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notepad-plus-plus/scintilla/gtk/PlatGTK.cxx

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65 KiB

// Scintilla source code edit control
// PlatGTK.cxx - implementation of platform facilities on GTK+/Linux
// Copyright 1998-2004 by Neil Hodgson <neilh@scintilla.org>
// The License.txt file describes the conditions under which this software may be distributed.
#include <cstddef>
#include <cstdlib>
#include <cstring>
#include <cstdio>
#include <cmath>
#include <string>
#include <string_view>
#include <vector>
#include <map>
#include <memory>
#include <sstream>
#include <glib.h>
#include <gmodule.h>
#include <gdk/gdk.h>
#include <gtk/gtk.h>
#include <gdk/gdkkeysyms.h>
#include "Platform.h"
#include "Scintilla.h"
#include "ScintillaWidget.h"
#include "StringCopy.h"
#include "XPM.h"
#include "UniConversion.h"
#include "Converter.h"
static const double kPi = 3.14159265358979323846;
// The Pango version guard for pango_units_from_double and pango_units_to_double
// is more complex than simply implementing these here.
static int pangoUnitsFromDouble(double d) {
return static_cast<int>(d * PANGO_SCALE + 0.5);
}
static double doubleFromPangoUnits(int pu) {
return static_cast<double>(pu) / PANGO_SCALE;
}
static cairo_surface_t *CreateSimilarSurface(GdkWindow *window, cairo_content_t content, int width, int height) {
return gdk_window_create_similar_surface(window, content, width, height);
}
static GdkWindow *WindowFromWidget(GtkWidget *w) {
return gtk_widget_get_window(w);
}
#ifdef _MSC_VER
// Ignore unreferenced local functions in GTK+ headers
#pragma warning(disable: 4505)
#endif
using namespace Scintilla;
enum encodingType { singleByte, UTF8, dbcs};
// Holds a PangoFontDescription*.
class FontHandle {
public:
PangoFontDescription *pfd;
int characterSet;
FontHandle() : pfd(0), characterSet(-1) {
}
FontHandle(PangoFontDescription *pfd_, int characterSet_) {
pfd = pfd_;
characterSet = characterSet_;
}
~FontHandle() {
if (pfd)
pango_font_description_free(pfd);
pfd = 0;
}
static FontHandle *CreateNewFont(const FontParameters &fp);
};
FontHandle *FontHandle::CreateNewFont(const FontParameters &fp) {
PangoFontDescription *pfd = pango_font_description_new();
if (pfd) {
pango_font_description_set_family(pfd,
(fp.faceName[0] == '!') ? fp.faceName+1 : fp.faceName);
pango_font_description_set_size(pfd, pangoUnitsFromDouble(fp.size));
pango_font_description_set_weight(pfd, static_cast<PangoWeight>(fp.weight));
pango_font_description_set_style(pfd, fp.italic ? PANGO_STYLE_ITALIC : PANGO_STYLE_NORMAL);
return new FontHandle(pfd,fp.characterSet);
}
return NULL;
}
// X has a 16 bit coordinate space, so stop drawing here to avoid wrapping
static const int maxCoordinate = 32000;
static FontHandle *PFont(Font &f) {
return static_cast<FontHandle *>(f.GetID());
}
static GtkWidget *PWidget(WindowID wid) {
return static_cast<GtkWidget *>(wid);
}
Font::Font() noexcept : fid(0) {}
Font::~Font() {}
void Font::Create(const FontParameters &fp) {
Release();
fid = FontHandle::CreateNewFont(fp);
}
void Font::Release() {
if (fid)
delete static_cast<FontHandle *>(fid);
fid = 0;
}
// Required on OS X
namespace Scintilla {
// SurfaceID is a cairo_t*
class SurfaceImpl : public Surface {
encodingType et;
cairo_t *context;
cairo_surface_t *psurf;
int x;
int y;
bool inited;
bool createdGC;
PangoContext *pcontext;
PangoLayout *layout;
Converter conv;
int characterSet;
void SetConverter(int characterSet_);
public:
SurfaceImpl();
~SurfaceImpl() override;
void Init(WindowID wid) override;
void Init(SurfaceID sid, WindowID wid) override;
void InitPixMap(int width, int height, Surface *surface_, WindowID wid) override;
void Clear();
void Release() override;
bool Initialised() override;
void PenColour(ColourDesired fore) override;
int LogPixelsY() override;
int DeviceHeightFont(int points) override;
void MoveTo(int x_, int y_) override;
void LineTo(int x_, int y_) override;
void Polygon(Point *pts, size_t npts, ColourDesired fore, ColourDesired back) override;
void RectangleDraw(PRectangle rc, ColourDesired fore, ColourDesired back) override;
void FillRectangle(PRectangle rc, ColourDesired back) override;
void FillRectangle(PRectangle rc, Surface &surfacePattern) override;
void RoundedRectangle(PRectangle rc, ColourDesired fore, ColourDesired back) override;
void AlphaRectangle(PRectangle rc, int cornerSize, ColourDesired fill, int alphaFill,
ColourDesired outline, int alphaOutline, int flags) override;
void GradientRectangle(PRectangle rc, const std::vector<ColourStop> &stops, GradientOptions options) override;
void DrawRGBAImage(PRectangle rc, int width, int height, const unsigned char *pixelsImage) override;
void Ellipse(PRectangle rc, ColourDesired fore, ColourDesired back) override;
void Copy(PRectangle rc, Point from, Surface &surfaceSource) override;
std::unique_ptr<IScreenLineLayout> Layout(const IScreenLine *screenLine) override;
void DrawTextBase(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text, ColourDesired fore);
void DrawTextNoClip(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text, ColourDesired fore, ColourDesired back) override;
void DrawTextClipped(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text, ColourDesired fore, ColourDesired back) override;
void DrawTextTransparent(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text, ColourDesired fore) override;
void MeasureWidths(Font &font_, std::string_view text, XYPOSITION *positions) override;
XYPOSITION WidthText(Font &font_, std::string_view text) override;
XYPOSITION Ascent(Font &font_) override;
XYPOSITION Descent(Font &font_) override;
XYPOSITION InternalLeading(Font &font_) override;
XYPOSITION Height(Font &font_) override;
XYPOSITION AverageCharWidth(Font &font_) override;
void SetClip(PRectangle rc) override;
void FlushCachedState() override;
void SetUnicodeMode(bool unicodeMode_) override;
void SetDBCSMode(int codePage) override;
void SetBidiR2L(bool bidiR2L_) override;
};
}
const char *CharacterSetID(int characterSet) {
switch (characterSet) {
case SC_CHARSET_ANSI:
return "";
case SC_CHARSET_DEFAULT:
return "ISO-8859-1";
case SC_CHARSET_BALTIC:
return "ISO-8859-13";
case SC_CHARSET_CHINESEBIG5:
return "BIG-5";
case SC_CHARSET_EASTEUROPE:
return "ISO-8859-2";
case SC_CHARSET_GB2312:
return "CP936";
case SC_CHARSET_GREEK:
return "ISO-8859-7";
case SC_CHARSET_HANGUL:
return "CP949";
case SC_CHARSET_MAC:
return "MACINTOSH";
case SC_CHARSET_OEM:
return "ASCII";
case SC_CHARSET_RUSSIAN:
return "KOI8-R";
case SC_CHARSET_OEM866:
return "CP866";
case SC_CHARSET_CYRILLIC:
return "CP1251";
case SC_CHARSET_SHIFTJIS:
return "SHIFT-JIS";
case SC_CHARSET_SYMBOL:
return "";
case SC_CHARSET_TURKISH:
return "ISO-8859-9";
case SC_CHARSET_JOHAB:
return "CP1361";
case SC_CHARSET_HEBREW:
return "ISO-8859-8";
case SC_CHARSET_ARABIC:
return "ISO-8859-6";
case SC_CHARSET_VIETNAMESE:
return "";
case SC_CHARSET_THAI:
return "ISO-8859-11";
case SC_CHARSET_8859_15:
return "ISO-8859-15";
default:
return "";
}
}
void SurfaceImpl::SetConverter(int characterSet_) {
if (characterSet != characterSet_) {
characterSet = characterSet_;
conv.Open("UTF-8", CharacterSetID(characterSet), false);
}
}
SurfaceImpl::SurfaceImpl() : et(singleByte),
context(0),
psurf(0),
x(0), y(0), inited(false), createdGC(false)
, pcontext(0), layout(0), characterSet(-1) {
}
SurfaceImpl::~SurfaceImpl() {
Clear();
}
void SurfaceImpl::Clear() {
et = singleByte;
if (createdGC) {
createdGC = false;
cairo_destroy(context);
}
context = 0;
if (psurf)
cairo_surface_destroy(psurf);
psurf = 0;
if (layout)
g_object_unref(layout);
layout = 0;
if (pcontext)
g_object_unref(pcontext);
pcontext = 0;
conv.Close();
characterSet = -1;
x = 0;
y = 0;
inited = false;
createdGC = false;
}
void SurfaceImpl::Release() {
Clear();
}
bool SurfaceImpl::Initialised() {
if (inited && context) {
if (cairo_status(context) == CAIRO_STATUS_SUCCESS) {
// Even when status is success, the target surface may have been
// finished whch may cause an assertion to fail crashing the application.
