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V0.3 SZBeta sent out. bristol tests.
author Robert Tubb <rt300@eecs.qmul.ac.uk>
date Fri, 08 Mar 2013 14:54:55 +0000
parents ae4d2c3ce5e0
children 92dba082d957
rev   line source
rt300@4 1 //
rt300@4 2 // grid.cpp
rt300@4 3 // oscSenderExample
rt300@4 4 //
rt300@4 5 // Created by Robert Tubb on 03/10/2012.
rt300@4 6 //
rt300@4 7 //
rt300@4 8
rt300@4 9 #include "grid.h"
rt300@4 10
rt300@4 11
rt300@4 12 #include <sstream>
rt300@4 13
rt300@4 14 extern PresetManager presetManager;
rt300@4 15 extern EventLogger eventLogger;
rt300@4 16 //--------------------------------------------------------------
rt300@4 17 Grid::Grid(): maxValue(pow(32.0,7.0)-1), minValue(60), paramsPerDim(5), paramBitDepth(7){
rt300@4 18
rt300@4 19 }
rt300@4 20 //--------------------------------------------------------------
rt300@4 21 //--------------------------------------------------------------
rt300@4 22 Grid::~Grid(){
rt300@4 23
rt300@4 24 }
rt300@4 25 void Grid::init(){
rt300@4 26 //maxValue = pow(32.0,7.0)-1;
rt300@4 27 //minValue = 60; // number of 1-size divisions at smallest scale
rt300@4 28 maxZoom = false;
rt300@4 29 minZoom = false;
rt300@4 30
rt300@4 31 codeLength = pow(2.0,paramsPerDim);
rt300@4 32
rt300@4 33 pixSize.setCoord(ofGetWidth(), ofGetHeight());
rt300@4 34
rt300@4 35 //set scale and position to mid way
rt300@27 36 scale = 15500.0;
rt300@8 37 snapDist = TwoVector(9,9);
rt300@5 38 snapped = false;
rt300@4 39
rt300@4 40 size.setCoord(pixSize.x*scale, pixSize.y*scale);
rt300@4 41 centre.setCoord(maxValue/2 , maxValue/2);
rt300@4 42 topLeft.setCoord(centre.x - size.x/2, centre.y - size.y/2);
rt300@4 43
rt300@4 44
rt300@4 45 makeCode();
rt300@4 46
rt300@4 47 // set a starting param value, find coord that does it.
rt300@4 48 vector<int> params(paramsPerDim*2);
rt300@4 49 for(int i = 0;i<2*paramsPerDim;i++){
rt300@4 50 midiCC[i] = 12;
rt300@4 51 params[i] = 12;
rt300@4 52 }
rt300@4 53 TwoVector coord = calculateCoordFromParams(params);
rt300@4 54 setCoord(coord);
rt300@4 55
rt300@4 56 viewWasChanged();
rt300@4 57
rt300@4 58
rt300@4 59
rt300@4 60 }
rt300@4 61
rt300@4 62 template <typename T> int sgn(T val) {
rt300@4 63 return (T(0) < val) - (val < T(0));
rt300@4 64 }
rt300@5 65 //--------------------------------------------------------------
rt300@4 66 void Grid::makeCode(){
rt300@4 67
rt300@4 68 ////////////////////////////////~~~,,,,,,,,.........
rt300@4 69 ////////// gray code generation
rt300@4 70 //////
rt300@4 71 ///
rt300@4 72 // TODO 5bit specific
rt300@4 73 // transition sequence.... what a palaver! only need to do once though.
rt300@32 74
rt300@32 75 // max MRL
rt300@4 76 int trans[] = {0,1,2,3,0,4,2,1,0,3,2,1,0,4,2,3,0,1,2,3,0,4,2,1,0,3,2,1,0,4,2,3};
rt300@32 77 // balanced
rt300@32 78 int transB[] = {1,2,3,4,5,1,5,2,3,5,2,4,2,3,4,1,4,3,2,3,1,5,3,4,1,5,2,5,3,4,1,3};
rt300@32 79 for(int i = 0; i<codeLength; i++){
rt300@32 80 transB[i] = transB[i] - 1;
rt300@32 81 }
rt300@4 82
rt300@4 83 int code[codeLength][paramsPerDim]; // start with normal array
rt300@4 84
rt300@4 85
rt300@4 86
rt300@4 87 for(int j=0; j<paramsPerDim; j++){
rt300@4 88 code[0][j] = 0;
rt300@4 89 }
rt300@4 90
rt300@32 91 for(int i=0; i < codeLength-1; i++){ // don't need last 3
rt300@4 92 transSeq.push_back(trans[i]); // member vector
rt300@4 93 for(int j=0; j<paramsPerDim; j++){
rt300@4 94
rt300@4 95 if (j == abs(trans[i])){
rt300@4 96 code[i+1][j] = !code[i][j];
rt300@4 97 }else{
rt300@4 98 code[i+1][j] = code[i][j];
rt300@4 99 }
rt300@4 100 }
rt300@4 101
rt300@4 102 }
rt300@4 103
rt300@4 104 for(int i=0; i < codeLength; i++){ // fill vector
rt300@4 105
rt300@4 106 vcode.push_back(vector<bool>());
rt300@4 107
rt300@4 108 for(int j=0; j<paramsPerDim; j++){
rt300@4 109 vcode[i].push_back(code[i][j]);
rt300@4 110 }
rt300@4 111 }
rt300@7 112 /*
rt300@4 113 // now try with iterators to print...
