void Template::parse_types_and_formats ()
{
types = (char**)malloc((n_vars+1)*sizeof(char*));
formats = (char**)malloc((n_vars+1)*sizeof(char*));
for (int i = 1; i <= n_vars; i++)
{
char*& tf = types_and_formats[i];
trim (tf);
if (strequal (tf, "long"))
{
free (tf);
strcpy (&types[i], "long");
strcpy (&formats[i], "%ld");
}
else if (starts_with (tf, (char*)"double"))
{
strcpy (&types[i], "double");
char* where_lb = strchr (tf, '(');
if (where_lb)
{
char* where_rb = strchr (where_lb+1, ')');
if (where_rb)
{
*where_rb = 0;
int n, m;
sscanf (where_lb+1, "%d,%d", &m, &n);
strcpy (&formats[i], "%");
numcat (&formats[i], m);
chrcat (&formats[i], '.');
numcat (&formats[i], n);
chrcat (&formats[i], 'f');
trim (tf);
}
}
}
}
}
int main(void)
{
char hash[MD5_STRING_LENGTH];
char s[6];
char key[17];
unsigned int c = 0;
while (strcmp( "000000", chop(s, md5(hash, numcat(key, KEY, c)))) != 0) {
c++;
}
printf("num: %d\nmd5: %s\n", c, md5(hash, key));
return 0;
}
static int is_trusted_file(int fd)
{
if (!trusted_dirs)
return 1;
char path[PATH_MAX+1], proc_file[64], *dirs;
strcpy(proc_file, "/proc/self/fd/");
numcat(proc_file, fd);
long ret = sys_readlink(proc_file, path, PATH_MAX);
if (ret < 0)
return 0;
path[ret] = 0;
return in_dirlist(path, trusted_dirs);
}
int open_exec(const char *filename)
{
int ret, fd;
if ( (ret = sys_open(filename, O_RDONLY, 0)) < 0 )
return ret;
fd = ret;
/* fugly, but it works */
char fd_filename[32] = "/proc/self/fd/";
numcat(fd_filename, fd);
if ( (ret = sys_access(fd_filename, X_OK)) < 0 )
{
sys_close(fd);
return ret;
}
return fd;
}
static int iterate_post(void *arg, enum MHD_ValueKind, const char *name,
const char*, const char*, const char*, const char *data, uint64_t offset, size_t size)
{
solution *p = ((pair*)arg) -> second;
//printf("[%s]->[%s] %lld %d\n", name, data, offset, size);
switch(*name - 'a') {
//A number may be separated into two parts
case MSG_problem:
numcat(p->problem, data);
break;
case MSG_lang:
numcat(p->lang, data);
break;
case MSG_time:
numcat(p->time_limit, data);
break;
case MSG_mem:
numcat(p->mem_limit, data);
break;
case MSG_score:
numcat(p->score, data);
break;
case MSG_code:
p->code += data;
break;
case MSG_user:
p->user += data;
break;
case MSG_key:
p->key += data;
break;
case MSG_share:
p->public_code = atol(data);
break;
case MSG_compare:
numcat(p->compare_way, data);
break;
case MSG_rejudge:
p->type = atol(data);
break;
}
return MHD_YES;
}
void Template::process (const bool have_adjustments)
{
const bool show_projection_details = strequal (projection_details, "Y");
const bool show_summary =
show_projection_details || strequal (projection_details, "S");
int n_threads;
if (strequal (n_cores, "A"))
n_threads = get_n_cores ();
else
n_threads = atoi (n_cores);
bool print_off = false;
int line_no = 0;
for (int iii = 1; iii <= n_lines; iii++)
{
char* line = lines[iii];
if (strstr (line, "$year-declarations$"))
{
for (int ii = 1; ii <= projection_years; ii++)
{
print_indent ();
fprintf (f_out, "static void yr_%d (const int, const int);\n", ii);
++line_no;
}
continue;
}
if (strstr (line, "$n-trials$"))
replace_string_in_string (line, "$n-trials$", number_of_trials);
if (strstr (line, "$n-years$"))
replace_string_in_string (line, "$n-years$", projection_years);
if (strstr (line, "$n-threads$"))
replace_string_in_string (line, "$n-threads$", n_threads);
if (strstr (line, "$show-projection-details$"))
{
const char* spd = show_projection_details ? "true" : "false";
replace_string_in_string (line, "$show-projection-details$", spd);
}
if (strstr (line, "$show-summary$"))
{
const char* sum = show_summary ? "true" : "false";
