laserUI - Laser Sensing Display for UI interfaces in the re…

Users » mbedalvaro » Code » laserUI

Alvaro Cassinelli / Mbed 2 deprecated laserUI

Laser Sensing Display for UI interfaces in the real world

Fork of skinGames_forktest by Alvaro Cassinelli

main.cpp@44:2432c218f191, 2013-10-30 (annotated)

Committer:: mbedalvaro
Date:: Wed Oct 30 02:50:58 2013 +0000
Revision:: 44:2432c218f191
Parent:: 43:1dd4cfc30788
Child:: 46:e0dd2d1d07c1

This is a security commit, I will start creating UIobject class with behaviours (a child of BaseObject)

Who changed what in which revision?

User	Revision	Line number	New contents of line
mbedalvaro	40:3ba2b0ea9f33	1	/*
mbedalvaro	40:3ba2b0ea9f33	2
mbedalvaro	44:2432c218f191	3	- NOTE: I could instantiate at least 960 points when NOT USING THE ETHERNET LIBRARY! (as 30 objects containing each 32 points).
mbedalvaro	40:3ba2b0ea9f33	4	... but then again I could not make only 36 1-point object on a grid? what's going on? an object takes MUCH MORE MEMORY than just
mbedalvaro	40:3ba2b0ea9f33	5	the trajectory and 3d vector array... but where?
mbedalvaro	44:2432c218f191	6	Anyway, using the ETHERNET LIBRARY uses more than 20kB, and then I cannot instantiate more than a few letters...
mbedalvaro	40:3ba2b0ea9f33	7	*/
mbedalvaro	40:3ba2b0ea9f33	8
mbedalvaro	43:1dd4cfc30788	9	//#define WITH_OSC // this consumes about 20kb or RAM!!!
mbedalvaro	43:1dd4cfc30788	10
mbedalvaro	40:3ba2b0ea9f33	11	#include "mbed.h"
mbedalvaro	43:1dd4cfc30788	12	#include "WrapperFunctions.h"
mbedalvaro	43:1dd4cfc30788	13
mbedalvaro	43:1dd4cfc30788	14	#ifdef WITH_OSC
mbedalvaro	40:3ba2b0ea9f33	15	#include "mbedOSC.h"
mbedalvaro	43:1dd4cfc30788	16	#endif
mbedalvaro	42:5f21a710ebc5	17
mbedalvaro	42:5f21a710ebc5	18	// The following is because I still did not "wrap" ALL the LaserRenderer methods (so we have to use the object lsr directly, for instance to set a matrix: lsr.setIdentityPose()...)
mbedalvaro	42:5f21a710ebc5	19	#include "LaserRenderer.h"
mbedalvaro	42:5f21a710ebc5	20	extern LaserRenderer lsr;
mbedalvaro	42:5f21a710ebc5	21
mbedalvaro	41:74e24a0e6e50	22	// mbed IP address (server):
mbedalvaro	43:1dd4cfc30788	23	#ifdef WITH_OSC
mbedalvaro	40:3ba2b0ea9f33	24	#ifdef DHCP
mbedalvaro	40:3ba2b0ea9f33	25	EthernetNetIf eth;
mbedalvaro	40:3ba2b0ea9f33	26	#else
mbedalvaro	40:3ba2b0ea9f33	27	EthernetNetIf eth(
mbedalvaro	41:74e24a0e6e50	28	IpAddr(10,0,0,2), //IP Address of the mbed
mbedalvaro	40:3ba2b0ea9f33	29	IpAddr(255,255,255,0), //Network Mask
mbedalvaro	40:3ba2b0ea9f33	30	IpAddr(10,0,0,1), //Gateway
mbedalvaro	40:3ba2b0ea9f33	31	IpAddr(10,0,0,1) //DNS
mbedalvaro	40:3ba2b0ea9f33	32	);
mbedalvaro	40:3ba2b0ea9f33	33	#endif
mbedalvaro	40:3ba2b0ea9f33	34
mbedalvaro	41:74e24a0e6e50	35	//uint8_t serverMac[] = { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
mbedalvaro	42:5f21a710ebc5	36	uint8_t serverIp[] = { 10, 0, 0, 2 };
mbedalvaro	41:74e24a0e6e50	37	int serverPort = 10000;
mbedalvaro	41:74e24a0e6e50	38
mbedalvaro	42:5f21a710ebc5	39	//uint8_t destIp[] = {10, 0, 0, 3};
mbedalvaro	41:74e24a0e6e50	40	uint8_t destIp[] = {255, 255, 255, 255}; // broadcast, so we can use several computers for sound, etc
mbedalvaro	41:74e24a0e6e50	41	int destPort = 12000;
mbedalvaro	41:74e24a0e6e50	42
mbedalvaro	41:74e24a0e6e50	43	char *topAddress="/mbed";
mbedalvaro	42:5f21a710ebc5	44	char *subAddress[3]= { "/test1" , "/test2" , "/test3" };
mbedalvaro	41:74e24a0e6e50	45
mbedalvaro	40:3ba2b0ea9f33	46	OSCMessage recMes;
mbedalvaro	40:3ba2b0ea9f33	47	OSCMessage sendMes;
mbedalvaro	40:3ba2b0ea9f33	48
mbedalvaro	40:3ba2b0ea9f33	49	OSCClass osc;
mbedalvaro	41:74e24a0e6e50	50	//OSCClass osc(&recMes); // instantiate OSC communication object, and set the receiver container from the OSC packets
mbedalvaro	43:1dd4cfc30788	51	#endif
mbedalvaro	40:3ba2b0ea9f33	52
mbedalvaro	40:3ba2b0ea9f33	53	// for tests:
mbedalvaro	40:3ba2b0ea9f33	54	extern Scene scene;
mbedalvaro	40:3ba2b0ea9f33	55	extern laserSensingDisplay lsd;
mbedalvaro	40:3ba2b0ea9f33	56
mbedalvaro	40:3ba2b0ea9f33	57	// =======================================================
mbedalvaro	40:3ba2b0ea9f33	58
mbedalvaro	40:3ba2b0ea9f33	59	// Timers:
mbedalvaro	40:3ba2b0ea9f33	60	Timer t; // we can read in ms or us
mbedalvaro	40:3ba2b0ea9f33	61
mbedalvaro	40:3ba2b0ea9f33	62	// Tickers:
mbedalvaro	40:3ba2b0ea9f33	63	//Ticker timerForRendering; // now in the WrapperFunctions.cpp file
mbedalvaro	40:3ba2b0ea9f33	64	//Ticker timerForSendingData; // better use a timer, so as not to interrupt the exact laser display ticker
mbedalvaro	40:3ba2b0ea9f33	65	unsigned long lastTimeCreated;
mbedalvaro	40:3ba2b0ea9f33	66	unsigned long lastTimeSensed;
mbedalvaro	40:3ba2b0ea9f33	67
mbedalvaro	40:3ba2b0ea9f33	68	// ======================================================================================================================
mbedalvaro	42:5f21a710ebc5	69	// DEFAULT CALIBRATION MATRICES (Extrinsics and Intrinsics).
mbedalvaro	40:3ba2b0ea9f33	70	// -> would be better to load them from a system file!! (TO DO)
mbedalvaro	40:3ba2b0ea9f33	71	// Note: last row is completed automatically in the loadExtrinsicMatrix and loadProjMatrix methods
mbedalvaro	40:3ba2b0ea9f33	72	// Extrinsics of usb camera to projector (note: calibration was in cm, so the translation vector is in cm)
mbedalvaro	40:3ba2b0ea9f33	73	float E1[12] = {9.8946330287356954e-01, -5.0979372852926171e-03, -1.4469410251272136e-01, 5.8356271792647112e+00,
mbedalvaro	42:5f21a710ebc5	74	-4.7536907255693065e-03, 9.9769720674821438e-01, -6.7658599389111715e-02, -6.0821695799283804e+00,
mbedalvaro	42:5f21a710ebc5	75	1.4470582120637832e-01, 6.7633532232509466e-02, 9.8716053943963022e-01, -8.2545447546057940e+00
mbedalvaro	42:5f21a710ebc5	76	};
mbedalvaro	40:3ba2b0ea9f33	77
mbedalvaro	40:3ba2b0ea9f33	78	// 9.9540692993883650e-01, -8.5578652572728450e-03, -9.5350966287597705e-02, 2.2256570914518332e+00,
mbedalvaro	42:5f21a710ebc5	79	// 1.4872282274740087e-02, 9.9772789680840523e-01, 6.5710418886328711e-02, -6.9310510316834923e+00,
mbedalvaro	42:5f21a710ebc5	80	// 9.4571978141945845e-02, -6.6826692814433777e-02, 9.9327253766416224e-01, 1.0699927478132011e+01
mbedalvaro	40:3ba2b0ea9f33	81	//};
mbedalvaro	40:3ba2b0ea9f33	82
mbedalvaro	40:3ba2b0ea9f33	83
mbedalvaro	40:3ba2b0ea9f33	84	// INTRINSICS of laser projector:
mbedalvaro	40:3ba2b0ea9f33	85	float K1[6] = { 5.9957148864529627e+03, 0.0000000e+000, 2.8869455045867635e+03,
mbedalvaro	40:3ba2b0ea9f33	86	0.0000000e+000, 5.9647451141521778e+03, 2.9005238051336592e+03
mbedalvaro	40:3ba2b0ea9f33	87	};
mbedalvaro	40:3ba2b0ea9f33	88
mbedalvaro	42:5f21a710ebc5	89	// 7.0776317995422105e+03, 0., 2.4203185896583996e+03,
mbedalvaro	40:3ba2b0ea9f33	90	// 0., 7.2889265345161484e+03, 1.7718110988625751e+03};
mbedalvaro	40:3ba2b0ea9f33	91
mbedalvaro	40:3ba2b0ea9f33	92	// SCALE FACTOR for the SCAN:
mbedalvaro	40:3ba2b0ea9f33	93	float scaleFactorProjector1 = 1.0; //scale factor for the projector image (the scan is, say, 600x600, but the resolution is 4096x4096)
mbedalvaro	40:3ba2b0ea9f33	94
mbedalvaro	40:3ba2b0ea9f33	95	// ======================================================================================================================
mbedalvaro	42:5f21a710ebc5	96	// LASER TERMINAL:
mbedalvaro	42:5f21a710ebc5	97	// We assume that the "terminal" is operating on an a4 page. Units are in cm.
mbedalvaro	40:3ba2b0ea9f33	98	V2 cursorPosition(0,0);
mbedalvaro	40:3ba2b0ea9f33	99
mbedalvaro	40:3ba2b0ea9f33	100	void createTextScene();
mbedalvaro	43:1dd4cfc30788	101	void addText(string, int, float, float);
mbedalvaro	43:1dd4cfc30788	102
mbedalvaro	40:3ba2b0ea9f33	103	float angle;
mbedalvaro	43:1dd4cfc30788	104	string textToDisplay = "O";
mbedalvaro	40:3ba2b0ea9f33	105	float fontWidth = 2.5, fontHeight = 2.5; // if calibration is in cm, then this is in cm.
mbedalvaro	40:3ba2b0ea9f33	106
mbedalvaro	40:3ba2b0ea9f33	107	// ==============================================================================================================
mbedalvaro	40:3ba2b0ea9f33	108	// Some global functions and variables (find a better way to integrate this!)
mbedalvaro	40:3ba2b0ea9f33	109	extern "C" void mbed_reset();
mbedalvaro	40:3ba2b0ea9f33	110
mbedalvaro	40:3ba2b0ea9f33	111	void createSceneTest();
mbedalvaro	41:74e24a0e6e50	112	void setOrthographicView();
mbedalvaro	40:3ba2b0ea9f33	113
mbedalvaro	43:1dd4cfc30788	114	#ifdef WITH_OSC
mbedalvaro	42:5f21a710ebc5	115	void processOSC(UDPSocketEvent e);
mbedalvaro	43:1dd4cfc30788	116	#endif
mbedalvaro	43:1dd4cfc30788	117	void interpretCommand();
mbedalvaro	40:3ba2b0ea9f33	118	void processSerial();
mbedalvaro	40:3ba2b0ea9f33	119
mbedalvaro	40:3ba2b0ea9f33	120	int touchedTimes = 0;
mbedalvaro	40:3ba2b0ea9f33	121	enum sensingModes {NO_SENSING, SENSING_WHOLE_SCENE, SENSING_PER_OBJECT};
mbedalvaro	42:5f21a710ebc5	122	sensingModes currentSensingMode=SENSING_PER_OBJECT;//NO_SENSING;
mbedalvaro	42:5f21a710ebc5	123
mbedalvaro	42:5f21a710ebc5	124	// ================= AUXILIARY VARIABLES FOR INTERPRETING COMMAND FROM SERIAL OR OSC =========================
mbedalvaro	43:1dd4cfc30788	125	// NOTE: the following arrays are GLOBAL (used in processOSC and processSerial, as well as in interpretCommand function):
mbedalvaro	42:5f21a710ebc5	126	// max of two addresses (top and sub), of a max length of 24 characters:
mbedalvaro	42:5f21a710ebc5	127	char address[2][24];
mbedalvaro	42:5f21a710ebc5	128	//long auxdata[2]; // to store a max of two arguments (note: we will only use LONGs)
mbedalvaro	42:5f21a710ebc5	129	int data[2]; // this is to have -1 as NO DATA, to detect errors.
mbedalvaro	42:5f21a710ebc5	130	int numArgs;
mbedalvaro	42:5f21a710ebc5	131
mbedalvaro	42:5f21a710ebc5	132	// An auxiliary buffer to store parameters data, or matrices, or points to load as vertices.
mbedalvaro	42:5f21a710ebc5	133	// Note: for matrices (pose, projection), the maximum size we need is 12 floats, but as we will also receive vertices, let's give enough space (assuming
mbedalvaro	42:5f21a710ebc5	134	// we can send 3d points, this means 3 floats per point; let's limit the number of points per object to 128 (a lot)
mbedalvaro	42:5f21a710ebc5	135	float auxDataBuffer[128];
mbedalvaro	42:5f21a710ebc5	136	int auxDataBuffer_index=0;
mbedalvaro	42:5f21a710ebc5	137
mbedalvaro	43:1dd4cfc30788	138	// Commands:
