubtable(etePrev);
Subtable st = GetSubtable(ete);
if (stPrev.language > st.language)
{
bOrderOk = false;
}
}
else if (etePrev.encodingID > ete.encodingID)
{
bOrderOk = false;
}
}
else if (etePrev.platformID > ete.platformID)
{
bOrderOk = false;
}
etePrev = ete;
}
}
if (bOrderOk)
{
v.Pass(T.cmap_SubtableSortOrder,
P.cmap_P_SubtableSortOrder, m_tag);
}
else
{
v.Error(T.cmap_SubtableSortOrder,
E.cmap_E_SubtableSortOrder, m_tag);
bRet = false;
}
}
else
{
v.Warning(T.cmap_SubtableSortOrder,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate sort order");
}
}
// Check that no encoding record has the same
// (platformID,encodingID,language)
// as the previous one.
if (v.PerformTest(T.cmap_DuplicateSubtables))
{
if (bOffsetsOk && bLengthsOk)
{
bool bNoDuplicates = true;
if (NumberOfEncodingTables > 1)
{
EncodingTableEntry etePrev = GetEncodingTableEntry(0);
for (uint i=1; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
if (etePrev.platformID == ete.platformID)
{
if (etePrev.encodingID == ete.encodingID)
{
Subtable stPrev = GetSubtable(etePrev);
Subtable st = GetSubtable(ete);
if (stPrev.language == st.language)
{
bNoDuplicates = false;
}
}
}
etePrev = ete;
}
}
if (bNoDuplicates)
{
v.Pass(T.cmap_DuplicateSubtables,
P.cmap_P_DuplicateSubtables, m_tag);
}
else
{
v.Error(T.cmap_DuplicateSubtables,
E.cmap_E_DuplicateSubtables, m_tag);
bRet = false;
}
}
else
{
string unable = "unable to validate that there are " +
"no duplicate subtables";
v.Warning(T.cmap_DuplicateSubtables,
W._TEST_W_OtherErrorsInTable, m_tag,
unable );
}
}
// Check that no subtable overlaps and subtable following it,
// in other words, check for the beginning of one subtable
// falling within the bounds of a subtable that follows it.
if (v.PerformTest(T.cmap_SubtableOverlap))
{
if (bOffsetsOk && bLengthsOk)
{
bool bNoOverlap = true;
if (NumberOfEncodingTables > 1)
{
for (uint i=0; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete1 = GetEncodingTableEntry(i);
Subtable st1 = GetSubtable(ete1);
for (uint j=i+1; j<NumberOfEncodingTables; j++)
{
EncodingTableEntry ete2 =
GetEncodingTableEntry(j);
Subtable st2 = GetSubtable(ete2);
if ( (ete1.offset > ete2.offset &&
ete1.offset < ete2.offset + st2.length) ||
(ete2.offset > ete1.offset &&
ete2.offset < ete1.offset + st1.length) )
{
v.Error(T.cmap_SubtableOverlap,
E.cmap_E_SubtableOverlap, m_tag,
i.ToString() + " " + j.ToString());
bRet = false;
bNoOverlap = true;
}
}
}
}
if (bNoOverlap)
{
v.Pass(T.cmap_SubtableOverlap,
P.cmap_P_SubtableOverlap, m_tag);
}
}
else
{
v.Warning(T.cmap_SubtableOverlap,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate that no subtables overlap");
}
}
// Check that all subtable formats (First USHORT in the subtable)
// is an even number between 0 and 14, inclusive.
