C++程序  |  469行  |  21.48 KB

/*
 * Copyright 2013 Google Inc.
 *
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 */

#include "SkPdfFont.h"

#include "SkPdfNativeTokenizer.h"
#include "SkStream.h"
#include "SkTypeface.h"

SkTDict<SkPdfStandardFontEntry>& getStandardFonts() {
    static SkTDict<SkPdfStandardFontEntry> gPdfStandardFonts(100);

    // TODO (edisonn): , vs - ? what does it mean?
    // TODO (edisonn): MT, PS, Oblique=italic?, ... what does it mean?
    if (gPdfStandardFonts.count() == 0) {
        gPdfStandardFonts.set("Arial", SkPdfStandardFontEntry("Arial", false, false));
        gPdfStandardFonts.set("Arial,Bold", SkPdfStandardFontEntry("Arial", true, false));
        gPdfStandardFonts.set("Arial,BoldItalic", SkPdfStandardFontEntry("Arial", true, true));
        gPdfStandardFonts.set("Arial,Italic", SkPdfStandardFontEntry("Arial", false, true));
        gPdfStandardFonts.set("Arial-Bold", SkPdfStandardFontEntry("Arial", true, false));
        gPdfStandardFonts.set("Arial-BoldItalic", SkPdfStandardFontEntry("Arial", true, true));
        gPdfStandardFonts.set("Arial-BoldItalicMT", SkPdfStandardFontEntry("Arial", true, true));
        gPdfStandardFonts.set("Arial-BoldMT", SkPdfStandardFontEntry("Arial", true, false));
        gPdfStandardFonts.set("Arial-Italic", SkPdfStandardFontEntry("Arial", false, true));
        gPdfStandardFonts.set("Arial-ItalicMT", SkPdfStandardFontEntry("Arial", false, true));
        gPdfStandardFonts.set("ArialMT", SkPdfStandardFontEntry("Arial", false, false));
        gPdfStandardFonts.set("Courier", SkPdfStandardFontEntry("Courier New", false, false));
        gPdfStandardFonts.set("Courier,Bold", SkPdfStandardFontEntry("Courier New", true, false));
        gPdfStandardFonts.set("Courier,BoldItalic", SkPdfStandardFontEntry("Courier New", true, true));
        gPdfStandardFonts.set("Courier,Italic", SkPdfStandardFontEntry("Courier New", false, true));
        gPdfStandardFonts.set("Courier-Bold", SkPdfStandardFontEntry("Courier New", true, false));
        gPdfStandardFonts.set("Courier-BoldOblique", SkPdfStandardFontEntry("Courier New", true, true));
        gPdfStandardFonts.set("Courier-Oblique", SkPdfStandardFontEntry("Courier New", false, true));
        gPdfStandardFonts.set("CourierNew", SkPdfStandardFontEntry("Courier New", false, false));
        gPdfStandardFonts.set("CourierNew,Bold", SkPdfStandardFontEntry("Courier New", true, false));
        gPdfStandardFonts.set("CourierNew,BoldItalic", SkPdfStandardFontEntry("Courier New", true, true));
        gPdfStandardFonts.set("CourierNew,Italic", SkPdfStandardFontEntry("Courier New", false, true));
        gPdfStandardFonts.set("CourierNew-Bold", SkPdfStandardFontEntry("Courier New", true, false));
        gPdfStandardFonts.set("CourierNew-BoldItalic", SkPdfStandardFontEntry("Courier New", true, true));
        gPdfStandardFonts.set("CourierNew-Italic", SkPdfStandardFontEntry("Courier New", false, true));
        gPdfStandardFonts.set("CourierNewPS-BoldItalicMT", SkPdfStandardFontEntry("Courier New", true, true));
        gPdfStandardFonts.set("CourierNewPS-BoldMT", SkPdfStandardFontEntry("Courier New", true, false));
        gPdfStandardFonts.set("CourierNewPS-ItalicMT", SkPdfStandardFontEntry("Courier New", false, true));
