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|
/* Copyright (C) 1994-1998 Revolution Software Ltd.
* Copyright (C) 2003-2005 The ScummVM project
*
* 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* $Header$
*/
// ---------------------------------------------------------------------------
// BUILD_DISPLAY.CPP like the old spr_engi but slightly more aptly named
// ---------------------------------------------------------------------------
#include "common/stdafx.h"
#include "common/system.h"
#include "sword2/sword2.h"
#include "sword2/console.h"
#include "sword2/defs.h"
#include "sword2/logic.h"
#include "sword2/maketext.h"
#include "sword2/mouse.h"
#include "sword2/resman.h"
namespace Sword2 {
Screen::Screen(Sword2Engine *vm, int16 width, int16 height) {
_vm = vm;
_dirtyGrid = _buffer = NULL;
_vm->_system->initSize(width, height);
_screenWide = width;
_screenDeep = height;
_gridWide = width / CELLWIDE;
_gridDeep = height / CELLDEEP;
if ((width % CELLWIDE) || (height % CELLDEEP))
error("Bad cell size");
_dirtyGrid = (byte *) calloc(_gridWide, _gridDeep);
if (!_dirtyGrid)
error("Could not initialise dirty grid");
_buffer = (byte *) malloc(width * height);
if (!_buffer)
error("Could not initialise display");
for (int i = 0; i < ARRAYSIZE(_blockSurfaces); i++)
_blockSurfaces[i] = NULL;
_lightMask = NULL;
_needFullRedraw = false;
memset(&_thisScreen, 0, sizeof(_thisScreen));
_fps = 0;
_frameCount = 0;
_cycleTime = 0;
_lastPaletteRes = 0;
_scrollFraction = 16;
_largestLayerArea = 0;
_largestSpriteArea = 0;
strcpy(_largestLayerInfo, "largest layer: none registered");
strcpy(_largestSpriteInfo, "largest sprite: none registered");
_fadeStatus = RDFADE_NONE;
_renderAverageTime = 60;
_layer = 0;
}
Screen::~Screen() {
free(_buffer);
free(_dirtyGrid);
closeBackgroundLayer();
free(_lightMask);
}
void Screen::buildDisplay() {
if (_thisScreen.new_palette) {
// start the layer palette fading up
startNewPalette();
// should be reset to zero at start of each screen change
_largestLayerArea = 0;
_largestSpriteArea = 0;
}
// Does this ever happen?
if (!_thisScreen.background_layer_id)
return;
// there is a valid screen to run
setScrollTarget(_thisScreen.scroll_offset_x, _thisScreen.scroll_offset_y);
_vm->_mouse->animateMouse();
startRenderCycle();
byte *file = _vm->_resman->openResource(_thisScreen.background_layer_id);
MultiScreenHeader *screenLayerTable = (MultiScreenHeader *) (file + sizeof(StandardHeader));
// Render at least one frame, but if the screen is scrolling, and if
// there is time left, we will render extra frames to smooth out the
// scrolling.
do {
// first background parallax + related anims
if (screenLayerTable->bg_parallax[0]) {
renderParallax(_vm->fetchBackgroundParallaxLayer(file, 0), 0);
drawBackPar0Frames();
}
// second background parallax + related anims
if (screenLayerTable->bg_parallax[1]) {
renderParallax(_vm->fetchBackgroundParallaxLayer(file, 1), 1);
drawBackPar1Frames();
}
// normal backround layer (just the one!)
renderParallax(_vm->fetchBackgroundLayer(file), 2);
// sprites & layers
drawBackFrames(); // background sprites
drawSortFrames(file); // sorted sprites & layers
drawForeFrames(); // foreground sprites
// first foreground parallax + related anims
if (screenLayerTable->fg_parallax[0]) {
renderParallax(_vm->fetchForegroundParallaxLayer(file, 0), 3);
drawForePar0Frames();
}
// second foreground parallax + related anims
if (screenLayerTable->fg_parallax[1]) {
renderParallax(_vm->fetchForegroundParallaxLayer(file, 1), 4);
drawForePar1Frames();
}
_vm->_debugger->drawDebugGraphics();
_vm->_fontRenderer->printTextBlocs();
_vm->_mouse->processMenu();
updateDisplay();
_frameCount++;
if (_vm->getMillis() > _cycleTime) {
_fps = _frameCount;
_frameCount = 0;
_cycleTime = _vm->getMillis() + 1000;
}
} while (!endRenderCycle());
_vm->_resman->closeResource(_thisScreen.background_layer_id);
}
/**
* Fades down and displays a message on the screen.
