blob: 0f391354a032d7869c7b6e0e138d1a752db0e6fc [file] [log] [blame]
/*
* Copyright 2006 The Android Open Source Project
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "src/xml/SkDOM.h"
#include "include/core/SkStream.h"
#include "include/private/SkTo.h"
#include "src/xml/SkXMLParser.h"
#include "src/xml/SkXMLWriter.h"
bool SkXMLParser::parse(const SkDOM& dom, const SkDOMNode* node) {
const char* elemName = dom.getName(node);
if (this->startElement(elemName)) {
return false;
}
SkDOM::AttrIter iter(dom, node);
const char* name, *value;
while ((name = iter.next(&value)) != nullptr) {
if (this->addAttribute(name, value)) {
return false;
}
}
if ((node = dom.getFirstChild(node)) != nullptr) {
do {
if (!this->parse(dom, node)) {
return false;
}
} while ((node = dom.getNextSibling(node)) != nullptr);
}
return !this->endElement(elemName);
}
/////////////////////////////////////////////////////////////////////////
struct SkDOMAttr {
const char* fName;
const char* fValue;
};
struct SkDOMNode {
const char* fName;
SkDOMNode* fFirstChild;
SkDOMNode* fNextSibling;
SkDOMAttr* fAttrs;
uint16_t fAttrCount;
uint8_t fType;
uint8_t fPad;
const SkDOMAttr* attrs() const {
return fAttrs;
}
SkDOMAttr* attrs() {
return fAttrs;
}
};
/////////////////////////////////////////////////////////////////////////
#define kMinChunkSize 4096
SkDOM::SkDOM() : fAlloc(kMinChunkSize), fRoot(nullptr) {}
SkDOM::~SkDOM() {}
const SkDOM::Node* SkDOM::getRootNode() const {
return fRoot;
}
const SkDOM::Node* SkDOM::getFirstChild(const Node* node, const char name[]) const {
SkASSERT(node);
const Node* child = node->fFirstChild;
if (name) {
for (; child != nullptr; child = child->fNextSibling) {
if (!strcmp(name, child->fName)) {
break;
}
}
}
return child;
}
const SkDOM::Node* SkDOM::getNextSibling(const Node* node, const char name[]) const {
SkASSERT(node);
const Node* sibling = node->fNextSibling;
if (name) {
for (; sibling != nullptr; sibling = sibling->fNextSibling) {
if (!strcmp(name, sibling->fName)) {
break;
}
}
}
return sibling;
}
SkDOM::Type SkDOM::getType(const Node* node) const {
SkASSERT(node);
return (Type)node->fType;
}
const char* SkDOM::getName(const Node* node) const {
SkASSERT(node);
return node->fName;
}
const char* SkDOM::findAttr(const Node* node, const char name[]) const {
SkASSERT(node);
const Attr* attr = node->attrs();
const Attr* stop = attr + node->fAttrCount;
while (attr < stop) {
if (!strcmp(attr->fName, name)) {
return attr->fValue;
}
attr += 1;
}
return nullptr;
}
/////////////////////////////////////////////////////////////////////////////////////
const SkDOM::Attr* SkDOM::getFirstAttr(const Node* node) const {
return node->fAttrCount ? node->attrs() : nullptr;
}
const SkDOM::Attr* SkDOM::getNextAttr(const Node* node, const Attr* attr) const {
SkASSERT(node);
if (attr == nullptr) {
return nullptr;
}
return (attr - node->attrs() + 1) < node->fAttrCount ? attr + 1 : nullptr;
}
const char* SkDOM::getAttrName(const Node* node, const Attr* attr) const {
SkASSERT(node);
SkASSERT(attr);
return attr->fName;
}
const char* SkDOM::getAttrValue(const Node* node, const Attr* attr) const {
SkASSERT(node);
SkASSERT(attr);
return attr->fValue;
}
/////////////////////////////////////////////////////////////////////////////////////
SkDOM::AttrIter::AttrIter(const SkDOM&, const SkDOM::Node* node) {
SkASSERT(node);
