/*
* Configurable text colors
* Copyright (C) 2008 Douglas Boffey <dougaboffey@netscape.net>
*
* This file is part of The Mana Client.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "gui/setup_colors.h"
#include "configuration.h"
#include "gui/gui.h"
#include "gui/theme.h"
#include "gui/userpalette.h"
#include "gui/widgets/browserbox.h"
#include "gui/widgets/itemlinkhandler.h"
#include "gui/widgets/label.h"
#include "gui/widgets/layouthelper.h"
#include "gui/widgets/listbox.h"
#include "gui/widgets/scrollarea.h"
#include "gui/widgets/slider.h"
#include "gui/widgets/textfield.h"
#include "gui/widgets/textpreview.h"
#include "utils/gettext.h"
#include "utils/stringutils.h"
#include <string>
#include <cmath>
const std::string Setup_Colors::rawmsg =
_("This is what the color looks like");
Setup_Colors::Setup_Colors() :
mSelected(-1)
{
setName(_("Colors"));
mColorBox = new ListBox(userPalette);
mColorBox->addSelectionListener(this);
mScroll = new ScrollArea(mColorBox);
mScroll->setHorizontalScrollPolicy(gcn::ScrollArea::SHOW_NEVER);
mTextPreview = new TextPreview(rawmsg);
mPreview = new BrowserBox(BrowserBox::AUTO_WRAP);
mPreview->setOpaque(false);
// don't do anything with links
mPreview->setLinkHandler(NULL);
mPreviewBox = new ScrollArea(mPreview);
mPreviewBox->setHeight(20);
mPreviewBox->setScrollPolicy(gcn::ScrollArea::SHOW_NEVER,
gcn::ScrollArea::SHOW_NEVER);
mGradTypeLabel = new Label(_("Type:"));
mGradTypeSlider = new Slider(0, 3);
mGradTypeSlider->setWidth(180);
mGradTypeSlider->setActionEventId("slider_grad");
mGradTypeSlider->setValue(0);
mGradTypeSlider->addActionListener(this);
mGradTypeSlider->setEnabled(false);
mGradTypeText = new Label;
std::string longText = _("Static");
if (getFont()->getWidth(_("Pulse")) > getFont()->getWidth(longText))
longText = _("Pulse");
if (getFont()->getWidth(_("Rainbow")) > getFont()->getWidth(longText))
longText = _("Rainbow");
if (getFont()->getWidth(_("Spectrum")) > getFont()->getWidth(longText))
longText = _("Spectrum");
mGradTypeText->setCaption(longText);
mGradDelayLabel = new Label(_("Delay:"));
mGradDelayText = new TextField();
mGradDelayText->setWidth(40);
mGradDelayText->setRange(20, 100);
mGradDelayText->setNumeric(true);
mGradDelayText->setEnabled(false);
mGradDelaySlider = new Slider(20, 100);
mGradDelaySlider->setWidth(180);
mGradDelaySlider->setValue(mGradDelayText->getValue());
mGradDelaySlider->setActionEventId("slider_graddelay");
mGradDelaySlider->addActionListener(this);
mGradDelaySlider->setEnabled(false);
mRedLabel = new Label(_("Red:"));
mRedText = new TextField;
mRedText->setWidth(40);
mRedText->setRange(0, 255);
mRedText->setNumeric(true);
mRedText->setEnabled(false);
mRedSlider = new Slider(0, 255);
mRedSlider->setWidth(180);
mRedSlider->setValue(mRedText->getValue());
mRedSlider->setActionEventId("slider_red");
mRedSlider->addActionListener(this);
mRedSlider->setEnabled(false);
mGreenLabel = new Label(_("Green:"));
mGreenText = new TextField;
mGreenText->setWidth(40);
mGreenText->setRange(0, 255);
mGreenText->setNumeric(true);
mGreenText->setEnabled(false);
mGreenSlider = new Slider(0, 255);
mGreenSlider->setWidth(180);
mGreenSlider->setValue(mGreenText->getValue());
mGreenSlider->setActionEventId("slider_green");
mGreenSlider->addActionListener(this);
mGreenSlider->setEnabled(false);
mBlueLabel = new Label(_("Blue:"));
mBlueText = new TextField;
mBlueText->setWidth(40);
mBlueText->setRange(0, 255);
mBlueText->setNumeric(true);
mBlueText->setEnabled(false);
mBlueSlider = new Slider(0, 255);
mBlueSlider->setWidth(180);
mBlueSlider->setValue(mBlueText->getValue());
mBlueSlider->setActionEventId("slider_blue");