// The cairo_surface_has_show_text_glyphs call checks the finished flag
// and when set, sets the status to CAIRO_STATUS_SURFACE_FINISHED
// which leads to warning messages instead of crashes.
// Performing the check in this method as it is called rarely and has no
// other side effects.
cairo_surface_t *psurfContext = cairo_get_target(context);
if (psurfContext) {
cairo_surface_has_show_text_glyphs(psurfContext);
}
}
return cairo_status(context) == CAIRO_STATUS_SUCCESS;
}
return inited;
}
void SurfaceImpl::Init(WindowID wid) {
Release();
PLATFORM_ASSERT(wid);
// if we are only created from a window ID, we can't perform drawing
psurf = 0;
context = 0;
createdGC = false;
pcontext = gtk_widget_create_pango_context(PWidget(wid));
PLATFORM_ASSERT(pcontext);
layout = pango_layout_new(pcontext);
PLATFORM_ASSERT(layout);
inited = true;
}
void SurfaceImpl::Init(SurfaceID sid, WindowID wid) {
PLATFORM_ASSERT(sid);
Release();
PLATFORM_ASSERT(wid);
context = cairo_reference(static_cast<cairo_t *>(sid));
pcontext = gtk_widget_create_pango_context(PWidget(wid));
// update the Pango context in case sid isn't the widget's surface
pango_cairo_update_context(context, pcontext);
layout = pango_layout_new(pcontext);
cairo_set_line_width(context, 1);
createdGC = true;
inited = true;
}
void SurfaceImpl::InitPixMap(int width, int height, Surface *surface_, WindowID wid) {
PLATFORM_ASSERT(surface_);
Release();
SurfaceImpl *surfImpl = static_cast<SurfaceImpl *>(surface_);
PLATFORM_ASSERT(wid);
context = cairo_reference(surfImpl->context);
pcontext = gtk_widget_create_pango_context(PWidget(wid));
// update the Pango context in case surface_ isn't the widget's surface
pango_cairo_update_context(context, pcontext);
PLATFORM_ASSERT(pcontext);
layout = pango_layout_new(pcontext);
PLATFORM_ASSERT(layout);
if (height > 0 && width > 0)
psurf = CreateSimilarSurface(
WindowFromWidget(PWidget(wid)),
CAIRO_CONTENT_COLOR_ALPHA, width, height);
cairo_destroy(context);
context = cairo_create(psurf);
cairo_rectangle(context, 0, 0, width, height);
cairo_set_source_rgb(context, 1.0, 0, 0);
cairo_fill(context);
// This produces sharp drawing more similar to GDK:
//cairo_set_antialias(context, CAIRO_ANTIALIAS_NONE);
cairo_set_line_width(context, 1);
createdGC = true;
inited = true;
et = surfImpl->et;
}
void SurfaceImpl::PenColour(ColourDesired fore) {
if (context) {
ColourDesired cdFore(fore.AsInteger());
cairo_set_source_rgb(context,
cdFore.GetRed() / 255.0,
cdFore.GetGreen() / 255.0,
cdFore.GetBlue() / 255.0);
}
}
int SurfaceImpl::LogPixelsY() {
return 72;
}
int SurfaceImpl::DeviceHeightFont(int points) {
int logPix = LogPixelsY();
return (points * logPix + logPix / 2) / 72;
}
void SurfaceImpl::MoveTo(int x_, int y_) {
x = x_;
y = y_;
}
static int Delta(int difference) {
if (difference < 0)
return -1;
else if (difference > 0)
return 1;
else
return 0;
}
void SurfaceImpl::LineTo(int x_, int y_) {
// cairo_line_to draws the end position, unlike Win32 or GDK with GDK_CAP_NOT_LAST.
// For simple cases, move back one pixel from end.
if (context) {
int xDiff = x_ - x;
int xDelta = Delta(xDiff);
int yDiff = y_ - y;
int yDelta = Delta(yDiff);
if ((xDiff == 0) || (yDiff == 0)) {
// Horizontal or vertical lines can be more precisely drawn as a filled rectangle
int xEnd = x_ - xDelta;
int left = std::min(x, xEnd);
int width = abs(x - xEnd) + 1;
int yEnd = y_ - yDelta;
int top = std::min(y, yEnd);
int height = abs(y - yEnd) + 1;
cairo_rectangle(context, left, top, width, height);
cairo_fill(context);
} else if ((abs(xDiff) == abs(yDiff))) {
// 45 degree slope
cairo_move_to(context, x + 0.5, y + 0.5);
cairo_line_to(context, x_ + 0.5 - xDelta, y_ + 0.5 - yDelta);
} else {
// Line has a different slope so difficult to avoid last pixel
cairo_move_to(context, x + 0.5, y + 0.5);
cairo_line_to(context, x_ + 0.5, y_ + 0.5);
}
cairo_stroke(context);
}
x = x_;
y = y_;
}
void SurfaceImpl::Polygon(Point *pts, size_t npts, ColourDesired fore,
ColourDesired back) {
PLATFORM_ASSERT(context);
PenColour(back);
cairo_move_to(context, pts[0].x + 0.5, pts[0].y + 0.5);
for (size_t i = 1; i < npts; i++) {
cairo_line_to(context, pts[i].x + 0.5, pts[i].y + 0.5);
}
cairo_close_path(context);
cairo_fill_preserve(context);
PenColour(fore);
cairo_stroke(context);
}
void SurfaceImpl::RectangleDraw(PRectangle rc, ColourDesired fore, ColourDesired back) {
if (context) {
cairo_rectangle(context, rc.left + 0.5, rc.top + 0.5,
rc.right - rc.left - 1, rc.bottom - rc.top - 1);
PenColour(back);
cairo_fill_preserve(context);
PenColour(fore);
cairo_stroke(context);
}
}
void SurfaceImpl::FillRectangle(PRectangle rc, ColourDesired back) {
PenColour(back);
if (context && (rc.left < maxCoordinate)) { // Protect against out of range
rc.left = lround(rc.left);
rc.right = lround(rc.right);
cairo_rectangle(context, rc.left, rc.top,
rc.right - rc.left, rc.bottom - rc.top);
cairo_fill(context);
}
}
void SurfaceImpl::FillRectangle(PRectangle rc, Surface &surfacePattern) {
SurfaceImpl &surfi = static_cast<SurfaceImpl &>(surfacePattern);
bool canDraw = surfi.psurf != NULL;
if (canDraw) {
PLATFORM_ASSERT(context);
// Tile pattern over rectangle
// Currently assumes 8x8 pattern
int widthPat = 8;
int heightPat = 8;
for (int xTile = rc.left; xTile < rc.right; xTile += widthPat) {
int widthx = (xTile + widthPat > rc.right) ? rc.right - xTile : widthPat;
for (int yTile = rc.top; yTile < rc.bottom; yTile += heightPat) {
int heighty = (yTile + heightPat > rc.bottom) ? rc.bottom - yTile : heightPat;
cairo_set_source_surface(context, surfi.psurf, xTile, yTile);
cairo_rectangle(context, xTile, yTile, widthx, heighty);
cairo_fill(context);
}
}
} else {
// Something is wrong so try to show anyway
// Shows up black because colour not allocated
FillRectangle(rc, ColourDesired(0));
}
}
void SurfaceImpl::RoundedRectangle(PRectangle rc, ColourDesired fore, ColourDesired back) {
if (((rc.right - rc.left) > 4) && ((rc.bottom - rc.top) > 4)) {
// Approximate a round rect with some cut off corners
Point pts[] = {
Point(rc.left + 2, rc.top),
Point(rc.right - 2, rc.top),
Point(rc.right, rc.top + 2),
Point(rc.right, rc.bottom - 2),
Point(rc.right - 2, rc.bottom),
Point(rc.left + 2, rc.bottom),
Point(rc.left, rc.bottom - 2),
Point(rc.left, rc.top + 2),
};
Polygon(pts, std::size(pts), fore, back);
} else {
RectangleDraw(rc, fore, back);
}
}
static void PathRoundRectangle(cairo_t *context, double left, double top, double width, double height, int radius) {
double degrees = kPi / 180.0;
cairo_new_sub_path(context);
cairo_arc(context, left + width - radius, top + radius, radius, -90 * degrees, 0 * degrees);
cairo_arc(context, left + width - radius, top + height - radius, radius, 0 * degrees, 90 * degrees);
cairo_arc(context, left + radius, top + height - radius, radius, 90 * degrees, 180 * degrees);
cairo_arc(context, left + radius, top + radius, radius, 180 * degrees, 270 * degrees);
cairo_close_path(context);
}
void SurfaceImpl::AlphaRectangle(PRectangle rc, int cornerSize, ColourDesired fill, int alphaFill,
ColourDesired outline, int alphaOutline, int /*flags*/) {
if (context && rc.Width() > 0) {
ColourDesired cdFill(fill.AsInteger());
cairo_set_source_rgba(context,
cdFill.GetRed() / 255.0,
cdFill.GetGreen() / 255.0,
cdFill.GetBlue() / 255.0,
alphaFill / 255.0);
if (cornerSize > 0)
PathRoundRectangle(context, rc.left + 1.0, rc.top + 1.0, rc.right - rc.left - 2.0, rc.bottom - rc.top - 2.0, cornerSize);
else
cairo_rectangle(context, rc.left + 1.0, rc.top + 1.0, rc.right - rc.left - 2.0, rc.bottom - rc.top - 2.0);
cairo_fill(context);
