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version 1.13, 2013/05/09 19:40:54
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version 1.31, 2014/06/16 04:45:18
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| /* | /* |
| * sharp.c | * sharp.c |
| * | * |
| * This module creates the pipeline space weather harps |
* This module creates the pipeline Space Weather Active Region Patches (SHARPs). |
| * It is a hard-coded strip-down version of bmap.c |
* It is a hard-coded strip-down version of bmap.c. |
| * It takes the Mharp and Bharp series and crete the following quantities |
* It takes the Mharp and Bharp series and create the following quantities: |
| |
* |
| * Series 1: Sharp_CEA | * Series 1: Sharp_CEA |
| * CEA remapped magnetogram, bitmap, continuum, doppler (same size in map coordinate, need manual spec?) | * CEA remapped magnetogram, bitmap, continuum, doppler (same size in map coordinate, need manual spec?) |
| * CEA remapped vector field (Br, Bt, Bp) (same as above) | * CEA remapped vector field (Br, Bt, Bp) (same as above) |
| * Space weather indices based on vector cutouts (step 2) | * Space weather indices based on vector cutouts (step 2) |
| |
* |
| * Series 2: Sharp_cutout: | * Series 2: Sharp_cutout: |
| * cutouts of magnetogram, bitmap, continuum, doppler (HARP defined, various sizes in CCD pixels) | * cutouts of magnetogram, bitmap, continuum, doppler (HARP defined, various sizes in CCD pixels) |
| * cutouts of all vector data segments (same as above) | * cutouts of all vector data segments (same as above) |
| * Series 3: Other remaps |
|
| * | * |
| * Author: | * Author: |
| * Xudong Sun; Monica Bobra | * Xudong Sun; Monica Bobra |
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| * v0.2 Sep 04 2012 | * v0.2 Sep 04 2012 |
| * v0.3 Dec 18 2012 | * v0.3 Dec 18 2012 |
| * v0.4 Jan 02 2013 | * v0.4 Jan 02 2013 |
| * v0.5 Jam 23 2012 |
* v0.5 Jan 23 2013 |
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* v0.6 Aug 12 2013 |
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* v0.7 Jan 02 2014 |
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* v0.8 Feb 12 2014 |
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* v0.9 Mar 04 2014 |
| * | * |
| * Notes: | * Notes: |
| * v0.0 | * v0.0 |
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| * Took out convert_inplace(). Was causing all the images to be int | * Took out convert_inplace(). Was causing all the images to be int |
| * v0.5 | * v0.5 |
| * Corrected ephemeris keywords, added argument mInfo for setKeys() | * Corrected ephemeris keywords, added argument mInfo for setKeys() |
| * |
* v0.6 |
| * Example: |
* Changes in remapping of bitmap and conf_disambig, now near neighbor without anti-aliasing |
| * sharp "mharp=hmi.Mharp_720s[1404][2012.02.20_10:00]" \ |
* v0.7 |
| "bharp=hmi_test.Bharp_720s_fd10[1404][2012.02.20_10:00]" \ |
* Added full disk as "b" |
| "dop=hmi.V_720s[2012.02.20_10:00]" \ |
* Global flag fullDisk is set if "b" is set |
| "cont=hmi.Ic_720s[2012.02.20_10:00]" \ |
* Utilize BharpRS and BharpRec all around |
| "sharp_cea=su_xudong.Sharp_CEA" "sharp_cut=su_xudong.Sharp_Cut" |
* Pass mharpRec to set_keys() too in case of full disk |
| * For comparison: |
* Fixed Bunit (removed from copy_me_keys(), added loops for Bunits in set_keys() here) |
| * bmap "in=hmi_test.Bharp_720s_fd10[1404][2012.02.20_10:00]" \ |
* Error for CEA still does account for disambiguation yet |
| "out=hmi_test.B_720s_CEA" -s -a "map=cyleqa" |
* v0.8 |
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* Added disambig to azimuth during error propagation |
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* Changed usage for disambig: bit 2 (radial acute) for full disk, bit 0 for patch |
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* Fixed disambig cutout for patch: 0 for even, 7 for odd |
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* v0.9 |
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* Fixed unit |
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* Check whether in PATCH of FD mode, so the error propagation uses disambiguated azimuth or not |
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* |
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* |
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* Example Calls: |
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* [I] B (full disk disambiguation) |
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* > sharp "mharp=hmi.Mharp_720s[1832][2012.07.12_15:24]" "b=hmi_test.B_720s[2012.07.12_15:24]" "dop=hmi.V_720s[2012.07.12_15:24]" "cont=hmi.Ic_720s[2012.07.12_15:24]" "sharp_cea=su_xudong.sharp_cea_720s" "sharp_cut=su_xudong.sharp_720s" |
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* [II] BHARP (patch disambiguation) |
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* > sharp "mharp=hmi.Mharp_720s[1832][2012.07.12_15:24]" "bharp=hmi.Bharp_720s[1832][2012.07.12_15:24]" "dop=hmi.V_720s[2012.07.12_15:24]" "cont=hmi.Ic_720s[2012.07.12_15:24]" "sharp_cea=su_xudong.sharp_cea_720s" "sharp_cut=su_xudong.sharp_720s" |
| * | * |
| * | * |
| */ | */ |
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| #include "errorprop.c" | #include "errorprop.c" |
| #include "sw_functions.c" | #include "sw_functions.c" |
| | |
| |
//#include <mkl.h> // Comment out mkl.h, which can only run on solar3 |
| #include <mkl_blas.h> | #include <mkl_blas.h> |
| #include <mkl_service.h> | #include <mkl_service.h> |
| #include <mkl_lapack.h> | #include <mkl_lapack.h> |
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|
|
| // Nyqvist rate at disk center is 0.03 degree. Oversample above 0.015 degree | // Nyqvist rate at disk center is 0.03 degree. Oversample above 0.015 degree |
| #define NYQVIST (0.015) | #define NYQVIST (0.015) |
| | |
| |
// Some other things |
| #ifndef MIN | #ifndef MIN |
| #define MIN(a,b) (((a)<(b)) ? (a) : (b)) | #define MIN(a,b) (((a)<(b)) ? (a) : (b)) |
| #endif | #endif |
|
|
|
| #define INTERP 0 | #define INTERP 0 |
| #define dpath "/home/jsoc/cvs/Development/JSOC" | #define dpath "/home/jsoc/cvs/Development/JSOC" |
| | |
| |
|
| /* ========================================================================================================== */ | /* ========================================================================================================== */ |
| | |
| // Space weather keywords | // Space weather keywords |
| struct swIndex { | struct swIndex { |
| float mean_vf; | float mean_vf; |
| |
float count_mask; |
| float absFlux; | float absFlux; |
| float mean_hf; | float mean_hf; |
| float mean_gamma; | float mean_gamma; |
| Line 142 struct swIndex { |
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| Line 164 struct swIndex { |
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| float meanshear_angle; | float meanshear_angle; |
| float area_w_shear_gt_45h; | float area_w_shear_gt_45h; |
| float meanshear_angleh; | float meanshear_angleh; |
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float mean_derivative_btotal_err; |
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float mean_vf_err; |
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float mean_gamma_err; |
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float mean_derivative_bh_err; |
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float mean_derivative_bz_err; |
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float mean_jz_err; |
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float us_i_err; |
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float mean_alpha_err; |
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float mean_ih_err; |
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float total_us_ih_err; |
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float total_abs_ih_err; |
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float totaljz_err; |
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float meanpot_err; |
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float totpot_err; |
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float meanshear_angle_err; |
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float Rparam; |
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float totfx; |
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float totfy; |
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float totfz; |
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float totbsq; |
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float epsx; |
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float epsy; |
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float epsz; |
| }; | }; |
| | |
| // Mapping method | // Mapping method |
| Line 162 enum projection { |
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| Line 207 enum projection { |
