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Unified Diff: experimental/PdfViewer/pdfparser/native/SkPdfNativeTokenizer.cpp

Issue 19793011: (upload draf code for backup) pdfviewer: improve memory, son't allocate extra buffers, and put the … (Closed) Base URL: http://skia.googlecode.com/svn/trunk/
Patch Set: Created 7 years, 5 months ago
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Index: experimental/PdfViewer/pdfparser/native/SkPdfNativeTokenizer.cpp
===================================================================
--- experimental/PdfViewer/pdfparser/native/SkPdfNativeTokenizer.cpp (revision 10235)
+++ experimental/PdfViewer/pdfparser/native/SkPdfNativeTokenizer.cpp (working copy)
@@ -28,17 +28,74 @@
return NULL;
}
+#ifdef PDF_TRACE
+static void TRACE_INDENT(int level, const char* type) {
+ static int id = 0;
+ id++;
+ if (478613 == id) {
+ printf("break;\n");
+ }
+ // all types should have 2 letters, so the text is alligned nicely
+ printf("\n%10i %15s: ", id, type);
+ for (int i = 0 ; i < level; i++) {
+ printf(" ");
+ }
+}
-static unsigned char* skipPdfWhiteSpaces(unsigned char* start, unsigned char* end) {
+static void TRACE_COMMENT(char ch) {
+ printf("%c", ch);
+}
+
+static void TRACE_TK(char ch) {
+ printf("%c", ch);
+}
+
+static void TRACE_NAME(const unsigned char* start, const unsigned char* end) {
+ while (start < end) {
+ printf("%c", *start);
+ start++;
+ }
+ printf("\n");
+}
+
+static void TRACE_STRING(const unsigned char* start, const unsigned char* end) {
+ while (start < end) {
+ printf("%c", *start);
+ start++;
+ }
+ printf("\n");
+}
+
+static void TRACE_HEXSTRING(const unsigned char* start, const unsigned char* end) {
+ while (start < end) {
+ printf("%c", *start);
+ start++;
+ }
+ printf("\n");
+}
+
+#else
+#define TRACE_INDENT(level,type)
+#define TRACE_COMMENT(ch)
+#define TRACE_TK(ch)
+#define TRACE_NAME(start,end)
+#define TRACE_STRING(start,end)
+#define TRACE_HEXSTRING(start,end)
+#endif
+
+static const unsigned char* skipPdfWhiteSpaces(int level, const unsigned char* start, const unsigned char* end) {
+ TRACE_INDENT(level, "White Space");
while (start < end && isPdfWhiteSpace(*start)) {
+ TRACE_COMMENT(*start);
if (*start == kComment_PdfDelimiter) {
// skip the comment until end of line
while (start < end && !isPdfEOL(*start)) {
- *start = '\0';
+ //*start = '\0';
start++;
+ TRACE_COMMENT(*start);
}
} else {
- *start = '\0';
+ //*start = '\0';
start++;
}
}
@@ -46,30 +103,34 @@
}
// TODO(edisonn) '(' can be used, will it break the string a delimiter or space inside () ?
-static unsigned char* endOfPdfToken(unsigned char* start, unsigned char* end) {
+static const unsigned char* endOfPdfToken(int level, const unsigned char* start, const unsigned char* end) {
//int opened brackets
//TODO(edisonn): what out for special chars, like \n, \032
+ TRACE_INDENT(level, "Token");
SkASSERT(!isPdfWhiteSpace(*start));
if (start < end && isPdfDelimiter(*start)) {
+ TRACE_TK(*start);
start++;
return start;
}
while (start < end && !isPdfWhiteSpaceOrPdfDelimiter(*start)) {
+ TRACE_TK(*start);
start++;
}
return start;
}
// last elem has to be ]
-static unsigned char* readArray(unsigned char* start, unsigned char* end, SkPdfObject* array, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) {
+static const unsigned char* readArray(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* array, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) {
+ TRACE_INDENT(level, "Array");
while (start < end) {
// skip white spaces
- start = skipPdfWhiteSpaces(start, end);
+ start = skipPdfWhiteSpaces(level + 1, start, end);
- unsigned char* endOfToken = endOfPdfToken(start, end);
+ const unsigned char* endOfToken = endOfPdfToken(level + 1, start, end);
if (endOfToken == start) {
// TODO(edisonn): report error in pdf file (end of stream with ] for end of aray
@@ -81,7 +142,7 @@
}
SkPdfObject* newObj = allocator->allocObject();
- start = nextObject(start, end, newObj, allocator, doc);
+ start = nextObject(level + 1, start, end, newObj, allocator, doc);
// TODO(edisonn): perf/memory: put the variables on the stack, and flush them on the array only when
// we are sure they are not references!