ColourDesired cdOutline(outline.AsInteger());
cairo_set_source_rgba(context,
cdOutline.GetRed() / 255.0,
cdOutline.GetGreen() / 255.0,
cdOutline.GetBlue() / 255.0,
alphaOutline / 255.0);
if (cornerSize > 0)
PathRoundRectangle(context, rc.left + 0.5, rc.top + 0.5, rc.right - rc.left - 1, rc.bottom - rc.top - 1, cornerSize);
else
cairo_rectangle(context, rc.left + 0.5, rc.top + 0.5, rc.right - rc.left - 1, rc.bottom - rc.top - 1);
cairo_stroke(context);
}
}
void SurfaceImpl::GradientRectangle(PRectangle rc, const std::vector<ColourStop> &stops, GradientOptions options) {
if (context) {
cairo_pattern_t *pattern;
switch (options) {
case GradientOptions::leftToRight:
pattern = cairo_pattern_create_linear(rc.left, rc.top, rc.right, rc.top);
break;
case GradientOptions::topToBottom:
default:
pattern = cairo_pattern_create_linear(rc.left, rc.top, rc.left, rc.bottom);
break;
}
for (const ColourStop &stop : stops) {
cairo_pattern_add_color_stop_rgba(pattern, stop.position,
stop.colour.GetRedComponent(),
stop.colour.GetGreenComponent(),
stop.colour.GetBlueComponent(),
stop.colour.GetAlphaComponent());
}
cairo_rectangle(context, rc.left, rc.top, rc.Width(), rc.Height());
cairo_set_source(context, pattern);
cairo_fill(context);
cairo_pattern_destroy(pattern);
}
}
void SurfaceImpl::DrawRGBAImage(PRectangle rc, int width, int height, const unsigned char *pixelsImage) {
PLATFORM_ASSERT(context);
if (rc.Width() > width)
rc.left += (rc.Width() - width) / 2;
rc.right = rc.left + width;
if (rc.Height() > height)
rc.top += (rc.Height() - height) / 2;
rc.bottom = rc.top + height;
int stride = cairo_format_stride_for_width(CAIRO_FORMAT_ARGB32, width);
int ucs = stride * height;
std::vector<unsigned char> image(ucs);
for (int iy=0; iy<height; iy++) {
for (int ix=0; ix<width; ix++) {
unsigned char *pixel = &image[0] + iy*stride + ix * 4;
unsigned char alpha = pixelsImage[3];
pixel[2] = (*pixelsImage++) * alpha / 255;
pixel[1] = (*pixelsImage++) * alpha / 255;
pixel[0] = (*pixelsImage++) * alpha / 255;
pixel[3] = *pixelsImage++;
}
}
cairo_surface_t *psurfImage = cairo_image_surface_create_for_data(&image[0], CAIRO_FORMAT_ARGB32, width, height, stride);
cairo_set_source_surface(context, psurfImage, rc.left, rc.top);
cairo_rectangle(context, rc.left, rc.top, rc.right-rc.left, rc.bottom-rc.top);
cairo_fill(context);
cairo_surface_destroy(psurfImage);
}
void SurfaceImpl::Ellipse(PRectangle rc, ColourDesired fore, ColourDesired back) {
PLATFORM_ASSERT(context);
PenColour(back);
cairo_arc(context, (rc.left + rc.right) / 2, (rc.top + rc.bottom) / 2,
std::min(rc.Width(), rc.Height()) / 2, 0, 2*kPi);
cairo_fill_preserve(context);
PenColour(fore);
cairo_stroke(context);
}
void SurfaceImpl::Copy(PRectangle rc, Point from, Surface &surfaceSource) {
SurfaceImpl &surfi = static_cast<SurfaceImpl &>(surfaceSource);
bool canDraw = surfi.psurf != NULL;
if (canDraw) {
PLATFORM_ASSERT(context);
cairo_set_source_surface(context, surfi.psurf,
rc.left - from.x, rc.top - from.y);
cairo_rectangle(context, rc.left, rc.top, rc.right-rc.left, rc.bottom-rc.top);
cairo_fill(context);
}
}
std::unique_ptr<IScreenLineLayout> SurfaceImpl::Layout(const IScreenLine *) {
return {};
}
std::string UTF8FromLatin1(std::string_view text) {
std::string utfForm(text.length()*2 + 1, '\0');
size_t lenU = 0;
for (size_t i=0; i<text.length(); i++) {
unsigned int uch = static_cast<unsigned char>(text[i]);
if (uch < 0x80) {
utfForm[lenU++] = uch;
} else {
utfForm[lenU++] = static_cast<char>(0xC0 | (uch >> 6));
utfForm[lenU++] = static_cast<char>(0x80 | (uch & 0x3f));
}
}
utfForm.resize(lenU);
return utfForm;
}
static std::string UTF8FromIconv(const Converter &conv, std::string_view text) {
if (conv) {
std::string utfForm(text.length()*3+1, '\0');
char *pin = const_cast<char *>(text.data());
gsize inLeft = text.length();
char *putf = &utfForm[0];
char *pout = putf;
gsize outLeft = text.length()*3+1;
gsize conversions = conv.Convert(&pin, &inLeft, &pout, &outLeft);
if (conversions != sizeFailure) {
*pout = '\0';
utfForm.resize(pout - putf);
return utfForm;
}
}
return std::string();
}
// Work out how many bytes are in a character by trying to convert using iconv,
// returning the first length that succeeds.
static size_t MultiByteLenFromIconv(const Converter &conv, const char *s, size_t len) {
for (size_t lenMB=1; (lenMB<4) && (lenMB <= len); lenMB++) {
char wcForm[2];
char *pin = const_cast<char *>(s);
gsize inLeft = lenMB;
char *pout = wcForm;
gsize outLeft = 2;
gsize conversions = conv.Convert(&pin, &inLeft, &pout, &outLeft);
if (conversions != sizeFailure) {
return lenMB;
}
}
return 1;
}
void SurfaceImpl::DrawTextBase(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text,
ColourDesired fore) {
PenColour(fore);
if (context) {
XYPOSITION xText = rc.left;
if (PFont(font_)->pfd) {
std::string utfForm;
if (et == UTF8) {
pango_layout_set_text(layout, text.data(), text.length());
} else {
SetConverter(PFont(font_)->characterSet);
utfForm = UTF8FromIconv(conv, text);
if (utfForm.empty()) { // iconv failed so treat as Latin1
utfForm = UTF8FromLatin1(text);
}
pango_layout_set_text(layout, utfForm.c_str(), utfForm.length());
}
pango_layout_set_font_description(layout, PFont(font_)->pfd);
pango_cairo_update_layout(context, layout);
PangoLayoutLine *pll = pango_layout_get_line_readonly(layout,0);
cairo_move_to(context, xText, ybase);
pango_cairo_show_layout_line(context, pll);
}
}
}
void SurfaceImpl::DrawTextNoClip(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text,
ColourDesired fore, ColourDesired back) {
FillRectangle(rc, back);
DrawTextBase(rc, font_, ybase, text, fore);
}
// On GTK+, exactly same as DrawTextNoClip
void SurfaceImpl::DrawTextClipped(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text,
ColourDesired fore, ColourDesired back) {
FillRectangle(rc, back);
DrawTextBase(rc, font_, ybase, text, fore);
}
void SurfaceImpl::DrawTextTransparent(PRectangle rc, Font &font_, XYPOSITION ybase, std::string_view text,
ColourDesired fore) {
// Avoid drawing spaces in transparent mode
for (size_t i=0; i<text.length(); i++) {
if (text[i] != ' ') {
DrawTextBase(rc, font_, ybase, text, fore);
return;
}
}
}
class ClusterIterator {
PangoLayoutIter *iter;
PangoRectangle pos;
size_t lenPositions;
public:
bool finished;
XYPOSITION positionStart;
XYPOSITION position;
XYPOSITION distance;
int curIndex;
ClusterIterator(PangoLayout *layout, size_t len) : lenPositions(len), finished(false),
positionStart(0), position(0), distance(0), curIndex(0) {
iter = pango_layout_get_iter(layout);
pango_layout_iter_get_cluster_extents(iter, NULL, &pos);
}
~ClusterIterator() {
pango_layout_iter_free(iter);
}
void Next() {
positionStart = position;
if (pango_layout_iter_next_cluster(iter)) {
pango_layout_iter_get_cluster_extents(iter, NULL, &pos);
position = doubleFromPangoUnits(pos.x);
curIndex = pango_layout_iter_get_index(iter);
} else {
finished = true;
position = doubleFromPangoUnits(pos.x + pos.width);
curIndex = lenPositions;
}
distance = position - positionStart;
}
};
void SurfaceImpl::MeasureWidths(Font &font_, std::string_view text, XYPOSITION *positions) {
if (font_.GetID()) {
if (PFont(font_)->pfd) {
pango_layout_set_font_description(layout, PFont(font_)->pfd);
if (et == UTF8) {
// Simple and direct as UTF-8 is native Pango encoding
int i = 0;
pango_layout_set_text(layout, text.data(), text.length());
ClusterIterator iti(layout, text.length());
while (!iti.finished) {
iti.Next();
int places = iti.curIndex - i;
while (i < iti.curIndex) {
// Evenly distribute space among bytes of this cluster.