mBlueSlider->addActionListener(this);
mBlueSlider->setEnabled(false);
setOpaque(false);
// Do the layout
LayoutHelper h(this);
ContainerPlacer place = h.getPlacer(0, 0);
place(0, 0, mScroll, 6, 6).setPadding(2);
place(0, 6, mPreviewBox, 6).setPadding(2);
place(0, 7, mGradTypeLabel, 3);
place(3, 7, mGradTypeSlider);
place(4, 7, mGradTypeText, 2).setPadding(1);
place(0, 8, mRedLabel, 3);
place(3, 8, mRedSlider);
place(5, 8, mRedText).setPadding(1);
place(0, 9, mGreenLabel, 3);
place(3, 9, mGreenSlider);
place(5, 9, mGreenText).setPadding(1);
place(0, 10, mBlueLabel, 3);
place(3, 10, mBlueSlider);
place(5, 10, mBlueText).setPadding(1);
place(0, 11, mGradDelayLabel, 3);
place(3, 11, mGradDelaySlider);
place(5, 11, mGradDelayText).setPadding(1);
mGradTypeText->setCaption("");
setDimension(gcn::Rectangle(0, 0, 365, 350));
}
Setup_Colors::~Setup_Colors()
{
if (mPreviewBox && mPreviewBox->getContent() == mPreview)
{
delete mTextPreview;
mTextPreview = 0;
}
else
{
delete mPreview;
mPreview = 0;
}
}
void Setup_Colors::action(const gcn::ActionEvent &event)
{
if (event.getId() == "slider_grad")
{
updateGradType();
updateColor();
return;
}
if (event.getId() == "slider_graddelay")
{
mGradDelayText->setText(toString(
std::floor(mGradDelaySlider->getValue())));
updateColor();
return;
}
if (event.getId() == "slider_red")
{
mRedText->setText(toString(std::floor(mRedSlider->getValue())));
updateColor();
return;
}
if (event.getId() == "slider_green")
{
mGreenText->setText(toString(std::floor(mGreenSlider->getValue())));
updateColor();
return;
}
if (event.getId() == "slider_blue")
{
mBlueText->setText(toString(std::floor(mBlueSlider->getValue())));
updateColor();
return;
}
}
void Setup_Colors::valueChanged(const gcn::SelectionEvent &event _UNUSED_)
{
if (!userPalette)
return;
mSelected = mColorBox->getSelected();
int type = userPalette->getColorTypeAt(mSelected);
const gcn::Color *col = &userPalette->getColor(type);
Palette::GradientType grad = userPalette->getGradientType(type);
const int delay = userPalette->getGradientDelay(type);
mPreview->clearRows();
mPreviewBox->setContent(mTextPreview);
mTextPreview->setFont(boldFont);
mTextPreview->setTextColor(col);
mTextPreview->setTextBGColor(NULL);
mTextPreview->setOpaque(false);
mTextPreview->setShadow(true);
mTextPreview->setOutline(true);
mTextPreview->useTextAlpha(false);
switch (type)
{
case UserPalette::COLLISION_HIGHLIGHT:
case UserPalette::PORTAL_HIGHLIGHT:
case UserPalette::HOME_PLACE:
case UserPalette::ROAD_POINT:
mTextPreview->setBGColor(col);
mTextPreview->setOpaque(true);
mTextPreview->setOutline(false);
mTextPreview->setShadow(false);
break;
case UserPalette::ATTACK_RANGE_BORDER:
case UserPalette::HOME_PLACE_BORDER:
mTextPreview->setFont(gui->getFont());
mTextPreview->setTextColor(col);
mTextPreview->setOutline(false);
mTextPreview->setShadow(false);
break;
case UserPalette::PARTICLE:
case UserPalette::EXP_INFO:
case UserPalette::PICKUP_INFO:
case UserPalette::HIT_PLAYER_MONSTER:
case UserPalette::HIT_MONSTER_PLAYER:
case UserPalette::HIT_CRITICAL:
case UserPalette::MISS:
case UserPalette::HIT_LOCAL_PLAYER_MONSTER:
case UserPalette::HIT_LOCAL_PLAYER_CRITICAL:
case UserPalette::HIT_LOCAL_PLAYER_MISS:
case UserPalette::ATTACK_RANGE:
case UserPalette::MONSTER_ATTACK_RANGE:
mTextPreview->setShadow(false);
default:
break;
}
switch (type)
{
case UserPalette::PORTAL_HIGHLIGHT:
case UserPalette::ATTACK_RANGE:
case UserPalette::ATTACK_RANGE_BORDER:
case UserPalette::MONSTER_ATTACK_RANGE:
case UserPalette::HOME_PLACE:
case UserPalette::HOME_PLACE_BORDER:
case UserPalette::COLLISION_HIGHLIGHT:
case UserPalette::WALKABLE_HIGHLIGHT:
case UserPalette::ROAD_POINT:
