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vcmi/client/battle/CCreatureAnimation.cpp

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#include "StdInc.h"
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#include "CCreatureAnimation.h"
#include "../../lib/vcmi_endian.h"
#include "../../lib/CConfigHandler.h"
#include "../../lib/CCreatureHandler.h"
#include "../../lib/filesystem/Filesystem.h"
#include "../../lib/filesystem/CBinaryReader.h"
#include "../../lib/filesystem/CMemoryStream.h"
#include "../gui/SDL_Extensions.h"
#include "../gui/SDL_Pixels.h"
/*
* CCreatureAnimation.cpp, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
static const SDL_Color creatureBlueBorder = { 0, 255, 255, 255 };
static const SDL_Color creatureGoldBorder = { 255, 255, 0, 255 };
static const SDL_Color creatureNoBorder = { 0, 0, 0, 0 };
SDL_Color AnimationControls::getBlueBorder()
{
return creatureBlueBorder;
}
SDL_Color AnimationControls::getGoldBorder()
{
return creatureGoldBorder;
}
SDL_Color AnimationControls::getNoBorder()
{
return creatureNoBorder;
}
CCreatureAnimation * AnimationControls::getAnimation(const CCreature * creature)
{
auto func = std::bind(&AnimationControls::getCreatureAnimationSpeed, creature, _1, _2);
return new CCreatureAnimation(creature->animDefName, func);
}
float AnimationControls::getCreatureAnimationSpeed(const CCreature * creature, const CCreatureAnimation * anim, size_t group)
{
CCreatureAnim::EAnimType type = CCreatureAnim::EAnimType(group);
assert(creature->animation.walkAnimationTime != 0);
assert(creature->animation.attackAnimationTime != 0);
assert(anim->framesInGroup(type) != 0);
// possible new fields for creature format:
//split "Attack time" into "Shoot Time" and "Cast Time"
// a lot of arbitrary multipliers, mostly to make animation speed closer to H3
const float baseSpeed = 0.1;
const float speedMult = settings["battle"]["animationSpeed"].Float();
const float speed = baseSpeed / speedMult;
switch (type)
{
case CCreatureAnim::MOVING:
return speed * 2 * creature->animation.walkAnimationTime / anim->framesInGroup(type);
case CCreatureAnim::MOUSEON:
return baseSpeed;
case CCreatureAnim::HOLDING:
return baseSpeed * creature->animation.idleAnimationTime / anim->framesInGroup(type);
case CCreatureAnim::SHOOT_UP:
case CCreatureAnim::SHOOT_FRONT:
case CCreatureAnim::SHOOT_DOWN:
case CCreatureAnim::CAST_UP:
case CCreatureAnim::CAST_FRONT:
case CCreatureAnim::CAST_DOWN:
return speed * 4 * creature->animation.attackAnimationTime / anim->framesInGroup(type);
// as strange as it looks like "attackAnimationTime" does not affects melee attacks
// necessary because length of these animations must be same for all creatures for synchronization
case CCreatureAnim::ATTACK_UP:
case CCreatureAnim::ATTACK_FRONT:
case CCreatureAnim::ATTACK_DOWN:
case CCreatureAnim::HITTED:
case CCreatureAnim::DEFENCE:
case CCreatureAnim::DEATH:
return speed * 3 / anim->framesInGroup(type);
case CCreatureAnim::TURN_L:
case CCreatureAnim::TURN_R:
return speed / 3;
case CCreatureAnim::MOVE_START:
case CCreatureAnim::MOVE_END:
return speed / 3;
case CCreatureAnim::DEAD:
return speed;
default:
assert(0);
return 1;
}
}
float AnimationControls::getProjectileSpeed()
{
return settings["battle"]["animationSpeed"].Float() * 100;
}
float AnimationControls::getSpellEffectSpeed()
{
return settings["battle"]["animationSpeed"].Float() * 60;
}
float AnimationControls::getMovementDuration(const CCreature * creature)
{
return settings["battle"]["animationSpeed"].Float() * 4 / creature->animation.walkAnimationTime;
}
float AnimationControls::getFlightDistance(const CCreature * creature)
{
return creature->animation.flightAnimationDistance * 200;
}
CCreatureAnim::EAnimType CCreatureAnimation::getType() const
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{
return type;
}
void CCreatureAnimation::setType(CCreatureAnim::EAnimType type)
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{
assert(type >= 0);
assert(framesInGroup(type) != 0);
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this->type = type;
currentFrame = 0;
once = false;
play();
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}
CCreatureAnimation::CCreatureAnimation(std::string name, TSpeedController controller)
: defName(name),
speed(0.1),
currentFrame(0),
elapsedTime(0),
type(CCreatureAnim::HOLDING),
border(CSDL_Ext::makeColor(0, 0, 0, 0)),
speedController(controller),
once(false)
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{
// separate block to avoid accidental use of "data" after it was moved into "pixelData"
{
ResourceID resID(std::string("SPRITES/") + name, EResType::ANIMATION);
auto data = CResourceHandler::get()->load(resID)->readAll();
pixelData = std::move(data.first);
pixelDataSize = data.second;
}
CBinaryReader reader(new CMemoryStream(pixelData.get(), pixelDataSize));