// Would be better to find number of characters and then
// divide evenly between characters with each byte of a character
// being at the same position.
positions[i] = iti.position - (iti.curIndex - 1 - i) * iti.distance / places;
i++;
}
}
PLATFORM_ASSERT(static_cast<size_t>(i) == text.length());
} else {
int positionsCalculated = 0;
if (et == dbcs) {
SetConverter(PFont(font_)->characterSet);
std::string utfForm = UTF8FromIconv(conv, text);
if (!utfForm.empty()) {
// Convert to UTF-8 so can ask Pango for widths, then
// Loop through UTF-8 and DBCS forms, taking account of different
// character byte lengths.
Converter convMeasure("UCS-2", CharacterSetID(characterSet), false);
pango_layout_set_text(layout, utfForm.c_str(), strlen(utfForm.c_str()));
int i = 0;
int clusterStart = 0;
ClusterIterator iti(layout, strlen(utfForm.c_str()));
while (!iti.finished) {
iti.Next();
int clusterEnd = iti.curIndex;
int places = g_utf8_strlen(utfForm.c_str() + clusterStart, clusterEnd - clusterStart);
int place = 1;
while (clusterStart < clusterEnd) {
size_t lenChar = MultiByteLenFromIconv(convMeasure, text.data()+i, text.length()-i);
while (lenChar--) {
positions[i++] = iti.position - (places - place) * iti.distance / places;
positionsCalculated++;
}
clusterStart += UTF8BytesOfLead[static_cast<unsigned char>(utfForm.c_str()[clusterStart])];
place++;
}
}
PLATFORM_ASSERT(static_cast<size_t>(i) == text.length());
}
}
if (positionsCalculated < 1 ) {
const int lenPositions = static_cast<int>(text.length());
// Either 8-bit or DBCS conversion failed so treat as 8-bit.
SetConverter(PFont(font_)->characterSet);
const bool rtlCheck = PFont(font_)->characterSet == SC_CHARSET_HEBREW ||
PFont(font_)->characterSet == SC_CHARSET_ARABIC;
std::string utfForm = UTF8FromIconv(conv, text);
if (utfForm.empty()) {
utfForm = UTF8FromLatin1(text);
}
pango_layout_set_text(layout, utfForm.c_str(), utfForm.length());
int i = 0;
int clusterStart = 0;
// Each 8-bit input character may take 1 or 2 bytes in UTF-8
// and groups of up to 3 may be represented as ligatures.
ClusterIterator iti(layout, utfForm.length());
while (!iti.finished) {
iti.Next();
int clusterEnd = iti.curIndex;
int ligatureLength = g_utf8_strlen(utfForm.c_str() + clusterStart, clusterEnd - clusterStart);
if (rtlCheck && ((clusterEnd <= clusterStart) || (ligatureLength == 0) || (ligatureLength > 3))) {
// Something has gone wrong: exit quickly but pretend all the characters are equally spaced:
int widthLayout = 0;
pango_layout_get_size(layout, &widthLayout, NULL);
XYPOSITION widthTotal = doubleFromPangoUnits(widthLayout);
for (int bytePos=0; bytePos<lenPositions; bytePos++) {
positions[bytePos] = widthTotal / lenPositions * (bytePos + 1);
}
return;
}
PLATFORM_ASSERT(ligatureLength > 0 && ligatureLength <= 3);
for (int charInLig=0; charInLig<ligatureLength; charInLig++) {
positions[i++] = iti.position - (ligatureLength - 1 - charInLig) * iti.distance / ligatureLength;
}
clusterStart = clusterEnd;
}
while (i < lenPositions) {
// If something failed, fill in rest of the positions
positions[i++] = clusterStart;
}
PLATFORM_ASSERT(static_cast<size_t>(i) == text.length());
}
}
}
} else {
// No font so return an ascending range of values
for (size_t i = 0; i < text.length(); i++) {
positions[i] = i + 1;
}
}
}
XYPOSITION SurfaceImpl::WidthText(Font &font_, std::string_view text) {
if (font_.GetID()) {
if (PFont(font_)->pfd) {
std::string utfForm;
pango_layout_set_font_description(layout, PFont(font_)->pfd);
PangoRectangle pos;
if (et == UTF8) {
pango_layout_set_text(layout, text.data(), text.length());
} else {
SetConverter(PFont(font_)->characterSet);
utfForm = UTF8FromIconv(conv, text);
if (utfForm.empty()) { // iconv failed so treat as Latin1
utfForm = UTF8FromLatin1(text);
}
pango_layout_set_text(layout, utfForm.c_str(), utfForm.length());
}
PangoLayoutLine *pangoLine = pango_layout_get_line_readonly(layout,0);
pango_layout_line_get_extents(pangoLine, NULL, &pos);
return doubleFromPangoUnits(pos.width);
}
return 1;
} else {
return 1;
}
}
// Ascent and descent determined by Pango font metrics.
XYPOSITION SurfaceImpl::Ascent(Font &font_) {
if (!(font_.GetID()))
return 1;
int ascent = 0;
if (PFont(font_)->pfd) {
PangoFontMetrics *metrics = pango_context_get_metrics(pcontext,
PFont(font_)->pfd, pango_context_get_language(pcontext));
ascent =
doubleFromPangoUnits(pango_font_metrics_get_ascent(metrics));
pango_font_metrics_unref(metrics);
}
if (ascent == 0) {
ascent = 1;
}
return ascent;
}
XYPOSITION SurfaceImpl::Descent(Font &font_) {
if (!(font_.GetID()))
return 1;
if (PFont(font_)->pfd) {
PangoFontMetrics *metrics = pango_context_get_metrics(pcontext,
PFont(font_)->pfd, pango_context_get_language(pcontext));
int descent = doubleFromPangoUnits(pango_font_metrics_get_descent(metrics));
pango_font_metrics_unref(metrics);
return descent;
}
return 0;
}
XYPOSITION SurfaceImpl::InternalLeading(Font &) {
return 0;
}
XYPOSITION SurfaceImpl::Height(Font &font_) {
return Ascent(font_) + Descent(font_);
}
XYPOSITION SurfaceImpl::AverageCharWidth(Font &font_) {
return WidthText(font_, "n");
}
void SurfaceImpl::SetClip(PRectangle rc) {
PLATFORM_ASSERT(context);
cairo_rectangle(context, rc.left, rc.top, rc.right, rc.bottom);
cairo_clip(context);
}
void SurfaceImpl::FlushCachedState() {}
void SurfaceImpl::SetUnicodeMode(bool unicodeMode_) {
if (unicodeMode_)
et = UTF8;
}
void SurfaceImpl::SetDBCSMode(int codePage) {
if (codePage && (codePage != SC_CP_UTF8))
et = dbcs;
}
void SurfaceImpl::SetBidiR2L(bool) {
}
Surface *Surface::Allocate(int) {
return new SurfaceImpl();
}
Window::~Window() {}
void Window::Destroy() {
if (wid) {
ListBox *listbox = dynamic_cast<ListBox*>(this);
if (listbox) {
gtk_widget_hide(GTK_WIDGET(wid));
// clear up window content
listbox->Clear();
// resize the window to the smallest possible size for it to adapt
// to future content
gtk_window_resize(GTK_WINDOW(wid), 1, 1);
} else {
gtk_widget_destroy(GTK_WIDGET(wid));
}
wid = 0;
}
}
PRectangle Window::GetPosition() const {
// Before any size allocated pretend its 1000 wide so not scrolled
PRectangle rc(0, 0, 1000, 1000);
if (wid) {
GtkAllocation allocation;
gtk_widget_get_allocation(PWidget(wid), &allocation);
rc.left = allocation.x;
rc.top = allocation.y;
if (allocation.width > 20) {
rc.right = rc.left + allocation.width;
rc.bottom = rc.top + allocation.height;
}
}
return rc;
}
void Window::SetPosition(PRectangle rc) {
GtkAllocation alloc;
alloc.x = rc.left;
alloc.y = rc.top;
alloc.width = rc.Width();
alloc.height = rc.Height();
gtk_widget_size_allocate(PWidget(wid), &alloc);
}
namespace {
GdkRectangle MonitorRectangleForWidget(GtkWidget *wid) {
GdkWindow *wnd = WindowFromWidget(wid);
GdkRectangle rcScreen = GdkRectangle();
#if GTK_CHECK_VERSION(3,22,0)
GdkDisplay *pdisplay = gtk_widget_get_display(wid);
GdkMonitor *monitor = gdk_display_get_monitor_at_window(pdisplay, wnd);
gdk_monitor_get_geometry(monitor, &rcScreen);
#else
GdkScreen* screen = gtk_widget_get_screen(wid);
gint monitor_num = gdk_screen_get_monitor_at_window(screen, wnd);
gdk_screen_get_monitor_geometry(screen, monitor_num, &rcScreen);
#endif
return rcScreen;
}
}
void Window::SetPositionRelative(PRectangle rc, const Window *relativeTo) {
int ox = 0;
int oy = 0;
GdkWindow *wndRelativeTo = WindowFromWidget(PWidget(relativeTo->wid));
