//
// TextOutputDev.cc
//
-// Copyright 1997 Derek B. Noonburg
+// Copyright 1997-2003 Glyph & Cog, LLC
//
//========================================================================
-#ifdef __GNUC__
+#include <aconf.h>
+
+#ifdef USE_GCC_PRAGMAS
#pragma implementation
#endif
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
+#include <math.h>
#include <ctype.h>
-#include "GString.h"
+#ifdef WIN32
+#include <fcntl.h> // for O_BINARY
+#include <io.h> // for setmode
+#endif
#include "gmem.h"
+#include "GString.h"
+#include "GList.h"
#include "config.h"
#include "Error.h"
+#include "GlobalParams.h"
+#include "UnicodeMap.h"
+#include "UnicodeTypeTable.h"
#include "GfxState.h"
-#include "FontEncoding.h"
#include "TextOutputDev.h"
-#include "TextOutputFontInfo.h"
+#ifdef MACOS
+// needed for setting type/creator of MacOS files
+#include "ICSupport.h"
+#endif
//------------------------------------------------------------------------
-// Character substitutions
+// parameters
//------------------------------------------------------------------------
-static char *isoLatin1Subst[] = {
- "L", // Lslash
- "OE", // OE
- "S", // Scaron
- "Y", // Ydieresis
- "Z", // Zcaron
- "fi", "fl", // ligatures
- "ff", "ffi", "ffl", // ligatures
- "i", // dotlessi
- "l", // lslash
- "oe", // oe
- "s", // scaron
- "z", // zcaron
- "*", // bullet
- "...", // ellipsis
- "-", "-", // emdash, hyphen
- "\"", "\"", // quotedblleft, quotedblright
- "'", // quotesingle
- "TM" // trademark
-};
+// Each bucket in a text pool includes baselines within a range of
+// this many points.
+#define textPoolStep 4
+
+// Inter-character space width which will cause addChar to start a new
+// word.
+#define minWordBreakSpace 0.1
+
+// Negative inter-character space width, i.e., overlap, which will
+// cause addChar to start a new word.
+#define minDupBreakOverlap 0.2
+
+// Max distance between baselines of two lines within a block, as a
+// fraction of the font size.
+#define maxLineSpacingDelta 1.5
+
+// Max difference in primary font sizes on two lines in the same
+// block. Delta1 is used when examining new lines above and below the
+// current block; delta2 is used when examining text that overlaps the
+// current block; delta3 is used when examining text to the left and
+// right of the current block.
+#define maxBlockFontSizeDelta1 0.05
+#define maxBlockFontSizeDelta2 0.6
+#define maxBlockFontSizeDelta3 0.2
+
+// Max difference in font sizes inside a word.
+#define maxWordFontSizeDelta 0.05
+
+// Maximum distance between baselines of two words on the same line,
+// e.g., distance between subscript or superscript and the primary
+// baseline, as a fraction of the font size.
+#define maxIntraLineDelta 0.5
+
+// Minimum inter-word spacing, as a fraction of the font size. (Only
+// used for raw ordering.)
+#define minWordSpacing 0.15
+
+// Maximum inter-word spacing, as a fraction of the font size.
+#define maxWordSpacing 1.5
+
+// Maximum horizontal spacing which will allow a word to be pulled
+// into a block.
+#define minColSpacing1 0.3
+
+// Minimum spacing between columns, as a fraction of the font size.
+#define minColSpacing2 1.0
+
+// Maximum vertical spacing between blocks within a flow, as a
+// multiple of the font size.
+#define maxBlockSpacing 2.5
+
+// Minimum spacing between characters within a word, as a fraction of
+// the font size.
+#define minCharSpacing -0.2
+
+// Maximum spacing between characters within a word, as a fraction of
+// the font size, when there is no obvious extra-wide character
+// spacing.
+#define maxCharSpacing 0.03
+
+// When extra-wide character spacing is detected, the inter-character
+// space threshold is set to the minimum inter-character space
+// multiplied by this constant.
+#define maxWideCharSpacingMul 1.3
+
+// Max difference in primary,secondary coordinates (as a fraction of
+// the font size) allowed for duplicated text (fake boldface, drop
+// shadows) which is to be discarded.
+#define dupMaxPriDelta 0.1
+#define dupMaxSecDelta 0.2
-static char *ascii7Subst[] = {
- "A", "A", "A", "A", // A{acute,circumflex,dieresis,grave}
- "A", "A", // A{ring,tilde}
- "AE", // AE
- "C", // Ccedilla
- "E", "E", "E", "E", // E{acute,circumflex,dieresis,grave}
- "I", "I", "I", "I", // I{acute,circumflex,dieresis,grave}
- "L", // Lslash
- "N", // Ntilde
- "O", "O", "O", "O", // O{acute,circumflex,dieresis,grave}
- "O", "O", // O{slash,tilde}
- "OE", // OE
- "S", // Scaron
- "U", "U", "U", "U", // U{acute,circumflex,dieresis,grave}
- "Y", "Y", // T{acute,dieresis}
- "Z", // Zcaron
- "a", "a", "a", "a", // a{acute,circumflex,dieresis,grave}
- "a", "a", // a{ring,tilde}
- "ae", // ae
- "c", // ccedilla
- "e", "e", "e", "e", // e{acute,circumflex,dieresis,grave}
- "fi", "fl", // ligatures
- "ff", "ffi", "ffl", // ligatures
- "i", // dotlessi
- "i", "i", "i", "i", // i{acute,circumflex,dieresis,grave}
- "l", // lslash
- "n", // ntilde
- "o", "o", "o", "o", // o{acute,circumflex,dieresis,grave}
- "o", "o", // o{slash,tilde}
- "oe", // oe
- "s", // scaron
- "u", "u", "u", "u", // u{acute,circumflex,dieresis,grave}
- "y", "y", // t{acute,dieresis}
- "z", // zcaron
- "|", // brokenbar
- "*", // bullet
- "...", // ellipsis
- "-", "-", "-", // emdash, endash, hyphen
- "\"", "\"", // quotedblleft, quotedblright
- "'", // quotesingle
- "(R)", // registered
- "TM" // trademark
-};
+//------------------------------------------------------------------------
+// TextFontInfo
+//------------------------------------------------------------------------
+
+TextFontInfo::TextFontInfo(GfxState *state) {
+ gfxFont = state->getFont();
+#if TEXTOUT_WORD_LIST
+ fontName = (gfxFont && gfxFont->getOrigName())
+ ? gfxFont->getOrigName()->copy()
+ : (GString *)NULL;
+#endif
+}
+
+TextFontInfo::~TextFontInfo() {
+#if TEXTOUT_WORD_LIST
+ if (fontName) {
+ delete fontName;
+ }
+#endif
+}
+
+GBool TextFontInfo::matches(GfxState *state) {
+ return state->getFont() == gfxFont;
+}
+
+//------------------------------------------------------------------------
+// TextWord
+//------------------------------------------------------------------------
+
+TextWord::TextWord(GfxState *state, int rotA, double x0, double y0,
+ int charPosA, TextFontInfo *fontA, double fontSizeA) {
+ GfxFont *gfxFont;
+ double x, y, ascent, descent;
+
+ rot = rotA;
+ charPos = charPosA;
+ charLen = 0;
+ font = fontA;
+ fontSize = fontSizeA;
+ state->transform(x0, y0, &x, &y);
+ if ((gfxFont = font->gfxFont)) {
+ ascent = gfxFont->getAscent() * fontSize;
+ descent = gfxFont->getDescent() * fontSize;
+ } else {
+ // this means that the PDF file draws text without a current font,
+ // which should never happen
+ ascent = 0.95 * fontSize;
+ descent = -0.35 * fontSize;
+ }
+ switch (rot) {
+ case 0:
+ yMin = y - ascent;
+ yMax = y - descent;
+ if (yMin == yMax) {
+ // this is a sanity check for a case that shouldn't happen -- but
+ // if it does happen, we want to avoid dividing by zero later
+ yMin = y;
+ yMax = y + 1;
+ }
+ base = y;
+ break;
+ case 1:
+ xMin = x + descent;
+ xMax = x + ascent;
+ if (xMin == xMax) {
+ // this is a sanity check for a case that shouldn't happen -- but
+ // if it does happen, we want to avoid dividing by zero later
+ xMin = x;
+ xMax = x + 1;
+ }
+ base = x;
+ break;
+ case 2:
+ yMin = y + descent;
+ yMax = y + ascent;
+ if (yMin == yMax) {
+ // this is a sanity check for a case that shouldn't happen -- but
+ // if it does happen, we want to avoid dividing by zero later
+ yMin = y;
+ yMax = y + 1;
+ }
+ base = y;
+ break;
+ case 3:
+ xMin = x - ascent;
+ xMax = x - descent;
+ if (xMin == xMax) {
+ // this is a sanity check for a case that shouldn't happen -- but
+ // if it does happen, we want to avoid dividing by zero later
+ xMin = x;
+ xMax = x + 1;
+ }
+ base = x;
+ break;
+ }
+ text = NULL;
+ edge = NULL;
+ len = size = 0;
+ spaceAfter = gFalse;
+ next = NULL;
+
+#if TEXTOUT_WORD_LIST
+ GfxRGB rgb;
+
+ if ((state->getRender() & 3) == 1) {
+ state->getStrokeRGB(&rgb);
+ } else {
+ state->getFillRGB(&rgb);
+ }
+ colorR = rgb.r;
+ colorG = rgb.g;
+ colorB = rgb.b;
+#endif
+}
+
+TextWord::~TextWord() {
+ gfree(text);
+ gfree(edge);
+}
+
+void TextWord::addChar(GfxState *state, double x, double y,
+ double dx, double dy, Unicode u) {
+ if (len == size) {
+ size += 16;
+ text = (Unicode *)grealloc(text, size * sizeof(Unicode));
+ edge = (double *)grealloc(edge, (size + 1) * sizeof(double));
+ }
+ text[len] = u;
+ switch (rot) {
+ case 0:
+ if (len == 0) {
+ xMin = x;
+ }
+ edge[len] = x;
+ xMax = edge[len+1] = x + dx;
+ break;
+ case 1:
+ if (len == 0) {
+ yMin = y;
+ }
+ edge[len] = y;
+ yMax = edge[len+1] = y + dy;
+ break;
+ case 2:
+ if (len == 0) {
+ xMax = x;
+ }
+ edge[len] = x;
+ xMin = edge[len+1] = x + dx;
+ break;
+ case 3:
+ if (len == 0) {
+ yMax = y;
+ }
+ edge[len] = y;
+ yMin = edge[len+1] = y + dy;
+ break;
+ }
+ ++len;
+}
+
+void TextWord::merge(TextWord *word) {
+ int i;
+
+ if (word->xMin < xMin) {
+ xMin = word->xMin;
+ }
+ if (word->yMin < yMin) {
+ yMin = word->yMin;
+ }
+ if (word->xMax > xMax) {
+ xMax = word->xMax;
+ }
+ if (word->yMax > yMax) {
+ yMax = word->yMax;
+ }
+ if (len + word->len > size) {
+ size = len + word->len;
+ text = (Unicode *)grealloc(text, size * sizeof(Unicode));
+ edge = (double *)grealloc(edge, (size + 1) * sizeof(double));
+ }
+ for (i = 0; i < word->len; ++i) {
+ text[len + i] = word->text[i];
+ edge[len + i] = word->edge[i];
+ }
+ edge[len + word->len] = word->edge[word->len];
+ len += word->len;
+ charLen += word->charLen;
+}
+
+inline int TextWord::primaryCmp(TextWord *word) {
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ cmp = xMin - word->xMin;
+ break;
+ case 1:
+ cmp = yMin - word->yMin;
+ break;
+ case 2:
+ cmp = word->xMax - xMax;
+ break;
+ case 3:
+ cmp = word->yMax - yMax;
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+double TextWord::primaryDelta(TextWord *word) {
+ double delta;
+
+ delta = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ delta = word->xMin - xMax;
+ break;
+ case 1:
+ delta = word->yMin - yMax;
+ break;
+ case 2:
+ delta = xMin - word->xMax;
+ break;
+ case 3:
+ delta = yMin - word->yMax;
+ break;
+ }
+ return delta;
+}
+
+int TextWord::cmpYX(const void *p1, const void *p2) {
+ TextWord *word1 = *(TextWord **)p1;
+ TextWord *word2 = *(TextWord **)p2;
+ double cmp;
+
+ cmp = word1->yMin - word2->yMin;
+ if (cmp == 0) {
+ cmp = word1->xMin - word2->xMin;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+#if TEXTOUT_WORD_LIST
+
+GString *TextWord::getText() {
+ GString *s;
+ UnicodeMap *uMap;
+ char buf[8];
+ int n, i;
+
+ s = new GString();
+ if (!(uMap = globalParams->getTextEncoding())) {
+ return s;
+ }
+ for (i = 0; i < len; ++i) {
+ n = uMap->mapUnicode(text[i], buf, sizeof(buf));
+ s->append(buf, n);
+ }
+ uMap->decRefCnt();
+ return s;
+}
+
+#endif // TEXTOUT_WORD_LIST
+
+//------------------------------------------------------------------------
+// TextPool
+//------------------------------------------------------------------------
+
+TextPool::TextPool() {
+ minBaseIdx = 0;
+ maxBaseIdx = -1;
+ pool = NULL;
+ cursor = NULL;
+ cursorBaseIdx = -1;
+}
+
+TextPool::~TextPool() {
+ int baseIdx;
+ TextWord *word, *word2;
+
+ for (baseIdx = minBaseIdx; baseIdx <= maxBaseIdx; ++baseIdx) {
+ for (word = pool[baseIdx - minBaseIdx]; word; word = word2) {
+ word2 = word->next;
+ delete word;
+ }
+ }
+ gfree(pool);
+}
+
+int TextPool::getBaseIdx(double base) {
+ int baseIdx;
+
+ baseIdx = (int)(base / textPoolStep);
+ if (baseIdx < minBaseIdx) {
+ return minBaseIdx;
+ }
+ if (baseIdx > maxBaseIdx) {
+ return maxBaseIdx;
+ }
+ return baseIdx;
+}
+
+void TextPool::addWord(TextWord *word) {
+ TextWord **newPool;
+ int wordBaseIdx, newMinBaseIdx, newMaxBaseIdx, baseIdx;
+ TextWord *w0, *w1;
+
+ // expand the array if needed
+ wordBaseIdx = (int)(word->base / textPoolStep);
+ if (minBaseIdx > maxBaseIdx) {
+ minBaseIdx = wordBaseIdx - 128;
+ maxBaseIdx = wordBaseIdx + 128;
+ pool = (TextWord **)gmalloc((maxBaseIdx - minBaseIdx + 1) *
+ sizeof(TextWord *));
