Files
core/ASCOfficeOdfFileW/source/Oox2OdfConverter/ConverterChart.cpp
Elen.Subbotina 33ef5b4404 OdfFile Reader & Writer рефакторинг (не собирались вместе - конфликты)
git-svn-id: svn://fileserver/activex/AVS/Sources/TeamlabOffice/trunk/ServerComponents@62950 954022d7-b5bf-4e40-9824-e11837661b57
2016-05-21 00:08:02 +03:00

1127 lines
40 KiB
C++
Raw Blame History

#include "Converter.h"
#include "../utils.h"
#include "XlsxConverter.h"
#include "DocxConverter.h"
#include "../OdfFormat/odf_conversion_context.h"
#include "../OdfFormat/odf_text_context.h"
#include "../OdfFormat/odf_drawing_context.h"
#include "../OdfFormat/style_text_properties.h"
#include "../OdfFormat/style_paragraph_properties.h"
#include "../../../Common/DocxFormat/Source/XlsxFormat/Xlsx.h"
namespace Oox2Odf
{
void OoxConverter::convert(OOX::Spreadsheet::CT_ChartSpace *oox_chart)
{
if (!oox_chart)return;
convert(oox_chart->m_externalData);
convert(oox_chart->m_oSpPr.GetPointer());
convert(oox_chart->m_oTxPr.GetPointer());
convert(oox_chart->m_chart->m_title);
convert(oox_chart->m_chart->m_legend);
odf_context()->chart_context()->start_plot_area();
{
convert(oox_chart->m_chart->m_plotArea);
bool chart3D = (oox_chart->m_chart->m_view3D) ? true : false;
convert(oox_chart->m_chart->m_floor, 1, chart3D);
if (chart3D) convert(oox_chart->m_chart->m_backWall, 2, chart3D);
//convert(oox_chart->m_chart->m_sizeWall, 3, chart3D);
}
odf_context()->chart_context()->end_plot_area();
}
void OoxConverter::convert(OOX::Spreadsheet::CRichText* rich)
{
if (rich == NULL)return;
odf_context()->chart_context()->start_text();
OoxConverter::convert(rich->m_oBodyPr.GetPointer());
for (unsigned int i=0 ; i < rich->m_arrItems.size();i++)
{
OoxConverter::convert(rich->m_arrItems[i]);
}
odf_context()->chart_context()->end_text();
}
void OoxConverter::convert(OOX::Spreadsheet::CTextProperties* txPr)
{
if (txPr == NULL)return;
odf_context()->chart_context()->start_text();
OoxConverter::convert(txPr->m_oBodyPr.GetPointer());
for (unsigned int i=0 ; i < txPr->m_arrItems.size();i++)
{
OoxConverter::convert(txPr->m_arrItems[i]);
}
odf_context()->chart_context()->end_text();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Tx* ct_tx)
{
if (ct_tx == NULL)return;
convert(ct_tx->m_oRich.GetPointer());
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Layout* ct_layout)
{
if (ct_layout == NULL)return;
if (ct_layout->m_manualLayout == NULL)return;
int m_xMode=0, m_yMode=0, m_wMode=0,m_hMode=0;
if (ct_layout->m_manualLayout->m_xMode && ct_layout->m_manualLayout->m_xMode->m_val) m_xMode = *ct_layout->m_manualLayout->m_xMode->m_val;
if (ct_layout->m_manualLayout->m_yMode && ct_layout->m_manualLayout->m_yMode->m_val) m_yMode = *ct_layout->m_manualLayout->m_yMode->m_val;
if (ct_layout->m_manualLayout->m_hMode && ct_layout->m_manualLayout->m_hMode->m_val) m_hMode = *ct_layout->m_manualLayout->m_hMode->m_val;
if (ct_layout->m_manualLayout->m_wMode && ct_layout->m_manualLayout->m_wMode->m_val) m_wMode = *ct_layout->m_manualLayout->m_wMode->m_val;
if (ct_layout->m_manualLayout->m_x) odf_context()->chart_context()->set_layout_x(ct_layout->m_manualLayout->m_x->m_val,m_xMode);
if (ct_layout->m_manualLayout->m_y) odf_context()->chart_context()->set_layout_y(ct_layout->m_manualLayout->m_y->m_val,m_yMode);
if (ct_layout->m_manualLayout->m_w) odf_context()->chart_context()->set_layout_w(ct_layout->m_manualLayout->m_w->m_val,m_wMode);
if (ct_layout->m_manualLayout->m_h) odf_context()->chart_context()->set_layout_h(ct_layout->m_manualLayout->m_h->m_val,m_hMode);
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Title* ct_title)
{
if (ct_title == NULL)return;
odf_context()->chart_context()->start_title();
convert(ct_title->m_oSpPr.GetPointer());
convert(ct_title->m_layout);
convert(ct_title->m_oTxPr.GetPointer());
///////////////////////////////
convert(ct_title->m_tx);
odf_context()->chart_context()->end_element();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Legend* ct_legend)
{
if (ct_legend == NULL)return;
odf_context()->chart_context()->start_legend();
convert(ct_legend->m_oSpPr.GetPointer());
convert(ct_legend->m_layout);