replace_string_in_string (line, "$show-summary$", sum);
}
if (strstr (line, "$have-seed$"))
{
bool have_seed = !strequal (fixed_random_seed, "N");
const char* s_have_seed = have_seed ? "true" : "false";
replace_string_in_string (line, "$have-seed$", s_have_seed);
}
if (strstr (line, "$seed$"))
{
bool have_seed = !strequal (fixed_random_seed, "N");
char s_seed[20];
sprintf (s_seed, "%s", have_seed ? fixed_random_seed : "-1");
replace_string_in_string (line, "$seed$", s_seed);
}
if (strstr (line, "$non-dpc$"))
{
char* s_non_dpc = (char*)"false";
if (strequal (def_prob_code, "\"\"")
|| strequal (def_prob_code, ""))
s_non_dpc = (char*)"true";
replace_string_in_string (line, "$non-dpc$", s_non_dpc);
}
if (strstr (line, "$variable-definitions$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (!compute[i]) continue;
print_indent ();
if (is_random (vars[i]))
fprintf (f_out, "static %s %s [n_threads][%d+1];\n",
"double", vars[i], projection_years);
else
fprintf (f_out, "static %s %s [n_threads][%d+1];\n",
types[i], vars[i], projection_years);
++line_no;
}
continue;
}
if (strstr (line, "$sigma-definitions$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
print_indent ();
if (is_random (vars[i]))
fprintf (f_out, "static %s sigma_%s[n_threads][%d+1];\n",
"double", vars[i], projection_years);
else
fprintf (f_out, "static %s sigma_%s[n_threads][%d+1];\n",
types[i], vars[i], projection_years);
++line_no;
}
}
continue;
}
if (strstr (line, "$minima-definitions$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
print_indent ();
if (is_random (vars[i]))
fprintf (f_out, "static %s minimum_%s [n_threads][%d+1];\n",
"double", vars[i], projection_years);
else
fprintf (f_out, "static %s minimum_%s [n_threads][%d+1];\n",
types[i], vars[i], projection_years);
++line_no;
}
}
continue;
}
if (strstr (line, "$maxima-definitions$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
print_indent ();
if (is_random (vars[i]))
fprintf (f_out, "static %s maximum_%s [n_threads][%d+1];\n",
"double", vars[i], projection_years);
else
fprintf (f_out, "static %s maximum_%s [n_threads][%d+1];\n",
types[i], vars[i], projection_years);
++line_no;
}
}
continue;
}
if (strstr (line, "$sigma-inits$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
print_indent ();
fprintf (f_out,
" sigma_%s[th][y] = 0;\n", vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$summations$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
::print_indent (f_out, line);
if (is_random (vars[i]))
fprintf (f_out, "if (y>0) ");
fprintf (f_out, "sigma_%s[th][y] += %s[th][y];\n",
vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$update-minima"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
::print_indent (f_out, line);
if (is_random (vars[i]))
fprintf (f_out, "if (y>0) ");
fprintf (f_out,
"if (%s[th][y] < minimum_%s[th][y]) minimum_%s[th][y] = %s[th][y];\n",
vars[i], vars[i], vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$update-maxima"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
::print_indent (f_out, line);
if (is_random (vars[i]))
fprintf (f_out, "if (y>0) ");
fprintf (f_out,
"if (%s[th][y] > maximum_%s[th][y]) maximum_%s[th][y] = %s[th][y];\n",
vars[i], vars[i], vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$sigma-combinations"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
::print_indent (f_out, line);
if (is_random (vars[i]))
fprintf (f_out, "if (y>0) ");
fprintf (f_out, "sigma_%s[0][y] += sigma_%s[th][y];\n",
vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$min-combinations"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
::print_indent (f_out, line);