+ for (baseIdx = minBaseIdx; baseIdx <= maxBaseIdx; ++baseIdx) {
+ pool[baseIdx - minBaseIdx] = NULL;
+ }
+ } else if (wordBaseIdx < minBaseIdx) {
+ newMinBaseIdx = wordBaseIdx - 128;
+ newPool = (TextWord **)gmalloc((maxBaseIdx - newMinBaseIdx + 1) *
+ sizeof(TextWord *));
+ for (baseIdx = newMinBaseIdx; baseIdx < minBaseIdx; ++baseIdx) {
+ newPool[baseIdx - newMinBaseIdx] = NULL;
+ }
+ memcpy(&newPool[minBaseIdx - newMinBaseIdx], pool,
+ (maxBaseIdx - minBaseIdx + 1) * sizeof(TextWord *));
+ gfree(pool);
+ pool = newPool;
+ minBaseIdx = newMinBaseIdx;
+ } else if (wordBaseIdx > maxBaseIdx) {
+ newMaxBaseIdx = wordBaseIdx + 128;
+ pool = (TextWord **)grealloc(pool, (newMaxBaseIdx - minBaseIdx + 1) *
+ sizeof(TextWord *));
+ for (baseIdx = maxBaseIdx + 1; baseIdx <= newMaxBaseIdx; ++baseIdx) {
+ pool[baseIdx - minBaseIdx] = NULL;
+ }
+ maxBaseIdx = newMaxBaseIdx;
+ }
+
+ // insert the new word
+ if (cursor && wordBaseIdx == cursorBaseIdx &&
+ word->primaryCmp(cursor) > 0) {
+ w0 = cursor;
+ w1 = cursor->next;
+ } else {
+ w0 = NULL;
+ w1 = pool[wordBaseIdx - minBaseIdx];
+ }
+ for (; w1 && word->primaryCmp(w1) > 0; w0 = w1, w1 = w1->next) ;
+ word->next = w1;
+ if (w0) {
+ w0->next = word;
+ } else {
+ pool[wordBaseIdx - minBaseIdx] = word;
+ }
+ cursor = word;
+ cursorBaseIdx = wordBaseIdx;
+}
+
+//------------------------------------------------------------------------
+// TextLine
+//------------------------------------------------------------------------
+
+TextLine::TextLine(TextBlock *blkA, int rotA, double baseA) {
+ blk = blkA;
+ rot = rotA;
+ xMin = yMin = 0;
+ xMax = yMax = -1;
+ base = baseA;
+ words = lastWord = NULL;
+ text = NULL;
+ edge = NULL;
+ col = NULL;
+ len = 0;
+ convertedLen = 0;
+ hyphenated = gFalse;
+ next = NULL;
+}
+
+TextLine::~TextLine() {
+ TextWord *word;
+
+ while (words) {
+ word = words;
+ words = words->next;
+ delete word;
+ }
+ gfree(text);
+ gfree(edge);
+ gfree(col);
+}
+
+void TextLine::addWord(TextWord *word) {
+ if (lastWord) {
+ lastWord->next = word;
+ } else {
+ words = word;
+ }
+ lastWord = word;
+
+ if (xMin > xMax) {
+ xMin = word->xMin;
+ xMax = word->xMax;
+ yMin = word->yMin;
+ yMax = word->yMax;
+ } else {
+ if (word->xMin < xMin) {
+ xMin = word->xMin;
+ }
+ if (word->xMax > xMax) {
+ xMax = word->xMax;
+ }
+ if (word->yMin < yMin) {
+ yMin = word->yMin;
+ }
+ if (word->yMax > yMax) {
+ yMax = word->yMax;
+ }
+ }
+}
+
+double TextLine::primaryDelta(TextLine *line) {
+ double delta;
+
+ delta = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ delta = line->xMin - xMax;
+ break;
+ case 1:
+ delta = line->yMin - yMax;
+ break;
+ case 2:
+ delta = xMin - line->xMax;
+ break;
+ case 3:
+ delta = yMin - line->yMax;
+ break;
+ }
+ return delta;
+}
+
+int TextLine::primaryCmp(TextLine *line) {
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ cmp = xMin - line->xMin;
+ break;
+ case 1:
+ cmp = yMin - line->yMin;
+ break;
+ case 2:
+ cmp = line->xMax - xMax;
+ break;
+ case 3:
+ cmp = line->yMax - yMax;
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+int TextLine::secondaryCmp(TextLine *line) {
+ double cmp;
+
+ cmp = (rot == 0 || rot == 3) ? base - line->base : line->base - base;
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+int TextLine::cmpYX(TextLine *line) {
+ int cmp;
+
+ if ((cmp = secondaryCmp(line))) {
+ return cmp;
+ }
+ return primaryCmp(line);
+}
+
+int TextLine::cmpXY(const void *p1, const void *p2) {
+ TextLine *line1 = *(TextLine **)p1;
+ TextLine *line2 = *(TextLine **)p2;
+ int cmp;
+
+ if ((cmp = line1->primaryCmp(line2))) {
+ return cmp;
+ }
+ return line1->secondaryCmp(line2);
+}
+
+void TextLine::coalesce(UnicodeMap *uMap) {
+ TextWord *word0, *word1;
+ double space, delta, minSpace;
+ GBool isUnicode;
+ char buf[8];
+ int i, j;
+
+ if (words->next) {
+
+ // compute the inter-word space threshold
+ if (words->len > 1 || words->next->len > 1) {
+ minSpace = 0;
+ } else {
+ minSpace = words->primaryDelta(words->next);
+ for (word0 = words->next, word1 = word0->next;
+ word1 && minSpace > 0;
+ word0 = word1, word1 = word0->next) {
+ if (word1->len > 1) {
+ minSpace = 0;
+ }
+ delta = word0->primaryDelta(word1);
+ if (delta < minSpace) {
+ minSpace = delta;
+ }
+ }
+ }
+ if (minSpace <= 0) {
+ space = maxCharSpacing * words->fontSize;
+ } else {
+ space = maxWideCharSpacingMul * minSpace;
+ }
+
+ // merge words
+ word0 = words;
+ word1 = words->next;
+ while (word1) {
+ if (word0->primaryDelta(word1) >= space) {
+ word0->spaceAfter = gTrue;
+ word0 = word1;
+ word1 = word1->next;
+ } else if (word0->font == word1->font &&
+ fabs(word0->fontSize - word1->fontSize) <
+ maxWordFontSizeDelta * words->fontSize &&
+ word1->charPos == word0->charPos + word0->charLen) {
+ word0->merge(word1);
+ word0->next = word1->next;
+ delete word1;
+ word1 = word0->next;
+ } else {
+ word0 = word1;
+ word1 = word1->next;
+ }
+ }
+ }
+
+ // build the line text
+ isUnicode = uMap ? uMap->isUnicode() : gFalse;
+ len = 0;
+ for (word1 = words; word1; word1 = word1->next) {
+ len += word1->len;
+ if (word1->spaceAfter) {
+ ++len;
+ }
+ }
+ text = (Unicode *)gmalloc(len * sizeof(Unicode));
+ edge = (double *)gmalloc((len + 1) * sizeof(double));
+ i = 0;
+ for (word1 = words; word1; word1 = word1->next) {
+ for (j = 0; j < word1->len; ++j) {
+ text[i] = word1->text[j];
+ edge[i] = word1->edge[j];
+ ++i;
+ }
+ edge[i] = word1->edge[word1->len];
+ if (word1->spaceAfter) {
+ text[i] = (Unicode)0x0020;
+ ++i;
+ }
+ }
+
+ // compute convertedLen and set up the col array
+ col = (int *)gmalloc((len + 1) * sizeof(int));
+ convertedLen = 0;
+ for (i = 0; i < len; ++i) {
+ col[i] = convertedLen;
+ if (isUnicode) {
+ ++convertedLen;
+ } else if (uMap) {
+ convertedLen += uMap->mapUnicode(text[i], buf, sizeof(buf));
+ }
+ }
+ col[len] = convertedLen;
+
+ // check for hyphen at end of line
+ //~ need to check for other chars used as hyphens
+ hyphenated = text[len - 1] == (Unicode)'-';
+}
//------------------------------------------------------------------------
-// 16-bit fonts
+// TextLineFrag
//------------------------------------------------------------------------
-#if JAPANESE_SUPPORT
-
-// CID 0 .. 96
-static Gushort japan12Map[96] = {
- 0x2120, 0x2120, 0x212a, 0x2149, 0x2174, 0x2170, 0x2173, 0x2175, // 00 .. 07
- 0x2147, 0x214a, 0x214b, 0x2176, 0x215c, 0x2124, 0x213e, 0x2123, // 08 .. 0f
- 0x213f, 0x2330, 0x2331, 0x2332, 0x2333, 0x2334, 0x2335, 0x2336, // 10 .. 17
- 0x2337, 0x2338, 0x2339, 0x2127, 0x2128, 0x2163, 0x2161, 0x2164, // 18 .. 1f
- 0x2129, 0x2177, 0x2341, 0x2342, 0x2343, 0x2344, 0x2345, 0x2346, // 20 .. 27
- 0x2347, 0x2348, 0x2349, 0x234a, 0x234b, 0x234c, 0x234d, 0x234e, // 28 .. 2f
- 0x234f, 0x2350, 0x2351, 0x2352, 0x2353, 0x2354, 0x2355, 0x2356, // 30 .. 37
- 0x2357, 0x2358, 0x2359, 0x235a, 0x214e, 0x216f, 0x214f, 0x2130, // 38 .. 3f
- 0x2132, 0x2146, 0x2361, 0x2362, 0x2363, 0x2364, 0x2365, 0x2366, // 40 .. 47
- 0x2367, 0x2368, 0x2369, 0x236a, 0x236b, 0x236c, 0x236d, 0x236e, // 48 .. 4f
- 0x236f, 0x2370, 0x2371, 0x2372, 0x2373, 0x2374, 0x2375, 0x2376, // 50 .. 57
- 0x2377, 0x2378, 0x2379, 0x237a, 0x2150, 0x2143, 0x2151, 0x2141 // 58 .. 5f
+class TextLineFrag {
+public:
+
+ TextLine *line; // the line object
+ int start, len; // offset and length of this fragment
+ // (in Unicode chars)
+ double xMin, xMax; // bounding box coordinates
+ double yMin, yMax;
+ double base; // baseline virtual coordinate
+ int col; // first column
+
+ void init(TextLine *lineA, int startA, int lenA);
+ void computeCoords(GBool oneRot);
+
+ static int cmpYXPrimaryRot(const void *p1, const void *p2);
+ static int cmpYXLineRot(const void *p1, const void *p2);
+ static int cmpXYLineRot(const void *p1, const void *p2);
};
-// CID 325 .. 421
-static Gushort japan12KanaMap1[97] = {
- 0x2131, 0x2121, 0x2123, 0x2156, 0x2157, 0x2122, 0x2126, 0x2572,
- 0x2521, 0x2523, 0x2525, 0x2527, 0x2529, 0x2563, 0x2565, 0x2567,
- 0x2543, 0x213c, 0x2522, 0x2524, 0x2526, 0x2528, 0x252a, 0x252b,
- 0x252d, 0x252f, 0x2531, 0x2533, 0x2535, 0x2537, 0x2539, 0x253b,
- 0x253d, 0x253f, 0x2541, 0x2544, 0x2546, 0x2548, 0x254a, 0x254b,
- 0x254c, 0x254d, 0x254e, 0x254f, 0x2552, 0x2555, 0x2558, 0x255b,
- 0x255e, 0x255f, 0x2560, 0x2561, 0x2562, 0x2564, 0x2566, 0x2568,
- 0x2569, 0x256a, 0x256b, 0x256c, 0x256d, 0x256f, 0x2573, 0x212b,
- 0x212c, 0x212e, 0x2570, 0x2571, 0x256e, 0x2575, 0x2576, 0x2574,
- 0x252c, 0x252e, 0x2530, 0x2532, 0x2534, 0x2536, 0x2538, 0x253a,
- 0x253c, 0x253e, 0x2540, 0x2542, 0x2545, 0x2547, 0x2549, 0x2550,
- 0x2551, 0x2553, 0x2554, 0x2556, 0x2557, 0x2559, 0x255a, 0x255c,
- 0x255d
-};
+void TextLineFrag::init(TextLine *lineA, int startA, int lenA) {
+ line = lineA;
+ start = startA;
+ len = lenA;
+ col = line->col[start];
+}
+
+void TextLineFrag::computeCoords(GBool oneRot) {
+ TextBlock *blk;
+ double d0, d1, d2, d3, d4;
+
+ if (oneRot) {
+
+ switch (line->rot) {
+ case 0:
+ xMin = line->edge[start];
+ xMax = line->edge[start + len];
+ yMin = line->yMin;
+ yMax = line->yMax;
+ break;
+ case 1:
+ xMin = line->xMin;
+ xMax = line->xMax;
+ yMin = line->edge[start];
+ yMax = line->edge[start + len];
+ break;
+ case 2:
+ xMin = line->edge[start + len];
+ xMax = line->edge[start];
+ yMin = line->yMin;
+ yMax = line->yMax;
+ break;
+ case 3:
+ xMin = line->xMin;
+ xMax = line->xMax;
+ yMin = line->edge[start + len];
+ yMax = line->edge[start];
+ break;
+ }
+ base = line->base;
+
+ } else {
+
+ if (line->rot == 0 && line->blk->page->primaryRot == 0) {
+
+ xMin = line->edge[start];
+ xMax = line->edge[start + len];
+ yMin = line->yMin;
+ yMax = line->yMax;
+ base = line->base;
+
+ } else {
+
+ blk = line->blk;
+ d0 = line->edge[start];
+ d1 = line->edge[start + len];
+ d2 = d3 = d4 = 0; // make gcc happy
+
+ switch (line->rot) {
+ case 0:
+ d2 = line->yMin;
+ d3 = line->yMax;
+ d4 = line->base;
+ d0 = (d0 - blk->xMin) / (blk->xMax - blk->xMin);
+ d1 = (d1 - blk->xMin) / (blk->xMax - blk->xMin);
+ d2 = (d2 - blk->yMin) / (blk->yMax - blk->yMin);
+ d3 = (d3 - blk->yMin) / (blk->yMax - blk->yMin);
+ d4 = (d4 - blk->yMin) / (blk->yMax - blk->yMin);
+ break;
+ case 1:
+ d2 = line->xMax;
+ d3 = line->xMin;
+ d4 = line->base;
+ d0 = (d0 - blk->yMin) / (blk->yMax - blk->yMin);
+ d1 = (d1 - blk->yMin) / (blk->yMax - blk->yMin);
+ d2 = (blk->xMax - d2) / (blk->xMax - blk->xMin);
+ d3 = (blk->xMax - d3) / (blk->xMax - blk->xMin);
+ d4 = (blk->xMax - d4) / (blk->xMax - blk->xMin);
+ break;
+ case 2:
+ d2 = line->yMax;
+ d3 = line->yMin;
+ d4 = line->base;
+ d0 = (blk->xMax - d0) / (blk->xMax - blk->xMin);
+ d1 = (blk->xMax - d1) / (blk->xMax - blk->xMin);
+ d2 = (blk->yMax - d2) / (blk->yMax - blk->yMin);
+ d3 = (blk->yMax - d3) / (blk->yMax - blk->yMin);
+ d4 = (blk->yMax - d4) / (blk->yMax - blk->yMin);
+ break;
+ case 3:
+ d2 = line->xMin;
+ d3 = line->xMax;
+ d4 = line->base;
+ d0 = (blk->yMax - d0) / (blk->yMax - blk->yMin);
+ d1 = (blk->yMax - d1) / (blk->yMax - blk->yMin);
+ d2 = (d2 - blk->xMin) / (blk->xMax - blk->xMin);
+ d3 = (d3 - blk->xMin) / (blk->xMax - blk->xMin);
+ d4 = (d4 - blk->xMin) / (blk->xMax - blk->xMin);
+ break;
+ }
+
+ switch (line->blk->page->primaryRot) {
+ case 0:
+ xMin = blk->xMin + d0 * (blk->xMax - blk->xMin);
+ xMax = blk->xMin + d1 * (blk->xMax - blk->xMin);
+ yMin = blk->yMin + d2 * (blk->yMax - blk->yMin);
+ yMax = blk->yMin + d3 * (blk->yMax - blk->yMin);
+ base = blk->yMin + base * (blk->yMax - blk->yMin);
+ break;
+ case 1:
+ xMin = blk->xMax - d3 * (blk->xMax - blk->xMin);
+ xMax = blk->xMax - d2 * (blk->xMax - blk->xMin);
+ yMin = blk->yMin + d0 * (blk->yMax - blk->yMin);
+ yMax = blk->yMin + d1 * (blk->yMax - blk->yMin);
+ base = blk->xMax - d4 * (blk->xMax - blk->xMin);
+ break;
+ case 2:
+ xMin = blk->xMax - d1 * (blk->xMax - blk->xMin);
+ xMax = blk->xMax - d0 * (blk->xMax - blk->xMin);
+ yMin = blk->yMax - d3 * (blk->yMax - blk->yMin);
+ yMax = blk->yMax - d2 * (blk->yMax - blk->yMin);
+ base = blk->yMax - d4 * (blk->yMax - blk->yMin);
+ break;
+ case 3:
+ xMin = blk->xMin + d2 * (blk->xMax - blk->xMin);
+ xMax = blk->xMin + d3 * (blk->xMax - blk->xMin);