if ((ct_legend->m_legendPos) && (ct_legend->m_legendPos->m_val))
odf_context()->chart_context()->set_legend_position(*ct_legend->m_legendPos->m_val);
convert(ct_legend->m_oTxPr.GetPointer());
if (ct_legend->m_legendEntry.size() > 0)
{
convert(ct_legend->m_legendEntry[0]); // <20> odf_writer <20><><EFBFBD> <20> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
}
//////////////////////
odf_context()->chart_context()->end_element();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_LegendEntry* ct_legend)
{
if (ct_legend == NULL)return;
convert(ct_legend->m_oTxPr.GetPointer());
}
void OoxConverter::convert(OOX::Spreadsheet::CT_PlotArea* ct_plotArea)
{
if (ct_plotArea == NULL)return;
bool chart3D = false;
convert(ct_plotArea->m_layout);
///////////////////////
for (unsigned int i=0; i< ct_plotArea->m_Items1.size(); i++)
{
if (!ct_plotArea->m_ItemsElementName1[i]) continue;
switch(*ct_plotArea->m_ItemsElementName1[i])
{
case OOX::Spreadsheet::itemschoicetype6CATAX: convert((OOX::Spreadsheet::CT_CatAx*)ct_plotArea->m_Items1[i]);break;
case OOX::Spreadsheet::itemschoicetype6DATEAX: convert((OOX::Spreadsheet::CT_DateAx*)ct_plotArea->m_Items1[i]);break;
case OOX::Spreadsheet::itemschoicetype6SERAX: convert((OOX::Spreadsheet::CT_SerAx*)ct_plotArea->m_Items1[i]);break;
case OOX::Spreadsheet::itemschoicetype6VALAX: convert((OOX::Spreadsheet::CT_ValAx*)ct_plotArea->m_Items1[i]);break;
}
}
for (unsigned int i=0; i< ct_plotArea->m_Items.size(); i++)//
{
if (!ct_plotArea->m_ItemsElementName0[i]) continue;
switch(*ct_plotArea->m_ItemsElementName0[i])
{
case OOX::Spreadsheet::itemschoicetype5AREA3DCHART: convert((OOX::Spreadsheet::CT_Area3DChart*) ct_plotArea->m_Items[i]); chart3D = true; break;
case OOX::Spreadsheet::itemschoicetype5AREACHART: convert((OOX::Spreadsheet::CT_AreaChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5BAR3DCHART: convert((OOX::Spreadsheet::CT_Bar3DChart*) ct_plotArea->m_Items[i]); chart3D = true; break;
case OOX::Spreadsheet::itemschoicetype5BARCHART: convert((OOX::Spreadsheet::CT_BarChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5BUBBLECHART: convert((OOX::Spreadsheet::CT_BubbleChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5DOUGHNUTCHART: convert((OOX::Spreadsheet::CT_DoughnutChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5LINE3DCHART: convert((OOX::Spreadsheet::CT_Line3DChart*) ct_plotArea->m_Items[i]); chart3D = true; break;
case OOX::Spreadsheet::itemschoicetype5LINECHART: convert((OOX::Spreadsheet::CT_LineChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5OFPIECHART: convert((OOX::Spreadsheet::CT_OfPieChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5PIE3DCHART: convert((OOX::Spreadsheet::CT_Pie3DChart*) ct_plotArea->m_Items[i]); chart3D = true; break;
case OOX::Spreadsheet::itemschoicetype5PIECHART: convert((OOX::Spreadsheet::CT_PieChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5RADARCHART: convert((OOX::Spreadsheet::CT_RadarChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5SCATTERCHART: convert((OOX::Spreadsheet::CT_ScatterChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5STOCKCHART: convert((OOX::Spreadsheet::CT_StockChart*) ct_plotArea->m_Items[i]);break;
case OOX::Spreadsheet::itemschoicetype5SURFACE3DCHART: convert((OOX::Spreadsheet::CT_Surface3DChart*) ct_plotArea->m_Items[i]); chart3D = true; break;
case OOX::Spreadsheet::itemschoicetype5SURFACECHART: convert((OOX::Spreadsheet::CT_SurfaceChart*) ct_plotArea->m_Items[i]);break;
}
}
if (ct_plotArea->m_dTable)
{
}
if (chart3D == false)
{
odf_context()->chart_context()->start_wall();
{
convert(ct_plotArea->m_oSpPr.GetPointer());
}
odf_context()->chart_context()->end_element();
}
}
//////////////////////////////////////////////////////////////////////////////////////////////
void OoxConverter::convert(OOX::Spreadsheet::CT_CatAx* axis)
{
if (axis == NULL)return;
odf_context()->chart_context()->start_axis();
odf_context()->chart_context()->set_axis_dimension(1);
if (axis->m_axId && axis->m_axId->m_val)
odf_context()->chart_context()->set_axis_id(*axis->m_axId->m_val);
convert(axis->m_oSpPr.GetPointer());