mbedalvaro	43:1dd4cfc30788	139	string command1, command2;
mbedalvaro	43:1dd4cfc30788	140
mbedalvaro	43:1dd4cfc30788	141	// this is a hack for the time being:
mbedalvaro	43:1dd4cfc30788	142	int objectID;
mbedalvaro	43:1dd4cfc30788	143	int xx, yy; // initial position of object
mbedalvaro	43:1dd4cfc30788	144	bool firstTimeDisplay=true;
mbedalvaro	40:3ba2b0ea9f33	145
mbedalvaro	40:3ba2b0ea9f33	146	// ==============================================================================================================
mbedalvaro	40:3ba2b0ea9f33	147	int main()
mbedalvaro	40:3ba2b0ea9f33	148	{
mbedalvaro	40:3ba2b0ea9f33	149
mbedalvaro	40:3ba2b0ea9f33	150	t.start();
mbedalvaro	40:3ba2b0ea9f33	151	lastTimeCreated = t.read_ms();
mbedalvaro	40:3ba2b0ea9f33	152	lastTimeSensed = t.read_ms();
mbedalvaro	40:3ba2b0ea9f33	153	angle = 0;
mbedalvaro	40:3ba2b0ea9f33	154
mbedalvaro	40:3ba2b0ea9f33	155	// Setup:
mbedalvaro	40:3ba2b0ea9f33	156	// (1) Hardware init (laser powers, positions...):
mbedalvaro	40:3ba2b0ea9f33	157	IO.init();
mbedalvaro	42:5f21a710ebc5	158
mbedalvaro	43:1dd4cfc30788	159	#ifdef WITH_OSC
mbedalvaro	40:3ba2b0ea9f33	160	// OSC initialization:
mbedalvaro	41:74e24a0e6e50	161	// Set the Ethernet port:
mbedalvaro	41:74e24a0e6e50	162	printf("Setting up...\r\n");
mbedalvaro	40:3ba2b0ea9f33	163	EthernetErr ethErr = eth.setup();
mbedalvaro	40:3ba2b0ea9f33	164	if (ethErr) {
mbedalvaro	41:74e24a0e6e50	165	printf("Error %d in setup.\r\n", ethErr);
mbedalvaro	40:3ba2b0ea9f33	166	return -1;
mbedalvaro	40:3ba2b0ea9f33	167	}
mbedalvaro	41:74e24a0e6e50	168	printf("Setup OK\r\n");
mbedalvaro	40:3ba2b0ea9f33	169
mbedalvaro	41:74e24a0e6e50	170	//(1) Sending message:
mbedalvaro	40:3ba2b0ea9f33	171	// Set IP and Port:
mbedalvaro	40:3ba2b0ea9f33	172	sendMes.setIp( destIp );
mbedalvaro	40:3ba2b0ea9f33	173	sendMes.setPort( destPort );
mbedalvaro	40:3ba2b0ea9f33	174	// Set data:
mbedalvaro	41:74e24a0e6e50	175	sendMes.setTopAddress(topAddress);
mbedalvaro	40:3ba2b0ea9f33	176
mbedalvaro	40:3ba2b0ea9f33	177	//setting osc functionnality:
mbedalvaro	40:3ba2b0ea9f33	178	//(2) Receiving:
mbedalvaro	42:5f21a710ebc5	179	recMes.setIp( serverIp ); // not needed?
mbedalvaro	40:3ba2b0ea9f33	180	osc.setReceiveMessage(&recMes); // this sets the receiver container for the OSC packets (we can avoid doing this if we use osc.getMessage() to get messages)
mbedalvaro	40:3ba2b0ea9f33	181	osc.begin(serverPort, &processOSC); // binds the upd (osc) messages to an arbitrary listening port ("server" port), and callback function
mbedalvaro	42:5f21a710ebc5	182	wait(1);
mbedalvaro	43:1dd4cfc30788	183	#endif
mbedalvaro	42:5f21a710ebc5	184
mbedalvaro	40:3ba2b0ea9f33	185	//===================================================================
mbedalvaro	40:3ba2b0ea9f33	186
mbedalvaro	40:3ba2b0ea9f33	187	/*
mbedalvaro	40:3ba2b0ea9f33	188	//EXAMPLE 1: simple geometry ======================================================
mbedalvaro	40:3ba2b0ea9f33	189	// (1) Calibration matrices (Projection, and extrinsics - if needed):
mbedalvaro	40:3ba2b0ea9f33	190	// Typically, the projection matrix is set from the PC side, or loaded by default (from file system).
mbedalvaro	40:3ba2b0ea9f33	191	lsr.loadProjMatrix(K1, scaleFactorProjector1); // we could use a wrapper, but I won't for the time being.
mbedalvaro	40:3ba2b0ea9f33	192
mbedalvaro	40:3ba2b0ea9f33	193	// (2) Create the scene in "local" coordinates:
mbedalvaro	40:3ba2b0ea9f33	194	createSceneTest(); // Create a default scene (for tests)
mbedalvaro	40:3ba2b0ea9f33	195
mbedalvaro	40:3ba2b0ea9f33	196	// (3) Set a default GLOBAL POSE and PROJECTION MATRIX (if we changed it) for rendering and start displaying:
mbedalvaro	40:3ba2b0ea9f33	197	// - Using the current K (that correct for the center of the camera too!):
mbedalvaro	40:3ba2b0ea9f33	198	//lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	199	//lsr.translate(0, 0, 2000);
mbedalvaro	40:3ba2b0ea9f33	200	// - or doing orthoprojection:
mbedalvaro	40:3ba2b0ea9f33	201	lsr.setOrthoProjection();
mbedalvaro	40:3ba2b0ea9f33	202	lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	203	lsr.translate(CENTER_AD_MIRROR_X, CENTER_AD_MIRROR_Y, 0);
mbedalvaro	40:3ba2b0ea9f33	204	lsr.rotateZ(45);
mbedalvaro	40:3ba2b0ea9f33	205	drawScene();
mbedalvaro	40:3ba2b0ea9f33	206
mbedalvaro	40:3ba2b0ea9f33	207	// * AND IMPORTANT * the FIRST time, we need to set the display engine (ie, attach the interrupt). This is not needed afterwards, ONLY if we change the scene.
mbedalvaro	40:3ba2b0ea9f33	208	lsr.startDisplay();
mbedalvaro	40:3ba2b0ea9f33	209
mbedalvaro	40:3ba2b0ea9f33	210	// (4) Main loop:
mbedalvaro	40:3ba2b0ea9f33	211	// Change the POSE when necessary (also called "viewing transformation" or "global modelview" in OpenGL jargon), render and display:
mbedalvaro	40:3ba2b0ea9f33	212	while (1) {
mbedalvaro	40:3ba2b0ea9f33	213
mbedalvaro	40:3ba2b0ea9f33	214	if (pc.readable())
mbedalvaro	40:3ba2b0ea9f33	215	processSerial(); // here, the pose can be changed by a pc command
mbedalvaro	40:3ba2b0ea9f33	216	hardwareKnobs();
mbedalvaro	40:3ba2b0ea9f33	217
mbedalvaro	40:3ba2b0ea9f33	218	if (0) { //((t.read_ms()-lastTimeCreated)>10) {
mbedalvaro	40:3ba2b0ea9f33	219	// for tests:
mbedalvaro	40:3ba2b0ea9f33	220	myLed2 = !myLed2;
mbedalvaro	40:3ba2b0ea9f33	221
mbedalvaro	40:3ba2b0ea9f33	222	angle += 1;
mbedalvaro	40:3ba2b0ea9f33	223	if (angle > 360)
mbedalvaro	40:3ba2b0ea9f33	224	angle = 0;
mbedalvaro	40:3ba2b0ea9f33	225
mbedalvaro	40:3ba2b0ea9f33	226	// Set the current global pose:
mbedalvaro	40:3ba2b0ea9f33	227	// lsr.setIdentityPose(); // we set the identity - then we don't need to do push pop... we start from "scratch" here. Not incremental rotation...
mbedalvaro	40:3ba2b0ea9f33	228	// lsr.translate(0, 0, 1000);
mbedalvaro	40:3ba2b0ea9f33	229	// lsr.rotateZ(angle);
mbedalvaro	40:3ba2b0ea9f33	230	// lsr.rotateX(2.5 * angle);
mbedalvaro	40:3ba2b0ea9f33	231
mbedalvaro	40:3ba2b0ea9f33	232	lsr.setOrthoProjection();
mbedalvaro	40:3ba2b0ea9f33	233	lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	234	lsr.translate(CENTER_AD_MIRROR_X, CENTER_AD_MIRROR_Y, 0);
mbedalvaro	40:3ba2b0ea9f33	235	lsr.rotateZ(angle);
mbedalvaro	40:3ba2b0ea9f33	236	// lsr.rotateY( angle);
mbedalvaro	40:3ba2b0ea9f33	237
mbedalvaro	40:3ba2b0ea9f33	238	// Then, render (and display) the whole scene (note: we DEFINITELY don't want to call this all the time, only when the RT matrix changes)
mbedalvaro	40:3ba2b0ea9f33	239	drawScene();
mbedalvaro	40:3ba2b0ea9f33	240
mbedalvaro	40:3ba2b0ea9f33	241	lastTimeCreated = t.read_ms();
mbedalvaro	40:3ba2b0ea9f33	242	} // end auto-change pose loop
mbedalvaro	40:3ba2b0ea9f33	243
mbedalvaro	40:3ba2b0ea9f33	244	if ((t.read_ms() - lastTimeSensed) > 50) { // check data sensing every xx ms
mbedalvaro	40:3ba2b0ea9f33	245	// Check objects and change colors or other properties as a function of the touch:
mbedalvaro	40:3ba2b0ea9f33	246	// NOTE: the testing #define debugDelayMirrors should not be defined in the laserSensingDisplay.h
mbedalvaro	40:3ba2b0ea9f33	247	// (note: we assume we are drawing the text).
mbedalvaro	40:3ba2b0ea9f33	248	// There are two ways to query for an object input: using the ID, or from its pointer (scene->objectArray[i]) if we know it. This is faster.
mbedalvaro	40:3ba2b0ea9f33	249	for (int i = 0; i < scene.totalObjects(); i++) {
mbedalvaro	40:3ba2b0ea9f33	250	BaseObject* ptrObj = scene.objectArray[i];
mbedalvaro	40:3ba2b0ea9f33	251	if (ptrObj->sense()) { // this calls to ptrObj->displaySensingBuffer.processSensedData()
mbedalvaro	40:3ba2b0ea9f33	252	ptrObj->setColor(0x02);
mbedalvaro	40:3ba2b0ea9f33	253
mbedalvaro	40:3ba2b0ea9f33	254	// char str[15];
mbedalvaro	40:3ba2b0ea9f33	255	// sprintf(str, "%d", touchedTimes);
mbedalvaro	40:3ba2b0ea9f33	256	// textToDisplay=string(str);//string(itoa(touchedTimes));
mbedalvaro	40:3ba2b0ea9f33	257	// touchedTimes++;
mbedalvaro	40:3ba2b0ea9f33	258	// createTextScene();
mbedalvaro	40:3ba2b0ea9f33	259
mbedalvaro	40:3ba2b0ea9f33	260	} else
mbedalvaro	40:3ba2b0ea9f33	261	ptrObj->setColor(0x01);
mbedalvaro	40:3ba2b0ea9f33	262	}
mbedalvaro	40:3ba2b0ea9f33	263	lastTimeSensed = t.read_ms();
mbedalvaro	40:3ba2b0ea9f33	264	} // end sensing loop
mbedalvaro	40:3ba2b0ea9f33	265
mbedalvaro	40:3ba2b0ea9f33	266	} // "end" infite loop
mbedalvaro	40:3ba2b0ea9f33	267	// =================================
mbedalvaro	40:3ba2b0ea9f33	268	*/
mbedalvaro	40:3ba2b0ea9f33	269
mbedalvaro	40:3ba2b0ea9f33	270	// EXAMPLE 2: 3d text ======================================================
mbedalvaro	40:3ba2b0ea9f33	271
mbedalvaro	40:3ba2b0ea9f33	272	// (1) Calibration matrices:
mbedalvaro	40:3ba2b0ea9f33	273	// Typically, the projection and extrinsic matrix is set from the PC side, or loaded by default (from file system).
mbedalvaro	40:3ba2b0ea9f33	274	lsr.loadProjMatrix(K1, scaleFactorProjector1); // we could use a wrapper, but I won't for the time being.
mbedalvaro	40:3ba2b0ea9f33	275	lsr.loadExtrinsicsMatrix(E1);
mbedalvaro	40:3ba2b0ea9f33	276
mbedalvaro	40:3ba2b0ea9f33	277	// (2) Create the scene in "local" coordinates:
mbedalvaro	43:1dd4cfc30788	278	createTextScene(); // Clear scene, and create a default scene (for tests), and update scene (but not yet rendered)
mbedalvaro	42:5f21a710ebc5	279
mbedalvaro	43:1dd4cfc30788	280	// (3) Set a default PERSPECTIVE and GLOBAL POSE for start displaying:
mbedalvaro	40:3ba2b0ea9f33	281	lsr.loadProjMatrix(K1, scaleFactorProjector1);
mbedalvaro	40:3ba2b0ea9f33	282	lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	283	lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	40:3ba2b0ea9f33	284
mbedalvaro	40:3ba2b0ea9f33	285	// DEFAULT position in CAMERA coordinates (calibration was in cm):
mbedalvaro	40:3ba2b0ea9f33	286	lsr.translate(0, 0, 130);
mbedalvaro	40:3ba2b0ea9f33	287
mbedalvaro	43:1dd4cfc30788	288	drawScene(); // this will be called when we change the pose matrix - but needs to be called at least once to start displaying
mbedalvaro	43:1dd4cfc30788	289	updateScene(); // this is important: this will compute the number of objects, points, etc, to prepare the displaying engine (but rendering is NOT yet done,
mbedalvaro	43:1dd4cfc30788	290	// rendering is done in the drawScene() function.
mbedalvaro	43:1dd4cfc30788	291	// * AND IMPORTANT * the FIRST time, we need to set the display engine (ie, attach the interrupt). This is not needed afterwards, ONLY if we change the scene.
