insect_phenology_model: insect_phenology

annotate insect_phenology_model.R @ 50:927321ed0322 draft

Uploaded

author	greg
date	Tue, 07 Aug 2018 12:59:06 -0400
parents	1b6864c5b50a
children	3f827fe31756

rev	line source
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1 #!/usr/bin/env Rscript
1878a03f9c9f Uploaded greg parents: 4 diff changeset	2
1878a03f9c9f Uploaded greg parents: 4 diff changeset	3 suppressPackageStartupMessages(library("optparse"))
1878a03f9c9f Uploaded greg parents: 4 diff changeset	4
1878a03f9c9f Uploaded greg parents: 4 diff changeset	5 option_list <- list(
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	6 make_option(c("--adult_mortality"), action="store", dest="adult_mortality", type="integer", help="Adjustment rate for adult mortality"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	7 make_option(c("--adult_accumulation"), action="store", dest="adult_accumulation", type="integer", help="Adjustment of degree-days accumulation (old nymph->adult)"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	8 make_option(c("--egg_mortality"), action="store", dest="egg_mortality", type="integer", help="Adjustment rate for egg mortality"),
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	9 make_option(c("--input_norm"), action="store", dest="input_norm", help="30 year normals temperature data for selected station"),
43 fd3c00392fce Uploaded greg parents: 41 diff changeset	10 make_option(c("--input_ytd"), action="store", dest="input_ytd", default=NULL, help="Year-to-date temperature data for selected location"),
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	11 make_option(c("--insect"), action="store", dest="insect", help="Insect name"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	12 make_option(c("--insects_per_replication"), action="store", dest="insects_per_replication", type="integer", help="Number of insects with which to start each replication"),
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	13 make_option(c("--life_stages"), action="store", dest="life_stages", help="Selected life stages for plotting"),
61bc6bd8807d Uploaded greg parents: 8 diff changeset	14 make_option(c("--life_stages_adult"), action="store", dest="life_stages_adult", default=NULL, help="Adult life stages for plotting"),
16 309954bbe999 Uploaded greg parents: 15 diff changeset	15 make_option(c("--life_stages_nymph"), action="store", dest="life_stages_nymph", default=NULL, help="Nymph life stages for plotting"),
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	16 make_option(c("--location"), action="store", dest="location", default=NULL, help="Selected location"),
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	17 make_option(c("--min_clutch_size"), action="store", dest="min_clutch_size", type="integer", help="Adjustment of minimum clutch size"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	18 make_option(c("--max_clutch_size"), action="store", dest="max_clutch_size", type="integer", help="Adjustment of maximum clutch size"),
43 fd3c00392fce Uploaded greg parents: 41 diff changeset	19 make_option(c("--num_days_ytd"), action="store", dest="num_days_ytd", default=NULL, type="integer", help="Total number of days in the year-to-date temperature dataset"),
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	20 make_option(c("--nymph_mortality"), action="store", dest="nymph_mortality", type="integer", help="Adjustment rate for nymph mortality"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	21 make_option(c("--old_nymph_accumulation"), action="store", dest="old_nymph_accumulation", type="integer", help="Adjustment of degree-days accumulation (young nymph->old nymph)"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	22 make_option(c("--oviposition"), action="store", dest="oviposition", type="integer", help="Adjustment for oviposition rate"),
fe3f86012394 Uploaded greg parents: 5 diff changeset	23 make_option(c("--photoperiod"), action="store", dest="photoperiod", type="double", help="Critical photoperiod for diapause induction/termination"),
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	24 make_option(c("--plot_generations_separately"), action="store", dest="plot_generations_separately", help="Plot Plot P, F1 and F2 as separate lines or pool across them"),
61bc6bd8807d Uploaded greg parents: 8 diff changeset	25 make_option(c("--plot_std_error"), action="store", dest="plot_std_error", help="Plot Standard error"),
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	26 make_option(c("--replications"), action="store", dest="replications", type="integer", help="Number of replications"),
50 927321ed0322 Uploaded greg parents: 49 diff changeset	27 make_option(c("--script_dir"), action="store", dest="script_dir", help="R script source directory"),
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	28 make_option(c("--young_nymph_accumulation"), action="store", dest="young_nymph_accumulation", type="integer", help="Adjustment of degree-days accumulation (egg->young nymph)")
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	29 )
1878a03f9c9f Uploaded greg parents: 4 diff changeset	30
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	31 parser <- OptionParser(usage="%prog [options] file", option_list=option_list);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	32 args <- parse_args(parser, positional_arguments=TRUE);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	33 opt <- args$options;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	34
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	35 add_daylight_length = function(temperature_data_frame) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	36 # Return temperature_data_frame with an added column
50 927321ed0322 Uploaded greg parents: 49 diff changeset	37 # of daylight length (photoperiod profile).
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	38 num_rows = dim(temperature_data_frame)[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	39 # From Forsythe 1995.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	40 p = 0.8333;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	41 latitude = temperature_data_frame$LATITUDE[1];
37f1ad91a949 Uploaded greg parents: 6 diff changeset	42 daylight_length_vector = NULL;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	43 for (i in 1:num_rows) {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	44 # Get the day of the year from the current row
1878a03f9c9f Uploaded greg parents: 4 diff changeset	45 # of the temperature data for computation.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	46 doy = temperature_data_frame$DOY[i];
37f1ad91a949 Uploaded greg parents: 6 diff changeset	47 theta = 0.2163108 + 2 * atan(0.9671396 * tan(0.00860 * (doy - 186)));
37f1ad91a949 Uploaded greg parents: 6 diff changeset	48 phi = asin(0.39795 * cos(theta));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	49 # Compute the length of daylight for the day of the year.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	50 darkness_length = 24 / pi * acos((sin(p * pi / 180) + sin(latitude * pi / 180) * sin(phi)) / (cos(latitude * pi / 180) * cos(phi)));
37f1ad91a949 Uploaded greg parents: 6 diff changeset	51 daylight_length_vector[i] = 24 - darkness_length;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	52 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	53 # Append daylight_length_vector as a new column to temperature_data_frame.
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	54 temperature_data_frame = append_vector(temperature_data_frame, daylight_length_vector, "DAYLEN");
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	55 return(temperature_data_frame);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	56 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	57
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	58 append_vector = function(data_frame, vec, new_column_name) {
452e0e189e84 Uploaded greg parents: 25 diff changeset	59 num_columns = dim(data_frame)[2];
452e0e189e84 Uploaded greg parents: 25 diff changeset	60 current_column_names = colnames(data_frame);
452e0e189e84 Uploaded greg parents: 25 diff changeset	61 # Append vector vec as a new column to data_frame.
452e0e189e84 Uploaded greg parents: 25 diff changeset	62 data_frame[,num_columns+1] = vec;
452e0e189e84 Uploaded greg parents: 25 diff changeset	63 # Reset the column names with the additional column for later access.
452e0e189e84 Uploaded greg parents: 25 diff changeset	64 colnames(data_frame) = append(current_column_names, new_column_name);
452e0e189e84 Uploaded greg parents: 25 diff changeset	65 return(data_frame);
452e0e189e84 Uploaded greg parents: 25 diff changeset	66 }
452e0e189e84 Uploaded greg parents: 25 diff changeset	67
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	68 from_30_year_normals = function(norm_data_frame, start_date_doy, end_date_doy, year) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	69 # The data we want is fully contained within the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	70 first_norm_row = which(norm_data_frame$DOY==start_date_doy);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	71 last_norm_row = which(norm_data_frame$DOY==end_date_doy);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	72 # Add 1 to the number of rows to ensure that the end date is included.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	73 tmp_data_frame_rows = last_norm_row - first_norm_row + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	74 tmp_data_frame = get_new_temperature_data_frame(nrow=tmp_data_frame_rows);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	75 j = 0;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	76 for (i in first_norm_row:last_norm_row) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	77 j = j + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	78 tmp_data_frame[j,] = get_next_normals_row(norm_data_frame, year, i);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	79 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	80 return (tmp_data_frame);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	81 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	82
1b6864c5b50a Uploaded greg parents: 47 diff changeset	83 get_new_norm_data_frame = function(is_leap_year, input_norm=NULL, nrow=0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	84 # The input_norm data has the following 10 columns:
1b6864c5b50a Uploaded greg parents: 47 diff changeset	85 # STATIONID, LATITUDE, LONGITUDE, ELEV_M, NAME, ST, MMDD, DOY, TMIN, TMAX
1b6864c5b50a Uploaded greg parents: 47 diff changeset	86 column_names = c("STATIONID", "LATITUDE","LONGITUDE", "ELEV_M", "NAME", "ST", "MMDD", "DOY", "TMIN", "TMAX");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	87 if (is.null(input_norm)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	88 norm_data_frame = data.frame(matrix(ncol=10, nrow));
1b6864c5b50a Uploaded greg parents: 47 diff changeset	89 # Set the norm_data_frame column names for access.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	90 colnames(norm_data_frame) = column_names;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	91 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	92 norm_data_frame = read.csv(file=input_norm, header=T, strip.white=TRUE, stringsAsFactors=FALSE, sep=",");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	93 # Set the norm_data_frame column names for access.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	94 colnames(norm_data_frame) = column_names;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	95 if (!is_leap_year) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	96 # All normals data includes Feb 29 which is row 60 in
1b6864c5b50a Uploaded greg parents: 47 diff changeset	97 # the data, so delete that row if we're not in a leap year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	98 norm_data_frame = norm_data_frame[-c(60),];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	99 # Since we've removed row 60, we need to subtract 1 from
1b6864c5b50a Uploaded greg parents: 47 diff changeset	100 # each value in the DOY column of the data frame starting
1b6864c5b50a Uploaded greg parents: 47 diff changeset	101 # with the 60th row.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	102 num_rows = dim(norm_data_frame)[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	103 for (i in 60:num_rows) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	104 leap_year_doy = norm_data_frame$DOY[i];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	105 non_leap_year_doy = leap_year_doy - 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	106 norm_data_frame$DOY[i] = non_leap_year_doy;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	107 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	108 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	109 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	110 return (norm_data_frame);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	111 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	112
1b6864c5b50a Uploaded greg parents: 47 diff changeset	113 get_new_temperature_data_frame = function(input_ytd=NULL, nrow=0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	114 # The input_ytd data has the following 6 columns:
1b6864c5b50a Uploaded greg parents: 47 diff changeset	115 # LATITUDE, LONGITUDE, DATE, DOY, TMIN, TMAX
1b6864c5b50a Uploaded greg parents: 47 diff changeset	116 if (is.null(input_ytd)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	117 temperature_data_frame = data.frame(matrix(ncol=6, nrow));
1b6864c5b50a Uploaded greg parents: 47 diff changeset	118 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	119 temperature_data_frame = read.csv(file=input_ytd, header=T, strip.white=TRUE, stringsAsFactors=FALSE, sep=",");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	120 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	121 colnames(temperature_data_frame) = c("LATITUDE", "LONGITUDE", "DATE", "DOY", "TMIN", "TMAX");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	122 return(temperature_data_frame);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	123 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	124
1b6864c5b50a Uploaded greg parents: 47 diff changeset	125 get_next_normals_row = function(norm_data_frame, year, index) {
39 169c8180205a Uploaded greg parents: 38 diff changeset	126 # Return the next 30 year normals row formatted
169c8180205a Uploaded greg parents: 38 diff changeset	127 # appropriately for the year-to-date data.
169c8180205a Uploaded greg parents: 38 diff changeset	128 latitude = norm_data_frame[index,"LATITUDE"][1];
169c8180205a Uploaded greg parents: 38 diff changeset	129 longitude = norm_data_frame[index,"LONGITUDE"][1];
169c8180205a Uploaded greg parents: 38 diff changeset	130 # Format the date.
