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view src/org/tn5250j/framework/tn5250/ScreenField.java @ 69:294435151b0c tn5250
use 5250 encryption config entry
| author | Carl Byington <carl@five-ten-sg.com> |
|---|---|
| date | Fri, 13 Jun 2014 19:06:01 -0700 |
| parents | e8d2a24e85c6 |
| children | 77ac18bc1b2f |
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/** * Title: tn5250J * Copyright: Copyright (c) 2001 * Company: * @author Kenneth J. Pouncey * @version 0.4 * * Description: * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307 USA * */ package org.tn5250j.framework.tn5250; public class ScreenField { protected ScreenField(Screen5250 s) { this.s = s; } protected ScreenField setField(int attr, int len, int ffw1, int ffw2, int fcw1, int fcw2) { return setField(attr, s.getCurrentRow() - 1, s.getCurrentCol() - 1, len, ffw1, ffw2, fcw1, fcw2); } protected ScreenField setField(int attr, int row, int col, int len, int ffw1, int ffw2, int fcw1, int fcw2) { // startRow = row; // startCol = col; cursorProg = 0; fieldId = 0; length = len; startPos = (row * s.getColumns()) + col; endPos = startPos + length - 1; this.attr = attr; setFFWs(ffw1,ffw2); setFCWs(fcw1,fcw2); next = null; prev = null; return this; } public int getAttr(){ return attr; } public int getHighlightedAttr(){ return (fcw2 & 0x0f) | 0x20; } public int getLength(){ return length; } protected boolean setFFWs(int ffw1, int ffw2) { this.ffw1 = ffw1; this.ffw2 = ffw2; int adj = getAdjustment(); if (adj > 0) { checkCanSend = true; switch (adj) { case 5: case 6: rightAdjd = false; break; case 7: manditoried = false; break; } } mdt = (ffw1 & 0x8 ) == 0x8; // if (mdt) // s.masterMDT = true; return mdt; } public int getFFW1(){ return ffw1; } public int getFFW2(){ return ffw2; } protected void setFCWs(int fcw1, int fcw2) { this.fcw1 = fcw1; this.fcw2 = fcw2; // if ((fcw1 & 0x88) == 0x88) { if (fcw1 == 0x88) { cursorProg = fcw2; } } public int getFCW1(){ return fcw1; } public int getFCW2(){ return fcw2; } public int getFieldLength(){ return length; } public int getCursorProgression() { return cursorProg; } public int getFieldId() { return fieldId; } protected void setFieldId(int fi) { fieldId = fi; } public int getCursorRow() { return cursorPos / s.getColumns(); } public int getCursorCol() { return cursorPos % s.getColumns(); } protected void changePos(int i) { cursorPos += i; } protected String getText() { StringBuffer text = new StringBuffer(); getKeyPos(endPos); int x = length; text.setLength(x); while (x-- > 0) { // here we manipulate the unicode characters a little for attributes // that are imbedded in input fields. We will offset them by unicode // \uff00. All routines that process these fields will have to // return them to their proper offsets. // example: // if we read an attribute byte of 32 for normal display the unicode // character for this is \u0020 and the unicode character for // a space is also \u0020 thus the offset. if (s.planes.isAttributePlace(cursorPos)) { text.setCharAt(x,(char)('\uff00' + s.planes.getCharAttr(cursorPos))); } else { text.setCharAt(x,s.planes.getChar(cursorPos)); } changePos(-1); } // Since only the mdt of the first continued field is set we will get // the text of the next continued field if we are dealing with continued // fields. See routine setMDT for the whys of this. This is only // executed if this is the first field of a continued field. if (isContinued() && isContinuedFirst()) { ScreenField sf = this; do { sf = sf.next; text.append(sf.getText()); } while (!sf.isContinuedLast()); sf = null; } return text.toString(); } public String getString() { StringBuffer text = new StringBuffer(); getKeyPos(endPos); int x = length; text.setLength(x); while (x-- > 0) { // here we manipulate the unicode characters a little for attributes // that are imbedded in input fields. We will offset them by unicode // \uff00. All routines that process these fields will have to // return them to their proper offsets. // example: // if we read an attribute byte of 32 for normal display the unicode // character for this is \u0020 and the unicode character for // a space is also \u0020 thus the offset. if (s.planes.isAttributePlace(cursorPos)) { text.setCharAt(x,(char)('\uff00' + s.planes.getCharAttr(cursorPos))); } else { if (s.planes.getChar(cursorPos) < ' ') text.setCharAt(x,' '); else text.setCharAt(x,s.planes.getChar(cursorPos)); } changePos(-1); } // Since only the mdt of the first continued field is set we will get // the text of the next continued field if we are dealing with continued // fields. See routine setMDT for the whys of this. This is only // executed if this is the first field of a continued field. if (isContinued() && isContinuedFirst()) { ScreenField sf = this; do { sf = sf.next; text.append(sf.getString()); } while (!sf.isContinuedLast()); sf = null; } return text.toString(); } public void setFieldChar(char c) { int x = length; cursorPos = startPos; while (x-- > 0) { s.planes.setChar(cursorPos,c); changePos(1); } } public void setFieldChar(int lastPos, char c) { int x = endPos - lastPos + 1; cursorPos = lastPos; while (x-- > 0) { s.planes.setChar(cursorPos,c); s.setDirty(cursorPos); changePos(1); } } protected void setRightAdjusted() { rightAdjd = true; } protected void setManditoryEntered() { manditoried = true; } protected void resetMDT() { mdt = false; } protected void setMDT() { // get the first field of a continued edit field