/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the target address of this instruction. This is only valid * to call if the target instruction has been assigned an address, * and it is merely a convenient shorthand for * {@code getTarget().getAddress()}. * * @return {@code >= 0;} the target address */ public int getTargetAddress() { return target.getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** * Gets the branch offset of this instruction. This is only valid to * call if both this and the target instruction each has been assigned * an address, and it is merely a convenient shorthand for * {@code getTargetAddress() - getAddress()}. * * @return the branch offset */ public int getTargetOffset() { return target.getAddress() - getAddress(); }
/** {@inheritDoc} */ @Override protected String listingString0(boolean noteIndices) { int baseAddress = user.getAddress(); StringBuffer sb = new StringBuffer(100); int sz = values.size(); sb.append("fill-array-data-payload // for fill-array-data @ "); sb.append(Hex.u2(baseAddress)); for (int i = 0; i < sz; i++) { sb.append("\n "); sb.append(i); sb.append(": "); sb.append(values.get(i).toHuman()); } return sb.toString(); } }
/** {@inheritDoc} */ @Override protected String listingString0(boolean noteIndices) { int baseAddress = user.getAddress(); StringBuffer sb = new StringBuffer(100); int sz = values.size(); sb.append("array-data // for fill-array-data @ "); sb.append(Hex.u2(baseAddress)); for (int i = 0; i < sz; i++) { sb.append("\n "); sb.append(i); sb.append(": "); sb.append(values.get(i).toHuman()); } return sb.toString(); }
/** {@inheritDoc} */ @Override protected String listingString0(boolean noteIndices) { int baseAddress = user.getAddress(); StringBuilder sb = new StringBuilder(100); int sz = values.size(); sb.append("fill-array-data-payload // for fill-array-data @ "); sb.append(Hex.u2(baseAddress)); for (int i = 0; i < sz; i++) { sb.append("\n "); sb.append(i); sb.append(": "); sb.append(values.get(i).toHuman()); } return sb.toString(); } }
/** {@inheritDoc} */ @Override protected String listingString0(boolean noteIndices) { int baseAddress = user.getAddress(); StringBuffer sb = new StringBuffer(100); int sz = values.size(); sb.append("fill-array-data-payload // for fill-array-data @ "); sb.append(Hex.u2(baseAddress)); for (int i = 0; i < sz; i++) { sb.append("\n "); sb.append(i); sb.append(": "); sb.append(values.get(i).toHuman()); } return sb.toString(); } }