diff options
author | tpearson <tpearson@283d02a7-25f6-0310-bc7c-ecb5cbfe19da> | 2011-08-10 22:19:39 +0000 |
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committer | tpearson <tpearson@283d02a7-25f6-0310-bc7c-ecb5cbfe19da> | 2011-08-10 22:19:39 +0000 |
commit | 6c79d50fa9fbdff7f69ca57a8ab5fcc942375593 (patch) | |
tree | f47737d56c3239a0d8bc600674f0ca04b6e30d6e /quanta/parts/kafka | |
parent | 36c36b53a129509d56fdaa0a7c9fcbcacd0c5826 (diff) | |
download | tdewebdev-6c79d50fa9fbdff7f69ca57a8ab5fcc942375593.tar.gz tdewebdev-6c79d50fa9fbdff7f69ca57a8ab5fcc942375593.zip |
rename the following methods:
tqparent parent
tqmask mask
git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdewebdev@1246260 283d02a7-25f6-0310-bc7c-ecb5cbfe19da
Diffstat (limited to 'quanta/parts/kafka')
-rw-r--r-- | quanta/parts/kafka/domtreeview.cpp | 6 | ||||
-rw-r--r-- | quanta/parts/kafka/domtreeview.h | 4 | ||||
-rw-r--r-- | quanta/parts/kafka/htmldocumentproperties.cpp | 12 | ||||
-rw-r--r-- | quanta/parts/kafka/htmldocumentproperties.h | 2 | ||||
-rw-r--r-- | quanta/parts/kafka/htmlenhancer.cpp | 2 | ||||
-rw-r--r-- | quanta/parts/kafka/htmlenhancer.h | 2 | ||||
-rw-r--r-- | quanta/parts/kafka/kafkacommon.cpp | 276 | ||||
-rw-r--r-- | quanta/parts/kafka/kafkacommon.h | 116 | ||||
-rw-r--r-- | quanta/parts/kafka/kafkahtmlpart.cpp | 30 | ||||
-rw-r--r-- | quanta/parts/kafka/kafkahtmlpart.h | 10 | ||||
-rw-r--r-- | quanta/parts/kafka/kafkasyncoptions.cpp | 4 | ||||
-rw-r--r-- | quanta/parts/kafka/kafkasyncoptions.h | 2 | ||||
-rw-r--r-- | quanta/parts/kafka/nodeenhancer.h | 2 | ||||
-rw-r--r-- | quanta/parts/kafka/undoredo.cpp | 26 | ||||
-rw-r--r-- | quanta/parts/kafka/wkafkapart.cpp | 112 | ||||
-rw-r--r-- | quanta/parts/kafka/wkafkapart.h | 18 |
16 files changed, 312 insertions, 312 deletions
diff --git a/quanta/parts/kafka/domtreeview.cpp b/quanta/parts/kafka/domtreeview.cpp index 33ad81ac..c8d4c6c9 100644 --- a/quanta/parts/kafka/domtreeview.cpp +++ b/quanta/parts/kafka/domtreeview.cpp @@ -27,7 +27,7 @@ #include "domtreeview.moc" -DOMTreeView::DOMTreeView(TQWidget *tqparent, KHTMLPart *currentpart, const char * name) : KListView(tqparent, name) +DOMTreeView::DOMTreeView(TQWidget *parent, KHTMLPart *currentpart, const char * name) : KListView(parent, name) { setCaption(name); setRootIsDecorated(true); @@ -137,8 +137,8 @@ void DOMTreeView::slotItemClicked(TQListViewItem *cur_item) } } -KafkaDOMTreeDialog::KafkaDOMTreeDialog(TQWidget *tqparent, KHTMLPart *part, const char* name, bool modal, WFlags fl ) - : TQDialog(tqparent, name, modal, fl) +KafkaDOMTreeDialog::KafkaDOMTreeDialog(TQWidget *parent, KHTMLPart *part, const char* name, bool modal, WFlags fl ) + : TQDialog(parent, name, modal, fl) { tqsetSizePolicy( TQSizePolicy( (TQSizePolicy::SizeType)5, (TQSizePolicy::SizeType)1, 0, 0, sizePolicy().hasHeightForWidth() ) ); DialogLayout = new TQGridLayout( this, 1, 1, 11, 6, "DialogLayout"); diff --git a/quanta/parts/kafka/domtreeview.h b/quanta/parts/kafka/domtreeview.h index 2f3ea65a..7c18dc60 100644 --- a/quanta/parts/kafka/domtreeview.h +++ b/quanta/parts/kafka/domtreeview.h @@ -40,7 +40,7 @@ class DOMTreeView : public KListView Q_OBJECT TQ_OBJECT public: - DOMTreeView(TQWidget *tqparent, KHTMLPart *part, const char * name = 0); + DOMTreeView(TQWidget *parent, KHTMLPart *part, const char * name = 0); ~DOMTreeView(); void setTitle(const TQString &str); void recursive(const DOM::Node &pNode, const DOM::Node &node); @@ -69,7 +69,7 @@ class KafkaDOMTreeDialog : public TQDialog Q_OBJECT TQ_OBJECT public: - KafkaDOMTreeDialog(TQWidget *tqparent = 0, KHTMLPart *part = 0, const char* name = 0, bool modal = FALSE, WFlags fl = 0 ); + KafkaDOMTreeDialog(TQWidget *parent = 0, KHTMLPart *part = 0, const char* name = 0, bool modal = FALSE, WFlags fl = 0 ); ~KafkaDOMTreeDialog(); DOMTreeView *domview; TQGridLayout *DialogLayout; diff --git a/quanta/parts/kafka/htmldocumentproperties.cpp b/quanta/parts/kafka/htmldocumentproperties.cpp index d6b38cb7..9d23cada 100644 --- a/quanta/parts/kafka/htmldocumentproperties.cpp +++ b/quanta/parts/kafka/htmldocumentproperties.cpp @@ -44,9 +44,9 @@ #include "viewmanager.h" -htmlDocumentProperties::htmlDocumentProperties( TQWidget* tqparent, bool forceInsertionOfBasicNodes, const char* name, +htmlDocumentProperties::htmlDocumentProperties( TQWidget* parent, bool forceInsertionOfBasicNodes, const char* name, bool modal, WFlags fl) : - htmlDocumentPropertiesui(tqparent, name, modal, fl), titleNode( 0L ), htmlNode( 0L ), + htmlDocumentPropertiesui(parent, name, modal, fl), titleNode( 0L ), htmlNode( 0L ), headNode( 0L ), linkNode( 0L ), bodyNode( 0L), doctypeNode( 0L ), CSSNode ( 0L ), xmlNode( 0L ), titleDirty(false), linkDirty(false) { @@ -651,7 +651,7 @@ void htmlDocumentProperties::addBasicNodes(NodeModifsSet *modifs) htmlNode->child = allTheNodes; while(allTheNodes) { - allTheNodes->tqparent = htmlNode; + allTheNodes->parent = htmlNode; allTheNodes = allTheNodes->next; } htmlNodeCreated = true; @@ -685,7 +685,7 @@ void htmlDocumentProperties::addBasicNodes(NodeModifsSet *modifs) if(qHead->isChild(allTheNodes)) { /*//TODO:LOG this into the modif!! - allTheNodes->tqparent = headNode; + allTheNodes->parent = headNode; if(lastHeadChild) { lastHeadChild->next = allTheNodes; @@ -701,7 +701,7 @@ void htmlDocumentProperties::addBasicNodes(NodeModifsSet *modifs) else if(bodyNodeCreated && htmlNodeCreated && qBody->isChild(allTheNodes)) { //TODO:log!! - /**allTheNodes->tqparent = bodyNode; + /**allTheNodes->parent = bodyNode; if(lastBodyChild) { lastBodyChild->next = allTheNodes; @@ -717,7 +717,7 @@ void htmlDocumentProperties::addBasicNodes(NodeModifsSet *modifs) else { //TODO:log? no. - /**allTheNodes->tqparent = htmlNode; + /**allTheNodes->parent = htmlNode; lastHtmlChild->next = allTheNodes; allTheNodes->prev = lastHtmlChild; lastHtmlChild = allTheNodes;*/ diff --git a/quanta/parts/kafka/htmldocumentproperties.h b/quanta/parts/kafka/htmldocumentproperties.h index bc0c9423..799e75db 100644 --- a/quanta/parts/kafka/htmldocumentproperties.h +++ b/quanta/parts/kafka/htmldocumentproperties.h @@ -51,7 +51,7 @@ public: * @param forceInsertionOfBasicNodes Force the insertion of the basic Nodes (HTML, BODY, HEAD, ...) if pressing OK * without having made any changes. */ - htmlDocumentProperties( TQWidget* tqparent = 0, bool forceInsertionOfBasicNodes = false, + htmlDocumentProperties( TQWidget* parent = 0, bool forceInsertionOfBasicNodes = false, const char* name = 0, bool modal = FALSE, WFlags fl = 0 ); ~htmlDocumentProperties(); diff --git a/quanta/parts/kafka/htmlenhancer.cpp b/quanta/parts/kafka/htmlenhancer.cpp index daffd656..4a1d7c38 100644 --- a/quanta/parts/kafka/htmlenhancer.cpp +++ b/quanta/parts/kafka/htmlenhancer.cpp @@ -288,7 +288,7 @@ void HTMLEnhancer::postEnhanceNode(DOM::Node domNode) if(domNode.isNull()) return; - //If domNode is a Block and there is no text around, and if domNode's tqparent can handle + //If domNode is a Block and there is no text around, and if domNode's parent can handle //text or a P tag, add an empty text DOM::Node // so that the user can access this area. qTag = QuantaCommon::tagFromDTD(m_wkafkapart->getCurrentDoc()->defaultDTD(), diff --git a/quanta/parts/kafka/htmlenhancer.h b/quanta/parts/kafka/htmlenhancer.h index 065654a4..29ebe82f 100644 --- a/quanta/parts/kafka/htmlenhancer.h +++ b/quanta/parts/kafka/htmlenhancer.h @@ -47,7 +47,7 @@ public: * The DOM::Node must be built before calling this * function. * @param node The Node we want to enhance. - * @param parentDNode the tqparent DOM::Node of the root DOM::Node of node. + * @param parentDNode the parent DOM::Node of the root DOM::Node of node. * @param nextDNode the DOM::Node next to the root DOM::Node of node. */ virtual bool enhanceNode(Node *node, DOM::Node parentDNode, DOM::Node nextDNode); diff --git a/quanta/parts/kafka/kafkacommon.cpp b/quanta/parts/kafka/kafkacommon.cpp index 8ed413f4..9d0c7cdf 100644 --- a/quanta/parts/kafka/kafkacommon.cpp +++ b/quanta/parts/kafka/kafkacommon.cpp @@ -52,9 +52,9 @@ Node *kafkaCommon::getNextNode(Node *node, bool &goUp, Node *endNode) } else { - if(node->tqparent == endNode) + if(node->parent == endNode) return 0L; - return getNextNode(node->tqparent, goUp); + return getNextNode(node->parent, goUp); } } else @@ -74,9 +74,9 @@ Node *kafkaCommon::getNextNode(Node *node, bool &goUp, Node *endNode) else { goUp = true; - if(node->tqparent == endNode) + if(node->parent == endNode) return 0L; - return getNextNode(node->tqparent, goUp); + return getNextNode(node->parent, goUp); } } } @@ -119,7 +119,7 @@ Node* kafkaCommon::getPrevNode(Node *node, Node *endNode) } else { - n = n->tqparent; + n = n->parent; if(n == endNode) return 0L; } @@ -171,13 +171,13 @@ Node* kafkaCommon::DTDGetCommonParent(Node* startNode, Node* endNode, if(commonParent && (commonParent->tag->type == Tag::Text || commonParent->tag->type == Tag::Empty)) { Node* oldCommonParent = commonParent; - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; commonParentStartChild = oldCommonParent; commonParentEndChild = oldCommonParent; } //startNode or endNode can't be the commonParent. else if(commonParent && (itStart == startNodeLocation.end() || itEnd == endNodeLocation.end())) - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; commonParentStartChildLocation = getLocation(commonParentStartChild); commonParentEndChildLocation = getLocation(commonParentEndChild); @@ -222,18 +222,18 @@ Node* kafkaCommon::DTDGetNonInlineCommonParent(Node* startNode, Node* endNode, commonParent->tag->type == Tag::Text || commonParent->tag->type == Tag::Empty)) { Node* oldCommonParent = commonParent; - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; while(commonParent && isInline(commonParent->tag->name)) { oldCommonParent = commonParent; - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; } commonParentStartChild = oldCommonParent; commonParentEndChild = oldCommonParent; } //startNode or endNode can't be the commonParent. else if(commonParent && (itStart == startNodeLocation.end() || itEnd == endNodeLocation.end())) - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; commonParentStartChildLocation = getLocation(commonParentStartChild); commonParentEndChildLocation = getLocation(commonParentEndChild); @@ -365,7 +365,7 @@ void kafkaCommon::applyIndentation(Node *node, int nbOfSpaces, int nbOfTabs, Nod kdDebug(25001)<< "kafkaCommon::applyIndentation()" << endl; #endif - Node *tqparent, *nextNE, *prevNE, *realPrevNE, *realNextNE, *realPrev, *realNext, *prev, *next; + Node *parent, *nextNE, *prevNE, *realPrevNE, *realNextNE, *realPrev, *realNext, *prev, *next; int nonInlineDepth = 0, nonInlineDepth2 = 0, i; bool b = false; TQString indentation1, indentation2, text; @@ -383,10 +383,10 @@ void kafkaCommon::applyIndentation(Node *node, int