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/*
* Copyright 2011 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkPDFCatalog.h"
#include "SkPDFTypes.h"
#include "SkStream.h"
#ifdef SK_BUILD_FOR_WIN
#define SNPRINTF _snprintf
#else
#define SNPRINTF snprintf
#endif
SK_DEFINE_INST_COUNT(SkPDFArray)
SK_DEFINE_INST_COUNT(SkPDFBool)
SK_DEFINE_INST_COUNT(SkPDFDict)
SK_DEFINE_INST_COUNT(SkPDFInt)
SK_DEFINE_INST_COUNT(SkPDFName)
SK_DEFINE_INST_COUNT(SkPDFObject)
SK_DEFINE_INST_COUNT(SkPDFObjRef)
SK_DEFINE_INST_COUNT(SkPDFScalar)
SK_DEFINE_INST_COUNT(SkPDFString)
///////////////////////////////////////////////////////////////////////////////
void SkPDFObject::emit(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
SkPDFObject* realObject = catalog->getSubstituteObject(this);
return realObject->emitObject(stream, catalog, indirect);
}
size_t SkPDFObject::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
SkDynamicMemoryWStream buffer;
emit(&buffer, catalog, indirect);
return buffer.getOffset();
}
void SkPDFObject::getResources(SkTDArray<SkPDFObject*>* resourceList) {}
void SkPDFObject::emitIndirectObject(SkWStream* stream, SkPDFCatalog* catalog) {
catalog->emitObjectNumber(stream, this);
stream->writeText(" obj\n");
emit(stream, catalog, false);
stream->writeText("\nendobj\n");
}
size_t SkPDFObject::getIndirectOutputSize(SkPDFCatalog* catalog) {
return catalog->getObjectNumberSize(this) + strlen(" obj\n") +
this->getOutputSize(catalog, false) + strlen("\nendobj\n");
}
void SkPDFObject::AddResourceHelper(SkPDFObject* resource,
SkTDArray<SkPDFObject*>* list) {
list->push(resource);
resource->ref();
}
void SkPDFObject::GetResourcesHelper(SkTDArray<SkPDFObject*>* resources,
SkTDArray<SkPDFObject*>* result) {
if (resources->count()) {
result->setReserve(result->count() + resources->count());
for (int i = 0; i < resources->count(); i++) {
result->push((*resources)[i]);
(*resources)[i]->ref();
(*resources)[i]->getResources(result);
}
}
}
SkPDFObjRef::SkPDFObjRef(SkPDFObject* obj) : fObj(obj) {}
SkPDFObjRef::~SkPDFObjRef() {}
void SkPDFObjRef::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
SkASSERT(!indirect);
catalog->emitObjectNumber(stream, fObj.get());
stream->writeText(" R");
}
size_t SkPDFObjRef::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
SkASSERT(!indirect);
return catalog->getObjectNumberSize(fObj.get()) + strlen(" R");
}
SkPDFInt::SkPDFInt(int32_t value) : fValue(value) {}
SkPDFInt::~SkPDFInt() {}
void SkPDFInt::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
if (indirect) {
return emitIndirectObject(stream, catalog);
}
stream->writeDecAsText(fValue);
}
SkPDFBool::SkPDFBool(bool value) : fValue(value) {}
SkPDFBool::~SkPDFBool() {}
void SkPDFBool::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
SkASSERT(!indirect);
if (fValue) {
stream->writeText("true");
} else {
stream->writeText("false");
}
}
size_t SkPDFBool::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
SkASSERT(!indirect);
if (fValue) {
return strlen("true");
}
return strlen("false");
}
SkPDFScalar::SkPDFScalar(SkScalar value) : fValue(value) {}
SkPDFScalar::~SkPDFScalar() {}
void SkPDFScalar::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
if (indirect) {
return emitIndirectObject(stream, catalog);
}
Append(fValue, stream);
}
// static
void SkPDFScalar::Append(SkScalar value, SkWStream* stream) {
// The range of reals in PDF/A is the same as SkFixed: +/- 32,767 and
// +/- 1/65,536 (though integers can range from 2^31 - 1 to -2^31).
// When using floats that are outside the whole value range, we can use
// integers instead.