rt300@4 114 vector< vector<bool> >::iterator cit;
rt300@4 115 //vector<bool>::iterator bit;
rt300@4 116 vector<bool>::iterator bit;
rt300@4 117 int i = 0;
rt300@4 118 for(cit=vcode.begin(); cit!=vcode.end() ; cit++){ // fill vector
rt300@4 119 i++;
rt300@4 120 cout << i << " = ";
rt300@4 121 bit = (*cit).begin();
rt300@4 122 for(bit=(*cit).begin(); bit!=(*cit).end() ; bit++){
rt300@4 123
rt300@4 124 cout << *bit;
rt300@4 125 }
rt300@4 126 cout << "\n";
rt300@4 127
rt300@4 128 }
rt300@7 129
rt300@4 130 // codeToInt unit test
rt300@4 131 vector<bool> aCode = vcode[12];
rt300@4 132 int result = grayToInt(aCode);
rt300@4 133 cout << "GRAY TO INT : " << result << "\n";
rt300@4 134
rt300@4 135 cout << "-------------------------------\n";
rt300@4 136
rt300@4 137 // base32toFloat unit test
rt300@4 138
rt300@4 139 vector<int> test32 = coordTobase32(869437.0);
rt300@4 140 double cresult = base32toCoord(test32);
rt300@4 141 cout << "base32toCoord : " << cresult << "\n";
rt300@4 142
rt300@4 143 cout << "-------------------------------\n";
rt300@4 144
rt300@4 145
rt300@4 146
rt300@4 147 // midiToGray unit test
rt300@4 148
rt300@4 149 vector<vector<bool> > incodes(paramBitDepth, vector<bool>(paramsPerDim));
rt300@4 150 for(int i=0;i<7;i++){
rt300@4 151 incodes[i] = vcode[i+5];
rt300@4 152 }
rt300@4 153
rt300@4 154 vector<int> midiTest;
rt300@4 155 midiTest = grayToMidi(incodes);
rt300@4 156 vector<vector<bool> > outcodes = midiToGray(midiTest);
rt300@4 157
rt300@4 158 vector< vector<bool> >::iterator cit1;
rt300@4 159 //vector<bool>::iterator bit;
rt300@4 160 vector<bool>::iterator bit1;
rt300@4 161 cout << "midiToGray Unit test\n";
rt300@4 162 for(int i=0;i<paramBitDepth;i++){ // fill vector
rt300@4 163
rt300@4 164 for(int j=0;j<paramsPerDim;j++){
rt300@4 165
rt300@4 166 cout << (incodes[i][j] == outcodes[i][j]) << ",";
rt300@4 167 }
rt300@4 168 cout << "\n";
rt300@4 169
rt300@4 170 }
rt300@4 171 cout << "-------------------------------\n";
rt300@4 172
rt300@4 173
rt300@4 174 // whole process unit test(?)
rt300@4 175
rt300@4 176 TwoVector inCoord(888999777,777666555);
rt300@4 177 vector<int> checkParam;
rt300@4 178 checkParam = calculateParamsFromCoord(inCoord);
rt300@4 179 for(int i=0; i<2*paramsPerDim;i++){
rt300@4 180 cout << checkParam[i] << "_";
rt300@4 181 }
rt300@4 182 TwoVector outCoord = calculateCoordFromParams(checkParam);
rt300@4 183 cout << "Unit TEst coord = " << outCoord.x << "," << outCoord.y << "\n";
rt300@4 184 */
rt300@4 185
rt300@4 186 }
rt300@4 187 //--------------------------------------------------------------
rt300@4 188 void Grid::draw(){ // draw lines
rt300@4 189 // TODO too friggin long
rt300@4 190
rt300@16 191 pixSize.setCoord(ofGetWidth(), ofGetHeight()); // incase of rotation?
rt300@4 192 //scale++;
rt300@4 193 // nice loopy thing
rt300@4 194 int power = 0;
rt300@4 195
rt300@4 196 // these get big!
