from __future__ import annotations import copy import math import os import pathlib import platform from ctypes import ( HRESULT, POINTER, Array, Structure, byref, c_int, c_int16, c_int32, c_ubyte, c_uint8, c_uint16, c_uint32, c_uint64, c_void_p, c_wchar, c_wchar_p, cast, create_unicode_buffer, pointer, sizeof, windll, ) from ctypes.wintypes import BOOL, FLOAT, HDC, UINT, WCHAR from typing import TYPE_CHECKING, BinaryIO, NoReturn import pyglet from pyglet.font import base from pyglet.image import ImageData from pyglet.image.codecs.wic import GUID_WICPixelFormat32bppPBGRA, IWICBitmap, WICDecoder from pyglet.libs.win32 import LOGFONTW, c_void, com from pyglet.libs.win32 import _kernel32 as kernel32 from pyglet.libs.win32.constants import ( LOCALE_NAME_MAX_LENGTH, WINDOWS_8_1_OR_GREATER, WINDOWS_10_CREATORS_UPDATE_OR_GREATER, ) from pyglet.util import debug_print if TYPE_CHECKING: from pyglet.font.base import Glyph try: dwrite = "dwrite" # System32 and SysWOW64 folders are opposite perception in Windows x64. # System32 = x64 dll's | SysWOW64 = x86 dlls # By default ctypes only seems to look in system32 regardless of Python architecture, which has x64 dlls. if platform.architecture()[0] == "32bit": if platform.machine().endswith("64"): # Machine is 64 bit, Python is 32 bit. dwrite = os.path.join(os.environ["WINDIR"], "SysWOW64", "dwrite.dll") dwrite_lib = windll.LoadLibrary(dwrite) except OSError: # Doesn't exist? Should stop import of library. msg = "DirectWrite Not Found" raise ImportError(msg) # noqa: B904 _debug_font = pyglet.options["debug_font"] _debug_print = debug_print("debug_font") def DWRITE_MAKE_OPENTYPE_TAG(a: str, b: str, c: str, d: str) -> int: return ord(d) << 24 | ord(c) << 16 | ord(b) << 8 | ord(a) DWRITE_FACTORY_TYPE = UINT DWRITE_FACTORY_TYPE_SHARED = 0 DWRITE_FACTORY_TYPE_ISOLATED = 1 DWRITE_FONT_WEIGHT = UINT DWRITE_FONT_WEIGHT_THIN = 100 DWRITE_FONT_WEIGHT_EXTRA_LIGHT = 200 DWRITE_FONT_WEIGHT_ULTRA_LIGHT = 200 DWRITE_FONT_WEIGHT_LIGHT = 300 DWRITE_FONT_WEIGHT_SEMI_LIGHT = 350 DWRITE_FONT_WEIGHT_NORMAL = 400 DWRITE_FONT_WEIGHT_REGULAR = 400 DWRITE_FONT_WEIGHT_MEDIUM = 500 DWRITE_FONT_WEIGHT_DEMI_BOLD = 600 DWRITE_FONT_WEIGHT_SEMI_BOLD = 600 DWRITE_FONT_WEIGHT_BOLD = 700 DWRITE_FONT_WEIGHT_EXTRA_BOLD = 800 DWRITE_FONT_WEIGHT_ULTRA_BOLD = 800 DWRITE_FONT_WEIGHT_BLACK = 900 DWRITE_FONT_WEIGHT_HEAVY = 900 DWRITE_FONT_WEIGHT_EXTRA_BLACK = 950 name_to_weight = { "thin": DWRITE_FONT_WEIGHT_THIN, "extralight": DWRITE_FONT_WEIGHT_EXTRA_LIGHT, "ultralight": DWRITE_FONT_WEIGHT_ULTRA_LIGHT, "light": DWRITE_FONT_WEIGHT_LIGHT, "semilight": DWRITE_FONT_WEIGHT_SEMI_LIGHT, "normal": DWRITE_FONT_WEIGHT_NORMAL, "regular": DWRITE_FONT_WEIGHT_REGULAR, "medium": DWRITE_FONT_WEIGHT_MEDIUM, "demibold": DWRITE_FONT_WEIGHT_DEMI_BOLD, "semibold": DWRITE_FONT_WEIGHT_SEMI_BOLD, "bold": DWRITE_FONT_WEIGHT_BOLD, "extrabold": DWRITE_FONT_WEIGHT_EXTRA_BOLD, "ultrabold": DWRITE_FONT_WEIGHT_ULTRA_BOLD, "black": DWRITE_FONT_WEIGHT_BLACK, "heavy": DWRITE_FONT_WEIGHT_HEAVY, "extrablack": DWRITE_FONT_WEIGHT_EXTRA_BLACK, } DWRITE_FONT_STRETCH = UINT DWRITE_FONT_STRETCH_UNDEFINED = 0 DWRITE_FONT_STRETCH_ULTRA_CONDENSED = 1 DWRITE_FONT_STRETCH_EXTRA_CONDENSED = 2 DWRITE_FONT_STRETCH_CONDENSED = 3 DWRITE_FONT_STRETCH_SEMI_CONDENSED = 4 DWRITE_FONT_STRETCH_NORMAL = 5 DWRITE_FONT_STRETCH_MEDIUM = 5 DWRITE_FONT_STRETCH_SEMI_EXPANDED = 6 DWRITE_FONT_STRETCH_EXPANDED = 7 DWRITE_FONT_STRETCH_EXTRA_EXPANDED = 8 name_to_stretch = { "undefined": DWRITE_FONT_STRETCH_UNDEFINED, "ultracondensed": DWRITE_FONT_STRETCH_ULTRA_CONDENSED, "extracondensed": DWRITE_FONT_STRETCH_EXTRA_CONDENSED, "condensed": DWRITE_FONT_STRETCH_CONDENSED, "semicondensed": DWRITE_FONT_STRETCH_SEMI_CONDENSED, "normal": DWRITE_FONT_STRETCH_NORMAL, "medium": DWRITE_FONT_STRETCH_MEDIUM, "semiexpanded": DWRITE_FONT_STRETCH_SEMI_EXPANDED, "expanded": DWRITE_FONT_STRETCH_EXPANDED, "extraexpanded": DWRITE_FONT_STRETCH_EXTRA_EXPANDED, "narrow": DWRITE_FONT_STRETCH_CONDENSED, } DWRITE_GLYPH_IMAGE_FORMATS = c_int DWRITE_GLYPH_IMAGE_FORMATS_NONE = 0x00000000 DWRITE_GLYPH_IMAGE_FORMATS_TRUETYPE = 0x00000001 DWRITE_GLYPH_IMAGE_FORMATS_CFF = 0x00000002 DWRITE_GLYPH_IMAGE_FORMATS_COLR = 0x00000004 DWRITE_GLYPH_IMAGE_FORMATS_SVG = 0x00000008 DWRITE_GLYPH_IMAGE_FORMATS_PNG = 0x00000010 DWRITE_GLYPH_IMAGE_FORMATS_JPEG = 0x00000020 DWRITE_GLYPH_IMAGE_FORMATS_TIFF = 0x00000040 DWRITE_GLYPH_IMAGE_FORMATS_PREMULTIPLIED_B8G8R8A8 = 0x00000080 DWRITE_MEASURING_MODE = UINT DWRITE_MEASURING_MODE_NATURAL = 0 DWRITE_MEASURING_MODE_GDI_CLASSIC = 1 DWRITE_MEASURING_MODE_GDI_NATURAL = 2 DWRITE_GLYPH_IMAGE_FORMATS_ALL = DWRITE_GLYPH_IMAGE_FORMATS_TRUETYPE | \ DWRITE_GLYPH_IMAGE_FORMATS_CFF | \ DWRITE_GLYPH_IMAGE_FORMATS_COLR | \ DWRITE_GLYPH_IMAGE_FORMATS_SVG | \ DWRITE_GLYPH_IMAGE_FORMATS_PNG | \ DWRITE_GLYPH_IMAGE_FORMATS_JPEG | \ DWRITE_GLYPH_IMAGE_FORMATS_TIFF | \ DWRITE_GLYPH_IMAGE_FORMATS_PREMULTIPLIED_B8G8R8A8 DWRITE_FONT_STYLE = UINT DWRITE_FONT_STYLE_NORMAL = 0 DWRITE_FONT_STYLE_OBLIQUE = 1 DWRITE_FONT_STYLE_ITALIC = 2 name_to_style = { "normal": DWRITE_FONT_STYLE_NORMAL, "oblique": DWRITE_FONT_STYLE_OBLIQUE, "italic": DWRITE_FONT_STYLE_ITALIC, } UINT8 = c_uint8 UINT16 = c_uint16 INT16 = c_int16 INT32 = c_int32 UINT32 = c_uint32 UINT64 = c_uint64 DWRITE_INFORMATIONAL_STRING_ID = UINT32 DWRITE_INFORMATIONAL_STRING_NONE = 0 DWRITE_INFORMATIONAL_STRING_COPYRIGHT_NOTICE = 1 DWRITE_INFORMATIONAL_STRING_VERSION_STRINGS = 2 DWRITE_INFORMATIONAL_STRING_TRADEMARK = 3 DWRITE_INFORMATIONAL_STRING_MANUFACTURER = 4 DWRITE_INFORMATIONAL_STRING_DESIGNER = 5 DWRITE_INFORMATIONAL_STRING_DESIGNER_URL = 6 DWRITE_INFORMATIONAL_STRING_DESCRIPTION = 7 DWRITE_INFORMATIONAL_STRING_FONT_VENDOR_URL = 8 DWRITE_INFORMATIONAL_STRING_LICENSE_DESCRIPTION = 9 DWRITE_INFORMATIONAL_STRING_LICENSE_INFO_URL = 10 DWRITE_INFORMATIONAL_STRING_WIN32_FAMILY_NAMES = 11 DWRITE_INFORMATIONAL_STRING_WIN32_SUBFAMILY_NAMES = 12 DWRITE_INFORMATIONAL_STRING_TYPOGRAPHIC_FAMILY_NAMES = 13 DWRITE_INFORMATIONAL_STRING_TYPOGRAPHIC_SUBFAMILY_NAMES = 14 DWRITE_INFORMATIONAL_STRING_SAMPLE_TEXT = 15 DWRITE_INFORMATIONAL_STRING_FULL_NAME = 16 DWRITE_INFORMATIONAL_STRING_POSTSCRIPT_NAME = 17 DWRITE_INFORMATIONAL_STRING_POSTSCRIPT_CID_NAME = 18 DWRITE_INFORMATIONAL_STRING_WEIGHT_STRETCH_STYLE_FAMILY_NAME = 19 DWRITE_INFORMATIONAL_STRING_DESIGN_SCRIPT_LANGUAGE_TAG = 20 DWRITE_INFORMATIONAL_STRING_SUPPORTED_SCRIPT_LANGUAGE_TAG = 21 DWRITE_INFORMATIONAL_STRING_PREFERRED_FAMILY_NAMES = 22 DWRITE_INFORMATIONAL_STRING_PREFERRED_SUBFAMILY_NAMES = 23 DWRITE_INFORMATIONAL_STRING_WWS_FAMILY_NAME = 24 class D2D_POINT_2F(Structure): _fields_ = ( ("x", FLOAT), ("y", FLOAT), ) class D2D1_RECT_F(Structure): _fields_ = ( ("left", FLOAT), ("top", FLOAT), ("right", FLOAT), ("bottom", FLOAT), ) class D2D1_COLOR_F(Structure): _fields_ = ( ("r", FLOAT), ("g", FLOAT), ("b", FLOAT), ("a", FLOAT), ) class DWRITE_TEXT_METRICS(Structure): _fields_ = ( ("left", FLOAT), ("top", FLOAT), ("width", FLOAT), ("widthIncludingTrailingWhitespace", FLOAT), ("height", FLOAT), ("layoutWidth", FLOAT), ("layoutHeight", FLOAT), ("maxBidiReorderingDepth", UINT32), ("lineCount", UINT32), ) class DWRITE_FONT_METRICS(Structure): _fields_ = ( ("designUnitsPerEm", UINT16), ("ascent", UINT16), ("descent", UINT16), ("lineGap", INT16), ("capHeight", UINT16), ("xHeight", UINT16), ("underlinePosition", INT16), ("underlineThickness", UINT16), ("strikethroughPosition", INT16), ("strikethroughThickness", UINT16), ) class DWRITE_GLYPH_METRICS(Structure): _fields_ = ( ("leftSideBearing", INT32), ("advanceWidth", UINT32), ("rightSideBearing", INT32), ("topSideBearing", INT32), ("advanceHeight", UINT32), ("bottomSideBearing", INT32), ("verticalOriginY", INT32), ) class DWRITE_GLYPH_OFFSET(Structure): _fields_ = ( ("advanceOffset", FLOAT), ("ascenderOffset", FLOAT), ) def __repr__(self) -> str: return f"DWRITE_GLYPH_OFFSET({self.advanceOffset}, {self.ascenderOffset})" class DWRITE_CLUSTER_METRICS(Structure): _fields_ = ( ("width", FLOAT), ("length", UINT16), ("canWrapLineAfter", UINT16, 1), ("isWhitespace", UINT16, 1), ("isNewline", UINT16, 1), ("isSoftHyphen", UINT16, 1), ("isRightToLeft", UINT16, 1), ("padding", UINT16, 11), ) class IDWriteFontFileStream(com.IUnknown): _methods_ = [ ("ReadFileFragment", com.STDMETHOD(POINTER(c_void_p), UINT64, UINT64, POINTER(c_void_p))), ("ReleaseFileFragment", com.STDMETHOD(c_void_p)), ("GetFileSize", com.STDMETHOD(POINTER(UINT64))), ("GetLastWriteTime", com.STDMETHOD(POINTER(UINT64))), ] class IDWriteFontFileLoader_LI(com.IUnknown): # Local implementation use only. _methods_ = [ ("CreateStreamFromKey", com.STDMETHOD(c_void_p, UINT32, POINTER(POINTER(IDWriteFontFileStream)))), ] class IDWriteFontFileLoader(com.pIUnknown): _methods_ = [ ("CreateStreamFromKey", com.STDMETHOD(c_void_p, UINT32, POINTER(POINTER(IDWriteFontFileStream)))), ] class IDWriteLocalFontFileLoader(IDWriteFontFileLoader, com.pIUnknown): _methods_ = [ ("GetFilePathLengthFromKey", com.STDMETHOD(c_void_p, UINT32, POINTER(UINT32))), ("GetFilePathFromKey", com.STDMETHOD(c_void_p, UINT32, c_wchar_p, UINT32)), ("GetLastWriteTimeFromKey", com.STDMETHOD()), ] IID_IDWriteLocalFontFileLoader = com.GUID(0xb2d9f3ec, 0xc9fe, 0x4a11, 0xa2, 0xec, 0xd8, 0x62, 0x08, 0xf7, 0xc0, 0xa2) class IDWriteFontFile(com.pIUnknown): _methods_ = [ ("GetReferenceKey", com.STDMETHOD(POINTER(c_void_p), POINTER(UINT32))), ("GetLoader", com.STDMETHOD(POINTER(IDWriteFontFileLoader))), ("Analyze", com.STDMETHOD()), ] class IDWriteFontFace(com.pIUnknown): _methods_ = [ ("GetType", com.STDMETHOD()), ("GetFiles", com.STDMETHOD(POINTER(UINT32), POINTER(IDWriteFontFile))), ("GetIndex", com.STDMETHOD()), ("GetSimulations", com.STDMETHOD()), ("IsSymbolFont", com.STDMETHOD()), ("GetMetrics", com.METHOD(c_void, POINTER(DWRITE_FONT_METRICS))), ("GetGlyphCount", com.METHOD(UINT16)), ("GetDesignGlyphMetrics", com.STDMETHOD(POINTER(UINT16), UINT32, POINTER(DWRITE_GLYPH_METRICS), BOOL)), ("GetGlyphIndices", com.STDMETHOD(POINTER(UINT32), UINT32, POINTER(UINT16))), ("TryGetFontTable", com.STDMETHOD(UINT32, c_void_p, POINTER(UINT32), c_void_p, POINTER(BOOL))), ("ReleaseFontTable", com.METHOD(c_void)), ("GetGlyphRunOutline", com.STDMETHOD()), ("GetRecommendedRenderingMode", com.STDMETHOD()), ("GetGdiCompatibleMetrics", com.STDMETHOD()), ("GetGdiCompatibleGlyphMetrics", com.STDMETHOD()), ] IID_IDWriteFontFace1 = com.GUID(0xa71efdb4, 0x9fdb, 0x4838, 0xad, 0x90, 0xcf, 0xc3, 0xbe, 0x8c, 0x3d, 0xaf) class IDWriteFontFace1(IDWriteFontFace, com.pIUnknown): _methods_ = [ ("GetMetric1", com.STDMETHOD()), ("GetGdiCompatibleMetrics1", com.STDMETHOD()), ("GetCaretMetrics", com.STDMETHOD()), ("GetUnicodeRanges", com.STDMETHOD()), ("IsMonospacedFont", com.STDMETHOD()), ("GetDesignGlyphAdvances", com.METHOD(c_void, POINTER(DWRITE_FONT_METRICS))), ("GetGdiCompatibleGlyphAdvances", com.STDMETHOD()), ("GetKerningPairAdjustments", com.STDMETHOD(UINT32, POINTER(UINT16), POINTER(INT32))), ("HasKerningPairs", com.METHOD(BOOL)), ("GetRecommendedRenderingMode1", com.STDMETHOD()), ("GetVerticalGlyphVariants", com.STDMETHOD()), ("HasVerticalGlyphVariants", com.STDMETHOD()), ] class DWRITE_GLYPH_RUN(Structure): _fields_ = ( ("fontFace", IDWriteFontFace), ("fontEmSize", FLOAT), ("glyphCount", UINT32), ("glyphIndices", POINTER(UINT16)), ("glyphAdvances", POINTER(FLOAT)), ("glyphOffsets", POINTER(DWRITE_GLYPH_OFFSET)), ("isSideways", BOOL), ("bidiLevel", UINT32), ) DWRITE_SCRIPT_SHAPES = UINT DWRITE_SCRIPT_SHAPES_DEFAULT = 0 class DWRITE_SCRIPT_ANALYSIS(Structure): _fields_ = ( ("script", UINT16), ("shapes", DWRITE_SCRIPT_SHAPES), ) DWRITE_FONT_FEATURE_TAG = UINT class DWRITE_FONT_FEATURE(Structure): _fields_ = ( ("nameTag", DWRITE_FONT_FEATURE_TAG), ("parameter", UINT32), ) class DWRITE_TYPOGRAPHIC_FEATURES(Structure): _fields_ = ( ("features", POINTER(DWRITE_FONT_FEATURE)), ("featureCount", UINT32), ) class DWRITE_SHAPING_TEXT_PROPERTIES(Structure): _fields_ = ( ("isShapedAlone", UINT16, 1), ("reserved1", UINT16, 1), ("canBreakShapingAfter", UINT16, 1), ("reserved", UINT16, 13), ) def __repr__(self) -> str: return f"DWRITE_SHAPING_TEXT_PROPERTIES({self.isShapedAlone}, {self.reserved1}, {self.canBreakShapingAfter})" class DWRITE_SHAPING_GLYPH_PROPERTIES(Structure): _fields_ = ( ("justification", UINT16, 4), ("isClusterStart", UINT16, 1), ("isDiacritic", UINT16, 1), ("isZeroWidthSpace", UINT16, 1), ("reserved", UINT16, 9), ) DWRITE_READING_DIRECTION = UINT DWRITE_READING_DIRECTION_LEFT_TO_RIGHT = 0 class IDWriteTextAnalysisSource(com.IUnknown): _methods_ = [ ("GetTextAtPosition", com.STDMETHOD(UINT32, POINTER(c_wchar_p), POINTER(UINT32))), ("GetTextBeforePosition", com.STDMETHOD(UINT32, POINTER(c_wchar_p), POINTER(UINT32))), ("GetParagraphReadingDirection", com.METHOD(DWRITE_READING_DIRECTION)), ("GetLocaleName", com.STDMETHOD(UINT32, POINTER(UINT32), POINTER(c_wchar_p))), ("GetNumberSubstitution", com.STDMETHOD(UINT32, POINTER(UINT32), c_void_p)), ] class IDWriteTextAnalysisSink(com.IUnknown): _methods_ = [ ("SetScriptAnalysis", com.STDMETHOD(UINT32, UINT32, POINTER(DWRITE_SCRIPT_ANALYSIS))), ("SetLineBreakpoints", com.STDMETHOD(UINT32, UINT32, c_void_p)), ("SetBidiLevel", com.STDMETHOD(UINT32, UINT32, UINT8, UINT8)), ("SetNumberSubstitution", com.STDMETHOD(UINT32, UINT32, c_void_p)), ] class Run: def __init__(self) -> None: self.text_start = 0 self.text_length = 0 self.glyph_start = 0 self.glyph_count = 0 self.script = DWRITE_SCRIPT_ANALYSIS() self.bidi = 0 self.isNumberSubstituted = False self.isSideways = False self.next_run = None def ContainsTextPosition(self, textPosition: int) -> bool: return textPosition >= self.text_start and textPosition < self.text_start + self.text_length class TextAnalysis(com.COMObject): _interfaces_ = [IDWriteTextAnalysisSource, IDWriteTextAnalysisSink] def __init__(self) -> None: super().__init__() self._textstart = 0 self._textlength = 0 self._glyphstart = 0 self._glyphcount = 0 self._ptrs = [] self._script = None self._bidi = 0 # self._sideways = False # noqa: ERA001 def GenerateResults(self, analyzer: IDWriteTextAnalyzer, text: c_wchar_p, text_length: int): self._text = text self._textstart = 0 self._textlength = text_length self._glyphstart = 0 self._glyphcount = 0 self._ptrs.clear() self._start_run = Run() self._start_run.text_length = text_length self._current_run = self._start_run analyzer.AnalyzeScript(self, 0, text_length, self) def SetScriptAnalysis(self, textPosition: UINT32, textLength: UINT32, scriptAnalysis: POINTER(DWRITE_SCRIPT_ANALYSIS)) -> int: # textPosition - The index of the first character in the string that the result applies to # textLength - How many characters of the string from the index that the result applies to # scriptAnalysis - The analysis information for all glyphs starting at position for length. self.SetCurrentRun(textPosition) self.SplitCurrentRun(textPosition) while textLength > 0: run, textLength = self.FetchNextRun(textLength) run.script.script = scriptAnalysis[0].script run.script.shapes = scriptAnalysis[0].shapes self._script = run.script return 0 # return 0x80004001 def GetTextBeforePosition(self, textPosition: UINT32, textString: POINTER(POINTER(WCHAR)), textLength: POINTER(UINT32)) -> NoReturn: msg = "Currently not implemented." raise Exception(msg) def GetTextAtPosition(self, textPosition: UINT32, textString: c_wchar_p, textLength: POINTER(UINT32)) -> int: # This method will retrieve a substring of the text in this layout # to be used in an analysis step. # Arguments: # textPosition - The index of the first character of the text to retrieve. # textString - The pointer to the first character of text at the index requested. # textLength - The characters available at/after the textString pointer (string length). if textPosition >= self._textlength: self._no_ptr = c_wchar_p(None) textString[0] = self._no_ptr textLength[0] = 0 else: ptr = c_wchar_p(self._text[textPosition:]) self._ptrs.append(ptr) textString[0] = ptr textLength[0] = self._textlength - textPosition return 0 def GetParagraphReadingDirection(self) -> int: return 0 def GetLocaleName(self, textPosition: UINT32, textLength: POINTER(UINT32), localeName: POINTER(POINTER(WCHAR))) -> int: self.__local_name = c_wchar_p("") # TODO: Add more locales. localeName[0] = self.__local_name textLength[0] = self._textlength - textPosition return 0 def GetNumberSubstitution(self) -> int: return 0 def SetCurrentRun(self, textPosition: UINT32) -> None: if self._current_run and self._current_run.ContainsTextPosition(textPosition): return def SplitCurrentRun(self, textPosition: UINT32) -> None: if not self._current_run: return if textPosition <= self._current_run.text_start: # Already first start of the run. return new_run = copy.copy(self._current_run) new_run.next_run = self._current_run.next_run self._current_run.next_run = new_run splitPoint = textPosition - self._current_run.text_start new_run.text_start += splitPoint new_run.text_length -= splitPoint self._current_run.text_length = splitPoint self._current_run = new_run def FetchNextRun(self, textLength: UINT32) -> tuple[Run, int]: original_run = self._current_run if (textLength < self._current_run.text_length): self.SplitCurrentRun(self._current_run.text_start + textLength) else: self._current_run = self._current_run.next_run textLength -= original_run.text_length return original_run, textLength class IDWriteTextAnalyzer(com.pIUnknown): _methods_ = [ ("AnalyzeScript", com.STDMETHOD(POINTER(IDWriteTextAnalysisSource), UINT32, UINT32, POINTER(IDWriteTextAnalysisSink))), ("AnalyzeBidi", com.STDMETHOD()), ("AnalyzeNumberSubstitution", com.STDMETHOD()), ("AnalyzeLineBreakpoints", com.STDMETHOD()), ("GetGlyphs", com.STDMETHOD(c_wchar_p, UINT32, IDWriteFontFace, BOOL, BOOL, POINTER(DWRITE_SCRIPT_ANALYSIS), c_wchar_p, c_void_p, POINTER(POINTER(DWRITE_TYPOGRAPHIC_FEATURES)), POINTER(UINT32), UINT32, UINT32, POINTER(UINT16), POINTER(DWRITE_SHAPING_TEXT_PROPERTIES), POINTER(UINT16), POINTER(DWRITE_SHAPING_GLYPH_PROPERTIES), POINTER(UINT32))), ("GetGlyphPlacements", com.STDMETHOD(c_wchar_p, POINTER(UINT16), POINTER(DWRITE_SHAPING_TEXT_PROPERTIES), UINT32, POINTER(UINT16), POINTER(DWRITE_SHAPING_GLYPH_PROPERTIES), UINT32, IDWriteFontFace, FLOAT, BOOL, BOOL, POINTER(DWRITE_SCRIPT_ANALYSIS), c_wchar_p, POINTER(DWRITE_TYPOGRAPHIC_FEATURES), POINTER(UINT32), UINT32, POINTER(FLOAT), POINTER(DWRITE_GLYPH_OFFSET))), ("GetGdiCompatibleGlyphPlacements", com.STDMETHOD()), ] class IDWriteLocalizedStrings(com.pIUnknown): _methods_ = [ ("GetCount", com.METHOD(UINT32)), ("FindLocaleName", com.STDMETHOD(c_wchar_p, POINTER(UINT32), POINTER(BOOL))), ("GetLocaleNameLength", com.STDMETHOD(UINT32, POINTER(UINT32))), ("GetLocaleName", com.STDMETHOD(UINT32, c_wchar_p, UINT32)), ("GetStringLength", com.STDMETHOD(UINT32, POINTER(UINT32))), ("GetString", com.STDMETHOD(UINT32, c_wchar_p, UINT32)), ] class IDWriteFontList(com.pIUnknown): _methods_ = [ ("GetFontCollection", com.STDMETHOD()), ("GetFontCount", com.METHOD(UINT32)), ("GetFont", com.STDMETHOD(UINT32, c_void_p)), # IDWriteFont, use void because of forward ref. ] class IDWriteFontFamily(IDWriteFontList, com.pIUnknown): _methods_ = [ ("GetFamilyNames", com.STDMETHOD(POINTER(IDWriteLocalizedStrings))), ("GetFirstMatchingFont", com.STDMETHOD(DWRITE_FONT_WEIGHT, DWRITE_FONT_STRETCH, DWRITE_FONT_STYLE, c_void_p)), ("GetMatchingFonts", com.STDMETHOD()), ] class IDWriteFontFamily1(IDWriteFontFamily, IDWriteFontList, com.pIUnknown): _methods_ = [ ("GetFontLocality", com.STDMETHOD()), ("GetFont1", com.STDMETHOD()), ("GetFontFaceReference", com.STDMETHOD()), ] class IDWriteFont(com.pIUnknown): _methods_ = [ ("GetFontFamily", com.STDMETHOD(POINTER(IDWriteFontFamily))), ("GetWeight", com.METHOD(DWRITE_FONT_WEIGHT)), ("GetStretch", com.METHOD(DWRITE_FONT_STRETCH)), ("GetStyle", com.METHOD(DWRITE_FONT_STYLE)), ("IsSymbolFont", com.METHOD(BOOL)), ("GetFaceNames", com.STDMETHOD(POINTER(IDWriteLocalizedStrings))), ("GetInformationalStrings", com.STDMETHOD(DWRITE_INFORMATIONAL_STRING_ID, POINTER(IDWriteLocalizedStrings), POINTER(BOOL))), ("GetSimulations", com.STDMETHOD()), ("GetMetrics", com.STDMETHOD()), ("HasCharacter", com.STDMETHOD(UINT32, POINTER(BOOL))), ("CreateFontFace", com.STDMETHOD(POINTER(IDWriteFontFace))), ] class IDWriteFont1(IDWriteFont, com.pIUnknown): _methods_ = [ ("GetMetrics1", com.STDMETHOD()), ("GetPanose", com.STDMETHOD()), ("GetUnicodeRanges", com.STDMETHOD()), ("IsMonospacedFont", com.STDMETHOD()), ] class IDWriteFontCollection(com.pIUnknown): _methods_ = [ ("GetFontFamilyCount", com.METHOD(UINT32)), ("GetFontFamily", com.STDMETHOD(UINT32, POINTER(IDWriteFontFamily))), ("FindFamilyName", com.STDMETHOD(c_wchar_p, POINTER(UINT), POINTER(BOOL))), ("GetFontFromFontFace", com.STDMETHOD()), ] class IDWriteFontCollection1(IDWriteFontCollection, com.pIUnknown): _methods_ = [ ("GetFontSet", com.STDMETHOD()), ("GetFontFamily1", com.STDMETHOD(POINTER(IDWriteFontFamily1))), ] DWRITE_TEXT_ALIGNMENT = UINT DWRITE_TEXT_ALIGNMENT_LEADING = 1 DWRITE_TEXT_ALIGNMENT_TRAILING = 2 DWRITE_TEXT_ALIGNMENT_CENTER = 3 DWRITE_TEXT_ALIGNMENT_JUSTIFIED = 4 class IDWriteGdiInterop(com.pIUnknown): _methods_ = [ ("CreateFontFromLOGFONT", com.STDMETHOD(POINTER(LOGFONTW), POINTER(IDWriteFont))), ("ConvertFontToLOGFONT", com.STDMETHOD()), ("ConvertFontFaceToLOGFONT", com.STDMETHOD()), ("CreateFontFaceFromHdc", com.STDMETHOD(HDC, POINTER(IDWriteFontFace))), ("CreateBitmapRenderTarget", com.STDMETHOD()), ] class IDWriteTextFormat(com.pIUnknown): _methods_ = [ ("SetTextAlignment", com.STDMETHOD(DWRITE_TEXT_ALIGNMENT)), ("SetParagraphAlignment", com.STDMETHOD()), ("SetWordWrapping", com.STDMETHOD()), ("SetReadingDirection", com.STDMETHOD()), ("SetFlowDirection", com.STDMETHOD()), ("SetIncrementalTabStop", com.STDMETHOD()), ("SetTrimming", com.STDMETHOD()), ("SetLineSpacing", com.STDMETHOD()), ("GetTextAlignment", com.STDMETHOD()), ("GetParagraphAlignment", com.STDMETHOD()), ("GetWordWrapping", com.STDMETHOD()), ("GetReadingDirection", com.STDMETHOD()), ("GetFlowDirection", com.STDMETHOD()), ("GetIncrementalTabStop", com.STDMETHOD()), ("GetTrimming", com.STDMETHOD()), ("GetLineSpacing", com.STDMETHOD()), ("GetFontCollection", com.STDMETHOD()), ("GetFontFamilyNameLength", com.STDMETHOD(UINT32, POINTER(UINT32))), ("GetFontFamilyName", com.STDMETHOD(UINT32, c_wchar_p, UINT32)), ("GetFontWeight", com.STDMETHOD()), ("GetFontStyle", com.STDMETHOD()), ("GetFontStretch", com.STDMETHOD()), ("GetFontSize", com.STDMETHOD()), ("GetLocaleNameLength", com.STDMETHOD()), ("GetLocaleName", com.STDMETHOD()), ] class IDWriteTypography(com.pIUnknown): _methods_ = [ ("AddFontFeature", com.STDMETHOD(DWRITE_FONT_FEATURE)), ("GetFontFeatureCount", com.METHOD(UINT32)), ("GetFontFeature", com.STDMETHOD()), ] class DWRITE_TEXT_RANGE(Structure): _fields_ = ( ("startPosition", UINT32), ("length", UINT32), ) class DWRITE_OVERHANG_METRICS(Structure): _fields_ = ( ("left", FLOAT), ("top", FLOAT), ("right", FLOAT), ("bottom", FLOAT), ) class IDWriteTextLayout(IDWriteTextFormat, com.pIUnknown): _methods_ = [ ("SetMaxWidth", com.STDMETHOD()), ("SetMaxHeight", com.STDMETHOD()), ("SetFontCollection", com.STDMETHOD()), ("SetFontFamilyName", com.STDMETHOD()), ("SetFontWeight", # 30 com.STDMETHOD()), ("SetFontStyle", com.STDMETHOD()), ("SetFontStretch", com.STDMETHOD()), ("SetFontSize", com.STDMETHOD()), ("SetUnderline", com.STDMETHOD()), ("SetStrikethrough", com.STDMETHOD()), ("SetDrawingEffect", com.STDMETHOD()), ("SetInlineObject", com.STDMETHOD()), ("SetTypography", com.STDMETHOD(IDWriteTypography, DWRITE_TEXT_RANGE)), ("SetLocaleName", com.STDMETHOD()), ("GetMaxWidth", # 40 com.METHOD(FLOAT)), ("GetMaxHeight", com.METHOD(FLOAT)), ("GetFontCollection2", com.STDMETHOD()), ("GetFontFamilyNameLength2", com.STDMETHOD(UINT32, POINTER(UINT32), c_void_p)), ("GetFontFamilyName2", com.STDMETHOD(UINT32, c_wchar_p, UINT32, c_void_p)), ("GetFontWeight2", com.STDMETHOD(UINT32, POINTER(DWRITE_FONT_WEIGHT), POINTER(DWRITE_TEXT_RANGE))), ("GetFontStyle2", com.STDMETHOD()), ("GetFontStretch2", com.STDMETHOD()), ("GetFontSize2", com.STDMETHOD()), ("GetUnderline", com.STDMETHOD()), ("GetStrikethrough", com.STDMETHOD(UINT32, POINTER(BOOL), POINTER(DWRITE_TEXT_RANGE))), ("GetDrawingEffect", com.STDMETHOD()), ("GetInlineObject", com.STDMETHOD()), ("GetTypography", # Always returns NULL without SetTypography being called. com.STDMETHOD(UINT32, POINTER(IDWriteTypography), POINTER(DWRITE_TEXT_RANGE))), ("GetLocaleNameLength1", com.STDMETHOD()), ("GetLocaleName1", com.STDMETHOD()), ("Draw", com.STDMETHOD()), ("GetLineMetrics", com.STDMETHOD()), ("GetMetrics", com.STDMETHOD(POINTER(DWRITE_TEXT_METRICS))), ("GetOverhangMetrics", com.STDMETHOD(POINTER(DWRITE_OVERHANG_METRICS))), ("GetClusterMetrics", com.STDMETHOD(POINTER(DWRITE_CLUSTER_METRICS), UINT32, POINTER(UINT32))), ("DetermineMinWidth", com.STDMETHOD(POINTER(FLOAT))), ("HitTestPoint", com.STDMETHOD()), ("HitTestTextPosition", com.STDMETHOD()), ("HitTestTextRange", com.STDMETHOD()), ] class IDWriteTextLayout1(IDWriteTextLayout, IDWriteTextFormat, com.pIUnknown): _methods_ = [ ("SetPairKerning", com.STDMETHOD()), ("GetPairKerning", com.STDMETHOD()), ("SetCharacterSpacing", com.STDMETHOD()), ("GetCharacterSpacing", com.STDMETHOD(UINT32, POINTER(FLOAT), POINTER(FLOAT), POINTER(FLOAT), POINTER(DWRITE_TEXT_RANGE))), ] class IDWriteFontFileEnumerator(com.IUnknown): _methods_ = [ ("MoveNext", com.STDMETHOD(POINTER(BOOL))), ("GetCurrentFontFile", com.STDMETHOD(c_void_p)), ] class IDWriteFontCollectionLoader(com.IUnknown): _methods_ = [ ("CreateEnumeratorFromKey", com.STDMETHOD(c_void_p, c_void_p, UINT32, POINTER(POINTER(IDWriteFontFileEnumerator)))), ] class MyFontFileStream(com.COMObject): _interfaces_ = [IDWriteFontFileStream] def __init__(self, data: bytes) -> None: super().__init__() self._data = data self._size = len(data) self._ptrs = [] def ReadFileFragment(self, fragmentStart: POINTER(c_void_p), fileOffset: UINT64, fragmentSize: UINT64, fragmentContext: POINTER(c_void_p)) -> int: if fileOffset + fragmentSize > self._size: return 0x80004005 # E_FAIL fragment = self._data[fileOffset:] buffer = (c_ubyte * len(fragment)).from_buffer(bytearray(fragment)) ptr = cast(buffer, c_void_p) self._ptrs.append(ptr) fragmentStart[0] = ptr fragmentContext[0] = None return 0 def ReleaseFileFragment(self, fragmentContext: c_void_p) -> int: return 0 def GetFileSize(self, fileSize: POINTER(UINT64)) -> int: fileSize[0] = self._size return 0 def GetLastWriteTime(self, lastWriteTime: POINTER(UINT64)) -> int: return 0x80004001 # E_NOTIMPL class LegacyFontFileLoader(com.COMObject): _interfaces_ = [IDWriteFontFileLoader_LI] def __init__(self) -> None: super().__init__() self._streams = {} def CreateStreamFromKey(self, fontfileReferenceKey: c_void_p, fontFileReferenceKeySize: UINT32, fontFileStream: POINTER(IDWriteFontFileStream)) -> int: convert_index = cast(fontfileReferenceKey, POINTER(c_uint32)) self._ptr = cast(self._streams[convert_index.contents.value].as_interface(IDWriteFontFileStream), POINTER(IDWriteFontFileStream)) fontFileStream[0] = self._ptr return 0 def SetCurrentFont(self, index: int, data: bytes) -> int: self._streams[index] = MyFontFileStream(data) class MyEnumerator(com.COMObject): _interfaces_ = [IDWriteFontFileEnumerator] def __init__(self, factory: c_void_p, loader: LegacyFontFileLoader) -> None: super().__init__() self.factory = cast(factory, IDWriteFactory) self.key = "pyglet_dwrite" self.size = len(self.key) self.current_index = -1 self._keys = [] self._font_data = [] self._font_files = [] self._current_file = None self._font_key_ref = create_unicode_buffer("none") self._font_key_len = len(self._font_key_ref) self._file_loader = loader def AddFontData(self, fonts: list[str]) -> None: self._font_data = fonts def MoveNext(self, hasCurrentFile: BOOL) -> None: self.current_index += 1 if self.current_index != len(self._font_data): font_file = IDWriteFontFile() self._file_loader.SetCurrentFont(self.current_index, self._font_data[self.current_index]) key = self.current_index if self.current_index not in self._keys: buffer = pointer(c_uint32(key)) ptr = cast(buffer, c_void_p) self._keys.append(ptr) self.factory.CreateCustomFontFileReference(self._keys[self.current_index], sizeof(buffer), self._file_loader, byref(font_file)) self._font_files.append(font_file) hasCurrentFile[0] = 1 else: hasCurrentFile[0] = 0 def GetCurrentFontFile(self, fontFile: IDWriteFontFile) -> int: fontFile = cast(fontFile, POINTER(IDWriteFontFile)) fontFile[0] = self._font_files[self.current_index] return 0 class LegacyCollectionLoader(com.COMObject): _interfaces_ = [IDWriteFontCollectionLoader] def __init__(self, factory: c_void_p, loader: LegacyFontFileLoader) -> None: super().