curvedraw: src/app.cc annotate

curvedraw

annotate src/app.cc @ 3:bf78387a9925

pan/zoom, grid snapping

author	John Tsiombikas <nuclear@member.fsf.org>
date	Thu, 17 Dec 2015 07:10:10 +0200
parents	ce7aa9a0594c
children	9f75208b81cd

rev	line source
nuclear@0	1 #include <stdlib.h>
nuclear@0	2 #include <float.h>
nuclear@2	3 #include <assert.h>
nuclear@0	4 #include <vector>
nuclear@0	5 #include <algorithm>
nuclear@0	6 #include "opengl.h"
nuclear@0	7 #include "app.h"
nuclear@0	8 #include "curve.h"
nuclear@0	9 #include "widgets.h"
nuclear@0	10
nuclear@3	11 enum SnapMode {
nuclear@3	12 SNAP_NONE,
nuclear@3	13 SNAP_GRID,
nuclear@3	14 SNAP_POINT
nuclear@3	15 };
nuclear@3	16
nuclear@1	17 int win_width, win_height;
nuclear@1	18 float win_aspect;
nuclear@1	19
nuclear@0	20 static void draw_grid(float sz, float sep, float alpha = 1.0f);
nuclear@0	21 static void draw_curve(const Curve *curve);
nuclear@0	22 static void on_click(int bn, float u, float v);
nuclear@0	23
nuclear@2	24 // viewport control
nuclear@2	25 static Vector2 view_pan;
nuclear@3	26 static float view_scale = 0.2f;
nuclear@3	27 static Matrix4x4 view_matrix;
nuclear@3	28
nuclear@3	29 static float grid_size = 1.0;
nuclear@3	30 static SnapMode snap_mode;
nuclear@0	31
nuclear@0	32 static std::vector<Curve*> curves;
nuclear@2	33 static Curve *sel_curve; // selected curve being edited
nuclear@2	34 static Curve *new_curve; // new curve being entered
nuclear@2	35 static Curve *hover_curve; // curve the mouse is hovering over (click to select)
nuclear@2	36 static int sel_pidx = -1; // selected point of the selected or hovered-over curve
nuclear@0	37
nuclear@2	38 static Label *weight_label; // floating label for the cp weight
nuclear@0	39
nuclear@3	40 #ifdef DRAW_MOUSE_POINTER
nuclear@3	41 static Vector2 mouse_pointer;
nuclear@3	42 #endif
nuclear@3	43
nuclear@0	44
nuclear@0	45 bool app_init(int argc, char **argv)
nuclear@0	46 {
nuclear@0	47 glEnable(GL_MULTISAMPLE);
nuclear@0	48 glEnable(GL_CULL_FACE);
nuclear@2	49
nuclear@2	50 glEnable(GL_BLEND);
nuclear@2	51 glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
nuclear@0	52 return true;
nuclear@0	53 }
nuclear@0	54
nuclear@0	55 void app_cleanup()
nuclear@0	56 {
nuclear@0	57 for(size_t i=0; i<curves.size(); i++) {
nuclear@0	58 delete curves[i];
nuclear@0	59 }
nuclear@0	60 curves.clear();
nuclear@0	61 }
nuclear@0	62
nuclear@0	63 void app_draw()
nuclear@0	64 {
nuclear@1	65 glClearColor(0.1, 0.1, 0.1, 1);
nuclear@0	66 glClear(GL_COLOR_BUFFER_BIT);
nuclear@0	67
nuclear@0	68 glMatrixMode(GL_MODELVIEW);
nuclear@0	69 glLoadIdentity();
nuclear@3	70 glTranslatef(view_pan.x * view_scale, view_pan.y * view_scale, 0);
nuclear@0	71 glScalef(view_scale, view_scale, view_scale);
nuclear@0	72
nuclear@3	73 float max_aspect = std::max(win_aspect, 1.0f / win_aspect);