rt300@4 197 double divsr;
rt300@4 198 double yl,xl;
rt300@4 199 double gridSize = 0;
rt300@4 200
rt300@4 201 double firstLineXPos, lastLineXPos,firstLineYPos, lastLineYPos, remleft, xoffset, yoffset = 0.0;
rt300@4 202 double xstart, xfinish, ystart,yfinish;
rt300@4 203 // these don't
rt300@4 204 int xpos, ypos = 0;
rt300@4 205
rt300@4 206 float alpha;
rt300@4 207 bool done = false;
rt300@4 208 float markpow = 32.0; // power that denotes next grid markings
rt300@4 209 int lineWidth = 0;
rt300@4 210 int colCycle = 0;
rt300@4 211
rt300@4 212
rt300@4 213 // loop thru powers of (base?) to determine which should be shown as grids
rt300@4 214 while (!done){
rt300@4 215 gridSize = pow(markpow,power);
rt300@4 216
rt300@4 217 colCycle = power % 7;
rt300@4 218
rt300@4 219 divsr = size.x / gridSize;
rt300@4 220
rt300@4 221 // if (divisor i.e. number of lines is less than 1000
rt300@9 222 if( divsr >= 1 && divsr < 700){
rt300@4 223
rt300@4 224 // calculate transparency
rt300@4 225 float visCont = log10(divsr); // 0 if only 1 line, 3 if 1000 lines
rt300@4 226 alpha = 90*(3 - visCont);
rt300@4 227 ofSetLineWidth(lineWidth);
rt300@4 228
rt300@4 229 // cycle colors for different scales
rt300@4 230 if(colCycle == 0){
rt300@4 231 ofSetColor(255,255,255,alpha);
rt300@4 232 }else if(colCycle == 1){
rt300@4 233 ofSetColor(255,0,0,alpha);
rt300@4 234 }else if(colCycle == 2){
rt300@4 235 ofSetColor(0,0,255,alpha);
rt300@4 236 }else if(colCycle == 3){
rt300@4 237 ofSetColor(0,255,0,alpha);
rt300@4 238 }else if(colCycle == 4){
rt300@4 239 ofSetColor(255,0,255,alpha);
rt300@4 240 }else if(colCycle == 5){
rt300@4 241 ofSetColor(0,255,255,alpha);
rt300@4 242 }else if(colCycle == 6){
rt300@4 243 ofSetColor(255,255,0,alpha);
rt300@4 244 }else if(colCycle == 7){
rt300@4 245 ofSetColor(255,255,255,alpha);
rt300@4 246 }else{
rt300@4 247 cout << "err colour messed up\n";
rt300@4 248 }
rt300@4 249
rt300@4 250
rt300@4 251 // draw level numbers associated with each color. This would not be true if markpow wasnt 2^d
rt300@4 252 ////////-------/////////
rt300@4 253 /*
rt300@4 254 temp << "THIS LEVEL = " << (int)pow(2.0,power) << " ";
rt300@4 255 string s = temp.str();
rt300@4 256 ofDrawBitmapString( s, 10, line );
rt300@4 257 line+=30;
rt300@4 258 temp.str("");
rt300@4 259 *////////-------/////////
rt300@4 260
rt300@4 261 // draw presets at this level
rt300@4 262 // fill in smallest squares if they contain a preset
rt300@4 263 // how to do this efficiently?
rt300@4 264
rt300@4 265
rt300@4 266 if(topLeft.x < 0.0){
rt300@4 267 firstLineXPos = 0.0;
rt300@4 268 xoffset = firstLineXPos - topLeft.x;
rt300@4 269 xstart = xoffset/scale;
rt300@4 270 }else{
rt300@4 271 firstLineXPos = topLeft.x;
rt300@4 272 // kinda float version of % operator
rt300@4 273 remleft = ceil(firstLineXPos/gridSize);
rt300@4 274 xoffset = (remleft * gridSize) - topLeft.x;
rt300@4 275 xstart = 0;
rt300@4 276 }
rt300@4 277 if(topLeft.x + size.x > maxValue){
rt300@4 278 lastLineXPos = maxValue+1 - topLeft.x;
rt300@4 279
rt300@4 280
rt300@4 281 }else{
rt300@4 282 lastLineXPos = size.x;
rt300@4 283
rt300@4 284 }
rt300@4 285 xfinish = lastLineXPos/scale;
rt300@4 286
rt300@4 287 //////////------------------------
rt300@4 288 // same for y
rt300@4 289
rt300@4 290 if(topLeft.y < 0.0){
rt300@4 291 firstLineYPos = 0.0;
rt300@4 292 yoffset = firstLineYPos - topLeft.y;
rt300@4 293 ystart = yoffset/scale;
rt300@4 294 }else{
rt300@4 295 firstLineYPos = topLeft.y;
rt300@4 296 // kinda float version of % operator
rt300@4 297 remleft = ceil(firstLineYPos/gridSize);
rt300@4 298 yoffset = (remleft * gridSize) - topLeft.y;
rt300@4 299 ystart = 0;
rt300@4 300 }
rt300@4 301 if(topLeft.y + size.y > maxValue){
rt300@4 302 lastLineYPos = maxValue+1 - topLeft.y;
rt300@4 303
rt300@4 304 }else{
rt300@4 305 lastLineYPos = size.y;
rt300@4 306
rt300@4 307 }
rt300@4 308 yfinish = lastLineYPos/scale;
rt300@4 309 // -------------------------------------------
rt300@4 310 // now draw
rt300@4 311 for(xl = xoffset; xl <= (lastLineXPos); xl+= gridSize){
rt300@4 312
rt300@4 313 xpos = xl/scale;
rt300@4 314 ofLine(xpos, ystart, xpos, yfinish);
rt300@4 315
rt300@4 316 }
rt300@4 317
rt300@4 318 for(yl = yoffset; yl <= (lastLineYPos); yl+= gridSize){
rt300@4 319
rt300@4 320 ypos = yl/scale;
rt300@4 321 ofLine(xstart, ypos, xfinish, ypos);
rt300@4 322 }
rt300@4 323
rt300@4 324
rt300@4 325 }else if (divsr < 1){
rt300@4 326 // ignore...
