istereo: src/cam.c annotate

istereo

annotate src/cam.c @ 20:21d58290e634

forgot the cam files

author	John Tsiombikas <nuclear@mutantstargoat.com>
date	Wed, 07 Sep 2011 10:15:35 +0300
parents
children	ff055bff6a15

rev	line source
nuclear@20	1 #include <math.h>
nuclear@20	2 #include "opengl.h"
nuclear@20	3 #include "cam.h"
nuclear@20	4 #include "sanegl.h"
nuclear@20	5
nuclear@20	6 #define DEG_TO_RAD(x) (M_PI * (x) / 180.0)
nuclear@20	7
nuclear@20	8 typedef struct vec3 {
nuclear@20	9 float x, y, z;
nuclear@20	10 } vec3_t;
nuclear@20	11
nuclear@20	12 /* viewing parameters */
nuclear@20	13 #define DEF_THETA 0
nuclear@20	14 #define DEF_PHI 0
nuclear@20	15 #define DEF_DIST 0
nuclear@20	16 #define DEF_X 0
nuclear@20	17 #define DEF_Y 0
nuclear@20	18 #define DEF_Z 0
nuclear@20	19
nuclear@20	20 static float cam_theta = DEF_THETA, cam_phi = DEF_PHI;
nuclear@20	21 static float cam_dist = DEF_DIST;
nuclear@20	22 static vec3_t cam_pos = {DEF_X, DEF_Y, DEF_Z};
nuclear@20	23 static float cam_speed = 1.0;
nuclear@20	24
nuclear@20	25 /* projection parameters */
nuclear@20	26 #define DEF_VFOV 45.0
nuclear@20	27 #define DEF_ASPECT 1.3333333
nuclear@20	28 #define DEF_NEAR 1.0
nuclear@20	29 #define DEF_FAR 1000.0
nuclear@20	30
nuclear@20	31 static float vfov = DEF_VFOV;
nuclear@20	32 static float aspect = DEF_ASPECT;
nuclear@20	33 static float nearclip = DEF_NEAR, farclip = DEF_FAR;
nuclear@20	34
nuclear@20	35 /* stereo parameters */
nuclear@20	36 #define DEF_EYE_SEP 0.1
nuclear@20	37 #define DEF_FOCUS_DIST 1.0
nuclear@20	38
nuclear@20	39 static float eye_sep = DEF_EYE_SEP;
nuclear@20	40 static float focus_dist = DEF_FOCUS_DIST;
nuclear@20	41
nuclear@20	42
nuclear@20	43 static float rot_speed = 0.5;
nuclear@20	44 static float zoom_speed = 0.1;
nuclear@20	45
nuclear@20	46 void cam_reset(void)
nuclear@20	47 {
nuclear@20	48 cam_reset_view();
nuclear@20	49 cam_reset_proj();
nuclear@20	50 cam_reset_stereo();
nuclear@20	51 }
nuclear@20	52
nuclear@20	53 void cam_reset_view(void)
nuclear@20	54 {
nuclear@20	55 cam_theta = DEF_THETA;
nuclear@20	56 cam_phi = DEF_PHI;
nuclear@20	57 cam_dist = DEF_DIST;
nuclear@20	58 cam_pos.x = DEF_X;
nuclear@20	59 cam_pos.y = DEF_Y;
nuclear@20	60 cam_pos.z = DEF_Z;
nuclear@20	61 }
nuclear@20	62
nuclear@20	63 void cam_reset_proj(void)
nuclear@20	64 {
nuclear@20	65 vfov = DEF_VFOV;
nuclear@20	66 aspect = DEF_ASPECT;
nuclear@20	67 nearclip = DEF_NEAR;
nuclear@20	68 farclip = DEF_FAR;
nuclear@20	69 }
nuclear@20	70
nuclear@20	71 void cam_reset_stereo(void)
nuclear@20	72 {
nuclear@20	73 eye_sep = DEF_EYE_SEP;
nuclear@20	74 focus_dist = DEF_FOCUS_DIST;
nuclear@20	75 }
nuclear@20	76
nuclear@20	77 void cam_pan(int dx, int dy)
nuclear@20	78 {
nuclear@20	79 float dxf = dx * cam_speed;
nuclear@20	80 float dyf = dy * cam_speed;
nuclear@20	81 float angle = -DEG_TO_RAD(cam_theta);
nuclear@20	82
