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/* ScummVM - Graphic Adventure Engine
 *
 * ScummVM is the legal property of its developers, whose names
 * are too numerous to list here. Please refer to the COPYRIGHT
 * file distributed with this source distribution.
 *
 * 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 (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 General Public License for more details.

 * You should have received a copy of the GNU 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.
 *
 * $URL$
 * $Id$
 *
 */

#include "common/stack.h"
#include "sci/sci.h"
#include "sci/engine/state.h"
#include "sci/graphics/screen.h"
#include "sci/graphics/palette.h"
#include "sci/graphics/ports.h"
#include "sci/graphics/picture.h"

namespace Sci {

SciGuiPicture::SciGuiPicture(ResourceManager *resMan, GfxPorts *ports, GfxScreen *screen, GfxPalette *palette, GuiResourceId resourceId, bool EGAdrawingVisualize)
	: _resMan(resMan), _ports(ports), _screen(screen), _palette(palette), _resourceId(resourceId), _EGAdrawingVisualize(EGAdrawingVisualize) {
	assert(resourceId != -1);
	initData(resourceId);
}

SciGuiPicture::~SciGuiPicture() {
}

void SciGuiPicture::initData(GuiResourceId resourceId) {
	_resource = _resMan->findResource(ResourceId(kResourceTypePic, resourceId), false);
	if (!_resource) {
		error("picture resource %d not found", resourceId);
	}
}

GuiResourceId SciGuiPicture::getResourceId() {
	return _resourceId;
}

// TODO: subclass this
void SciGuiPicture::draw(int16 animationNr, bool mirroredFlag, bool addToFlag, int16 EGApaletteNo) {
	uint16 headerSize;

	_animationNr = animationNr;
	_mirroredFlag = mirroredFlag;
	_addToFlag = addToFlag;
	_EGApaletteNo = EGApaletteNo;
	_priority = 0;

	headerSize = READ_LE_UINT16(_resource->data);
	switch (headerSize) {
	case 0x26: // SCI 1.1 VGA picture
		drawSci11Vga();
		break;
#ifdef ENABLE_SCI32
	case 0x0e: // SCI32 VGA picture
		drawSci32Vga();
		break;
#endif
	default:
		// VGA, EGA or Amiga vector data
		drawVectorData(_resource->data, _resource->size);
	}
}

void SciGuiPicture::reset() {
	int16 x, y;
	for (y = _ports->getPort()->top; y < _screen->getHeight(); y++) {
		for (x = 0; x < _screen->getWidth(); x++) {
			_screen->putPixel(x, y, SCI_SCREEN_MASK_ALL, 255, 0, 0);
		}
	}
}

void SciGuiPicture::drawSci11Vga() {
	byte *inbuffer = _resource->data;
	int size = _resource->size;
	int has_cel = READ_LE_UINT16(inbuffer + 4);
	int vector_dataPos = READ_LE_UINT16(inbuffer + 16);
	int vector_size = size - vector_dataPos;
	int palette_data_ptr = READ_LE_UINT16(inbuffer + 28);
	int cel_headerPos = READ_LE_UINT16(inbuffer + 32);
	int cel_RlePos = READ_LE_UINT16(inbuffer + cel_headerPos + 24);
	int cel_LiteralPos = READ_LE_UINT16(inbuffer + cel_headerPos + 28);
	Palette palette;

	// Create palette and set it
	_palette->createFromData(inbuffer + palette_data_ptr, &palette);
	_palette->set(&palette, true);

	// display Cel-data
	if (has_cel) {
		drawCelData(inbuffer, size, cel_headerPos, cel_RlePos, cel_LiteralPos, 0, 0, false);
	}

	// process vector data
	drawVectorData(inbuffer + vector_dataPos, vector_size);

	// Remember priority band information for later
	_ports->priorityBandsRemember(inbuffer + 40);
}

#ifdef ENABLE_SCI32
int16 SciGuiPicture::getSci32celCount() {
	byte *inbuffer = _resource->data;
	return inbuffer[2];
}

void SciGuiPicture::drawSci32Vga(int16 celNo) {
	byte *inbuffer = _resource->data;
	int size = _resource->size;
	int header_size = READ_LE_UINT16(inbuffer);
	int palette_data_ptr = READ_LE_UINT16(inbuffer + 6);
	int celCount = inbuffer[2];
	int cel_headerPos = header_size;
	int cel_RlePos, cel_LiteralPos;
	int cel_relXpos, cel_relYpos;
	Palette palette;

	// HACK
	_mirroredFlag = false;
	_addToFlag = false;

	if ((celNo == -1) || (celNo == 0)) {
		// Create palette and set it
		_palette->createFromData(inbuffer + palette_data_ptr, &palette);
		_palette->set(&palette, true);
	}
	if (celNo != -1) {
		cel_headerPos += 42 * celNo;
		celCount = 1;
	}

	while (celCount > 0) {
		cel_RlePos = READ_LE_UINT16(inbuffer + cel_headerPos + 24);
		cel_LiteralPos = READ_LE_UINT16(inbuffer + cel_headerPos + 28);
		cel_relXpos = READ_LE_UINT16(inbuffer + cel_headerPos + 38);
		cel_relYpos = READ_LE_UINT16(inbuffer + cel_headerPos + 40);
		drawCelData(inbuffer, size, cel_headerPos, cel_RlePos, cel_LiteralPos, cel_relXpos, cel_relYpos, true);
		cel_headerPos += 42;
		celCount--;
	}
}
#endif

void SciGuiPicture::drawCelData(byte *inbuffer, int size, int headerPos, int rlePos, int literalPos, int16 callerX, int16 callerY, bool hasSci32Header) {
	byte *celBitmap = NULL;
	byte *ptr = NULL;
	byte *headerPtr = inbuffer + headerPos;
	byte *rlePtr = inbuffer + rlePos;
	byte *literalPtr = inbuffer + literalPos;
	uint16 width = READ_LE_UINT16(headerPtr + 0);
	uint16 height = READ_LE_UINT16(headerPtr + 2);
	int16 displaceX, displaceY;
	byte priority = _addToFlag ? _priority : 0;
	byte clearColor;
	bool compression = true;
	byte curByte, runLength;
	int16 y, lastY, x, leftX, rightX;
	int pixelNr, pixelCount;