rt300@4 327 done = true;
rt300@4 328 }
rt300@4 329
rt300@4 330 power++;
rt300@4 331 }
rt300@4 332 //cout << "draw done" << "\n";
rt300@4 333 //displayInfo();
rt300@4 334
rt300@4 335 drawPresets();
rt300@4 336 ////////-------/////////
rt300@4 337
rt300@4 338 ////////-------/////////
rt300@4 339
rt300@4 340 // draw centre cross hairs
rt300@5 341 drawCrossHairs();
rt300@4 342 ////////-------////////
rt300@4 343 /*
rt300@4 344 ostringstream temp;
rt300@4 345 temp << "Centre x = " << centre.x << "\n y = " << centre.y << " ";
rt300@4 346 string s = temp.str();
rt300@4 347 ofDrawBitmapString( s, pixSize.x/2+10, pixSize.y/2+10 );
rt300@4 348 */
rt300@4 349 }
rt300@5 350 //-----------------------------------------------------------------------
rt300@5 351 void Grid::drawCrossHairs(){
rt300@5 352 // snapping
rt300@5 353 TwoVector pos;
rt300@5 354 if(snapped){
rt300@5 355 pos = coordToPixel(snapCentre);
rt300@5 356 }else{
rt300@5 357 pos = coordToPixel(centre);
rt300@5 358
rt300@5 359 }
rt300@5 360 ofSetColor(255, 0, 0);
rt300@5 361 ofNoFill();
rt300@5 362 ofLine(pos.x-20, pos.y, pos.x+20, pos.y);
rt300@5 363 ofLine(pos.x, pos.y-20, pos.x, pos.y+20);
rt300@5 364 ofEllipse(pos.x, pos.y, 20, 20);
rt300@5 365 ofFill();
rt300@5 366 }
rt300@5 367 //-----------------------------------------------------------------------
rt300@4 368 TwoVector Grid::coordToPixel(TwoVector coord){
rt300@4 369 TwoVector pix;
rt300@4 370 pix.x = (coord.x - topLeft.x)/scale;
rt300@4 371 pix.y = (coord.y - topLeft.y)/scale;
rt300@4 372 return pix;
rt300@4 373
rt300@4 374 }
rt300@4 375
rt300@4 376 //-----------------------------------------------------------------------
rt300@4 377 void Grid::drawPresets(){
rt300@5 378 presetManager.drawPresetsInRange(topLeft, topLeft + size);
rt300@7 379 // draw snapped preset info
rt300@7 380 if(snapped && closestPreset != NULL){
rt300@8 381 ofDrawBitmapString( closestPreset->displayTextDescription(), pixSize.x/2+10, pixSize.y/2+10 );
rt300@7 382 }
rt300@4 383 }
rt300@4 384
rt300@4 385 //-----------------------------------------------------------------------
rt300@4 386 void Grid::displayInfo(){
rt300@4 387
rt300@4 388 // display some "useful information"
rt300@4 389
rt300@4 390 ofSetColor(255,255,255,255);
rt300@4 391
rt300@4 392 ostringstream temp;
rt300@4 393 int line = 10; // text output pos
rt300@4 394
rt300@4 395
rt300@4 396 ////////-------/////////
rt300@4 397 temp << "scale = " << scale << " ";
rt300@4 398 string s = temp.str();
rt300@4 399 ofDrawBitmapString( s, 10, line );
rt300@4 400 line+=30;
rt300@4 401 temp.str("");
rt300@4 402 ////////-------/////////
rt300@4 403 temp << "Top Left = " << topLeft.x << "," << topLeft.y << " ";
rt300@4 404 s = temp.str();
rt300@4 405 ofDrawBitmapString( s, 10, line );
rt300@4 406 line+=60;
rt300@4 407 temp.str("");
rt300@4 408
rt300@4 409 ////////-------/////////
rt300@4 410 temp << "View Size = " << size.x << "," << size.y << " ";
rt300@4 411 s = temp.str();
rt300@4 412 ofDrawBitmapString( s, 10, line );
rt300@4 413 line+=60;
rt300@4 414 temp.str("");
rt300@4 415
rt300@4 416 ////////-------/////////
rt300@4 417
rt300@4 418 for(int i=0;i<10;i++){ // TODO 5bit specific
rt300@4 419 temp << midiCC[i] << " ";
rt300@4 420 s = temp.str();
rt300@4 421 ofDrawBitmapString( s, 10, line );
rt300@4 422 line+=20;
rt300@4 423 temp.str("");
rt300@4 424 }
rt300@4 425 }
rt300@4 426 //--------------------------------------------------------------
rt300@4 427 void Grid::update(){ // ?
rt300@4 428 // "update" bit of a crap name - all we do here is calculate the dimension params from the x,y position
rt300@4 429
rt300@4 430
rt300@4 431 }
rt300@5 432
rt300@4 433 //--------------------------------------------------------------
rt300@24 434 // would be advisable to only have one "mover" object that has permission to move the grid (?)
rt300@4 435 void Grid::move(TwoVector moveP){
rt300@4 436 // numspacing, pixelspacing stay the same
rt300@4 437
rt300@4 438 // convert pixels to surf units
rt300@4 439 TwoVector moveS;
rt300@4 440 moveS = moveP * scale;
rt300@4 441
rt300@4 442 topLeft = topLeft - moveS; // - because moving to the right means taking away from offset
rt300@4 443 centre = centre - moveS;
rt300@4 444
rt300@4 445 viewWasChanged();
rt300@5 446 eventLogger.logEvent(SCROLL, centre, scale);
rt300@4 447
rt300@4 448 }
rt300@4 449 //--------------------------------------------------------------
rt300@4 450 void Grid::zoom(float factor){
rt300@5 451 if(snapped)centre = (centre + snapCentre)*0.5; // clunky
rt300@5 452
rt300@4 453 if(maxZoom && factor > 1.0){
rt300@4 454 return;
rt300@4 455
rt300@4 456 }
rt300@4 457 if(factor < 1.0){
rt300@4 458 maxZoom = false;
rt300@4 459 }
rt300@4 460 if(minZoom && factor < 1.0){
rt300@4 461 return;
rt300@4 462
rt300@4 463 }
rt300@4 464 if(factor > 1.0){
rt300@4 465 minZoom = false;
rt300@4 466 }
rt300@4 467 scale = scale*factor; // simple eh?