mbedalvaro	43:1dd4cfc30788	292
mbedalvaro	43:1dd4cfc30788	293	startDisplay();
mbedalvaro	40:3ba2b0ea9f33	294
mbedalvaro	43:1dd4cfc30788	295	// Add more text (testing):
mbedalvaro	43:1dd4cfc30788	296	// textToDisplay="1";
mbedalvaro	43:1dd4cfc30788	297	// addText();
mbedalvaro	43:1dd4cfc30788	298
mbedalvaro	43:1dd4cfc30788	299	// (3) Set a default PERSPECTIVE and GLOBAL POSE for start displaying:
mbedalvaro	43:1dd4cfc30788	300	// lsr.loadProjMatrix(K1, scaleFactorProjector1);
mbedalvaro	43:1dd4cfc30788	301	// lsr.setIdentityPose();
mbedalvaro	43:1dd4cfc30788	302	// lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	43:1dd4cfc30788	303	// DEFAULT position in CAMERA coordinates (calibration was in cm):
mbedalvaro	43:1dd4cfc30788	304	// lsr.translate(0, 0, 130);
mbedalvaro	43:1dd4cfc30788	305
mbedalvaro	43:1dd4cfc30788	306	// drawScene();
mbedalvaro	43:1dd4cfc30788	307	// updateScene();
mbedalvaro	40:3ba2b0ea9f33	308
mbedalvaro	40:3ba2b0ea9f33	309	// (4) Main loop:
mbedalvaro	40:3ba2b0ea9f33	310	while(true) {
mbedalvaro	42:5f21a710ebc5	311
mbedalvaro	40:3ba2b0ea9f33	312	// =========== Query hardware events (knobs, ethernet, serial port) ============
mbedalvaro	43:1dd4cfc30788	313	#ifdef WITH_OSC
mbedalvaro	40:3ba2b0ea9f33	314	Net::poll(); // This polls the network connection for new activity, without keeping on calling this you won't receive any OSC!
mbedalvaro	43:1dd4cfc30788	315	#endif
mbedalvaro	43:1dd4cfc30788	316
mbedalvaro	40:3ba2b0ea9f33	317	if (pc.readable()) processSerial(); // here, the pose can be changed by a pc command
mbedalvaro	40:3ba2b0ea9f33	318	hardwareKnobs();
mbedalvaro	40:3ba2b0ea9f33	319	// =============================================================================
mbedalvaro	40:3ba2b0ea9f33	320
mbedalvaro	40:3ba2b0ea9f33	321	// Automatic change of pose for tests
mbedalvaro	40:3ba2b0ea9f33	322	if (0) {//(t.read_ms()-lastTimeCreated)>20) {
mbedalvaro	40:3ba2b0ea9f33	323	angle+=.2;
mbedalvaro	40:3ba2b0ea9f33	324	if (angle>360) angle=0;
mbedalvaro	40:3ba2b0ea9f33	325
mbedalvaro	40:3ba2b0ea9f33	326	lsr.setIdentityPose(); // we set the identity - then we don't need to do push pop... we start from "scratch" here. Not incremental rotation...
mbedalvaro	40:3ba2b0ea9f33	327	lsr.flipY();
mbedalvaro	40:3ba2b0ea9f33	328	lsr.translate(0,0,1000);
mbedalvaro	40:3ba2b0ea9f33	329	lsr.rotateZ(angle);
mbedalvaro	40:3ba2b0ea9f33	330	//lsr.rotateX(angle);
mbedalvaro	40:3ba2b0ea9f33	331
mbedalvaro	40:3ba2b0ea9f33	332	drawScene();
mbedalvaro	40:3ba2b0ea9f33	333
mbedalvaro	40:3ba2b0ea9f33	334	lastTimeCreated=t.read_ms();
mbedalvaro	40:3ba2b0ea9f33	335	}
mbedalvaro	40:3ba2b0ea9f33	336
mbedalvaro	43:1dd4cfc30788	337	if ((currentSensingMode!=NO_SENSING)&&((t.read_ms()-lastTimeSensed)>70)) { // check data sensing every xx ms
mbedalvaro	40:3ba2b0ea9f33	338	// Check objects and change colors or other properties as a function of the touch:
mbedalvaro	40:3ba2b0ea9f33	339	// NOTE: the testing #define debugDelayMirrors should not be defined in the laserSensingDisplay.h
mbedalvaro	40:3ba2b0ea9f33	340	// (note: we assume we are drawing the text).
mbedalvaro	40:3ba2b0ea9f33	341	// There are two ways to query for an object input: using the ID, or from its pointer (scene->objectArray[i]) if we know it. This is faster.
mbedalvaro	40:3ba2b0ea9f33	342	switch(currentSensingMode) {
mbedalvaro	40:3ba2b0ea9f33	343	case SENSING_WHOLE_SCENE: // Sensing whole scene ----------
mbedalvaro	40:3ba2b0ea9f33	344	if (scene.sense()) {
mbedalvaro	40:3ba2b0ea9f33	345
mbedalvaro	40:3ba2b0ea9f33	346	// COUNTING:
mbedalvaro	40:3ba2b0ea9f33	347	// char str[15];
mbedalvaro	40:3ba2b0ea9f33	348	// sprintf(str, "%d", touchedTimes);
mbedalvaro	40:3ba2b0ea9f33	349	// textToDisplay=string(str);//string(itoa(touchedTimes));
mbedalvaro	40:3ba2b0ea9f33	350	// touchedTimes++;
mbedalvaro	40:3ba2b0ea9f33	351	// createTextScene();
mbedalvaro	40:3ba2b0ea9f33	352	// (3) Set a default PERSPECTIVE and GLOBAL POSE for start displaying:
mbedalvaro	40:3ba2b0ea9f33	353	// lsr.loadProjMatrix(K1, scaleFactorProjector1);
mbedalvaro	40:3ba2b0ea9f33	354	// lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	355	// lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	40:3ba2b0ea9f33	356	// This means that the current coordinate frame is the CAMERA, and calibration was in cm:
mbedalvaro	40:3ba2b0ea9f33	357	// lsr.translate(0, 0, 100);
mbedalvaro	40:3ba2b0ea9f33	358	////lsr.flipY();
mbedalvaro	40:3ba2b0ea9f33	359	// drawScene(); // this will be called when we change the pose matrix - but needs to be called at least once to start displaying
mbedalvaro	40:3ba2b0ea9f33	360	// }
mbedalvaro	40:3ba2b0ea9f33	361	}
mbedalvaro	40:3ba2b0ea9f33	362	break;
mbedalvaro	40:3ba2b0ea9f33	363	case SENSING_PER_OBJECT: // Per-object sensing and action:
mbedalvaro	43:1dd4cfc30788	364	for (int i=0; i<scene.totalObjects(); i++) {
mbedalvaro	40:3ba2b0ea9f33	365	BaseObject* ptrObj=scene.objectArray[i];
mbedalvaro	40:3ba2b0ea9f33	366	if (ptrObj->sense()) { // this calls to ptrObj->displaySensingBuffer.processSensedData()
mbedalvaro	40:3ba2b0ea9f33	367	ptrObj->setColor(0x02); // make it green
mbedalvaro	40:3ba2b0ea9f33	368
mbedalvaro	40:3ba2b0ea9f33	369	// for fun: let's rotate THIS letter:
mbedalvaro	40:3ba2b0ea9f33	370	//lsr.pushPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	371	//lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	372	//lsr.rotateX(180);
mbedalvaro	40:3ba2b0ea9f33	373	//transformObject(ptrObj);
mbedalvaro	40:3ba2b0ea9f33	374	//lsr.popPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	375	// we need to redraw the scene (ie, reproject), or at least this object:
mbedalvaro	40:3ba2b0ea9f33	376	//lsr.renderObject(ptrObj, lsr.RT);
mbedalvaro	40:3ba2b0ea9f33	377
mbedalvaro	42:5f21a710ebc5	378	// or "highlight" the object by putting "cartouche" around it object (note: do this only if it did NOT have
mbedalvaro	40:3ba2b0ea9f33	379	//addCartoucheObject(ptrObj);
mbedalvaro	40:3ba2b0ea9f33	380
mbedalvaro	43:1dd4cfc30788	381	//pc.putc(ptrObj->ID());
mbedalvaro	43:1dd4cfc30788	382	pc.printf("%d \n", ptrObj->ID());
mbedalvaro	40:3ba2b0ea9f33	383	} else
mbedalvaro	40:3ba2b0ea9f33	384	ptrObj->setColor(0x01); // make it blue
mbedalvaro	40:3ba2b0ea9f33	385	}
mbedalvaro	40:3ba2b0ea9f33	386	break;
mbedalvaro	40:3ba2b0ea9f33	387	default:
mbedalvaro	40:3ba2b0ea9f33	388	break;
mbedalvaro	40:3ba2b0ea9f33	389	}
mbedalvaro	40:3ba2b0ea9f33	390	lastTimeSensed=t.read_ms();
mbedalvaro	40:3ba2b0ea9f33	391	} // end sensing
mbedalvaro	40:3ba2b0ea9f33	392
mbedalvaro	40:3ba2b0ea9f33	393	} // infinite while loop
mbedalvaro	40:3ba2b0ea9f33	394	// =================================
mbedalvaro	40:3ba2b0ea9f33	395	}
mbedalvaro	40:3ba2b0ea9f33	396
mbedalvaro	42:5f21a710ebc5	397	void setOrthographicView()
mbedalvaro	42:5f21a710ebc5	398	{
mbedalvaro	42:5f21a710ebc5	399	// clearScene();
mbedalvaro	42:5f21a710ebc5	400	// set color:
mbedalvaro	42:5f21a710ebc5	401	lsr.setColor(0x02); // green
mbedalvaro	42:5f21a710ebc5	402	//IO.setLaserLockinPower(0); // DISABLING SENSING LASER! (here the red). This is FOR CALIBRATION laser-camera
mbedalvaro	42:5f21a710ebc5	403
mbedalvaro	42:5f21a710ebc5	404	lsr.setOrthoProjection();
mbedalvaro	42:5f21a710ebc5	405	lsr.setIdentityPose(); // we could have done the translation here instead of in "local coordinates", but it's the same.
mbedalvaro	41:74e24a0e6e50	406	}
mbedalvaro	41:74e24a0e6e50	407
mbedalvaro	40:3ba2b0ea9f33	408	void createSceneTest()
mbedalvaro	40:3ba2b0ea9f33	409	{
mbedalvaro	40:3ba2b0ea9f33	410	lsr.pushPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	411
mbedalvaro	40:3ba2b0ea9f33	412	// (1) Clear the scene (this stops displaying, thus creating a "laser hot spot", but in principle it only happens in the setup)
mbedalvaro	40:3ba2b0ea9f33	413	clearScene(); // NOTE: in the future (and if we have enough RAM, we can have several indexed "scenes", instead of a unique global)
mbedalvaro	40:3ba2b0ea9f33	414
mbedalvaro	40:3ba2b0ea9f33	415	// (2) Set displaying attributes (colors and local pose):
mbedalvaro	40:3ba2b0ea9f33	416	// (a) Set the "local pose" (i.e., the MODELING TRANSFORMATION in OpenGL jargon):
mbedalvaro	40:3ba2b0ea9f33	417	lsr.setIdentityPose(); // we could use a wrapper, but I won't for the time being.
mbedalvaro	40:3ba2b0ea9f33	418	// (b) set color:
mbedalvaro	40:3ba2b0ea9f33	419	lsr.setColor(0x02);
mbedalvaro	40:3ba2b0ea9f33	420
mbedalvaro	40:3ba2b0ea9f33	421	// Add a first object: using openGL-like syntaxis (here, a closed square):
mbedalvaro	40:3ba2b0ea9f33	422	// begin(1); // start creating object with identifier = 1
mbedalvaro	40:3ba2b0ea9f33	423	// vertex(10,10,1);
mbedalvaro	40:3ba2b0ea9f33	424	// vertex(10,100,1);
mbedalvaro	40:3ba2b0ea9f33	425	// vertex(100,100,1);
mbedalvaro	40:3ba2b0ea9f33	426	// vertex(10,100,1);
mbedalvaro	40:3ba2b0ea9f33	427	// vertex(10,10,1); //
mbedalvaro	40:3ba2b0ea9f33	428	// end();
mbedalvaro	40:3ba2b0ea9f33	429
mbedalvaro	40:3ba2b0ea9f33	430	// Add another objects using "object primitives":
mbedalvaro	40:3ba2b0ea9f33	431	//begin(2);
mbedalvaro	40:3ba2b0ea9f33	432	//lsr.translate(-100,-100,0); // recenter the square
mbedalvaro	40:3ba2b0ea9f33	433	//square(200, 10); // this square has a corner in (0,0), and by default, z=0
mbedalvaro	40:3ba2b0ea9f33	434	//end();
mbedalvaro	40:3ba2b0ea9f33	435
mbedalvaro	40:3ba2b0ea9f33	436	// A "cube" (with one corner at the origin):
mbedalvaro	40:3ba2b0ea9f33	437	//begin(3);
mbedalvaro	40:3ba2b0ea9f33	438	//lsr.setIdentityPose(); // we set the identity - then we don't need to do push pop... we start from "scratch" here. Not incremental rotation...
mbedalvaro	40:3ba2b0ea9f33	439	//lsr.translate(100,-100,-100); // recenter the cube (no need to push pop because we are seting the identity above)
mbedalvaro	40:3ba2b0ea9f33	440	//lsr.rotateY(30);
mbedalvaro	40:3ba2b0ea9f33	441	//cube(200,10); // cube(200, 20);
mbedalvaro	40:3ba2b0ea9f33	442	//end();
mbedalvaro	40:3ba2b0ea9f33	443
mbedalvaro	40:3ba2b0ea9f33	444	// A grid:
mbedalvaro	40:3ba2b0ea9f33	445	// IMPORTANT: a grid is a multi-object built, and DOES NOT NEED to be between a begin and end
mbedalvaro	40:3ba2b0ea9f33	446	lsr.setIdentityPose(); // we set the identity - then we don't need to do push pop... we start from "scratch" here. Not incremental rotation...
