| version 1.27, 2004/02/03 23:31:57 |
version 1.30, 2004/03/05 02:26:52 |
|
|
| * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
| * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
| * |
* |
| * $OpenXM: OpenXM_contrib2/asir2000/builtin/dp-supp.c,v 1.26 2003/11/27 07:53:53 noro Exp $ |
* $OpenXM: OpenXM_contrib2/asir2000/builtin/dp-supp.c,v 1.29 2004/02/09 08:23:29 noro Exp $ |
| */ |
*/ |
| #include "ca.h" |
#include "ca.h" |
| #include "base.h" |
#include "base.h" |
| Line 1311 void dp_nf_tab_f(DP p,LIST *tab,DP *rp) |
|
| Line 1311 void dp_nf_tab_f(DP p,LIST *tab,DP *rp) |
|
| |
|
| /* |
/* |
| * setting flags |
* setting flags |
| |
* call create_order_spec with vl=0 to set old type order. |
| * |
* |
| */ |
*/ |
| |
|
| Line 1359 int create_order_spec(VL vl,Obj obj,struct order_spec |
|
| Line 1360 int create_order_spec(VL vl,Obj obj,struct order_spec |
|
| return 0; |
return 0; |
| } |
} |
| |
|
| |
void print_composite_order_spec(struct order_spec *spec) |
| |
{ |
| |
int nv,n,len,i,j,k,start; |
| |
struct weight_or_block *worb; |
| |
|
| |
nv = spec->nv; |
| |
n = spec->ord.composite.length; |
| |
worb = spec->ord.composite.w_or_b; |
| |
for ( i = 0; i < n; i++, worb++ ) { |
| |
len = worb->length; |
| |
printf("[ "); |
| |
switch ( worb->type ) { |
| |
case IS_DENSE_WEIGHT: |
| |
for ( j = 0; j < len; j++ ) |
| |
printf("%d ",worb->body.dense_weight[j]); |
| |
for ( ; j < nv; j++ ) |
| |
printf("0 "); |
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break; |
| |
case IS_SPARSE_WEIGHT: |
| |
for ( j = 0, k = 0; j < nv; j++ ) |
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if ( j == worb->body.sparse_weight[k].pos ) |
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printf("%d ",worb->body.sparse_weight[k++].value); |
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else |
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printf("0 "); |
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break; |
| |
case IS_BLOCK: |
| |
start = worb->body.block.start; |
| |
for ( j = 0; j < start; j++ ) printf("0 "); |
| |
switch ( worb->body.block.order ) { |
| |
case 0: |
| |
for ( k = 0; k < len; k++, j++ ) printf("R "); |
| |
break; |
| |
case 1: |
| |
for ( k = 0; k < len; k++, j++ ) printf("G "); |
| |
break; |
| |
case 2: |
| |
for ( k = 0; k < len; k++, j++ ) printf("L "); |
| |
break; |
| |
} |
| |
for ( ; j < nv; j++ ) printf("0 "); |
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break; |
| |
} |
| |
printf("]\n"); |
| |
} |
| |
} |
| |
|
| /* order = [w_or_b, w_or_b, ... ] */ |
/* order = [w_or_b, w_or_b, ... ] */ |
| /* w_or_b = w or b */ |
/* w_or_b = w or b */ |
| /* w = [1,2,...] or [x,1,y,2,...] */ |
/* w = [1,2,...] or [x,1,y,2,...] */ |
| Line 1369 int create_composite_order_spec(VL vl,LIST order,struc |
|
| Line 1416 int create_composite_order_spec(VL vl,LIST order,struc |
|
| NODE wb,t,p; |
NODE wb,t,p; |
| struct order_spec *spec; |
struct order_spec *spec; |
| VL tvl; |
VL tvl; |
| int n,i,j,k,l,len; |
int n,i,j,k,l,start,end,len,w; |
| int *dw; |
int *dw; |
| struct sparse_weight *sw; |
struct sparse_weight *sw; |
| struct weight_or_block *w_or_b; |
struct weight_or_block *w_or_b; |
