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tdegames/kpat/freecell-solver/state.c

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/*
* state.c - state functions module for Freecell Solver
*
* Written by Shlomi Fish (shlomif@vipe.technion.ac.il), 2000
*
* This file is in the public domain (it's uncopyrighted).
*/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "fcs_config.h"
#include "state.h"
#include "card.h"
#include "fcs_enums.h"
#include "app_str.h"
#ifdef DMALLOC
#include "dmalloc.h"
#endif
#ifndef min
#define min(a,b) ((a)<(b)?(a):(b))
#endif
#ifdef DEBUG_STATES
fcs_card_t freecell_solver_empty_card = {0,0};
#elif defined(COMPACT_STATES) || defined (INDIRECT_STACK_STATES)
fcs_card_t freecell_solver_empty_card = (fcs_card_t)0;
#endif
static int fcs_card_compare(const void * card1, const void * card2)
{
const fcs_card_t * c1 = (const fcs_card_t *)card1;
const fcs_card_t * c2 = (const fcs_card_t *)card2;
if (fcs_card_card_num(*c1) > fcs_card_card_num(*c2))
{
return 1;
}
else if (fcs_card_card_num(*c1) < fcs_card_card_num(*c2))
{
return -1;
}
else
{
if (fcs_card_suit(*c1) > fcs_card_suit(*c2))
{
return 1;
}
else if (fcs_card_suit(*c1) < fcs_card_suit(*c2))
{
return -1;
}
else
{
return 0;
}
}
}
#ifdef DEBUG_STATES
static int fcs_stack_compare(const void * s1, const void * s2)
{
fcs_card_t card1 = ((const fc_stack_t *)s1)->cards[0];
fcs_card_t card2 = ((const fc_stack_t *)s2)->cards[0];
return fcs_card_compare(&card1, &card2);
}
#elif defined(COMPACT_STATES)
static int fcs_stack_compare(const void * s1, const void * s2)
{
fcs_card_t card1 = ((fcs_card_t*)s1)[1];
fcs_card_t card2 = ((fcs_card_t*)s2)[1];
return fcs_card_compare(&card1, &card2);
}
#elif defined(INDIRECT_STACK_STATES)
#if MAX_NUM_DECKS == 1
static int fcs_stack_compare_for_stack_sort(const void * s1, const void * s2)
{
fcs_card_t card1 = ((fcs_card_t*)s1)[1];
fcs_card_t card2 = ((fcs_card_t*)s2)[1];
return fcs_card_compare(&card1, &card2);
}
#endif
int freecell_solver_stack_compare_for_comparison(const void * v_s1, const void * v_s2)
{
const fcs_card_t * s1 = (const fcs_card_t *)v_s1;
const fcs_card_t * s2 = (const fcs_card_t *)v_s2;
int min_len;
int a, ret;
min_len = min(s1[0], s2[0]);
for(a=0;a<min_len;a++)
{
ret = fcs_card_compare(s1+a+1,s2+a+1);
if (ret != 0)
{
return ret;
}
}
/*
* The reason I do the stack length comparisons after the card-by-card
* comparison is to maintain correspondence with
* fcs_stack_compare_for_stack_sort, and with the one card comparison
* of the other state representation mechanisms.
