DF(sql) \
DF(sql2) \
DF(value) \
+ DF(search) \
+ DF(filter) \
+ DF(check) \
+ DF(tableau) \
DF(lp)
-#define debug stdout
-#define DEBUG_DEV "/dev/stdout"
+#define debug debug_file
#include "common.h"
+extern FILE *debug_file;
+#define DEBUG_DEV "/dev/stdout" /* just for glpk */
+
+
+#define COUNTER_LIST \
+ CTR(commodities_loaded) \
+ CTR(trades_loaded) \
+ CTR(islands_arbitrage) \
+ CTR(ipairs_relevant) \
+ CTR(quantities_loaded) \
+ CTR(routes_considered) \
+ CTR(routes_wrongfinalelim) \
+ CTR(routes_quickelim) \
+ CTR(routes_stratelim) \
+ CTR(routes_valued) \
+ CTR(routes_wrongfinal) \
+ CTRA(newbests_strat,2) \
+ CTR(subroute_tails_valued) \
+ CTR(subroutes_valued) \
+ CTR(subroutes_nonempty)
+#define CTR(x) extern int ctr_##x;
+#define CTRA(x,n) extern int ctr_##x[n];
+ COUNTER_LIST
+#undef CTR
+#undef CTRA
#define SQL_MUST( call ) ({ \
/* `call' is an expression returning result, using const char *sqe; \
* chk1 and chk2 are blocks using sqe and int sqr; */ \
const char *sql_must_call_string= #call; \
int sqr; \
- if (DEBUGP(sql2)) fprintf(stderr,"SQL %s", sql_must_call_string); \
+ if (DEBUGP(sql2)) fprintf(debug,"SQL %s", sql_must_call_string); \
sqr= (call); \
- if (DEBUGP(sql2)) fprintf(stderr," = %d\n", sqr); \
+ if (DEBUGP(sql2)) fprintf(debug," = %d\n", sqr); \
if (sqr) sql_fatal("(unknown)", sqr, sql_must_call_string); \
}) \
void sql_fatal(const char *stmt_what, int sqr, const char *act_what) NORET;
-#define SQL_STEP(ssh) (sql_step_wrap((ssh), #ssh, __FILE__, __LINE__))
-int sql_step_wrap(sqlite3_stmt *ssh, const char *ssh_string,
- const char *file, int line);
+#define SQL_STEP(ssh) (sql_step((ssh), #ssh, __FILE__, __LINE__))
+int sql_step(sqlite3_stmt *ssh, const char *ssh_string,
+ const char *file, int line);
+
+#define SQL_DISTINCT_DECL(cols, nintcols) \
+ int cols[nintcols]; \
+ cols[0]= -1;
+#define SQL_DISTINCT_STEP(ssh, cols, nkeycols) \
+ (sql_step_distinct((ssh), #ssh, __FILE__, __LINE__, \
+ (cols), sizeof((cols))/sizeof((cols)[0]), nkeycols))
+int sql_step_distinct(sqlite3_stmt *ssh, const char *ssh_string,
+ const char *file, int line,
+ int *cols, int ncols, int nkeycols);
+ /* These work if we're making a query whose columns consist of:
+ * - keys: integer column(s) on which the results are sorted by the query
+ * - consequences: zero or more integer cols strictly dependent on the keys
+ * - extra: zero or more further (possibly non-integer) columns
+ *
+ * Call SQL_DISTINCT_DECL, passing intcols = the total number of keys and
+ * consequences; it will declare int cols[intfields];
+ *
+ * Then each SQL_DISTINCT_STEP is like SQL_STEP only you have to
+ * pass the number of key columns and it only returns rows with
+ * distinct keys. Rows with all-identical keys are asserted to
+ * have identical consequences. After each call to
+ * SQL_DISTINCT_STEP the keys and consequences will be stored in
+ * cols.
+ */
int sql_single_int(const char *stmt);
extern sqlite3 *db;
void setup_sql(void);
-double value_route(int nislands, const int *islands);
+
+
+typedef struct {
+ double distance_loss_factor;
+ struct TradesBlock *trades;
+ double route_tail_value;
+} IslandPair;
+
+IslandPair *ipair_get_maybe(int si, int di);
+
+double value_route(int nislands, const int *islands, int exclude_arbitrage);
void setup_value(void);
+
+#define AP 2 /* 0=absolute, 1=perleague */
+#define A 0
+#define P 1
+
+typedef struct {
+ double value[AP];
+ int ports[AP][MAX_ROUTELEN];
+} PotentialResult;
+
void setup_search(void);
-void search(int start_isle);
+void search(int start_isle, int final_isle /* -1 means any */,
+ PotentialResult ****strat_base_io
+ /* strat_base[finalarch][midarch]-> */);
extern double max_mass, max_volu, max_capi;
extern double distance_loss_factor_per_league;
extern int islandtablesz;
+extern int narches;
+extern char **archnames;
+extern int *islandid2arch;
+
+
+extern FILE *output;
+
+
+#define NEW(ptr) ((ptr)= mmalloc(sizeof(*ptr)))
+
+#define MCALLOC(array, count) ((array)= mcalloc(sizeof(*(array)) * (count)))
+
+#define MCALLOC_INITEACH(array, count, init_this) ({ \
+ MCALLOC((array), (count)); \
+ int initi; \
+ typeof(&(array)[0]) this; \
+ for (initi=0, this=(array); initi<(count); initi++, this++) { \
+ init_this; \
+ } \
+ })
+
+
+typedef struct {
+ double value;
+ PotentialResult *pr;
+} HighScoreEntry;
+
+extern int nhighscores[AP];
+extern HighScoreEntry *highscores[AP];
+
+
+#define ONDEMAND(pointer_lvalue, calloc_size_count) \
+ ((pointer_lvalue) ? : \
+ ((pointer_lvalue) = mcalloc(sizeof(*(pointer_lvalue)) * calloc_size_count)))
+
+
+static inline int isle2arch(int isle) {
+ int arch= islandid2arch[isle];
+ assert(arch>=0);
+ return arch;
+}
+
+static inline int route2midarch(const int *ports, int nports) {
+ int archs[nports], last_arch=-1, narchs=0, i;
+ for (i=0; i<nports; i++) {
+ int arch= isle2arch(ports[i]);
+ if (arch==last_arch) continue;
+ archs[narchs++]= last_arch= arch;
+ }
+ return archs[narchs/2];
+}
+
#endif /*RSCOMMON_H*/