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#include "statictable.h"
#include <QPainter>
#include <qtmipsexception.h>
StaticTableLayout::StaticTableLayout(QWidget *parent, int margin, int horizontal_big_spacing, int horizontal_small_spacing, int vertical_spacing) : QLayout(parent) {
setContentsMargins(margin, margin, margin, margin);
bhspace = horizontal_big_spacing;
shspace = horizontal_small_spacing;
vspace = vertical_spacing;
setSizeConstraint(QLayout::SetMinAndMaxSize);
}
StaticTableLayout::~StaticTableLayout() {
for (int i = 0; i < items.size(); i++) {
for (int y = 0; y < items[i].size(); y++)
delete items[i][y];
}
}
Qt::Orientations StaticTableLayout::expandingDirections() const {
return Qt::Horizontal;
}
bool StaticTableLayout::hasHeightForWidth() const {
return true;
}
int StaticTableLayout::heightForWidth(int w) const {
if (cch_heightForWidth.w != w || cch_heightForWidth.count != items.count())
cch_heightForWidth.width = layout_height(w);
cch_heightForWidth.w = w;
cch_heightForWidth.count = items.count();
return cch_heightForWidth.width;
}
QSize StaticTableLayout::minimumSize() const {
if (cch_minSize.count == items.size())
return cch_minSize.size;
cch_minSize.count = items.size();
cch_minSize.size = QSize();
for (int i = 0; i < items.size(); i++) {
QSize ss;
for (int y = 0; y < items[i].size(); y++) {
ss = cch_minSize.size.expandedTo(items[i][y]->minimumSize() + QSize(shspace, 0));
}
cch_minSize.size = cch_minSize.size.expandedTo(ss - QSize(shspace, 0));
}
cch_minSize.size += QSize(2*margin(), 2*margin());
return cch_minSize.size;
}
void StaticTableLayout::setGeometry(const QRect &rect) {
QLayout::setGeometry(rect);
do_layout(rect);
}
QSize StaticTableLayout::sizeHint() const {
return minimumSize();
}
void StaticTableLayout::addItem(QLayoutItem *item __attribute__((unused))) {
// Just implement it but it does nothing
}
QLayoutItem *StaticTableLayout::itemAt(int index __attribute__((unused))) const {
return nullptr; // This is just dummy implementation to satisfy reimplementation
}
QLayoutItem *StaticTableLayout::takeAt(int index __attribute__((unused))) {
return nullptr; // This is just dummy implementation to satisfy reimplementation
}
int StaticTableLayout::count() const {
return items.size();
}
void StaticTableLayout::addRow(QList<QWidget*> w) {
items.append(list2vec(w));
}
void StaticTableLayout::insertRow(QList<QWidget*> w, int i) {
items.insert(i, list2vec(w));
}
void StaticTableLayout::removeRow(int i) {
for (int y = 0; y < items[i].size(); y++) {
delete items[i][y]->widget();
delete items[i][y];
}
items.remove(i);
}
void StaticTableLayout::clearRows() {
for (int i = 0; i < items.size(); i++)
for (int y = 0; y < items[i].size(); y++) {
delete items[i][y]->widget();
delete items[i][y];
}
items.clear();
}
void StaticTableLayout::itemRect(QRect &rect, QVector<int> &separators, int i) {
separators.clear();
int row = i / columns();
int col = i % columns();
int left, top, right, bottom;
getContentsMargins(&left, &top, &right, &bottom);
int x = left;
for (int s = 0; s < col; s++) {
for (int t = 0; t < row_widths[s].size(); t++)
x += row_widths[s][t] + shspace;
x += bhspace - shspace;
}
if (col > 0) // otherwise we are on left edge and there was no previous column so no big space
x -= bhspace/2;
int y = top + (row * (row_height + vspace));
int width = 0;
for (int t = 0; t < row_widths[col].size(); t++) {
width += row_widths[col][t] + shspace;
separators.append(width - shspace/2);
}
if (col <= 0)
width -= bhspace/2;
rect = QRect(x, y - vspace/2, width - shspace + bhspace, row_height + vspace);
separators.removeLast(); // drop last separator as that one we don't want to see
}
int StaticTableLayout::columns() {
return row_widths.size();
}
int StaticTableLayout::real_row_height() {
return row_height + vspace;
}
int StaticTableLayout::layout_count_approx(const QRect &rect) const {
if (items.size() <= 0)
return 1;
// Note: for some reason (probably optimalisation) when qlabel is not visible it reports 0 size. So we have to found at least one that is visible
int vis = 0;
while (items[vis].size() <= 0 || !items[vis][0]->widget()->isVisible()) {
vis++;
if (vis >= items.size())
return 1; // If non is visible then just say that it has to be single column
}
int w = 0;