if (newObj->isKeywordReference() && array->size() >= 2 && array->objAtAIndex(array->size() - 1)->isInteger() && array->objAtAIndex(array->size() - 2)->isInteger()) {
@@ -101,38 +162,47 @@
// When we read strings we will rewrite the string so we will reuse the memory
// when we start to read the string, we already consumed the opened bracket
-static unsigned char* readString(unsigned char* start, unsigned char* end, SkPdfObject* str) {
- unsigned char* out = start;
- unsigned char* in = start;
- int openRoundBrackets = 0;
- while (in < end && (*in != kClosedRoundBracket_PdfDelimiter || openRoundBrackets > 0)) {
+// TODO(edisonn): space: add paramater, taht would report if we need to allocate new buffer, or we can reuse the one we have
+
+static const unsigned char* readString(int level, const unsigned char* start, const unsigned char* end, unsigned char* out) {
+ TRACE_INDENT(level, "String");
+ const unsigned char* in = start;
+ bool hasOut = (out != NULL);
+
+ int openRoundBrackets = 1;
+ while (in < end) {
openRoundBrackets += ((*in) == kOpenedRoundBracket_PdfDelimiter);
openRoundBrackets -= ((*in) == kClosedRoundBracket_PdfDelimiter);
+ if (openRoundBrackets == 0) {
+ in++; // consumed )
+ break;
+ }
+
if (*in == kEscape_PdfSpecial) {
if (in + 1 < end) {
switch (in[1]) {
case 'n':
- *out = kLF_PdfWhiteSpace;
+ if (hasOut) { *out = kLF_PdfWhiteSpace; }
out++;
in += 2;
break;
case 'r':
- *out = kCR_PdfWhiteSpace;
+ if (hasOut) { *out = kCR_PdfWhiteSpace; }
out++;
in += 2;
break;
case 't':
- *out = kHT_PdfWhiteSpace;
+ if (hasOut) { *out = kHT_PdfWhiteSpace; }
out++;
in += 2;
break;
case 'b':
// TODO(edisonn): any special meaning to backspace?
- *out = kBackspace_PdfSpecial;
+ if (hasOut) { *out = kBackspace_PdfSpecial; }
out++;
in += 2;
break;
@@ -144,19 +214,19 @@
break;
case kOpenedRoundBracket_PdfDelimiter:
- *out = kOpenedRoundBracket_PdfDelimiter;
+ if (hasOut) { *out = kOpenedRoundBracket_PdfDelimiter; }
out++;
in += 2;
break;
case kClosedRoundBracket_PdfDelimiter:
- *out = kClosedRoundBracket_PdfDelimiter;
+ if (hasOut) { *out = kClosedRoundBracket_PdfDelimiter; }
out++;
in += 2;
break;
case kEscape_PdfSpecial:
- *out = kEscape_PdfSpecial;
+ if (hasOut) { *out = kEscape_PdfSpecial; }
out++;
in += 2;
break;
@@ -179,13 +249,13 @@
i++;
in++;
if (i == 3) {
- *out = code & 0xff;
+ if (hasOut) { *out = code & 0xff; }
out++;
i = 0;
}
}
if (i > 0) {
- *out = code & 0xff;
+ if (hasOut) { *out = code & 0xff; }
out++;
}
}
@@ -203,21 +273,38 @@
// TODO(edisonn): perf, avoid copy into itself, maybe first do a simple scan until found backslash ?