nbOfSpaces, int nbOfTabs, Nod realNext = node->next; if(inlineNodeIndentation && - !node->prev && getNodeDisplay(node->tqparent, true) == kafkaCommon::blockDisplay) + !node->prev && getNodeDisplay(node->parent, true) == kafkaCommon::blockDisplay) { AreaStruct node_area = node->tag->area(); - AreaStruct parent_area = node->tqparent->tag->area(); + AreaStruct parent_area = node->parent->tag->area(); if(node_area.bLine == parent_area.bLine) { @@ -400,30 +400,30 @@ void kafkaCommon::applyIndentation(Node *node, int nbOfSpaces, int nbOfTabs, Nod setTagString(node, removeUnnecessaryWhitespaces(node->tag->tagStr()), modifs); //compute the "non-inline depth" of the Node and of the next NE (not Empty) Node - // i.e. we count how many non-inline tqparent they have. - tqparent = node->tqparent; - while(tqparent) + // i.e. we count how many non-inline parent they have. + parent = node->parent; + while(parent) { - if(getNodeDisplay(tqparent, true) == kafkaCommon::blockDisplay) + if(getNodeDisplay(parent, true) == kafkaCommon::blockDisplay) ++nonInlineDepth; - tqparent = tqparent->tqparent; + parent = parent->parent; } //compute the "non-inline depth" of the next non-empty Node. if (nextNE) - tqparent = nextNE->tqparent; + parent = nextNE->parent; else - tqparent = 0L; - while(tqparent) + parent = 0L; + while(parent) { - if(getNodeDisplay(tqparent, true) == kafkaCommon::blockDisplay) + if(getNodeDisplay(parent, true) == kafkaCommon::blockDisplay) ++nonInlineDepth2; - tqparent = tqparent->tqparent; + parent = parent->parent; } - tqparent = node->tqparent; + parent = node->parent; - if(!tqparent || getNodeDisplay(tqparent, true) == kafkaCommon::blockDisplay) + if(!parent || getNodeDisplay(parent, true) == kafkaCommon::blockDisplay) { //prepare the indentation indentation1 = "\n"; @@ -507,7 +507,7 @@ void kafkaCommon::applyIndentation(Node *node, int nbOfSpaces, int nbOfTabs, Nod } else { - //The tqparent is inline, so no indentation. + //The parent is inline, so no indentation. //Nothing to do. } node->tag->setIndentationDone(true); @@ -519,7 +519,7 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) kdDebug(25001)<< "kafkaCommon::fitIndentationNodes()" << endl; #endif - Node *tqparent, *child, *node, *emptyNode = 0L, *emptyNode2 = 0L; + Node *parent, *child, *node, *emptyNode = 0L, *emptyNode2 = 0L; int nbEmptyNodes = 0, n1Depth, n2Depth; bool lastChild = false, firstChild = false; @@ -534,16 +534,16 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) if(n1Depth > n2Depth) { child = n1; - tqparent = n2; + parent = n2; } else { child = n2; - tqparent = n1; + parent = n1; } - if(child->tqparent->firstChildNE() == child) + if(child->parent->firstChildNE() == child) firstChild = true; - if(child->tqparent->lastChildNE() == child) + if(child->parent->lastChildNE() == child) lastChild = true; //counting the Empty Nodes and deleting them to have only one empty node. @@ -591,11 +591,11 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) //adding/deleting a empty node if necessary if(firstChild) { - if(getNodeDisplay(tqparent, true) == kafkaCommon::blockDisplay) + if(getNodeDisplay(parent, true) == kafkaCommon::blockDisplay) { if(child->tag->type != Tag::Text && !emptyNode) { - createAndInsertNode("", "", Tag::Empty, n2->tag->write(), child->tqparent, + createAndInsertNode("", "", Tag::Empty, n2->tag->write(), child->parent, child, child, modifs); } } @@ -610,11 +610,11 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) if(lastChild) { - if(getNodeDisplay(tqparent, true) == kafkaCommon::blockDisplay) + if(getNodeDisplay(parent, true) == kafkaCommon::blockDisplay) { if(child->tag->type != Tag::Text && !emptyNode2) { - createAndInsertNode("", "", Tag::Empty, n2->tag->write(), child->tqparent, + createAndInsertNode("", "", Tag::Empty, n2->tag->write(), child->parent, 0L, 0L, modifs); } } @@ -654,8 +654,8 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) } //adding/deleting a empty node if necessary - tqparent = n1->tqparent; - if(!tqparent || getNodeDisplay(tqparent, true) == kafkaCommon::blockDisplay) + parent = n1->parent; + if(!parent || getNodeDisplay(parent, true) == kafkaCommon::blockDisplay) { if(getNodeDisplay(n1, true) == kafkaCommon::blockDisplay && n1->tag->type != Tag::Text) @@ -672,7 +672,7 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) } else { - createAndInsertNode("", "", Tag::Empty, n2->tag->write(), tqparent, n2, n2, modifs); + createAndInsertNode("", "", Tag::Empty, n2->tag->write(), parent, n2, n2, modifs); } } } @@ -694,7 +694,7 @@ void kafkaCommon::fitIndentationNodes(Node *n1, Node *n2, NodeModifsSet *modifs) } else { - createAndInsertNode("", "", Tag::Empty, n2->tag->write(), tqparent, n2, n2, modifs); + createAndInsertNode("", "", Tag::Empty, n2->tag->write(), parent, n2, n2, modifs); } } } @@ -1028,7 +1028,7 @@ Node* kafkaCommon::insertNode(Node *node, Node* parentNode, Node* nextSibling, nodeIsFirstChild = true; parentNode->child = node; } - node->tqparent = parentNode; + node->parent = parentNode; if(nextSibling && nextSibling->prev) { @@ -1129,7 +1129,7 @@ Node* kafkaCommon::insertNode(Node *node, Node* parentNode, Node* nextSibling, N nodeIsFirstChild = true; parentNode->child = node; } - node->tqparent = parentNode; + node->parent = parentNode; if(nextSibling && nextSibling->prev) { @@ -1186,7 +1186,7 @@ Node* kafkaCommon::insertNode(Node *node, Node* parentNode, Node* nextSibling, N return node; } -Node *kafkaCommon::insertNode(Node *newNode, Node *tqparent, Node *nextSibling, Node *nextEndSibling, +Node *kafkaCommon::insertNode(Node *newNode, Node *parent, Node *nextSibling, Node *nextEndSibling, NodeModifsSet *modifs, bool merge) { #ifdef LIGHT_DEBUG @@ -1199,7 +1199,7 @@ Node *kafkaCommon::insertNode(Node *newNode, Node *tqparent, Node *nextSibling, return 0L; //place the new Node. - newNode = insertNode(newNode, tqparent, nextSibling, modifs, merge); + newNode = insertNode(newNode, parent, nextSibling, modifs, merge); if(!newNode->tag->single && newNode->tag->type == Tag::XmlTag) { @@ -1208,7 +1208,7 @@ Node *kafkaCommon::insertNode(Node *newNode, Node *tqparent, Node *nextSibling, nodeEnd->closesPrevious = true; //place the new closing Node. - nodeEnd = insertNode(nodeEnd, tqparent, nextEndSibling, modifs, merge); + nodeEnd = insertNode(nodeEnd, parent, nextEndSibling, modifs, merge); } //If nextSibling != nextEndSibling, move all Nodes between node and nodeEnd as child of node @@ -1222,7 +1222,7 @@ Node *kafkaCommon::insertNode(Node *newNode, Node *tqparent, Node *nextSibling, return newNode; } -Node* kafkaCommon::insertNode(Node *newNode, Node *tqparent, Node *startNodeToSurround, +Node* kafkaCommon::insertNode(Node *newNode, Node *parent, Node *startNodeToSurround, Node *endNodeToSurround, int startOffset, int endOffset, NodeModifsSet *modifs) { #ifdef LIGHT_DEBUG @@ -1246,7 +1246,7 @@ Node* kafkaCommon::insertNode(Node *newNode, Node *tqparent, Node *startNodeToSu endNodeToSurround = endNodeToSurround->next; //Then create and insert the new Node. - return insertNode(newNode, tqparent, startNodeToSurround, + return insertNode(newNode, parent, startNodeToSurround, endNodeToSurround, modifs); } @@ -1389,13 +1389,13 @@ Node* kafkaCommon::DTDInsertNodeSubtree(Node *newNode, NodeSelectionInd& selecti { *cursorNode = newNode; cursorOffset = newNode->tag->tagStr().length(); - return insertNodeSubtree(newNode, startNode->tqparent, endNode, modifs); + return insertNodeSubtree(newNode, startNode->parent, endNode, modifs); } //Then we "split" the lastValidStartParent - startNode subtree into two : the first part is untouched // and the second will be surrounded by the new Node. Same thing for endNode. Node* node = startNode; - Node* parentNode = startNode->tqparent; + Node* parentNode = startNode->parent; Node* newParentNode = 0, *child = 0, *next = 0; while(parentNode && commonParent && parentNode != commonParent) { @@ -1433,13 +1433,13 @@ Node* kafkaCommon::DTDInsertNodeSubtree(Node *newNode, NodeSelectionInd& selecti } //commonParentStartChild = parentNode; node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } if(endNode) { node = endNode; - parentNode = endNode->tqparent; + parentNode = endNode->parent; while(parentNode && commonParent && parentNode != commonParent) { if(true/*node != parentNode->firstChild()*/) @@ -1464,7 +1464,7 @@ Node* kafkaCommon::DTDInsertNodeSubtree(Node *newNode, NodeSelectionInd& selecti commonParentStartChild = newParentNode; node = parentNode; Node* aux = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; // Remove node subtree if empty if(!aux->hasChildNodes()) extractAndDeleteNode(aux, modifs); @@ -1527,8 +1527,8 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, return false; } - //Then search for the common tqparent of startNode and endNode (commonParent) - //and for the childs of commonParent which are tqparent of startNode and endNode + //Then search for the common parent of startNode and endNode (commonParent) + //and for the childs of commonParent which are parent of startNode and endNode //(commonParentStartChild && commonParentEndChild) //CommonParent will be the limit (startNode -- commonNode) where Nodes can //be splitted in order to insert the newNode. @@ -1559,25 +1559,25 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, commonParent->tag->type == Tag::Text || commonParent->tag->type == Tag::Empty)) { oldCommonParent = commonParent; - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; while(commonParent && isInline(commonParent->tag->name)) { oldCommonParent = commonParent; - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; } commonParentStartChild = oldCommonParent; commonParentEndChild = oldCommonParent; } //startNode or endNode can't be the commonParent. else if(commonParent && (itStart == startNodeLocation.end() || itEnd == endNodeLocation.end())) - commonParent = commonParent->tqparent; + commonParent = commonParent->parent; - //Now look if at least one of the tqparent Nodes between startNode and commonParent + //Now look if at least one of the parent Nodes between startNode and commonParent //can have nodeName as child. If so for startNode and endNode, let's find the last - //tqparent Nodes which can have nodeName as child. - parentNode = startNode->tqparent; + //parent Nodes which can have nodeName as child. + parentNode = startNode->parent; oldParentNode = startNode; - while(parentNode && commonParent && parentNode != commonParent->tqparent) + while(parentNode && commonParent && parentNode != commonParent->parent) { parentNodeTQTag = QuantaCommon::tagFromDTD(parentNode); if(parentNodeTQTag && parentNodeTQTag->isChild(newNode) && @@ -1588,11 +1588,11 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, //else if(!newNodeIsInline && isInline(parentNode)), we continue : BLOCK element can //cut some inline