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InitParameters.c
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InitParameters.c
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/*
* SUMMARY: InitParameters.c - Initialize constants for sediment tranport model
* USAGE: Part of DHSVM
*
* AUTHOR: Laura C. Bowling/Colleen O. Doten
* ORG: University of Washington, Department of Civil Engineering
* E-MAIL: [email protected]
* ORIG-DATE: Apr-96
* DESCRIPTION: Initialize constants for DHSVM
* DESCRIP-END.
* FUNCTIONS: InitParameters()
* COMMENTS:
* $Id: InitParameters.c,v 1.11 2004/08/10 20:07:47 tbohn Exp $
*/
#include <ctype.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "settings.h"
#include "data.h"
#include "Calendar.h"
#include "fileio.h"
#include "DHSVMerror.h"
#include "functions.h"
#include "getinit.h"
#include "constants.h"
#include "rad.h"
/*****************************************************************************
Function name: InitParameterss()
Purpose : Initialize constants and settings for DHSVM run
Processes the following sections in InFile:
[PARAMETERS]
Required :
LISTPTR Input - Linked list with input strings
OPTIONSTRUCT *Options - Structure with different program options
MAPSIZE *Map - Coverage and resolution of model area
4
Returns : void
Modifies : (see list of required above)
Comments :
*****************************************************************************/
void InitParameters(LISTPTR Input, OPTIONSTRUCT * Options, MAPSIZE * Map,
ROADSTRUCT ***Network, CHANNEL *ChannelData, TOPOPIX **TopoMap,
TIMESTRUCT * Time, float *SedDiams)
{
int i, x, y; /* counter */
const char *Routine = "InitParameters";
STRINIENTRY StrEnv[] = {
{"SEDOPTIONS", "MASS WASTING", "", ""},
{"SEDOPTIONS", "SURFACE EROSION", "", ""},
{"SEDOPTIONS", "ROAD EROSION", "", ""},
{"SEDOPTIONS", "CHANNEL ROUTING", "", ""},
{"PARAMETERS", "MASS WASTING SPACING", "", ""},
{"PARAMETERS", "MAXIMUM ITERATIONS", "", ""},
// Channel Parent parameters not currently used
// {"PARAMETERS", "CHANNEL PARENT D50", "", ""},
// {"PARAMETERS", "CHANNEL PARENT D90", "", ""},
{"PARAMETERS", "DEBRIS FLOW D50", "", ""},
{"PARAMETERS", "DEBRIS FLOW D90", "", ""},
{NULL, NULL, "", NULL}
};
/* Read 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);
}
/**************** Determine model options ****************/
/* Determine whether mass wasting model should be run */
if (strncmp(StrEnv[mass_wasting].VarStr, "TRUE", 4) == 0) {
printf("Sediment Mass Wasting component will be run\n");
Options->MassWaste = TRUE;
InitMassWaste(Input, Time);
}
else if (strncmp(StrEnv[mass_wasting].VarStr, "FALSE", 5) == 0)
Options->MassWaste = FALSE;
else
ReportError(StrEnv[mass_wasting].KeyName, 51);
/* Determine whether surface erosion model should be run */
if (strncmp(StrEnv[surface_erosion].VarStr, "TRUE", 4) == 0){
Options->ErosionPeriod = TRUE;
Options->SurfaceErosion = TRUE;
printf("Sediment Surface Erosion component will be run\n");
}
else if (strncmp(StrEnv[surface_erosion].VarStr, "FALSE", 5) == 0){
Options->ErosionPeriod = FALSE;
Options->SurfaceErosion = FALSE;
}
else
ReportError(StrEnv[surface_erosion].KeyName, 51);