if (v.PerformTest(T.cmap_ValidFormat))
{
bool bAllFormatsValid = true;
for (uint i=0; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
if (ete.offset < m_bufTable.GetLength()-1)
{
// the format of the subtable is the first uint16
ushort format = m_bufTable.GetUshort(ete.offset);
if (format > HIGHEST_FORMAT || ((format&1)==1))
{
string sDetails = "PlatID = " + ete.platformID +
", EncID = " + ete.encodingID + ", Fmt = " +
format;
v.Error(T.cmap_ValidFormat,
E.cmap_E_SubtableValidFormat, m_tag,
sDetails);
bRet = false;
bAllFormatsValid = false;
}
}
else
{
string sDetails = "PlatID = " + ete.platformID +
", EncID = " + ete.encodingID;
string unable =
"unable to validate format number for subtable - ";
v.Warning(T.cmap_ValidFormat,
W._TEST_W_OtherErrorsInTable, m_tag,
unable + sDetails);
bAllFormatsValid = false;
}
}
if (bAllFormatsValid)
{
v.Pass(T.cmap_ValidFormat,
P.cmap_P_SubtableValidFormat, m_tag);
}
}
// Assuming maxp is present, get the number of glyphs from maxp,
// and for each subtable, run its validate routine.
if (v.PerformTest(T.cmap_SubtableInternalFormat))
{
if (fontOwner.GetTable("maxp") == null)
{
string cant =
"can't check subtable internal formats - " +
"maxp table inaccessible";
v.Warning(T.cmap_SubtableInternalFormat,
W._TEST_W_ErrorInAnotherTable, m_tag,
cant );
}
else
{
for (uint i=0; i<NumberOfEncodingTables; i++)
{
bool bInternalFormatOk = true;
EncodingTableEntry ete = GetEncodingTableEntry(i);
Subtable st = GetSubtable(ete);
if (st != null)
{
ushort numGlyphs = fontOwner.GetMaxpNumGlyphs();
string sIdentity = "PlatID = " + ete.platformID +
", EncID = " + ete.encodingID + ", Fmt = " +
st.format;
ISubtableValidate valSubtable =
(ISubtableValidate)st;
bInternalFormatOk = valSubtable.Validate(v, this,
numGlyphs,
sIdentity);
bRet &= bInternalFormatOk;
if (bInternalFormatOk)
{
v.Pass(T.cmap_SubtableInternalFormat,
P.cmap_P_InternalFormat, m_tag,
sIdentity);
}
}
else
{
string sDetails = "PlatID = " + ete.platformID +
", EncID = " + ete.encodingID;
v.Warning(T.cmap_SubtableInternalFormat,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate internal format " +
"for subtable - "
+ sDetails);
}
}
}
}
// Pass if there is at least one subtable with platformID == 1 and
// one subtable with platformID == 3.
// Warn if either is missing.
if (v.PerformTest(T.cmap_AppleMSSupport))
{
bool bFoundApple = false;
bool bFoundMS = false;
for (uint i=0; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
if (ete.platformID == 1)
{
bFoundApple = true;
}
else if (ete.platformID == 3)
{
bFoundMS = true;
}
}
if (bFoundApple && bFoundMS)
{
v.Pass(T.cmap_AppleMSSupport, P.cmap_P_AppleMSSupport,
m_tag);
}
else if (!bFoundApple)
{
v.Warning(T.cmap_AppleMSSupport, W.cmap_W_AppleMSSupport_A,
m_tag);
}
else if (!bFoundMS)
{
v.Warning(T.cmap_AppleMSSupport, W.cmap_W_AppleMSSupport_M,
m_tag);
}
}
// Find encoding table with platformID==1, encodingID==0
// i.e., Macintosh. Make sure that the Apple Logo, code point 240,
// is mapped to glyphID 0, a legal requirement for Microsoft fonts
// developed for use on Apple platforms.