* */
if (s1[0] < s2[0])
{
return -1;
}
else if (s1[0] > s2[0])
{
return 1;
}
else
{
return 0;
}
}
#endif
#ifdef FCS_WITH_TALONS
static int fcs_talon_compare_with_context(const void * p1, const void * p2, fcs_compare_context_t context)
{
fcs_card_t * t1 = (fcs_card_t *)p1;
fcs_card_t * t2 = (fcs_card_t *)p2;
if (t1[0] < t2[0])
{
return -1;
}
else if (t1[0] > t2[0])
{
return 1;
}
else
{
return memcmp(t1,t2,t1[0]+1);
}
}
#endif
#ifdef DEBUG_STATES
void freecell_solver_canonize_state(fcs_state_with_locations_t * state, int freecells_num, int stacks_num)
{
int b,c;
fc_stack_t temp_stack;
fcs_card_t temp_freecell;
int temp_loc;
/* Insertion-sort the stacks */
for(b=1;b<stacks_num;b++)
{
c = b;
while(
(c>0) &&
(fcs_stack_compare(
&(state->s.stacks[c]),
&(state->s.stacks[c-1])
) < 0)
)
{
temp_stack = state->s.stacks[c];
state->s.stacks[c] = state->s.stacks[c-1];
state->s.stacks[c-1] = temp_stack;
temp_loc = state->stack_locs[c];
state->stack_locs[c] = state->stack_locs[c-1];
state->stack_locs[c-1] = temp_loc;
c--;
}
}
/* Insertion sort the freecells */
for(b=1;b<freecells_num;b++)
{
c = b;
while(
(c>0) &&
(fcs_card_compare(
&(state->s.freecells[c]),
&(state->s.freecells[c-1])
) < 0)
)
{
temp_freecell = state->s.freecells[c];
state->s.freecells[c] = state->s.freecells[c-1];
state->s.freecells[c-1] = temp_freecell;
temp_loc = state->fc_locs[c];
state->fc_locs[c] = state->fc_locs[c-1];
state->fc_locs[c-1] = temp_loc;
c--;
}
}
}
#elif defined(COMPACT_STATES)
void freecell_solver_canonize_state(
fcs_state_with_locations_t * state,
int freecells_num,
int stacks_num)
{
int b,c;
char temp_stack[(MAX_NUM_CARDS_IN_A_STACK+1)];
fcs_card_t temp_freecell;
char temp_loc;
/* Insertion-sort the stacks */
for(b=1;b<stacks_num;b++)
{
c = b;
while(
(c>0) &&
(fcs_stack_compare(
state->s.data+c*(MAX_NUM_CARDS_IN_A_STACK+1),
state->s.data+(c-1)*(MAX_NUM_CARDS_IN_A_STACK+1)
) < 0)
)
{
memcpy(temp_stack, state->s.data+c*(MAX_NUM_CARDS_IN_A_STACK+1), (MAX_NUM_CARDS_IN_A_STACK+1));
memcpy(state->s.data+c*(MAX_NUM_CARDS_IN_A_STACK+1), state->s.data+(c-1)*(MAX_NUM_CARDS_IN_A_STACK+1), (MAX_NUM_CARDS_IN_A_STACK+1));
memcpy(state->s.data+(c-1)*(MAX_NUM_CARDS_IN_A_STACK+1), temp_stack, (MAX_NUM_CARDS_IN_A_STACK+1));
temp_loc = state->stack_locs[c];
state->stack_locs[c] = state->stack_locs[c-1];
state->stack_locs[c-1] = temp_loc;
c--;
}
}
/* Insertion-sort the freecells */
for(b=1;b<freecells_num;b++)
{
c = b;
while(
(c>0) &&
(fcs_card_compare(
state->s.data+FCS_FREECELLS_OFFSET+c,
state->s.data+FCS_FREECELLS_OFFSET+c-1
) < 0)
)
{
temp_freecell = (state->s.data[FCS_FREECELLS_OFFSET+c]);
state->s.data[FCS_FREECELLS_OFFSET+c] = state->s.data[FCS_FREECELLS_OFFSET+c-1];
state->s.data[FCS_FREECELLS_OFFSET+c-1] = temp_freecell;
temp_loc = state->fc_locs[c];
state->fc_locs[c] = state->fc_locs[c-1];
state->fc_locs[c-1] = temp_loc;
c--;
}
}
}
#elif defined(INDIRECT_STACK_STATES)
void freecell_solver_canonize_state(
fcs_state_with_locations_t * state,
int freecells_num,
int stacks_num)
{
int b,c;
fcs_card_t * temp_stack;
fcs_card_t temp_freecell;
char temp_loc;
/* Insertion-sort the stacks */
for(b=1;b<stacks_num;b++)
{
c = b;
while(
(c>0) &&
(
#if MAX_NUM_DECKS > 1
freecell_solver_stack_compare_for_comparison
#else
fcs_stack_compare_for_stack_sort
#endif
(
(state->s.stacks[c]),
(state->s.stacks[c-1])
)
< 0
)
)
{
temp_stack = state->s.stacks[c];
