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InitDump.c
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InitDump.c
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/*
* SUMMARY: InitDump.c - Initialize output settings
* USAGE: Part of DHSVM
*
* AUTHOR: Bart Nijssen
* ORG: University of Washington, Department of Civil Engineering
* E-MAIL: nijssen@u.washington.edu
* ORIG-DATE: Apr-96
* DESCRIPTION: Functions to initialize which variables need to be output when
* DESCRIP-END.
* FUNCTIONS: InitDump()
* InitStateDump()
* InitImageDump()
* InitMapDump()
* InitPixDump()
* COMMENTS:
* $Id: InitDump.c,v 1.11 2004/08/18 01:01:29 colleen Exp $
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "settings.h"
#include "data.h"
#include "DHSVMerror.h"
#include "fileio.h"
#include "functions.h"
#include "constants.h"
#include "getinit.h"
#include "sizeofnt.h"
#include "varid.h"
/*******************************************************************************
Function name: InitDump()
Purpose : Read the model output information from the options file, and
organize what to output when. This information is in the
[OUTPUT] section
Required :
LISTPTR Input - Linked list with input strings
OPTIONSTRUCT *Options - Mode options
MAPSIZE *Map - Information about basin area
int MaxSoilLayers - Maximum number of soil layers
int MaxVegLayers - Maximum number of vegetation layers
int Dt - Time step in seconds
TOPOPIX **TopoMap - Information about terrain characteristics
DUMPSTRUCT *Dump - Information on what to output when
Returns : void
Modifies : Members of Dump
Comments :
*****************************************************************************/
void InitDump(LISTPTR Input, OPTIONSTRUCT * Options, MAPSIZE * Map,
int MaxSoilLayers, int MaxVegLayers, int Dt,
TOPOPIX ** TopoMap, DUMPSTRUCT * Dump, int *NGraphics,
int **which_graphics)
{
char *Routine = "InitDump";
int i;
int x; /* counter */
int y; /* counter */
int NImageVars; /* Number of different variables for which to
dump images */
int NMapVars; /* Number of different variables for which to
dump maps */
int temp_count;
uchar **BasinMask;
char sumoutfile[100];
STRINIENTRY StrEnv[] = {
{"OUTPUT", "OUTPUT DIRECTORY", "", ""},
{"OUTPUT", "INITIAL STATE DIRECTORY", "", ""},
{"OUTPUT", "NUMBER OF OUTPUT PIXELS", "", ""},
{"OUTPUT", "NUMBER OF MODEL STATES", "", ""},
{"OUTPUT", "NUMBER OF MAP VARIABLES", "", ""},
{"OUTPUT", "NUMBER OF IMAGE VARIABLES", "", ""},
{"OUTPUT", "NUMBER OF GRAPHICS", "", ""},
{NULL, NULL, "", NULL},
};
printf("Initializing dump procedures\n");
/* Get the key-entry pairs from the input file */
for (i = 0; StrEnv[i].SectionName; i++)
GetInitString(StrEnv[i].SectionName, StrEnv[i].KeyName, StrEnv[i].Default,
StrEnv[i].VarStr, (unsigned long) BUFSIZE, Input);
/* Assign the entries to the variables */
if (IsEmptyStr(StrEnv[output_path].VarStr))
ReportError(StrEnv[output_path].KeyName, 51);
strcpy(Dump->Path, StrEnv[output_path].VarStr);
// delete any previous failure_summary.txt file
sprintf(sumoutfile, "%sfailure_summary.txt", Dump->Path);
if (remove(sumoutfile) != -1)
printf(" - removed old version of failure_summary.txt\n");
if (IsEmptyStr(StrEnv[initial_state_path].VarStr))
strcpy(Dump->InitStatePath, Dump->Path);
strcpy(Dump->InitStatePath, StrEnv[initial_state_path].VarStr);
if (IsEmptyStr(StrEnv[npixels].VarStr))
Dump->NPix = 0;
else if (!CopyInt(&(Dump->NPix), StrEnv[npixels].VarStr, 1) || Dump->NPix < 0)
ReportError(StrEnv[npixels].KeyName, 51);
if (IsEmptyStr(StrEnv[nstates].VarStr))
Dump->NStates = 0;
else if (!CopyInt(&(Dump->NStates), StrEnv[nstates].VarStr, 1))