#ifdef ENABLE_SCI32
	if (!hasSci32Header) {
#endif
		displaceX = (signed char)headerPtr[4];
		displaceY = (unsigned char)headerPtr[5];
		clearColor = headerPtr[6];
#ifdef ENABLE_SCI32
	} else {
		displaceX = READ_LE_UINT16(headerPtr + 4); // probably signed?!?
		displaceY = READ_LE_UINT16(headerPtr + 6); // probably signed?!?
		clearColor = headerPtr[8];
		if (headerPtr[9] == 0)
			compression = false;
	}
#endif

	if (displaceX || displaceY)
		error("unsupported embedded cel-data in picture");

	pixelCount = width * height;
	celBitmap = new byte[pixelCount];
	if (!celBitmap)
		error("Unable to allocate temporary memory for picture drawing");

	if (compression) {
		// We will unpack cel-data into a temporary buffer and then plot it to screen
		//  That needs to be done cause a mirrored picture may be requested
		memset(celBitmap, clearColor, pixelCount);
		pixelNr = 0;
		ptr = celBitmap;
		if (literalPos == 0) {
			// decompression for data that has only one stream (vecor embedded view data)
			switch (_resMan->getViewType()) {
			case kViewEga:
				while (pixelNr < pixelCount) {
					curByte = *rlePtr++;
					runLength = curByte >> 4;
					memset(ptr + pixelNr, curByte & 0x0F, MIN<uint16>(runLength, pixelCount - pixelNr));
					pixelNr += runLength;
				}
				break;
			case kViewVga:
			case kViewVga11:
				while (pixelNr < pixelCount) {
					curByte = *rlePtr++;
					runLength = curByte & 0x3F;
					switch (curByte & 0xC0) {
					case 0: // copy bytes as-is
						while (runLength-- && pixelNr < pixelCount)
							ptr[pixelNr++] = *rlePtr++;
						break;
					case 0x80: // fill with color
						memset(ptr + pixelNr, *rlePtr++, MIN<uint16>(runLength, pixelCount - pixelNr));
						pixelNr += runLength;
						break;
					case 0xC0: // fill with transparent
						pixelNr += runLength;
						break;
					}
				}
				break;
			case kViewAmiga:
				while (pixelNr < pixelCount) {
					curByte = *rlePtr++;
					if (curByte & 0x07) { // fill with color
						runLength = curByte & 0x07;
						curByte = curByte >> 3;
						while (runLength-- && pixelNr < pixelCount) {
							ptr[pixelNr++] = curByte;
						}
					} else { // fill with transparent
						runLength = curByte >> 3;
						pixelNr += runLength;
					}
				}
				break;

			default:
				error("Unsupported picture viewtype");
			}
		} else {
			// decompression for data that has two separate streams (probably SCI 1.1 picture)
			while (pixelNr < pixelCount) {
				curByte = *rlePtr++;
				runLength = curByte & 0x3F;
				switch (curByte & 0xC0) {
				case 0: // copy bytes as-is
					while (runLength-- && pixelNr < pixelCount)
						ptr[pixelNr++] = *literalPtr++;
					break;
				case 0x80: // fill with color
					memset(ptr + pixelNr, *literalPtr++, MIN<uint16>(runLength, pixelCount - pixelNr));
					pixelNr += runLength;
					break;
				case 0xC0: // fill with transparent
					pixelNr += runLength;
					break;
				}
			}
		}
	} else {
		// No compression (some SCI32 pictures)
		memcpy(celBitmap, rlePtr, pixelCount);
	}

	if (_ports) {
		// Set initial vertical coordinate by using current port
		y = callerY + _ports->getPort()->top;
		lastY = MIN<int16>(height + y, _ports->getPort()->rect.bottom + _ports->getPort()->top);
		leftX = callerX + _ports->getPort()->left;
		rightX = MIN<int16>(width + leftX, _ports->getPort()->rect.right + _ports->getPort()->left);
	} else {
		y = callerY + 10; // TODO: Implement plane support for SCI32
		lastY = y + height;
		if (lastY > _screen->getHeight())
			lastY = _screen->getHeight();
		leftX = callerX;
		rightX = leftX + width;
	}

	// Change clearcolor to white, if we dont add to an existing picture. That way we will paint everything on screen
	//  but white and that wont matter because the screen is supposed to be already white. It seems that most (if not all)
	//  SCI1.1 games use color 0 as transparency and SCI1 games use color 255 as transparency. Sierra SCI seems to paint
	//  the whole data to screen and wont skip over transparent pixels. So this will actually make it work like Sierra
	if (!_addToFlag)
		clearColor = _screen->getColorWhite();

	ptr = celBitmap;
	if (!_mirroredFlag) {
		// Draw bitmap to screen
		x = leftX;
		while (y < lastY) {
			curByte = *ptr++;
			if ((curByte != clearColor) && (priority >= _screen->getPriority(x, y)))
				_screen->putPixel(x, y, SCI_SCREEN_MASK_VISUAL | SCI_SCREEN_MASK_PRIORITY, curByte, priority, 0);

			x++;