rt300@4 468
rt300@4 469 // update view size using centre
rt300@4 470 // and scale...
rt300@4 471 size.x = size.x*factor; // zooming in, size gets SMALLER (view less)
rt300@4 472 size.y = size.y*factor;
rt300@4 473
rt300@4 474
rt300@4 475
rt300@4 476 viewWasChanged();
rt300@5 477 eventLogger.logEvent(ZOOM, centre, scale);
rt300@4 478
rt300@5 479 }
rt300@5 480 //--------------------------------------------------------------
rt300@20 481 void Grid::shiftCentreToSnapped(){
rt300@20 482 // TODO just in case we're freezing something
rt300@20 483 // snapping actually change centre
rt300@20 484 centre = snapCentre;
rt300@20 485
rt300@20 486 }
rt300@20 487 //--------------------------------------------------------------
rt300@5 488 void Grid::snapCheck(){
rt300@5 489 // check environs for presets.
rt300@7 490
rt300@5 491 vector<Preset *> closePresets = presetManager.getPresetsInRange(centre - snapDist*scale, centre + snapDist*scale);
rt300@5 492 if(closePresets.size() > 0){
rt300@5 493 snapped = true;
rt300@5 494 // find closest
rt300@5 495 double dist, mindist = maxValue;
rt300@5 496 closestPreset = closePresets[0];
rt300@5 497
rt300@5 498 for(vector<Preset *>::iterator piter = closePresets.begin(); piter < closePresets.end(); piter++){
rt300@5 499 dist = (*piter)->coordinates.distanceTo(centre);
rt300@5 500
rt300@5 501 if(dist < mindist){
rt300@5 502 mindist = dist;
rt300@5 503 closestPreset = *piter;
rt300@5 504 }
rt300@5 505 }
rt300@5 506 snapCentre = closestPreset->coordinates;
rt300@22 507 eventLogger.logEvent(SNAPPED_TO_PRESET, getCoord(),closestPreset->creationTime );
rt300@22 508 cout << "SNAPPED CHECK\n";
rt300@5 509 }else{
rt300@5 510 snapped = false;
rt300@7 511 closestPreset = NULL;
rt300@5 512 snapCentre = centre;
rt300@5 513 }
rt300@5 514
rt300@4 515
rt300@4 516 }
rt300@4 517 //--------------------------------------------------------------
rt300@5 518 void Grid::setMaxZoom(){ // got to smallest (white)
rt300@5 519 if(snapped)centre = snapCentre;
rt300@5 520 size.x = maxValue*2.0;
rt300@5 521 scale = size.x/pixSize.x;
rt300@5 522 size.y = scale * pixSize.y;
rt300@7 523 maxZoom = true;
rt300@7 524 minZoom = false;
rt300@5 525 viewWasChanged();
rt300@5 526 }
rt300@5 527 //--------------------------------------------------------------
rt300@5 528 void Grid::setMinZoom(){ // go to entire space (orange)
rt300@5 529 if(snapped)centre = snapCentre;
rt300@5 530 size.x = minValue*2.0;
rt300@5 531 scale = size.x/pixSize.x;
rt300@5 532 size.y = scale * pixSize.y;
rt300@7 533 minZoom = true;
rt300@7 534 maxZoom = false;
rt300@5 535 viewWasChanged();
rt300@4 536 }
rt300@4 537 //--------------------------------------------------------------
rt300@4 538 void Grid::viewWasChanged(){
rt300@5 539 snapCheck();
rt300@4 540 checkLimits();
rt300@5 541 // calculate new params?
