X-Git-Url: https://git.verplant.org/?a=blobdiff_plain;f=src%2Fcamera.cpp;h=458d7031f805f1c4d9cffcc9d94c238356574039;hb=875ef8eb7e93726bc67dfa7f05da946250e588d4;hp=a4c5aba4fa7b3202352b8b1366afebbff2fb8b15;hpb=edaacb3651cf0560314dd008d7243be4b3b2f8c6;p=supertux.git diff --git a/src/camera.cpp b/src/camera.cpp index a4c5aba4f..458d7031f 100644 --- a/src/camera.cpp +++ b/src/camera.cpp @@ -17,11 +17,14 @@ // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. +#include + #include #include #include #include "camera.h" +#include "utils/lispreader.h" #include "utils/lispwriter.h" #include "player.h" #include "tilemap.h" @@ -67,7 +70,7 @@ Camera::read(LispReader& reader) if(cur == 0) { throw std::runtime_error("No path specified in autoscroll camera."); } - float speed = .5; + float speed = 50; while(!lisp_nil_p(cur)) { if(strcmp(lisp_symbol(lisp_car(lisp_car(cur))), "point") != 0) { std::cerr << "Warning: unknown token in camera path.\n"; @@ -133,7 +136,7 @@ Camera::reset(const Vector& tuxpos) } static const float EPSILON = .00001; -static const float max_speed_y = 1.4; +static const float max_speed_y = 140; void Camera::action(float elapsed_time) @@ -180,12 +183,13 @@ Camera::scroll_normal(float elapsed_time) if(do_y_scrolling) { // target_y is the high we target our scrolling at. This is not always the // high of the player, but if he is jumping upwards we should use the - // position where he last touched the ground. - float target_y; + // position where he last touched the ground. (this probably needs + // exceptions for trampolines and similar things in the future) + float target_y; if(player->fall_mode == Player::JUMPING) - target_y = player->last_ground_y + player->base.height; + target_y = player->last_ground_y + player->get_bbox().get_height(); else - target_y = player->base.y + player->base.height; + target_y = player->get_bbox().p2.y; // delta_y is the distance we'd have to travel to directly reach target_y float delta_y = translation.y - (target_y - screen->h/2); @@ -216,28 +220,29 @@ Camera::scroll_normal(float elapsed_time) || (player->dir == ::RIGHT && scrollchange == LEFT)) scrollchange = NONE; // when in left 1/3rd of screen scroll left - if(player->base.x < translation.x + screen->w/3 - 16 && do_backscrolling) + if(player->get_bbox().get_middle().x < translation.x + screen->w/3 - 16 + && do_backscrolling) scrollchange = LEFT; // scroll right when in right 1/3rd of screen - else if(player->base.x > translation.x + screen->w/3*2 + 16) + else if(player->get_bbox().get_middle().x > translation.x + screen->w/3*2+16) scrollchange = RIGHT; // calculate our scroll target depending on scroll mode float target_x; if(scrollchange == LEFT) - target_x = player->base.x - screen->w/3*2; + target_x = player->get_bbox().get_middle().x - screen->w/3*2; else if(scrollchange == RIGHT) - target_x = player->base.x - screen->w/3; + target_x = player->get_bbox().get_middle().x - screen->w/3; else target_x = translation.x; // that's the distance we would have to travel to reach target_x float delta_x = translation.x - target_x; // the speed we'd need to travel to reach target_x in this frame - float speed_x = 1.3 * delta_x / elapsed_time; + float speed_x = delta_x / elapsed_time; // limit our speed - float maxv = 1.3 * (1 + fabsf(player->physic.get_velocity_x() * 1.3)); + float maxv = 130 + (fabsf(player->physic.get_velocity_x() * 1.3)); if(speed_x > maxv) speed_x = maxv; else if(speed_x < -maxv)