Changeset 25766 for branches/eam_branches/20090820/psModules/src/objects/models/pmModel_RGAUSS.c

Timestamp:

Oct 2, 2009, 5:10:19 PM (17 years ago)

Author:

eugene

Message:

merge changes from trunk

Location:

branches/eam_branches/20090820

Files:

• . (modified) (1 prop)
• psModules/src/objects/models/pmModel_RGAUSS.c (modified) (11 diffs)

branches/eam_branches/20090820/psModules/src/objects/models/pmModel_RGAUSS.c

@@ -1 +1 @@
 /******************************************************************************
  * this file defines the RGAUSS source shape model (XXX need a better name!).  Note that these
- * model functions are loaded by pmModelGroup.c using 'include', and thus need no 'include'
+ * model functions are loaded by pmModelClass.c using 'include', and thus need no 'include'
  * statements of their own.  The models use a psVector to represent the set of parameters, with
  * the sequence used to specify the meaning of the parameter.  The meaning of the parameters
- * may thus vary depending on the specifics of the model.  All models which are used a PSF
+ * may thus vary depending on the specifics of the model.  All models which are used as a PSF
  * representations share a few parameters, for which # define names are listed in pmModel.h:
 
@@ -20 +20 @@
  *****************************************************************************/
 
+#include <stdio.h>
+#include <pslib.h>
+
+#include "pmMoments.h"
+#include "pmPeaks.h"
+#include "pmSource.h"
+#include "pmModel.h"
+#include "pmModel_RGAUSS.h"
+
 # define PM_MODEL_FUNC            pmModelFunc_RGAUSS
 # define PM_MODEL_FLUX            pmModelFlux_RGAUSS
@@ -28 +37 @@
 # define PM_MODEL_PARAMS_FROM_PSF pmModelParamsFromPSF_RGAUSS
 # define PM_MODEL_FIT_STATUS      pmModelFitStatus_RGAUSS
+# define PM_MODEL_SET_LIMITS      pmModelSetLimits_RGAUSS
+
+// the model is a function of the pixel coordinate (pixcoord[0,1] = x,y)
+// 0.5 PIX: the parameters are defined in terms of pixel coords, so the incoming pixcoords
+// values need to be pixel coords
+
+// Lax parameter limits
+static float paramsMinLax[] = { -1.0e3, 1.0e-2, -100, -100, 0.5, 0.5, -1.0, 1.25 };
+static float paramsMaxLax[] = { 1.0e5, 1.0e8, 1.0e4, 1.0e4, 100, 100, 1.0, 4.0 };
+
+// Strict parameter limits
+static float *paramsMinStrict = paramsMinLax;
+static float *paramsMaxStrict = paramsMaxLax;
+
+// Parameter limits to use
+static float *paramsMinUse = paramsMinLax;
+static float *paramsMaxUse = paramsMaxLax;
+static float betaUse[] = { 1000, 3e6, 5, 5, 0.5, 0.5, 0.5, 0.5 };
+
+static bool limitsApply = true;         // Apply limits?
 
 psF32 PM_MODEL_FUNC (psVector *deriv,
@@ -62 +91 @@
         dPAR[PM_PAR_SXY] = -q*X*Y;
 
-        // this model derivative is undefined at z = 0.0, but is actually 0.0
+        // this model derivative is undefined at z = 0.0, but the limit is zero as z -> 0.0
         dPAR[PM_PAR_7] = (z == 0.0) ? 0.0 : -5.0*t*log(z)*p*z;
     }
@@ -73 +102 @@
 # define AR_MAX 20.0
 # define AR_RATIO 0.99
+
 bool PM_MODEL_LIMITS (psMinConstraintMode mode, int nParam, float *params, float *beta)
 {
-    float beta_lim = 0, params_min = 0, params_max = 0;
-    float f1 = 0, f2 = 0, q1 = 0, q2 = 0;
+    if (!limitsApply) {
+        return true;
+    }
+    psAssert(nParam >= 0 && nParam <= PM_PAR_7, "Parameter index is out of bounds");
 