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reader.readInt32(); // def type, unused
fullWidth = reader.readInt32();
fullHeight = reader.readInt32();
int totalBlocks = reader.readInt32();
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for (auto & elem : palette)
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{
elem.r = reader.readUInt8();
elem.g = reader.readUInt8();
elem.b = reader.readUInt8();
CSDL_Ext::colorSetAlpha(elem,0);
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}
for (int i=0; i<totalBlocks; i++)
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{
int groupID = reader.readInt32();
int totalInBlock = reader.readInt32();
reader.skip(4 + 4 + 13 * totalInBlock); // some unused data
for (int j=0; j<totalInBlock; j++)
dataOffsets[groupID].push_back(reader.readUInt32());
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}
// if necessary, add one frame into vcmi-only group DEAD
if (dataOffsets.count(CCreatureAnim::DEAD) == 0)
dataOffsets[CCreatureAnim::DEAD].push_back(dataOffsets[CCreatureAnim::DEATH].back());
play();
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}
void CCreatureAnimation::endAnimation()
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{
once = false;
auto copy = onAnimationReset;
onAnimationReset.clear();
copy();
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}
bool CCreatureAnimation::incrementFrame(float timePassed)
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{
elapsedTime += timePassed;
currentFrame += timePassed * speed;
if (currentFrame >= float(framesInGroup(type)))
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{
// just in case of extremely low fps (or insanely high speed)
while (currentFrame >= float(framesInGroup(type)))
currentFrame -= framesInGroup(type);
if (once)
setType(CCreatureAnim::HOLDING);
endAnimation();
return true;
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}
return false;
}
void CCreatureAnimation::setBorderColor(SDL_Color palette)
{
border = palette;
}
int CCreatureAnimation::getWidth() const
{
return fullWidth;
}
int CCreatureAnimation::getHeight() const
{
return fullHeight;
}
float CCreatureAnimation::getCurrentFrame() const
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{
return currentFrame;
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}
void CCreatureAnimation::playOnce( CCreatureAnim::EAnimType type )
{
setType(type);
once = true;
}
inline int getBorderStrength(float time)
{
float borderStrength = fabs(vstd::round(time) - time) * 2; // generate value in range 0-1
return borderStrength * 155 + 100; // scale to 0-255
}
static SDL_Color genShadow(ui8 alpha)
{
return CSDL_Ext::makeColor(0, 0, 0, alpha);
}
static SDL_Color genBorderColor(ui8 alpha, const SDL_Color & base)
{
#ifdef VCMI_SDL1
return CSDL_Ext::makeColor(base.r, base.g, base.b, ui8(base.unused * alpha / 256));
#else
return CSDL_Ext::makeColor(base.r, base.g, base.b, ui8(base.a * alpha / 256));
#endif
}
static ui8 mixChannels(ui8 c1, ui8 c2, ui8 a1, ui8 a2)
{
return c1*a1 / 256 + c2*a2*(255 - a1) / 256 / 256;
}
static SDL_Color addColors(const SDL_Color & base, const SDL_Color & over)
{
#ifdef VCMI_SDL1
return CSDL_Ext::makeColor(
mixChannels(over.r, base.r, over.unused, base.unused),
mixChannels(over.g, base.g, over.unused, base.unused),
mixChannels(over.b, base.b, over.unused, base.unused),
ui8(over.unused + base.unused * (255 - over.unused) / 256)
);
#else
return CSDL_Ext::makeColor(
mixChannels(over.r, base.r, over.a, base.a),
mixChannels(over.g, base.g, over.a, base.a),
mixChannels(over.b, base.b, over.a, base.a),
ui8(over.a + base.a * (255 - over.a) / 256)
);
#endif // VCMI_SDL1
}
std::array<SDL_Color, 8> CCreatureAnimation::genSpecialPalette()
{
std::array<SDL_Color, 8> ret;
ret[0] = genShadow(0);
ret[1] = genShadow(64);
ret[2] = genShadow(128);
ret[3] = genShadow(128);
ret[4] = genShadow(128);
ret[5] = genBorderColor(getBorderStrength(elapsedTime), border);
ret[6] = addColors(genShadow(128), genBorderColor(getBorderStrength(elapsedTime), border));
ret[7] = addColors(genShadow(64), genBorderColor(getBorderStrength(elapsedTime), border));
return ret;
}
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template<int bpp>
void CCreatureAnimation::nextFrameT(SDL_Surface * dest, bool rotate)
{
assert(dataOffsets.count(type) && dataOffsets.at(type).size() > size_t(currentFrame));
ui32 offset = dataOffsets.at(type).at(floor(currentFrame));
CBinaryReader reader(new CMemoryStream(pixelData.get(), pixelDataSize));
reader.getStream()->seek(offset);
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reader.readUInt32(); // unused, size of pixel data for this frame
const ui32 defType2 = reader.readUInt32();
const ui32 fullWidth = reader.readUInt32();
/*const ui32 fullHeight =*/ reader.readUInt32();
