Fixes bug 163540: allocation in bignum arithmetic does not garbage collect.
This commit is contained in:
parent
1afade6d43
commit
3b4d3097a1
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@ -433,6 +433,9 @@ ik_collect(int mem_req, ikpcb* pcb){
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pcb->gensym_table = add_object(&gc, pcb->gensym_table, "gensym_table");
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pcb->arg_list = add_object(&gc, pcb->arg_list, "args_list_foo");
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pcb->base_rtd = add_object(&gc, pcb->base_rtd, "base_rtd");
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if(pcb->root0) *(pcb->root0) = add_object(&gc, *(pcb->root0), "root0");
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if(pcb->root1) *(pcb->root1) = add_object(&gc, *(pcb->root1), "root1");
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/* now we trace all live objects */
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collect_loop(&gc);
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@ -138,6 +138,8 @@ typedef struct ikpcb{
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ikp collect_key; /* offset = 48 */
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/* the rest are not used by any scheme code */
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/* they only support the runtime system (gc, etc.) */
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ikp* root0;
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ikp* root1;
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unsigned int* segment_vector;
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ikp weak_pairs_ap;
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ikp weak_pairs_ep;
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@ -199,6 +201,7 @@ ikp ik_asm_enter(ikpcb*, ikp code_object, ikp arg);
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ikp ik_asm_reenter(ikpcb*, ikp code_object, ikp val);
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ikp ik_underflow_handler(ikpcb*);
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ikp ik_unsafe_alloc(ikpcb* pcb, int size);
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ikp ik_safe_alloc(ikpcb* pcb, int size);
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#define IK_FASL_HEADER "#@IK01"
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@ -128,7 +128,7 @@ ikrt_fxfxplus(ikp x, ikp y, ikpcb* pcb){
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return q;
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}
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else {
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ikp bn = ik_unsafe_alloc(pcb, align(disp_bignum_data + wordsize));
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ikp bn = ik_safe_alloc(pcb, align(disp_bignum_data + wordsize));
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if(r > 0){
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ref(bn, 0) = (ikp)(bignum_tag | (1 << bignum_length_shift));
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ref(bn, disp_bignum_data) = (ikp)r;
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@ -153,7 +153,9 @@ ikrt_fxbnplus(ikp x, ikp y, ikpcb* pcb){
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if(intx > 0){
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if((bignum_sign_mask & (int)fst) == 0){
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/* positive fx + positive bn = even bigger positive */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = 0;
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int carry = mpn_add_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -176,7 +178,9 @@ ikrt_fxbnplus(ikp x, ikp y, ikpcb* pcb){
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else {
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//fprintf(stderr, "this case 0x%08x\n", intx);
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/* positive fx + negative bn = smaller negative bn */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = 0;
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int borrow = mpn_sub_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -209,7 +213,9 @@ ikrt_fxbnplus(ikp x, ikp y, ikpcb* pcb){
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else {
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if((bignum_sign_mask & (int)fst) == 0){
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/* negative fx + positive bn = smaller positive */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = 0;
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int borrow = mpn_sub_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -239,7 +245,9 @@ ikrt_fxbnplus(ikp x, ikp y, ikpcb* pcb){
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return verify_bignum(r+vector_tag, "fxbn+4");
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} else {
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/* negative fx + negative bn = larger negative */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = 0;
