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|
/****************************************************************************
**
** Implementation of TQt3CairoPaintDevice class
**
** Copyright (C) 2012 Timothy Pearson. All rights reserved.
**
** This file is part of the TDE Qt4 style interface
**
** This file may be used under the terms of the GNU General
** Public License versions 2.0 or 3.0 as published by the Free
** Software Foundation and appearing in the files LICENSE.GPL2
** and LICENSE.GPL3 included in the packaging of this file.
**
** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
** herein.
**
**********************************************************************/
#include "tqtcairopainter.h"
#define TQT_NO_COMPAT_NAMES
#include "tqpainter.h"
#include "tqpixmap.h"
#include "tqbitmap.h"
#include "tqimage.h"
#include "tqfile.h"
#include "tqpaintdevicemetrics.h"
#undef Qt
#define CAIRO_PIXEL_OFFSET (0.5)
#define CAIRO_FONT_SIZE_FUDGE_FACTOR (1.4)
#define SET_BIT(x, y) (x |= 1 << y)
#define TEST_BIT(x, y) ((x & (1 << y)) >> y)
cairo_surface_t* TQImageToCairoSurface(TQImage origimg) {
cairo_surface_t* ret;
TQImage img;
if (origimg.depth() < 24) {
img = origimg.convertDepth(32);
}
else {
img = origimg;
}
cairo_format_t cairo_format;
int depth = img.depth();
if (depth == 32) {
cairo_format = CAIRO_FORMAT_ARGB32;
}
else if (depth == 24) {
cairo_format = CAIRO_FORMAT_RGB24;
}
else {
cairo_format = CAIRO_FORMAT_RGB24;
}
int stride = cairo_format_stride_for_width(cairo_format, img.width());
ret = cairo_image_surface_create_for_data(img.bits(), cairo_format, img.width(), img.height(), stride);
return ret;
}
TQImage CairoSurfaceToTQImage(cairo_surface_t* surface) {
cairo_surface_flush(surface);
cairo_format_t cairo_format = cairo_image_surface_get_format(surface);
int height = cairo_image_surface_get_height(surface);
int width = cairo_image_surface_get_width(surface);
int depth;
if (cairo_format == CAIRO_FORMAT_ARGB32) {
depth = 32;
}
else if (cairo_format == CAIRO_FORMAT_RGB24) {
depth = 24;
}
else {
// FIXME
// Force Cairo to convert the surface to a format that TQImage can read!
printf("[WARNING] Tried to convert a Cairo surface of format %d to a TQImage (NULL image returned!)\n\r", cairo_format); fflush(stdout);
return TQImage();
}
return TQImage(cairo_image_surface_get_data(surface), width, height, depth, (TQRgb*)NULL, 0, TQImage::BigEndian);
}
void TQt3CairoPaintDevice::resetIntermediateSurface() {
if (m_intermediateSurface) {
cairo_surface_destroy(m_intermediateSurface);
}
int height = cairo_image_surface_get_height(m_surface);
int width = cairo_image_surface_get_width(m_surface);
m_intermediateSurface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, width, height);
}
void TQt3CairoPaintDevice::transferIntermediateSurface() {
cairo_surface_flush(m_intermediateSurface);
if (m_clipRegion.isNull()) {
// Clipping disabled
cairo_set_source_surface(m_devicePainter, m_intermediateSurface, 0, 0);
cairo_set_operator(m_devicePainter, CAIRO_OPERATOR_SOURCE);
cairo_paint(m_devicePainter);
}
else {
// Clipping enabled
cairo_surface_t* maskSurface = TQImageToCairoSurface(m_clipRegion);
cairo_mask_surface(m_devicePainter, maskSurface, 0, 0);
cairo_fill(m_devicePainter);
cairo_surface_destroy(maskSurface);
}
// Clear intermediate surface
cairo_save(m_painter);
cairo_set_source_rgba(m_painter, 0.0, 0.0, 0.0, 0.0);
cairo_paint(m_painter);
cairo_restore(m_painter);
}
void TQt3CairoPaintDevice::dualStrokePen() {
if (m_bgColorMode == TQt::OpaqueMode) {
// Draw background
cairo_save(m_painter);
updatePen(TRUE);
cairo_stroke(m_painter);
cairo_restore(m_painter);
}
// Draw foreground
updatePen(FALSE);
cairo_stroke(m_painter);
transferIntermediateSurface();
}
void TQt3CairoPaintDevice::dualStrokeBrush(cairo_fill_rule_t fillMethod) {
if (m_bgColorMode == TQt::OpaqueMode) {
// Draw background
cairo_save(m_painter);
updateBrush(TRUE, fillMethod);
cairo_fill(m_painter);
cairo_restore(m_painter);
}
// Draw foreground
updateBrush(FALSE, fillMethod);
cairo_fill(m_painter);
transferIntermediateSurface();
}
void TQt3CairoPaintDevice::updatePen(bool backgroundStroke) {
if (!m_painter) {
return;
}
int ps = m_pen.style();
double dashes[10]; // custom pen dashes
int dash_len = 0; // length of dash list
int dash_offset = 0;
cairo_line_cap_t cp = CAIRO_LINE_CAP_BUTT;
cairo_line_join_t jn = CAIRO_LINE_JOIN_MITER;
/*
We are emulating Windows here. Windows treats m_pen.width() == 1
(or 0) as a very special case. The fudge variable unifies this
case with the general case.