mbedalvaro	40:3ba2b0ea9f33	447	lsr.translate(-500, -500, 0);
mbedalvaro	40:3ba2b0ea9f33	448	grid(1000, 1000, 5, 5, 1); //grid(float sizeX, float sizeY, int nx, int ny, int repeatpoint);
mbedalvaro	40:3ba2b0ea9f33	449	//gridCircles(300, 250, 6, 5, 10, 6); // gridCircles(float sizeX, float sizeY, int nx, int ny, float radius, int nbpointsCircle)
mbedalvaro	40:3ba2b0ea9f33	450
mbedalvaro	40:3ba2b0ea9f33	451	// A circle:
mbedalvaro	40:3ba2b0ea9f33	452	//begin(4);
mbedalvaro	40:3ba2b0ea9f33	453	//circle(200, 100);
mbedalvaro	40:3ba2b0ea9f33	454	//end();
mbedalvaro	40:3ba2b0ea9f33	455
mbedalvaro	40:3ba2b0ea9f33	456	updateScene(); // this is important: this will compute the number of objects, points, etc, to prepare the displaying engine (but rendering is NOT yet done,
mbedalvaro	40:3ba2b0ea9f33	457	// rendering is done in the drawScene() function.
mbedalvaro	40:3ba2b0ea9f33	458
mbedalvaro	40:3ba2b0ea9f33	459	// pc.printf("Number of objects in the scene: %d\n", scene.totalObjects());
mbedalvaro	40:3ba2b0ea9f33	460	// pc.printf("Number of points in the scene: %d\n", scene.totalPoints());
mbedalvaro	40:3ba2b0ea9f33	461
mbedalvaro	40:3ba2b0ea9f33	462	lsr.popPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	463	}
mbedalvaro	40:3ba2b0ea9f33	464
mbedalvaro	40:3ba2b0ea9f33	465	void createTextScene()
mbedalvaro	40:3ba2b0ea9f33	466	{
mbedalvaro	40:3ba2b0ea9f33	467	lsr.pushPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	468	//This function just creates text in local coordinates. We have two options: to create it as a unique object, or as separate objects (one per letter).
mbedalvaro	40:3ba2b0ea9f33	469	// The first option is simpler now, we just use the wrapper function string3d(string _text, float totalWidth, float height):
mbedalvaro	40:3ba2b0ea9f33	470
mbedalvaro	40:3ba2b0ea9f33	471	// (1) Clear the scene (this stops displaying, thus creating a "laser hot spot", but in principle it only happens in the setup)
mbedalvaro	40:3ba2b0ea9f33	472	clearScene(); // NOTE: in the future (and if we have enough RAM, we can have several indexed "scenes", instead of a unique global)
mbedalvaro	40:3ba2b0ea9f33	473
mbedalvaro	40:3ba2b0ea9f33	474	// (2) Set displaying attributes (colors and pose):
mbedalvaro	40:3ba2b0ea9f33	475	// (a) Set the "local pose" (i.e., the MODELING TRANSFORMATION in OpenGL jargon):
mbedalvaro	40:3ba2b0ea9f33	476	lsr.setIdentityPose(); // we could use a wrapper, but I won't for the time being.
mbedalvaro	40:3ba2b0ea9f33	477	//lsr.flipY();
mbedalvaro	40:3ba2b0ea9f33	478	//lsr.translate(2,6,0);
mbedalvaro	40:3ba2b0ea9f33	479
mbedalvaro	40:3ba2b0ea9f33	480	lsr.flipY();
mbedalvaro	40:3ba2b0ea9f33	481	lsr.flipX();
mbedalvaro	40:3ba2b0ea9f33	482	lsr.translate(-15,-10,0);
mbedalvaro	40:3ba2b0ea9f33	483
mbedalvaro	40:3ba2b0ea9f33	484	// (b) set current color:
mbedalvaro	40:3ba2b0ea9f33	485	lsr.setColor(0x04); // three LSB bits for RGB - so 0x02 is GREEN ON (note that the sensing laser, now red, is always on...).
mbedalvaro	40:3ba2b0ea9f33	486
mbedalvaro	40:3ba2b0ea9f33	487	// A string as a UNIQUE object:
mbedalvaro	40:3ba2b0ea9f33	488	// begin(1); // start creating an object with index 1
mbedalvaro	40:3ba2b0ea9f33	489	// no retouching of the modelview, meaning the text is in (0,0,0) in "local" coordinates
mbedalvaro	40:3ba2b0ea9f33	490	// string3d(textToDisplay, textToDisplay.size()*fontWidth, fontHeight);
mbedalvaro	40:3ba2b0ea9f33	491	//end();
mbedalvaro	40:3ba2b0ea9f33	492
mbedalvaro	40:3ba2b0ea9f33	493	// A string as a collection of object-letters:
mbedalvaro	40:3ba2b0ea9f33	494	//lsr.translate(-textToDisplay.length()*fontWidth/2,-fontHeight/2,0);
mbedalvaro	40:3ba2b0ea9f33	495	for (unsigned short i = 0; i < textToDisplay.length(); i++) {
mbedalvaro	40:3ba2b0ea9f33	496	char ch = textToDisplay.at(i);
mbedalvaro	40:3ba2b0ea9f33	497	if (ch != ' ') {
mbedalvaro	40:3ba2b0ea9f33	498	begin(i);
mbedalvaro	40:3ba2b0ea9f33	499	letter3d(ch, fontWidth, fontHeight);
mbedalvaro	40:3ba2b0ea9f33	500	end();
mbedalvaro	40:3ba2b0ea9f33	501	}
mbedalvaro	40:3ba2b0ea9f33	502	lsr.translate(1.1*fontWidth, 0, 0);
mbedalvaro	40:3ba2b0ea9f33	503	}
mbedalvaro	40:3ba2b0ea9f33	504
mbedalvaro	40:3ba2b0ea9f33	505	lsr.popPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	506
mbedalvaro	40:3ba2b0ea9f33	507	}
mbedalvaro	40:3ba2b0ea9f33	508
mbedalvaro	43:1dd4cfc30788	509	void addText(string text, int id, float posx, float posy)
mbedalvaro	42:5f21a710ebc5	510	{
mbedalvaro	43:1dd4cfc30788	511	//clearScene();
mbedalvaro	42:5f21a710ebc5	512	lsr.pushPoseMatrix();
mbedalvaro	42:5f21a710ebc5	513	//This function just creates text in local coordinates. We have two options: to create it as a unique object, or as separate objects (one per letter).
mbedalvaro	42:5f21a710ebc5	514	// The first option is simpler now, we just use the wrapper function string3d(string _text, float totalWidth, float height):
mbedalvaro	42:5f21a710ebc5	515
mbedalvaro	42:5f21a710ebc5	516	// (1) Clear the scene (this stops displaying, thus creating a "laser hot spot", but in principle it only happens in the setup)
mbedalvaro	42:5f21a710ebc5	517	// clearScene(); // NOTE: in the future (and if we have enough RAM, we can have several indexed "scenes", instead of a unique global)
mbedalvaro	42:5f21a710ebc5	518
mbedalvaro	42:5f21a710ebc5	519	// (2) Set displaying attributes (colors and pose):
mbedalvaro	42:5f21a710ebc5	520	// (a) Set the "local pose" (i.e., the MODELING TRANSFORMATION in OpenGL jargon):
mbedalvaro	42:5f21a710ebc5	521	lsr.setIdentityPose(); // we could use a wrapper, but I won't for the time being.
mbedalvaro	42:5f21a710ebc5	522	//lsr.flipY();
mbedalvaro	42:5f21a710ebc5	523	//lsr.translate(2,6,0);
mbedalvaro	42:5f21a710ebc5	524
mbedalvaro	42:5f21a710ebc5	525	lsr.flipY();
mbedalvaro	43:1dd4cfc30788	526	// lsr.flipX();
mbedalvaro	43:1dd4cfc30788	527	lsr.translate(posx,posy,0);
mbedalvaro	42:5f21a710ebc5	528
mbedalvaro	42:5f21a710ebc5	529	// (b) set current color:
mbedalvaro	42:5f21a710ebc5	530	lsr.setColor(0x04); // three LSB bits for RGB - so 0x02 is GREEN ON (note that the sensing laser, now red, is always on...).
mbedalvaro	40:3ba2b0ea9f33	531
mbedalvaro	42:5f21a710ebc5	532	// A string as a UNIQUE object:
mbedalvaro	42:5f21a710ebc5	533	// begin(1); // start creating an object with index 1
mbedalvaro	42:5f21a710ebc5	534	// no retouching of the modelview, meaning the text is in (0,0,0) in "local" coordinates
mbedalvaro	42:5f21a710ebc5	535	// string3d(textToDisplay, textToDisplay.size()*fontWidth, fontHeight);
mbedalvaro	42:5f21a710ebc5	536	//end();
mbedalvaro	42:5f21a710ebc5	537
mbedalvaro	42:5f21a710ebc5	538	// A string as a collection of object-letters:
mbedalvaro	42:5f21a710ebc5	539	//lsr.translate(-textToDisplay.length()*fontWidth/2,-fontHeight/2,0);
mbedalvaro	43:1dd4cfc30788	540
mbedalvaro	43:1dd4cfc30788	541	for (unsigned short i = 0; i < text.length(); i++) {
mbedalvaro	43:1dd4cfc30788	542	char ch = text.at(i);
mbedalvaro	42:5f21a710ebc5	543	if (ch != ' ') {
mbedalvaro	43:1dd4cfc30788	544	begin(id);
mbedalvaro	42:5f21a710ebc5	545	letter3d(ch, fontWidth, fontHeight);
mbedalvaro	43:1dd4cfc30788	546	end();
mbedalvaro	42:5f21a710ebc5	547	}
mbedalvaro	42:5f21a710ebc5	548	lsr.translate(1.1*fontWidth, 0, 0);
mbedalvaro	42:5f21a710ebc5	549	}
mbedalvaro	42:5f21a710ebc5	550	lsr.popPoseMatrix();
mbedalvaro	42:5f21a710ebc5	551
mbedalvaro	42:5f21a710ebc5	552	}
mbedalvaro	40:3ba2b0ea9f33	553
mbedalvaro	43:1dd4cfc30788	554	// ============ COMMUNICATION PROTOCOL ======================================
mbedalvaro	43:1dd4cfc30788	555	// String to store ALPHANUMERIC DATA (i.e., integers, floating point numbers, unsigned ints, etc represented as DEC):
mbedalvaro	43:1dd4cfc30788	556	// TO DO: use string objects!
mbedalvaro	43:1dd4cfc30788	557	char receivedStringData[24]; // note: an integer is two bytes long, represented with a maximum of 5 digits, but we may send floats or unsigned int...
mbedalvaro	43:1dd4cfc30788	558	int indexStringData = 0; //position of the byte in the string
mbedalvaro	43:1dd4cfc30788	559
mbedalvaro	43:1dd4cfc30788	560	// String to store COMMAND WORDS (not used yet):
mbedalvaro	43:1dd4cfc30788	561	char stringCommand[24];
mbedalvaro	43:1dd4cfc30788	562	int indexStringCommand = 0;
mbedalvaro	43:1dd4cfc30788	563	bool commandReady = false; // will become true when receiving the byte 0 (i.e. the '/0' string terminator)
mbedalvaro	43:1dd4cfc30788	564
mbedalvaro	43:1dd4cfc30788	565
mbedalvaro	43:1dd4cfc30788	566	#ifdef WITH_OSC
mbedalvaro	40:3ba2b0ea9f33	567	//============= RECEIVE OSC COMMANDS =========================
mbedalvaro	40:3ba2b0ea9f33	568	// This is the callback function called when there are packets on the listening socket. It is not nice to have it
mbedalvaro	40:3ba2b0ea9f33	569	// here, but for the time being having a "wrapping global" is the simplest solution (we cannot pass a member-function pointer
mbedalvaro	40:3ba2b0ea9f33	570	// as handler to the upd object).
mbedalvaro	42:5f21a710ebc5	571	void processOSC(UDPSocketEvent e)
mbedalvaro	42:5f21a710ebc5	572	{
mbedalvaro	40:3ba2b0ea9f33	573	osc.onUDPSocketEvent(e);
mbedalvaro	40:3ba2b0ea9f33	574
mbedalvaro	40:3ba2b0ea9f33	575	if (osc.newMessage) {
mbedalvaro	42:5f21a710ebc5	576
mbedalvaro	42:5f21a710ebc5	577	// pc.printf("RECEIVED NEW OSC MESSAGE ----\n");
mbedalvaro	42:5f21a710ebc5	578
mbedalvaro	43:1dd4cfc30788	579	// Acquire the addresses and arguments and put them in the GLOBAL variables to be processed by the interpretCommand function (common to serial and OSC):
mbedalvaro	43:1dd4cfc30788	580	command1="";
mbedalvaro	43:1dd4cfc30788	581	command2="";
mbedalvaro	42:5f21a710ebc5	582	for (int i=0; i<recMes.getAddressNum(); i++) {
mbedalvaro	42:5f21a710ebc5	583	strcpy(address[i],recMes.getAddress(i)); // NOTE: up to the rest of the program to check if address[1] is really not null
mbedalvaro	42:5f21a710ebc5	584	// pc.printf("Address %d = %s \n",i, address[i]);
mbedalvaro	42:5f21a710ebc5	585	}
mbedalvaro	40:3ba2b0ea9f33	586	// Acquire data:
mbedalvaro	42:5f21a710ebc5	587
mbedalvaro	40:3ba2b0ea9f33	588	numArgs=recMes.getArgNum();
mbedalvaro	40:3ba2b0ea9f33	589	data[0]=-1;
mbedalvaro	40:3ba2b0ea9f33	590	data[1]=-1;
mbedalvaro	42:5f21a710ebc5	591	for (int i=0; i<numArgs; i++) {