			if (x >= rightX) {
				if (width > rightX - leftX) // Skip extra pixels at the end of the row
					ptr += width - (rightX - leftX);
				x = leftX;
				y++;
			}
		}
	} else {
		// Draw bitmap to screen (mirrored)
		x = rightX - 1;
		while (y < lastY) {
			curByte = *ptr++;
			if ((curByte != clearColor) && (priority >= _screen->getPriority(x, y)))
				_screen->putPixel(x, y, SCI_SCREEN_MASK_VISUAL | SCI_SCREEN_MASK_PRIORITY, curByte, priority, 0);
			
			if (x == leftX) {
				if (width > rightX - leftX) // Skip extra pixels at the end of the row
					ptr += width - (rightX - leftX);
				x = rightX;
				y++;
			}

			x--;
		}
	}

	delete[] celBitmap;
}

enum {
	PIC_OP_SET_COLOR = 0xf0,
	PIC_OP_DISABLE_VISUAL = 0xf1,
	PIC_OP_SET_PRIORITY = 0xf2,
	PIC_OP_DISABLE_PRIORITY = 0xf3,
	PIC_OP_SHORT_PATTERNS = 0xf4,
	PIC_OP_MEDIUM_LINES = 0xf5,
	PIC_OP_LONG_LINES = 0xf6,
	PIC_OP_SHORT_LINES = 0xf7,
	PIC_OP_FILL = 0xf8,
	PIC_OP_SET_PATTERN = 0xf9,
	PIC_OP_ABSOLUTE_PATTERN = 0xfa,
	PIC_OP_SET_CONTROL = 0xfb,
	PIC_OP_DISABLE_CONTROL = 0xfc,
	PIC_OP_MEDIUM_PATTERNS = 0xfd,
	PIC_OP_OPX = 0xfe,
	PIC_OP_TERMINATE = 0xff
};
#define PIC_OP_FIRST PIC_OP_SET_COLOR

enum {
	PIC_OPX_EGA_SET_PALETTE_ENTRIES = 0,
	PIC_OPX_EGA_SET_PALETTE = 1,
	PIC_OPX_EGA_MONO0 = 2,
	PIC_OPX_EGA_MONO1 = 3,
	PIC_OPX_EGA_MONO2 = 4,
	PIC_OPX_EGA_MONO3 = 5,
	PIC_OPX_EGA_MONO4 = 6,
	PIC_OPX_EGA_EMBEDDED_VIEW = 7,
	PIC_OPX_EGA_SET_PRIORITY_TABLE = 8
};

enum {
	PIC_OPX_VGA_SET_PALETTE_ENTRIES = 0,
	PIC_OPX_VGA_EMBEDDED_VIEW = 1,
	PIC_OPX_VGA_SET_PALETTE = 2,
	PIC_OPX_VGA_PRIORITY_TABLE_EQDIST = 3,
	PIC_OPX_VGA_PRIORITY_TABLE_EXPLICIT = 4
};

#define PIC_EGAPALETTE_COUNT 4
#define PIC_EGAPALETTE_SIZE  40
#define PIC_EGAPALETTE_TOTALSIZE PIC_EGAPALETTE_COUNT*PIC_EGAPALETTE_SIZE
#define PIC_EGAPRIORITY_SIZE PIC_EGAPALETTE_SIZE

static const byte vector_defaultEGApalette[PIC_EGAPALETTE_SIZE] = {
	0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77,
	0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0x88,
	0x88, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x88,
	0x88, 0xf9, 0xfa, 0xfb, 0xfc, 0xfd, 0xfe, 0xff,
	0x08, 0x91, 0x2a, 0x3b, 0x4c, 0x5d, 0x6e, 0x88
};

static const byte vector_defaultEGApriority[PIC_EGAPRIORITY_SIZE] = {
	0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
	0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
	0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
	0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
	0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07
};

void SciGuiPicture::drawVectorData(byte *data, int dataSize) {
	byte pic_op;
	byte pic_color = _screen->getColorDefaultVectorData();
	byte pic_priority = 255, pic_control = 255;
	int16 x = 0, y = 0, oldx, oldy;
	byte EGApalettes[PIC_EGAPALETTE_TOTALSIZE] = {0};
	byte *EGApalette = &EGApalettes[_EGApaletteNo * PIC_EGAPALETTE_SIZE];
	byte EGApriority[PIC_EGAPRIORITY_SIZE] = {0};
	bool isEGA = false;
	int curPos = 0;
	uint16 size;
	byte pixel;
	int i;
	Palette palette;
	int16 pattern_Code = 0, pattern_Texture = 0;

	memset(&palette, 0, sizeof(palette));

	if (_EGApaletteNo >= PIC_EGAPALETTE_COUNT)
		_EGApaletteNo = 0;

	if (_resMan->getViewType() == kViewEga) {
		isEGA = true;
		// setup default mapping tables
		for (i = 0; i < PIC_EGAPALETTE_TOTALSIZE; i += PIC_EGAPALETTE_SIZE)
			memcpy(&EGApalettes[i], &vector_defaultEGApalette, sizeof(vector_defaultEGApalette));
		memcpy(&EGApriority, &vector_defaultEGApriority, sizeof(vector_defaultEGApriority));
	}