*/
int dot = m_pen.width(); // width of a dot
int fudge = 1;
//bool allow_zero_lw = TRUE;
bool allow_zero_lw = FALSE;
if ( dot <= 1 ) {
dot = 3;
fudge = 2;
}
switch( ps ) {
case TQPainter::NoPen:
case TQPainter::SolidLine:
break;
case TQPainter::DashLine:
dashes[0] = fudge * 3 * dot;
dashes[1] = fudge * dot;
dash_len = 2;
allow_zero_lw = FALSE;
break;
case TQPainter::DotLine:
dashes[0] = dot;
dashes[1] = dot;
dash_len = 2;
allow_zero_lw = FALSE;
break;
case TQPainter::DashDotLine:
dashes[0] = 3 * dot;
dashes[1] = fudge * dot;
dashes[2] = dot;
dashes[3] = fudge * dot;
dash_len = 4;
allow_zero_lw = FALSE;
break;
case TQPainter::DashDotDotLine:
dashes[0] = 3 * dot;
dashes[1] = dot;
dashes[2] = dot;
dashes[3] = dot;
dashes[4] = dot;
dashes[5] = dot;
dash_len = 6;
allow_zero_lw = FALSE;
break;
case TQPainter::FineDotLine:
dot = 1;
dashes[0] = dot;
dashes[1] = dot;
dash_len = 2;
allow_zero_lw = FALSE;
}
Q_ASSERT( dash_len <= (int) sizeof(dashes) );
switch ( m_pen.capStyle() ) {
case TQPainter::SquareCap:
cp = CAIRO_LINE_CAP_SQUARE;
break;
case TQPainter::RoundCap:
cp = CAIRO_LINE_CAP_ROUND;
break;
case TQPainter::FlatCap:
default:
cp = CAIRO_LINE_CAP_BUTT;
break;
}
switch ( m_pen.joinStyle() ) {
case TQPainter::BevelJoin:
jn = CAIRO_LINE_JOIN_BEVEL;
break;
case TQPainter::RoundJoin:
jn = CAIRO_LINE_JOIN_ROUND;
break;
case TQPainter::MiterJoin:
default:
jn = CAIRO_LINE_JOIN_MITER;
break;
}
if (backgroundStroke) {
dash_len = 0;
}
cairo_set_dash(m_painter, dashes, dash_len, dash_offset);
cairo_set_line_cap(m_painter, cp);
cairo_set_line_join(m_painter, jn);
cairo_set_line_width(m_painter, ((!allow_zero_lw) && (m_pen.width() == 0)) ? 1 : m_pen.width());
TQRgb color = (backgroundStroke)?m_bgColor.rgb():m_pen.color().rgb();
cairo_set_source_rgba(m_painter, tqRed(color)/255.0, tqGreen(color)/255.0, tqBlue(color)/255.0, tqAlpha(color)/255.0);
}
void TQt3CairoPaintDevice::updateBrush(bool backgroundStroke, cairo_fill_rule_t fillMethod) {
if (!m_painter) {
return;
}
if (backgroundStroke) {
TQRgb color = m_bgColor.rgb();
cairo_pattern_t* pattern = cairo_pattern_create_rgba(tqRed(color)/255.0, tqGreen(color)/255.0, tqBlue(color)/255.0, tqAlpha(color)/255.0);
cairo_set_source(m_painter, pattern);
cairo_pattern_set_extend(cairo_get_source(m_painter), CAIRO_EXTEND_REPEAT);
cairo_pattern_destroy(pattern);
}
else {
static const uchar dense1_pat[] = { 0xff, 0xbb, 0xff, 0xff, 0xff, 0xbb, 0xff, 0xff };
static const uchar dense2_pat[] = { 0x77, 0xff, 0xdd, 0xff, 0x77, 0xff, 0xdd, 0xff };
static const uchar dense3_pat[] = { 0x55, 0xbb, 0x55, 0xee, 0x55, 0xbb, 0x55, 0xee };
static const uchar dense4_pat[] = { 0x55, 0xaa, 0x55, 0xaa, 0x55, 0xaa, 0x55, 0xaa };
static const uchar dense5_pat[] = { 0xaa, 0x44, 0xaa, 0x11, 0xaa, 0x44, 0xaa, 0x11 };
static const uchar dense6_pat[] = { 0x88, 0x00, 0x22, 0x00, 0x88, 0x00, 0x22, 0x00 };
static const uchar dense7_pat[] = { 0x00, 0x44, 0x00, 0x00, 0x00, 0x44, 0x00, 0x00 };
static const uchar hor_pat[] = { // horizontal pattern
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
static const uchar ver_pat[] = { // vertical pattern
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20 };
static const uchar cross_pat[] = { // cross pattern
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0xff, 0xff, 0xff,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0xff, 0xff, 0xff, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0xff, 0xff, 0xff,
0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20,
0x08, 0x82, 0x20, 0xff, 0xff, 0xff, 0x08, 0x82, 0x20, 0x08, 0x82, 0x20 };
static const uchar bdiag_pat[] = { // backward diagonal pattern
0x20, 0x20, 0x10, 0x10, 0x08, 0x08, 0x04, 0x04, 0x02, 0x02, 0x01, 0x01,
0x80, 0x80, 0x40, 0x40, 0x20, 0x20, 0x10, 0x10, 0x08, 0x08, 0x04, 0x04,
0x02, 0x02, 0x01, 0x01, 0x80, 0x80, 0x40, 0x40 };
static const uchar fdiag_pat[] = { // forward diagonal pattern
0x02, 0x02, 0x04, 0x04, 0x08, 0x08, 0x10, 0x10, 0x20, 0x20, 0x40, 0x40,
0x80, 0x80, 0x01, 0x01, 0x02, 0x02, 0x04, 0x04, 0x08, 0x08, 0x10, 0x10,
0x20, 0x20, 0x40, 0x40, 0x80, 0x80, 0x01, 0x01 };
static const uchar dcross_pat[] = { // diagonal cross pattern