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int carry = mpn_add_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -281,7 +289,11 @@ ikrt_bnbnplus(ikp x, ikp y, ikpcb* pcb){
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} else {
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n1 = ylimbs; n2 = xlimbs; s1 = y; s2 = x;
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}
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ikp res = ik_unsafe_alloc(pcb, align(disp_bignum_data + (n1+1)*wordsize));
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pcb->root0 = &s1;
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pcb->root1 = &s2;
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ikp res = ik_safe_alloc(pcb, align(disp_bignum_data + (n1+1)*wordsize));
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pcb->root0 = 0;
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pcb->root1 = 0;
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mp_limb_t carry = mpn_add((mp_limb_t*) (res+disp_bignum_data),
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(mp_limb_t*) (s1-vector_tag+disp_bignum_data),
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n1,
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@ -329,7 +341,11 @@ ikrt_bnbnplus(ikp x, ikp y, ikpcb* pcb){
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}
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}
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/* |s1| > |s2| */
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ikp res = ik_unsafe_alloc(pcb, align(disp_bignum_data + n1 * wordsize));
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pcb->root0 = &s1;
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pcb->root1 = &s2;
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ikp res = ik_safe_alloc(pcb, align(disp_bignum_data + n1 * wordsize));
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pcb->root0 = 0;
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pcb->root1 = 0;
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int burrow = mpn_sub((mp_limb_t*) (res + disp_bignum_data),
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(mp_limb_t*) (s1 - vector_tag + disp_bignum_data),
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n1,
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@ -388,7 +404,7 @@ ikrt_fxfxminus(ikp x, ikp y, ikpcb* pcb){
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if(((unsigned int)r) <= most_positive_fixnum){
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return fix(r);
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} else {
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ikp bn = ik_unsafe_alloc(pcb, align(disp_bignum_data + wordsize));
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ikp bn = ik_safe_alloc(pcb, align(disp_bignum_data + wordsize));
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ref(bn, 0) = (ikp) (bignum_tag | (1 << bignum_length_shift));
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ref(bn, disp_bignum_data) = (ikp)r;
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return verify_bignum(bn+vector_tag,"fxfx-1");
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@ -398,7 +414,7 @@ ikrt_fxfxminus(ikp x, ikp y, ikpcb* pcb){
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if(unfix(fxr) == r){
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return fxr;
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} else {
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ikp bn = ik_unsafe_alloc(pcb, align(disp_bignum_data + wordsize));
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ikp bn = ik_safe_alloc(pcb, align(disp_bignum_data + wordsize));
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ref(bn, 0) = (ikp)
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(bignum_tag |
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(1 << bignum_sign_shift) |
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@ -423,7 +439,9 @@ ikrt_bnnegate(ikp x, ikpcb* pcb){
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}
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}
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}
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ikp bn = ik_unsafe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
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pcb->root0 = &x;
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ikp bn = ik_safe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
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pcb->root0 = 0;
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memcpy(bn+disp_bignum_data,
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x-vector_tag+disp_bignum_data,
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limb_count*wordsize);
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@ -443,7 +461,9 @@ ikrt_fxbnminus(ikp x, ikp y, ikpcb* pcb){
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if(intx > 0){
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if(bignum_sign_mask & (int)fst){