+ yMin = blk->yMax - d1 * (blk->yMax - blk->yMin);
+ yMax = blk->yMax - d0 * (blk->yMax - blk->yMin);
+ base = blk->xMin + d4 * (blk->xMax - blk->xMin);
+ break;
+ }
+
+ }
+ }
+}
+
+int TextLineFrag::cmpYXPrimaryRot(const void *p1, const void *p2) {
+ TextLineFrag *frag1 = (TextLineFrag *)p1;
+ TextLineFrag *frag2 = (TextLineFrag *)p2;
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (frag1->line->blk->page->primaryRot) {
+ case 0:
+ if ((cmp = frag1->yMin - frag2->yMin) == 0) {
+ cmp = frag1->xMin - frag2->xMin;
+ }
+ break;
+ case 1:
+ if ((cmp = frag2->xMax - frag1->xMax) == 0) {
+ cmp = frag1->yMin - frag2->yMin;
+ }
+ break;
+ case 2:
+ if ((cmp = frag2->yMin - frag1->yMin) == 0) {
+ cmp = frag2->xMax - frag1->xMax;
+ }
+ break;
+ case 3:
+ if ((cmp = frag1->xMax - frag2->xMax) == 0) {
+ cmp = frag2->yMax - frag1->yMax;
+ }
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+int TextLineFrag::cmpYXLineRot(const void *p1, const void *p2) {
+ TextLineFrag *frag1 = (TextLineFrag *)p1;
+ TextLineFrag *frag2 = (TextLineFrag *)p2;
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (frag1->line->rot) {
+ case 0:
+ if ((cmp = frag1->yMin - frag2->yMin) == 0) {
+ cmp = frag1->xMin - frag2->xMin;
+ }
+ break;
+ case 1:
+ if ((cmp = frag2->xMax - frag1->xMax) == 0) {
+ cmp = frag1->yMin - frag2->yMin;
+ }
+ break;
+ case 2:
+ if ((cmp = frag2->yMin - frag1->yMin) == 0) {
+ cmp = frag2->xMax - frag1->xMax;
+ }
+ break;
+ case 3:
+ if ((cmp = frag1->xMax - frag2->xMax) == 0) {
+ cmp = frag2->yMax - frag1->yMax;
+ }
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+int TextLineFrag::cmpXYLineRot(const void *p1, const void *p2) {
+ TextLineFrag *frag1 = (TextLineFrag *)p1;
+ TextLineFrag *frag2 = (TextLineFrag *)p2;
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (frag1->line->rot) {
+ case 0:
+ if ((cmp = frag1->xMin - frag2->xMin) == 0) {
+ cmp = frag1->yMin - frag2->yMin;
+ }
+ break;
+ case 1:
+ if ((cmp = frag1->yMin - frag2->yMin) == 0) {
+ cmp = frag2->xMax - frag1->xMax;
+ }
+ break;
+ case 2:
+ if ((cmp = frag2->xMax - frag1->xMax) == 0) {
+ cmp = frag2->yMin - frag1->yMin;
+ }
+ break;
+ case 3:
+ if ((cmp = frag2->yMax - frag1->yMax) == 0) {
+ cmp = frag1->xMax - frag2->xMax;
+ }
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+//------------------------------------------------------------------------
+// TextBlock
+//------------------------------------------------------------------------
+
+TextBlock::TextBlock(TextPage *pageA, int rotA) {
+ page = pageA;
+ rot = rotA;
+ xMin = yMin = 0;
+ xMax = yMax = -1;
+ priMin = 0;
+ priMax = page->pageWidth;
+ pool = new TextPool();
+ lines = NULL;
+ curLine = NULL;
+ next = NULL;
+ stackNext = NULL;
+}
+
+TextBlock::~TextBlock() {
+ TextLine *line;
+
+ delete pool;
+ while (lines) {
+ line = lines;
+ lines = lines->next;
+ delete line;
+ }
+}
+
+void TextBlock::addWord(TextWord *word) {
+ pool->addWord(word);
+ if (xMin > xMax) {
+ xMin = word->xMin;
+ xMax = word->xMax;
+ yMin = word->yMin;
+ yMax = word->yMax;
+ } else {
+ if (word->xMin < xMin) {
+ xMin = word->xMin;
+ }
+ if (word->xMax > xMax) {
+ xMax = word->xMax;
+ }
+ if (word->yMin < yMin) {
+ yMin = word->yMin;
+ }
+ if (word->yMax > yMax) {
+ yMax = word->yMax;
+ }
+ }
+}
+
+void TextBlock::coalesce(UnicodeMap *uMap) {
+ TextWord *word0, *word1, *word2, *bestWord0, *bestWord1, *lastWord;
+ TextLine *line, *line0, *line1;
+ int poolMinBaseIdx, startBaseIdx, minBaseIdx, maxBaseIdx;
+ int baseIdx, bestWordBaseIdx, idx0, idx1;
+ double minBase, maxBase;
+ double fontSize, delta, priDelta, secDelta;
+ TextLine **lineArray;
+ GBool found;
+ int col1, col2;
+ int i, j, k;
+
+ // discard duplicated text (fake boldface, drop shadows)
+ for (idx0 = pool->minBaseIdx; idx0 <= pool->maxBaseIdx; ++idx0) {
+ word0 = pool->getPool(idx0);
+ while (word0) {
+ priDelta = dupMaxPriDelta * word0->fontSize;
+ secDelta = dupMaxSecDelta * word0->fontSize;
+ if (rot == 0 || rot == 3) {
+ maxBaseIdx = pool->getBaseIdx(word0->base + secDelta);
+ } else {
+ maxBaseIdx = pool->getBaseIdx(word0->base - secDelta);
+ }
+ found = gFalse;
+ word1 = word2 = NULL; // make gcc happy
+ for (idx1 = idx0; idx1 <= maxBaseIdx; ++idx1) {
+ if (idx1 == idx0) {
+ word1 = word0;
+ word2 = word0->next;
+ } else {
+ word1 = NULL;
+ word2 = pool->getPool(idx1);
+ }
+ for (; word2; word1 = word2, word2 = word2->next) {
+ if (word2->len == word0->len &&
+ !memcmp(word2->text, word0->text,
+ word0->len * sizeof(Unicode))) {
+ switch (rot) {
+ case 0:
+ case 2:
+ found = fabs(word0->xMin - word2->xMin) < priDelta &&
+ fabs(word0->xMax - word2->xMax) < priDelta &&
+ fabs(word0->yMin - word2->yMin) < secDelta &&
+ fabs(word0->yMax - word2->yMax) < secDelta;
+ break;
+ case 1:
+ case 3:
+ found = fabs(word0->xMin - word2->xMin) < secDelta &&
+ fabs(word0->xMax - word2->xMax) < secDelta &&
+ fabs(word0->yMin - word2->yMin) < priDelta &&
+ fabs(word0->yMax - word2->yMax) < priDelta;
+ break;
+ }
+ }
+ if (found) {
+ break;
+ }
+ }
+ if (found) {
+ break;
+ }
+ }
+ if (found) {
+ if (word1) {
+ word1->next = word2->next;
+ } else {
+ pool->setPool(idx1, word2->next);
+ }
+ delete word2;
+ } else {
+ word0 = word0->next;
+ }
+ }
+ }
+
+ // build the lines
+ curLine = NULL;
+ poolMinBaseIdx = pool->minBaseIdx;
+ charCount = 0;
+ nLines = 0;
+ while (1) {
+
+ // find the first non-empty line in the pool
+ for (;
+ poolMinBaseIdx <= pool->maxBaseIdx && !pool->getPool(poolMinBaseIdx);
+ ++poolMinBaseIdx) ;
+ if (poolMinBaseIdx > pool->maxBaseIdx) {
+ break;
+ }
+
+ // look for the left-most word in the first four lines of the
+ // pool -- this avoids starting with a superscript word
+ startBaseIdx = poolMinBaseIdx;
+ for (baseIdx = poolMinBaseIdx + 1;
+ baseIdx < poolMinBaseIdx + 4 && baseIdx <= pool->maxBaseIdx;
+ ++baseIdx) {
+ if (!pool->getPool(baseIdx)) {
+ continue;
+ }
+ if (pool->getPool(baseIdx)->primaryCmp(pool->getPool(startBaseIdx))
+ < 0) {
+ startBaseIdx = baseIdx;
+ }
+ }
+
+ // create a new line
+ word0 = pool->getPool(startBaseIdx);
+ pool->setPool(startBaseIdx, word0->next);
+ word0->next = NULL;
+ line = new TextLine(this, word0->rot, word0->base);
+ line->addWord(word0);
+ lastWord = word0;
+
+ // compute the search range
+ fontSize = word0->fontSize;
+ minBase = word0->base - maxIntraLineDelta * fontSize;
+ maxBase = word0->base + maxIntraLineDelta * fontSize;
+ minBaseIdx = pool->getBaseIdx(minBase);
+ maxBaseIdx = pool->getBaseIdx(maxBase);
+
+ // find the rest of the words in this line
+ while (1) {
+
+ // find the left-most word whose baseline is in the range for
+ // this line
+ bestWordBaseIdx = 0;
+ bestWord0 = bestWord1 = NULL;
+ for (baseIdx = minBaseIdx; baseIdx <= maxBaseIdx; ++baseIdx) {
+ for (word0 = NULL, word1 = pool->getPool(baseIdx);
+ word1;
+ word0 = word1, word1 = word1->next) {
+ if (word1->base >= minBase &&
+ word1->base <= maxBase &&
+ (delta = lastWord->primaryDelta(word1)) >=
+ minCharSpacing * fontSize) {
+ if (delta < maxWordSpacing * fontSize &&
+ (!bestWord1 || word1->primaryCmp(bestWord1) < 0)) {
+ bestWordBaseIdx = baseIdx;
+ bestWord0 = word0;
+ bestWord1 = word1;
+ }
+ break;
+ }
+ }
+ }
+ if (!bestWord1) {
+ break;
+ }
+
+ // remove it from the pool, and add it to the line
+ if (bestWord0) {
+ bestWord0->next = bestWord1->next;
+ } else {
+ pool->setPool(bestWordBaseIdx, bestWord1->next);
+ }
+ bestWord1->next = NULL;
+ line->addWord(bestWord1);
+ lastWord = bestWord1;
+ }
+
+ // add the line
+ if (curLine && line->cmpYX(curLine) > 0) {
+ line0 = curLine;
+ line1 = curLine->next;
+ } else {
+ line0 = NULL;
+ line1 = lines;
+ }
+ for (;
+ line1 && line->cmpYX(line1) > 0;
+ line0 = line1, line1 = line1->next) ;
+ if (line0) {
+ line0->next = line;
+ } else {
+ lines = line;
+ }
+ line->next = line1;
+ curLine = line;
+ line->coalesce(uMap);
+ charCount += line->len;
+ ++nLines;
+ }
+
+ // sort lines into xy order for column assignment
+ lineArray = (TextLine **)gmalloc(nLines * sizeof(TextLine *));
+ for (line = lines, i = 0; line; line = line->next, ++i) {
+ lineArray[i] = line;
+ }
+ qsort(lineArray, nLines, sizeof(TextLine *), &TextLine::cmpXY);
+
+ // column assignment
+ nColumns = 0;
+ for (i = 0; i < nLines; ++i) {
+ line0 = lineArray[i];
+ col1 = 0;
+ for (j = 0; j < i; ++j) {
+ line1 = lineArray[j];
+ if (line1->primaryDelta(line0) >= 0) {
+ col2 = line1->col[line1->len] + 1;
+ } else {
+ k = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ for (k = 0;
+ k < line1->len &&
+ line0->xMin >= 0.5 * (line1->edge[k] + line1->edge[k+1]);
+ ++k) ;
+ break;
+ case 1:
+ for (k = 0;
+ k < line1->len &&
+ line0->yMin >= 0.5 * (line1->edge[k] + line1->edge[k+1]);
+ ++k) ;
+ break;
+ case 2:
+ for (k = 0;
+ k < line1->len &&
+ line0->xMax <= 0.5 * (line1->edge[k] + line1->edge[k+1]);
+ ++k) ;
+ break;
+ case 3:
+ for (k = 0;
+ k < line1->len &&
+ line0->yMax <= 0.5 * (line1->edge[k] + line1->edge[k+1]);
+ ++k) ;
+ break;
+ }
+ col2 = line1->col[k];
+ }
+ if (col2 > col1) {
+ col1 = col2;
+ }
+ }
+ for (k = 0; k <= line0->len; ++k) {
+ line0->col[k] += col1;
+ }
+ if (line0->col[line0->len] > nColumns) {
+ nColumns = line0->col[line0->len];
+ }
+ }
+ gfree(lineArray);
+}
+
+void TextBlock::updatePriMinMax(TextBlock *blk) {
+ double newPriMin, newPriMax;
+ GBool gotPriMin, gotPriMax;
+
+ gotPriMin = gotPriMax = gFalse;
+ newPriMin = newPriMax = 0; // make gcc happy
+ switch (page->primaryRot) {
+ case 0:
+ case 2:
+ if (blk->yMin < yMax && blk->yMax > yMin) {
+ if (blk->xMin < xMin) {
+ newPriMin = blk->xMax;
+ gotPriMin = gTrue;
+ }
+ if (blk->xMax > xMax) {
+ newPriMax = blk->xMin;
+ gotPriMax = gTrue;
+ }
+ }
+ break;
+ case 1:
+ case 3:
+ if (blk->xMin < xMax && blk->xMax > xMin) {
+ if (blk->yMin < yMin) {
+ newPriMin = blk->yMax;
+ gotPriMin = gTrue;
+ }
+ if (blk->yMax > yMax) {
+ newPriMax = blk->yMin;
+ gotPriMax = gTrue;
+ }
+ }
+ break;
+ }
+ if (gotPriMin) {
+ if (newPriMin > xMin) {
+ newPriMin = xMin;
+ }
+ if (newPriMin > priMin) {
+ priMin = newPriMin;
+ }
+ }
+ if (gotPriMax) {
+ if (newPriMax < xMax) {
+ newPriMax = xMax;
+ }
+ if (newPriMax < priMax) {
+ priMax = newPriMax;
+ }
+ }
+}
+
+int TextBlock::cmpXYPrimaryRot(const void *p1, const void *p2) {
+ TextBlock *blk1 = *(TextBlock **)p1;
+ TextBlock *blk2 = *(TextBlock **)p2;
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (blk1->page->primaryRot) {
+ case 0:
+ if ((cmp = blk1->xMin - blk2->xMin) == 0) {
+ cmp = blk1->yMin - blk2->yMin;
+ }
+ break;
+ case 1:
+ if ((cmp = blk1->yMin - blk2->yMin) == 0) {
+ cmp = blk2->xMax - blk1->xMax;
+ }
+ break;
+ case 2:
+ if ((cmp = blk2->xMax - blk1->xMax) == 0) {
+ cmp = blk2->yMin - blk1->yMin;
+ }
+ break;
+ case 3:
+ if ((cmp = blk2->yMax - blk1->yMax) == 0) {
+ cmp = blk1->xMax - blk2->xMax;
+ }
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+int TextBlock::cmpYXPrimaryRot(const void *p1, const void *p2) {
+ TextBlock *blk1 = *(TextBlock **)p1;
+ TextBlock *blk2 = *(TextBlock **)p2;
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (blk1->page->primaryRot) {
+ case 0:
+ if ((cmp = blk1->yMin - blk2->yMin) == 0) {
+ cmp = blk1->xMin - blk2->xMin;
+ }
+ break;
+ case 1:
+ if ((cmp = blk2->xMax - blk1->xMax) == 0) {
+ cmp = blk1->yMin - blk2->yMin;
+ }
+ break;
+ case 2:
+ if ((cmp = blk2->yMin - blk1->yMin) == 0) {
+ cmp = blk2->xMax - blk1->xMax;
+ }
+ break;
+ case 3:
+ if ((cmp = blk1->xMax - blk2->xMax) == 0) {
+ cmp = blk2->yMax - blk1->yMax;
+ }
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+int TextBlock::primaryCmp(TextBlock *blk) {
+ double cmp;
+
+ cmp = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ cmp = xMin - blk->xMin;
+ break;
+ case 1:
+ cmp = yMin - blk->yMin;
+ break;
+ case 2:
+ cmp = blk->xMax - xMax;
+ break;
+ case 3:
+ cmp = blk->yMax - yMax;
+ break;
+ }
+ return cmp < 0 ? -1 : cmp > 0 ? 1 : 0;
+}
+
+double TextBlock::secondaryDelta(TextBlock *blk) {
+ double delta;
+
+ delta = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ delta = blk->yMin - yMax;
+ break;
+ case 1:
+ delta = xMin - blk->xMax;
+ break;
+ case 2:
+ delta = yMin - blk->yMax;