0x22, 0x22, 0x14, 0x14, 0x08, 0x08, 0x14, 0x14, 0x22, 0x22, 0x41, 0x41,
0x80, 0x80, 0x41, 0x41, 0x22, 0x22, 0x14, 0x14, 0x08, 0x08, 0x14, 0x14,
0x22, 0x22, 0x41, 0x41, 0x80, 0x80, 0x41, 0x41 };
static const uchar * const pat_tbl[] = {
dense1_pat, dense2_pat, dense3_pat, dense4_pat, dense5_pat,
dense6_pat, dense7_pat,
hor_pat, ver_pat, cross_pat, bdiag_pat, fdiag_pat, dcross_pat };
int bs = m_brush.style();
const uchar *pat = 0; // pattern
int d = 0; // defalt pattern size: d*d
if ( bs >= TQBrush::Dense1Pattern && bs <= TQBrush::DiagCrossPattern ) {
pat = pat_tbl[ bs-TQBrush::Dense1Pattern ];
if ( bs <= TQBrush::Dense7Pattern ) {
d = 8;
}
else if ( bs <= TQBrush::CrossPattern ) {
d = 24;
}
else {
d = 16;
}
}
if ( (bs == TQBrush::CustomPattern) || pat ) {
TQImage brushImage;
if ( pat ) {
TQRgb color = m_brush.color().rgb();
brushImage = TQImage(d, d, 32);
int x;
int y;
int byte = 0;
int bit = 7;
for (x=0; x<d; x++) {
for (y=0; y<d; y++) {
brushImage.setPixel(y, x, (TEST_BIT(pat[byte], bit))?color:0x00000000);
bit--;
if (bit < 0) {
bit = 7;
byte++;
}
}
}
}
else {
TQPixmap *pm;
pm = m_brush.pixmap();
brushImage = pm->convertToImage();
}
cairo_surface_t* brushSurface = TQImageToCairoSurface(brushImage);
cairo_pattern_t* pattern = cairo_pattern_create_for_surface(brushSurface);
cairo_matrix_t brush_translation_matrix;
cairo_matrix_init_translate(&brush_translation_matrix, m_brushOrigin.x(), m_brushOrigin.y());
cairo_pattern_set_matrix(pattern, &brush_translation_matrix);
cairo_set_source(m_painter, pattern);
cairo_pattern_set_extend(cairo_get_source(m_painter), CAIRO_EXTEND_REPEAT);
cairo_pattern_destroy(pattern);
cairo_surface_destroy(brushSurface);
}
else {
TQRgb color = m_brush.color().rgb();
cairo_pattern_t* pattern = cairo_pattern_create_rgba(tqRed(color)/255.0, tqGreen(color)/255.0, tqBlue(color)/255.0, tqAlpha(color)/255.0);
cairo_set_source(m_painter, pattern);
cairo_pattern_set_extend(cairo_get_source(m_painter), CAIRO_EXTEND_REPEAT);
cairo_pattern_destroy(pattern);
}
}
cairo_set_fill_rule(m_painter, fillMethod);
}
static inline void fix_neg_rect( int *x, int *y, int *w, int *h ) {
if ( *w < 0 ) {
*w = -*w + 2;
*x -= *w - 1;
}
if ( *h < 0 ) {
*h = -*h + 2;
*y -= *h - 1;
}
}
void TQt3CairoPaintDevice::drawPolygon(const TQPointArray* pointarray, bool winding, bool fill, bool close) {
int i;
if (m_painter) {
cairo_save(m_painter);
if (pointarray) {
int x;
int y;
bool first;
if ((m_brush.style() != TQBrush::NoBrush) && fill) {
first = true;
for (i=0;i<pointarray->count();i++) {
pointarray->point(i, &x, &y);
if (first) {
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
first = false;
}
else {
cairo_line_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
}
}
if (close) {
cairo_close_path(m_painter);
}
dualStrokeBrush((winding)?CAIRO_FILL_RULE_EVEN_ODD:CAIRO_FILL_RULE_WINDING);
}
if (m_pen.style() != TQPen::NoPen) {
first = true;
for (i=0;i<pointarray->count();i++) {
pointarray->point(i, &x, &y);
if (first) {
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
first = false;
}
else {
cairo_line_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
}
}
if (close) {
cairo_close_path(m_painter);
}
dualStrokePen();
}
}
cairo_restore(m_painter);
}
}
void TQt3CairoPaintDevice::drawRoundRect(int x, int y, int w, int h, int xRnd, int yRnd) {
if (!m_painter) {
return;
}
if ( xRnd <= 0 || yRnd <= 0 ) {
// Draw normal rectangle
TQPDevCmdParam param[2];
int command = PdcDrawRect;
TQRect rectangle(x, y, w, h);
param[0].rect = &rectangle;
cmd(command, NULL, param);
return;
}
if ( xRnd >= 100 ) { // fix ranges
xRnd = 99;
}
if ( yRnd >= 100 ) {
yRnd = 99;
}
if ( w <= 0 || h <= 0 ) {
fix_neg_rect( &x, &y, &w, &h );
}
w--;
h--;
int rxx = w*xRnd/200;
int ryy = h*yRnd/200;
// were there overflows?
if ( rxx < 0 ) {
rxx = w/200*xRnd;
}
if ( ryy < 0 ) {
ryy = h/200*yRnd;
}
int rxx2 = 2*rxx;
int ryy2 = 2*ryy;
TQPointArray a[4];
a[0].makeArc( x, y, rxx2, ryy2, 1*16*90, 16*90 );
a[1].makeArc( x, y+h-ryy2, rxx2, ryy2, 2*16*90, 16*90 );
a[2].makeArc( x+w-rxx2, y+h-ryy2, rxx2, ryy2, 3*16*90, 16*90 );
a[3].makeArc( x+w-rxx2, y, rxx2, ryy2, 0*16*90, 16*90 );
// ### is there a better way to join TQPointArrays?