169c8180205a Uploaded greg parents: 38 diff changeset	131 mmdd = norm_data_frame[index,"MMDD"][1];
169c8180205a Uploaded greg parents: 38 diff changeset	132 date_str = paste(year, mmdd, sep="-");
169c8180205a Uploaded greg parents: 38 diff changeset	133 doy = norm_data_frame[index,"DOY"][1];
169c8180205a Uploaded greg parents: 38 diff changeset	134 tmin = norm_data_frame[index,"TMIN"][1];
169c8180205a Uploaded greg parents: 38 diff changeset	135 tmax = norm_data_frame[index,"TMAX"][1];
169c8180205a Uploaded greg parents: 38 diff changeset	136 return(list(latitude, longitude, date_str, doy, tmin, tmax));
169c8180205a Uploaded greg parents: 38 diff changeset	137 }
169c8180205a Uploaded greg parents: 38 diff changeset	138
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	139 get_temperature_at_hour = function(latitude, temperature_data_frame, row) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	140 # Base development threshold for Brown Marmorated Stink Bug
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	141 # insect phenology model.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	142 threshold = 14.17;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	143 # Minimum temperature for current row.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	144 curr_min_temp = temperature_data_frame$TMIN[row];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	145 # Maximum temperature for current row.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	146 curr_max_temp = temperature_data_frame$TMAX[row];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	147 # Mean temperature for current row.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	148 curr_mean_temp = 0.5 * (curr_min_temp + curr_max_temp);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	149 # Initialize degree day accumulation
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	150 averages = 0;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	151 if (curr_max_temp < threshold) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	152 averages = 0;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	153 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	154 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	155 # Initialize hourly temperature.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	156 T = NULL;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	157 # Initialize degree hour vector.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	158 dh = NULL;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	159 # Daylight length for current row.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	160 y = temperature_data_frame$DAYLEN[row];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	161 # Darkness length.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	162 z = 24 - y;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	163 # Lag coefficient.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	164 a = 1.86;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	165 # Darkness coefficient.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	166 b = 2.20;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	167 # Sunrise time.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	168 risetime = 12 - y / 2;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	169 # Sunset time.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	170 settime = 12 + y / 2;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	171 ts = (curr_max_temp - curr_min_temp) * sin(pi * (settime - 5) / (y + 2 * a)) + curr_min_temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	172 for (i in 1:24) {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	173 if (i > risetime && i < settime) {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	174 # Number of hours after Tmin until sunset.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	175 m = i - 5;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	176 T[i] = (curr_max_temp - curr_min_temp) * sin(pi * m / (y + 2 * a)) + curr_min_temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	177 if (T[i] < 8.4) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	178 dh[i] = 0;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	179 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	180 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	181 dh[i] = T[i] - 8.4;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	182 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	183 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	184 else if (i > settime) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	185 n = i - settime;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	186 T[i] = curr_min_temp + (ts - curr_min_temp) * exp( - b * n / z);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	187 if (T[i] < 8.4) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	188 dh[i] = 0;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	189 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	190 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	191 dh[i] = T[i] - 8.4;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	192 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	193 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	194 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	195 n = i + 24 - settime;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	196 T[i] = curr_min_temp + (ts - curr_min_temp) * exp( - b * n / z);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	197 if (T[i] < 8.4) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	198 dh[i] = 0;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	199 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	200 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	201 dh[i] = T[i] - 8.4;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	202 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	203 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	204 }
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	205 averages = sum(dh) / 24;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	206 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	207 return(c(curr_mean_temp, averages))
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	208 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	209
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	210 is_leap_year = function(date_str) {
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	211 # Extract the year from the date_str.
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	212 date = format(date_str);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	213 items = strsplit(date, "-")[[1]];
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	214 year = as.integer(items[1]);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	215 if (((year %% 4 == 0) & (year %% 100 != 0)) \| (year %% 400 == 0)) {
39 169c8180205a Uploaded greg parents: 38 diff changeset	216 return(TRUE);
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	217 } else {
39 169c8180205a Uploaded greg parents: 38 diff changeset	218 return(FALSE);
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	219 }
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	220 }
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	221
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	222 mortality.adult = function(temperature) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	223 if (temperature < 12.7) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	224 mortality.probability = 0.002;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	225 }
fe3f86012394 Uploaded greg parents: 5 diff changeset	226 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	227 mortality.probability = temperature * 0.0005 + 0.02;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	228 }
fe3f86012394 Uploaded greg parents: 5 diff changeset	229 return(mortality.probability)
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	230 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	231
1878a03f9c9f Uploaded greg parents: 4 diff changeset	232 mortality.egg = function(temperature) {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	233 if (temperature < 12.7) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	234 mortality.probability = 0.8;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	235 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	236 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	237 mortality.probability = 0.8 - temperature / 40.0;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	238 if (mortality.probability < 0) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	239 mortality.probability = 0.01;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	240 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	241 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	242 return(mortality.probability)
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	243 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	244
1878a03f9c9f Uploaded greg parents: 4 diff changeset	245 mortality.nymph = function(temperature) {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	246 if (temperature < 12.7) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	247 mortality.probability = 0.03;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	248 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	249 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	250 mortality.probability = temperature * 0.0008 + 0.03;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	251 }
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	252 return(mortality.probability);
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	253 }
fe3f86012394 Uploaded greg parents: 5 diff changeset	254
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	255 parse_input_data = function(input_ytd, input_norm, location, start_date, end_date) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	256 # The end DOY for norm data prepended to ytd data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	257 prepend_end_doy_norm = 0;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	258 # The start DOY for norm data appended to ytd data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	259 append_start_doy_norm = 0;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	260 if (is.null(start_date) && is.null(end_date)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	261 # We're not dealing with a date interval.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	262 date_interval = FALSE;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	263 if (is.null(input_ytd)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	264 # Base all dates on the current date since 30 year
1b6864c5b50a Uploaded greg parents: 47 diff changeset	265 # normals data does not include any dates.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	266 year = format(Sys.Date(), "%Y");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	267 }
43 fd3c00392fce Uploaded greg parents: 41 diff changeset	268 } else {
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	269 date_interval = TRUE;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	270 year = get_year_from_date(start_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	271 # Get the DOY for start_date and end_date.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	272 start_date_doy = as.integer(strftime(start_date, format="%j"));
1b6864c5b50a Uploaded greg parents: 47 diff changeset	273 end_date_doy = as.integer(strftime(end_date, format="%j"));
1b6864c5b50a Uploaded greg parents: 47 diff changeset	274 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	275 if (is.null(input_ytd)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	276 # We're processing only the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	277 processing_year_to_date_data = FALSE;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	278 if (is.null(start_date) && is.null(end_date)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	279 # We're processing the entire year, so we can
1b6864c5b50a Uploaded greg parents: 47 diff changeset	280 # set the start_date to Jan 1.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	281 start_date = paste(year, "01", "01", sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	282 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	283 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	284 processing_year_to_date_data = TRUE;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	285 # Read the input_ytd temperature data file into a data frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	286 temperature_data_frame = get_new_temperature_data_frame(input_ytd=input_ytd);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	287 num_ytd_rows = dim(temperature_data_frame)[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	288 if (!date_interval) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	289 start_date = temperature_data_frame$DATE[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	290 year = get_year_from_date(start_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	291 }
43 fd3c00392fce Uploaded greg parents: 41 diff changeset	292 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	293 # See if we're in a leap year.
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	294 is_leap_year = is_leap_year(start_date);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	295 # Read the input_norm temperature datafile into a data frame.
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	296 norm_data_frame = get_new_norm_data_frame(is_leap_year, input_norm=input_norm);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	297 if (processing_year_to_date_data) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	298 if (date_interval) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	299 # We're plotting a date interval.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	300 start_date_ytd_row = which(temperature_data_frame$DATE==start_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	301 if (length(start_date_ytd_row) > 0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	302 # The start date is contained within the input_ytd data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	303 start_date_ytd_row = start_date_ytd_row[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	304 start_doy_ytd = as.integer(temperature_data_frame$DOY[start_date_ytd_row]);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	305 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	306 # The start date is contained within the input_norm data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	307 start_date_ytd_row = 0;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	308 start_date_norm_row = which(norm_data_frame$DOY==start_date_doy);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	309 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	310 end_date_ytd_row = which(temperature_data_frame$DATE==end_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	311 if (length(end_date_ytd_row) > 0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	312 end_date_ytd_row = end_date_ytd_row[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	313 # The end date is contained within the input_ytd data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	314 end_doy_ytd = as.integer(temperature_data_frame$DOY[end_date_ytd_row]);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	315 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	316 end_date_ytd_row = 0;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	317 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	318 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	319 # We're plotting an entire year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	320 # Get the start date and end date from temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	321 start_date_ytd_row = 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	322 # Temporarily set start_date to get the year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	323 start_date = temperature_data_frame$DATE[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	324 end_date_ytd_row = num_ytd_rows;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	325 end_date = temperature_data_frame$DATE[num_ytd_rows];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	326 date_str = format(start_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	327 # Extract the year from the start date.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	328 date_str_items = strsplit(date_str, "-")[[1]];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	329 # Get the year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	330 year = date_str_items[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	331 # Properly set the start_date to be Jan 1 of the year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	332 start_date = paste(year, "01", "01", sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	333 # Properly set the end_date to be Dec 31 of the year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	334 end_date = paste(year, "12", "31", sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	335 # Save the first DOY to later check if start_date is Jan 1.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	336 start_doy_ytd = as.integer(temperature_data_frame$DOY[1]);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	337 end_doy_ytd = as.integer(temperature_data_frame$DOY[num_ytd_rows]);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	338 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	339 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	340 # We're processing only the 30 year normals data, so create an empty
1b6864c5b50a Uploaded greg parents: 47 diff changeset	341 # data frame for containing temperature data after it is converted
1b6864c5b50a Uploaded greg parents: 47 diff changeset	342 # from the 30 year normals format to the year-to-date format.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	343 temperature_data_frame = get_new_temperature_data_frame();
1b6864c5b50a Uploaded greg parents: 47 diff changeset	344 if (date_interval) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	345 # We're plotting a date interval.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	346 # Extract the year, month and day from the start date.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	347 start_date_str = format(start_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	348 start_date_str_items = strsplit(start_date_str, "-")[[1]];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	349 year = start_date_str_items[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	350 start_date_month = start_date_str_items[2];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	351 start_date_day = start_date_str_items[3];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	352 start_date = paste(year, start_date_month, start_date_day, sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	353 # Extract the month and day from the end date.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	354 end_date_str = format(start_date);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	355 end_date_str_items = strsplit(end_date_str, "-")[[1]];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	356 end_date_month = end_date_str_items[2];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	357 end_date_day = end_date_str_items[3];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	358 end_date = paste(year, end_date_month, end_date_day, sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	359 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	360 # We're plotting an entire year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	361 start_date = paste(year, "01", "01", sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	362 end_date = paste(year, "12", "31", sep="-");
1b6864c5b50a Uploaded greg parents: 47 diff changeset	363 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	364 }
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	365 # Set the location to be the station name if the user elected not to enter it.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	366 if (is.null(location) \| length(location) == 0) {
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	367 location = norm_data_frame$NAME[1];
315c5e1bc44a Uploaded greg parents: 43 diff changeset	368 }
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	369 if (processing_year_to_date_data) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	370 # Merge the year-to-date data with the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	371 if (date_interval) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	372 # The values of start_date_ytd_row and end_date_ytd_row were set above.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	373 if (start_date_ytd_row > 0 & end_date_ytd_row > 0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	374 # The date interval is contained within the input_ytd
1b6864c5b50a Uploaded greg parents: 47 diff changeset	375 # data, so we don't need to merge the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	376 temperature_data_frame = temperature_data_frame[start_date_ytd_row:end_date_ytd_row,];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	377 } else if (start_date_ytd_row == 0 & end_date_ytd_row > 0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	378 # The date interval starts in input_norm and ends in
1b6864c5b50a Uploaded greg parents: 47 diff changeset	379 # input_ytd, so prepend appropriate rows from input_norm
1b6864c5b50a Uploaded greg parents: 47 diff changeset	380 # to appropriate rows from input_ytd.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	381 first_norm_row = which(norm_data_frame$DOY==start_date_doy);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	382 # Get the first DOY from temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	383 first_ytd_doy = temperature_data_frame$DOY[1];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	384 # End DOY of input_norm data prepended to input_ytd.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	385 prepend_end_doy_norm = first_ytd_doy - 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	386 # Get the number of rows for the restricted date interval
1b6864c5b50a Uploaded greg parents: 47 diff changeset	387 # that are contained in temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	388 num_temperature_data_frame_rows = end_date_ytd_row;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	389 # Get the last row needed from the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	390 last_norm_row = which(norm_data_frame$DOY==prepend_end_doy_norm);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	391 # Get the number of rows for the restricted date interval
1b6864c5b50a Uploaded greg parents: 47 diff changeset	392 # that are contained in norm_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	393 num_norm_data_frame_rows = last_norm_row - first_norm_row;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	394 # Create a temporary data frame to contain the 30 year normals
1b6864c5b50a Uploaded greg parents: 47 diff changeset	395 # data from the start date to the date immediately prior to the
1b6864c5b50a Uploaded greg parents: 47 diff changeset	396 # first row of the input_ytd data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	397 tmp_norm_data_frame = get_new_temperature_data_frame(nrow=num_temperature_data_frame_rows+num_norm_data_frame_rows);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	398 j = 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	399 for (i in first_norm_row:last_norm_row) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	400 # Populate the temp_data_frame row with
1b6864c5b50a Uploaded greg parents: 47 diff changeset	401 # values from norm_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	402 tmp_norm_data_frame[j,] = get_next_normals_row(norm_data_frame, year, i);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	403 j = j + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	404 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	405 # Create a second temporary data frame containing the
1b6864c5b50a Uploaded greg parents: 47 diff changeset	406 # appropriate rows from temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	407 tmp_temperature_data_frame = temperature_data_frame[1:num_temperature_data_frame_rows,];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	408 # Merge the 2 temporary data frames.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	409 temperature_data_frame = rbind(tmp_norm_data_frame, tmp_temperature_data_frame);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	410 } else if (start_date_ytd_row > 0 & end_date_ytd_row == 0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	411 # The date interval starts in input_ytd and ends in input_norm,
1b6864c5b50a Uploaded greg parents: 47 diff changeset	412 # so append appropriate rows from input_norm to appropriate rows
1b6864c5b50a Uploaded greg parents: 47 diff changeset	413 # from input_ytd. First, get the number of rows for the restricted
1b6864c5b50a Uploaded greg parents: 47 diff changeset	414 # date interval that are contained in temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	415 num_temperature_data_frame_rows = num_ytd_rows - start_date_ytd_row + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	416 # Get the DOY of the last row in the input_ytd data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	417 last_ytd_doy = temperature_data_frame$DOY[num_ytd_rows];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	418 # Get the DOYs for the first and last rows from norm_data_frame
1b6864c5b50a Uploaded greg parents: 47 diff changeset	419 # that will be appended to temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	420 append_start_doy_norm = last_ytd_doy + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	421 # Get the row from norm_data_frame containing first_norm_doy.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	422 first_norm_row = which(norm_data_frame$DOY == append_start_doy_norm);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	423 # Get the row from norm_data_frame containing end_date_doy.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	424 last_norm_row = which(norm_data_frame$DOY == end_date_doy);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	425 # Get the number of rows for the restricted date interval
1b6864c5b50a Uploaded greg parents: 47 diff changeset	426 # that are contained in norm_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	427 num_norm_data_frame_rows = last_norm_row - first_norm_row;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	428 # Create a temporary data frame to contain the data
1b6864c5b50a Uploaded greg parents: 47 diff changeset	429 # taken from both temperature_data_frame and norm_data_frame
1b6864c5b50a Uploaded greg parents: 47 diff changeset	430 # for the date interval.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	431 tmp_data_frame = get_new_temperature_data_frame(nrow=num_temperature_data_frame_rows+num_norm_data_frame_rows);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	432 # Populate tmp_data_frame with the appropriate rows from temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	433 j = start_date_ytd_row;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	434 for (i in 1:num_temperature_data_frame_rows) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	435 tmp_data_frame[i,] = temperature_data_frame[j,];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	436 j = j + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	437 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	438 # Apppend the appropriate rows from norm_data_frame to tmp_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	439 current_iteration = num_temperature_data_frame_rows + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	440 num_iterations = current_iteration + num_norm_data_frame_rows;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	441 j = first_norm_row;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	442 for (i in current_iteration:num_iterations) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	443 tmp_data_frame[i,] = get_next_normals_row(norm_data_frame, year, j);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	444 j = j + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	445 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	446 temperature_data_frame = tmp_data_frame[,];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	447 } else if (start_date_ytd_row == 0 & end_date_ytd_row == 0) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	448 # The date interval is contained witin input_norm.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	449 temperature_data_frame = from_30_year_normals(norm_data_frame, start_date_doy, end_date_doy, year);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	450 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	451 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	452 # We're plotting an entire year.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	453 if (start_doy_ytd > 1) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	454 # The input_ytd data starts after Jan 1, so prepend
1b6864c5b50a Uploaded greg parents: 47 diff changeset	455 # appropriate rows from input_norm to temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	456 prepend_end_doy_norm = start_doy_ytd - 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	457 last_norm_row = which(norm_data_frame$DOY == prepend_end_doy_norm);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	458 # Create a temporary data frame to contain the input_norm data
1b6864c5b50a Uploaded greg parents: 47 diff changeset	459 # from Jan 1 to the date immediately prior to start_date.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	460 tmp_data_frame = temperature_data_frame[FALSE,];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	461 # Populate tmp_data_frame with appropriate rows from norm_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	462 for (i in 1:last_norm_row) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	463 tmp_data_frame[i,] = get_next_normals_row(norm_data_frame, year, i);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	464 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	465 # Merge the temporary data frame with temperature_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	466 temperature_data_frame = rbind(tmp_data_frame, temperature_data_frame);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	467 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	468 # Set the value of total_days.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	469 total_days = get_total_days(is_leap_year);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	470 if (end_doy_ytd < total_days) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	471 # Define the next row for the year-to-date data from the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	472 append_start_doy_norm = end_doy_ytd + 1;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	473 first_norm_row = which(norm_data_frame$DOY == append_start_doy_norm);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	474 # Append the 30 year normals data to the year-to-date data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	475 for (i in first_norm_row:total_days) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	476 temperature_data_frame[i,] = get_next_normals_row(norm_data_frame, year, i);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	477 }
1b6864c5b50a Uploaded greg parents: 47 diff changeset	478 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	479 }
43 fd3c00392fce Uploaded greg parents: 41 diff changeset	480 } else {
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	481 # We're processing only the 30 year normals data.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	482 if (date_interval) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	483 # Populate temperature_data_frame from norm_data_frame.
