#include "core_methods.h" #define BCI_CORE_REGISTER_CHECK(var) if(var > BCI_CORE_NUM_REG) return 1 // #1 -> $0 char bci_cm_ldi(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); uint16_t arg; char res; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } state->data_reg[small_arg] = arg; return machine_state_t_default_afterexec(state, 1); } // @($1) -> $0 char bci_cm_ld(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); uint16_t arg; char res; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } BCI_CORE_REGISTER_CHECK(arg); arg = state->data_reg[arg]; res = machine_state_t_get_mem(state, arg, &arg); if(res) { return res; } state->data_reg[small_arg] = arg; return machine_state_t_default_afterexec(state, 1); } // $0 -> @($1) char bci_cm_st(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); char res; uint16_t arg; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } BCI_CORE_REGISTER_CHECK(arg); arg = state->data_reg[arg]; res = machine_state_t_set_mem(state, arg, state->data_reg[small_arg]); if(res) { return res; } return machine_state_t_default_afterexec(state, 1); } // $0 + 1 -> $0 char bci_cm_inc(uint8_t small_arg, machine_state_t state) { int32_t result; BCI_CORE_REGISTER_CHECK(small_arg); result = state->data_reg[small_arg] + 1; state->data_reg[small_arg] = result & 0xffff; state->status_reg = result >> 16; return machine_state_t_default_afterexec(state, 0); } // $0 - 1 -> $0 char bci_cm_dec(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); int32_t result = state->data_reg[small_arg] - 1; state->data_reg[small_arg] = result & 0xffff; state->status_reg = result >> 16; return machine_state_t_default_afterexec(state, 0); } // $0 + $1 -> $0 char bci_cm_add(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); uint16_t arg; char res; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } BCI_CORE_REGISTER_CHECK(arg); int32_t result = state->data_reg[small_arg] + state->data_reg[arg]; state->data_reg[small_arg] = result & 0xffff; state->status_reg = result >> 16; return machine_state_t_default_afterexec(state, 1); } // $0 - $1 -> $0 char bci_cm_sub(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); uint16_t arg; char res; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } BCI_CORE_REGISTER_CHECK(arg); int32_t result = state->data_reg[small_arg] - state->data_reg[arg]; state->data_reg[small_arg] = result & 0xffff; state->status_reg = result >> 16; return machine_state_t_default_afterexec(state, 1); } // $0 * $1 -> $0 char bci_cm_mul(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); uint16_t arg; char res; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } BCI_CORE_REGISTER_CHECK(arg); int32_t result = state->data_reg[small_arg] * state->data_reg[arg]; state->data_reg[small_arg] = result & 0xffff; state->status_reg = result >> 16; return machine_state_t_default_afterexec(state, 1); } // $0 / $1 -> $0 char bci_cm_div(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); uint16_t arg; char res; res = machine_state_t_get_word(state, state->program_counter + 1, &arg); if(res) { return res; } BCI_CORE_REGISTER_CHECK(arg); int32_t result = state->data_reg[small_arg] / state->data_reg[arg]; state->data_reg[small_arg] = result & 0xffff; state->status_reg = result >> 16; return machine_state_t_default_afterexec(state, 1); } // if($0 > 0): 1 -> $st_reg // else: 0 -> $st_reg char bci_cm_gt(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); if(state->data_reg[small_arg] > 0) { state->status_reg = 1; } else { state->status_reg = 0; } return machine_state_t_default_afterexec(state, 0); } // if($0 >= 0): 1 -> $st_reg // else: 0 -> $st_reg char bci_cm_ge(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); if(state->data_reg[small_arg] >= 0) { state->status_reg = 1; } else { state->status_reg = 0; } return machine_state_t_default_afterexec(state, 0); } // if($0 < 0): 1 -> $st_reg // else: 0 -> $st_reg char bci_cm_lt(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); if(state->data_reg[small_arg] < 0) { state->status_reg = 1; } else { state->status_reg = 0; } return machine_state_t_default_afterexec(state, 0); } // if($0 <= 0): 1 -> $st_reg // else: 0 -> $st_reg char bci_cm_le(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); if(state->data_reg[small_arg] <= 0) { state->status_reg = 1; } else { state->status_reg = 0; } return machine_state_t_default_afterexec(state, 0); } // if($0 == 0): 1 -> $st_reg // else: 0 -> $st_reg char bci_cm_eq(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg); if(state->data_reg[small_arg] == 0) { state->status_reg = 1; } else { state->status_reg = 0; } return machine_state_t_default_afterexec(state, 0); } // $0 -> $pc; 0 -> $st_reg char bci_cm_jmp(uint8_t small_arg, machine_state_t state) { BCI_CORE_REGISTER_CHECK(small_arg) uint16_t arg = state->data_reg[arg]; state->status_reg = 0; state->program_counter = arg; return 0; } // if($st_reg): $0 -> $pc; 0 -> $st_reg // else: do nothing char bci_cm_cjmp(uint8_t small_arg, machine_state_t state) { uint16_t arg; BCI_CORE_REGISTER_CHECK(small_arg) arg = state->data_reg[arg]; if(state->status_reg) { state->program_counter = arg; return 0; } state->status_reg = 0; return machine_state_t_default_afterexec(state, 0); } // $pc -> @stack // $0 -> $pc char bci_cm_call(uint8_t small_arg, machine_state_t state) { uint16_t arg; BCI_CORE_REGISTER_CHECK(small_arg) arg = state->data_reg[arg]; char res = bci_stack_t_push(&(state->stack), state->program_counter); if(res) { return res; } state->program_counter = arg; return 0; } // if($st_reg): $pc -> @stack; $0 -> $pc; 0 -> $st_reg // else: do nothing char bci_cm_ccall(uint8_t small_arg, machine_state_t state) { uint16_t arg; BCI_CORE_REGISTER_CHECK(small_arg); arg = state->data_reg[small_arg]; if(state->status_reg) { state->program_counter = arg; res = bci_stack_t_push(&(state->stack), state->program_counter); if(res) { return res; } return 0; } state->status_reg = 0; return machine_state_t_default_afterexec(state, 0); } // @stack -> $pc char bci_cm_ret(uint8_t small_arg, machine_state_t state) { uint16_t result; char res = bci_stack_t_pop(&(state->stack), &result); if(res) { return res; } state->program_counter = result; return 0; } // 0 -> $st_reg char bci_cm_cl(uint8_t small_arg, machine_state_t state) { state->status_reg = 0; return machine_state_t_default_afterexec(state, 0); } // 1 -> $su_reg char bci_cm_stop(uint8_t small_arg, machine_state_t state) { state->shutdown_reg = 1; return machine_state_t_default_afterexec(state, 0); } // if($st_reg): 0 -> $st_reg // else: 1 -> $st_reg char bci_cm_not(uint8_t small_arg, machine_state_t state) { if(state->status_reg) { state->status_reg = 0; } else { status->status_reg = 1; } return machine_state_t_default_afterexec(state, 0); }