TQPointArray aa;
aa.resize( a[0].size() + a[1].size() + a[2].size() + a[3].size() );
uint j = 0;
for ( int k=0; k<4; k++ ) {
for ( uint i=0; i<a[k].size(); i++ ) {
aa.setPoint( j, a[k].point(i) );
j++;
}
}
// Draw polygon
drawPolygon(&aa, false, true, true);
return;
}
void TQt3CairoPaintDevice::drawEllipse(int x, int y, int w, int h) {
if (!m_painter) {
return;
}
TQPointArray a;
a.makeArc(x, y, w, h, 0, 360*16);
// Draw polygon
drawPolygon(&a, false, true, true);
return;
}
void TQt3CairoPaintDevice::drawArc(int x, int y, int w, int h, int a, int alen) {
if (!m_painter) {
return;
}
TQPointArray pa;
pa.makeArc(x, y, w, h, a, alen); // arc polyline
// Draw polygon
drawPolygon(&pa, false, false, false);
return;
}
void TQt3CairoPaintDevice::drawPie(int x, int y, int w, int h, int a, int alen) {
if (!m_painter) {
return;
}
// Make sure "a" is 0..360*16, as otherwise a*4 may overflow 16 bits.
if ( a > (360*16) ) {
a = a % (360*16);
}
else if ( a < 0 ) {
a = a % (360*16);
if ( a < 0 ) {
a += (360*16);
}
}
TQPointArray pa;
pa.makeArc(x, y, w, h, a, alen); // arc polyline
int n = pa.size();
int cx, cy;
cx = x+w/2;
cy = y+h/2;
pa.resize(n+2);
pa.setPoint(n, cx, cy); // add legs
pa.setPoint(n+1, pa.at(0));
// Draw polygon
drawPolygon(&pa, false, true, true);
return;
}
void TQt3CairoPaintDevice::drawChord(int x, int y, int w, int h, int a, int alen) {
if (!m_painter) {
return;
}
TQPointArray pa;
pa.makeArc(x, y, w-1, h-1, a, alen); // arc polygon
int n = pa.size();
pa.resize(n+1);
pa.setPoint(n, pa.at(0)); // connect endpoints
// Draw polygon
drawPolygon(&pa, false, true, true);
return;
}
void TQt3CairoPaintDevice::pangoSetupTextPath(PangoLayout *layout, const char* text) {
PangoFontDescription *desc;
pango_layout_set_text(layout, text, -1);
desc = pango_font_description_new();
// FIXME
// overline and a handful of other flags are not supported by Pango!
TQString family = m_font.family();
// bool bold = m_font.bold();
bool italic = m_font.italic();
bool underline = m_font.underline();
// bool overline = m_font.overline();
bool strikeout = m_font.strikeOut();
// bool fixedPitch = m_font.fixedPitch();
int stretch = m_font.stretch();
int weight = m_font.weight();
int pixelSize = m_font.pixelSize();
bool usePixelSize = (pixelSize>=0);
float pointSizeFloat = m_font.pointSizeFloat();
bool usePointSize = (pointSizeFloat>=0);
TQFont::StyleStrategy qt3fontstrategy = m_font.styleStrategy();
PangoWeight pangoWeight;
switch (weight) {
case TQFont::Light:
pangoWeight = PANGO_WEIGHT_LIGHT;
break;
case TQFont::Normal:
pangoWeight = PANGO_WEIGHT_NORMAL;
break;
case TQFont::DemiBold:
pangoWeight = PANGO_WEIGHT_SEMIBOLD;
break;
case TQFont::Bold:
pangoWeight = PANGO_WEIGHT_BOLD;
break;
case TQFont::Black:
pangoWeight = PANGO_WEIGHT_HEAVY;
break;
}
PangoStretch pangoStretch;
switch (stretch) {
case TQFont::UltraCondensed:
pangoStretch = PANGO_STRETCH_ULTRA_CONDENSED;
break;
case TQFont::ExtraCondensed:
pangoStretch = PANGO_STRETCH_EXTRA_CONDENSED;
break;
case TQFont::Condensed:
pangoStretch = PANGO_STRETCH_CONDENSED;
break;
case TQFont::SemiCondensed:
pangoStretch = PANGO_STRETCH_SEMI_CONDENSED;
break;
case TQFont::Unstretched:
pangoStretch = PANGO_STRETCH_NORMAL;
break;
case TQFont::SemiExpanded:
pangoStretch = PANGO_STRETCH_SEMI_EXPANDED;
break;
case TQFont::Expanded:
pangoStretch = PANGO_STRETCH_EXPANDED;
break;
case TQFont::ExtraExpanded:
pangoStretch = PANGO_STRETCH_EXTRA_EXPANDED;
break;
case TQFont::UltraExpanded:
pangoStretch = PANGO_STRETCH_ULTRA_EXPANDED;
break;
}
pango_font_description_set_family(desc, family.ascii());
if (usePixelSize) {
pango_font_description_set_absolute_size(desc, pixelSize*PANGO_SCALE);
}
if (usePointSize) {
pango_font_description_set_absolute_size(desc, pointSizeFloat*PANGO_SCALE*CAIRO_FONT_SIZE_FUDGE_FACTOR);
}
pango_font_description_set_style(desc, (italic)?PANGO_STYLE_ITALIC:PANGO_STYLE_NORMAL);
pango_font_description_set_weight(desc, pangoWeight);
pango_font_description_set_stretch(desc, pangoStretch);
#if 0