#if defined(SK_SCALAR_IS_FIXED)
stream->writeScalarAsText(value);
return;
#endif // SK_SCALAR_IS_FIXED
#if !defined(SK_ALLOW_LARGE_PDF_SCALARS)
if (value > 32767 || value < -32767) {
stream->writeDecAsText(SkScalarRound(value));
return;
}
char buffer[SkStrAppendScalar_MaxSize];
char* end = SkStrAppendFixed(buffer, SkScalarToFixed(value));
stream->write(buffer, end - buffer);
return;
#endif // !SK_ALLOW_LARGE_PDF_SCALARS
#if defined(SK_SCALAR_IS_FLOAT) && defined(SK_ALLOW_LARGE_PDF_SCALARS)
// Floats have 24bits of significance, so anything outside that range is
// no more precise than an int. (Plus PDF doesn't support scientific
// notation, so this clamps to SK_Max/MinS32).
if (value > (1 << 24) || value < -(1 << 24)) {
stream->writeDecAsText(value);
return;
}
// Continue to enforce the PDF limits for small floats.
if (value < 1.0f/65536 && value > -1.0f/65536) {
stream->writeDecAsText(0);
return;
}
// SkStrAppendFloat might still use scientific notation, so use snprintf
// directly..
static const int kFloat_MaxSize = 19;
char buffer[kFloat_MaxSize];
int len = SNPRINTF(buffer, kFloat_MaxSize, "%#.8f", value);
// %f always prints trailing 0s, so strip them.
for (; buffer[len - 1] == '0' && len > 0; len--) {
buffer[len - 1] = '\0';
}
if (buffer[len - 1] == '.') {
buffer[len - 1] = '\0';
}
stream->writeText(buffer);
return;
#endif // SK_SCALAR_IS_FLOAT && SK_ALLOW_LARGE_PDF_SCALARS
}
SkPDFString::SkPDFString(const char value[])
: fValue(FormatString(value, strlen(value))) {
}
SkPDFString::SkPDFString(const SkString& value)
: fValue(FormatString(value.c_str(), value.size())) {
}
SkPDFString::SkPDFString(const uint16_t* value, size_t len, bool wideChars)
: fValue(FormatString(value, len, wideChars)) {
}
SkPDFString::~SkPDFString() {}
void SkPDFString::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
if (indirect)
return emitIndirectObject(stream, catalog);
stream->write(fValue.c_str(), fValue.size());
}
size_t SkPDFString::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
if (indirect)
return getIndirectOutputSize(catalog);
return fValue.size();
}
// static
SkString SkPDFString::FormatString(const char* input, size_t len) {
return DoFormatString(input, len, false, false);
}
SkString SkPDFString::FormatString(const uint16_t* input, size_t len,
bool wideChars) {
return DoFormatString(input, len, true, wideChars);
}
// static
SkString SkPDFString::DoFormatString(const void* input, size_t len,
bool wideInput, bool wideOutput) {
SkASSERT(len <= kMaxLen);
const uint16_t* win = (const uint16_t*) input;
const char* cin = (const char*) input;
if (wideOutput) {
SkASSERT(wideInput);
SkString result;
result.append("<");
for (size_t i = 0; i < len; i++) {
result.appendHex(win[i], 4);
}
result.append(">");
return result;
}
// 7-bit clean is a heuristic to decide what string format to use;
// a 7-bit clean string should require little escaping.
bool sevenBitClean = true;
for (size_t i = 0; i < len; i++) {
SkASSERT(!wideInput || !(win[i] & ~0xFF));
char val = wideInput ? win[i] : cin[i];
if (val > '~' || val < ' ') {
sevenBitClean = false;
break;
}
}
SkString result;
if (sevenBitClean) {
result.append("(");
for (size_t i = 0; i < len; i++) {
SkASSERT(!wideInput || !(win[i] & ~0xFF));
char val = wideInput ? win[i] : cin[i];
if (val == '\\' || val == '(' || val == ')') {
result.append("\\");
}
result.append(&val, 1);
}
result.append(")");
} else {
result.append("<");
for (size_t i = 0; i < len; i++) {
SkASSERT(!wideInput || !(win[i] & ~0xFF));
unsigned char val = wideInput ? win[i] : cin[i];
result.appendHex(val, 2);
}
result.append(">");
}
return result;
}
SkPDFName::SkPDFName(const char name[]) : fValue(FormatName(SkString(name))) {}
SkPDFName::SkPDFName(const SkString& name) : fValue(FormatName(name)) {}
SkPDFName::~SkPDFName() {}
bool SkPDFName::operator==(const SkPDFName& b) const {
return fValue == b.fValue;
}
void SkPDFName::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
SkASSERT(!indirect);
stream->write(fValue.c_str(), fValue.size());
}
size_t SkPDFName::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
SkASSERT(!indirect);
return fValue.size();
}
// static
SkString SkPDFName::FormatName(const SkString& input) {