        gPdfStandardFonts.set("CourierNewPSMT", SkPdfStandardFontEntry("Courier New", false, false));
        gPdfStandardFonts.set("Helvetica", SkPdfStandardFontEntry("Helvetica", false, false));
        gPdfStandardFonts.set("Helvetica,Bold", SkPdfStandardFontEntry("Helvetica", true, false));
        gPdfStandardFonts.set("Helvetica,BoldItalic", SkPdfStandardFontEntry("Helvetica", true, true));
        gPdfStandardFonts.set("Helvetica,Italic", SkPdfStandardFontEntry("Helvetica", false, true));
        gPdfStandardFonts.set("Helvetica-Bold", SkPdfStandardFontEntry("Helvetica", true, false));
        gPdfStandardFonts.set("Helvetica-BoldItalic", SkPdfStandardFontEntry("Helvetica", true, true));
        gPdfStandardFonts.set("Helvetica-BoldOblique", SkPdfStandardFontEntry("Helvetica", true, true));
        gPdfStandardFonts.set("Helvetica-Italic", SkPdfStandardFontEntry("Helvetica", false, true));
        gPdfStandardFonts.set("Helvetica-Oblique", SkPdfStandardFontEntry("Helvetica", false, true));
        gPdfStandardFonts.set("Times-Bold", SkPdfStandardFontEntry("Times New Roman", true, false));
        gPdfStandardFonts.set("Times-BoldItalic", SkPdfStandardFontEntry("Times New Roman", true, true));
        gPdfStandardFonts.set("Times-Italic", SkPdfStandardFontEntry("Times New Roman", false, true));
        gPdfStandardFonts.set("Times-Roman", SkPdfStandardFontEntry("Times New Roman", false, false));
        gPdfStandardFonts.set("TimesNewRoman", SkPdfStandardFontEntry("Times New Roman", false, false));
        gPdfStandardFonts.set("TimesNewRoman,Bold", SkPdfStandardFontEntry("Times New Roman", true, false));
        gPdfStandardFonts.set("TimesNewRoman,BoldItalic", SkPdfStandardFontEntry("Times New Roman", true, true));
        gPdfStandardFonts.set("TimesNewRoman,Italic", SkPdfStandardFontEntry("Times New Roman", false, true));
        gPdfStandardFonts.set("TimesNewRoman-Bold", SkPdfStandardFontEntry("Times New Roman", true, false));
        gPdfStandardFonts.set("TimesNewRoman-BoldItalic", SkPdfStandardFontEntry("Times New Roman", true, true));
        gPdfStandardFonts.set("TimesNewRoman-Italic", SkPdfStandardFontEntry("Times New Roman", false, true));
        gPdfStandardFonts.set("TimesNewRomanPS", SkPdfStandardFontEntry("Times New Roman", false, false));
        gPdfStandardFonts.set("TimesNewRomanPS-Bold", SkPdfStandardFontEntry("Times New Roman", true, false));
        gPdfStandardFonts.set("TimesNewRomanPS-BoldItalic", SkPdfStandardFontEntry("Times New Roman", true, true));
        gPdfStandardFonts.set("TimesNewRomanPS-BoldItalicMT", SkPdfStandardFontEntry("Times New Roman", true, true));
        gPdfStandardFonts.set("TimesNewRomanPS-BoldMT", SkPdfStandardFontEntry("Times New Roman", true, false));
        gPdfStandardFonts.set("TimesNewRomanPS-Italic", SkPdfStandardFontEntry("Times New Roman", false, true));
        gPdfStandardFonts.set("TimesNewRomanPS-ItalicMT", SkPdfStandardFontEntry("Times New Roman", false, true));
        gPdfStandardFonts.set("TimesNewRomanPSMT", SkPdfStandardFontEntry("Times New Roman", false, false));
        gPdfStandardFonts.set("Symbol", SkPdfStandardFontEntry("Symbol", false, false));
        gPdfStandardFonts.set("ZapfDingbats", SkPdfStandardFontEntry("ZapfDingbats", false, false));