state->s.stacks[c] = state->s.stacks[c-1];
state->s.stacks[c-1] = temp_stack;
temp_loc = state->stack_locs[c];
state->stack_locs[c] = state->stack_locs[c-1];
state->stack_locs[c-1] = temp_loc;
c--;
}
}
/* Insertion sort the freecells */
for(b=1;b<freecells_num;b++)
{
c = b;
while(
(c>0) &&
(fcs_card_compare(
&(state->s.freecells[c]),
&(state->s.freecells[c-1])
) < 0)
)
{
temp_freecell = state->s.freecells[c];
state->s.freecells[c] = state->s.freecells[c-1];
state->s.freecells[c-1] = temp_freecell;
temp_loc = state->fc_locs[c];
state->fc_locs[c] = state->fc_locs[c-1];
state->fc_locs[c-1] = temp_loc;
c--;
}
}
}
#endif
static void fcs_state_init(
fcs_state_with_locations_t * state,
int stacks_num
#ifdef INDIRECT_STACK_STATES
,fcs_card_t * indirect_stacks_buffer
#endif
)
{
int a;
memset((void*)&(state->s), 0, sizeof(fcs_state_t));
for(a=0;a<MAX_NUM_STACKS;a++)
{
state->stack_locs[a] = a;
}
#ifdef INDIRECT_STACK_STATES
for(a=0;a<stacks_num;a++)
{
state->s.stacks[a] = &indirect_stacks_buffer[a << 7];
memset(state->s.stacks[a], '\0', MAX_NUM_DECKS*52+1);
}
for(;a<MAX_NUM_STACKS;a++)
{
state->s.stacks[a] = NULL;
}
#endif
for(a=0;a<MAX_NUM_FREECELLS;a++)
{
state->fc_locs[a] = a;
}
}
#if (FCS_STATE_STORAGE != FCS_STATE_STORAGE_INDIRECT)
int freecell_solver_state_compare(const void * s1, const void * s2)
{
return memcmp(s1,s2,sizeof(fcs_state_t));
}
int freecell_solver_state_compare_equal(const void * s1, const void * s2)
{
return (!memcmp(s1,s2,sizeof(fcs_state_t)));
}
int freecell_solver_state_compare_with_context(
const void * s1,
const void * s2,
fcs_compare_context_t context
)
{
(void)context;
return memcmp(s1,s2,sizeof(fcs_state_t));
}
#else
int freecell_solver_state_compare_indirect(const void * s1, const void * s2)
{
return memcmp(*(fcs_state_with_locations_t * *)s1, *(fcs_state_with_locations_t * *)s2, sizeof(fcs_state_t));
}
int freecell_solver_state_compare_indirect_with_context(const void * s1, const void * s2, void * context)
{
return memcmp(*(fcs_state_with_locations_t * *)s1, *(fcs_state_with_locations_t * *)s2, sizeof(fcs_state_t));
}
#endif
static const char * const freecells_prefixes[] = { "FC:", "Freecells:", "Freecell:", ""};
static const char * const foundations_prefixes[] = { "Decks:", "Deck:", "Founds:", "Foundations:", "Foundation:", "Found:", ""};
static const char * const talon_prefixes[] = { "Talon:", "Queue:" , ""};
static const char * const num_redeals_prefixes[] = { "Num-Redeals:", "Readels-Num:", "Readeals-Number:", ""};
#ifdef WIN32
#define strncasecmp(a,b,c) (strnicmp((a),(b),(c)))
#endif
int freecell_solver_initial_user_state_to_c(
const char * string,
fcs_state_with_locations_t * out_state,
int freecells_num,
int stacks_num,
int decks_num
#ifdef FCS_WITH_TALONS
,int talon_type
#endif
#ifdef INDIRECT_STACK_STATES
, fcs_card_t * indirect_stacks_buffer
#endif
)
{
fcs_state_with_locations_t ret_with_locations;
int s,c;
const char * str;
fcs_card_t card;
int first_line;
int prefix_found;
const char * const * prefixes;
int i;
int decks_index[4];
fcs_state_init(
&ret_with_locations,
stacks_num
#ifdef INDIRECT_STACK_STATES
, indirect_stacks_buffer
#endif
);
str = string;
first_line = 1;
#define ret (ret_with_locations.s)
/* Handle the end of string - shouldn't happen */
#define handle_eos() \
{ \
if ((*str) == '\0') \
{ \
return FCS_USER_STATE_TO_C__PREMATURE_END_OF_INPUT; \
} \
}
#ifdef FCS_WITH_TALONS