ReportError(StrEnv[nstates].KeyName, 51);
if (IsEmptyStr(StrEnv[nmapvars].VarStr))
NMapVars = 0;
else if (!CopyInt(&NMapVars, StrEnv[nmapvars].VarStr, 1) || NMapVars < 0)
ReportError(StrEnv[nmapvars].KeyName, 51);
if (IsEmptyStr(StrEnv[nimagevars].VarStr))
NImageVars = 0;
else if (!CopyInt(&NImageVars, StrEnv[nimagevars].VarStr, 1) ||
NImageVars < 0)
ReportError(StrEnv[nimagevars].KeyName, 51);
if (IsEmptyStr(StrEnv[ngraphics].VarStr))
*NGraphics = 0;
else if (!CopyInt(NGraphics, StrEnv[ngraphics].VarStr, 1) || *NGraphics < 0)
ReportError(StrEnv[ngraphics].KeyName, 51);
if (Options->Extent == POINT)
*NGraphics = 0;
Dump->NMaps = NMapVars + NImageVars;
// Open file for recording aggregated values for entire basin
sprintf(Dump->Aggregate.FileName, "%sAggregated.Values", Dump->Path);
OpenFile(&(Dump->Aggregate.FilePtr), Dump->Aggregate.FileName, "w", TRUE);
// If specified, open file for recording aggregated sediment values for entire basin
if (Options->Sediment) {
sprintf(Dump->AggregateSediment.FileName, "%sAggregatedSediment.Values", Dump->Path);
OpenFile(&(Dump->AggregateSediment.FilePtr), Dump->AggregateSediment.FileName, "w", TRUE);
// Open file for recording mass balance for entire basin
sprintf(Dump->SedBalance.FileName, "%sMassSediment.Balance", Dump->Path);
OpenFile(&(Dump->SedBalance.FilePtr), Dump->SedBalance.FileName, "w", TRUE);
}
// Open file for recording mass balance for entire basin
sprintf(Dump->Balance.FileName, "%sMass.Balance", Dump->Path);
OpenFile(&(Dump->Balance.FilePtr), Dump->Balance.FileName, "w", TRUE);
if (Options->Extent != POINT) {
/* Read remaining information from dump info file */
if (Dump->NStates > 0)
InitStateDump(Input, Dump->NStates, &(Dump->DState));
/* if Dump->NStates < 0, the state will be dumped every time step, this is
done directly in ExecDump */
if (!(BasinMask = (uchar **) calloc(Map->NY, sizeof(uchar *))))
ReportError(Routine, 1);
for (y = 0; y < Map->NY; y++)
if (!(BasinMask[y] = (uchar *) calloc(Map->NX, sizeof(uchar))))
ReportError(Routine, 1);
for (y = 0; y < Map->NY; y++)
for (x = 0; x < Map->NX; x++)
BasinMask[y][x] = TopoMap[y][x].Mask;
if (Dump->NPix > 0) {
temp_count = InitPixDump(Input, Map, BasinMask, Dump->Path, Dump->NPix,
&(Dump->Pix), Options);
if (temp_count == 0) {
Dump->NPix = 0;
printf("no candidate dump pixels accepted \n");
}
else {
Dump->NPix = temp_count;
printf("total number of accepted dump pixels %d \n", Dump->NPix);
}
}
for (y = 0; y < Map->NY; y++)
free(BasinMask[y]);
free(BasinMask);
if (Dump->NMaps > 0)
InitMapDump(Input, Map, MaxSoilLayers, MaxVegLayers, Dump->Path,
Dump->NMaps, NMapVars, &(Dump->DMap));
if (NImageVars > 0)
InitImageDump(Input, Dt, Map, MaxSoilLayers, MaxVegLayers, Dump->Path,
Dump->NMaps, NImageVars, &(Dump->DMap));
if (*NGraphics > 0)
InitGraphicsDump(Input, *NGraphics, &which_graphics);
/* if no network open unit hydrograph file */
if (!(Options->HasNetwork)) {
sprintf(Dump->Stream.FileName, "%sStream.Flow", Dump->Path);
OpenFile(&(Dump->Stream.FilePtr), Dump->Stream.FileName, "w", TRUE);
}
}
}
/*******************************************************************************
Function name: InitGraphicsDump()
Purpose : Initialize the model state dumps. This information is in the
[OUTPUT] section of the input file
Required :
LISTPTR Input - Linked list with input strings
int NStates - Number of graphics to display
int *which_graphics - Array with graphic id's
Returns : void
Modifies : which_graphics, NStates
Comments :
*****************************************************************************/
void InitGraphicsDump(LISTPTR Input, int NGraphics, int ***which_graphics)
