/*

   +----------------------------------------------------------------------+

   | Zend Engine, SSA - Static Single Assignment Form                     |

   +----------------------------------------------------------------------+

   | Copyright (c) The PHP Group                                          |

   +----------------------------------------------------------------------+

   | This source file is subject to version 3.01 of the PHP license,      |

   | that is bundled with this package in the file LICENSE, and is        |

   | available through the world-wide-web at the following url:           |

   | https://www.php.net/license/3_01.txt                                 |

   | If you did not receive a copy of the PHP license and are unable to   |

   | obtain it through the world-wide-web, please send a note to          |

   | license@php.net so we can mail you a copy immediately.               |

   +----------------------------------------------------------------------+

   | Authors: Dmitry Stogov <dmitry@php.net>                              |

   |          Nikita Popov <nikic@php.net>                                |

   +----------------------------------------------------------------------+

*/

#include "zend_compile.h"

#include "zend_dfg.h"

#include "zend_ssa.h"

#include "zend_dump.h"

#include "zend_inference.h"

#include "zend_worklist.h"

#include "Optimizer/zend_optimizer_internal.h"

static bool dominates(const zend_basic_block *blocks, int a, int b) {

  while (blocks[b].level > blocks[a].level) {

    b = blocks[b].idom;

  }

  return a == b;

}

static bool will_rejoin(

    const zend_cfg *cfg, const zend_dfg *dfg, const zend_basic_block *block,

    int other_successor, int exclude, int var) {

  int i;

  for (i = 0; i < block->predecessors_count; i++) {

    int predecessor = cfg->predecessors[block->predecessor_offset + i];

    if (predecessor == exclude) {

      continue;

    }

    /* The variable is changed in this predecessor,

     * so we will not rejoin with the original value. */

    // TODO: This should not be limited to the direct predecessor block.

    if (DFG_ISSET(dfg->def, dfg->size, predecessor, var)) {

      continue;

    }

    /* The other successor dominates this predecessor,

     * so we will get the original value from it. */

    if (dominates(cfg->blocks, other_successor, predecessor)) {

      return true;

    }

  }

  return false;

}

static bool needs_pi(const zend_op_array *op_array, const zend_dfg *dfg, const zend_ssa *ssa, int from, int to, int var) /* {{{ */

{

  const zend_basic_block *from_block, *to_block;

  int other_successor;

  if (!DFG_ISSET(dfg->in, dfg->size, to, var)) {

    /* Variable is not live, certainly won't benefit from pi */

    return false;

  }

  /* Make sure that both successors of the from block aren't the same. Pi nodes are associated

   * with predecessor blocks, so we can't distinguish which edge the pi belongs to. */

  from_block = &ssa->cfg.blocks[from];

  ZEND_ASSERT(from_block->successors_count == 2);

  if (from_block->successors[0] == from_block->successors[1]) {

    return false;

  }

  to_block = &ssa->cfg.blocks[to];

  if (to_block->predecessors_count == 1) {

    /* Always place pi if one predecessor (an if branch) */

    return true;

  }

  /* Check whether we will rejoin with the original value coming from the other successor,

   * in which case the pi node will not have an effect. */

  other_successor = from_block->successors[0] == to

    ? from_block->successors[1] : from_block->successors[0];

  return !will_rejoin(&ssa->cfg, dfg, to_block, other_successor, from, var);

}

/* }}} */

static zend_ssa_phi *add_pi(

    zend_arena **arena, const zend_op_array *op_array, const zend_dfg *dfg, const zend_ssa *ssa,

    int from, int to, int var) /* {{{ */

{

  zend_ssa_phi *phi;

  if (!needs_pi(op_array, dfg, ssa, from, to, var)) {

    return NULL;

  }

  phi = zend_arena_calloc(arena, 1,

    ZEND_MM_ALIGNED_SIZE(sizeof(zend_ssa_phi)) +

    ZEND_MM_ALIGNED_SIZE(sizeof(int) * ssa->cfg.blocks[to].predecessors_count) +

    sizeof(void*) * ssa->cfg.blocks[to].predecessors_count);

  phi->sources = (int*)(((char*)phi) + ZEND_MM_ALIGNED_SIZE(sizeof(zend_ssa_phi)));

  memset(phi->sources, 0xff, sizeof(int) * ssa->cfg.blocks[to].predecessors_count);

  phi->use_chains = (zend_ssa_phi**)(((char*)phi->sources) + ZEND_MM_ALIGNED_SIZE(sizeof(int) * ssa->cfg.blocks[to].predecessors_count));

  phi->pi = from;

  phi->var = var;

  phi->ssa_var = -1;

  phi->next = ssa->blocks[to].phis;

  ssa->blocks[to].phis = phi;

  /* Block "to" now defines "var" via the pi statement, so add it to the "def" set. Note that

   * this is not entirely accurate, because the pi is actually placed along the edge from->to.

