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source: Sophya/trunk/Cosmo/SimLSS/cmvobserv3d.cc@ 3141

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Last change on this file since 3141 was 3141, checked in by cmv, 19 years ago
chgt HProf->HistoErr + spectre 2D cmv 17/01/2007
File size: 13.7 KB

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1	#include "sopnamsp.h"
2	#include "machdefs.h"
3	#include <iostream>
4	#include <stdlib.h>
5	#include <stdio.h>
6	#include <string.h>
7	#include <math.h>
8	#include <unistd.h>
9	#include "timing.h"
10	#include "ntuple.h"
11	#include "matharr.h"
12
13	#include "constcosmo.h"
14	#include "schechter.h"
15	#include "geneutils.h"
16	#include "integfunc.h"
17	#include "genefluct3d.h"
18
19	void usage(void);
20	void usage(void)
21	{
22	cout<<"cmvobserv3d [-a] [-0]"<<endl
23	<<" -a : init auto de l aleatoire"<<endl
24	<<" -0 : use methode ComputeFourier0"<<endl
25	<<" -x nx,dx : taille en x (npix,Mpc)"<<endl
26	<<" -y ny,dy : taille en y (npix,Mpc)"<<endl
27	<<" -z nz,dz : taille en z (npix,Mpc)"<<endl
28	<<" -Z zref : redshift median"<<endl
29	<<" -s snoise : sigma du bruit en Msol"<<endl
30	<<endl;
31	}
32
33	int main(int narg,char *arg[])
34	{
35	InitTim();
36
37	//-----------------------------------------------------------------
38	// *** Survey definition
39	long nx=360, ny=-1, nz=64; double dx=1., dy=-1., dz=-1.;
40	//long nx=1000, ny=-1, nz=128; double dx=3., dy=-1., dz=6.;
41	//long nx=1200, ny=-1, nz=128; double dx=1., dy=-1., dz=3;
42
43	// *** Cosmography definition (WMAP)
44	double ob0 = 0.0444356;
45	double h100=0.71, om0=0.267804, or0=7.9e-05, ol0=0.73,w0=-1.;
46	double zref = 0.5;
47
48	// *** Spectrum and variance definition
49	double ns = 1., as = 1.;
50	double R=8./h100, Rg=R/sqrt(5.);
51	double sigmaR = 1.;
52
53	double kmin=1e-5,kmax=1000.;
54	int npt = 10000;
55	double lkmin=log10(kmin), lkmax=log10(kmax);
56	double eps=1.e-3;
57
58	// *** Schechter mass function definition
59	double h75 = 0.71 / 0.75;
60	double nstar = 0.006*pow(h75,3.);
61	double mstar = pow(10.,9.8/(h75*h75)); // MSol
62	double alpha = -1.37;
63
64	double schmin=1e8, schmax=1e12;
65	int schnpt = 1000;
66	double lschmin=log10(schmin), lschmax=log10(schmax), dlsch=(lschmax-lschmin)/schnpt;
67
68	// *** Niveau de bruit
69	double snoise= 0.; // en equivalent MSol
70
71	// *** type de generation
72	bool computefourier0=false;
73	unsigned short nthread=4;
74
75	// --- Decodage arguments
76
77	char c;
78	while((c = getopt(narg,arg,"ha0x:y:z:s:Z:")) != -1) {
79	switch (c) {
80	case 'a' :
81	Auto_Ini_Ranf(5);
82	break;
83	case '0' :
84	computefourier0 = true;
85	break;
86	case 'x' :
87	sscanf(optarg,"%ld,%lf",&nx,&dx);
88	break;
89	case 'y' :
90	sscanf(optarg,"%ld,%lf",&ny,&dy);
91	break;
92	case 'z' :
93	sscanf(optarg,"%ld,%lf",&nz,&dz);
94	break;
95	case 's' :
96	sscanf(optarg,"%lf",&snoise);
97	break;
98	case 'Z' :
99	sscanf(optarg,"%lf",&zref);
100	break;
101	case 'h' :
102	default :
103	usage(); return -1;
104	}
105	}
106
107	string tagobs = "cmvobserv3d.ppf";
108	POutPersist posobs(tagobs);
109