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/* positive fx - negative bn = positive bn */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = 0;
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int carry = mpn_add_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -465,7 +485,9 @@ ikrt_fxbnminus(ikp x, ikp y, ikpcb* pcb){
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}
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else {
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/* positive fx - positive bn = smaller negative bn/fx */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = 0;
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int borrow = mpn_sub_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -498,7 +520,9 @@ ikrt_fxbnminus(ikp x, ikp y, ikpcb* pcb){
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else {
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if(bignum_sign_mask & (int)fst){
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/* negative fx - negative bn = smaller positive */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = 0;
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int borrow = mpn_sub_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -528,7 +552,9 @@ ikrt_fxbnminus(ikp x, ikp y, ikpcb* pcb){
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return verify_bignum(r+vector_tag,"fxbn-");
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} else {
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/* negative fx - positive bn = larger negative */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = 0;
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int carry = mpn_add_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y - vector_tag + disp_bignum_data),
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limb_count,
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@ -560,7 +586,9 @@ ikrt_bnfxminus(ikp x, ikp y, ikpcb* pcb){
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if(inty < 0){
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if((bignum_sign_mask & (int)fst) == 0){
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/* - negative fx + positive bn = positive bn */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = &x;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = 0;
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int carry = mpn_add_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(x - vector_tag + disp_bignum_data),
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limb_count,
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@ -582,7 +610,9 @@ ikrt_bnfxminus(ikp x, ikp y, ikpcb* pcb){
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}
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else {
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/* - negative fx + negative bn = smaller negative bn/fx */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = &x;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = 0;
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int borrow = mpn_sub_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(x - vector_tag + disp_bignum_data),
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limb_count,
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@ -615,7 +645,9 @@ ikrt_bnfxminus(ikp x, ikp y, ikpcb* pcb){
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else {
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if((bignum_sign_mask & (int)fst) == 0){
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/* - positive fx + positive bn = smaller positive */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = &x;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+limb_count*wordsize));
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pcb->root0 = 0;
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int borrow = mpn_sub_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(x - vector_tag + disp_bignum_data),
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limb_count,
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@ -645,7 +677,9 @@ ikrt_bnfxminus(ikp x, ikp y, ikpcb* pcb){
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return verify_bignum(r+vector_tag, "bnfx-");
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} else {
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/* - positive fx + negative bn = larger negative */
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = &x;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(limb_count+1)*wordsize));
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pcb->root0 = 0;
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int carry = mpn_add_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(x - vector_tag + disp_bignum_data),
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limb_count,
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@ -687,7 +721,11 @@ ikrt_bnbnminus(ikp x, ikp y, ikpcb* pcb){
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} else {
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n1 = ylimbs; n2 = xlimbs; s1 = y; s2 = x;