	// Drawing
	while (curPos < dataSize) {
		//warning("%X at %d", data[curPos], curPos);
		switch (pic_op = data[curPos++]) {
		case PIC_OP_SET_COLOR:
			pic_color = data[curPos++];
			if (isEGA) {
				pic_color = EGApalette[pic_color];
				pic_color ^= pic_color << 4;
			}
			break;
		case PIC_OP_DISABLE_VISUAL:
			pic_color = 0xFF;
			break;

		case PIC_OP_SET_PRIORITY:
			pic_priority = data[curPos++] & 0x0F;
			if (isEGA) {
				pic_priority = EGApriority[pic_priority];
			}
			break;
		case PIC_OP_DISABLE_PRIORITY:
			pic_priority = 255;
			break;

		case PIC_OP_SET_CONTROL:
			pic_control = data[curPos++] & 0x0F;
			break;
		case PIC_OP_DISABLE_CONTROL:
			pic_control = 255;
			break;

		case PIC_OP_SHORT_LINES: // short line
			vectorGetAbsCoords(data, curPos, x, y);
			while (vectorIsNonOpcode(data[curPos])) {
				oldx = x; oldy = y;
				vectorGetRelCoords(data, curPos, x, y);
				Common::Point startPoint(oldx, oldy);
				Common::Point endPoint(x, y);
				_ports->offsetLine(startPoint, endPoint);
				_screen->drawLine(startPoint, endPoint, pic_color, pic_priority, pic_control);
			}
			break;
		case PIC_OP_MEDIUM_LINES: // medium line
			vectorGetAbsCoords(data, curPos, x, y);
			while (vectorIsNonOpcode(data[curPos])) {
				oldx = x; oldy = y;
				vectorGetRelCoordsMed(data, curPos, x, y);
				Common::Point startPoint(oldx, oldy);
				Common::Point endPoint(x, y);
				_ports->offsetLine(startPoint, endPoint);
				_screen->drawLine(startPoint, endPoint, pic_color, pic_priority, pic_control);
			}
			break;
		case PIC_OP_LONG_LINES: // long line
			vectorGetAbsCoords(data, curPos, x, y);
			while (vectorIsNonOpcode(data[curPos])) {
				oldx = x; oldy = y;
				vectorGetAbsCoords(data, curPos, x, y);
				Common::Point startPoint(oldx, oldy);
				Common::Point endPoint(x, y);
				_ports->offsetLine(startPoint, endPoint);
				_screen->drawLine(startPoint, endPoint, pic_color, pic_priority, pic_control);
			}
			break;

		case PIC_OP_FILL: //fill
			while (vectorIsNonOpcode(data[curPos])) {
				vectorGetAbsCoords(data, curPos, x, y);
				vectorFloodFill(x, y, pic_color, pic_priority, pic_control);
			}
			break;

		case PIC_OP_SET_PATTERN:
			pattern_Code = data[curPos++];
			break;
		case PIC_OP_SHORT_PATTERNS:
			vectorGetPatternTexture(data, curPos, pattern_Code, pattern_Texture);
			vectorGetAbsCoords(data, curPos, x, y);
			vectorPattern(x, y, pic_color, pic_priority, pic_control, pattern_Code, pattern_Texture);
			while (vectorIsNonOpcode(data[curPos])) {
				vectorGetPatternTexture(data, curPos, pattern_Code, pattern_Texture);
				vectorGetRelCoords(data, curPos, x, y);
				vectorPattern(x, y, pic_color, pic_priority, pic_control, pattern_Code, pattern_Texture);
			}
			break;
		case PIC_OP_MEDIUM_PATTERNS:
			vectorGetPatternTexture(data, curPos, pattern_Code, pattern_Texture);
			vectorGetAbsCoords(data, curPos, x, y);
			vectorPattern(x, y, pic_color, pic_priority, pic_control, pattern_Code, pattern_Texture);
			while (vectorIsNonOpcode(data[curPos])) {
				vectorGetPatternTexture(data, curPos, pattern_Code, pattern_Texture);
				vectorGetRelCoordsMed(data, curPos, x, y);
				vectorPattern(x, y, pic_color, pic_priority, pic_control, pattern_Code, pattern_Texture);
			}
			break;
		case PIC_OP_ABSOLUTE_PATTERN:
			while (vectorIsNonOpcode(data[curPos])) {
				vectorGetPatternTexture(data, curPos, pattern_Code, pattern_Texture);
				vectorGetAbsCoords(data, curPos, x, y);
				vectorPattern(x, y, pic_color, pic_priority, pic_control, pattern_Code, pattern_Texture);
			}
			break;