rt300@5 542 vector<int> params;
rt300@5 543 if(snapped){
rt300@5 544 params = calculateParamsFromCoord(snapCentre);
rt300@5 545 }else{
rt300@5 546 params = calculateParamsFromCoord(centre);
rt300@5 547 }
rt300@4 548 for(int i = 0;i<2*paramsPerDim;i++){
rt300@4 549 midiCC[i] = params[i];
rt300@4 550 }
rt300@4 551
rt300@4 552 }
rt300@4 553
rt300@4 554 //--------------------------------------------------------------
rt300@4 555 void Grid::checkLimits(){
rt300@4 556 // check for maximum zoom level
rt300@5 557
rt300@4 558
rt300@4 559 if(size.x > maxValue*2.0){
rt300@4 560 cout << "maxZoom\n";
rt300@4 561 maxZoom = true;
rt300@4 562 size.x = maxValue*2.0;
rt300@4 563 // need to also set y size back to
rt300@4 564 }
rt300@4 565 if(size.y > maxValue*2.0){
rt300@4 566 cout << "maxZoom\n";
rt300@4 567 maxZoom = true;
rt300@4 568 size.y = maxValue*2.0;
rt300@4 569 }
rt300@4 570
rt300@4 571 if(size.x < minValue){
rt300@4 572 cout << "min Zoom\n";
rt300@4 573 minZoom = true;
rt300@4 574 size.x = minValue;
rt300@4 575 // need to also set y size back to
rt300@4 576 }
rt300@4 577 if(size.y < minValue){
rt300@4 578 minZoom = true;
rt300@4 579 cout << "min Zoom\n";
rt300@4 580 size.y = minValue;
rt300@4 581 }
rt300@4 582
rt300@4 583 scale = size.x/pixSize.x;
rt300@4 584 size.y = scale * pixSize.y;
rt300@4 585
rt300@4 586 topLeft.x = centre.x - size.x/2;
rt300@4 587 topLeft.y = centre.y - size.y/2;
rt300@4 588 // check for negatives
rt300@4 589
rt300@4 590 // allow centre to be at limits
rt300@4 591 if((topLeft.x + size.x*0.5) < 0.0){
rt300@4 592 cout << "left Wall\n";
rt300@4 593 topLeft.x = 0.0 - size.x*0.5;
rt300@4 594 centre.x = 0.0;
rt300@4 595 }
rt300@4 596
rt300@4 597 if(topLeft.y + size.y*0.5 < 0.0) {
rt300@4 598 cout << "top Wall\n";
rt300@4 599 topLeft.y = 0.0 - size.y*0.5;
rt300@4 600 centre.y = 0.0;
rt300@4 601 }
rt300@4 602
rt300@4 603 // does topleft refer to lines or view?
rt300@4 604
rt300@4 605 // check max
rt300@4 606 if(topLeft.x + size.x/2 > maxValue){
rt300@4 607 cout << "right Wall\n";
rt300@4 608 topLeft.x = maxValue - size.x/2;
rt300@4 609 centre.x = maxValue;
rt300@4 610 }
rt300@4 611 if(topLeft.y + size.y/2 > maxValue) {
rt300@4 612 cout << "bottom Wall\n";
rt300@4 613 topLeft.y = maxValue - size.y/2;
rt300@4 614 centre.y = maxValue;
rt300@4 615 }
rt300@4 616
rt300@4 617 }
rt300@4 618 //--------------------------------------------------------------
rt300@4 619 void Grid::checkConsistencies(){
rt300@4 620 // debug function to check all the parameters are consistent maybe
rt300@4 621
rt300@4 622 }
rt300@4 623 //--------------------------------------------------------------
rt300@4 624 void Grid::setCoord(TwoVector coord){
rt300@4 625
rt300@4 626 centre = coord;
rt300@5 627
rt300@4 628 viewWasChanged();
rt300@4 629 }
rt300@4 630 //--------------------------------------------------------------
rt300@4 631 TwoVector Grid::getCoord(){
rt300@5 632 // return read point crosshairs
rt300@5 633 if(snapped){
rt300@5 634 return snapCentre;
rt300@5 635 }
rt300@4 636 return centre;
rt300@4 637 }
rt300@4 638 //--------------------------------------------------------------
rt300@4 639 vector<int> Grid::getParams(){
rt300@4 640 // return a vector with midiCCs in
rt300@4 641 // should we store params somewhere and use this as a low computation get ?
rt300@4 642 vector<int> params(2*paramsPerDim,0);
rt300@4 643 //
rt300@4 644 for(int i = 0;i<2*paramsPerDim;i++){
rt300@4 645 params[i] = midiCC[i];
rt300@4 646 }
rt300@4 647 return params;
rt300@4 648 }
rt300@4 649 //--------------------------------------------------------------
rt300@4 650 void Grid::setParams(vector<int> params){
rt300@4 651 // input midiCCs, and go to the appropriate coordinate
rt300@4 652
rt300@4 653 for(int i = 0;i<2*paramsPerDim;i++){
rt300@4 654 midiCC[i] = 64;
rt300@4 655 }
rt300@4 656 TwoVector coord = calculateCoordFromParams(params);
rt300@4 657 setCoord(coord);
rt300@4 658
rt300@20 659 // snapping?