if (qt3fontstrategy & TQFont::PreferDefault) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::PreferBitmap) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::PreferDevice) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::PreferMatch) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::PreferQuality) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::PreferAntialias) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::NoAntialias) // FIXME Set Cairo/Pango to follow this hint
if (qt3fontstrategy & TQFont::OpenGLCompatible) // FIXME Set Cairo/Pango to follow this hint
#endif
pango_layout_set_font_description(layout, desc);
PangoAttrList* attr_list = pango_attr_list_new();
pango_attr_list_insert(attr_list, pango_attr_underline_new((underline)?PANGO_UNDERLINE_SINGLE:PANGO_UNDERLINE_NONE));
pango_attr_list_insert(attr_list, pango_attr_strikethrough_new(strikeout));
pango_layout_set_attributes(layout, attr_list);
pango_attr_list_unref(attr_list);
pango_font_description_free(desc);
}
void TQt3CairoPaintDevice::drawText(TQPainter *p, int x, int y, const TQString &str, int pos, int len, TQPainter::TextDirection dir, bool baseline) {
if ((!m_painter) || (!p)) {
return;
}
PangoLayout *layout;
layout = pango_cairo_create_layout(m_painter);
TQFont::StyleStrategy qt3fontstrategy = m_font.styleStrategy();
pangoSetupTextPath(layout, str.utf8());
int baseline_y = pango_layout_get_baseline(layout)/PANGO_SCALE;
cairo_new_path(m_painter);
cairo_move_to(m_painter, x, (baseline)?y-baseline_y:y);
updatePen(FALSE);
pango_cairo_update_layout(m_painter, layout);
pango_cairo_layout_path(m_painter, layout);
if ((qt3fontstrategy & TQFont::PreferOutline) || (qt3fontstrategy & TQFont::ForceOutline)) {
cairo_stroke_preserve(m_painter);
}
else {
cairo_fill(m_painter);
}
g_object_unref(layout);
transferIntermediateSurface();
}
void TQt3CairoPaintDevice::setCairoTransformations() {
cairo_matrix_t combinedMatrix;
cairo_matrix_t tempMatrix;
cairo_matrix_init_identity(&combinedMatrix);
if (m_worldMatrixEnabled) {
cairo_matrix_multiply(&tempMatrix, &combinedMatrix, &m_worldMatrix);
combinedMatrix = tempMatrix;
}
if (m_viewportMatrixEnabled) {
cairo_matrix_multiply(&tempMatrix, &combinedMatrix, &m_viewportMatrix);
combinedMatrix = tempMatrix;
}
cairo_set_matrix(m_painter, &combinedMatrix);
}
/*!
\class TQt3CairoPaintDevice tdeqt4painter.h
\brief The TQt3CairoPaintDevice class is a paint device that translates
Qt paint events to a TQt painter.
\ingroup graphics
\ingroup shared
*/
/*!
Constructs TQt3CairoPaintDevice on an existing QPainter
*/
TQt3CairoPaintDevice::TQt3CairoPaintDevice( cairo_surface_t *cairosurface )
: TQPaintDevice( TQInternal::Picture | TQInternal::ExternalDevice ), m_intermediateSurface(NULL), m_painter(NULL), m_devicePainter(NULL)
{
m_surface = cairosurface;
}
/*!
Destroys the TQt3CairoPaintDevice.
*/
TQt3CairoPaintDevice::~TQt3CairoPaintDevice()
{
if (m_painter) {
cairo_destroy(m_painter);
m_painter = NULL;
}
if (m_devicePainter) {
cairo_destroy(m_devicePainter);
m_devicePainter = NULL;
}
if (m_intermediateSurface) {
cairo_surface_destroy(m_intermediateSurface);
}
}
/*!
\internal
Implementation of the function forwarded above to the internal data struct.
*/
bool TQt3CairoPaintDevice::cmd( int c, TQPainter *pt, TQPDevCmdParam *p )
{
unsigned int i;
double x;
double y;
double x2;
double y2;
double width;
double height;
int index;
int count;
int lineCount;
// Convert data types
if (p) {
if ((c == PdcDrawPoint) || (c == PdcMoveTo) || (c == PdcLineTo) || (c == PdcSetBrushOrigin)) {
x = p[0].point->x();
y = p[0].point->y();
}
if (c == PdcDrawLine) {
x = p[0].point->x();
y = p[0].point->y();
x2 = p[1].point->x();
y2 = p[1].point->y();
}
if ((c == PdcDrawRect) || (c == PdcDrawRoundRect) || (c == PdcDrawEllipse) || (c == PdcDrawArc) || (c == PdcDrawPie) || (c == PdcDrawChord)) {
x = p[0].rect->x();
y = p[0].rect->y();
width = p[0].rect->width();
height = p[0].rect->height();
}
}
// Perform drawing operation
switch ( c ) { // exec cmd
case PdcNOP:
break;
case PdcDrawPoint:
if (m_painter) {
cairo_save(m_painter);
if (m_pen.style() != TQPen::NoPen) {
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
cairo_line_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
updatePen(FALSE);
cairo_set_line_cap(m_painter, CAIRO_LINE_CAP_ROUND);
cairo_stroke(m_painter);
}
cairo_restore(m_painter);
transferIntermediateSurface();