		case PIC_OP_OPX: // Extended functions
			if (isEGA) {
				switch (pic_op = data[curPos++]) {
				case PIC_OPX_EGA_SET_PALETTE_ENTRIES:
					while (vectorIsNonOpcode(data[curPos])) {
						pixel = data[curPos++];
						if (pixel >= PIC_EGAPALETTE_TOTALSIZE) {
							error("picture trying to write to invalid EGA-palette");
						}
						EGApalettes[pixel] = data[curPos++];
					}
					break;
				case PIC_OPX_EGA_SET_PALETTE:
					pixel = data[curPos++];
					if (pixel >= PIC_EGAPALETTE_COUNT) {
						error("picture trying to write to invalid palette %d", (int)pixel);
					}
					pixel *= PIC_EGAPALETTE_SIZE;
					for (i = 0; i < PIC_EGAPALETTE_SIZE; i++) {
						EGApalettes[pixel + i] = data[curPos++];
					}
					break;
				case PIC_OPX_EGA_MONO0:
					curPos += 41;
					break;
				case PIC_OPX_EGA_MONO1:
				case PIC_OPX_EGA_MONO3:
					curPos++;
					break;
				case PIC_OPX_EGA_MONO2:
				case PIC_OPX_EGA_MONO4:
					break;
				case PIC_OPX_EGA_EMBEDDED_VIEW:
					vectorGetAbsCoordsNoMirror(data, curPos, x, y);
					size = READ_LE_UINT16(data + curPos); curPos += 2;
					_priority = pic_priority; // set global priority so the cel gets drawn using current priority as well
					drawCelData(data, _resource->size, curPos, curPos + 8, 0, x, y, false);
					curPos += size;
					break;
				case PIC_OPX_EGA_SET_PRIORITY_TABLE:
					_ports->priorityBandsInit(data + curPos);
					curPos += 14;
					break;
				default:
					error("Unsupported sci1 extended pic-operation %X", pic_op);
				}
			} else {
				switch (pic_op = data[curPos++]) {
				case PIC_OPX_VGA_SET_PALETTE_ENTRIES:
					while (vectorIsNonOpcode(data[curPos])) {
						curPos++; // skip commands
					}
					break;
				case PIC_OPX_VGA_SET_PALETTE:
					if (_resMan->isAmiga32color()) {
						if ((data[curPos] == 0x00) && (data[curPos + 1] == 0x01) && ((data[curPos + 32] & 0xF0) != 0xF0)) {
							// Left-Over VGA palette, we simply ignore it
							curPos += 256 + 4 + 1024;
						} else {
							// Setting half of the amiga palette
							_palette->modifyAmigaPalette(&data[curPos]);
							curPos += 32;
						}
					} else {
						curPos += 256 + 4; // Skip over mapping and timestamp
						for (i = 0; i < 256; i++) {
							palette.colors[i].used = data[curPos++];
							palette.colors[i].r = data[curPos++]; palette.colors[i].g = data[curPos++]; palette.colors[i].b = data[curPos++];
						}
						_palette->set(&palette, true);
					}
					break;
				case PIC_OPX_VGA_EMBEDDED_VIEW: // draw cel
					vectorGetAbsCoordsNoMirror(data, curPos, x, y);
					size = READ_LE_UINT16(data + curPos); curPos += 2;
					_priority = pic_priority; // set global priority so the cel gets drawn using current priority as well
					drawCelData(data, _resource->size, curPos, curPos + 8, 0, x, y, false);
					curPos += size;
					break;
				case PIC_OPX_VGA_PRIORITY_TABLE_EQDIST:
					_ports->priorityBandsInit(-1, READ_LE_UINT16(data + curPos), READ_LE_UINT16(data + curPos + 2));
					curPos += 4;
					break;
				case PIC_OPX_VGA_PRIORITY_TABLE_EXPLICIT:
					_ports->priorityBandsInit(data + curPos);
					curPos += 14;
					break;
				default:
					error("Unsupported sci1 extended pic-operation %X", pic_op);
				}
			}
			break;
		case PIC_OP_TERMINATE:
			_priority = pic_priority;
			// Dithering EGA pictures
			if (isEGA) {
				_screen->dither(_addToFlag);
			}
			return;
		default:
			error("Unsupported pic-operation %X", pic_op);
		}
		if ((_EGAdrawingVisualize) && (isEGA)) {
			_screen->copyToScreen();
			g_system->updateScreen();
			g_system->delayMillis(10);
		}
	}
	error("picture vector data without terminator");
}

bool SciGuiPicture::vectorIsNonOpcode(byte pixel) {
	if (pixel >= PIC_OP_FIRST)
		return false;
	return true;
}

void SciGuiPicture::vectorGetAbsCoords(byte *data, int &curPos, int16 &x, int16 &y) {
	byte pixel = data[curPos++];
	x = data[curPos++] + ((pixel & 0xF0) << 4);
	y = data[curPos++] + ((pixel & 0x0F) << 8);
	if (_mirroredFlag) x = 319 - x;
}

void SciGuiPicture::vectorGetAbsCoordsNoMirror(byte *data, int &curPos, int16 &x, int16 &y) {
	byte pixel = data[curPos++];
	x = data[curPos++] + ((pixel & 0xF0) << 4);
	y = data[curPos++] + ((pixel & 0x0F) << 8);
}

void SciGuiPicture::vectorGetRelCoords(byte *data, int &curPos, int16 &x, int16 &y) {
	byte pixel = data[curPos++];
	if (pixel & 0x80) {
		x -= ((pixel >> 4) & 7) * (_mirroredFlag ? -1 : 1);
	} else {
		x += (pixel >> 4) * (_mirroredFlag ? -1 : 1);
	}
	if (pixel & 0x08) {
		y -= (pixel & 7);
	} else {
		y += (pixel & 7);
	}
}

void SciGuiPicture::vectorGetRelCoordsMed(byte *data, int &curPos, int16 &x, int16 &y) {
	byte pixel = data[curPos++];
	if (pixel & 0x80) {
		y -= (pixel & 0x7F);
	} else {
		y += pixel;
	}
	pixel = data[curPos++];
	if (pixel & 0x80) {
		x -= (128 - (pixel & 0x7F)) * (_mirroredFlag ? -1 : 1);
	} else {
		x += pixel * (_mirroredFlag ? -1 : 1);
	}
}

void SciGuiPicture::vectorGetPatternTexture(byte *data, int &curPos, int16 pattern_Code, int16 &pattern_Texture) {
	if (pattern_Code & SCI_PATTERN_CODE_USE_TEXTURE) {
		pattern_Texture = (data[curPos++] >> 1) & 0x7f;
	}
}

// Do not replace w/ some generic code. This algo really needs to behave exactly as the one from sierra
void SciGuiPicture::vectorFloodFill(int16 x, int16 y, byte color, byte priority, byte control) {
	Port *curPort = _ports->getPort();
	Common::Stack<Common::Point> stack;
	Common::Point p, p1;
	byte screenMask = _screen->getDrawingMask(color, priority, control);
	byte matchedMask, matchMask;
	int16 w, e, a_set, b_set;

	p.x = x + curPort->left;
	p.y = y + curPort->top;
	stack.push(p);

	byte searchColor = _screen->getVisual(p.x, p.y);
	byte searchPriority = _screen->getPriority(p.x, p.y);
	byte searchControl = _screen->getControl(p.x, p.y);

