/*
Minetest
Copyright (C) 2010-2013 celeron55, Perttu Ahola <celeron55@gmail.com>
Copyright (C) 2010-2013 blue42u, Jonathon Anderson <anderjon@umail.iu.edu>
Copyright (C) 2010-2013 kwolekr, Ryan Kwolek <kwolekr@minetest.net>

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) 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 Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/

#include "client/hud.h"
#include <string>
#include <iostream>
#include <cmath>
#include "settings.h"
#include "util/numeric.h"
#include "log.h"
#include "client.h"
#include "inventory.h"
#include "shader.h"
#include "client/tile.h"
#include "localplayer.h"
#include "camera.h"
#include "porting.h"
#include "fontengine.h"
#include "guiscalingfilter.h"
#include "mesh.h"
#include "wieldmesh.h"
#include "client/renderingengine.h"
#include "client/minimap.h"

#ifdef HAVE_TOUCHSCREENGUI
#include "gui/touchscreengui.h"
#endif

#define OBJECT_CROSSHAIR_LINE_SIZE 8
#define CROSSHAIR_LINE_SIZE 10

Hud::Hud(Client *client, LocalPlayer *player,
		Inventory *inventory)
{
	driver            = RenderingEngine::get_video_driver();
	this->client      = client;
	this->player      = player;
	this->inventory   = inventory;

	m_hud_scaling      = g_settings->getFloat("hud_scaling", 1.0f, 20.0f);
	m_scale_factor     = m_hud_scaling * RenderingEngine::getDisplayDensity();
	m_hotbar_imagesize = std::floor(HOTBAR_IMAGE_SIZE *
		RenderingEngine::getDisplayDensity() + 0.5f);
	m_hotbar_imagesize *= m_hud_scaling;
	m_padding = m_hotbar_imagesize / 12;

	for (auto &hbar_color : hbar_colors)
		hbar_color = video::SColor(255, 255, 255, 255);

	tsrc = client->getTextureSource();

	v3f crosshair_color = g_settings->getV3F("crosshair_color");
	u32 cross_r = rangelim(myround(crosshair_color.X), 0, 255);
	u32 cross_g = rangelim(myround(crosshair_color.Y), 0, 255);
	u32 cross_b = rangelim(myround(crosshair_color.Z), 0, 255);
	u32 cross_a = rangelim(g_settings->getS32("crosshair_alpha"), 0, 255);
	crosshair_argb = video::SColor(cross_a, cross_r, cross_g, cross_b);

	v3f selectionbox_color = g_settings->getV3F("selectionbox_color");
	u32 sbox_r = rangelim(myround(selectionbox_color.X), 0, 255);
	u32 sbox_g = rangelim(myround(selectionbox_color.Y), 0, 255);
	u32 sbox_b = rangelim(myround(selectionbox_color.Z), 0, 255);
	selectionbox_argb = video::SColor(255, sbox_r, sbox_g, sbox_b);

	use_crosshair_image = tsrc->isKnownSourceImage("crosshair.png");
	use_object_crosshair_image = tsrc->isKnownSourceImage("object_crosshair.png");

	m_selection_boxes.clear();
	m_halo_boxes.clear();

	std::string mode_setting = g_settings->get("node_highlighting");

	if (mode_setting == "halo") {
		m_mode = HIGHLIGHT_HALO;
	} else if (mode_setting == "none") {
		m_mode = HIGHLIGHT_NONE;
	} else {
		m_mode = HIGHLIGHT_BOX;
	}

	m_selection_material.Lighting = false;

	if (g_settings->getBool("enable_shaders")) {
		IShaderSource *shdrsrc = client->getShaderSource();
		u16 shader_id = shdrsrc->getShader(
			m_mode == HIGHLIGHT_HALO ? "selection_shader" : "default_shader", TILE_MATERIAL_ALPHA);
		m_selection_material.MaterialType = shdrsrc->getShaderInfo(shader_id).material;
	} else {
		m_selection_material.MaterialType = video::EMT_TRANSPARENT_ALPHA_CHANNEL;
	}

	if (m_mode == HIGHLIGHT_BOX) {
		m_selection_material.Thickness =
			rangelim(g_settings->getS16("selectionbox_width"), 1, 5);
	} else if (m_mode == HIGHLIGHT_HALO) {
		m_selection_material.setTexture(0, tsrc->getTextureForMesh("halo.png"));
		m_selection_material.setFlag(video::EMF_BACK_FACE_CULLING, true);
	} else {
		m_selection_material.MaterialType = video::EMT_SOLID;
	}

	// Prepare mesh for compass drawing
	m_rotation_mesh_buffer.Vertices.set_used(4);
	m_rotation_mesh_buffer.Indices.set_used(6);

	video::SColor white(255, 255, 255, 255);
	v3f normal(0.f, 0.f, 1.f);

	m_rotation_mesh_buffer.Vertices[0] = video::S3DVertex(v3f(-1.f, -1.f, 0.f), normal, white, v2f(0.f, 1.f));
	m_rotation_mesh_buffer.Vertices[1] = video::S3DVertex(v3f(-1.f,  1.f, 0.f), normal, white, v2f(0.f, 0.f));
	m_rotation_mesh_buffer.Vertices[2] = video::S3DVertex(v3f( 1.f,  1.f, 0.f), normal, white, v2f(1.f, 0.f));
	m_rotation_mesh_buffer.Vertices[3] = video::S3DVertex(v3f( 1.f, -1.f, 0.f), normal, white, v2f(1.f, 1.f));

	m_rotation_mesh_buffer.Indices[0] = 0;
	m_rotation_mesh_buffer.Indices[1] = 1;
	m_rotation_mesh_buffer.Indices[2] = 2;
	m_rotation_mesh_buffer.Indices[3] = 2;
	m_rotation_mesh_buffer.Indices[4] = 3;
	m_rotation_mesh_buffer.Indices[5] = 0;

	m_rotation_mesh_buffer.getMaterial().Lighting = false;
	m_rotation_mesh_buffer.getMaterial().MaterialType = video::EMT_TRANSPARENT_ALPHA_CHANNEL;
}