   * If there is a back-edge to "to" this may result in non-minimal SSA form. */

  DFG_SET(dfg->def, dfg->size, to, var);

  /* If there are multiple predecessors in the target block, we need to place a phi there.

   * However this can (generally) not be expressed in terms of dominance frontiers, so place it

   * explicitly. dfg->use here really is dfg->phi, we're reusing the set. */

  if (ssa->cfg.blocks[to].predecessors_count > 1) {

    DFG_SET(dfg->use, dfg->size, to, var);

  }

  return phi;

}

/* }}} */

static void pi_range(

    zend_ssa_phi *phi, int min_var, int max_var, zend_long min, zend_long max,

    bool underflow, bool overflow, bool negative) /* {{{ */

{

  zend_ssa_range_constraint *constraint = &phi->constraint.range;

  constraint->min_var = min_var;

  constraint->max_var = max_var;

  constraint->min_ssa_var = -1;

  constraint->max_ssa_var = -1;

  constraint->range.min = min;

  constraint->range.max = max;

  constraint->range.underflow = underflow;

  constraint->range.overflow = overflow;

  constraint->negative = negative ? NEG_INIT : NEG_NONE;

  phi->has_range_constraint = true;

}

/* }}} */

static inline void pi_range_equals(zend_ssa_phi *phi, int var, zend_long val) {

  pi_range(phi, var, var, val, val, false, false, false);

}

static inline void pi_range_not_equals(zend_ssa_phi *phi, int var, zend_long val) {

  pi_range(phi, var, var, val, val, false, false, true);

}

static inline void pi_range_min(zend_ssa_phi *phi, int var, zend_long val) {

  pi_range(phi, var, -1, val, ZEND_LONG_MAX, false, true, false);

}

static inline void pi_range_max(zend_ssa_phi *phi, int var, zend_long val) {

  pi_range(phi, -1, var, ZEND_LONG_MIN, val, true, false, false);

}

static void pi_type_mask(zend_ssa_phi *phi, uint32_t type_mask) {

  phi->has_range_constraint = false;

  phi->constraint.type.ce = NULL;

  phi->constraint.type.type_mask = MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN;

  phi->constraint.type.type_mask |= type_mask;

  if (type_mask & MAY_BE_NULL) {

    phi->constraint.type.type_mask |= MAY_BE_UNDEF;

  }

}

static inline void pi_not_type_mask(zend_ssa_phi *phi, uint32_t type_mask) {

  uint32_t relevant = MAY_BE_ANY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;

  pi_type_mask(phi, ~type_mask & relevant);

}

static inline uint32_t mask_for_type_check(uint32_t type) {

  if (type & MAY_BE_ARRAY) {

    return type | (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF);

  } else {

    return type;

  }

}

/* We can interpret $a + 5 == 0 as $a = 0 - 5, i.e. shift the adjustment to the other operand.

 * This negated adjustment is what is written into the "adjustment" parameter. */

static int find_adjusted_tmp_var(const zend_op_array *op_array, uint32_t build_flags, zend_op *opline, uint32_t var_num, zend_long *adjustment) /* {{{ */

{

  zend_op *op = opline;

  zval *zv;

  while (op != op_array->opcodes) {

    op--;

    if (op->result_type != IS_TMP_VAR || op->result.var != var_num) {

      continue;

    }

    if (op->opcode == ZEND_POST_DEC) {

      if (op->op1_type == IS_CV) {

        *adjustment = -1;

        return EX_VAR_TO_NUM(op->op1.var);

      }

    } else if (op->opcode == ZEND_POST_INC) {

      if (op->op1_type == IS_CV) {

        *adjustment = 1;

        return EX_VAR_TO_NUM(op->op1.var);

      }

    } else if (op->opcode == ZEND_ADD) {

      if (op->op1_type == IS_CV && op->op2_type == IS_CONST) {

        zv = CRT_CONSTANT_EX(op_array, op, op->op2);

        if (Z_TYPE_P(zv) == IS_LONG

         && Z_LVAL_P(zv) != ZEND_LONG_MIN) {

          *adjustment = -Z_LVAL_P(zv);

          return EX_VAR_TO_NUM(op->op1.var);