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| char *wcsCode[] = {"CAR", "CAS", "MER", "CEA", "GLS", "TAN", "ARC", "STG", | char *wcsCode[] = {"CAR", "CAS", "MER", "CEA", "GLS", "TAN", "ARC", "STG", |
| "SIN", "ZEA"}; | "SIN", "ZEA"}; |
| | |
| // Ephemeris |
// Ephemeris information |
| struct ephemeris { | struct ephemeris { |
| double disk_lonc, disk_latc; | double disk_lonc, disk_latc; |
| double disk_xc, disk_yc; | double disk_xc, disk_yc; |
| Line 180 struct mapInfo { |
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| Line 225 struct mapInfo { |
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| float *xi_out, *zeta_out; // coordinate on full disk image to sample at | float *xi_out, *zeta_out; // coordinate on full disk image to sample at |
| }; | }; |
| | |
| |
|
| /* ========================================================================================================== */ | /* ========================================================================================================== */ |
| | |
| /* Get all input data series */ | /* Get all input data series */ |
| Line 196 int getInputRS_aux(DRMS_RecordSet_t **in |
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| Line 240 int getInputRS_aux(DRMS_RecordSet_t **in |
|
| /* Find record from record set with given T_rec */ | /* Find record from record set with given T_rec */ |
| int getInputRec_aux(DRMS_Record_t **inRec_ptr, DRMS_RecordSet_t *inRS, TIME trec); | int getInputRec_aux(DRMS_Record_t **inRec_ptr, DRMS_RecordSet_t *inRS, TIME trec); |
| | |
| // =================== |
|
| |
|
| /* Create CEA record */ | /* Create CEA record */ |
| int createCeaRecord(DRMS_Record_t *mharpRec, DRMS_Record_t *bharpRec, | int createCeaRecord(DRMS_Record_t *mharpRec, DRMS_Record_t *bharpRec, |
| DRMS_Record_t *dopRec, DRMS_Record_t *contRec, | DRMS_Record_t *dopRec, DRMS_Record_t *contRec, |
| Line 223 int getEphemeris(DRMS_Record_t *inRec, s |
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| Line 265 int getEphemeris(DRMS_Record_t *inRec, s |
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| void findCoord(struct mapInfo *mInfo); | void findCoord(struct mapInfo *mInfo); |
| | |
| /* Mapping function */ | /* Mapping function */ |
| int performSampling(float *outData, float *inData, struct mapInfo *mInfo); |
int performSampling(float *outData, float *inData, struct mapInfo *mInfo, int interpOpt); |
| | |
| /* Performing local vector transformation */ | /* Performing local vector transformation */ |
| void vectorTransform(float *bx_map, float *by_map, float *bz_map, struct mapInfo *mInfo); | void vectorTransform(float *bx_map, float *by_map, float *bz_map, struct mapInfo *mInfo); |
| Line 260 void computeSWIndex(struct swIndex *swKe |
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| Line 302 void computeSWIndex(struct swIndex *swKe |
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| void setSWIndex(DRMS_Record_t *outRec, struct swIndex *swKeys_ptr); | void setSWIndex(DRMS_Record_t *outRec, struct swIndex *swKeys_ptr); |
| | |
| /* Set all keywords, no error checking for now */ | /* Set all keywords, no error checking for now */ |
| void setKeys(DRMS_Record_t *outRec, DRMS_Record_t *inRec, struct mapInfo *mInfo); |
// Changed Dec 30 XS |
| |
void setKeys(DRMS_Record_t *outRec, DRMS_Record_t *mharpRec, DRMS_Record_t *bharpRec, struct mapInfo *mInfo); |
| | |
| // =================== | // =================== |
| | |
| Line 300 char *CutSegs[] = {"magnetogram", "bitma |
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| Line 343 char *CutSegs[] = {"magnetogram", "bitma |
|
| "field_inclination_err", "field_az_err", "inclin_azimuth_err", | "field_inclination_err", "field_az_err", "inclin_azimuth_err", |
| "field_alpha_err","inclination_alpha_err", "azimuth_alpha_err", | "field_alpha_err","inclination_alpha_err", "azimuth_alpha_err", |
| "disambig", "conf_disambig"}; | "disambig", "conf_disambig"}; |
| char *CEASegs[] = {"magnetogram", "bitmap", "Dopplergram", "continuum", "disambig", |
char *CEASegs[] = {"magnetogram", "bitmap", "Dopplergram", "continuum", |
| BR_SEG_CEA, BT_SEG_CEA, BP_SEG_CEA, BR_ERR_SEG_CEA, BT_ERR_SEG_CEA, BP_ERR_SEG_CEA}; |
BR_SEG_CEA, BT_SEG_CEA, BP_SEG_CEA, BR_ERR_SEG_CEA, BT_ERR_SEG_CEA, BP_ERR_SEG_CEA, "conf_disambig"}; |
| /* ========================================================================================================== */ |
// For Bunits, added Dec 30 XS |
| |
char *CutBunits[] = {"Mx/cm^2", " ", "cm/s", "DN/s", |
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"degree", "degree", "Mx/cm^2", "cm/s", "mA", " ", |
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"length units", "DN/s", "DN/s", " ", " ", |
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" ", |
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" ", " ", |
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"degree", "degree", "Mx/cm^2", "cm/s", " ", |
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" ", " ", " ", |
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" ", " ", " ", |
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" ", " "}; |
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char *CEABunits[] = {"Mx/cm^2", " ", "cm/s", "DN/s", |
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"Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", " "}; // Mar 4 2014 XS |
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/* ========================================================================================================== */ |
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| char *module_name = "sharp"; | char *module_name = "sharp"; |
| char *version_id = "2012 Dec 18"; /* Version number */ |
int seed; |
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|
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int fullDisk; // full disk mode |
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int amb4err; // Use azimuth disambiguation for error propagation, default is 0 for patch and 1 for FD |
| | |
| ModuleArgs_t module_args[] = | ModuleArgs_t module_args[] = |
| { | { |
| {ARG_STRING, "mharp", kNotSpecified, "Input Mharp series."}, | {ARG_STRING, "mharp", kNotSpecified, "Input Mharp series."}, |
| {ARG_STRING, "bharp", kNotSpecified, "Input Bharp series."}, | {ARG_STRING, "bharp", kNotSpecified, "Input Bharp series."}, |
| |
{ARG_STRING, "b", kNotSpecified, "Input B series, if set, overrides bharp."}, |
| {ARG_STRING, "dop", kNotSpecified, "Input Doppler series."}, | {ARG_STRING, "dop", kNotSpecified, "Input Doppler series."}, |
| {ARG_STRING, "cont", kNotSpecified, "Input Continuum series."}, | {ARG_STRING, "cont", kNotSpecified, "Input Continuum series."}, |
| {ARG_STRING, "sharp_cea", kNotSpecified, "Output Sharp CEA series."}, | {ARG_STRING, "sharp_cea", kNotSpecified, "Output Sharp CEA series."}, |
| {ARG_STRING, "sharp_cut", kNotSpecified, "Output Sharp cutout series."}, | {ARG_STRING, "sharp_cut", kNotSpecified, "Output Sharp cutout series."}, |
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{ARG_INT, "seed", "987654", "Seed for the random number generator."}, |
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{ARG_INT, "f_amb4err", "0", "Force using disambiguation in error propagation"}, // Mar 4 2014 XS |
| {ARG_END} | {ARG_END} |
| }; | }; |
| | |
| int DoIt(void) | int DoIt(void) |
| { | { |
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int errbufstat = setvbuf(stderr, NULL, _IONBF, BUFSIZ); |
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int outbufstat = setvbuf(stdout, NULL, _IONBF, BUFSIZ); |
| | |
| int status = DRMS_SUCCESS; | int status = DRMS_SUCCESS; |
| int nrecs, irec; | int nrecs, irec; |
| | |
| char *mharpQuery, *bharpQuery; |
char *mharpQuery, *bharpQuery, *bQuery; |
| char *dopQuery, *contQuery; | char *dopQuery, *contQuery; |
| char *sharpCeaQuery, *sharpCutQuery; | char *sharpCeaQuery, *sharpCutQuery; |
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|
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| mharpQuery = (char *) params_get_str(&cmdparams, "mharp"); | mharpQuery = (char *) params_get_str(&cmdparams, "mharp"); |
| bharpQuery = (char *) params_get_str(&cmdparams, "bharp"); | bharpQuery = (char *) params_get_str(&cmdparams, "bharp"); |
| |
bQuery = (char *) params_get_str(&cmdparams, "b"); |
| dopQuery = (char *) params_get_str(&cmdparams, "dop"); | dopQuery = (char *) params_get_str(&cmdparams, "dop"); |
| contQuery = (char *) params_get_str(&cmdparams, "cont"); | contQuery = (char *) params_get_str(&cmdparams, "cont"); |
| sharpCeaQuery = (char *) params_get_str(&cmdparams, "sharp_cea"); | sharpCeaQuery = (char *) params_get_str(&cmdparams, "sharp_cea"); |