nuclear@20	83 cam_pos.x += cos(angle) * dxf + sin(angle) * dyf;
nuclear@20	84 cam_pos.z += -sin(angle) * dxf + cos(angle) * dyf;
nuclear@20	85 }
nuclear@20	86
nuclear@20	87 void cam_height(int dh)
nuclear@20	88 {
nuclear@20	89 cam_pos.y += dh * cam_speed;
nuclear@20	90 }
nuclear@20	91
nuclear@20	92 void cam_rotate(int dx, int dy)
nuclear@20	93 {
nuclear@20	94 cam_theta += dx * rot_speed;
nuclear@20	95 cam_phi += dy * rot_speed;
nuclear@20	96
nuclear@20	97 if(cam_phi < -90) cam_phi = -90;
nuclear@20	98 if(cam_phi > 90) cam_phi = 90;
nuclear@20	99 }
nuclear@20	100
nuclear@20	101 void cam_zoom(int dz)
nuclear@20	102 {
nuclear@20	103 cam_dist += dz * zoom_speed;
nuclear@20	104 if(cam_dist < 0.001) {
nuclear@20	105 cam_dist = 0.001;
nuclear@20	106 }
nuclear@20	107 }
nuclear@20	108
nuclear@20	109 void cam_clip(float n, float f)
nuclear@20	110 {
nuclear@20	111 nearclip = n;
nuclear@20	112 farclip = f;
nuclear@20	113 }
nuclear@20	114
nuclear@20	115 void cam_fov(float f)
nuclear@20	116 {
nuclear@20	117 vfov = f;
nuclear@20	118 }
nuclear@20	119
nuclear@20	120 void cam_aspect(float a)
nuclear@20	121 {
nuclear@20	122 aspect = a;
nuclear@20	123 }
nuclear@20	124
nuclear@20	125 void cam_separation(float s)
nuclear@20	126 {
nuclear@20	127 eye_sep = s;
nuclear@20	128 }
nuclear@20	129
nuclear@20	130 void cam_focus_dist(float d)
nuclear@20	131 {
nuclear@20	132 focus_dist = d;
nuclear@20	133
nuclear@20	134 cam_separation(d / 30.0);
nuclear@20	135 }
nuclear@20	136
nuclear@20	137 void cam_view_matrix(void)
nuclear@20	138 {
nuclear@20	139 cam_stereo_view_matrix(CAM_CENTER);
nuclear@20	140 }
nuclear@20	141
nuclear@20	142 void cam_stereo_view_matrix(int eye)
nuclear@20	143 {
nuclear@20	144 static const float offs_sign[] = {0.0f, 0.5f, -0.5f}; /* center, left, right */
nuclear@20	145 float offs = eye_sep * offs_sign[eye];
nuclear@20	146
nuclear@20	147 gl_translatef(offs, 0, 0);
nuclear@20	148
nuclear@20	149 gl_translatef(0, 0, -cam_dist);
nuclear@20	150 gl_rotatef(cam_phi, 1, 0, 0);
nuclear@20	151 gl_rotatef(cam_theta, 0, 1, 0);
nuclear@20	152 gl_translatef(-cam_pos.x, -cam_pos.y, -cam_pos.z);
nuclear@20	153 }
nuclear@20	154
nuclear@20	155 void cam_proj_matrix(void)
nuclear@20	156 {
nuclear@20	157 cam_stereo_proj_matrix(CAM_CENTER);
nuclear@20	158 }
nuclear@20	159
nuclear@20	160 void cam_stereo_proj_matrix(int eye)
nuclear@20	161 {
nuclear@20	162 float vfov_rad = M_PI * vfov / 180.0;
nuclear@20	163 float top = nearclip * tan(vfov_rad * 0.5);
nuclear@20	164 float right = top * aspect;
nuclear@20	165
nuclear@20	166 static const float offs_sign[] = {0.0f, 1.0, -1.0}; /* center, left, right */
nuclear@20	167 float frust_shift = offs_sign[eye] * (eye_sep * 0.5 * nearclip / focus_dist);
nuclear@20	168
nuclear@20	169 gl_frustum(-right + frust_shift, right + frust_shift, -top, top, nearclip, farclip);
nuclear@20	170 }