        // TODO(edisonn): these are hacks. Load Post Script font name.
        // see FT_Get_Postscript_Name
        // Font config is not using it, yet.
        //https://bugs.freedesktop.org/show_bug.cgi?id=18095

        gPdfStandardFonts.set("Arial-Black", SkPdfStandardFontEntry("Arial", true, false));
        gPdfStandardFonts.set("DejaVuSans", SkPdfStandardFontEntry("DejaVu Sans", false, false));
        gPdfStandardFonts.set("DejaVuSansMono", SkPdfStandardFontEntry("DejaVuSans Mono", false, false));
        gPdfStandardFonts.set("DejaVuSansMono-Bold", SkPdfStandardFontEntry("DejaVuSans Mono", true, false));
        gPdfStandardFonts.set("DejaVuSansMono-Oblique", SkPdfStandardFontEntry("DejaVuSans Mono", false, true));
        gPdfStandardFonts.set("Georgia-Bold", SkPdfStandardFontEntry("Georgia", true, false));
        gPdfStandardFonts.set("Georgia-BoldItalic", SkPdfStandardFontEntry("Georgia", true, true));
        gPdfStandardFonts.set("Georgia-Italic", SkPdfStandardFontEntry("Georgia", false, true));
        gPdfStandardFonts.set("TrebuchetMS", SkPdfStandardFontEntry("Trebuchet MS", false, false));
        gPdfStandardFonts.set("TrebuchetMS-Bold", SkPdfStandardFontEntry("Trebuchet MS", true, false));
        gPdfStandardFonts.set("Verdana-Bold", SkPdfStandardFontEntry("Verdana", true, false));
        gPdfStandardFonts.set("WenQuanYiMicroHei", SkPdfStandardFontEntry("WenQuanYi Micro Hei", false, false));

        // TODO(edisonn): list all fonts available, buil post script name as in pdf spec
        // TODO(edisonn): Does it work in all OSs ?
        /*
         * The PostScript name for the value of BaseFontis determined in one of two ways:
• Use the PostScript name that is an optional entry in the “name” table of the
TrueType font itself.
• In the absence of such an entry in the “name” table, derive a PostScript name
from the name by which the font is known in the host operating system: on a
Windows system, it is based on the lfFaceName field in a LOGFONT structure; in
the Mac OS, it is based on the name of the FONDresource. If the name contains
any spaces, the spaces are removed.
If the font in a source document uses a bold or italic style, but there is no font
data for that style, the host operating system will synthesize the style. In this case,
a comma and the style name (one of Bold, Italic, or BoldItalic) are appended to the
font name. For example, for a TrueType font that is a bold variant of the New
         */

        /*
         * If the value of Subtype is MMType1.
• If the PostScript name of the instance contains spaces, the spaces are replaced
by underscores in the value of BaseFont. For instance, as illustrated in Example
5.7, the name “MinionMM 366 465 11 ” (which ends with a space character)
becomes /MinionMM_366_465_11_.
         */
    }

    return gPdfStandardFonts;
}

SkTypeface* SkTypefaceFromPdfStandardFont(const char* fontName, bool bold, bool italic) {
    SkTDict<SkPdfStandardFontEntry>& standardFontMap = getStandardFonts();

    SkTypeface* typeface = NULL;
    SkPdfStandardFontEntry fontData;

    if (standardFontMap.find(fontName, &fontData)) {
        // TODO(edisonn): How does the bold/italic specified in standard definition combines with
        // the one in /font key? use OR for now.
        bold = bold || fontData.fIsBold;
        italic = italic || fontData.fIsItalic;

        typeface = SkTypeface::CreateFromName(
            fontData.fName,
            SkTypeface::Style((bold ? SkTypeface::kBold : 0) |
                              (italic ? SkTypeface::kItalic : 0)));
    } else {
        typeface = SkTypeface::CreateFromName(
            fontName,
            SkTypeface::kNormal);
    }