{
char *Routine = "InitGraphicsDump";
int i; /* counter */
char KeyName[BUFSIZE + 1];
char *KeyStr = "GRAPHICS ID";
char *SectionName = "OUTPUT";
char VarStr[BUFSIZE + 1];
if (((**which_graphics) = (int *) malloc(NGraphics * sizeof(int))) == NULL)
ReportError(Routine, 1);
for (i = 0; i < NGraphics; i++) {
sprintf(KeyName, "%s %d", KeyStr, i + 1);
GetInitString(SectionName, KeyName, "", VarStr,
(unsigned long) BUFSIZE, Input);
if (!CopyInt(&(**which_graphics)[i], VarStr, 1))
ReportError("GRAPHICS ID", 51);
}
}
/*******************************************************************************
Function name: InitStateDump()
Purpose : Initialize the model state dumps. This information is in the
[OUTPUT] section of the input file
Required :
LISTPTR Input - Linked list with input strings
int NStates - Number of model states to dump
DATE **DState - Array with dump dates
Returns : void
Modifies : DState and its members
Comments :
*****************************************************************************/
void InitStateDump(LISTPTR Input, int NStates, DATE ** DState)
{
char *Routine = "InitStateDump";
int i; /* counter */
char KeyName[BUFSIZE + 1];
char *KeyStr = "STATE DATE";
char *SectionName = "OUTPUT";
char VarStr[BUFSIZE + 1];
if (!(*DState = (DATE *) calloc(NStates, sizeof(DATE))))
ReportError(Routine, 1);
for (i = 0; i < NStates; i++) {
sprintf(KeyName, "%s %d", KeyStr, i + 1);
GetInitString(SectionName, KeyName, "", VarStr,
(unsigned long) BUFSIZE, Input);
if (!SScanDate(VarStr, &((*DState)[i])))
ReportError(KeyName, 51);
}
}
/*******************************************************************************
Function name: InitImageDump()
Purpose : Initialize the image dumps. This information is in the
[OUTPUT] section of the input file
Required :
LISTPTR Input - Linked list with input strings
int Dt - Model timestep in seconds
MAPSIZE *MapDump - Information about areal extent
int MaxSoilLayers - Maximum number of soil layers
int MaxVegLayers - Maximum number of vegetation layers
char *Path - Directory to write output to
int NMaps - Number of maps to dump
int NImages - Number of images to dump
MAPDUMP **DMap - Array of maps and images to dump
Returns : void
Modifies : Members of DMap
Comments : InitImageDump must be preceded by a call to InitMapDump, since
the necessary memory is allocated there
*******************************************************************************/
void InitImageDump(LISTPTR Input, int Dt, MAPSIZE * Map, int MaxSoilLayers,
int MaxVegLayers, char *Path, int NMaps, int NImages,
MAPDUMP ** DMap)
{
char *Routine = "InitImageDump";
DATE End; /* End of low resolution map dump period */
DATE Start; /* Start of low resolution map dump period */
int i; /* counter */
int j; /* counter */
int Interval; /* Interval between low resolution map dumps */
int MaxLayers; /* Maximum number of layers allowed for this
variable */
char KeyName[image_lower + 1][BUFSIZE + 1];
char *KeyStr[] = {
"IMAGE VARIABLE",
"IMAGE LAYER",
"IMAGE START",
"IMAGE END",
"IMAGE INTERVAL",
"IMAGE UPPER LIMIT",
"IMAGE LOWER LIMIT"
};
char *SectionName = "OUTPUT";
char VarStr[image_lower + 1][BUFSIZE + 1];
float tmpInterval;
for (i = NMaps - NImages; i < NMaps; i++) {
/* Read the key-entry pairs from the input file */
for (j = 0; j <= image_lower; j++) {
sprintf(KeyName[j], "%s %d", KeyStr[j], i - (NMaps - NImages) + 1);
GetInitString(SectionName, KeyName[j], "", VarStr[j],
(unsigned long) BUFSIZE, Input);
}
/* Assign the entries to the appropriate variables */
if (!CopyInt(&((*DMap)[i].ID), VarStr[image_variable], 1))
ReportError(KeyName[image_variable], 51);