if (v.PerformTest(T.cmap_AppleLogo))
{
EncodingTableEntry ete = GetEncodingTableEntry(1,0);
if (ete != null)
{
Subtable st = GetSubtable(ete);
if (st != null)
{
byte[] charbuf = new byte[2];
charbuf[0] = 240;
charbuf[1] = 0;
uint glyph = st.MapCharToGlyph(charbuf, 0);
if (glyph == 0)
{
v.Pass(T.cmap_AppleLogo, P.cmap_P_AppleLogo, m_tag);
}
else
{
v.Warning(T.cmap_AppleLogo, W.cmap_W_AppleLogo,
m_tag);
}
}
else
{
string sDetails = "PlatID = " + ete.platformID +
", EncID = " + ete.encodingID;
string unable =
"unable to validate apple logo for subtable - ";
v.Warning(T.cmap_AppleLogo,
W._TEST_W_OtherErrorsInTable, m_tag,
unable + sDetails);
}
}
else
{
v.Warning(T.cmap_AppleLogo, W.cmap_W_AppleLogo_NoMap,
m_tag);
}
}
// Euro symbol.
// Unless there is a Microsoft Symbol encoding cmap (3,0):
// * Make sure that any apple cmap(1,0) contains a glyph U+00db
// * Make sure that any Microsoft Unicode cmap (3,1) contains
// a glyph U+20AC.
if (v.PerformTest(T.cmap_EuroGlyph))
{
EncodingTableEntry eteSym = GetEncodingTableEntry(3,0);
if (eteSym == null)
{
EncodingTableEntry eteMac = GetEncodingTableEntry(1,0);
if (eteMac != null)
{
Subtable st = GetSubtable(eteMac);
if (st != null)
{
byte[] charbuf = new byte[2];
charbuf[0] = 0xdb;
charbuf[1] = 0;
uint glyph = st.MapCharToGlyph(charbuf, 0);
if (glyph != 0)
{
v.Pass(T.cmap_EuroGlyph,
P.cmap_P_EuroGlyph_Mac, m_tag);
}
else
{
v.Warning(T.cmap_EuroGlyph,
W.cmap_W_EuroGlyph_Mac, m_tag);
}
}
else
{
string sDetails = "PlatID = " + eteMac.platformID +
", EncID = " + eteMac.encodingID;
string unable =
"unable to validate if euro glyph " +
"is present for subtable - ";
v.Warning(T.cmap_EuroGlyph,
W._TEST_W_OtherErrorsInTable, m_tag,
unable + sDetails);
}
}
EncodingTableEntry eteUni = GetEncodingTableEntry(3,1);
if (eteUni != null)
{
Subtable st = GetSubtable(eteUni);
if (st != null)
{
byte[] charbuf = new byte[2];
charbuf[0] = 0xac;
charbuf[1] = 0x20;
uint glyph = st.MapCharToGlyph(charbuf, 0);
if (glyph != 0)
{
v.Pass(T.cmap_EuroGlyph,
P.cmap_P_EuroGlyph_Uni, m_tag);
}
else
{
v.Warning(T.cmap_EuroGlyph,
W.cmap_W_EuroGlyph_Uni, m_tag);
}
}
else
{
string sDetails = "PlatID = " + eteMac.platformID +
", EncID = " + eteMac.encodingID;
string unable = "unable to validate if euro glyph" +
" is present for subtable - ";
v.Warning(T.cmap_EuroGlyph,
W._TEST_W_OtherErrorsInTable, m_tag,
unable + sDetails);
}
}
}
}
// Make sure that no glyphs, other than "fi" and "fl" ligatures,
// are mapped from the "private use area", that is,
// 0xE000 - 0xF8FF. The above ligatures may only be a the
// prescribed places.
//
// Checks that 0xf001 and 0xfb01 map to the same place, and
// Checks that 0xf002 and 0xfb02 map to the same place.
//
// Only warn if a problem.
if (v.PerformTest(T.cmap_PrivateUse))
{
EncodingTableEntry eteUni = GetEncodingTableEntry(3,1);
if (eteUni != null)
{
Subtable st = GetSubtable(eteUni);
if (st != null)
{
bool bFoundGlyph = false;
bool bFoundLigChar = false;
byte[] charbuf = new byte[2];
for (char c='\xe000'; c<'\xf8ff'; c++)
{
uint glyph = fontOwner.FastMapUnicodeToGlyphID(c);
if (glyph != 0)
{
if (c == '\xf001')
{
// check to see if this is the 'fi' ligature
uint glyph2 = fontOwner.