// we could have one look that first just inc current, and when we find the backslash
// we go to this loop
- *in = *out;
+ if (hasOut) { *out = *in; }
in++;
out++;
}
}
+ if (hasOut) {
+ return in; // consumed already ) at the end of the string
+ } else {
+ return start + (out - (const unsigned char*)NULL); // return where the string would end if we reuse the string
+ }
+}
- SkPdfObject::makeString(start, out, str);
- return in + 1; // consume ) at the end of the string
+static int readStringLength(int level, const unsigned char* start, const unsigned char* end) {
+ return readString(level, start, end, NULL) - start;
}
-static unsigned char* readHexString(unsigned char* start, unsigned char* end, SkPdfObject* str) {
- unsigned char* out = start;
- unsigned char* in = start;
+static const unsigned char* readString(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* str, SkPdfAllocator* allocator) {
+ int outLength = readStringLength(level, start, end);
+ // TODO(edisonn): optimize the allocation, don't allocate new string, but put it in a preallocated buffer
+ unsigned char* out = (unsigned char*)allocator->alloc(outLength);
+ start = readString(level, start, end, out);
+ SkPdfObject::makeString(out, out + outLength, str);
+ TRACE_STRING(out, out + outLength);
+ return start; // consumed already ) at the end of the string
+}
+static const unsigned char* readHexString(int level, const unsigned char* start, const unsigned char* end, unsigned char* out) {
+ TRACE_INDENT(level, "HexString");
+ bool hasOut = (out != NULL);
+ const unsigned char* in = start;
+
unsigned char code = 0;
while (in < end) {
@@ -226,8 +313,8 @@
}
if (*in == kClosedInequityBracket_PdfDelimiter) {
- *in = '\0';
- in++;
+ //*in = '\0';
+ in++; // consume >
// normal exit
break;
}
@@ -282,13 +369,13 @@
// TODO(edisonn): report error
if (in >= end) {
- *out = code;
+ if (hasOut) { *out = code; }
out++;
break;
}
if (*in == kClosedInequityBracket_PdfDelimiter) {
- *out = code;
+ if (hasOut) { *out = code; }
out++;
break;
}
@@ -330,23 +417,37 @@
break;
}
- *out = code;
+ if (hasOut) { *out = code; }
out++;
in++;
}
- if (out < in) {
- *out = '\0';
+ if (hasOut) {
+ return in; // consumed already > at the end of the string
+ } else {
+ return start + (out - (const unsigned char*)NULL); // return where the string would end if we reuse the string
}
+}
- SkPdfObject::makeHexString(start, out, str);
- return in; // consume > at the end of the string
+static int readHexStringLength(int level, const unsigned char* start, const unsigned char* end) {
+ return readHexString(level, start, end, NULL) - start;
}
+static const unsigned char* readHexString(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* str, SkPdfAllocator* allocator) {
+ int outLength = readHexStringLength(level, start, end);
+ // TODO(edisonn): optimize the allocation, don't allocate new string, but put it in a preallocated buffer
+ unsigned char* out = (unsigned char*)allocator->alloc(outLength);
+ start = readHexString(level, start, end, out);
+ SkPdfObject::makeHexString(out, out + outLength, str);
+ TRACE_HEXSTRING(out, out + outLength);
+ return start; // consumed already > at the end of the string
+}
+
// TODO(edisonn): before PDF 1.2 name could not have special characters, add version parameter
-static unsigned char* readName(unsigned char* start, unsigned char* end, SkPdfObject* name) {
- unsigned char* out = start;
- unsigned char* in = start;