if (axis->m_scaling)
{
if (axis->m_scaling->m_logBase)
odf_context()->chart_context()->set_axis_logarithmic(true);
if (axis->m_scaling->m_orientation && axis->m_scaling->m_orientation->m_val)
odf_context()->chart_context()->set_axis_orientation(*axis->m_scaling->m_orientation->m_val);
if (axis->m_scaling->m_min && axis->m_scaling->m_min->m_val) odf_context()->chart_context()->set_axis_min(*axis->m_scaling->m_min->m_val);
if (axis->m_scaling->m_max && axis->m_scaling->m_max->m_val) odf_context()->chart_context()->set_axis_max(*axis->m_scaling->m_max->m_val);
}
if (axis->m_majorTickMark && axis->m_majorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_major(*axis->m_majorTickMark->m_val);
if (axis->m_minorTickMark && axis->m_minorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_minor(*axis->m_minorTickMark->m_val);
if (axis->m_tickLblPos)
{
if (axis->m_tickLblPos->m_val)odf_context()->chart_context()->set_display_label_position(*axis->m_tickLblPos->m_val);
odf_context()->chart_context()->set_display_label(true);
}
if (axis->m_axPos && axis->m_axPos->m_val)
odf_context()->chart_context()->set_axis_position(*axis->m_axPos->m_val);
if (axis->m_tickLblPos && axis->m_tickLblPos->m_val)
odf_context()->chart_context()->set_axis_label_position(*axis->m_tickLblPos->m_val);
///////////////////
convert(axis->m_oTxPr.GetPointer());
convert(axis->m_title);
convert(axis->m_majorGridlines, 1);
convert(axis->m_minorGridlines, 2);
odf_context()->chart_context()->end_element();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_DateAx* axis)
{
if (axis == NULL)return;
odf_context()->chart_context()->start_axis();
odf_context()->chart_context()->set_axis_dimension(1);
if (axis->m_axId && axis->m_axId->m_val)
odf_context()->chart_context()->set_axis_id(*axis->m_axId->m_val);
convert(axis->m_oSpPr.GetPointer());
if (axis->m_scaling)
{
if (axis->m_scaling->m_logBase)
odf_context()->chart_context()->set_axis_logarithmic(true);
if (axis->m_scaling->m_orientation && axis->m_scaling->m_orientation->m_val)
odf_context()->chart_context()->set_axis_orientation(*axis->m_scaling->m_orientation->m_val);
if (axis->m_scaling->m_min && axis->m_scaling->m_min->m_val) odf_context()->chart_context()->set_axis_min(*axis->m_scaling->m_min->m_val);
if (axis->m_scaling->m_max && axis->m_scaling->m_max->m_val) odf_context()->chart_context()->set_axis_max(*axis->m_scaling->m_max->m_val);
}
if (axis->m_majorTickMark && axis->m_majorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_major(*axis->m_majorTickMark->m_val);
if (axis->m_minorTickMark && axis->m_minorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_minor(*axis->m_minorTickMark->m_val);
if (axis->m_tickLblPos)
{
if (axis->m_tickLblPos->m_val)odf_context()->chart_context()->set_display_label_position(*axis->m_tickLblPos->m_val);
odf_context()->chart_context()->set_display_label(true);
}
if (axis->m_axPos && axis->m_axPos->m_val)
odf_context()->chart_context()->set_axis_position(*axis->m_axPos->m_val);
//////////////////
convert(axis->m_oTxPr.GetPointer());
convert(axis->m_title);
convert(axis->m_majorGridlines, 1);
convert(axis->m_minorGridlines, 2);
odf_context()->chart_context()->end_element();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_SerAx* axis)
{
if (axis == NULL)return;
odf_context()->chart_context()->start_axis();
odf_context()->chart_context()->set_axis_dimension(1);
if (axis->m_axId && axis->m_axId->m_val)
odf_context()->chart_context()->set_axis_id(*axis->m_axId->m_val);
convert(axis->m_oSpPr.GetPointer());
if (axis->m_scaling)
{
if (axis->m_scaling->m_logBase)
odf_context()->chart_context()->set_axis_logarithmic(true);
if (axis->m_scaling->m_orientation && axis->m_scaling->m_orientation->m_val)
odf_context()->chart_context()->set_axis_orientation(*axis->m_scaling->m_orientation->m_val);
if (axis->m_scaling->m_min && axis->m_scaling->m_min->m_val) odf_context()->chart_context()->set_axis_min(*axis->m_scaling->m_min->m_val);
if (axis->m_scaling->m_max && axis->m_scaling->m_max->m_val) odf_context()->chart_context()->set_axis_max(*axis->m_scaling->m_max->m_val);
}
