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source: Dev/trunk/src/client/dojox/math/matrix.js

Last change on this file was 483, checked in by hendrikvanantwerpen, 11 years ago
Added Dojo 1.9.3 release.
File size: 7.1 KB

Rev	Line
[483]	1	// AMD-ID "dojox/math/matrix"
	2	define(["dojo", "dojox"], function(dojo, dojox) {
	3	dojo.getObject("math.matrix", true, dojox);
	4
	5	dojo.mixin(dojox.math.matrix, {
	6	iDF:0,
	7	ALMOST_ZERO: 1e-10,
	8	multiply: function(/* Array /a, / Array */b){
	9	// summary:
	10	// Multiply matrix a by matrix b.
	11	var ay=a.length, ax=a[0].length, by=b.length, bx=b[0].length;
	12	if(ax!=by){
	13	console.warn("Can't multiply matricies of sizes " + ax + "," + ay + " and " + bx + "," + by);
	14	return [[0]];
	15	}
	16	var c=[];
	17	for (var k=0; k<ay; k++) {
	18	c[k]=[];
	19	for(var i=0; i<bx; i++){
	20	c[k][i]=0;
	21	for(var m=0; m<ax; m++){
	22	c[k][i]+=a[k][m]*b[m][i];
	23	}
	24	}
	25	}
	26	return c; // Array
	27	},
	28	product: function(/* Array... */){
	29	// summary:
	30	// Return the product of N matrices
	31	if (arguments.length==0){
	32	console.warn("can't multiply 0 matrices!");
	33	return 1;
	34	}
	35	var m=arguments[0];
	36	for(var i=1; i<arguments.length; i++){
	37	m=this.multiply(m, arguments[i]);
	38	}
	39	return m; // Array
	40	},
	41	sum: function(/* Array... */){
	42	// summary:
	43	// Return the sum of N matrices
	44	if(arguments.length==0){
	45	console.warn("can't sum 0 matrices!");
	46	return 0; // Number
	47	}
	48	var m=this.copy(arguments[0]);
	49	var rows=m.length;
	50	if(rows==0){
	51	console.warn("can't deal with matrices of 0 rows!");
	52	return 0;
	53	}
	54	var cols=m[0].length;
	55	if(cols==0){
	56	console.warn("can't deal with matrices of 0 cols!");
	57	return 0;
	58	}
	59	for(var i=1; i<arguments.length; ++i){
	60	var arg=arguments[i];
	61	if(arg.length!=rows \|\| arg[0].length!=cols){
	62	console.warn("can't add matrices of different dimensions: first dimensions were " + rows + "x" + cols + ", current dimensions are " + arg.length + "x" + arg[0].length);
	63	return 0;
	64	}
	65	for(var r=0; r<rows; r++) {
	66	for(var c=0; c<cols; c++) {
	67	m[r][c]+=arg[r][c];
	68	}
	69	}
	70	}
	71	return m; // Array
	72	},
	73	inverse: function(/* Array */a){
	74	// summary:
	75	// Return the inversion of the passed matrix
	76	if(a.length==1 && a[0].length==1){
	77	return [[1/a[0][0]]]; // Array
	78	}
	79	var tms=a.length, m=this.create(tms, tms), mm=this.adjoint(a), det=this.determinant(a), dd=0;
	80	if(det==0){
	81	console.warn("Determinant Equals 0, Not Invertible.");
	82	return [[0]];
	83	}else{
	84	dd=1/det;
	85	}
	86	for(var i=0; i<tms; i++) {
	87	for (var j=0; j<tms; j++) {
	88	m[i][j]=dd*mm[i][j];
	89	}
	90	}
	91	return m; // Array
	92	},
	93	determinant: function(/* Array */a){
	94	// summary:
	95	// Calculate the determinant of the passed square matrix.
	96	if(a.length!=a[0].length){
	97	console.warn("Can't calculate the determinant of a non-squre matrix!");
	98	return 0;
	99	}
	100	var tms=a.length, det=1, b=this.upperTriangle(a);
	101	for (var i=0; i<tms; i++){
	102	var bii=b[i][i];
	103	if (Math.abs(bii)<this.ALMOST_ZERO) {
	104	return 0; // Number
	105	}
	106	det*=bii;
	107	}
	108	det*=this.iDF;
	109	return det; // Number
	110	},
	111	upperTriangle: function(/* Array */m){
	112	// summary:
	113	// Find the upper triangle of the passed matrix and return it.
	114	m=this.copy(m);
	115	var f1=0, temp=0, tms=m.length, v=1;
	116	this.iDF=1;
	117	for(var col=0; col<tms-1; col++){
	118	if(typeof m[col][col]!="number") {
	119	console.warn("non-numeric entry found in a numeric matrix: m[" + col + "][" + col + "]=" + m[col][col]);
	120	}
	121	v=1;
	122	var stop_loop=0;
	123	while((m[col][col] == 0) && !stop_loop){
	124	if (col+v>=tms){
	125	this.iDF=0;
	126	stop_loop=1;
	127	}else{
	128	for(var r=0; r<tms; r++){
	129	temp=m[col][r];
	130	m[col][r]=m[col+v][r];
	131	m[col+v][r]=temp;
	132	}
	133	v++;
	134	this.iDF*=-1;
	135	}
	136	}
	137	for(var row=col+1; row<tms; row++){
	138	if(typeof m[row][col]!="number"){