if (talon_type == FCS_TALON_KLONDIKE)
{
fcs_klondike_talon_num_redeals_left(ret) = -1;
}
#endif
for(s=0;s<stacks_num;s++)
{
/* Move to the next stack */
if (!first_line)
{
while((*str) != '\n')
{
handle_eos();
str++;
}
str++;
}
first_line = 0;
prefixes = freecells_prefixes;
prefix_found = 0;
for(i=0;prefixes[i][0] != '\0'; i++)
{
if (!strncasecmp(str, prefixes[i], strlen(prefixes[i])))
{
prefix_found = 1;
str += strlen(prefixes[i]);
break;
}
}
if (prefix_found)
{
for(c=0;c<freecells_num;c++)
{
fcs_empty_freecell(ret, c);
}
for(c=0;c<freecells_num;c++)
{
if (c!=0)
{
while(
((*str) != ' ') &&
((*str) != '\t') &&
((*str) != '\n') &&
((*str) != '\r')
)
{
handle_eos();
str++;
}
if ((*str == '\n') || (*str == '\r'))
{
break;
}
str++;
}
while ((*str == ' ') || (*str == '\t'))
{
str++;
}
if ((*str == '\r') || (*str == '\n'))
break;
if ((*str == '*') || (*str == '-'))
{
card = fcs_empty_card;
}
else
{
card = fcs_card_user2perl(str);
}
fcs_put_card_in_freecell(ret, c, card);
}
while (*str != '\n')
{
handle_eos();
str++;
}
s--;
continue;
}
prefixes = foundations_prefixes;
prefix_found = 0;
for(i=0;prefixes[i][0] != '\0'; i++)
{
if (!strncasecmp(str, prefixes[i], strlen(prefixes[i])))
{
prefix_found = 1;
str += strlen(prefixes[i]);
break;
}
}
if (prefix_found)
{
int d;
for(d=0;d<decks_num*4;d++)
{
fcs_set_foundation(ret, d, 0);
}
for(d=0;d<4;d++)
{
decks_index[d] = 0;
}
while (1)
{
while((*str == ' ') || (*str == '\t'))
str++;
if ((*str == '\n') || (*str == '\r'))
break;
d = fcs_u2p_suit(str);
str++;
while (*str == '-')
str++;
c = fcs_u2p_card_number(str);
while (
(*str != ' ') &&
(*str != '\t') &&
(*str != '\n') &&
(*str != '\r')
)
{
handle_eos();
str++;
}
fcs_set_foundation(ret, (decks_index[d]*4+d), c);
decks_index[d]++;
if (decks_index[d] >= decks_num)
{
decks_index[d] = 0;
}
}
s--;
continue;
}
#ifdef FCS_WITH_TALONS
prefixes = talon_prefixes;
prefix_found = 0;
for(i=0;prefixes[i][0] != '\0'; i++)
{
if (!strncasecmp(str, prefixes[i], strlen(prefixes[i])))
{
prefix_found = 1;
str += strlen(prefixes[i]);
break;
}
}
if (prefix_found)
{
/* Input the Talon */
int talon_size;
talon_size = MAX_NUM_DECKS*52+16;
ret.talon = malloc(sizeof(fcs_card_t)*talon_size);
fcs_talon_pos(ret) = 0;
for(c=0 ; c < talon_size ; c++)
{
/* Move to the next card */
if (c!=0)
{
while(
((*str) != ' ') &&
((*str) != '\t') &&
((*str) != '\n') &&
((*str) != '\r')
)
{
handle_eos();
str++;
}
if ((*str == '\n') || (*str == '\r'))
{
break;
}
}
while ((*str == ' ') || (*str == '\t'))
{
str++;
}
if ((*str == '\n') || (*str == '\r'))
{
break;
}
card = fcs_card_user2perl(str);
fcs_put_card_in_talon(ret, c+(talon_type==FCS_TALON_KLONDIKE), card);
}
fcs_talon_len(ret) = c;
if (talon_type == FCS_TALON_KLONDIKE)
{
int talon_len;
talon_len = fcs_talon_len(ret);
fcs_klondike_talon_len(ret) = talon_len;
fcs_klondike_talon_stack_pos(ret) = -1;
fcs_klondike_talon_queue_pos(ret) = 0;
}
s--;
continue;
}
prefixes = num_redeals_prefixes;
prefix_found = 0;
for(i=0;prefixes[i][0] != '\0'; i++)
{
if (!strncasecmp(str, prefixes[i], strlen(prefixes[i])))
{
prefix_found = 1;
str += strlen(prefixes[i]);
break;
}
}
if (prefix_found)
{
while ((*str < '0') && (*str > '9') && (*str != '\n'))
{
handle_eos();
str++;
}
if (*str != '\n')
{
int num_redeals;
num_redeals = atoi(str);
if (talon_type == FCS_TALON_KLONDIKE)
{
fcs_klondike_talon_num_redeals_left(ret) =
(num_redeals < 0) ?