110	cout<<"zref="<<zref<<endl;
111	cout<<"nx="<<nx<<" dx="<<dx<<" ny="<<ny<<" dy="<<dy<<" nz="<<nz<<" dz="<<dz<<endl;
112	cout<<"kmin="<<kmin<<" ("<<lkmin<<"), kmax="<<kmax<<" ("<<lkmax<<") Mpc^-1"
113	<<", npt="<<npt<<endl;
114	cout<<"R="<<R<<" Rg="<<Rg<<" Mpc, sigmaR="<<sigmaR<<endl;
115	cout<<"nstar= "<<nstar<<" mstar="<<mstar<<" alpha="<<alpha<<endl;
116	cout<<"schmin="<<schmin<<" ("<<lschmin
117	<<"), schmax="<<schmax<<" ("<<lschmax<<") Msol"
118	<<", schnpt="<<schnpt<<endl;
119	cout<<"snoise="<<snoise<<" equivalent Msol"<<endl;
120
121	//-----------------------------------------------------------------
122	cout<<endl<<"\n--- Create Spectrum and mass function"<<endl;
123
124	InitialSpectrum pkini(ns,as);
125
126	TransfertEisenstein tf(h100,om0-ob0,ob0,T_CMB_Par,false);
127	//tf.SetNoOscEnv(2);
128
129	GrowthFactor d1(om0,ol0);
130
131	PkSpectrum0 pk0(pkini,tf);
132
133	PkSpectrumZ pkz(pk0,d1,zref);
134
135	Schechter sch(nstar,mstar,alpha);
136
137	//-----------------------------------------------------------------
138	pkz.SetZ(0.);
139	cout<<endl<<"\n--- Compute variance for top-hat R="<<R
140	<<" at z="<<pkz.GetZ()<<endl;
141	VarianceSpectrum varpk_th(pkz,0);
142	double kfind_th = varpk_th.FindMaximum(R,kmin,kmax,eps);
143	double pkmax_th = varpk_th(kfind_th);
144	cout<<"kfind_th = "<<kfind_th<<" ("<<log10(kfind_th)<<"), integrand="<<pkmax_th<<endl;
145	double k1=kmin, k2=kmax;
146	int rc = varpk_th.FindLimits(R,pkmax_th/1.e4,k1,k2,eps);
147	cout<<"limit_th: rc="<<rc<<" : "<<k1<<" ("<<log10(k1)<<") , "
148	<<k2<<" ("<<log10(k2)<<")"<<endl;
149
150	double ldlk = (log10(k2)-log10(k1))/npt;
151	varpk_th.SetInteg(0.01,ldlk,-1.,4);
152	double sr2 = varpk_th.Variance(R,k1,k2);
153	cout<<"varpk_th="<<sr2<<" -> sigma="<<sqrt(sr2)<<endl;
154
155	double normpkz = sigmaR*sigmaR/sr2;
156	pkz.SetScale(normpkz);
157	cout<<"Spectrum normalisation = "<<pkz.GetScale()<<endl;
158
159	pkz.SetZ(zref);
160
161	Histo hpkz(lkmin,lkmax,npt); hpkz.ReCenterBin();
162	FuncToHisto(pkz,hpkz,true);
163	{
164	tagobs = "hpkz"; posobs.PutObject(hpkz,tagobs);
165	}
166
167	//-----------------------------------------------------------------
168	cout<<endl<<"\n--- Compute variance for Pk at z="<<pkz.GetZ()<<endl;
169	VarianceSpectrum varpk_int(pkz,2);
170
171	double kfind_int = varpk_int.FindMaximum(R,kmin,kmax,eps);
172	double pkmax_int = varpk_int(kfind_int);
173	cout<<"kfind_int = "<<kfind_int<<" ("<<log10(kfind_int)<<"), integrand="<<pkmax_int<<endl;
174	double k1int=kmin, k2int=kmax;
175	int rcint = varpk_int.FindLimits(R,pkmax_int/1.e4,k1int,k2int,eps);
176	cout<<"limit_int: rc="<<rcint<<" : "<<k1int<<" ("<<log10(k1int)<<") , "
177	<<k2int<<" ("<<log10(k2int)<<")"<<endl;
178
179	double ldlkint = (log10(k2int)-log10(k1int))/npt;
180	varpk_int.SetInteg(0.01,ldlkint,-1.,4);
181	double sr2int = varpk_int.Variance(R,k1int,k2int);
182	cout<<"varpk_int="<<sr2int<<" -> sigma="<<sqrt(sr2int)<<endl;
183
184	PrtTim("End of definition");
185
186	//-----------------------------------------------------------------
187	cout<<endl<<"\n--- Compute galaxies density number"<<endl;
188
189	sch.SetOutValue(0);