tag in order to be inserted. oldParentNode = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } - parentNode = endNode->tqparent; + parentNode = endNode->parent; oldParentNode = endNode; - while(parentNode && commonParent && parentNode != commonParent->tqparent) + while(parentNode && commonParent && parentNode != commonParent->parent) { parentNodeTQTag = QuantaCommon::tagFromDTD(parentNode); if(parentNodeTQTag && parentNodeTQTag->isChild(newNode) && @@ -1603,7 +1603,7 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, //else if(!newNodeIsInline && isInline(parentNode)), we continue : BLOCK element can //cut some inline tag in order to be inserted. oldParentNode = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } /**if(!lastValidEndParent || !lastValidStartParent) @@ -1662,7 +1662,7 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, node = startNode; if (!startNode) //Andras: it can happen. return false; - parentNode = startNode->tqparent; + parentNode = startNode->parent; while(lastValidStartParent && parentNode && parentNode != lastValidStartParent) { if(node != parentNode->firstChild()) @@ -1683,10 +1683,10 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, } } node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } node = endNode; - parentNode = endNode->tqparent; + parentNode = endNode->parent; while(lastValidEndParent && parentNode && parentNode != lastValidEndParent) { if(node != parentNode->lastChild()) @@ -1717,7 +1717,7 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, } } node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } //Now if startNode is after endNode, this means that a selectionless insertion is being done. @@ -1732,7 +1732,7 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, else if((signed)startNode->tag->tagStr().length() == startOffset && startNode->tag->type == Tag::XmlTag) parentNodeTQTag = QuantaCommon::tagFromDTD(startNode); else if((signed)startNode->tag->tagStr().length() == startOffset && startNode->tag->type == Tag::XmlTagEnd) - parentNodeTQTag = QuantaCommon::tagFromDTD(startNode->tqparent); + parentNodeTQTag = QuantaCommon::tagFromDTD(startNode->parent); if(!parentNodeTQTag || (parentNodeTQTag && parentNodeTQTag->isChild(newNode))) { if(isAfter) @@ -1740,7 +1740,7 @@ bool kafkaCommon::DTDinsertNode(Node *newNode, Node *startNode, int startOffset, else if((signed)startNode->tag->tagStr().length() == startOffset && startNode->tag->type == Tag::XmlTag) insertNodeSubtree(newNode, startNode, 0L, modifs); else if((signed)startNode->tag->tagStr().length() == startOffset && startNode->tag->type == Tag::XmlTagEnd) - insertNodeSubtree(newNode, startNode->tqparent, startNode->next, modifs); + insertNodeSubtree(newNode, startNode->parent, startNode->next, modifs); //<TEMPORARY> (*cursorNode) = lastNewNode; cursorOffset = 0; @@ -1798,7 +1798,7 @@ bool kafkaCommon::DTDinsertRemoveNode(Node *newNode, Node *startNode, int startO } Node *kafkaCommon::createAndInsertNode(const TQString &nodeName, const TQString &tagString, - int nodeType, Document *doc, Node* tqparent, Node* nextSibling, NodeModifsSet *modifs, + int nodeType, Document *doc, Node* parent, Node* nextSibling, NodeModifsSet *modifs, bool merge) { #ifdef LIGHT_DEBUG @@ -1812,13 +1812,13 @@ Node *kafkaCommon::createAndInsertNode(const TQString &nodeName, const TQString node = createNode(nodeName, tagString, nodeType, doc); //insert the new Node. - insertNode(node, tqparent, nextSibling, modifs, merge); + insertNode(node, parent, nextSibling, modifs, merge); return node; } Node *kafkaCommon::createAndInsertNode(const TQString &nodeName, const TQString &tagString, - int nodeType, Document *doc, Node *tqparent, Node *nextSibling, Node *nextEndSibling, + int nodeType, Document *doc, Node *parent, Node *nextSibling, Node *nextEndSibling, NodeModifsSet *modifs) { #ifdef LIGHT_DEBUG @@ -1832,13 +1832,13 @@ Node *kafkaCommon::createAndInsertNode(const TQString &nodeName, const TQString node = createNode(nodeName, tagString, nodeType, doc); //insert the new Node. - insertNode(node, tqparent, nextSibling, nextEndSibling, modifs); + insertNode(node, parent, nextSibling, nextEndSibling, modifs); return node; } Node *kafkaCommon::createAndInsertNode(const TQString &nodeName, const TQString &tagString, - int nodeType, Document *doc, Node *tqparent, Node *startNodeToSurround, + int nodeType, Document *doc, Node *parent, Node *startNodeToSurround, Node *endNodeToSurround, int startOffset, int endOffset, NodeModifsSet *modifs) { #ifdef LIGHT_DEBUG @@ -1855,7 +1855,7 @@ Node *kafkaCommon::createAndInsertNode(const TQString &nodeName, const TQString node = createNode(nodeName, tagString, nodeType, doc); //insert the new Node. - insertNode(node, tqparent, startNodeToSurround, endNodeToSurround, startOffset, endOffset, + insertNode(node, parent, startNodeToSurround, endNodeToSurround, startOffset, endOffset, modifs); return node; @@ -1899,9 +1899,9 @@ bool kafkaCommon::addNodeRecursively(Node *newNode, Node *leafNode, if(!leafNodeTQTag) return false; - if(currentNode && currentNode->tqparent) + if(currentNode && currentNode->parent) { - currentNodeParentTQTag = QuantaCommon::tagFromDTD(currentNode->tqparent); + currentNodeParentTQTag = QuantaCommon::tagFromDTD(currentNode->parent); if(currentNodeParentTQTag && currentNodeParentTQTag->isChild(newNode)) validCurNodeParent = true; } @@ -2184,7 +2184,7 @@ Node *kafkaCommon::duplicateNodeSubtree(Node *node, bool childAndClosingTagOnly) newPrev = 0L; for(link = nodeLinkList.first(); link; link = nodeLinkList.next()) { - if(link->m_n1 == currentNode->tqparent) + if(link->m_n1 == currentNode->parent) newParent = link->m_n2; else if(link->m_n1 == currentNode->next) newNext = link->m_n2; @@ -2217,7 +2217,7 @@ Node* kafkaCommon::extractNode(Node *node, NodeModifsSet *modifs, bool extractCh { NodeModif *modif = 0, *modifChild; Node *lastChild, *curNode; - Node *tqparent, *next, *child, *n; + Node *parent, *next, *child, *n; //Node *prev; bool isSingle; int type; @@ -2231,7 +2231,7 @@ Node* kafkaCommon::extractNode(Node *node, NodeModifsSet *modifs, bool extractCh if(!node->child) extractChildren = true; - tqparent = node->tqparent; + parent = node->parent; next = node->next; //prev = node->prev; //Should this be used at all? child = node->child; @@ -2284,18 +2284,18 @@ Node* kafkaCommon::extractNode(Node *node, NodeModifsSet *modifs, bool extractCh curNode = node->child; while(curNode) { - curNode->tqparent = node->tqparent; + curNode->parent = node->parent; curNode = curNode->next; } } - if(node->tqparent && node->tqparent->child == node) + if(node->parent && node->parent->child == node) { if(extractChildren) - node->tqparent->child = node->next; + node->parent->child = node->next; else - node->tqparent->child = node->child; + node->parent->child = node->child; } - node->tqparent = 0L; + node->parent = 0L; if(node->prev) { if(extractChildren) @@ -2671,7 +2671,7 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s if(startNode == endNode && startOffset == endOffset) return kafkaCommon::extractionBadParameters; - //Then, process startNode and endNode : look if a nodeName tqparent is one of + //Then, process startNode and endNode : look if a nodeName parent is one of //startNode/endNode's inline parents and if it is the case, split the necessary Nodes. //The comparaison is made in lowercase, even in xml : it could be strange, for an user, to have //its nodes not removed because there are in the wrong case. @@ -2681,7 +2681,7 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s { if(node->tag->name.lower() == nodeName.lower()) lastNodeNameStartNode = node; - node = node->tqparent; + node = node->parent; } node = endNode; lastNodeNameEndNode = 0L; @@ -2689,7 +2689,7 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s { if(node->tag->name.lower() == nodeName.lower()) lastNodeNameEndNode = node; - node = node->tqparent; + node = node->parent; } if(startNode->tag->type == Tag::Text) @@ -2724,8 +2724,8 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s if(lastNodeNameStartNode) { node = startNode; - parentNode = startNode->tqparent; - while(parentNode && parentNode != lastNodeNameStartNode->tqparent) + parentNode = startNode->parent; + while(parentNode && parentNode != lastNodeNameStartNode->parent) { if(node != parentNode->firstChild()) { @@ -2740,14 +2740,14 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s } } node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } } if(lastNodeNameEndNode) { node = endNode; - parentNode = endNode->tqparent; - while(parentNode && parentNode != lastNodeNameEndNode->tqparent) + parentNode = endNode->parent; + while(parentNode && parentNode != lastNodeNameEndNode->parent) { if(node != parentNode->SLastChild()) { @@ -2770,7 +2770,7 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s } } node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } } @@ -2782,7 +2782,7 @@ int kafkaCommon::DTDExtractNode(const TQString &nodeName, Document *doc, Node *s next = getNextNode(node, goUp); if(node->tag->type == Tag::XmlTag && node->tag->name.lower() == nodeName.lower()) { - parentTQTag = QuantaCommon::tagFromDTD(node->tqparent); + parentTQTag = QuantaCommon::tagFromDTD(node->parent); if(parentTQTag) { child = node->firstChild(); @@ -2927,10 +2927,10 @@ bool kafkaCommon::splitNode(Node *n, int offset, NodeModifsSet *modifs) if(n->tag->type == Tag::Text) node = createAndInsertNode("#text", tagStr.right(tagStr.length() - offset), Tag::Text, n->tag->write(), - n->tqparent, n->next, modifs, false); + n->parent, n->next, modifs, false); else node = createAndInsertNode("", tagStr.right(tagStr.length() - offset), Tag::Empty, n->tag->write(), - n->tqparent, n->next, modifs, false); + n->parent, n->next, modifs, false); //Node's string is a part of n's clean string node->tag->setCleanStrBuilt(true); @@ -2944,7 +2944,7 @@ void kafkaCommon::splitStartNodeSubtree(Node* startNode, Node* commonParent, //Then we "split" the lastValidStartParent - startNode subtree into two : the first part is untouched // and the second will be surrounded by the new Node. Same thing for endNode. Node* node = startNode; - Node* parentNode = startNode->tqparent; + Node* parentNode = startNode->parent; Node* commonParentStartChild = 0; while(parentNode && commonParent && parentNode != commonParent) { @@ -2962,7 +2962,7 @@ void kafkaCommon::splitStartNodeSubtree(Node* startNode, Node* commonParent, } commonParentStartChild = parentNode; node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } if(commonParentStartChild) @@ -2975,7 +2975,7 @@ void kafkaCommon::splitEndNodeSubtree(Node* endNode, Node* commonParent, bool subTree, NodeModifsSet* modifs) { Node* node = endNode; - Node* parentNode = endNode->tqparent; + Node* parentNode = endNode->parent; Node* aux = 0; if(subTree) @@ -3009,7 +3009,7 @@ void kafkaCommon::splitEndNodeSubtree(Node* endNode, Node* commonParent, } } node = parentNode; - parentNode = parentNode->tqparent; + parentNode = parentNode->parent; } commonParentStartChildLocation = getLocation(commonParentStartChild); commonParentEndChildLocation = getLocation(commonParentEndChild); @@ -3029,11 +3029,11 @@ void kafkaCommon::splitStartAndEndNodeSubtree(Node*& startNode, int startOffset, startNode = getCorrectStartNode(startNode, startOffset); endNode = getCorrectEndNode(endNode, endOffset); - // look for common tqparent + // look for common parent if(!commonParent) { if(extractInlineParentNodes) - // get the non inline common tqparent + // get the non inline common parent commonParent = DTDGetNonInlineCommonParent(startNode, endNode, commonParentStartChildLocation, commonParentEndChildLocation, subTree); else @@ -3075,7 +3075,7 @@ void kafkaCommon::splitStartAndEndNodeSubtree(Node*& startNode, int startOffset, } splitNode(endNode, endOffset, modifs); - // split start and end nodes subtree in function of common tqparent + // split start and end nodes subtree in function of common parent commonParentStartChildLocation = kafkaCommon::getLocation(commonParentStartChild); splitStartNodeSubtree(startNode, commonParent, commonParentStartChildLocation, modifs); @@ -3208,21 +3208,21 @@ bool kafkaCommon::mergeNodes(Node *n, Node *n2, NodeSelection& cursorHolder, Nod void kafkaCommon::mergeInlineNode(Node *startNode, Node *endNode, Node **cursorNode, long &cursorOffset, NodeModifsSet *modifs) { - Node *startNodeLastInlineParent, *tqparent, *node, *next; + Node *startNodeLastInlineParent, *parent, *node, *next; bool goUp, success, isCursorNode, isEndNode; int nodeLength; if(!startNode || !endNode) return; - //first search for the last inline tqparent of startNode, and then its last prev neighbour + //first search for the last inline parent of startNode, and then its last prev neighbour // which is also inline : the merge will start from this Node. startNodeLastInlineParent = startNode; - tqparent = startNode->tqparent; - while(tqparent && isInline(tqparent->tag->name)) + parent = startNode->parent; + while(parent && isInline(parent->tag->name)) { - startNodeLastInlineParent = tqparent; - tqparent = tqparent->tqparent; + startNodeLastInlineParent = parent; + parent = parent->parent; } if(startNodeLastInlineParent->prev) { @@ -3420,7 +3420,7 @@ TQValueList<int> kafkaCommon::getLocation(Node * node) node = node->prev; } loc.prepend(i); - node = node->tqparent; + node = node->parent; } return loc; } @@ -3634,11 +3634,11 @@ int kafkaCommon::nodeDepth(Node *node) if(!node) return -1; - node = node->tqparent; + node = node->parent; while(node) { depth++; - node = node->tqparent; + node = node->parent; } return depth; @@ -3646,12 +3646,12 @@ int kafkaCommon::nodeDepth(Node *node) Node* kafkaCommon::hasParent(Node *node, const TQString &name) { - node = node->tqparent; + node = node->parent; while(node) { if(node->tag->name.lower() == name.lower()) return node; - node = node->tqparent; + node = node->parent; } return 0L; @@ -3673,31 +3673,31 @@ Node* kafkaCommon::hasParent(Node* startNode, Node* endNode, const TQString &nam { if(node->tag->name.lower() == name.lower()) return node; - node = node->tqparent; + node = node->parent; } return 0; } -bool kafkaCommon::insertDomNode(DOM::Node node, DOM::Node tqparent, DOM::Node nextSibling, +bool kafkaCommon::insertDomNode(DOM::Node node, DOM::Node parent, DOM::Node nextSibling, DOM::Node rootNode) { if(node.isNull()) return false; - if(tqparent.isNull()) + if(parent.isNull()) { if(rootNode.isNull()) return false; - tqparent = rootNode; + parent = rootNode; } //Andras: avoid exceptions - if (!nextSibling.isNull() && nextSibling.parentNode() != tqparent) + if (!nextSibling.isNull() && nextSibling.parentNode() != parent) { kdDebug(25001)<< "kafkaCommon::insertDomNode() - invalid nextSibling!" << endl; return false; } - if (node.ownerDocument() != tqparent.ownerDocument()) + if (node.ownerDocument() != parent.ownerDocument()) { kdDebug(25001)<< "kafkaCommon::insertDomNode() - ownerDocument is different!" << endl; return false; @@ -3705,7 +3705,7 @@ bool kafkaCommon::insertDomNode(DOM::Node node, DOM::Node tqparent, DOM::Node ne try { - tqparent.insertBefore(node, nextSibling); + parent.insertBefore(node, nextSibling); } catch(DOM::DOMException e) { @@ -3716,12 +3716,12 @@ bool kafkaCommon::insertDomNode(DOM::Node node, DOM::Node tqparent, DOM::Node ne bool kafkaCommon::removeDomNode(DOM::Node node) { - DOM::Node tqparent = node.parentNode(); + DOM::Node parent = node.parentNode(); - if(tqparent.isNull()) + if(parent.isNull()) return false; - tqparent.removeChild(node); + parent.removeChild(node); return true; } @@ -3908,16 +3908,16 @@ bool kafkaCommon::isInline(DOM::Node domNode) return isInline(domNode.nodeName().string()); } -bool kafkaCommon::parentSupports(DOM::Node tqparent, DOM::Node startNode, DOM::Node endNode, +bool kafkaCommon::parentSupports(DOM::Node parent, DOM::Node startNode, DOM::Node endNode, const DTDStruct* dtd) { TQTag *parentTQTag; DOM::Node child; - if(!dtd || tqparent.isNull()) + if(!dtd || parent.isNull()) return false; - parentTQTag = QuantaCommon::tagFromDTD(dtd, tqparent.nodeName().string()); + parentTQTag = QuantaCommon::tagFromDTD(dtd, parent.nodeName().string()); if(!parentTQTag) return false; @@ -3984,7 +3984,7 @@ void kafkaCommon::coutDomTree(DOM::Node, int) kdDebug(25001) << output <<" (" << node.nodeType() << ") "<< node.handle() << endl; kdDebug(25001)<< dots << " +++ prev " << node.previousSibling().handle() << " next " << - node.nextSibling().handle() << " tqparent " << + node.nextSibling().handle() << " parent " << node.parentNode().handle() << " child " << node.firstChild().handle() << endl; for(j = 0; j < (int)node.attributes().length(); ++j) { @@ -4026,8 +4026,8 @@ void kafkaCommon::coutTree(Node *node, int indent) kdDebug(25001) << output <<" (" << node->tag->type << ", " << node->tag->cleanStrBuilt() << ", " << node->tag->indentationDone() << ") "<< node << " at pos " << bLine << ":" << bCol << " - " << eLine << ":" << eCol << endl; - kdDebug(25001)<< dots << " +++ prev " << node->prev << " next " << node->next << " tqparent " << - node->tqparent << " child " << node->child << endl; + kdDebug(25001)<< dots << " +++ prev " << node->prev << " next " << node->next << " parent " << + node->parent << " child " << node->child << endl; for(j = 0; j < node->tag->attrCount(); ++j) { kdDebug(25001)<< dots << " *** attr" << j << " " << @@ -4069,13 +4069,13 @@ int kafkaCommon::isInsideTag(Node* start_node, Node* end_node, TQString const& t tag_start = hasParent(start_node, tag_name); if(tag_start) - return 0; // only start_node has tag_name as tqparent + return 0; // only start_node has tag_name as parent tag_start = hasParent(end_node, tag_name); if(tag_start) - return 0; // only end_node has tag_name as tqparent + return 0; // only end_node has tag_name as parent - return -1; // neither the nodes have tag_name as tqparent + return -1; // neither the nodes have tag_name as parent } int kafkaCommon::isInsideTag(Node* start_node, Node* end_node, TQString const& tag_name, @@ -4092,13 +4092,13 @@ int kafkaCommon::isInsideTag(Node* start_node, Node* end_node, TQString const& t tag_start = hasParent(start_node, tag_name); if(tag_start && tag_start->tag->hasAttribute(attribute_name) && tag_start->tag->attributeValue(attribute_name, true) == attribute_value) - return 0; // only start_node has tag_name as tqparent + return 0; // only start_node has tag_name as parent tag_start = hasParent(end_node, tag_name); if(tag_start && tag_start->tag->hasAttribute(attribute_name) && tag_start->tag->attributeValue(attribute_name, true) == attribute_value) - return 0; // only end_node has tag_name as tqparent + return 0; // only end_node has tag_name as parent - return -1; // neither the nodes have tag_name as tqparent + return -1; // neither the nodes have tag_name as parent } bool kafkaCommon::isBetweenWords(Node* node, int offset) diff --git a/quanta/parts/kafka/kafkacommon.h b/quanta/parts/kafka/kafkacommon.h index fdec2aef..c3d76488 100644 --- a/quanta/parts/kafka/kafkacommon.h +++ b/quanta/parts/kafka/kafkacommon.h @@ -58,7 +58,7 @@ public: /** * This function returns the next Node after node : the first child of * node if available, else its next sibling if available, else the next - * available next sibling of a tqparent of node. + * available next sibling of a parent of node. * @param _node It is the Node from which we want the next Node. * @param goUp This boolean specifies if we should go up (torwards the root Node) * i.e. not looking at the childs of node, or make a standart iteration. @@ -87,20 +87,20 @@ public: /** - * Returns the first common tqparent to startNode and endNode that isn't inline. + * Returns the first common parent to startNode and endNode that isn't inline. * @param startNode Start node. * @param endNode End node. - * @param commonParentStartChildLocation Is the child of commonParent which is tqparent of startNode - * @param commonParentEndChildLocation Is the child of commonParent which is tqparent of endNode + * @param commonParentStartChildLocation Is the child of commonParent which is parent of startNode + * @param commonParentEndChildLocation Is the child of commonParent which is parent of endNode * @param nodeSubtree When startNode and endNode doesn't belong to the current document tree. Pass 0 if they do. - * @return The first, non inline, common tqparent of startNode and endNode. + * @return The first, non inline, common parent of startNode and endNode. */ static Node* DTDGetNonInlineCommonParent(Node* startNode, Node* endNode, TQValueList<int>& commonParentStartChildLocation, TQValueList<int>& commonParentEndChildLocation, Node* nodeSubtree); /** - * Same as above, only that the common tqparent can be inline. + * Same as above, only that the common parent can be inline. */ static Node* DTDGetCommonParent(Node* startNode, Node* endNode, TQValueList<int>& commonParentStartChildLocation, @@ -109,14 +109,14 @@ public: /** * This function returns the next DOM::Node after node : the first child of * DOM::Node if available, else its next sibling if available, else the next - * available next sibling of a tqparent of node. + * available next sibling of a parent of node. * @param node The DOM::Node the search starts from. * @param goUp This boolean specifies if we should go up or down in the tree. * For a normal use, It must be set to false at the * beginning and then the same boolean must be used when using * several times this function. * @param returnParentNode Specifies if there are no child and next sibling, if - * we should return the tqparent. + * we should return the parent. * @param endNode Specifies at which