FastMapUnicodeToGlyphID('\xfb01');
if (glyph == glyph2)
{
bFoundLigChar = true;
}
else
{
bFoundGlyph = true;
break;
}
}
else if (c == '\xf002')
{
// check to see if this is the 'fl' ligature
uint glyph2 = fontOwner.
FastMapUnicodeToGlyphID('\xfb02');
if (glyph == glyph2)
{
bFoundLigChar = true;
}
else
{
bFoundGlyph = true;
break;
}
}
else
{
bFoundGlyph = true;
break;
}
}
}
if (bFoundGlyph)
{
v.Warning(T.cmap_PrivateUse,
W.cmap_W_UnicodePrivateUse, m_tag);
}
else if (bFoundLigChar)
{
v.Pass(T.cmap_PrivateUse,
P.cmap_P_UnicodePrivateUse_lig, m_tag);
}
else
{
v.Pass(T.cmap_PrivateUse,
P.cmap_P_UnicodePrivateUse, m_tag);
}
}
else
{
string sDetails = "PlatID = " + eteUni.platformID +
", EncID = " + eteUni.encodingID;
v.Warning(T.cmap_PrivateUse,
W._TEST_W_OtherErrorsInTable, m_tag,
"unable to validate Private Use Area " +
"for subtable - "
+ sDetails);
}
}
}
// Check that subtable language field is zero if not mac platform
if (v.PerformTest(T.cmap_NonMacSubtableLanguage))
{
bool bOk = true;
for (uint i=0; i<NumberOfEncodingTables; i++)
{
EncodingTableEntry ete = GetEncodingTableEntry(i);
Subtable st = GetSubtable(ete);
if (st != null)
{
if (ete.platformID != 1) // not mac
{
if (st.language != 0)
{
string sDetails = "PlatID = " +
ete.platformID + ", EncID = " +
ete.encodingID +
", Language = " + st.language;
v.Error(T.cmap_SubtableLanguage,
E.cmap_E_NonMacSubtableLanguage,
m_tag, sDetails);
bOk = false;
}
}
}
}
if (bOk)
{
v.Pass(T.cmap_SubtableLanguage,
P.cmap_P_NonMacSubtableLanguage, m_tag);
}
}
return bRet;
}
/************************
* public methods
*/
public bool Validate(Validator v, OTFontVal fontOwner)
{
bool bRet = true;
if (v.PerformTest(T.PCLT_TableLength))
{
if (GetLength() == 54)
{
v.Pass(T.PCLT_TableLength, P.PCLT_P_TableLength, m_tag);
}
else
{
v.Error(T.PCLT_TableLength, E.PCLT_E_TableLength, m_tag, GetLength().ToString());
bRet = false;
}
}
if (v.PerformTest(T.PCLT_Version))
{
if (Version.GetUint() == 0x00010000)
{
v.Pass(T.PCLT_Version, P.PCLT_P_Version, m_tag);
}
else
{
v.Error(T.PCLT_Version, E.PCLT_E_Version, m_tag, "0x" + Version.GetUint().ToString("x8"));
bRet = false;
}
}
if (v.PerformTest(T.PCLT_Pitch))
{
Table_hmtx hmtxTable = (Table_hmtx)fontOwner.GetTable("hmtx");
Table_maxp maxpTable = (Table_maxp)fontOwner.GetTable("maxp");
if (hmtxTable == null)
{
v.Error(T.PCLT_Pitch, E._TEST_E_TableMissing, m_tag, "hmtx");
bRet = false;
}
else if (maxpTable == null)
{
v.Error(T.PCLT_Pitch, E._TEST_E_TableMissing, m_tag, "maxp");
bRet = false;
}
else
{
uint iSpaceGlyph = fontOwner.FastMapUnicodeToGlyphID(' ');
if (iSpaceGlyph < fontOwner.GetMaxpNumGlyphs())
{