	// This logic was taken directly from sierra sci, floodfill will get aborted on various occations
	if (screenMask & SCI_SCREEN_MASK_VISUAL) {
		if ((color == _screen->getColorWhite()) || (searchColor != _screen->getColorWhite()))
			return;
	} else if (screenMask & SCI_SCREEN_MASK_PRIORITY) {
		if ((priority == 0) || (searchPriority != 0))
			return;
	} else if (screenMask & SCI_SCREEN_MASK_CONTROL) {
		if ((control == 0) || (searchControl != 0))
			return;
	}

	// Now remove screens, that already got the right color/priority/control
	if ((screenMask & SCI_SCREEN_MASK_VISUAL) && (searchColor == color))
		screenMask ^= SCI_SCREEN_MASK_VISUAL;
	if ((screenMask & SCI_SCREEN_MASK_PRIORITY) && (searchPriority == priority))
		screenMask ^= SCI_SCREEN_MASK_PRIORITY;
	if ((screenMask & SCI_SCREEN_MASK_CONTROL) && (searchControl == control))
		screenMask ^= SCI_SCREEN_MASK_CONTROL;

	// Exit, if no screens left
	if (!screenMask)
		return;

	if (screenMask & SCI_SCREEN_MASK_VISUAL) {
		matchMask = SCI_SCREEN_MASK_VISUAL;
	} else if (screenMask & SCI_SCREEN_MASK_PRIORITY) {
		matchMask = SCI_SCREEN_MASK_PRIORITY;
	} else {
		matchMask = SCI_SCREEN_MASK_CONTROL;
	}

	// hard borders for filling
	int l = curPort->rect.left + curPort->left;
	int t = curPort->rect.top + curPort->top;
	int r = curPort->rect.right + curPort->left - 1;
	int b = curPort->rect.bottom + curPort->top - 1;
	while (stack.size()) {
		p = stack.pop();
		if ((matchedMask = _screen->isFillMatch(p.x, p.y, matchMask, searchColor, searchPriority, searchControl)) == 0) // already filled
			continue;
		_screen->putPixel(p.x, p.y, screenMask, color, priority, control);
		w = p.x;
		e = p.x;
		// moving west and east pointers as long as there is a matching color to fill
		while (w > l && (matchedMask = _screen->isFillMatch(w - 1, p.y, matchMask, searchColor, searchPriority, searchControl)))
			_screen->putPixel(--w, p.y, screenMask, color, priority, control);
		while (e < r && (matchedMask = _screen->isFillMatch(e + 1, p.y, matchMask, searchColor, searchPriority, searchControl)))
			_screen->putPixel(++e, p.y, screenMask, color, priority, control);
		// checking lines above and below for possible flood targets
		a_set = b_set = 0;
		while (w <= e) {
			if (p.y > t && (matchedMask = _screen->isFillMatch(w, p.y - 1, matchMask, searchColor, searchPriority, searchControl))) { // one line above
				if (a_set == 0) {
					p1.x = w;
					p1.y = p.y - 1;
					stack.push(p1);
					a_set = 1;
				}
			} else
				a_set = 0;

			if (p.y < b && (matchedMask = _screen->isFillMatch(w, p.y + 1, matchMask, searchColor, searchPriority, searchControl))) { // one line below
				if (b_set == 0) {
					p1.x = w;
					p1.y = p.y + 1;
					stack.push(p1);
					b_set = 1;
				}
			} else
				b_set = 0;
			w++;
		}
	}
}

// Bitmap for drawing sierra circles
static const byte vectorPatternCircles[8][30] = {
	{ 0x01 },
	{ 0x72, 0x02 },
	{ 0xCE, 0xF7, 0x7D, 0x0E },
	{ 0x1C, 0x3E, 0x7F, 0x7F, 0x7F, 0x3E, 0x1C, 0x00 },
	{ 0x38, 0xF8, 0xF3, 0xDF, 0x7F, 0xFF, 0xFD, 0xF7, 0x9F, 0x3F, 0x38 },
	{ 0x70, 0xC0, 0x1F, 0xFE, 0xE3, 0x3F, 0xFF, 0xF7, 0x7F, 0xFF, 0xE7, 0x3F, 0xFE, 0xC3, 0x1F, 0xF8, 0x00 },
	{ 0xF0, 0x01, 0xFF, 0xE1, 0xFF, 0xF8, 0x3F, 0xFF, 0xDF, 0xFF, 0xF7, 0xFF, 0xFD, 0x7F, 0xFF, 0x9F, 0xFF,
		0xE3, 0xFF, 0xF0, 0x1F, 0xF0, 0x01 },
	{ 0xE0, 0x03, 0xF8, 0x0F, 0xFC, 0x1F, 0xFE, 0x3F, 0xFE, 0x3F, 0xFF, 0x7F, 0xFF, 0x7F, 0xFF, 0x7F, 0xFF,
		0x7F, 0xFF, 0x7F, 0xFE, 0x3F, 0xFE, 0x3F, 0xFC, 0x1F, 0xF8, 0x0F, 0xE0, 0x03 }
//  { 0x01 };
//	{ 0x03, 0x03, 0x03 },
//	{ 0x02, 0x07, 0x07, 0x07, 0x02 },
//	{ 0x06, 0x06, 0x0F, 0x0F, 0x0F, 0x06, 0x06 },
//	{ 0x04, 0x0E, 0x1F, 0x1F, 0x1F, 0x1F, 0x1F, 0x0E, 0x04 },
//	{ 0x0C, 0x1E, 0x1E, 0x1E, 0x3F, 0x3F, 0x3F, 0x1E, 0x1E, 0x1E, 0x0C },
//	{ 0x1C, 0x3E, 0x3E, 0x3E, 0x7F, 0x7F, 0x7F, 0x7F, 0x7F, 0x3E, 0x3E, 0x3E, 0x1C },
//	{ 0x18, 0x3C, 0x7E, 0x7E, 0x7E, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x7E, 0x7E, 0x7E, 0x3C, 0x18 }
};