| Obj a0; |
Obj a0; |
| NODE a; |
NODE a; |
| V v; |
V v,sv,ev; |
| |
SYMBOL sym; |
| |
int *top; |
| |
|
| /* l = number of vars in vl */ |
/* l = number of vars in vl */ |
| for ( l = 0, tvl = vl; tvl; tvl = NEXT(tvl), l++ ); |
for ( l = 0, tvl = vl; tvl; tvl = NEXT(tvl), l++ ); |
| Line 1387 int create_composite_order_spec(VL vl,LIST order,struc |
|
| Line 1436 int create_composite_order_spec(VL vl,LIST order,struc |
|
| spec->obj = (Obj)order; |
spec->obj = (Obj)order; |
| spec->nv = l; |
spec->nv = l; |
| spec->ord.composite.length = n; |
spec->ord.composite.length = n; |
| spec->ord.composite.w_or_b = (struct weight_or_block *) |
w_or_b = spec->ord.composite.w_or_b = (struct weight_or_block *) |
| MALLOC(sizeof(struct weight_or_block)*n); |
MALLOC(sizeof(struct weight_or_block)*(n+1)); |
| for ( t = wb, i = 0; t; t = NEXT(t) ) { |
|
| a = BDY((LIST)BDY(wb)); |
/* top : register the top variable in each w_or_b specification */ |
| |
top = (int *)ALLOCA(l*sizeof(int)); |
| |
for ( i = 0; i < l; i++ ) top[i] = 0; |
| |
|
| |
for ( t = wb, i = 0; t; t = NEXT(t), i++ ) { |
| |
if ( !BDY(t) || OID((Obj)BDY(t)) != O_LIST ) |
| |
error("a list of lists must be specified for the key \"order\""); |
| |
a = BDY((LIST)BDY(t)); |
| len = length(a); |
len = length(a); |
| a0 = (Obj)BDY(a); |
a0 = (Obj)BDY(a); |
| if ( !a0 || OID(a0) == O_N ) { |
if ( !a0 || OID(a0) == O_N ) { |
| /* a is dense weight */ |
/* a is a dense weight vector */ |
| dw = (int *)MALLOC(sizeof(int)*len); |
dw = (int *)MALLOC(sizeof(int)*len); |
| for ( j = 0, p = a; j < len; p = NEXT(p), j++ ) |
for ( j = 0, p = a; j < len; p = NEXT(p), j++ ) { |
| |
if ( !INT((Q)BDY(p)) ) |
| |
error("a dense weight vector must be specified as a list of integers"); |
| dw[j] = QTOS((Q)BDY(p)); |
dw[j] = QTOS((Q)BDY(p)); |
| |
} |
| w_or_b[i].type = IS_DENSE_WEIGHT; |
w_or_b[i].type = IS_DENSE_WEIGHT; |
| w_or_b[i].length = len; |
w_or_b[i].length = len; |
| w_or_b[i].body.dense_weight = dw; |
w_or_b[i].body.dense_weight = dw; |
| |
|
| |
/* find the top */ |
| |
for ( k = 0; k < len && !dw[k]; k++ ); |
| |
if ( k < len ) top[k] = 1; |
| |
|
| } else if ( OID(a0) == O_P ) { |
} else if ( OID(a0) == O_P ) { |
| |
/* a is a sparse weight vector */ |
| |
len >>= 1; |
| sw = (struct sparse_weight *) |
sw = (struct sparse_weight *) |
| MALLOC(sizeof(struct sparse_weight)*len); |
MALLOC(sizeof(struct sparse_weight)*len); |
| for ( j = 0, p = a; j < len; j++ ) { |
for ( j = 0, p = a; j < len; j++ ) { |
| v = VR((P)BDY(a)); a = NEXT(a); |
if ( !BDY(p) || OID((P)BDY(p)) != O_P ) |
| |
error("a sparse weight vector must be specified as [var1,weight1,...]"); |
| |
v = VR((P)BDY(p)); p = NEXT(p); |
| for ( tvl = vl, k = 0; tvl && tvl->v != v; |
for ( tvl = vl, k = 0; tvl && tvl->v != v; |
| k++, tvl = NEXT(tvl) ); |
k++, tvl = NEXT(tvl) ); |
| if ( !tvl ) |
if ( !tvl ) |
| error("invalid variable name"); |
error("invalid variable name in a sparse weight vector"); |
| sw[j].pos = k; |
sw[j].pos = k; |
| sw[j].value = QTOS((Q)BDY(a)); |
if ( !INT((Q)BDY(p)) ) |
| |
error("a sparse weight vector must be specified as [var1,weight1,...]"); |
| |
sw[j].value = QTOS((Q)BDY(p)); p = NEXT(p); |