Table_hmtx.longHorMetric hmSpace = hmtxTable.GetOrMakeHMetric(iSpaceGlyph, fontOwner);
if (hmSpace != null)
{
if (Pitch == hmSpace.advanceWidth)
{
v.Pass(T.PCLT_Pitch, P.PCLT_P_Pitch, m_tag);
}
else
{
string s = "actual = " + Pitch + ", expected = " + hmSpace.advanceWidth;
v.Error(T.PCLT_Pitch, E.PCLT_E_Pitch, m_tag, s);
bRet = false;
}
}
}
else
{
// JJF Figure out what to do
v.Warning(T.PCLT_Pitch, W._TEST_W_ErrorInAnotherTable, m_tag, "can't validate Pitch field, error getting the space glyph");
bRet = false;
}
}
}
if (v.PerformTest(T.PCLT_Style))
{
ushort Posture = (ushort)(Style & 0x0003);
ushort Width = (ushort)((Style >> 2) & 0x0007);
ushort Structure = (ushort)((Style >> 5) & 0x001f);
ushort Reserved = (ushort)(Style >> 10);
bool bBitsOk = true;
if (Posture == 3)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Posture, m_tag, "0x" + Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (Width == 5)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Width, m_tag, "0x" + Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (Structure > 17)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Structure, m_tag, "0x" + Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (Reserved != 0)
{
v.Error(T.PCLT_Style, E.PCLT_E_Style_Reserved, m_tag, "0x" + Style.ToString("x4"));
bBitsOk = false;
bRet = false;
}
if (bBitsOk)
{
v.Pass(T.PCLT_Style, P.PCLT_P_Style, m_tag);
}
}
if (v.PerformTest(T.PCLT_StrokeWeight))
{
if (StrokeWeight >= -7 && StrokeWeight <= 7)
{
v.Pass(T.PCLT_StrokeWeight, P.PCLT_P_StrokeWeight, m_tag, StrokeWeight.ToString());
}
else
{
v.Error(T.PCLT_StrokeWeight, E.PCLT_E_StrokeWeight, m_tag, StrokeWeight.ToString());
bRet = false;
}
}
if (v.PerformTest(T.PCLT_WidthType))
{
if (WidthType >= -5 && WidthType <= 5)
{
v.Pass(T.PCLT_WidthType, P.PCLT_P_WidthType, m_tag, WidthType.ToString());
}
else
{
v.Error(T.PCLT_WidthType, E.PCLT_E_WidthType, m_tag, WidthType.ToString());
bRet = false;
}
}
if (v.PerformTest(T.PCLT_SerifStyle))
{
uint bot6 = (uint)SerifStyle & 0x3f;
uint top2 = (uint)SerifStyle >> 6;
bool bBitsOk = true;
if (bot6 > 12)
{
v.Error(T.PCLT_SerifStyle, E.PCLT_E_Bottom6, m_tag, "0x" + SerifStyle.ToString("x2"));
bBitsOk = false;
bRet = false;
}
if (top2 == 0 || top2 == 3)
{
v.Error(T.PCLT_SerifStyle, E.PCLT_E_Top2, m_tag);
bBitsOk = false;
bRet = false;
}
if (bBitsOk)
{
v.Pass(T.PCLT_SerifStyle, P.PCLT_P_SerifStyle, m_tag);
}
}
if (v.PerformTest(T.PCLT_Reserved))
{
if (Reserved == 0)
{
v.Pass(T.PCLT_Reserved, P.PCLT_P_Reserved, m_tag);
}
else
{
v.Error(T.PCLT_Reserved, E.PCLT_E_Reserved, m_tag, Reserved.ToString());
bRet = false;
}
}
return(bRet);
}