190	cout<<"sch(mstar) = "<<sch(mstar)<<" /Mpc^3/Msol"<<endl;
191	double ngal_by_mpc3 = IntegrateFuncLog(sch,lschmin,lschmax,0.01,dlsch,10.*dlsch,4);
192	cout<<"Galaxy density number = "<<ngal_by_mpc3<<" /Mpc^3 between limits"<<endl;
193
194	sch.SetOutValue(1);
195	cout<<"mstar*sch(mstar) = "<<sch(mstar)<<" Msol/Mpc^3/Msol"<<endl;
196	double mass_by_mpc3 = IntegrateFuncLog(sch,lschmin,lschmax,0.01,dlsch,10.*dlsch,4);
197	cout<<"Galaxy mass density= "<<mass_by_mpc3<<" Msol/Mpc^3 between limits"<<endl;
198
199	//-----------------------------------------------------------------
200	// FFTW3 (p26): faster if sizes 2^a 3^b 5^c 7^d 11^e 13^f with e+f=0 ou 1
201	cout<<endl<<"\n--- Compute Spectrum Realization"<<endl;
202
203	pkz.SetZ(zref);
204	TArray< complex<r_8> > pkgen;
205	GeneFluct3D fluct3d(pkgen);
206	fluct3d.SetNThread(nthread);
207	fluct3d.SetSize(nx,ny,nz,dx,dy,dz);
208	TArray<r_8>& rgen = fluct3d.GetRealArray();
209	fluct3d.Print();
210
211	double dkmin = fluct3d.GetKincMin();
212	double knyqmax = fluct3d.GetKmax();
213	long nherr = long(knyqmax/dkmin+0.5);
214	cout<<"For HistoErr: d="<<dkmin<<" max="<<knyqmax<<" n="<<nherr<<endl;
215
216	double dktmin = fluct3d.GetKTincMin();
217	double ktnyqmax = fluct3d.GetKTmax();
218	long nherrt = long(ktnyqmax/dktmin+0.5);
219	double dkzmin = fluct3d.GetKinc()[2];
220	double kznyqmax = fluct3d.GetKnyq()[2];
221	long nherrz = long(kznyqmax/dkzmin+0.5);
222	cout<<"For Histo2DErr: d="<<dktmin<<","<<dkzmin
223	<<" max="<<ktnyqmax<<","<<kznyqmax<<" n="<<nherrt<<","<<nherrz<<endl;
224
225	cout<<"\n--- Computing spectra variance up to Kmax at z="<<pkz.GetZ()<<endl;
226	// En fait on travaille sur un cube inscrit dans la sphere de rayon kmax:
227	// sphere: Vs = 4Pi/3 k^3 , cube inscrit (cote ksqrt(2)): Vc = (ksqrt(2))^3
228	// Vc/Vs = 0.675 -> keff = kmax * (0.675)^(1/3) = kmax * 0.877
229	double knyqmax_mod = 0.877*knyqmax;
230	ldlkint = (log10(knyqmax_mod)-log10(k1int))/npt;
231	varpk_int.SetInteg(0.01,ldlkint,-1.,4);
232	double sr2int_kmax = varpk_int.Variance(R,k1int,knyqmax_mod);
233	cout<<"varpk_int(<"<<knyqmax_mod<<")="<<sr2int_kmax<<" -> sigma="<<sqrt(sr2int_kmax)<<endl;
234
235	cout<<"\n--- Computing a realization in Fourier space"<<endl;
236	if(computefourier0) fluct3d.ComputeFourier0(pkz);
237	else fluct3d.ComputeFourier(pkz);
238
239	if(1) {
240	cout<<"\n--- Checking realization spectra"<<endl;
241	HistoErr hpkgen(0.,knyqmax,nherr);
242	hpkgen.ReCenterBin(); hpkgen.Zero();
243	hpkgen.Show();
244	fluct3d.ComputeSpectrum(hpkgen);
245	{
246	tagobs = "hpkgen"; posobs.PutObject(hpkgen,tagobs);
247	}
248	}
249
250	if(1) {
251	cout<<"\n--- Checking realization 2D spectra"<<endl;
252	Histo2DErr hpkgen2(0.,ktnyqmax,nherrt,0.,kznyqmax,nherrz);
253	hpkgen2.ReCenterBin(); hpkgen2.Zero();
254	hpkgen2.Show();
255	fluct3d.ComputeSpectrum2D(hpkgen2);
256	{
257	tagobs = "hpkgen2"; posobs.PutObject(hpkgen2,tagobs);
258	}
259	}
260
261	if(1) {
262	cout<<"\n--- Computing convolution by pixel shape"<<endl;
263	fluct3d.FilterByPixel();
264	}
265
266	if(1) fluct3d.WriteFits("!cmvobserv3d_k.fits");