nuclear@3	74 draw_grid(max_aspect, grid_size);
nuclear@0	75
nuclear@0	76 for(size_t i=0; i<curves.size(); i++) {
nuclear@0	77 draw_curve(curves[i]);
nuclear@0	78 }
nuclear@0	79 if(new_curve) {
nuclear@0	80 draw_curve(new_curve);
nuclear@0	81 }
nuclear@0	82 if(weight_label) {
nuclear@0	83 weight_label->draw();
nuclear@0	84 }
nuclear@3	85
nuclear@3	86 #ifdef DRAW_MOUSE_POINTER
nuclear@3	87 glPointSize(6.0);
nuclear@3	88 glBegin(GL_POINTS);
nuclear@3	89 glColor3f(0, 0, 1);
nuclear@3	90 glVertex2f(mouse_pointer.x, mouse_pointer.y);
nuclear@3	91 glEnd();
nuclear@3	92 #endif
nuclear@0	93 }
nuclear@0	94
nuclear@0	95 static void draw_grid(float sz, float sep, float alpha)
nuclear@0	96 {
nuclear@0	97 float x = 0.0f;
nuclear@3	98 float s = 1.0 / view_scale;
nuclear@3	99
nuclear@3	100 sz *= s;
nuclear@3	101 sz += sep; // one more step for when we have non-zero fractional pan
nuclear@3	102 float end = std::min(sz, 100.0f * sep);
nuclear@3	103
nuclear@3	104 // fractional pan
nuclear@3	105 Vector2 pan = view_pan;
nuclear@3	106 Vector2 fpan = Vector2(fmod(pan.x, sep), fmod(pan.y, sep));
nuclear@3	107 Vector2 offset = fpan - pan;
nuclear@3	108
nuclear@3	109 glMatrixMode(GL_MODELVIEW);
nuclear@3	110 glPushMatrix();
nuclear@3	111 glTranslatef(offset.x, offset.y, 0);
nuclear@3	112
nuclear@3	113 glBegin(GL_LINES);
nuclear@3	114 glColor4f(0.35, 0.35, 0.35, alpha);
nuclear@3	115 while(x <= end) {
nuclear@3	116 glVertex2f(-end, x);
nuclear@3	117 glVertex2f(end, x);
nuclear@3	118 glVertex2f(-end, -x);
nuclear@3	119 glVertex2f(end, -x);
nuclear@3	120 glVertex2f(x, -end);
nuclear@3	121 glVertex2f(x, end);
nuclear@3	122 glVertex2f(-x, -end);
nuclear@3	123 glVertex2f(-x, end);
nuclear@3	124 x += sep;
nuclear@3	125 }
nuclear@3	126 glEnd();
nuclear@3	127 glPopMatrix();
nuclear@3	128
nuclear@0	129
nuclear@0	130 glLineWidth(1.0);
nuclear@0	131 glBegin(GL_LINES);
nuclear@0	132 glColor4f(0.6, 0.3, 0.2, alpha);
nuclear@3	133 glVertex2f(-sz + offset.x, 0);
nuclear@3	134 glVertex2f(sz + offset.x, 0);
nuclear@0	135 glColor4f(0.2, 0.3, 0.6, alpha);
nuclear@3	136 glVertex2f(0, -sz + offset.y);
nuclear@3	137 glVertex2f(0, sz + offset.y);
nuclear@0	138 glEnd();
nuclear@3	139
nuclear@0	140 }
nuclear@0	141
nuclear@0	142 static void draw_curve(const Curve *curve)
nuclear@0	143 {
nuclear@2	144 int numpt = curve->size();
nuclear@2	145 int segm = numpt * 16;
nuclear@0	146
nuclear@2	147 glLineWidth(curve == hover_curve ? 4.0 : 2.0);
nuclear@1	148 if(curve == sel_curve) {
nuclear@1	149 glColor3f(0.3, 0.4, 1.0);
nuclear@1	150 } else if(curve == new_curve) {
nuclear@1	151 glColor3f(1.0, 0.75, 0.3);
nuclear@1	152 } else {
nuclear@2	153 glColor3f(0.6, 0.6, 0.6);
nuclear@1	154 }
nuclear@0	155 glBegin(GL_LINE_STRIP);
nuclear@0	156 for(int i=0; i<segm; i++) {
nuclear@0	157 float t = (float)i / (float)(segm - 1);