        }

      } else if (op->op2_type == IS_CV && op->op1_type == IS_CONST) {

        zv = CRT_CONSTANT_EX(op_array, op, op->op1);

        if (Z_TYPE_P(zv) == IS_LONG

         && Z_LVAL_P(zv) != ZEND_LONG_MIN) {

          *adjustment = -Z_LVAL_P(zv);

          return EX_VAR_TO_NUM(op->op2.var);

        }

      }

    } else if (op->opcode == ZEND_SUB) {

      if (op->op1_type == IS_CV && op->op2_type == IS_CONST) {

        zv = CRT_CONSTANT_EX(op_array, op, op->op2);

        if (Z_TYPE_P(zv) == IS_LONG) {

          *adjustment = Z_LVAL_P(zv);

          return EX_VAR_TO_NUM(op->op1.var);

        }

      }

    }

    break;

  }

  return -1;

}

/* }}} */

/* e-SSA construction: Pi placement (Pi is actually a Phi with single

 * source and constraint).

 * Order of Phis is important, Pis must be placed before Phis

 */

static void place_essa_pis(

    zend_arena **arena, const zend_script *script, const zend_op_array *op_array,

    uint32_t build_flags, const zend_ssa *ssa, const zend_dfg *dfg) /* {{{ */ {

  const zend_basic_block *blocks = ssa->cfg.blocks;

  int j, blocks_count = ssa->cfg.blocks_count;

  for (j = 0; j < blocks_count; j++) {

    zend_ssa_phi *pi;

    zend_op *opline = op_array->opcodes + blocks[j].start + blocks[j].len - 1;

    int bt; /* successor block number if a condition is true */

    int bf; /* successor block number if a condition is false */

    if ((blocks[j].flags & ZEND_BB_REACHABLE) == 0 || blocks[j].len == 0) {

      continue;

    }

    /* the last instruction of basic block is conditional branch,

     * based on comparison of CV(s)

     */

    switch (opline->opcode) {

      case ZEND_JMPZ:

        bf = blocks[j].successors[0];

        bt = blocks[j].successors[1];

        break;

      case ZEND_JMPNZ:

        bt = blocks[j].successors[0];

        bf = blocks[j].successors[1];

        break;

      case ZEND_COALESCE:

        if (opline->op1_type == IS_CV) {

          int var = EX_VAR_TO_NUM(opline->op1.var);

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, blocks[j].successors[0], var))) {

            pi_not_type_mask(pi, MAY_BE_NULL);

          }

        }

        continue;

      case ZEND_JMP_NULL:

        if (opline->op1_type == IS_CV) {

          int var = EX_VAR_TO_NUM(opline->op1.var);

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, blocks[j].successors[1], var))) {

            pi_not_type_mask(pi, MAY_BE_NULL);

          }

        }

        continue;

      default:

        continue;

    }

    /* The following patterns all inspect the opline directly before the JMPZ opcode.

     * Make sure that it is part of the same block, otherwise it might not be a dominating

     * assignment. */

    if (blocks[j].len == 1) {

      continue;

    }

    if (opline->op1_type == IS_TMP_VAR &&

        ((opline-1)->opcode == ZEND_IS_EQUAL ||

         (opline-1)->opcode == ZEND_IS_NOT_EQUAL ||

         (opline-1)->opcode == ZEND_IS_SMALLER ||

         (opline-1)->opcode == ZEND_IS_SMALLER_OR_EQUAL) &&

        opline->op1.var == (opline-1)->result.var) {

      int  var1 = -1;

      int  var2 = -1;

      zend_long val1 = 0;

      zend_long val2 = 0;

//      long val = 0;

      if ((opline-1)->op1_type == IS_CV) {

        var1 = EX_VAR_TO_NUM((opline-1)->op1.var);

      } else if ((opline-1)->op1_type == IS_TMP_VAR) {

        var1 = find_adjusted_tmp_var(

          op_array, build_flags, opline, (opline-1)->op1.var, &val2);

      }

      if ((opline-1)->op2_type == IS_CV) {

        var2 = EX_VAR_TO_NUM((opline-1)->op2.var);

      } else if ((opline-1)->op2_type == IS_TMP_VAR) {

        var2 = find_adjusted_tmp_var(

          op_array, build_flags, opline, (opline-1)->op2.var, &val1);

      }

      if (var1 >= 0 && var2 >= 0) {

        if (!zend_sub_will_overflow(val1, val2) && !zend_sub_will_overflow(val2, val1)) {

          zend_long tmp = val1;

          val1 -= val2;

          val2 -= tmp;