* @param text The message
* @param time The number of seconds to display the message, or 0 to display it
* until the user clicks the mouse or presses a key.
*/
void Screen::displayMsg(byte *text, int time) {
byte pal[256 * 4];
byte oldPal[256 * 4];
debug(2, "DisplayMsg: %s", text);
if (getFadeStatus() != RDFADE_BLACK) {
fadeDown();
waitForFade();
}
_vm->_mouse->setMouse(0);
_vm->_mouse->setLuggage(0);
_vm->_mouse->closeMenuImmediately();
clearScene();
byte *text_spr = _vm->_fontRenderer->makeTextSprite(text, 640, 187, _vm->_speechFontId);
FrameHeader *frame = (FrameHeader *) text_spr;
SpriteInfo spriteInfo;
spriteInfo.x = _screenWide / 2 - frame->width / 2;
if (!time)
spriteInfo.y = _screenDeep / 2 - frame->height / 2 - MENUDEEP;
else
spriteInfo.y = 400 - frame->height;
spriteInfo.w = frame->width;
spriteInfo.h = frame->height;
spriteInfo.scale = 0;
spriteInfo.scaledWidth = 0;
spriteInfo.scaledHeight = 0;
spriteInfo.type = RDSPR_DISPLAYALIGN | RDSPR_NOCOMPRESSION | RDSPR_TRANS;
spriteInfo.blend = 0;
spriteInfo.data = text_spr + sizeof(FrameHeader);
spriteInfo.colourTable = 0;
uint32 rv = drawSprite(&spriteInfo);
if (rv)
error("Driver Error %.8x (in DisplayMsg)", rv);
memcpy(oldPal, _palette, sizeof(oldPal));
memset(pal, 0, sizeof(pal));
pal[187 * 4 + 0] = 255;
pal[187 * 4 + 1] = 255;
pal[187 * 4 + 2] = 255;
setPalette(0, 256, pal, RDPAL_FADE);
fadeUp();
free(text_spr);
waitForFade();
if (time > 0) {
uint32 targetTime = _vm->getMillis() + (time * 1000);
_vm->sleepUntil(targetTime);
} else {
while (!_vm->_quit) {
MouseEvent *me = _vm->mouseEvent();
if (me && (me->buttons & (RD_LEFTBUTTONDOWN | RD_RIGHTBUTTONDOWN)))
break;
if (_vm->keyboardEvent())
break;
updateDisplay();
_vm->_system->delayMillis(50);
}
}
fadeDown();
waitForFade();
clearScene();
setPalette(0, 256, oldPal, RDPAL_FADE);
fadeUp();
}
void Screen::drawBackPar0Frames() {
// frame attached to 1st background parallax
for (uint i = 0; i < _curBgp0; i++)
processImage(&_bgp0List[i]);
}
void Screen::drawBackPar1Frames() {
// frame attached to 2nd background parallax
for (uint i = 0; i < _curBgp1; i++)
processImage(&_bgp1List[i]);
}
void Screen::drawBackFrames() {
// background sprite, fixed to main background
for (uint i = 0; i < _curBack; i++)
processImage(&_backList[i]);
}
void Screen::drawSortFrames(byte *file) {
uint i, j;
// Sort the sort list. Used to be a separate function, but it was only
// called once, right before calling drawSortFrames().