(-1) :
((num_redeals > 127) ? 127 : num_redeals)
;
}
}
s--;
continue;
}
#endif
for(c=0 ; c < MAX_NUM_CARDS_IN_A_STACK ; c++)
{
/* Move to the next card */
if (c!=0)
{
while(
((*str) != ' ') &&
((*str) != '\t') &&
((*str) != '\n') &&
((*str) != '\r')
)
{
handle_eos();
str++;
}
if ((*str == '\n') || (*str == '\r'))
{
break;
}
}
while ((*str == ' ') || (*str == '\t'))
{
str++;
}
if ((*str == '\n') || (*str == '\r'))
{
break;
}
card = fcs_card_user2perl(str);
fcs_push_card_into_stack(ret, s, card);
}
}
*out_state = ret_with_locations;
return FCS_USER_STATE_TO_C__SUCCESS;
}
#undef ret
#undef handle_eos
int freecell_solver_check_state_validity(
fcs_state_with_locations_t * state_with_locations,
int freecells_num,
int stacks_num,
int decks_num,
#ifdef FCS_WITH_TALONS
int talon_type,
#endif
fcs_card_t * misplaced_card)
{
int cards[4][14];
int c, s, d, f;
fcs_state_t * state;
state = (&(state_with_locations->s));
/* Initialize all cards to 0 */
for(d=0;d<4;d++)
{
for(c=1;c<=13;c++)
{
cards[d][c] = 0;
}
}
/* Mark the cards in the decks */
for(d=0;d<decks_num*4;d++)
{
for(c=1;c<=fcs_foundation_value(*state, d);c++)
{
cards[d%4][c]++;
}
}
/* Mark the cards in the freecells */
for(f=0;f<freecells_num;f++)
{
if (fcs_freecell_card_num(*state, f) != 0)
{
cards
[fcs_freecell_card_suit(*state, f)]
[fcs_freecell_card_num(*state, f)] ++;
}
}
/* Mark the cards in the stacks */
for(s=0;s<stacks_num;s++)
{
for(c=0;c<fcs_stack_len(*state,s);c++)
{
if (fcs_stack_card_num(*state, s, c) == 0)
{
*misplaced_card = fcs_empty_card;
return 3;
}
cards
[fcs_stack_card_suit(*state, s, c)]
[fcs_stack_card_num(*state, s, c)] ++;
}
}
#ifdef FCS_WITH_TALONS
/* Mark the cards in the (gypsy) talon */
if ((talon_type == FCS_TALON_GYPSY) || (talon_type == FCS_TALON_KLONDIKE))
{
for(c = ((talon_type == FCS_TALON_GYPSY)?fcs_talon_pos(*state):1) ;
c < ((talon_type==FCS_TALON_GYPSY) ? fcs_talon_len(*state) : (fcs_klondike_talon_len(*state)+1)) ;
c++)
{
if (fcs_get_talon_card(*state,c) != fcs_empty_card)
{
cards
[fcs_card_suit(fcs_get_talon_card(*state, c))]
[fcs_card_card_num(fcs_get_talon_card(*state, c))] ++;
}
}
}
#endif
/* Now check if there are extra or missing cards */
for(d=0;d<4;d++)
{
for(c=1;c<=13;c++)
{
if (cards[d][c] != decks_num)
{
*misplaced_card = fcs_empty_card;
fcs_card_set_suit(*misplaced_card, d);
fcs_card_set_num(*misplaced_card, c);
return (cards[d][c] < decks_num) ? 1 : 2;
}
}
}
return 0;
}
#undef state
char * freecell_solver_state_as_string(
fcs_state_with_locations_t * state_with_locations,
int freecells_num,
int stacks_num,
int decks_num,
int parseable_output,
int canonized_order_output,
int display_10_as_t
)
{
fcs_state_t * state;
char freecell[10], decks[MAX_NUM_DECKS*4][10], stack_card_[10];
int a, card_num_is_null, b;
int max_num_cards, s, card_num, len;
char str2[128], str3[128], * str2_ptr, * str3_ptr;
freecell_solver_append_string_t * app_str;
int stack_locs[MAX_NUM_STACKS];
int freecell_locs[MAX_NUM_FREECELLS];
state = (&(state_with_locations->s));
if (canonized_order_output)
{
for(a=0;a<stacks_num;a++)
{
stack_locs[a] = a;
}
for(a=0;a<freecells_num;a++)
{
freecell_locs[a] = a;
}
}
else
{
for(a=0;a<stacks_num;a++)
{
stack_locs[(int)(state_with_locations->stack_locs[a])] = a;