const ui32 spriteWidth = reader.readUInt32();
const ui32 spriteHeight = reader.readUInt32();
const int leftMargin = reader.readInt32();
const int topMargin = reader.readInt32();
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const int rightMargin = fullWidth - spriteWidth - leftMargin;
//const int bottomMargin = fullHeight - spriteHeight - topMargin;
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const size_t baseOffset = reader.getStream()->tell();
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assert(defType2 == 1);
UNUSED(defType2);
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auto specialPalette = genSpecialPalette();
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for (ui32 i=0; i<spriteHeight; i++)
{
//NOTE: if this loop will be optimized to skip empty lines - recheck this read access
ui8 * lineData = pixelData.get() + baseOffset + reader.readUInt32();
size_t destX = pos.x;
if (rotate)
destX += rightMargin + spriteWidth - 1;
else
destX += leftMargin;
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size_t destY = pos.y + topMargin + i;
size_t currentOffset = 0;
size_t totalRowLength = 0;
while (totalRowLength < spriteWidth)
{
ui8 type = lineData[currentOffset++];
ui32 length = lineData[currentOffset++] + 1;
if (type==0xFF)//Raw data
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{
for (size_t j=0; j<length; j++)
putPixelAt<bpp>(dest, destX + (rotate?(-j):(j)), destY, lineData[currentOffset + j], specialPalette);
currentOffset += length;
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}
else// RLE
{
if (type != 0) // transparency row, handle it here for speed
{
for (size_t j=0; j<length; j++)
putPixelAt<bpp>(dest, destX + (rotate?(-j):(j)), destY, type, specialPalette);
}
}
destX += rotate ? (-length) : (length);
totalRowLength += length;
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}
}
}
void CCreatureAnimation::nextFrame(SDL_Surface *dest, bool attacker)
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{
// Note: please notice that attacker value is inversed when passed further.
// This is intended behavior because "attacker" actually does not needs rotation
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switch(dest->format->BytesPerPixel)
{
case 2: return nextFrameT<2>(dest, !attacker);
case 3: return nextFrameT<3>(dest, !attacker);
case 4: return nextFrameT<4>(dest, !attacker);
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default:
logGlobal->errorStream() << (int)dest->format->BitsPerPixel << " bpp is not supported!!!";
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}
}
int CCreatureAnimation::framesInGroup(CCreatureAnim::EAnimType group) const
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{
if(dataOffsets.count(group) == 0)
return 0;
return dataOffsets.at(group).size();
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}
ui8 * CCreatureAnimation::getPixelAddr(SDL_Surface * dest, int X, int Y) const
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{
return (ui8*)dest->pixels + X * dest->format->BytesPerPixel + Y * dest->pitch;
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}
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template<int bpp>
inline void CCreatureAnimation::putPixelAt(SDL_Surface * dest, int X, int Y, size_t index, const std::array<SDL_Color, 8> & special) const
{
if ( X < pos.x + pos.w && Y < pos.y + pos.h && X >= 0 && Y >= 0)
putPixel<bpp>(getPixelAddr(dest, X, Y), palette[index], index, special);
}
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template<int bpp>
inline void CCreatureAnimation::putPixel(ui8 * dest, const SDL_Color & color, size_t index, const std::array<SDL_Color, 8> & special) const
{
if (index < 8)
{
const SDL_Color & pal = special[index];
#ifdef VCMI_SDL1
ColorPutter<bpp, 0>::PutColor(dest, pal.r, pal.g, pal.b, pal.unused);
#else
ColorPutter<bpp, 0>::PutColor(dest, pal.r, pal.g, pal.b, pal.a);
#endif // 0
}
else
{
ColorPutter<bpp, 0>::PutColor(dest, color.r, color.g, color.b);
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}
}
bool CCreatureAnimation::isDead() const
{
return getType() == CCreatureAnim::DEAD
|| getType() == CCreatureAnim::DEATH;
}
bool CCreatureAnimation::isIdle() const
{
return getType() == CCreatureAnim::HOLDING
|| getType() == CCreatureAnim::MOUSEON;
}
bool CCreatureAnimation::isMoving() const
{
return getType() == CCreatureAnim::MOVE_START
|| getType() == CCreatureAnim::MOVING
|| getType() == CCreatureAnim::MOVE_END;
}
bool CCreatureAnimation::isShooting() const
{
return getType() == CCreatureAnim::SHOOT_UP
|| getType() == CCreatureAnim::SHOOT_FRONT
|| getType() == CCreatureAnim::SHOOT_DOWN;
}
void CCreatureAnimation::pause()
{
speed = 0;
}
void CCreatureAnimation::play()
{
speed = 0;
if (speedController(this, type) != 0)
speed = 1 / speedController(this, type);
}