| sharpCutQuery = (char *) params_get_str(&cmdparams, "sharp_cut"); | sharpCutQuery = (char *) params_get_str(&cmdparams, "sharp_cut"); |
| | |
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seed = params_get_int(&cmdparams, "seed"); |
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int f_amb4err = params_get_int(&cmdparams, "f_amb4err"); |
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|
| /* Get input data, check everything */ | /* Get input data, check everything */ |
| | |
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// Full disk mode if "b" is set |
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if (strcmp(bQuery, kNotSpecified)) { |
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fullDisk = 1; |
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bharpQuery = bQuery; |
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// SHOW(bharpQuery); SHOW("\n"); |
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SHOW("Full disk mode\n"); |
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} else { |
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fullDisk = 0; |
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SHOW("Harp mode\n"); |
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} |
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|
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// Mar 4 2014 |
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if (f_amb4err == 0) { // no forcing, 0 for patch and 1 for FD |
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amb4err = fullDisk ? 1 : 0; |
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} else { |
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amb4err = 1; |
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} |
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printf("amb4err=%d\n", amb4err); |
| |
|
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// Bharp point to B if full disk |
| if (getInputRS(&mharpRS, &bharpRS, mharpQuery, bharpQuery)) | if (getInputRS(&mharpRS, &bharpRS, mharpQuery, bharpQuery)) |
| DIE("Input harp data error."); | DIE("Input harp data error."); |
| nrecs = mharpRS->n; | nrecs = mharpRS->n; |
|
|
|
| /* Records in work */ | /* Records in work */ |
| | |
| DRMS_Record_t *mharpRec = NULL, *bharpRec = NULL; | DRMS_Record_t *mharpRec = NULL, *bharpRec = NULL; |
| |
|
| mharpRec = mharpRS->records[irec]; | mharpRec = mharpRS->records[irec]; |
| bharpRec = bharpRS->records[irec]; |
|
| | |
| TIME trec = drms_getkey_time(mharpRec, "T_REC", &status); | TIME trec = drms_getkey_time(mharpRec, "T_REC", &status); |
| | |
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if (!fullDisk) { |
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bharpRec = bharpRS->records[irec]; |
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} else { |
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if (getInputRec_aux(&bharpRec, bharpRS, trec)) { // Bharp point to full disk B |
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printf("Fetching B failed, image #%d skipped.\n", irec); |
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continue; |
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} |
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} |
| |
|
| struct swIndex swKeys; | struct swIndex swKeys; |
| | |
| DRMS_Record_t *dopRec = NULL, *contRec = NULL; | DRMS_Record_t *dopRec = NULL, *contRec = NULL; |
| |
|
| if (getInputRec_aux(&dopRec, dopRS, trec)) { | if (getInputRec_aux(&dopRec, dopRS, trec)) { |
| printf("Fetching Doppler failed, image #%d skipped.\n", irec); | printf("Fetching Doppler failed, image #%d skipped.\n", irec); |
| continue; | continue; |
| Line 449 int getInputRS(DRMS_RecordSet_t **mharpR |
|
| Line 545 int getInputRS(DRMS_RecordSet_t **mharpR |
|
| *mharpRS_ptr = drms_open_records(drms_env, mharpQuery, &status); | *mharpRS_ptr = drms_open_records(drms_env, mharpQuery, &status); |
| if (status || (*mharpRS_ptr)->n == 0) return 1; | if (status || (*mharpRS_ptr)->n == 0) return 1; |
| | |
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if (fullDisk) { |
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if (getInputRS_aux(bharpRS_ptr, bharpQuery, *mharpRS_ptr)) return 1; |
| |
} else { |
| *bharpRS_ptr = drms_open_records(drms_env, bharpQuery, &status); | *bharpRS_ptr = drms_open_records(drms_env, bharpQuery, &status); |
| if (status || (*bharpRS_ptr)->n == 0) return 1; | if (status || (*bharpRS_ptr)->n == 0) return 1; |
| |
|
| if (compareHarp((*mharpRS_ptr), (*bharpRS_ptr))) return 1; | if (compareHarp((*mharpRS_ptr), (*bharpRS_ptr))) return 1; |
| |
} |
| | |
| return 0; | return 0; |
| | |
| Line 578 int createCeaRecord(DRMS_Record_t *mharp |
|
| Line 677 int createCeaRecord(DRMS_Record_t *mharp |
|
| mInfo.proj = (enum projection) cyleqa; // projection method | mInfo.proj = (enum projection) cyleqa; // projection method |
| mInfo.xscale = XSCALE; | mInfo.xscale = XSCALE; |
| mInfo.yscale = YSCALE; | mInfo.yscale = YSCALE; |
| mInfo.nbin = NBIN; |
|
| |
int ncol0, nrow0; // oversampled map size |
| | |
| // Get ephemeris | // Get ephemeris |
| | |
| Line 594 int createCeaRecord(DRMS_Record_t *mharp |
|
| Line 694 int createCeaRecord(DRMS_Record_t *mharp |
|
| return 1; | return 1; |
| } | } |
| | |
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// ======================================== |
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// Do this for all bitmaps, Aug 12 2013 XS |
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// ======================================== |
| |
|
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mInfo.nbin = 1; // for bitmaps. suppress anti-aliasing |
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ncol0 = mInfo.ncol; |
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nrow0 = mInfo.nrow; |
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|
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mInfo.xi_out = (float *) (malloc(ncol0 * nrow0 * sizeof(float))); |
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mInfo.zeta_out = (float *) (malloc(ncol0 * nrow0 * sizeof(float))); |
| |
|
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findCoord(&mInfo); // compute it here so it could be shared by the following 4 functions |
| |
|
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if (mapScaler(sharpRec, mharpRec, mharpRec, &mInfo, "bitmap")) { |
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SHOW("CEA: mapping bitmap error\n"); |
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return 1; |
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} |
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printf("Bitmap mapping done.\n"); |
| |
|
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if (mapScaler(sharpRec, bharpRec, mharpRec, &mInfo, "conf_disambig")) { |
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SHOW("CEA: mapping conf_disambig error\n"); |
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return 1; |
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} |
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printf("Conf disambig mapping done.\n"); |
| |
|
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free(mInfo.xi_out); |
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free(mInfo.zeta_out); |
| |
|
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// ======================================== |
| |
// Do this again for floats, Aug 12 2013 XS |
| |
// ======================================== |
| // Create xi_out, zeta_out array in mInfo: | // Create xi_out, zeta_out array in mInfo: |
| // Coordinates to sample in original full disk image | // Coordinates to sample in original full disk image |
| | |
| int ncol0, nrow0; // oversampled map size |
mInfo.nbin = NBIN; |
| ncol0 = mInfo.ncol * mInfo.nbin + (mInfo.nbin / 2) * 2; // pad with nbin/2 on edge to avoid NAN | ncol0 = mInfo.ncol * mInfo.nbin + (mInfo.nbin / 2) * 2; // pad with nbin/2 on edge to avoid NAN |
| nrow0 = mInfo.nrow * mInfo.nbin + (mInfo.nbin / 2) * 2; | nrow0 = mInfo.nrow * mInfo.nbin + (mInfo.nbin / 2) * 2; |
| | |
| Line 612 int createCeaRecord(DRMS_Record_t *mharp |
|
| Line 743 int createCeaRecord(DRMS_Record_t *mharp |
|
| SHOW("CEA: mapping magnetogram error\n"); | SHOW("CEA: mapping magnetogram error\n"); |
| return 1; | return 1; |
| } | } |
| if (mapScaler(sharpRec, mharpRec, mharpRec, &mInfo, "bitmap")) { |
|
| SHOW("CEA: mapping bitmap error\n"); |
|
| return 1; |
|
| } |
|
| printf("Magnetogram mapping done.\n"); | printf("Magnetogram mapping done.\n"); |
| | |
| if (mapScaler(sharpRec, dopRec, mharpRec, &mInfo, "Dopplergram")) { | if (mapScaler(sharpRec, dopRec, mharpRec, &mInfo, "Dopplergram")) { |
| Line 630 int createCeaRecord(DRMS_Record_t *mharp |
|
| Line 757 int createCeaRecord(DRMS_Record_t *mharp |
|
| } | } |