rt300@4 660 viewWasChanged();
rt300@4 661
rt300@4 662 }
rt300@4 663 //--------------------------------------------------------------
rt300@5 664 //--------------------------------------------------------------
rt300@5 665 //--------------------------------------------------------------
rt300@5 666 //--------------------------------------------------------------
rt300@5 667 //--------------------------------------------------------------
rt300@5 668 #pragma mark const utils
rt300@5 669
rt300@4 670 TwoVector Grid::calculateCoordFromParams(vector<int> params) const{
rt300@4 671
rt300@4 672 vector<int> ccValueX(paramsPerDim);
rt300@4 673 vector<int> ccValueY(paramsPerDim);
rt300@4 674 for(int i=0;i<paramsPerDim;i++){
rt300@4 675 ccValueX[i] = params[i];
rt300@4 676 ccValueY[i] = params[i+paramsPerDim];
rt300@4 677 }
rt300@4 678 vector<vector <bool> > codesX = midiToGray(ccValueX);
rt300@4 679 vector<vector <bool> > codesY = midiToGray(ccValueY);
rt300@4 680
rt300@4 681 vector<int> base32X = codesToBase32(codesX);
rt300@4 682 vector<int> base32Y = codesToBase32(codesY);
rt300@4 683
rt300@4 684 TwoVector result;
rt300@4 685 result.x = base32toCoord(base32X);
rt300@4 686 result.y = base32toCoord(base32Y);
rt300@4 687 return result;
rt300@4 688 }
rt300@4 689
rt300@4 690 //--------------------------------------------------------------
rt300@4 691 vector<int> Grid::calculateParamsFromCoord(TwoVector coord) const{
rt300@4 692 // some arrays in reverse order of power from normal numbers! 1,2,4,
rt300@4 693
rt300@4 694 // centre to base 32
rt300@4 695 if (coord.x > maxValue || coord.y > maxValue){
rt300@4 696 cout << "calculateParams Error: centre double value is too large" << "\n";
rt300@4 697 vector<int> empty;
rt300@4 698 return empty;
rt300@4 699 }
rt300@4 700
rt300@4 701 //--------------------------
rt300@4 702 // X
rt300@4 703 vector<int> base32x = coordTobase32(coord.x); // 7 numbers from 0 to 31
rt300@4 704 vector<vector <bool> > grayCodesX;
rt300@4 705
rt300@4 706 int size = base32x.size();
rt300@4 707 for(int i=0;i<size;i++){
rt300@4 708 grayCodesX.push_back(intToGray(base32x[i]));
rt300@4 709 }
rt300@4 710
rt300@4 711 vector<int> result;
rt300@4 712 result = grayToMidi(grayCodesX);
rt300@4 713 //--------------------------
rt300@4 714 // AND FOR Y
rt300@4 715 vector<int> base32y = coordTobase32(coord.y);
rt300@4 716 vector<vector <bool> > grayCodesY;
rt300@4 717
rt300@4 718 size = base32y.size();
rt300@4 719 for(int i=0;i<size;i++){
rt300@4 720 grayCodesY.push_back(intToGray(base32y[i]));
rt300@4 721 }
rt300@4 722
rt300@4 723 vector<int> resultY;
rt300@4 724 resultY = grayToMidi(grayCodesY);
rt300@4 725
rt300@4 726 // concatenate
rt300@4 727 result.insert( result.end(), resultY.begin(), resultY.end() );
rt300@4 728 return result;
rt300@4 729 }
rt300@4 730 //-------------------------------------------------------------------
rt300@4 731
rt300@4 732 // for 1 dimension!!! i.e. call this twice
rt300@4 733 vector<int> Grid::grayToMidi(vector<vector <bool> > grayCodes) const{
rt300@4 734
rt300@4 735 // gray to midi CC values
rt300@4 736 // loop thru the scales to build up a CC number per dimension
rt300@4 737 int midiCCresult[paramsPerDim]; // TODO dims specific
rt300@4 738 for(int i=0;i<paramsPerDim;i++){
rt300@4 739 midiCCresult[i] = 0;
rt300@4 740 }
rt300@4 741
rt300@4 742 int bin = 1;
rt300@4 743 bin = bin << grayCodes.size()-1;
rt300@4 744
rt300@4 745 int midP = 0;
rt300@4 746
rt300@4 747 vector<vector <bool> >::iterator piter = grayCodes.begin();
rt300@4 748 for(;piter < grayCodes.end();piter++){ // each lesser power of 2
rt300@4 749 midP = 0; // reset
rt300@4 750 vector<bool>::iterator diter = (*piter).begin();
rt300@4 751 for(; diter <= (*piter).end();diter++){ // each one is different dimension
rt300@4 752 int ig = int(*diter); // convert binary to int
rt300@4 753 //cout << "ig: " << ig;
rt300@4 754 midiCCresult[midP] += ig*bin; // mult by power of two
rt300@4 755 midP++;
rt300@4 756 }
rt300@4 757 bin = bin >> 1; // next power of 2 down
rt300@4 758
rt300@4 759 }
rt300@4 760
rt300@4 761 // put in vector
rt300@4 762 vector<int> result;
rt300@4 763 for(int i=0;i<paramsPerDim;i++){
rt300@4 764 result.push_back(midiCCresult[i]);
rt300@4 765 }
rt300@4 766
rt300@4 767 return result;
rt300@4 768
rt300@4 769
rt300@4 770 }
rt300@4 771
rt300@4 772
rt300@4 773 //--------------------------------------------------------------
rt300@4 774
rt300@4 775 vector<bool> Grid::intToGray(int num, int dimToTravel) const{
rt300@4 776
rt300@4 777 // dimToTravel - this is the dimension that we want the walk to traverse, i.e. the last non zero digit of the code
rt300@4 778 // so swap it for 3 to produce correct orientation
rt300@4 779
rt300@4 780 // just use look up table... until it gets huuuge.