+ break;
+ case 3:
+ delta = blk->xMin - xMax;
+ break;
+ }
+ return delta;
+}
+
+GBool TextBlock::isBelow(TextBlock *blk) {
+ GBool below;
+
+ below = gFalse; // make gcc happy
+ switch (page->primaryRot) {
+ case 0:
+ below = xMin >= blk->priMin && xMax <= blk->priMax &&
+ yMin > blk->yMin;
+ break;
+ case 1:
+ below = yMin >= blk->priMin && yMax <= blk->priMax &&
+ xMax < blk->xMax;
+ break;
+ case 2:
+ below = xMin >= blk->priMin && xMax <= blk->priMax &&
+ yMax < blk->yMax;
+ break;
+ case 3:
+ below = yMin >= blk->priMin && yMax <= blk->priMax &&
+ xMin > blk->xMin;
+ break;
+ }
+
+ return below;
+}
+
+//------------------------------------------------------------------------
+// TextFlow
+//------------------------------------------------------------------------
+
+TextFlow::TextFlow(TextPage *pageA, TextBlock *blk) {
+ page = pageA;
+ xMin = blk->xMin;
+ xMax = blk->xMax;
+ yMin = blk->yMin;
+ yMax = blk->yMax;
+ priMin = blk->priMin;
+ priMax = blk->priMax;
+ blocks = lastBlk = blk;
+ next = NULL;
+}
+
+TextFlow::~TextFlow() {
+ TextBlock *blk;
+
+ while (blocks) {
+ blk = blocks;
+ blocks = blocks->next;
+ delete blk;
+ }
+}
+
+void TextFlow::addBlock(TextBlock *blk) {
+ if (lastBlk) {
+ lastBlk->next = blk;
+ } else {
+ blocks = blk;
+ }
+ lastBlk = blk;
+ if (blk->xMin < xMin) {
+ xMin = blk->xMin;
+ }
+ if (blk->xMax > xMax) {
+ xMax = blk->xMax;
+ }
+ if (blk->yMin < yMin) {
+ yMin = blk->yMin;
+ }
+ if (blk->yMax > yMax) {
+ yMax = blk->yMax;
+ }
+}
+
+GBool TextFlow::blockFits(TextBlock *blk, TextBlock *prevBlk) {
+ GBool fits;
+
+ // lower blocks must use smaller fonts
+ if (blk->lines->words->fontSize > lastBlk->lines->words->fontSize) {
+ return gFalse;
+ }
+
+ fits = gFalse; // make gcc happy
+ switch (page->primaryRot) {
+ case 0:
+ fits = blk->xMin >= priMin && blk->xMax <= priMax;
+ break;
+ case 1:
+ fits = blk->yMin >= priMin && blk->yMax <= priMax;
+ break;
+ case 2:
+ fits = blk->xMin >= priMin && blk->xMax <= priMax;
+ break;
+ case 3:
+ fits = blk->yMin >= priMin && blk->yMax <= priMax;
+ break;
+ }
+ return fits;
+}
+
+#if TEXTOUT_WORD_LIST
+
+//------------------------------------------------------------------------
+// TextWordList
+//------------------------------------------------------------------------
+
+TextWordList::TextWordList(TextPage *text, GBool physLayout) {
+ TextFlow *flow;
+ TextBlock *blk;
+ TextLine *line;
+ TextWord *word;
+ TextWord **wordArray;
+ int nWords, i;
+
+ words = new GList();
+
+ if (text->rawOrder) {
+ for (word = text->rawWords; word; word = word->next) {
+ words->append(word);
+ }
+
+ } else if (physLayout) {
+ // this is inefficient, but it's also the least useful of these
+ // three cases
+ nWords = 0;
+ for (flow = text->flows; flow; flow = flow->next) {
+ for (blk = flow->blocks; blk; blk = blk->next) {
+ for (line = blk->lines; line; line = line->next) {
+ for (word = line->words; word; word = word->next) {
+ ++nWords;
+ }
+ }
+ }
+ }
+ wordArray = (TextWord **)gmalloc(nWords * sizeof(TextWord *));
+ i = 0;
+ for (flow = text->flows; flow; flow = flow->next) {
+ for (blk = flow->blocks; blk; blk = blk->next) {
+ for (line = blk->lines; line; line = line->next) {
+ for (word = line->words; word; word = word->next) {
+ wordArray[i++] = word;
+ }
+ }
+ }
+ }
+ qsort(wordArray, nWords, sizeof(TextWord *), &TextWord::cmpYX);
+ for (i = 0; i < nWords; ++i) {
+ words->append(wordArray[i]);
+ }
+ gfree(wordArray);
+
+ } else {
+ for (flow = text->flows; flow; flow = flow->next) {
+ for (blk = flow->blocks; blk; blk = blk->next) {
+ for (line = blk->lines; line; line = line->next) {
+ for (word = line->words; word; word = word->next) {
+ words->append(word);
+ }
+ }
+ }
+ }
+ }
+}
+
+TextWordList::~TextWordList() {
+ delete words;
+}
+
+int TextWordList::getLength() {
+ return words->getLength();
+}
+
+TextWord *TextWordList::get(int idx) {
+ if (idx < 0 || idx >= words->getLength()) {
+ return NULL;
+ }
+ return (TextWord *)words->get(idx);
+}
+
+#endif // TEXTOUT_WORD_LIST
+
+//------------------------------------------------------------------------
+// TextPage
+//------------------------------------------------------------------------
+
+TextPage::TextPage(GBool rawOrderA) {
+ int rot;
+
+ rawOrder = rawOrderA;
+ curWord = NULL;
+ charPos = 0;
+ curFont = NULL;
+ curFontSize = 0;
+ nest = 0;
+ nTinyChars = 0;
+ lastCharOverlap = gFalse;
+ if (!rawOrder) {
+ for (rot = 0; rot < 4; ++rot) {
+ pools[rot] = new TextPool();
+ }
+ }
+ flows = NULL;
+ blocks = NULL;
+ rawWords = NULL;
+ rawLastWord = NULL;
+ fonts = new GList();
+ lastFindXMin = lastFindYMin = 0;
+ haveLastFind = gFalse;
+}
+
+TextPage::~TextPage() {
+ int rot;
+
+ clear();
+ if (!rawOrder) {
+ for (rot = 0; rot < 4; ++rot) {
+ delete pools[rot];
+ }
+ }
+ delete fonts;
+}
+
+void TextPage::startPage(GfxState *state) {
+ clear();
+ if (state) {
+ pageWidth = state->getPageWidth();
+ pageHeight = state->getPageHeight();
+ } else {
+ pageWidth = pageHeight = 0;
+ }
+}
+
+void TextPage::endPage() {
+ if (curWord) {
+ endWord();
+ }
+}
+
+void TextPage::clear() {
+ int rot;
+ TextFlow *flow;
+ TextWord *word;
+
+ if (curWord) {
+ delete curWord;
+ curWord = NULL;
+ }
+ if (rawOrder) {
+ while (rawWords) {
+ word = rawWords;
+ rawWords = rawWords->next;
+ delete word;
+ }
+ } else {
+ for (rot = 0; rot < 4; ++rot) {
+ delete pools[rot];
+ }
+ while (flows) {
+ flow = flows;
+ flows = flows->next;
+ delete flow;
+ }
+ gfree(blocks);
+ }
+ deleteGList(fonts, TextFontInfo);
+
+ curWord = NULL;
+ charPos = 0;
+ curFont = NULL;
+ curFontSize = 0;
+ nest = 0;
+ nTinyChars = 0;
+ if (!rawOrder) {
+ for (rot = 0; rot < 4; ++rot) {
+ pools[rot] = new TextPool();
+ }
+ }
+ flows = NULL;
+ blocks = NULL;
+ rawWords = NULL;
+ rawLastWord = NULL;
+ fonts = new GList();
+}
+
+void TextPage::updateFont(GfxState *state) {
+ GfxFont *gfxFont;
+ double *fm;
+ char *name;
+ int code, mCode, letterCode, anyCode;
+ double w;
+ int i;
+
+ // get the font info object
+ curFont = NULL;
+ for (i = 0; i < fonts->getLength(); ++i) {
+ curFont = (TextFontInfo *)fonts->get(i);
+ if (curFont->matches(state)) {
+ break;
+ }
+ curFont = NULL;
+ }
+ if (!curFont) {
+ curFont = new TextFontInfo(state);
+ fonts->append(curFont);
+ }
+
+ // adjust the font size
+ gfxFont = state->getFont();
+ curFontSize = state->getTransformedFontSize();
+ if (gfxFont && gfxFont->getType() == fontType3) {
+ // This is a hack which makes it possible to deal with some Type 3
+ // fonts. The problem is that it's impossible to know what the
+ // base coordinate system used in the font is without actually
+ // rendering the font. This code tries to guess by looking at the
+ // width of the character 'm' (which breaks if the font is a
+ // subset that doesn't contain 'm').
+ mCode = letterCode = anyCode = -1;
+ for (code = 0; code < 256; ++code) {
+ name = ((Gfx8BitFont *)gfxFont)->getCharName(code);
+ if (name && name[0] == 'm' && name[1] == '\0') {
+ mCode = code;
+ }
+ if (letterCode < 0 && name && name[1] == '\0' &&
+ ((name[0] >= 'A' && name[0] <= 'Z') ||
+ (name[0] >= 'a' && name[0] <= 'z'))) {
+ letterCode = code;
+ }
+ if (anyCode < 0 && name &&
+ ((Gfx8BitFont *)gfxFont)->getWidth(code) > 0) {
+ anyCode = code;
+ }
+ }
+ if (mCode >= 0 &&
+ (w = ((Gfx8BitFont *)gfxFont)->getWidth(mCode)) > 0) {
+ // 0.6 is a generic average 'm' width -- yes, this is a hack
+ curFontSize *= w / 0.6;
+ } else if (letterCode >= 0 &&
+ (w = ((Gfx8BitFont *)gfxFont)->getWidth(letterCode)) > 0) {
+ // even more of a hack: 0.5 is a generic letter width
+ curFontSize *= w / 0.5;
+ } else if (anyCode >= 0 &&
+ (w = ((Gfx8BitFont *)gfxFont)->getWidth(anyCode)) > 0) {
+ // better than nothing: 0.5 is a generic character width
+ curFontSize *= w / 0.5;
+ }
+ fm = gfxFont->getFontMatrix();
+ if (fm[0] != 0) {
+ curFontSize *= fabs(fm[3] / fm[0]);
+ }
+ }
+}
+
+void TextPage::beginWord(GfxState *state, double x0, double y0) {
+ double *txtm, *ctm, *fontm;
+ double m[4], m2[4];
+ int rot;
+
+ // This check is needed because Type 3 characters can contain
+ // text-drawing operations (when TextPage is being used via
+ // {X,Win}SplashOutputDev rather than TextOutputDev).
+ if (curWord) {
+ ++nest;
+ return;
+ }
+
+ // compute the rotation
+ txtm = state->getTextMat();
+ ctm = state->getCTM();
+ m[0] = txtm[0] * ctm[0] + txtm[1] * ctm[2];
+ m[1] = txtm[0] * ctm[1] + txtm[1] * ctm[3];
+ m[2] = txtm[2] * ctm[0] + txtm[3] * ctm[2];
+ m[3] = txtm[2] * ctm[1] + txtm[3] * ctm[3];
+ if (state->getFont()->getType() == fontType3) {
+ fontm = state->getFont()->getFontMatrix();
+ m2[0] = fontm[0] * m[0] + fontm[1] * m[2];
+ m2[1] = fontm[0] * m[1] + fontm[1] * m[3];
+ m2[2] = fontm[2] * m[0] + fontm[3] * m[2];
+ m2[3] = fontm[2] * m[1] + fontm[3] * m[3];
+ m[0] = m2[0];
+ m[1] = m2[1];
+ m[2] = m2[2];
+ m[3] = m2[3];
+ }
+ if (fabs(m[0] * m[3]) > fabs(m[1] * m[2])) {
+ rot = (m[3] < 0) ? 0 : 2;
+ } else {
+ rot = (m[2] > 0) ? 1 : 3;
+ }
+
+ curWord = new TextWord(state, rot, x0, y0, charPos, curFont, curFontSize);
+}
+
+void TextPage::addChar(GfxState *state, double x, double y,
+ double dx, double dy,
+ CharCode c, Unicode *u, int uLen) {
+ double x1, y1, w1, h1, dx2, dy2, base, sp;
+ int i;
+
+ // if the previous char was a space, addChar will have called
+ // endWord, so we need to start a new word
+ if (!curWord) {
+ beginWord(state, x, y);
+ }
+
+ // throw away chars that aren't inside the page bounds
+ state->transform(x, y, &x1, &y1);
+ if (x1 < 0 || x1 > pageWidth ||
+ y1 < 0 || y1 > pageHeight) {
+ return;
+ }
+
+ // subtract char and word spacing from the dx,dy values
+ sp = state->getCharSpace();
+ if (c == (CharCode)0x20) {
+ sp += state->getWordSpace();
+ }
+ state->textTransformDelta(sp * state->getHorizScaling(), 0, &dx2, &dy2);
+ dx -= dx2;
+ dy -= dy2;
+ state->transformDelta(dx, dy, &w1, &h1);
+
+ // check the tiny chars limit
+ if (!globalParams->getTextKeepTinyChars() &&
+ fabs(w1) < 3 && fabs(h1) < 3) {
+ if (++nTinyChars > 50000) {
+ return;
+ }
+ }
+
+ // break words at space character
+ if (uLen == 1 && u[0] == (Unicode)0x20) {
+ ++curWord->charLen;
+ ++charPos;
+ endWord();
+ return;
+ }
+
+ // start a new word if:
+ // (1) this character's baseline doesn't match the current word's
+ // baseline, or
+ // (2) there is space between the end of the current word and this
+ // character, or
+ // (3) this character overlaps the previous one (duplicated text), or
+ // (4) the previous character was an overlap (we want each duplicated
+ // characters to be in a word by itself)
+ base = sp = 0; // make gcc happy
+ if (curWord->len > 0) {
+ switch (curWord->rot) {
+ case 0:
+ base = y1;
+ sp = x1 - curWord->xMax;
+ break;
+ case 1:
+ base = x1;
+ sp = y1 - curWord->yMax;
+ break;
+ case 2:
+ base = y1;
+ sp = curWord->xMin - x1;
+ break;
+ case 3:
+ base = x1;
+ sp = curWord->yMin - y1;
+ break;
+ }
+ if (fabs(base - curWord->base) > 0.5 ||
+ sp > minWordBreakSpace * curWord->fontSize ||
+ sp < -minDupBreakOverlap * curWord->fontSize ||
+ lastCharOverlap) {
+ lastCharOverlap = gTrue;
+ endWord();
+ beginWord(state, x, y);
+ } else {
+ lastCharOverlap = gFalse;
+ }
+ } else {
+ lastCharOverlap = gFalse;
+ }
+
+ // page rotation and/or transform matrices can cause text to be
+ // drawn in reverse order -- in this case, swap the begin/end
+ // coordinates and break text into individual chars
+ if ((curWord->rot == 0 && w1 < 0) ||
+ (curWord->rot == 1 && h1 < 0) ||
+ (curWord->rot == 2 && w1 > 0) ||
+ (curWord->rot == 3 && h1 > 0)) {
+ endWord();
+ beginWord(state, x + dx, y + dy);
+ x1 += w1;
+ y1 += h1;
+ w1 = -w1;
+ h1 = -h1;
+ }
+
+ // add the characters to the current word
+ if (uLen != 0) {
+ w1 /= uLen;
+ h1 /= uLen;
+ }
+ for (i = 0; i < uLen; ++i) {
+ curWord->addChar(state, x1 + i*w1, y1 + i*h1, w1, h1, u[i]);
+ }
+ ++curWord->charLen;
+ ++charPos;
+}
+
+void TextPage::endWord() {
+ // This check is needed because Type 3 characters can contain
+ // text-drawing operations (when TextPage is being used via
+ // {X,Win}SplashOutputDev rather than TextOutputDev).