if (axis->m_majorTickMark && axis->m_majorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_major(*axis->m_majorTickMark->m_val);
if (axis->m_minorTickMark && axis->m_minorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_minor(*axis->m_minorTickMark->m_val);
if (axis->m_tickLblPos)
{
if (axis->m_tickLblPos->m_val)odf_context()->chart_context()->set_display_label_position(*axis->m_tickLblPos->m_val);
odf_context()->chart_context()->set_display_label(true);
}
if (axis->m_axPos && axis->m_axPos->m_val)
odf_context()->chart_context()->set_axis_position(*axis->m_axPos->m_val);
///////////////////////////
convert(axis->m_oTxPr.GetPointer());
convert(axis->m_title);
convert(axis->m_majorGridlines, 1);
convert(axis->m_minorGridlines, 2);
odf_context()->chart_context()->end_element();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_ValAx* axis)
{
if (axis == NULL)return;
odf_context()->chart_context()->start_axis();
odf_context()->chart_context()->set_axis_dimension(2);
if (axis->m_axId && axis->m_axId->m_val)
odf_context()->chart_context()->set_axis_id(*axis->m_axId->m_val);
convert(axis->m_oSpPr.GetPointer());
if (axis->m_scaling)
{
if (axis->m_scaling->m_logBase)
odf_context()->chart_context()->set_axis_logarithmic(true);
if (axis->m_scaling->m_orientation && axis->m_scaling->m_orientation->m_val)
odf_context()->chart_context()->set_axis_orientation(*axis->m_scaling->m_orientation->m_val);
if (axis->m_scaling->m_min && axis->m_scaling->m_min->m_val)odf_context()->chart_context()->set_axis_min(*axis->m_scaling->m_min->m_val);
if (axis->m_scaling->m_max && axis->m_scaling->m_max->m_val)odf_context()->chart_context()->set_axis_max(*axis->m_scaling->m_max->m_val);
}
if (axis->m_majorTickMark && axis->m_majorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_major(*axis->m_majorTickMark->m_val);
if (axis->m_minorTickMark && axis->m_minorTickMark->m_val)
odf_context()->chart_context()->set_axis_tick_minor(*axis->m_minorTickMark->m_val);
if (axis->m_tickLblPos)
{
if (axis->m_tickLblPos->m_val)odf_context()->chart_context()->set_display_label_position(*axis->m_tickLblPos->m_val);
odf_context()->chart_context()->set_display_label(true);
}
if (axis->m_axPos && axis->m_axPos->m_val)
odf_context()->chart_context()->set_axis_position(*axis->m_axPos->m_val);
/////////////////////////////
convert(axis->m_oTxPr.GetPointer());
convert(axis->m_title);
convert(axis->m_majorGridlines, 1);
convert(axis->m_minorGridlines, 2);
odf_context()->chart_context()->end_element();
}
////////////////////////////////////////////////////////////////////////////////////////////
void OoxConverter::convert(OOX::Spreadsheet::CT_ChartLines *line, int type)
{
if (line == NULL)return;
if (type <3)//grid lines
{
odf_context()->chart_context()->start_grid(type);
convert(line->m_oSpPr.GetPointer());
odf_context()->chart_context()->end_element();
}
//if (type == 3)//drop line
//{
// odf_context()->chart_context()->s
//}
if (type == 4)//Hi-Lo line
{
odf_context()->chart_context()->start_stock_range_line();
convert(line->m_oSpPr.GetPointer());
odf_context()->chart_context()->end_element();
}
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Area3DChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"area");
odf_context()->chart_context()->set_chart_3D(true);
convert (chart->m_dropLines, 3);
if (chart->m_grouping && chart->m_grouping->m_val)
odf_context()->chart_context()->set_chart_grouping(*chart->m_grouping->m_val);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
}
void OoxConverter::convert(OOX::Spreadsheet::CT_AreaChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"area");
if (chart->m_grouping && chart->m_grouping->m_val)
odf_context()->chart_context()->set_chart_grouping(*chart->m_grouping->m_val);
convert (chart->m_dropLines, 3);
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Bar3DChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"bar");
odf_context()->chart_context()->set_chart_3D(true);
if (chart->m_shape && chart->m_shape->m_val)
odf_context()->chart_context()->set_chart_bar_type(*chart->m_shape->m_val);
if (chart->m_grouping && chart->m_grouping->m_val)
