# Copyright (C) 1989, 2000-2004 artofcode LLC. All rights reserved.
#
# This software is provided AS-IS with no warranty, either express or
# implied.
#
# This software is distributed under license and may not be copied,
# modified or distributed except as expressly authorized under the terms
# of the license contained in the file LICENSE in this distribution.
#
# For more information about licensing, please refer to
# http://www.ghostscript.com/licensing/. For information on
# commercial licensing, go to http://www.artifex.com/licensing/ or
# contact Artifex Software, Inc., 101 Lucas Valley Road #110,
# San Rafael, CA 94903, U.S.A., +1(415)492-9861.
# $Id: devs.mak,v 1.140 2005/10/18 09:05:58 leonardo Exp $
# makefile for Aladdin's device drivers.
# Define the name of this makefile.
DEVS_MAK=$(GLSRC)devs.mak
# All device drivers depend on the following:
GDEVH=$(gserrors_h) $(gx_h) $(gxdevice_h)
GDEV=$(AK) $(ECHOGS_XE) $(GDEVH)
###### --------------------------- Overview -------------------------- ######
# It is possible to build Ghostscript with an arbitrary collection of device
# drivers, although some drivers are supported only on a subset of the
# target platforms.
# The catalog in this file, devs.mak, lists all the drivers that were
# written by Aladdin, or by people working closely with Aladdin, and for
# which Aladdin is willing to take problem reports (although since
# Ghostscript is provided with NO WARRANTY and NO SUPPORT, we can't promise
# that we'll solve your problem). Another file, contrib.mak, lists all the
# drivers contributed by other people that are distributed by Aladdin with
# Ghostscript. Note in particular that all drivers for color inkjets and
# other non-PostScript-capable color printers are in contrib.mak.
# If you haven't configured Ghostscript before, or if you want to add a
# driver that that isn't included in the catalogs (for which you have the
# source code), we suggest you skip to the "End of catalog" below and read
# the documentation there before continuing.
###### --------------------------- Catalog -------------------------- ######
# MS-DOS displays (note: not usable with Desqview/X):
# MS-DOS EGA and VGA:
# ega EGA (640x350, 16-color)
# vga VGA (640x480, 16-color)
# MS-DOS SuperVGA:
# * ali SuperVGA using Avance Logic Inc. chipset, 256-color modes
# * atiw ATI Wonder SuperVGA, 256-color modes
# * cirr SuperVGA using Cirrus Logic CL-GD54XX chips, 256-color modes
# * s3vga SuperVGA using S3 86C911 chip (e.g., Diamond Stealth board)
# svga16 Generic SuperVGA in 800x600, 16-color mode
# * tseng SuperVGA using Tseng Labs ET3000/4000 chips, 256-color modes
# * tvga SuperVGA using Trident chipset, 256-color modes
# ****** NOTE: The vesa device does not work with the Watcom (32-bit MS-DOS)
# ****** compiler or executable.
# vesa SuperVGA with VESA standard API driver
# Other displays:
# display For use on any platform that supports DLLs
# MS Windows:
# mswindll Microsoft Windows 3.1 DLL [MS Windows only]
# mswinprn Microsoft Windows 3.0, 3.1 DDB printer [MS Windows only]
# mswinpr2 Microsoft Windows 3.0, 3.1 DIB printer [MS Windows only]
# OS/2:
# * os2pm OS/2 Presentation Manager [OS/2 only]
# * os2dll OS/2 DLL bitmap [OS/2 only]
# * os2prn OS/2 printer [OS/2 only]
# Unix and VMS:
# ****** NOTE: For direct frame buffer addressing under SCO Unix or Xenix,
# ****** edit the definition of EGAVGA below.
# * lvga256 Linux vgalib, 256-color VGA modes [Linux only]
# + vgalib Linux vgalib, 16-color VGA modes [Linux only]
# x11 X Windows version 11, release >=4 [Unix and VMS only]
# x11alpha X Windows masquerading as a device with alpha capability
# x11cmyk X Windows masquerading as a 1-bit-per-plane CMYK device
# x11cmyk2 X Windows as a 2-bit-per-plane CMYK device
# x11cmyk4 X Windows as a 4-bit-per-plane CMYK device
# x11cmyk8 X Windows as an 8-bit-per-plane CMYK device
# x11gray2 X Windows as a 2-bit gray-scale device
# x11gray4 X Windows as a 4-bit gray-scale device
# x11mono X Windows masquerading as a black-and-white device
# x11rg16x X Windows with G5/B5/R6 pixel layout for testing.
# x11rg32x X Windows with G11/B10/R11 pixel layout for testing.