1b6864c5b50a Uploaded greg parents: 47 diff changeset	484 temperature_data_frame = from_30_year_normals(norm_data_frame, start_date_doy, end_date_doy, year);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	485 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	486 total_days = get_total_days(is_leap_year);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	487 for (i in 1:total_days) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	488 temperature_data_frame[i,] = get_next_normals_row(norm_data_frame, year, i);
43 fd3c00392fce Uploaded greg parents: 41 diff changeset	489 }
fd3c00392fce Uploaded greg parents: 41 diff changeset	490 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	491 }
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	492 # Add a column containing the daylight length for each day.
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	493 temperature_data_frame = add_daylight_length(temperature_data_frame);
1b6864c5b50a Uploaded greg parents: 47 diff changeset	494 return(list(temperature_data_frame, start_date, end_date, prepend_end_doy_norm, append_start_doy_norm, is_leap_year, location));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	495 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	496
50 927321ed0322 Uploaded greg parents: 49 diff changeset	497 # Import the shared utility functions.
927321ed0322 Uploaded greg parents: 49 diff changeset	498 utils_path <- paste(opt$script_dir, "utils.R", sep="/");
927321ed0322 Uploaded greg parents: 49 diff changeset	499 source(utils_path);
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	500
1b6864c5b50a Uploaded greg parents: 47 diff changeset	501 if (is.null(opt$input_ytd)) {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	502 processing_year_to_date_data = FALSE;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	503 } else {
1b6864c5b50a Uploaded greg parents: 47 diff changeset	504 processing_year_to_date_data = TRUE;
1b6864c5b50a Uploaded greg parents: 47 diff changeset	505 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	506 # Determine if we're plotting generations separately.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	507 if (opt$plot_generations_separately=="yes") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	508 plot_generations_separately = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	509 } else {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	510 plot_generations_separately = FALSE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	511 }
39 169c8180205a Uploaded greg parents: 38 diff changeset	512 # Parse the inputs.
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	513 data_list = parse_input_data(opt$input_ytd, opt$input_norm, opt$location, opt$start_date, opt$end_date);
39 169c8180205a Uploaded greg parents: 38 diff changeset	514 temperature_data_frame = data_list[[1]];
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	515 # Information needed for plots, some of these values are
1b6864c5b50a Uploaded greg parents: 47 diff changeset	516 # being reset here since in some case they were set above.
39 169c8180205a Uploaded greg parents: 38 diff changeset	517 start_date = data_list[[2]];
41 f4d683709b7f Uploaded greg parents: 40 diff changeset	518 end_date = data_list[[3]];
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	519 prepend_end_doy_norm = data_list[[4]];
1b6864c5b50a Uploaded greg parents: 47 diff changeset	520 append_start_doy_norm = data_list[[5]];
41 f4d683709b7f Uploaded greg parents: 40 diff changeset	521 is_leap_year = data_list[[6]];
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	522 location = data_list[[7]];
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	523
50 927321ed0322 Uploaded greg parents: 49 diff changeset	524 # We're plotting an entire year.
927321ed0322 Uploaded greg parents: 49 diff changeset	525 # Display the total number of days in the Galaxy history item blurb.
927321ed0322 Uploaded greg parents: 49 diff changeset	526 if (processing_year_to_date_data) {
927321ed0322 Uploaded greg parents: 49 diff changeset	527 cat("Number of days year-to-date: ", opt$num_days_ytd, "\n");
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	528 } else {
50 927321ed0322 Uploaded greg parents: 49 diff changeset	529 if (is_leap_year) {
927321ed0322 Uploaded greg parents: 49 diff changeset	530 num_days = 366;
927321ed0322 Uploaded greg parents: 49 diff changeset	531 } else {
927321ed0322 Uploaded greg parents: 49 diff changeset	532 num_days = 365;
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	533 }
50 927321ed0322 Uploaded greg parents: 49 diff changeset	534 cat("Number of days in year: ", num_days, "\n");
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	535 }
50 927321ed0322 Uploaded greg parents: 49 diff changeset	536
31 ef6aa8c21729 Uploaded greg parents: 28 diff changeset	537 # Create copies of the temperature data for generations P, F1 and F2 if we're plotting generations separately.
ef6aa8c21729 Uploaded greg parents: 28 diff changeset	538 if (plot_generations_separately) {
ef6aa8c21729 Uploaded greg parents: 28 diff changeset	539 temperature_data_frame_P = data.frame(temperature_data_frame);
ef6aa8c21729 Uploaded greg parents: 28 diff changeset	540 temperature_data_frame_F1 = data.frame(temperature_data_frame);
ef6aa8c21729 Uploaded greg parents: 28 diff changeset	541 temperature_data_frame_F2 = data.frame(temperature_data_frame);
ef6aa8c21729 Uploaded greg parents: 28 diff changeset	542 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	543
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	544 # Get the ticks date labels for plots.
50 927321ed0322 Uploaded greg parents: 49 diff changeset	545 ticks_and_labels = get_x_axis_ticks_and_labels(temperature_data_frame, prepend_end_doy_norm, append_start_doy_norm);
34 7aa848b0e55c Uploaded greg parents: 31 diff changeset	546 ticks = c(unlist(ticks_and_labels[1]));
7aa848b0e55c Uploaded greg parents: 31 diff changeset	547 date_labels = c(unlist(ticks_and_labels[2]));
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	548 # All latitude values are the same, so get the value for plots from the first row.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	549 latitude = temperature_data_frame$LATITUDE[1];
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	550
20 214217142600 Uploaded greg parents: 19 diff changeset	551 # Determine the specified life stages for processing.
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	552 # Split life_stages into a list of strings for plots.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	553 life_stages_str = as.character(opt$life_stages);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	554 life_stages = strsplit(life_stages_str, ",")[[1]];
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	555
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	556 # Determine the data we need to generate for plotting.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	557 process_eggs = FALSE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	558 process_nymphs = FALSE;
20 214217142600 Uploaded greg parents: 19 diff changeset	559 process_young_nymphs = FALSE;
214217142600 Uploaded greg parents: 19 diff changeset	560 process_old_nymphs = FALSE;
214217142600 Uploaded greg parents: 19 diff changeset	561 process_total_nymphs = FALSE;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	562 process_adults = FALSE;
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	563 process_previttelogenic_adults = FALSE;
36d7bb034285 Uploaded greg parents: 21 diff changeset	564 process_vittelogenic_adults = FALSE;
20 214217142600 Uploaded greg parents: 19 diff changeset	565 process_diapausing_adults = FALSE;
214217142600 Uploaded greg parents: 19 diff changeset	566 process_total_adults = FALSE;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	567 for (life_stage in life_stages) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	568 if (life_stage=="Total") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	569 process_eggs = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	570 process_nymphs = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	571 process_adults = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	572 } else if (life_stage=="Egg") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	573 process_eggs = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	574 } else if (life_stage=="Nymph") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	575 process_nymphs = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	576 } else if (life_stage=="Adult") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	577 process_adults = TRUE;
61bc6bd8807d Uploaded greg parents: 8 diff changeset	578 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	579 }
20 214217142600 Uploaded greg parents: 19 diff changeset	580 if (process_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	581 # Split life_stages_nymph into a list of strings for plots.
214217142600 Uploaded greg parents: 19 diff changeset	582 life_stages_nymph_str = as.character(opt$life_stages_nymph);
214217142600 Uploaded greg parents: 19 diff changeset	583 life_stages_nymph = strsplit(life_stages_nymph_str, ",")[[1]];
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	584 for (life_stage_nymph in life_stages_nymph) {
20 214217142600 Uploaded greg parents: 19 diff changeset	585 if (life_stage_nymph=="Young") {
214217142600 Uploaded greg parents: 19 diff changeset	586 process_young_nymphs = TRUE;
214217142600 Uploaded greg parents: 19 diff changeset	587 } else if (life_stage_nymph=="Old") {
214217142600 Uploaded greg parents: 19 diff changeset	588 process_old_nymphs = TRUE;
214217142600 Uploaded greg parents: 19 diff changeset	589 } else if (life_stage_nymph=="Total") {
214217142600 Uploaded greg parents: 19 diff changeset	590 process_total_nymphs = TRUE;
214217142600 Uploaded greg parents: 19 diff changeset	591 }
214217142600 Uploaded greg parents: 19 diff changeset	592 }
214217142600 Uploaded greg parents: 19 diff changeset	593 }
16 309954bbe999 Uploaded greg parents: 15 diff changeset	594 if (process_adults) {
309954bbe999 Uploaded greg parents: 15 diff changeset	595 # Split life_stages_adult into a list of strings for plots.
309954bbe999 Uploaded greg parents: 15 diff changeset	596 life_stages_adult_str = as.character(opt$life_stages_adult);
309954bbe999 Uploaded greg parents: 15 diff changeset	597 life_stages_adult = strsplit(life_stages_adult_str, ",")[[1]];
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	598 for (life_stage_adult in life_stages_adult) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	599 if (life_stage_adult=="Pre-vittelogenic") {
36d7bb034285 Uploaded greg parents: 21 diff changeset	600 process_previttelogenic_adults = TRUE;
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	601 } else if (life_stage_adult=="Vittelogenic") {
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	602 process_vittelogenic_adults = TRUE;
20 214217142600 Uploaded greg parents: 19 diff changeset	603 } else if (life_stage_adult=="Diapausing") {
214217142600 Uploaded greg parents: 19 diff changeset	604 process_diapausing_adults = TRUE;
214217142600 Uploaded greg parents: 19 diff changeset	605 } else if (life_stage_adult=="Total") {
214217142600 Uploaded greg parents: 19 diff changeset	606 process_total_adults = TRUE;
214217142600 Uploaded greg parents: 19 diff changeset	607 }
214217142600 Uploaded greg parents: 19 diff changeset	608 }
16 309954bbe999 Uploaded greg parents: 15 diff changeset	609 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	610 # Initialize matrices.