+static const unsigned char* readName(int level, const unsigned char* start, const unsigned char* end, unsigned char* out) {
+ TRACE_INDENT(level, "Name");
+ bool hasOut = (out != NULL);
+ const unsigned char* in = start;
unsigned char code = 0;
@@ -433,20 +534,37 @@
break;
}
- *out = code;
+ if (hasOut) { *out = code; }
out++;
in++;
} else {
- *out = *in;
+ if (hasOut) { *out = *in; }
out++;
in++;
}
}
- SkPdfObject::makeName(start, out, name);
- return in;
+ if (hasOut) {
+ return in;
+ } else {
+ return start + (out - (const unsigned char*)NULL); // return where the string would end if we reuse the string
+ }
}
+static int readNameLength(int level, const unsigned char* start, const unsigned char* end) {
+ return readName(level, start, end, NULL) - start;
+}
+
+static const unsigned char* readName(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* name, SkPdfAllocator* allocator) {
+ int outLength = readNameLength(level, start, end);
+ // TODO(edisonn): optimize the allocation, don't allocate new string, but put it in a preallocated buffer
+ unsigned char* out = (unsigned char*)allocator->alloc(outLength);
+ start = readName(level, start, end, out);
+ SkPdfObject::makeName(out, out + outLength, name);
+ TRACE_NAME(out, out + outLength);
+ return start;
+}
+
// TODO(edisonn): pdf spec let Length to be an indirect object define after the stream
// that makes for an interesting scenario, where the stream itself contains endstream, together
// with a reference object with the length, but the real length object would be somewhere else
@@ -471,8 +589,9 @@
// right now implement the silly algorithm that assumes endstream is finishing the stream
-static unsigned char* readStream(unsigned char* start, unsigned char* end, SkPdfObject* dict, SkNativeParsedPDF* doc) {
- start = skipPdfWhiteSpaces(start, end);
+static const unsigned char* readStream(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* dict, SkNativeParsedPDF* doc) {
+ TRACE_INDENT(level, "Stream");
+ start = skipPdfWhiteSpaces(level, start, end);
if (!(start[0] == 's' && start[1] == 't' && start[2] == 'r' && start[3] == 'e' && start[4] == 'a' && start[5] == 'm')) {
// no stream. return.
return start;
@@ -505,7 +624,7 @@
if (length < 0) {
// scan the buffer, until we find first endstream
// TODO(edisonn): all buffers must have a 0 at the end now,
- unsigned char* endstream = (unsigned char*)strrstrk((char*)start, (char*)end, "endstream");
+ const unsigned char* endstream = (const unsigned char*)strrstrk((char*)start, (char*)end, "endstream");
if (endstream) {
length = endstream - start;
@@ -514,7 +633,7 @@
}
}
if (length >= 0) {
- unsigned char* endstream = start + length;
+ const unsigned char* endstream = start + length;
if (endstream[0] == kCR_PdfWhiteSpace && endstream[1] == kLF_PdfWhiteSpace) {
endstream += 2;
@@ -532,7 +651,8 @@
return start;
}
-static unsigned char* readInlineImageStream(unsigned char* start, unsigned char* end, SkPdfImageDictionary* inlineImage, SkNativeParsedPDF* doc) {
+static const unsigned char* readInlineImageStream(int level, const unsigned char* start, const unsigned char* end, SkPdfImageDictionary* inlineImage, SkNativeParsedPDF* doc) {
+ TRACE_INDENT(level, "Inline Image");
// We already processed ID keyword, and we should be positioned immediately after it
// TODO(edisonn): security: read after end check, or make buffers with extra 2 bytes
@@ -547,8 +667,8 @@
// TODO(edisonn): warning?