if (is_random (vars[i]))
fprintf (f_out, "if (y>0) ");
fprintf (f_out,
"minimum_%s[0][y] = min (minimum_%s[0][y], minimum_%s[th][y]);\n",
vars[i], vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$max-combinations"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
::print_indent (f_out, line);
if (is_random (vars[i]))
fprintf (f_out, "if (y>0) ");
fprintf (f_out,
"maximum_%s[0][y] = max (maximum_%s[0][y], maximum_%s[th][y]);\n",
vars[i], vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$means$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
char* sep = (i < n_vars) ? (char*)"\\t" : (char*)"\\n";
if (strciequal (include_in_output[i], "Y"))
{
if (is_random (vars[i]))
{
::print_indent (f_out, line);
fprintf (f_out, "if (y > 0)\n");
::print_indent (f_out, line);
fprintf (f_out, " fprintf (fp, \"%s", formats[i]);
::print_indent (f_out, line);
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ", sigma_%s[0][y]/n_trials);\n", vars[i]);
::print_indent (f_out, line);
fprintf (f_out, "else\n");
::print_indent (f_out, line);
fprintf (f_out, " fprintf (fp, \"");
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ");\n");
line_no += 4;
}
else
{
::print_indent (f_out, line);
fprintf (f_out, "fprintf (fp, \"%s", formats[i]);
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ", sigma_%s[0][y]/n_trials);\n", vars[i]);
++line_no;
}
}
}
}
continue;
}
if (strstr (line, "$minima$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "Y"))
{
char* sep = (i < n_vars) ? (char*)"\\t" : (char*)"\\n";
if (is_random (vars[i]))
{
::print_indent (f_out, line);
fprintf (f_out, "if (y > 0)\n");
::print_indent (f_out, line);
fprintf (f_out, " fprintf (fp, \"%s", formats[i]);
::print_indent (f_out, line);
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ", minimum_%s[0][y]);\n", vars[i]);
::print_indent (f_out, line);
fprintf (f_out, "else\n");
::print_indent (f_out, line);
fprintf (f_out, " fprintf (fp, \"");
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ");\n");
line_no += 4;
}
else
{
::print_indent (f_out, line);
fprintf (f_out, "fprintf (fp, \"%s", formats[i]);
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ", minimum_%s[0][y]);\n", vars[i]);
++line_no;
}
}
}
}
continue;
}
if (strstr (line, "$maxima$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "Y"))
{
char* sep = (i < n_vars) ? (char*)"\\t" : (char*)"\\n";
if (is_random (vars[i]))
{
::print_indent (f_out, line);
fprintf (f_out, "if (y > 0)\n");
::print_indent (f_out, line);
fprintf (f_out, " fprintf (fp, \"%s", formats[i]);
::print_indent (f_out, line);
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ", maximum_%s[0][y]);\n", vars[i]);
::print_indent (f_out, line);
fprintf (f_out, "else\n");
::print_indent (f_out, line);
fprintf (f_out, " fprintf (fp, \"");
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ");\n");
line_no += 4;
}
else
{
::print_indent (f_out, line);
fprintf (f_out, "fprintf (fp, \"%s", formats[i]);
fprintf (f_out, "%s\"", sep);
fprintf (f_out, ", maximum_%s[0][y]);\n", vars[i]);
++line_no;
}
}
}
}
continue;
}
if (strstr (line, "$period-0-values$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (is_random (vars[i])) continue;
if (!compute[i]) continue;
print_indent ();
char* y0;
strcpy (&y0, year_0[i]);
trim (y0);
replace_string_in_string (y0, "\"\"", "");
if (!strchr (y0, '.')) strcat (&y0, ".0");
fprintf (f_out, "%s[th][0] = %s;\n", vars[i], y0);
++line_no;
free (y0);
}
continue;
}
if (strstr (line, "$minima-inits$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
print_indent ();
fprintf (f_out,
" minimum_%s[th][y] = numeric_limits<%s>::max();\n",