__init__() self._enumerator = MyEnumerator(factory, loader) def AddFontData(self, fonts) -> None: self._enumerator.AddFontData(fonts) def CreateEnumeratorFromKey(self, factory: IDWriteFactory, key: c_void_p, key_size: UINT32, enumerator: MyEnumerator) -> int: self._ptr = cast(self._enumerator.as_interface(IDWriteFontFileEnumerator), POINTER(IDWriteFontFileEnumerator)) enumerator[0] = self._ptr return 0 IID_IDWriteFactory = com.GUID(0xb859ee5a, 0xd838, 0x4b5b, 0xa2, 0xe8, 0x1a, 0xdc, 0x7d, 0x93, 0xdb, 0x48) class IDWriteRenderingParams(com.pIUnknown): _methods_ = [ ("GetGamma", com.METHOD(FLOAT)), ("GetEnhancedContrast", com.METHOD(FLOAT)), ("GetClearTypeLevel", com.METHOD(FLOAT)), ("GetPixelGeometry", com.METHOD(UINT)), ("GetRenderingMode", com.METHOD(UINT)), ] class IDWriteFactory(com.pIUnknown): _methods_ = [ ("GetSystemFontCollection", com.STDMETHOD(POINTER(IDWriteFontCollection), BOOL)), ("CreateCustomFontCollection", com.STDMETHOD(POINTER(IDWriteFontCollectionLoader), c_void_p, UINT32, POINTER(IDWriteFontCollection))), ("RegisterFontCollectionLoader", com.STDMETHOD(POINTER(IDWriteFontCollectionLoader))), ("UnregisterFontCollectionLoader", com.STDMETHOD(POINTER(IDWriteFontCollectionLoader))), ("CreateFontFileReference", com.STDMETHOD(c_wchar_p, c_void_p, POINTER(IDWriteFontFile))), ("CreateCustomFontFileReference", com.STDMETHOD(c_void_p, UINT32, POINTER(IDWriteFontFileLoader_LI), POINTER(IDWriteFontFile))), ("CreateFontFace", com.STDMETHOD()), ("CreateRenderingParams", com.STDMETHOD(POINTER(IDWriteRenderingParams))), ("CreateMonitorRenderingParams", com.STDMETHOD()), ("CreateCustomRenderingParams", com.STDMETHOD(FLOAT, FLOAT, FLOAT, UINT, UINT, POINTER(IDWriteRenderingParams))), ("RegisterFontFileLoader", com.STDMETHOD(c_void_p)), # Ambigious as newer is a pIUnknown and legacy is IUnknown. ("UnregisterFontFileLoader", com.STDMETHOD(POINTER(IDWriteFontFileLoader_LI))), ("CreateTextFormat", com.STDMETHOD(c_wchar_p, IDWriteFontCollection, DWRITE_FONT_WEIGHT, DWRITE_FONT_STYLE, DWRITE_FONT_STRETCH, FLOAT, c_wchar_p, POINTER(IDWriteTextFormat))), ("CreateTypography", com.STDMETHOD(POINTER(IDWriteTypography))), ("GetGdiInterop", com.STDMETHOD(POINTER(IDWriteGdiInterop))), ("CreateTextLayout", com.STDMETHOD(c_wchar_p, UINT32, IDWriteTextFormat, FLOAT, FLOAT, POINTER(IDWriteTextLayout))), ("CreateGdiCompatibleTextLayout", com.STDMETHOD()), ("CreateEllipsisTrimmingSign", com.STDMETHOD()), ("CreateTextAnalyzer", com.STDMETHOD(POINTER(IDWriteTextAnalyzer))), ("CreateNumberSubstitution", com.STDMETHOD()), ("CreateGlyphRunAnalysis", com.STDMETHOD()), ] IID_IDWriteFactory1 = com.GUID(0x30572f99, 0xdac6, 0x41db, 0xa1, 0x6e, 0x04, 0x86, 0x30, 0x7e, 0x60, 0x6a) class IDWriteFactory1(IDWriteFactory, com.pIUnknown): _methods_ = [ ("GetEudcFontCollection", com.STDMETHOD()), ("CreateCustomRenderingParams1", com.STDMETHOD()), ] class IDWriteFontFallback(com.pIUnknown): _methods_ = [ ("MapCharacters", com.STDMETHOD(POINTER(IDWriteTextAnalysisSource), UINT32, UINT32, IDWriteFontCollection, c_wchar_p, DWRITE_FONT_WEIGHT, DWRITE_FONT_STYLE, DWRITE_FONT_STRETCH, POINTER(UINT32), POINTER(IDWriteFont), POINTER(FLOAT))), ] class IDWriteColorGlyphRunEnumerator(com.pIUnknown): _methods_ = [ ("MoveNext", com.STDMETHOD()), ("GetCurrentRun", com.STDMETHOD()), ] class IDWriteFactory2(IDWriteFactory1, IDWriteFactory, com.pIUnknown): _methods_ = [ ("GetSystemFontFallback", com.STDMETHOD(POINTER(IDWriteFontFallback))), ("CreateFontFallbackBuilder", com.STDMETHOD()), ("TranslateColorGlyphRun", com.STDMETHOD(FLOAT, FLOAT, POINTER(DWRITE_GLYPH_RUN), c_void_p, DWRITE_MEASURING_MODE, c_void_p, UINT32, POINTER(IDWriteColorGlyphRunEnumerator))), ("CreateCustomRenderingParams2", com.STDMETHOD()), ("CreateGlyphRunAnalysis", com.STDMETHOD()), ] IID_IDWriteFactory2 = com.GUID(0x0439fc60, 0xca44, 0x4994, 0x8d, 0xee, 0x3a, 0x9a, 0xf7, 0xb7, 0x32, 0xec) class IDWriteFontSet(com.pIUnknown): _methods_ = [ ("GetFontCount", com.STDMETHOD()), ("GetFontFaceReference", com.STDMETHOD()), ("FindFontFaceReference", com.STDMETHOD()), ("FindFontFace", com.STDMETHOD()), ("GetPropertyValues", com.STDMETHOD()), ("GetPropertyOccurrenceCount", com.STDMETHOD()), ("GetMatchingFonts", com.STDMETHOD()), ("GetMatchingFonts", com.STDMETHOD()), ] class IDWriteFontSetBuilder(com.pIUnknown): _methods_ = [ ("AddFontFaceReference", com.STDMETHOD()), ("AddFontFaceReference", com.STDMETHOD()), ("AddFontSet", com.STDMETHOD()), ("CreateFontSet", com.STDMETHOD(POINTER(IDWriteFontSet))), ] class IDWriteFontSetBuilder1(IDWriteFontSetBuilder, com.pIUnknown): _methods_ = [ ("AddFontFile", com.STDMETHOD(IDWriteFontFile)), ] class IDWriteFactory3(IDWriteFactory2, com.pIUnknown): _methods_ = [ ("CreateGlyphRunAnalysis", com.STDMETHOD()), ("CreateCustomRenderingParams3", com.STDMETHOD()), ("CreateFontFaceReference", com.STDMETHOD()), ("CreateFontFaceReference", com.STDMETHOD()), ("GetSystemFontSet", com.STDMETHOD()), ("CreateFontSetBuilder", com.STDMETHOD(POINTER(IDWriteFontSetBuilder))), ("CreateFontCollectionFromFontSet", com.STDMETHOD(IDWriteFontSet, POINTER(IDWriteFontCollection1))), ("GetSystemFontCollection3", com.STDMETHOD()), ("GetFontDownloadQueue", com.STDMETHOD()), # ('GetSystemFontSet', # com.STDMETHOD()), ] class IDWriteColorGlyphRunEnumerator1(IDWriteColorGlyphRunEnumerator, com.pIUnknown): _methods_ = [ ("GetCurrentRun1", com.STDMETHOD()), ] class IDWriteFactory4(IDWriteFactory3, com.pIUnknown): _methods_ = [ ("TranslateColorGlyphRun4", # Renamed to prevent clash from previous factories. com.STDMETHOD(D2D_POINT_2F, POINTER(DWRITE_GLYPH_RUN), c_void_p, DWRITE_GLYPH_IMAGE_FORMATS, DWRITE_MEASURING_MODE, c_void_p, UINT32, POINTER(IDWriteColorGlyphRunEnumerator1))), ("ComputeGlyphOrigins_", com.STDMETHOD()), ("ComputeGlyphOrigins", com.STDMETHOD()), ] class IDWriteInMemoryFontFileLoader(com.pIUnknown): _methods_ = [ ("CreateStreamFromKey", com.STDMETHOD()), ("CreateInMemoryFontFileReference", com.STDMETHOD(IDWriteFactory, c_void_p, UINT, c_void_p, POINTER(IDWriteFontFile))), ("GetFileCount", com.STDMETHOD()), ] IID_IDWriteFactory5 = com.GUID(0x958DB99A, 0xBE2A, 0x4F09, 0xAF, 0x7D, 0x65, 0x18, 0x98, 0x03, 0xD1, 0xD3) class IDWriteFactory5(IDWriteFactory4, IDWriteFactory3, IDWriteFactory2, IDWriteFactory1, IDWriteFactory, com.pIUnknown): _methods_ = [ ("CreateFontSetBuilder1", com.STDMETHOD(POINTER(IDWriteFontSetBuilder1))), ("CreateInMemoryFontFileLoader", com.STDMETHOD(POINTER(IDWriteInMemoryFontFileLoader))), ("CreateHttpFontFileLoader", com.STDMETHOD()), ("AnalyzeContainerType", com.STDMETHOD()), ] DWriteCreateFactory = dwrite_lib.DWriteCreateFactory DWriteCreateFactory.restype = HRESULT DWriteCreateFactory.argtypes = [DWRITE_FACTORY_TYPE, com.REFIID, POINTER(com.pIUnknown)] class ID2D1Resource(com.pIUnknown): _methods_ = [ ("GetFactory", com.STDMETHOD()), ] class ID2D1Brush(ID2D1Resource, com.pIUnknown): _methods_ = [ ("SetOpacity", com.STDMETHOD()), ("SetTransform", com.STDMETHOD()), ("GetOpacity", com.STDMETHOD()), ("GetTransform", com.STDMETHOD()), ] class ID2D1SolidColorBrush(ID2D1Brush, ID2D1Resource, com.pIUnknown): _methods_ = [ ("SetColor", com.STDMETHOD()), ("GetColor", com.STDMETHOD()), ] D2D1_TEXT_ANTIALIAS_MODE = UINT D2D1_TEXT_ANTIALIAS_MODE_DEFAULT = 0 D2D1_TEXT_ANTIALIAS_MODE_CLEARTYPE = 1 D2D1_TEXT_ANTIALIAS_MODE_GRAYSCALE = 2 D2D1_TEXT_ANTIALIAS_MODE_ALIASED = 3 D2D1_RENDER_TARGET_TYPE = UINT D2D1_RENDER_TARGET_TYPE_DEFAULT = 0 D2D1_RENDER_TARGET_TYPE_SOFTWARE = 1 D2D1_RENDER_TARGET_TYPE_HARDWARE = 2 D2D1_FEATURE_LEVEL = UINT D2D1_FEATURE_LEVEL_DEFAULT = 0 D2D1_RENDER_TARGET_USAGE = UINT D2D1_RENDER_TARGET_USAGE_NONE = 0 D2D1_RENDER_TARGET_USAGE_FORCE_BITMAP_REMOTING = 1 D2D1_RENDER_TARGET_USAGE_GDI_COMPATIBLE = 2 DXGI_FORMAT = UINT DXGI_FORMAT_UNKNOWN = 0 D2D1_ALPHA_MODE = UINT D2D1_ALPHA_MODE_UNKNOWN = 0 D2D1_ALPHA_MODE_PREMULTIPLIED = 1 D2D1_ALPHA_MODE_STRAIGHT = 2 D2D1_ALPHA_MODE_IGNORE = 3 D2D1_DRAW_TEXT_OPTIONS = UINT D2D1_DRAW_TEXT_OPTIONS_NO_SNAP = 0x00000001 D2D1_DRAW_TEXT_OPTIONS_CLIP = 0x00000002 D2D1_DRAW_TEXT_OPTIONS_ENABLE_COLOR_FONT = 0x00000004 D2D1_DRAW_TEXT_OPTIONS_DISABLE_COLOR_BITMAP_SNAPPING = 0x00000008 D2D1_DRAW_TEXT_OPTIONS_NONE = 0x00000000 D2D1_DRAW_TEXT_OPTIONS_FORCE_DWORD = 0xffffffff class D2D1_PIXEL_FORMAT(Structure): _fields_ = ( ("format", DXGI_FORMAT), ("alphaMode", D2D1_ALPHA_MODE), ) class D2D1_RENDER_TARGET_PROPERTIES(Structure): _fields_ = ( ("type", D2D1_RENDER_TARGET_TYPE), ("pixelFormat", D2D1_PIXEL_FORMAT), ("dpiX", FLOAT), ("dpiY", FLOAT), ("usage", D2D1_RENDER_TARGET_USAGE), ("minLevel", D2D1_FEATURE_LEVEL), ) DXGI_FORMAT_B8G8R8A8_UNORM = 87 pixel_format = D2D1_PIXEL_FORMAT() pixel_format.format = DXGI_FORMAT_UNKNOWN pixel_format.alphaMode = D2D1_ALPHA_MODE_UNKNOWN default_target_properties = D2D1_RENDER_TARGET_PROPERTIES() default_target_properties.type = D2D1_RENDER_TARGET_TYPE_DEFAULT default_target_properties.pixelFormat = pixel_format default_target_properties.dpiX = 0.0 default_target_properties.dpiY = 0.0 default_target_properties.usage = D2D1_RENDER_TARGET_USAGE_NONE default_target_properties.minLevel = D2D1_FEATURE_LEVEL_DEFAULT class ID2D1RenderTarget(ID2D1Resource, com.pIUnknown): _methods_ = [ ("CreateBitmap", com.STDMETHOD()), ("CreateBitmapFromWicBitmap", com.STDMETHOD()), ("CreateSharedBitmap", com.STDMETHOD()), ("CreateBitmapBrush", com.STDMETHOD()), ("CreateSolidColorBrush", com.STDMETHOD(POINTER(D2D1_COLOR_F), c_void_p, POINTER(ID2D1SolidColorBrush))), ("CreateGradientStopCollection", com.STDMETHOD()), ("CreateLinearGradientBrush", com.STDMETHOD()), ("CreateRadialGradientBrush", com.STDMETHOD()), ("CreateCompatibleRenderTarget", com.STDMETHOD()), ("CreateLayer", com.STDMETHOD()), ("CreateMesh", com.STDMETHOD()), ("DrawLine", com.STDMETHOD()), ("DrawRectangle", com.STDMETHOD()), ("FillRectangle", com.STDMETHOD()), ("DrawRoundedRectangle", com.STDMETHOD()), ("FillRoundedRectangle", com.STDMETHOD()), ("DrawEllipse", com.STDMETHOD()), ("FillEllipse", com.STDMETHOD()), ("DrawGeometry", com.STDMETHOD()), ("FillGeometry", com.STDMETHOD()), ("FillMesh", com.STDMETHOD()), ("FillOpacityMask", com.STDMETHOD()), ("DrawBitmap", com.STDMETHOD()), ("DrawText", com.STDMETHOD(c_wchar_p, UINT, IDWriteTextFormat, POINTER(D2D1_RECT_F), ID2D1Brush, D2D1_DRAW_TEXT_OPTIONS, DWRITE_MEASURING_MODE)), ("DrawTextLayout", com.METHOD(c_void, D2D_POINT_2F, IDWriteTextLayout, ID2D1Brush, UINT32)), ("DrawGlyphRun", com.METHOD(c_void, D2D_POINT_2F, POINTER(DWRITE_GLYPH_RUN), ID2D1Brush, UINT32)), ("SetTransform", com.METHOD(c_void)), ("GetTransform", com.STDMETHOD()), ("SetAntialiasMode", com.METHOD(c_void, D2D1_TEXT_ANTIALIAS_MODE)), ("GetAntialiasMode", com.STDMETHOD()), ("SetTextAntialiasMode", com.METHOD(c_void, D2D1_TEXT_ANTIALIAS_MODE)), ("GetTextAntialiasMode", com.STDMETHOD()), ("SetTextRenderingParams", com.STDMETHOD(IDWriteRenderingParams)), ("GetTextRenderingParams", com.STDMETHOD()), ("SetTags", com.STDMETHOD()), ("GetTags", com.STDMETHOD()), ("PushLayer", com.STDMETHOD()), ("PopLayer", com.STDMETHOD()), ("Flush", com.STDMETHOD(c_void_p, c_void_p)), ("SaveDrawingState", com.STDMETHOD()), ("RestoreDrawingState", com.STDMETHOD()), ("PushAxisAlignedClip", com.STDMETHOD()), ("PopAxisAlignedClip", com.STDMETHOD()), ("Clear", com.METHOD(c_void, POINTER(D2D1_COLOR_F))), ("BeginDraw", com.METHOD(c_void)), ("EndDraw", com.STDMETHOD(c_void_p, c_void_p)), ("GetPixelFormat", com.STDMETHOD()), ("SetDpi", com.STDMETHOD()), ("GetDpi", com.STDMETHOD()), ("GetSize", com.STDMETHOD()), ("GetPixelSize", com.STDMETHOD()), ("GetMaximumBitmapSize", com.STDMETHOD()), ("IsSupported", com.STDMETHOD()), ] IID_ID2D1Factory = com.GUID(0x06152247, 0x6f50, 0x465a, 0x92, 0x45, 0x11, 0x8b, 0xfd, 0x3b, 0x60, 0x07) class ID2D1Factory(com.pIUnknown): _methods_ = [ ("ReloadSystemMetrics", com.STDMETHOD()), ("GetDesktopDpi", com.STDMETHOD()), ("CreateRectangleGeometry", com.STDMETHOD()), ("CreateRoundedRectangleGeometry", com.STDMETHOD()), ("CreateEllipseGeometry", com.STDMETHOD()), ("CreateGeometryGroup", com.STDMETHOD()), ("CreateTransformedGeometry", com.STDMETHOD()), ("CreatePathGeometry", com.STDMETHOD()), ("CreateStrokeStyle", com.STDMETHOD()), ("CreateDrawingStateBlock", com.STDMETHOD()), ("CreateWicBitmapRenderTarget", com.STDMETHOD(IWICBitmap, POINTER(D2D1_RENDER_TARGET_PROPERTIES), POINTER(ID2D1RenderTarget))), ("CreateHwndRenderTarget", com.STDMETHOD()), ("CreateDxgiSurfaceRenderTarget", com.STDMETHOD()), ("CreateDCRenderTarget", com.STDMETHOD()), ] d2d_lib = windll.d2d1 D2D1_FACTORY_TYPE = UINT D2D1_FACTORY_TYPE_SINGLE_THREADED = 0 D2D1_FACTORY_TYPE_MULTI_THREADED = 1 D2D1CreateFactory = d2d_lib.D2D1CreateFactory D2D1CreateFactory.restype = HRESULT D2D1CreateFactory.argtypes = [D2D1_FACTORY_TYPE, com.REFIID, c_void_p, c_void_p] # We need a WIC factory to make this work. Make sure one is in the initialized decoders. wic_decoder = None for decoder in pyglet.image.codecs.get_decoders(): if isinstance(decoder, WICDecoder): wic_decoder = decoder if not wic_decoder: raise Exception("Cannot use DirectWrite without a WIC Decoder") def get_system_locale() -> str: """Retrieve the string representing the system locale.""" local_name = create_unicode_buffer(LOCALE_NAME_MAX_LENGTH) kernel32.GetUserDefaultLocaleName(local_name, LOCALE_NAME_MAX_LENGTH) return local_name.value class DirectWriteGlyphRenderer(base.GlyphRenderer): font: Win32DirectWriteFont antialias_mode = D2D1_TEXT_ANTIALIAS_MODE_DEFAULT draw_options = D2D1_DRAW_TEXT_OPTIONS_ENABLE_COLOR_FONT if WINDOWS_8_1_OR_GREATER else D2D1_DRAW_TEXT_OPTIONS_NONE measuring_mode = DWRITE_MEASURING_MODE_NATURAL def __init__(self, font: Win32DirectWriteFont) -> None: self._render_target = None self._bitmap = None self._brush = None self._bitmap_dimensions = (0, 0) super().__init__(font) self.font = font self._analyzer = IDWriteTextAnalyzer() self.font._write_factory.CreateTextAnalyzer(byref(self._analyzer)) self._text_analysis = TextAnalysis() def render(self, text: str) -> Glyph: pass def render_to_image(self, text: str, width: int, height: int) -> ImageData: """This process takes Pyglet out of the equation and uses only DirectWrite to shape and render text. This may allows more accurate fonts (bidi, rtl, etc) in very special circumstances. """ text_buffer = create_unicode_buffer(text) text_layout = IDWriteTextLayout() self.font._write_factory.CreateTextLayout( text_buffer, len(text_buffer), self.font._text_format, width, # Doesn't affect bitmap size. height, byref(text_layout), ) layout_metrics = DWRITE_TEXT_METRICS() text_layout.GetMetrics(byref(layout_metrics)) width, height = int(math.ceil(layout_metrics.width)), int(math.ceil(layout_metrics.height)) bitmap = IWICBitmap() wic_decoder._factory.CreateBitmap( width, height, GUID_WICPixelFormat32bppPBGRA, WICBitmapCacheOnDemand, byref(bitmap), ) rt = ID2D1RenderTarget() d2d_factory.CreateWicBitmapRenderTarget(bitmap, default_target_properties, byref(rt)) # Font aliasing rendering quality. rt.SetTextAntialiasMode(self.antialias_mode) if not self._brush: self._brush = ID2D1SolidColorBrush() rt.CreateSolidColorBrush(white, None, byref(self._brush)) rt.BeginDraw() rt.Clear(transparent) rt.DrawTextLayout(no_offset, text_layout, self._brush, self.draw_options) rt.EndDraw(None, None) rt.Release() return wic_decoder.get_image(bitmap) def get_string_info(self, text: str, font_face: IDWriteFontFace) -> tuple[ c_wchar, int, Array[UINT16], Array[FLOAT], Array[DWRITE_GLYPH_OFFSET], Array[UINT16]]: """Converts a string of text into a list of indices and advances used for shaping.""" text_length = len(text.encode("utf-16-le")) // 2 # Unicode buffer splits each two byte chars into separate indices. text_buffer = create_unicode_buffer(text, text_length) # Analyze the text. # noinspection PyTypeChecker self._text_analysis.GenerateResults(self._analyzer, text_buffer, len(text_buffer)) # Formula for text buffer size from Microsoft. max_glyph_size = int(3 * text_length / 2 + 16) length = text_length clusters = (UINT16 * length)() text_props = (DWRITE_SHAPING_TEXT_PROPERTIES * length)() indices = (UINT16 * max_glyph_size)() glyph_props = (DWRITE_SHAPING_GLYPH_PROPERTIES * max_glyph_size)() actual_count = UINT32() self._analyzer.GetGlyphs( text_buffer, length, font_face, False, # sideways False, # righttoleft self._text_analysis._script, # scriptAnalysis None, # localName None, # numberSub None, # typo features None, # feature range length 0, # feature range max_glyph_size, # max glyph size clusters, # cluster map text_props, # text props indices, # glyph indices glyph_props, # glyph pops byref(actual_count), # glyph count ) advances = (FLOAT * length)() offsets = (DWRITE_GLYPH_OFFSET * length)() self._analyzer.GetGlyphPlacements( text_buffer, clusters, text_props, text_length, indices, glyph_props, actual_count, font_face, self.font._font_metrics.designUnitsPerEm, False, False, self._text_analysis._script, self.font.locale, None, None, 0, advances, offsets, ) return text_buffer, actual_count.value, indices, advances, offsets, clusters def get_glyph_metrics(self, font_face: IDWriteFontFace, indices: Array[UINT16], count: int) -> list[ tuple[float, float, float, float, float]]: """Returns a list of tuples with the following metrics per indice: . (glyph width, glyph height, lsb, advanceWidth) """ glyph_metrics = (DWRITE_GLYPH_METRICS * count)() font_face.GetDesignGlyphMetrics(indices, count, glyph_metrics, False) metrics_out = [] for metric in glyph_metrics: glyph_width = (metric.advanceWidth - metric.leftSideBearing - metric.rightSideBearing) # width must have a minimum of 1. For example, spaces are actually 0 width, still need glyph bitmap size. if glyph_width == 0: glyph_width = 1 glyph_height = (metric.advanceHeight - metric.topSideBearing - metric.bottomSideBearing) lsb = metric.leftSideBearing bsb = metric.bottomSideBearing advance_width = metric.advanceWidth metrics_out.append((glyph_width, glyph_height, lsb, advance_width, bsb)) return metrics_out def _get_single_glyph_run(self, font_face: IDWriteFontFace, size: float, indices: Array[UINT16], advances: Array[FLOAT], offsets: Array[DWRITE_GLYPH_OFFSET], sideways: bool, bidi: int) -> DWRITE_GLYPH_RUN: run = DWRITE_GLYPH_RUN( font_face, size, 1, indices, advances, offsets, sideways, bidi, ) return run def is_color_run(self, run: DWRITE_GLYPH_RUN) -> bool: """Will return True if the run contains a colored glyph.""" try: if WINDOWS_10_CREATORS_UPDATE_OR_GREATER: enumerator = IDWriteColorGlyphRunEnumerator1() color = self.font._write_factory.TranslateColorGlyphRun4( no_offset, run, None, DWRITE_GLYPH_IMAGE_FORMATS_ALL, self.measuring_mode, None, 0, byref(enumerator), ) elif WINDOWS_8_1_OR_GREATER: enumerator = IDWriteColorGlyphRunEnumerator() color = self.font._write_factory.TranslateColorGlyphRun( 0.0, 0.0, run, None, self.measuring_mode, None, 0, byref(enumerator), ) else: return False return True except OSError as dw_err: # HRESULT returns -2003283956 (DWRITE_E_NOCOLOR) if no color run is detected. Anything else is unexpected. if dw_err.winerror != -2003283956: raise dw_err return False def render_single_glyph(self, font_face: IDWriteFontFace, indice: int, advance: float, offset: DWRITE_GLYPH_OFFSET, metrics: tuple[float, float, float, float, float]): """Renders a single glyph using D2D DrawGlyphRun""" glyph_width, glyph_height, glyph_lsb, glyph_advance, glyph_bsb = metrics # We use a shaped advance instead # of the fonts. # Slicing an array