| printf("Intensitygram mapping done.\n"); | printf("Intensitygram mapping done.\n"); |
| | |
| if (mapScaler(sharpRec, bharpRec, mharpRec, &mInfo, "conf_disambig")) { |
|
| SHOW("CEA: mapping conf_disambig error\n"); |
|
| return 1; |
|
| } |
|
| printf("Conf disambig mapping done.\n"); |
|
| |
|
| // Mapping vector B | // Mapping vector B |
| | |
| if (mapVectorB(sharpRec, bharpRec, &mInfo)) { | if (mapVectorB(sharpRec, bharpRec, &mInfo)) { |
| Line 657 int createCeaRecord(DRMS_Record_t *mharp |
|
| Line 778 int createCeaRecord(DRMS_Record_t *mharp |
|
| drms_copykey(sharpRec, mharpRec, "T_REC"); | drms_copykey(sharpRec, mharpRec, "T_REC"); |
| drms_copykey(sharpRec, mharpRec, "HARPNUM"); | drms_copykey(sharpRec, mharpRec, "HARPNUM"); |
| | |
| DRMS_Link_t *mHarpLink = hcon_lookup_lower(&sharpRec->links, "MHARP"); |
if (fullDisk) { |
| if (mHarpLink) drms_link_set("MHARP", sharpRec, mharpRec); |
DRMS_Link_t *bLink = hcon_lookup_lower(&sharpRec->links, "B"); |
| |
if (bLink) drms_link_set("B", sharpRec, bharpRec); |
| |
} else { |
| DRMS_Link_t *bHarpLink = hcon_lookup_lower(&sharpRec->links, "BHARP"); | DRMS_Link_t *bHarpLink = hcon_lookup_lower(&sharpRec->links, "BHARP"); |
| if (bHarpLink) drms_link_set("BHARP", sharpRec, bharpRec); | if (bHarpLink) drms_link_set("BHARP", sharpRec, bharpRec); |
| |
} |
| |
DRMS_Link_t *mHarpLink = hcon_lookup_lower(&sharpRec->links, "MHARP"); |
| |
if (mHarpLink) drms_link_set("MHARP", sharpRec, mharpRec); |
| | |
| setKeys(sharpRec, bharpRec, &mInfo); // Set all other keywords |
setKeys(sharpRec, mharpRec, bharpRec, &mInfo); // Set all other keywords |
| drms_copykey(sharpRec, mharpRec, "QUALITY"); // copied from los records | drms_copykey(sharpRec, mharpRec, "QUALITY"); // copied from los records |
| | |
| // Space weather | // Space weather |
| Line 704 int mapScaler(DRMS_Record_t *sharpRec, D |
|
| Line 830 int mapScaler(DRMS_Record_t *sharpRec, D |
|
| int status = 0; | int status = 0; |
| int nx = mInfo->ncol, ny = mInfo->nrow, nxny = nx * ny; | int nx = mInfo->ncol, ny = mInfo->nrow, nxny = nx * ny; |
| int dims[2] = {nx, ny}; | int dims[2] = {nx, ny}; |
| |
int interpOpt = INTERP; // Aug 12 XS, default, overridden below for bitmaps and conf_disambig |
| | |
| // Input full disk array | // Input full disk array |
| | |
| Line 715 int mapScaler(DRMS_Record_t *sharpRec, D |
|
| Line 842 int mapScaler(DRMS_Record_t *sharpRec, D |
|
| inArray = drms_segment_read(inSeg, DRMS_TYPE_FLOAT, &status); | inArray = drms_segment_read(inSeg, DRMS_TYPE_FLOAT, &status); |
| if (!inArray) return 1; | if (!inArray) return 1; |
| | |
| |
if (!strcmp(segName, "conf_disambig") || !strcmp(segName, "bitmap")) { |
| |
// Moved out so it works for FD conf_disambig as well |
| |
// Jan 2 2014 XS |
| |
interpOpt = 3; // Aug 12 XS, near neighbor |
| |
} |
| |
|
| float *inData; | float *inData; |
| int xsz = inArray->axis[0], ysz = inArray->axis[1]; | int xsz = inArray->axis[0], ysz = inArray->axis[1]; |
| if ((xsz != FOURK) || (ysz != FOURK)) { // for bitmap, make tmp full disk | if ((xsz != FOURK) || (ysz != FOURK)) { // for bitmap, make tmp full disk |
| Line 737 int mapScaler(DRMS_Record_t *sharpRec, D |
|
| Line 870 int mapScaler(DRMS_Record_t *sharpRec, D |
|
| // Mapping | // Mapping |
| | |
| float *map = (float *) (malloc(nxny * sizeof(float))); | float *map = (float *) (malloc(nxny * sizeof(float))); |
| if (performSampling(map, inData, mInfo)) |
if (performSampling(map, inData, mInfo, interpOpt)) // Add interpOpt for different types, Aug 12 XS |
| {if (inArray) drms_free_array(inArray); free(map); return 1;} | {if (inArray) drms_free_array(inArray); free(map); return 1;} |
| | |
| // Write out | // Write out |
| Line 800 int mapVectorB(DRMS_Record_t *sharpRec, |
|
| Line 933 int mapVectorB(DRMS_Record_t *sharpRec, |
|
| float *bx_map = NULL, *by_map = NULL, *bz_map = NULL; // intermediate maps, in CCD bxyz representation | float *bx_map = NULL, *by_map = NULL, *bz_map = NULL; // intermediate maps, in CCD bxyz representation |
| | |
| bx_map = (float *) (malloc(nxny * sizeof(float))); | bx_map = (float *) (malloc(nxny * sizeof(float))); |
| if (performSampling(bx_map, bx_img, mInfo)) |
if (performSampling(bx_map, bx_img, mInfo, INTERP)) |
| {free(bx_img); free(by_img); free(bz_img); free(bx_map); return 1;} | {free(bx_img); free(by_img); free(bz_img); free(bx_map); return 1;} |
| | |
| by_map = (float *) (malloc(nxny * sizeof(float))); | by_map = (float *) (malloc(nxny * sizeof(float))); |
| if (performSampling(by_map, by_img, mInfo)) |
if (performSampling(by_map, by_img, mInfo, INTERP)) |
| {free(bx_img); free(by_img); free(bz_img); free(bz_map); return 1;} | {free(bx_img); free(by_img); free(bz_img); free(bz_map); return 1;} |
| | |
| bz_map = (float *) (malloc(nxny * sizeof(float))); | bz_map = (float *) (malloc(nxny * sizeof(float))); |
| if (performSampling(bz_map, bz_img, mInfo)) |
if (performSampling(bz_map, bz_img, mInfo, INTERP)) |
| {free(bx_img); free(by_img); free(bz_img); free(bz_map); return 1;} | {free(bx_img); free(by_img); free(bz_img); free(bz_map); return 1;} |
| | |
| free(bx_img); free(by_img); free(bz_img); | free(bx_img); free(by_img); free(bz_img); |
| Line 916 int findPosition(DRMS_Record_t *inRec, s |
|
| Line 1049 int findPosition(DRMS_Record_t *inRec, s |
|
| float disk_lonc = drms_getkey_float(inRec, "CRLN_OBS", &status); | float disk_lonc = drms_getkey_float(inRec, "CRLN_OBS", &status); |
| | |
| /* Center coord */ | /* Center coord */ |
| |
// Changed into double Jun 16 2014 XS |
| | |
| float minlon = drms_getkey_float(inRec, "LONDTMIN", &status); if (status) return 1; // Stonyhurst lon |
double minlon = drms_getkey_double(inRec, "LONDTMIN", &status); if (status) return 1; // Stonyhurst lon |
| float maxlon = drms_getkey_float(inRec, "LONDTMAX", &status); if (status) return 1; |
double maxlon = drms_getkey_double(inRec, "LONDTMAX", &status); if (status) return 1; |
| float minlat = drms_getkey_float(inRec, "LATDTMIN", &status); if (status) return 1; |
double minlat = drms_getkey_double(inRec, "LATDTMIN", &status); if (status) return 1; |
| float maxlat = drms_getkey_float(inRec, "LATDTMAX", &status); if (status) return 1; |
double maxlat = drms_getkey_double(inRec, "LATDTMAX", &status); if (status) return 1; |
| | |
| // A bug fixer for HARP (per M. Turmon) | // A bug fixer for HARP (per M. Turmon) |
| // When AR is below threshold, "LONDTMIN", "LONDTMAX" will be wrong | // When AR is below threshold, "LONDTMIN", "LONDTMAX" will be wrong |
| Line 951 int findPosition(DRMS_Record_t *inRec, s |
|
| Line 1085 int findPosition(DRMS_Record_t *inRec, s |
|
| mInfo->yc = (maxlat + minlat) / 2.; | mInfo->yc = (maxlat + minlat) / 2.; |
| | |
| /* Size */ | /* Size */ |
| |
// Rounded to 1.d3 precision first. Jun 16 2014 XS |
| | |
| mInfo->ncol = round((maxlon - minlon) / mInfo->xscale); |
mInfo->ncol = round(round((maxlon - minlon) * 1.e3) / 1.e3 / mInfo->xscale); |
| mInfo->nrow = round((maxlat - minlat) / mInfo->yscale); |
mInfo->nrow = round(round((maxlat - minlat) * 1.e3) / 1.e3 / mInfo->yscale); |
| | |
| return 0; | return 0; |
| | |
| Line 984 int getEphemeris(DRMS_Record_t *inRec, s |
|
| Line 1119 int getEphemeris(DRMS_Record_t *inRec, s |
|
| float crpix1 = drms_getkey_float(inRec, "IMCRPIX1", &status); | float crpix1 = drms_getkey_float(inRec, "IMCRPIX1", &status); |
| float crpix2 = drms_getkey_float(inRec, "IMCRPIX2", &status); | float crpix2 = drms_getkey_float(inRec, "IMCRPIX2", &status); |
| float cdelt = drms_getkey_float(inRec, "CDELT1", &status); // in arcsec, assumimg dx=dy | float cdelt = drms_getkey_float(inRec, "CDELT1", &status); // in arcsec, assumimg dx=dy |
| printf("cdelt=%f\n",cdelt); |
|
| ephem->disk_xc = PIX_X(0.0,0.0) - 1.0; // Center of disk in pixel, starting at 0 | ephem->disk_xc = PIX_X(0.0,0.0) - 1.0; // Center of disk in pixel, starting at 0 |
| ephem->disk_yc = PIX_Y(0.0,0.0) - 1.0; | ephem->disk_yc = PIX_Y(0.0,0.0) - 1.0; |
| | |
| Line 1088 void findCoord(struct mapInfo *mInfo) |
|
| Line 1222 void findCoord(struct mapInfo *mInfo) |
|
| * | * |
| */ | */ |
| | |
| int performSampling(float *outData, float *inData, struct mapInfo *mInfo) |
int performSampling(float *outData, float *inData, struct mapInfo *mInfo, int interpOpt) |
| { | { |
| | |
| int status = 0; | int status = 0; |
| |
int ind_map; |
| | |
| int ncol0 = mInfo->ncol * mInfo->nbin + (mInfo->nbin / 2) * 2; // pad with nbin/2 on edge to avoid NAN | int ncol0 = mInfo->ncol * mInfo->nbin + (mInfo->nbin / 2) * 2; // pad with nbin/2 on edge to avoid NAN |
| int nrow0 = mInfo->nrow * mInfo->nbin + (mInfo->nbin / 2) * 2; | int nrow0 = mInfo->nrow * mInfo->nbin + (mInfo->nbin / 2) * 2; |
| | |
| float *outData0 = (float *) (malloc(ncol0 * nrow0 * sizeof(float))); |
// Changed Aug 12 2013, XS, for bitmaps |
| |
float *outData0; |
| |
if (interpOpt == 3 && mInfo->nbin == 1) { |
