Command Reference Guide for Software Developers
Table Of Contents
- Technical Reference Guide
- TABLE OF CONTENTS
- GLOSSARY
- CHAPTER 1 INTRODUCTION
- CHAPTER 2 PCL PRINTER CONTROL LANGUAGE
- 1. COMMAND LIST
- 2. INTRODUCTION
- 3. CONTROLLING THE PRINTER
- 4. JOB CONTROL
- 4.1 . Commands
- 4.1.1. Page size
- 4.1.2. Media type selection
- 4.1.3. Output tray
- 4.1.4. Paper source
- 4.1.5. Left long-edge offset registration
- 4.1.6. Top offset registration
- 4.1.7. Simplex/duplex printing
- 4.1.8. Paper side selection
- 4.1.9. Job separation command
- 4.1.10. Reset
- 4.1.11. Reset to factory default settings
- 4.1.12. Reset to user settings
- 4.1.13. Printer self test
- 4.1.14. Exit current emulation mode
- 4.1.15. Change emulation mode
- 4.2. The Page
- 4.2.1. Physical page
- 4.2.2. Printable area
- 4.2.3. Logical page
- 4.2.4. Text area
- 4.2.5. HP-GL/2 graphics window
- 4.2.6. Portrait page dimensions
- 4.2.7. Landscape page dimensions
- 4.2.8. Coordinates
- 4.2.9. Units
- 4.2.10. Unit of measure
- 4.2.11. Setting the left and right margins
- 4.2.12. Resetting the horizontal margins
- 4.2.13. Setting the top margin
- 4.2.14. Setting the vertical motion index (VMI)
- 4.2.15. Setting the horizontal motion index (HMI)
- 4.2.16. Setting line spacing
- 4.2.17. Text length
- 4.2.18. Page length
- 4.2.19. Perforation skip
- 4.2.20. Positioning the cursor
- 4.2.21. Vertical positioning
- 4.2.22. Horizontal position
- 4.2.23. Positioning the cursor using control codes
- 4.2.24. Using the cursor position stack
- 4.2.25. Half line feed
- 4.2.26. Logical page orientation
- 4.2.27. Text direction
- 4.1 . Commands
- 5. USING FONTS
- 5.1. Introduction
- 5.1.1. Font types
- 5.1.2. Bitmap fonts
- 5.1.3. Scalable fonts
- 5.1.4. Bound fonts
- 5.1.5. Unbound fonts
- 5.1.6. Font sources
- 5.1.7. Internal fonts
- 5.1.8. Card/cartridge fonts
- 5.1.9. Downloadable fonts
- 5.1.10. Primary and secondary fonts
- 5.1.11. Specifying the primary font
- 5.1.12. Specifying the secondary font
- 5.1.13. Selecting the default fonts
- 5.1.14. Switching between the primary and secondary fonts
- 5.1.15. Criteria for font selection
- 5.1.16. Symbol set
- 5.1.17. Symbol collections
- 5.1.18. Type of character spacing
- 5.1.19. Pitch
- 5.1.20. Height
- 5.1.21. Style
- 5.1.22. Stroke weight
- 5.1.23. Typeface
- 5.2. Font Selection Commands
- 5.2.1. User-defined symbol sets
- 5.2.2. Symbol set ID code command
- 5.2.3. Define symbol set
- 5.2.4. Symbol set control command
- 5.2.5. Selecting the symbol set
- 5.2.6. Selecting the type of character spacing
- 5.2.7. Selecting the pitch
- 5.2.8. Selecting the height
- 5.2.9. Scaling the scalable fonts vertically or horizontally
- 5.2.10. Selecting the style
- 5.2.11. Selecting the stroke weight
- 5.2.12. Selecting the typeface
- 5.2.13. Font orientation
- 5.2.14. Transparent print data
- 5.2.15. Esc&d#D (27)(38)(100)#(68) <1Bh><26h><64h>#<44h>
- 5.3. Downloadable font manipulation
- 5.4. Creating Downloadable Fonts
- 5.1. Introduction
- 6. USING GRAPHICS
- 6.1. Source, Pattern and Destination
- 6.2. Plotting Rectangles
- 6.3. Raster Graphics
- 6.3.1. Positioning the cursor
- 6.3.2. Set raster resolution
- 6.3.3. Set high resolution control
- 6.3.4. Set raster image orientation
- 6.3.5. Set raster area height
- 6.3.6. Set raster area width
- 6.3.7. Set raster y-offset
- 6.3.8. Set compression mode
- 6.3.9. Start raster transfer
- 6.3.10. Send raster data
- 6.3.11. Compress transfer graphics
- 6.3.12. End raster transfer
- 6.3.13. Horizontal 1200-dpi image format mode (Raster Graphic Mode 1027)
- 6.4. Vector Graphics
- 6.5. The Picture Frame
- 7. MACROS
- 7.1. The Purpose of a Macro
- 7.2. Defining a Macro
- 7.3. Running a Macro
- 7.4. Handling Macros
- 7.4.1. Delete all macros
- 7.4.2. Delete all temporary macros
- 7.4.3. Delete macro
- 7.4.4. Make macro temporary
- 7.4.5. Make macro permanent
- 7.4.6. Delete all macros from the storage device
- 7.4.7. Delete macro from the storage device
- 7.4.8. Save macro into the storage device
- 7.4.9. Execute data
- 7.4.10. AppleTalk configuration
- 7.4.11. MIO video I/O port control
- 8. STATUS READBACK
- 8.1. Introduction
- 8.2. Memory Status request
- 8.3. Entity Status
- 8.4. Status Response
- 8.5. Status Response Syntax
- 8.5.1. Set status readback location type
- 8.5.2. Set status readback location unit
- 8.5.3. Inquire status readback entity