mbedalvaro	42:5f21a710ebc5	592	data[i]=(int)recMes.getArgInt(i);//recMes.getArgFloat(i);
mbedalvaro	42:5f21a710ebc5	593	//pc.printf("%4.2f %4.2f \n", data[i], recMes.getArgFloat(i));
mbedalvaro	42:5f21a710ebc5	594	// pc.printf("%i %i \n", data[i], recMes.getArgInt(i));
mbedalvaro	42:5f21a710ebc5	595	}
mbedalvaro	40:3ba2b0ea9f33	596
mbedalvaro	40:3ba2b0ea9f33	597	// Finally, interpret the command or data:
mbedalvaro	43:1dd4cfc30788	598	interpretCommand();
mbedalvaro	42:5f21a710ebc5	599
mbedalvaro	42:5f21a710ebc5	600	}
mbedalvaro	40:3ba2b0ea9f33	601	}
mbedalvaro	43:1dd4cfc30788	602	#endif
mbedalvaro	40:3ba2b0ea9f33	603
mbedalvaro	40:3ba2b0ea9f33	604
mbedalvaro	43:1dd4cfc30788	605	//interpretCommand(const char& address[2][], const int& data[2]) {
mbedalvaro	43:1dd4cfc30788	606	void interpretCommand()
mbedalvaro	42:5f21a710ebc5	607	{
mbedalvaro	40:3ba2b0ea9f33	608	// ========== DATA (all this is a hack because my OSC class does not accept BUNDLES...) =============
mbedalvaro	40:3ba2b0ea9f33	609	// Add data to auxiliary data buffer:
mbedalvaro	43:1dd4cfc30788	610	if (command1 == "data") {
mbedalvaro	40:3ba2b0ea9f33	611	// numArgs is the number of arguments (in my OSC version this is max 2):
mbedalvaro	42:5f21a710ebc5	612	// pc.printf("--- Data pack: %d\n", numArgs);
mbedalvaro	42:5f21a710ebc5	613	for (int i=0; i<numArgs; i++) {
mbedalvaro	42:5f21a710ebc5	614	auxDataBuffer[auxDataBuffer_index+i] = 1.0*data[i];
mbedalvaro	42:5f21a710ebc5	615	// note: the index will be reset to 0 or whatever needed when a command USING data from the "d" message is received.
mbedalvaro	42:5f21a710ebc5	616	// pc.printf("buffer index / data: %i %f \n", auxDataBuffer_index+i, auxDataBuffer[auxDataBuffer_index+i]);//data[i]);
mbedalvaro	42:5f21a710ebc5	617	}
mbedalvaro	42:5f21a710ebc5	618	auxDataBuffer_index+=numArgs;
mbedalvaro	42:5f21a710ebc5	619	//pc.putc('/n');
mbedalvaro	40:3ba2b0ea9f33	620	}
mbedalvaro	40:3ba2b0ea9f33	621	// ========== COMMANDS (using data on auxDataBuffer or directly as arguments =========================
mbedalvaro	42:5f21a710ebc5	622
mbedalvaro	43:1dd4cfc30788	623	else if (command1 == "objectID") { // ID of the object
mbedalvaro	43:1dd4cfc30788	624	receivedStringData[indexStringData] = 0;
mbedalvaro	43:1dd4cfc30788	625	indexStringData = 0;
mbedalvaro	43:1dd4cfc30788	626	objectID=atoi(receivedStringData);
mbedalvaro	43:1dd4cfc30788	627	}
mbedalvaro	43:1dd4cfc30788	628
mbedalvaro	43:1dd4cfc30788	629	else if (command1=="initialPosition") { // this is for setting the POSITION of the object to be created:
mbedalvaro	43:1dd4cfc30788	630	xx=auxDataBuffer[0]; yy=auxDataBuffer[1];
mbedalvaro	43:1dd4cfc30788	631	auxDataBuffer_index=0;
mbedalvaro	43:1dd4cfc30788	632	}
mbedalvaro	42:5f21a710ebc5	633
mbedalvaro	43:1dd4cfc30788	634	else if (command1 == "mbedReset" ) mbed_reset();
mbedalvaro	43:1dd4cfc30788	635
mbedalvaro	43:1dd4cfc30788	636	else if (command1 == "testPower" ) {
mbedalvaro	41:74e24a0e6e50	637	// TO DO
mbedalvaro	41:74e24a0e6e50	638	}
mbedalvaro	42:5f21a710ebc5	639
mbedalvaro	42:5f21a710ebc5	640	// Enable/disable projection:
mbedalvaro	43:1dd4cfc30788	641	else if ( command1 == "stopDisplay" ) stopDisplay();
mbedalvaro	43:1dd4cfc30788	642	else if (command1 =="resumeDisplay") resumeDisplay();
mbedalvaro	43:1dd4cfc30788	643	else if (command1 =="showLimits") showLimitsMirrors(50, 1);
mbedalvaro	43:1dd4cfc30788	644	else if (command1 == "setSensingMode") {
mbedalvaro	40:3ba2b0ea9f33	645	int value=data[0];
mbedalvaro	40:3ba2b0ea9f33	646	if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data)
mbedalvaro	40:3ba2b0ea9f33	647	switch(value) {
mbedalvaro	40:3ba2b0ea9f33	648	case 0:
mbedalvaro	40:3ba2b0ea9f33	649	currentSensingMode=NO_SENSING;
mbedalvaro	40:3ba2b0ea9f33	650	break;
mbedalvaro	40:3ba2b0ea9f33	651	case 1:
mbedalvaro	40:3ba2b0ea9f33	652	currentSensingMode=SENSING_WHOLE_SCENE;
mbedalvaro	40:3ba2b0ea9f33	653	break;
mbedalvaro	40:3ba2b0ea9f33	654	case 2:
mbedalvaro	40:3ba2b0ea9f33	655	currentSensingMode=SENSING_PER_OBJECT;
mbedalvaro	40:3ba2b0ea9f33	656	break;
mbedalvaro	40:3ba2b0ea9f33	657	default:
mbedalvaro	40:3ba2b0ea9f33	658	break;
mbedalvaro	40:3ba2b0ea9f33	659	}
mbedalvaro	40:3ba2b0ea9f33	660	}
mbedalvaro	42:5f21a710ebc5	661	}
mbedalvaro	40:3ba2b0ea9f33	662
mbedalvaro	42:5f21a710ebc5	663	// Change state machine color (objects created from this point on will have the state machine color)
mbedalvaro	43:1dd4cfc30788	664	else if (command1 == "setStateColor") { // example: 0( (all OFF), 1( blue ON, 2( green ON, 4( red ON, 3( blue and green ON; etc.
mbedalvaro	42:5f21a710ebc5	665	int value=data[0];
mbedalvaro	40:3ba2b0ea9f33	666	if (value!=-1) lsr.setColor(value);
mbedalvaro	42:5f21a710ebc5	667	}
mbedalvaro	40:3ba2b0ea9f33	668
mbedalvaro	42:5f21a710ebc5	669	// Real time change of color of ALL the objects in the CURRENT scene (state machine color not changed)
mbedalvaro	43:1dd4cfc30788	670	else if (command1 == "setAllObjectsColor") { // example: 0) (all OFF), 1) blue ON, 2) green ON, 4) red ON, 3) blue and green ON; etc.
mbedalvaro	42:5f21a710ebc5	671	int value=data[0];
mbedalvaro	42:5f21a710ebc5	672	if (value!=-1) changeColorScene(value);
mbedalvaro	42:5f21a710ebc5	673	}
mbedalvaro	40:3ba2b0ea9f33	674
mbedalvaro	40:3ba2b0ea9f33	675
mbedalvaro	40:3ba2b0ea9f33	676	// =================== CREATION and DESTRUCTION of objects =========================================================
mbedalvaro	43:1dd4cfc30788	677	else if (command1 == "clearScene") {
mbedalvaro	42:5f21a710ebc5	678	clearScene();
mbedalvaro	42:5f21a710ebc5	679	}
mbedalvaro	42:5f21a710ebc5	680
mbedalvaro	43:1dd4cfc30788	681	else if (command1 =="deleteObject") { // second address is object identifier (a string that will be converted
mbedalvaro	43:1dd4cfc30788	682	deleteObject(objectID);
mbedalvaro	42:5f21a710ebc5	683	}
mbedalvaro	42:5f21a710ebc5	684
mbedalvaro	42:5f21a710ebc5	685	// Produce a grid of points. The projection is ORTHOGRAPHIC. Also, POSE is reset to identity (i.e., the sent points should have
mbedalvaro	42:5f21a710ebc5	686	// been translated previously - this may be optional, we could first send the pose, then the points...)
mbedalvaro	42:5f21a710ebc5	687	// Note: orthographic projection can be achieved by simply setting the projection matrix to ID, while
mbedalvaro	42:5f21a710ebc5	688	// setting Z to 1, or by setting the projection matrix to a unit diagonal but the last term in the diagonal is set to 0.
mbedalvaro	42:5f21a710ebc5	689	// Finally, if one wants to avoid an unnecessary matrix product, the laserRendering class provides a renderingMode that can be set to RAW.
mbedalvaro	42:5f21a710ebc5	690	// NOTE: the following string of ASCII characters is assumed to have been input:
mbedalvaro	42:5f21a710ebc5	691	// posX#posY#sizeX#sizeY#nx#ny#:
mbedalvaro	42:5f21a710ebc5	692	// where the names (ex: posX) is in fact an ASCII string representing the number in decimal base. This means that when we arrive here,
mbedalvaro	42:5f21a710ebc5	693	// the auxiliary array auxDataBuffer contains all that data (as floats), ex: auxDataBuffer[0] is just posX, and auxDataBuffer[5] is ny
mbedalvaro	43:1dd4cfc30788	694	else if (command1 =="gridScene") {
mbedalvaro	42:5f21a710ebc5	695	// Data is now ordered in the auxDataBuffer array:
mbedalvaro	42:5f21a710ebc5	696	float posX = auxDataBuffer[0], posY = auxDataBuffer[1], sizeX = auxDataBuffer[2], sizeY = auxDataBuffer[3], nx = auxDataBuffer[4], ny = auxDataBuffer[5];
mbedalvaro	42:5f21a710ebc5	697	auxDataBuffer_index=0; // to restart loading the auxiliary buffer 'auxDataBuffer'
mbedalvaro	42:5f21a710ebc5	698	clearScene();
mbedalvaro	42:5f21a710ebc5	699	// set color:
mbedalvaro	42:5f21a710ebc5	700	lsr.setColor(0x02); // green
mbedalvaro	42:5f21a710ebc5	701	//IO.setLaserLockinPower(0); // DISABLING SENSING LASER! (here the red). This is FOR CALIBRATION laser-camera
mbedalvaro	40:3ba2b0ea9f33	702
mbedalvaro	42:5f21a710ebc5	703	// set local pose matrix to identity:
mbedalvaro	42:5f21a710ebc5	704	lsr.setIdentityPose();
mbedalvaro	42:5f21a710ebc5	705	// translate to the required position:
mbedalvaro	42:5f21a710ebc5	706	lsr.translate(posX, posY, 0); // since the projection and pose are going to be set
mbedalvaro	42:5f21a710ebc5	707	// to Identity (projection identity will automatically make the projection orthographic), this means that these
mbedalvaro	42:5f21a710ebc5	708	// values are in "laser projector pixels" (in fact angles).
mbedalvaro	42:5f21a710ebc5	709	// Create the collection of dot objects:
mbedalvaro	42:5f21a710ebc5	710	// void grid(float sizeX, float sizeY, int nx, int ny, int repeatpoint);
mbedalvaro	42:5f21a710ebc5	711	grid(sizeX, sizeY, nx, ny, 1);
mbedalvaro	42:5f21a710ebc5	712	updateScene(); // this is important: this will compute the number of objects, points, etc, to prepare the displaying engine (but rendering is NOT yet done,
mbedalvaro	42:5f21a710ebc5	713	// rendering is done in the drawScene() function.
mbedalvaro	40:3ba2b0ea9f33	714
mbedalvaro	42:5f21a710ebc5	715	// Now we can render the scene once:
mbedalvaro	42:5f21a710ebc5	716	// Set a default GLOBAL POSE and orthographic projection for rendering and start displaying:
mbedalvaro	42:5f21a710ebc5	717	lsr.setOrthoProjection();
mbedalvaro	42:5f21a710ebc5	718	lsr.setIdentityPose(); // we could have done the translation here instead of in "local coordinates", but it's the same.
mbedalvaro	42:5f21a710ebc5	719	drawScene(); // this will be called when we change the pose matrix - but needs to be called at least one to start displaying
mbedalvaro	42:5f21a710ebc5	720	}
mbedalvaro	42:5f21a710ebc5	721	// NOTE: now that the grid is set, we don't need to do it again when changing the pose: JUST SEND THE POSE MATRIX and things will be re-rendered!
mbedalvaro	42:5f21a710ebc5	722
mbedalvaro	42:5f21a710ebc5	723	// This means we received "2D" vertex data (z assumed 0) to create A SINGLE SCENE out of these points (we will create a single object)
mbedalvaro	42:5f21a710ebc5	724	// using orthographic projection.
mbedalvaro	42:5f21a710ebc5	725	// This is in particular useful to create "structured light" grids - such the grid of planar points for calibration.
mbedalvaro	42:5f21a710ebc5	726	// In the future, we can have functions to add objects, etc. Basically, every wrapped function should be call-able by the PC.