     // we need to calculate the limits for SXY specially
+    float q2 = NAN;
     if (nParam == PM_PAR_SXY) {
-        f1 = 1.0 / PS_SQR(params[PM_PAR_SYY]) + 1.0 / PS_SQR(params[PM_PAR_SXX]);
-        f2 = 1.0 / PS_SQR(params[PM_PAR_SYY]) - 1.0 / PS_SQR(params[PM_PAR_SXX]);
-        q1 = PS_SQR(f1)*AR_RATIO - PS_SQR(f2);
+        float f1 = 1.0 / PS_SQR(params[PM_PAR_SYY]) + 1.0 / PS_SQR(params[PM_PAR_SXX]);
+        float f2 = 1.0 / PS_SQR(params[PM_PAR_SYY]) - 1.0 / PS_SQR(params[PM_PAR_SXX]);
+        float q1 = PS_SQR(f1)*AR_RATIO - PS_SQR(f2);
         q1 = (q1 < 0.0) ? 0.0 : q1;
         // if q1 < 0.0, f2 ~ f1, we have a very large axis ratio near 45deg..  Saturate at that
         // angle and let f2,f1 fight it out
-        q2  = 0.5*sqrt (q1);
+        q2 = 0.5*sqrtf(q1);
     }
 
     switch (mode) {
-    case PS_MINIMIZE_BETA_LIMIT:
-        switch (nParam) {
-        case PM_PAR_SKY:
-            beta_lim = 1000;
-            break;
-        case PM_PAR_I0:
-            beta_lim = 3e6;
-            break;
-        case PM_PAR_XPOS:
-            beta_lim = 5;
-            break;
-        case PM_PAR_YPOS:
-            beta_lim = 5;
-            break;
-        case PM_PAR_SXX:
-            beta_lim = 0.5;
-            break;
-        case PM_PAR_SYY:
-            beta_lim = 0.5;
-            break;
-        case PM_PAR_SXY:
-            beta_lim =  0.5*q2;
-            break;
-        case PM_PAR_7:
-            beta_lim = 0.5;
-            break;
-        default:
-            psAbort("invalid parameter %d for beta test", nParam);
-        }
-        if (fabs(beta[nParam]) > fabs(beta_lim)) {
-            beta[nParam] = (beta[nParam] > 0) ? fabs(beta_lim) : -fabs(beta_lim);
-            psTrace ("psModules.objects", 5, "|beta[nParam==%d]| > |beta_lim|; %g v. %g",
-                     nParam, beta[nParam], beta_lim);
-            return false;
-        }
-        return true;
-    case PS_MINIMIZE_PARAM_MIN:
-        switch (nParam) {
-        case PM_PAR_SKY:
-            params_min = -1000;
-            break;
-        case PM_PAR_I0:
-            params_min =   0.01;
-            break;
-        case PM_PAR_XPOS:
-            params_min =  -100;
-            break;
-        case PM_PAR_YPOS:
-            params_min =  -100;
-            break;
-        case PM_PAR_SXX:
-            params_min =   0.5;
-            break;
-        case PM_PAR_SYY:
-            params_min =   0.5;
-            break;
-        case PM_PAR_SXY:
-            params_min =  -q2;
-            break;
-        case PM_PAR_7:
-            params_min =   1.25;
-            break;
-        default:
-            psAbort("invalid parameter %d for param min test", nParam);
-        }
-        if (params[nParam] < params_min) {
-            params[nParam] = params_min;
-            psTrace ("psModules.objects", 5, "params[nParam==%d] < params_min; %g v. %g",
-                     nParam, params[nParam], params_min);
-            return false;
-        }
-        return true;
-    case PS_MINIMIZE_PARAM_MAX:
-        switch (nParam) {
-        case PM_PAR_SKY:
-            params_max =   1e5;
-            break;
-        case PM_PAR_I0:
-            params_max =   1e8;
-            break;
-        case PM_PAR_XPOS:
-            params_max =   1e4;
-            break;
-        case PM_PAR_YPOS:
-            params_max =   1e4;
-            break;
-        case PM_PAR_SXX:
-            params_max =   100;
-            break;
-        case PM_PAR_SYY:
-            params_max =   100;
-            break;
-        case PM_PAR_SXY:
-            params_max =  +q2;
-            break;
-        case PM_PAR_7:
-            params_max =  4.0;
-            break;
-        default:
-            psAbort("invalid parameter %d for param max test", nParam);
-        }
-        if (params[nParam] > params_max) {
-            params[nParam] = params_max;
-            psTrace ("psModules.objects", 5, "params[nParam==%d] > params_max; %g v. %g",
-                     nParam, params[nParam], params_max);
-            return false;
-        }
-        return true;
-    default:
+      case PS_MINIMIZE_BETA_LIMIT: {
+          psAssert(beta, "Require beta to limit beta");
+          float limit = betaUse[nParam];
+          if (nParam == PM_PAR_SXY) {
+              limit *= q2;
+          }
+          if (fabs(beta[nParam]) > fabs(limit)) {
+              beta[nParam] = (beta[nParam] > 0) ? fabs(limit) : -fabs(limit);
+              psTrace("psModules.objects", 5, "|beta[nParam==%d]| > |beta_lim|; %g v. %g",
+                      nParam, beta[nParam], limit);
+              return false;
+          }
+          return true;
+      }
+      case PS_MINIMIZE_PARAM_MIN: {
+          psAssert(params, "Require parameters to limit parameters");
+          psAssert(paramsMinUse, "Require parameter limits to limit parameters");
+          float limit = paramsMinUse[nParam];
+          if (nParam == PM_PAR_SXY) {
+              limit *= q2;
+          }
+          if (params[nParam] < limit) {
+              params[nParam] = limit;
+              psTrace("psModules.objects", 5, "params[nParam==%d] < params_min; %g v. %g",
+                      nParam, params[nParam], limit);
+              return false;
+          }
+          return true;
+      }
+      case PS_MINIMIZE_PARAM_MAX: {
+          psAssert(params, "Require parameters to limit parameters");
+          psAssert(paramsMaxUse, "Require parameter limits to limit parameters");
+          float limit = paramsMaxUse[nParam];
+          if (nParam == PM_PAR_SXY) {
+              limit *= q2;
+          }
+          if (params[nParam] > limit) {
+              params[nParam] = limit;
+              psTrace("psModules.objects", 5, "params[nParam==%d] > params_max; %g v. %g",
+                      nParam, params[nParam], limit);
+              return false;
+          }
+          return true;
+      }
+      default:
         psAbort("invalid choice for limits");
     }
@@ -205 +174 @@
 }
 