| |
outData0 = outData; |
| |
} else { |
| |
outData0 = (float *) (malloc(ncol0 * nrow0 * sizeof(float))); |
| |
} |
| | |
| float *xi_out = mInfo->xi_out; | float *xi_out = mInfo->xi_out; |
| float *zeta_out = mInfo->zeta_out; | float *zeta_out = mInfo->zeta_out; |
| Line 1104 int performSampling(float *outData, floa |
|
| Line 1245 int performSampling(float *outData, floa |
|
| // Interpolation | // Interpolation |
| | |
| struct fint_struct pars; | struct fint_struct pars; |
| int interpOpt = INTERP; // Use Wiener by default, 6 order, 1 constraint |
// Aug 12 2013, passed in as argument now |
| | |
| switch (interpOpt) { | switch (interpOpt) { |
| case 0: // Wiener, 6 order, 1 constraint | case 0: // Wiener, 6 order, 1 constraint |
| Line 1116 int performSampling(float *outData, floa |
|
| Line 1257 int performSampling(float *outData, floa |
|
| case 2: // Bilinear | case 2: // Bilinear |
| init_finterpolate_linear(&pars, 1.); | init_finterpolate_linear(&pars, 1.); |
| break; | break; |
| |
case 3: // Near neighbor |
| |
break; |
| default: | default: |
| return 1; | return 1; |
| } | } |
| | |
| |
printf("interpOpt = %d, nbin = %d ", interpOpt, mInfo->nbin); |
| |
if (interpOpt == 3) { // Aug 6 2013, Xudong |
| |
for (int row0 = 0; row0 < nrow0; row0++) { |
| |
for (int col0 = 0; col0 < ncol0; col0++) { |
| |
ind_map = row0 * ncol0 + col0; |
| |
outData0[ind_map] = nnb(inData, FOURK, FOURK, xi_out[ind_map], zeta_out[ind_map]); |
| |
} |
| |
} |
| |
} else { |
| finterpolate(&pars, inData, xi_out, zeta_out, outData0, | finterpolate(&pars, inData, xi_out, zeta_out, outData0, |
| FOURK, FOURK, FOURK, ncol0, nrow0, ncol0, DRMS_MISSING_FLOAT); | FOURK, FOURK, FOURK, ncol0, nrow0, ncol0, DRMS_MISSING_FLOAT); |
| |
} |
| | |
| // Rebinning, smoothing | // Rebinning, smoothing |
| | |
| |
if (interpOpt == 3 && mInfo->nbin == 1) { |
| |
return 0; |
| |
} else { |
| frebin(outData0, outData, ncol0, nrow0, mInfo->nbin, 1); // Gaussian | frebin(outData0, outData, ncol0, nrow0, mInfo->nbin, 1); // Gaussian |
| free(outData0); // Dec 18 2012 | free(outData0); // Dec 18 2012 |
| |
} |
| | |
| // | // |
| | |
| Line 1284 int getBErr(float *bx_err, float *by_err |
|
| Line 1441 int getBErr(float *bx_err, float *by_err |
|
| if (sphere2img (lat, lon, disk_latc, disk_lonc, &xi, &zeta, | if (sphere2img (lat, lon, disk_latc, disk_lonc, &xi, &zeta, |
| disk_xc, disk_yc, 1.0, pa, 0., 0., 0., 0.)) { | disk_xc, disk_yc, 1.0, pa, 0., 0., 0., 0.)) { |
| bx_err[ind_map] = DRMS_MISSING_FLOAT; | bx_err[ind_map] = DRMS_MISSING_FLOAT; |
| bx_err[ind_map] = DRMS_MISSING_FLOAT; |
by_err[ind_map] = DRMS_MISSING_FLOAT; |
| bx_err[ind_map] = DRMS_MISSING_FLOAT; |
bz_err[ind_map] = DRMS_MISSING_FLOAT; // Mar 7 |
| continue; | continue; |
| } | } |
| | |
| Line 1365 int readVectorB(DRMS_Record_t *inRec, fl |
|
| Line 1522 int readVectorB(DRMS_Record_t *inRec, fl |
|
| int llx, lly; // lower-left corner | int llx, lly; // lower-left corner |
| int bmx, bmy; // bitmap size | int bmx, bmy; // bitmap size |
| | |
| |
if (fullDisk) { |
| |
llx = lly = 0; |
| |
bmx = bmy = FOURK; |
| |
} else { |
| llx = (int)(drms_getkey_float(inRec, "CRPIX1", &status)) - 1; | llx = (int)(drms_getkey_float(inRec, "CRPIX1", &status)) - 1; |
| lly = (int)(drms_getkey_float(inRec, "CRPIX2", &status)) - 1; | lly = (int)(drms_getkey_float(inRec, "CRPIX2", &status)) - 1; |
| |
|
| bmx = inArray_ambig->axis[0]; | bmx = inArray_ambig->axis[0]; |
| bmy = inArray_ambig->axis[1]; | bmy = inArray_ambig->axis[1]; |
| |
} |
| | |
| int kx, ky, kOff; | int kx, ky, kOff; |
| int ix = 0, jy = 0, yOff = 0, iData = 0; | int ix = 0, jy = 0, yOff = 0, iData = 0; |
| int xDim = FOURK, yDim = FOURK; | int xDim = FOURK, yDim = FOURK; |
| |
int amb = 0; |
| | |
| for (jy = 0; jy < yDim; jy++) | for (jy = 0; jy < yDim; jy++) |
| { | { |
| Line 1396 int readVectorB(DRMS_Record_t *inRec, fl |
|
| Line 1558 int readVectorB(DRMS_Record_t *inRec, fl |
|
| continue; | continue; |
| } else { | } else { |
| kOff = ky * bmx + kx; | kOff = ky * bmx + kx; |
| if (ambig[kOff] % 2) { // 180 |
// if (ambig[kOff] % 2) { // 180 |
| |
// Feb 12 2014, use bit #2 for full disk, lowest bit for patch |
| |
if (fullDisk) { amb = (ambig[kOff] / 4) % 2; } else { amb = ambig[kOff] % 2; } |
| |
if (amb) { // Feb 12 2014, use bit #2 |
| bx_img[iData] *= -1.; by_img[iData] *= -1.; | bx_img[iData] *= -1.; by_img[iData] *= -1.; |
| } | } |
| } | } |
| Line 1436 int readVectorBErr(DRMS_Record_t *inRec, |
|
| Line 1601 int readVectorBErr(DRMS_Record_t *inRec, |
|
| DRMS_Array_t *inArrays[9]; | DRMS_Array_t *inArrays[9]; |
| | |
| // Read full disk images | // Read full disk images |
| |
// Do we need disambig? Dec 30 XS |
| | |
| for (int iSeg = 0; iSeg < 9; iSeg++) { | for (int iSeg = 0; iSeg < 9; iSeg++) { |
| | |
| Line 1449 int readVectorBErr(DRMS_Record_t *inRec, |
|
| Line 1615 int readVectorBErr(DRMS_Record_t *inRec, |
|
| float *errbT0 = data_ptr[3], *errbI0 = data_ptr[4], *errbA0 = data_ptr[5]; | float *errbT0 = data_ptr[3], *errbI0 = data_ptr[4], *errbA0 = data_ptr[5]; |
| float *errbTbI0 = data_ptr[6], *errbTbA0 = data_ptr[7], *errbIbA0 = data_ptr[8]; | float *errbTbI0 = data_ptr[6], *errbTbA0 = data_ptr[7], *errbIbA0 = data_ptr[8]; |
| | |
| |
// Add disambig, Feb 12 2014 |
| |
|
| |
DRMS_Segment_t *inSeg; |
| |
DRMS_Array_t *inArray_ambig; |
| |
|
| |
if (amb4err) { // Mar 4 2014 |
| |
|
| |
inSeg = drms_segment_lookup(inRec, "disambig"); |
| |
inArray_ambig = drms_segment_read(inSeg, DRMS_TYPE_CHAR, &status); |
| |
if (status) return 1; |
| |
char *ambig = (char *)inArray_ambig->data; |
| |
|
| |
int llx, lly; // lower-left corner |
| |
int bmx, bmy; // bitmap size |
| |
|
| |
if (fullDisk) { |
| |
llx = lly = 0; |
| |
bmx = bmy = FOURK; |
| |
} else { |
| |
llx = (int)(drms_getkey_float(inRec, "CRPIX1", &status)) - 1; |
| |
lly = (int)(drms_getkey_float(inRec, "CRPIX2", &status)) - 1; |
| |
bmx = inArray_ambig->axis[0]; |
| |
bmy = inArray_ambig->axis[1]; |
| |
} |
| |
|
| |
int idx, idx_a; |
| |
int amb; |
| |
|
| |
for (int j = 0; j < bmy; j++) { |
| |
for (int i = 0; i < bmx; i++) { |
| |
idx_a = j * bmx + i; |
| |
idx = (j + lly) * FOURK + (i + llx); |
| |
// Feb 12 2014, use bit #2 for full disk, lowest bit for patch |
| |
if (fullDisk) { amb = (ambig[idx_a] / 4) % 2; } else { amb = ambig[idx_a] % 2; } |
| |
if (amb) { bA0[idx] += 180.; } |
| |
} |
| |
} |
| |
|
| |
} |
| |
|
| // Convert errors to variances, correlation coefficients to covariances | // Convert errors to variances, correlation coefficients to covariances |
| | |
| for (int i = 0; i < FOURK2; i++) { | for (int i = 0; i < FOURK2; i++) { |
| Line 1457 int readVectorBErr(DRMS_Record_t *inRec, |
|
| Line 1663 int readVectorBErr(DRMS_Record_t *inRec, |
|
| if (fabs(errbA0[i]) > 180.) errbA0[i] = 180.; | if (fabs(errbA0[i]) > 180.) errbA0[i] = 180.; |
| | |
| bT[i] = bT0[i]; | bT[i] = bT0[i]; |
| bI[i] = bI0[i]; |
bI[i] = bI0[i]; // in deg, coverted in errorprop |
| bA[i] = bA0[i]; | bA[i] = bA0[i]; |
| | |
| errbT[i] = errbT0[i] * errbT0[i]; | errbT[i] = errbT0[i] * errbT0[i]; |
| Line 1473 int readVectorBErr(DRMS_Record_t *inRec, |
|
| Line 1679 int readVectorBErr(DRMS_Record_t *inRec, |
|
| // | // |
| | |
| for (int iSeg = 0; iSeg < 9; iSeg++) drms_free_array(inArrays[iSeg]); | for (int iSeg = 0; iSeg < 9; iSeg++) drms_free_array(inArrays[iSeg]); |
| |
if (amb4err) drms_free_array(inArray_ambig); // Feb 12; Mar 04 2014 |
| | |
| return 0; | return 0; |
| | |
| Line 1548 int createCutRecord(DRMS_Record_t *mharp |
|
| Line 1755 int createCutRecord(DRMS_Record_t *mharp |
|
| if (bHarpLink) drms_link_set("BHARP", sharpRec, bharpRec); | if (bHarpLink) drms_link_set("BHARP", sharpRec, bharpRec); |
| | |
| setSWIndex(sharpRec, swKeys_ptr); // Set space weather indices | setSWIndex(sharpRec, swKeys_ptr); // Set space weather indices |
| setKeys(sharpRec, bharpRec, NULL); // Set all other keywords, NULL specifies cutout |
setKeys(sharpRec, mharpRec, bharpRec, NULL); // Set all other keywords, NULL specifies cutout |
| | |
| // Stats | // Stats |
| | |
| Line 1605 int writeCutout(DRMS_Record_t *outRec, D |
|
| Line 1812 int writeCutout(DRMS_Record_t *outRec, D |
|
| return 1; | return 1; |
| } | } |
| | |
| |
// Feb 12 2014, fool-proof, for patch, change everything to 0 or 7!!! |
| |
// This is a fix for disambiguation before Aug 2013 |
| |
|
| |
if (!strcmp(SegName, "disambig") && !fullDisk) { |
| |
double *disamb = (double *) (cutoutArray->data); |
| |
for (int i = 0; i < nxny; i++) { |
| |
if (((int)disamb[i]) % 2) { disamb[i] = 7; } else { disamb[i] = 0; } |
| |
} |
| |
} |
| |
|
| /* Adding disambiguation resolution to cutout azimuth? */ | /* Adding disambiguation resolution to cutout azimuth? */ |
| | |
| #if DISAMB_AZI | #if DISAMB_AZI |
| |
int amb; |