nuclear@0	158 Vector2 v = curve->interpolate(t);
nuclear@0	159 glVertex2f(v.x, v.y);
nuclear@0	160 }
nuclear@0	161 glEnd();
nuclear@0	162 glLineWidth(1.0);
nuclear@0	163
nuclear@2	164 glPointSize(curve == hover_curve ? 10.0 : 7.0);
nuclear@0	165 glBegin(GL_POINTS);
nuclear@1	166 if(curve == new_curve) {
nuclear@1	167 glColor3f(1.0, 0.0, 0.0);
nuclear@1	168 } else {
nuclear@1	169 glColor3f(0.6, 0.3, 0.2);
nuclear@1	170 }
nuclear@0	171 for(int i=0; i<numpt; i++) {
nuclear@1	172 if(curve == sel_curve) {
nuclear@1	173 if(i == sel_pidx) {
nuclear@1	174 glColor3f(1.0, 0.2, 0.1);
nuclear@1	175 } else {
nuclear@1	176 glColor3f(0.2, 1.0, 0.2);
nuclear@1	177 }
nuclear@1	178 }
nuclear@0	179 Vector2 pt = curve->get_point(i);
nuclear@0	180 glVertex2f(pt.x, pt.y);
nuclear@0	181 }
nuclear@0	182 glEnd();
nuclear@0	183 glPointSize(1.0);
nuclear@0	184 }
nuclear@0	185
nuclear@0	186 void app_reshape(int x, int y)
nuclear@0	187 {
nuclear@0	188 win_width = x;
nuclear@0	189 win_height = y;
nuclear@0	190 win_aspect = (float)x / (float)y;
nuclear@0	191
nuclear@0	192 glViewport(0, 0, x, y);
nuclear@0	193 glMatrixMode(GL_PROJECTION);
nuclear@0	194 glLoadIdentity();
nuclear@0	195 glOrtho(-win_aspect, win_aspect, -1, 1, -1, 1);
nuclear@0	196 }
nuclear@0	197
nuclear@0	198 void app_keyboard(int key, bool pressed)
nuclear@0	199 {
nuclear@0	200 if(pressed) {
nuclear@0	201 switch(key) {
nuclear@1	202 case 'q':
nuclear@1	203 case 'Q':
nuclear@1	204 exit(0);
nuclear@1	205
nuclear@0	206 case 27:
nuclear@1	207 if(new_curve) {
nuclear@1	208 delete new_curve;
nuclear@1	209 new_curve = 0;
nuclear@1	210 post_redisplay();
nuclear@1	211 }
nuclear@1	212 break;
nuclear@0	213
nuclear@0	214 case 'l':
nuclear@0	215 case 'L':
nuclear@0	216 if(sel_curve) {
nuclear@0	217 sel_curve->set_type(CURVE_LINEAR);
nuclear@0	218 post_redisplay();
nuclear@0	219 }
nuclear@1	220 if(new_curve) {
nuclear@1	221 new_curve->set_type(CURVE_LINEAR);
nuclear@1	222 post_redisplay();
nuclear@1	223 }
nuclear@0	224 break;
nuclear@0	225
nuclear@0	226 case 'b':
nuclear@0	227 case 'B':
nuclear@0	228 if(sel_curve) {
nuclear@0	229 sel_curve->set_type(CURVE_BSPLINE);
nuclear@0	230 post_redisplay();
nuclear@0	231 }
nuclear@1	232 if(new_curve) {
nuclear@1	233 new_curve->set_type(CURVE_BSPLINE);
nuclear@1	234 post_redisplay();
nuclear@1	235 }
nuclear@0	236 break;
nuclear@0	237
nuclear@0	238 case 'h':
nuclear@0	239 case 'H':
nuclear@0	240 if(sel_curve) {
nuclear@0	241 sel_curve->set_type(CURVE_HERMITE);
nuclear@0	242 post_redisplay();
nuclear@0	243 }
nuclear@1	244 if(new_curve) {
nuclear@1	245 new_curve->set_type(CURVE_HERMITE);
nuclear@1	246 post_redisplay();
nuclear@1	247 }
nuclear@0	248 break;
nuclear@0	249 }
nuclear@0	250 }
nuclear@3	251
nuclear@3	252
nuclear@3	253 switch(key) {
nuclear@3	254 case 's':
nuclear@3	255 snap_mode = pressed ? SNAP_GRID : SNAP_NONE;