    if (typeface) {
        typeface->ref();
    }
    return typeface;
}

SkPdfFont* SkPdfFont::fontFromFontDescriptor(SkPdfNativeDoc* doc, SkPdfFontDescriptorDictionary* fd,
                                             bool loadFromName) {
    // TODO(edisonn): partial implementation.
    // Only one, at most be available
    SkPdfStream* pdfStream = NULL;
    if (fd->has_FontFile()) {
        pdfStream = fd->FontFile(doc);
    } else if (fd->has_FontFile2()) {
        pdfStream = fd->FontFile2(doc);
    } if (fd->has_FontFile3()) {
        pdfStream = fd->FontFile3(doc);
    } else {
        if (loadFromName) {
            return fontFromName(doc, fd, fd->FontName(doc).c_str());
        }
    }

    const unsigned char* uncompressedStream = NULL;
    size_t uncompressedStreamLength = 0;

    // TODO(edisonn): report warning to be used in testing.
    if (!pdfStream ||
            !pdfStream->GetFilteredStreamRef(&uncompressedStream, &uncompressedStreamLength) ||
            !uncompressedStream ||
            !uncompressedStreamLength) {
        return NULL;
    }

    SkMemoryStream* skStream = new SkMemoryStream(uncompressedStream, uncompressedStreamLength);
    SkTypeface* face = SkTypeface::CreateFromStream(skStream);

    if (face == NULL) {
        // TODO(edisonn): report warning to be used in testing.
        return NULL;
    }

    face->ref();

    return new SkPdfStandardFont(face);
}

SkPdfFont* fontFromName(SkPdfNativeDoc* doc, SkPdfNativeObject* obj, const char* fontName) {
    SkTypeface* typeface = SkTypefaceFromPdfStandardFont(fontName, false, false);
    if (typeface != NULL) {
        return new SkPdfStandardFont(typeface);
    }

    // TODO(edisonn): perf - make a map
    for (unsigned int i = 0 ; i < doc->objects(); i++) {
        SkPdfNativeObject* obj = doc->object(i);
        if (!obj || !obj->isDictionary()) {
            continue;
        }

        SkPdfFontDescriptorDictionary* fd = obj->asDictionary()->asFontDescriptorDictionary();

        if (!fd->valid()) {
            continue;
        }

        if (fd->has_FontName() && fd->FontName(doc).equals(fontName)) {
            SkPdfFont* font = SkPdfFont::fontFromFontDescriptor(doc, fd, false);
            if (font) {
                return font;
            } else {
                // failed to load font descriptor
                break;
            }
        }
    }

    // TODO(edisonn): warning/report issue
    return SkPdfFont::Default();
}

SkPdfFont* SkPdfFont::fontFromPdfDictionaryOnce(SkPdfNativeDoc* doc, SkPdfFontDictionary* dict) {
    // TODO(edisonn): keep the type in a smart way in the SkPdfNativeObject
    // 1) flag, isResolved (1bit): reset at reset, add/remove/update (array) and set(dict)
    // in a tree like structure, 3-4 bits for all the datatypes inheriting from obj (int, real, ...)
    // if is a dict, reserve a few bytes to encode type of dict, and so on like in a tree
    // issue: type can be determined from context! atribute night be missing/wrong
    switch (doc->mapper()->mapFontDictionary(dict)) {
        case kType0FontDictionary_SkPdfNativeObjectType:
            return fontFromType0FontDictionary(doc, dict->asType0FontDictionary());

        case kTrueTypeFontDictionary_SkPdfNativeObjectType:
            return fontFromTrueTypeFontDictionary(doc, dict->asTrueTypeFontDictionary());

        case kType1FontDictionary_SkPdfNativeObjectType:
            return fontFromType1FontDictionary(doc, dict->asType1FontDictionary());

        case kMultiMasterFontDictionary_SkPdfNativeObjectType:
            return fontFromMultiMasterFontDictionary(doc, dict->asMultiMasterFontDictionary());

        case kType3FontDictionary_SkPdfNativeObjectType:
            return fontFromType3FontDictionary(doc, dict->asType3FontDictionary());

        default:
            // TODO(edisonn): report error?
            return NULL;
    }
}