odf_context()->chart_context()->set_chart_bar_grouping(*chart->m_grouping->m_val);
if (chart->m_barDir && chart->m_barDir->m_val)
odf_context()->chart_context()->set_chart_bar_direction(*chart->m_barDir->m_val);
if (chart->m_gapWidth && chart->m_gapWidth->m_val)
odf_context()->chart_context()->set_chart_bar_gap_width(string2std_string(*chart->m_gapWidth->m_val));
//if (chart->m_overlap && chart->m_overlap->m_val)
// odf_context()->chart_context()->set_chart_bar_overlap(string2std_string(*chart->m_overlap->m_val));
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_BarChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"bar");
if (chart->m_grouping && chart->m_grouping->m_val)
odf_context()->chart_context()->set_chart_bar_grouping(*chart->m_grouping->m_val);
if (chart->m_barDir && chart->m_barDir->m_val)
odf_context()->chart_context()->set_chart_bar_direction(*chart->m_barDir->m_val);
if (chart->m_gapWidth && chart->m_gapWidth->m_val)
odf_context()->chart_context()->set_chart_bar_gap_width(string2std_string(*chart->m_gapWidth->m_val));
if (chart->m_overlap && chart->m_overlap->m_val)
odf_context()->chart_context()->set_chart_bar_overlap(string2std_string(*chart->m_overlap->m_val));
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Line3DChart *chart)
{
odf_context()->chart_context()->set_chart_type(L"line");
odf_context()->chart_context()->set_chart_3D(true);
if (chart->m_grouping && chart->m_grouping->m_val)
odf_context()->chart_context()->set_chart_grouping(*chart->m_grouping->m_val);
convert (chart->m_dropLines, 3);
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_LineChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"line");
if (chart->m_grouping && chart->m_grouping->m_val)
odf_context()->chart_context()->set_chart_grouping(*chart->m_grouping->m_val);
if (chart->m_marker && chart->m_marker->m_val && (*chart->m_marker->m_val == true))
odf_context()->chart_context()->set_marker_type(12); //auto type
convert (chart->m_dropLines, 3);
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Pie3DChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"circle");
odf_context()->chart_context()->set_chart_3D(true);
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
//for (long i=0; i< chart->m_axId.size(); i++)
//{
// odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
//}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_PieChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"circle");
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
//for (long i=0; i< chart->m_axId.size(); i++)
//{
// odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
//}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Surface3DChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"surface");
odf_context()->chart_context()->set_chart_3D(true);
odf_context()->chart_context()->start_group_series();
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_SurfaceChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"surface");
odf_context()->chart_context()->start_group_series();
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_BubbleChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"bubble");
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_DoughnutChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"ring");
//m_holeSize
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_ScatterChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"scatter");
convert(chart->m_dLbls);
if (chart->m_varyColors && chart->m_varyColors->m_val)
odf_context()->chart_context()->set_chart_colored(*chart->m_varyColors->m_val);
if (chart->m_scatterStyle && chart->m_scatterStyle->m_val)
odf_context()->chart_context()->set_chart_scatter_type(*chart->m_scatterStyle->m_val);
odf_context()->chart_context()->start_group_series();
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_RadarChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"radar");
if (chart->m_radarStyle && chart->m_radarStyle->m_val)
odf_context()->chart_context()->set_chart_radar_type(*chart->m_radarStyle->m_val);
//odf_context()->chart_context()->set_chart_grouping(2);???