nuclear@3	256 break;
nuclear@3	257
nuclear@3	258 case 'S':
nuclear@3	259 snap_mode = pressed ? SNAP_POINT : SNAP_NONE;
nuclear@3	260 break;
nuclear@3	261
nuclear@3	262 default:
nuclear@3	263 break;
nuclear@3	264 }
nuclear@3	265 }
nuclear@3	266
nuclear@3	267 static void calc_view_matrix()
nuclear@3	268 {
nuclear@3	269 view_matrix.reset_identity();
nuclear@3	270 view_matrix.scale(Vector3(view_scale, view_scale, view_scale));
nuclear@3	271 view_matrix.translate(Vector3(view_pan.x, view_pan.y, 0.0));
nuclear@0	272 }
nuclear@0	273
nuclear@0	274 static Vector2 pixel_to_uv(int x, int y)
nuclear@0	275 {
nuclear@0	276 float u = win_aspect * (2.0 * (float)x / (float)win_width - 1.0);
nuclear@0	277 float v = 1.0 - 2.0 * (float)y / (float)win_height;
nuclear@3	278
nuclear@3	279 u = u / view_scale - view_pan.x;
nuclear@3	280 v = v / view_scale - view_pan.y;
nuclear@0	281 return Vector2(u, v);
nuclear@3	282 /*
nuclear@3	283 Matrix4x4 inv_view_matrix = view_matrix.inverse();
nuclear@3	284 Vector4 res = Vector4(u, v, 0.0, 1.0).transformed(inv_view_matrix);
nuclear@3	285
nuclear@3	286 return Vector2(res.x, res.y);
nuclear@3	287 */
nuclear@0	288 }
nuclear@0	289
nuclear@0	290 static int prev_x, prev_y;
nuclear@0	291 static int click_pos[8][2];
nuclear@0	292 static unsigned int bnstate;
nuclear@0	293
nuclear@0	294 #define BNBIT(x) (1 << (x))
nuclear@0	295
nuclear@0	296 void app_mouse_button(int bn, bool pressed, int x, int y)
nuclear@0	297 {
nuclear@0	298 prev_x = x;
nuclear@0	299 prev_y = y;
nuclear@0	300 if(pressed) {
nuclear@0	301 bnstate \|= BNBIT(bn);
nuclear@0	302 } else {
nuclear@0	303 bnstate &= ~BNBIT(bn);
nuclear@0	304 }
nuclear@0	305
nuclear@0	306 if(pressed) {
nuclear@0	307 click_pos[bn][0] = x;
nuclear@0	308 click_pos[bn][1] = y;
nuclear@0	309 } else {
nuclear@0	310 int dx = x - click_pos[bn][0];
nuclear@0	311 int dy = y - click_pos[bn][1];
nuclear@0	312
nuclear@0	313 if(abs(dx) + abs(dy) < 3) {
nuclear@0	314 Vector2 uv = pixel_to_uv(x, y);
nuclear@0	315 on_click(bn, uv.x, uv.y);
nuclear@0	316 }
nuclear@0	317
nuclear@0	318 if(!(bnstate & BNBIT(2))) {
nuclear@0	319 delete weight_label;
nuclear@0	320 weight_label = 0;
nuclear@0	321 post_redisplay();
nuclear@0	322 }
nuclear@0	323 }
nuclear@0	324 }
nuclear@0	325
nuclear@2	326 static bool point_hit_test(const Vector2 &pos, Curve *curveret, int pidxret)
nuclear@0	327 {
nuclear@3	328 float thres = 0.02 / view_scale;
nuclear@0	329
nuclear@0	330 for(size_t i=0; i<curves.size(); i++) {
nuclear@2	331 int pidx = curves[i]->nearest_point(pos);
nuclear@0	332 if(pidx == -1) continue;
nuclear@0	333
nuclear@0	334 Vector2 cp = curves[i]->get_point(pidx);
nuclear@2	335 if((cp - pos).length_sq() < thres * thres) {
nuclear@2	336 *curveret = curves[i];
nuclear@2	337 *pidxret = pidx;
nuclear@2	338 return true;