        } else {

          var1 = -1;

          var2 = -1;

        }

      } else if (var1 >= 0 && var2 < 0) {

        zend_long add_val2 = 0;

        if ((opline-1)->op2_type == IS_CONST) {

          zval *zv = CRT_CONSTANT_EX(op_array, (opline-1), (opline-1)->op2);

          if (Z_TYPE_P(zv) == IS_LONG) {

            add_val2 = Z_LVAL_P(zv);

          } else {

            var1 = -1;

          }

        } else {

          var1 = -1;

        }

        if (!zend_add_will_overflow(val2, add_val2)) {

          val2 += add_val2;

        } else {

          var1 = -1;

        }

      } else if (var1 < 0 && var2 >= 0) {

        zend_long add_val1 = 0;

        if ((opline-1)->op1_type == IS_CONST) {

          zval *zv = CRT_CONSTANT_EX(op_array, (opline-1), (opline-1)->op1);

          if (Z_TYPE_P(zv) == IS_LONG) {

            add_val1 = Z_LVAL_P(CRT_CONSTANT_EX(op_array, (opline-1), (opline-1)->op1));

          } else {

            var2 = -1;

          }

        } else {

          var2 = -1;

        }

        if (!zend_add_will_overflow(val1, add_val1)) {

          val1 += add_val1;

        } else {

          var2 = -1;

        }

      }

      if (var1 >= 0) {

        if ((opline-1)->opcode == ZEND_IS_EQUAL) {

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var1))) {

            pi_range_equals(pi, var2, val2);

          }

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var1))) {

            pi_range_not_equals(pi, var2, val2);

          }

        } else if ((opline-1)->opcode == ZEND_IS_NOT_EQUAL) {

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var1))) {

            pi_range_equals(pi, var2, val2);

          }

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var1))) {

            pi_range_not_equals(pi, var2, val2);

          }

        } else if ((opline-1)->opcode == ZEND_IS_SMALLER) {

          if (val2 > ZEND_LONG_MIN) {

            if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var1))) {

              pi_range_max(pi, var2, val2-1);

            }

          }

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var1))) {

            pi_range_min(pi, var2, val2);

          }

        } else if ((opline-1)->opcode == ZEND_IS_SMALLER_OR_EQUAL) {

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var1))) {

            pi_range_max(pi, var2, val2);

          }

          if (val2 < ZEND_LONG_MAX) {

            if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var1))) {

              pi_range_min(pi, var2, val2+1);

            }

          }

        }

      }

      if (var2 >= 0) {

        if((opline-1)->opcode == ZEND_IS_EQUAL) {

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var2))) {

            pi_range_equals(pi, var1, val1);

          }

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var2))) {

            pi_range_not_equals(pi, var1, val1);

          }

        } else if ((opline-1)->opcode == ZEND_IS_NOT_EQUAL) {

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var2))) {

            pi_range_equals(pi, var1, val1);

          }

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var2))) {

            pi_range_not_equals(pi, var1, val1);

          }

        } else if ((opline-1)->opcode == ZEND_IS_SMALLER) {

          if (val1 < ZEND_LONG_MAX) {

            if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var2))) {

              pi_range_min(pi, var1, val1+1);

            }

          }

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var2))) {

            pi_range_max(pi, var1, val1);

          }

        } else if ((opline-1)->opcode == ZEND_IS_SMALLER_OR_EQUAL) {

          if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var2))) {

            pi_range_min(pi, var1, val1);

          }

          if (val1 > ZEND_LONG_MIN) {

            if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var2))) {

              pi_range_max(pi, var1, val1-1);

            }

          }

        }

      }

    } else if (opline->op1_type == IS_TMP_VAR &&

               ((opline-1)->opcode == ZEND_POST_INC ||

                (opline-1)->opcode == ZEND_POST_DEC) &&

               opline->op1.var == (opline-1)->result.var &&

               (opline-1)->op1_type == IS_CV) {

      int var = EX_VAR_TO_NUM((opline-1)->op1.var);

      if ((opline-1)->opcode == ZEND_POST_DEC) {

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var))) {

          pi_range_equals(pi, -1, -1);

        }

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

          pi_range_not_equals(pi, -1, -1);

        }

      } else if ((opline-1)->opcode == ZEND_POST_INC) {

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var))) {

          pi_range_equals(pi, -1, 1);

        }

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

          pi_range_not_equals(pi, -1, 1);