// TODO: perhaps this is a better way to set the s_patternTextures array below?
//  in that case one would need to adjust bits of secondary table. Bit 256 is ignored by original interpreter
#if 0
static const byte patternTextures[32 * 2] = {
	0x04, 0x29, 0x40, 0x24, 0x09, 0x41, 0x25, 0x45,
	0x41, 0x90, 0x50, 0x44, 0x48, 0x08, 0x42, 0x28,
	0x89, 0x52, 0x89, 0x88, 0x10, 0x48, 0xA4, 0x08,
	0x44, 0x15, 0x28, 0x24, 0x00, 0x0A, 0x24, 0x20,
	// Now the table is actually duplicated, so we won't need to wrap around
	0x04, 0x29, 0x40, 0x24, 0x09, 0x41, 0x25, 0x45,
	0x41, 0x90, 0x50, 0x44, 0x48, 0x08, 0x42, 0x28,
	0x89, 0x52, 0x89, 0x88, 0x10, 0x48, 0xA4, 0x08,
	0x44, 0x15, 0x28, 0x24, 0x00, 0x0A, 0x24, 0x20,
};
#endif

// This table is bitwise upwards (from bit0 to bit7), sierras original table went down the bits (bit7 to bit0)
//  this was done to simplify things, so we can just run through the table w/o worrying too much about clipping
static const bool vectorPatternTextures[32 * 8 * 2] = {
	false, false,  true, false, false, false, false, false, // 0x04
	 true, false, false,  true, false,  true, false, false, // 0x29
	false, false, false, false, false, false,  true, false, // 0x40
	false, false,  true, false, false,  true, false, false, // 0x24
	 true, false, false,  true, false, false, false, false, // 0x09
	 true, false, false, false, false, false,  true, false, // 0x41
	 true, false,  true, false, false,  true, false, false, // 0x25
	 true, false,  true, false, false, false,  true, false, // 0x45
	 true, false, false, false, false, false,  true, false, // 0x41
	false, false, false, false,  true, false, false,  true, // 0x90
	false, false, false, false,  true, false,  true, false, // 0x50
	false, false,  true, false, false, false,  true, false, // 0x44
	false, false, false,  true, false, false,  true, false, // 0x48
	false, false, false,  true, false, false, false, false, // 0x08
	false,  true, false, false, false, false,  true, false, // 0x42
	false, false, false,  true, false,  true, false, false, // 0x28
	 true, false, false,  true, false, false, false,  true, // 0x89
	false,  true, false, false,  true, false,  true, false, // 0x52
	 true, false, false,  true, false, false, false,  true, // 0x89
	false, false, false,  true, false, false, false,  true, // 0x88
	false, false, false, false,  true, false, false, false, // 0x10
	false, false, false,  true, false, false,  true, false, // 0x48
	false, false,  true, false, false,  true, false,  true, // 0xA4
	false, false, false,  true, false, false, false, false, // 0x08
	false, false,  true, false, false, false,  true, false, // 0x44
	 true, false,  true, false,  true, false, false, false, // 0x15
	false, false, false,  true, false,  true, false, false, // 0x28
	false, false,  true, false, false,  true, false, false, // 0x24
	false, false, false, false, false, false, false, false, // 0x00
	false,  true, false,  true, false, false, false, false, // 0x0A
	false, false,  true, false, false,  true, false, false, // 0x24
	false, false, false, false, false,  true, false,        // 0x20 (last bit is not mentioned cause original interpreter also ignores that bit)
	// Now the table is actually duplicated, so we won't need to wrap around
	false, false,  true, false, false, false, false, false, // 0x04
	 true, false, false,  true, false,  true, false, false, // 0x29
	false, false, false, false, false, false,  true, false, // 0x40
	false, false,  true, false, false,  true, false, false, // 0x24
	 true, false, false,  true, false, false, false, false, // 0x09
	 true, false, false, false, false, false,  true, false, // 0x41
	 true, false,  true, false, false,  true, false, false, // 0x25
	 true, false,  true, false, false, false,  true, false, // 0x45
	 true, false, false, false, false, false,  true, false, // 0x41
	false, false, false, false,  true, false, false,  true, // 0x90
	false, false, false, false,  true, false,  true, false, // 0x50
	false, false,  true, false, false, false,  true, false, // 0x44
	false, false, false,  true, false, false,  true, false, // 0x48
	false, false, false,  true, false, false, false, false, // 0x08
	false,  true, false, false, false, false,  true, false, // 0x42
	false, false, false,  true, false,  true, false, false, // 0x28
	 true, false, false,  true, false, false, false,  true, // 0x89
	false,  true, false, false,  true, false,  true, false, // 0x52
	 true, false, false,  true, false, false, false,  true, // 0x89
	false, false, false,  true, false, false, false,  true, // 0x88
	false, false, false, false,  true, false, false, false, // 0x10
	false, false, false,  true, false, false,  true, false, // 0x48
	false, false,  true, false, false,  true, false,  true, // 0xA4
	false, false, false,  true, false, false, false, false, // 0x08
	false, false,  true, false, false, false,  true, false, // 0x44
	 true, false,  true, false,  true, false, false, false, // 0x15
	false, false, false,  true, false,  true, false, false, // 0x28
	false, false,  true, false, false,  true, false, false, // 0x24
	false, false, false, false, false, false, false, false, // 0x00
	false,  true, false,  true, false, false, false, false, // 0x0A
	false, false,  true, false, false,  true, false, false, // 0x24
	false, false, false, false, false,  true, false,        // 0x20 (last bit is not mentioned cause original interpreter also ignores that bit)
};