+ if (nest > 0) {
+ --nest;
+ return;
+ }
+
+ if (curWord) {
+ addWord(curWord);
+ curWord = NULL;
+ }
+}
+
+void TextPage::addWord(TextWord *word) {
+ // throw away zero-length words -- they don't have valid xMin/xMax
+ // values, and they're useless anyway
+ if (word->len == 0) {
+ delete word;
+ return;
+ }
+
+ if (rawOrder) {
+ if (rawLastWord) {
+ rawLastWord->next = word;
+ } else {
+ rawWords = word;
+ }
+ rawLastWord = word;
+ } else {
+ pools[word->rot]->addWord(word);
+ }
+}
+
+void TextPage::coalesce(GBool physLayout) {
+ UnicodeMap *uMap;
+ TextPool *pool;
+ TextWord *word0, *word1, *word2;
+ TextLine *line;
+ TextBlock *blkList, *blkStack, *blk, *lastBlk, *blk0, *blk1;
+ TextBlock **blkArray;
+ TextFlow *flow, *lastFlow;
+ int rot, poolMinBaseIdx, baseIdx, startBaseIdx;
+ double minBase, maxBase, newMinBase, newMaxBase;
+ double fontSize, colSpace1, colSpace2, lineSpace, intraLineSpace, blkSpace;
+ GBool found;
+ int count[4];
+ int lrCount;
+ int firstBlkIdx, nBlocksLeft;
+ int col1, col2;
+ int i, j, n;
+
+ if (rawOrder) {
+ primaryRot = 0;
+ primaryLR = gTrue;
+ return;
+ }
+
+ uMap = globalParams->getTextEncoding();
+ blkList = NULL;
+ lastBlk = NULL;
+ nBlocks = 0;
+ primaryRot = -1;
+
+#if 0 // for debugging
+ printf("*** initial words ***\n");
+ for (rot = 0; rot < 4; ++rot) {
+ pool = pools[rot];
+ for (baseIdx = pool->minBaseIdx; baseIdx <= pool->maxBaseIdx; ++baseIdx) {
+ for (word0 = pool->getPool(baseIdx); word0; word0 = word0->next) {
+ printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f '",
+ word0->xMin, word0->xMax, word0->yMin, word0->yMax,
+ word0->base, word0->fontSize);
+ for (i = 0; i < word0->len; ++i) {
+ fputc(word0->text[i] & 0xff, stdout);
+ }
+ printf("'\n");
+ }
+ }
+ }
+ printf("\n");
+#endif
+
+ //----- assemble the blocks
+
+ //~ add an outer loop for writing mode (vertical text)
+
+ // build blocks for each rotation value
+ for (rot = 0; rot < 4; ++rot) {
+ pool = pools[rot];
+ poolMinBaseIdx = pool->minBaseIdx;
+ count[rot] = 0;
+
+ // add blocks until no more words are left
+ while (1) {
+
+ // find the first non-empty line in the pool
+ for (;
+ poolMinBaseIdx <= pool->maxBaseIdx &&
+ !pool->getPool(poolMinBaseIdx);
+ ++poolMinBaseIdx) ;
+ if (poolMinBaseIdx > pool->maxBaseIdx) {
+ break;
+ }
+
+ // look for the left-most word in the first four lines of the
+ // pool -- this avoids starting with a superscript word
+ startBaseIdx = poolMinBaseIdx;
+ for (baseIdx = poolMinBaseIdx + 1;
+ baseIdx < poolMinBaseIdx + 4 && baseIdx <= pool->maxBaseIdx;
+ ++baseIdx) {
+ if (!pool->getPool(baseIdx)) {
+ continue;
+ }
+ if (pool->getPool(baseIdx)->primaryCmp(pool->getPool(startBaseIdx))
+ < 0) {
+ startBaseIdx = baseIdx;
+ }
+ }
+
+ // create a new block
+ word0 = pool->getPool(startBaseIdx);
+ pool->setPool(startBaseIdx, word0->next);
+ word0->next = NULL;
+ blk = new TextBlock(this, rot);
+ blk->addWord(word0);
+
+ fontSize = word0->fontSize;
+ minBase = maxBase = word0->base;
+ colSpace1 = minColSpacing1 * fontSize;
+ colSpace2 = minColSpacing2 * fontSize;
+ lineSpace = maxLineSpacingDelta * fontSize;
+ intraLineSpace = maxIntraLineDelta * fontSize;
+
+ // add words to the block
+ do {
+ found = gFalse;
+
+ // look for words on the line above the current top edge of
+ // the block
+ newMinBase = minBase;
+ for (baseIdx = pool->getBaseIdx(minBase);
+ baseIdx >= pool->getBaseIdx(minBase - lineSpace);
+ --baseIdx) {
+ word0 = NULL;
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base < minBase &&
+ word1->base >= minBase - lineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMin < blk->xMax && word1->xMax > blk->xMin)
+ : (word1->yMin < blk->yMax && word1->yMax > blk->yMin)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta1 * fontSize) {
+ word2 = word1;
+ if (word0) {
+ word0->next = word1->next;
+ } else {
+ pool->setPool(baseIdx, word1->next);
+ }
+ word1 = word1->next;
+ word2->next = NULL;
+ blk->addWord(word2);
+ found = gTrue;
+ newMinBase = word2->base;
+ } else {
+ word0 = word1;
+ word1 = word1->next;
+ }
+ }
+ }
+ minBase = newMinBase;
+
+ // look for words on the line below the current bottom edge of
+ // the block
+ newMaxBase = maxBase;
+ for (baseIdx = pool->getBaseIdx(maxBase);
+ baseIdx <= pool->getBaseIdx(maxBase + lineSpace);
+ ++baseIdx) {
+ word0 = NULL;
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base > maxBase &&
+ word1->base <= maxBase + lineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMin < blk->xMax && word1->xMax > blk->xMin)
+ : (word1->yMin < blk->yMax && word1->yMax > blk->yMin)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta1 * fontSize) {
+ word2 = word1;
+ if (word0) {
+ word0->next = word1->next;
+ } else {
+ pool->setPool(baseIdx, word1->next);
+ }
+ word1 = word1->next;
+ word2->next = NULL;
+ blk->addWord(word2);
+ found = gTrue;
+ newMaxBase = word2->base;
+ } else {
+ word0 = word1;
+ word1 = word1->next;
+ }
+ }
+ }
+ maxBase = newMaxBase;
+
+ // look for words that are on lines already in the block, and
+ // that overlap the block horizontally
+ for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace);
+ baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace);
+ ++baseIdx) {
+ word0 = NULL;
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base >= minBase - intraLineSpace &&
+ word1->base <= maxBase + intraLineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMin < blk->xMax + colSpace1 &&
+ word1->xMax > blk->xMin - colSpace1)
+ : (word1->yMin < blk->yMax + colSpace1 &&
+ word1->yMax > blk->yMin - colSpace1)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta2 * fontSize) {
+ word2 = word1;
+ if (word0) {
+ word0->next = word1->next;
+ } else {
+ pool->setPool(baseIdx, word1->next);
+ }
+ word1 = word1->next;
+ word2->next = NULL;
+ blk->addWord(word2);
+ found = gTrue;
+ } else {
+ word0 = word1;
+ word1 = word1->next;
+ }
+ }
+ }
+
+ // only check for outlying words (the next two chunks of code)
+ // if we didn't find anything else
+ if (found) {
+ continue;
+ }
+
+ // scan down the left side of the block, looking for words
+ // that are near (but not overlapping) the block; if there are
+ // three or fewer, add them to the block
+ n = 0;
+ for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace);
+ baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace);
+ ++baseIdx) {
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base >= minBase - intraLineSpace &&
+ word1->base <= maxBase + intraLineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMax <= blk->xMin &&
+ word1->xMax > blk->xMin - colSpace2)
+ : (word1->yMax <= blk->yMin &&
+ word1->yMax > blk->yMin - colSpace2)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta3 * fontSize) {
+ ++n;
+ break;
+ }
+ word1 = word1->next;
+ }
+ }
+ if (n > 0 && n <= 3) {
+ for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace);
+ baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace);
+ ++baseIdx) {
+ word0 = NULL;
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base >= minBase - intraLineSpace &&
+ word1->base <= maxBase + intraLineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMax <= blk->xMin &&
+ word1->xMax > blk->xMin - colSpace2)
+ : (word1->yMax <= blk->yMin &&
+ word1->yMax > blk->yMin - colSpace2)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta3 * fontSize) {
+ word2 = word1;
+ if (word0) {
+ word0->next = word1->next;
+ } else {
+ pool->setPool(baseIdx, word1->next);
+ }
+ word1 = word1->next;
+ word2->next = NULL;
+ blk->addWord(word2);
+ if (word2->base < minBase) {
+ minBase = word2->base;
+ } else if (word2->base > maxBase) {
+ maxBase = word2->base;
+ }
+ found = gTrue;
+ break;
+ } else {
+ word0 = word1;
+ word1 = word1->next;
+ }
+ }
+ }
+ }
+
+ // scan down the right side of the block, looking for words
+ // that are near (but not overlapping) the block; if there are
+ // three or fewer, add them to the block
+ n = 0;
+ for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace);
+ baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace);
+ ++baseIdx) {
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base >= minBase - intraLineSpace &&
+ word1->base <= maxBase + intraLineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMin >= blk->xMax &&
+ word1->xMin < blk->xMax + colSpace2)
+ : (word1->yMin >= blk->yMax &&
+ word1->yMin < blk->yMax + colSpace2)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta3 * fontSize) {
+ ++n;
+ break;
+ }
+ word1 = word1->next;
+ }
+ }
+ if (n > 0 && n <= 3) {
+ for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace);
+ baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace);
+ ++baseIdx) {
+ word0 = NULL;
+ word1 = pool->getPool(baseIdx);
+ while (word1) {
+ if (word1->base >= minBase - intraLineSpace &&
+ word1->base <= maxBase + intraLineSpace &&
+ ((rot == 0 || rot == 2)
+ ? (word1->xMin >= blk->xMax &&
+ word1->xMin < blk->xMax + colSpace2)
+ : (word1->yMin >= blk->yMax &&
+ word1->yMin < blk->yMax + colSpace2)) &&
+ fabs(word1->fontSize - fontSize) <
+ maxBlockFontSizeDelta3 * fontSize) {
+ word2 = word1;
+ if (word0) {
+ word0->next = word1->next;
+ } else {
+ pool->setPool(baseIdx, word1->next);
+ }
+ word1 = word1->next;
+ word2->next = NULL;
+ blk->addWord(word2);
+ if (word2->base < minBase) {
+ minBase = word2->base;
+ } else if (word2->base > maxBase) {
+ maxBase = word2->base;
+ }
+ found = gTrue;
+ break;
+ } else {
+ word0 = word1;
+ word1 = word1->next;
+ }
+ }
+ }
+ }
+
+ } while (found);
+
+ //~ need to compute the primary writing mode (horiz/vert) in
+ //~ addition to primary rotation
+
+ // coalesce the block, and add it to the list
+ blk->coalesce(uMap);
+ if (lastBlk) {
+ lastBlk->next = blk;
+ } else {
+ blkList = blk;
+ }
+ lastBlk = blk;
+ count[rot] += blk->charCount;
+ if (primaryRot < 0 || count[rot] > count[primaryRot]) {
+ primaryRot = rot;
+ }
+ ++nBlocks;
+ }
+ }
+
+#if 0 // for debugging
+ printf("*** rotation ***\n");
+ for (rot = 0; rot < 4; ++rot) {
+ printf(" %d: %6d\n", rot, count[rot]);
+ }
+ printf(" primary rot = %d\n", primaryRot);
+ printf("\n");
+#endif
+
+#if 0 // for debugging
+ printf("*** blocks ***\n");
+ for (blk = blkList; blk; blk = blk->next) {
+ printf("block: rot=%d x=%.2f..%.2f y=%.2f..%.2f\n",
+ blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax);
+ for (line = blk->lines; line; line = line->next) {
+ printf(" line: x=%.2f..%.2f y=%.2f..%.2f base=%.2f\n",
+ line->xMin, line->xMax, line->yMin, line->yMax, line->base);
+ for (word0 = line->words; word0; word0 = word0->next) {
+ printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '",
+ word0->xMin, word0->xMax, word0->yMin, word0->yMax,
+ word0->base, word0->fontSize, word0->spaceAfter);
+ for (i = 0; i < word0->len; ++i) {
+ fputc(word0->text[i] & 0xff, stdout);
+ }
+ printf("'\n");
+ }
+ }
+ }
+ printf("\n");
+#endif
+
+ // determine the primary direction
+ lrCount = 0;
+ for (blk = blkList; blk; blk = blk->next) {
+ for (line = blk->lines; line; line = line->next) {
+ for (word0 = line->words; word0; word0 = word0->next) {
+ for (i = 0; i < word0->len; ++i) {
+ if (unicodeTypeL(word0->text[i])) {
+ ++lrCount;
+ } else if (unicodeTypeR(word0->text[i])) {
+ --lrCount;
+ }
+ }
+ }
+ }
+ }
+ primaryLR = lrCount >= 0;
+
+#if 0 // for debugging
+ printf("*** direction ***\n");
+ printf("lrCount = %d\n", lrCount);
+ printf("primaryLR = %d\n", primaryLR);
+#endif
+
+ //----- column assignment
+
+ // sort blocks into xy order for column assignment
+ blocks = (TextBlock **)gmalloc(nBlocks * sizeof(TextBlock *));
+ for (blk = blkList, i = 0; blk; blk = blk->next, ++i) {
+ blocks[i] = blk;
+ }
+ qsort(blocks, nBlocks, sizeof(TextBlock *), &TextBlock::cmpXYPrimaryRot);
+
+ // column assignment
+ for (i = 0; i < nBlocks; ++i) {
+ blk0 = blocks[i];
+ col1 = 0;
+ for (j = 0; j < i; ++j) {
+ blk1 = blocks[j];
+ col2 = 0; // make gcc happy
+ switch (primaryRot) {
+ case 0:
+ if (blk0->xMin > blk1->xMax) {
+ col2 = blk1->col + blk1->nColumns + 3;
+ } else {
+ col2 = blk1->col + (int)(((blk0->xMin - blk1->xMin) /
+ (blk1->xMax - blk1->xMin)) *
+ blk1->nColumns);
+ }
+ break;
+ case 1:
+ if (blk0->yMin > blk1->yMax) {
+ col2 = blk1->col + blk1->nColumns + 3;
+ } else {
+ col2 = blk1->col + (int)(((blk0->yMin - blk1->yMin) /
+ (blk1->yMax - blk1->yMin)) *
+ blk1->nColumns);
+ }
+ break;
+ case 2:
+ if (blk0->xMax < blk1->xMin) {
+ col2 = blk1->col + blk1->nColumns + 3;
+ } else {
+ col2 = blk1->col + (int)(((blk0->xMax - blk1->xMax) /
+ (blk1->xMin - blk1->xMax)) *
+ blk1->nColumns);
+ }
+ break;
+ case 3:
+ if (blk0->yMax < blk1->yMin) {
+ col2 = blk1->col + blk1->nColumns + 3;
+ } else {
+ col2 = blk1->col + (int)(((blk0->yMax - blk1->yMax) /
+ (blk1->yMin - blk1->yMax)) *
+ blk1->nColumns);
+ }
+ break;
+ }
+ if (col2 > col1) {
+ col1 = col2;
+ }
+ }
+ blk0->col = col1;
+ for (line = blk0->lines; line; line = line->next) {
+ for (j = 0; j <= line->len; ++j) {
+ line->col[j] += col1;
+ }
+ }
+ }
+
+#if 0 // for debugging
+ printf("*** blocks, after column assignment ***\n");
+ for (blk = blkList; blk; blk = blk->next) {
+ printf("block: rot=%d x=%.2f..%.2f y=%.2f..%.2f col=%d nCols=%d\n",
+ blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax, blk->col,
+ blk->nColumns);
+ for (line = blk->lines; line; line = line->next) {
+ printf(" line:\n");
+ for (word0 = line->words; word0; word0 = word0->next) {
+ printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '",
+ word0->xMin, word0->xMax, word0->yMin, word0->yMax,
+ word0->base, word0->fontSize, word0->spaceAfter);
+ for (i = 0; i < word0->len; ++i) {
+ fputc(word0->text[i] & 0xff, stdout);
+ }
+ printf("'\n");
+ }
+ }
+ }
+ printf("\n");
+#endif
-// CID 501 .. 598
-static Gushort japan12KanaMap2[98] = {
- 0x212d, 0x212f, 0x216d, 0x214c, 0x214d, 0x2152, 0x2153, 0x2154,
- 0x2155, 0x2158, 0x2159, 0x215a, 0x215b, 0x213d, 0x2121, 0x2472,
- 0x2421, 0x2423, 0x2425, 0x2427, 0x2429, 0x2463, 0x2465, 0x2467,
- 0x2443, 0x2422, 0x2424, 0x2426, 0x2428, 0x242a, 0x242b, 0x242d,
- 0x242f, 0x2431, 0x2433, 0x2435, 0x2437, 0x2439, 0x243b, 0x243d,
- 0x243f, 0x2441, 0x2444, 0x2446, 0x2448, 0x244a, 0x244b, 0x244c,
- 0x244d, 0x244e, 0x244f, 0x2452, 0x2455, 0x2458, 0x245b, 0x245e,
- 0x245f, 0x2460, 0x2461, 0x2462, 0x2464, 0x2466, 0x2468, 0x2469,
- 0x246a, 0x246b, 0x246c, 0x246d, 0x246f, 0x2473, 0x2470, 0x2471,
- 0x246e, 0x242c, 0x242e, 0x2430, 0x2432, 0x2434, 0x2436, 0x2438,
- 0x243a, 0x243c, 0x243e, 0x2440, 0x2442, 0x2445, 0x2447, 0x2449,
- 0x2450, 0x2451, 0x2453, 0x2454, 0x2456, 0x2457, 0x2459, 0x245a,
- 0x245c, 0x245d
-};
+ //----- reading order sort
-static char *japan12Roman[10] = {
- "I", "II", "III", "IV", "V", "VI", "VII", "VIII", "IX", "X"
-};
+ // sort blocks into yx order (in preparation for reading order sort)
+ qsort(blocks, nBlocks, sizeof(TextBlock *), &TextBlock::cmpYXPrimaryRot);
-static char *japan12Abbrev1[6] = {
- "mm", "cm", "km", "mg", "kg", "cc"
-};
+ // compute space on left and right sides of each block
+ for (i = 0; i < nBlocks; ++i) {
+ blk0 = blocks[i];
+ for (j = 0; j < nBlocks; ++j) {
+ blk1 = blocks[j];
+ if (blk1 != blk0) {
+ blk0->updatePriMinMax(blk1);
+ }
+ }
+ }
+#if 0 // for debugging
+ printf("*** blocks, after yx sort ***\n");
+ for (i = 0; i < nBlocks; ++i) {
+ blk = blocks[i];
+ printf("block: rot=%d x=%.2f..%.2f y=%.2f..%.2f space=%.2f..%.2f\n",
+ blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax,
+ blk->priMin, blk->priMax);
+ for (line = blk->lines; line; line = line->next) {
+ printf(" line:\n");
+ for (word0 = line->words; word0; word0 = word0->next) {
+ printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '",
+ word0->xMin, word0->xMax, word0->yMin, word0->yMax,
+ word0->base, word0->fontSize, word0->spaceAfter);
+ for (j = 0; j < word0->len; ++j) {
+ fputc(word0->text[j] & 0xff, stdout);
+ }
+ printf("'\n");
+ }
+ }
+ }
+ printf("\n");
#endif
-//------------------------------------------------------------------------
-// TextString
-//------------------------------------------------------------------------
-
-TextString::TextString(GfxState *state, GBool hexCodes1) {
- double x, y, h;
-
- state->transform(state->getCurX(), state->getCurY(), &x, &y);
- h = state->getTransformedFontSize();
- //~ yMin/yMax computation should use font ascent/descent values
- yMin = y - 0.95 * h;
- yMax = yMin + 1.3 * h;
- col = 0;
- text = new GString();
- xRight = NULL;
- yxNext = NULL;
- xyNext = NULL;
- hexCodes = hexCodes1;
-}
-
-TextString::~TextString() {
- delete text;
- gfree(xRight);
-}
-
-void TextString::addChar(GfxState *state, double x, double y,
- double dx, double dy,
- Guchar c, GBool useASCII7) {
- char *charName, *sub;
- int c1;
- int i, j, n, m;
-
- // get current index
- i = text->getLength();
-
- // append translated character(s) to string
- sub = NULL;
- n = 1;
- if ((charName = state->getFont()->getCharName(c))) {
- if (useASCII7)
- c1 = ascii7Encoding.getCharCode(charName);
- else
- c1 = isoLatin1Encoding.getCharCode(charName);
- if (c1 < 0) {
- m = strlen(charName);
- if (hexCodes && m == 3 &&
- (charName[0] == 'B' || charName[0] == 'C' ||
- charName[0] == 'G') &&
- isxdigit(charName[1]) && isxdigit(charName[2])) {
- sscanf(charName+1, "%x", &c1);
- } else if (!hexCodes && m >= 2 && m <= 3 &&
- isdigit(charName[0]) && isdigit(charName[1])) {
- c1 = atoi(charName);
- if (c1 >= 256)
- c1 = -1;
- } else if (!hexCodes && m >= 3 && m <= 5 && isdigit(charName[1])) {
- c1 = atoi(charName+1);
- if (c1 >= 256)
- c1 = -1;
- }
- //~ this is a kludge -- is there a standard internal encoding
- //~ used by all/most Type 1 fonts?