}
- unsigned char* endstream = (unsigned char*)strrstrk((char*)start, (char*)end, "EI");
- unsigned char* endEI = endstream ? endstream + 2 : NULL; // 2 == strlen("EI")
+ const unsigned char* endstream = (const unsigned char*)strrstrk((char*)start, (char*)end, "EI");
+ const unsigned char* endEI = endstream ? endstream + 2 : NULL; // 2 == strlen("EI")
if (endstream) {
int length = endstream - start;
@@ -563,32 +683,34 @@
return endEI;
}
-static unsigned char* readDictionary(unsigned char* start, unsigned char* end, SkPdfObject* dict, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) {
+static const unsigned char* readDictionary(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* dict, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) {
+ TRACE_INDENT(level, "Dictionary");
SkPdfObject::makeEmptyDictionary(dict);
- start = skipPdfWhiteSpaces(start, end);
+ start = skipPdfWhiteSpaces(level, start, end);
+ SkPdfAllocator tmpStorage; // keys will be stored in dict, we can free them immediately after set.
while (start < end && *start == kNamed_PdfDelimiter) {
SkPdfObject key;
- *start = '\0';
+ //*start = '\0';
start++;
- start = readName(start, end, &key);
- start = skipPdfWhiteSpaces(start, end);
+ start = readName(level + 1, start, end, &key, &tmpStorage);
+ start = skipPdfWhiteSpaces(level + 1, start, end);
if (start < end) {
SkPdfObject* value = allocator->allocObject();
- start = nextObject(start, end, value, allocator, doc);
+ start = nextObject(level + 1, start, end, value, allocator, doc);
- start = skipPdfWhiteSpaces(start, end);
+ start = skipPdfWhiteSpaces(level + 1, start, end);
if (start < end) {
// seems we have an indirect reference
if (isPdfDigit(*start)) {
SkPdfObject generation;
- start = nextObject(start, end, &generation, allocator, doc);
+ start = nextObject(level + 1, start, end, &generation, allocator, doc);
SkPdfObject keywordR;
- start = nextObject(start, end, &keywordR, allocator, doc);
+ start = nextObject(level + 1, start, end, &keywordR, allocator, doc);
if (value->isInteger() && generation.isInteger() && keywordR.isKeywordReference()) {
int64_t id = value->intValue();
@@ -608,7 +730,7 @@
dict->set(&key, value);
return end;
}
- start = skipPdfWhiteSpaces(start, end);
+ start = skipPdfWhiteSpaces(level + 1, start, end);
} else {
dict->set(&key, &SkPdfObject::kNull);
return end;
@@ -618,30 +740,30 @@
// TODO(edisonn): options to ignore these errors
// now we should expect >>
- start = skipPdfWhiteSpaces(start, end);
+ start = skipPdfWhiteSpaces(level, start, end);
if (*start != kClosedInequityBracket_PdfDelimiter) {
// TODO(edisonn): report/warning
}
- *start = '\0';
+ //*start = '\0';
start++; // skip >
if (*start != kClosedInequityBracket_PdfDelimiter) {
// TODO(edisonn): report/warning
}
- *start = '\0';
+ //*start = '\0';
start++; // skip >
- start = readStream(start, end, dict, doc);
+ start = readStream(level, start, end, dict, doc);
return start;
}
-unsigned char* nextObject(unsigned char* start, unsigned char* end, SkPdfObject* token, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) {
- unsigned char* current;
+const unsigned char* nextObject(int level, const unsigned char* start, const unsigned char* end, SkPdfObject* token, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) {
+ const unsigned char* current;
// skip white spaces
- start = skipPdfWhiteSpaces(start, end);
+ start = skipPdfWhiteSpaces(level, start, end);
- current = endOfPdfToken(start, end);
+ current = endOfPdfToken(level, start, end);
// no token, len would be 0
if (current == start) {
@@ -654,27 +776,27 @@
// start array
switch (*start) {
case kOpenedSquareBracket_PdfDelimiter:
- *start = '\0';
+ //*start = '\0';
SkPdfObject::makeEmptyArray(token);
- return readArray(current, end, token, allocator, doc);
+ return readArray(level + 1, current, end, token, allocator, doc);
case kOpenedRoundBracket_PdfDelimiter:
- *start = '\0';
- return readString(start, end, token);
+ //*start = '\0';
+ return readString(level, start + 1, end, token, allocator);
case kOpenedInequityBracket_PdfDelimiter:
- *start = '\0';
+ //*start = '\0';
if (end > start + 1 && start[1] == kOpenedInequityBracket_PdfDelimiter) {
- start[1] = '\0'; // optional
+ //start[1] = '\0'; // optional
// TODO(edisonn): pass here the length somehow?