267	if(1) fluct3d.WritePPF("cmvobserv3d_k.ppf",false);
268
269	if(1) {
270	cout<<"\n--- Checking realization spectra after pixel shape convol."<<endl;
271	HistoErr hpkgenf(0.,knyqmax,nherr);
272	hpkgenf.ReCenterBin(); hpkgenf.Zero();
273	hpkgenf.Show();
274	fluct3d.ComputeSpectrum(hpkgenf);
275	{
276	tagobs = "hpkgenf"; posobs.PutObject(hpkgenf,tagobs);
277	}
278	}
279
280	if(1) {
281	cout<<"\n--- Checking realization 2D spectra after pixel shape convol."<<endl;
282	Histo2DErr hpkgenf2(0.,ktnyqmax,nherrt,0.,kznyqmax,nherrz);
283	hpkgenf2.ReCenterBin(); hpkgenf2.Zero();
284	hpkgenf2.Show();
285	fluct3d.ComputeSpectrum2D(hpkgenf2);
286	{
287	tagobs = "hpkgenf2"; posobs.PutObject(hpkgenf2,tagobs);
288	}
289	}
290
291	cout<<"\n--- Computing a realization in real space"<<endl;
292	fluct3d.ComputeReal();
293	double rmin,rmax; rgen.MinMax(rmin,rmax);
294	cout<<"rgen.Min = "<<rmin<<" , Max="<<rmax<<endl;
295
296	if(1) fluct3d.WriteFits("!cmvobserv3d_r0.fits");
297	if(1) fluct3d.WritePPF("cmvobserv3d_r0.ppf",true);
298
299	int_8 nm;
300	double rm,rs2;
301	if(1) {
302	cout<<"\n--- Check mean and variance in real space"<<endl;
303	int_8 nlowone = fluct3d.NumberOfBad(-1.,1e+200);
304	nm = fluct3d.MeanSigma2(rm,rs2);
305	cout<<"rgen:("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
306	<<rs2<<" -> "<<sqrt(rs2)<<", n(<-1)="<<nlowone<<endl;
307	}
308
309	if(1) {
310	cout<<"\n--- Check variance sigmaR in real space"<<endl;
311	double varr;
312	int_8 nvarr = fluct3d.VarianceFrReal(R,varr);
313	cout<<"R="<<R<<" : sigmaR^2="<<varr<<" -> "<<sqrt(varr)<<", n="<<nvarr<<endl;
314	}
315
316	//-----------------------------------------------------------------
317	cout<<endl<<"\n--- Converting fluctuations into mass"<<endl;
318	fluct3d.TurnFluct2Mass();
319	nm = fluct3d.MeanSigma2(rm,rs2);
320	cout<<"1+rgen: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
321	<<rs2<<" -> "<<sqrt(rs2)<<endl;
322
323	cout<<"\n--- Converting mass into galaxy number"<<endl;
324	rm = fluct3d.TurnMass2MeanNumber(ngal_by_mpc3);
325	cout<<rm<<" galaxies put into survey"<<endl;
326	nm = fluct3d.MeanSigma2(rm,rs2,0.);
327	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
328	<<rs2<<" -> "<<sqrt(rs2)<<endl;
329
330	cout<<"\n--- Set negative pixels to BAD"<<endl;
331	nm = fluct3d.SetToVal(0.,1e+200,-999.);
332	cout<<nm<<" negative in survey set to BAD"<<endl;
333	nm = fluct3d.MeanSigma2(rm,rs2,-998.);
334	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
335	<<rs2<<" -> "<<sqrt(rs2)<<endl;
336
337	cout<<"\n--- Apply poisson on galaxie number"<<endl;
338	nm = fluct3d.ApplyPoisson();
339	cout<<nm<<" galaxies into survey after poisson"<<endl;
340	nm = fluct3d.MeanSigma2(rm,rs2,-998.);
341	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
342	<<rs2<<" -> "<<sqrt(rs2)<<endl;
343
344	cout<<"\n--- Convert Galaxies number to HI mass"<<endl;
345	long nhmdndm = long( (lschmax-lschmin+1.)*100. + 0.5);
346	Histo hmdndm(lschmin,lschmax,nhmdndm);
347	sch.SetOutValue(1);
348	FuncToHisto(sch,hmdndm,true);
349	FunRan tirhmdndm(hmdndm,true);
350	{
351	tagobs = "hmdndm"; posobs.PutObject(hmdndm,tagobs);