- if (c1 == 262) // hyphen
- c1 = 45;
- else if (c1 == 266) // emdash
- c1 = 208;
- if (useASCII7)
- c1 = ascii7Encoding.getCharCode(isoLatin1Encoding.getCharName(c1));
- }
- if (useASCII7) {
- if (c1 >= 128) {
- sub = ascii7Subst[c1 - 128];
- n = strlen(sub);
+ // build the flows
+ //~ this needs to be adjusted for writing mode (vertical text)
+ //~ this also needs to account for right-to-left column ordering
+ blkArray = (TextBlock **)gmalloc(nBlocks * sizeof(TextBlock *));
+ memcpy(blkArray, blocks, nBlocks * sizeof(TextBlock *));
+ flows = lastFlow = NULL;
+ firstBlkIdx = 0;
+ nBlocksLeft = nBlocks;
+ while (nBlocksLeft > 0) {
+
+ // find the upper-left-most block
+ for (; !blkArray[firstBlkIdx]; ++firstBlkIdx) ;
+ i = firstBlkIdx;
+ blk = blkArray[i];
+ for (j = firstBlkIdx + 1; j < nBlocks; ++j) {
+ blk1 = blkArray[j];
+ if (blk1) {
+ if (blk && blk->secondaryDelta(blk1) > 0) {
+ break;
+ }
+ if (blk1->primaryCmp(blk) < 0) {
+ i = j;
+ blk = blk1;
+ }
}
+ }
+ blkArray[i] = NULL;
+ --nBlocksLeft;
+ blk->next = NULL;
+
+ // create a new flow, starting with the upper-left-most block
+ flow = new TextFlow(this, blk);
+ if (lastFlow) {
+ lastFlow->next = flow;
} else {
- if (c1 >= 256) {
- sub = isoLatin1Subst[c1 - 256];
- n = strlen(sub);
- }
+ flows = flow;
}
- } else {
- c1 = -1;
- }
- if (sub)
- text->append(sub);
- else if (c1 >= 0)
- text->append((char)c1);
- else
- text->append(' ');
-
- // update position information
- if (i+n > ((i+15) & ~15))
- xRight = (double *)grealloc(xRight, ((i+n+15) & ~15) * sizeof(double));
- if (i == 0)
- xMin = x;
- for (j = 0; j < n; ++j)
- xRight[i+j] = x + ((j+1) * dx) / n;
- xMax = x + dx;
-}
-
-void TextString::addChar16(GfxState *state, double x, double y,
- double dx, double dy,
- int c, GfxFontCharSet16 charSet) {
- int c1, t1, t2;
- int sub[8];
- char *p;
- int *q;
- int i, j, n;
+ lastFlow = flow;
+ fontSize = blk->lines->words->fontSize;
+
+ // push the upper-left-most block on the stack
+ blk->stackNext = NULL;
+ blkStack = blk;
+
+ // find the other blocks in this flow
+ while (blkStack) {
+
+ // find the upper-left-most block under (but within
+ // maxBlockSpacing of) the top block on the stack
+ blkSpace = maxBlockSpacing * blkStack->lines->words->fontSize;
+ blk = NULL;
+ i = -1;
+ for (j = firstBlkIdx; j < nBlocks; ++j) {
+ blk1 = blkArray[j];
+ if (blk1) {
+ if (blkStack->secondaryDelta(blk1) > blkSpace) {
+ break;
+ }
+ if (blk && blk->secondaryDelta(blk1) > 0) {
+ break;
+ }
+ if (blk1->isBelow(blkStack) &&
+ (!blk || blk1->primaryCmp(blk) < 0)) {
+ i = j;
+ blk = blk1;
+ }
+ }
+ }
- // get current index
- i = text->getLength();
-
- // convert the 16-bit character
- c1 = 0;
- sub[0] = 0;
- switch (charSet) {
-
- // convert Adobe-Japan1-2 to JIS X 0208-1983
- case font16AdobeJapan12:
-#if JAPANESE_SUPPORT
- if (c <= 96) {
- c1 = 0x8080 + japan12Map[c];
- } else if (c <= 632) {
- if (c <= 230)
- c1 = 0;
- else if (c <= 324)
- c1 = 0x8080 + japan12Map[c - 230];
- else if (c <= 421)
- c1 = 0x8080 + japan12KanaMap1[c - 325];
- else if (c <= 500)
- c1 = 0;
- else if (c <= 598)
- c1 = 0x8080 + japan12KanaMap2[c - 501];
- else
- c1 = 0;
- } else if (c <= 1124) {
- if (c <= 779) {
- if (c <= 726)
- c1 = 0xa1a1 + (c - 633);
- else if (c <= 740)
- c1 = 0xa2a1 + (c - 727);
- else if (c <= 748)
- c1 = 0xa2ba + (c - 741);
- else if (c <= 755)
- c1 = 0xa2ca + (c - 749);
- else if (c <= 770)
- c1 = 0xa2dc + (c - 756);
- else if (c <= 778)
- c1 = 0xa2f2 + (c - 771);
- else
- c1 = 0xa2fe;
- } else if (c <= 841) {
- if (c <= 789)
- c1 = 0xa3b0 + (c - 780);
- else if (c <= 815)
- c1 = 0xa3c1 + (c - 790);
- else
- c1 = 0xa3e1 + (c - 816);
- } else if (c <= 1010) {
- if (c <= 924)
- c1 = 0xa4a1 + (c - 842);
- else
- c1 = 0xa5a1 + (c - 925);
+ // if a suitable block was found, add it to the flow and push it
+ // onto the stack
+ if (blk && flow->blockFits(blk, blkStack)) {
+ blkArray[i] = NULL;
+ --nBlocksLeft;
+ blk->next = NULL;
+ flow->addBlock(blk);
+ fontSize = blk->lines->words->fontSize;
+ blk->stackNext = blkStack;
+ blkStack = blk;
+
+ // otherwise (if there is no block under the top block or the
+ // block is not suitable), pop the stack
} else {
- if (c <= 1034)
- c1 = 0xa6a1 + (c - 1011);
- else if (c <= 1058)
- c1 = 0xa6c1 + (c - 1035);
- else if (c <= 1091)
- c1 = 0xa7a1 + (c - 1059);
- else
- c1 = 0xa7d1 + (c - 1092);
- }
- } else if (c <= 4089) {
- t1 = (c - 1125) / 94;
- t2 = (c - 1125) % 94;
- c1 = 0xb0a1 + (t1 << 8) + t2;
- } else if (c <= 7477) {
- t1 = (c - 4090) / 94;
- t2 = (c - 4090) % 94;
- c1 = 0xd0a1 + (t1 << 8) + t2;
- } else if (c <= 7554) {
- c1 = 0;
- } else if (c <= 7563) { // circled Arabic numbers 1..9
- c1 = 0xa3b1 + (c - 7555);
- } else if (c <= 7574) { // circled Arabic numbers 10..20
- t1 = c - 7564 + 10;
- sub[0] = 0xa3b0 + (t1 / 10);
- sub[1] = 0xa3b0 + (t1 % 10);
- sub[2] = 0;
- c1 = -1;
- } else if (c <= 7584) { // Roman numbers I..X
- for (p = japan12Roman[c - 7575], q = sub; *p; ++p, ++q) {
- *q = 0xa380 + *p;
- }
- *q = 0;
- c1 = -1;
- } else if (c <= 7632) {
- if (c <= 7600) {
- c1 = 0;
- } else if (c <= 7606) {
- for (p = japan12Abbrev1[c - 7601], q = sub; *p; ++p, ++q) {
- *q = 0xa380 + *p;
- }
- *q = 0;
- c1 = -1;
- } else {
- c1 = 0;
+ blkStack = blkStack->stackNext;
}
- } else {
- c1 = 0;
}
-#endif // JAPANESE_SUPPORT
- break;
}
-
- // append converted character to string
- if (c1 == 0) {
-#if 0 //~
- error(-1, "Unsupported Adobe-Japan1-2 character: %d", c);
-#endif
- text->append(' ');
- n = 1;
- } else if (c1 > 0) {
- text->append(c1 >> 8);
- text->append(c1 & 0xff);
- n = 2;
- } else {
- n = 0;
- for (q = sub; *q; ++q) {
- text->append(*q >> 8);
- text->append(*q & 0xff);
- n += 2;
+ gfree(blkArray);
+
+#if 0 // for debugging
+ printf("*** flows ***\n");
+ for (flow = flows; flow; flow = flow->next) {
+ printf("flow: x=%.2f..%.2f y=%.2f..%.2f pri:%.2f..%.2f\n",
+ flow->xMin, flow->xMax, flow->yMin, flow->yMax,
+ flow->priMin, flow->priMax);
+ for (blk = flow->blocks; blk; blk = blk->next) {
+ printf(" block: rot=%d x=%.2f..%.2f y=%.2f..%.2f pri=%.2f..%.2f\n",
+ blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax,
+ blk->priMin, blk->priMax);
+ for (line = blk->lines; line; line = line->next) {
+ printf(" line:\n");
+ for (word0 = line->words; word0; word0 = word0->next) {
+ printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '",
+ word0->xMin, word0->xMax, word0->yMin, word0->yMax,
+ word0->base, word0->fontSize, word0->spaceAfter);
+ for (i = 0; i < word0->len; ++i) {
+ fputc(word0->text[i] & 0xff, stdout);
+ }
+ printf("'\n");
+ }
+ }
}
}
+ printf("\n");
+#endif
- // update position information
- if (i+n > ((i+15) & ~15)) {
- xRight = (double *)grealloc(xRight, ((i+n+15) & ~15) * sizeof(double));
- }
- if (i == 0) {
- xMin = x;
+ if (uMap) {
+ uMap->decRefCnt();
}
- for (j = 0; j < n; ++j) {
- xRight[i+j] = x + dx;
- }
- xMax = x + dx;
}
-//------------------------------------------------------------------------
-// TextPage
-//------------------------------------------------------------------------
+GBool TextPage::findText(Unicode *s, int len,
+ GBool startAtTop, GBool stopAtBottom,
+ GBool startAtLast, GBool stopAtLast,
+ double *xMin, double *yMin,
+ double *xMax, double *yMax) {
+ TextBlock *blk;
+ TextLine *line;
+ Unicode *p;
+ Unicode u1, u2;
+ int m, i, j, k;
+ double xStart, yStart, xStop, yStop;
+ double xMin0, yMin0, xMax0, yMax0;
+ double xMin1, yMin1, xMax1, yMax1;
+ GBool found;
+
+ //~ needs to handle right-to-left text
-TextPage::TextPage(GBool useASCII7, GBool rawOrder) {
- this->useASCII7 = useASCII7;
- this->rawOrder = rawOrder;
- curStr = NULL;
- yxStrings = NULL;
- xyStrings = NULL;
- yxCur1 = yxCur2 = NULL;
-}
+ if (rawOrder) {
+ return gFalse;
+ }
-TextPage::~TextPage() {
- clear();
-}
+ xStart = yStart = xStop = yStop = 0;
+ if (startAtLast && haveLastFind) {
+ xStart = lastFindXMin;
+ yStart = lastFindYMin;
+ } else if (!startAtTop) {
+ xStart = *xMin;
+ yStart = *yMin;
+ }
+ if (stopAtLast && haveLastFind) {
+ xStop = lastFindXMin;
+ yStop = lastFindYMin;
+ } else if (!stopAtBottom) {
+ xStop = *xMax;
+ yStop = *yMax;
+ }
-void TextPage::beginString(GfxState *state, GString *s, GBool hexCodes) {
- curStr = new TextString(state, hexCodes);
-}
+ found = gFalse;
+ xMin0 = xMax0 = yMin0 = yMax0 = 0; // make gcc happy
+ xMin1 = xMax1 = yMin1 = yMax1 = 0; // make gcc happy
-void TextPage::addChar(GfxState *state, double x, double y,
- double dx, double dy, Guchar c) {
- double x1, y1, w1, h1, dx2, dy2;
- int n;
- GBool hexCodes;
+ for (i = 0; i < nBlocks; ++i) {
+ blk = blocks[i];
- state->transform(x, y, &x1, &y1);
- state->textTransformDelta(state->getCharSpace(), 0, &dx2, &dy2);
- dx -= dx2;
- dy -= dy2;
- state->transformDelta(dx, dy, &w1, &h1);
- n = curStr->text->getLength();
- if (n > 0 &&
- x1 - curStr->xRight[n-1] > 0.1 * (curStr->yMax - curStr->yMin)) {
- hexCodes = curStr->hexCodes;
- endString();
- beginString(state, NULL, hexCodes);
- }
- curStr->addChar(state, x1, y1, w1, h1, c, useASCII7);
-}
+ // check: is the block above the top limit?
+ if (!startAtTop && blk->yMax < yStart) {
+ continue;
+ }
-void TextPage::addChar16(GfxState *state, double x, double y,
- double dx, double dy, int c,
- GfxFontCharSet16 charSet) {
- double x1, y1, w1, h1, dx2, dy2;
- int n;
- GBool hexCodes;
+ // check: is the block below the bottom limit?
+ if (!stopAtBottom && blk->yMin > yStop) {
+ break;
+ }
- state->transform(x, y, &x1, &y1);
- state->textTransformDelta(state->getCharSpace(), 0, &dx2, &dy2);
- dx -= dx2;
- dy -= dy2;
- state->transformDelta(dx, dy, &w1, &h1);
- n = curStr->text->getLength();
- if (n > 0 &&
- x1 - curStr->xRight[n-1] > 0.1 * (curStr->yMax - curStr->yMin)) {
- hexCodes = curStr->hexCodes;
- endString();
- beginString(state, NULL, hexCodes);
- }
- curStr->addChar16(state, x1, y1, w1, h1, c, charSet);
-}
+ for (line = blk->lines; line; line = line->next) {
-void TextPage::endString() {
- TextString *p1, *p2;
- double h, y1, y2;
+ // check: is the line above the top limit?
+ if (!startAtTop && line->yMin < yStart) {
+ continue;
+ }
- // throw away zero-length strings -- they don't have valid xMin/xMax
- // values, and they're useless anyway
- if (curStr->text->getLength() == 0) {
- delete curStr;
- curStr = NULL;
- return;
- }
+ // check: is the line below the bottom limit?