- return readDictionary(start + 2, end, token, allocator, doc); // skip <<
+ return readDictionary(level + 1, start + 2, end, token, allocator, doc); // skip <<
} else {
- return readHexString(start + 1, end, token); // skip <
+ return readHexString(level, start + 1, end, token, allocator); // skip <
}
case kNamed_PdfDelimiter:
- *start = '\0';
- return readName(start + 1, end, token);
+ //*start = '\0';
+ return readName(level, start + 1, end, token, allocator);
// TODO(edisonn): what to do curly brackets? read spec!
case kOpenedCurlyBracket_PdfDelimiter:
@@ -746,28 +868,26 @@
// TODO(edisonn): perf: do no copy the buffers, but use them, and mark cache the result, so there is no need of a second pass
SkPdfNativeTokenizer::SkPdfNativeTokenizer(SkPdfObject* objWithStream, const SkPdfMapper* mapper, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) : fDoc(doc), fMapper(mapper), fAllocator(allocator), fUncompressedStream(NULL), fUncompressedStreamEnd(NULL), fEmpty(false), fHasPutBack(false) {
- unsigned char* buffer = NULL;
+ const unsigned char* buffer = NULL;
size_t len = 0;
- objWithStream->GetFilteredStreamRef(&buffer, &len, fAllocator);
+ objWithStream->GetFilteredStreamRef(&buffer, &len);
// TODO(edisonn): hack, find end of object
char* endobj = strrstrk((char*)buffer, (char*)buffer + len, "endobj");
if (endobj) {
len = endobj - (char*)buffer + strlen("endobj");
}
- fUncompressedStreamStart = fUncompressedStream = (unsigned char*)fAllocator->alloc(len);
+ fUncompressedStreamStart = fUncompressedStream = buffer;
fUncompressedStreamEnd = fUncompressedStream + len;
- memcpy(fUncompressedStream, buffer, len);
}
-SkPdfNativeTokenizer::SkPdfNativeTokenizer(unsigned char* buffer, int len, const SkPdfMapper* mapper, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) : fDoc(doc), fMapper(mapper), fAllocator(allocator), fEmpty(false), fHasPutBack(false) {
+SkPdfNativeTokenizer::SkPdfNativeTokenizer(const unsigned char* buffer, int len, const SkPdfMapper* mapper, SkPdfAllocator* allocator, SkNativeParsedPDF* doc) : fDoc(doc), fMapper(mapper), fAllocator(allocator), fEmpty(false), fHasPutBack(false) {
// TODO(edisonn): hack, find end of object
char* endobj = strrstrk((char*)buffer, (char*)buffer + len, "endobj");
if (endobj) {
len = endobj - (char*)buffer + strlen("endobj");
}
- fUncompressedStreamStart = fUncompressedStream = (unsigned char*)fAllocator->alloc(len);
+ fUncompressedStreamStart = fUncompressedStream = buffer;
fUncompressedStreamEnd = fUncompressedStream + len;
- memcpy(fUncompressedStream, buffer, len);
}
SkPdfNativeTokenizer::~SkPdfNativeTokenizer() {
@@ -777,13 +897,13 @@
token->fKeyword = NULL;
token->fObject = NULL;
- fUncompressedStream = skipPdfWhiteSpaces(fUncompressedStream, fUncompressedStreamEnd);
+ fUncompressedStream = skipPdfWhiteSpaces(0, fUncompressedStream, fUncompressedStreamEnd);