/* Determine whether road erosion model should be run */
if (strncmp(StrEnv[road_erosion].VarStr, "TRUE", 4) == 0){
Options->RoadRouting = TRUE;
if ((ChannelData->roads) == NULL) {
printf("Cannot route the road network without the network files!\n");
Options->RoadRouting = FALSE;
}
}
else if (strncmp(StrEnv[road_erosion].VarStr, "FALSE", 5) == 0)
Options->RoadRouting = FALSE;
else
ReportError(StrEnv[road_erosion].KeyName, 51);
if(Options->RoadRouting){
printf("Sediment Road Erosion component will be run\n");
for (y = 0; y < Map->NY; y++) {
for (x = 0; x < Map->NX; x++) {
if (INBASIN(TopoMap[y][x].Mask)) {
if ((*Network)[y][x].RoadArea > 0) {
if (!((*Network)[y][x].h =
(float *) calloc(CELLFACTOR, sizeof(float))))
ReportError((char *) Routine, 1);
if (!((*Network)[y][x].startRunoff =
(float *) calloc(CELLFACTOR, sizeof(float))))
ReportError((char *) Routine, 1);
if (!((*Network)[y][x].startRunon =
(float *) calloc(CELLFACTOR, sizeof(float))))
ReportError((char *) Routine, 1);
if (!((*Network)[y][x].OldSedIn =
(float *) calloc(CELLFACTOR, sizeof(float))))
ReportError((char *) Routine, 1);
if (!((*Network)[y][x].OldSedOut =
(float *) calloc(CELLFACTOR, sizeof(float))))
ReportError((char *) Routine, 1);
}
}
}
}
}
/* Determine whether channel routing model should be run */
if (strncmp(StrEnv[channel_routing].VarStr, "TRUE", 4) == 0){
Options->ChannelRouting = TRUE;
printf("Sediment Channel Routing component will be run\n");
}
else if (strncmp(StrEnv[channel_routing].VarStr, "FALSE", 5) == 0){
Options->ChannelRouting = FALSE;
}
else
ReportError(StrEnv[channel_routing].KeyName, 51);
if (!CopyFloat(&(Map->DMASS), StrEnv[mass_spacing].VarStr, 1))
ReportError(StrEnv[mass_spacing].KeyName, 51);
Map->NYfine = Map->NY * (Map->DY/Map->DMASS);
Map->NXfine = Map->NX * (Map->DY/Map->DMASS);
Map->NumCellsfine = 0;
if (!CopyFloat(&MASSITER, StrEnv[max_iterations].VarStr, 1))
ReportError(StrEnv[max_iterations].KeyName, 51);
// Channel Parent parameters not currently used
// if (!CopyFloat(&CHANNELd50, StrEnv[channeld50].VarStr, 1))
// ReportError(StrEnv[channeld50].KeyName, 51);
//
// if (!CopyFloat(&CHANNELd90, StrEnv[channeld90].VarStr, 1))
// ReportError(StrEnv[channeld90].KeyName, 51);
if (!CopyFloat(&DEBRISd50, StrEnv[debrisd50].VarStr, 1))
ReportError(StrEnv[debrisd50].KeyName, 51);
if (!CopyFloat(&DEBRISd90, StrEnv[debrisd90].VarStr, 1))
ReportError(StrEnv[debrisd90].KeyName, 51);
DistributeSedimentDiams(SedDiams); /* find diameter for each portion */
/* Determine surface erosion period */
if (Options->SurfaceErosion == TRUE){
InitSurfaceSed(Input, Time);
}
/* Store initial sediment routing option for dumping */
Options->InitSedFlag=Options->SurfaceErosion;
}
/*******************************************************************************
Function name: InitMassWaste()
Purpose : Read in the dates to run the mass wasting model. This information
is in the [SEDTIME] section of the sediment input file
Required :
LISTPTR Input - Linked list with input strings
Returns : void
Modifies : Members of Time
Comments :
*******************************************************************************/
void InitMassWaste(LISTPTR Input, TIMESTRUCT *Time)