+ if (!stopAtBottom && line->yMin > yStop) {
+ continue;
+ }
-#if 0 //~tmp
- if (curStr->yMax - curStr->yMin > 20) {
- delete curStr;
- curStr = NULL;
- return;
- }
+ // search each position in this line
+ m = line->len;
+ for (j = 0, p = line->text; j <= m - len; ++j, ++p) {
+
+ // compare the strings
+ for (k = 0; k < len; ++k) {
+#if 1 //~ this lowercases Latin A-Z only -- this will eventually be
+ //~ extended to handle other character sets
+ if (p[k] >= 0x41 && p[k] <= 0x5a) {
+ u1 = p[k] + 0x20;
+ } else {
+ u1 = p[k];
+ }
+ if (s[k] >= 0x41 && s[k] <= 0x5a) {
+ u2 = s[k] + 0x20;
+ } else {
+ u2 = s[k];
+ }
#endif
+ if (u1 != u2) {
+ break;
+ }
+ }
- // insert string in y-major list
- h = curStr->yMax - curStr->yMin;
- y1 = curStr->yMin + 0.5 * h;
- y2 = curStr->yMin + 0.8 * h;
- if (rawOrder) {
- p1 = yxCur1;
- p2 = NULL;
- } else if ((!yxCur1 ||
- (y1 >= yxCur1->yMin &&
- (y2 >= yxCur1->yMax || curStr->xMax >= yxCur1->xMin))) &&
- (!yxCur2 ||
- (y1 < yxCur2->yMin ||
- (y2 < yxCur2->yMax && curStr->xMax < yxCur2->xMin)))) {
- p1 = yxCur1;
- p2 = yxCur2;
- } else {
- for (p1 = NULL, p2 = yxStrings; p2; p1 = p2, p2 = p2->yxNext) {
- if (y1 < p2->yMin || (y2 < p2->yMax && curStr->xMax < p2->xMin))
- break;
+ // found it
+ if (k == len) {
+ switch (line->rot) {
+ case 0:
+ xMin1 = line->edge[j];
+ xMax1 = line->edge[j + len];
+ yMin1 = line->yMin;
+ yMax1 = line->yMax;
+ break;
+ case 1:
+ xMin1 = line->xMin;
+ xMax1 = line->xMax;
+ yMin1 = line->edge[j];
+ yMax1 = line->edge[j + len];
+ break;
+ case 2:
+ xMin1 = line->edge[j + len];
+ xMax1 = line->edge[j];
+ yMin1 = line->yMin;
+ yMax1 = line->yMax;
+ break;
+ case 3:
+ xMin1 = line->xMin;
+ xMax1 = line->xMax;
+ yMin1 = line->edge[j + len];
+ yMax1 = line->edge[j];
+ break;
+ }
+ if ((startAtTop ||
+ yMin1 > yStart || (yMin1 == yStart && xMin1 > xStart)) &&
+ (stopAtBottom ||
+ yMin1 < yStop || (yMin1 == yStop && xMin1 < yStop))) {
+ if (!found || yMin1 < yMin0 || (yMin1 == yMin0 && xMin1 < xMin0)) {
+ xMin0 = xMin1;
+ xMax0 = xMax1;
+ yMin0 = yMin1;
+ yMax0 = yMax1;
+ found = gTrue;
+ }
+ }
+ }
+ }
}
- yxCur2 = p2;
}
- yxCur1 = curStr;
- if (p1)
- p1->yxNext = curStr;
- else
- yxStrings = curStr;
- curStr->yxNext = p2;
- curStr = NULL;
+
+ if (found) {
+ *xMin = xMin0;
+ *xMax = xMax0;
+ *yMin = yMin0;
+ *yMax = yMax0;
+ lastFindXMin = xMin0;
+ lastFindYMin = yMin0;
+ haveLastFind = gTrue;
+ return gTrue;
+ }
+
+ return gFalse;
}
-void TextPage::coalesce() {
- TextString *str1, *str2;
- double space, d;
- int n, i;
+GString *TextPage::getText(double xMin, double yMin,
+ double xMax, double yMax) {
+ GString *s;
+ UnicodeMap *uMap;
+ GBool isUnicode;
+ TextBlock *blk;
+ TextLine *line;
+ TextLineFrag *frags;
+ int nFrags, fragsSize;
+ TextLineFrag *frag;
+ char space[8], eol[16];
+ int spaceLen, eolLen;
+ int lastRot;
+ double x, y;
+ int col, idx0, idx1, i, j;
+ GBool multiLine, oneRot;
+
+ s = new GString();
-#if 0 //~ for debugging
- for (str1 = yxStrings; str1; str1 = str1->yxNext) {
- printf("x=%3d..%3d y=%3d..%3d size=%2d '%s'\n",
- (int)str1->xMin, (int)str1->xMax, (int)str1->yMin, (int)str1->yMax,
- (int)(str1->yMax - str1->yMin), str1->text->getCString());
+ if (rawOrder) {
+ return s;
}
- printf("\n------------------------------------------------------------\n\n");
-#endif
- str1 = yxStrings;
- while (str1 && (str2 = str1->yxNext)) {
- space = str1->yMax - str1->yMin;
- d = str2->xMin - str1->xMax;
-#if 0 //~tmp
- if (((rawOrder &&
- ((str2->yMin >= str1->yMin && str2->yMin <= str1->yMax) ||
- (str2->yMax >= str1->yMin && str2->yMax <= str1->yMax))) ||
- (!rawOrder && str2->yMin < str1->yMax)) &&
- d > -0.1 * space && d < 0.2 * space) {
-#else
- if (((rawOrder &&
- ((str2->yMin >= str1->yMin && str2->yMin <= str1->yMax) ||
- (str2->yMax >= str1->yMin && str2->yMax <= str1->yMax))) ||
- (!rawOrder && str2->yMin < str1->yMax)) &&
- d > -0.5 * space && d < space) {
-#endif
- n = str1->text->getLength();
- if (d > 0.1 * space)
- str1->text->append(' ');
- str1->text->append(str2->text);
- str1->xRight = (double *)
- grealloc(str1->xRight, str1->text->getLength() * sizeof(double));
- if (d > 0.1 * space)
- str1->xRight[n++] = str2->xMin;
- for (i = 0; i < str2->text->getLength(); ++i)
- str1->xRight[n++] = str2->xRight[i];
- if (str2->xMax > str1->xMax)
- str1->xMax = str2->xMax;
- if (str2->yMax > str1->yMax)
- str1->yMax = str2->yMax;
- str1->yxNext = str2->yxNext;
- delete str2;
- } else {
- str1 = str2;
+
+ // get the output encoding
+ if (!(uMap = globalParams->getTextEncoding())) {
+ return s;
+ }
+ isUnicode = uMap->isUnicode();
+ spaceLen = uMap->mapUnicode(0x20, space, sizeof(space));
+ eolLen = 0; // make gcc happy
+ switch (globalParams->getTextEOL()) {
+ case eolUnix:
+ eolLen = uMap->mapUnicode(0x0a, eol, sizeof(eol));
+ break;
+ case eolDOS:
+ eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol));
+ eolLen += uMap->mapUnicode(0x0a, eol + eolLen, sizeof(eol) - eolLen);
+ break;
+ case eolMac:
+ eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol));
+ break;
+ }
+
+ //~ writing mode (horiz/vert)
+
+ // collect the line fragments that are in the rectangle
+ fragsSize = 256;
+ frags = (TextLineFrag *)gmalloc(fragsSize * sizeof(TextLineFrag));
+ nFrags = 0;
+ lastRot = -1;
+ oneRot = gTrue;
+ for (i = 0; i < nBlocks; ++i) {
+ blk = blocks[i];
+ if (xMin < blk->xMax && blk->xMin < xMax &&
+ yMin < blk->yMax && blk->yMin < yMax) {
+ for (line = blk->lines; line; line = line->next) {
+ if (xMin < line->xMax && line->xMin < xMax &&
+ yMin < line->yMax && line->yMin < yMax) {
+ idx0 = idx1 = -1;
+ switch (line->rot) {
+ case 0:
+ y = 0.5 * (line->yMin + line->yMax);
+ if (yMin < y && y < yMax) {
+ j = 0;
+ while (j < line->len) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) > xMin) {
+ idx0 = j;
+ break;
+ }
+ ++j;
+ }
+ j = line->len - 1;
+ while (j >= 0) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) < xMax) {
+ idx1 = j;
+ break;
+ }
+ --j;
+ }
+ }
+ break;
+ case 1:
+ x = 0.5 * (line->xMin + line->xMax);
+ if (xMin < x && x < xMax) {
+ j = 0;
+ while (j < line->len) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) > yMin) {
+ idx0 = j;
+ break;
+ }
+ ++j;
+ }
+ j = line->len - 1;
+ while (j >= 0) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) < yMax) {
+ idx1 = j;
+ break;
+ }
+ --j;
+ }
+ }
+ break;
+ case 2:
+ y = 0.5 * (line->yMin + line->yMax);
+ if (yMin < y && y < yMax) {
+ j = 0;
+ while (j < line->len) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) < xMax) {
+ idx0 = j;
+ break;
+ }
+ ++j;
+ }
+ j = line->len - 1;
+ while (j >= 0) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) > xMin) {
+ idx1 = j;
+ break;
+ }
+ --j;
+ }
+ }
+ break;
+ case 3:
+ x = 0.5 * (line->xMin + line->xMax);
+ if (xMin < x && x < xMax) {
+ j = 0;
+ while (j < line->len) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) < yMax) {
+ idx0 = j;
+ break;
+ }
+ ++j;
+ }
+ j = line->len - 1;
+ while (j >= 0) {
+ if (0.5 * (line->edge[j] + line->edge[j+1]) > yMin) {
+ idx1 = j;
+ break;
+ }
+ --j;
+ }
+ }
+ break;
+ }
+ if (idx0 >= 0 && idx1 >= 0) {
+ if (nFrags == fragsSize) {
+ fragsSize *= 2;
+ frags = (TextLineFrag *)
+ grealloc(frags, fragsSize * sizeof(TextLineFrag));
+ }
+ frags[nFrags].init(line, idx0, idx1 - idx0 + 1);
+ ++nFrags;
+ if (lastRot >= 0 && line->rot != lastRot) {
+ oneRot = gFalse;
+ }
+ lastRot = line->rot;
+ }
+ }
+ }
}
}
-}
-GBool TextPage::findText(char *s, GBool top, GBool bottom,
- double *xMin, double *yMin,
- double *xMax, double *yMax) {
- TextString *str;
- char *p, *p1, *q;
- int n, m, i;
- double x;
-
- // scan all strings on page
- n = strlen(s);
- for (str = yxStrings; str; str = str->yxNext) {
-
- // check: above top limit?
- if (!top && (str->yMax < *yMin ||
- (str->yMin < *yMin && str->xMax <= *xMin)))
- continue;
+ // sort the fragments and generate the string
+ if (nFrags > 0) {
- // check: below bottom limit?
- if (!bottom && (str->yMin > *yMax ||
- (str->yMax > *yMax && str->xMin >= *xMax)))
- return gFalse;
+ for (i = 0; i < nFrags; ++i) {
+ frags[i].computeCoords(oneRot);
+ }
+ assignColumns(frags, nFrags, oneRot);
- // search each position in this string
- m = str->text->getLength();
- for (i = 0, p = str->text->getCString(); i <= m - n; ++i, ++p) {
+ // if all lines in the region have the same rotation, use it;
+ // otherwise, use the page's primary rotation
+ if (oneRot) {
+ qsort(frags, nFrags, sizeof(TextLineFrag),
+ &TextLineFrag::cmpYXLineRot);
+ } else {
+ qsort(frags, nFrags, sizeof(TextLineFrag),
+ &TextLineFrag::cmpYXPrimaryRot);
+ }
- // check: above top limit?
- if (!top && str->yMin < *yMin) {
- x = (((i == 0) ? str->xMin : str->xRight[i-1]) + str->xRight[i]) / 2;
- if (x < *xMin)
- continue;
+ col = 0;
+ multiLine = gFalse;
+ for (i = 0; i < nFrags; ++i) {
+ frag = &frags[i];
+
+ // insert a return
+ if (frag->col < col ||
+ (i > 0 && fabs(frag->base - frags[i-1].base) >
+ maxIntraLineDelta * frags[i-1].line->words->fontSize)) {
+ s->append(eol, eolLen);
+ col = 0;
+ multiLine = gTrue;
}
- // check: below bottom limit?
- if (!bottom && str->yMax > *yMax) {
- x = (((i == 0) ? str->xMin : str->xRight[i-1]) + str->xRight[i]) / 2;
- if (x > *xMax)
- return gFalse;
+ // column alignment
+ for (; col < frag->col; ++col) {
+ s->append(space, spaceLen);
}
- // compare the strings
- for (p1 = p, q = s; *q; ++p1, ++q) {
- if (tolower(*p1) != tolower(*q))
- break;
- }
+ // get the fragment text
+ col += dumpFragment(frag->line->text + frag->start, frag->len, uMap, s);
+ }
+
+ if (multiLine) {
+ s->append(eol, eolLen);
+ }
+ }
+
+ gfree(frags);
+ uMap->decRefCnt();
+
+ return s;
+}
+
+GBool TextPage::findCharRange(int pos, int length,
+ double *xMin, double *yMin,
+ double *xMax, double *yMax) {
+ TextBlock *blk;
+ TextLine *line;
+ TextWord *word;
+ double xMin0, xMax0, yMin0, yMax0;
+ double xMin1, xMax1, yMin1, yMax1;
+ GBool first;
+ int i, j0, j1;
+
+ if (rawOrder) {
+ return gFalse;
+ }
- // found it
- if (!*q) {
- *xMin = (i == 0) ? str->xMin : str->xRight[i-1];
- *xMax = str->xRight[i+n-1];
- *yMin = str->yMin;
- *yMax = str->yMax;
- return gTrue;
+ //~ this doesn't correctly handle:
+ //~ - ranges split across multiple lines (the highlighted region
+ //~ is the bounding box of all the parts of the range)
+ //~ - cases where characters don't convert one-to-one into Unicode
+ first = gTrue;
+ xMin0 = xMax0 = yMin0 = yMax0 = 0; // make gcc happy
+ xMin1 = xMax1 = yMin1 = yMax1 = 0; // make gcc happy
+ for (i = 0; i < nBlocks; ++i) {
+ blk = blocks[i];
+ for (line = blk->lines; line; line = line->next) {
+ for (word = line->words; word; word = word->next) {
+ if (pos < word->charPos + word->charLen &&
+ word->charPos < pos + length) {
+ j0 = pos - word->charPos;
+ if (j0 < 0) {
+ j0 = 0;
+ }
+ j1 = pos + length - 1 - word->charPos;
+ if (j1 >= word->len) {
+ j1 = word->len - 1;
+ }
+ switch (line->rot) {
+ case 0:
+ xMin1 = word->edge[j0];
+ xMax1 = word->edge[j1 + 1];
+ yMin1 = word->yMin;
+ yMax1 = word->yMax;
+ break;
+ case 1:
+ xMin1 = word->xMin;
+ xMax1 = word->xMax;
+ yMin1 = word->edge[j0];
+ yMax1 = word->edge[j1 + 1];
+ break;
+ case 2:
+ xMin1 = word->edge[j1 + 1];
+ xMax1 = word->edge[j0];
+ yMin1 = word->yMin;
+ yMax1 = word->yMax;
+ break;
+ case 3:
+ xMin1 = word->xMin;
+ xMax1 = word->xMax;
+ yMin1 = word->edge[j1 + 1];
+ yMax1 = word->edge[j0];
+ break;
+ }
+ if (first || xMin1 < xMin0) {
+ xMin0 = xMin1;
+ }
+ if (first || xMax1 > xMax0) {
+ xMax0 = xMax1;
+ }
+ if (first || yMin1 < yMin0) {
+ yMin0 = yMin1;
+ }
+ if (first || yMax1 > yMax0) {
+ yMax0 = yMax1;
+ }
+ first = gFalse;
+ }
}
}
}
+ if (!first) {
+ *xMin = xMin0;
+ *xMax = xMax0;
+ *yMin = yMin0;
+ *yMax = yMax0;
+ return gTrue;
+ }
return gFalse;
}
-GString *TextPage::getText(double xMin, double yMin,
- double xMax, double yMax) {
+void TextPage::dump(void *outputStream, TextOutputFunc outputFunc,
+ GBool physLayout) {
+ UnicodeMap *uMap;
+ TextFlow *flow;
+ TextBlock *blk;
+ TextLine *line;
+ TextLineFrag *frags;
+ TextWord *word;
+ int nFrags, fragsSize;
+ TextLineFrag *frag;
+ char space[8], eol[16], eop[8];
+ int spaceLen, eolLen, eopLen;
+ GBool pageBreaks;
GString *s;
- TextString *str1;
- double x0, x1, x2, y;
- double xPrev, yPrev;
- int i1, i2;
- GBool multiLine;
+ int col, i, d, n;
- s = new GString();
- xPrev = yPrev = 0;
- multiLine = gFalse;
- for (str1 = yxStrings; str1; str1 = str1->yxNext) {
- y = 0.5 * (str1->yMin + str1->yMax);
- if (y > yMax)
- break;
- if (y > yMin && str1->xMin < xMax && str1->xMax > xMin) {
- x0 = x1 = x2 = str1->xMin;
- for (i1 = 0; i1 < str1->text->getLength(); ++i1) {
- x0 = (i1==0) ? str1->xMin : str1->xRight[i1-1];
- x1 = str1->xRight[i1];
- if (0.5 * (x0 + x1) >= xMin)
- break;
+ // get the output encoding
+ if (!(uMap = globalParams->getTextEncoding())) {
+ return;
+ }
+ spaceLen = uMap->mapUnicode(0x20, space, sizeof(space));
+ eolLen = 0; // make gcc happy
+ switch (globalParams->getTextEOL()) {
+ case eolUnix:
+ eolLen = uMap->mapUnicode(0x0a, eol, sizeof(eol));
+ break;
+ case eolDOS:
+ eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol));
+ eolLen += uMap->mapUnicode(0x0a, eol + eolLen, sizeof(eol) - eolLen);
+ break;
+ case eolMac:
+ eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol));
+ break;
+ }
+ eopLen = uMap->mapUnicode(0x0c, eop, sizeof(eop));
+ pageBreaks = globalParams->getTextPageBreaks();
+
+ //~ writing mode (horiz/vert)
+
+ // output the page in raw (content stream) order
+ if (rawOrder) {
+
+ for (word = rawWords; word; word = word->next) {
+ s = new GString();
+ dumpFragment(word->text, word->len, uMap, s);
+ (*outputFunc)(outputStream, s->getCString(), s->getLength());
+ delete s;
+ if (word->next &&
+ fabs(word->next->base - word->base) <
+ maxIntraLineDelta * word->fontSize) {
+ if (word->next->xMin > word->xMax + minWordSpacing * word->fontSize) {
+ (*outputFunc)(outputStream, space, spaceLen);
+ }
+ } else {
+ (*outputFunc)(outputStream, eol, eolLen);
}
- for (i2 = str1->text->getLength() - 1; i2 > i1; --i2) {
- x1 = (i2==0) ? str1->xMin : str1->xRight[i2-1];
- x2 = str1->xRight[i2];
- if (0.5 * (x1 + x2) <= xMax)
- break;
+ }
+
+ // output the page, maintaining the original physical layout
+ } else if (physLayout) {
+
+ // collect the line fragments for the page and sort them
+ fragsSize = 256;
+ frags = (TextLineFrag *)gmalloc(fragsSize * sizeof(TextLineFrag));
+ nFrags = 0;