mbedalvaro	42:5f21a710ebc5	727	// NOTE: the POSE is reset to ID, but we could use the current pose (i.e., send it first by the computer). But for the time being, and in order to modify the
mbedalvaro	42:5f21a710ebc5	728	// cameraProjectorCalibration Xcode project as little as possible, I will perform the transformations on the computer.
mbedalvaro	43:1dd4cfc30788	729	else if (command1 == "arbitraryGridScene") {
mbedalvaro	42:5f21a710ebc5	730	// Data is now ordered in the auxDataBuffer array as PAIRS (X,Y). The argument to this message is the IDENTIFIER of the object:
mbedalvaro	42:5f21a710ebc5	731	// The present value of auxDataBuffer_index contains the number of points x 2
mbedalvaro	42:5f21a710ebc5	732	clearScene();
mbedalvaro	42:5f21a710ebc5	733	lsr.setIdentityPose();
mbedalvaro	42:5f21a710ebc5	734	//lsr.setColor(0x02); // fixed color, or use the current color (in which case, we need to call lsr.pushColor() and then pop it again).
mbedalvaro	42:5f21a710ebc5	735	lsr.setColor(0x03); // blue+green
mbedalvaro	42:5f21a710ebc5	736	IO.setLaserLockinPower(0); // DISABLING SENSING LASER! (here the red). This is FOR CALIBRATION laser-camera
mbedalvaro	40:3ba2b0ea9f33	737
mbedalvaro	42:5f21a710ebc5	738	// begin(1) // we can create a single object, or one object per position (with repetition of the point if needed)
mbedalvaro	42:5f21a710ebc5	739	for (unsigned char i = 0; i < auxDataBuffer_index / 2; i++) {
mbedalvaro	42:5f21a710ebc5	740	begin(i);
mbedalvaro	42:5f21a710ebc5	741	for (unsigned char k=0; k<1; k++) // fixed repetition of points - we can send this as a parameter if we want.
mbedalvaro	42:5f21a710ebc5	742	vertex(auxDataBuffer[2 * i], auxDataBuffer[2 * i + 1], 0);
mbedalvaro	42:5f21a710ebc5	743	end();
mbedalvaro	40:3ba2b0ea9f33	744	}
mbedalvaro	42:5f21a710ebc5	745	updateScene();
mbedalvaro	42:5f21a710ebc5	746	// Set a default GLOBAL POSE and ORTHO projection matrix for start displaying, or use the CURRENT ONE (for that, we should have
mbedalvaro	42:5f21a710ebc5	747	// properly called lsr.pushPoseMatrix())
mbedalvaro	42:5f21a710ebc5	748	lsr.setOrthoProjection();
mbedalvaro	42:5f21a710ebc5	749	lsr.setIdentityPose();
mbedalvaro	42:5f21a710ebc5	750	drawScene();
mbedalvaro	42:5f21a710ebc5	751	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	42:5f21a710ebc5	752	}
mbedalvaro	42:5f21a710ebc5	753
mbedalvaro	42:5f21a710ebc5	754	// This means we received 2D vertex array to add an object assuming it's planar (we will create an object with all points having z=0 in current pose):
mbedalvaro	43:1dd4cfc30788	755	else if (command1 == "createObject2D") {
mbedalvaro	43:1dd4cfc30788	756	unsigned char numPoints= auxDataBuffer_index/2;
mbedalvaro	43:1dd4cfc30788	757	if (objectID!=-1) {
mbedalvaro	42:5f21a710ebc5	758
mbedalvaro	42:5f21a710ebc5	759	// First, create the object:
mbedalvaro	42:5f21a710ebc5	760	lsr.pushPoseMatrix();
mbedalvaro	42:5f21a710ebc5	761	lsr.setIdentityPose();
mbedalvaro	43:1dd4cfc30788	762	lsr.translate(xx,yy,0);
mbedalvaro	42:5f21a710ebc5	763
mbedalvaro	42:5f21a710ebc5	764	lsr.setColor(0x02); // we will render in current color
mbedalvaro	42:5f21a710ebc5	765
mbedalvaro	43:1dd4cfc30788	766	begin(objectID);
mbedalvaro	42:5f21a710ebc5	767	for (unsigned char i = 0; i < numPoints; i++) {
mbedalvaro	42:5f21a710ebc5	768	begin(i);
mbedalvaro	43:1dd4cfc30788	769	vertex(auxDataBuffer[2 * i], auxDataBuffer[2 * i + 1],0); // z=0 for 2d objects (in current pose)
mbedalvaro	42:5f21a710ebc5	770	//letter3d('A', fontWidth, fontHeight);
mbedalvaro	43:1dd4cfc30788	771	//vertex(10cos(2PI/numPointsi), 10sin(2PI/numPointsi), 0);
mbedalvaro	43:1dd4cfc30788	772	//vertex(5cos(2PI/numPointsi+.1), 5sin(2PI/numPointsi+.1), 0);
mbedalvaro	42:5f21a710ebc5	773	//pc.printf("local (x,y): %f, %f \n", auxDataBuffer[2 * i], auxDataBuffer[2 * i+1]);
mbedalvaro	42:5f21a710ebc5	774	// lsr.translate(1.1*fontWidth, 0, 0);
mbedalvaro	42:5f21a710ebc5	775	}
mbedalvaro	43:1dd4cfc30788	776	end();
mbedalvaro	42:5f21a710ebc5	777	lsr.popPoseMatrix();
mbedalvaro	42:5f21a710ebc5	778
mbedalvaro	42:5f21a710ebc5	779	// Set the global projection and modelview:
mbedalvaro	42:5f21a710ebc5	780	lsr.loadProjMatrix(K1, scaleFactorProjector1);
mbedalvaro	42:5f21a710ebc5	781	lsr.setIdentityPose();
mbedalvaro	42:5f21a710ebc5	782	lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	42:5f21a710ebc5	783	// DEFAULT position in CAMERA coordinates (calibration was in cm):
mbedalvaro	42:5f21a710ebc5	784	lsr.translate(0, 0, 130);
mbedalvaro	42:5f21a710ebc5	785
mbedalvaro	42:5f21a710ebc5	786	// RENDER the scene:
mbedalvaro	43:1dd4cfc30788	787	// update the scene for display
mbedalvaro	43:1dd4cfc30788	788	drawScene();
mbedalvaro	43:1dd4cfc30788	789	updateScene();
mbedalvaro	40:3ba2b0ea9f33	790	}
mbedalvaro	42:5f21a710ebc5	791	}
mbedalvaro	40:3ba2b0ea9f33	792
mbedalvaro	42:5f21a710ebc5	793	// This means we received 3D vertex data to create an object.
mbedalvaro	42:5f21a710ebc5	794	// It will be rendered in the CURRENT pose.
mbedalvaro	43:1dd4cfc30788	795	else if (command1 == "createObject3D") {
mbedalvaro	43:1dd4cfc30788	796	int objectID=data[1];
mbedalvaro	43:1dd4cfc30788	797	if (objectID!=-1) {
mbedalvaro	40:3ba2b0ea9f33	798	// Data is now ordered in the auxDataBuffer array in triplets (X,Y,Z).
mbedalvaro	40:3ba2b0ea9f33	799	// The present value of auxDataBuffer_index contains the number of points x 3
mbedalvaro	40:3ba2b0ea9f33	800	//lsr.pushPoseMatrix(); // we will render on the current pose
mbedalvaro	40:3ba2b0ea9f33	801	//clearScene();
mbedalvaro	40:3ba2b0ea9f33	802	//lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	803	//lsr.setColor(0x02); // we will render in current color
mbedalvaro	43:1dd4cfc30788	804	begin(objectID);
mbedalvaro	40:3ba2b0ea9f33	805	for (unsigned char i = 0; i < auxDataBuffer_index / 3; i++) {
mbedalvaro	40:3ba2b0ea9f33	806	vertex(auxDataBuffer[3 * i], auxDataBuffer[3 * i + 1],
mbedalvaro	40:3ba2b0ea9f33	807	auxDataBuffer[3 * i + 2]);
mbedalvaro	40:3ba2b0ea9f33	808	}
mbedalvaro	40:3ba2b0ea9f33	809	end();
mbedalvaro	40:3ba2b0ea9f33	810	updateScene();
mbedalvaro	40:3ba2b0ea9f33	811	// Set a default GLOBAL POSE and ORTHO projection matrix for start displaying, or use the CURRENT ONE (for that, we should have
mbedalvaro	40:3ba2b0ea9f33	812	// properly called lsr.pushPoseMatrix())
mbedalvaro	40:3ba2b0ea9f33	813	//lsr.setOrthoProjection();
mbedalvaro	40:3ba2b0ea9f33	814	//lsr.setIdentityPose(); // we could have done the translation here instead of in "local coordinates", but it's the same.
mbedalvaro	40:3ba2b0ea9f33	815	//lsr.popPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	816	drawScene();
mbedalvaro	40:3ba2b0ea9f33	817	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	40:3ba2b0ea9f33	818	}
mbedalvaro	42:5f21a710ebc5	819	}
mbedalvaro	43:1dd4cfc30788	820
mbedalvaro	43:1dd4cfc30788	821	else if (command1=="createText") {
mbedalvaro	43:1dd4cfc30788	822	receivedStringData[indexStringData] = 0; // termination for the string
mbedalvaro	43:1dd4cfc30788	823	indexStringData = 0;
mbedalvaro	43:1dd4cfc30788	824	// Serial.println(receivedStringData);
mbedalvaro	43:1dd4cfc30788	825	textToDisplay = string(receivedStringData);
mbedalvaro	43:1dd4cfc30788	826
mbedalvaro	43:1dd4cfc30788	827	if (firstTimeDisplay) {clearScene(); firstTimeDisplay=false;}
mbedalvaro	43:1dd4cfc30788	828
mbedalvaro	43:1dd4cfc30788	829	addText(textToDisplay, objectID, xx, yy);
mbedalvaro	43:1dd4cfc30788	830	drawScene();
mbedalvaro	43:1dd4cfc30788	831	updateScene();
mbedalvaro	43:1dd4cfc30788	832	}
mbedalvaro	42:5f21a710ebc5	833
mbedalvaro	42:5f21a710ebc5	834	// Create text:
mbedalvaro	43:1dd4cfc30788	835	else if (command1 == "createTextObject") {
mbedalvaro	40:3ba2b0ea9f33	836
mbedalvaro	43:1dd4cfc30788	837	if (objectID!=-1) {
mbedalvaro	42:5f21a710ebc5	838
mbedalvaro	42:5f21a710ebc5	839	// CREATE OBJECT:
mbedalvaro	42:5f21a710ebc5	840	lsr.pushPoseMatrix();
mbedalvaro	42:5f21a710ebc5	841	lsr.setIdentityPose(); // we could use a wrapper, but I won't for the time being.
mbedalvaro	42:5f21a710ebc5	842	lsr.flipY();
mbedalvaro	42:5f21a710ebc5	843	//lsr.flipX();
mbedalvaro	43:1dd4cfc30788	844	lsr.translate(xx,yy,0);
mbedalvaro	42:5f21a710ebc5	845
mbedalvaro	43:1dd4cfc30788	846	begin(objectID);
mbedalvaro	42:5f21a710ebc5	847	for (unsigned short i = 0; i < textToDisplay.length(); i++) {
mbedalvaro	42:5f21a710ebc5	848	char ch = textToDisplay.at(i);
mbedalvaro	42:5f21a710ebc5	849	if (ch != ' ') {
mbedalvaro	43:1dd4cfc30788	850	// begin(i);
mbedalvaro	42:5f21a710ebc5	851	letter3d(ch, fontWidth, fontHeight);
mbedalvaro	43:1dd4cfc30788	852	// end();
mbedalvaro	42:5f21a710ebc5	853	}
mbedalvaro	42:5f21a710ebc5	854	lsr.translate(1.1*fontWidth, 0, 0);
mbedalvaro	42:5f21a710ebc5	855	}
mbedalvaro	43:1dd4cfc30788	856	end();
mbedalvaro	42:5f21a710ebc5	857
mbedalvaro	42:5f21a710ebc5	858	lsr.popPoseMatrix();
mbedalvaro	42:5f21a710ebc5	859
mbedalvaro	42:5f21a710ebc5	860	// Set a default PERSPECTIVE and GLOBAL POSE for start displaying:
mbedalvaro	42:5f21a710ebc5	861	lsr.loadProjMatrix(K1, scaleFactorProjector1);
mbedalvaro	42:5f21a710ebc5	862	lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	863	lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	42:5f21a710ebc5	864	// DEFAULT position in CAMERA coordinates (calibration was in cm):
mbedalvaro	42:5f21a710ebc5	865	lsr.translate(0, 0, 130);
mbedalvaro	40:3ba2b0ea9f33	866
mbedalvaro	42:5f21a710ebc5	867	drawScene(); // this will be called when we change the pose matrix - but needs to be called at least once to start displaying
mbedalvaro	43:1dd4cfc30788	868	updateScene();
mbedalvaro	40:3ba2b0ea9f33	869	}
mbedalvaro	42:5f21a710ebc5	870	}
mbedalvaro	42:5f21a710ebc5	871
mbedalvaro	40:3ba2b0ea9f33	872
mbedalvaro	42:5f21a710ebc5	873	// (d) TERMINATOR indicating data was for the POSE MATRIX of the object (Mp) (with respect to the CAMERA):
mbedalvaro	43:1dd4cfc30788	874	else if (command1 == "poseMatrix") { // when receiving this, it means that the WHOLE matrix data (4x4 values) have been sent in row/column format
mbedalvaro	42:5f21a710ebc5	875	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer'
mbedalvaro	42:5f21a710ebc5	876	// Now, auxDataBuffer is a buffer with 12 values (4x3), corresponding to the pose of the object in CAMERA coordinartes (RT')
mbedalvaro	42:5f21a710ebc5	877	lsr.setIdentityPose(); // RT=ID
