void genbc1tl_idle(usf_state_t * state) { #ifdef INTERPRET_BC1TL_IDLE gencallinterp(state, (unsigned long long)state->current_instruction_table.BC1TL_IDLE, 1); #else if (((state->dst->addr & 0xFFF) == 0xFFC && (state->dst->addr < 0x80000000 || state->dst->addr >= 0xC0000000))||state->no_compiled_jump) { gencallinterp(state, (unsigned long long)state->current_instruction_table.BC1TL_IDLE, 1); return; } gencheck_cop1_unusable(state); genbc1t_test(state); gentest_idle(state); genbc1tl(state); #endif }
void genbc1tl_idle(void) { #ifdef INTERPRET_BC1TL_IDLE gencallinterp((unsigned int)BC1TL_IDLE, 1); #else if (((dst->addr & 0xFFF) == 0xFFC && (dst->addr < 0x80000000 || dst->addr >= 0xC0000000))||no_compiled_jump) { gencallinterp((unsigned int)BC1TL_IDLE, 1); return; } gencheck_cop1_unusable(); genbc1t_test(); gentest_idle(); genbc1tl(); #endif }
void genbc1tl_idle(void) { #ifdef INTERPRET_BC1TL_IDLE gencallinterp((unsigned int)cached_interpreter_table.BC1TL_IDLE, 1); #else if (((g_dev.r4300.recomp.dst->addr & 0xFFF) == 0xFFC && (g_dev.r4300.recomp.dst->addr < 0x80000000 || g_dev.r4300.recomp.dst->addr >= 0xC0000000))||g_dev.r4300.recomp.no_compiled_jump) { gencallinterp((unsigned int)cached_interpreter_table.BC1TL_IDLE, 1); return; } gencheck_cop1_unusable(); genbc1t_test(); gentest_idle(); genbc1tl(); #endif }