Hud::~Hud()
{
	if (m_selection_mesh)
		m_selection_mesh->drop();
}

void Hud::drawItem(const ItemStack &item, const core::rect<s32>& rect,
		bool selected)
{
	if (selected) {
		/* draw hihlighting around selected item */
		if (use_hotbar_selected_image) {
			core::rect<s32> imgrect2 = rect;
			imgrect2.UpperLeftCorner.X  -= (m_padding*2);
			imgrect2.UpperLeftCorner.Y  -= (m_padding*2);
			imgrect2.LowerRightCorner.X += (m_padding*2);
			imgrect2.LowerRightCorner.Y += (m_padding*2);
				video::ITexture *texture = tsrc->getTexture(hotbar_selected_image);
				core::dimension2di imgsize(texture->getOriginalSize());
			draw2DImageFilterScaled(driver, texture, imgrect2,
					core::rect<s32>(core::position2d<s32>(0,0), imgsize),
					NULL, hbar_colors, true);
		} else {
			video::SColor c_outside(255,255,0,0);
			//video::SColor c_outside(255,0,0,0);
			//video::SColor c_inside(255,192,192,192);
			s32 x1 = rect.UpperLeftCorner.X;
			s32 y1 = rect.UpperLeftCorner.Y;
			s32 x2 = rect.LowerRightCorner.X;
			s32 y2 = rect.LowerRightCorner.Y;
			// Black base borders
			driver->draw2DRectangle(c_outside,
				core::rect<s32>(
				v2s32(x1 - m_padding, y1 - m_padding),
				v2s32(x2 + m_padding, y1)
				), NULL);
			driver->draw2DRectangle(c_outside,
				core::rect<s32>(
				v2s32(x1 - m_padding, y2),
				v2s32(x2 + m_padding, y2 + m_padding)
				), NULL);
			driver->draw2DRectangle(c_outside,
				core::rect<s32>(
				v2s32(x1 - m_padding, y1),
					v2s32(x1, y2)
				), NULL);
			driver->draw2DRectangle(c_outside,
				core::rect<s32>(
					v2s32(x2, y1),
				v2s32(x2 + m_padding, y2)
				), NULL);
			/*// Light inside borders
			driver->draw2DRectangle(c_inside,
				core::rect<s32>(
					v2s32(x1 - padding/2, y1 - padding/2),
					v2s32(x2 + padding/2, y1)
				), NULL);
			driver->draw2DRectangle(c_inside,
				core::rect<s32>(
					v2s32(x1 - padding/2, y2),
					v2s32(x2 + padding/2, y2 + padding/2)
				), NULL);
			driver->draw2DRectangle(c_inside,
				core::rect<s32>(
					v2s32(x1 - padding/2, y1),
					v2s32(x1, y2)
				), NULL);
			driver->draw2DRectangle(c_inside,
				core::rect<s32>(
					v2s32(x2, y1),
					v2s32(x2 + padding/2, y2)
				), NULL);
			*/
		}
	}

	video::SColor bgcolor2(128, 0, 0, 0);
	if (!use_hotbar_image)
		driver->draw2DRectangle(bgcolor2, rect, NULL);
	drawItemStack(driver, g_fontengine->getFont(), item, rect, NULL,
		client, selected ? IT_ROT_SELECTED : IT_ROT_NONE);
}

//NOTE: selectitem = 0 -> no selected; selectitem 1-based
// mainlist can be NULL, but draw the frame anyway.
void Hud::drawItems(v2s32 upperleftpos, v2s32 screen_offset, s32 itemcount,
		s32 inv_offset, InventoryList *mainlist, u16 selectitem, u16 direction)
{
#ifdef HAVE_TOUCHSCREENGUI
	if (g_touchscreengui && inv_offset == 0)
		g_touchscreengui->resetHud();
#endif

	s32 height  = m_hotbar_imagesize + m_padding * 2;
	s32 width   = (itemcount - inv_offset) * (m_hotbar_imagesize + m_padding * 2);

	if (direction == HUD_DIR_TOP_BOTTOM || direction == HUD_DIR_BOTTOM_TOP) {
		s32 tmp = height;
		height = width;
		width = tmp;
	}

	// Position of upper left corner of bar
	v2s32 pos = screen_offset * m_scale_factor;
	pos += upperleftpos;

	// Store hotbar_image in member variable, used by drawItem()
	if (hotbar_image != player->hotbar_image) {
		hotbar_image = player->hotbar_image;
		use_hotbar_image = !hotbar_image.empty();
	}

	// Store hotbar_selected_image in member variable, used by drawItem()
	if (hotbar_selected_image != player->hotbar_selected_image) {
		hotbar_selected_image = player->hotbar_selected_image;
		use_hotbar_selected_image = !hotbar_selected_image.empty();
	}

	// draw customized item background
	if (use_hotbar_image) {
		core::rect<s32> imgrect2(-m_padding/2, -m_padding/2,
			width+m_padding/2, height+m_padding/2);
		core::rect<s32> rect2 = imgrect2 + pos;
		video::ITexture *texture = tsrc->getTexture(hotbar_image);
		core::dimension2di imgsize(texture->getOriginalSize());
		draw2DImageFilterScaled(driver, texture, rect2,
			core::rect<s32>(core::position2d<s32>(0,0), imgsize),
			NULL, hbar_colors, true);
	}

	// Draw items
	core::rect<s32> imgrect(0, 0, m_hotbar_imagesize, m_hotbar_imagesize);
	const s32 list_size = mainlist ? mainlist->getSize() : 0;
	for (s32 i = inv_offset; i < itemcount && i < list_size; i++) {
		s32 fullimglen = m_hotbar_imagesize + m_padding * 2;

		v2s32 steppos;
		switch (direction) {
		case HUD_DIR_RIGHT_LEFT:
			steppos = v2s32(-(m_padding + (i - inv_offset) * fullimglen), m_padding);
			break;
		case HUD_DIR_TOP_BOTTOM:
			steppos = v2s32(m_padding, m_padding + (i - inv_offset) * fullimglen);
			break;
		case HUD_DIR_BOTTOM_TOP:
			steppos = v2s32(m_padding, -(m_padding + (i - inv_offset) * fullimglen));
			break;
		default:
			steppos = v2s32(m_padding + (i - inv_offset) * fullimglen, m_padding);
			break;
		}

		drawItem(mainlist->getItem(i), (imgrect + pos + steppos), (i + 1) == selectitem);

#ifdef HAVE_TOUCHSCREENGUI
		if (g_touchscreengui)
			g_touchscreengui->registerHudItem(i, (imgrect + pos + steppos));
#endif
	}
}

bool Hud::hasElementOfType(HudElementType type)
{
	for (size_t i = 0; i != player->maxHudId(); i++) {
		HudElement *e = player->getHud(i);
		if (!e)
			continue;
		if (e->type == type)
			return true;
	}
	return false;
}