+
 // make an initial guess for parameters
+// 0.5 PIX: moments and peaks are in pixel coords, thus so are model parameters
 bool PM_MODEL_GUESS (pmModel *model, pmSource *source)
 {
@@ -230 +201 @@
     if (!isfinite(shape.sxy)) return false;
 
-    PAR[PM_PAR_SKY]  = moments->Sky;
+    PAR[PM_PAR_SKY]  = 0.0;
     PAR[PM_PAR_I0]   = peak->flux;
     PAR[PM_PAR_XPOS] = peak->xf;
@@ -310 +281 @@
     // choose a z value guaranteed to be beyond our limit
     float z0 = pow((1.0 / limit), (1.0 / PAR[PM_PAR_7]));
+    psAssert (isfinite(z0), "fix this code: z0 should not be nan for %f", PAR[PM_PAR_7]);
     float z1 = (1.0 / limit);
+    psAssert (isfinite(z1), "fix this code: z1 should not be nan for %f", PAR[PM_PAR_7]);
     z1 = PS_MAX (z0, z1);
     z0 = 0.0;
@@ -436 +409 @@
 bool PM_MODEL_FIT_STATUS (pmModel *model)
 {
-
-    psF32 dP;
     bool  status;
 
@@ -443 +414 @@
     psF32 *dPAR = model->dparams->data.F32;
 
-    dP = 0;
-    dP += PS_SQR(dPAR[PM_PAR_SXX] / PAR[PM_PAR_SXX]);
-    dP += PS_SQR(dPAR[PM_PAR_SYY] / PAR[PM_PAR_SYY]);
-    dP = sqrt (dP);
-
     status = true;
-    status &= (dP < 0.5);
     status &= (PAR[PM_PAR_I0] > 0);
     status &= ((dPAR[PM_PAR_I0]/PAR[PM_PAR_I0]) < 0.5);
 
     return status;
+}
+
+
+void PM_MODEL_SET_LIMITS(pmModelLimitsType type)
+{
+    switch (type) {
+      case PM_MODEL_LIMITS_NONE:
+        paramsMinUse = NULL;
+        paramsMaxUse = NULL;
+        limitsApply = true;
+        break;
+      case PM_MODEL_LIMITS_IGNORE:
+        paramsMinUse = NULL;
+        paramsMaxUse = NULL;
+        limitsApply = false;
+        break;
+      case PM_MODEL_LIMITS_LAX:
+        paramsMinUse = paramsMinLax;
+        paramsMaxUse = paramsMaxLax;
+        limitsApply = true;
+        break;
+      case PM_MODEL_LIMITS_STRICT:
+        paramsMinUse = paramsMinStrict;
+        paramsMaxUse = paramsMaxStrict;
+        limitsApply = true;
+        break;
+      default:
+        psAbort("Unrecognised model limits type: %x", type);
+    }
+    return;
 }
 
@@ -464 +459 @@
 # undef PM_MODEL_PARAMS_FROM_PSF
 # undef PM_MODEL_FIT_STATUS
+# undef PM_MODEL_SET_LIMITS