case UserPalette::MONSTER_HP:
case UserPalette::MONSTER_HP2:
case UserPalette::PLAYER_HP:
case UserPalette::PLAYER_HP2:
mGradDelayLabel->setCaption(_("Alpha:"));
mGradDelayText->setRange(0, 255);
mGradDelaySlider->setScale(0, 255);
break;
default:
mGradDelayLabel->setCaption(_("Delay:"));
mGradDelayText->setRange(20, 100);
mGradDelaySlider->setScale(20, 100);
break;
}
if (grad != Palette::STATIC && grad != Palette::PULSE)
{ // If nonstatic color, don't display the current, but the committed
// color at the sliders
col = &userPalette->getCommittedColor(type);
}
else if (grad == Palette::PULSE)
{
col = &userPalette->getTestColor(type);
}
setEntry(mGradDelaySlider, mGradDelayText, delay);
setEntry(mRedSlider, mRedText, col->r);
setEntry(mGreenSlider, mGreenText, col->g);
setEntry(mBlueSlider, mBlueText, col->b);
mGradTypeSlider->setValue(grad);
updateGradType();
mGradTypeSlider->setEnabled(true);
}
void Setup_Colors::setEntry(gcn::Slider *s, TextField *t, int value)
{
if (s)
s->setValue(value);
if (t)
{
char buffer[100];
sprintf(buffer, "%d", value);
t->setText(buffer);
}
}
void Setup_Colors::apply()
{
if (userPalette)
userPalette->commit();
}
void Setup_Colors::cancel()
{
if (!userPalette)
return;
userPalette->rollback();
int type = userPalette->getColorTypeAt(mSelected);
const gcn::Color *col = &userPalette->getColor(type);
mGradTypeSlider->setValue(userPalette->getGradientType(type));
const int delay = userPalette->getGradientDelay(type);
setEntry(mGradDelaySlider, mGradDelayText, delay);
setEntry(mRedSlider, mRedText, col->r);
setEntry(mGreenSlider, mGreenText, col->g);
setEntry(mBlueSlider, mBlueText, col->b);
}
#if 0
void Setup_Colors::listen(const TextField *tf)
{
if (!tf)
return;
if (tf == mGradDelayText)
mGradDelaySlider->setValue(tf->getValue());
else if (tf == mRedText)
mRedSlider->setValue(tf->getValue());
else if (tf == mGreenText)
mGreenSlider->setValue(tf->getValue());
else if (tf == mBlueText)
mBlueSlider->setValue(tf->getValue());
updateColor();
}
#endif
void Setup_Colors::updateGradType()
{
if (mSelected == -1 || !userPalette)
return;
mSelected = mColorBox->getSelected();
int type = userPalette->getColorTypeAt(mSelected);
Palette::GradientType grad = userPalette->getGradientType(type);
mGradTypeText->setCaption(
(grad == Palette::STATIC) ? _("Static") :
(grad == Palette::PULSE) ? _("Pulse") :
(grad == Palette::RAINBOW) ? _("Rainbow") : _("Spectrum"));
const bool enable = (grad == Palette::STATIC || grad == Palette::PULSE);
// const bool delayEnable = (grad != Palette::STATIC);
const bool delayEnable = true;
mGradDelayText->setEnabled(delayEnable);
mGradDelaySlider->setEnabled(delayEnable);
mRedText->setEnabled(enable);
mRedSlider->setEnabled(enable);
mGreenText->setEnabled(enable);
mGreenSlider->setEnabled(enable);
mBlueText->setEnabled(enable);
mBlueSlider->setEnabled(enable);
}
void Setup_Colors::updateColor()
{
if (mSelected == -1 || !userPalette)
return;
int type = userPalette->getColorTypeAt(mSelected);
Palette::GradientType grad = static_cast<Palette::GradientType>(
static_cast<int>(mGradTypeSlider->getValue()));
int delay = static_cast<int>(mGradDelaySlider->getValue());
userPalette->setGradient(type, grad);
userPalette->setGradientDelay(type, delay);
if (grad == Palette::STATIC)
{
userPalette->setColor(type,
static_cast<int>(mRedSlider->getValue()),
static_cast<int>(mGreenSlider->getValue()),
static_cast<int>(mBlueSlider->getValue()));
}
else if (grad == Palette::PULSE)
{
userPalette->setTestColor(type, gcn::Color(
static_cast<int>(mRedSlider->getValue()),
static_cast<int>(mGreenSlider->getValue()),
static_cast<int>(mBlueSlider->getValue())));
}
}