OpenGTA/gl_camera.cpp

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#include "gl_camera.h"
#include "gl_screen.h"
#include "opengta.h"
#include "dataholder.h"
#include <iostream>
#include "log.h"
#include "blockdata.h"
using namespace OpenGTA;
float slope_height_offset(unsigned char slope_type, float dx, float dz);
namespace OpenGL {
/* implementation mainly taken from:
*
* "Talk to me like I'm a 3 year old!" Programming Lessons
* by DigiBen (digiben@gametutorials.com)
*
*/
Camera::Camera() : eye(), center(), up(), doRotate(false),
camGravity(false), gameCamMode(false), followTarget(&center) {
interpolateStart = 0;
interpolateEnd = 0;
}
void Camera::update_game(Uint32 ticks) {
Vector3D delta(center - *followTarget);
//INFO << delta.x << ", " << delta.y << ", " << delta.z << std::endl;
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float height_dist = fabs(delta.y);
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delta.y = 0;
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if (camGravity) {
if (center.y - followTarget->y > 4.1) {
delta.y = 0.001f * height_dist;
}
else if (center.y - followTarget->y < 3.9) {
delta.y = -0.001f * height_dist;
}
}
//INFO << center.y << " " << followTarget->y<< " " << height_dist << std::endl;
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center += -delta;
eye += -delta;
gluLookAt(eye.x, eye.y, eye.z, center.x, center.y, center.z,
up.x, up.y, up.z);
}
void Camera::setFollowMode(const Vector3D & target) {
followTarget = &target;
//INFO << "following " << target.x << ", " << target.y << ", " << target.z << std::endl;
gameCamMode = 1;
}
void Camera::releaseFollowMode() {
followTarget = &center;
gameCamMode = 0;
}
void Camera::update(Uint32 ticks) {
if (gameCamMode) {
update_game(ticks);
return;
}
moveByMouse();
float x,y,z;
x = floor(eye.x);
y = floor(eye.y);
z = floor(eye.z);
int do_grav = 1;
float delta_y = 0;
if (camGravity && do_grav) {
center.y -= 0.1f * ticks/40.0f;
eye.y -= 0.1f * ticks/40.0f;
}
OpenGTA::Map & map = OpenGTA::MapHolder::Instance().get();
if (y < map.getNumBlocksAtNew(PHYSFS_uint8(x), PHYSFS_uint8(z)) && y > 0.0f) {
OpenGTA::Map::BlockInfo * block = map.getBlockAtNew(PHYSFS_uint8(x), PHYSFS_uint8(z), PHYSFS_uint8(y));
if (block->blockType() > 0 && block->blockType() <= 5) {
float bz = slope_height_offset(block->slopeType(), eye.x - x, eye.z - z);
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if (block->slopeType() == 0 && (block->blockType() != 5 && block->blockType() != 6))
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bz -= 1;
//INFO << int(block->blockType()) << ", " << eye.y << ", " <<
// eye.y - y << ", " << eye.y - y - bz << ", " << bz << std::endl;
float react_delta = 0.3f;
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if (block->blockType() == 5 || block->blockType() == 6)
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react_delta = 0.0f;
if (eye.y - y - bz < react_delta) {
//do_grav = 0;
Vector3D new_eye(eye);
new_eye.y = y + bz + react_delta;
delta_y = new_eye.y - eye.y;
center.y = center.y - eye.y + new_eye.y;
eye.y = new_eye.y;
}
}
#if 0
if (y >= 1.0f) {
block = map.getBlockAtNew(PHYSFS_uint8(x), PHYSFS_uint8(z), PHYSFS_uint8(y-1));
if (block->blockType() > 0) {
INFO << "below is " << int(block->blockType()) << std::endl;
center.y = center.y - eye.y + y + 0.3f;
eye.y = y + 0.3f;
}
}
#endif
}
y -= 1;
if (y < map.getNumBlocksAtNew(PHYSFS_uint8(x), PHYSFS_uint8(z)) && y > 0.0f) {
OpenGTA::Map::BlockInfo * block = map.getBlockAtNew(PHYSFS_uint8(x), PHYSFS_uint8(z), PHYSFS_uint8(y));
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if (block->blockType() == 5 || block->blockType() == 6) {