if (fUncompressedStream >= fUncompressedStreamEnd) {
return false;
}
SkPdfObject obj;
- fUncompressedStream = nextObject(fUncompressedStream, fUncompressedStreamEnd, &obj, fAllocator, fDoc);
+ fUncompressedStream = nextObject(0, fUncompressedStream, fUncompressedStreamEnd, &obj, fAllocator, fDoc);
// If it is a keyword, we will only get the pointer of the string
if (obj.type() == SkPdfObject::kKeyword_PdfObjectType) {
@@ -797,7 +917,7 @@
token->fType = kObject_TokenType;
}
-#ifdef PDF_TRACE
+#ifdef PDF_TRACE_READ_TOKEN
static int read_op = 0;
read_op++;
if (548 == read_op) {
@@ -813,7 +933,7 @@
SkASSERT(!fHasPutBack);
fHasPutBack = true;
fPutBack = token;
-#ifdef PDF_TRACE
+#ifdef PDF_TRACE_READ_TOKEN
printf("PUT_BACK %s %s\n", token.fType == kKeyword_TokenType ? "Keyword" : "Object", token.fKeyword ? std::string(token.fKeyword, token.fKeywordLength).c_str(): token.fObject->toString().c_str());
#endif
}
@@ -822,14 +942,14 @@
if (fHasPutBack) {
*token = fPutBack;
fHasPutBack = false;
-#ifdef PDF_TRACE
+#ifdef PDF_TRACE_READ_TOKEN
printf("READ_BACK %s %s\n", token->fType == kKeyword_TokenType ? "Keyword" : "Object", token->fKeyword ? std::string(token->fKeyword, token->fKeywordLength).c_str() : token->fObject->toString().c_str());
#endif
return true;
}
if (fEmpty) {
-#ifdef PDF_TRACE
+#ifdef PDF_TRACE_READ_TOKEN
printf("EMPTY TOKENIZER\n");
#endif
return false;
@@ -911,7 +1031,7 @@
SkPdfImageDictionary* SkPdfNativeTokenizer::readInlineImage() {
// BI already processed
- fUncompressedStream = skipPdfWhiteSpaces(fUncompressedStream, fUncompressedStreamEnd);
+ fUncompressedStream = skipPdfWhiteSpaces(0, fUncompressedStream, fUncompressedStreamEnd);
if (fUncompressedStream >= fUncompressedStreamEnd) {
return NULL;
}
@@ -921,14 +1041,14 @@
while (fUncompressedStream < fUncompressedStreamEnd) {
SkPdfObject* key = fAllocator->allocObject();
- fUncompressedStream = nextObject(fUncompressedStream, fUncompressedStreamEnd, key, fAllocator, fDoc);
+ fUncompressedStream = nextObject(0, fUncompressedStream, fUncompressedStreamEnd, key, fAllocator, fDoc);
if (key->isKeyword() && key->len() == 2 && key->c_str()[0] == 'I' && key->c_str()[1] == 'D') { // ID
- fUncompressedStream = readInlineImageStream(fUncompressedStream, fUncompressedStreamEnd, inlineImage, fDoc);
+ fUncompressedStream = readInlineImageStream(0, fUncompressedStream, fUncompressedStreamEnd, inlineImage, fDoc);
return inlineImage;
} else {
SkPdfObject* obj = fAllocator->allocObject();
- fUncompressedStream = nextObject(fUncompressedStream, fUncompressedStreamEnd, obj, fAllocator, fDoc);
+ fUncompressedStream = nextObject(0, fUncompressedStream, fUncompressedStreamEnd, obj, fAllocator, fDoc);
// TODO(edisonn): perf maybe we should not expand abreviation like this
inlineImage->set(inlineImageKeyAbbreviationExpand(key),
inlineImageValueAbbreviationExpand(obj));
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