for (int i = 0; i < items[vis].size(); i++)
w += items[vis][i]->sizeHint().width() + shspace;
w -= shspace; // subtract lastest spacing
int width = rect.right() / w; // Note: this always rounds down so this always founds maximal possible count
return width <= 0 ? 1 : width; // We have to fit at least one column
}
int StaticTableLayout::layout_size(int &row_h, QList<QList<int>> &row_w, int count) const {
row_h = 0;
row_w.clear();
int col = 0;
for (int i = 0; i < items.size(); i++) {
if (row_w.size() <= col)
row_w.append(QList<int>());
for (int y = 0; y < items[i].size(); y++) {
QSize s = items[i][y]->sizeHint();
row_h = qMax(row_h, s.height());
if (row_w[col].size() <= y)
row_w[col].append(0);
row_w[col][y] = qMax(row_w[col][y], s.width());
}
if (++col >= count)
col = 0;
}
SANITY_ASSERT(row_w.size() <= count, "We should end up with maximum of count columns");
int w = 0;
for (int i = 0; i < row_w.size(); i++) {
for (int y = 0; y < row_w[i].size(); y++)
w += row_w[i][y] + shspace;
w += bhspace - shspace; // subtract latest small spacing and add big spacing
}
w -= bhspace; // subtract latest big spacing
return w;
}
void StaticTableLayout::layout_parms(QRect &rect, int &row_h, QList<QList<int>> &row_w, int &count) const {
int left, top, right, bottom;
getContentsMargins(&left, &top, &right, &bottom);
rect = rect.adjusted(left, top, -right, -bottom);
// Firt let's do orientation count only on first line
count = layout_count_approx(rect);
while (layout_size(row_h, row_w, count) > rect.right() && count > 1) {
// Not using orientation count go down if we can't fit (if we can then just be happy with what we have)
count--;
}
}
void StaticTableLayout::do_layout(const QRect &rect) {
if (cch_do_layout.size == rect.size() && cch_do_layout.count == items.size())
// No effective change so don't do layout
return;
cch_do_layout.size = rect.size();
cch_do_layout.count = items.size();
int row_h;
QList<QList<int>> row_w;
int count;
QRect reff(rect);
layout_parms(reff, row_h, row_w, count);
int col = 0;
int x = reff.x(), y = reff.y();
for (int i = 0; i < items.size(); i++) {
for (int ii = 0; ii < items[i].size(); ii++) {
items[i][ii]->setGeometry(QRect(x, y, row_w[col][ii], row_h));
x += row_w[col][ii] + shspace;
}
x += bhspace - shspace;
if (++col >= count) {
col = 0;
x = reff.x();
y += row_h + vspace;
}
}
row_height = row_h;
row_widths = row_w;
}
int StaticTableLayout::layout_height(int width) const {
QRect reff(0, 0, width, 0);
int row_h;
QList<QList<int>> row_w;
int count;
layout_parms(reff, row_h, row_w, count);
return (row_h + vspace) * (items.size() / count);
}
QVector<QLayoutItem*> StaticTableLayout::list2vec(QList<QWidget*> w) {
QVector<QLayoutItem*> v;
for (int i = 0; i < w.size(); i++) {
addChildWidget(w[i]);
v.append(new QWidgetItem(w[i]));
}
return v;
}
StaticTable::StaticTable(QWidget *parent) : QWidget(parent), layout(this) {
setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Fixed);
}
int StaticTable::count() {
return layout.count();
}
void StaticTable::addRow(QList<QWidget*> w) {
layout.addRow(w);
}
void StaticTable::insertRow(QList<QWidget*> w, int i) {
layout.insertRow(w, i);
}
void StaticTable::removeRow(int i) {
layout.removeRow(i);
}
void StaticTable::clearRows() {
layout.clearRows();
}
int StaticTable::columns() {
return qMax(layout.columns(), 1);
}
int StaticTable::row_size() {
return layout.real_row_height();
}
void StaticTable::paintEvent(QPaintEvent*) {
if (layout.columns() <= 0) // Don't paint unless we have at least one column
return;
QPainter p(this);
p.setPen(QPen(QColor(200, 200, 200)));
QRect rect;
QVector<int> separators;
for (int i = 0; i < layout.count(); i++) {
int row = i / layout.columns();
int col = i % layout.columns();
if ((col % 2) == (row % 2))
p.setBrush(QBrush(QColor(255, 255, 255)));
else
p.setBrush(QBrush(QColor(235, 235, 235)));
layout.itemRect(rect, separators, i);
int x = rect.left(); // just to store x
if (col <= 0) // this is left most row
rect.setLeft(-2);
if (col >= (layout.columns() - 1))
rect.setRight(width());
if (row <= 0)
rect.setTop(-2);;
p.drawRect(rect);
for (int s = 0; s < separators.size(); s++) {
int sep_x = x + separators[s];
p.drawLine(sep_x, rect.top(), sep_x, rect.bottom());
}
}
}
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