        }

      }

    } else if (opline->op1_type == IS_TMP_VAR &&

               ((opline-1)->opcode == ZEND_PRE_INC ||

                (opline-1)->opcode == ZEND_PRE_DEC) &&

               opline->op1.var == (opline-1)->result.var &&

               (opline-1)->op1_type == IS_CV) {

      int var = EX_VAR_TO_NUM((opline-1)->op1.var);

      if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var))) {

        pi_range_equals(pi, -1, 0);

      }

      /* speculative */

      if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

        pi_range_not_equals(pi, -1, 0);

      }

    } else if (opline->op1_type == IS_TMP_VAR && (opline-1)->opcode == ZEND_TYPE_CHECK &&

           opline->op1.var == (opline-1)->result.var && (opline-1)->op1_type == IS_CV) {

      int var = EX_VAR_TO_NUM((opline-1)->op1.var);

      uint32_t type = (opline-1)->extended_value;

      if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

        pi_type_mask(pi, mask_for_type_check(type));

      }

      if (type != MAY_BE_RESOURCE) {

        /* is_resource() may return false for closed resources */

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var))) {

          pi_not_type_mask(pi, mask_for_type_check(type));

        }

      }

    } else if (opline->op1_type == IS_TMP_VAR &&

           ((opline-1)->opcode == ZEND_IS_IDENTICAL

          || (opline-1)->opcode == ZEND_IS_NOT_IDENTICAL) &&

           opline->op1.var == (opline-1)->result.var) {

      int var;

      zval *val;

      uint32_t type_mask;

      if ((opline-1)->op1_type == IS_CV && (opline-1)->op2_type == IS_CONST) {

        var = EX_VAR_TO_NUM((opline-1)->op1.var);

        val = CRT_CONSTANT_EX(op_array, (opline-1), (opline-1)->op2);

      } else if ((opline-1)->op1_type == IS_CONST && (opline-1)->op2_type == IS_CV) {

        var = EX_VAR_TO_NUM((opline-1)->op2.var);

        val = CRT_CONSTANT_EX(op_array, (opline-1), (opline-1)->op1);

      } else {

        continue;

      }

      /* We're interested in === null/true/false comparisons here, because they eliminate

       * a type in the false-branch. Other === VAL comparisons are unlikely to be useful. */

      if (Z_TYPE_P(val) != IS_NULL && Z_TYPE_P(val) != IS_TRUE && Z_TYPE_P(val) != IS_FALSE) {

        continue;

      }

      type_mask = _const_op_type(val);

      if ((opline-1)->opcode == ZEND_IS_IDENTICAL) {

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

          pi_type_mask(pi, type_mask);

        }

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var))) {

          pi_not_type_mask(pi, type_mask);

        }

      } else {

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bf, var))) {

          pi_type_mask(pi, type_mask);

        }

        if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

          pi_not_type_mask(pi, type_mask);

        }

      }

    } else if (opline->op1_type == IS_TMP_VAR && (opline-1)->opcode == ZEND_INSTANCEOF &&

           opline->op1.var == (opline-1)->result.var && (opline-1)->op1_type == IS_CV &&

           (opline-1)->op2_type == IS_CONST) {

      int var = EX_VAR_TO_NUM((opline-1)->op1.var);

      zend_string *lcname = Z_STR_P(CRT_CONSTANT_EX(op_array, (opline-1), (opline-1)->op2) + 1);

      zend_class_entry *ce = zend_optimizer_get_class_entry(script, op_array, lcname);

      if (!ce) {

        continue;

      }

      if ((pi = add_pi(arena, op_array, dfg, ssa, j, bt, var))) {

        pi_type_mask(pi, MAY_BE_OBJECT);

        pi->constraint.type.ce = ce;

      }

    }

  }

}

/* }}} */

static zend_always_inline int _zend_ssa_rename_op(const zend_op_array *op_array, const zend_op *opline, uint32_t k, uint32_t build_flags, int ssa_vars_count, zend_ssa_op *ssa_ops, int *var) /* {{{ */

{

  const zend_op *next;

  if (opline->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

    ssa_ops[k].op1_use = var[EX_VAR_TO_NUM(opline->op1.var)];

    //USE_SSA_VAR(op_array->last_var + opline->op1.var)

  }

  if (opline->op2_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

    ssa_ops[k].op2_use = var[EX_VAR_TO_NUM(opline->op2.var)];

    //USE_SSA_VAR(op_array->last_var + opline->op2.var)

  }

  if ((build_flags & ZEND_SSA_USE_CV_RESULTS)

