// Copyright 2017 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "fxjs/xfa/cjx_layoutpseudomodel.h" #include #include #include "core/fxcrt/fx_coordinates.h" #include "fxjs/cfxjse_engine.h" #include "fxjs/cfxjse_value.h" #include "fxjs/js_resources.h" #include "third_party/base/ptr_util.h" #include "third_party/base/stl_util.h" #include "xfa/fxfa/cxfa_ffnotify.h" #include "xfa/fxfa/parser/cscript_layoutpseudomodel.h" #include "xfa/fxfa/parser/cxfa_arraynodelist.h" #include "xfa/fxfa/parser/cxfa_containerlayoutitem.h" #include "xfa/fxfa/parser/cxfa_document.h" #include "xfa/fxfa/parser/cxfa_form.h" #include "xfa/fxfa/parser/cxfa_layoutitem.h" #include "xfa/fxfa/parser/cxfa_layoutprocessor.h" #include "xfa/fxfa/parser/cxfa_measurement.h" #include "xfa/fxfa/parser/cxfa_node.h" #include "xfa/fxfa/parser/cxfa_nodeiteratortemplate.h" #include "xfa/fxfa/parser/cxfa_traversestrategy_layoutitem.h" const CJX_MethodSpec CJX_LayoutPseudoModel::MethodSpecs[] = { {"absPage", absPage_static}, {"absPageCount", absPageCount_static}, {"absPageCountInBatch", absPageCountInBatch_static}, {"absPageInBatch", absPageInBatch_static}, {"absPageSpan", absPageSpan_static}, {"h", h_static}, {"page", page_static}, {"pageContent", pageContent_static}, {"pageCount", pageCount_static}, {"pageSpan", pageSpan_static}, {"relayout", relayout_static}, {"relayoutPageArea", relayoutPageArea_static}, {"sheet", sheet_static}, {"sheetCount", sheetCount_static}, {"sheetCountInBatch", sheetCountInBatch_static}, {"sheetInBatch", sheetInBatch_static}, {"w", w_static}, {"x", x_static}, {"y", y_static}}; CJX_LayoutPseudoModel::CJX_LayoutPseudoModel(CScript_LayoutPseudoModel* model) : CJX_Object(model) { DefineMethods(MethodSpecs); } CJX_LayoutPseudoModel::~CJX_LayoutPseudoModel() {} void CJX_LayoutPseudoModel::ready(CFXJSE_Value* pValue, bool bSetting, XFA_Attribute eAttribute) { CXFA_FFNotify* pNotify = GetDocument()->GetNotify(); if (!pNotify) return; if (bSetting) { ThrowException(L"Unable to set ready value."); return; } int32_t iStatus = pNotify->GetLayoutStatus(); pValue->SetBoolean(iStatus >= 2); } CJS_Result CJX_LayoutPseudoModel::HWXY( CFX_V8* runtime, const std::vector>& params, XFA_LAYOUTMODEL_HWXY layoutModel) { if (params.empty() || params.size() > 3) return CJS_Result::Failure(JSMessage::kParamError); CXFA_Node* pNode = ToNode(static_cast(runtime)->ToXFAObject(params[0])); if (!pNode) return CJS_Result::Success(); WideString unit(L"pt"); if (params.size() >= 2) { WideString tmp_unit = runtime->ToWideString(params[1]); if (!tmp_unit.IsEmpty()) unit = std::move(tmp_unit); } int32_t iIndex = params.size() >= 3 ? runtime->ToInt32(params[2]) : 0; CXFA_LayoutProcessor* pDocLayout = GetDocument()->GetLayoutProcessor(); if (!pDocLayout) return CJS_Result::Success(); CXFA_ContentLayoutItem* pLayoutItem = ToContentLayoutItem(pDocLayout->GetLayoutItem(pNode)); if (!pLayoutItem) return CJS_Result::Success(); while (iIndex > 0 && pLayoutItem) { pLayoutItem = pLayoutItem->GetNext(); --iIndex; } if (!pLayoutItem) return CJS_Result::Success(runtime->NewNumber(0.0)); CXFA_Measurement measure; CFX_RectF rtRect = pLayoutItem->GetRect(true); switch (layoutModel) { case XFA_LAYOUTMODEL_H: measure.Set(rtRect.height, XFA_Unit::Pt); break; case XFA_LAYOUTMODEL_W: measure.Set(rtRect.width, XFA_Unit::Pt); break; case XFA_LAYOUTMODEL_X: measure.Set(rtRect.left, XFA_Unit::Pt); break; case