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
//for (long i=0; i< chart->m_axId.size(); i++)
//{
// odf_context()->chart_context()->add_axis_group_series(**chart->m_axId[i]->m_val->m_val);
//}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_StockChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"stock");
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
for (unsigned int i=0; i< chart->m_axId.size(); i++)
{
odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
}
convert (chart->m_dropLines ,3);
if (chart->m_upDownBars)
{
odf_context()->chart_context()->set_chart_stock_candle_stick(true);
std::wstring gap_width;
if (chart->m_upDownBars->m_gapWidth && chart->m_upDownBars->m_gapWidth->m_val)
{
gap_width = string2std_string(*chart->m_upDownBars->m_gapWidth->m_val);
/*odf_context()->chart_context()->set_chart_bar_gap_width(gap_width);*/
}
if (chart->m_upDownBars->m_upBars)
{
odf_context()->chart_context()->start_stock_gain_marker();
convert(chart->m_upDownBars->m_upBars->m_oSpPr.GetPointer());
if (gap_width.length() > 0)
odf_context()->chart_context()->set_chart_bar_gap_width(gap_width);
odf_context()->chart_context()->end_element();
}
if (chart->m_upDownBars->m_downBars)
{
odf_context()->chart_context()->start_stock_loss_marker();
convert(chart->m_upDownBars->m_downBars->m_oSpPr.GetPointer());
if (gap_width.length() > 0)
odf_context()->chart_context()->set_chart_bar_gap_width(gap_width);
odf_context()->chart_context()->end_element();
}
}
convert (chart->m_hiLowLines, 4);
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_OfPieChart *chart)
{
if (chart == NULL)return;
odf_context()->chart_context()->set_chart_type(L"circle");
odf_context()->chart_context()->start_group_series();
convert(chart->m_dLbls);
for (unsigned int i=0; i< chart->m_ser.size(); i++)
{
convert(chart->m_ser[i]);
}
//for (long i=0; i< chart->m_axId.size(); i++)
//{
// odf_context()->chart_context()->add_axis_group_series(*chart->m_axId[i]->m_val);
//}
odf_context()->chart_context()->end_group_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_AreaSer* ser)
{
odf_context()->chart_context()->start_series(L"area");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_cat,1);
convert(ser->m_val);
convert(ser->m_tx);
if (ser->m_dPt.size() > 0)
{
convert(NULL, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_BubbleSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"bubble");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_xVal, 2);
convert(ser->m_tx);
if (ser->m_dPt.size() > 0)
{
convert(NULL, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
odf_context()->chart_context()->start_series(L"bubble");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_yVal);
convert(ser->m_tx);
if (ser->m_dPt.size() > 0)
{
convert(NULL, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
odf_context()->chart_context()->start_series(L"bubble");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_bubbleSize);
convert(ser->m_tx);
if (ser->m_dPt.size() > 0)
{
convert(NULL, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_SurfaceSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"surface");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_cat,1);
convert(ser->m_val);
convert(ser->m_tx);
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_PieSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"circle");
if (ser->m_explosion && ser->m_explosion->m_val)
odf_context()->chart_context()->set_series_pie_explosion(*ser->m_explosion->m_val);
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_cat,1);
convert(ser->m_val);
convert(ser->m_tx);
if (ser->m_dPt.size() > 0)
{
convert(NULL, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_BarSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"bar");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_cat,1);
convert(ser->m_val);
convert(ser->m_tx);
if (ser->m_dPt.size() > 0)
{
convert(NULL, ser->m_dPt);
}
if (ser->m_shape && ser->m_shape->m_val)
odf_context()->chart_context()->set_chart_bar_type(*ser->m_shape->m_val);
else
odf_context()->chart_context()->set_chart_bar_type(-1);
//m_trendline;
//m_errBars
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_ScatterSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"scatter");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_xVal, 2);//domain