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	611 total_days = dim(temperature_data_frame)[1];
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	612 if (process_eggs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	613 Eggs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	614 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	615 if (process_young_nymphs \| process_total_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	616 YoungNymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
20 214217142600 Uploaded greg parents: 19 diff changeset	617 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	618 if (process_old_nymphs \| process_total_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	619 OldNymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	620 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	621 if (process_previttelogenic_adults \| process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	622 Previttelogenic.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	623 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	624 if (process_vittelogenic_adults \| process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	625 Vittelogenic.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	626 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	627 if (process_diapausing_adults \| process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	628 Diapausing.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	629 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	630 newborn.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	631 adult.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	632 death.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	633 if (plot_generations_separately) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	634 # P is Parental, or overwintered adults.
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	635 P.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	636 # F1 is the first field-produced generation.
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	637 F1.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	638 # F2 is the second field-produced generation.
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	639 F2.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	640 if (process_eggs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	641 P_eggs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	642 F1_eggs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	643 F2_eggs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	644 }
20 214217142600 Uploaded greg parents: 19 diff changeset	645 if (process_young_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	646 P_young_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	647 F1_young_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	648 F2_young_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
20 214217142600 Uploaded greg parents: 19 diff changeset	649 }
214217142600 Uploaded greg parents: 19 diff changeset	650 if (process_old_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	651 P_old_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	652 F1_old_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	653 F2_old_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
20 214217142600 Uploaded greg parents: 19 diff changeset	654 }
214217142600 Uploaded greg parents: 19 diff changeset	655 if (process_total_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	656 P_total_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	657 F1_total_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	658 F2_total_nymphs.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	659 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	660 if (process_previttelogenic_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	661 P_previttelogenic_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	662 F1_previttelogenic_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	663 F2_previttelogenic_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	664 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	665 if (process_vittelogenic_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	666 P_vittelogenic_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	667 F1_vittelogenic_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	668 F2_vittelogenic_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	669 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	670 if (process_diapausing_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	671 P_diapausing_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	672 F1_diapausing_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	673 F2_diapausing_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	674 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	675 if (process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	676 P_total_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	677 F1_total_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	678 F2_total_adults.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	679 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	680 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	681 # Total population.
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	682 population.replications = matrix(rep(0, total_days*opt$replications), ncol=opt$replications);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	683
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	684 # Process replications.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	685 for (current_replication in 1:opt$replications) {
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	686 # Start with the user-defined number of insects per replication.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	687 num_insects = opt$insects_per_replication;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	688 # Generation, Stage, degree-days, T, Diapause.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	689 vector.ini = c(0, 3, 0, 0, 0);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	690 # Replicate to create a matrix where the columns are
61bc6bd8807d Uploaded greg parents: 8 diff changeset	691 # Generation, Stage, degree-days, T, Diapause and the
61bc6bd8807d Uploaded greg parents: 8 diff changeset	692 # rows are the initial number of insects per replication.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	693 vector.matrix = rep(vector.ini, num_insects);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	694 # Complete transposed matrix for the population, so now
61bc6bd8807d Uploaded greg parents: 8 diff changeset	695 # the rows are Generation, Stage, degree-days, T, Diapause
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	696 vector.matrix = base::t(matrix(vector.matrix, nrow=5));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	697 # Time series of population size.
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	698 if (process_eggs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	699 Eggs = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	700 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	701 if (process_young_nymphs \| process_total_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	702 YoungNymphs = rep(0, total_days);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	703 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	704 if (process_old_nymphs \| process_total_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	705 OldNymphs = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	706 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	707 if (process_previttelogenic_adults \| process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	708 Previttelogenic = rep(0, total_days);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	709 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	710 if (process_vittelogenic_adults \| process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	711 Vittelogenic = rep(0, total_days);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	712 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	713 if (process_diapausing_adults \| process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	714 Diapausing = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	715 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	716 N.newborn = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	717 N.adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	718 N.death = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	719 overwintering_adult.population = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	720 first_generation.population = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	721 second_generation.population = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	722 if (plot_generations_separately) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	723 # P is Parental, or overwintered adults.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	724 # F1 is the first field-produced generation.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	725 # F2 is the second field-produced generation.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	726 if (process_eggs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	727 P.egg = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	728 F1.egg = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	729 F2.egg = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	730 }
20 214217142600 Uploaded greg parents: 19 diff changeset	731 if (process_young_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	732 P.young_nymph = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	733 F1.young_nymph = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	734 F2.young_nymph = rep(0, total_days);
20 214217142600 Uploaded greg parents: 19 diff changeset	735 }
214217142600 Uploaded greg parents: 19 diff changeset	736 if (process_old_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	737 P.old_nymph = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	738 F1.old_nymph = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	739 F2.old_nymph = rep(0, total_days);
20 214217142600 Uploaded greg parents: 19 diff changeset	740 }
214217142600 Uploaded greg parents: 19 diff changeset	741 if (process_total_nymphs) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	742 P.total_nymph = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	743 F1.total_nymph = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	744 F2.total_nymph = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	745 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	746 if (process_previttelogenic_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	747 P.previttelogenic_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	748 F1.previttelogenic_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	749 F2.previttelogenic_adult = rep(0, total_days);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	750 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	751 if (process_vittelogenic_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	752 P.vittelogenic_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	753 F1.vittelogenic_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	754 F2.vittelogenic_adult = rep(0, total_days);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	755 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	756 if (process_diapausing_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	757 P.diapausing_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	758 F1.diapausing_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	759 F2.diapausing_adult = rep(0, total_days);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	760 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	761 if (process_total_adults) {
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	762 P.total_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	763 F1.total_adult = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	764 F2.total_adult = rep(0, total_days);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	765 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	766 }
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	767 total.population = NULL;
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	768 averages.day = rep(0, total_days);
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	769 # All the days included in the input_ytd temperature dataset.
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	770 for (row in 1:total_days) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	771 # Get the integer day of the year for the current row.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	772 doy = temperature_data_frame$DOY[row];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	773 # Photoperiod in the day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	774 photoperiod = temperature_data_frame$DAYLEN[row];
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	775 temp.profile = get_temperature_at_hour(latitude, temperature_data_frame, row);
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	776 mean.temp = temp.profile[1];
37f1ad91a949 Uploaded greg parents: 6 diff changeset	777 averages.temp = temp.profile[2];
37f1ad91a949 Uploaded greg parents: 6 diff changeset	778 averages.day[row] = averages.temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	779 # Trash bin for death.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	780 death.vector = NULL;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	781 # Newborn.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	782 birth.vector = NULL;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	783 # All individuals.
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	784 for (i in 1:num_insects) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	785 # Individual record.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	786 vector.individual = vector.matrix[i,];
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	787 # Adjustment for late season mortality rate (still alive?).
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	788 if (latitude < 40.0) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	789 post.mortality = 1;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	790 day.kill = 300;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	791 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	792 else {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	793 post.mortality = 2;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	794 day.kill = 250;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	795 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	796 if (vector.individual[2] == 0) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	797 # Egg.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	798 death.probability = opt$egg_mortality * mortality.egg(mean.temp);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	799 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	800 else if (vector.individual[2] == 1 \| vector.individual[2] == 2) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	801 # Nymph.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	802 death.probability = opt$nymph_mortality * mortality.nymph(mean.temp);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	803 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	804 else if (vector.individual[2] == 3 \| vector.individual[2] == 4 \| vector.individual[2] == 5) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	805 # Adult.
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	806 if (doy < day.kill) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	807 death.probability = opt$adult_mortality * mortality.adult(mean.temp);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	808 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	809 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	810 # Increase adult mortality after fall equinox.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	811 death.probability = opt$adult_mortality * post.mortality * mortality.adult(mean.temp);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	812 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	813 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	814 # Dependent on temperature and life stage?
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	815 u.d = runif(1);
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	816 if (u.d < death.probability) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	817 death.vector = c(death.vector, i);
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	818 }
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	819 else {
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	820 # End of diapause.
fe3f86012394 Uploaded greg parents: 5 diff changeset	821 if (vector.individual[1] == 0 && vector.individual[2] == 3) {
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	822 # Overwintering adult (pre-vittelogenic).
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	823 if (photoperiod > opt$photoperiod && vector.individual[3] > 68 && doy < 180) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	824 # Add 68C to become fully reproductively matured.
1878a03f9c9f Uploaded greg parents: 4 diff changeset	825 # Transfer to vittelogenic.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	826 vector.individual = c(0, 4, 0, 0, 0);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	827 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	828 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	829 else {
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	830 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	831 vector.individual[3] = vector.individual[3] + averages.temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	832 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	833 vector.individual[4] = vector.individual[4] + 1;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	834 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	835 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	836 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	837 if (vector.individual[1] != 0 && vector.individual[2] == 3) {
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	838 # Not overwintering adult (pre-vittelogenic).
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	839 current.gen = vector.individual[1];
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	840 if (vector.individual[3] > 68) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	841 # Add 68C to become fully reproductively matured.
1878a03f9c9f Uploaded greg parents: 4 diff changeset	842 # Transfer to vittelogenic.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	843 vector.individual = c(current.gen, 4, 0, 0, 0);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	844 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	845 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	846 else {
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	847 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	848 vector.individual[3] = vector.individual[3] + averages.temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	849 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	850 vector.individual[4] = vector.individual[4] + 1;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	851 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	852 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	853 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	854 # Oviposition -- where population dynamics comes from.
fe3f86012394 Uploaded greg parents: 5 diff changeset	855 if (vector.individual[2] == 4 && vector.individual[1] == 0 && mean.temp > 10) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	856 # Vittelogenic stage, overwintering generation.
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	857 if (vector.individual[4] == 0) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	858 # Just turned in vittelogenic stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	859 num_insects.birth = round(runif(1, 2 + opt$min_clutch_size, 8 + opt$max_clutch_size));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	860 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	861 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	862 # Daily probability of birth.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	863 p.birth = opt$oviposition * 0.01;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	864 u1 = runif(1);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	865 if (u1 < p.birth) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	866 num_insects.birth = round(runif(1, 2, 8));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	867 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	868 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	869 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	870 vector.individual[3] = vector.individual[3] + averages.temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	871 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	872 vector.individual[4] = vector.individual[4] + 1;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	873 vector.matrix[i,] = vector.individual;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	874 if (num_insects.birth > 0) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	875 # Add new birth -- might be in different generations.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	876 new.gen = vector.individual[1] + 1;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	877 # Egg profile.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	878 new.individual = c(new.gen, 0, 0, 0, 0);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	879 new.vector = rep(new.individual, num_insects.birth);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	880 # Update batch of egg profile.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	881 new.vector = t(matrix(new.vector, nrow=5));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	882 # Group with total eggs laid in that day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	883 birth.vector = rbind(birth.vector, new.vector);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	884 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	885 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	886 # Oviposition -- for generation 1.
fe3f86012394 Uploaded greg parents: 5 diff changeset	887 if (vector.individual[2] == 4 && vector.individual[1] == 1 && mean.temp > 12.5 && doy < 222) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	888 # Vittelogenic stage, 1st generation
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	889 if (vector.individual[4] == 0) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	890 # Just turned in vittelogenic stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	891 num_insects.birth = round(runif(1, 2+opt$min_clutch_size, 8+opt$max_clutch_size));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	892 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	893 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	894 # Daily probability of birth.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	895 p.birth = opt$oviposition * 0.01;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	896 u1 = runif(1);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	897 if (u1 < p.birth) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	898 num_insects.birth = round(runif(1, 2, 8));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	899 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	900 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	901 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	902 vector.individual[3] = vector.individual[3] + averages.temp;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	903 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	904 vector.individual[4] = vector.individual[4] + 1;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	905 vector.matrix[i,] = vector.individual;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	906 if (num_insects.birth > 0) {
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	907 # Add new birth -- might be in different generations.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	908 new.gen = vector.individual[1] + 1;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	909 # Egg profile.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	910 new.individual = c(new.gen, 0, 0, 0, 0);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	911 new.vector = rep(new.individual, num_insects.birth);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	912 # Update batch of egg profile.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	913 new.vector = t(matrix(new.vector, nrow=5));
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	914 # Group with total eggs laid in that day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	915 birth.vector = rbind(birth.vector, new.vector);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	916 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	917 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	918 # Egg to young nymph.
fe3f86012394 Uploaded greg parents: 5 diff changeset	919 if (vector.individual[2] == 0) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	920 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	921 vector.individual[3] = vector.individual[3] + averages.temp;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	922 if (vector.individual[3] >= (68+opt$young_nymph_accumulation)) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	923 # From egg to young nymph, degree-days requirement met.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	924 current.gen = vector.individual[1];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	925 # Transfer to young nymph stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	926 vector.individual = c(current.gen, 1, 0, 0, 0);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	927 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	928 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	929 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	930 vector.individual[4] = vector.individual[4] + 1;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	931 }
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	932 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	933 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	934 # Young nymph to old nymph.
fe3f86012394 Uploaded greg parents: 5 diff changeset	935 if (vector.individual[2] == 1) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	936 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	937 vector.individual[3] = vector.individual[3] + averages.temp;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	938 if (vector.individual[3] >= (250+opt$old_nymph_accumulation)) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	939 # From young to old nymph, degree_days requirement met.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	940 current.gen = vector.individual[1];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	941 # Transfer to old nym stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	942 vector.individual = c(current.gen, 2, 0, 0, 0);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	943 if (photoperiod < opt$photoperiod && doy > 180) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	944 vector.individual[5] = 1;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	945 } # Prepare for diapausing.