vars[i], types[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$maxima-inits$"))
{
if (show_summary)
{
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "N")) continue;
print_indent ();
fprintf (f_out,
" maximum_%s[th][y] = -numeric_limits<%s>::max();\n",
vars[i], types[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$do-year-inits$"))
{
for (int ii = 1; ii <= projection_years; ii++)
{
print_indent ();
fprintf (f_out, " do_years[%d] = yr_%d;\n", ii, ii);
++line_no;
}
continue;
}
if (strstr (line, "$compute$"))
{
for (int ii = 1; ii <= projection_years; ii++)
{
print_indent ();
fprintf (f_out, "do_years[%d](%d, th);\n", ii, ii);
++line_no;
}
continue;
}
if (strstr (line, "$assignments$"))
{
for (int ii = 1; ii <= projection_years; ii++)
{
print_indent ();
fprintf (f_out, "void yr_%d (const int y, const int th)\n", ii);
++line_no;
print_indent ();
fprintf (f_out, "{\n");
++line_no;
for (int i = 1; i <= n_vars; i++)
{
if (starts_with (vars[i], "//")) continue;
if (is_random (vars[i])) continue;
if (!compute[i]) continue;
char* val = threaded_val (years[ii][i]);
replace_string_in_string (val, "\"\"", "");
char* rep;
strcpy (&rep, "[");
numcat (&rep, ii);
strcat (&rep, "]");
replace_string_in_string (val, "[y]", rep);
strcpy (&rep, "[");
numcat (&rep, ii-1);
strcat (&rep, "]");
replace_string_in_string (val, "[y-1]", rep);
floatise (val);
print_indent ();
fprintf (f_out, " %s[th][%d] = %s;\n", vars[i], ii, val);
++line_no;
free (val);
fprintf (f_map, "s %d %d %d [%s]\n",
line_no, i+1, ii+11, years[ii][i]);
if (mins_set[i])
{
print_indent ();
fprintf (f_out, " if (%s[th][%d] < %s) %s[th][%d] = %s;\n",
vars[i], ii, mins[i], vars[i], ii, mins[i]);
++line_no;
fprintf (f_map, "s %d %d %d [%s]\n",
line_no, i+1, ii+11, years[ii][i]);
}
if (maxs_set[i])
{
print_indent ();
fprintf (f_out, " if (%s[th][%d] > %s) %s[th][%d] = %s;\n",
vars[i], ii, maxs[i], vars[i], ii, maxs[i]);
++line_no;
fprintf (f_map, "s %d %d %d [%s]\n",
line_no, i+1, ii+11, years[ii][i]);
}
}
print_indent ();
fprintf (f_out, "}\n");
++line_no;
}
continue;
}
if (strstr (line, "$body-2-defs$"))
{
fprintf (f_out, "char bufy[n_years+1][80];\n");
++line_no;
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (strciequal (include_in_output[i], "Y"))
{
::print_indent (f_out, line);
fprintf (f_out, "char buf_%s[n_years+1][80];\n", vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$output-gen$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (is_random (vars[i])) continue;
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "Y"))
{
::print_indent (f_out, line);
fprintf (f_out, "\"%s\\t\"\n",
formats[i]);
++line_no;
}
}
::print_indent (f_out, line);
fprintf (f_out, "\"\\t\"\n");
for (int i = 1; i <= n_vars; i++)
{
if (is_random (vars[i])) continue;
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "Y"))
{
::print_indent (f_out, line);
fprintf (f_out, ",%s[th][y]\n",
vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$output-print$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (starts_with (vars[i], "//")) continue;
if (strciequal (include_in_output[i], "Y"))
{
::print_indent (f_out, line);
fprintf (f_out,
"fwrite(buf_%s[y], strlen(buf_%s[y]), 1, fp);\n",
vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$headers$"))
{
char* header;
strcpy (&header, "");
for (int i = 1; i <= n_vars; i++)
{
const bool include =
(strciequal (include_in_output[i], "Y")
&& !starts_with (vars[i], "//"));
if (include) strcat (&header, descriptions[i], "\\t");
}
replace_string_in_string (line, "$headers$", header);
free (header);
}
if (strstr (line, "$threshold-expression-1["))
{