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}
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ikp res = ik_unsafe_alloc(pcb, align(disp_bignum_data + (n1+1)*wordsize));
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pcb->root0 = &s1;
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pcb->root0 = &s2;
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ikp res = ik_safe_alloc(pcb, align(disp_bignum_data + (n1+1)*wordsize));
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pcb->root0 = 0;
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pcb->root0 = 0;
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mp_limb_t carry = mpn_add((mp_limb_t*) (res+disp_bignum_data),
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(mp_limb_t*) (s1-vector_tag+disp_bignum_data),
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n1,
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@ -737,7 +775,11 @@ ikrt_bnbnminus(ikp x, ikp y, ikpcb* pcb){
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}
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}
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/* |s1| > |s2| */
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ikp res = ik_unsafe_alloc(pcb, align(disp_bignum_data + n1 * wordsize));
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pcb->root0 = &s1;
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pcb->root0 = &s2;
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ikp res = ik_safe_alloc(pcb, align(disp_bignum_data + n1 * wordsize));
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pcb->root0 = 0;
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pcb->root0 = 0;
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int burrow = mpn_sub((mp_limb_t*) (res + disp_bignum_data),
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(mp_limb_t*) (s1 - vector_tag + disp_bignum_data),
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n1,
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@ -812,7 +854,7 @@ ikrt_fxfxmult(ikp x, ikp y, ikpcb* pcb){
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return fix((int)lo);
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}
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}
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ikp r = ik_unsafe_alloc(pcb, disp_bignum_data + wordsize);
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ikp r = ik_safe_alloc(pcb, disp_bignum_data + wordsize);
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ref(r, 0) = (ikp)
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(bignum_tag |
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(sign << bignum_sign_shift) |
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@ -820,7 +862,7 @@ ikrt_fxfxmult(ikp x, ikp y, ikpcb* pcb){
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ref(r, disp_bignum_data) = (ikp)lo;
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return BN(r+vector_tag);
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} else {
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + 2*wordsize));
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + 2*wordsize));
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ref(r, 0) = (ikp)
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(bignum_tag |
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(sign << bignum_sign_shift) |
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@ -861,7 +903,9 @@ ikrt_fxbnmult(ikp x, ikp y, ikpcb* pcb){
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mp_limb_t s2 = (n2>0) ? n2 : (- n2);
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ikp fst = ref(y, -vector_tag);
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int limb_count = ((unsigned int) fst) >> bignum_length_shift;
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + (limb_count+1)*wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + (limb_count+1)*wordsize));
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pcb->root0 = 0;
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mp_limb_t hi = mpn_mul_1((mp_limb_t*)(r+disp_bignum_data),
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(mp_limb_t*)(y-vector_tag+disp_bignum_data),
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limb_count,
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@ -881,7 +925,11 @@ ikrt_bnbnmult(ikp x, ikp y, ikpcb* pcb){
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int n1 = ((unsigned int)f1) >> bignum_length_shift;
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int n2 = ((unsigned int)f2) >> bignum_length_shift;
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int nr = n1 + n2;
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ikp bn = ik_unsafe_alloc(pcb, align(disp_bignum_data + nr*wordsize));
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pcb->root0 = &x;
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pcb->root1 = &y;
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ikp bn = ik_safe_alloc(pcb, align(disp_bignum_data + nr*wordsize));