1878a03f9c9f Uploaded greg parents: 4 diff changeset	946 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	947 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	948 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	949 vector.individual[4] = vector.individual[4] + 1;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	950 }
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	951 vector.matrix[i,] = vector.individual;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	952 }
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	953 # Old nymph to adult: pre-vittelogenic or diapausing?
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	954 if (vector.individual[2] == 2) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	955 # Add average temperature for current day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	956 vector.individual[3] = vector.individual[3] + averages.temp;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	957 if (vector.individual[3] >= (200+opt$adult_accumulation)) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	958 # From old to adult, degree_days requirement met.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	959 current.gen = vector.individual[1];
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	960 if (vector.individual[5] == 0) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	961 # Previttelogenic.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	962 vector.individual = c(current.gen, 3, 0, 0, 0);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	963 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	964 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	965 # Diapausing.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	966 vector.individual = c(current.gen, 5, 0, 0, 1);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	967 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	968 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	969 else {
1878a03f9c9f Uploaded greg parents: 4 diff changeset	970 # Add 1 day in current stage.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	971 vector.individual[4] = vector.individual[4] + 1;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	972 }
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	973 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	974 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	975 # Growing of diapausing adult (unimportant, but still necessary).
fe3f86012394 Uploaded greg parents: 5 diff changeset	976 if (vector.individual[2] == 5) {
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	977 vector.individual[3] = vector.individual[3] + averages.temp;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	978 vector.individual[4] = vector.individual[4] + 1;
37f1ad91a949 Uploaded greg parents: 6 diff changeset	979 vector.matrix[i,] = vector.individual;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	980 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	981 } # Else if it is still alive.
1878a03f9c9f Uploaded greg parents: 4 diff changeset	982 } # End of the individual bug loop.
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	983
fe3f86012394 Uploaded greg parents: 5 diff changeset	984 # Number of deaths.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	985 num_insects.death = length(death.vector);
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	986 if (num_insects.death > 0) {
fe3f86012394 Uploaded greg parents: 5 diff changeset	987 # Remove record of dead.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	988 vector.matrix = vector.matrix[-death.vector,];
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	989 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	990 # Number of births.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	991 num_insects.newborn = length(birth.vector[,1]);
37f1ad91a949 Uploaded greg parents: 6 diff changeset	992 vector.matrix = rbind(vector.matrix, birth.vector);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	993 # Update population size for the next day.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	994 num_insects = num_insects - num_insects.death + num_insects.newborn;
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	995
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	996 # Aggregate results by day. Due to multiple transpose calls
61bc6bd8807d Uploaded greg parents: 8 diff changeset	997 # on vector.matrix above, the columns of vector.matrix
61bc6bd8807d Uploaded greg parents: 8 diff changeset	998 # are now Generation, Stage, degree-days, T, Diapause,
61bc6bd8807d Uploaded greg parents: 8 diff changeset	999 if (process_eggs) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1000 # For egg population size, column 2 (Stage), must be 0.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1001 Eggs[row] = sum(vector.matrix[,2]==0);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1002 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1003 if (process_young_nymphs \| process_total_nymphs) {
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1004 # For young nymph population size, column 2 (Stage) must be 1.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1005 YoungNymphs[row] = sum(vector.matrix[,2]==1);
20 214217142600 Uploaded greg parents: 19 diff changeset	1006 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1007 if (process_old_nymphs \| process_total_nymphs) {
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1008 # For old nymph population size, column 2 (Stage) must be 2.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1009 OldNymphs[row] = sum(vector.matrix[,2]==2);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1010 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1011 if (process_previttelogenic_adults \| process_total_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1012 # For pre-vittelogenic population size, column 2 (Stage) must be 3.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1013 Previttelogenic[row] = sum(vector.matrix[,2]==3);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1014 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1015 if (process_vittelogenic_adults \| process_total_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1016 # For vittelogenic population size, column 2 (Stage) must be 4.
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1017 Vittelogenic[row] = sum(vector.matrix[,2]==4);
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1018 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1019 if (process_diapausing_adults \| process_total_adults) {
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1020 # For diapausing population size, column 2 (Stage) must be 5.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1021 Diapausing[row] = sum(vector.matrix[,2]==5);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1022 }
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1023
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1024 # Newborn population size.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1025 N.newborn[row] = num_insects.newborn;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1026 # Adult population size.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1027 N.adult[row] = sum(vector.matrix[,2]==3) + sum(vector.matrix[,2]==4) + sum(vector.matrix[,2]==5);
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1028 # Dead population size.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1029 N.death[row] = num_insects.death;
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1030
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1031 total.population = c(total.population, num_insects);
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1032
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1033 # For overwintering adult (P) population
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1034 # size, column 1 (Generation) must be 0.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1035 overwintering_adult.population[row] = sum(vector.matrix[,1]==0);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1036 # For first field generation (F1) population
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1037 # size, column 1 (Generation) must be 1.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1038 first_generation.population[row] = sum(vector.matrix[,1]==1);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1039 # For second field generation (F2) population
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1040 # size, column 1 (Generation) must be 2.
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1041 second_generation.population[row] = sum(vector.matrix[,1]==2);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1042
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1043 if (plot_generations_separately) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1044 if (process_eggs) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1045 # For egg life stage of generation P population size,
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1046 # column 1 (generation) is 0 and column 2 (Stage) is 0.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1047 P.egg[row] = sum(vector.matrix[,1]==0 & vector.matrix[,2]==0);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1048 # For egg life stage of generation F1 population size,
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1049 # column 1 (generation) is 1 and column 2 (Stage) is 0.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1050 F1.egg[row] = sum(vector.matrix[,1]==1 & vector.matrix[,2]==0);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1051 # For egg life stage of generation F2 population size,
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1052 # column 1 (generation) is 2 and column 2 (Stage) is 0.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1053 F2.egg[row] = sum(vector.matrix[,1]==2 & vector.matrix[,2]==0);
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1054 }
20 214217142600 Uploaded greg parents: 19 diff changeset	1055 if (process_young_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1056 # For young nymph life stage of generation P population
214217142600 Uploaded greg parents: 19 diff changeset	1057 # size, the following combination is required:
214217142600 Uploaded greg parents: 19 diff changeset	1058 # - column 1 (Generation) is 0 and column 2 (Stage) is 1 (Young nymph)
214217142600 Uploaded greg parents: 19 diff changeset	1059 P.young_nymph[row] = sum(vector.matrix[,1]==0 & vector.matrix[,2]==1);
214217142600 Uploaded greg parents: 19 diff changeset	1060 # For young nymph life stage of generation F1 population
214217142600 Uploaded greg parents: 19 diff changeset	1061 # size, the following combination is required:
214217142600 Uploaded greg parents: 19 diff changeset	1062 # - column 1 (Generation) is 1 and column 2 (Stage) is 1 (Young nymph)
214217142600 Uploaded greg parents: 19 diff changeset	1063 F1.young_nymph[row] = sum(vector.matrix[,1]==1 & vector.matrix[,2]==1);
214217142600 Uploaded greg parents: 19 diff changeset	1064 # For young nymph life stage of generation F2 population
214217142600 Uploaded greg parents: 19 diff changeset	1065 # size, the following combination is required:
214217142600 Uploaded greg parents: 19 diff changeset	1066 # - column 1 (Generation) is 2 and column 2 (Stage) is 1 (Young nymph)
214217142600 Uploaded greg parents: 19 diff changeset	1067 F2.young_nymph[row] = sum(vector.matrix[,1]==2 & vector.matrix[,2]==1);
214217142600 Uploaded greg parents: 19 diff changeset	1068 }
214217142600 Uploaded greg parents: 19 diff changeset	1069 if (process_old_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1070 # For old nymph life stage of generation P population
214217142600 Uploaded greg parents: 19 diff changeset	1071 # size, the following combination is required:
214217142600 Uploaded greg parents: 19 diff changeset	1072 # - column 1 (Generation) is 0 and column 2 (Stage) is 2 (Old nymph)
214217142600 Uploaded greg parents: 19 diff changeset	1073 P.old_nymph[row] = sum(vector.matrix[,1]==0 & vector.matrix[,2]==2);
214217142600 Uploaded greg parents: 19 diff changeset	1074 # For old nymph life stage of generation F1 population
214217142600 Uploaded greg parents: 19 diff changeset	1075 # size, the following combination is required:
214217142600 Uploaded greg parents: 19 diff changeset	1076 # - column 1 (Generation) is 1 and column 2 (Stage) is 2 (Old nymph)
214217142600 Uploaded greg parents: 19 diff changeset	1077 F1.old_nymph[row] = sum(vector.matrix[,1]==1 & vector.matrix[,2]==2);
214217142600 Uploaded greg parents: 19 diff changeset	1078 # For old nymph life stage of generation F2 population
214217142600 Uploaded greg parents: 19 diff changeset	1079 # size, the following combination is required:
214217142600 Uploaded greg parents: 19 diff changeset	1080 # - column 1 (Generation) is 2 and column 2 (Stage) is 2 (Old nymph)
214217142600 Uploaded greg parents: 19 diff changeset	1081 F2.old_nymph[row] = sum(vector.matrix[,1]==2 & vector.matrix[,2]==2);
214217142600 Uploaded greg parents: 19 diff changeset	1082 }
214217142600 Uploaded greg parents: 19 diff changeset	1083 if (process_total_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1084 # For total nymph life stage of generation P population
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1085 # size, one of the following combinations is required:
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1086 # - column 1 (Generation) is 0 and column 2 (Stage) is 1 (Young nymph)
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1087 # - column 1 (Generation) is 0 and column 2 (Stage) is 2 (Old nymph)
20 214217142600 Uploaded greg parents: 19 diff changeset	1088 P.total_nymph[row] = sum((vector.matrix[,1]==0 & vector.matrix[,2]==1) \| (vector.matrix[,1]==0 & vector.matrix[,2]==2));
214217142600 Uploaded greg parents: 19 diff changeset	1089 # For total nymph life stage of generation F1 population
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1090 # size, one of the following combinations is required:
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1091 # - column 1 (Generation) is 1 and column 2 (Stage) is 1 (Young nymph)
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1092 # - column 1 (Generation) is 1 and column 2 (Stage) is 2 (Old nymph)
20 214217142600 Uploaded greg parents: 19 diff changeset	1093 F1.total_nymph[row] = sum((vector.matrix[,1]==1 & vector.matrix[,2]==1) \| (vector.matrix[,1]==1 & vector.matrix[,2]==2));
214217142600 Uploaded greg parents: 19 diff changeset	1094 # For total nymph life stage of generation F2 population
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1095 # size, one of the following combinations is required:
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1096 # - column 1 (Generation) is 2 and column 2 (Stage) is 1 (Young nymph)
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1097 # - column 1 (Generation) is 2 and column 2 (Stage) is 2 (Old nymph)
20 214217142600 Uploaded greg parents: 19 diff changeset	1098 F2.total_nymph[row] = sum((vector.matrix[,1]==2 & vector.matrix[,2]==1) \| (vector.matrix[,1]==2 & vector.matrix[,2]==2));
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1099 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1100 if (process_previttelogenic_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1101 # For previttelogenic adult life stage of generation P population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1102 # size, the following combination is required:
36d7bb034285 Uploaded greg parents: 21 diff changeset	1103 # - column 1 (Generation) is 0 and column 2 (Stage) is 3 (Pre-vittelogenic)
36d7bb034285 Uploaded greg parents: 21 diff changeset	1104 P.previttelogenic_adult[row] = sum(vector.matrix[,1]==0 & vector.matrix[,2]==3);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1105 # For previttelogenic adult life stage of generation F1 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1106 # size, the following combination is required:
36d7bb034285 Uploaded greg parents: 21 diff changeset	1107 # - column 1 (Generation) is 1 and column 2 (Stage) is 3 (Pre-vittelogenic)
36d7bb034285 Uploaded greg parents: 21 diff changeset	1108 F1.previttelogenic_adult[row] = sum(vector.matrix[,1]==1 & vector.matrix[,2]==3);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1109 # For previttelogenic adult life stage of generation F2 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1110 # size, the following combination is required:
36d7bb034285 Uploaded greg parents: 21 diff changeset	1111 # - column 1 (Generation) is 2 and column 2 (Stage) is 3 (Pre-vittelogenic)
36d7bb034285 Uploaded greg parents: 21 diff changeset	1112 F2.previttelogenic_adult[row] = sum(vector.matrix[,1]==2 & vector.matrix[,2]==3);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1113 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1114 if (process_vittelogenic_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1115 # For vittelogenic adult life stage of generation P population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1116 # size, the following combination is required:
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1117 # - column 1 (Generation) is 0 and column 2 (Stage) is 4 (Vittelogenic)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1118 P.vittelogenic_adult[row] = sum(vector.matrix[,1]==0 & vector.matrix[,2]==4);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1119 # For vittelogenic adult life stage of generation F1 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1120 # size, the following combination is required:
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1121 # - column 1 (Generation) is 1 and column 2 (Stage) is 4 (Vittelogenic)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1122 F1.vittelogenic_adult[row] = sum(vector.matrix[,1]==1 & vector.matrix[,2]==4);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1123 # For vittelogenic adult life stage of generation F2 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1124 # size, the following combination is required:
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1125 # - column 1 (Generation) is 2 and column 2 (Stage) is 4 (Vittelogenic)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1126 F2.vittelogenic_adult[row] = sum(vector.matrix[,1]==2 & vector.matrix[,2]==4);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1127 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1128 if (process_diapausing_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1129 # For diapausing adult life stage of generation P population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1130 # size, the following combination is required:
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1131 # - column 1 (Generation) is 0 and column 2 (Stage) is 5 (Diapausing)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1132 P.diapausing_adult[row] = sum(vector.matrix[,1]==0 & vector.matrix[,2]==5);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1133 # For diapausing adult life stage of generation F1 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1134 # size, the following combination is required:
36d7bb034285 Uploaded greg parents: 21 diff changeset	1135 # - column 1 (Generation) is 1 and column 2 (Stage) is 5 (Diapausing)
36d7bb034285 Uploaded greg parents: 21 diff changeset	1136 F1.diapausing_adult[row] = sum(vector.matrix[,1]==1 & vector.matrix[,2]==5);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1137 # For diapausing adult life stage of generation F2 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1138 # size, the following combination is required:
36d7bb034285 Uploaded greg parents: 21 diff changeset	1139 # - column 1 (Generation) is 2 and column 2 (Stage) is 5 (Diapausing)
36d7bb034285 Uploaded greg parents: 21 diff changeset	1140 F2.diapausing_adult[row] = sum(vector.matrix[,1]==2 & vector.matrix[,2]==5);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1141 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1142 if (process_total_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1143 # For total adult life stage of generation P population
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1144 # size, one of the following combinations is required:
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1145 # - column 1 (Generation) is 0 and column 2 (Stage) is 3 (Pre-vittelogenic)
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1146 # - column 1 (Generation) is 0 and column 2 (Stage) is 4 (Vittelogenic)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1147 # - column 1 (Generation) is 0 and column 2 (Stage) is 5 (Diapausing)
36d7bb034285 Uploaded greg parents: 21 diff changeset	1148 P.total_adult[row] = sum((vector.matrix[,1]==0 & vector.matrix[,2]==3) \| (vector.matrix[,1]==0 & vector.matrix[,2]==4) \| (vector.matrix[,1]==0 & vector.matrix[,2]==5));
36d7bb034285 Uploaded greg parents: 21 diff changeset	1149 # For total adult life stage of generation F1 population
36d7bb034285 Uploaded greg parents: 21 diff changeset	1150 # size, one of the following combinations is required:
36d7bb034285 Uploaded greg parents: 21 diff changeset	1151 # - column 1 (Generation) is 1 and column 2 (Stage) is 3 (Pre-vittelogenic)
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1152 # - column 1 (Generation) is 1 and column 2 (Stage) is 4 (Vittelogenic)
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1153 # - column 1 (Generation) is 1 and column 2 (Stage) is 5 (Diapausing)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1154 F1.total_adult[row] = sum((vector.matrix[,1]==1 & vector.matrix[,2]==3) \| (vector.matrix[,1]==1 & vector.matrix[,2]==4) \| (vector.matrix[,1]==1 & vector.matrix[,2]==5));
36d7bb034285 Uploaded greg parents: 21 diff changeset	1155 # For total adult life stage of generation F2 population
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1156 # size, one of the following combinations is required:
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1157 # - column 1 (Generation) is 2 and column 2 (Stage) is 3 (Pre-vittelogenic)
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1158 # - column 1 (Generation) is 2 and column 2 (Stage) is 4 (Vittelogenic)
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1159 # - column 1 (Generation) is 2 and column 2 (Stage) is 5 (Diapausing)
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1160 F2.total_adult[row] = sum((vector.matrix[,1]==2 & vector.matrix[,2]==3) \| (vector.matrix[,1]==2 & vector.matrix[,2]==4) \| (vector.matrix[,1]==2 & vector.matrix[,2]==5));
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1161 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1162 }
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1163 } # End of days specified in the input_ytd temperature data.