char* where_var = strstr (line, "$threshold-expression-1[");
char* var;
strcpy (&var, where_var);
*(strchr (var, ']')+2) = 0;
char* idx;
strcpy (&idx, where_var+23);
char ind[20];
sscanf (idx+1, "%[^]]", ind);
char* expression;
strcpy (&expression, threaded_val(metrics[0].expression));
char rep[20];
sprintf (rep, "[%s]", ind);
replace_string_in_string (expression, "[y]", rep);
replace_string_in_string (line, var, expression);
fprintf (f_map, "m %d %d %d [%s]\n",
line_no, metrics[0].row-1, 3, metrics[0].expression);
}
if (strstr (line, "$threshold-expression-2["))
{
char* where_var = strstr (line, "$threshold-expression-2[");
char* var;
strcpy (&var, where_var);
*(strchr (var, ']')+2) = 0;
char* idx;
strcpy (&idx, where_var+23);
char ind[20];
sscanf (idx+1, "%[^]]", ind);
char* expression;
strcpy (&expression, threaded_val(metrics[1].expression));
char rep[20];
sprintf (rep, "[%s]", ind);
replace_string_in_string (expression, "[y]", rep);
replace_string_in_string (line, var, expression);
fprintf (f_map, "m %d %d %d [%s]\n",
line_no, metrics[1].row-1, 3, metrics[1].expression);
}
if (strstr (line, "$threshold-expression-3["))
{
char* where_var = strstr (line, "$threshold-expression-3[");
char* var;
strcpy (&var, where_var);
*(strchr (var, ']')+2) = 0;
char* idx;
strcpy (&idx, where_var+23);
char ind[20];
sscanf (idx+1, "%[^]]", ind);
char* expression;
strcpy (&expression, threaded_val(metrics[2].expression));
char rep[20];
sprintf (rep, "[%s]", ind);
replace_string_in_string (expression, "[y]", rep);
replace_string_in_string (line, var, expression);
fprintf (f_map, "m %d %d %d [%s]\n",
line_no, metrics[2].row-1, 3, metrics[2].expression);
}
if (strstr (line, "$threshold-expression-4["))
{
char* where_var = strstr (line, "$threshold-expression-4[");
char* var;
strcpy (&var, where_var);
*(strchr (var, ']')+2) = 0;
char* idx;
strcpy (&idx, where_var+23);
char ind[20];
sscanf (idx+1, "%[^]]", ind);
char* expression;
strcpy (&expression, threaded_val(metrics[3].expression));
bool bad = strequal (ind, "0") && strstr (expression, "y-");
if (bad)
expression = (char*)"0";
else
{
char rep[20];
sprintf (rep, "[%s]", ind);
replace_string_in_string (expression, "[y]", rep);
}
replace_string_in_string (line, var, expression);
fprintf (f_map, "m %d %d %d [%s]\n",
line_no, metrics[3].row-1, 3, metrics[3].expression);
}
if (strstr (line, "$threshold-expression-5["))
{
char* where_var = strstr (line, "$threshold-expression-5[");
char* var;
strcpy (&var, where_var);
*(strchr (var, ']')+2) = 0;
char* idx;
strcpy (&idx, where_var+23);
char ind[20];
sscanf (idx+1, "%[^]]", ind);
char* expression;
strcpy (&expression, threaded_val(metrics[4].expression));
bool bad = strequal (ind, "0") && strstr (expression, "y-");
if (bad)
expression = (char*)"0";
else
{
char rep[20];
sprintf (rep, "[%s]", ind);
replace_string_in_string (expression, "[y]", rep);
}
replace_string_in_string (line, var, expression);
fprintf (f_map, "m %d %d %d [%s]\n",
line_no, metrics[4].row-1, 3, metrics[4].expression);
}
if (strstr (line, "$thresh-relation$"))
{
replace_string_in_string (line, "$thresh-relation$",
metrics[0].comparison);
}
if (strstr (line, "$thresholdlevel$"))
{
bool percent_mode = (last_char(metrics[0].threshold_level) == '%');
if (percent_mode) last_char(metrics[0].threshold_level) = 0;
double val = atof (metrics[0].threshold_level);
if (percent_mode) val /= 100;
char thresholdlevel[80];
sprintf (thresholdlevel, "%.4f", val);
replace_string_in_string (line, "$thresholdlevel$",
thresholdlevel);
}
if (strstr (line, "$initial-year$"))
replace_string_in_string (line, "$initial-year$", initial_year);