DOM::Node the search should end. It is useful * when setting returnParentNode to false. * @return the next Node. @@ -153,7 +153,7 @@ public: static Node* getCorrectEndNode(Node* endNode, int& endOffset); /** - * Get the first child of commonParent which is tqparent of node + * Get the first child of commonParent which is parent of node * @param node * @param commonParent * @return @@ -186,7 +186,7 @@ public: * generated by the undoRedo system. The undoRedo system can't create itself these Nodes * because it will create them only during the synchronization, making all the TQValueList<int> * Nodes location wrong. - * WARNING n1 and n2 must be siblings or tqparent-child. If there are sibling and n1 is a XmlTag, + * WARNING n1 and n2 must be siblings or parent-child. If there are sibling and n1 is a XmlTag, * n1 should not have non empty childs. * @param n1 The start node. * @param n2 The end node. @@ -290,7 +290,7 @@ public: * WARNING : baseNode is used as the rootNode. * It will also try to merge text/Empty Nodes. * @param node The node to insert. - * @param parentNode This Node will be the tqparent of node. + * @param parentNode This Node will be the parent of node. * @param nextSibling This Node will be the next Sibling of Node. If null, node will be appended at * the child list of parentNode. * TODO: @param rootNode The rootNode of the tree we want to insert the Node (usually &baseNode). @@ -308,11 +308,11 @@ public: /** * It behaves essentially like the above function except that it can "surround" a set of Nodes with the * new Node. Thus, the closing Node is created if necessary. - * nextSibling and nextEndSibling MUST have the same tqparent. If not, use the + * nextSibling and nextEndSibling MUST have the same parent. If not, use the * DTDinsertNode. * This function does not try to know if the location of the new Node is DTD valid. * @param newNode The new Node to insert. - * @param tqparent The tqparent of the Node. + * @param parent The parent of the Node. * @param nextSibling The next sibling of the Node. * @param nextEndSibling The next sibling of the closing Node if created. If nextEndSibling == * nextSibling, the closing Node will be placed at the right of the newly created Node. @@ -320,13 +320,13 @@ public: * @param modifs The changes made are logged into modifs. * @return Returns a pointer to the node inserted. */ - static Node *insertNode(Node *newNode, Node *tqparent, Node *nextSibling, Node *nextEndSibling, + static Node *insertNode(Node *newNode, Node *parent, Node *nextSibling, Node *nextEndSibling, NodeModifsSet *modifs, bool merge = true); /** * It behaves essentially like the above function except that it can split the endNodeToSurround and * startNodeToSurround if necessary, according to the offsets. - * startNodeToSurround et endNodeToSurround MUST have the same tqparent. If not, use the last + * startNodeToSurround et endNodeToSurround MUST have the same parent. If not, use the last * DTDinsertNode. * This function does not try to know if the location of the new Node is valid. * @param startNodeToSurround The first Node which will be enclosed by the new Node. @@ -334,7 +334,7 @@ public: * @param startOffset The first Node will be splitted at offset startOffset, the right part will be enclosed. * @param endOffset The last Node will be splitted at offset endOffset, the left part will be enclosed. */ - static Node* insertNode(Node *newNode, Node *tqparent, Node *startNodeToSurround, + static Node* insertNode(Node *newNode, Node *parent, Node *startNodeToSurround, Node *endNodeToSurround, int startOffset, int endOffset, NodeModifsSet *modifs); /** @@ -353,7 +353,7 @@ public: * @param cursorNode The cursor is inside cursorNode. * @param cursorOffset The offset of the cursor inside cursorNode. * </TEMPORARY> - * @return Returns false if it wasn't possible to insert the tag because e.g. of an invalid tqparent. + * @return Returns false if it wasn't possible to insert the tag because e.g. of an invalid parent. */ static bool DTDinsertNode(Node *newNode, Node *startNode, int startOffset, Node *endNode, int endOffset, Document *doc, Node **cursorNode, long &cursorOffset, NodeModifsSet *modifs); @@ -373,7 +373,7 @@ public: * WARNING : baseNode is used as the rootNode. * It will also try to merge text/Empty Nodes. * @param node The root node of the Node subtree to insert. - * @param parentNode This Node will be the tqparent of node. + * @param parentNode This Node will be the parent of node. * @param nextSibling This Node will be the next Sibling of Node. If null, node will be appended at * the child list of parentNode. * @param modifs The changes made are logged into modifs. Put 0L if you don't want to log @@ -387,12 +387,12 @@ public: /** * It behaves essentially like the above function except that it can "surround" a set of Nodes with the * new Node. Thus, the closing Node is created if necessary. - * nextSibling and nextEndSibling MUST have the same tqparent. If not, use the + * nextSibling and nextEndSibling MUST have the same parent. If not, use the * DTDinsertNode. - * The Node Subtree MUST be a single-Node-per-tqparent subtree. + * The Node Subtree MUST be a single-Node-per-parent subtree. * This function does not try to know if the location of the new Node is DTD valid. * @param node The root node of the Node subtree to insert. - * @param tqparent The tqparent of the Node. + * @param parent The parent of the Node. * @param nextSibling The next sibling of the Node. * @param nextEndSibling The next sibling of the closing Node if created. If nextEndSibling == * nextSibling, the closing Node will be placed at the right of the newly created Node. @@ -425,17 +425,17 @@ public: * @param tagString The string of the tag. * @param nodeType The type of the Node cf Tag::TokenType. * @param doc The Node belongs to this Document. - * @param tqparent The tqparent of the Node. + * @param parent The parent of the Node. * @param nextSibling The next sibling of the Node. * @return Returns a pointer to the newly created Node. */ static Node *createAndInsertNode(const TQString &nodeName, const TQString &tagString, int nodeType, - Document *doc, Node* tqparent, Node* nextSibling, NodeModifsSet *modifs, bool merge = true); + Document *doc, Node* parent, Node* nextSibling, NodeModifsSet *modifs, bool merge = true); /** * It behaves essentially like the above function except that it reate its closing Node if necessary - * and then insert them with tqparent as Node's tqparent. - * nextSibling and nextEndSibling MUST have the same tqparent. If not, use the + * and then insert them with parent as Node's parent. + * nextSibling and nextEndSibling MUST have the same parent. If not, use the * DTDcreateAndInsertNode. * @param nextEndSibling The next sibling of the closing Node if created. If nextEndSibling == * nextSibling, the closing Node will be placed at the right of the newly created Node. @@ -443,11 +443,11 @@ public: * @param modifs The changes made are logged into modifs. */ static Node *createAndInsertNode(const TQString &nodeName, const TQString &tagString, int nodeType, - Document *doc, Node *tqparent, Node *nextSibling, Node *nextEndSibling, NodeModifsSet *modifs); + Document *doc, Node *parent, Node *nextSibling, Node *nextEndSibling, NodeModifsSet *modifs); /** * It behaves essentially like the above function except that if necessary, it will split the Nodes. - * startNodeToSurround et endNodeToSurround MUST have the same tqparent. If not, use the + * startNodeToSurround et endNodeToSurround MUST have the same parent. If not, use the * DTDcreateAndInsertNode. * This function does not try to know if the location of the new Node is valid. * @param startNodeToSurround The first Node which will be enclosed by the new Node. @@ -456,7 +456,7 @@ public: * @param endOffset The last Node will be splitted at offset endOffset, the left part will be enclosed. */ static Node *createAndInsertNode(const TQString &nodeName, const TQString &tagString, - int nodeType, Document *doc, Node *tqparent, Node *startNodeToSurround, + int nodeType, Document *doc, Node *parent, Node *startNodeToSurround, Node *endNodeToSurround, int startOffset, int endOffset, NodeModifsSet *modifs); /** @@ -470,7 +470,7 @@ public: * @param startOffset If firstNode is a text, specify at which offset the new Node must begin to surround. * @param endNode The last Node which must be surrounded by the new Node. * @param endOffset If endNode is a text, specify at which offset the new Node must stop to surround. - * @return Returns false if it wasn't possible to insert the tag because e.g. of an invalid tqparent. + * @return Returns false if it wasn't possible to insert the tag because e.g. of an invalid parent. */ static bool DTDcreateAndInsertNode(const TQString &nodeName, const TQString &tagString, int nodeType, Document *doc, Node *startNode, int startOffset, Node *endNode, int endOffset, @@ -523,7 +523,7 @@ public: * @param node The node to delete. * @param modifs The changes made are logged into modifs. * @param extractChilds If we extract or move up the tqchildren. WARNING: it don't check - * if the tqchildren of node are legal childs of the tqparent of node. + * if the tqchildren of node are legal childs of the parent of node. * @param removeClosingTag Extract the closingTag if node isn't single and is Tag::XmlTag. * TODO: @param removeEmbeddedTags Specifies if we delete the embedded Nodes e.g. * <a href="<? boo ?