SkASSERT(input.size() <= kMaxLen);
SkString result("/");
for (size_t i = 0; i < input.size(); i++) {
if (input[i] & 0x80 || input[i] < '!' || input[i] == '#') {
result.append("#");
// Mask with 0xFF to avoid sign extension. i.e. #FFFFFF81
result.appendHex(input[i] & 0xFF, 2);
} else {
result.append(input.c_str() + i, 1);
}
}
return result;
}
SkPDFArray::SkPDFArray() {}
SkPDFArray::~SkPDFArray() {
fValue.unrefAll();
}
void SkPDFArray::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
if (indirect) {
return emitIndirectObject(stream, catalog);
}
stream->writeText("[");
for (int i = 0; i < fValue.count(); i++) {
fValue[i]->emit(stream, catalog, false);
if (i + 1 < fValue.count()) {
stream->writeText(" ");
}
}
stream->writeText("]");
}
size_t SkPDFArray::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
if (indirect) {
return getIndirectOutputSize(catalog);
}
size_t result = strlen("[]");
if (fValue.count()) {
result += fValue.count() - 1;
}
for (int i = 0; i < fValue.count(); i++) {
result += fValue[i]->getOutputSize(catalog, false);
}
return result;
}
void SkPDFArray::reserve(int length) {
SkASSERT(length <= kMaxLen);
fValue.setReserve(length);
}
SkPDFObject* SkPDFArray::setAt(int offset, SkPDFObject* value) {
SkASSERT(offset < fValue.count());
value->ref();
fValue[offset]->unref();
fValue[offset] = value;
return value;
}
SkPDFObject* SkPDFArray::append(SkPDFObject* value) {
SkASSERT(fValue.count() < kMaxLen);
value->ref();
fValue.push(value);
return value;
}
void SkPDFArray::appendInt(int32_t value) {
SkASSERT(fValue.count() < kMaxLen);
fValue.push(new SkPDFInt(value));
}
void SkPDFArray::appendScalar(SkScalar value) {
SkASSERT(fValue.count() < kMaxLen);
fValue.push(new SkPDFScalar(value));
}
void SkPDFArray::appendName(const char name[]) {
SkASSERT(fValue.count() < kMaxLen);
fValue.push(new SkPDFName(name));
}
///////////////////////////////////////////////////////////////////////////////
SkPDFDict::SkPDFDict() {}
SkPDFDict::SkPDFDict(const char type[]) {
insertName("Type", type);
}
SkPDFDict::~SkPDFDict() {
clear();
}
void SkPDFDict::emitObject(SkWStream* stream, SkPDFCatalog* catalog,
bool indirect) {
if (indirect) {
return emitIndirectObject(stream, catalog);
}
stream->writeText("<<");
for (int i = 0; i < fValue.count(); i++) {
fValue[i].key->emitObject(stream, catalog, false);
stream->writeText(" ");
fValue[i].value->emit(stream, catalog, false);
stream->writeText("\n");
}
stream->writeText(">>");
}
size_t SkPDFDict::getOutputSize(SkPDFCatalog* catalog, bool indirect) {
if (indirect) {
return getIndirectOutputSize(catalog);
}
size_t result = strlen("<<>>") + (fValue.count() * 2);
for (int i = 0; i < fValue.count(); i++) {
result += fValue[i].key->getOutputSize(catalog, false);
result += fValue[i].value->getOutputSize(catalog, false);
}
return result;
}
SkPDFObject* SkPDFDict::insert(SkPDFName* key, SkPDFObject* value) {
key->ref();
value->ref();
struct Rec* newEntry = fValue.append();
newEntry->key = key;
newEntry->value = value;
return value;
}
SkPDFObject* SkPDFDict::insert(const char key[], SkPDFObject* value) {
value->ref();
struct Rec* newEntry = fValue.append();
newEntry->key = new SkPDFName(key);
newEntry->value = value;
return value;
}
void SkPDFDict::insertInt(const char key[], int32_t value) {
struct Rec* newEntry = fValue.append();
newEntry->key = new SkPDFName(key);
newEntry->value = new SkPDFInt(value);
}
void SkPDFDict::insertScalar(const char key[], SkScalar value) {
struct Rec* newEntry = fValue.append();
newEntry->key = new SkPDFName(key);
newEntry->value = new SkPDFScalar(value);
}
void SkPDFDict::insertName(const char key[], const char name[]) {
struct Rec* newEntry = fValue.append();
newEntry->key = new SkPDFName(key);
newEntry->value = new SkPDFName(name);
}
void SkPDFDict::clear() {
for (int i = 0; i < fValue.count(); i++) {
fValue[i].key->unref();
fValue[i].value->unref();
}
fValue.reset();
}
SkPDFDict::Iter::Iter(const SkPDFDict& dict)
: fIter(dict.fValue.begin()),
fStop(dict.fValue.end()) {
}
SkPDFName* SkPDFDict::Iter::next(SkPDFObject** value) {
if (fIter != fStop) {
Rec* cur = fIter;
fIter++;
*value = cur->value;
return cur->key;
}
*value = NULL;
return NULL;
}
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