rt300@4 781 vector<bool> grayCode = vcode[num];
rt300@4 782 grayCode[3] = vcode[num][dimToTravel];
rt300@4 783 grayCode[dimToTravel] = vcode[num][3];
rt300@4 784 return grayCode;
rt300@4 785 }
rt300@4 786 //--------------------------------------------------------------
rt300@4 787 vector<int> Grid::walkDiff(vector<bool> left, vector<bool> right){
rt300@4 788 // horrible
rt300@4 789 vector<int> result(2,0);
rt300@4 790
rt300@4 791 int size = left.size();
rt300@4 792 for(int i = 0; i < size; i++){
rt300@4 793 if(left[i] && !right[i]){ // 1 - 0
rt300@4 794 // dim
rt300@4 795 result[0] = i;
rt300@4 796 result[1] = 1;
rt300@4 797 }else if(!left[i] && right[i]){ // 0 - 1
rt300@4 798 result[0] = i;
rt300@4 799 result[1] = -1;
rt300@4 800 }else{ // equal do nothing
rt300@4 801
rt300@4 802
rt300@4 803 }
rt300@4 804 }
rt300@4 805
rt300@4 806 return result;
rt300@4 807 }
rt300@4 808
rt300@4 809 //--------------------------------------------------------------
rt300@4 810 /*
rt300@4 811 breaks down float into a base 32 number (2^D)
rt300@4 812 each of these is converted to gray code
rt300@4 813 this is then converted to 10 parameters, where each 32-digit becomes separate power of 2
rt300@4 814 so "zoom" grid 32-patches are converted to 2-scales. 1,2,4,8,16,32,64,(128?) biggest number is 32^7
rt300@4 815 */
rt300@4 816 vector<int> Grid::coordTobase32(double value) const{
rt300@4 817 //double base = 32.0;
rt300@4 818 if(value < 0.0){
rt300@4 819 cout << "coordTobase32 error: input value is negative\n";
rt300@4 820 value = 0.0;
rt300@4 821 }else if(value > maxValue){
rt300@4 822 cout << "coordTobase32 error: input value too big!\n";
rt300@4 823 }
rt300@4 824 double rem, divdr = 0.0;
rt300@4 825 int digit32;
rt300@4 826
rt300@4 827 // what power of 32 to start at?
rt300@4 828 int maxpow = 7; // midi cc specific
rt300@4 829 vector<int> result;
rt300@4 830
rt300@4 831 rem = value;
rt300@4 832 for(;maxpow >=0;maxpow--){
rt300@4 833 // repeatedly get digit and remainder. This is exactly what we're doing in draw !?... could put all this in one place?
rt300@4 834 divdr = pow((double)codeLength,(double)maxpow);
rt300@4 835 digit32 = floor(rem/divdr);
rt300@4 836 rem = rem - digit32*divdr;
rt300@4 837 result.push_back(digit32); // array, biggest index is smallest power
rt300@4 838 }
rt300@4 839 // at this point rem should be fractional... use for interp?
rt300@4 840
rt300@4 841 return result;
rt300@4 842 }
rt300@4 843 //--------------------------------------------------------------
rt300@4 844
rt300@4 845 vector<int> Grid::codesToBase32(vector<vector<bool> > inCodes) const{
rt300@4 846 vector<int> result;
rt300@4 847 for(int i=0;i<paramBitDepth;i++){
rt300@4 848 result.push_back(grayToInt(inCodes[i]));
rt300@4 849 }
rt300@4 850 return result;
rt300@4 851 }
rt300@4 852 //--------------------------------------------------------------
rt300@4 853
rt300@4 854 int Grid::grayToInt(vector<bool> incode) const{
rt300@4 855 // look for match in table
rt300@4 856
rt300@4 857 int s = vcode.size();
rt300@4 858
rt300@4 859 for(int i=0; i<s;i++){ // fill vector
rt300@4 860 if(vcode[i] == incode){
rt300@4 861 return i;
rt300@4 862 }
rt300@4 863
rt300@4 864 }
rt300@4 865 cout << "grayToInt error: no matching code found!";
rt300@4 866 return -1;
rt300@4 867 }
rt300@4 868 //--------------------------------------------------------------
rt300@4 869 double Grid::base32toCoord(vector<int> base32Digs) const{
rt300@4 870 // build up the big float from a base 32 number
rt300@4 871 double result = 0.0;
rt300@4 872
rt300@4 873 // what power of 32 to start at?
rt300@4 874 int mpow = base32Digs.size() - 1; // should be 7...
rt300@4 875
rt300@4 876 for(int p=0;p<=mpow;p++){ // biggest index is smallest power
rt300@4 877 result += ((double)base32Digs[p]) * pow(32.0, (double)mpow-p);
rt300@4 878
rt300@4 879 }
rt300@4 880 return result;
rt300@4 881
rt300@4 882 }
rt300@4 883 //--------------------------------------------------------------
rt300@4 884 // for 1 dimension - takes in 5 cc params and outputs 7 codes
rt300@4 885 vector<vector <bool> > Grid::midiToGray(vector<int> ccValue) const{
rt300@4 886 int pow2 = 1 << (paramBitDepth-1);
rt300@4 887
rt300@4 888 vector<int> aCode(paramsPerDim);
rt300@4 889 vector<vector<int> > theXCodes(paramBitDepth,aCode);
rt300@4 890
rt300@4 891 // build up binary gray code representations from the bits of the midi ccs
rt300@4 892
rt300@4 893 vector<vector<bool> > theCodes(paramBitDepth, vector<bool>(paramsPerDim));
rt300@4 894
rt300@4 895 // x
rt300@4 896 for(int p=0;p<paramBitDepth;p++){
rt300@4 897
rt300@4 898 for(int i=0;i<paramsPerDim;i++){
rt300@4 899
rt300@4 900 bool bit = (pow2 == (ccValue[i] & pow2));
rt300@4 901 theCodes[p][i] = bit;
rt300@4 902 }
rt300@4 903 pow2 = pow2 >> 1;
rt300@4 904
rt300@4 905 }
rt300@4 906 return theCodes;
rt300@4 907 }
rt300@4 908 //--------------------------------------------------------------
rt300@4 909 //--------------------------------------------------------------
rt300@4 910 //--------------------------------------------------------------