SkPdfFont* SkPdfFont::fontFromPdfDictionary(SkPdfNativeDoc* doc, SkPdfFontDictionary* dict) {
    if (dict == NULL) {
        return NULL;  // TODO(edisonn): report default one?
    }

    if (!dict->hasData(SkPdfNativeObject::kFont_Data)) {
        dict->setData(fontFromPdfDictionaryOnce(doc, dict), SkPdfNativeObject::kFont_Data);
    }
    return (SkPdfFont*)dict->data(SkPdfNativeObject::kFont_Data);
}



SkPdfType0Font* SkPdfFont::fontFromType0FontDictionary(SkPdfNativeDoc* doc,
                                                       SkPdfType0FontDictionary* dict) {
    if (dict == NULL) {
        return NULL;  // default one?
    }

    return new SkPdfType0Font(doc, dict);
}

SkPdfType1Font* SkPdfFont:: fontFromType1FontDictionary(SkPdfNativeDoc* doc,
                                                        SkPdfType1FontDictionary* dict) {
    if (dict == NULL) {
        return NULL;  // default one?
    }

    return new SkPdfType1Font(doc, dict);
}

SkPdfType3Font* SkPdfFont::fontFromType3FontDictionary(SkPdfNativeDoc* doc,
                                                       SkPdfType3FontDictionary* dict) {
    if (dict == NULL) {
        return NULL;  // default one?
    }



    return new SkPdfType3Font(doc, dict);
}

SkPdfTrueTypeFont* SkPdfFont::fontFromTrueTypeFontDictionary(SkPdfNativeDoc* doc,
                                                             SkPdfTrueTypeFontDictionary* dict) {
    if (dict == NULL) {
        return NULL;  // default one?
    }

    return new SkPdfTrueTypeFont(doc, dict);
}

SkPdfMultiMasterFont* SkPdfFont::fontFromMultiMasterFontDictionary(
        SkPdfNativeDoc* doc, SkPdfMultiMasterFontDictionary* dict) {
    if (dict == NULL) {
        return NULL;  // default one?
    }

    return new SkPdfMultiMasterFont(doc, dict);
}

static int skstoi(const SkPdfNativeObject* str) {
    // TODO(edisonn): report err of it is not a (hex) string
    int ret = 0;
    for (unsigned int i = 0 ; i < str->lenstr(); i++) {
        ret = (ret << 8) + ((unsigned char*)str->c_str())[i];
    }
    // TODO(edisonn): character larger than 0x0000ffff not supported right now.
    return ret & 0x0000ffff;
}

#define tokenIsKeyword(token,keyword) (token.fType == kKeyword_TokenType && \
                                      token.fKeywordLength==sizeof(keyword)-1 && \
                                      strncmp(token.fKeyword, keyword, sizeof(keyword)-1) == 0)

SkPdfToUnicode::SkPdfToUnicode(SkPdfNativeDoc* parsed, SkPdfStream* stream) {
    fCMapEncoding = NULL;
    fCMapEncodingFlag = NULL;

    if (stream) {
        // Since font will be cached, the font has to sit in the per doc allocator, not to be
        // freed after the page is done drawing.
        SkPdfNativeTokenizer tokenizer(stream, parsed->allocator(), parsed);
        PdfToken token;

        fCMapEncoding = new unsigned short[256 * 256];
        fCMapEncodingFlag = new unsigned char[256 * 256];
        for (int i = 0 ; i < 256 * 256; i++) {
            fCMapEncoding[i] = i;
            fCMapEncodingFlag[i] = 0;
        }