| if (!strcmp(SegName, "azimuth")) { | if (!strcmp(SegName, "azimuth")) { |
| DRMS_Segment_t *disambSeg = NULL; | DRMS_Segment_t *disambSeg = NULL; |
| disambSeg = drms_segment_lookup(inRec, "disambig"); | disambSeg = drms_segment_lookup(inRec, "disambig"); |
| if (!disambSeg) {drms_free_array(cutoutArray); return 1;} | if (!disambSeg) {drms_free_array(cutoutArray); return 1;} |
| DRMS_Array_t *disambArray; | DRMS_Array_t *disambArray; |
| |
if (fullDisk) { // Jan 2 2014 XS |
| |
disambArray = drms_segment_readslice(disambSeg, DRMS_TYPE_CHAR, ll, ur, &status); |
| |
if (status) return 1; |
| |
} else { |
| if (disambSeg->axis[0] == nx && disambSeg->axis[1] == ny) { | if (disambSeg->axis[0] == nx && disambSeg->axis[1] == ny) { |
| disambArray = drms_segment_read(disambSeg, DRMS_TYPE_CHAR, &status); | disambArray = drms_segment_read(disambSeg, DRMS_TYPE_CHAR, &status); |
| if (status) {drms_free_array(cutoutArray); return 1;} | if (status) {drms_free_array(cutoutArray); return 1;} |
| Line 1620 int writeCutout(DRMS_Record_t *outRec, D |
|
| Line 1842 int writeCutout(DRMS_Record_t *outRec, D |
|
| drms_free_array(cutoutArray); | drms_free_array(cutoutArray); |
| return 1; | return 1; |
| } | } |
| |
} |
| double *azimuth = (double *) cutoutArray->data; | double *azimuth = (double *) cutoutArray->data; |
| char *disamb = (char *) disambArray->data; | char *disamb = (char *) disambArray->data; |
| for (int n = 0; n < nxny; n++) { | for (int n = 0; n < nxny; n++) { |
| if (disamb[n]) azimuth[n] += 180.; |
// if (disamb[n] % 2) azimuth[n] += 180.; // Nov 12 2013 Fixed!!! |
| |
// Feb 12 2014, use bit #2 for full disk, lowest bit for patch |
| |
if (fullDisk) { amb = (disamb[n] / 4) % 2; } else { amb = disamb[n] % 2; } |
| |
if (amb) azimuth[n] += 180.; |
| } | } |
| drms_free_array(disambArray); | drms_free_array(disambArray); |
| } | } |
| Line 1663 void computeSWIndex(struct swIndex *swKe |
|
| Line 1889 void computeSWIndex(struct swIndex *swKe |
|
| int nx = mInfo->ncol, ny = mInfo->nrow; | int nx = mInfo->ncol, ny = mInfo->nrow; |
| int nxny = nx * ny; | int nxny = nx * ny; |
| int dims[2] = {nx, ny}; | int dims[2] = {nx, ny}; |
| |
|
| // Get bx, by, bz, mask | // Get bx, by, bz, mask |
| | |
| // Use HARP (Turmon) bitmap as a threshold on spaceweather quantities | // Use HARP (Turmon) bitmap as a threshold on spaceweather quantities |
| Line 1688 void computeSWIndex(struct swIndex *swKe |
|
| Line 1915 void computeSWIndex(struct swIndex *swKe |
|
| DRMS_Array_t *bzArray = drms_segment_read(bzSeg, DRMS_TYPE_FLOAT, &status); | DRMS_Array_t *bzArray = drms_segment_read(bzSeg, DRMS_TYPE_FLOAT, &status); |
| float *bz = (float *) bzArray->data; // bz | float *bz = (float *) bzArray->data; // bz |
| | |
| // Get emphemeris |
//Use magnetogram map to compute R |
| |
DRMS_Segment_t *losSeg = drms_segment_lookup(inRec, "magnetogram"); |
| |
DRMS_Array_t *losArray = drms_segment_read(losSeg, DRMS_TYPE_FLOAT, &status); |
| |
float *los = (float *) losArray->data; // los |
| |
|
| |
DRMS_Segment_t *bz_errSeg = drms_segment_lookup(inRec, BR_ERR_SEG_CEA); |
| |
DRMS_Array_t *bz_errArray = drms_segment_read(bz_errSeg, DRMS_TYPE_FLOAT, &status); |
| |
float *bz_err = (float *) bz_errArray->data; // bz_err |
| |
|
| |
DRMS_Segment_t *by_errSeg = drms_segment_lookup(inRec, BT_ERR_SEG_CEA); |
| |
DRMS_Array_t *by_errArray = drms_segment_read(by_errSeg, DRMS_TYPE_FLOAT, &status); |
| |
float *by_err = (float *) by_errArray->data; // by_err |
| |
//for (int i = 0; i < nxny; i++) by_err[i] *= -1; |
| |
|
| |
DRMS_Segment_t *bx_errSeg = drms_segment_lookup(inRec, BP_ERR_SEG_CEA); |
| |
DRMS_Array_t *bx_errArray = drms_segment_read(bx_errSeg, DRMS_TYPE_FLOAT, &status); |
| |
float *bx_err = (float *) bx_errArray->data; // bx_err |
| | |
| //float cdelt1_orig = drms_getkey_float(inRec, "CDELT1", &status); |
// Get emphemeris |
| float cdelt1 = drms_getkey_float(inRec, "CDELT1", &status); |
float cdelt1_orig = drms_getkey_float(inRec, "CDELT1", &status); |
| float dsun_obs = drms_getkey_float(inRec, "DSUN_OBS", &status); | float dsun_obs = drms_getkey_float(inRec, "DSUN_OBS", &status); |
| double rsun_ref = drms_getkey_double(inRec, "RSUN_REF", &status); | double rsun_ref = drms_getkey_double(inRec, "RSUN_REF", &status); |
| double rsun_obs = drms_getkey_double(inRec, "RSUN_OBS", &status); | double rsun_obs = drms_getkey_double(inRec, "RSUN_OBS", &status); |
| Line 1700 void computeSWIndex(struct swIndex *swKe |
|
| Line 1943 void computeSWIndex(struct swIndex *swKe |
|
| float crpix1 = drms_getkey_float(inRec, "CRPIX1", &status); | float crpix1 = drms_getkey_float(inRec, "CRPIX1", &status); |
| float crpix2 = drms_getkey_float(inRec, "CRPIX2", &status); | float crpix2 = drms_getkey_float(inRec, "CRPIX2", &status); |
| | |
| //float cdelt1=( (rsun_ref*cdelt1_orig*PI/180.) / (dsun_obs) )*(180./PI)*(3600.); //convert cdelt1 from degrees to arcsec (approximately) |
// convert cdelt1_orig from degrees to arcsec |
| |
float cdelt1 = (atan((rsun_ref*cdelt1_orig*RADSINDEG)/(dsun_obs)))*(1/RADSINDEG)*(3600.); |
| | |
| printf("cdelt1=%f\n",cdelt1); |
//if (nx1 > floor((nx-1)/scale + 1) ) |
| printf("rsun_ref=%f\n",rsun_ref); |
// DIE("X-dimension of output array in fsample() is too large."); |
| printf("rsun_obs=%f\n",rsun_obs); |
//if (ny1 > floor((ny-1)/scale + 1) ) |
| printf("dsun_obs=%f\n",dsun_obs); |
// DIE("Y-dimension of output array in fsample() is too large."); |
| | |
| // Temp arrays | // Temp arrays |
| |
|
| float *bh = (float *) (malloc(nxny * sizeof(float))); | float *bh = (float *) (malloc(nxny * sizeof(float))); |
| float *bt = (float *) (malloc(nxny * sizeof(float))); | float *bt = (float *) (malloc(nxny * sizeof(float))); |
| float *jz = (float *) (malloc(nxny * sizeof(float))); | float *jz = (float *) (malloc(nxny * sizeof(float))); |
| Line 1724 void computeSWIndex(struct swIndex *swKe |
|
| Line 1967 void computeSWIndex(struct swIndex *swKe |
|
| float *dery_bh = (float *) (malloc(nxny * sizeof(float))); | float *dery_bh = (float *) (malloc(nxny * sizeof(float))); |
| float *derx_bz = (float *) (malloc(nxny * sizeof(float))); | float *derx_bz = (float *) (malloc(nxny * sizeof(float))); |
| float *dery_bz = (float *) (malloc(nxny * sizeof(float))); | float *dery_bz = (float *) (malloc(nxny * sizeof(float))); |
| |
float *bt_err = (float *) (malloc(nxny * sizeof(float))); |
| // The Computations |
float *bh_err = (float *) (malloc(nxny * sizeof(float))); |
| |
float *jz_err = (float *) (malloc(nxny * sizeof(float))); |
| if (computeAbsFlux(bz, dims, &(swKeys_ptr->absFlux), &(swKeys_ptr->mean_vf), |
float *jz_err_squared = (float *) (malloc(nxny * sizeof(float))); |
| mask, bitmask, cdelt1, rsun_ref, rsun_obs)){ |
float *jz_err_squared_smooth = (float *) (malloc(nxny * sizeof(float))); |
| |
float *jz_rms_err = (float *) (malloc(nxny * sizeof(float))); |
| |
|
| |
// define some values for the R calculation |
| |
int scale = round(2.0/cdelt1); |
| |
int nx1 = nx/scale; |
| |
int ny1 = ny/scale; |
| |
int nxp = nx1+40; |
| |
int nyp = ny1+40; |
| |
float *rim = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
float *p1p0 = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
float *p1n0 = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
float *p1p = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
float *p1n = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
float *p1 = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
float *pmap = (float *)malloc(nxp*nyp*sizeof(float)); |
| |
float *p1pad = (float *)malloc(nxp*nyp*sizeof(float)); |
| |
float *pmapn = (float *)malloc(nx1*ny1*sizeof(float)); |
| |
|
| |
// define some arrays for the lorentz force calculation |
| |
float *fx = (float *) (malloc(nxny * sizeof(float))); |
| |
float *fy = (float *) (malloc(nxny * sizeof(float))); |
| |
float *fz = (float *) (malloc(nxny * sizeof(float))); |
| |
|
| |
|
| |
//spaceweather quantities computed |
| |
if (computeAbsFlux(bz_err, bz , dims, &(swKeys_ptr->absFlux), &(swKeys_ptr->mean_vf), &(swKeys_ptr->mean_vf_err), |
| |
&(swKeys_ptr->count_mask), mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
| |
{ |
| swKeys_ptr->absFlux = DRMS_MISSING_FLOAT; // If fail, fill in NaN | swKeys_ptr->absFlux = DRMS_MISSING_FLOAT; // If fail, fill in NaN |
| swKeys_ptr->mean_vf = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_vf = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_vf_err = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->count_mask = DRMS_MISSING_INT; |
| } | } |
| | |
| for (int i = 0; i < nxny; i++) bpz[i] = bz[i]; | for (int i = 0; i < nxny; i++) bpz[i] = bz[i]; |
| greenpot(bpx, bpy, bpz, nx, ny); | greenpot(bpx, bpy, bpz, nx, ny); |
| | |
| computeBh(bx, by, bz, bh, dims, &(swKeys_ptr->mean_hf), mask, bitmask); |
computeBh(bx_err, by_err, bh_err, bx, by, bz, bh, dims, &(swKeys_ptr->mean_hf), mask, bitmask); |
