#include "simpc_ui.h"
#include "simpc_config.h"

#include "disas.h"

#define NCUR_X 5
#define MEMORY_CONTEXT 3

#if NCUR
#include <ncurses.h>

#define PRINT_ME(y, x, ...)                                                    \
  { mvprintw(y, x, __VA_ARGS__); }
#define PRINT_NEXT()                                                           \
  {                                                                            \
    refresh();                                                                 \
    napms(NCUR_DELAY_MS);                                                      \
  }

#else

#define attroff(...)
#define attron(...)
#define PRINT_ME(y, x, ...)                                                    \
  {                                                                            \
    printf("%*c", x, ' ');                                                     \
    printf(__VA_ARGS__);                                                       \
    printf("\n");                                                              \
  }
#define PRINT_NEXT()                                                           \
  { puts("-----"); }

#endif

#include "Vcomputer.h"
#include "Vcomputer___024root.h"
#include "Vcomputer_comb_mem.h"
#include "Vcomputer_computer.h"
#include "Vcomputer_my_mem__D10_DB10000.h"
#include "verilated.h"
#include <cstdint>
#include <cstdio>
#include <sched.h>

bool paused = false;

static void handle_key();

void simpc_ui_write(const std::unique_ptr<Vcomputer> &topp, uint64_t &i,
                    StepPosition_t sp) {
  uint16_t opcode = topp->computer->PC_content_int;

  PRINT_ME(1, 1, "Step: %10lu \b%c", i,
           sp == StepPosition_t::BEFORE_EVAL ? 'A' : 'B');
  PRINT_ME(2, 1, "%-20s", paused ? "Paused" : "Running");
  PRINT_ME(3, NCUR_X, "CLK1: %4d\tPC: @0x%04X\tINS: 0x%04X\tHLT: %d",
           topp->clk_in,
           // wrong
           // topp->computer->clk_in,
           topp->computer->PC_addr_int, opcode, topp->halt);

  auto insline = print_decoded(opcode, true);
  PRINT_ME(5, NCUR_X, "%-80s", insline.c_str());

  PRINT_ME(7, NCUR_X, "A: 0x%04X\tD: 0x%04X\tM: 0x%04X\tRES: 0x%04X",
           topp->computer->reg_A_int, topp->computer->reg_D_int,
           topp->computer->reg_pA_int, topp->computer->result_int);
  PRINT_ME(
      8, NCUR_X, "%c%8d\t%c%8d\t%c%8d\t%11d",
      topp->computer->store_to_A_int ? '*' : ' ', topp->computer->reg_A_int,
      topp->computer->store_to_D_int ? '*' : ' ', topp->computer->reg_D_int,
      topp->computer->store_to_pA_int ? '*' : ' ', topp->computer->reg_pA_int,
      topp->computer->result_int);

  const int ram1_pos_offset = 35 + 1;
  const int ram2_pos_offset = ram1_pos_offset + 14 + 1;
  PRINT_ME(10, NCUR_X, "%-35s", "--- ROM ---");
  PRINT_ME(10, NCUR_X + ram1_pos_offset, "%-35s", "--- RAM1 ---");
  PRINT_ME(10, NCUR_X + ram2_pos_offset, "%-35s", "-- RAM2 --");
  for (int i = -MEMORY_CONTEXT; i <= MEMORY_CONTEXT; i++) {
    const int ypos_base = 10 + 1 + MEMORY_CONTEXT;
    const char *prefix = i == 0 ? "> " : "  ";
    int32_t current_ROM_address = topp->computer->PC_addr_int + i;
    int32_t current_RAM_address = topp->computer->reg_A_int + i;
    if (current_ROM_address < 0) {
      PRINT_ME(
          ypos_base + i, NCUR_X, "%.35s",
          "---------------------------------------------------------------");
    } else {
      const uint16_t p = current_ROM_address;
      const uint16_t program_op_code = topp->computer->ROM->r_datastore[p];
      auto disas_code = print_decoded(program_op_code, true);
      PRINT_ME(ypos_base + i, NCUR_X, "%04X  %s%04X  %-30s",
               current_ROM_address, prefix, program_op_code,
               disas_code.c_str());
      // mvchgat in bold
    }
    if (current_RAM_address < 0) {
      PRINT_ME(
          ypos_base + i, NCUR_X + ram1_pos_offset, "%.12s",
          "---------------------------------------------------------------");
    } else {
      const uint16_t p = current_RAM_address;
      const uint16_t mem_content =
          topp->computer->RAM->nand_memory->r_datastore[p];
      PRINT_ME(ypos_base + i, NCUR_X + ram1_pos_offset, "%04X  %s%04X",
               current_RAM_address, prefix, mem_content);
    }
    {
      const uint16_t p = MEMORY_CONTEXT + i;
      const uint16_t mem_content =
          topp->computer->RAM->nand_memory->r_datastore[p];
      PRINT_ME(ypos_base + i, NCUR_X + ram2_pos_offset, "%04X  %04X%30c", p,
               mem_content, ' ');
    }
  }
  // PRINT_ME(7 + NCUR_OFFSET, NCUR_X, "ALU");
  // PRINT_ME(8 + NCUR_OFFSET, NCUR_X, "X: %5d\tY: %5d",
  //          topp->computer->CPU->my_alu->int_op_x,
  //          topp->computer->CPU->my_alu->int_op_y);

  PRINT_ME(getmaxy(stdscr) - 1, 1,
           " q - Quit; p - (Un)pause; s - step (while paused) ");

  PRINT_NEXT();

  handle_key();
}

void simpc_ui_finish_message(const std::unique_ptr<VerilatedContext> &contextp,
                             const std::unique_ptr<Vcomputer> &topp) {
  attron(A_BOLD);
  PRINT_ME(1, 30, "Simulation finished.");
  const char *msg;
  if (topp->halt) {
    msg = "Halt encountered.";
  } else if (!contextp->gotFinish()) {
    msg = "Step count exceeded.";
  } else {
    msg = "Regular finish.";
  }
  PRINT_ME(2, 30, "%s", msg);
#if NCUR
  refresh();
#endif
  attroff(A_BOLD);
}

#define SIMPLE_BORDER(w, lr, tb, c)                                            \
  { wborder(w, lr, lr, tb, tb, c, c, c, c); }

void simpc_ui_init(void) {
#if NCUR
  initscr();
  curs_set(0);
  nodelay(stdscr, TRUE);
  noecho();
  cbreak();

  SIMPLE_BORDER(stdscr, '|', '-', '+');
#endif
}

void simpc_ui_cleanup(void) {
#if NCUR
  nocbreak();
  echo();
  endwin();
#endif
}

void simpc_ui_confirm_finish(void) {
#if NCUR
  nodelay(stdscr, FALSE);
  getch();
#endif
}

static void handle_key() {
  bool block_here = paused;

  do {
    int ch = getch();

    switch (ch) {
    case 'p':
      // pass *current* state.
      // pass false (currently running) - getch will block (entering step mode).
      // pass true (currently paused) - getch will be non-blocking.
      nodelay(stdscr, paused);
      paused = !paused;
      break;
    case 'q':
      simpc_ui_cleanup();
      exit(0);
      break;
    case 's':
      block_here = false;
      break;
    }
  } while (block_here);
}