{
const char *Routine = "InitMassWaste";
int i,j; /* counter */
char KeyName[mass_wasting_date+1][BUFSIZE + 1];
char *KeyStr[] = {
"MASS WASTING DATE",
};
char SectionName[] = "SEDTIME";
char VarStr[mass_wasting_date+1][BUFSIZE+1];
/* Get the number of calculation periods */
GetInitString(SectionName, "MWM TIME STEPS", "", VarStr[0],
(unsigned long) BUFSIZE, Input);
if (!CopyInt(&(Time->NMWMTotalSteps), VarStr[0], 1))
ReportError("MWM TIME STEPS", 51);
if ((Time->NMWMTotalSteps) < 0)
ReportError("MWM TIME STEPS", 51);
if(Time->NMWMTotalSteps > 0){
if (!((*Time).MWM = (DATE *) calloc(Time->NMWMTotalSteps, sizeof(DATE))))
ReportError((char *)Routine, 1);
/* Read the key-entry pairs from the input file */
for (i = 0; i < Time->NMWMTotalSteps; i++) {
/* Read the key-entry pairs from the input file */
for (j = 0; j <= mass_wasting_date; j++) {
sprintf(KeyName[j], "%s %d",KeyStr[j], i+1);
GetInitString(SectionName, KeyName[j], "", VarStr[j],
(unsigned long) BUFSIZE, Input);
}
if (!SScanDate(VarStr[mass_wasting_date], &((*Time).MWM[i])))
ReportError(KeyName[mass_wasting_date], 51);
}
/* Initialize first run date */
if ((*Time).Start.Julian > (*Time).MWM[0].Julian)
ReportError("First Mass Wasting Date is before the beginning of the model run", 51);
(*Time).MWMnext = (*Time).MWM[0];
}
}
/*******************************************************************************
Function name: InitSurfaceSed()
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 NSteps - Number of images to dump
Returns : void
Modifies : Members of Time
Comments :
*******************************************************************************/
void InitSurfaceSed(LISTPTR Input, TIMESTRUCT *Time)
{
const char *Routine = "InitSurfaceSed";
int i,j; /* counter */
char KeyName[erosion_end+1][BUFSIZE + 1];
char *KeyStr[] = {
"EROSION START",
"EROSION END",
};
char SectionName[] = "SEDTIME";
char VarStr[erosion_end+1][BUFSIZE+1];
/* Get the number of calculation periods */
GetInitString(SectionName, "SE TIME STEPS", "", VarStr[0],
(unsigned long) BUFSIZE, Input);
if (!CopyInt(&(Time->NSETotalSteps), VarStr[0], 1))
ReportError("SE TIME STEPS", 51);
if ((Time->NSETotalSteps) < 0)
ReportError("SE TIME STEPS", 51);
if (!((*Time).StartSed = (DATE *) calloc(Time->NSETotalSteps, sizeof(DATE))))
ReportError((char *)Routine, 1);
if (!((*Time).EndSed = (DATE *) calloc(Time->NSETotalSteps, sizeof(DATE))))
ReportError((char *)Routine, 1);
/* Read the key-entry pairs from the input file */
for (i = 0; i < Time->NSETotalSteps ; i++) {
/* Read the key-entry pairs from the input file */
for (j = 0; j <= erosion_end; j++) {
sprintf(KeyName[j], "%s %d",KeyStr[j], i+1);
GetInitString(SectionName, KeyName[j], "", VarStr[j],
(unsigned long) BUFSIZE, Input);
}
if (!SScanDate(VarStr[erosion_start], &((*Time).StartSed[i])))
ReportError(KeyName[erosion_start], 51);
if (!SScanDate(VarStr[erosion_end], &((*Time).EndSed[i])))
ReportError(KeyName[erosion_end], 51);
/* Ensure that end times are berfore start tiems */
if (After(&((*Time).StartSed[i]),&((*Time).EndSed[i])))
ReportError(SectionName, 23);
}
}