if it is continued if (isContinued() && !isContinuedFirst()) { ScreenField sf = prev; while (sf.isContinued() && !sf.isContinuedFirst()) { sf = sf.prev; } sf.setMDT(); sf = null; } else { mdt = true; } } public boolean isBypassField() { return (ffw1 & 0x20) == 0x20; } public int getAdjustment () { return (ffw2 & 0x7); } // is field exit required public boolean isFER () { return (ffw2 & 0x40) == 0x40; } // is field manditory enter public boolean isMandatoryEnter() { return (ffw2 & 0x8) == 0x8; } public boolean isToUpper() { return (ffw2 & 0x20) == 0x20; } // bits 5 - 7 public int getFieldShift () { return (ffw1 & 0x7); } public boolean isHiglightedEntry() { return (fcw1 == 0x89); } public boolean isAutoEnter() { return (ffw2 & 0x80) == 0x80; } public boolean isSignedNumeric () { return (getFieldShift() == 7); } public boolean isRightToLeft() { return (getFieldShift() == 0x04); } public boolean isNumeric () { return (getFieldShift() == 3); } public boolean isDupEnabled() { return (ffw1 & 0x10) == 0x10; } public boolean isContinued() { return (fcw1 & 0x86) == 0x86 && (fcw2 >= 1 && fcw2 <= 3) ; } public boolean isContinuedFirst() { return (fcw1 & 0x86) == 0x86 && (fcw2 == 1); } public boolean isContinuedMiddle() { return (fcw1 & 0x86) == 0x86 && (fcw2 == 3); } public boolean isContinuedLast() { return (fcw1 & 0x86) == 0x86 && (fcw2 == 2); } protected boolean isCanSend() { int adj = getAdjustment(); // here we need to check the Field Exit Required value first before checking // the adjustments. If the last character has been entered and we are // now setting past the last position then we are allowed to process the // the field without continuing. if (isFER() && cursorPos > endPos) { return true; } // signed numeric fields need to be checked as well. if (isSignedNumeric() && cursorPos < endPos - 1) { return false; } if (adj > 0) { switch (adj) { case 5: case 6: return rightAdjd; case 7: return manditoried; default: return true; } } return true; } public boolean isSelectionField() { return isSelectionField; } public void setSelectionFieldInfo(int type, int index, int position) { selectionFieldType = type; selectionIndex = index; selectionPos = position; isSelectionField = true; } protected int getKeyPos(int row1, int col1) { int x = ((row1 * s.getColumns()) + col1); int y = x - startPos(); cursorPos = x; return y; } protected int getKeyPos(int pos) { int y = pos - startPos(); cursorPos = pos; return y; } public int getCurrentPos() { return cursorPos; } public boolean withinField (int pos) { if (pos >= startPos && pos <= endPos) return true; return false; } public int startPos() { return startPos; } /** * Get the starting row of the field. Offset is 0 so row 6 returned * is row 7 mapped to screen * @return int starting row of the field offset 0 */ public int startRow() { return startPos / s.getColumns(); } /** * Get the starting column of the field. Offset is 0 so column 6 returned * is column 7 mapped to screen * @return int starting column of the field offset 0 */ public int startCol() { return startPos % s.getColumns(); } public int endPos() { return endPos; } /** * Sets the field's text plane to the specified string. If the string is * shorter than the length of the field, the rest of the field is cleared. * If the string is longer than the field, the text is truncated. A subsequent * call to getText on this field will not show the changed text. To see the * changed text, do a refresh on the iOhioFields collection and retrieve the * refreshed field object. * * @param text - The text to be placed in the field's text plane. */ public void setString(String text) { int y = length; cursorPos = startPos; int len = text.length(); char[] c = text.toCharArray(); char tc = ' '; for (int x = 0; x < y; x++) { tc = ' '; if (x < len) { tc = c[x]; } s.getPlanes().setChar(cursorPos,tc); changePos(1); } setMDT(); s.getScreenFields().setMasterMDT(); } public String toString() { int fcw = (fcw1 & 0xff) << 8 | fcw2 & 0xff; return "startRow = " + startRow() + " startCol = " + startCol() + " length = " + length + " ffw1 = (0x" + Integer.toHexString(ffw1) + ") ffw2 = (0x" + Integer.toHexString(ffw2) + ") fcw1 = (0x" + Integer.toHexString(fcw1) + ") fcw2 = (0x" + Integer.toHexString(fcw2) + ") fcw = (" + Integer.toBinaryString(fcw) + ") fcw hex = (0x" + Integer.toHexString(fcw) + ") is bypass field = " + isBypassField() + ") is autoenter = " + isAutoEnter() + ") is manditoryenter = " + isMandatoryEnter() + ") is field exit required = " + isFER() + ") is Numeric = " + isNumeric() + ") is Signed Numeric = " + isSignedNumeric() + ") is cursor progression = " + (fcw1 == 0x88) + ") next progression field = " + fcw2 + ") field id " + fieldId + " continued edit field = " + isContinued() + " first continued edit field = " + isContinuedFirst() + " middle continued edit field = " + isContinuedMiddle() + " last continued edit field = " + isContinuedLast() + " mdt = " + mdt; } public int getStartPos() { return startPos; } int startPos = 0; int endPos = 0; boolean mdt = false; protected boolean checkCanSend; protected boolean rightAdjd; protected boolean manditoried; boolean canSend = true; int attr = 0; int length = 0; int ffw1 = 0; int ffw2 = 0; int fcw1 = 0; int fcw2 = 0; int cursorPos = 0; Screen5250 s; int cursorProg = 0; int fieldId = 0; ScreenField next = null; ScreenField prev = null; boolean isSelectionField; int selectionFieldType; int selectionIndex; int selectionPos; }