   && opline->result_type == IS_CV

   && opline->opcode != ZEND_RECV) {

    ssa_ops[k].result_use = var[EX_VAR_TO_NUM(opline->result.var)];

    //USE_SSA_VAR(op_array->last_var + opline->result.var)

  }

  switch (opline->opcode) {

    case ZEND_ASSIGN:

      if ((build_flags & ZEND_SSA_RC_INFERENCE) && opline->op2_type == IS_CV) {

        ssa_ops[k].op2_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op2.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op2.var)

      }

      if (opline->op1_type == IS_CV) {

add_op1_def:

        ssa_ops[k].op1_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op1.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op1.var)

      }

      break;

    case ZEND_ASSIGN_REF:

      if (opline->op2_type == IS_CV) {

        ssa_ops[k].op2_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op2.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op2.var)

      }

      if (opline->op1_type == IS_CV) {

        goto add_op1_def;

      }

      break;

    case ZEND_ASSIGN_DIM:

    case ZEND_ASSIGN_OBJ:

      next = opline + 1;

      if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

        ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

        //USE_SSA_VAR(op_array->last_var + next->op1.var);

        if (build_flags & ZEND_SSA_RC_INFERENCE && next->op1_type == IS_CV) {

          ssa_ops[k + 1].op1_def = ssa_vars_count;

          var[EX_VAR_TO_NUM(next->op1.var)] = ssa_vars_count;

          ssa_vars_count++;

          //NEW_SSA_VAR(next->op1.var)

        }

      }

      if (opline->op1_type == IS_CV) {

        ssa_ops[k].op1_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op1.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op1.var)

      }

      break;

    case ZEND_ASSIGN_OBJ_REF:

      if ((build_flags & ZEND_SSA_RC_INFERENCE) && opline->op1_type == IS_CV) {

        ssa_ops[k].op1_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op1.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op1.var)

      }

      next = opline + 1;

      if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

        ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

        //USE_SSA_VAR(op_array->last_var + next->op1.var);

        if (next->op1_type == IS_CV) {

          ssa_ops[k + 1].op1_def = ssa_vars_count;

          var[EX_VAR_TO_NUM(next->op1.var)] = ssa_vars_count;

          ssa_vars_count++;

          //NEW_SSA_VAR(next->op1.var)

        }

      }

      break;

    case ZEND_ASSIGN_STATIC_PROP:

      next = opline + 1;

      if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

        ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

        //USE_SSA_VAR(op_array->last_var + next->op1.var);

        if ((build_flags & ZEND_SSA_RC_INFERENCE) && next->op1_type == IS_CV) {

          ssa_ops[k + 1].op1_def = ssa_vars_count;

          var[EX_VAR_TO_NUM(next->op1.var)] = ssa_vars_count;

          ssa_vars_count++;

          //NEW_SSA_VAR(next->op1.var)

        }

      }

      break;

    case ZEND_ASSIGN_STATIC_PROP_REF:

      next = opline + 1;

      if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

        ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

        //USE_SSA_VAR(op_array->last_var + next->op1.var);

        if (next->op1_type == IS_CV) {

          ssa_ops[k + 1].op1_def = ssa_vars_count;

          var[EX_VAR_TO_NUM(next->op1.var)] = ssa_vars_count;

          ssa_vars_count++;

          //NEW_SSA_VAR(next->op1.var)

        }

      }

      break;

    case ZEND_ASSIGN_STATIC_PROP_OP:

      next = opline + 1;

      if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

        ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

        //USE_SSA_VAR(op_array->last_var + next->op1.var);

      }

      break;

    case ZEND_ASSIGN_DIM_OP:

    case ZEND_ASSIGN_OBJ_OP:

      if (opline->op1_type == IS_CV) {

        ssa_ops[k].op1_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op1.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op1.var)

      }

      next = opline + 1;

      if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

        ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

        //USE_SSA_VAR(op_array->last_var + next->op1.var);

      }

      break;

    case ZEND_ASSIGN_OP:

    case ZEND_PRE_INC:

    case ZEND_PRE_DEC:

    case ZEND_POST_INC:

    case ZEND_POST_DEC:

    case ZEND_BIND_GLOBAL:

    case ZEND_BIND_STATIC:

    case ZEND_BIND_INIT_STATIC_OR_JMP:

    case ZEND_SEND_VAR_NO_REF:

    case ZEND_SEND_VAR_NO_REF_EX:

    case ZEND_SEND_VAR_EX:

    case ZEND_SEND_FUNC_ARG:

    case ZEND_SEND_REF:

    case ZEND_SEND_UNPACK:

    case ZEND_FE_RESET_RW:

    case ZEND_MAKE_REF:

    case ZEND_PRE_INC_OBJ:

    case ZEND_PRE_DEC_OBJ:

    case ZEND_POST_INC_OBJ:

    case ZEND_POST_DEC_OBJ:

    case ZEND_UNSET_DIM:

    case ZEND_UNSET_OBJ:

    case ZEND_FETCH_DIM_W:

    case ZEND_FETCH_DIM_RW:

    case ZEND_FETCH_DIM_FUNC_ARG:

    case ZEND_FETCH_DIM_UNSET:

    case ZEND_FETCH_LIST_W:

      if (opline->op1_type == IS_CV) {

        goto add_op1_def;

      }

      break;

    case ZEND_SEND_VAR:

    case ZEND_CAST:

    case ZEND_QM_ASSIGN:

    case ZEND_JMP_SET:

    case ZEND_COALESCE:

    case ZEND_FE_RESET_R:

      if ((build_flags & ZEND_SSA_RC_INFERENCE) && opline->op1_type == IS_CV) {

        goto add_op1_def;

      }

      break;

    case ZEND_ADD_ARRAY_UNPACK:

      ssa_ops[k].result_use = var[EX_VAR_TO_NUM(opline->result.var)];

      break;

    case ZEND_ADD_ARRAY_ELEMENT:

      ssa_ops[k].result_use = var[EX_VAR_TO_NUM(opline->result.var)];

      ZEND_FALLTHROUGH;

    case ZEND_INIT_ARRAY:

      if (((build_flags & ZEND_SSA_RC_INFERENCE)

            || (opline->extended_value & ZEND_ARRAY_ELEMENT_REF))

          && opline->op1_type == IS_CV) {

        goto add_op1_def;

      }

      break;

    case ZEND_YIELD:

      if (opline->op1_type == IS_CV

          && ((op_array->fn_flags & ZEND_ACC_RETURN_REFERENCE)

            || (build_flags & ZEND_SSA_RC_INFERENCE))) {

        goto add_op1_def;

      }

      break;

    case ZEND_UNSET_CV:

      goto add_op1_def;

    case ZEND_VERIFY_RETURN_TYPE:

      if (opline->op1_type & (IS_TMP_VAR|IS_VAR|IS_CV)) {

        goto add_op1_def;

      }

      break;

    case ZEND_FE_FETCH_R:

    case ZEND_FE_FETCH_RW:

      if (opline->op2_type != IS_CV) {

        ssa_ops[k].op2_use = -1; /* not used */

      }

      ssa_ops[k].op2_def = ssa_vars_count;

      var[EX_VAR_TO_NUM(opline->op2.var)] = ssa_vars_count;

      ssa_vars_count++;

      //NEW_SSA_VAR(opline->op2.var)

      break;

    case ZEND_BIND_LEXICAL:

      if ((opline->extended_value & ZEND_BIND_REF) || (build_flags & ZEND_SSA_RC_INFERENCE)) {

        ssa_ops[k].op2_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op2.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op2.var)

      }

      break;

    case ZEND_COPY_TMP:

      if (build_flags & ZEND_SSA_RC_INFERENCE) {

        ssa_ops[k].op1_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op1.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op1.var)

      }

      break;

    case ZEND_FRAMELESS_ICALL_1:

    case ZEND_FRAMELESS_ICALL_2:

    case ZEND_FRAMELESS_ICALL_3: {

      if ((build_flags & ZEND_SSA_RC_INFERENCE) && opline->op1_type == IS_CV) {

        ssa_ops[k].op1_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op1.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op1.var)

      }

      if ((build_flags & ZEND_SSA_RC_INFERENCE) && opline->op2_type == IS_CV) {

        ssa_ops[k].op2_def = ssa_vars_count;

        var[EX_VAR_TO_NUM(opline->op2.var)] = ssa_vars_count;

        ssa_vars_count++;

        //NEW_SSA_VAR(opline->op2.var)

      }

      if (opline->opcode == ZEND_FRAMELESS_ICALL_3) {

        next = opline + 1;

        if (next->op1_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

          ssa_ops[k + 1].op1_use = var[EX_VAR_TO_NUM(next->op1.var)];

          //USE_SSA_VAR(op_array->last_var + next->op1.var);

          if ((build_flags & ZEND_SSA_RC_INFERENCE) && next->op1_type == IS_CV) {

            ssa_ops[k + 1].op1_def = ssa_vars_count;

            var[EX_VAR_TO_NUM(next->op1.var)] = ssa_vars_count;

            ssa_vars_count++;