- 8.5.4. Entity status response
- 8.5.5. Font response
- 8.5.6. Bitmap fonts
- 8.5.7. Bound scalable fonts
- 8.5.8. Unbound scalable fonts
- 8.5.9. Download fonts
- 8.5.10. Location type 1 (currently selected) font
- 8.5.11. Font extended response
- 8.5.12. Macro response
- 8.5.13. Use-defined pattern response
- 8.5.14. Symbol set response
- 8.5.15. Entity error codes
- 8.5.16. Free space command
- 8.5.17. Font cache
- 8.5.18. Memory status response
- 8.5.19. Memory error response
- 8.5.20. Flush all pages command
- 8.5.21. Echo command
- 9. INDEX
- CHAPTER 3 PCL5C
- CHAPTER 4 HP-GL/2 GRAPHICS LANGUAGE
- CHAPTER 5 PJL PRINTER JOB LANGUAGE
- 1. INTRODUCTION
- 2. HOW TO USE PJL
- 3. COMMAND GROUP
- 4. KERNEL COMMANDS
- 5. JOB SEPARATION COMMANDS
- 6. ENVIRONMENT COMMANDS
- 7. STATUS READBACK COMMANDS
- 8. DEVICE ATTENDANCE COMMANDS
- 9. INDEX
- CHAPTER 6 EPSON FX-850
- CHAPTER 7 IBM PROPRINTER XL
- CHAPTER 8 BAR CODE CONTROL
- 1. INTRODUCTION
- 2. PRINT BAR CODES OR EXPANDED CHARACTERS
- 3. DEFINITION OF PARAMETERS
- 3.1. Bar Code Mode
- 3.2. Bar Code Style, Expanded Character Shading, Line Block Drawing & Box Drawing Shading
- 3.3. Bar Code Scaling (Width only)
- 3.4. Bar Code Human Readable Line On or Off
- 3.5. Quiet Zone
- 3.6. Bar Code, Expanded Character Unit, Line Block Drawing & Box Drawing Units
- 3.7. Bar Code, Expanded Character, Line, Block Drawing & Box Drawing Offset in the X-axis
- 3.8. Bar Code & Expanded Character Offset in the Y-axis
- 3.9. Bar Code, Expanded Character, Line, Block Drawing & Box Drawing Height
- 3.10. Expanded Character, Line Block Drawing & Box Drawing Width
- 3.11. Expanded Character Rotation
- 3.12. Bar Code Data Start
- 3.13. Box Drawing
- 3.14. Line Block Drawing
- 3.15. Expanded Character Data Start
- 3.16. Table of Code(EAN) 128 set C
- 4. EXAMPLE PROGRAM LISTINGS
- CHAPTER 9 HP-GL GRAPHICS LANGUAGE
- CHAPTER 10 CARBON COPY FUNCTION
- APPENDIX A COMPARISON LIST
- APPENDIX B FLASH/PCMCIA CARD COMMANDS
- APPENDIX C HBP MODE COMMANDS
- APPENDIX D REFERENCE LIST OF MX-2000/4000/5000/7000 SERIES UNIQUE COMMANDS
- APPENDIX E REFERENCE LIST OF FS-5050 UNIQUE COMMANDS
- APPENDIX F REFERENCE LIST OF SF- 4000 SERIES UNIQUE COMMANDS
CHAPTER 4 HP-GL/2 - 15
SC - Scale
<HP-GL/2>
SC [ X
min, Xmax, Ymin, Ymax [, type ]] [;] (Type = 0)
SC [ X
min, Xmax, Ymin, Ymax , type [ left, bottom]] [;] (Type =1)
SC [ X
min
, X
factor
, Y
min
Y
factor
[, type ]] [;] (Type = 2)
X
min ; X coordinate of P1 Xmax ; X coordinate of P2
Ymin ; Y coordinate of P1 Ymax ; Y coordinate of P2
Type ; type of scaling
Left ; percentage of unused space to be left to the left of the scaling area
bottom ; percentage of unused space to be left below the scaling area
X
factor ; number of graphics units per user unit on the x-axis.
Y
factor ; number of graphics units per user unit on the y-axis.
This command turns scaling on and establishes a user unit coordinate system. The coordinate system is
specified relative to the points P1 and P2. The origin need not necessarily be at P1. Three different types
of scaling are available.
The technical terms, user unit and graphics unit, as used in this manual are defined as follows:
User unit : the unit of the coordinates set by the SC instruction.
Graphics unit : the unit(1/1016 of an inch) of the coordinates not set by the SC instruction.
All coordinates are in user units.
Coordinate values for X
min, Xmax, Ymin, and Ymax are given as real numbers.
X
min
, Y
min
, X
max
and Y
max
specify the range of the X- and Y-axes. X
min
and Y
min
value should be P1 and
X
max
and Y
max
should be P2.
X
min must be different from Xmax, and Ymin must be different from Ymax.
Using this instruction without a parameter field turns the scaling off.
Type can be 0, 1 or 2, which select scaling types known as anisotropic, isotropic and point factor scaling
respectively.
Type 0 scaling (anisotropic scaling, the default) allows you to specify different sized x-axis and y-axis units.
Hence the area specified by X
min, Xmax, Ymin, and Ymax will occupy the entire area defined by P1 and P2.
P1 (0,0)
P2 (7,6)
left and bottom settings have no effect in type 0 scaling.
Type 1 scaling (isotropic scaling) forces x-axis and y-axis units to be the same size. As a result the area
specified by X
min, Xmax, Ymin, and Ymax (the isotropic area) may not fit exactly into the rectangular area
defined by P1 and P2.
P1
(0,0)
(6,7)
P2