gdk_window_get_origin(wndRelativeTo, &ox, &oy);
ox += rc.left;
oy += rc.top;
GdkRectangle rcMonitor = MonitorRectangleForWidget(PWidget(relativeTo->wid));
/* do some corrections to fit into screen */
int sizex = rc.right - rc.left;
int sizey = rc.bottom - rc.top;
if (sizex > rcMonitor.width || ox < rcMonitor.x)
ox = rcMonitor.x; /* the best we can do */
else if (ox + sizex > rcMonitor.x + rcMonitor.width)
ox = rcMonitor.x + rcMonitor.width - sizex;
if (sizey > rcMonitor.height || oy < rcMonitor.y)
oy = rcMonitor.y;
else if (oy + sizey > rcMonitor.y + rcMonitor.height)
oy = rcMonitor.y + rcMonitor.height - sizey;
gtk_window_move(GTK_WINDOW(PWidget(wid)), ox, oy);
gtk_window_resize(GTK_WINDOW(wid), sizex, sizey);
}
PRectangle Window::GetClientPosition() const {
// On GTK+, the client position is the window position
return GetPosition();
}
void Window::Show(bool show) {
if (show)
gtk_widget_show(PWidget(wid));
}
void Window::InvalidateAll() {
if (wid) {
gtk_widget_queue_draw(PWidget(wid));
}
}
void Window::InvalidateRectangle(PRectangle rc) {
if (wid) {
gtk_widget_queue_draw_area(PWidget(wid),
rc.left, rc.top,
rc.right - rc.left, rc.bottom - rc.top);
}
}
void Window::SetFont(Font &) {
// Can not be done generically but only needed for ListBox
}
void Window::SetCursor(Cursor curs) {
// We don't set the cursor to same value numerous times under gtk because
// it stores the cursor in the window once it's set
if (curs == cursorLast)
return;
cursorLast = curs;
GdkDisplay *pdisplay = gtk_widget_get_display(PWidget(wid));
GdkCursor *gdkCurs;
switch (curs) {
case cursorText:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_XTERM);
break;
case cursorArrow:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_LEFT_PTR);
break;
case cursorUp:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_CENTER_PTR);
break;
case cursorWait:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_WATCH);
break;
case cursorHand:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_HAND2);
break;
case cursorReverseArrow:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_RIGHT_PTR);
break;
default:
gdkCurs = gdk_cursor_new_for_display(pdisplay, GDK_LEFT_PTR);
cursorLast = cursorArrow;
break;
}
if (WindowFromWidget(PWidget(wid)))
gdk_window_set_cursor(WindowFromWidget(PWidget(wid)), gdkCurs);
#if GTK_CHECK_VERSION(3,0,0)
g_object_unref(gdkCurs);
#else
gdk_cursor_unref(gdkCurs);
#endif
}
/* Returns rectangle of monitor pt is on, both rect and pt are in Window's
gdk window coordinates */
PRectangle Window::GetMonitorRect(Point pt) {
gint x_offset, y_offset;
gdk_window_get_origin(WindowFromWidget(PWidget(wid)), &x_offset, &y_offset);
GdkRectangle rect;
#if GTK_CHECK_VERSION(3,22,0)
GdkDisplay *pdisplay = gtk_widget_get_display(PWidget(wid));
GdkMonitor *monitor = gdk_display_get_monitor_at_point(pdisplay,
pt.x + x_offset, pt.y + y_offset);
gdk_monitor_get_geometry(monitor, &rect);
#else
GdkScreen* screen = gtk_widget_get_screen(PWidget(wid));
gint monitor_num = gdk_screen_get_monitor_at_point(screen,
pt.x + x_offset, pt.y + y_offset);
gdk_screen_get_monitor_geometry(screen, monitor_num, &rect);
#endif
rect.x -= x_offset;
rect.y -= y_offset;
return PRectangle(rect.x, rect.y, rect.x + rect.width, rect.y + rect.height);
}
typedef std::map<int, RGBAImage*> ImageMap;
struct ListImage {
const RGBAImage *rgba_data;
GdkPixbuf *pixbuf;
};
static void list_image_free(gpointer, gpointer value, gpointer) {
ListImage *list_image = static_cast<ListImage *>(value);
if (list_image->pixbuf)
g_object_unref(list_image->pixbuf);
g_free(list_image);
}
ListBox::ListBox() noexcept {
}
ListBox::~ListBox() {
}
enum {
PIXBUF_COLUMN,
TEXT_COLUMN,
N_COLUMNS
};
class ListBoxX : public ListBox {
WindowID widCached;
WindowID frame;
WindowID list;
WindowID scroller;
void *pixhash;
GtkCellRenderer* pixbuf_renderer;
GtkCellRenderer* renderer;
RGBAImageSet images;
int desiredVisibleRows;
unsigned int maxItemCharacters;
unsigned int aveCharWidth;
#if GTK_CHECK_VERSION(3,0,0)
GtkCssProvider *cssProvider;
#endif
public:
IListBoxDelegate *delegate;
ListBoxX() : widCached(0), frame(0), list(0), scroller(0), pixhash(NULL), pixbuf_renderer(0),
renderer(0),
desiredVisibleRows(5), maxItemCharacters(0),
aveCharWidth(1),
#if GTK_CHECK_VERSION(3,0,0)
cssProvider(NULL),
#endif
delegate(nullptr) {
}
~ListBoxX() override {
if (pixhash) {
g_hash_table_foreach((GHashTable *) pixhash, list_image_free, NULL);
g_hash_table_destroy((GHashTable *) pixhash);
}
if (widCached) {
gtk_widget_destroy(GTK_WIDGET(widCached));
wid = widCached = 0;
}
#if GTK_CHECK_VERSION(3,0,0)
if (cssProvider) {
g_object_unref(cssProvider);
cssProvider = NULL;
}
#endif
}
void SetFont(Font &font) override;
void Create(Window &parent, int ctrlID, Point location_, int lineHeight_, bool unicodeMode_, int technology_) override;
void SetAverageCharWidth(int width) override;
void SetVisibleRows(int rows) override;
int GetVisibleRows() const override;
int GetRowHeight();
PRectangle GetDesiredRect() override;
int CaretFromEdge() override;
void Clear() override;
void Append(char *s, int type = -1) override;
int Length() override;
void Select(int n) override;
int GetSelection() override;
int Find(const char *prefix) override;
void GetValue(int n, char *value, int len) override;
void RegisterRGBA(int type, RGBAImage *image);
void RegisterImage(int type, const char *xpm_data) override;
void RegisterRGBAImage(int type, int width, int height, const unsigned char *pixelsImage) override;
void ClearRegisteredImages() override;
void SetDelegate(IListBoxDelegate *lbDelegate) override;
void SetList(const char *listText, char separator, char typesep) override;
};
ListBox *ListBox::Allocate() {
ListBoxX *lb = new ListBoxX();
return lb;
}
static int treeViewGetRowHeight(GtkTreeView *view) {
#if GTK_CHECK_VERSION(3,0,0)
// This version sometimes reports erroneous results on GTK2, but the GTK2
// version is inaccurate for GTK 3.14.
GdkRectangle rect;
GtkTreePath *path = gtk_tree_path_new_first();
gtk_tree_view_get_background_area(view, path, NULL, &rect);
gtk_tree_path_free(path);
return rect.height;
#else
int row_height=0;
int vertical_separator=0;
int expander_size=0;
GtkTreeViewColumn *column = gtk_tree_view_get_column(view, 0);
gtk_tree_view_column_cell_get_size(column, NULL, NULL, NULL, NULL, &row_height);
gtk_widget_style_get(GTK_WIDGET(view),
"vertical-separator", &vertical_separator,
"expander-size", &expander_size, NULL);
row_height += vertical_separator;
row_height = std::max(row_height, expander_size);
return row_height;
#endif
}
// SmallScroller, a GtkScrolledWindow that can shrink very small, as
// gtk_widget_set_size_request() cannot shrink widgets on GTK3
typedef struct {
GtkScrolledWindow parent;
/* Workaround ABI issue with Windows GTK2 bundle and GCC > 3.
See http://lists.geany.org/pipermail/devel/2015-April/thread.html#9379
GtkScrolledWindow contains a bitfield, and GCC 3.4 and 4.8 don't agree
on the size of the structure (regardless of -mms-bitfields):
- GCC 3.4 has sizeof(GtkScrolledWindow)=88
- GCC 4.8 has sizeof(GtkScrolledWindow)=84
As Windows GTK2 bundle is built with GCC 3, it requires types derived
from GtkScrolledWindow to be at least 88 bytes, which means we need to
add some fake padding to fill in the extra 4 bytes.