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1164
8 37f1ad91a949 Uploaded greg parents: 6 diff changeset	1165 averages.cum = cumsum(averages.day);
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1166
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1167 # Define the output values.
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1168 if (process_eggs) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1169 Eggs.replications[,current_replication] = Eggs;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1170 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1171 if (process_young_nymphs \| process_total_nymphs) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1172 YoungNymphs.replications[,current_replication] = YoungNymphs;
20 214217142600 Uploaded greg parents: 19 diff changeset	1173 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1174 if (process_old_nymphs \| process_total_nymphs) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1175 OldNymphs.replications[,current_replication] = OldNymphs;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1176 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1177 if (process_previttelogenic_adults \| process_total_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1178 Previttelogenic.replications[,current_replication] = Previttelogenic;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1179 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1180 if (process_vittelogenic_adults \| process_total_adults) {
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1181 Vittelogenic.replications[,current_replication] = Vittelogenic;
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1182 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1183 if (process_diapausing_adults \| process_total_adults) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1184 Diapausing.replications[,current_replication] = Diapausing;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1185 }
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1186 newborn.replications[,current_replication] = N.newborn;
f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1187 adult.replications[,current_replication] = N.adult;
f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1188 death.replications[,current_replication] = N.death;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1189 if (plot_generations_separately) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1190 # P is Parental, or overwintered adults.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1191 P.replications[,current_replication] = overwintering_adult.population;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1192 # F1 is the first field-produced generation.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1193 F1.replications[,current_replication] = first_generation.population;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1194 # F2 is the second field-produced generation.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1195 F2.replications[,current_replication] = second_generation.population;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1196 if (process_eggs) {
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1197 P_eggs.replications[,current_replication] = P.egg;
f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1198 F1_eggs.replications[,current_replication] = F1.egg;
f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1199 F2_eggs.replications[,current_replication] = F2.egg;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1200 }
20 214217142600 Uploaded greg parents: 19 diff changeset	1201 if (process_young_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1202 P_young_nymphs.replications[,current_replication] = P.young_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1203 F1_young_nymphs.replications[,current_replication] = F1.young_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1204 F2_young_nymphs.replications[,current_replication] = F2.young_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1205 }
214217142600 Uploaded greg parents: 19 diff changeset	1206 if (process_old_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1207 P_old_nymphs.replications[,current_replication] = P.old_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1208 F1_old_nymphs.replications[,current_replication] = F1.old_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1209 F2_old_nymphs.replications[,current_replication] = F2.old_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1210 }
214217142600 Uploaded greg parents: 19 diff changeset	1211 if (process_total_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1212 P_total_nymphs.replications[,current_replication] = P.total_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1213 F1_total_nymphs.replications[,current_replication] = F1.total_nymph;
214217142600 Uploaded greg parents: 19 diff changeset	1214 F2_total_nymphs.replications[,current_replication] = F2.total_nymph;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1215 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1216 if (process_previttelogenic_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1217 P_previttelogenic_adults.replications[,current_replication] = P.previttelogenic_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1218 F1_previttelogenic_adults.replications[,current_replication] = F1.previttelogenic_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1219 F2_previttelogenic_adults.replications[,current_replication] = F2.previttelogenic_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1220 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1221 if (process_vittelogenic_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1222 P_vittelogenic_adults.replications[,current_replication] = P.vittelogenic_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1223 F1_vittelogenic_adults.replications[,current_replication] = F1.vittelogenic_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1224 F2_vittelogenic_adults.replications[,current_replication] = F2.vittelogenic_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1225 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1226 if (process_diapausing_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1227 P_diapausing_adults.replications[,current_replication] = P.diapausing_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1228 F1_diapausing_adults.replications[,current_replication] = F1.diapausing_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1229 F2_diapausing_adults.replications[,current_replication] = F2.diapausing_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1230 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1231 if (process_total_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1232 P_total_adults.replications[,current_replication] = P.total_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1233 F1_total_adults.replications[,current_replication] = F1.total_adult;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1234 F2_total_adults.replications[,current_replication] = F2.total_adult;
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1235 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1236 }
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1237 population.replications[,current_replication] = total.population;
f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1238 # End processing replications.
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1239 }
1878a03f9c9f Uploaded greg parents: 4 diff changeset	1240
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1241 if (process_eggs) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1242 # Mean value for eggs.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1243 eggs = apply(Eggs.replications, 1, mean);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1244 temperature_data_frame = append_vector(temperature_data_frame, eggs, "EGG");
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1245 # Standard error for eggs.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1246 eggs.std_error = apply(Eggs.replications, 1, sd) / sqrt(opt$replications);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1247 temperature_data_frame = append_vector(temperature_data_frame, eggs.std_error, "EGGSE");
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1248 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1249 if (process_nymphs) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1250 # Calculate nymph populations for selected life stage.
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1251 for (life_stage_nymph in life_stages_nymph) {
28 afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1252 if (life_stage_nymph=="Young") {
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1253 # Mean value for young nymphs.
309954bbe999 Uploaded greg parents: 15 diff changeset	1254 young_nymphs = apply(YoungNymphs.replications, 1, mean);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1255 temperature_data_frame = append_vector(temperature_data_frame, young_nymphs, "YOUNGNYMPH");
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1256 # Standard error for young nymphs.
309954bbe999 Uploaded greg parents: 15 diff changeset	1257 young_nymphs.std_error = apply(YoungNymphs.replications / sqrt(opt$replications), 1, sd);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1258 temperature_data_frame = append_vector(temperature_data_frame, young_nymphs.std_error, "YOUNGNYMPHSE");
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1259 } else if (life_stage_nymph=="Old") {
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1260 # Mean value for old nymphs.
309954bbe999 Uploaded greg parents: 15 diff changeset	1261 old_nymphs = apply(OldNymphs.replications, 1, mean);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1262 temperature_data_frame = append_vector(temperature_data_frame, old_nymphs, "OLDNYMPH");
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1263 # Standard error for old nymphs.
309954bbe999 Uploaded greg parents: 15 diff changeset	1264 old_nymphs.std_error = apply(OldNymphs.replications / sqrt(opt$replications), 1, sd);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1265 temperature_data_frame = append_vector(temperature_data_frame, old_nymphs.std_error, "OLDNYMPHSE");
28 afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1266 } else if (life_stage_nymph=="Total") {
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1267 # Mean value for all nymphs.
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1268 total_nymphs = apply((YoungNymphs.replications+OldNymphs.replications), 1, mean);
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1269 temperature_data_frame = append_vector(temperature_data_frame, total_nymphs, "TOTALNYMPH");
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1270 # Standard error for all nymphs.
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1271 total_nymphs.std_error = apply((YoungNymphs.replications+OldNymphs.replications) / sqrt(opt$replications), 1, sd);
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1272 temperature_data_frame = append_vector(temperature_data_frame, total_nymphs.std_error, "TOTALNYMPHSE");
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1273 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1274 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1275 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1276 if (process_adults) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1277 # Calculate adult populations for selected life stage.
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1278 for (life_stage_adult in life_stages_adult) {
28 afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1279 if (life_stage_adult == "Pre-vittelogenic") {
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1280 # Mean value for previttelogenic adults.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1281 previttelogenic_adults = apply(Previttelogenic.replications, 1, mean);
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1282 temperature_data_frame = append_vector(temperature_data_frame, previttelogenic_adults, "PRE.VITADULT");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1283 # Standard error for previttelogenic adults.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1284 previttelogenic_adults.std_error = apply(Previttelogenic.replications, 1, sd) / sqrt(opt$replications);
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1285 temperature_data_frame = append_vector(temperature_data_frame, previttelogenic_adults.std_error, "PRE.VITADULTSE");
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1286 } else if (life_stage_adult == "Vittelogenic") {
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1287 # Mean value for vittelogenic adults.
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1288 vittelogenic_adults = apply(Vittelogenic.replications, 1, mean);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1289 temperature_data_frame = append_vector(temperature_data_frame, vittelogenic_adults, "VITADULT");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1290 # Standard error for vittelogenic adults.
24 b90f9b781a77 Uploaded greg parents: 23 diff changeset	1291 vittelogenic_adults.std_error = apply(Vittelogenic.replications, 1, sd) / sqrt(opt$replications);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1292 temperature_data_frame = append_vector(temperature_data_frame, vittelogenic_adults.std_error, "VITADULTSE");
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1293 } else if (life_stage_adult == "Diapausing") {
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1294 # Mean value for vittelogenic adults.
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1295 diapausing_adults = apply(Diapausing.replications, 1, mean);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1296 temperature_data_frame = append_vector(temperature_data_frame, diapausing_adults, "DIAPAUSINGADULT");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1297 # Standard error for vittelogenic adults.
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1298 diapausing_adults.std_error = apply(Diapausing.replications, 1, sd) / sqrt(opt$replications);
27 452e0e189e84 Uploaded greg parents: 25 diff changeset	1299 temperature_data_frame = append_vector(temperature_data_frame, diapausing_adults.std_error, "DIAPAUSINGADULTSE");
28 afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1300 } else if (life_stage_adult=="Total") {
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1301 # Mean value for all adults.
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1302 total_adults = apply((Previttelogenic.replications+Vittelogenic.replications+Diapausing.replications), 1, mean);
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1303 temperature_data_frame = append_vector(temperature_data_frame, total_adults, "TOTALADULT");
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1304 # Standard error for all adults.