// Calculates screen position of waypoint. Returns true if waypoint is visible (in front of the player), else false.
bool Hud::calculateScreenPos(const v3s16 &camera_offset, HudElement *e, v2s32 *pos)
{
	v3f w_pos = e->world_pos * BS;
	scene::ICameraSceneNode* camera =
		client->getSceneManager()->getActiveCamera();
	w_pos -= intToFloat(camera_offset, BS);
	core::matrix4 trans = camera->getProjectionMatrix();
	trans *= camera->getViewMatrix();
	f32 transformed_pos[4] = { w_pos.X, w_pos.Y, w_pos.Z, 1.0f };
	trans.multiplyWith1x4Matrix(transformed_pos);
	if (transformed_pos[3] < 0)
		return false;
	f32 zDiv = transformed_pos[3] == 0.0f ? 1.0f :
		core::reciprocal(transformed_pos[3]);
	pos->X = m_screensize.X * (0.5 * transformed_pos[0] * zDiv + 0.5);
	pos->Y = m_screensize.Y * (0.5 - transformed_pos[1] * zDiv * 0.5);
	return true;
}

void Hud::drawLuaElements(const v3s16 &camera_offset)
{
	const u32 text_height = g_fontengine->getTextHeight();
	gui::IGUIFont *const font = g_fontengine->getFont();

	// Reorder elements by z_index
	std::vector<HudElement*> elems;
	elems.reserve(player->maxHudId());

	for (size_t i = 0; i != player->maxHudId(); i++) {
		HudElement *e = player->getHud(i);
		if (!e)
			continue;

		auto it = elems.begin();
		while (it != elems.end() && (*it)->z_index <= e->z_index)
			++it;

		elems.insert(it, e);
	}

	for (HudElement *e : elems) {

		v2s32 pos(floor(e->pos.X * (float) m_screensize.X + 0.5),
				floor(e->pos.Y * (float) m_screensize.Y + 0.5));
		switch (e->type) {
			case HUD_ELEM_TEXT: {
				unsigned int font_size = g_fontengine->getDefaultFontSize();

				if (e->size.X > 0)
					font_size *= e->size.X;

#ifdef __ANDROID__
				// The text size on Android is not proportional with the actual scaling
				// FIXME: why do we have such a weird unportable hack??
				if (font_size > 3 && e->offset.X < -20)
					font_size -= 3;
#endif
				auto textfont = g_fontengine->getFont(FontSpec(font_size,
					(e->style & HUD_STYLE_MONO) ? FM_Mono : FM_Unspecified,
					e->style & HUD_STYLE_BOLD, e->style & HUD_STYLE_ITALIC));

				video::SColor color(255, (e->number >> 16) & 0xFF,
										 (e->number >> 8)  & 0xFF,
										 (e->number >> 0)  & 0xFF);
				std::wstring text = unescape_translate(utf8_to_wide(e->text));
				core::dimension2d<u32> textsize = textfont->getDimension(text.c_str());

				v2s32 offset(0, (e->align.Y - 1.0) * (textsize.Height / 2));
				core::rect<s32> size(0, 0, e->scale.X * m_scale_factor,
						text_height * e->scale.Y * m_scale_factor);
				v2s32 offs(e->offset.X * m_scale_factor,
						e->offset.Y * m_scale_factor);
				std::wstringstream wss(text);
				std::wstring line;
				while (std::getline(wss, line, L'\n'))
				{
					core::dimension2d<u32> linesize = textfont->getDimension(line.c_str());
					v2s32 line_offset((e->align.X - 1.0) * (linesize.Width / 2), 0);
					textfont->draw(line.c_str(), size + pos + offset + offs + line_offset, color);
					offset.Y += linesize.Height;
				}
				break; }
			case HUD_ELEM_STATBAR: {
				v2s32 offs(e->offset.X, e->offset.Y);
				drawStatbar(pos, HUD_CORNER_UPPER, e->dir, e->text, e->text2,
					e->number, e->item, offs, e->size);
				break; }
			case HUD_ELEM_INVENTORY: {
				InventoryList *inv = inventory->getList(e->text);
				if (!inv)
					warningstream << "HUD: Unknown inventory list. name=" << e->text << std::endl;
				drawItems(pos, v2s32(e->offset.X, e->offset.Y), e->number, 0,
					inv, e->item, e->dir);
				break; }
			case HUD_ELEM_WAYPOINT: {
				if (!calculateScreenPos(camera_offset, e, &pos))
					break;
				v3f p_pos = player->getPosition() / BS;
				pos += v2s32(e->offset.X, e->offset.Y);
				video::SColor color(255, (e->number >> 16) & 0xFF,
										 (e->number >> 8)  & 0xFF,
										 (e->number >> 0)  & 0xFF);
				std::wstring text = unescape_translate(utf8_to_wide(e->name));
				const std::string &unit = e->text;
				// waypoints reuse the item field to store precision, item = precision + 1
				u32 item = e->item;
				float precision = (item == 0) ? 10.0f : (item - 1.f);
				bool draw_precision = precision > 0;

				core::rect<s32> bounds(0, 0, font->getDimension(text.c_str()).Width, (draw_precision ? 2:1) * text_height);
				pos.Y += (e->align.Y - 1.0) * bounds.getHeight() / 2;
				bounds += pos;
				font->draw(text.c_str(), bounds + v2s32((e->align.X - 1.0) * bounds.getWidth() / 2, 0), color);
				if (draw_precision) {
					std::ostringstream os;
					float distance = std::floor(precision * p_pos.getDistanceFrom(e->world_pos)) / precision;
					os << distance << unit;
					text = unescape_translate(utf8_to_wide(os.str()));
					bounds.LowerRightCorner.X = bounds.UpperLeftCorner.X + font->getDimension(text.c_str()).Width;
					font->draw(text.c_str(), bounds + v2s32((e->align.X - 1.0f) * bounds.getWidth() / 2, text_height), color);
				}
				break; }
			case HUD_ELEM_IMAGE_WAYPOINT: {
				if (!calculateScreenPos(camera_offset, e, &pos))
					break;
			}
			case HUD_ELEM_IMAGE: {
				video::ITexture *texture = tsrc->getTexture(e->text);
				if (!texture)
					continue;