if (!IsValidID((*DMap)[i].ID))
ReportError("Input Options File", 19);
if (IsMultiLayer((*DMap)[i].ID)) {
MaxLayers = GetVarNLayers((*DMap)[i].ID, MaxSoilLayers, MaxVegLayers);
if (!CopyInt(&((*DMap)[i].Layer), VarStr[image_layer], 1))
ReportError(KeyName[image_layer], 51);
if ((*DMap)[i].Layer < 1 || (*DMap)[i].Layer > MaxLayers)
ReportError("Input Options File", 20);
}
else
(*DMap)[i].Layer = 1;
(*DMap)[i].Resolution = IMAGE_OUTPUT;
strncpy((*DMap)[i].FileName, Path, BUFSIZE);
GetVarAttr(&((*DMap)[i]));
(*DMap)[i].NumberType = NC_BYTE;
strcpy((*DMap)[i].Format, "%d");
CreateMapFile((*DMap)[i].FileName, (*DMap)[i].FileLabel, Map);
if (!SScanDate(VarStr[image_start], &Start))
ReportError(KeyName[image_start], 51);
if (!SScanDate(VarStr[image_end], &End))
ReportError(KeyName[image_end], 51);
if (!CopyFloat(&tmpInterval, VarStr[image_interval], 1))
ReportError(KeyName[image_interval], 51);
Interval = SECPHOUR * tmpInterval;
if (Interval % Dt != 0 || Interval <= 0)
ReportError("Input Options File", 24);
if (((*DMap)[i].N = NumberOfSteps(&Start, &End, Interval)) < 1)
ReportError("Input Options File", 25);
if (!((*DMap)[i].DumpDate = (DATE *) calloc((*DMap)[i].N, sizeof(DATE))))
ReportError(Routine, 1);
CopyDate(&((*DMap)[i].DumpDate[0]), &Start);
for (j = 1; j < (*DMap)[i].N; j++)
(*DMap)[i].DumpDate[j] =
NextDate(&((*DMap)[i].DumpDate[j - 1]), Interval);
if (!CopyFloat(&((*DMap)[i].MaxVal), VarStr[image_upper], 1))
ReportError(KeyName[image_upper], 51);
if (!CopyFloat(&((*DMap)[i].MinVal), VarStr[image_lower], 1))
ReportError(KeyName[image_lower], 51);
}
}
/*******************************************************************************
Function name: InitMapDump()
Purpose : Initialize the map dumps. This information is in the
[OUTPUT] section of the input file
Required :
LISTPTR Input - Linked list with input strings
MAPSIZE *MapDump - Information about areal extent
int MaxSoilLayers - Maximum number of soil layers
int MaxVegLayers - Maximum number of vegetation layers
char *Path - Directory to write output to
int NTotalMapImages - Total number of maps and images to dump
int NMaps - Number of maps to dump
MAPDUMP **DMap - Array of maps and images to dump
Returns : void
Modifies : DMap and its members
Comments :
*******************************************************************************/
void InitMapDump(LISTPTR Input, MAPSIZE * Map, int MaxSoilLayers,
int MaxVegLayers, char *Path, int TotalMapImages, int NMaps,
MAPDUMP ** DMap)
{
char *Routine = "InitMapDump";
int i; /* counter */
int j; /* counter */
int MaxLayers; /* Maximum number of layers allowed for this
variable */
char KeyName[map_date + 1][BUFSIZE + 1];
char *KeyStr[] = {
"MAP VARIABLE",
"MAP LAYER",
"NUMBER OF MAPS",
"MAP DATE",
};
char *SectionName = "OUTPUT";
char VarStr[map_date + 1][BUFSIZE + 1];
if (!(*DMap = (MAPDUMP *) calloc(TotalMapImages, sizeof(MAPDUMP))))
ReportError(Routine, 1);
for (i = 0; i < NMaps; i++) {
/* Read the key-entry pairs from the input file */
for (j = 0; j <= nmaps; j++) {
sprintf(KeyName[j], "%s %d", KeyStr[j], i + 1);
GetInitString(SectionName, KeyName[j], "", VarStr[j],
(unsigned long) BUFSIZE, Input);
}
/* Assign the entries to the appropriate variables */
if (!CopyInt(&((*DMap)[i].ID), VarStr[map_variable], 1))
ReportError(KeyName[map_variable], 51);
if (!IsValidID((*DMap)[i].ID))
ReportError("Input Options File", 19);
if (IsMultiLayer((*DMap)[i].ID)) {
MaxLayers = GetVarNLayers((*DMap)[i].ID, MaxSoilLayers, MaxVegLayers);
if (!CopyInt(&((*DMap)[i].Layer), VarStr[map_layer], 1))
ReportError(KeyName[map_layer], 51);
if ((*DMap)[i].Layer < 1 || (*DMap)[i].Layer > MaxLayers)