fAttr = node->attrs();
fStop = fAttr + node->fAttrCount;
}
const char* SkDOM::AttrIter::next(const char** value) {
const char* name = nullptr;
if (fAttr < fStop) {
name = fAttr->fName;
if (value)
*value = fAttr->fValue;
fAttr += 1;
}
return name;
}
//////////////////////////////////////////////////////////////////////////////
#include "include/private/SkTDArray.h"
#include "src/xml/SkXMLParser.h"
static char* dupstr(SkArenaAlloc* chunk, const char src[]) {
SkASSERT(chunk && src);
size_t len = strlen(src);
char* dst = chunk->makeArrayDefault<char>(len + 1);
memcpy(dst, src, len + 1);
return dst;
}
class SkDOMParser : public SkXMLParser {
public:
SkDOMParser(SkArenaAlloc* chunk) : SkXMLParser(&fParserError), fAlloc(chunk) {
fAlloc->reset();
fRoot = nullptr;
fLevel = 0;
fNeedToFlush = true;
}
SkDOM::Node* getRoot() const { return fRoot; }
SkXMLParserError fParserError;
protected:
void flushAttributes() {
SkASSERT(fLevel > 0);
int attrCount = fAttrs.count();
SkDOMAttr* attrs = fAlloc->makeArrayDefault<SkDOMAttr>(attrCount);
SkDOM::Node* node = fAlloc->make<SkDOM::Node>();
node->fName = fElemName;
node->fFirstChild = nullptr;
node->fAttrCount = SkToU16(attrCount);
node->fAttrs = attrs;
node->fType = fElemType;
if (fRoot == nullptr) {
node->fNextSibling = nullptr;
fRoot = node;
} else { // this adds siblings in reverse order. gets corrected in onEndElement()
SkDOM::Node* parent = fParentStack.top();
SkASSERT(fRoot && parent);
node->fNextSibling = parent->fFirstChild;
parent->fFirstChild = node;
}
*fParentStack.push() = node;
sk_careful_memcpy(node->attrs(), fAttrs.begin(), attrCount * sizeof(SkDOM::Attr));
fAttrs.reset();
}
bool onStartElement(const char elem[]) override {
this->startCommon(elem, SkDOM::kElement_Type);
return false;
}
bool onAddAttribute(const char name[], const char value[]) override {
SkDOM::Attr* attr = fAttrs.append();
attr->fName = dupstr(fAlloc, name);
attr->fValue = dupstr(fAlloc, value);
return false;
}
bool onEndElement(const char elem[]) override {
--fLevel;
if (fNeedToFlush)
this->flushAttributes();
fNeedToFlush = false;
SkDOM::Node* parent;
fParentStack.pop(&parent);
SkDOM::Node* child = parent->fFirstChild;
SkDOM::Node* prev = nullptr;
while (child) {
SkDOM::Node* next = child->fNextSibling;
child->fNextSibling = prev;
prev = child;
child = next;
}
parent->fFirstChild = prev;
return false;
}
bool onText(const char text[], int len) override {
SkString str(text, len);
this->startCommon(str.c_str(), SkDOM::kText_Type);
this->SkDOMParser::onEndElement(str.c_str());
return false;
}
private:
void startCommon(const char elem[], SkDOM::Type type) {
if (fLevel > 0 && fNeedToFlush) {
this->flushAttributes();
}
fNeedToFlush = true;
fElemName = dupstr(fAlloc, elem);
fElemType = type;
++fLevel;
}
SkTDArray<SkDOM::Node*> fParentStack;
SkArenaAlloc* fAlloc;
SkDOM::Node* fRoot;
bool fNeedToFlush;
// state needed for flushAttributes()
SkTDArray<SkDOM::Attr> fAttrs;
char* fElemName;
SkDOM::Type fElemType;
int fLevel;
};
const SkDOM::Node* SkDOM::build(SkStream& docStream) {
SkDOMParser parser(&fAlloc);
if (!parser.parse(docStream))
{
SkDEBUGCODE(SkDebugf("xml parse error, line %d\n", parser.fParserError.getLineNumber());)
fRoot = nullptr;
fAlloc.reset();
return nullptr;
}
fRoot = parser.getRoot();
return fRoot;
}
///////////////////////////////////////////////////////////////////////////