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pcb->root0 = 0;
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pcb->root1 = 0;
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mp_limb_t r;
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if(n1 >= n2){
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r = mpn_mul((mp_limb_t*)(bn+disp_bignum_data),
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@ -992,7 +1040,9 @@ ikrt_fxbnlogand(ikp x, ikp y, ikpcb* pcb){
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if((len == 1) && (nn <= most_negative_fixnum)){
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return fix(-nn);
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}
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + len * wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + len * wordsize));
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pcb->root0 = 0;
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ref(r, 0) = fst;
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ref(r, disp_bignum_data) = (ikp) nn;
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int i;
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@ -1004,7 +1054,9 @@ ikrt_fxbnlogand(ikp x, ikp y, ikpcb* pcb){
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} else {
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/* y is positive */
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int len = (((unsigned int) fst) >> bignum_length_shift);
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ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + len * wordsize));
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pcb->root0 = &y;
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ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + len * wordsize));
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pcb->root0 = 0;
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||||
ref(r, 0) = fst;
|
||||
ref(r, disp_bignum_data) = (ikp)
|
||||
(((int)ref(y, disp_bignum_data - vector_tag)) & n1);
|
||||
|
@ -1090,10 +1142,12 @@ ikp
|
|||
ikrt_bnlognot(ikp x, ikpcb* pcb){
|
||||
ikp fst = ref(x, -vector_tag);
|
||||
int n = ((unsigned int)fst) >> bignum_length_shift;
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
if(bignum_sign_mask & (unsigned int) fst){
|
||||
/* negative */
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + n*wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + n*wordsize));
|
||||
pcb->root0 = 0;
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
unsigned int* rd = (unsigned int*)(r+disp_bignum_data);
|
||||
int i;
|
||||
for(i=0; (i<n) && (s1[i] == 0); i++) {
|
||||
|
@ -1107,16 +1161,22 @@ ikrt_bnlognot(ikp x, ikpcb* pcb){
|
|||
} else {
|
||||
/* positive */
|
||||
int i;
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
for(i=0; (i<n) && (s1[i] == -1); i++) {/*nothing*/}
|
||||
if(i==n){
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + (n+1)*wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + (n+1)*wordsize));
|
||||
pcb->root0 = 0;
|
||||
bzero(r+disp_bignum_data, n*wordsize);
|
||||
((unsigned int*)(r+disp_bignum_data))[n] = 1;
|
||||
ref(r, 0) = (ikp)
|
||||
(bignum_tag | (1<<bignum_sign_shift) | ((n+1) << bignum_length_shift));
|
||||
return r+vector_tag;
|
||||
} else {
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + n*wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + n*wordsize));
|
||||
pcb->root0 = 0;
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
unsigned int* rd = (unsigned int*)(r+disp_bignum_data);
|
||||
int j;
|
||||
for(j=0; j<i; j++){ rd[j] = 0; }
|
||||
|
@ -1138,10 +1198,14 @@ ikrt_bnbnlogand(ikp x, ikp y, ikpcb* pcb){
|
|||
int n2 = ((unsigned int) yfst) >> bignum_length_shift;
|
||||
if(bignum_sign_mask & (unsigned int) xfst){
|
||||
if(bignum_sign_mask & (unsigned int) yfst){
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
unsigned int* s2 = ((unsigned int*)(y+disp_bignum_data-vector_tag));
|
||||
if(n1 >= n2){
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + n1*wordsize));
|
||||
pcb->root0 = &x;
|
||||
pcb->root1 = &y;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + n1*wordsize));
|
||||
pcb->root0 = 0;
|
||||
pcb->root1 = 0;
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
unsigned int* s2 = ((unsigned int*)(y+disp_bignum_data-vector_tag));
|
||||
unsigned int* s = ((unsigned int*)(r+disp_bignum_data));
|
||||
bits_compliment(s1, s, n1);
|
||||
bits_compliment_logand(s2, s, s, n2);
|
||||
|
@ -1157,9 +1221,13 @@ ikrt_bnbnlogand(ikp x, ikp y, ikpcb* pcb){
|
|||
if(bignum_sign_mask & (unsigned int) yfst){
|
||||
/* x positive, y negative */
|
||||
/* the result is at most n1 words long */
|
||||
pcb->root0 = &x;
|
||||
pcb->root1 = &y;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + n1*wordsize));
|
||||
pcb->root0 = 0;
|
||||
pcb->root1 = 0;
|
||||
unsigned int* s1 = ((unsigned int*)(x+disp_bignum_data-vector_tag));
|
||||
unsigned int* s2 = ((unsigned int*)(y+disp_bignum_data-vector_tag));
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + n1*wordsize));