        // TODO(edisonn): deal with multibyte character, or longer strings.
        // Right now we deal with up 2 characters, e.g. <0020> but not longer like <00660066006C>
        //2 beginbfrange
        //<0000> <005E> <0020>
        //<005F> <0061> [<00660066> <00660069> <00660066006C>]

        while (tokenizer.readToken(&token)) {

            if (tokenIsKeyword(token, "begincodespacerange")) {
                while (tokenizer.readToken(&token) &&
                       !tokenIsKeyword(token, "endcodespacerange")) {
//                    tokenizer.PutBack(token);
//                    tokenizer.readToken(&token);
                    // TODO(edisonn): check token type! ignore/report errors.
                    int start = skstoi(token.fObject);
                    tokenizer.readToken(&token);
                    int end = skstoi(token.fObject);
                    for (int i = start; i <= end; i++) {
                        fCMapEncodingFlag[i] |= 1;
                    }
                }
            }

            if (tokenIsKeyword(token, "beginbfchar")) {
                while (tokenizer.readToken(&token) && !tokenIsKeyword(token, "endbfchar")) {
//                    tokenizer.PutBack(token);
//                    tokenizer.readToken(&token);
                    int from = skstoi(token.fObject);
                    tokenizer.readToken(&token);
                    int to = skstoi(token.fObject);

                    fCMapEncodingFlag[from] |= 2;
                    fCMapEncoding[from] = to;
                }
            }

            if (tokenIsKeyword(token, "beginbfrange")) {
                while (tokenizer.readToken(&token) && !tokenIsKeyword(token, "endbfrange")) {
//                    tokenizer.PutBack(token);
//                    tokenizer.readToken(&token);
                    int start = skstoi(token.fObject);
                    tokenizer.readToken(&token);
                    int end = skstoi(token.fObject);


                    tokenizer.readToken(&token); // [ or just an array directly?
                    // do not putback, we will reuse the read. See next commented read.
//                    tokenizer.PutBack(token);

                    // TODO(edisonn): read spec: any string or only hex string?
                    if (token.fType == kObject_TokenType && token.fObject->isAnyString()) {
//                        tokenizer.readToken(&token);
                        int value = skstoi(token.fObject);

                        for (int i = start; i <= end; i++) {
                            fCMapEncodingFlag[i] |= 2;
                            fCMapEncoding[i] = value;
                            value++;
                            // if i != end, verify last byte id not if, ignore/report error
                        }

                        // read one string
                    } else if (token.fType == kObject_TokenType && token.fObject->isArray()) {
//                        tokenizer.readToken(&token);
                        // read array
                        for (unsigned int i = 0; i < token.fObject->size(); i++) {
                            fCMapEncodingFlag[start + i] |= 2;
                            fCMapEncoding[start + i] = skstoi((*token.fObject)[i]);
                        }
                    } else {
                        tokenizer.PutBack(token);
                    }
                }
            }
        }
    }
}

SkPdfType0Font::SkPdfType0Font(SkPdfNativeDoc* doc, SkPdfType0FontDictionary* dict) {
    fBaseFont = fontFromName(doc, dict, dict->BaseFont(doc).c_str());
    fEncoding = NULL;

    if (dict->has_Encoding()) {
        if (dict->isEncodingAName(doc)) {
            fEncoding = SkPdfEncoding::fromName(dict->getEncodingAsName(doc).c_str());
        } else if (dict->isEncodingAStream(doc)) {
            // TODO(edisonn): NYI
            //fEncoding = loadEncodingFromStream(dict->getEncodingAsStream());
        } else {
            // TODO(edisonn): error ... warning .. assert?
        }
    }

    if (dict->has_ToUnicode()) {
        fToUnicode = new SkPdfToUnicode(doc, dict->ToUnicode(doc));
    }
}

SkTDict<SkPdfEncoding*>& getStandardEncodings() {
    static SkTDict<SkPdfEncoding*> encodings(10);
    if (encodings.count() == 0) {
        encodings.set("Identity-H", SkPdfIdentityHEncoding::instance());
    }

    return encodings;
}

SkPdfEncoding* SkPdfEncoding::fromName(const char* name) {
    SkPdfEncoding* encoding = NULL;
    if (!getStandardEncodings().find(name, &encoding)) {
        encoding = NULL;
    }

#ifdef PDF_TRACE
    if (encoding == NULL) {
        printf("Encoding not found: %s\n", name);
    }
#endif
    return encoding;
}