				const video::SColor color(255, 255, 255, 255);
				const video::SColor colors[] = {color, color, color, color};
				core::dimension2di imgsize(texture->getOriginalSize());
				v2s32 dstsize(imgsize.Width * e->scale.X * m_scale_factor,
				              imgsize.Height * e->scale.Y * m_scale_factor);
				if (e->scale.X < 0)
					dstsize.X = m_screensize.X * (e->scale.X * -0.01);
				if (e->scale.Y < 0)
					dstsize.Y = m_screensize.Y * (e->scale.Y * -0.01);
				v2s32 offset((e->align.X - 1.0) * dstsize.X / 2,
				             (e->align.Y - 1.0) * dstsize.Y / 2);
				core::rect<s32> rect(0, 0, dstsize.X, dstsize.Y);
				rect += pos + offset + v2s32(e->offset.X * m_scale_factor,
				                             e->offset.Y * m_scale_factor);
				draw2DImageFilterScaled(driver, texture, rect,
					core::rect<s32>(core::position2d<s32>(0,0), imgsize),
					NULL, colors, true);
				break; }
			case HUD_ELEM_COMPASS: {
				video::ITexture *texture = tsrc->getTexture(e->text);
				if (!texture)
					continue;

				// Positionning :
				v2s32 dstsize(e->size.X, e->size.Y);
				if (e->size.X < 0)
					dstsize.X = m_screensize.X * (e->size.X * -0.01);
				if (e->size.Y < 0)
					dstsize.Y = m_screensize.Y * (e->size.Y * -0.01);

				if (dstsize.X <= 0 || dstsize.Y <= 0)
					return; // Avoid zero divides

				// Angle according to camera view
				v3f fore(0.f, 0.f, 1.f);
				scene::ICameraSceneNode *cam = client->getSceneManager()->getActiveCamera();
				cam->getAbsoluteTransformation().rotateVect(fore);
				int angle = - fore.getHorizontalAngle().Y;

				// Limit angle and ajust with given offset
				angle = (angle + (int)e->number) % 360;

				core::rect<s32> dstrect(0, 0, dstsize.X, dstsize.Y);
				dstrect += pos + v2s32(
								(e->align.X - 1.0) * dstsize.X / 2,
								(e->align.Y - 1.0) * dstsize.Y / 2) +
						v2s32(e->offset.X * m_hud_scaling, e->offset.Y * m_hud_scaling);

				switch (e->dir) {
				case HUD_COMPASS_ROTATE:
					drawCompassRotate(e, texture, dstrect, angle);
					break;
				case HUD_COMPASS_ROTATE_REVERSE:
					drawCompassRotate(e, texture, dstrect, -angle);
					break;
				case HUD_COMPASS_TRANSLATE:
					drawCompassTranslate(e, texture, dstrect, angle);
					break;
				case HUD_COMPASS_TRANSLATE_REVERSE:
					drawCompassTranslate(e, texture, dstrect, -angle);
					break;
				default:
					break;
				}
				break; }
			case HUD_ELEM_MINIMAP: {
				if (e->size.X <= 0 || e->size.Y <= 0)
					break;
				if (!client->getMinimap())
					break;
				// Draw a minimap of size "size"
				v2s32 dstsize(e->size.X * m_scale_factor,
				              e->size.Y * m_scale_factor);
				// (no percent size as minimap would likely be anamorphosed)
				v2s32 offset((e->align.X - 1.0) * dstsize.X / 2,
				             (e->align.Y - 1.0) * dstsize.Y / 2);
				core::rect<s32> rect(0, 0, dstsize.X, dstsize.Y);
				rect += pos + offset + v2s32(e->offset.X * m_scale_factor,
				                             e->offset.Y * m_scale_factor);
				client->getMinimap()->drawMinimap(rect);
				break; }
			default:
				infostream << "Hud::drawLuaElements: ignoring drawform " << e->type
					<< " due to unrecognized type" << std::endl;
		}
	}
}

void Hud::drawCompassTranslate(HudElement *e, video::ITexture *texture,
		const core::rect<s32> &rect, int angle)
{
	const video::SColor color(255, 255, 255, 255);
	const video::SColor colors[] = {color, color, color, color};

	// Compute source image scaling
	core::dimension2di imgsize(texture->getOriginalSize());
	core::rect<s32> srcrect(0, 0, imgsize.Width, imgsize.Height);

	v2s32 dstsize(rect.getHeight() * e->scale.X * imgsize.Width / imgsize.Height,
			rect.getHeight() * e->scale.Y);

	// Avoid infinite loop
	if (dstsize.X <= 0 || dstsize.Y <= 0)
		return;

	core::rect<s32> tgtrect(0, 0, dstsize.X, dstsize.Y);
	tgtrect +=  v2s32(
				(rect.getWidth() - dstsize.X) / 2,
				(rect.getHeight() - dstsize.Y) / 2) +
			rect.UpperLeftCorner;

	int offset = angle * dstsize.X / 360;

	tgtrect += v2s32(offset, 0);

	// Repeat image as much as needed
	while (tgtrect.UpperLeftCorner.X > rect.UpperLeftCorner.X)
		tgtrect -= v2s32(dstsize.X, 0);

	draw2DImageFilterScaled(driver, texture, tgtrect, srcrect, &rect, colors, true);
	tgtrect += v2s32(dstsize.X, 0);

	while (tgtrect.UpperLeftCorner.X < rect.LowerRightCorner.X) {
		draw2DImageFilterScaled(driver, texture, tgtrect, srcrect, &rect, colors, true);
		tgtrect += v2s32(dstsize.X, 0);
	}
}

void Hud::drawCompassRotate(HudElement *e, video::ITexture *texture,
		const core::rect<s32> &rect, int angle)
{
	core::rect<s32> oldViewPort = driver->getViewPort();
	core::matrix4 oldProjMat = driver->getTransform(video::ETS_PROJECTION);
	core::matrix4 oldViewMat = driver->getTransform(video::ETS_VIEW);

	core::matrix4 Matrix;
	Matrix.makeIdentity();
	Matrix.setRotationDegrees(v3f(0.f, 0.f, angle));

	driver->setViewPort(rect);
	driver->setTransform(video::ETS_PROJECTION, core::matrix4());
	driver->setTransform(video::ETS_VIEW, core::matrix4());
	driver->setTransform(video::ETS_WORLD, Matrix);

	video::SMaterial &material = m_rotation_mesh_buffer.getMaterial();
	material.TextureLayer[0].Texture = texture;
	driver->setMaterial(material);
	driver->drawMeshBuffer(&m_rotation_mesh_buffer);

	driver->setTransform(video::ETS_WORLD, core::matrix4());
	driver->setTransform(video::ETS_VIEW, oldViewMat);
	driver->setTransform(video::ETS_PROJECTION, oldProjMat);