|
||||
unsigned int* s = ((unsigned int*)(r+disp_bignum_data));
|
||||
bits_compliment_logand(s2, s1, s, n1);
|
||||
return normalize_bignum(n1, 0, r);
|
||||
|
@ -1177,7 +1245,11 @@ ikrt_bnbnlogand(ikp x, ikp y, ikpcb* pcb){
|
|||
if((i == 0) && (last < most_positive_fixnum)){
|
||||
return fix(last);
|
||||
}
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data+(i+1)*wordsize));
|
||||
pcb->root0 = &x;
|
||||
pcb->root1 = &y;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data+(i+1)*wordsize));
|
||||
pcb->root0 = 0;
|
||||
pcb->root1 = 0;
|
||||
ref(r, 0) = (ikp) (bignum_tag | ((i+1)<<bignum_length_shift));
|
||||
ref(r, disp_bignum_data + i*wordsize) = (ikp)last;
|
||||
int j;
|
||||
|
@ -1237,7 +1309,9 @@ ikrt_bignum_shift_right(ikp x, ikp y, ikpcb* pcb){
|
|||
return fix(-1);
|
||||
}
|
||||
if(bit_shift == 0){
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
pcb->root0 = 0;
|
||||
bits_compliment_with_carry(
|
||||
(unsigned int*)(x+off_bignum_data+whole_limb_shift*wordsize),
|
||||
(unsigned int*)(r+disp_bignum_data),
|
||||
|
@ -1249,7 +1323,9 @@ ikrt_bignum_shift_right(ikp x, ikp y, ikpcb* pcb){
|
|||
new_limb_count);
|
||||
return normalize_bignum(new_limb_count, 1 << bignum_sign_shift, r);
|
||||
} else {
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
pcb->root0 = 0;
|
||||
bits_compliment_with_carry(
|
||||
(unsigned int*)(x+off_bignum_data+whole_limb_shift*wordsize),
|
||||
(unsigned int*)(r+disp_bignum_data),
|
||||
|
@ -1274,14 +1350,15 @@ ikrt_bignum_shift_right(ikp x, ikp y, ikpcb* pcb){
|
|||
if(new_limb_count <= 0){
|
||||
return 0;
|
||||
}
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
pcb->root0 = 0;
|
||||
if(bit_shift == 0){
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
memcpy(r+disp_bignum_data,
|
||||
x+off_bignum_data+whole_limb_shift*wordsize,
|
||||
new_limb_count * wordsize);
|
||||
return normalize_bignum(new_limb_count, 0, r);
|
||||
} else {
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + new_limb_count * wordsize));
|
||||
copy_bits_shifting_right(
|
||||
(unsigned int*)(x+off_bignum_data+whole_limb_shift*wordsize),
|
||||
(unsigned int*)(r+disp_bignum_data),
|
||||
|
@ -1299,7 +1376,7 @@ ikrt_fixnum_shift_left(ikp x, ikp y, ikpcb* pcb){
|
|||
int n = unfix(x);
|
||||
int limb_count = (m >> 5) + 2; /* FIXME: 5 are the bits in 32-bit num */
|
||||
int bit_shift = m & 31;
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
|
||||
unsigned int* s = (unsigned int*)(r+disp_bignum_data);
|
||||
bzero(s, limb_count * wordsize);
|
||||
if(n >= 0){
|
||||
|
@ -1326,14 +1403,18 @@ ikrt_bignum_shift_left(ikp x, ikp y, ikpcb* pcb){
|
|||
int bit_shift = m & 31;
|
||||
if(bit_shift == 0){
|
||||
int limb_count = n + whole_limb_shift;
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
|
||||
pcb->root0 = 0;
|
||||
unsigned int* s = (unsigned int*)(r+disp_bignum_data);
|
||||
bzero(s, whole_limb_shift*wordsize);
|
||||
memcpy(s+whole_limb_shift, x+off_bignum_data, n*wordsize);
|
||||
return normalize_bignum(limb_count, (unsigned int)fst & bignum_sign_mask, r);
|
||||
} else {
|
||||
int limb_count = n + whole_limb_shift + 1;
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
|
||||
pcb->root0 = &x;
|
||||
ikp r = ik_safe_alloc(pcb, align(disp_bignum_data + limb_count * wordsize));
|
||||
pcb->root0 = 0;
|
||||
unsigned int* s = (unsigned int*)(r+disp_bignum_data);
|
||||
bzero(s, whole_limb_shift*wordsize);
|
||||
copy_bits_shifting_left(
|
||||
|
@ -1374,15 +1455,29 @@ ikrt_bnbndivrem(ikp x, ikp y, ikpcb* pcb){
|
|||
mp_size_t yn = ((unsigned int) yfst) >> bignum_length_shift;
|
||||
if(xn < yn){
|
||||
/* quotient is zero, remainder is x */
|
||||
ikp rv = ik_unsafe_alloc(pcb, pair_size);
|
||||
pcb->root0 = &x;
|
||||
pcb->root1 = &y;
|
||||
ikp rv = ik_safe_alloc(pcb, pair_size);
|
||||
pcb->root0 = 0;
|
||||
pcb->root1 = 0;
|
||||
ref(rv, disp_car) = 0;
|
||||
ref(rv, disp_cdr) = x;
|
||||
return rv+pair_tag;
|
||||
}
|
||||
mp_size_t qn = xn - yn + 1;
|
||||
mp_size_t rn = yn;
|
||||
/*
|
||||
ikp q = ik_unsafe_alloc(pcb, align(disp_bignum_data + qn*wordsize));
|
||||
ikp r = ik_unsafe_alloc(pcb, align(disp_bignum_data + rn*wordsize));
|
||||
*/
|
||||
pcb->root0 = &x;
|
||||
pcb->root1 = &y;
|
||||
ikp q = ik_safe_alloc(pcb,
|
||||
align(disp_bignum_data + qn*wordsize) +
|
||||
align(disp_bignum_data + rn*wordsize));
|
||||
ikp r = q + align(disp_bignum_data + qn*wordsize);
|
||||
pcb->root0 = 0;
|
||||
pcb->root1 = 0;
|
||||
mpn_tdiv_qr (
|
||||
(mp_limb_t*)(q+disp_bignum_data),
|
||||
(mp_limb_t*)(r+disp_bignum_data),
|
||||
|
@ -1409,7 +1504,11 @@ ikrt_bnbndivrem(ikp x, ikp y, ikpcb* pcb){
|
|||
int sign = (((unsigned int)xfst) & bignum_sign_mask);
|
||||
q = normalize_bignum(qn, sign, q);
|
||||
}
|
||||
ikp rv = ik_unsafe_alloc(pcb, pair_size);
|
||||
pcb->root0 = &q;
|
||||
pcb->root1 = &r;
|
||||
ikp rv = ik_safe_alloc(pcb, pair_size);
|
||||
pcb->root0 = 0;
|
||||
pcb->root1 = 0;
|
||||
ref(rv, disp_car) = q;
|
||||
ref(rv, disp_cdr) = r;
|
||||
return rv+pair_tag;
|
||||
|
@ -1437,11 +1536,12 @@ usages, qxn will be zero.