ReportError("Input Options File", 20);
}
else
(*DMap)[i].Layer = 1;
(*DMap)[i].Resolution = MAP_OUTPUT;
strncpy((*DMap)[i].FileName, Path, BUFSIZE);
GetVarAttr(&((*DMap)[i]));
CreateMapFile((*DMap)[i].FileName, (*DMap)[i].FileLabel, Map);
if (!CopyInt(&((*DMap)[i].N), VarStr[nmaps], 1))
ReportError(KeyName[nmaps], 51);
if ((*DMap)[i].N < 1)
ReportError("Input Options File", 22);
if (!((*DMap)[i].DumpDate = (DATE *) calloc((*DMap)[i].N, sizeof(DATE))))
ReportError(Routine, 1);
for (j = 0; j < (*DMap)[i].N; j++) {
sprintf(KeyName[map_date], "%s %d %d", KeyStr[map_date], j + 1, i + 1);
GetInitString(SectionName, KeyName[map_date], "", VarStr[map_date],
(unsigned long) BUFSIZE, Input);
if (!SScanDate(VarStr[map_date], &((*DMap)[i].DumpDate[j])))
ReportError(KeyName[map_date], 51);
}
(*DMap)[i].MinVal = 0.0;
(*DMap)[i].MaxVal = 0.0;
}
}
/*******************************************************************************
Function name: InitPixDump()
Purpose : Initialize the pixel dumps. This information is in the
[OUTPUT] section of the input file
Required :
LISTPTR Input - Linked list with input strings
MAPSIZE *Map - Information about basin extent
uchar **BasinMask - Basin mask
char *Path - Directory to write output to
int NPix - Number of pixels to dump
PIXDUMP **Pix - Array of pixels to dump
OPTIONSTRUCT *Options - Mode options; affects whether sediment files are initialized
Returns : number of accepted dump pixels (i.e. in the mask, etc)
Modifies : NPix and its members
Comments :
*******************************************************************************/
int InitPixDump(LISTPTR Input, MAPSIZE * Map, uchar ** BasinMask, char *Path,
int NPix, PIXDUMP ** Pix, OPTIONSTRUCT *Options)
{
char *Routine = "InitPixDump";
char Str[BUFSIZE + 1];
double North;
double East;
int i; /* counter */
int j;
int ok;
char temp_name[BUFSIZE + 1];
char KeyName[name + 1][BUFSIZE + 1];
char *KeyStr[] = {
"NORTH COORDINATE",
"EAST COORDINATE",
"NAME"
};
char *SectionName = "OUTPUT";
char VarStr[name + 1][BUFSIZE + 1];
ok = 0;
if (!(*Pix = (PIXDUMP *) calloc(NPix, sizeof(PIXDUMP))))
ReportError(Routine, 1);
for (i = 0; i < NPix; i++) {
/* Read the key-entry pairs from the input file */
for (j = 0; j <= name; j++) {
sprintf(KeyName[j], "%s %d", KeyStr[j], i + 1);
GetInitString(SectionName, KeyName[j], "", VarStr[j],
(unsigned long) BUFSIZE, Input);
}
/* Assign the entries to the appropriate variables */
if (!CopyDouble(&North, VarStr[north], 1))
ReportError(KeyName[north], 51);
if (!CopyDouble(&East, VarStr[east], 1))
ReportError(KeyName[east], 51);
if (IsEmptyStr(VarStr[name]))
ReportError(KeyName[name], 51);
strcpy(temp_name, VarStr[name]);
/* Convert map coordinates to matrix coordinates */
(*Pix)[i].Loc.N = Round(((Map->Yorig - 0.5 * Map->DY) - North) / Map->DY);
(*Pix)[i].Loc.E = Round((East - (Map->Xorig + 0.5 * Map->DX)) / Map->DX);
if (!InArea(Map, &((*Pix)[i].Loc)) ||
!INBASIN(BasinMask[(*Pix)[i].Loc.N][(*Pix)[i].Loc.E])) {
printf("Ignoring dump command for pixel named %s \n", temp_name);
}
else {
printf("Accepting dump command for pixel named %s \n", temp_name);
sprintf(Str, "%s", temp_name);
sprintf((*Pix)[ok].OutFile.FileName, "%sPixel.%s", Path, Str);
if (Options->Sediment)
sprintf((*Pix)[ok].OutFileSediment.FileName, "%sPixelSediment.%s", Path, Str);
(*Pix)[ok].Loc.N = (*Pix)[i].Loc.N;
(*Pix)[ok].Loc.E = (*Pix)[i].Loc.E;
OpenFile(&((*Pix)[ok].OutFile.FilePtr), (*Pix)[ok].OutFile.FileName, "w", TRUE);
if (Options->Sediment)
OpenFile(&((*Pix)[ok].OutFileSediment.FilePtr), (*Pix)[ok].OutFileSediment.FileName, "w", TRUE);
ok++;
}
}
return ok;
}