| | |
| if (computeGamma(bx, by, bz, bh, dims, &(swKeys_ptr->mean_gamma), mask, bitmask)) |
if (computeGamma(bz_err, bh_err, bx, by, bz, bh, dims, &(swKeys_ptr->mean_gamma), &(swKeys_ptr->mean_gamma_err),mask, bitmask)) |
| |
{ |
| swKeys_ptr->mean_gamma = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_gamma = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_gamma_err = DRMS_MISSING_FLOAT; |
| |
} |
| | |
| computeB_total(bx, by, bz, bt, dims, mask, bitmask); |
computeB_total(bx_err, by_err, bz_err, bt_err, bx, by, bz, bt, dims, mask, bitmask); |
| | |
| if (computeBtotalderivative(bt, dims, &(swKeys_ptr->mean_derivative_btotal), mask, bitmask, derx_bt, dery_bt)) |
if (computeBtotalderivative(bt, dims, &(swKeys_ptr->mean_derivative_btotal), mask, bitmask, derx_bt, |
| |
dery_bt, bt_err, &(swKeys_ptr->mean_derivative_btotal_err))) |
| |
{ |
| swKeys_ptr->mean_derivative_btotal = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_derivative_btotal = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_derivative_btotal_err = DRMS_MISSING_FLOAT; |
| |
} |
| | |
| if (computeBhderivative(bh, dims, &(swKeys_ptr->mean_derivative_bh), mask, bitmask, derx_bh, dery_bh)) |
if (computeBhderivative(bh, bh_err, dims, &(swKeys_ptr->mean_derivative_bh), |
| |
&(swKeys_ptr->mean_derivative_bh_err), mask, bitmask, derx_bh, dery_bh)) |
| |
{ |
| swKeys_ptr->mean_derivative_bh = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_derivative_bh = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_derivative_bh_err = DRMS_MISSING_FLOAT; |
| |
} |
| | |
| if (computeBzderivative(bz, dims, &(swKeys_ptr->mean_derivative_bz), mask, bitmask, derx_bz, dery_bz)) |
if (computeBzderivative(bz, bz_err, dims, &(swKeys_ptr->mean_derivative_bz), &(swKeys_ptr->mean_derivative_bz_err), |
| |
mask, bitmask, derx_bz, dery_bz)) |
| |
{ |
| swKeys_ptr->mean_derivative_bz = DRMS_MISSING_FLOAT; // If fail, fill in NaN | swKeys_ptr->mean_derivative_bz = DRMS_MISSING_FLOAT; // If fail, fill in NaN |
| |
swKeys_ptr->mean_derivative_bz_err = DRMS_MISSING_FLOAT; |
| |
} |
| | |
| computeJz(bx, by, dims, jz, mask, bitmask, cdelt1, rsun_ref, rsun_obs, derx, dery); |
computeJz(bx_err, by_err, bx, by, dims, jz, jz_err, jz_err_squared, mask, bitmask, cdelt1, rsun_ref, rsun_obs, |
| |
derx, dery); |
| | |
| struct fresize_struct convolution_array; |
|
| init_fresize_gaussian(&convolution_array, 4.0f, 12, 1); |
|
| fresize(&convolution_array, jz, jz_smooth, nx, ny, nx, nx, ny, nx, 0, 0, 0.0f); |
|
| | |
| if(computeJzsmooth(bx, by, dims, jz_smooth, &(swKeys_ptr->mean_jz), &(swKeys_ptr->us_i), mask, bitmask, |
if(computeJzsmooth(bx, by, dims, jz, jz_smooth, jz_err, jz_rms_err, jz_err_squared_smooth, &(swKeys_ptr->mean_jz), |
| cdelt1, rsun_ref, rsun_obs, derx, dery)) |
&(swKeys_ptr->mean_jz_err), &(swKeys_ptr->us_i), &(swKeys_ptr->us_i_err), mask, bitmask, cdelt1, |
| |
rsun_ref, rsun_obs, derx, dery)) |
| { | { |
| swKeys_ptr->mean_jz = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_jz = DRMS_MISSING_FLOAT; |
| swKeys_ptr->us_i = DRMS_MISSING_FLOAT; | swKeys_ptr->us_i = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_jz_err = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->us_i_err = DRMS_MISSING_FLOAT; |
| } | } |
| printf("swKeys_ptr->mean_jz=%f\n",swKeys_ptr->mean_jz); |
|
| |
|
| | |
| if (computeAlpha(bz, dims, jz_smooth, &(swKeys_ptr->mean_alpha), mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
if (computeAlpha(jz_err, bz_err, bz, dims, jz, jz_smooth, &(swKeys_ptr->mean_alpha), &(swKeys_ptr->mean_alpha_err), |
| |
mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
| |
{ |
| swKeys_ptr->mean_alpha = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_alpha = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_alpha_err = DRMS_MISSING_FLOAT; |
| |
} |
| | |
| if (computeHelicity(bz, dims, jz_smooth, &(swKeys_ptr->mean_ih), |
if (computeHelicity(jz_err, jz_rms_err, bz_err, bz, dims, jz, &(swKeys_ptr->mean_ih), &(swKeys_ptr->mean_ih_err), |
| &(swKeys_ptr->total_us_ih), &(swKeys_ptr->total_abs_ih), | &(swKeys_ptr->total_us_ih), &(swKeys_ptr->total_abs_ih), |
| mask, bitmask, cdelt1, rsun_ref, rsun_obs)) { |
&(swKeys_ptr->total_us_ih_err), &(swKeys_ptr->total_abs_ih_err), mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
| |
{ |
| swKeys_ptr->mean_ih = DRMS_MISSING_FLOAT; | swKeys_ptr->mean_ih = DRMS_MISSING_FLOAT; |
| swKeys_ptr->total_us_ih = DRMS_MISSING_FLOAT; | swKeys_ptr->total_us_ih = DRMS_MISSING_FLOAT; |
| swKeys_ptr->total_abs_ih = DRMS_MISSING_FLOAT; | swKeys_ptr->total_abs_ih = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->mean_ih_err = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->total_us_ih_err = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->total_abs_ih_err = DRMS_MISSING_FLOAT; |
| } | } |
| | |
| if (computeSumAbsPerPolarity(bz, jz_smooth, dims, &(swKeys_ptr->totaljz), |
if (computeSumAbsPerPolarity(jz_err, bz_err, bz, jz, dims, &(swKeys_ptr->totaljz), &(swKeys_ptr->totaljz_err), |
| mask, bitmask, cdelt1, rsun_ref, rsun_obs)) | mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
| |
{ |
| swKeys_ptr->totaljz = DRMS_MISSING_FLOAT; | swKeys_ptr->totaljz = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->totaljz_err = DRMS_MISSING_FLOAT; |
| |
} |
| | |
| |
if (computeFreeEnergy(bx_err, by_err, bx, by, bpx, bpy, dims, |
| if (computeFreeEnergy(bx, by, bpx, bpy, dims, |
&(swKeys_ptr->meanpot), &(swKeys_ptr->meanpot_err), &(swKeys_ptr->totpot), &(swKeys_ptr->totpot_err), |
| &(swKeys_ptr->meanpot), &(swKeys_ptr->totpot), |
mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
| mask, bitmask, cdelt1, rsun_ref, rsun_obs)) { |
{ |
| swKeys_ptr->meanpot = DRMS_MISSING_FLOAT; // If fail, fill in NaN | swKeys_ptr->meanpot = DRMS_MISSING_FLOAT; // If fail, fill in NaN |
| swKeys_ptr->totpot = DRMS_MISSING_FLOAT; | swKeys_ptr->totpot = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->meanpot_err = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->totpot_err = DRMS_MISSING_FLOAT; |
| } | } |
| | |
| if (computeShearAngle(bx, by, bz, bpx, bpy, bpz, dims, |
|
| &(swKeys_ptr->meanshear_angle), &(swKeys_ptr->area_w_shear_gt_45), |
if (computeShearAngle(bx_err, by_err, bz_err, bx, by, bz, bpx, bpy, bpz, dims, |
| &(swKeys_ptr->meanshear_angleh), &(swKeys_ptr->area_w_shear_gt_45h), |
&(swKeys_ptr->meanshear_angle), &(swKeys_ptr->meanshear_angle_err), &(swKeys_ptr->area_w_shear_gt_45), |
| mask, bitmask)) { |
mask, bitmask)) |
| |
{ |
| swKeys_ptr->meanshear_angle = DRMS_MISSING_FLOAT; // If fail, fill in NaN | swKeys_ptr->meanshear_angle = DRMS_MISSING_FLOAT; // If fail, fill in NaN |
| swKeys_ptr->area_w_shear_gt_45 = DRMS_MISSING_FLOAT; | swKeys_ptr->area_w_shear_gt_45 = DRMS_MISSING_FLOAT; |
| swKeys_ptr->meanshear_angleh = DRMS_MISSING_FLOAT; // If fail, fill in NaN |
swKeys_ptr->meanshear_angle_err= DRMS_MISSING_FLOAT; |
| swKeys_ptr->area_w_shear_gt_45h = DRMS_MISSING_FLOAT; |
} |
| |
|
| |
if (computeR(bz_err, los , dims, &(swKeys_ptr->Rparam), cdelt1, rim, p1p0, p1n0, |
| |
p1p, p1n, p1, pmap, nx1, ny1, scale, p1pad, nxp, nyp, pmapn)) |
| |
{ |
| |
swKeys_ptr->Rparam = DRMS_MISSING_FLOAT; // If fail, fill in NaN |
| } | } |
| | |
| // Clean up |
|
| |
if (computeLorentz(bx, by, bz, fx, fy, fz, dims, &(swKeys_ptr->totfx), &(swKeys_ptr->totfy), &(swKeys_ptr->totfz), &(swKeys_ptr->totbsq), |
| |
&(swKeys_ptr->epsx), &(swKeys_ptr->epsy), &(swKeys_ptr->epsz), mask, bitmask, cdelt1, rsun_ref, rsun_obs)) |
| |
{ |
| |
swKeys_ptr->totfx = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->totfy = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->totfz = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->totbsq = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->epsx = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->epsy = DRMS_MISSING_FLOAT; |
| |
swKeys_ptr->epsz = DRMS_MISSING_FLOAT; |
| |
|
| |
} |
| |
|
| |
|
| |
// Clean up the arrays |
| | |
| drms_free_array(bitmaskArray); // Dec 18 2012 Xudong | drms_free_array(bitmaskArray); // Dec 18 2012 Xudong |
| drms_free_array(maskArray); | drms_free_array(maskArray); |
| drms_free_array(bxArray); | drms_free_array(bxArray); |
| drms_free_array(byArray); | drms_free_array(byArray); |
| drms_free_array(bzArray); | drms_free_array(bzArray); |
| |
drms_free_array(losArray); // Mar 7 |
| |
drms_free_array(bx_errArray); |
| |
drms_free_array(by_errArray); |
| |
drms_free_array(bz_errArray); |
| | |
| free(bh); free(bt); free(jz); free(jz_smooth); | free(bh); free(bt); free(jz); free(jz_smooth); |
| free(bpx); free(bpy); free(bpz); | free(bpx); free(bpy); free(bpz); |
| Line 1814 void computeSWIndex(struct swIndex *swKe |
|
| Line 2139 void computeSWIndex(struct swIndex *swKe |
|
| free(derx_bt); free(dery_bt); | free(derx_bt); free(dery_bt); |