static void walk_dom(const SkDOM& dom, const SkDOM::Node* node, SkXMLParser* parser) {
const char* elem = dom.getName(node);
if (dom.getType(node) == SkDOM::kText_Type) {
SkASSERT(dom.countChildren(node) == 0);
parser->text(elem, SkToInt(strlen(elem)));
return;
}
parser->startElement(elem);
SkDOM::AttrIter iter(dom, node);
const char* name;
const char* value;
while ((name = iter.next(&value)) != nullptr)
parser->addAttribute(name, value);
node = dom.getFirstChild(node, nullptr);
while (node)
{
walk_dom(dom, node, parser);
node = dom.getNextSibling(node, nullptr);
}
parser->endElement(elem);
}
const SkDOM::Node* SkDOM::copy(const SkDOM& dom, const SkDOM::Node* node) {
SkDOMParser parser(&fAlloc);
walk_dom(dom, node, &parser);
fRoot = parser.getRoot();
return fRoot;
}
SkXMLParser* SkDOM::beginParsing() {
SkASSERT(!fParser);
fParser.reset(new SkDOMParser(&fAlloc));
return fParser.get();
}
const SkDOM::Node* SkDOM::finishParsing() {
SkASSERT(fParser);
fRoot = fParser->getRoot();
fParser.reset();
return fRoot;
}
//////////////////////////////////////////////////////////////////////////
int SkDOM::countChildren(const Node* node, const char elem[]) const {
int count = 0;
node = this->getFirstChild(node, elem);
while (node) {
count += 1;
node = this->getNextSibling(node, elem);
}
return count;
}
//////////////////////////////////////////////////////////////////////////
#include "include/utils/SkParse.h"
bool SkDOM::findS32(const Node* node, const char name[], int32_t* value) const {
const char* vstr = this->findAttr(node, name);
return vstr && SkParse::FindS32(vstr, value);
}
bool SkDOM::findScalars(const Node* node, const char name[], SkScalar value[], int count) const {
const char* vstr = this->findAttr(node, name);
return vstr && SkParse::FindScalars(vstr, value, count);
}
bool SkDOM::findHex(const Node* node, const char name[], uint32_t* value) const {
const char* vstr = this->findAttr(node, name);
return vstr && SkParse::FindHex(vstr, value);
}
bool SkDOM::findBool(const Node* node, const char name[], bool* value) const {
const char* vstr = this->findAttr(node, name);
return vstr && SkParse::FindBool(vstr, value);
}
int SkDOM::findList(const Node* node, const char name[], const char list[]) const {
const char* vstr = this->findAttr(node, name);
return vstr ? SkParse::FindList(vstr, list) : -1;
}
bool SkDOM::hasAttr(const Node* node, const char name[], const char value[]) const {
const char* vstr = this->findAttr(node, name);
return vstr && !strcmp(vstr, value);
}
bool SkDOM::hasS32(const Node* node, const char name[], int32_t target) const {
const char* vstr = this->findAttr(node, name);
int32_t value;
return vstr && SkParse::FindS32(vstr, &value) && value == target;
}
bool SkDOM::hasScalar(const Node* node, const char name[], SkScalar target) const {
const char* vstr = this->findAttr(node, name);
SkScalar value;
return vstr && SkParse::FindScalar(vstr, &value) && value == target;
}
bool SkDOM::hasHex(const Node* node, const char name[], uint32_t target) const {
const char* vstr = this->findAttr(node, name);
uint32_t value;
return vstr && SkParse::FindHex(vstr, &value) && value == target;
}
bool SkDOM::hasBool(const Node* node, const char name[], bool target) const {
const char* vstr = this->findAttr(node, name);
bool value;
return vstr && SkParse::FindBool(vstr, &value) && value == target;
}