mbedalvaro	42:5f21a710ebc5	878	lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	42:5f21a710ebc5	879	lsr.multPoseMatrix(auxDataBuffer); // RT=ExRT' : this sets RT as the current object pose in PROJECTOR coordinates
mbedalvaro	40:3ba2b0ea9f33	880
mbedalvaro	42:5f21a710ebc5	881	drawScene(); // needed because we changed the POSE (but there is no need to re-create the geometry nor update the renderer (updateScene), just project)
mbedalvaro	42:5f21a710ebc5	882	}
mbedalvaro	40:3ba2b0ea9f33	883
mbedalvaro	42:5f21a710ebc5	884	// (d) TERMINATOR indicating data was for the projection matrix (will probably be saved in "hard" in the microcontroller code):
mbedalvaro	43:1dd4cfc30788	885	else if (command1 == "projectionMatrix") {// when receiving this character, it means that the WHOLE matrix data (3x3 values) have been sent (with '#' separator), in row/column format
mbedalvaro	42:5f21a710ebc5	886	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	42:5f21a710ebc5	887	// store in projection matrix:
mbedalvaro	42:5f21a710ebc5	888	lsr.loadProjMatrix(auxDataBuffer, 1.0);
mbedalvaro	42:5f21a710ebc5	889
mbedalvaro	42:5f21a710ebc5	890	drawScene(); // needed because we changed the PROJECTION matrix (but there is no need to re-create all the geometry, just project)
mbedalvaro	42:5f21a710ebc5	891	}
mbedalvaro	40:3ba2b0ea9f33	892
mbedalvaro	42:5f21a710ebc5	893	//(e) TERMINATOR indicating the data was for the extrinsic matrix:
mbedalvaro	43:1dd4cfc30788	894	else if (command1 == "extrinsicMatrix") { // when receiving this character, it means that the WHOLE matrix data (3x3 values) have been sent (with '#' separator), in row/column format
mbedalvaro	42:5f21a710ebc5	895	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	42:5f21a710ebc5	896	// store in projection matrix:
mbedalvaro	42:5f21a710ebc5	897	lsr.loadExtrinsicsMatrix(auxDataBuffer);
mbedalvaro	42:5f21a710ebc5	898
mbedalvaro	42:5f21a710ebc5	899	drawScene(); // needed because we changed the EXTRINSICS (hence the pose), but there is no need to re-create the geometry, just project.
mbedalvaro	42:5f21a710ebc5	900	}
mbedalvaro	40:3ba2b0ea9f33	901	}
mbedalvaro	40:3ba2b0ea9f33	902
mbedalvaro	40:3ba2b0ea9f33	903	void processSerial()
mbedalvaro	40:3ba2b0ea9f33	904	{
mbedalvaro	40:3ba2b0ea9f33	905	while (pc.readable() > 0) {
mbedalvaro	40:3ba2b0ea9f33	906	char incomingByte = pc.getc();
mbedalvaro	40:3ba2b0ea9f33	907
mbedalvaro	40:3ba2b0ea9f33	908	// For test:
mbedalvaro	40:3ba2b0ea9f33	909	// pc.putc(incomingByte);
mbedalvaro	40:3ba2b0ea9f33	910
mbedalvaro	40:3ba2b0ea9f33	911	// (a) TEXT to display or NUMBERS (in ASCII) to convert to numerical value (rem: limited set of characters for the time being):
mbedalvaro	40:3ba2b0ea9f33	912	// Note: numbers are float, so we need also the "." and "-"
mbedalvaro	40:3ba2b0ea9f33	913	if ( (incomingByte >= '0' && incomingByte <= '9') // numbers
mbedalvaro	42:5f21a710ebc5	914	\|\| (incomingByte >= 'A' && incomingByte <= 'Z') // capital letters
mbedalvaro	42:5f21a710ebc5	915	\|\| (incomingByte >= 'a' && incomingByte <= 'z') // small letters (in fact, will be used for other symbols)
mbedalvaro	42:5f21a710ebc5	916	\|\| (incomingByte == ' ') // space
mbedalvaro	42:5f21a710ebc5	917	\|\| (incomingByte == '-') // minus sign
mbedalvaro	42:5f21a710ebc5	918	\|\| (incomingByte == '.') // decimal point
mbedalvaro	42:5f21a710ebc5	919	) {
mbedalvaro	40:3ba2b0ea9f33	920	receivedStringData[indexStringData] = incomingByte;
mbedalvaro	40:3ba2b0ea9f33	921	indexStringData++;
mbedalvaro	40:3ba2b0ea9f33	922	}
mbedalvaro	40:3ba2b0ea9f33	923
mbedalvaro	43:1dd4cfc30788	924	// (b) a NUMBER to convert to float and to add to the auxiliary data buffer:
mbedalvaro	43:1dd4cfc30788	925	else if (incomingByte == '#') { // this means that we received a whole number to convert to float (but we don't know yet if it's for
mbedalvaro	43:1dd4cfc30788	926	// the modelview, the projection matrix or some other data):
mbedalvaro	43:1dd4cfc30788	927	receivedStringData[indexStringData] = 0;
mbedalvaro	43:1dd4cfc30788	928	indexStringData = 0;
mbedalvaro	43:1dd4cfc30788	929	// Serial.println(receivedStringData); // for tests
mbedalvaro	43:1dd4cfc30788	930	// convert to float and store in auxiliary "matrix" array:
mbedalvaro	43:1dd4cfc30788	931	auxDataBuffer[auxDataBuffer_index] = atof(receivedStringData);
mbedalvaro	43:1dd4cfc30788	932	//Serial.println( auxDataBuffer[auxDataBuffer_index]); // for tests
mbedalvaro	43:1dd4cfc30788	933	auxDataBuffer_index++;
mbedalvaro	43:1dd4cfc30788	934	}
mbedalvaro	43:1dd4cfc30788	935
mbedalvaro	40:3ba2b0ea9f33	936	// Enable/disable projection:
mbedalvaro	40:3ba2b0ea9f33	937	else if (incomingByte == '}') {
mbedalvaro	40:3ba2b0ea9f33	938	stopDisplay();
mbedalvaro	40:3ba2b0ea9f33	939	} else if (incomingByte == '{') {
mbedalvaro	40:3ba2b0ea9f33	940	resumeDisplay();
mbedalvaro	40:3ba2b0ea9f33	941	}
mbedalvaro	40:3ba2b0ea9f33	942
mbedalvaro	40:3ba2b0ea9f33	943	// Show maximum excursion of mirrors:
mbedalvaro	40:3ba2b0ea9f33	944	else if (incomingByte == '*') {
mbedalvaro	43:1dd4cfc30788	945	showLimitsMirrors(50, 1);
mbedalvaro	40:3ba2b0ea9f33	946	}
mbedalvaro	42:5f21a710ebc5	947
mbedalvaro	43:1dd4cfc30788	948	else if (incomingByte=='_') {
mbedalvaro	43:1dd4cfc30788	949	clearScene();
mbedalvaro	43:1dd4cfc30788	950	}
mbedalvaro	40:3ba2b0ea9f33	951
mbedalvaro	40:3ba2b0ea9f33	952	else if (incomingByte == '+') {
mbedalvaro	40:3ba2b0ea9f33	953	receivedStringData[indexStringData] = 0;
mbedalvaro	40:3ba2b0ea9f33	954	indexStringData = 0;
mbedalvaro	40:3ba2b0ea9f33	955	switch(atoi(receivedStringData)) {
mbedalvaro	40:3ba2b0ea9f33	956	case 0:
mbedalvaro	40:3ba2b0ea9f33	957	currentSensingMode=NO_SENSING;
mbedalvaro	40:3ba2b0ea9f33	958	break;
mbedalvaro	40:3ba2b0ea9f33	959	case 1:
mbedalvaro	40:3ba2b0ea9f33	960	currentSensingMode=SENSING_WHOLE_SCENE;
mbedalvaro	40:3ba2b0ea9f33	961	break;
mbedalvaro	40:3ba2b0ea9f33	962	case 2:
mbedalvaro	40:3ba2b0ea9f33	963	currentSensingMode=SENSING_PER_OBJECT;
mbedalvaro	40:3ba2b0ea9f33	964	break;
mbedalvaro	40:3ba2b0ea9f33	965	default:
mbedalvaro	40:3ba2b0ea9f33	966	break;
mbedalvaro	40:3ba2b0ea9f33	967	}
mbedalvaro	40:3ba2b0ea9f33	968	}
mbedalvaro	40:3ba2b0ea9f33	969
mbedalvaro	40:3ba2b0ea9f33	970	// Performs a scan of the surface and send all the data serially (N>, with N the resolution of the scan)
mbedalvaro	40:3ba2b0ea9f33	971	else if (incomingByte == '>') {
mbedalvaro	40:3ba2b0ea9f33	972	receivedStringData[indexStringData] = 0;
mbedalvaro	40:3ba2b0ea9f33	973	indexStringData = 0;
mbedalvaro	40:3ba2b0ea9f33	974	//pc.printf("scan command issued¥n");
mbedalvaro	40:3ba2b0ea9f33	975	scanSerial(atoi(receivedStringData));
mbedalvaro	40:3ba2b0ea9f33	976	}
mbedalvaro	40:3ba2b0ea9f33	977
mbedalvaro	40:3ba2b0ea9f33	978	// Recompute the LUT table
mbedalvaro	40:3ba2b0ea9f33	979	else if (incomingByte == '<') {
mbedalvaro	40:3ba2b0ea9f33	980	recomputeLookUpTable();
mbedalvaro	40:3ba2b0ea9f33	981	}
mbedalvaro	40:3ba2b0ea9f33	982
mbedalvaro	40:3ba2b0ea9f33	983	// Change state machine color (objects created from this point on will have the state machine color)
mbedalvaro	40:3ba2b0ea9f33	984	else if (incomingByte == '(') { // example: 0( (all OFF), 1( blue ON, 2( green ON, 4( red ON, 3( blue and green ON; etc.
mbedalvaro	40:3ba2b0ea9f33	985	receivedStringData[indexStringData] = 0;
mbedalvaro	40:3ba2b0ea9f33	986	indexStringData = 0;
mbedalvaro	40:3ba2b0ea9f33	987	// convert to integer and set the state machine color:
mbedalvaro	40:3ba2b0ea9f33	988	lsr.setColor(atoi(receivedStringData));
mbedalvaro	40:3ba2b0ea9f33	989	}
mbedalvaro	40:3ba2b0ea9f33	990
mbedalvaro	40:3ba2b0ea9f33	991	// Real time change of color of ALL the objects in the CURRENT scene (state machine color not changed)
mbedalvaro	40:3ba2b0ea9f33	992	else if (incomingByte == ')') { // example: 0) (all OFF), 1) blue ON, 2) green ON, 4) red ON, 3) blue and green ON; etc.
mbedalvaro	40:3ba2b0ea9f33	993	receivedStringData[indexStringData] = 0;
mbedalvaro	40:3ba2b0ea9f33	994	indexStringData = 0;
mbedalvaro	40:3ba2b0ea9f33	995	// convert to integer and set the color:
mbedalvaro	40:3ba2b0ea9f33	996	changeColorScene(atoi(receivedStringData));
mbedalvaro	40:3ba2b0ea9f33	997	}
mbedalvaro	40:3ba2b0ea9f33	998
mbedalvaro	40:3ba2b0ea9f33	999
mbedalvaro	40:3ba2b0ea9f33	1000	// Produce a grid of points. The projection is ORTHOGRAPHIC. Also, POSE is reset to identity (i.e., the sent points should have
mbedalvaro	40:3ba2b0ea9f33	1001	// been translated previously - this may be optional, we could first send the pose, then the points...)
mbedalvaro	40:3ba2b0ea9f33	1002	// Note: orthographic projection can be achieved by simply setting the projection matrix to ID, while
mbedalvaro	40:3ba2b0ea9f33	1003	// setting Z to 1, or by setting the projection matrix to a unit diagonal but the last term in the diagonal is set to 0.
mbedalvaro	40:3ba2b0ea9f33	1004	// Finally, if one wants to avoid an unnecessary matrix product, the laserRendering class provides a renderingMode that can be set to RAW.
mbedalvaro	40:3ba2b0ea9f33	1005	// NOTE: the following string of ASCII characters is assumed to have been input:
mbedalvaro	40:3ba2b0ea9f33	1006	// posX#posY#sizeX#sizeY#nx#ny#:
mbedalvaro	40:3ba2b0ea9f33	1007	// where the names (ex: posX) is in fact an ASCII string representing the number in decimal base. This means that when we arrive here,
mbedalvaro	40:3ba2b0ea9f33	1008	// the auxiliary array auxDataBuffer contains all that data (as floats), ex: auxDataBuffer[0] is just posX, and auxDataBuffer[5] is ny
mbedalvaro	40:3ba2b0ea9f33	1009	else if (incomingByte == ':') {
mbedalvaro	40:3ba2b0ea9f33	1010	// Data is now ordered in the auxDataBuffer array:
mbedalvaro	40:3ba2b0ea9f33	1011	float posX = auxDataBuffer[0], posY = auxDataBuffer[1], sizeX = auxDataBuffer[2], sizeY = auxDataBuffer[3], nx = auxDataBuffer[4], ny = auxDataBuffer[5];
mbedalvaro	40:3ba2b0ea9f33	1012	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	40:3ba2b0ea9f33	1013	clearScene();
mbedalvaro	40:3ba2b0ea9f33	1014	// set color:
mbedalvaro	40:3ba2b0ea9f33	1015	lsr.setColor(0x02); // green
mbedalvaro	40:3ba2b0ea9f33	1016	//IO.setLaserLockinPower(0); // DISABLING SENSING LASER! (here the red). This is FOR CALIBRATION laser-camera
mbedalvaro	42:5f21a710ebc5	1017
mbedalvaro	40:3ba2b0ea9f33	1018	// set local pose matrix to identity:
mbedalvaro	40:3ba2b0ea9f33	1019	lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	1020	// translate to the required position:
mbedalvaro	40:3ba2b0ea9f33	1021	lsr.translate(posX, posY, 0); // since the projection and pose are going to be set
mbedalvaro	40:3ba2b0ea9f33	1022	// to Identity (projection identity will automatically make the projection orthographic), this means that these
mbedalvaro	40:3ba2b0ea9f33	1023	// values are in "laser projector pixels" (in fact angles).
mbedalvaro	40:3ba2b0ea9f33	1024	// Create the collection of dot objects:
mbedalvaro	40:3ba2b0ea9f33	1025	// void grid(float sizeX, float sizeY, int nx, int ny, int repeatpoint);
mbedalvaro	40:3ba2b0ea9f33	1026	grid(sizeX, sizeY, nx, ny, 1);
mbedalvaro	40:3ba2b0ea9f33	1027	updateScene(); // this is important: this will compute the number of objects, points, etc, to prepare the displaying engine (but rendering is NOT yet done,
mbedalvaro	40:3ba2b0ea9f33	1028	// rendering is done in the drawScene() function.
mbedalvaro	40:3ba2b0ea9f33	1029
mbedalvaro	40:3ba2b0ea9f33	1030	// Now we can render the scene once:
mbedalvaro	40:3ba2b0ea9f33	1031	// Set a default GLOBAL POSE and orthographic projection for rendering and start displaying:
mbedalvaro	40:3ba2b0ea9f33	1032	lsr.setOrthoProjection();
mbedalvaro	40:3ba2b0ea9f33	1033	lsr.setIdentityPose(); // we could have done the translation here instead of in "local coordinates", but it's the same.
mbedalvaro	40:3ba2b0ea9f33	1034	drawScene(); // this will be called when we change the pose matrix - but needs to be called at least one to start displaying
mbedalvaro	40:3ba2b0ea9f33	1035	}
mbedalvaro	40:3ba2b0ea9f33	1036	// NOTE: now that the grid is set, we don't need to do it again when changing the pose: JUST SEND THE POSE MATRIX and things will be re-rendered!
mbedalvaro	40:3ba2b0ea9f33	1037
mbedalvaro	40:3ba2b0ea9f33	1038	// This means we received "2D" vertex data (z assumed 0) to create a single scene out of these points (we will create a single object)
mbedalvaro	40:3ba2b0ea9f33	1039	// using orthographic projection.
mbedalvaro	40:3ba2b0ea9f33	1040	// This is in particular useful to create "structured light" grids - such the grid of planar points for calibration.
mbedalvaro	40:3ba2b0ea9f33	1041	// In the future, we can have functions to add objects, etc. Basically, every wrapped function should be call-able by the PC.
mbedalvaro	40:3ba2b0ea9f33	1042	// NOTE: the POSE is reset to ID, but we could use the current pose (i.e., send it first by the computer). But for the time being, and in order to modify the
mbedalvaro	40:3ba2b0ea9f33	1043	// cameraProjectorCalibration Xcode project as little as possible, I will perform the transformations on the computer.
mbedalvaro	43:1dd4cfc30788	1044	else if (incomingByte == '@') { // ID of the object
mbedalvaro	43:1dd4cfc30788	1045	command1="objectID";
mbedalvaro	43:1dd4cfc30788	1046	interpretCommand();
mbedalvaro	43:1dd4cfc30788	1047	}
mbedalvaro	43:1dd4cfc30788	1048
mbedalvaro	43:1dd4cfc30788	1049	else if (incomingByte == '~') { // this is for setting the POSITION of the object to be created:
mbedalvaro	43:1dd4cfc30788	1050	command1="initialPosition";
mbedalvaro	43:1dd4cfc30788	1051	interpretCommand();
mbedalvaro	43:1dd4cfc30788	1052
mbedalvaro	43:1dd4cfc30788	1053	}
mbedalvaro	43:1dd4cfc30788	1054
mbedalvaro	43:1dd4cfc30788	1055
mbedalvaro	43:1dd4cfc30788	1056	else if (incomingByte == '=') { // Create 2d object:
mbedalvaro	43:1dd4cfc30788	1057	command1 = "createObject2D";
mbedalvaro	43:1dd4cfc30788	1058	interpretCommand();
mbedalvaro	40:3ba2b0ea9f33	1059	}
mbedalvaro	40:3ba2b0ea9f33	1060
mbedalvaro	40:3ba2b0ea9f33	1061	// This means we received 3D vertex data to create a single scene out of these points (we will create a single object).
mbedalvaro	40:3ba2b0ea9f33	1062	// It will be rendered in the CURRENT pose.
mbedalvaro	40:3ba2b0ea9f33	1063	else if (incomingByte == ';') {
mbedalvaro	40:3ba2b0ea9f33	1064	// Data is now ordered in the auxDataBuffer array in triplets (X,Y,Z).
mbedalvaro	40:3ba2b0ea9f33	1065	// The present value of auxDataBuffer_index contains the number of points x 3
mbedalvaro	40:3ba2b0ea9f33	1066	lsr.pushPoseMatrix(); // we will render on the current pose...
mbedalvaro	40:3ba2b0ea9f33	1067	clearScene();
mbedalvaro	40:3ba2b0ea9f33	1068	lsr.setIdentityPose();
mbedalvaro	40:3ba2b0ea9f33	1069	//lsr.setColor(0x02);
mbedalvaro	40:3ba2b0ea9f33	1070	begin(1);
mbedalvaro	40:3ba2b0ea9f33	1071	for (unsigned char i = 0; i < auxDataBuffer_index / 3; i++) {
mbedalvaro	40:3ba2b0ea9f33	1072	vertex(auxDataBuffer[3 * i], auxDataBuffer[3 * i + 1],
mbedalvaro	40:3ba2b0ea9f33	1073	auxDataBuffer[3 * i + 2]);
mbedalvaro	40:3ba2b0ea9f33	1074	}
mbedalvaro	40:3ba2b0ea9f33	1075	end();
mbedalvaro	40:3ba2b0ea9f33	1076	updateScene();
mbedalvaro	40:3ba2b0ea9f33	1077	// Set a default GLOBAL POSE and ORTHO projection matrix for start displaying, or use the CURRENT ONE (for that, we should have
mbedalvaro	40:3ba2b0ea9f33	1078	// properly called lsr.pushPoseMatrix())
mbedalvaro	40:3ba2b0ea9f33	1079	//lsr.setOrthoProjection();
mbedalvaro	40:3ba2b0ea9f33	1080	//lsr.setIdentityPose(); // we could have done the translation here instead of in "local coordinates", but it's the same.
mbedalvaro	40:3ba2b0ea9f33	1081	lsr.popPoseMatrix();
mbedalvaro	40:3ba2b0ea9f33	1082	drawScene();
mbedalvaro	40:3ba2b0ea9f33	1083	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	40:3ba2b0ea9f33	1084	}
mbedalvaro	40:3ba2b0ea9f33	1085
mbedalvaro	40:3ba2b0ea9f33	1086
mbedalvaro	40:3ba2b0ea9f33	1087	/*
mbedalvaro	40:3ba2b0ea9f33	1088	else if (incomingByte=='!') { // sets the width of the letter
mbedalvaro	40:3ba2b0ea9f33	1089	receivedStringData[indexStringData]=0;
mbedalvaro	40:3ba2b0ea9f33	1090	indexStringData=0;
mbedalvaro	40:3ba2b0ea9f33	1091	fontWidth=atof(receivedStringData);
mbedalvaro	40:3ba2b0ea9f33	1092	createTextScene(); // needed because we changed the geometry
mbedalvaro	40:3ba2b0ea9f33	1093	}
mbedalvaro	40:3ba2b0ea9f33	1094
mbedalvaro	40:3ba2b0ea9f33	1095	else if (incomingByte=='"') { // sets the height of the letter
mbedalvaro	40:3ba2b0ea9f33	1096	receivedStringData[indexStringData]=0;
mbedalvaro	40:3ba2b0ea9f33	1097	indexStringData=0;
mbedalvaro	40:3ba2b0ea9f33	1098	fontHeight=atof(receivedStringData);
mbedalvaro	40:3ba2b0ea9f33	1099	createTextScene(); // needed because we changed the geometry
mbedalvaro	40:3ba2b0ea9f33	1100	}
mbedalvaro	40:3ba2b0ea9f33	1101	*/
mbedalvaro	40:3ba2b0ea9f33	1102
mbedalvaro	40:3ba2b0ea9f33	1103	// (c) TERMINATOR indicating the data was text to display:
mbedalvaro	40:3ba2b0ea9f33	1104	else if (incomingByte == '"') { // this means that the previous data was TEXT to display
mbedalvaro	43:1dd4cfc30788	1105	command1="createText";
mbedalvaro	43:1dd4cfc30788	1106	interpretCommand();
mbedalvaro	43:1dd4cfc30788	1107	}
mbedalvaro	40:3ba2b0ea9f33	1108
mbedalvaro	40:3ba2b0ea9f33	1109	// (d) TERMINATOR indicating data was for the POSE MATRIX of the object (Mp) (with respect to the CAMERA):
mbedalvaro	40:3ba2b0ea9f33	1110	else if (incomingByte == '$') { // when receiving this character, it means that the WHOLE matrix data (4x4 values) have been sent (with '#' separator), in row/column format
mbedalvaro	40:3ba2b0ea9f33	1111	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	40:3ba2b0ea9f33	1112	// Now, auxDataBuffer is a buffer with 12 values (4x3), corresponding to the pose of the object in CAMERA coordinartes (RT')
mbedalvaro	40:3ba2b0ea9f33	1113	lsr.setIdentityPose(); // RT=ID
mbedalvaro	40:3ba2b0ea9f33	1114	lsr.multPoseMatrix(lsr.EXTRINSICS); // RT=E // we can simply do: lsr.setExtrinsicsPose()
mbedalvaro	40:3ba2b0ea9f33	1115	lsr.multPoseMatrix(auxDataBuffer); // RT=ExRT' : this sets RT as the current object pose in PROJECTOR coordinates
mbedalvaro	40:3ba2b0ea9f33	1116
mbedalvaro	40:3ba2b0ea9f33	1117	drawScene(); // needed because we changed the POSE (but there is no need to re-create the geometry, just project)
mbedalvaro	40:3ba2b0ea9f33	1118
mbedalvaro	40:3ba2b0ea9f33	1119	// Handshake:
mbedalvaro	40:3ba2b0ea9f33	1120	pc.putc(13);
mbedalvaro	40:3ba2b0ea9f33	1121	}
mbedalvaro	40:3ba2b0ea9f33	1122
mbedalvaro	40:3ba2b0ea9f33	1123	// (d) TERMINATOR indicating data was for the projection matrix (will probably be saved in "hard" in the microcontroller code):
mbedalvaro	40:3ba2b0ea9f33	1124	else if (incomingByte == '%') { // when receiving this character, it means that the WHOLE matrix data (3x3 values) have been sent (with '#' separator), in row/column format
mbedalvaro	40:3ba2b0ea9f33	1125	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	40:3ba2b0ea9f33	1126	// store in projection matrix:
mbedalvaro	40:3ba2b0ea9f33	1127	lsr.loadProjMatrix(auxDataBuffer, 1.0);
mbedalvaro	40:3ba2b0ea9f33	1128
mbedalvaro	40:3ba2b0ea9f33	1129	drawScene(); // needed because we changed the PROJECTION matrix (but there is no need to re-create all the geometry, just project)
mbedalvaro	40:3ba2b0ea9f33	1130	}
mbedalvaro	40:3ba2b0ea9f33	1131
mbedalvaro	40:3ba2b0ea9f33	1132	//(e) TERMINATOR indicating the data was for the extrinsic matrix:
mbedalvaro	40:3ba2b0ea9f33	1133	else if (incomingByte == '&') { // when receiving this character, it means that the WHOLE matrix data (3x3 values) have been sent (with '#' separator), in row/column format
mbedalvaro	40:3ba2b0ea9f33	1134	auxDataBuffer_index = 0; // to restart loading the auxiliary buffer 'auxDataBuffer' through serial port
mbedalvaro	40:3ba2b0ea9f33	1135	// store in projection matrix:
mbedalvaro	40:3ba2b0ea9f33	1136	lsr.loadExtrinsicsMatrix(auxDataBuffer);
mbedalvaro	40:3ba2b0ea9f33	1137
mbedalvaro	40:3ba2b0ea9f33	1138	drawScene(); // needed because we changed the EXTRINSICS (hence the pose), but there is no need to re-create the geometry, just project.
mbedalvaro	40:3ba2b0ea9f33	1139	}
mbedalvaro	40:3ba2b0ea9f33	1140
mbedalvaro	40:3ba2b0ea9f33	1141	}
mbedalvaro	40:3ba2b0ea9f33	1142	}

Repository toolbox

Export to desktop IDE

Build repository

Repository details

Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	18 Oct 2013
Imports:	6
Forks:	0
Commits:	48
Dependents:	0
Dependencies:	1
Followers:	1

The code in this repository is Apache licensed.

main.cpp@44:2432c218f191, 2013-10-30 (annotated)

Who changed what in which revision?

Repository toolbox

Repository details

Important Information for this Arm website

Access Warning