if (_curSort > 1) {
for (i = 0; i < _curSort - 1; i++) {
for (j = 0; j < _curSort - 1; j++) {
if (_sortList[_sortOrder[j]].sort_y > _sortList[_sortOrder[j + 1]].sort_y) {
SWAP(_sortOrder[j], _sortOrder[j + 1]);
}
}
}
}
// Draw the sorted frames - layers, shrinkers & normal flat sprites
for (i = 0; i < _curSort; i++) {
if (_sortList[_sortOrder[i]].layer_number) {
// it's a layer - minus 1 for true layer number
// we need to know from the BuildUnit because the
// layers will have been sorted in random order
processLayer(file, _sortList[_sortOrder[i]].layer_number - 1);
} else {
// it's a sprite
processImage(&_sortList[_sortOrder[i]]);
}
}
}
void Screen::drawForeFrames() {
// foreground sprite, fixed to main background
for (uint i = 0; i < _curFore; i++)
processImage(&_foreList[i]);
}
void Screen::drawForePar0Frames() {
// frame attached to 1st foreground parallax
for (uint i = 0; i < _curFgp0; i++)
processImage(&_fgp0List[i]);
}
void Screen::drawForePar1Frames() {
// frame attached to 2nd foreground parallax
for (uint i = 0; i < _curFgp1; i++)
processImage(&_fgp1List[i]);
}
void Screen::processLayer(byte *file, uint32 layer_number) {
LayerHeader *layer_head = _vm->fetchLayerHeader(file, layer_number);
SpriteInfo spriteInfo;
spriteInfo.x = layer_head->x;
spriteInfo.y = layer_head->y;
spriteInfo.w = layer_head->width;
spriteInfo.scale = 0;
spriteInfo.scaledWidth = 0;
spriteInfo.scaledHeight = 0;
spriteInfo.h = layer_head->height;
spriteInfo.type = RDSPR_TRANS | RDSPR_RLE256FAST;
spriteInfo.blend = 0;
spriteInfo.data = file + sizeof(StandardHeader) + layer_head->offset;
spriteInfo.colourTable = 0;
// check for largest layer for debug info
uint32 current_layer_area = layer_head->width * layer_head->height;
if (current_layer_area > _largestLayerArea) {
byte buf[NAME_LEN];
_largestLayerArea = current_layer_area;
sprintf(_largestLayerInfo,
"largest layer: %s layer(%d) is %dx%d",
_vm->fetchObjectName(_thisScreen.background_layer_id, buf),
layer_number, layer_head->width, layer_head->height);
}
uint32 rv = drawSprite(&spriteInfo);
if (rv)
error("Driver Error %.8x in processLayer(%d)", rv, layer_number);
}
void Screen::processImage(BuildUnit *build_unit) {
byte *file = _vm->_resman->openResource(build_unit->anim_resource);
byte *colTablePtr = NULL;
AnimHeader *anim_head = _vm->fetchAnimHeader(file);
CdtEntry *cdt_entry = _vm->fetchCdtEntry(file, build_unit->anim_pc);
FrameHeader *frame_head = _vm->fetchFrameHeader(file, build_unit->anim_pc);
// so that 0-colour is transparent
uint32 spriteType = RDSPR_TRANS;
if (anim_head->blend)
spriteType |= RDSPR_BLEND;
// if the frame is to be flipped (only really applicable to frames
// using offsets)
if (cdt_entry->frameType & FRAME_FLIPPED)
spriteType |= RDSPR_FLIP;
if (cdt_entry->frameType & FRAME_256_FAST) {
// scaling, shading & blending don't work with RLE256FAST
// but the same compression can be decompressed using the
// RLE256 routines!
// NOTE: If this restriction refers to drawSprite(), I don't
// think we have it any more. But I'm not sure.
if (build_unit->scale || anim_head->blend || build_unit->shadingFlag)
spriteType |= RDSPR_RLE256;
else
spriteType |= RDSPR_RLE256FAST;
} else {
switch (anim_head->runTimeComp) {
case NONE:
spriteType |= RDSPR_NOCOMPRESSION;
break;
case RLE256:
spriteType |= RDSPR_RLE256;
break;
case RLE16:
spriteType |= RDSPR_RLE16;
// points to just after last cdt_entry, ie.