|
|||
ikp
|
||||
ikrt_bnfxdivrem(ikp x, ikp y, ikpcb* pcb){
|
||||
int yint = unfix(y);
|
||||
mp_limb_t* s2p = (mp_limb_t*)(x+off_bignum_data);
|
||||
ikp fst = ref(x, -vector_tag);
|
||||
mp_size_t s2n = ((unsigned int) fst) >> bignum_length_shift;
|
||||
ikp quot = ik_unsafe_alloc(pcb,
|
||||
align(s2n*wordsize + disp_bignum_data));
|
||||
pcb->root0 = &x;
|
||||
ikp quot = ik_safe_alloc(pcb, align(s2n*wordsize + disp_bignum_data));
|
||||
pcb->root0 = 0;
|
||||
mp_limb_t* s2p = (mp_limb_t*)(x+off_bignum_data);
|
||||
mp_limb_t rv = mpn_divrem_1(
|
||||
(mp_limb_t*)(quot+disp_bignum_data),
|
||||
0,
|
||||
|
@ -1471,7 +1571,11 @@ ikrt_bnfxdivrem(ikp x, ikp y, ikpcb* pcb){
|
|||
} else {
|
||||
rem = fix(rv);
|
||||
}
|
||||
ikp p = ik_unsafe_alloc(pcb, pair_size);
|
||||
pcb->root0 = "
|
||||
pcb->root0 = &rem;
|
||||
ikp p = ik_safe_alloc(pcb, pair_size);
|
||||
pcb->root0 = 0;
|
||||
pcb->root0 = 0;
|
||||
ref(p, disp_car) = quot;
|
||||
ref(p, disp_cdr) = rem;
|
||||
return p+pair_tag;
|
||||
|
@ -1542,7 +1646,7 @@ ikrt_bignum_to_bytevector(ikp x, ikpcb* pcb){
|
|||
string_start++;
|
||||
bytes--;
|
||||
}
|
||||
ikp bv = ik_unsafe_alloc(pcb, align(bytes + disp_bytevector_data + (sign_bit?1:0)));
|
||||
ikp bv = ik_safe_alloc(pcb, align(bytes + disp_bytevector_data + (sign_bit?1:0)));
|
||||
ref(bv, 0) = fix(bytes + (sign_bit?1:0));
|
||||
ikp dest = bv + disp_bytevector_data;
|
||||
if(sign_bit){
|
||||
|
|
|
@ -394,6 +394,35 @@ void ik_delete_pcb(ikpcb* pcb){
|
|||
ik_free(pcb, sizeof(ikpcb));
|
||||
}
|
||||
|
||||
ikp
|
||||
ik_safe_alloc(ikpcb* pcb, int size){
|
||||
assert(size == align(size));
|
||||
ikp ap = pcb->allocation_pointer;
|
||||
ikp ep = pcb->heap_base + pcb->heap_size;
|
||||
ikp nap = ap + size;
|
||||
if(nap < ep){
|
||||
pcb->allocation_pointer = nap;
|
||||
return ap;
|
||||
}
|
||||
else {
|
||||
ik_collect(size, pcb);
|
||||
ikp ap = pcb->allocation_pointer;
|
||||
ikp ep = pcb->heap_base + pcb->heap_size;
|
||||
ikp nap = ap + size;
|
||||
if(nap < ep){
|
||||
pcb->allocation_pointer = nap;
|
||||
return ap;
|
||||
} else {
|
||||
fprintf(stderr,
|
||||
"ikaurs: BUG: collector did not leave enough room for %d\n",
|
||||
size);
|
||||
exit(-1);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
|
||||
ikp
|
||||
ik_unsafe_alloc(ikpcb* pcb, int size){
|
||||
|
|
Loading…
Reference in New Issue