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1305 total_adults.std_error = apply((Previttelogenic.replications+Vittelogenic.replications+Diapausing.replications), 1, sd) / sqrt(opt$replications);
afe6d8bac0c0 Uploaded greg parents: 27 diff changeset	1306 temperature_data_frame = append_vector(temperature_data_frame, total_adults.std_error, "TOTALADULTSE");
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1307 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1308 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1309 }
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1310
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1311 if (plot_generations_separately) {
20 214217142600 Uploaded greg parents: 19 diff changeset	1312 m_se = get_mean_and_std_error(P.replications, F1.replications, F2.replications);
214217142600 Uploaded greg parents: 19 diff changeset	1313 P = m_se[[1]];
214217142600 Uploaded greg parents: 19 diff changeset	1314 P.std_error = m_se[[2]];
214217142600 Uploaded greg parents: 19 diff changeset	1315 F1 = m_se[[3]];
214217142600 Uploaded greg parents: 19 diff changeset	1316 F1.std_error = m_se[[4]];
214217142600 Uploaded greg parents: 19 diff changeset	1317 F2 = m_se[[5]];
214217142600 Uploaded greg parents: 19 diff changeset	1318 F2.std_error = m_se[[6]];
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1319 if (process_eggs) {
20 214217142600 Uploaded greg parents: 19 diff changeset	1320 m_se = get_mean_and_std_error(P_eggs.replications, F1_eggs.replications, F2_eggs.replications);
214217142600 Uploaded greg parents: 19 diff changeset	1321 P_eggs = m_se[[1]];
214217142600 Uploaded greg parents: 19 diff changeset	1322 P_eggs.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1323 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_eggs, "EGG.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1324 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_eggs.std_error, "EGG.P.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1325 F1_eggs = m_se[[3]];
214217142600 Uploaded greg parents: 19 diff changeset	1326 F1_eggs.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1327 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_eggs, "EGG.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1328 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_eggs.std_error, "EGG.F1.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1329 F2_eggs = m_se[[5]];
214217142600 Uploaded greg parents: 19 diff changeset	1330 F2_eggs.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1331 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_eggs, "EGG.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1332 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_eggs.std_error, "EGG.F2.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1333 }
214217142600 Uploaded greg parents: 19 diff changeset	1334 if (process_young_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1335 m_se = get_mean_and_std_error(P_young_nymphs.replications, F1_young_nymphs.replications, F2_young_nymphs.replications);
214217142600 Uploaded greg parents: 19 diff changeset	1336 P_young_nymphs = m_se[[1]];
214217142600 Uploaded greg parents: 19 diff changeset	1337 P_young_nymphs.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1338 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_young_nymphs, "YOUNGNYMPH.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1339 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_young_nymphs.std_error, "YOUNGNYMPH.P.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1340 F1_young_nymphs = m_se[[3]];
214217142600 Uploaded greg parents: 19 diff changeset	1341 F1_young_nymphs.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1342 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_young_nymphs, "YOUNGNYMPH.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1343 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_young_nymphs.std_error, "YOUNGNYMPH.F1.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1344 F2_young_nymphs = m_se[[5]];
214217142600 Uploaded greg parents: 19 diff changeset	1345 F2_young_nymphs.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1346 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_young_nymphs, "YOUNGNYMPH.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1347 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_young_nymphs.std_error, "YOUNGNYMPH.F2.SE");
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1348 }
20 214217142600 Uploaded greg parents: 19 diff changeset	1349 if (process_old_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1350 m_se = get_mean_and_std_error(P_old_nymphs.replications, F1_old_nymphs.replications, F2_old_nymphs.replications);
214217142600 Uploaded greg parents: 19 diff changeset	1351 P_old_nymphs = m_se[[1]];
214217142600 Uploaded greg parents: 19 diff changeset	1352 P_old_nymphs.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1353 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_old_nymphs, "OLDNYMPH.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1354 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_old_nymphs.std_error, "OLDNYMPH.P.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1355 F1_old_nymphs = m_se[[3]];
214217142600 Uploaded greg parents: 19 diff changeset	1356 F1_old_nymphs.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1357 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_old_nymphs, "OLDNYMPH.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1358 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_old_nymphs.std_error, "OLDNYMPH.F1.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1359 F2_old_nymphs = m_se[[5]];
214217142600 Uploaded greg parents: 19 diff changeset	1360 F2_old_nymphs.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1361 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_old_nymphs, "OLDNYMPH.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1362 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_old_nymphs.std_error, "OLDNYMPH.F2.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1363 }
214217142600 Uploaded greg parents: 19 diff changeset	1364 if (process_total_nymphs) {
214217142600 Uploaded greg parents: 19 diff changeset	1365 m_se = get_mean_and_std_error(P_total_nymphs.replications, F1_total_nymphs.replications, F2_total_nymphs.replications);
214217142600 Uploaded greg parents: 19 diff changeset	1366 P_total_nymphs = m_se[[1]];
214217142600 Uploaded greg parents: 19 diff changeset	1367 P_total_nymphs.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1368 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_total_nymphs, "TOTALNYMPH.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1369 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_total_nymphs.std_error, "TOTALNYMPH.P.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1370 F1_total_nymphs = m_se[[3]];
214217142600 Uploaded greg parents: 19 diff changeset	1371 F1_total_nymphs.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1372 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_total_nymphs, "TOTALNYMPH.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1373 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_total_nymphs.std_error, "TOTALNYMPH.F1.SE");
20 214217142600 Uploaded greg parents: 19 diff changeset	1374 F2_total_nymphs = m_se[[5]];
214217142600 Uploaded greg parents: 19 diff changeset	1375 F2_total_nymphs.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1376 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_total_nymphs, "TOTALNYMPH.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1377 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_total_nymphs.std_error, "TOTALNYMPH.F2.SE");
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1378 }
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1379 if (process_previttelogenic_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1380 m_se = get_mean_and_std_error(P_previttelogenic_adults.replications, F1_previttelogenic_adults.replications, F2_previttelogenic_adults.replications);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1381 P_previttelogenic_adults = m_se[[1]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1382 P_previttelogenic_adults.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1383 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_previttelogenic_adults, "PRE.VITADULT.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1384 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_previttelogenic_adults.std_error, "PRE.VITADULT.P.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1385 F1_previttelogenic_adults = m_se[[3]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1386 F1_previttelogenic_adults.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1387 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_previttelogenic_adults, "PRE.VITADULT.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1388 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_previttelogenic_adults.std_error, "PRE.VITADULT.F1.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1389 F2_previttelogenic_adults = m_se[[5]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1390 F2_previttelogenic_adults.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1391 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_previttelogenic_adults, "PRE.VITADULT.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1392 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_previttelogenic_adults.std_error, "PRE.VITADULT.F2.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1393 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1394 if (process_vittelogenic_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1395 m_se = get_mean_and_std_error(P_vittelogenic_adults.replications, F1_vittelogenic_adults.replications, F2_vittelogenic_adults.replications);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1396 P_vittelogenic_adults = m_se[[1]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1397 P_vittelogenic_adults.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1398 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_vittelogenic_adults, "VITADULT.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1399 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_vittelogenic_adults.std_error, "VITADULT.P.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1400 F1_vittelogenic_adults = m_se[[3]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1401 F1_vittelogenic_adults.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1402 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_vittelogenic_adults, "VITADULT.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1403 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_vittelogenic_adults.std_error, "VITADULT.F1.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1404 F2_vittelogenic_adults = m_se[[5]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1405 F2_vittelogenic_adults.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1406 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_vittelogenic_adults, "VITADULT.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1407 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_vittelogenic_adults.std_error, "VITADULT.F2.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1408 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1409 if (process_diapausing_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1410 m_se = get_mean_and_std_error(P_diapausing_adults.replications, F1_diapausing_adults.replications, F2_diapausing_adults.replications);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1411 P_diapausing_adults = m_se[[1]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1412 P_diapausing_adults.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1413 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_diapausing_adults, "DIAPAUSINGADULT.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1414 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_diapausing_adults.std_error, "DIAPAUSINGADULT.P.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1415 F1_diapausing_adults = m_se[[3]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1416 F1_diapausing_adults.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1417 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_diapausing_adults, "DIAPAUSINGADULT.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1418 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_diapausing_adults.std_error, "DIAPAUSINGADULT.F1.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1419 F2_diapausing_adults = m_se[[5]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1420 F2_diapausing_adults.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1421 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_diapausing_adults, "DIAPAUSINGADULT.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1422 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_diapausing_adults.std_error, "DIAPAUSINGADULT.F2.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1423 }
36d7bb034285 Uploaded greg parents: 21 diff changeset	1424 if (process_total_adults) {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1425 m_se = get_mean_and_std_error(P_total_adults.replications, F1_total_adults.replications, F2_total_adults.replications);
36d7bb034285 Uploaded greg parents: 21 diff changeset	1426 P_total_adults = m_se[[1]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1427 P_total_adults.std_error = m_se[[2]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1428 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_total_adults, "TOTALADULT.P");
927321ed0322 Uploaded greg parents: 49 diff changeset	1429 temperature_data_frame_P = append_vector(temperature_data_frame_P, P_total_adults.std_error, "TOTALADULT.P.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1430 F1_total_adults = m_se[[3]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1431 F1_total_adults.std_error = m_se[[4]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1432 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_total_adults, "TOTALADULT.F1");
927321ed0322 Uploaded greg parents: 49 diff changeset	1433 temperature_data_frame_F1 = append_vector(temperature_data_frame_F1, F1_total_adults.std_error, "TOTALADULT.F1.SE");
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1434 F2_total_adults = m_se[[5]];
36d7bb034285 Uploaded greg parents: 21 diff changeset	1435 F2_total_adults.std_error = m_se[[6]];
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1436 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_total_adults, "TOTALADULT.F2");
927321ed0322 Uploaded greg parents: 49 diff changeset	1437 temperature_data_frame_F2 = append_vector(temperature_data_frame_F2, F2_total_adults.std_error, "TOTALADULT.F2.SE");
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1438 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1439 }
6 fe3f86012394 Uploaded greg parents: 5 diff changeset	1440
31 ef6aa8c21729 Uploaded greg parents: 28 diff changeset	1441 # Save the analyzed data for combined generations.
34 7aa848b0e55c Uploaded greg parents: 31 diff changeset	1442 file_path = paste("output_data_dir", "04_combined_generations.csv", sep="/");
7aa848b0e55c Uploaded greg parents: 31 diff changeset	1443 write.csv(temperature_data_frame, file=file_path, row.names=F);
31 ef6aa8c21729 Uploaded greg parents: 28 diff changeset	1444 if (plot_generations_separately) {
ef6aa8c21729 Uploaded greg parents: 28 diff changeset	1445 # Save the analyzed data for generation P.
34 7aa848b0e55c Uploaded greg parents: 31 diff changeset	1446 file_path = paste("output_data_dir", "01_generation_P.csv", sep="/");
7aa848b0e55c Uploaded greg parents: 31 diff changeset	1447 write.csv(temperature_data_frame_P, file=file_path, row.names=F);
31 ef6aa8c21729 Uploaded greg parents: 28 diff changeset	1448 # Save the analyzed data for generation F1.
34 7aa848b0e55c Uploaded greg parents: 31 diff changeset	1449 file_path = paste("output_data_dir", "02_generation_F1.csv", sep="/");
7aa848b0e55c Uploaded greg parents: 31 diff changeset	1450 write.csv(temperature_data_frame_F1, file=file_path, row.names=F);
31 ef6aa8c21729 Uploaded greg parents: 28 diff changeset	1451 # Save the analyzed data for generation F2.
34 7aa848b0e55c Uploaded greg parents: 31 diff changeset	1452 file_path = paste("output_data_dir", "03_generation_F2.csv", sep="/");
7aa848b0e55c Uploaded greg parents: 31 diff changeset	1453 write.csv(temperature_data_frame_F2, file=file_path, row.names=F);
31 ef6aa8c21729 Uploaded greg parents: 28 diff changeset	1454 }
5 1878a03f9c9f Uploaded greg parents: 4 diff changeset	1455
49 1b6864c5b50a Uploaded greg parents: 47 diff changeset	1456 total_days_vector = c(1:dim(temperature_data_frame)[1]);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1457 if (plot_generations_separately) {
15 dd86ee185113 Uploaded greg parents: 11 diff changeset	1458 for (life_stage in life_stages) {
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1459 if (life_stage == "Egg") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1460 # Start PDF device driver.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1461 dev.new(width=20, height=30);
19 3c6e94e477cb Uploaded greg parents: 18 diff changeset	1462 file_path = get_file_path(life_stage, "egg_pop_by_generation.pdf")
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1463 pdf(file=file_path, width=20, height=30, bg="white");
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1464 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1465 # Egg population size by generation.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1466 maxval = max(P_eggs+F1_eggs+F2_eggs) + 100;
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1467 render_chart(ticks, date_labels, "pop_size_by_generation", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1468 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=P_eggs, group_std_error=P_eggs.std_error,
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1469 group2=F1_eggs, group2_std_error=F1_eggs.std_error, group3=F2_eggs, group3_std_error=F2_eggs.std_error);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1470 # Turn off device driver to flush output.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1471 dev.off();
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1472 } else if (life_stage == "Nymph") {
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1473 for (life_stage_nymph in life_stages_nymph) {
309954bbe999 Uploaded greg parents: 15 diff changeset	1474 # Start PDF device driver.