	// restore the view area
	driver->setViewPort(oldViewPort);
}

void Hud::drawStatbar(v2s32 pos, u16 corner, u16 drawdir,
		const std::string &texture, const std::string &bgtexture,
		s32 count, s32 maxcount, v2s32 offset, v2s32 size)
{
	const video::SColor color(255, 255, 255, 255);
	const video::SColor colors[] = {color, color, color, color};

	video::ITexture *stat_texture = tsrc->getTexture(texture);
	if (!stat_texture)
		return;

	video::ITexture *stat_texture_bg = nullptr;
	if (!bgtexture.empty()) {
		stat_texture_bg = tsrc->getTexture(bgtexture);
	}

	core::dimension2di srcd(stat_texture->getOriginalSize());
	core::dimension2di dstd;
	if (size == v2s32()) {
		dstd = srcd;
		dstd.Height *= m_scale_factor;
		dstd.Width  *= m_scale_factor;
		offset.X *= m_scale_factor;
		offset.Y *= m_scale_factor;
	} else {
		dstd.Height = size.Y * m_scale_factor;
		dstd.Width  = size.X * m_scale_factor;
		offset.X *= m_scale_factor;
		offset.Y *= m_scale_factor;
	}

	v2s32 p = pos;
	if (corner & HUD_CORNER_LOWER)
		p -= dstd.Height;

	p += offset;

	v2s32 steppos;
	switch (drawdir) {
		case HUD_DIR_RIGHT_LEFT:
			steppos = v2s32(-1, 0);
			break;
		case HUD_DIR_TOP_BOTTOM:
			steppos = v2s32(0, 1);
			break;
		case HUD_DIR_BOTTOM_TOP:
			steppos = v2s32(0, -1);
			break;
		default:
			// From left to right
			steppos = v2s32(1, 0);
			break;
	}

	auto calculate_clipping_rect = [] (core::dimension2di src,
			v2s32 steppos) -> core::rect<s32> {

		// Create basic rectangle
		core::rect<s32> rect(0, 0,
			src.Width  - std::abs(steppos.X) * src.Width / 2,
			src.Height - std::abs(steppos.Y) * src.Height / 2
		);
		// Move rectangle left or down
		if (steppos.X == -1)
			rect += v2s32(src.Width / 2, 0);
		if (steppos.Y == -1)
			rect += v2s32(0, src.Height / 2);
		return rect;
	};
	// Rectangles for 1/2 the actual value to display
	core::rect<s32> srchalfrect, dsthalfrect;
	// Rectangles for 1/2 the "off state" texture
	core::rect<s32> srchalfrect2, dsthalfrect2;

	if (count % 2 == 1 || maxcount % 2 == 1) {
		// Need to draw halves: Calculate rectangles
		srchalfrect  = calculate_clipping_rect(srcd, steppos);
		dsthalfrect  = calculate_clipping_rect(dstd, steppos);
		srchalfrect2 = calculate_clipping_rect(srcd, steppos * -1);
		dsthalfrect2 = calculate_clipping_rect(dstd, steppos * -1);
	}

	steppos.X *= dstd.Width;
	steppos.Y *= dstd.Height;

	// Draw full textures
	for (s32 i = 0; i < count / 2; i++) {
		core::rect<s32> srcrect(0, 0, srcd.Width, srcd.Height);
		core::rect<s32> dstrect(0, 0, dstd.Width, dstd.Height);

		dstrect += p;
		draw2DImageFilterScaled(driver, stat_texture,
			dstrect, srcrect, NULL, colors, true);
		p += steppos;
	}

	if (count % 2 == 1) {
		// Draw half a texture
		draw2DImageFilterScaled(driver, stat_texture,
			dsthalfrect + p, srchalfrect, NULL, colors, true);

		if (stat_texture_bg && maxcount > count) {
			draw2DImageFilterScaled(driver, stat_texture_bg,
					dsthalfrect2 + p, srchalfrect2,
					NULL, colors, true);
			p += steppos;
		}
	}

	if (stat_texture_bg && maxcount > count) {
		// Draw "off state" textures
		s32 start_offset;
		if (count % 2 == 1)
			start_offset = count / 2 + 1;
		else
			start_offset = count / 2;
		for (s32 i = start_offset; i < maxcount / 2; i++) {
			core::rect<s32> srcrect(0, 0, srcd.Width, srcd.Height);
			core::rect<s32> dstrect(0, 0, dstd.Width, dstd.Height);

			dstrect += p;
			draw2DImageFilterScaled(driver, stat_texture_bg,
					dstrect, srcrect,
					NULL, colors, true);
			p += steppos;
		}

		if (maxcount % 2 == 1) {
			draw2DImageFilterScaled(driver, stat_texture_bg,
				dsthalfrect + p, srchalfrect, NULL, colors, true);
		}
	}
}


void Hud::drawHotbar(u16 playeritem) {

	v2s32 centerlowerpos(m_displaycenter.X, m_screensize.Y);

	InventoryList *mainlist = inventory->getList("main");
	if (mainlist == NULL) {
		//silently ignore this we may not be initialized completely
		return;
	}

	s32 hotbar_itemcount = player->hud_hotbar_itemcount;
	s32 width = hotbar_itemcount * (m_hotbar_imagesize + m_padding * 2);
	v2s32 pos = centerlowerpos - v2s32(width / 2, m_hotbar_imagesize + m_padding * 3);

	const v2u32 &window_size = RenderingEngine::getWindowSize();
	if ((float) width / (float) window_size.X <=
			g_settings->getFloat("hud_hotbar_max_width")) {
		if (player->hud_flags & HUD_FLAG_HOTBAR_VISIBLE) {
			drawItems(pos, v2s32(0, 0), hotbar_itemcount, 0, mainlist, playeritem + 1, 0);
		}
	} else {
		pos.X += width/4;

		v2s32 secondpos = pos;
		pos = pos - v2s32(0, m_hotbar_imagesize + m_padding);

		if (player->hud_flags & HUD_FLAG_HOTBAR_VISIBLE) {
			drawItems(pos, v2s32(0, 0), hotbar_itemcount / 2, 0,
				mainlist, playeritem + 1, 0);
			drawItems(secondpos, v2s32(0, 0), hotbar_itemcount,
				hotbar_itemcount / 2, mainlist, playeritem + 1, 0);
		}
	}
}