if (strstr (line, "$threshold-label$"))
replace_string_in_string (line, "$threshold-label$",
threshold_label);
if (strstr (line, "$government-entity$"))
replace_string_in_string (line, "$government-entity$",
government_entity);
if (strstr (line, "$model-description$"))
replace_string_in_string (line, "$model-description$",
model_description);
if (strstr (line, "$currency-units-in$"))
replace_string_in_string (line, "$currency-units-in$",
currency_units_in);
if (strstr (line, "$metrics-1-description$"))
replace_string_in_string (line, "$metrics-1-description$",
metrics[0].description);
if (strstr (line, "$metrics-2-description$"))
replace_string_in_string (line, "$metrics-2-description$",
metrics[1].description);
if (strstr (line, "$metrics-3-description$"))
replace_string_in_string (line, "$metrics-3-description$",
metrics[2].description);
if (strstr (line, "$metrics-4-description$"))
replace_string_in_string (line, "$metrics-4-description$",
metrics[3].description);
if (strstr (line, "$metrics-5-description$"))
replace_string_in_string (line, "$metrics-5-description$",
metrics[4].description);
if (strstr (line, "$print-ratios("))
{
char* where_var = strstr (line, "$print-ratios(");
char* var;
strcpy (&var, where_var);
*(strchr (var, ')')+2) = 0;
int ind;
sscanf (where_var+14, "%d", &ind);
char* print_condition =
strstr (metrics[ind-1].expression, "y-1") ? (char*)"false" : (char*)"true";
replace_string_in_string (line, var, print_condition);
}
if (strstr (line, "$if-ratio2-valid$"))
replace_string_in_string (line, "$if-ratio2-valid$",
n_metrics >= 2 ? "" : "//" );
if (strstr (line, "$if-ratio3-valid$"))
replace_string_in_string (line, "$if-ratio3-valid$",
n_metrics >= 3 ? "" : "//" );
if (strstr (line, "$if-ratio4-valid$"))
replace_string_in_string (line, "$if-ratio4-valid$",
n_metrics >= 4 ? "" : "//" );
if (strstr (line, "$if-ratio5-valid$"))
replace_string_in_string (line, "$if-ratio5-valid$",
n_metrics >= 5 ? "" : "//" );
if (strstr (line, "$random-headers$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
print_indent ();
char* main_title;
char* suffix;
get_title (vars[i], main_title, suffix);
fprintf (f_out, "fprintf (fp, \"%s %s\\t\");\n", main_title, suffix);
++line_no;
}
continue;
}
if (strstr (line, "$unirandom-definitions$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (starts_with (vars[i], (char*)"unirandom"))
{
print_indent ();
fprintf (f_out, " boost::uniform_real < > gen_%s (%s, %s);\n", vars[i], mins[i], maxs[i]);
print_indent ();
fprintf (f_out, " boost::variate_generator < boost::lagged_fibonacci1279&, boost::uniform_real < > > rand_%s (rng, gen_%s);\n", vars[i], vars[i]);
fprintf (f_out, "\n");
line_no += 3;
}
}
continue;
}
if (strstr (line, "$normrandom-definitions$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (starts_with (vars[i], (char*)"normrandom"))
{
print_indent ();
fprintf (f_out, " boost::normal_distribution < > gen_%s (%s, %s);\n", vars[i], means[i], std_sigmas[i]);
print_indent ();
fprintf (f_out, " boost::variate_generator < boost::lagged_fibonacci1279&, boost::normal_distribution < > > rand_%s (rng, gen_%s);\n", vars[i], vars[i]);
fprintf (f_out, "\n");
line_no += 3;
}
}
continue;
}
if (strstr (line, "$cauchyrandom-definitions$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (starts_with (vars[i], (char*)"cauchyrandom"))
{
print_indent ();
fprintf (f_out, " boost::cauchy_distribution < > gen_%s (%s, %s);\n", vars[i], means[i], std_sigmas[i]);
print_indent ();
fprintf (f_out, " boost::variate_generator < boost::lagged_fibonacci1279&, boost::cauchy_distribution < > > rand_%s (rng, gen_%s);\n", vars[i], vars[i]);