// start of colour table
colTablePtr = (byte *) (anim_head + 1) + anim_head->noAnimFrames * sizeof(CdtEntry);
break;
}
}
// if we want this frame to be affected by the shading mask,
// add the status bit
if (build_unit->shadingFlag)
spriteType |= RDSPR_SHADOW;
SpriteInfo spriteInfo;
spriteInfo.x = build_unit->x;
spriteInfo.y = build_unit->y;
spriteInfo.w = frame_head->width;
spriteInfo.h = frame_head->height;
spriteInfo.scale = build_unit->scale;
spriteInfo.scaledWidth = build_unit->scaled_width;
spriteInfo.scaledHeight = build_unit->scaled_height;
spriteInfo.type = spriteType;
spriteInfo.blend = anim_head->blend;
// points to just after frame header, ie. start of sprite data
spriteInfo.data = (byte *) (frame_head + 1);
spriteInfo.colourTable = colTablePtr;
// check for largest layer for debug info
uint32 current_sprite_area = frame_head->width * frame_head->height;
if (current_sprite_area > _largestSpriteArea) {
byte buf[NAME_LEN];
_largestSpriteArea = current_sprite_area;
sprintf(_largestSpriteInfo,
"largest sprite: %s frame(%d) is %dx%d",
_vm->fetchObjectName(build_unit->anim_resource, buf),
build_unit->anim_pc,
frame_head->width,
frame_head->height);
}
if (Logic::_scriptVars[SYSTEM_TESTING_ANIMS]) { // see anims.cpp
// bring the anim into the visible screen
// but leave extra pixel at edge for box
if (spriteInfo.x + spriteInfo.scaledWidth >= 639)
spriteInfo.x = 639 - spriteInfo.scaledWidth;
if (spriteInfo.y + spriteInfo.scaledHeight >= 399)
spriteInfo.y = 399 - spriteInfo.scaledHeight;
if (spriteInfo.x < 1)
spriteInfo.x = 1;
if (spriteInfo.y < 1)
spriteInfo.y = 1;
// create box to surround sprite - just outside sprite box
_vm->_debugger->_rectX1 = spriteInfo.x - 1;
_vm->_debugger->_rectY1 = spriteInfo.y - 1;
_vm->_debugger->_rectX2 = spriteInfo.x + spriteInfo.scaledWidth;
_vm->_debugger->_rectY2 = spriteInfo.y + spriteInfo.scaledHeight;
}
uint32 rv = drawSprite(&spriteInfo);
if (rv) {
byte buf[NAME_LEN];
error("Driver Error %.8x with sprite %s (%d) in processImage",
rv,
_vm->fetchObjectName(build_unit->anim_resource, buf),
build_unit->anim_resource);
}
// release the anim resource
_vm->_resman->closeResource(build_unit->anim_resource);
}
void Screen::resetRenderLists() {
// reset the sort lists - do this before a logic loop
// takes into account the fact that the start of the list is pre-built
// with the special sortable layers
_curBgp0 = 0;
_curBgp1 = 0;
_curBack = 0;
// beginning of sort list is setup with the special sort layers
_curSort = _thisScreen.number_of_layers;
_curFore = 0;
_curFgp0 = 0;
_curFgp1 = 0;
if (_curSort) {
// there are some layers - so rebuild the sort order list
for (uint i = 0; i < _curSort; i++)
_sortOrder[i] = i;
}
}
void Screen::registerFrame(ObjectMouse *ob_mouse, ObjectGraphic *ob_graph, ObjectMega *ob_mega, BuildUnit *build_unit) {
assert(ob_graph->anim_resource);
byte *file = _vm->_resman->openResource(ob_graph->anim_resource);
AnimHeader *anim_head = _vm->fetchAnimHeader(file);
CdtEntry *cdt_entry = _vm->fetchCdtEntry(file, ob_graph->anim_pc);
FrameHeader *frame_head = _vm->fetchFrameHeader(file, ob_graph->anim_pc);
// update player graphic details for on-screen debug info
if (Logic::_scriptVars[ID] == CUR_PLAYER_ID) {
_vm->_debugger->_playerGraphic.type = ob_graph->type;
_vm->_debugger->_playerGraphic.anim_resource = ob_graph->anim_resource;
// counting 1st frame as 'frame 1'
_vm->_debugger->_playerGraphic.anim_pc = ob_graph->anim_pc + 1;
_vm->_debugger->_playerGraphicNoFrames = anim_head->noAnimFrames;
}
// fill in the BuildUnit structure for this frame
build_unit->anim_resource = ob_graph->anim_resource;
build_unit->anim_pc = ob_graph->anim_pc;
build_unit->layer_number = 0;
// Affected by shading mask?