}
break;
case PdcMoveTo:
if (m_painter) {
cairo_save(m_painter);
if (m_pen.style() != TQPen::NoPen) {
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
}
cairo_restore(m_painter);
}
break;
case PdcLineTo:
if (m_painter) {
cairo_save(m_painter);
if (m_pen.style() != TQPen::NoPen) {
cairo_line_to(m_painter, x2+CAIRO_PIXEL_OFFSET, y2+CAIRO_PIXEL_OFFSET);
dualStrokePen();
}
cairo_restore(m_painter);
}
break;
case PdcDrawLine:
if (m_painter) {
cairo_save(m_painter);
if (m_pen.style() != TQPen::NoPen) {
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
cairo_line_to(m_painter, x2+CAIRO_PIXEL_OFFSET, y2+CAIRO_PIXEL_OFFSET);
dualStrokePen();
}
cairo_restore(m_painter);
}
break;
case PdcDrawRect:
if (m_painter) {
cairo_save(m_painter);
if (m_pen.style() != TQPen::NoPen) {
cairo_rectangle(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET, width, height);
dualStrokePen();
}
if (m_brush.style() != TQBrush::NoBrush) {
int line_width = m_pen.width();
cairo_rectangle(m_painter, x+line_width+CAIRO_PIXEL_OFFSET, y+line_width+CAIRO_PIXEL_OFFSET, width-(line_width*2), height-(line_width*2));
dualStrokeBrush(CAIRO_FILL_RULE_EVEN_ODD);
}
cairo_restore(m_painter);
}
else {
#if defined(QT_CHECK_RANGE)
tqWarning( "TQt3CairoPaintDevice::cmd: TQPainter::begin must be called before PdcDrawRect" );
#endif
}
break;
case PdcDrawRoundRect:
if (m_painter) {
cairo_save(m_painter);
if (p) {
drawRoundRect(x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET, width, height, p[1].ival, p[2].ival);
}
cairo_restore(m_painter);
}
break;
case PdcDrawEllipse:
if (m_painter) {
cairo_save(m_painter);
if (p) {
drawEllipse(x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET, width, height);
}
cairo_restore(m_painter);
}
break;
case PdcDrawArc:
if (m_painter) {
cairo_save(m_painter);
if (p) {
drawArc(x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET, width, height, p[1].ival, p[2].ival);
}
cairo_restore(m_painter);
}
break;
case PdcDrawPie:
if (m_painter) {
cairo_save(m_painter);
if (p) {
drawPie(x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET, width, height, p[1].ival, p[2].ival);
}
cairo_restore(m_painter);
}
break;
case PdcDrawChord:
if (m_painter) {
cairo_save(m_painter);
if (p) {
drawChord(x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET, width, height, p[1].ival, p[2].ival);
}
cairo_restore(m_painter);
}
break;
case PdcDrawLineSegments:
if (m_painter) {
cairo_save(m_painter);
if (p) {
int x;
int y;
int x2;
int y2;
const TQPointArray* pointarray = p[0].ptarr;
if (pointarray) {
if (m_pen.style() != TQPen::NoPen) {
for (i=0;i<pointarray->count();i=i+2) {
pointarray->point(i+0, &x, &y);
pointarray->point(i+1, &x2, &y2);
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
cairo_line_to(m_painter, x2+CAIRO_PIXEL_OFFSET, y2+CAIRO_PIXEL_OFFSET);
dualStrokePen();
}
}
}
}
cairo_restore(m_painter);
}
break;
case PdcDrawPolyline:
if (p) {
drawPolygon(p[0].ptarr, false, false, true);
}
break;
case PdcDrawPolygon:
if (p) {
drawPolygon(p[0].ptarr, p[1].ival, true, true);
}
break;
case PdcDrawCubicBezier:
if (m_painter) {
cairo_save(m_painter);
if (p) {
int x;
int y;
int x2;
int y2;
int x3;
int y3;
int x4;
int y4;
const TQPointArray* pointarray = p[0].ptarr;
if (pointarray) {
if (m_pen.style() != TQPen::NoPen) {
for (i=0;i<pointarray->count();i=i+4) {
pointarray->point(i+0, &x, &y);
pointarray->point(i+1, &x2, &y2);
pointarray->point(i+2, &x3, &y3);
pointarray->point(i+3, &x4, &y4);
cairo_move_to(m_painter, x+CAIRO_PIXEL_OFFSET, y+CAIRO_PIXEL_OFFSET);
cairo_curve_to(m_painter, x2+CAIRO_PIXEL_OFFSET, y2+CAIRO_PIXEL_OFFSET, x3+CAIRO_PIXEL_OFFSET, y3+CAIRO_PIXEL_OFFSET, x4+CAIRO_PIXEL_OFFSET, y4+CAIRO_PIXEL_OFFSET);
dualStrokePen();
}
}
}
}
cairo_restore(m_painter);
}
break;
case PdcDrawText:
if (m_painter) {
cairo_save(m_painter);
if (p) {
TQString string = *p[1].str;
drawText(pt, p[0].rect->x()+CAIRO_PIXEL_OFFSET, p[0].rect->y()+CAIRO_PIXEL_OFFSET, string, 0, -1, TQPainter::Auto, TRUE);
}
cairo_restore(m_painter);
}
break;
#if 0
case PdcDrawTextFormatted:
// NOTE
// Unlike PdcDrawText and PdcDrawText2, PdcDrawTextFormatted and PdcDrawText2Formatted do NOT use the baseline as the Y position coordinate!