nuclear@0	339 }
nuclear@0	340 }
nuclear@2	341 *curveret = 0;
nuclear@2	342 *pidxret = -1;
nuclear@2	343 return false;
nuclear@0	344 }
nuclear@0	345
nuclear@3	346 static Vector2 snap(const Vector2 &p)
nuclear@3	347 {
nuclear@3	348 switch(snap_mode) {
nuclear@3	349 case SNAP_GRID:
nuclear@3	350 return Vector2(round(p.x / grid_size) * grid_size, round(p.y / grid_size) * grid_size);
nuclear@3	351 case SNAP_POINT:
nuclear@3	352 // TODO
nuclear@3	353 default:
nuclear@3	354 break;
nuclear@3	355 }
nuclear@3	356 return p;
nuclear@3	357 }
nuclear@3	358
nuclear@0	359 void app_mouse_motion(int x, int y)
nuclear@0	360 {
nuclear@3	361 Vector2 prev_uv = pixel_to_uv(prev_x, prev_y);
nuclear@3	362
nuclear@0	363 int dx = x - prev_x;
nuclear@0	364 int dy = y - prev_y;
nuclear@0	365 prev_x = x;
nuclear@0	366 prev_y = y;
nuclear@0	367
nuclear@0	368 if(!dx && !dy) return;
nuclear@0	369
nuclear@2	370 Vector2 uv = pixel_to_uv(x, y);
nuclear@3	371 #ifdef DRAW_MOUSE_POINTER
nuclear@3	372 mouse_pointer = uv;
nuclear@3	373 post_redisplay();
nuclear@3	374 #endif
nuclear@2	375
nuclear@2	376 /* when entering a new curve, have the last (extra) point following
nuclear@2	377 * the mouse until it's entered by a click (see on_click).
nuclear@2	378 */
nuclear@3	379 if(new_curve) {
nuclear@3	380 new_curve->move_point(new_curve->size() - 1, snap(uv));
nuclear@2	381 post_redisplay();
nuclear@3	382 return;
nuclear@2	383 }
nuclear@3	384 // from this point on we're definitely not in new-curve mode
nuclear@2	385
nuclear@3	386 if(!bnstate) {
nuclear@3	387 // not dragging, highlight curve under mouse
nuclear@2	388 point_hit_test(uv, &hover_curve, &sel_pidx);
nuclear@0	389 post_redisplay();
nuclear@0	390
nuclear@3	391 } else {
nuclear@3	392 // we're dragging with one or more buttons held down
nuclear@0	393
nuclear@3	394 if(sel_curve && sel_pidx != -1) {
nuclear@3	395 // we have a curve and a point of the curve selected
nuclear@0	396
nuclear@3	397 if(bnstate & BNBIT(0)) {
nuclear@3	398 // dragging point with left button: move it
nuclear@3	399 sel_curve->move_point(sel_pidx, snap(uv));
nuclear@3	400 post_redisplay();
nuclear@0	401 }
nuclear@3	402
nuclear@3	403 if(bnstate & BNBIT(2)) {
nuclear@3	404 // dragging point with right button: change weight
nuclear@3	405 float w = sel_curve->get_weight(sel_pidx);
nuclear@3	406 w -= dy * 0.01;
nuclear@3	407 if(w < FLT_MIN) w = FLT_MIN;
nuclear@3	408 sel_curve->set_weight(sel_pidx, w);
nuclear@3	409
nuclear@3	410 // popup floating weight label if not already there
nuclear@3	411 if(!weight_label) {
nuclear@3	412 weight_label = new Label;
nuclear@3	413 }
nuclear@3	414 weight_label->set_position(uv);
nuclear@3	415 weight_label->set_textf("w=%g", w);
nuclear@3	416 post_redisplay();
nuclear@3	417 }
nuclear@3	418 } else {