There is however no other issue with the layout difference as we never
access any GtkScrolledWindow fields ourselves. */
int padding;
} SmallScroller;
typedef GtkScrolledWindowClass SmallScrollerClass;
G_DEFINE_TYPE(SmallScroller, small_scroller, GTK_TYPE_SCROLLED_WINDOW)
#if GTK_CHECK_VERSION(3,0,0)
static void small_scroller_get_preferred_height(GtkWidget *widget, gint *min, gint *nat) {
GtkWidget *child = gtk_bin_get_child(GTK_BIN(widget));
if (GTK_IS_TREE_VIEW(child)) {
GtkTreeModel *model = gtk_tree_view_get_model(GTK_TREE_VIEW(child));
int n_rows = gtk_tree_model_iter_n_children(model, NULL);
int row_height = treeViewGetRowHeight(GTK_TREE_VIEW(child));
*min = MAX(1, row_height);
*nat = MAX(*min, n_rows * row_height);
} else {
GTK_WIDGET_CLASS(small_scroller_parent_class)->get_preferred_height(widget, min, nat);
if (*min > 1)
*min = 1;
}
}
#else
static void small_scroller_size_request(GtkWidget *widget, GtkRequisition *req) {
GTK_WIDGET_CLASS(small_scroller_parent_class)->size_request(widget, req);
req->height = 1;
}
#endif
static void small_scroller_class_init(SmallScrollerClass *klass) {
#if GTK_CHECK_VERSION(3,0,0)
GTK_WIDGET_CLASS(klass)->get_preferred_height = small_scroller_get_preferred_height;
#else
GTK_WIDGET_CLASS(klass)->size_request = small_scroller_size_request;
#endif
}
static void small_scroller_init(SmallScroller *){}
static gboolean ButtonPress(GtkWidget *, GdkEventButton* ev, gpointer p) {
try {
ListBoxX* lb = static_cast<ListBoxX*>(p);
if (ev->type == GDK_2BUTTON_PRESS && lb->delegate) {
ListBoxEvent event(ListBoxEvent::EventType::doubleClick);
lb->delegate->ListNotify(&event);
return TRUE;
}
} catch (...) {
// No pointer back to Scintilla to save status
}
return FALSE;
}
static gboolean ButtonRelease(GtkWidget *, GdkEventButton* ev, gpointer p) {
try {
ListBoxX* lb = static_cast<ListBoxX*>(p);
if (ev->type != GDK_2BUTTON_PRESS && lb->delegate) {
ListBoxEvent event(ListBoxEvent::EventType::selectionChange);
lb->delegate->ListNotify(&event);
return TRUE;
}
} catch (...) {
// No pointer back to Scintilla to save status
}
return FALSE;
}
/* Change the active color to the selected color so the listbox uses the color
scheme that it would use if it had the focus. */
static void StyleSet(GtkWidget *w, GtkStyle*, void*) {
g_return_if_fail(w != NULL);
/* Copy the selected color to active. Note that the modify calls will cause
recursive calls to this function after the value is updated and w->style to
be set to a new object */
#if GTK_CHECK_VERSION(3,16,0)
// On recent releases of GTK+, it does not appear necessary to set the list box colours.
// This may be because of common themes and may be needed with other themes.
// The *override* calls are deprecated now, so only call them for older versions of GTK+.
#elif GTK_CHECK_VERSION(3,0,0)
GtkStyleContext *styleContext = gtk_widget_get_style_context(w);
if (styleContext == NULL)
return;
GdkRGBA colourForeSelected;
gtk_style_context_get_color(styleContext, GTK_STATE_FLAG_SELECTED, &colourForeSelected);
GdkRGBA colourForeActive;
gtk_style_context_get_color(styleContext, GTK_STATE_FLAG_ACTIVE, &colourForeActive);
if (!gdk_rgba_equal(&colourForeSelected, &colourForeActive))
gtk_widget_override_color(w, GTK_STATE_FLAG_ACTIVE, &colourForeSelected);
styleContext = gtk_widget_get_style_context(w);
if (styleContext == NULL)
return;
GdkRGBA colourBaseSelected;
gtk_style_context_get_background_color(styleContext, GTK_STATE_FLAG_SELECTED, &colourBaseSelected);
GdkRGBA colourBaseActive;
gtk_style_context_get_background_color(styleContext, GTK_STATE_FLAG_ACTIVE, &colourBaseActive);
if (!gdk_rgba_equal(&colourBaseSelected, &colourBaseActive))
gtk_widget_override_background_color(w, GTK_STATE_FLAG_ACTIVE, &colourBaseSelected);
#else
GtkStyle *style = gtk_widget_get_style(w);
if (style == NULL)
return;
if (!gdk_color_equal(&style->base[GTK_STATE_SELECTED], &style->base[GTK_STATE_ACTIVE]))
gtk_widget_modify_base(w, GTK_STATE_ACTIVE, &style->base[GTK_STATE_SELECTED]);
style = gtk_widget_get_style(w);
if (style == NULL)
return;
if (!gdk_color_equal(&style->text[GTK_STATE_SELECTED], &style->text[GTK_STATE_ACTIVE]))
gtk_widget_modify_text(w, GTK_STATE_ACTIVE, &style->text[GTK_STATE_SELECTED]);
#endif
}
void ListBoxX::Create(Window &parent, int, Point, int, bool, int) {
if (widCached != 0) {
wid = widCached;
return;
}
#if GTK_CHECK_VERSION(3,0,0)
if (!cssProvider) {
cssProvider = gtk_css_provider_new();
}
#endif
wid = widCached = gtk_window_new(GTK_WINDOW_POPUP);
frame = gtk_frame_new(NULL);
gtk_widget_show(PWidget(frame));
gtk_container_add(GTK_CONTAINER(GetID()), PWidget(frame));
gtk_frame_set_shadow_type(GTK_FRAME(frame), GTK_SHADOW_OUT);
gtk_container_set_border_width(GTK_CONTAINER(frame), 0);
scroller = g_object_new(small_scroller_get_type(), NULL);
gtk_container_set_border_width(GTK_CONTAINER(scroller), 0);
gtk_scrolled_window_set_policy(GTK_SCROLLED_WINDOW(scroller),
GTK_POLICY_NEVER, GTK_POLICY_AUTOMATIC);
gtk_container_add(GTK_CONTAINER(frame), PWidget(scroller));
gtk_widget_show(PWidget(scroller));
/* Tree and its model */
GtkListStore *store =
gtk_list_store_new(N_COLUMNS, GDK_TYPE_PIXBUF, G_TYPE_STRING);
list = gtk_tree_view_new_with_model(GTK_TREE_MODEL(store));
g_signal_connect(G_OBJECT(list), "style-set", G_CALLBACK(StyleSet), NULL);
#if GTK_CHECK_VERSION(3,0,0)
GtkStyleContext *styleContext = gtk_widget_get_style_context(GTK_WIDGET(list));
if (styleContext) {
gtk_style_context_add_provider(styleContext, GTK_STYLE_PROVIDER(cssProvider),
GTK_STYLE_PROVIDER_PRIORITY_APPLICATION);
}
#endif
GtkTreeSelection *selection =
gtk_tree_view_get_selection(GTK_TREE_VIEW(list));
gtk_tree_selection_set_mode(selection, GTK_SELECTION_SINGLE);
gtk_tree_view_set_headers_visible(GTK_TREE_VIEW(list), FALSE);
gtk_tree_view_set_reorderable(GTK_TREE_VIEW(list), FALSE);
/* Columns */
GtkTreeViewColumn *column = gtk_tree_view_column_new();
gtk_tree_view_column_set_sizing(column, GTK_TREE_VIEW_COLUMN_FIXED);
gtk_tree_view_column_set_title(column, "Autocomplete");
pixbuf_renderer = gtk_cell_renderer_pixbuf_new();
gtk_cell_renderer_set_fixed_size(pixbuf_renderer, 0, -1);
gtk_tree_view_column_pack_start(column, pixbuf_renderer, FALSE);
gtk_tree_view_column_add_attribute(column, pixbuf_renderer,
"pixbuf", PIXBUF_COLUMN);
renderer = gtk_cell_renderer_text_new();
gtk_cell_renderer_text_set_fixed_height_from_font(GTK_CELL_RENDERER_TEXT(renderer), 1);
gtk_tree_view_column_pack_start(column, renderer, TRUE);
gtk_tree_view_column_add_attribute(column, renderer,
"text", TEXT_COLUMN);
gtk_tree_view_append_column(GTK_TREE_VIEW(list), column);
if (g_object_class_find_property(G_OBJECT_GET_CLASS(list), "fixed-height-mode"))
g_object_set(G_OBJECT(list), "fixed-height-mode", TRUE, NULL);
GtkWidget *widget = PWidget(list); // No code inside the G_OBJECT macro
gtk_container_add(GTK_CONTAINER(PWidget(scroller)), widget);
gtk_widget_show(widget);
g_signal_connect(G_OBJECT(widget), "button_press_event",
G_CALLBACK(ButtonPress), this);
g_signal_connect(G_OBJECT(widget), "button_release_event",
G_CALLBACK(ButtonRelease), this);
GtkWidget *top = gtk_widget_get_toplevel(static_cast<GtkWidget *>(parent.GetID()));
gtk_window_set_transient_for(GTK_WINDOW(static_cast<GtkWidget *>(wid)),
GTK_WINDOW(top));
}
void ListBoxX::SetFont(Font &font) {
// Only do for Pango font as there have been crashes for GDK fonts
if (Created() && PFont(font)->pfd) {
// Current font is Pango font
#if GTK_CHECK_VERSION(3,0,0)
if (cssProvider) {
PangoFontDescription *pfd = PFont(font)->pfd;
std::ostringstream ssFontSetting;
ssFontSetting << "GtkTreeView, treeview { ";
ssFontSetting << "font-family: " << pango_font_description_get_family(pfd) << "; ";
ssFontSetting << "font-size:";
ssFontSetting << static_cast<double>(pango_font_description_get_size(pfd)) / PANGO_SCALE;
// On GTK < 3.21.0 the units are incorrectly parsed, so a font size in points
// need to use the "px" unit. Normally we only get fonts in points here, so
// don't bother to handle the case the font is actually in pixels on < 3.21.0.
