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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [testsuite/] [gcc.c-torture/] [compile/] [920625-1.c] - Rev 826
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/* The problem on IA-64 is that if-conversion creates a sequence (p17) cmp.geu p6, p7 = r48, r15 (p16) cmp.gtu p6, p7 = r48, r15 where p16 and p17 are complemenary, but the assembler DV validation code doesn't recognize that p6 and p7 are complimentary, and so we end up warning for a later use (p6) addl r14 = 1, r0 (p7) mov r14 = r0 that appears to be a WAW violation. */ /* { dg-prune-output "Assembler messages" } */ /* { dg-prune-output "violate\[^\n\]*dependency" } */ /* { dg-prune-output "first path encountering" } */ /* { dg-prune-output "location of the conflicting" } */ typedef unsigned long int unsigned_word; typedef signed long int signed_word; typedef unsigned_word word; typedef enum { ADD, ADD_CI, ADD_CO, ADD_CIO, SUB, SUB_CI, SUB_CO, SUB_CIO, ADC_CI, ADC_CO, ADC_CIO, AND, IOR, XOR, ANDC, IORC, EQV, NAND, NOR, AND_RC, IOR_RC, XOR_RC, ANDC_RC, IORC_RC, EQV_RC, NAND_RC, NOR_RC, AND_CC, IOR_CC, XOR_CC, ANDC_CC, IORC_CC, EQV_CC, NAND_CC, NOR_CC, LSHIFTR, ASHIFTR, SHIFTL, LSHIFTR_CO, ASHIFTR_CO, SHIFTL_CO, ROTATEL, ROTATEL_CO, ROTATEXL_CIO, ASHIFTR_CON, EXTS1, EXTS2, EXTU1, EXTU2, CLZ, CTZ, FF1, FF0, ABSVAL, NABSVAL, CMP, CPEQ, CPGE, CPGEU, CPGT, CPGTU, CPLE, CPLEU, CPLT, CPLTU, CPNEQ, CMPPAR, DOZ, COPY, EXCHANGE, COMCY, } opcode_t; typedef struct { opcode_t opcode:8; unsigned int s1:8; unsigned int s2:8; unsigned int d:8; } insn_t; enum prune_flags { NO_PRUNE = 0, CY_0 = 1, CY_1 = 2, CY_JUST_SET = 4, }; int flag_use_carry = 1; inline recurse(opcode_t opcode, int d, int s1, int s2, word v, int cost, insn_t *sequence, int n_insns, word *values, int n_values, const word goal_value, int allowed_cost, int cy, int prune_flags) { insn_t insn; allowed_cost -= cost; if (allowed_cost > 0) { word old_d; old_d = values[d]; values[d] = v; insn.opcode = opcode; insn.s1 = s1; insn.s2 = s2; insn.d = d; sequence[n_insns] = insn; synth(sequence, n_insns + 1, values, n_values, goal_value, allowed_cost, cy, prune_flags); values[d] = old_d; } else if (goal_value == v) { insn.opcode = opcode; insn.s1 = s1; insn.s2 = s2; insn.d = d; sequence[n_insns] = insn; test_sequence(sequence, n_insns + 1); } } synth(insn_t *sequence, int n_insns, word *values, int n_values, word goal_value, int allowed_cost, int ci, int prune_hint) { int s1, s2; word v, r1, r2; int co; int last_dest; if (n_insns > 0) last_dest = sequence[n_insns - 1].d; else last_dest = -1; if (ci >= 0 && flag_use_carry) { for (s1 = n_values - 1; s1 >= 0; s1--) { r1 = values[s1]; for (s2 = s1 - 1; s2 >= 0; s2--) { r2 = values[s2]; if (allowed_cost <= 1 && (prune_hint & CY_JUST_SET) == 0) { if (last_dest >= 0 && s1 != last_dest && s2 != last_dest) continue; } do { word __d = ( r1) + ( r2) + (( ci)); ( co) = ( ci) ? __d <= ( r1) : __d < ( r1); (v) = __d; } while (0); recurse(ADD_CIO, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r1) + ( r2) + (( ci)); ( co) = ( ci); (v) = __d; } while (0); recurse(ADD_CI, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( r1) - ( r2) - (( ci)); ( co) = ( ci) ? __d >= ( r1) : __d > ( r1); (v) = __d; } while (0); recurse(SUB_CIO, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r2) - ( r1) - (( ci)); ( co) = ( ci) ? __d >= ( r2) : __d > ( r2); (v) = __d; } while (0); recurse(SUB_CIO, n_values, s2, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r1) - ( r2) - (( ci)); ( co) = ( ci); (v) = __d; } while (0); recurse(SUB_CI, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( r2) - ( r1) - (( ci)); ( co) = ( ci); (v) = __d; } while (0); recurse(SUB_CI, n_values, s2, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); } } } for (s1 = n_values - 1; s1 >= 0; s1--) { r1 = values[s1]; for (s2 = s1 - 1; s2 >= 0; s2--) { r2 = values[s2]; if (allowed_cost <= 1) { if (last_dest >= 0 && s1 != last_dest && s2 != last_dest) continue; } do { word __d = ( r1) + ( r2); ( co) = __d < ( r1); (v) = __d; } while (0); recurse(ADD_CO, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); ((v) = ( r1) + ( r2), ( co) = ( ci)); recurse(ADD, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( r1) - ( r2); ( co) = __d > ( r1); (v) = __d; } while (0); recurse(SUB_CO, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r2) - ( r1); ( co) = __d > ( r2); (v) = __d; } while (0); recurse(SUB_CO, n_values, s2, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); ((v) = ( r1) - ( r2), ( co) = ( ci)); recurse(SUB, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r2) - ( r1), ( co) = ( ci)); recurse(SUB, n_values, s2, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) & ( r2), ( co) = ( ci)); recurse(AND, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) | ( r2), ( co) = ( ci)); recurse(IOR, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) ^ ( r2), ( co) = ( ci)); recurse(XOR, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) & ~( r2), ( co) = ( ci)); recurse(ANDC, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r2) & ~( r1), ( co) = ( ci)); recurse(ANDC, n_values, s2, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) | ~( r2), ( co) = ( ci)); recurse(IORC, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r2) | ~( r1), ( co) = ( ci)); recurse(IORC, n_values, s2, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) ^ ~( r2), ( co) = ( ci)); recurse(EQV, n_values, s1, s2, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); } } if (ci >= 0 && flag_use_carry) { for (s1 = n_values - 1; s1 >= 0; s1--) { r1 = values[s1]; if (allowed_cost <= 1 && (prune_hint & CY_JUST_SET) == 0) { if (last_dest >= 0 && s1 != last_dest) continue; } do { word __d = ( r1) + ( r1) + (( ci)); ( co) = ( ci) ? __d <= ( r1) : __d < ( r1); (v) = __d; } while (0); recurse(ADD_CIO, n_values, s1, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r1) + ( r1) + (( ci)); ( co) = ( ci); (v) = __d; } while (0); recurse(ADD_CI, n_values, s1, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( r1) + ( -1 ) + (( ci)); ( co) = ( ci) ? __d <= ( r1) : __d < ( r1); (v) = __d; } while (0); recurse(ADD_CIO, n_values, s1, (0x20 + -1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r1) + ( 0 ) + (( ci)); ( co) = ( ci) ? __d <= ( r1) : __d < ( r1); (v) = __d; } while (0); recurse(ADD_CIO, n_values, s1, (0x20 + 0) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( 0 ) - ( r1) - (( ci)); ( co) = ( ci) ? __d >= ( 0 ) : __d > ( 0 ); (v) = __d; } while (0); recurse(SUB_CIO, n_values, (0x20 + 0) , s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); } } for (s1 = n_values - 1; s1 >= 0; s1--) { r1 = values[s1]; if (allowed_cost <= 1) { if (last_dest >= 0 && s1 != last_dest) continue; } do { word __d = ( r1) + ( r1); ( co) = __d < ( r1); (v) = __d; } while (0); recurse(ADD_CO, n_values, s1, s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); ((v) = ( r1) & ( 1 ), ( co) = ( ci)); recurse(AND, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( r1) ^ ( 1 ), ( co) = ( ci)); recurse(XOR, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( -1 ) - ( r1), ( co) = ( ci)); recurse(SUB, n_values, (0x20 + -1) , s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( r1) + ( 1 ); ( co) = __d < ( r1); (v) = __d; } while (0); recurse(ADD_CO, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); ((v) = ( r1) + ( 1 ), ( co) = ( ci)); recurse(ADD, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( r1) + ( -1 ); ( co) = __d < ( r1); (v) = __d; } while (0); recurse(ADD_CO, n_values, s1, (0x20 + -1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( r1) - ( 1 ); ( co) = __d > ( r1); (v) = __d; } while (0); recurse(SUB_CO, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); do { word __d = ( 0 ) - ( r1); ( co) = __d > ( 0 ); (v) = __d; } while (0); recurse(SUB_CO, n_values, (0x20 + 0) , s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET); ((v) = ( 0 ) - ( r1), ( co) = ( ci)); recurse(SUB, n_values, (0x20 + 0) , s1, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ((unsigned_word) ( r1) >> (( 1 ) & (32 - 1)) ), ( co) = ( ci)); recurse(LSHIFTR, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ((signed_word) ( r1) >> (( 1 ) & (32 - 1)) ), ( co) = ( ci)); recurse(ASHIFTR, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ((signed_word) ( r1) << (( 1 ) & (32 - 1)) ), ( co) = ( ci)); recurse(SHIFTL, n_values, s1, (0x20 + 1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ((unsigned_word) ( r1) >> (( 32 -1 ) & (32 - 1)) ), ( co) = ( ci)); recurse(LSHIFTR, n_values, s1, (0x20 + 32 -1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ((signed_word) ( r1) >> (( 32 -1 ) & (32 - 1)) ), ( co) = ( ci)); recurse(ASHIFTR, n_values, s1, (0x20 + 32 -1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); } if (ci >= 0 && flag_use_carry && (allowed_cost <= 1 ? ((prune_hint & CY_JUST_SET) != 0) : 1)) { do { word __d = ( 0 ) + ( 0 ) + (( ci)); ( co) = ( ci) ? __d <= ( 0 ) : __d < ( 0 ); (v) = __d; } while (0); recurse(ADD_CIO, n_values, (0x20 + 0) , (0x20 + 0) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET | CY_0); do { word __d = ( 0 ) - ( 0 ) - (( ci)); ( co) = ( ci) ? __d >= ( 0 ) : __d > ( 0 ); (v) = __d; } while (0); recurse(SUB_CIO, n_values, (0x20 + 0) , (0x20 + 0) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); do { word __d = ( 0 ) - ( -1 ) - (( ci)); ( co) = ( ci) ? __d >= ( 0 ) : __d > ( 0 ); (v) = __d; } while (0); recurse(SUB_CIO, n_values, (0x20 + 0) , (0x20 + -1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, CY_JUST_SET | CY_1); do { word __d = ( 0 ) + ( -1 ) + (( ci)); ( co) = ( ci) ? __d <= ( 0 ) : __d < ( 0 ); (v) = __d; } while (0); recurse(ADD_CIO, n_values, (0x20 + 0) , (0x20 + -1) , v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); } if (allowed_cost > 1) { ((v) = ( 0x80000000 ), ( co) = ( ci)); recurse(COPY, n_values, (0x20 - 2) , 0, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( -1 ), ( co) = ( ci)); recurse(COPY, n_values, (0x20 + -1) , 0, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); ((v) = ( 1 ), ( co) = ( ci)); recurse(COPY, n_values, (0x20 + 1) , 0, v, 1, sequence, n_insns, values, n_values + 1, goal_value, allowed_cost, co, prune_hint & ~CY_JUST_SET); } }