XFA_LAYOUTMODEL_Y: measure.Set(rtRect.top, XFA_Unit::Pt); break; } float fValue = measure.ToUnit(CXFA_Measurement::GetUnitFromString(unit.AsStringView())); return CJS_Result::Success( runtime->NewNumber(FXSYS_round(fValue * 1000) / 1000.0f)); } CJS_Result CJX_LayoutPseudoModel::h( CFX_V8* runtime, const std::vector>& params) { return HWXY(runtime, params, XFA_LAYOUTMODEL_H); } CJS_Result CJX_LayoutPseudoModel::w( CFX_V8* runtime, const std::vector>& params) { return HWXY(runtime, params, XFA_LAYOUTMODEL_W); } CJS_Result CJX_LayoutPseudoModel::x( CFX_V8* runtime, const std::vector>& params) { return HWXY(runtime, params, XFA_LAYOUTMODEL_X); } CJS_Result CJX_LayoutPseudoModel::y( CFX_V8* runtime, const std::vector>& params) { return HWXY(runtime, params, XFA_LAYOUTMODEL_Y); } CJS_Result CJX_LayoutPseudoModel::NumberedPageCount(CFX_V8* runtime, bool bNumbered) { CXFA_LayoutProcessor* pDocLayout = GetDocument()->GetLayoutProcessor(); if (!pDocLayout) return CJS_Result::Success(); int32_t iPageCount = 0; int32_t iPageNum = pDocLayout->CountPages(); if (bNumbered) { for (int32_t i = 0; i < iPageNum; i++) { CXFA_ContainerLayoutItem* pLayoutPage = pDocLayout->GetPage(i); if (!pLayoutPage) continue; CXFA_Node* pMasterPage = pLayoutPage->GetMasterPage(); if (pMasterPage->JSObject()->GetInteger(XFA_Attribute::Numbered)) iPageCount++; } } else { iPageCount = iPageNum; } return CJS_Result::Success(runtime->NewNumber(iPageCount)); } CJS_Result CJX_LayoutPseudoModel::pageCount( CFX_V8* runtime, const std::vector>& params) { return NumberedPageCount(runtime, true); } CJS_Result CJX_LayoutPseudoModel::pageSpan( CFX_V8* runtime, const std::vector>& params) { if (params.size() != 1) return CJS_Result::Failure(JSMessage::kParamError); CXFA_Node* pNode = ToNode(static_cast(runtime)->ToXFAObject(params[0])); if (!pNode) return CJS_Result::Success(); CXFA_LayoutProcessor* pDocLayout = GetDocument()->GetLayoutProcessor(); if (!pDocLayout) return CJS_Result::Success(); CXFA_ContentLayoutItem* pLayoutItem = ToContentLayoutItem(pDocLayout->GetLayoutItem(pNode)); if (!pLayoutItem) return CJS_Result::Success(runtime->NewNumber(-1)); int32_t iLast = pLayoutItem->GetLast()->GetPage()->GetPageIndex(); int32_t iFirst = pLayoutItem->GetFirst()->GetPage()->GetPageIndex(); int32_t iPageSpan = iLast - iFirst + 1; return CJS_Result::Success(runtime->NewNumber(iPageSpan)); } CJS_Result CJX_LayoutPseudoModel::page( CFX_V8* runtime, const std::vector>& params) { return PageInternals(runtime, params, false); } std::vector CJX_LayoutPseudoModel::GetObjArray( CXFA_LayoutProcessor* pDocLayout, int32_t iPageNo, const WideString& wsType, bool bOnPageArea) { CXFA_ContainerLayoutItem* pLayoutPage = pDocLayout->GetPage(iPageNo); if (!pLayoutPage) return std::vector(); std::vector retArray; if (wsType == L"pageArea") { if (pLayoutPage->GetFormNode()) retArray.push_back(pLayoutPage->GetFormNode()); return retArray; } if (wsType == L"contentArea") { for (CXFA_LayoutItem* pItem = pLayoutPage->m_pFirstChild; pItem; pItem = pItem->m_pNextSibling) { if (pItem->GetFormNode()->GetElementType() == XFA_Element::ContentArea) retArray.push_back(pItem->GetFormNode()); } return retArray; } std::set formItems; if (wsType.IsEmpty()) { if (pLayoutPage->GetFormNode()) retArray.push_back(pLayoutPage->GetFormNode()); for (CXFA_LayoutItem* pItem = pLayoutPage->m_pFirstChild; pItem; pItem = pItem->m_pNextSibling) { if (pItem->GetFormNode()->GetElementType() == XFA_Element::ContentArea) { retArray.push_back(pItem->GetFormNode()); if (!bOnPageArea) { CXFA_LayoutItemIterator iterator(pItem->m_pFirstChild); for (CXFA_LayoutItem* pChild = iterator.GetCurrent(); pChild; pChild = iterator.MoveToNext()) { CXFA_ContentLayoutItem* pItemChild = pChild->AsContentLayoutItem(); if (!pItemChild) continue; XFA_Element eType = pItemChild->GetFormNode()->GetElementType(); if (eType != XFA_Element::Field && eType != XFA_Element::Draw && eType != XFA_Element::Subform && eType != XFA_Element::Area) { continue; } if (pdfium::ContainsValue(formItems, pItemChild->GetFormNode())) continue; formItems.insert(pItemChild->GetFormNode()); retArray.push_back(pItemChild->GetFormNode()); } } } else { if (bOnPageArea) { CXFA_LayoutItemIterator iterator(pItem); for (CXFA_LayoutItem* pChild = iterator.GetCurrent(); pChild; pChild = iterator.MoveToNext()) { CXFA_ContentLayoutItem* pItemChild = pChild->AsContentLayoutItem(); if (!pItemChild) continue; XFA_Element eType = pItemChild->GetFormNode()->GetElementType(); if (eType != XFA_Element::Field && eType != XFA_Element::Draw && eType != XFA_Element::Subform && eType != XFA_Element::Area) { continue; } if (pdfium::ContainsValue(formItems, pItemChild->GetFormNode())) continue; formItems.insert(pItemChild->GetFormNode()); retArray.push_back(pItemChild->GetFormNode()); } } } } return retArray; } XFA_Element eType = XFA_Element::Unknown; if (wsType == L"field") eType = XFA_Element::Field; else if (wsType == L"draw") eType = XFA_Element::Draw; else if (wsType == L"subform") eType = XFA_Element::Subform; else if (wsType == L"area") eType = XFA_Element::Area; if (eType != XFA_Element::Unknown) { for (CXFA_LayoutItem* pItem = pLayoutPage->m_pFirstChild; pItem; pItem = pItem->m_pNextSibling) { if (pItem->GetFormNode()->GetElementType() == XFA_Element::ContentArea) { if (!bOnPageArea) { CXFA_LayoutItemIterator iterator(pItem->m_pFirstChild); for (CXFA_LayoutItem* pChild = iterator.GetCurrent(); pChild; pChild = iterator.MoveToNext()) { CXFA_ContentLayoutItem* pItemChild = pChild->AsContentLayoutItem(); if (!pItemChild) continue; if (pItemChild->GetFormNode()->GetElementType() != eType) continue; if (pdfium::ContainsValue(formItems, pItemChild->GetFormNode())) continue; formItems.insert(pItemChild->GetFormNode()); retArray.push_back(pItemChild->GetFormNode()); } } } else { if (bOnPageArea) { CXFA_LayoutItemIterator iterator(pItem); for (CXFA_LayoutItem* pChild = iterator.GetCurrent(); pChild; pChild = iterator.MoveToNext()) { CXFA_ContentLayoutItem* pItemChild = pChild->AsContentLayoutItem(); if (!pItemChild) continue; if (pItemChild->GetFormNode()->GetElementType() != eType) continue; if (pdfium::ContainsValue(formItems, pItemChild->GetFormNode())) continue; formItems.insert(pItemChild->GetFormNode()); retArray.push_back(pItemChild->GetFormNode()); } } } } } return retArray; } CJS_Result CJX_LayoutPseudoModel::pageContent( CFX_V8* runtime, const std::vector>& params) { if (params.empty() || params.size() > 3) return CJS_Result::Failure(JSMessage::kParamError); int32_t iIndex = 0; if (params.size() >= 1) iIndex = runtime->ToInt32(params[0]); WideString wsType; if (params.size() >= 2) wsType = runtime->ToWideString(params[1]); bool bOnPageArea = false; if (params.size() >= 3) bOnPageArea = runtime->ToBoolean(params[2]); CXFA_FFNotify* pNotify = GetDocument()->GetNotify(); if (!pNotify) return CJS_Result::Success(); CXFA_LayoutProcessor* pDocLayout = GetDocument()->GetLayoutProcessor(); if (!pDocLayout) return CJS_Result::Success(); auto pArrayNodeList = pdfium::MakeUnique(GetDocument()); pArrayNodeList->SetArrayNodeList( GetObjArray(pDocLayout, iIndex, wsType, bOnPageArea)); // TODO(dsinclair): Who owns the array once we release it? Won't this leak? return CJS_Result::Success(static_cast(runtime)->NewXFAObject( pArrayNodeList.release(), GetDocument()->GetScriptContext()->GetJseNormalClass()->GetTemplate())); } CJS_Result CJX_LayoutPseudoModel::absPageCount( CFX_V8* runtime, const std::vector>& params) { return NumberedPageCount(runtime, false); } CJS_Result CJX_LayoutPseudoModel::absPageCountInBatch( CFX_V8* runtime, const std::vector>& params) { return CJS_Result::Success(runtime->NewNumber(0)); } CJS_Result CJX_LayoutPseudoModel::sheetCountInBatch( CFX_V8* runtime, const std::vector>& params) { return CJS_Result::Success(runtime->NewNumber(0)); } CJS_Result CJX_LayoutPseudoModel::relayout( CFX_V8* runtime, const std::vector>& params) { CXFA_Node* pRootNode = GetDocument()->GetRoot(); CXFA_Form* pFormRoot = pRootNode->GetFirstChildByClass(XFA_Element::Form); CXFA_Node* pContentRootNode = pFormRoot->GetFirstChild(); CXFA_LayoutProcessor* pLayoutProcessor = GetDocument()->GetLayoutProcessor(); if (pContentRootNode) pLayoutProcessor->AddChangedContainer(pContentRootNode); pLayoutProcessor->SetForceReLayout(true); return CJS_Result::Success(); } CJS_Result CJX_LayoutPseudoModel::absPageSpan( CFX_V8* runtime, const std::vector>& params) { return pageSpan(runtime, params); } CJS_Result CJX_LayoutPseudoModel::absPageInBatch( CFX_V8* runtime, const std::vector>& params) { if (params.size() != 1) return CJS_Result::Failure(JSMessage::kParamError); return CJS_Result::Success(runtime->NewNumber(0)); } CJS_Result CJX_LayoutPseudoModel::sheetInBatch( CFX_V8* runtime, const std::vector>& params) { if (params.size() != 1) return CJS_Result::Failure(JSMessage::kParamError); return CJS_Result::Success(runtime->NewNumber(0)); } CJS_Result CJX_LayoutPseudoModel::sheet( CFX_V8* runtime, const std::vector>& params) { return PageInternals(runtime, params, true); } CJS_Result CJX_LayoutPseudoModel::relayoutPageArea( CFX_V8* runtime, const std::vector>& params) { return CJS_Result::Success(); } CJS_Result CJX_LayoutPseudoModel::sheetCount( CFX_V8* runtime, const std::vector>& params) { return NumberedPageCount(runtime, false); } CJS_Result CJX_LayoutPseudoModel::absPage( CFX_V8* runtime, const std::vector>& params) { return PageInternals(runtime, params, true); } CJS_Result CJX_LayoutPseudoModel::PageInternals( CFX_V8* runtime, const std::vector>& params, bool bAbsPage) { if (params.size() != 1) return CJS_Result::Failure(JSMessage::kParamError); CXFA_Node* pNode = ToNode(static_cast(runtime)->ToXFAObject(params[0])); if (!pNode) return CJS_Result::Success(runtime->NewNumber(0)); CXFA_LayoutProcessor* pDocLayout = GetDocument()->GetLayoutProcessor(); if (!pDocLayout) return CJS_Result::Success(); CXFA_ContentLayoutItem* pLayoutItem = ToContentLayoutItem(pDocLayout->GetLayoutItem(pNode)); if (!pLayoutItem) return CJS_Result::Success(runtime->NewNumber(-1)); int32_t iPage = pLayoutItem->GetFirst()->GetPage()->GetPageIndex(); return CJS_Result::Success(runtime->NewNumber(bAbsPage ? iPage : iPage + 1)); }