convert(ser->m_tx);
if (ser->m_marker || ser->m_dPt.size() > 0)
{
convert(ser->m_marker, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
odf_context()->chart_context()->start_series(L"scatter");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_yVal);
convert(ser->m_tx);
if (ser->m_marker || ser->m_dPt.size() > 0)
{
convert(ser->m_marker, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_RadarSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"radar");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_cat,1);
convert(ser->m_val);
convert(ser->m_tx);
if (ser->m_marker || ser->m_dPt.size() > 0)
{
convert(ser->m_marker, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_LineSer* ser)
{
if (ser == NULL)return;
odf_context()->chart_context()->start_series(L"line");
convert(ser->m_oSpPr.GetPointer());
convert(ser->m_dLbls);
convert(ser->m_cat,1);
convert(ser->m_val);
convert(ser->m_tx);
if (ser->m_marker || ser->m_dPt.size() > 0)
{
convert(ser->m_marker, ser->m_dPt);
}
odf_context()->chart_context()->end_series();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Marker* marker, std::vector<OOX::Spreadsheet::CT_DPt*> & dPt)
{
if (dPt.size() <1) return convert(marker);
long count_point = odf_context()->chart_context()->get_count_data_points_series();
long current_point = 0;
long set_point;
for (unsigned int i =0 ;i < dPt.size(); i++)
{
if (dPt[i] == NULL)continue;
if (dPt[i]->m_idx && dPt[i]->m_idx->m_val) set_point = *dPt[i]->m_idx->m_val;
if (set_point - current_point > 0)
{
odf_context()->chart_context()->start_data_point_series(set_point - current_point);
convert(marker);
odf_context()->chart_context()->end_element();
}
odf_context()->chart_context()->start_data_point_series(1);
convert(dPt[i]->m_oSpPr.GetPointer());
convert(dPt[i]->m_marker);
if (dPt[i]->m_explosion && dPt[i]->m_explosion->m_val)
odf_context()->chart_context()->set_series_pie_explosion(*dPt[i]->m_explosion->m_val);
odf_context()->chart_context()->end_element();
current_point = set_point+1;
}
if (count_point - current_point >0)
{
odf_context()->chart_context()->start_data_point_series(count_point - current_point);
convert(marker);
odf_context()->chart_context()->end_element();
}
}
void OoxConverter::convert(OOX::Spreadsheet::CT_Marker* marker)
{
if (marker == NULL) return;
if (marker->m_symbol && marker->m_symbol->m_val)
odf_context()->chart_context()->set_marker_type(*marker->m_symbol->m_val);
if (marker->m_size && marker->m_size->m_val)
odf_context()->chart_context()->set_marker_size(*marker->m_size->m_val);
convert(marker->m_oSpPr.GetPointer());
}
void OoxConverter::convert(OOX::Spreadsheet::CT_DLbls* ser_lbls)
{
if (ser_lbls == NULL)return;
for (unsigned int i=0; i< ser_lbls->m_Items.size(); i++)
{
bool boolVal = false;
OOX::Spreadsheet::CT_Boolean * ct_boolean = (OOX::Spreadsheet::CT_Boolean*)ser_lbls->m_Items[i];
if (ct_boolean && ct_boolean->m_val) boolVal = * ct_boolean->m_val;
switch(*ser_lbls->m_ItemsElementName0[i])
{
case OOX::Spreadsheet::itemschoicetype3DELETE :
odf_context()->chart_context()->set_label_delete(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWBUBBLESIZE:
odf_context()->chart_context()->set_label_show_bubble_size(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWCATNAME:
odf_context()->chart_context()->set_label_show_cat_name(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWLEADERLINES:
odf_context()->chart_context()->set_label_show_leader_line(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWLEGENDKEY:
odf_context()->chart_context()->set_label_show_legend_key(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWPERCENT:
odf_context()->chart_context()->set_label_show_percent(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWSERNAME:
odf_context()->chart_context()->set_label_show_ser_name(boolVal); break;
case OOX::Spreadsheet::itemschoicetype3SHOWVAL:
odf_context()->chart_context()->set_label_show_values(boolVal); break;
//case OOX::Spreadsheet::itemschoicetype3SPPR: convert((OOX::Spreadsheet:: *)ser_lbls->m_Items[i]); break;
//case OOX::Spreadsheet::itemschoicetype3TXPR: convert((OOX::Spreadsheet:: *)ser_lbls->m_Items[i]); break;
//case OOX::Spreadsheet::itemschoicetype3DLBLPOS: convert((OOX::Spreadsheet:: *)ser_lbls->m_Items[i]); break;