| } |
} |
| w_or_b[i].type = IS_SPARSE_WEIGHT; |
w_or_b[i].type = IS_SPARSE_WEIGHT; |
| w_or_b[i].length = len; |
w_or_b[i].length = len; |
| w_or_b[i].body.sparse_weight = sw; |
w_or_b[i].body.sparse_weight = sw; |
| } else { |
|
| error("not implemented yet"); |
/* find the top */ |
| } |
for ( k = 0; k < len && !sw[k].value; k++ ); |
| |
if ( k < len ) top[sw[k].pos] = 1; |
| |
} else if ( OID(a0) == O_RANGE ) { |
| |
/* [range(v1,v2),w] */ |
| |
sv = VR((P)(((RANGE)a0)->start)); |
| |
ev = VR((P)(((RANGE)a0)->end)); |
| |
for ( tvl = vl, start = 0; tvl && tvl->v != sv; start++, tvl = NEXT(tvl) ); |
| |
if ( !tvl ) |
| |
error("invalid range"); |
| |
for ( end = start; tvl && tvl->v != ev; end++, tvl = NEXT(tvl) ); |
| |
if ( !tvl ) |
| |
error("invalid range"); |
| |
len = end-start+1; |
| |
sw = (struct sparse_weight *) |
| |
MALLOC(sizeof(struct sparse_weight)*len); |
| |
w = QTOS((Q)BDY(NEXT(a))); |
| |
for ( tvl = vl, k = 0; k < start; k++, tvl = NEXT(tvl) ); |
| |
for ( j = 0 ; k <= end; k++, tvl = NEXT(tvl), j++ ) { |
| |
sw[j].pos = k; |
| |
sw[j].value = w; |
| |
} |
| |
w_or_b[i].type = IS_SPARSE_WEIGHT; |
| |
w_or_b[i].length = len; |
| |
w_or_b[i].body.sparse_weight = sw; |
| |
|
| |
/* register the top */ |
| |
if ( w ) top[start] = 1; |
| |
} else if ( OID(a0) == O_SYMBOL ) { |
| |
/* a is a block */ |
| |
sym = (SYMBOL)a0; a = NEXT(a); len--; |
| |
if ( OID((Obj)BDY(a)) == O_RANGE ) { |
| |
sv = VR((P)(((RANGE)BDY(a))->start)); |
| |
ev = VR((P)(((RANGE)BDY(a))->end)); |
| |
for ( tvl = vl, start = 0; tvl && tvl->v != sv; start++, tvl = NEXT(tvl) ); |
| |
if ( !tvl ) |
| |
error("invalid range"); |
| |
for ( end = start; tvl && tvl->v != ev; end++, tvl = NEXT(tvl) ); |
| |
if ( !tvl ) |
| |
error("invalid range"); |
| |
len = end-start+1; |
| |
} else { |
| |
for ( start = 0, tvl = vl; tvl->v != VR((P)BDY(a)); |
| |
tvl = NEXT(tvl), start++ ); |
| |
for ( p = NEXT(a), tvl = NEXT(tvl); p; |
| |
p = NEXT(p), tvl = NEXT(tvl) ) { |
| |
if ( !BDY(p) || OID((P)BDY(p)) != O_P ) |
| |
error("a block must be specified as [ordsymbol,var1,var2,...]"); |
| |
if ( tvl->v != VR((P)BDY(p)) ) break; |
| |
} |
| |
if ( p ) |
| |
error("a block must be contiguous in the variable list"); |
| |
} |
| |
w_or_b[i].type = IS_BLOCK; |
| |
w_or_b[i].length = len; |
| |
w_or_b[i].body.block.start = start; |
| |
if ( !strcmp(sym->name,"@grlex") ) |
| |
w_or_b[i].body.block.order = 0; |
| |
else if ( !strcmp(sym->name,"@glex") ) |
| |
w_or_b[i].body.block.order = 1; |
| |
else if ( !strcmp(sym->name,"@lex") ) |
| |
w_or_b[i].body.block.order = 2; |
| |
else |
| |
error("invalid ordername"); |
| |
/* register the tops */ |
| |
for ( j = 0, k = start; j < len; j++, k++ ) |
| |
top[k] = 1; |
| |
} |
| } |
} |
| |
for ( k = 0; k < l && top[k]; k++ ); |
| |
if ( k < l ) { |
| |
/* incomplete order specification; add @grlex */ |
| |
w_or_b[n].type = IS_BLOCK; |
| |
w_or_b[n].length = l; |
| |
w_or_b[n].body.block.start = 0; |
| |
w_or_b[n].body.block.order = 0; |
| |
spec->ord.composite.length = n+1; |
| |
} |
| |
if ( 1 ) print_composite_order_spec(spec); |
| } |
} |
| |
|
| /* |
/* |
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