}
for(a=0;a<freecells_num;a++)
{
freecell_locs[(int)(state_with_locations->fc_locs[a])] = a;
}
}
for(a=0;a<decks_num*4;a++)
{
fcs_p2u_card_number(
fcs_foundation_value(*state, a),
decks[a],
&card_num_is_null,
display_10_as_t,
0
);
if (decks[a][0] == ' ')
decks[a][0] = '0';
}
app_str = freecell_solver_append_string_alloc(512);
if(!parseable_output)
{
for(a=0;a<((freecells_num/4)+((freecells_num%4==0)?0:1));a++)
{
str2_ptr = str2;
str3_ptr = str3;
for(b=0;b<min(freecells_num-a*4, 4);b++)
{
str2_ptr += sprintf(str2_ptr, "%3s ",
fcs_card_perl2user(
fcs_freecell_card(
*state,
freecell_locs[a*4+b]
),
freecell,
display_10_as_t
)
);
str3_ptr += sprintf(str3_ptr, "--- ");
}
if (a < decks_num)
{
freecell_solver_append_string_sprintf(
app_str,
"%-16s H-%1s C-%1s D-%1s S-%1s\n",
str2,
decks[a*4],
decks[a*4+1],
decks[a*4+2],
decks[a*4+3]
);
}
else
{
freecell_solver_append_string_sprintf(
app_str,
"%s\n", str2
);
}
freecell_solver_append_string_sprintf(
app_str,
"%s\n", str3
);
}
for(;a<decks_num;a++)
{
freecell_solver_append_string_sprintf(
app_str,
"%-16s H-%1s C-%1s D-%1s S-%1s\n",
"",
decks[a*4],
decks[a*4+1],
decks[a*4+2],
decks[a*4+3]
);
}
freecell_solver_append_string_sprintf(
app_str,
"%s",
"\n\n"
);
for(s=0;s<stacks_num;s++)
{
freecell_solver_append_string_sprintf(app_str, "%s", " -- ");
}
freecell_solver_append_string_sprintf(
app_str,
"%s",
"\n"
);
max_num_cards = 0;
for(s=0;s<stacks_num;s++)
{
if (fcs_stack_len(*state, stack_locs[s]) > max_num_cards)
{
max_num_cards = fcs_stack_len(*state, stack_locs[s]);
}
}
for(card_num=0;card_num<max_num_cards;card_num++)
{
for(s = 0; s<stacks_num; s++)
{
if (card_num >= fcs_stack_len(*state, stack_locs[s]))
{
freecell_solver_append_string_sprintf(
app_str,
" "
);
}
else
{
freecell_solver_append_string_sprintf(
app_str,
"%3s ",
fcs_card_perl2user(
fcs_stack_card(
*state,
stack_locs[s],
card_num),
stack_card_,
display_10_as_t
)
);
}
}
freecell_solver_append_string_sprintf(app_str, "%s", "\n");
}
}
else
{
freecell_solver_append_string_sprintf(app_str, "%s", "Foundations: ");
for(a=0;a<decks_num;a++)
{
freecell_solver_append_string_sprintf(
app_str,
"H-%s C-%s D-%s S-%s ",
decks[a*4],
decks[a*4+1],
decks[a*4+2],
decks[a*4+3]
);
}
freecell_solver_append_string_sprintf(app_str, "%s", "\nFreecells: ");
for(a=0;a<freecells_num;a++)
{
freecell_solver_append_string_sprintf(
app_str,
"%3s",
fcs_card_perl2user(
fcs_freecell_card(
*state,
freecell_locs[a]
),
freecell,
display_10_as_t
)
);
if (a < freecells_num-1)
{
freecell_solver_append_string_sprintf(app_str, "%s", " ");
}
}
freecell_solver_append_string_sprintf(app_str, "%s", "\n");
for(s=0;s<stacks_num;s++)
{
freecell_solver_append_string_sprintf(app_str, "%s", ": ");
len = fcs_stack_len(*state, stack_locs[s]);
for(card_num=0;card_num<len;card_num++)
{
fcs_card_perl2user(
fcs_stack_card(
*state,
stack_locs[s],
card_num
),
stack_card_,
display_10_as_t
);
freecell_solver_append_string_sprintf(app_str, "%s", stack_card_);
if (card_num < len-1)
{
freecell_solver_append_string_sprintf(app_str, "%s", " ");
}
}
freecell_solver_append_string_sprintf(app_str, "%s", "\n");
}
}
return freecell_solver_append_string_finalize(app_str);
}
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