void Hud::drawCrosshair()
{
	if (pointing_at_object) {
		if (use_object_crosshair_image) {
			video::ITexture *object_crosshair = tsrc->getTexture("object_crosshair.png");
			v2u32 size  = object_crosshair->getOriginalSize();
			v2s32 lsize = v2s32(m_displaycenter.X - (size.X / 2),
					m_displaycenter.Y - (size.Y / 2));
			driver->draw2DImage(object_crosshair, lsize,
					core::rect<s32>(0, 0, size.X, size.Y),
					nullptr, crosshair_argb, true);
		} else {
			driver->draw2DLine(
					m_displaycenter - v2s32(OBJECT_CROSSHAIR_LINE_SIZE,
					OBJECT_CROSSHAIR_LINE_SIZE),
					m_displaycenter + v2s32(OBJECT_CROSSHAIR_LINE_SIZE,
					OBJECT_CROSSHAIR_LINE_SIZE), crosshair_argb);
			driver->draw2DLine(
					m_displaycenter + v2s32(OBJECT_CROSSHAIR_LINE_SIZE,
					-OBJECT_CROSSHAIR_LINE_SIZE),
					m_displaycenter + v2s32(-OBJECT_CROSSHAIR_LINE_SIZE,
					OBJECT_CROSSHAIR_LINE_SIZE), crosshair_argb);
		}

		return;
	}

	if (use_crosshair_image) {
		video::ITexture *crosshair = tsrc->getTexture("crosshair.png");
		v2u32 size  = crosshair->getOriginalSize();
		v2s32 lsize = v2s32(m_displaycenter.X - (size.X / 2),
				m_displaycenter.Y - (size.Y / 2));
		driver->draw2DImage(crosshair, lsize,
				core::rect<s32>(0, 0, size.X, size.Y),
				nullptr, crosshair_argb, true);
	} else {
		driver->draw2DLine(m_displaycenter - v2s32(CROSSHAIR_LINE_SIZE, 0),
				m_displaycenter + v2s32(CROSSHAIR_LINE_SIZE, 0), crosshair_argb);
		driver->draw2DLine(m_displaycenter - v2s32(0, CROSSHAIR_LINE_SIZE),
				m_displaycenter + v2s32(0, CROSSHAIR_LINE_SIZE), crosshair_argb);
	}
}

void Hud::setSelectionPos(const v3f &pos, const v3s16 &camera_offset)
{
	m_camera_offset = camera_offset;
	m_selection_pos = pos;
	m_selection_pos_with_offset = pos - intToFloat(camera_offset, BS);
}

void Hud::drawSelectionMesh()
{
	if (m_mode == HIGHLIGHT_BOX) {
		// Draw 3D selection boxes
		video::SMaterial oldmaterial = driver->getMaterial2D();
		driver->setMaterial(m_selection_material);
		for (auto & selection_box : m_selection_boxes) {
			aabb3f box = aabb3f(
				selection_box.MinEdge + m_selection_pos_with_offset,
				selection_box.MaxEdge + m_selection_pos_with_offset);

			u32 r = (selectionbox_argb.getRed() *
					m_selection_mesh_color.getRed() / 255);
			u32 g = (selectionbox_argb.getGreen() *
					m_selection_mesh_color.getGreen() / 255);
			u32 b = (selectionbox_argb.getBlue() *
					m_selection_mesh_color.getBlue() / 255);
			driver->draw3DBox(box, video::SColor(255, r, g, b));
		}
		driver->setMaterial(oldmaterial);
	} else if (m_mode == HIGHLIGHT_HALO && m_selection_mesh) {
		// Draw selection mesh
		video::SMaterial oldmaterial = driver->getMaterial2D();
		driver->setMaterial(m_selection_material);
		setMeshColor(m_selection_mesh, m_selection_mesh_color);
		video::SColor face_color(0,
			MYMIN(255, m_selection_mesh_color.getRed() * 1.5),
			MYMIN(255, m_selection_mesh_color.getGreen() * 1.5),
			MYMIN(255, m_selection_mesh_color.getBlue() * 1.5));
		setMeshColorByNormal(m_selection_mesh, m_selected_face_normal,
			face_color);
		scene::IMesh* mesh = cloneMesh(m_selection_mesh);
		translateMesh(mesh, m_selection_pos_with_offset);
		u32 mc = m_selection_mesh->getMeshBufferCount();
		for (u32 i = 0; i < mc; i++) {
			scene::IMeshBuffer *buf = mesh->getMeshBuffer(i);
			driver->drawMeshBuffer(buf);
		}
		mesh->drop();
		driver->setMaterial(oldmaterial);
	}
}

enum Hud::BlockBoundsMode Hud::toggleBlockBounds()
{
	m_block_bounds_mode = static_cast<BlockBoundsMode>(m_block_bounds_mode + 1);

	if (m_block_bounds_mode >= BLOCK_BOUNDS_MAX) {
		m_block_bounds_mode = BLOCK_BOUNDS_OFF;
	}
	return m_block_bounds_mode;
}

void Hud::disableBlockBounds()
{
	m_block_bounds_mode = BLOCK_BOUNDS_OFF;
}

void Hud::drawBlockBounds()
{
	if (m_block_bounds_mode == BLOCK_BOUNDS_OFF) {
		return;
	}

	video::SMaterial old_material = driver->getMaterial2D();
	driver->setMaterial(m_selection_material);

	v3s16 pos = player->getStandingNodePos();

	v3s16 blockPos(
		floorf((float) pos.X / MAP_BLOCKSIZE),
		floorf((float) pos.Y / MAP_BLOCKSIZE),
		floorf((float) pos.Z / MAP_BLOCKSIZE)
	);

	v3f offset = intToFloat(client->getCamera()->getOffset(), BS);

	s8 radius = m_block_bounds_mode == BLOCK_BOUNDS_NEAR ? 2 : 0;

	v3f halfNode = v3f(BS, BS, BS) / 2.0f;

	for (s8 x = -radius; x <= radius; x++)
	for (s8 y = -radius; y <= radius; y++)
	for (s8 z = -radius; z <= radius; z++) {
		v3s16 blockOffset(x, y, z);

		aabb3f box(
			intToFloat((blockPos + blockOffset) * MAP_BLOCKSIZE, BS) - offset - halfNode,
			intToFloat(((blockPos + blockOffset) * MAP_BLOCKSIZE) + (MAP_BLOCKSIZE - 1), BS) - offset + halfNode
		);

		driver->draw3DBox(box, video::SColor(255, 255, 0, 0));
	}

	driver->setMaterial(old_material);
}

void Hud::updateSelectionMesh(const v3s16 &camera_offset)
{
	m_camera_offset = camera_offset;
	if (m_mode != HIGHLIGHT_HALO)
		return;

	if (m_selection_mesh) {
		m_selection_mesh->drop();
		m_selection_mesh = NULL;
	}

	if (m_selection_boxes.empty()) {
		// No pointed object
		return;
	}

	// New pointed object, create new mesh.