turns it into a python object. Maybe a better way to keep it a ctypes value? new_indice = (UINT16 * 1)(indice) new_advance = (FLOAT * 1)(advance) run = self._get_single_glyph_run( font_face, self.font._real_size, new_indice, # indice, new_advance, # advance, pointer(offset), # offset, False, 0, ) # If it's colored, return to render it using layout. if self.draw_options & D2D1_DRAW_TEXT_OPTIONS_ENABLE_COLOR_FONT and self.is_color_run(run): return None # Use the glyph's advance as a width as bitmap width. # Some characters such as diacritics (̃) may have 0 advance width. In that case, just use glyph_width if glyph_advance: render_width = int(math.ceil(glyph_advance * self.font.font_scale_ratio)) else: render_width = int(math.ceil(glyph_width * self.font.font_scale_ratio)) render_offset_x = 0 if glyph_lsb < 0: # Negative LSB: we shift the offset, otherwise the glyph will be cut off. render_offset_x = glyph_lsb * self.font.font_scale_ratio # Increase width by arbitrary amount to accommodate size of italic. # No way to get actual size of italics outside of rendering to larger texture and checking pixels. if self.font.italic: render_width += (render_width // 2) # Create new bitmap. # TODO: We can probably adjust bitmap/baseline to reduce the whitespace and save a lot of texture space. # Note: Floating point precision makes this a giant headache, will need to be solved for this approach. self._create_bitmap(render_width + 1, # Add 1, sometimes AA can add an extra pixel or so. int(math.ceil(self.font.max_glyph_height))) # Glyphs are drawn at the baseline, and with LSB, so we need to offset it based on top left position. baseline_offset = D2D_POINT_2F(-render_offset_x - offset.advanceOffset, self.font.ascent + offset.ascenderOffset) self._render_target.BeginDraw() self._render_target.Clear(transparent) self._render_target.DrawGlyphRun(baseline_offset, run, self._brush, self.measuring_mode) self._render_target.EndDraw(None, None) image = wic_decoder.get_image(self._bitmap) glyph = self.font.create_glyph(image) glyph.set_bearings(-self.font.descent, render_offset_x, advance, offset.advanceOffset, offset.ascenderOffset) return glyph def render_using_layout(self, text: str) -> Glyph | None: """This will render text given the built in DirectWrite layout. This process allows us to take advantage of color glyphs and fallback handling that is built into DirectWrite. This can also handle shaping and many other features if you want to render directly to a texture. """ text_layout = self.font.create_text_layout(text) layout_metrics = DWRITE_TEXT_METRICS() text_layout.GetMetrics(byref(layout_metrics)) width = int(math.ceil(layout_metrics.width)) height = int(math.ceil(layout_metrics.height)) if width == 0 or height == 0: return None self._create_bitmap(width, height) # This offsets the characters if needed. point = D2D_POINT_2F(0, 0) self._render_target.BeginDraw() self._render_target.Clear(transparent) self._render_target.DrawTextLayout(point, text_layout, self._brush, self.draw_options) self._render_target.EndDraw(None, None) image = wic_decoder.get_image(self._bitmap) glyph = self.font.create_glyph(image) glyph.set_bearings(-self.font.descent, 0, int(math.ceil(layout_metrics.width))) return glyph def create_zero_glyph(self) -> Glyph: """Zero glyph is a 1x1 image that has a -1 advance. This is to fill in for ligature substitutions since font system requires 1 glyph per character in a string. """ self._create_bitmap(1, 1) image = wic_decoder.get_image(self._bitmap) glyph = self.font.create_glyph(image) glyph.set_bearings(-self.font.descent, 0, -1) return glyph def _create_bitmap(self, width: int, height: int) -> None: """Creates a bitmap using Direct2D and WIC.""" # Create a new bitmap, try to re-use the bitmap as much as we can to minimize creations. if self._bitmap_dimensions[0] != width or self._bitmap_dimensions[1] != height: # If dimensions aren't the same, release bitmap to create new ones. if self._bitmap: self._bitmap.Release() self._bitmap = IWICBitmap() wic_decoder._factory.CreateBitmap(width, height, GUID_WICPixelFormat32bppPBGRA, WICBitmapCacheOnDemand, byref(self._bitmap)) self._render_target = ID2D1RenderTarget() d2d_factory.CreateWicBitmapRenderTarget(self._bitmap, default_target_properties, byref(self._render_target)) # Font aliasing rendering quality. self._render_target.SetTextAntialiasMode(self.antialias_mode) if not self._brush: self._brush = ID2D1SolidColorBrush() self._render_target.CreateSolidColorBrush(white, None, byref(self._brush)) class Win32DirectWriteFont(base.Font): # To load fonts from files, we need to produce a custom collection. _custom_collection = None # Shared loader values _write_factory = None # Factory required to run any DirectWrite interfaces. _font_loader = None # Windows 10 loader values. _font_builder = None _font_set = None # Legacy loader values _font_collection_loader = None _font_cache = [] _font_loader_key = None _default_name = "Segoe UI" # Default font for Win7/10. _glyph_renderer = None _empty_glyph = None _zero_glyph = None glyph_renderer_class = DirectWriteGlyphRenderer texture_internalformat = pyglet.gl.GL_RGBA def __init__(self, name: str, size: float, bold: bool | str = False, italic: bool | str = False, stretch: bool | str = False, dpi: int | None = None, locale: str | None = None) -> None: self._filename: str | None = None self._advance_cache = {} # Stores glyph's by the indice and advance. super().__init__() if not name: name = self._default_name self._name = name self.bold = bold self.size = size self.italic = italic self.stretch = stretch self.dpi = dpi self.locale = locale if self.locale is None: self.locale = "" self.rtl = False # Right to left should be handled by pyglet? # TODO: Use system locale string? if self.dpi is None: self.dpi = 96 # From DPI to DIP (Device Independent Pixels) which is what the fonts rely on. self._real_size = (self.size * self.dpi) // 72 if self.bold: if isinstance(self.bold, str): self._weight = name_to_weight[self.bold] else: self._weight = DWRITE_FONT_WEIGHT_BOLD else: self._weight = DWRITE_FONT_WEIGHT_NORMAL if self.italic: if isinstance(self.italic, str): self._style = name_to_style[self.italic] else: self._style = DWRITE_FONT_STYLE_ITALIC else: self._style = DWRITE_FONT_STYLE_NORMAL if self.stretch: if isinstance(self.stretch, str): self._stretch = name_to_stretch[self.stretch] else: self._stretch = DWRITE_FONT_STRETCH_EXPANDED else: self._stretch = DWRITE_FONT_STRETCH_NORMAL self._font_index, self._collection = self.get_collection(name) write_font = None # If not font found, search all collections for legacy GDI naming. if pyglet.options["dw_legacy_naming"]: if self._font_index is None and self._collection is None: write_font, self._collection = self.find_font_face(name, self._weight, self._style, self._stretch) assert self._collection is not None, f"Font: '{name}' not found in loaded or system font collection." if self._font_index is not None: font_family = IDWriteFontFamily1() self._collection.GetFontFamily(self._font_index, byref(font_family)) write_font = IDWriteFont() font_family.GetFirstMatchingFont( self._weight, self._stretch, self._style, byref(write_font), ) # Create the text format this font will use permanently. # Could technically be recreated, but will keep to be inline with other font objects. self._text_format = IDWriteTextFormat() self._write_factory.CreateTextFormat( self._name, self._collection, self._weight, self._style, self._stretch, self._real_size, create_unicode_buffer(self.locale), byref(self._text_format), ) font_face = IDWriteFontFace() write_font.CreateFontFace(byref(font_face)) self.font_face = IDWriteFontFace1() font_face.QueryInterface(IID_IDWriteFontFace1, byref(self.font_face)) self._font_metrics = DWRITE_FONT_METRICS() self.font_face.GetMetrics(byref(self._font_metrics)) self.font_scale_ratio = (self._real_size / self._font_metrics.designUnitsPerEm) self.ascent = math.ceil(self._font_metrics.ascent * self.font_scale_ratio) self.descent = -round(self._font_metrics.descent * self.font_scale_ratio) self.max_glyph_height = (self._font_metrics.ascent + self._font_metrics.descent) * self.font_scale_ratio self.line_gap = self._font_metrics.lineGap * self.font_scale_ratio self._fallback = None if WINDOWS_8_1_OR_GREATER: self._fallback = IDWriteFontFallback() self._write_factory.GetSystemFontFallback(byref(self._fallback)) else: assert _debug_print("Windows 8.1+ is required for font fallback. Colored glyphs cannot be omitted.") @property def filename(self) -> str: """Returns a filename associated with the font face. Note: Capable of returning more than 1 file in the future, but will do just one for now. """ if self._filename is not None: return self._filename file_ct = UINT32() self.font_face.GetFiles(byref(file_ct), None) font_files = (IDWriteFontFile * file_ct.value)() self.font_face.GetFiles(byref(file_ct), font_files) self._filename = "Not Available" pff = font_files[0] key_data = c_void_p() ff_key_size = UINT32() pff.GetReferenceKey(byref(key_data), byref(ff_key_size)) loader = IDWriteFontFileLoader() pff.GetLoader(byref(loader)) try: local_loader = IDWriteLocalFontFileLoader() loader.QueryInterface(IID_IDWriteLocalFontFileLoader, byref(local_loader)) except OSError: # E_NOTIMPL loader.Release() pff.Release() return self._filename path_len = UINT32() local_loader.GetFilePathLengthFromKey(key_data, ff_key_size, byref(path_len)) buffer = create_unicode_buffer(path_len.value + 1) local_loader.GetFilePathFromKey(key_data, ff_key_size, buffer, len(buffer)) loader.Release() local_loader.Release() pff.Release() self._filename = pathlib.PureWindowsPath(buffer.value).as_posix() # Convert to forward slashes. return self._filename @property def name(self) -> str: return self._name def render_to_image(self, text: str, width: int=10000, height: int=80) -> ImageData: """This process takes Pyglet out of the equation and uses only DirectWrite to shape and render text. This may allow more accurate fonts (bidi, rtl, etc) in very special circumstances at the cost of additional texture space. """ if not self._glyph_renderer: self._glyph_renderer = self.glyph_renderer_class(self) return self._glyph_renderer.render_to_image(text, width, height) def copy_glyph(self, glyph: base.Glyph, advance: int, offset: DWRITE_GLYPH_OFFSET) -> base.Glyph: """This takes the existing glyph texture and puts it into a new Glyph with a new advance. Texture memory is shared between both glyphs. """ new_glyph = base.Glyph(glyph.x, glyph.y, glyph.z, glyph.width, glyph.height, glyph.owner) new_glyph.set_bearings( glyph.baseline, glyph.lsb, advance, offset.advanceOffset, offset.ascenderOffset, ) return new_glyph def _render_layout_glyph(self, text_buffer: str, i: int, clusters: list[DWRITE_CLUSTER_METRICS], check_color: bool=True): # Some glyphs can be more than 1 char. We use the clusters to determine how many of an index exist. text_length = clusters.count(i) # Amount of glyphs don't always match 1:1 with text as some can be substituted or omitted. Get # actual text buffer index. text_index = clusters.index(i) # Get actual text based on the index and length. actual_text = text_buffer[text_index:text_index + text_length] # Since we can't store as indice 0 without overriding, we have to store as text if actual_text not in self.glyphs: glyph = self._glyph_renderer.render_using_layout(text_buffer[text_index:text_index + text_length]) if glyph: if check_color and self._glyph_renderer.draw_options & D2D1_DRAW_TEXT_OPTIONS_ENABLE_COLOR_FONT: fb_ff = self._get_fallback_font_face(text_index, text_length) if fb_ff: glyph.colored = self.is_fallback_str_colored(fb_ff, actual_text) else: glyph = self._empty_glyph self.glyphs[actual_text] = glyph return self.glyphs[actual_text] def is_fallback_str_colored(self, font_face: IDWriteFontFace, text: str) -> bool: indice = UINT16() code_points = (UINT32 * len(text))(*[ord(c) for c in text]) font_face.GetGlyphIndices(code_points, len(text), byref(indice)) new_indice = (UINT16 * 1)(indice) new_advance = (FLOAT * 1)(100) # dummy offset = (DWRITE_GLYPH_OFFSET * 1)() run = self._glyph_renderer._get_single_glyph_run( font_face, self._real_size, new_indice, # indice, new_advance, # advance, offset, # offset, False, False, ) return self._glyph_renderer.is_color_run(run) def _get_fallback_font_face(self, text_index: int, text_length: int) -> IDWriteFontFace | None: if WINDOWS_8_1_OR_GREATER: out_length = UINT32() fb_font = IDWriteFont() scale = FLOAT() self._fallback.MapCharacters( self._glyph_renderer._text_analysis, text_index, text_length, None, None, self._weight, self._style, self._stretch, byref(out_length), byref(fb_font), byref(scale), ) if fb_font: fb_font_face = IDWriteFontFace() fb_font.CreateFontFace(byref(fb_font_face)) return fb_font_face return None def get_glyphs_no_shape(self, text: str) -> list[Glyph]: """This differs in that it does not attempt to shape the text at all. May be useful in cases where your font has no special shaping requirements, spacing is the same, or some other reason where faster performance is wanted and you can get away with this. """ if not self._glyph_renderer: self._glyph_renderer = self.glyph_renderer_class(self) self._empty_glyph = self._glyph_renderer.render_using_layout(" ") glyphs = [] for c in text: if c == "\t": c = " " if c not in self.glyphs: self.glyphs[c] = self._glyph_renderer.render_using_layout(c) if not self.glyphs[c]: self.glyphs[c] = self._empty_glyph glyphs.append(self.glyphs[c]) return glyphs def get_glyphs(self, text: str) -> list[Glyph]: if not self._glyph_renderer: self._glyph_renderer = self.glyph_renderer_class(self) self._empty_glyph = self._glyph_renderer.render_using_layout(" ") self._zero_glyph = self._glyph_renderer.create_zero_glyph() text_buffer, actual_count, indices, advances, offsets, clusters = self._glyph_renderer.get_string_info(text, self.font_face) metrics = self._glyph_renderer.get_glyph_metrics(self.font_face, indices, actual_count) formatted_clusters = list(clusters) # Convert to real sizes. for i in range(actual_count): advances[i] *= self.font_scale_ratio for i in range(actual_count): offsets[i].advanceOffset *= self.font_scale_ratio offsets[i].ascenderOffset *= self.font_scale_ratio glyphs = [] # Pyglet expects 1 glyph for every string. However, ligatures can combine 1 or more glyphs, leading # to issues with multilines producing wrong output. substitutions = {} for idx in clusters: ct = formatted_clusters.count(idx) if ct > 1: substitutions[idx] = ct - 1 for i in range(actual_count): indice = indices[i] if indice == 0: # If an indice is 0, it will return no glyph. In this case we attempt to render leveraging # the built in text layout from MS. Which depending on version can use fallback fonts and other tricks # to possibly get something of use. glyph = self._render_layout_glyph(text_buffer, i, formatted_clusters) glyphs.append(glyph) else: advance_key = (indice, advances[i], offsets[i].advanceOffset, offsets[i].ascenderOffset) # Glyphs can vary depending on shaping. We will cache it by indice, advance, and offset. # Possible to just cache without offset and set them each time. This may be faster? if indice in self.glyphs: if advance_key in self._advance_cache: glyph = self._advance_cache[advance_key] else: glyph = self.copy_glyph(self.glyphs[indice], advances[i], offsets[i]) self._advance_cache[advance_key] = glyph else: glyph = self._glyph_renderer.render_single_glyph(self.font_face, indice, advances[i], offsets[i], metrics[i]) if glyph is None: # Will only return None if a color glyph is found. Use DW to render it directly. glyph = self._render_layout_glyph(text_buffer, i, formatted_clusters, check_color=False) glyph.colored = True self.glyphs[indice] = glyph self._advance_cache[advance_key] = glyph glyphs.append(glyph) if i in substitutions: for _ in range(substitutions[i]): glyphs.append(self._zero_glyph) return glyphs def create_text_layout(self, text: str) -> IDWriteTextLayout: text_buffer = create_unicode_buffer(text) text_layout = IDWriteTextLayout() hr = self._write_factory.CreateTextLayout(text_buffer, len(text_buffer), self._text_format, 10000, # Doesn't affect bitmap size. 80, byref(text_layout), ) return text_layout @classmethod def _initialize_direct_write(cls: type[Win32DirectWriteFont]) -> None: """All direct write fonts needs factory access as well as the loaders.""" if WINDOWS_10_CREATORS_UPDATE_OR_GREATER: cls._write_factory = IDWriteFactory5() guid = IID_IDWriteFactory5 elif WINDOWS_8_1_OR_GREATER: cls._write_factory = IDWriteFactory2() guid = IID_IDWriteFactory2 else: cls._write_factory = IDWriteFactory() guid = IID_IDWriteFactory DWriteCreateFactory(DWRITE_FACTORY_TYPE_SHARED, guid, byref(cls._write_factory)) @classmethod def _initialize_custom_loaders(cls: type[Win32DirectWriteFont]) -> None: """Initialize the loaders needed to load custom fonts.""" if WINDOWS_10_CREATORS_UPDATE_OR_GREATER: # Windows 10 finally has a built in loader that can take data and make a font out of it w/ COMs. cls._font_loader = IDWriteInMemoryFontFileLoader() cls._write_factory.CreateInMemoryFontFileLoader(byref(cls._font_loader)) cls._write_factory.RegisterFontFileLoader(cls._font_loader) # Used for grouping fonts together. cls._font_builder = IDWriteFontSetBuilder1() cls._write_factory.CreateFontSetBuilder1(byref(cls._font_builder)) else: cls._font_loader = LegacyFontFileLoader() # Note: RegisterFontLoader takes a pointer. However, for legacy we implement our own callback interface. # Therefore we need to pass to the actual pointer directly. cls._write_factory.RegisterFontFileLoader(cls._font_loader.as_interface(IDWriteFontFileLoader_LI)) cls._font_collection_loader = LegacyCollectionLoader(cls._write_factory, cls._font_loader) cls._write_factory.RegisterFontCollectionLoader(cls._font_collection_loader) cls._font_loader_key = cast(create_unicode_buffer("legacy_font_loader"), c_void_p) @classmethod def add_font_data(cls: type[Win32DirectWriteFont], data: BinaryIO) -> None: if not cls._write_factory: cls._initialize_direct_write() if not cls._font_loader: cls._initialize_custom_loaders() if WINDOWS_10_CREATORS_UPDATE_OR_GREATER: font_file = IDWriteFontFile() hr = cls._font_loader.CreateInMemoryFontFileReference(cls._write_factory, data, len(data), None, byref(font_file)) hr = cls._font_builder.AddFontFile(font_file) if hr != 0: raise Exception("This font file data is not not a font or unsupported.") # We have to rebuild collection everytime we add a font. # No way to add fonts to the collection once the FontSet and Collection are created. # Release old one and renew. if cls._custom_collection: cls._font_set.Release() cls._custom_collection.Release() cls._font_set = IDWriteFontSet() cls._font_builder.CreateFontSet(byref(cls._font_set)) cls._custom_collection = IDWriteFontCollection1() cls._write_factory.CreateFontCollectionFromFontSet(cls._font_set, byref(cls._custom_collection)) else: cls._font_cache.append(data) # If a collection exists, we need to completely remake the collection, delete everything and start over. if cls._custom_collection: cls._custom_collection = None cls._write_factory.UnregisterFontCollectionLoader(cls._font_collection_loader) cls._write_factory.UnregisterFontFileLoader(cls._font_loader) cls._font_loader = LegacyFontFileLoader() cls._font_collection_loader = LegacyCollectionLoader(cls._write_factory, cls._font_loader) cls._write_factory.RegisterFontCollectionLoader(cls._font_collection_loader) cls._write_factory.RegisterFontFileLoader(cls._font_loader.as_interface(IDWriteFontFileLoader_LI)) cls._font_collection_loader.AddFontData(cls._font_cache) cls._custom_collection = IDWriteFontCollection() cls._write_factory.CreateCustomFontCollection(cls._font_collection_loader, cls._font_loader_key, sizeof(cls._font_loader_key), byref(cls._custom_collection)) @classmethod def get_collection(cls: type[Win32DirectWriteFont], font_name: str) -> tuple[int | None, IDWriteFontCollection1 | None]: """Returns which collection this font belongs to (system or custom collection), as well as its index in the collection. """ if not cls._write_factory: cls._initialize_direct_write() """Returns a collection the font_name belongs to.""" font_index = UINT() font_exists = BOOL() # Check custom loaded font collections. if cls._custom_collection: cls._custom_collection.FindFamilyName(create_unicode_buffer(font_name), byref(font_index), byref(font_exists)) if font_exists.value: return font_index.value, cls._custom_collection # Check if font is in the system collection. # Do not cache these values permanently as system font collection can be updated during runtime. sys_collection = IDWriteFontCollection() if not font_exists.value: cls._write_factory.GetSystemFontCollection(byref(sys_collection), 1) sys_collection.FindFamilyName(create_unicode_buffer(font_name), byref(font_index), byref(font_exists)) if font_exists.value: return font_index.value, sys_collection return None, None @classmethod def find_font_face(cls, font_name: str, bold: bool | str, italic: bool | str, stretch: bool | str) -> tuple[ IDWriteFont | None, IDWriteFontCollection | None]: """This will search font collections for legacy RBIZ names. However, matching to bold, italic, stretch is problematic in that there are many values. We parse the font name looking for matches to the name database, and attempt to pick the closest match. This will search all fonts on the system and custom loaded, and all of their font faces. Returns a collection and IDWriteFont if successful. """ p_bold, p_italic, p_stretch = cls.parse_name(font_name, bold, italic, stretch) _debug_print(f"directwrite: '{font_name}' not found. Attempting legacy name lookup in all collections.") if cls._custom_collection: collection_idx = cls.find_legacy_font(cls._custom_collection, font_name, p_bold, p_italic, p_stretch) if collection_idx is not None: return collection_idx, cls._custom_collection sys_collection = IDWriteFontCollection() cls._write_factory.GetSystemFontCollection(byref(sys_collection), 1) collection_idx = cls.find_legacy_font(sys_collection, font_name, p_bold, p_italic, p_stretch) if collection_idx is not None: return collection_idx, sys_collection return None, None @classmethod def have_font(cls: type[Win32DirectWriteFont], name: str) -> bool: if cls.get_collection(name)[0] is not None: return True return False @staticmethod def parse_name(font_name: str, weight: int, style: int, stretch: int) -> tuple[int, int, int]: """Attempt at parsing any special names in a font for legacy checks. Takes the first found.""" font_name = font_name.lower() split_name = font_name.split(" ") found_weight = weight found_style = style found_stretch = stretch # Only search if name is split more than once. if len(split_name) > 1: for name, value in name_to_weight.items(): if name in split_name: found_weight = value break for name, value in name_to_style.items(): if name in split_name: found_style = value break for name, value in name_to_stretch.items(): if name in split_name: found_stretch = value break return found_weight, found_style, found_stretch @staticmethod def find_legacy_font(collection: IDWriteFontCollection, font_name: str, bold: bool | str, italic: bool | str, stretch: bool | str, full_debug: bool=False) -> IDWriteFont | None: coll_count = collection.GetFontFamilyCount() assert _debug_print(f"directwrite: Found {coll_count} fonts in collection.") locale = get_system_locale() for i in range(coll_count): family = IDWriteFontFamily() collection.GetFontFamily(i, byref(family)) # Just check the first character in Family Names to reduce search time. Arial -> A's only. family_name_str = IDWriteLocalizedStrings() family.GetFamilyNames(byref(family_name_str)) family_names = Win32DirectWriteFont.unpack_localized_string(family_name_str, locale) family_name = family_names[0] if family_name[0] != font_name[0]: family.Release() continue assert _debug_print(f"directwrite: Inspecting family name: {family_name}") # Fonts in the family. Full search to search all font faces, typically the first will be good enough to tell ft_ct = family.GetFontCount() face_names = [] matches = [] for j in range(ft_ct): temp_ft = IDWriteFont() family.GetFont(j, byref(temp_ft)) if _debug_font and full_debug: fc_str = IDWriteLocalizedStrings() temp_ft.GetFaceNames(byref(fc_str)) strings = Win32DirectWriteFont.unpack_localized_string(fc_str, locale) face_names.extend(strings) print(f"directwrite: Face names found: {strings}") # Check for GDI compatibility name compat_names = IDWriteLocalizedStrings() exists = BOOL() temp_ft.GetInformationalStrings(DWRITE_INFORMATIONAL_STRING_WIN32_FAMILY_NAMES, byref(compat_names), byref(exists)) # Successful in finding GDI name. match_found = False if exists.value != 0: for compat_name in Win32DirectWriteFont.unpack_localized_string(compat_names, locale): if compat_name == font_name: assert _debug_print( f"Found legacy name '{font_name}' as '{family_name}' in font face '{j}' (collection " f"id #{i}).") match_found = True matches.append((temp_ft.GetWeight(), temp_ft.GetStyle(), temp_ft.GetStretch(), temp_ft)) break # Release resource if not a match. if not match_found: temp_ft.Release() family.Release() # If we have matches, we've already parsed through the proper family. Now try to match. if matches: write_font = Win32DirectWriteFont.match_closest_font(matches, bold, italic, stretch) # Cleanup other matches not used. for match in matches: if match[3] != write_font: match[3].Release() # Release all other matches. return write_font return None @staticmethod def match_closest_font(font_list: list[tuple[int, int, int, IDWriteFont]], bold: int, italic: int, stretch: int) -> IDWriteFont | None: """Match the closest font to the parameters specified. If a full match is not found, a secondary match will be found based on similar features. This can probably be improved, but it is possible you could get a different font style than expected. """ closest = [] for match in font_list: (f_weight, f_style, f_stretch, writefont) = match # Found perfect match, no need for the rest. if f_weight == bold and f_style == italic and f_stretch == stretch: _debug_print( f"directwrite: full match found. (bold: {f_weight}, italic: {f_style}, stretch: {f_stretch})") return writefont prop_match = 0 similar_match = 0 # Look for a full match, otherwise look for close enough. # For example, Arial Black only has Oblique, not Italic, but good enough if you want slanted text. if f_weight == bold: prop_match += 1 elif bold != DWRITE_FONT_WEIGHT_NORMAL and f_weight != DWRITE_FONT_WEIGHT_NORMAL: similar_match += 1 if f_style == italic: prop_match += 1 elif italic != DWRITE_FONT_STYLE_NORMAL and f_style != DWRITE_FONT_STYLE_NORMAL: similar_match += 1 if stretch == f_stretch: prop_match += 1 elif stretch != DWRITE_FONT_STRETCH_NORMAL and f_stretch != DWRITE_FONT_STRETCH_NORMAL: similar_match += 1 closest.append((prop_match, similar_match, *match)) # If we get here, no perfect match, sort by highest perfect match, to secondary matches. closest.sort(key=lambda fts: (fts[0], fts[1]), reverse=True) if closest: # Take the first match after sorting. closest_match = closest[0] _debug_print(f"directwrite: falling back to partial match. " f"(bold: {closest_match[2]}, italic: {closest_match[3]}, stretch: {closest_match[4]})") return closest_match[5] return None @staticmethod def unpack_localized_string(local_string: IDWriteLocalizedStrings, locale: str) -> list[str]: """Takes IDWriteLocalizedStrings and unpacks the strings inside of it into a list.""" str_array_len = local_string.GetCount() strings = [] for _ in range(str_array_len): string_size = UINT32() idx = Win32DirectWriteFont.get_localized_index(local_string, locale) local_string.GetStringLength(idx, byref(string_size)) buffer_size = string_size.value buffer = create_unicode_buffer(buffer_size + 1) local_string.GetString(idx, buffer, len(buffer)) strings.append(buffer.value) local_string.Release() return strings @staticmethod def get_localized_index(strings: IDWriteLocalizedStrings, locale: str) -> int: idx = UINT32() exists = BOOL() if locale: strings.FindLocaleName(locale, byref(idx), byref(exists)) if not exists.value: # fallback to english. strings.FindLocaleName("en-us", byref(idx), byref(exists)) if not exists: return 0 return idx.value return 0 d2d_factory = ID2D1Factory() hr = D2D1CreateFactory(D2D1_FACTORY_TYPE_SINGLE_THREADED, IID_ID2D1Factory, None, byref(d2d_factory)) WICBitmapCreateCacheOption = UINT WICBitmapNoCache = 0 WICBitmapCacheOnDemand = 0x1 WICBitmapCacheOnLoad = 0x2 transparent = D2D1_COLOR_F(0.0, 0.0, 0.0, 0.0) white = D2D1_COLOR_F(1.0, 1.0, 1.0, 1.0) no_offset = D2D_POINT_2F(0, 0) # If we are not shaping, monkeypatch to no shape function. if pyglet.options["win32_disable_shaping"]: Win32DirectWriteFont.get_glyphs = Win32DirectWriteFont.get_glyphs_no_shape