352	Histo hdum1(tirhmdndm);
353	tagobs = "tirhmdndm"; posobs.PutObject(hdum1,tagobs);
354	}
355	double mhi = fluct3d.TurnNGal2Mass(tirhmdndm,true);
356	cout<<mhi<<" MSol in survey / "<<mass_by_mpc3*fluct3d.GetVol()<<endl;
357	nm = fluct3d.MeanSigma2(rm,rs2,0.);
358	cout<<"HI mass: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
359	<<rs2<<" -> "<<sqrt(rs2)<<endl;
360	cout<<"Equivalent: "<<rm*nm/fluct3d.NPix()<<" Msol / pixels"<<endl;
361
362	cout<<"\n--- Set BAD pixels to Zero"<<endl;
363	nm = fluct3d.SetToVal(-998.,1e+200,0.);
364	cout<<nm<<" BAD in survey set to zero"<<endl;
365	nm = fluct3d.MeanSigma2(rm,rs2);
366	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
367	<<rs2<<" -> "<<sqrt(rs2)<<endl;
368
369	if(1) fluct3d.WriteFits("!cmvobserv3d_r.fits");
370	if(1) fluct3d.WritePPF("cmvobserv3d_r.ppf",true);
371
372	cout<<"\n--- Add noise to HI Flux snoise="<<snoise<<endl;
373	fluct3d.AddNoise2Real(snoise);
374	nm = fluct3d.MeanSigma2(rm,rs2);
375	cout<<"HI mass with noise: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
376	<<rs2<<" -> "<<sqrt(rs2)<<endl;
377
378	//-----------------------------------------------------------------
379	// -- NE PAS FAIRE CA SI ON VEUT CONTINUER LA SIMULATION -> d_rho/rho ecrase
380
381	if(1) {
382	cout<<endl<<"\n--- ReComputing spectrum from real space"<<endl;
383	fluct3d.ReComputeFourier();
384	}
385
386	if(1) {
387	cout<<endl<<"\n--- Computing final spectrum"<<endl;
388	HistoErr hpkrec(0.,knyqmax,nherr);
389	hpkrec.ReCenterBin();
390	hpkrec.Show();
391	fluct3d.ComputeSpectrum(hpkrec);
392	tagobs = "hpkrec"; posobs.PutObject(hpkrec,tagobs);
393	}
394
395	if(1) {
396	cout<<"\n--- Computing final 2D spectrum"<<endl;
397	Histo2DErr hpkrec2(0.,ktnyqmax,nherrt,0.,kznyqmax,nherrz);
398	hpkrec2.ReCenterBin(); hpkrec2.Zero();
399	hpkrec2.Show();
400	fluct3d.ComputeSpectrum2D(hpkrec2);
401	{
402	tagobs = "hpkrec2"; posobs.PutObject(hpkrec2,tagobs);
403	}
404	}
405
406	return 0;
407	}
408
409	/*
410	######################################################
411	readfits cmvobserv3d_k.fits
412	readfits cmvobserv3d_r0.fits
413	readfits cmvobserv3d_r.fits
414
415	openppf cmvobserv3d_k.ppf
416	openppf cmvobserv3d_r0.ppf
417	openppf cmvobserv3d_r.ppf
418
419	# pour le plot 2D d'une slice en Z du 3D: to2d nom_obj3D num_slice
420	defscript to2d
421	objaoper $1 sliceyz $2
422	mv sliceyz_${2} ${1}_$2
423	disp ${1}_$2
424	echo display slice $2 of $1
425	endscript
426
427	to2d $cobj 0
428
429	######################################################
430	openppf cmvobserv3d.ppf
431
432	zone
433	n/plot hpkz.val%x ! ! "nsta connectpoints"
434	n/plot hpkgen.val%log10(x) x>0 ! "nsta same red connectpoints"
435	n/plot hpkgenf.val%log10(x) x>0 ! "nsta same orange connectpoints"
436	n/plot hpkrec.val%log10(x) x>0 ! "nsta same blue connectpoints"
437
438	set k pow(10.,x)
439	n/plot hpkz.val$k$k/(2M_PIM_PI)%x ! "connectpoints"
440
441	zone 2 2
442	imag hpkgen2
443	imag hpkgenf2
444	imag hpkrec2
445
446	zone
447	disp hmdndm
448	disp tirhmdndm
449	addline 0 1 20 1 "red"
450
451	*/

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