            //NEW_SSA_VAR(next->op1.var)

          }

        }

      }

    }

    default:

      break;

  }

  if (opline->result_type & (IS_CV|IS_VAR|IS_TMP_VAR)) {

    ssa_ops[k].result_def = ssa_vars_count;

    var[EX_VAR_TO_NUM(opline->result.var)] = ssa_vars_count;

    ssa_vars_count++;

    //NEW_SSA_VAR(op_array->last_var + opline->result.var)

  }

  return ssa_vars_count;

}

/* }}} */

ZEND_API int zend_ssa_rename_op(const zend_op_array *op_array, const zend_op *opline, uint32_t k, uint32_t build_flags, int ssa_vars_count, zend_ssa_op *ssa_ops, int *var) /* {{{ */

{

  return _zend_ssa_rename_op(op_array, opline, k, build_flags, ssa_vars_count, ssa_ops, var);

}

/* }}} */

static void zend_ssa_rename_in_block(const zend_op_array *op_array, uint32_t build_flags, zend_ssa *ssa, int *var, int n) /* {{{ */

{

  const zend_basic_block *blocks = ssa->cfg.blocks;

  const zend_ssa_block *ssa_blocks = ssa->blocks;

  zend_ssa_op *ssa_ops = ssa->ops;

  int ssa_vars_count = ssa->vars_count;

  int i, j;

  const zend_op *opline, *end;

  if (ssa_blocks[n].phis) {

    zend_ssa_phi *phi = ssa_blocks[n].phis;

    do {

      if (phi->ssa_var < 0) {

        phi->ssa_var = ssa_vars_count;

        var[phi->var] = ssa_vars_count;

        ssa_vars_count++;

      } else {

        var[phi->var] = phi->ssa_var;

      }

      phi = phi->next;

    } while (phi);

  }

  opline = op_array->opcodes + blocks[n].start;

  end = opline + blocks[n].len;

  for (; opline < end; opline++) {

    uint32_t k = opline - op_array->opcodes;

    if (opline->opcode != ZEND_OP_DATA) {

      ssa_vars_count = _zend_ssa_rename_op(op_array, opline, k, build_flags, ssa_vars_count, ssa_ops, var);

    }

  }

  const zend_ssa_op *fe_fetch_ssa_op = blocks[n].len != 0

      && ((end-1)->opcode == ZEND_FE_FETCH_R || (end-1)->opcode == ZEND_FE_FETCH_RW)

      && (end-1)->op2_type == IS_CV

    ? &ssa_ops[blocks[n].start + blocks[n].len - 1] : NULL;

  for (i = 0; i < blocks[n].successors_count; i++) {

    int succ = blocks[n].successors[i];

    zend_ssa_phi *p;

    for (p = ssa_blocks[succ].phis; p; p = p->next) {

      if (p->pi == n) {

        /* e-SSA Pi */

        if (p->has_range_constraint) {

          if (p->constraint.range.min_var >= 0) {

            p->constraint.range.min_ssa_var = var[p->constraint.range.min_var];

          }

          if (p->constraint.range.max_var >= 0) {

            p->constraint.range.max_ssa_var = var[p->constraint.range.max_var];

          }

        }

        for (j = 0; j < blocks[succ].predecessors_count; j++) {

          p->sources[j] = var[p->var];

        }

        if (p->ssa_var < 0) {

          p->ssa_var = ssa_vars_count;

          ssa_vars_count++;

        }

      } else if (p->pi < 0) {

        /* Normal Phi */

        for (j = 0; j < blocks[succ].predecessors_count; j++)

          if (ssa->cfg.predecessors[blocks[succ].predecessor_offset + j] == n) {

            break;

          }

        ZEND_ASSERT(j < blocks[succ].predecessors_count);

        p->sources[j] = var[p->var];

        if (fe_fetch_ssa_op && i == 0 && p->sources[j] == fe_fetch_ssa_op->op2_def) {

          /* On the exit edge of an FE_FETCH, use the pre-modification value instead. */

          p->sources[j] = fe_fetch_ssa_op->op2_use;

        }

      }

    }

    for (p = ssa_blocks[succ].phis; p && (p->pi >= 0); p = p->next) {

      if (p->pi == n) {

        zend_ssa_phi *q = p->next;

        while (q) {

          if (q->pi < 0 && q->var == p->var) {

            for (j = 0; j < blocks[succ].predecessors_count; j++) {

              if (ssa->cfg.predecessors[blocks[succ].predecessor_offset + j] == n) {