	// Texture UV coordinates for selection boxes
	static f32 texture_uv[24] = {
		0,0,1,1,
		0,0,1,1,
		0,0,1,1,
		0,0,1,1,
		0,0,1,1,
		0,0,1,1
	};

	// Use single halo box instead of multiple overlapping boxes.
	// Temporary solution - problem can be solved with multiple
	// rendering targets, or some method to remove inner surfaces.
	// Thats because of halo transparency.

	aabb3f halo_box(100.0, 100.0, 100.0, -100.0, -100.0, -100.0);
	m_halo_boxes.clear();

	for (const auto &selection_box : m_selection_boxes) {
		halo_box.addInternalBox(selection_box);
	}

	m_halo_boxes.push_back(halo_box);
	m_selection_mesh = convertNodeboxesToMesh(
		m_halo_boxes, texture_uv, 0.5);
}

void Hud::resizeHotbar() {
	const v2u32 &window_size = RenderingEngine::getWindowSize();

	if (m_screensize != window_size) {
		m_hotbar_imagesize = floor(HOTBAR_IMAGE_SIZE *
			RenderingEngine::getDisplayDensity() + 0.5);
		m_hotbar_imagesize *= m_hud_scaling;
		m_padding = m_hotbar_imagesize / 12;
		m_screensize = window_size;
		m_displaycenter = v2s32(m_screensize.X/2,m_screensize.Y/2);
	}
}

struct MeshTimeInfo {
	u64 time;
	scene::IMesh *mesh = nullptr;
};

void drawItemStack(
		video::IVideoDriver *driver,
		gui::IGUIFont *font,
		const ItemStack &item,
		const core::rect<s32> &rect,
		const core::rect<s32> *clip,
		Client *client,
		ItemRotationKind rotation_kind,
		const v3s16 &angle,
		const v3s16 &rotation_speed)
{
	static MeshTimeInfo rotation_time_infos[IT_ROT_NONE];

	if (item.empty()) {
		if (rotation_kind < IT_ROT_NONE && rotation_kind != IT_ROT_OTHER) {
			rotation_time_infos[rotation_kind].mesh = NULL;
		}
		return;
	}

	const static thread_local bool enable_animations =
		g_settings->getBool("inventory_items_animations");

	const ItemDefinition &def = item.getDefinition(client->idef());

	bool draw_overlay = false;

	bool has_mesh = false;
	ItemMesh *imesh;

	core::rect<s32> viewrect = rect;
	if (clip != nullptr)
		viewrect.clipAgainst(*clip);

	// Render as mesh if animated or no inventory image
	if ((enable_animations && rotation_kind < IT_ROT_NONE) || def.inventory_image.empty()) {
		imesh = client->idef()->getWieldMesh(def.name, client);
		has_mesh = imesh && imesh->mesh;
	}
	if (has_mesh) {
		scene::IMesh *mesh = imesh->mesh;
		driver->clearBuffers(video::ECBF_DEPTH);
		s32 delta = 0;
		if (rotation_kind < IT_ROT_NONE) {
			MeshTimeInfo &ti = rotation_time_infos[rotation_kind];
			if (mesh != ti.mesh && rotation_kind != IT_ROT_OTHER) {
				ti.mesh = mesh;
				ti.time = porting::getTimeMs();
			} else {
				delta = porting::getDeltaMs(ti.time, porting::getTimeMs()) % 100000;
			}
		}
		core::rect<s32> oldViewPort = driver->getViewPort();
		core::matrix4 oldProjMat = driver->getTransform(video::ETS_PROJECTION);
		core::matrix4 oldViewMat = driver->getTransform(video::ETS_VIEW);

		core::matrix4 ProjMatrix;
		ProjMatrix.buildProjectionMatrixOrthoLH(2.0f, 2.0f, -1.0f, 100.0f);

		core::matrix4 ViewMatrix;
		ViewMatrix.buildProjectionMatrixOrthoLH(
			2.0f * viewrect.getWidth() / rect.getWidth(),
			2.0f * viewrect.getHeight() / rect.getHeight(),
			-1.0f,
			100.0f);
		ViewMatrix.setTranslation(core::vector3df(
			1.0f * (rect.LowerRightCorner.X + rect.UpperLeftCorner.X -
					viewrect.LowerRightCorner.X - viewrect.UpperLeftCorner.X) /
					viewrect.getWidth(),
			1.0f * (viewrect.LowerRightCorner.Y + viewrect.UpperLeftCorner.Y -
					rect.LowerRightCorner.Y - rect.UpperLeftCorner.Y) /
					viewrect.getHeight(),
			0.0f));

		driver->setTransform(video::ETS_PROJECTION, ProjMatrix);
		driver->setTransform(video::ETS_VIEW, ViewMatrix);

		core::matrix4 matrix;
		matrix.makeIdentity();

		if (enable_animations) {
			float timer_f = (float) delta / 5000.f;
			matrix.setRotationDegrees(v3f(
				angle.X + rotation_speed.X * 3.60f * timer_f,
				angle.Y + rotation_speed.Y * 3.60f * timer_f,
				angle.Z + rotation_speed.Z * 3.60f * timer_f)
			);
		}

		driver->setTransform(video::ETS_WORLD, matrix);
		driver->setViewPort(viewrect);

		video::SColor basecolor =
			client->idef()->getItemstackColor(item, client);

		u32 mc = mesh->getMeshBufferCount();
		for (u32 j = 0; j < mc; ++j) {
			scene::IMeshBuffer *buf = mesh->getMeshBuffer(j);
			// we can modify vertices relatively fast,
			// because these meshes are not buffered.
			assert(buf->getHardwareMappingHint_Vertex() == scene::EHM_NEVER);
			video::SColor c = basecolor;