nuclear@3	419 // no selection, we're dragging in empty space: manipulate viewport
nuclear@3	420 Vector2 dir = uv - prev_uv;
nuclear@3	421
nuclear@3	422 if(bnstate & (BNBIT(0) \| BNBIT(1))) {
nuclear@3	423 // panning
nuclear@3	424 view_pan += dir;
nuclear@3	425 calc_view_matrix();
nuclear@3	426 post_redisplay();
nuclear@3	427 }
nuclear@3	428 if(bnstate & BNBIT(2)) {
nuclear@3	429 // zooming
nuclear@3	430 view_scale -= ((float)dy / (float)win_height) * view_scale * 5.0;
nuclear@3	431 if(view_scale < 1e-4) view_scale = 1e-4;
nuclear@3	432 calc_view_matrix();
nuclear@3	433 post_redisplay();
nuclear@3	434 }
nuclear@0	435 }
nuclear@0	436 }
nuclear@0	437 }
nuclear@0	438
nuclear@0	439 static void on_click(int bn, float u, float v)
nuclear@0	440 {
nuclear@2	441 Vector2 uv = Vector2(u, v);
nuclear@2	442
nuclear@0	443 switch(bn) {
nuclear@2	444 case 0: // ------- LEFT CLICK ------
nuclear@2	445 if(hover_curve) {
nuclear@2	446 // if we're hovering: click selects
nuclear@2	447 sel_curve = hover_curve;
nuclear@2	448 hover_curve = 0;
nuclear@2	449 } else if(sel_curve) {
nuclear@2	450 // if we have a selected curve: click adds point (enter new_curve mode)
nuclear@2	451 std::vector<Curve*>::iterator it = std::find(curves.begin(), curves.end(), sel_curve);
nuclear@2	452 assert(it != curves.end());
nuclear@2	453 curves.erase(it, it + 1);
nuclear@2	454
nuclear@2	455 new_curve = sel_curve;
nuclear@2	456 sel_curve = 0;
nuclear@2	457 sel_pidx = -1;
nuclear@2	458
nuclear@2	459 new_curve->add_point(uv);
nuclear@2	460 } else {
nuclear@2	461 // otherwise, click starts a new curve
nuclear@2	462 if(!new_curve) {
nuclear@2	463 new_curve = new Curve;
nuclear@2	464 new_curve->add_point(uv);
nuclear@2	465 }
nuclear@2	466 new_curve->add_point(uv);
nuclear@0	467 }
nuclear@0	468 post_redisplay();
nuclear@0	469 break;
nuclear@0	470
nuclear@2	471 case 2: // ------- RIGHT CLICK ------
nuclear@2	472 if(new_curve) {
nuclear@2	473 // in new-curve mode: finish curve (cancels last floating segment)
nuclear@2	474 new_curve->remove_point(new_curve->size() - 1);
nuclear@2	475 if(new_curve->empty()) {
nuclear@2	476 delete new_curve;
nuclear@2	477 } else {
nuclear@2	478 curves.push_back(new_curve);
nuclear@2	479 }
nuclear@2	480 new_curve = 0;
nuclear@2	481
nuclear@2	482 } else if(sel_curve) {
nuclear@2	483 // in selected curve mode: delete control point or unselect
nuclear@2	484 Curve *hit_curve;
nuclear@2	485 int hit_pidx;
nuclear@2	486 if(point_hit_test(uv, &hit_curve, &hit_pidx) && hit_curve == sel_curve) {
nuclear@2	487 hit_curve->remove_point(hit_pidx);
nuclear@2	488 sel_pidx = -1;
nuclear@2	489 } else {
nuclear@2	490 sel_curve = 0;
nuclear@2	491 sel_pidx = -1;
nuclear@2	492 }
nuclear@2	493 }
nuclear@0	494 post_redisplay();
nuclear@0	495 break;
nuclear@0	496
nuclear@0	497 default:
nuclear@0	498 break;
nuclear@0	499 }
nuclear@0	500 }