	139	console.warn("non-numeric entry found in a numeric matrix: m[" + row + "][" + col + "]=" + m[row][col]);
	140	}
	141	if(typeof m[col][row]!="number"){
	142	console.warn("non-numeric entry found in a numeric matrix: m[" + col + "][" + row + "]=" + m[col][row]);
	143	}
	144	if(m[col][col]!=0){
	145	var f1=(-1)* m[row][col]/m[col][col];
	146	for (var i=col; i<tms; i++){
	147	m[row][i]=f1*m[col][i]+m[row][i];
	148	}
	149	}
	150	}
	151	}
	152	return m; // Array
	153	},
	154	create: function(/* Number /a, / Number /b, / Number? */value){
	155	// summary:
	156	// Create a new matrix with rows a and cols b, and pre-populate with value.
	157	value=value\|\|0;
	158	var m=[];
	159	for (var i=0; i<b; i++){
	160	m[i]=[];
	161	for(var j=0; j<a; j++) {
	162	m[i][j]=value;
	163	}
	164	}
	165	return m; // Array
	166	},
	167	ones: function(/* Number /a, / Number */b){
	168	// summary:
	169	// Create a matrix pre-populated with ones
	170	return this.create(a, b, 1); // Array
	171	},
	172	zeros: function(/* Number /a, / Number */b){
	173	// summary:
	174	// Create a matrix pre-populated with zeros
	175	return this.create(a, b); // Array
	176	},
	177	identity: function(/* Number /size, / Number? */scale){
	178	// summary:
	179	// Create an identity matrix based on the size and scale.
	180	scale=scale\|\|1;
	181	var m=[];
	182	for(var i=0; i<size; i++){
	183	m[i]=[];
	184	for(var j=0; j<size; j++){
	185	m[i][j]=(i==j?scale:0);
	186	}
	187	}
	188	return m; // Array
	189	},
	190	adjoint: function(/* Array */a){
	191	// summary:
	192	// Find the adjoint of the passed matrix
	193	var tms=a.length;
	194	if(tms<=1){
	195	console.warn("Can't find the adjoint of a matrix with a dimension less than 2");
	196	return [[0]];
	197	}
	198	if(a.length!=a[0].length){
	199	console.warn("Can't find the adjoint of a non-square matrix");
	200	return [[0]];
	201	}
	202	var m=this.create(tms, tms), ap=this.create(tms-1, tms-1);
	203	var ii=0, jj=0, ia=0, ja=0, det=0;
	204	for(var i=0; i<tms; i++){
	205	for (var j=0; j<tms; j++){
	206	ia=0;
	207	for(ii=0; ii<tms; ii++){
	208	if(ii==i){
	209	continue;
	210	}
	211	ja = 0;
	212	for(jj=0; jj<tms; jj++){
	213	if(jj==j){
	214	continue;
	215	}
	216	ap[ia][ja] = a[ii][jj];
	217	ja++;
	218	}
	219	ia++;
	220	}
	221	det=this.determinant(ap);
	222	m[i][j]=Math.pow(-1, (i+j))*det;
	223	}
	224	}
	225	return this.transpose(m); // Array
	226	},
	227	transpose: function(/* Array */a){
	228	// summary:
	229	// Transpose the passed matrix (i.e. rows to columns)
	230	var m=this.create(a.length, a[0].length);
	231	for(var i=0; i<a.length; i++){
	232	for(var j=0; j<a[i].length; j++){
	233	m[j][i]=a[i][j];
	234	}
	235	}
	236	return m; // Array
	237	},
	238	format: function(/* Array /a, / Number? */points){
	239	// summary:
	240	// Return a string representation of the matrix, rounded to points (if needed)
	241	points=points\|\|5;
	242	function format_int(x, dp){
	243	var fac=Math.pow(10, dp);
	244	var a=Math.round(x*fac)/fac;
	245	var b=a.toString();
	246	if(b.charAt(0)!="-"){
	247	b=" "+b;
	248	}
	249	if(b.indexOf(".")>-1){
	250	b+=".";
	251	}
	252	while(b.length<dp+3){
	253	b+="0";
	254	}
	255	return b;
	256	}
	257	var ya=a.length;
	258	var xa=ya>0?a[0].length:0;
	259	var buffer="";
	260	for(var y=0; y<ya; y++){
	261	buffer+="\| ";
	262	for(var x=0; x<xa; x++){
	263	buffer+=format_int(a[y][x], points)+" ";
	264	}
	265	buffer+="\|\n";
	266	}
	267	return buffer; // string
	268	},
	269	copy: function(/* Array */a){
	270	// summary:
	271	// Create a copy of the passed matrix
	272	var ya=a.length, xa=a[0].length, m=this.create(xa, ya);
	273	for(var y=0; y<ya; y++){
	274	for(var x=0; x<xa; x++){
	275	m[y][x]=a[y][x];
	276	}
	277	}
	278	return m; // Array
	279	},
	280	scale: function(/* Array /a, / Number */factor){
	281	// summary:
	282	// Create a copy of passed matrix and scale each member by factor.
	283	a=this.copy(a);
	284	var ya=a.length, xa=a[0].length;
	285	for(var y=0; y<ya; y++){
	286	for(var x=0; x<xa; x++){
	287	a[y][x]*=factor;
	288	}
	289	}
	290	return a;
	291	}
	292	});
	293
	294	return dojox.math.matrix;
	295	});

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