			if (imesh->buffer_colors.size() > j) {
				ItemPartColor *p = &imesh->buffer_colors[j];
				if (p->override_base)
					c = p->color;
			}

			if (imesh->needs_shading)
				colorizeMeshBuffer(buf, &c);
			else
				setMeshBufferColor(buf, c);

			video::SMaterial &material = buf->getMaterial();
			material.MaterialType = video::EMT_TRANSPARENT_ALPHA_CHANNEL_REF;
			material.Lighting = false;
			driver->setMaterial(material);
			driver->drawMeshBuffer(buf);
		}

		driver->setTransform(video::ETS_VIEW, oldViewMat);
		driver->setTransform(video::ETS_PROJECTION, oldProjMat);
		driver->setViewPort(oldViewPort);

		draw_overlay = def.type == ITEM_NODE && def.inventory_image.empty();
	} else { // Otherwise just draw as 2D
		video::ITexture *texture = client->idef()->getInventoryTexture(def.name, client);
		video::SColor color;
		if (texture) {
			color = client->idef()->getItemstackColor(item, client);
		} else {
			color = video::SColor(255, 255, 255, 255);
			ITextureSource *tsrc = client->getTextureSource();
			texture = tsrc->getTexture("no_texture.png");
			if (!texture)
				return;
		}

		const video::SColor colors[] = { color, color, color, color };

		draw2DImageFilterScaled(driver, texture, rect,
			core::rect<s32>({0, 0}, core::dimension2di(texture->getOriginalSize())),
			clip, colors, true);

		draw_overlay = true;
	}

	// draw the inventory_overlay
	if (!def.inventory_overlay.empty() && draw_overlay) {
		ITextureSource *tsrc = client->getTextureSource();
		video::ITexture *overlay_texture = tsrc->getTexture(def.inventory_overlay);
		core::dimension2d<u32> dimens = overlay_texture->getOriginalSize();
		core::rect<s32> srcrect(0, 0, dimens.Width, dimens.Height);
		draw2DImageFilterScaled(driver, overlay_texture, rect, srcrect, clip, 0, true);
	}

	if (def.type == ITEM_TOOL && item.wear != 0) {
		// Draw a progressbar
		float barheight = static_cast<float>(rect.getHeight()) / 16;
		float barpad_x = static_cast<float>(rect.getWidth()) / 16;
		float barpad_y = static_cast<float>(rect.getHeight()) / 16;

		core::rect<s32> progressrect(
			rect.UpperLeftCorner.X + barpad_x,
			rect.LowerRightCorner.Y - barpad_y - barheight,
			rect.LowerRightCorner.X - barpad_x,
			rect.LowerRightCorner.Y - barpad_y);

		// Shrink progressrect by amount of tool damage
		float wear = item.wear / 65535.0f;
		int progressmid =
			wear * progressrect.UpperLeftCorner.X +
			(1 - wear) * progressrect.LowerRightCorner.X;

		// Compute progressbar color
		//   wear = 0.0: green
		//   wear = 0.5: yellow
		//   wear = 1.0: red
		video::SColor color(255, 255, 255, 255);
		int wear_i = MYMIN(std::floor(wear * 600), 511);
		wear_i = MYMIN(wear_i + 10, 511);

		if (wear_i <= 255)
			color.set(255, wear_i, 255, 0);
		else
			color.set(255, 255, 511 - wear_i, 0);

		core::rect<s32> progressrect2 = progressrect;
		progressrect2.LowerRightCorner.X = progressmid;
		driver->draw2DRectangle(color, progressrect2, clip);

		color = video::SColor(255, 0, 0, 0);
		progressrect2 = progressrect;
		progressrect2.UpperLeftCorner.X = progressmid;
		driver->draw2DRectangle(color, progressrect2, clip);
	}

	const std::string &count_text = item.metadata.getString("count_meta");
	if (font != nullptr && (item.count >= 2 || !count_text.empty())) {
		// Get the item count as a string
		std::string text = count_text.empty() ? itos(item.count) : count_text;
		v2u32 dim = font->getDimension(utf8_to_wide(unescape_enriched(text)).c_str());
		v2s32 sdim(dim.X, dim.Y);

		core::rect<s32> rect2(
			rect.LowerRightCorner - sdim,
			rect.LowerRightCorner
		);

		// get the count alignment
		s32 count_alignment = stoi(item.metadata.getString("count_alignment"));
		if (count_alignment != 0) {
			s32 a_x = count_alignment & 3;
			s32 a_y = (count_alignment >> 2) & 3;

			s32 x1, x2, y1, y2;
			switch (a_x) {
			case 1: // left
				x1 = rect.UpperLeftCorner.X;
				x2 = x1 + sdim.X;
				break;
			case 2: // middle
				x1 = (rect.UpperLeftCorner.X + rect.LowerRightCorner.X - sdim.X) / 2;
				x2 = x1 + sdim.X;
				break;
			case 3: // right
				x2 = rect.LowerRightCorner.X;
				x1 = x2 - sdim.X;
				break;
			default: // 0 = default
				x1 = rect2.UpperLeftCorner.X;
				x2 = rect2.LowerRightCorner.X;
				break;
			}

			switch (a_y) {
			case 1: // up
				y1 = rect.UpperLeftCorner.Y;
				y2 = y1 + sdim.Y;
				break;
			case 2: // middle
				y1 = (rect.UpperLeftCorner.Y + rect.LowerRightCorner.Y - sdim.Y) / 2;
				y2 = y1 + sdim.Y;
				break;
			case 3: // down
				y2 = rect.LowerRightCorner.Y;
				y1 = y2 - sdim.Y;
				break;
			default: // 0 = default
				y1 = rect2.UpperLeftCorner.Y;
				y2 = rect2.LowerRightCorner.Y;
				break;
			}

			rect2 = core::rect<s32>(x1, y1, x2, y2);
		}

		video::SColor color(255, 255, 255, 255);
		font->draw(utf8_to_wide(text).c_str(), rect2, color, false, false, &viewrect);
	}
}

void drawItemStack(
		video::IVideoDriver *driver,
		gui::IGUIFont *font,
		const ItemStack &item,
		const core::rect<s32> &rect,
		const core::rect<s32> *clip,
		Client *client,
		ItemRotationKind rotation_kind)
{
	drawItemStack(driver, font, item, rect, clip, client, rotation_kind,
		v3s16(0, 0, 0), v3s16(0, 100, 0));
}