m_qt4painter->drawText( qt4rect, qt4formattedtextflags, qt4string );
break;
#endif
case PdcDrawText2:
if (m_painter) {
cairo_save(m_painter);
if (p) {
TQString string = *p[1].str;
drawText(pt, p[0].rect->x()+CAIRO_PIXEL_OFFSET, p[0].rect->y()+CAIRO_PIXEL_OFFSET, string, 0, -1, TQPainter::Auto, TRUE);
}
cairo_restore(m_painter);
}
break;
#if 0
case PdcDrawText2Formatted:
m_qt4painter->drawText( qt4rect, qt4formattedtextflags, qt4string );
break;
#endif
case PdcDrawPixmap:
if (m_painter) {
cairo_save(m_painter);
if (p) {
TQImage sourceImage = p[1].pixmap->convertToImage();
cairo_surface_t* sourceSurface = TQImageToCairoSurface(sourceImage);
cairo_rectangle(m_painter, p[0].rect->x(), p[0].rect->y(), p[0].rect->width(), p[0].rect->height());
cairo_set_source_surface(m_painter, sourceSurface, p[0].rect->x(), p[0].rect->y());
cairo_fill(m_painter);
cairo_surface_destroy(sourceSurface);
}
cairo_restore(m_painter);
transferIntermediateSurface();
}
break;
#if 0
case PdcDrawImage: {
TQImage image;
if ( d->formatMajor < 4 ) {
s >> p >> image;
painter->drawImage( p, image );
} else {
s >> r >> image;
painter->drawImage( r, image );
}
}
break;
#endif
case PdcBegin:
if (!m_painter) {
m_bgColor = TQColor(0,0,0);
m_bgColorMode = TQt::TransparentMode;
resetIntermediateSurface();
m_painter = cairo_create(m_intermediateSurface);
m_devicePainter = cairo_create(m_surface);
m_pen = TQPen();
m_brush = TQBrush();
m_brushOrigin = TQPoint(0,0);
m_worldMatrixEnabled = false;
m_viewportMatrixEnabled = false;
cairo_matrix_init_identity(&m_worldMatrix);
cairo_matrix_init_identity(&m_viewportMatrix);
setCairoTransformations();
m_clipRegion = TQImage();
}
break;
case PdcEnd:
if (m_painter) {
cairo_destroy(m_painter);
m_painter = NULL;
}
if (m_devicePainter) {
cairo_destroy(m_devicePainter);
m_devicePainter = NULL;
}
break;
case PdcSave:
cairo_save(m_painter);
break;
case PdcRestore:
cairo_restore(m_painter);
break;
case PdcSetBkColor:
if (p) {
const TQColor* color = p[0].color;
if (color) {
m_bgColor = *color;
}
}
break;
case PdcSetBkMode:
if (p) {
m_bgColorMode = (TQt::BGMode)p[0].ival;
}
break;
case PdcSetROP:
if ((p) && (m_painter)) {
cairo_operator_t cairoCompositionMode = CAIRO_OPERATOR_OVER;
TQt::RasterOp rop = (TQt::RasterOp)p[0].ival;
switch (rop) {
case TQPainter::CopyROP:
cairoCompositionMode=CAIRO_OPERATOR_OVER;
break;
case TQPainter::OrROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::XorROP:
// While this is not a 'real' XOR, if the source color is white (1.0) it should work well enough (i.e. reverse itself on a second application)...
cairoCompositionMode=CAIRO_OPERATOR_DIFFERENCE;
break;
case TQPainter::NotAndROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NotCopyROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NotOrROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NotXorROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::AndROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NotROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::ClearROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::SetROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NopROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::AndNotROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::OrNotROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NandROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
case TQPainter::NorROP:
tqWarning("TDEQt4PaintDevice::cmd: Unhandled raster operation [Was attempting to use raster operation %d\n\r", rop);
break;
default:
cairoCompositionMode=CAIRO_OPERATOR_OVER;
#if defined(QT_CHECK_RANGE)
tqWarning( "TDEQt4PaintDevice::cmd: Unhandled raster operation %d", rop );
#endif
}
cairo_set_operator(m_painter, cairoCompositionMode);
}
break;
case PdcSetBrushOrigin:
if (p) {
const TQPoint* point = p[0].point;
if (point) {
m_brushOrigin = *point;
}
}
break;
case PdcSetFont:
if (p) {
const TQFont* font = p[0].font;
if (font) {
m_font = *font;
}
}
break;
case PdcSetPen:
if (p) {
const TQPen* pen = p[0].pen;
if (pen) {
m_pen = *pen;
}
}
break;
case PdcSetBrush:
if (p) {
const TQBrush* brush = p[0].brush;
if (brush) {
m_brush = *brush;
}
}
break;
#if 0
case PdcSetTabStops:
s >> i_16;
painter->setTabStops( i_16 );
break;
case PdcSetTabArray:
s >> i_16;
if ( i_16 == 0 ) {
painter->setTabArray( 0 );
} else {
int *ta = new int[i_16];
TQ_CHECK_PTR( ta );
for ( int i=0; i<i_16; i++ ) {
s >> i1_16;
ta[i] = i1_16;
}
painter->setTabArray( ta );
delete [] ta;
}
break;
#endif
case PdcSetVXform:
if ((p) && (m_painter)) {
m_viewportMatrixEnabled = p[0].ival;
setCairoTransformations();
}
break;
case PdcSetWindow:
if ((p) && (m_painter) && (pt)) {
TQRect viewportRect = pt->viewport();
int wx = p[0].rect->x();
int wy = p[0].rect->y();
int ww = p[0].rect->width();
int wh = p[0].rect->height();
int vx = viewportRect.x();
int vy = viewportRect.y();
int vw = viewportRect.width();
int vh = viewportRect.height();