+ for (i = 0; i < nBlocks; ++i) {
+ blk = blocks[i];
+ for (line = blk->lines; line; line = line->next) {
+ if (nFrags == fragsSize) {
+ fragsSize *= 2;
+ frags = (TextLineFrag *)grealloc(frags,
+ fragsSize * sizeof(TextLineFrag));
+ }
+ frags[nFrags].init(line, 0, line->len);
+ frags[nFrags].computeCoords(gTrue);
+ ++nFrags;
}
- if (s->getLength() > 0) {
- if (x0 < xPrev || str1->yMin > yPrev) {
- s->append('\n');
- multiLine = gTrue;
+ }
+ qsort(frags, nFrags, sizeof(TextLineFrag), &TextLineFrag::cmpYXPrimaryRot);
+
+ // generate output
+ col = 0;
+ for (i = 0; i < nFrags; ++i) {
+ frag = &frags[i];
+
+ // column alignment
+ for (; col < frag->col; ++col) {
+ (*outputFunc)(outputStream, space, spaceLen);
+ }
+
+ // print the line
+ s = new GString();
+ col += dumpFragment(frag->line->text + frag->start, frag->len, uMap, s);
+ (*outputFunc)(outputStream, s->getCString(), s->getLength());
+ delete s;
+
+ // print one or more returns if necessary
+ if (i == nFrags - 1 ||
+ frags[i+1].col < col ||
+ fabs(frags[i+1].base - frag->base) >
+ maxIntraLineDelta * frag->line->words->fontSize) {
+ if (i < nFrags - 1) {
+ d = (int)((frags[i+1].base - frag->base) /
+ frag->line->words->fontSize);
+ if (d < 1) {
+ d = 1;
+ } else if (d > 5) {
+ d = 5;
+ }
} else {
- s->append(" ");
+ d = 1;
+ }
+ for (; d > 0; --d) {
+ (*outputFunc)(outputStream, eol, eolLen);
}
+ col = 0;
}
- s->append(str1->text->getCString() + i1, i2 - i1 + 1);
- xPrev = x2;
- yPrev = str1->yMax;
}
- }
- if (multiLine)
- s->append('\n');
- return s;
-}
-void TextPage::dump(FILE *f) {
- TextString *str1, *str2, *str3;
- double yMin, yMax;
- int col1, col2;
- double d;
-
- // build x-major list
- xyStrings = NULL;
- for (str1 = yxStrings; str1; str1 = str1->yxNext) {
- for (str2 = NULL, str3 = xyStrings;
- str3;
- str2 = str3, str3 = str3->xyNext) {
- if (str1->xMin < str3->xMin ||
- (str1->xMin == str3->xMin && str1->yMin < str3->yMin))
- break;
- }
- if (str2)
- str2->xyNext = str1;
- else
- xyStrings = str1;
- str1->xyNext = str3;
- }
+ gfree(frags);
- // do column assignment
- for (str1 = xyStrings; str1; str1 = str1->xyNext) {
- col1 = 0;
- for (str2 = xyStrings; str2 != str1; str2 = str2->xyNext) {
- if (str1->xMin >= str2->xMax) {
- col2 = str2->col + str2->text->getLength() + 4;
- if (col2 > col1)
- col1 = col2;
- } else if (str1->xMin > str2->xMin) {
- col2 = str2->col +
- (int)(((str1->xMin - str2->xMin) / (str2->xMax - str2->xMin)) *
- str2->text->getLength());
- if (col2 > col1) {
- col1 = col2;
+ // output the page, "undoing" the layout
+ } else {
+ for (flow = flows; flow; flow = flow->next) {
+ for (blk = flow->blocks; blk; blk = blk->next) {
+ for (line = blk->lines; line; line = line->next) {
+ n = line->len;
+ if (line->hyphenated && (line->next || blk->next)) {
+ --n;
+ }
+ s = new GString();
+ dumpFragment(line->text, n, uMap, s);
+ (*outputFunc)(outputStream, s->getCString(), s->getLength());
+ delete s;
+ if (!line->hyphenated) {
+ if (line->next) {
+ (*outputFunc)(outputStream, space, spaceLen);
+ } else if (blk->next) {
+ //~ this is a bit of a kludge - we should really do a more
+ //~ intelligent determination of paragraphs
+ if (blk->next->lines->words->fontSize ==
+ blk->lines->words->fontSize) {
+ (*outputFunc)(outputStream, space, spaceLen);
+ } else {
+ (*outputFunc)(outputStream, eol, eolLen);
+ }
+ }
+ }
}
}
+ (*outputFunc)(outputStream, eol, eolLen);
+ (*outputFunc)(outputStream, eol, eolLen);
}
- str1->col = col1;
}
-#if 0 //~ for debugging
- fprintf(f, "~~~~~~~~~~\n");
- for (str1 = yxStrings; str1; str1 = str1->yxNext) {
- fprintf(f, "(%4d,%4d) - (%4d,%4d) [%3d] %s\n",
- (int)str1->xMin, (int)str1->yMin, (int)str1->xMax, (int)str1->yMax,
- str1->col, str1->text->getCString());
+ // end of page
+ if (pageBreaks) {
+ (*outputFunc)(outputStream, eop, eopLen);
+ (*outputFunc)(outputStream, eol, eolLen);
}
- fprintf(f, "~~~~~~~~~~\n");
-#endif
- // output
- col1 = 0;
- yMax = yxStrings ? yxStrings->yMax : 0;
- for (str1 = yxStrings; str1; str1 = str1->yxNext) {
+ uMap->decRefCnt();
+}
- // line this string up with the correct column
- if (rawOrder && col1 == 0) {
- col1 = str1->col;
- } else {
- for (; col1 < str1->col; ++col1) {
- fputc(' ', f);
+void TextPage::assignColumns(TextLineFrag *frags, int nFrags, GBool oneRot) {
+ TextLineFrag *frag0, *frag1;
+ int rot, col1, col2, i, j, k;
+
+ // all text in the region has the same rotation -- recompute the
+ // column numbers based only on the text in the region
+ if (oneRot) {
+ qsort(frags, nFrags, sizeof(TextLineFrag), &TextLineFrag::cmpXYLineRot);
+ rot = frags[0].line->rot;
+ for (i = 0; i < nFrags; ++i) {
+ frag0 = &frags[i];
+ col1 = 0;
+ for (j = 0; j < i; ++j) {
+ frag1 = &frags[j];
+ col2 = 0; // make gcc happy
+ switch (rot) {
+ case 0:
+ if (frag0->xMin >= frag1->xMax) {
+ col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] -
+ frag1->line->col[frag1->start]) + 1;
+ } else {
+ for (k = frag1->start;
+ k < frag1->start + frag1->len &&
+ frag0->xMin >= 0.5 * (frag1->line->edge[k] +
+ frag1->line->edge[k+1]);
+ ++k) ;
+ col2 = frag1->col +
+ frag1->line->col[k] - frag1->line->col[frag1->start];
+ }
+ break;
+ case 1:
+ if (frag0->yMin >= frag1->yMax) {
+ col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] -
+ frag1->line->col[frag1->start]) + 1;
+ } else {
+ for (k = frag1->start;
+ k < frag1->start + frag1->len &&
+ frag0->yMin >= 0.5 * (frag1->line->edge[k] +
+ frag1->line->edge[k+1]);
+ ++k) ;
+ col2 = frag1->col +
+ frag1->line->col[k] - frag1->line->col[frag1->start];
+ }
+ break;
+ case 2:
+ if (frag0->xMax <= frag1->xMin) {
+ col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] -
+ frag1->line->col[frag1->start]) + 1;
+ } else {
+ for (k = frag1->start;
+ k < frag1->start + frag1->len &&
+ frag0->xMax <= 0.5 * (frag1->line->edge[k] +
+ frag1->line->edge[k+1]);
+ ++k) ;
+ col2 = frag1->col +
+ frag1->line->col[k] - frag1->line->col[frag1->start];
+ }
+ break;
+ case 3:
+ if (frag0->yMax <= frag1->yMin) {
+ col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] -
+ frag1->line->col[frag1->start]) + 1;
+ } else {
+ for (k = frag1->start;
+ k < frag1->start + frag1->len &&
+ frag0->yMax <= 0.5 * (frag1->line->edge[k] +
+ frag1->line->edge[k+1]);
+ ++k) ;
+ col2 = frag1->col +
+ frag1->line->col[k] - frag1->line->col[frag1->start];
+ }
+ break;
+ }
+ if (col2 > col1) {
+ col1 = col2;
+ }
}
+ frag0->col = col1;
}
- // print the string
- fputs(str1->text->getCString(), f);
+ // the region includes text at different rotations -- use the
+ // globally assigned column numbers, offset by the minimum column
+ // number (i.e., shift everything over to column 0)
+ } else {
+ col1 = frags[0].col;
+ for (i = 1; i < nFrags; ++i) {
+ if (frags[i].col < col1) {
+ col1 = frags[i].col;
+ }
+ }
+ for (i = 0; i < nFrags; ++i) {
+ frags[i].col -= col1;
+ }
+ }
+}
- // increment column
- col1 += str1->text->getLength();
+int TextPage::dumpFragment(Unicode *text, int len, UnicodeMap *uMap,
+ GString *s) {
+ char lre[8], rle[8], popdf[8], buf[8];
+ int lreLen, rleLen, popdfLen, n;
+ int nCols, i, j, k;
- // update yMax for this line
- if (str1->yMax > yMax)
- yMax = str1->yMax;
+ nCols = 0;
- // if we've hit the end of the line...
-#if 0 //~
- if (!(str1->yxNext &&
- !(rawOrder && str1->yxNext->yMax < str1->yMin) &&
- str1->yxNext->yMin < str1->yMax &&
- str1->yxNext->xMin >= str1->xMax)) {
-#else
- if (!(str1->yxNext &&
- !(rawOrder && str1->yxNext->yMax < str1->yMin) &&
- str1->yxNext->yMin < 0.2*str1->yMin + 0.8*str1->yMax &&
- str1->yxNext->xMin >= str1->xMax)) {
-#endif
+ if (uMap->isUnicode()) {
- // print a return
- fputc('\n', f);
+ lreLen = uMap->mapUnicode(0x202a, lre, sizeof(lre));
+ rleLen = uMap->mapUnicode(0x202b, rle, sizeof(rle));
+ popdfLen = uMap->mapUnicode(0x202c, popdf, sizeof(popdf));
- // print extra vertical space if necessary
- if (str1->yxNext) {
+ if (primaryLR) {
- // find yMin for next line
- yMin = str1->yxNext->yMin;
- for (str2 = str1->yxNext; str2; str2 = str2->yxNext) {
- if (str2->yMin < yMin)
- yMin = str2->yMin;
- if (!(str2->yxNext && str2->yxNext->yMin < str2->yMax &&
- str2->yxNext->xMin >= str2->xMax))
- break;
+ i = 0;
+ while (i < len) {
+ // output a left-to-right section
+ for (j = i; j < len && !unicodeTypeR(text[j]); ++j) ;
+ for (k = i; k < j; ++k) {
+ n = uMap->mapUnicode(text[k], buf, sizeof(buf));
+ s->append(buf, n);
+ ++nCols;
}
-
- // print the space
- d = (int)((yMin - yMax) / (str1->yMax - str1->yMin) + 0.5);
- if (rawOrder && d > 2) {
- d = 2;
+ i = j;
+ // output a right-to-left section
+ for (j = i; j < len && !unicodeTypeL(text[j]); ++j) ;
+ if (j > i) {
+ s->append(rle, rleLen);
+ for (k = j - 1; k >= i; --k) {
+ n = uMap->mapUnicode(text[k], buf, sizeof(buf));
+ s->append(buf, n);
+ ++nCols;
+ }
+ s->append(popdf, popdfLen);
+ i = j;
}
- for (; d > 0; --d) {
- fputc('\n', f);
+ }
+
+ } else {
+
+ s->append(rle, rleLen);
+ i = len - 1;
+ while (i >= 0) {
+ // output a right-to-left section
+ for (j = i; j >= 0 && !unicodeTypeL(text[j]); --j) ;
+ for (k = i; k > j; --k) {
+ n = uMap->mapUnicode(text[k], buf, sizeof(buf));
+ s->append(buf, n);
+ ++nCols;
+ }
+ i = j;
+ // output a left-to-right section
+ for (j = i; j >= 0 && !unicodeTypeR(text[j]); --j) ;
+ if (j < i) {
+ s->append(lre, lreLen);
+ for (k = j + 1; k <= i; ++k) {
+ n = uMap->mapUnicode(text[k], buf, sizeof(buf));
+ s->append(buf, n);
+ ++nCols;
+ }
+ s->append(popdf, popdfLen);
+ i = j;
}
}
+ s->append(popdf, popdfLen);
- // set up for next line
- col1 = 0;
- yMax = str1->yxNext ? str1->yxNext->yMax : 0;
+ }
+
+ } else {
+ for (i = 0; i < len; ++i) {
+ n = uMap->mapUnicode(text[i], buf, sizeof(buf));
+ s->append(buf, n);
+ nCols += n;
}
}
-}
-void TextPage::clear() {
- TextString *p1, *p2;
+ return nCols;
+}
- if (curStr) {
- delete curStr;
- curStr = NULL;
- }
- for (p1 = yxStrings; p1; p1 = p2) {
- p2 = p1->yxNext;
- delete p1;
- }
- yxStrings = NULL;
- xyStrings = NULL;
- yxCur1 = yxCur2 = NULL;
+#if TEXTOUT_WORD_LIST
+TextWordList *TextPage::makeWordList(GBool physLayout) {
+ return new TextWordList(this, physLayout);
}
+#endif
//------------------------------------------------------------------------
// TextOutputDev
//------------------------------------------------------------------------
-TextOutputDev::TextOutputDev(char *fileName, GBool useASCII7, GBool rawOrder) {
+static void outputToFile(void *stream, char *text, int len) {
+ fwrite(text, 1, len, (FILE *)stream);
+}
+
+TextOutputDev::TextOutputDev(char *fileName, GBool physLayoutA,
+ GBool rawOrderA, GBool append) {
text = NULL;
- this->rawOrder = rawOrder;
+ physLayout = physLayoutA;
+ rawOrder = rawOrderA;
ok = gTrue;
// open file
needClose = gFalse;
if (fileName) {
if (!strcmp(fileName, "-")) {
- f = stdout;
- } else if ((f = fopen(fileName, "w"))) {
+ outputStream = stdout;
+#ifdef WIN32
+ // keep DOS from munging the end-of-line characters
+ setmode(fileno(stdout), O_BINARY);
+#endif
+ } else if ((outputStream = fopen(fileName, append ? "ab" : "wb"))) {
needClose = gTrue;
} else {
error(-1, "Couldn't open text file '%s'", fileName);
ok = gFalse;
return;
}
+ outputFunc = &outputToFile;
} else {
- f = NULL;
+ outputStream = NULL;
}
// set up text object
- text = new TextPage(useASCII7, rawOrder);
+ text = new TextPage(rawOrderA);
+}
+
+TextOutputDev::TextOutputDev(TextOutputFunc func, void *stream,
+ GBool physLayoutA, GBool rawOrderA) {
+ outputFunc = func;
+ outputStream = stream;
+ needClose = gFalse;
+ physLayout = physLayoutA;
+ rawOrder = rawOrderA;
+ text = new TextPage(rawOrderA);
+ ok = gTrue;
}
TextOutputDev::~TextOutputDev() {
- if (needClose)
- fclose(f);
- if (text)
+ if (needClose) {
+#ifdef MACOS
+ ICS_MapRefNumAndAssign((short)((FILE *)outputStream)->handle);
+#endif
+ fclose((FILE *)outputStream);
+ }
+ if (text) {
delete text;
+ }
}
void TextOutputDev::startPage(int pageNum, GfxState *state) {
- text->clear();
+ text->startPage(state);
}
void TextOutputDev::endPage() {
- text->coalesce();
- if (f) {
- text->dump(f);
- fputc('\n', f);
- fputs("\f\n", f);
- fputc('\n', f);
+ text->endPage();
+ text->coalesce(physLayout);
+ if (outputStream) {
+ text->dump(outputStream, outputFunc, physLayout);
}
}
void TextOutputDev::updateFont(GfxState *state) {
- GfxFont *font;
- char *charName;
- int c;
-
- // look for hex char codes in subsetted font
- hexCodes = gFalse;
- if ((font = state->getFont()) && !font->is16Bit()) {
- for (c = 0; c < 256; ++c) {
- if ((charName = font->getCharName(c))) {
- if ((charName[0] == 'B' || charName[0] == 'C' ||
- charName[0] == 'G') &&
- strlen(charName) == 3 &&
- ((charName[1] >= 'a' && charName[1] <= 'f') ||
- (charName[1] >= 'A' && charName[1] <= 'F') ||
- (charName[2] >= 'a' && charName[2] <= 'f') ||
- (charName[2] >= 'A' && charName[2] <= 'F'))) {
- hexCodes = gTrue;
- break;
- }
- }
- }
- }
+ text->updateFont(state);
}
void TextOutputDev::beginString(GfxState *state, GString *s) {
- text->beginString(state, s, hexCodes);
}
void TextOutputDev::endString(GfxState *state) {
- text->endString();
}
void TextOutputDev::drawChar(GfxState *state, double x, double y,
- double dx, double dy, Guchar c) {
- text->addChar(state, x, y, dx, dy, c);
-}
-
-void TextOutputDev::drawChar16(GfxState *state, double x, double y,
- double dx, double dy, int c) {
- text->addChar16(state, x, y, dx, dy, c, state->getFont()->getCharSet16());
+ double dx, double dy,
+ double originX, double originY,
+ CharCode c, Unicode *u, int uLen) {
+ text->addChar(state, x, y, dx, dy, c, u, uLen);
}
-GBool TextOutputDev::findText(char *s, GBool top, GBool bottom,
+GBool TextOutputDev::findText(Unicode *s, int len,
+ GBool startAtTop, GBool stopAtBottom,
+ GBool startAtLast, GBool stopAtLast,
double *xMin, double *yMin,
double *xMax, double *yMax) {
- return text->findText(s, top, bottom, xMin, yMin, xMax, yMax);
+ return text->findText(s, len, startAtTop, stopAtBottom,
+ startAtLast, stopAtLast, xMin, yMin, xMax, yMax);
+}
+
+GString *TextOutputDev::getText(double xMin, double yMin,
+ double xMax, double yMax) {
+ return text->getText(xMin, yMin, xMax, yMax);
+}
+
+GBool TextOutputDev::findCharRange(int pos, int length,
+ double *xMin, double *yMin,
+ double *xMax, double *yMax) {
+ return text->findCharRange(pos, length, xMin, yMin, xMax, yMax);
+}
+
+#if TEXTOUT_WORD_LIST
+TextWordList *TextOutputDev::makeWordList() {
+ return text->makeWordList(physLayout);
}
+#endif