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float bz = slope_height_offset(block->slopeType(), eye.x - x, eye.z - z);
//INFO << eye.y << ", " << y << " bz " << bz << std::endl;
if (eye.y - y - bz < 0.4f) {
Vector3D new_eye(eye);
new_eye.y = y + bz + 0.4;
delta_y = new_eye.y - eye.y;
//INFO << "setting " << new_eye.y << std::endl;
center.y = center.y - eye.y + new_eye.y;
eye.y = new_eye.y;
do_grav = 0;
}
}
}
/*
if (camGravity && do_grav) {
Vector dn(0, -0.1f*do_grav, 0);
eye += dn;
center += dn;
}*/
/*
if (camGravity && do_grav) {
center.y -= 0.1f * ticks/40.0f;
eye.y -= 0.1f * ticks/40.0f;
}*/
if (interpolateStart) {
float as_one = float(interpolateStart - 1) / interpolateEnd;
Vector3D now = (1 - as_one) * interpolateFrom + as_one * interpolateTo;
center = center - eye + now;
eye = now;
interpolateStart += ticks;
if (interpolateStart > interpolateEnd)
interpolateStart = 0;
}
else {
if (speed > 0.01f || speed < -0.01f) {
Vector3D v = center - eye;
if (camGravity)
v.y = delta_y;
v = v.Normalized();
center += speed * ticks/40.0f * v;
eye += speed * ticks/40.0f * v;
//INFO << v.y << std::endl;
}
if (doRotate)
rotateAround(Vector3D(center.x, 0, center.z), 0, 0.01f, 0);
}
gluLookAt(eye.x, eye.y, eye.z, center.x, center.y, center.z,
up.x, up.y, up.z);
}
void Camera::setRotating(bool demo) {
doRotate = demo;
}
void Camera::setCamGravity(bool demo) {
camGravity = demo;
}
void Camera::setVectors(const Vector3D & e, const Vector3D & c, const Vector3D & u) {
eye = e;
center = c;
up = u;
}
void Camera::setSpeed(float new_speed) {
speed = new_speed;
}
void Camera::translateBy(const Vector3D & t) {
eye += t;
center += t;
}
void Camera::translateTo(const Vector3D & e) {
Vector3D rel = eye - e;
translateBy(rel);
}
void Camera::rotateView(float x, float y, float z) {
Vector3D v = center - eye;
if (x) {
center.z = eye.z + sin(x) * v.y + cos(x) * v.z;
center.y = eye.y + cos(x) * v.y - sin(x) * v.z;
}
if (y) {
center.z = eye.z + sin(y) * v.x + cos(y) * v.z;
center.x = eye.x + cos(y) * v.x - sin(y) * v.z;
}
if (z) {
center.x = eye.x + sin(z) * v.y + cos(z) * v.x;
center.y = eye.y + cos(z) * v.y - sin(z) * v.x;
}
}
void Camera::rotateAround(const Vector3D & lookAt, float x, float y, float z) {
Vector3D v = eye - lookAt;
if (x) {
eye.z = lookAt.z + sin(x) * v.y + cos(x) * v.z;
eye.y = lookAt.y + cos(x) * v.y - sin(x) * v.z;
}
if (y) {
eye.z = lookAt.z + sin(y) * v.x + cos(y) * v.z;
eye.x = lookAt.x + cos(y) * v.x - sin(y) * v.z;
}
if (z) {
eye.x = lookAt.x + sin(z) * v.y + cos(z) * v.x;
eye.y = lookAt.y + cos(z) * v.y - sin(z) * v.x;
}
}
void Camera::moveByMouse() {
Screen & screen = ScreenHolder::Instance();
int w, h;
w = screen.getWidth() / 2;
h = screen.getHeight() / 2;
int mx, my;
SDL_GetMouseState(&mx, &my);
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SDL_WarpMouseInWindow(screen.surface, w, h);
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if ((mx == w) && (my == h))
return;
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float rot_x = (float(w) - mx) / 300;
float rot_y = (float(h) - my) / 300;
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center.y += rot_y * 8;
if (center.y - eye.y > 15)
center.y = eye.y + 15;
else if (center.y - eye.y < -15)
center.y = eye.y - 15;
rotateView(0, -rot_x, 0);
}
void Camera::interpolate(const Vector3D & to, const Uint32 & start, const Uint32 & end) {
interpolateFrom = eye;
interpolateTo = to;
interpolateStart = start;
interpolateEnd = end;
}
#if 0
void QuaternionCamera::update(Uint32 ticks) {
float cur_ratio = 0;
quat step = exp(sampleLinear(ln_start, ln_end, cur_ratio));
mtx44 m = quatToRotationMatrix(step);
glMatrixMode(GL_MODELVIEW);
glLoadIdentity();
glMultMatrixf((float*)m.x);
}
#endif
}