double scaleW = (double)vw/(double)ww;
double scaleH = (double)vh/(double)wh;
cairo_matrix_init(&m_viewportMatrix, scaleW, 0, 0, scaleH, vx - wx*scaleW, vy - wy*scaleH);
setCairoTransformations();
}
break;
case PdcSetViewport:
if ((p) && (m_painter) && (pt)) {
TQRect windowRect = pt->window();
int wx = windowRect.x();
int wy = windowRect.y();
int ww = windowRect.width();
int wh = windowRect.height();
int vx = p[0].rect->x();
int vy = p[0].rect->y();
int vw = p[0].rect->width();
int vh = p[0].rect->height();
double scaleW = (double)vw/(double)ww;
double scaleH = (double)vh/(double)wh;
cairo_matrix_init(&m_viewportMatrix, scaleW, 0, 0, scaleH, vx - wx*scaleW, vy - wy*scaleH);
setCairoTransformations();
}
break;
case PdcSetWXform:
if ((p) && (m_painter)) {
m_worldMatrixEnabled = p[0].ival;
setCairoTransformations();
}
break;
case PdcSetWMatrix:
if ((p) && (m_painter)) {
const TQWMatrix* tqt3matrix = p[0].matrix;
if (tqt3matrix) {
if (p[1].ival) {
// Combine
cairo_matrix_t new_matrix;
cairo_matrix_t original_matrix = m_worldMatrix;
cairo_matrix_init(&new_matrix, tqt3matrix->m11(), tqt3matrix->m12(), tqt3matrix->m21(), tqt3matrix->m22(), tqt3matrix->dx(), tqt3matrix->dy());
cairo_matrix_multiply(&m_worldMatrix, &original_matrix, &new_matrix);
}
else {
// Replace
cairo_matrix_init(&m_worldMatrix, tqt3matrix->m11(), tqt3matrix->m12(), tqt3matrix->m21(), tqt3matrix->m22(), tqt3matrix->dx(), tqt3matrix->dy());
}
setCairoTransformations();
}
}
break;
#if 0
#if 0
#ifndef QT_NO_TRANSFORMATIONS
case PdcSaveWMatrix:
painter->saveWorldMatrix();
break;
case PdcRestoreWMatrix:
painter->restoreWorldMatrix();
break;
#endif
#endif
case PdcSetClip:
m_qt4painter->setClipping( p[0].ival );
break;
#endif
case PdcSetClipRegion:
if ((p) && (m_painter)) {
// SLOW
TQRect tqt3br = p[0].rgn->boundingRect();
if (!tqt3br.isNull()) {
m_clipRegion = TQImage(tqt3br.x()+tqt3br.width(), tqt3br.y()+tqt3br.height(), 32);
int x;
int y;
for (x=0; x<m_clipRegion.width(); x++) {
for (y=0; y<m_clipRegion.height(); y++) {
TQPoint point(x,y);
m_clipRegion.setPixel(x, y, (p[0].rgn->contains(point))?0xffffffff:0x00000000);
}
}
}
else {
m_clipRegion = TQImage();
}
}
break;
default:
#if defined(QT_CHECK_RANGE)
tqWarning( "TQt3CairoPaintDevice::cmd: Invalid command %d", c );
#endif
}
return TRUE;
}
/*!
Internal implementation of the virtual TQPaintDevice::metric()
function.
Use the TQPaintDeviceMetrics class instead.
A picture has the following hard-coded values: dpi=72,
numcolors=16777216 and depth=24.
\a m is the metric to get.
*/
int TQt3CairoPaintDevice::metric( int m ) const
{
int val;
if (m_surface) {
double x_pixels_per_inch;
double y_pixels_per_inch;
cairo_format_t format;
switch ( m ) {
// ### hard coded dpi and color depth values !
case TQPaintDeviceMetrics::PdmWidth:
val = cairo_image_surface_get_width(m_surface);
break;
case TQPaintDeviceMetrics::PdmHeight:
val = cairo_image_surface_get_height(m_surface);
break;
case TQPaintDeviceMetrics::PdmWidthMM:
cairo_surface_get_fallback_resolution(m_surface, &x_pixels_per_inch, &y_pixels_per_inch);
val = ((cairo_image_surface_get_width(m_surface)/x_pixels_per_inch)*25.4);
break;
case TQPaintDeviceMetrics::PdmHeightMM:
cairo_surface_get_fallback_resolution(m_surface, &x_pixels_per_inch, &y_pixels_per_inch);
val = ((cairo_image_surface_get_height(m_surface)/y_pixels_per_inch)*25.4);
break;
case TQPaintDeviceMetrics::PdmDpiX:
cairo_surface_get_fallback_resolution(m_surface, &x_pixels_per_inch, &y_pixels_per_inch);
val = x_pixels_per_inch;
break;
case TQPaintDeviceMetrics::PdmPhysicalDpiX:
cairo_surface_get_fallback_resolution(m_surface, &x_pixels_per_inch, &y_pixels_per_inch);
val = x_pixels_per_inch;
break;
case TQPaintDeviceMetrics::PdmDpiY:
cairo_surface_get_fallback_resolution(m_surface, &x_pixels_per_inch, &y_pixels_per_inch);
val = y_pixels_per_inch;
break;
case TQPaintDeviceMetrics::PdmPhysicalDpiY:
cairo_surface_get_fallback_resolution(m_surface, &x_pixels_per_inch, &y_pixels_per_inch);
val = y_pixels_per_inch;
break;
case TQPaintDeviceMetrics::PdmNumColors:
format = cairo_image_surface_get_format(m_surface);
if (format == CAIRO_FORMAT_ARGB32) {
val = INT_MAX;
}
else if (format == CAIRO_FORMAT_RGB24) {
val = 16777216;
}
else if (format == CAIRO_FORMAT_RGB16_565) {
val = 65536;
}
else {
val = 65536;
}
break;
case TQPaintDeviceMetrics::PdmDepth:
format = cairo_image_surface_get_format(m_surface);
if (format == CAIRO_FORMAT_ARGB32) {
val = 32;
}
else if (format == CAIRO_FORMAT_RGB24) {
val = 24;
}
else if (format == CAIRO_FORMAT_RGB16_565) {
val = 16;
}
else {
val = 16;
}
break;
default:
val = 0;
#if defined(QT_CHECK_RANGE)
tqWarning( "TQt3CairoPaintDevice::metric: Invalid metric command" );
#endif
}
}
else {
val = 0;
#if defined(QT_CHECK_RANGE)
tqWarning( "TQt3CairoPaintDevice::metric: No Cairo surface available" );
#endif
}
return val;
}
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