if (ob_graph->type & SHADED_SPRITE)
build_unit->shadingFlag = true;
else
build_unit->shadingFlag = false;
// Check if this frame has offsets ie. this is a scalable mega frame
int scale = 0;
if (cdt_entry->frameType & FRAME_OFFSET) {
// Calc scale at which to print the sprite, based on feet
// y-coord & scaling constants (NB. 'scale' is actually
// 256 * true_scale, to maintain accuracy)
// Ay+B gives 256 * scale ie. 256 * 256 * true_scale for even
// better accuracy, ie. scale = (Ay + B) / 256
scale = (ob_mega->scale_a * ob_mega->feet_y + ob_mega->scale_b) / 256;
// calc final render coordinates (top-left of sprite), based
// on feet coords & scaled offsets
// add scaled offsets to feet coords
build_unit->x = ob_mega->feet_x + (cdt_entry->x * scale) / 256;
build_unit->y = ob_mega->feet_y + (cdt_entry->y * scale) / 256;
// Work out new width and height. Always divide by 256 after
// everything else, to maintain accurary
build_unit->scaled_width = ((scale * frame_head->width) / 256);
build_unit->scaled_height = ((scale * frame_head->height) / 256);
} else {
// It's a non-scaling anim. Get render coords for sprite, from cdt
build_unit->x = cdt_entry->x;
build_unit->y = cdt_entry->y;
// Get width and height
build_unit->scaled_width = frame_head->width;
build_unit->scaled_height = frame_head->height;
}
// either 0 or required scale, depending on whether 'scale' computed
build_unit->scale = scale;
// calc the bottom y-coord for sorting purposes
build_unit->sort_y = build_unit->y + build_unit->scaled_height - 1;
if (ob_mouse) {
// passed a mouse structure, so add to the _mouseList
_vm->_mouse->registerMouse(ob_mouse, build_unit);
}
_vm->_resman->closeResource(ob_graph->anim_resource);
}
void Screen::registerFrame(ObjectMouse *ob_mouse, ObjectGraphic *ob_graph, ObjectMega *ob_mega) {
// check low word for sprite type
switch (ob_graph->type & 0x0000ffff) {
case BGP0_SPRITE:
assert(_curBgp0 < MAX_bgp0_sprites);
registerFrame(ob_mouse, ob_graph, ob_mega, &_bgp0List[_curBgp0]);
_curBgp0++;
break;
case BGP1_SPRITE:
assert(_curBgp1 < MAX_bgp1_sprites);
registerFrame(ob_mouse, ob_graph, ob_mega, &_bgp1List[_curBgp1]);
_curBgp1++;
break;
case BACK_SPRITE:
assert(_curBack < MAX_back_sprites);
registerFrame(ob_mouse, ob_graph, ob_mega, &_backList[_curBack]);
_curBack++;
break;
case SORT_SPRITE:
assert(_curSort < MAX_sort_sprites);
_sortOrder[_curSort] = _curSort;
registerFrame(ob_mouse, ob_graph, ob_mega, &_sortList[_curSort]);
_curSort++;
break;
case FORE_SPRITE:
assert(_curFore < MAX_fore_sprites);
registerFrame(ob_mouse, ob_graph, ob_mega, &_foreList[_curFore]);
_curFore++;
break;
case FGP0_SPRITE:
assert(_curFgp0 < MAX_fgp0_sprites);
registerFrame(ob_mouse, ob_graph, ob_mega, &_fgp0List[_curFgp0]);
_curFgp0++;
break;
case FGP1_SPRITE:
assert(_curFgp1 < MAX_fgp1_sprites);
registerFrame(ob_mouse, ob_graph, ob_mega, &_fgp1List[_curFgp1]);
_curFgp1++;
break;
default:
// NO_SPRITE no registering!
break;
}
}
} // End of namespace Sword2
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