>" > : the PHP block is an embedded block. @@ -593,7 +593,7 @@ public: //The node to extract was not found. nothingExtracted = 0, //The extract operation stopped because of a DTD error : if the node was removed, the child - //weren't able to be childs of the node's tqparent, according to the DTD. Should not occur + //weren't able to be childs of the node's parent, according to the DTD. Should not occur //except really bad HTML. extractionStoppedDueToBadNodes, //everything has gone fine @@ -628,7 +628,7 @@ public: /** * Moves a Node somewhere else. * @param nodeToMove The node to move :-) - * @param newParent The new tqparent of nodeToMove. + * @param newParent The new parent of nodeToMove. * @param newNextSibling The new next Sibling of nodeToMove. If null, node will be appended at * the child list of parentNode. * @param modifs The changes made are logged into modifs. @@ -695,10 +695,10 @@ public: * @param startOffset * @param endNode The node where a selection ends, for example. * @param endOffset - * @param commonParent This is the common tqparent between start and end node. + * @param commonParent This is the common parent between start and end node. * If 0, it tries to find the commonParent, else it uses the passed node. - * @param commonParentStartChildLocation The first child of commonParent which is tqparent of startNode is stored here. - * @param commonParentEndChildLocation The first child of commonParent which is tqparent of endNode is stored here. + * @param commonParentStartChildLocation The first child of commonParent which is parent of startNode is stored here. + * @param commonParentEndChildLocation The first child of commonParent which is parent of endNode is stored here. * @param cursorNode The cursor node is stored here. * @param cursorOffset The cursor offset is stored here. * @param subTree The node corresponding to the start of a subtree that doesn't belong to the current document, or 0. @@ -809,8 +809,8 @@ public: /** * Get the node corresponding to a sublocation. * @param loc A location of a Node. - * @locOffset We want the (totalNumberOfParent - locOffset)th tqparent of Node. - * @return Returns a tqparent of the node pointed by loc. + * @locOffset We want the (totalNumberOfParent - locOffset)th parent of Node. + * @return Returns a parent of the node pointed by loc. */ static Node* getNodeFromSubLocation(TQValueList<int> loc, int locOffset); @@ -856,18 +856,18 @@ public: * Get the node's depth in the tree. * @param node The node we want the depth. * @return Returns the depth of node. It is basically the number of parents of node. - * It will return 0 if node has no tqparent Nodes, and -1 if node doesn't exists. + * It will return 0 if node has no parent Nodes, and -1 if node doesn't exists. */ static int nodeDepth(Node *node); /** - * Looks if node has a tqparent which is named name. - * @return Returns the first tqparent which is named name or 0L if not found. + * Looks if node has a parent which is named name. + * @return Returns the first parent which is named name or 0L if not found. */ static Node* hasParent(Node *node, const TQString &name); /** - * Tries to find the common tqparent to startNode and endNode, in the same conditions as above. + * Tries to find the common parent to startNode and endNode, in the same conditions as above. */ static Node* hasParent(Node* startNode, Node* endNode, const TQString &name); @@ -879,12 +879,12 @@ public: * WARNING : The postEnhancement is not done (cf htmlenhancer.h) * Prefer using KafkaDocument::insertDomNode() * @param node The node to insert. - * @param tqparent The new tqparent of node. If null, insert node at the top level. + * @param parent The new parent of node. If null, insert node at the top level. * @param nextSibling The new next sibling of node. If null, append node at the end of the child list. - * @param rootNode The root DOM::Node of the DOM::Node tree. Useful when no tqparent is provided. + * @param rootNode The root DOM::Node of the DOM::Node tree. Useful when no parent is provided. * @return Returns true if the operation was successfull. */ - static bool insertDomNode(DOM::Node node, DOM::Node tqparent = DOM::Node(), + static bool insertDomNode(DOM::Node node, DOM::Node parent = DOM::Node(), DOM::Node nextSibling = DOM::Node(), DOM::Node rootNode = DOM::Node()); @@ -978,21 +978,21 @@ public: const TQString &attrName, const TQString &attrValue, DOM::Document rootNode); /** - * Looks if domNode has a tqparent which is named name. - * @return Returns the first tqparent which is named name or an empty DOM::Node if not found. + * Looks if domNode has a parent which is named name. + * @return Returns the first parent which is named name or an empty DOM::Node if not found. */ static DOM::Node hasParent(DOM::Node domNode, const TQString &name); /** * Returns the position of the child domNode. * @param domNode This is the DOM::Node we want the position. - * @return Returns the position of domNode inside domNode's tqparent's tqchildren or -1 if not found. + * @return Returns the position of domNode inside domNode's parent's tqchildren or -1 if not found. */ static int childPosition(DOM::Node domNode); /** * Returns the position'th child of parentNode. - * @param parentNode The tqparent Node of the node to return. + * @param parentNode The parent Node of the node to return. * @param position We return the position'th child Node. * @param fallback If set to true, it will always return a valid Node (except if there is no child!!) */ @@ -1005,10 +1005,10 @@ public: static bool isInline(DOM::Node domNode); /** - * Specify if tqparent supports the siblings DOM::Nodes starting from startNode to endNode + * Specify if parent supports the siblings DOM::Nodes starting from startNode to endNode * according to the DTD dtd. */ - static bool parentSupports(DOM::Node tqparent, DOM::Node startNode, DOM::Node endNode, + static bool parentSupports(DOM::Node parent, DOM::Node startNode, DOM::Node endNode, const DTDStruct* dtd); @@ -1030,7 +1030,7 @@ public: /** * Prints in stdout the current Node tree. * @param node The startNode - * @param indent The number of little dots per tqparent relationship. + * @param indent The number of little dots per parent relationship. */ static void coutTree(Node *node, int indent); @@ -1085,7 +1085,7 @@ public: private: /** - * Split the last valid start tqparent (commonParentStartChild) into two. + * Split the last valid start parent (commonParentStartChild) into two. * This and the method above are related and are used in sequence. * The following tree: * <body> @@ -1120,14 +1120,14 @@ private: * </b> * </body> * @param startNode The node where a selection starts, for example. - * @param commonParent This is the common tqparent between start and end node. - * @param commonParentStartChildLocation The first child of commonParent which is tqparent of startNode + * @param commonParent This is the common parent between start and end node. + * @param commonParentStartChildLocation The first child of commonParent which is parent of startNode * @param modifs The changes made are logged into modifs. */ static void splitStartNodeSubtree(Node* startNode, Node* commonParent, TQValueList<int>& commonParentStartChildLocation, NodeModifsSet* modifs); /** - * Split the last valid start tqparent (commonParentStartChild) into two. + * Split the last valid start parent (commonParentStartChild) into two. * The following tree: * <body> * <b> --> commonParent @@ -1162,9 +1162,9 @@ private: * </b> * </body> * @param endNode The node where a selection ends, for example. - * @param commonParent This is the common tqparent between start and end node. - * @param commonParentStartChildLocation The first child of commonParent which is tqparent of startNode. - * @param commonParentEndChildLocation The first child of commonParent which is tqparent of endNode. + * @param commonParent This is the common parent between start and end node. + * @param commonParentStartChildLocation The first child of commonParent which is parent of startNode. + * @param commonParentEndChildLocation The first child of commonParent which is parent of endNode. * @param subTree True if we are dealing with a tree that doesn't belong to the current document. * @param modifs The changes made are logged into modifs. */ diff --git a/quanta/parts/kafka/kafkahtmlpart.cpp b/quanta/parts/kafka/kafkahtmlpart.cpp index ed31f049..20a583e8 100644 --- a/quanta/parts/kafka/kafkahtmlpart.cpp +++ b/quanta/parts/kafka/kafkahtmlpart.cpp @@ -83,9 +83,9 @@ public: #endif }; -KafkaWidget::KafkaWidget(TQWidget *tqparent, TQWidget *widgetParent, KafkaDocument *part, +KafkaWidget::KafkaWidget(TQWidget *parent, TQWidget *widgetParent, KafkaDocument *part, const char *name) - : KHTMLPart(widgetParent, name, TQT_TQOBJECT(tqparent), name), + : KHTMLPart(widgetParent, name, TQT_TQOBJECT(parent), name), w(part) { m_contextPopupMenu = new TQPopupMenu(); @@ -205,10 +205,10 @@ void KafkaWidget::insertText(DOM::Node node, const TQString &text, int position) else if(position == 0) { DOM::Text textNode = document().createTextNode(text); - DOM::Node tqparent = node.parentNode(); -//FIXME: Andras: safety checks, as tqparent can be null. Maybe it just hides the error... - if (!tqparent.isNull()) - tqparent.insertBefore(textNode, node); + DOM::Node parent = node.parentNode(); +//FIXME: Andras: safety checks, as parent can be null. Maybe it just hides the error... + if (!parent.isNull()) + parent.insertBefore(textNode, node); else node.appendChild(textNode); m_currentNode = textNode; @@ -223,15 +223,15 @@ void KafkaWidget::insertText(DOM::Node node, const TQString &text, int position) else if(position == 3 || (position == 1 && (focus == kNodeAttrs::singleNodeAndItself))) { DOM::Text textNode = document().createTextNode(text); - DOM::Node tqparent = node.parentNode(); -//FIXME: Andras: safety checks, as tqparent and node.nextSibling can be null. Maybe it just hides the error... + DOM::Node parent = node.parentNode(); +//FIXME: Andras: safety checks, as parent and node.nextSibling can be null. Maybe it just hides the error... //Also it seems that position can be 3 and node is "body". See bug 112733. - if (node.nodeName().string().lower() != "body" && !tqparent.isNull()) + if (node.nodeName().string().lower() != "body" && !parent.isNull()) { if (!node.nextSibling().isNull()) - tqparent.insertBefore(textNode, node.nextSibling()); + parent.insertBefore(textNode, node.nextSibling()); else - tqparent.insertBefore(textNode, node); + parent.insertBefore(textNode, node); } else node.appendChild(textNode); @@ -947,7 +947,7 @@ void KafkaWidget::keyDelete() #endif _nodeParent = _nodeNext.parentNode(); - //If this empty text contains the cursor, change node to its tqparent. + //If this empty text contains the cursor, change node to its parent. if(_nodeNext == _node && _nodeParent.firstChild() == _nodeNext && _nodeNext.nextSibling().isNull()) { @@ -964,7 +964,7 @@ void KafkaWidget::keyDelete() //Else if the current Node is a BLOCK which can be entered/leaved e.g. H1 else if(attrs->chCurFoc() == kNodeAttrs::blockNode) { - //First look if it is one of _node's tqparent + //First look if it is one of _node's parent isParent = false; temp = _node; while(!temp.isNull()) @@ -1127,7 +1127,7 @@ void KafkaWidget::keyDelete() #endif _nodeParent = _nodeNext.parentNode(); - //If this block is used to define the cursor pos, change node to its tqparent. + //If this block is used to define the cursor pos, change node to its parent. if(_nodeNext == _node && _nodeParent.firstChild() == _nodeNext && _nodeNext.nextSibling().isNull()) { @@ -1392,7 +1392,7 @@ void KafkaWidget::keyBackspace() //Else if the current Node if a BLOCK which can be entered/leaved e.g. H1, P else if(attrs->chCurFoc() == kNodeAttrs::blockNode) { - //First look if it is one of _node's tqparent + //First look if it is one of _node's parent isParent = false; temp = _node; while(!temp.isNull()) diff --git a/quanta/parts/kafka/kafkahtmlpart.h b/quanta/parts/kafka/kafkahtmlpart.h index c0c1012f..c8ff05f0 100644 --- a/quanta/parts/kafka/kafkahtmlpart.h +++ b/quanta/parts/kafka/kafkahtmlpart.h @@ -48,7 +48,7 @@ class KafkaWidget : public KHTMLPart Q_OBJECT TQ_OBJECT public: - KafkaWidget(TQWidget *tqparent, TQWidget *widgetParent, KafkaDocument *part, + KafkaWidget(TQWidget *parent, TQWidget *widgetParent, KafkaDocument *part, const char *name = 0); ~KafkaWidget(); @@ -85,7 +85,7 @@ public: * @param goUp A needed boolean for several consecutive call to * this function. Setting it to false by default, or to true if we don't want to go through * the childs of _node. - * @param skipParentNodes Specifies if we should skip the tqparent Node when going up : + * @param skipParentNodes Specifies if we should skip the parent Node when going up : * this implies that Nodes will not be returned two times. * @param dontBlock Specifies if the search should or not be blocked by BlockingTags. * @param _endNode Specifies at which DOM::Node the search should end. It is useful @@ -115,7 +115,7 @@ public: /** * It will move DOM::Nodes from startNode to endNode as tqchildren of newParent. It does NOT check * if the move is valid, so it may crash. Please check before with kafkaCommon::parentSupports(). - * @param newParent The new tqparent of the DOM::Nodes. + * @param newParent The new parent of the DOM::Nodes. * @param startNode The first node to move. * @param endNode Starting from endNode, the last sibling to move. * @param refNode The reference DOM::Node. @@ -151,7 +151,7 @@ public slots: * sections, and entity references) separates Text nodes, i.e., there are * neither adjacent Text nodes nor empty Text nodes. * Should be used instead of DOM::Node::normalize(). - * @param _node This node is the tqparent node of the childs normalized + * @param _node This node is the parent node of the childs normalized */ void normalize(DOM::Node _node); @@ -211,7 +211,7 @@ signals: /** * Is emitted whenever a DOM::Node is about to be moved in the tree. * @param node The DOM::Node which will be moved. - * @param newParent The new tqparent of domNode. + * @param newParent The new parent of domNode. * @param before domNode will be placed before before. * @param modifs The changes made are logged into modifs. */ diff --git a/quanta/parts/kafka/kafkasyncoptions.cpp b/quanta/parts/kafka/kafkasyncoptions.cpp index 45170859..e7066187 100644 --- a/quanta/parts/kafka/kafkasyncoptions.cpp +++ b/quanta/parts/kafka/kafkasyncoptions.cpp @@ -25,8 +25,8 @@ #include "kafkasyncoptions.h" #include "kafkasyncoptions.moc" -KafkaSyncOptions::KafkaSyncOptions( KConfig *a_config, TQWidget* tqparent, const char* name ) - : KafkaSyncOptionsUI( tqparent, name ) +KafkaSyncOptions::KafkaSyncOptions( KConfig *a_config, TQWidget* parent, const char* name ) + : KafkaSyncOptionsUI( parent, name ) { config = a_config; diff --git a/quanta/parts/kafka/kafkasyncoptions.h b/quanta/parts/kafka/kafkasyncoptions.h index 85a1eb88..63e58552 100644 --- a/quanta/parts/kafka/kafkasyncoptions.h +++ b/quanta/parts/kafka/kafkasyncoptions.h @@ -28,7 +28,7 @@ class KafkaSyncOptions : public KafkaSyncOptionsUI TQ_OBJECT public: - KafkaSyncOptions( KConfig *config, TQWidget* tqparent = 0, const char* name = 0); + KafkaSyncOptions( KConfig *config, TQWidget* parent = 0, const char* name = 0); ~KafkaSyncOptions(); void updateConfig(); diff --git a/quanta/parts/kafka/nodeenhancer.h b/quanta/parts/kafka/nodeenhancer.h index 6e8bc44c..376379f1 100644 --- a/quanta/parts/kafka/nodeenhancer.h +++ b/quanta/parts/kafka/nodeenhancer.h @@ -45,7 +45,7 @@ public: * The DOM::Node must be built before calling this * function. * @param node The Node we want to enhance. - * @param parentDNode the tqparent DOM::Node of the root DOM::Node of node. + * @param parentDNode the parent DOM::Node of the root DOM::Node of node. * @param nextDNode the DOM::Node next to the root DOM::Node of node. */ virtual bool enhanceNode(Node *node, DOM::Node parentDNode, DOM::Node nextDNode) = 0; diff --git a/quanta/parts/kafka/undoredo.cpp b/quanta/parts/kafka/undoredo.cpp index 85f23398..647709b1 100644 --- a/quanta/parts/kafka/undoredo.cpp +++ b/quanta/parts/kafka/undoredo.cpp @@ -59,7 +59,7 @@ NodeModif::~NodeModif() { if(m_node) { - m_node->tqparent = 0L; + m_node->parent = 0L; m_node->next = 0L; m_node->prev = 0L; if(m_type == NodeRemoved) @@ -87,7 +87,7 @@ void NodeModif::setNode(Node *node) m_node = node; if(m_node) { - m_node->tqparent = 0L; + m_node->parent = 0L; m_node->next = 0L; m_node->prev = 0L; if(m_type == NodeRemoved) @@ -544,14 +544,14 @@ bool undoRedo::undoNodeModif(NodeModif *nodeModif) node = kafkaCommon::getNodeFromLocation(nodeModif->location()); if(!node) { - // No node at this location, getting the tqparent Node and appending newNode after - // the last child of the tqparent. + // No node at this location, getting the parent Node and appending newNode after + // the last child of the parent. ref = nodeModif->location(); TQValueList<int> loc(ref); loc.remove(loc.fromLast()); if(loc.empty()) { - // No tqparent, adding it on top of the tree. + // No parent, adding it on top of the tree. kafkaCommon::insertNode(newNode, 0L, 0L, 0L, false); } else @@ -568,7 +568,7 @@ bool undoRedo::undoNodeModif(NodeModif *nodeModif) else { // A node is already here. Moving it to the right and adding newNode here. - kafkaCommon::insertNode(newNode, node->tqparent, node, 0L, false); + kafkaCommon::insertNode(newNode, node->parent, node, 0L, false); } } if(nodeModif->type() == NodeModif::NodeTreeRemoved) @@ -756,7 +756,7 @@ bool undoRedo::undoNodeModifInKafka(NodeModif */**_nodeModif*/) while(n->next) n = n->next; } - if(n->tqparent->_leafNode.isNull()) + if(n->parent->_leafNode.isNull()) { dm = domNode.nextSibling(); goUp = false; @@ -771,7 +771,7 @@ bool undoRedo::undoNodeModifInKafka(NodeModif */**_nodeModif*/) } else { - domNode2 = n->tqparent->_leafNode; + domNode2 = n->parent->_leafNode; while(!domNode.nextSibling().isNull()) { //try{ @@ -968,15 +968,15 @@ void undoRedo::reloadQuantaEditor(bool force, bool syncQuantaCursor, bool encode while(node) { //kdDebug(25001)<< "CurNode : " << _node->tag->name << " - " << _node->tag->tagStr() << endl; - if(node->tqparent) + if(node->parent) { - node->tqparent->tag->beginPos(bLine3, bCol3); - node->tqparent->tag->endPos(eLine3, eCol3); + node->parent->tag->beginPos(bLine3, bCol3); + node->parent->tag->endPos(eLine3, eCol3); } node->tag->beginPos(bLine2, bCol2); //if we are in a Script inside a tag e.g. <a href="<? PHP stuff here ?>">, skip it - if(node->tag->type == Tag::ScriptTag && node->tqparent && + if(node->tag->type == Tag::ScriptTag && node->parent && QuantaCommon::isBetween(bLine2, bCol2, bLine3, bCol3, eLine3,eCol3) == 0) { goUp = true; @@ -990,7 +990,7 @@ void undoRedo::reloadQuantaEditor(bool force, bool syncQuantaCursor, bool encode allText += node->tag->tagStr(); //If a child is a Script inside this Tag e.g. <a href="<? PHP stuff here ?>">, make - //its position fits inside the tqparent + //its position fits inside the parent node->tag->beginPos(bLine3, bCol3); node->tag->endPos(eLine3, eCol3); child = node->firstChild(); diff --git a/quanta/parts/kafka/wkafkapart.cpp b/quanta/parts/kafka/wkafkapart.cpp index 735e8c51..3ed2c464 100644 --- a/quanta/parts/kafka/wkafkapart.cpp +++ b/quanta/parts/kafka/wkafkapart.cpp @@ -61,7 +61,7 @@ KafkaWidget *kafkaWidget; KafkaDocument *kafkaDoc; -KafkaDocument::KafkaDocument(TQWidget *tqparent, TQWidget *widgetParent, const char *name) +KafkaDocument::KafkaDocument(TQWidget *parent, TQWidget *widgetParent, const char *name) :domNodeProps(1021), _docLoaded(false) { // i18n reserve @@ -88,7 +88,7 @@ TQString ab = i18n("Ident all"); kafkaDoc = this; - m_kafkaPart = new KafkaWidget(tqparent, widgetParent,this, name); + m_kafkaPart = new KafkaWidget(parent, widgetParent,this, name); kafkaWidget = m_kafkaPart; //m_kafkaPart->showDomTree(); m_currentDoc = 0L; @@ -513,7 +513,7 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) DOM::Node newNode, newNode2, attr, nextNode, parentNode, *ptDomNode; bool removeLeftWhitespaces, removeRightWhitespaces; TQString str, nodeValue; - Node *n, *tqparent; + Node *n, *parent; int i; // Don't create DOM::Nodes from Quanta empty nodes outside the body or inside other not allowed element, or KHTML @@ -526,7 +526,7 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) else canInsertEmptyNode = kafkaCommon::hasParent(node, "body"); - Node* parent_node = node->tqparent; + Node* parent_node = node->parent; TQTag* parent_node_description_tag = QuantaCommon::tagFromDTD(parent_node); if(parent_node_description_tag && !parent_node_description_tag->isChild(node, false, true)) canInsertEmptyNode = false; @@ -540,7 +540,7 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) //The basics DOM::Nodes HTML, HEAD and BODY are loaded anyway, but we must now // link the real HTML,... to their Nodes. //A basic Common tree is !doctype<-html<-(head, body) - if(!node->tqparent) + if(!node->parent) {//FIXME:html, head and body are HTML-specific tag, for others DTDs it might result to some pbs. if(str == "html") { @@ -575,30 +575,30 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) } } } - else if(str == "html" && (!node->tqparent || (node->tqparent && !node->tqparent->tqparent))) + else if(str == "html" && (!node->parent || (node->parent && !node->parent->parent))) { if(!html.isNull())//delete the empty Node disconnectDomNodeFromQuantaNode(html); newNode = html; insertNode = false; } - else if(str == "body" && ((node->tqparent && !node->tqparent->tqparent) || (node->tqparent && - node->tqparent->tqparent && !node->tqparent->tqparent->tqparent))) + else if(str == "body" && ((node->parent && !node->parent->parent) || (node->parent && + node->parent->parent && !node->parent->parent->parent))) { if(!body.isNull()) disconnectDomNodeFromQuantaNode(body); newNode = body; insertNode = false; } - else if(str == "head" && ((node->tqparent && !node->tqparent->tqparent) || (node->tqparent && - node->tqparent->tqparent && !node->tqparent->tqparent->tqparent))) + else if(str == "head" && ((node->parent && !node->parent->parent) || (node->parent && + node->parent->parent && !node->parent->parent->parent))) { if(!head.isNull()) disconnectDomNodeFromQuantaNode(head); newNode = head; insertNode = false; } - /** else if(node->tqparent->tag->str == "html")*/ + /** else if(node->parent->tag->str == "html")*/ else { if(node->tag->type == Tag::Text || node->tag->type == Tag::Empty) @@ -631,16 +631,16 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) //- It is the last child of a BLOCK removeLeftWhitespaces = false; n = node; - tqparent = node->tqparent; - while(tqparent && tqparent->SFirstChild() == n) + parent = node->parent; + while(parent && parent->SFirstChild() == n) { - if(!kafkaCommon::isInline(tqparent->tag->name)) + if(!kafkaCommon::isInline(parent->tag->name)) { removeLeftWhitespaces = true; break; } - n = tqparent; - tqparent = tqparent->tqparent; + n = parent; + parent = parent->parent; } if(!removeLeftWhitespaces) { @@ -661,16 +661,16 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) removeRightWhitespaces = false; n = node; - tqparent = node->tqparent; - while(tqparent && tqparent->SLastChild() == n) + parent = node->parent; + while(parent && parent->SLastChild() == n) { - if(!kafkaCommon::isInline(tqparent->tag->name)) + if(!kafkaCommon::isInline(parent->tag->name)) { removeRightWhitespaces = true; break; } - n = tqparent; - tqparent = tqparent->tqparent; + n = parent; + parent = parent->parent; } nodeValue = node->tag->tagStr(); @@ -714,11 +714,11 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) break; } } - if(node->tqparent && node->tqparent->leafNode()) - parentNode = *node->tqparent->leafNode(); - else if(node->tqparent && !node->tqparent->leafNode()) + if(node->parent && node->parent->leafNode()) + parentNode = *node->parent->leafNode(); + else if(node->parent && !node->parent->leafNode()) { - //the tqparent tag was invalid and khtml refuse to insert it + //the parent tag was invalid and khtml refuse to insert it //so impossible to inser the current node disconnectDomNodeFromQuantaNode(newNode); if(node->rootNode()) @@ -774,8 +774,8 @@ bool KafkaDocument::buildKafkaNodeFromNode(Node *node, bool insertNode) } else { - if(node->tqparent && node->tqparent->leafNode()) - parentNode = *node->tqparent->leafNode(); + if(node->parent && node->parent->leafNode()) + parentNode = *node->parent->leafNode(); else parentNode = body; n = node; @@ -1697,13 +1697,13 @@ void KafkaDocument::translateNodeIntoQuantaCursorPosition(Node *node, int offset } } -bool KafkaDocument::insertDomNode(DOM::Node node, DOM::Node tqparent, +bool KafkaDocument::insertDomNode(DOM::Node node, DOM::Node parent, DOM::Node nextSibling, DOM::Node rootNode) { DOM::Node siblingNSpecial; //First insert the node - if(!kafkaCommon::insertDomNode(node, tqparent, nextSibling, rootNode)) + if(!kafkaCommon::insertDomNode(node, parent, nextSibling, rootNode)) return false; //Then unEnhance and reEnhance the nearest non special nodes so that everything's fine. @@ -1728,12 +1728,12 @@ bool KafkaDocument::insertDomNode(DOM::Node node, DOM::Node tqparent, bool KafkaDocument::removeDomNode(DOM::Node node) { - DOM::Node nextSiblingNSpecial, prevSiblingNSpecial, tqparent; + DOM::Node nextSiblingNSpecial, prevSiblingNSpecial, parent; //First remove the node prevSiblingNSpecial = getPrevSiblingNSpecial(node); nextSiblingNSpecial = getNextSiblingNSpecial(node); - tqparent = node.parentNode(); + parent = node.parentNode(); if(!kafkaCommon::removeDomNode(node)) return false; @@ -1748,8 +1748,8 @@ bool KafkaDocument::removeDomNode(DOM::Node node) mainEnhancer->postUnenhanceNode(nextSiblingNSpecial); mainEnhancer->postEnhanceNode(nextSiblingNSpecial); } - mainEnhancer->postUnenhanceNode(tqparent); - mainEnhancer->postEnhanceNode(tqparent); + mainEnhancer->postUnenhanceNode(parent); + mainEnhancer->postEnhanceNode(parent); return true; } @@ -2080,13 +2080,13 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC //If we are deleting a PHP Node which is embedded into a tag e.g. <a <? echo boo; ?> > //We must regenerate the <a> tag string. - if(_node->tag->type == Tag::ScriptTag && _node->tqparent) + if(_node->tag->type == Tag::ScriptTag && _node->parent) { - _node->tqparent->tag->beginPos(bLine, bCol); - _node->tqparent->tag->endPos(eLine, eCol); + _node->parent->tag->beginPos(bLine, bCol); + _node->parent->tag->endPos(eLine, eCol); _node->tag->beginPos(bLine2, bCol2); if(QuantaCommon::isBetween(bLine2, bCol2, bLine, bCol, eLine,eCol) == 0) - _node->tqparent->tag->setCleanStrBuilt(false); + _node->parent->tag->setCleanStrBuilt(false); } if(_node->prev) @@ -2099,15 +2099,15 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC modif = new NodeModif(); modif->setType(NodeModif::NodeRemoved); modif->setLocation(kafkaCommon::getLocation(_node)); - if(_node->tqparent && _node->tqparent->child == _node) - _node->tqparent->child = _node->next; + if(_node->parent && _node->parent->child == _node) + _node->parent->child = _node->next; if(_node->prev) _node->prev->next = _node->next; if(_node->next) _node->next->prev = _node->prev; if(_node == baseNode) baseNode = _node->next; - _node->tqparent = 0L; + _node->parent = 0L; _node->prev = 0L; _node->next = 0L; _node->child = 0L; @@ -2131,8 +2131,8 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC hasClosingNode = false; //_node->removeAll = false; - if(_node->tqparent && _node->tqparent->child == _node) - _node->tqparent->child = _node->next; + if(_node->parent && _node->parent->child == _node) + _node->parent->child = _node->next; if(_node->next) _node->next->prev = _node->prev; if(_node->prev) @@ -2155,15 +2155,15 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC } else if(_node->child)// && !deleteChilds { - if(_node->tqparent && !_node->tqparent->child) - _node->tqparent->child = _node->child; + if(_node->parent && !_node->parent->child) + _node->parent->child = _node->child; if(_node->prev) _node->prev->next = _node->child; _tmpNode = _node->child; while(_tmpNode) { i++; - _tmpNode->tqparent = _node->tqparent; + _tmpNode->parent = _node->parent; n = _tmpNode; _tmpNode = _tmpNode->next; if(!_tmpNode) @@ -2181,7 +2181,7 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC disconnectDomNodeFromQuantaNode(*_node->rootNode()); if(_node->leafNode()) disconnectDomNodeFromQuantaNode(*_node->leafNode()); - _node->tqparent = 0L; + _node->parent = 0L; _nodeNext = _node->next; _node->next = 0L; _node->prev = 0L; @@ -2195,13 +2195,13 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC if(hasClosingNode) { //delete the closing Node if present - if(_node->tqparent && _node->tqparent->child == _node) - _node->tqparent->child = _node->next; + if(_node->parent && _node->parent->child == _node) + _node->parent->child = _node->next; if(_node->prev) _node->prev->next = _node->next; if(_node->next) _node->next->prev = _node->prev; - _node->tqparent = 0L; + _node->parent = 0L; _nodeNext = _node->next; _node->next = 0L; _node->prev = 0L; @@ -2221,13 +2221,13 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC modif = new NodeModif(); modif->setType(NodeModif::NodeRemoved); modif->setLocation(kafkaCommon::getLocation(_node)); - if(_node->tqparent && _node->tqparent->child == _node) - _node->tqparent->child = _node->next; + if(_node->parent && _node->parent->child == _node) + _node->parent->child = _node->next; if(_node->prev) _node->prev->next = _node->next; if(_node->next) _node->next->prev = _node->prev; - _node->tqparent = 0L; + _node->parent = 0L; _nodeNext = _node->next; _node->prev = 0L; _node->next = 0L; @@ -2251,13 +2251,13 @@ void KafkaDocument::slotDomNodeAboutToBeRemoved(DOM::Node _domNode, bool deleteC void KafkaDocument::slotDomNodeIsAboutToBeMoved(DOM::Node domNode, DOM::Node newParent, DOM::Node before, NodeModifsSet* modifs) { - Node *node, *tqparent, *nextSibling, *closingNode; + Node *node, *parent, *nextSibling, *closingNode; if(domNode.isNull()) return; node = getNode(domNode); - tqparent = getNode(newParent); + parent = getNode(newParent); nextSibling = getNode(before); if(!node) @@ -2265,10 +2265,10 @@ void KafkaDocument::slotDomNodeIsAboutToBeMoved(DOM::Node domNode, DOM::Node new closingNode = node->getClosingNode(); - kafkaCommon::moveNode(node, tqparent, nextSibling, modifs, false); + kafkaCommon::moveNode(node, parent, nextSibling, modifs, false); if(closingNode) - kafkaCommon::moveNode(closingNode, tqparent, nextSibling, modifs, false); + kafkaCommon::moveNode(closingNode, parent, nextSibling, modifs, false); } diff --git a/quanta/parts/kafka/wkafkapart.h b/quanta/parts/kafka/wkafkapart.h index 3c0ca23c..bdab7ede 100644 --- a/quanta/parts/kafka/wkafkapart.h +++ b/quanta/parts/kafka/wkafkapart.h @@ -53,10 +53,10 @@ Q_OBJECT TQ_OBJECT public: /** Returns a reference to the KafkaDocument object */ - static KafkaDocument* const ref(TQWidget *tqparent = 0L, TQWidget *widgetParent = 0L, const char *name = 0L) + static KafkaDocument* const ref(TQWidget *parent = 0L, TQWidget *widgetParent = 0L, const char *name = 0L) { static KafkaDocument *m_ref; - if (!m_ref) m_ref = new KafkaDocument(tqparent, widgetParent, name); + if (!m_ref) m_ref = new KafkaDocument(parent, widgetParent, name); return m_ref; } @@ -161,7 +161,7 @@ public: * and thus make them its childs. Usefull when adding a Node on a selected range of Nodes. * It also create empty Nodes between Nodes. * @param domNode The Node returned is synchronized from this DOM::Node. - * @param nodeParent The tqparent Node of the Node returned. + * @param nodeParent The parent Node of the Node returned. * @param beginNode The new Node will be placed before or within _beginNode. * @param beginOffset NOT IMLEMENTED If set to 0 or -1, the new Node will be placed before _beginNode, * else _beginNode will be splitted at offset #beginOffset and the new Node will be placed @@ -309,12 +309,12 @@ public: * Insert a DOM::Node in the DOM::Node tree. It takes care to handle the exceptions and * to postEnhance (cf htmlenhancer.h) * @param node The node to insert. - * @param tqparent The new tqparent of node. If null, insert node at the top level. + * @param parent The new parent of node. If null, insert node at the top level. * @param nextSibling The new next sibling of node. If null, append node at the end of the child list. - * @param rootNode The root DOM::Node of the DOM::Node tree. Useful when no tqparent is provided. + * @param rootNode The root DOM::Node of the DOM::Node tree. Useful when no parent is provided. * @return Returns true if the operation was successfull. */ - bool insertDomNode(DOM::Node node, DOM::Node tqparent = DOM::Node(), + bool insertDomNode(DOM::Node node, DOM::Node parent = DOM::Node(), DOM::Node nextSibling = DOM::Node(), DOM::Node rootNode = DOM::Node()); @@ -369,7 +369,7 @@ public: /** * Prints in stdout the current Node tree + Node->DOM::Node->Node relationship. * @node The startNode - * @indent The number of little dots per tqparent relationship. + * @indent The number of little dots per parent relationship. */ void coutLinkTree(Node *node, int indent); @@ -433,7 +433,7 @@ public slots: /** * Called whenever a DOM::Node is moved. * @param domNode The DOM::Node to move. - * @param newParent The new tqparent DOM::Node of domNode. + * @param newParent The new parent DOM::Node of domNode. * @param before domNode will be inserted before before. * @param modifs The changes made are logged into modifs. */ @@ -460,7 +460,7 @@ private: /** * Create a KafkaWidget. */ - KafkaDocument(TQWidget *tqparent, TQWidget *widgetParent, const char *name); + KafkaDocument(TQWidget *parent, TQWidget *widgetParent, const char *name); TQMap<TQString, TQString> decodedChars; TQMap<TQString, TQString> encodedChars; |