if (gtk_check_version(3, 21, 0) != NULL || // on < 3.21.0
pango_font_description_get_size_is_absolute(pfd)) {
ssFontSetting << "px; ";
} else {
ssFontSetting << "pt; ";
}
ssFontSetting << "font-weight:"<< pango_font_description_get_weight(pfd) << "; ";
ssFontSetting << "}";
gtk_css_provider_load_from_data(GTK_CSS_PROVIDER(cssProvider),
ssFontSetting.str().c_str(), -1, NULL);
}
#else
gtk_widget_modify_font(PWidget(list), PFont(font)->pfd);
#endif
gtk_cell_renderer_text_set_fixed_height_from_font(GTK_CELL_RENDERER_TEXT(renderer), -1);
gtk_cell_renderer_text_set_fixed_height_from_font(GTK_CELL_RENDERER_TEXT(renderer), 1);
}
}
void ListBoxX::SetAverageCharWidth(int width) {
aveCharWidth = width;
}
void ListBoxX::SetVisibleRows(int rows) {
desiredVisibleRows = rows;
}
int ListBoxX::GetVisibleRows() const {
return desiredVisibleRows;
}
int ListBoxX::GetRowHeight() {
return treeViewGetRowHeight(GTK_TREE_VIEW(list));
}
PRectangle ListBoxX::GetDesiredRect() {
// Before any size allocated pretend its 100 wide so not scrolled
PRectangle rc(0, 0, 100, 100);
if (wid) {
int rows = Length();
if ((rows == 0) || (rows > desiredVisibleRows))
rows = desiredVisibleRows;
GtkRequisition req;
// This, apparently unnecessary call, ensures gtk_tree_view_column_cell_get_size
// returns reasonable values.
#if GTK_CHECK_VERSION(3,0,0)
gtk_widget_get_preferred_size(GTK_WIDGET(frame), NULL, &req);
#else
gtk_widget_size_request(GTK_WIDGET(frame), &req);
#endif
int height;
// First calculate height of the clist for our desired visible
// row count otherwise it tries to expand to the total # of rows
// Get cell height
int row_height = GetRowHeight();
#if GTK_CHECK_VERSION(3,0,0)
GtkStyleContext *styleContextFrame = gtk_widget_get_style_context(PWidget(frame));
GtkStateFlags stateFlagsFrame = gtk_style_context_get_state(styleContextFrame);
GtkBorder padding, border, border_border = { 0, 0, 0, 0 };
gtk_style_context_get_padding(styleContextFrame, stateFlagsFrame, &padding);
gtk_style_context_get_border(styleContextFrame, stateFlagsFrame, &border);
# if GTK_CHECK_VERSION(3,20,0)
// on GTK 3.20 the frame border is in a sub-node "border".
// Unfortunately we need to be built against 3.20 to be able to support this, as it requires
// new API.
GtkStyleContext *styleContextFrameBorder = gtk_style_context_new();
GtkWidgetPath *widget_path = gtk_widget_path_copy(gtk_style_context_get_path(styleContextFrame));
gtk_widget_path_append_type(widget_path, GTK_TYPE_BORDER); // dummy type
gtk_widget_path_iter_set_object_name(widget_path, -1, "border");
gtk_style_context_set_path(styleContextFrameBorder, widget_path);
gtk_widget_path_free(widget_path);
gtk_style_context_get_border(styleContextFrameBorder, stateFlagsFrame, &border_border);
g_object_unref(styleContextFrameBorder);
# else // < 3.20
if (gtk_check_version(3, 20, 0) == NULL) {
// default to 1px all around as it's likely what it is, and so we don't miss 2px height
// on GTK 3.20 when built against an earlier version.
border_border.top = border_border.bottom = border_border.left = border_border.right = 1;
}
# endif
height = (rows * row_height
+ padding.top + padding.bottom
+ border.top + border.bottom
+ border_border.top + border_border.bottom
+ 2 * gtk_container_get_border_width(GTK_CONTAINER(PWidget(list))));
#else
height = (rows * row_height
+ 2 * (PWidget(frame)->style->ythickness
+ GTK_CONTAINER(PWidget(list))->border_width));
#endif
rc.bottom = height;
int width = maxItemCharacters;
if (width < 12)
width = 12;
rc.right = width * (aveCharWidth + aveCharWidth / 3);
// Add horizontal padding and borders
int horizontal_separator=0;
gtk_widget_style_get(PWidget(list),
"horizontal-separator", &horizontal_separator, NULL);
rc.right += horizontal_separator;
#if GTK_CHECK_VERSION(3,0,0)
rc.right += (padding.left + padding.right
+ border.left + border.right
+ border_border.left + border_border.right
+ 2 * gtk_container_get_border_width(GTK_CONTAINER(PWidget(list))));
#else
rc.right += 2 * (PWidget(frame)->style->xthickness
+ GTK_CONTAINER(PWidget(list))->border_width);
#endif
if (Length() > rows) {
// Add the width of the scrollbar
GtkWidget *vscrollbar =
gtk_scrolled_window_get_vscrollbar(GTK_SCROLLED_WINDOW(scroller));
#if GTK_CHECK_VERSION(3,0,0)
gtk_widget_get_preferred_size(vscrollbar, NULL, &req);
#else
gtk_widget_size_request(vscrollbar, &req);
#endif
rc.right += req.width;
}
}
return rc;
}
int ListBoxX::CaretFromEdge() {
gint renderer_width, renderer_height;
gtk_cell_renderer_get_fixed_size(pixbuf_renderer, &renderer_width,
&renderer_height);
return 4 + renderer_width;
}
void ListBoxX::Clear() {
GtkTreeModel *model = gtk_tree_view_get_model(GTK_TREE_VIEW(list));
gtk_list_store_clear(GTK_LIST_STORE(model));
maxItemCharacters = 0;
}
static void init_pixmap(ListImage *list_image) {
if (list_image->rgba_data) {
// Drop any existing pixmap/bitmap as data may have changed
if (list_image->pixbuf)
g_object_unref(list_image->pixbuf);
list_image->pixbuf =
gdk_pixbuf_new_from_data(list_image->rgba_data->Pixels(),
GDK_COLORSPACE_RGB,
TRUE,
8,
list_image->rgba_data->GetWidth(),
list_image->rgba_data->GetHeight(),
list_image->rgba_data->GetWidth() * 4,
NULL,
NULL);
}
}
#define SPACING 5
void ListBoxX::Append(char *s, int type) {
ListImage *list_image = NULL;
if ((type >= 0) && pixhash) {
list_image = static_cast<ListImage *>(g_hash_table_lookup((GHashTable *) pixhash
, (gconstpointer) GINT_TO_POINTER(type)));
}
GtkTreeIter iter;
GtkListStore *store =
GTK_LIST_STORE(gtk_tree_view_get_model(GTK_TREE_VIEW(list)));
gtk_list_store_append(GTK_LIST_STORE(store), &iter);
if (list_image) {
if (NULL == list_image->pixbuf)
init_pixmap(list_image);
if (list_image->pixbuf) {
gtk_list_store_set(GTK_LIST_STORE(store), &iter,
PIXBUF_COLUMN, list_image->pixbuf,
TEXT_COLUMN, s, -1);
gint pixbuf_width = gdk_pixbuf_get_width(list_image->pixbuf);
gint renderer_height, renderer_width;
gtk_cell_renderer_get_fixed_size(pixbuf_renderer,
&renderer_width, &renderer_height);
if (pixbuf_width > renderer_width)
gtk_cell_renderer_set_fixed_size(pixbuf_renderer,
pixbuf_width, -1);
} else {
gtk_list_store_set(GTK_LIST_STORE(store), &iter,
TEXT_COLUMN, s, -1);
}
} else {
gtk_list_store_set(GTK_LIST_STORE(store), &iter,
TEXT_COLUMN, s, -1);
}
size_t len = strlen(s);
if (maxItemCharacters < len)
maxItemCharacters = len;
}
int ListBoxX::Length() {
if (wid)
return gtk_tree_model_iter_n_children(gtk_tree_view_get_model
(GTK_TREE_VIEW(list)), NULL);
return 0;
}
void ListBoxX::Select(int n) {
GtkTreeIter iter;
GtkTreeModel *model = gtk_tree_view_get_model(GTK_TREE_VIEW(list));
GtkTreeSelection *selection =
gtk_tree_view_get_selection(GTK_TREE_VIEW(list));
if (n < 0) {
gtk_tree_selection_unselect_all(selection);
return;
}
bool valid = gtk_tree_model_iter_nth_child(model, &iter, NULL, n) != FALSE;
if (valid) {
gtk_tree_selection_select_iter(selection, &iter);
// Move the scrollbar to show the selection.
int total = Length();
#if GTK_CHECK_VERSION(3,0,0)
GtkAdjustment *adj =
gtk_scrollable_get_vadjustment(GTK_SCROLLABLE(list));
#else
GtkAdjustment *adj =
gtk_tree_view_get_vadjustment(GTK_TREE_VIEW(list));
#endif
gfloat value = ((gfloat)n / total) * (gtk_adjustment_get_upper(adj) - gtk_adjustment_get_lower(adj))
+ gtk_adjustment_get_lower(adj) - gtk_adjustment_get_page_size(adj) / 2;
// Get cell height
int row_height = GetRowHeight();
int rows = Length();
if ((rows == 0) || (rows > desiredVisibleRows))
rows = desiredVisibleRows;
if (rows & 0x1) {
// Odd rows to display -- We are now in the middle.