| free(derx_bz); free(dery_bz); | free(derx_bz); free(dery_bz); |
| free(derx_bh); free(dery_bh); | free(derx_bh); free(dery_bh); |
| |
free(bt_err); free(bh_err); free(jz_err); |
| |
free(jz_err_squared); free(jz_rms_err); |
| |
free(jz_err_squared_smooth); |
| |
|
| |
// free the arrays that are related to the r calculation |
| |
free(rim); |
| |
free(p1p0); |
| |
free(p1n0); |
| |
free(p1p); |
| |
free(p1n); |
| |
free(p1); |
| |
free(pmap); |
| |
free(p1pad); |
| |
free(pmapn); |
| | |
| free_fresize(&convolution_array); |
// free the arrays that are related to the lorentz calculation |
| |
free(fx); free(fy); free(fz); |
| } | } |
| | |
| |
|
| /* | /* |
| * Set space weather indices, no error checking for now | * Set space weather indices, no error checking for now |
| * | * |
| Line 1842 void setSWIndex(DRMS_Record_t *outRec, s |
|
| Line 2181 void setSWIndex(DRMS_Record_t *outRec, s |
|
| drms_setkey_float(outRec, "TOTPOT", swKeys_ptr->totpot); | drms_setkey_float(outRec, "TOTPOT", swKeys_ptr->totpot); |
| drms_setkey_float(outRec, "MEANSHR", swKeys_ptr->meanshear_angle); | drms_setkey_float(outRec, "MEANSHR", swKeys_ptr->meanshear_angle); |
| drms_setkey_float(outRec, "SHRGT45", swKeys_ptr->area_w_shear_gt_45); | drms_setkey_float(outRec, "SHRGT45", swKeys_ptr->area_w_shear_gt_45); |
| |
drms_setkey_float(outRec, "CMASK", swKeys_ptr->count_mask); |
| |
drms_setkey_float(outRec, "ERRBT", swKeys_ptr->mean_derivative_btotal_err); |
| |
drms_setkey_float(outRec, "ERRVF", swKeys_ptr->mean_vf_err); |
| |
drms_setkey_float(outRec, "ERRGAM", swKeys_ptr->mean_gamma_err); |
| |
drms_setkey_float(outRec, "ERRBH", swKeys_ptr->mean_derivative_bh_err); |
| |
drms_setkey_float(outRec, "ERRBZ", swKeys_ptr->mean_derivative_bz_err); |
| |
drms_setkey_float(outRec, "ERRJZ", swKeys_ptr->mean_jz_err); |
| |
drms_setkey_float(outRec, "ERRUSI", swKeys_ptr->us_i_err); |
| |
drms_setkey_float(outRec, "ERRALP", swKeys_ptr->mean_alpha_err); |
| |
drms_setkey_float(outRec, "ERRMIH", swKeys_ptr->mean_ih_err); |
| |
drms_setkey_float(outRec, "ERRTUI", swKeys_ptr->total_us_ih_err); |
| |
drms_setkey_float(outRec, "ERRTAI", swKeys_ptr->total_abs_ih_err); |
| |
drms_setkey_float(outRec, "ERRJHT", swKeys_ptr->totaljz_err); |
| |
drms_setkey_float(outRec, "ERRMPOT", swKeys_ptr->meanpot_err); |
| |
drms_setkey_float(outRec, "ERRTPOT", swKeys_ptr->totpot_err); |
| |
drms_setkey_float(outRec, "ERRMSHA", swKeys_ptr->meanshear_angle_err); |
| |
drms_setkey_float(outRec, "R_VALUE", swKeys_ptr->Rparam); |
| |
drms_setkey_float(outRec, "TOTFX", swKeys_ptr->totfx); |
| |
drms_setkey_float(outRec, "TOTFY", swKeys_ptr->totfy); |
| |
drms_setkey_float(outRec, "TOTFZ", swKeys_ptr->totfz); |
| |
drms_setkey_float(outRec, "TOTBSQ", swKeys_ptr->totbsq); |
| |
drms_setkey_float(outRec, "EPSX", swKeys_ptr->epsx); |
| |
drms_setkey_float(outRec, "EPSY", swKeys_ptr->epsy); |
| |
drms_setkey_float(outRec, "EPSZ", swKeys_ptr->epsz); |
| }; | }; |
| | |
| |
|
| /* | /* |
| * Set all keywords, no error checking for now | * Set all keywords, no error checking for now |
| * | * |
| */ | */ |
| | |
| void setKeys(DRMS_Record_t *outRec, DRMS_Record_t *inRec, struct mapInfo *mInfo) |
void setKeys(DRMS_Record_t *outRec, DRMS_Record_t *mharpRec, DRMS_Record_t *bharpRec, struct mapInfo *mInfo) |
| { | { |
| copy_me_keys(inRec, outRec); |
|
| copy_patch_keys(inRec, outRec); |
copy_me_keys(bharpRec, outRec); |
| copy_geo_keys(inRec, outRec); |
copy_patch_keys(mharpRec, outRec); // Dec 30 |
| copy_ambig_keys(inRec, outRec); |
copy_geo_keys(mharpRec, outRec); // Dec 30 |
| |
copy_ambig_keys(bharpRec, outRec); |
| | |
| int status = 0; | int status = 0; |
| | |
| // Change a few geometry keywords for CEA records |
// Change a few geometry keywords for CEA & cutout records |
| if (mInfo != NULL) { |
if (mInfo != NULL) { // CEA |
| | |
| drms_setkey_float(outRec, "CRPIX1", mInfo->ncol/2. + 0.5); | drms_setkey_float(outRec, "CRPIX1", mInfo->ncol/2. + 0.5); |
| drms_setkey_float(outRec, "CRPIX2", mInfo->nrow/2. + 0.5); | drms_setkey_float(outRec, "CRPIX2", mInfo->nrow/2. + 0.5); |
| Line 1879 void setKeys(DRMS_Record_t *outRec, DRMS |
|
| Line 2242 void setKeys(DRMS_Record_t *outRec, DRMS |
|
| drms_setkey_string(outRec, "CTYPE2", key); | drms_setkey_string(outRec, "CTYPE2", key); |
| drms_setkey_float(outRec, "CROTA2", 0.0); | drms_setkey_float(outRec, "CROTA2", 0.0); |
| | |
| } else { |
// Jan 2 2014 XS |
| |
int nSeg = ARRLENGTH(CEASegs); |
| |
for (int iSeg = 0; iSeg < nSeg; iSeg++) { |
| |
DRMS_Segment_t *outSeg = NULL; |
| |
outSeg = drms_segment_lookup(outRec, CEASegs[iSeg]); |
| |
if (!outSeg) continue; |
| |
// Set Bunit |
| |
char bunit_xxx[20]; |
| |
sprintf(bunit_xxx, "BUNIT_%03d", iSeg); |
| |
//printf("%s, %s\n", bunit_xxx, CEABunits[iSeg]); |
| |
drms_setkey_string(outRec, bunit_xxx, CEABunits[iSeg]); |
| |
} |
| | |
| float disk_xc = drms_getkey_float(inRec, "IMCRPIX1", &status); |
} else { // Cutout |
| float disk_yc = drms_getkey_float(inRec, "IMCRPIX2", &status); |
|
| float x_ll = drms_getkey_float(inRec, "CRPIX1", &status); |
float disk_xc, disk_yc; |
| float y_ll = drms_getkey_float(inRec, "CRPIX2", &status); |
if (fullDisk) { |
| |
disk_xc = drms_getkey_float(bharpRec, "CRPIX1", &status); |
| |
disk_yc = drms_getkey_float(bharpRec, "CRPIX2", &status); |
| |
} else { |
| |
disk_xc = drms_getkey_float(mharpRec, "IMCRPIX1", &status); |
| |
disk_yc = drms_getkey_float(mharpRec, "IMCRPIX2", &status); |
| |
} |
| |
float x_ll = drms_getkey_float(mharpRec, "CRPIX1", &status); |
| |
float y_ll = drms_getkey_float(mharpRec, "CRPIX2", &status); |
| // Defined as disk center's pixel address wrt lower-left of cutout | // Defined as disk center's pixel address wrt lower-left of cutout |
| drms_setkey_float(outRec, "CRPIX1", disk_xc - x_ll + 1.); | drms_setkey_float(outRec, "CRPIX1", disk_xc - x_ll + 1.); |
| drms_setkey_float(outRec, "CRPIX2", disk_yc - y_ll + 1.); | drms_setkey_float(outRec, "CRPIX2", disk_yc - y_ll + 1.); |
| Line 1892 void setKeys(DRMS_Record_t *outRec, DRMS |
|
| Line 2274 void setKeys(DRMS_Record_t *outRec, DRMS |
|
| drms_setkey_float(outRec, "CRVAL1", 0); | drms_setkey_float(outRec, "CRVAL1", 0); |
| drms_setkey_float(outRec, "CRVAL2", 0); | drms_setkey_float(outRec, "CRVAL2", 0); |
| | |
| |
// Jan 2 2014 XS |
| |
int nSeg = ARRLENGTH(CutSegs); |
| |
for (int iSeg = 0; iSeg < nSeg; iSeg++) { |
| |
DRMS_Segment_t *outSeg = NULL; |
| |
outSeg = drms_segment_lookup(outRec, CutSegs[iSeg]); |
| |
if (!outSeg) continue; |
| |
// Set Bunit |
| |
char bunit_xxx[20]; |
| |
sprintf(bunit_xxx, "BUNIT_%03d", iSeg); |
| |
//printf("%s, %s\n", bunit_xxx, CutBunits[iSeg]); |
| |
drms_setkey_string(outRec, bunit_xxx, CutBunits[iSeg]); |
| |
} |
| |
|
| |
|
| } | } |
| | |
| char timebuf[1024]; |
// Mar 19 XS |
| float UNIX_epoch = -220924792.000; /* 1970.01.01_00:00:00_UTC */ |
if (fullDisk) { |
| double val; |
drms_setkey_int(outRec, "AMBPATCH", 0); |
| status = 0; |
drms_setkey_int(outRec, "AMBWEAK", 2); |
| |
} else { |
| val = drms_getkey_double(inRec, "DATE",&status); |
drms_setkey_int(outRec, "AMBPATCH", 1); |
| drms_setkey_double(outRec, "DATE_B", val); |
} |
| sprint_time(timebuf, (double)time(NULL) + UNIX_epoch, "ISO", 0); |
|
| drms_setkey_string(outRec, "DATE", timebuf); |
TIME val, trec, tnow, UNIX_epoch = -220924792.000; /* 1970.01.01_00:00:00_UTC */ |
| |
tnow = (double)time(NULL); |
| |
tnow += UNIX_epoch; |
| |
|
| |
val = drms_getkey_time(bharpRec, "DATE", &status); |
| |
drms_setkey_time(outRec, "DATE_B", val); |
| |
drms_setkey_time(outRec, "DATE", tnow); |
| | |
| // set cvs commit version into keyword HEADER | // set cvs commit version into keyword HEADER |
| char *cvsinfo = strdup("$Id$"); | char *cvsinfo = strdup("$Id$"); |
| // status = drms_setkey_string(outRec, "HEADER", cvsinfo); |
char *cvsinfo2 = sw_functions_version(); |
| status = drms_setkey_string(outRec, "CODEVER7", cvsinfo); |
char cvsinfoall[2048]; |
| |
strcat(cvsinfoall,cvsinfo); |
| |
strcat(cvsinfoall,"\n"); |
| |
strcat(cvsinfoall,cvsinfo2); |
| |
status = drms_setkey_string(outRec, "CODEVER7", cvsinfoall); |
| | |
| }; | }; |
| | |
| // |
|
| // |
|
| | |
| /* ############# Nearest neighbour interpolation ############### */ | /* ############# Nearest neighbour interpolation ############### */ |
| | |
| Line 1929 float nnb (float *f, int nx, int ny, dou |
|
| Line 2333 float nnb (float *f, int nx, int ny, dou |
|
| | |
| } | } |
| | |
| |
|
| /* ################## Wrapper for Jesper's rebin code ################## */ | /* ################## Wrapper for Jesper's rebin code ################## */ |
| | |
| void frebin (float *image_in, float *image_out, int nx, int ny, int nbin, int gauss) | void frebin (float *image_in, float *image_out, int nx, int ny, int nbin, int gauss) |
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