//case OOX::Spreadsheet::itemschoicetype3LEADERLINES: convert((OOX::Spreadsheet::CT_ChartLines *)ser_lbls->m_Items[i]); break;
//case OOX::Spreadsheet::itemschoicetype3NUMFMT: convert((OOX::Spreadsheet:: *)ser_lbls->m_Items[i]); break;
//case OOX::Spreadsheet::itemschoicetype3SEPARATOR: convert((OOX::Spreadsheet:: *)ser_lbls->m_Items[i]); break;
}
}
}
void OoxConverter::convert(OOX::Spreadsheet::CT_SerTx* ser_tx)
{
if (ser_tx == NULL)return;
if (ser_tx->m_strRef)
{
if (ser_tx->m_strRef->m_f)odf_context()->chart_context()->set_series_label_formula(string2std_string(*ser_tx->m_strRef->m_f));
convert(ser_tx->m_strRef->m_strCache,true);
}
//if (ser_tx->m_v)odf_context()->chart_context()->set_series_name(string2std_string(*ser_tx->m_v));
}
void OoxConverter::convert(OOX::Spreadsheet::CT_AxDataSource* cat, int type)
{
if (cat == NULL)
{
odf_context()->chart_context()->set_category_axis_formula(L"",type);
return;
}
if (cat->m_numLit)
{
odf_context()->chart_context()->set_series_value_formula(L"");
convert(cat->m_numLit);
}
else if (cat->m_strLit)
{
odf_context()->chart_context()->set_category_axis_formula(L"", type);
convert(cat->m_strLit,true);
}
else if (cat->m_strRef)
{
if (cat->m_strRef->m_f)odf_context()->chart_context()->set_category_axis_formula(string2std_string(*cat->m_strRef->m_f),type);
convert(cat->m_strRef->m_strCache,true/*, type == 1 ? true:false*/);
}
else if (cat->m_numRef)
{
if (cat->m_numRef->m_f)odf_context()->chart_context()->set_category_axis_formula(string2std_string(*cat->m_numRef->m_f),type);
convert(cat->m_numRef->m_numCache);
}
}
void OoxConverter::convert(OOX::Spreadsheet::CT_NumDataSource* val)
{
if (val == NULL)return;
if (val->m_numLit)
{
odf_context()->chart_context()->set_series_value_formula(L"");
convert(val->m_numLit);
}
else if (val->m_numRef)
{
if (val->m_numRef->m_f)odf_context()->chart_context()->set_series_value_formula(string2std_string(*val->m_numRef->m_f));
convert(val->m_numRef->m_numCache);
}
}
///////////////////////////////////////////////////////////////////////////////////////////////
void OoxConverter::convert(OOX::Spreadsheet::CT_Surface* ct_surface, int type, bool chart3D)
{
if (ct_surface == NULL && chart3D == false)return;
//floor, side, back
if (type == 1)odf_context()->chart_context()->start_floor();
if (type == 2)odf_context()->chart_context()->start_wall();
//if (type == 3)odf_context()->chart_context()->start_back_wall();
if (ct_surface)
{
convert(ct_surface->m_oSpPr.GetPointer());
}
else if (chart3D)//<2F><><EFBFBD><EFBFBD> <20><><EFBFBD> 3D <20><><EFBFBD> - <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
{
odf_context()->chart_context()->set_no_fill(true);
}
odf_context()->chart_context()->end_element();
}
void OoxConverter::convert(OOX::Spreadsheet::CT_ExternalData *external_data)
{
if (external_data == NULL)return;
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> !!!
if (external_data->m_id == NULL)return;
//CString pathEmbeddings = GetEmbeddings(*external_data->m_id);
//oO
//unpack
//get/check Format - xlsx
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> sheets -> table:table
//<2F><><EFBFBD>
//convert xlsx -> ods & read tables???
odf_context()->chart_context()->set_local_table(true);//<2F><><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD> ....
}
void OoxConverter::convert(OOX::Spreadsheet::CT_NumData *num_data)
{
if (num_data == NULL)return;
//std::vector<double> data;
std::vector<std::wstring> data;
for (unsigned int i=0; i < num_data->m_pt.size(); i++)
{
if (num_data->m_pt[i] && num_data->m_pt[i]->m_v)
{
data.push_back(string2std_string(*num_data->m_pt[i]->m_v));
//double val=0;
//try
//{
// val = boost::lexical_cast<double>(num_data->m_pt[i]->m_v->GetBuffer());
//}catch(...)
//{
//}
//data.push_back(val);
}
}
std::wstring format;
if (num_data->m_formatCode) format = string2std_string(*num_data->m_formatCode);
odf_context()->chart_context()->set_cash(format, data);
}
void OoxConverter::convert(OOX::Spreadsheet::CT_StrData *str_data, bool label)
{
if (str_data == NULL)return;
std::vector<std::wstring> data;
for (unsigned int i=0; i < str_data->m_pt.size(); i++)
{
if (str_data->m_pt[i] && str_data->m_pt[i]->m_v)
data.push_back(string2std_string(*str_data->m_pt[i]->m_v));
}
std::wstring format;
odf_context()->chart_context()->set_cash(format, data,label);
}
}