fprintf (f_out, "\n");
line_no += 3;
}
}
continue;
}
if (strstr (line, "$unirandom-assignments$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (starts_with (vars[i], (char*)"unirandom"))
{
::print_indent (f_out, line);
fprintf (f_out, " %s[th][y] = rand_%s();\n", vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$normrandom-assignments$"))
{
for (int i = 1; i <= n_vars; i++)
if (starts_with (vars[i], (char*)"normrandom"))
{
::print_indent (f_out, line);
fprintf (f_out, "for (;;)\n");
::print_indent (f_out, line);
fprintf (f_out, "{\n");
::print_indent (f_out, line);
fprintf (f_out, " %s[th][y] = rand_%s();\n",
vars[i], vars[i]);
line_no += 3;
if (mins_set[i])
{
::print_indent (f_out, line);
fprintf (f_out, " if (%s[th][y] < %s) continue;\n",
vars[i], mins[i]);
++line_no;
}
if (maxs_set[i])
{
::print_indent (f_out, line);
fprintf (f_out, " if (%s[th][y] > %s) continue;\n",
vars[i], maxs[i]);
++line_no;
}
::print_indent (f_out, line);
fprintf (f_out, " break;\n");
::print_indent (f_out, line);
fprintf (f_out, "}\n");
line_no += 2;
}
continue;
}
if (strstr (line, "$cauchyrandom-assignments$"))
{
for (int i = 1; i <= n_vars; i++)
if (starts_with (vars[i], (char*)"cauchyrandom"))
{
::print_indent (f_out, line);
fprintf (f_out, "for (;;)\n");
::print_indent (f_out, line);
fprintf (f_out, "{\n");
::print_indent (f_out, line);
fprintf (f_out, " %s[th][y] = rand_%s();\n",
vars[i], vars[i]);
line_no += 3;
if (mins_set[i])
{
::print_indent (f_out, line);
fprintf (f_out, " if (%s[th][y] < %s) continue;\n",
vars[i], mins[i]);
++line_no;
}
if (maxs_set[i])
{
::print_indent (f_out, line);
fprintf (f_out, " if (%s[th][y] > %s) continue;\n",
vars[i], maxs[i]);
++line_no;
}
::print_indent (f_out, line);
fprintf (f_out, " break;\n");
::print_indent (f_out, line);
fprintf (f_out, "}\n");
line_no += 2;
}
continue;
}
if (strstr (line, "$store-y0-random-values$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (strciequal (include_in_output[i], "Y"))
{
::print_indent (f_out, line);
fprintf (f_out, "sprintf(buf_%s[y],\"\\t\");\n", vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$store-random-values$"))
{
for (int i = 1; i <= n_vars; i++)
{
if (!is_random (vars[i])) continue;
if (strciequal (include_in_output[i], "Y"))
{
::print_indent (f_out, line);
fprintf (f_out, "sprintf(buf_%s[y],\"%%5.4f\\t\",%s[th][y]);\n",
vars[i], vars[i]);
++line_no;
}
}
continue;
}
if (strstr (line, "$adjustments$"))
{
if (have_adjustments)
do_adjustments (line_no);
continue;
}
if (strstr (line, "$n-ratings$"))
replace_string_in_string (line, "$n-ratings$", n_ratings);
if (strstr (line, "$ratings$"))
{
char* txt_ratings;
strcpy (&txt_ratings, "");
for (int i = 2; i <= n_ratings+1; i++)
{
if (i > 2) chrcat (&txt_ratings, ',');
strcat (&txt_ratings, "\"", ratings[i], "\"");
}
replace_string_in_string (line, "$ratings$", txt_ratings);
free (txt_ratings);
}
if (strstr (line, "$rating-grid$"))
{
char* grid;
strcpy (&grid, "");
for (int i = 1; i <= projection_years; i++)
{
chrcat (&grid, '{');
for (int j = 2; j <= n_ratings; j++)
{
if (j > 2) chrcat (&grid, ',');
strcat (&grid, ratings_grid[i][j]);
}
chrcat (&grid, '}');
if (i < projection_years)
strcat (&grid, ",\n");
}
replace_string_in_string (line, "$rating-grid$", grid);
free (grid);
}
if (strstr (line, "$default-probability-code$"))
{
char* code_to_use = def_prob_code;
if (strequal (code_to_use, "\"\"")) code_to_use = (char*)"";
replace_string_in_string (line, "$default-probability-code$",
threaded_val(code_to_use));
}
if (!print_off)
{
fprintf (f_out, "%s\n", line);
++line_no;
}
record_indent (line);
}
}