// Bit offsets into pattern_textures
static const byte vectorPatternTextureOffset[128] = {
	0x00, 0x18, 0x30, 0xc4, 0xdc, 0x65, 0xeb, 0x48,
	0x60, 0xbd, 0x89, 0x05, 0x0a, 0xf4, 0x7d, 0x7d,
	0x85, 0xb0, 0x8e, 0x95, 0x1f, 0x22, 0x0d, 0xdf,
	0x2a, 0x78, 0xd5, 0x73, 0x1c, 0xb4, 0x40, 0xa1,
	0xb9, 0x3c, 0xca, 0x58, 0x92, 0x34, 0xcc, 0xce,
	0xd7, 0x42, 0x90, 0x0f, 0x8b, 0x7f, 0x32, 0xed,
	0x5c, 0x9d, 0xc8, 0x99, 0xad, 0x4e, 0x56, 0xa6,
	0xf7, 0x68, 0xb7, 0x25, 0x82, 0x37, 0x3a, 0x51,
	0x69, 0x26, 0x38, 0x52, 0x9e, 0x9a, 0x4f, 0xa7,
	0x43, 0x10, 0x80, 0xee, 0x3d, 0x59, 0x35, 0xcf,
	0x79, 0x74, 0xb5, 0xa2, 0xb1, 0x96, 0x23, 0xe0,
	0xbe, 0x05, 0xf5, 0x6e, 0x19, 0xc5, 0x66, 0x49,
	0xf0, 0xd1, 0x54, 0xa9, 0x70, 0x4b, 0xa4, 0xe2,
	0xe6, 0xe5, 0xab, 0xe4, 0xd2, 0xaa, 0x4c, 0xe3,
	0x06, 0x6f, 0xc6, 0x4a, 0xa4, 0x75, 0x97, 0xe1
};

void SciGuiPicture::vectorPatternBox(Common::Rect box, byte color, byte prio, byte control) {
	byte flag = _screen->getDrawingMask(color, prio, control);
	int y, x;

	for (y = box.top; y < box.bottom; y++) {
		for (x = box.left; x < box.right; x++) {
			_screen->putPixel(x, y, flag, color, prio, control);
		}
	}
}

void SciGuiPicture::vectorPatternTexturedBox(Common::Rect box, byte color, byte prio, byte control, byte texture) {
	byte flag = _screen->getDrawingMask(color, prio, control);
	const bool *textureData = &vectorPatternTextures[vectorPatternTextureOffset[texture]];
	int y, x;

	for (y = box.top; y < box.bottom; y++) {
		for (x = box.left; x < box.right; x++) {
			if (*textureData) {
				_screen->putPixel(x, y, flag, color, prio, control);
			}
			textureData++;
		}
	}
}

void SciGuiPicture::vectorPatternCircle(Common::Rect box, byte size, byte color, byte prio, byte control) {
	byte flag = _screen->getDrawingMask(color, prio, control);
	const byte *circleData = vectorPatternCircles[size];
	byte bitmap = *circleData;
	byte bitNo = 0;
	int y, x;

	for (y = box.top; y < box.bottom; y++) {
		for (x = box.left; x < box.right; x++) {
			if (bitmap & 1) {
				_screen->putPixel(x, y, flag, color, prio, control);
			}
			bitNo++;
			if (bitNo == 8) {
				circleData++; bitmap = *circleData; bitNo = 0;
			} else {
				bitmap = bitmap >> 1;
			}
		}
	}
}

void SciGuiPicture::vectorPatternTexturedCircle(Common::Rect box, byte size, byte color, byte prio, byte control, byte texture) {
	byte flag = _screen->getDrawingMask(color, prio, control);
	const byte *circleData = vectorPatternCircles[size];
	byte bitmap = *circleData;
	byte bitNo = 0;
	const bool *textureData = &vectorPatternTextures[vectorPatternTextureOffset[texture]];
	int y, x;

	for (y = box.top; y < box.bottom; y++) {
		for (x = box.left; x < box.right; x++) {
			if (bitmap & 1) {
				if (*textureData) {
					_screen->putPixel(x, y, flag, color, prio, control);
				}
				textureData++;
			}
			bitNo++;
			if (bitNo == 8) {
				circleData++; bitmap = *circleData; bitNo = 0;
			} else {
				bitmap = bitmap >> 1;
			}
		}
	}
}

void SciGuiPicture::vectorPattern(int16 x, int16 y, byte color, byte priority, byte control, byte code, byte texture) {
	byte size = code & SCI_PATTERN_CODE_PENSIZE;
	Common::Rect rect;

	// We need to adjust the given coordinates, because the ones given us do not define upper left but somewhat middle
	y -= size; if (y < 0) y = 0;
	x -= size; if (x < 0) x = 0;

	rect.top = y; rect.left = x;
	rect.setHeight((size*2)+1); rect.setWidth((size*2)+2);
	_ports->offsetRect(rect);
	rect.clip(_screen->getWidth(), _screen->getHeight());

	if (code & SCI_PATTERN_CODE_RECTANGLE) {
		// Rectangle
		if (code & SCI_PATTERN_CODE_USE_TEXTURE) {
			vectorPatternTexturedBox(rect, color, priority, control, texture);
		} else {
			vectorPatternBox(rect, color, priority, control);
		}

	} else {
		// Circle
		if (code & SCI_PATTERN_CODE_USE_TEXTURE) {
			vectorPatternTexturedCircle(rect, size, color, priority, control, texture);
		} else {
			vectorPatternCircle(rect, size, color, priority, control);
		}
	}
}

} // End of namespace Sci