309954bbe999 Uploaded greg parents: 15 diff changeset	1475 dev.new(width=20, height=30);
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1476 file_path = get_file_path(life_stage, "nymph_pop_by_generation.pdf", sub_life_stage=life_stage_nymph)
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1477 pdf(file=file_path, width=20, height=30, bg="white");
309954bbe999 Uploaded greg parents: 15 diff changeset	1478 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
20 214217142600 Uploaded greg parents: 19 diff changeset	1479 if (life_stage_nymph=="Young") {
214217142600 Uploaded greg parents: 19 diff changeset	1480 # Young nymph population size by generation.
214217142600 Uploaded greg parents: 19 diff changeset	1481 maxval = max(P_young_nymphs+F1_young_nymphs+F2_young_nymphs) + 100;
214217142600 Uploaded greg parents: 19 diff changeset	1482 group = P_young_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1483 group_std_error = P_young_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1484 group2 = F1_young_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1485 group2_std_error = F1_young_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1486 group3 = F2_young_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1487 group3_std_error = F2_young_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1488 } else if (life_stage_nymph=="Old") {
214217142600 Uploaded greg parents: 19 diff changeset	1489 # Total nymph population size by generation.
214217142600 Uploaded greg parents: 19 diff changeset	1490 maxval = max(P_old_nymphs+F1_old_nymphs+F2_old_nymphs) + 100;
214217142600 Uploaded greg parents: 19 diff changeset	1491 group = P_old_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1492 group_std_error = P_old_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1493 group2 = F1_old_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1494 group2_std_error = F1_old_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1495 group3 = F2_old_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1496 group3_std_error = F2_old_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1497 } else if (life_stage_nymph=="Total") {
214217142600 Uploaded greg parents: 19 diff changeset	1498 # Total nymph population size by generation.
214217142600 Uploaded greg parents: 19 diff changeset	1499 maxval = max(P_total_nymphs+F1_total_nymphs+F2_total_nymphs) + 100;
214217142600 Uploaded greg parents: 19 diff changeset	1500 group = P_total_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1501 group_std_error = P_total_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1502 group2 = F1_total_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1503 group2_std_error = F1_total_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1504 group3 = F2_total_nymphs;
214217142600 Uploaded greg parents: 19 diff changeset	1505 group3_std_error = F2_total_nymphs.std_error;
214217142600 Uploaded greg parents: 19 diff changeset	1506 }
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1507 render_chart(ticks, date_labels, "pop_size_by_generation", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1508 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=group, group_std_error=group_std_error,
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1509 group2=group2, group2_std_error=group2_std_error, group3=group3, group3_std_error=group3_std_error, sub_life_stage=life_stage_nymph);
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1510 # Turn off device driver to flush output.
309954bbe999 Uploaded greg parents: 15 diff changeset	1511 dev.off();
309954bbe999 Uploaded greg parents: 15 diff changeset	1512 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1513 } else if (life_stage == "Adult") {
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1514 for (life_stage_adult in life_stages_adult) {
309954bbe999 Uploaded greg parents: 15 diff changeset	1515 # Start PDF device driver.
309954bbe999 Uploaded greg parents: 15 diff changeset	1516 dev.new(width=20, height=30);
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1517 file_path = get_file_path(life_stage, "adult_pop_by_generation.pdf", sub_life_stage=life_stage_adult)
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1518 pdf(file=file_path, width=20, height=30, bg="white");
309954bbe999 Uploaded greg parents: 15 diff changeset	1519 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
23 36d7bb034285 Uploaded greg parents: 21 diff changeset	1520 if (life_stage_adult=="Pre-vittelogenic") {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1521 # Pre-vittelogenic adult population size by generation.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1522 maxval = max(P_previttelogenic_adults+F1_previttelogenic_adults+F2_previttelogenic_adults) + 100;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1523 group = P_previttelogenic_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1524 group_std_error = P_previttelogenic_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1525 group2 = F1_previttelogenic_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1526 group2_std_error = F1_previttelogenic_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1527 group3 = F2_previttelogenic_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1528 group3_std_error = F2_previttelogenic_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1529 } else if (life_stage_adult=="Vittelogenic") {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1530 # Vittelogenic adult population size by generation.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1531 maxval = max(P_vittelogenic_adults+F1_vittelogenic_adults+F2_vittelogenic_adults) + 100;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1532 group = P_vittelogenic_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1533 group_std_error = P_vittelogenic_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1534 group2 = F1_vittelogenic_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1535 group2_std_error = F1_vittelogenic_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1536 group3 = F2_vittelogenic_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1537 group3_std_error = F2_vittelogenic_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1538 } else if (life_stage_adult=="Diapausing") {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1539 # Diapausing adult population size by generation.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1540 maxval = max(P_diapausing_adults+F1_diapausing_adults+F2_diapausing_adults) + 100;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1541 group = P_diapausing_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1542 group_std_error = P_diapausing_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1543 group2 = F1_diapausing_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1544 group2_std_error = F1_diapausing_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1545 group3 = F2_diapausing_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1546 group3_std_error = F2_diapausing_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1547 } else if (life_stage_adult=="Total") {
36d7bb034285 Uploaded greg parents: 21 diff changeset	1548 # Total adult population size by generation.
36d7bb034285 Uploaded greg parents: 21 diff changeset	1549 maxval = max(P_total_adults+F1_total_adults+F2_total_adults) + 100;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1550 group = P_total_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1551 group_std_error = P_total_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1552 group2 = F1_total_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1553 group2_std_error = F1_total_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1554 group3 = F2_total_adults;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1555 group3_std_error = F2_total_adults.std_error;
36d7bb034285 Uploaded greg parents: 21 diff changeset	1556 }
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1557 render_chart(ticks, date_labels, "pop_size_by_generation", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1558 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=group, group_std_error=group_std_error,
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1559 group2=group2, group2_std_error=group2_std_error, group3=group3, group3_std_error=group3_std_error, sub_life_stage=life_stage_adult);
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1560 # Turn off device driver to flush output.
309954bbe999 Uploaded greg parents: 15 diff changeset	1561 dev.off();
309954bbe999 Uploaded greg parents: 15 diff changeset	1562 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1563 } else if (life_stage == "Total") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1564 # Start PDF device driver.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1565 # Name collection elements so that they
f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1566 # are displayed in logical order.
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1567 dev.new(width=20, height=30);
19 3c6e94e477cb Uploaded greg parents: 18 diff changeset	1568 file_path = get_file_path(life_stage, "total_pop_by_generation.pdf")
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1569 pdf(file=file_path, width=20, height=30, bg="white");
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1570 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1571 # Total population size by generation.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1572 maxval = max(P+F1+F2) + 100;
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1573 render_chart(ticks, date_labels, "pop_size_by_generation", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1574 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=P, group_std_error=P.std_error,
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1575 group2=F1, group2_std_error=F1.std_error, group3=F2, group3_std_error=F2.std_error);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1576 # Turn off device driver to flush output.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1577 dev.off();
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1578 }
15 dd86ee185113 Uploaded greg parents: 11 diff changeset	1579 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1580 } else {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1581 for (life_stage in life_stages) {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1582 if (life_stage == "Egg") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1583 # Start PDF device driver.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1584 dev.new(width=20, height=30);
19 3c6e94e477cb Uploaded greg parents: 18 diff changeset	1585 file_path = get_file_path(life_stage, "egg_pop.pdf")
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1586 pdf(file=file_path, width=20, height=30, bg="white");
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1587 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1588 # Egg population size.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1589 maxval = max(eggs+eggs.std_error) + 100;
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1590 render_chart(ticks, date_labels, "pop_size_by_life_stage", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1591 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=eggs, group_std_error=eggs.std_error);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1592 # Turn off device driver to flush output.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1593 dev.off();
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1594 } else if (life_stage == "Nymph") {
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1595 for (life_stage_nymph in life_stages_nymph) {
309954bbe999 Uploaded greg parents: 15 diff changeset	1596 # Start PDF device driver.
309954bbe999 Uploaded greg parents: 15 diff changeset	1597 dev.new(width=20, height=30);
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1598 file_path = get_file_path(life_stage, "nymph_pop.pdf", sub_life_stage=life_stage_nymph)
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1599 pdf(file=file_path, width=20, height=30, bg="white");
309954bbe999 Uploaded greg parents: 15 diff changeset	1600 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
309954bbe999 Uploaded greg parents: 15 diff changeset	1601 if (life_stage_nymph=="Total") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1602 # Total nymph population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1603 group = total_nymphs;
309954bbe999 Uploaded greg parents: 15 diff changeset	1604 group_std_error = total_nymphs.std_error;
309954bbe999 Uploaded greg parents: 15 diff changeset	1605 } else if (life_stage_nymph=="Young") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1606 # Young nymph population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1607 group = young_nymphs;
309954bbe999 Uploaded greg parents: 15 diff changeset	1608 group_std_error = young_nymphs.std_error;
309954bbe999 Uploaded greg parents: 15 diff changeset	1609 } else if (life_stage_nymph=="Old") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1610 # Old nymph population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1611 group = old_nymphs;
309954bbe999 Uploaded greg parents: 15 diff changeset	1612 group_std_error = old_nymphs.std_error;
309954bbe999 Uploaded greg parents: 15 diff changeset	1613 }
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1614 maxval = max(group+group_std_error) + 100;
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1615 render_chart(ticks, date_labels, "pop_size_by_life_stage", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1616 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=group, group_std_error=group_std_error,
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1617 sub_life_stage=life_stage_nymph);
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1618 # Turn off device driver to flush output.
309954bbe999 Uploaded greg parents: 15 diff changeset	1619 dev.off();
309954bbe999 Uploaded greg parents: 15 diff changeset	1620 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1621 } else if (life_stage == "Adult") {
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1622 for (life_stage_adult in life_stages_adult) {
309954bbe999 Uploaded greg parents: 15 diff changeset	1623 # Start PDF device driver.
309954bbe999 Uploaded greg parents: 15 diff changeset	1624 dev.new(width=20, height=30);
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1625 file_path = get_file_path(life_stage, "adult_pop.pdf", sub_life_stage=life_stage_adult)
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1626 pdf(file=file_path, width=20, height=30, bg="white");
309954bbe999 Uploaded greg parents: 15 diff changeset	1627 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
309954bbe999 Uploaded greg parents: 15 diff changeset	1628 if (life_stage_adult=="Total") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1629 # Total adult population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1630 group = total_adults;
309954bbe999 Uploaded greg parents: 15 diff changeset	1631 group_std_error = total_adults.std_error
309954bbe999 Uploaded greg parents: 15 diff changeset	1632 } else if (life_stage_adult=="Pre-vittelogenic") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1633 # Pre-vittelogenic adult population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1634 group = previttelogenic_adults;
309954bbe999 Uploaded greg parents: 15 diff changeset	1635 group_std_error = previttelogenic_adults.std_error
309954bbe999 Uploaded greg parents: 15 diff changeset	1636 } else if (life_stage_adult=="Vittelogenic") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1637 # Vittelogenic adult population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1638 group = vittelogenic_adults;
309954bbe999 Uploaded greg parents: 15 diff changeset	1639 group_std_error = vittelogenic_adults.std_error
309954bbe999 Uploaded greg parents: 15 diff changeset	1640 } else if (life_stage_adult=="Diapausing") {
309954bbe999 Uploaded greg parents: 15 diff changeset	1641 # Diapausing adult population size.
309954bbe999 Uploaded greg parents: 15 diff changeset	1642 group = diapausing_adults;
309954bbe999 Uploaded greg parents: 15 diff changeset	1643 group_std_error = diapausing_adults.std_error
309954bbe999 Uploaded greg parents: 15 diff changeset	1644 }
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1645 maxval = max(group+group_std_error) + 100;
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1646 render_chart(ticks, date_labels, "pop_size_by_life_stage", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1647 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=group, group_std_error=group_std_error,
50 927321ed0322 Uploaded greg parents: 49 diff changeset	1648 sub_life_stage=life_stage_adult);
16 309954bbe999 Uploaded greg parents: 15 diff changeset	1649 # Turn off device driver to flush output.
309954bbe999 Uploaded greg parents: 15 diff changeset	1650 dev.off();
309954bbe999 Uploaded greg parents: 15 diff changeset	1651 }
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1652 } else if (life_stage == "Total") {
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1653 # Start PDF device driver.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1654 dev.new(width=20, height=30);
19 3c6e94e477cb Uploaded greg parents: 18 diff changeset	1655 file_path = get_file_path(life_stage, "total_pop.pdf")
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1656 pdf(file=file_path, width=20, height=30, bg="white");
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1657 par(mar=c(5, 6, 4, 4), mfrow=c(3, 1));
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1658 # Total population size.
18 f5ecff4800f2 Uploaded greg parents: 16 diff changeset	1659 maxval = max(eggs+eggs.std_error, total_nymphs+total_nymphs.std_error, total_adults+total_adults.std_error) + 100;
45 315c5e1bc44a Uploaded greg parents: 43 diff changeset	1660 render_chart(ticks, date_labels, "pop_size_by_life_stage", opt$plot_std_error, opt$insect, location, latitude,
38 c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1661 start_date, end_date, total_days_vector, maxval, opt$replications, life_stage, group=total_adults, group_std_error=total_adults.std_error,
c0f76f4f84fc Uploaded greg parents: 36 diff changeset	1662 group2=total_nymphs, group2_std_error=total_nymphs.std_error, group3=eggs, group3_std_error=eggs.std_error);
10 61bc6bd8807d Uploaded greg parents: 8 diff changeset	1663 # Turn off device driver to flush output.
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1664 dev.off();
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1665 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1666 }
61bc6bd8807d Uploaded greg parents: 8 diff changeset	1667 }

Mercurial > repos > greg > insect_phenology_model

annotate insect_phenology_model.R @ 50:927321ed0322 draft