// Align it so that we don't chop off rows.
value += (gfloat)row_height / 2.0;
}
// Clamp it.
value = (value < 0)? 0 : value;
value = (value > (gtk_adjustment_get_upper(adj) - gtk_adjustment_get_page_size(adj)))?
(gtk_adjustment_get_upper(adj) - gtk_adjustment_get_page_size(adj)) : value;
// Set it.
gtk_adjustment_set_value(adj, value);
} else {
gtk_tree_selection_unselect_all(selection);
}
if (delegate) {
ListBoxEvent event(ListBoxEvent::EventType::selectionChange);
delegate->ListNotify(&event);
}
}
int ListBoxX::GetSelection() {
int index = -1;
GtkTreeIter iter;
GtkTreeModel *model;
GtkTreeSelection *selection;
selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(list));
if (gtk_tree_selection_get_selected(selection, &model, &iter)) {
GtkTreePath *path = gtk_tree_model_get_path(model, &iter);
int *indices = gtk_tree_path_get_indices(path);
// Don't free indices.
if (indices)
index = indices[0];
gtk_tree_path_free(path);
}
return index;
}
int ListBoxX::Find(const char *prefix) {
GtkTreeIter iter;
GtkTreeModel *model =
gtk_tree_view_get_model(GTK_TREE_VIEW(list));
bool valid = gtk_tree_model_get_iter_first(model, &iter) != FALSE;
int i = 0;
while(valid) {
gchar *s;
gtk_tree_model_get(model, &iter, TEXT_COLUMN, &s, -1);
if (s && (0 == strncmp(prefix, s, strlen(prefix)))) {
g_free(s);
return i;
}
g_free(s);
valid = gtk_tree_model_iter_next(model, &iter) != FALSE;
i++;
}
return -1;
}
void ListBoxX::GetValue(int n, char *value, int len) {
char *text = NULL;
GtkTreeIter iter;
GtkTreeModel *model = gtk_tree_view_get_model(GTK_TREE_VIEW(list));
bool valid = gtk_tree_model_iter_nth_child(model, &iter, NULL, n) != FALSE;
if (valid) {
gtk_tree_model_get(model, &iter, TEXT_COLUMN, &text, -1);
}
if (text && len > 0) {
g_strlcpy(value, text, len);
} else {
value[0] = '\0';
}
g_free(text);
}
// g_return_if_fail causes unnecessary compiler warning in release compile.
#ifdef _MSC_VER
#pragma warning(disable: 4127)
#endif
void ListBoxX::RegisterRGBA(int type, RGBAImage *image) {
images.Add(type, image);
if (!pixhash) {
pixhash = g_hash_table_new(g_direct_hash, g_direct_equal);
}
ListImage *list_image = static_cast<ListImage *>(g_hash_table_lookup((GHashTable *) pixhash,
(gconstpointer) GINT_TO_POINTER(type)));
if (list_image) {
// Drop icon already registered
if (list_image->pixbuf)
g_object_unref(list_image->pixbuf);
list_image->pixbuf = NULL;
list_image->rgba_data = image;
} else {
list_image = g_new0(ListImage, 1);
list_image->rgba_data = image;
g_hash_table_insert((GHashTable *) pixhash, GINT_TO_POINTER(type),
(gpointer) list_image);
}
}
void ListBoxX::RegisterImage(int type, const char *xpm_data) {
g_return_if_fail(xpm_data);
XPM xpmImage(xpm_data);
RegisterRGBA(type, new RGBAImage(xpmImage));
}
void ListBoxX::RegisterRGBAImage(int type, int width, int height, const unsigned char *pixelsImage) {
RegisterRGBA(type, new RGBAImage(width, height, 1.0, pixelsImage));
}
void ListBoxX::ClearRegisteredImages() {
images.Clear();
}
void ListBoxX::SetDelegate(IListBoxDelegate *lbDelegate) {
delegate = lbDelegate;
}
void ListBoxX::SetList(const char *listText, char separator, char typesep) {
Clear();
int count = strlen(listText) + 1;
std::vector<char> words(listText, listText+count);
char *startword = &words[0];
char *numword = NULL;
int i = 0;
for (; words[i]; i++) {
if (words[i] == separator) {
words[i] = '\0';
if (numword)
*numword = '\0';
Append(startword, numword?atoi(numword + 1):-1);
startword = &words[0] + i + 1;
numword = NULL;
} else if (words[i] == typesep) {
numword = &words[0] + i;
}
}
if (startword) {
if (numword)
*numword = '\0';
Append(startword, numword?atoi(numword + 1):-1);
}
}
Menu::Menu() noexcept : mid(0) {}
void Menu::CreatePopUp() {
Destroy();
mid = gtk_menu_new();
g_object_ref_sink(G_OBJECT(mid));
}
void Menu::Destroy() {
if (mid)
g_object_unref(G_OBJECT(mid));
mid = 0;
}
#if !GTK_CHECK_VERSION(3,22,0)
static void MenuPositionFunc(GtkMenu *, gint *x, gint *y, gboolean *, gpointer userData) {
sptr_t intFromPointer = GPOINTER_TO_INT(userData);
*x = intFromPointer & 0xffff;
*y = intFromPointer >> 16;
}
#endif
void Menu::Show(Point pt, Window &w) {
GtkMenu *widget = static_cast<GtkMenu *>(mid);
gtk_widget_show_all(GTK_WIDGET(widget));
#if GTK_CHECK_VERSION(3,22,0)
// Rely on GTK+ to do the right thing with positioning
gtk_menu_popup_at_pointer(widget, NULL);
#else
GdkRectangle rcMonitor = MonitorRectangleForWidget(PWidget(w.GetID()));
GtkRequisition requisition;
#if GTK_CHECK_VERSION(3,0,0)
gtk_widget_get_preferred_size(GTK_WIDGET(widget), NULL, &requisition);
#else
gtk_widget_size_request(GTK_WIDGET(widget), &requisition);
#endif
if ((pt.x + requisition.width) > rcMonitor.x + rcMonitor.width) {
pt.x = rcMonitor.x + rcMonitor.width - requisition.width;
}
if ((pt.y + requisition.height) > rcMonitor.y + rcMonitor.height) {
pt.y = rcMonitor.y + rcMonitor.height - requisition.height;
}
gtk_menu_popup(widget, NULL, NULL, MenuPositionFunc,
GINT_TO_POINTER((static_cast<int>(pt.y) << 16) | static_cast<int>(pt.x)), 0,
gtk_get_current_event_time());
#endif
}
class DynamicLibraryImpl : public DynamicLibrary {
protected:
GModule* m;
public:
explicit DynamicLibraryImpl(const char *modulePath) {
m = g_module_open(modulePath, G_MODULE_BIND_LAZY);
}
~DynamicLibraryImpl() override {
if (m != NULL)
g_module_close(m);
}
// Use g_module_symbol to get a pointer to the relevant function.
Function FindFunction(const char *name) override {
if (m != NULL) {
gpointer fn_address = NULL;
gboolean status = g_module_symbol(m, name, &fn_address);
if (status)
return static_cast<Function>(fn_address);
else
return NULL;
} else {
return NULL;
}
}
bool IsValid() override {
return m != NULL;
}
};
DynamicLibrary *DynamicLibrary::Load(const char *modulePath) {
return static_cast<DynamicLibrary *>( new DynamicLibraryImpl(modulePath) );
}
ColourDesired Platform::Chrome() {
return ColourDesired(0xe0, 0xe0, 0xe0);
}
ColourDesired Platform::ChromeHighlight() {
return ColourDesired(0xff, 0xff, 0xff);
}
const char *Platform::DefaultFont() {
#ifdef G_OS_WIN32
return "Lucida Console";
#else
return "!Sans";
#endif
}
int Platform::DefaultFontSize() {
#ifdef G_OS_WIN32
return 10;
#else
return 12;
#endif
}
unsigned int Platform::DoubleClickTime() {
return 500; // Half a second
}
void Platform::DebugDisplay(const char *s) {
fprintf(stderr, "%s", s);
}
//#define TRACE
#ifdef TRACE
void Platform::DebugPrintf(const char *format, ...) {
char buffer[2000];
va_list pArguments;
va_start(pArguments, format);
vsprintf(buffer, format, pArguments);
va_end(pArguments);
Platform::DebugDisplay(buffer);
}
#else
void Platform::DebugPrintf(const char *, ...) {}
#endif
// Not supported for GTK+
static bool assertionPopUps = true;
bool Platform::ShowAssertionPopUps(bool assertionPopUps_) {
bool ret = assertionPopUps;
assertionPopUps = assertionPopUps_;
return ret;
}
void Platform::Assert(const char *c, const char *file, int line) {
char buffer[2000];
g_snprintf(buffer, sizeof(buffer), "Assertion [%s] failed at %s %d\r\n", c, file, line);
Platform::DebugDisplay(buffer);
abort();
}
void Platform_Initialise() {
}
void Platform_Finalise() {
}