# Printers:
# + atx23 Practical Automation ATX-23 label printer
# + atx24 Practical Automation ATX-24 label printer
# + atx38 Practical Automation ATX-38 label printer
# + deskjet H-P DeskJet and DeskJet Plus
# djet500 H-P DeskJet 500; use -r600 for DJ 600 series
# + fs600 Kyocera FS-600 (600 dpi)
# + laserjet H-P LaserJet
# + ljet2p H-P LaserJet IId/IIp/III* with TIFF compression
# + ljet3 H-P LaserJet III* with Delta Row compression
# + ljet3d H-P LaserJet IIID with duplex capability
# + ljet4 H-P LaserJet 4 (defaults to 600 dpi)
# + ljet4d H-P LaserJet 4 (defaults to 600 dpi) with duplex
# + ljetplus H-P LaserJet Plus
# lj5mono H-P LaserJet 5 & 6 family (PCL XL), bitmap:
# see below for restrictions & advice
# lj5gray H-P LaserJet 5 & 6 family, gray-scale bitmap;
# see below for restrictions & advice
# * lp2563 H-P 2563B line printer
# * oce9050 OCE 9050 printer
# (pxlmono) H-P black-and-white PCL XL printers (LaserJet 5 and 6 family)
# (pxlcolor) H-P color PCL XL printers (e.g. Color LaserJet 4500)
# Fax file format:
# ****** NOTE: all of these drivers normally adjust the page size to match
# ****** one of the three CCITT standard sizes (U.S. letter with A4 width,
# ****** A4, or B4). To suppress this, use -dAdjustWidth=0.
# faxg3 Group 3 fax, with EOLs but no header or EOD
# faxg32d Group 3 2-D fax, with EOLs but no header or EOD
# faxg4 Group 4 fax, with EOLs but no header or EOD
# tiffcrle TIFF "CCITT RLE 1-dim" (= Group 3 fax with no EOLs)
# tiffg3 TIFF Group 3 fax (with EOLs)
# tiffg32d TIFF Group 3 2-D fax
# tiffg4 TIFF Group 4 fax
# High-level file formats:
# epswrite EPS output (like PostScript Distillery)
# pdfwrite PDF output (like Adobe Acrobat Distiller)
# pswrite PostScript output (like PostScript Distillery)
# pxlmono Black-and-white PCL XL
# pxlcolor Color PCL XL
# Other raster file formats and devices:
# bit Plain bits, monochrome
# bitrgb Plain bits, RGB
# bitcmyk Plain bits, CMYK
# bmpmono Monochrome MS Windows .BMP file format
# bmpgray 8-bit gray .BMP file format
# bmpsep1 Separated 1-bit CMYK .BMP file format, primarily for testing
# bmpsep8 Separated 8-bit CMYK .BMP file format, primarily for testing
# bmp16 4-bit (EGA/VGA) .BMP file format
# bmp256 8-bit (256-color) .BMP file format
# bmp16m 24-bit .BMP file format
# bmp32b 32-bit pseudo-.BMP file format
# cgmmono Monochrome (black-and-white) CGM -- LOW LEVEL OUTPUT ONLY
# cgm8 8-bit (256-color) CGM -- DITTO
# cgm24 24-bit color CGM -- DITTO
# jpeg JPEG format, RGB output
# jpeggray JPEG format, gray output
# jpegcmyk JPEG format, cmyk output
# miff24 ImageMagick MIFF format, 24-bit direct color, RLE compressed
# pam Portable Arbitrary Map file format
# pcxmono PCX file format, monochrome (1-bit black and white)
# pcxgray PCX file format, 8-bit gray scale
# pcx16 PCX file format, 4-bit planar (EGA/VGA) color
# pcx256 PCX file format, 8-bit chunky color
# pcx24b PCX file format, 24-bit color (3 8-bit planes)
# pcxcmyk PCX file format, 4-bit chunky CMYK color
# pbm Portable Bitmap (plain format)
# pbmraw Portable Bitmap (raw format)
# pgm Portable Graymap (plain format)
# pgmraw Portable Graymap (raw format)
# pgnm Portable Graymap (plain format), optimizing to PBM if possible
# pgnmraw Portable Graymap (raw format), optimizing to PBM if possible
# pnm Portable Pixmap (plain format) (RGB), optimizing to PGM or PBM
# if possible
# pnmraw Portable Pixmap (raw format) (RGB), optimizing to PGM or PBM
# if possible
# ppm Portable Pixmap (plain format) (RGB)
# ppmraw Portable Pixmap (raw format) (RGB)
# pkm Portable inKmap (plain format) (4-bit CMYK => RGB)
# pkmraw Portable inKmap (raw format) (4-bit CMYK => RGB)
# pksm Portable Separated map (plain format) (4-bit CMYK => 4 pages)
# pksmraw Portable Separated map (raw format) (4-bit CMYK => 4 pages)
# * plan9bm Plan 9 bitmap format
# pngmono Monochrome Portable Network Graphics (PNG)
# pnggray 8-bit gray Portable Network Graphics (PNG)
# png16 4-bit color Portable Network Graphics (PNG)
# png256 8-bit color Portable Network Graphics (PNG)
# png16m 24-bit color Portable Network Graphics (PNG)
# pngalpha 32-bit RGBA color Portable Network Graphics (PNG)
# psmono PostScript (Level 1) monochrome image
# psgray PostScript (Level 1) 8-bit gray image
# psrgb PostScript (Level 2) 24-bit color image
# tiffgray TIFF 8-bit gray, no compression
# tiff12nc TIFF 12-bit RGB, no compression
# tiff24nc TIFF 24-bit RGB, no compression (NeXT standard format)
# tiff32nc TIFF 32-bit CMYK
# tiffsep Creates tiffgray for each colorant plus a CMYK composite
# tifflzw TIFF LZW (tag = 5) (monochrome)
# tiffpack TIFF PackBits (tag = 32773) (monochrome)
# Note that MS Windows-specific drivers are defined in pcwin.mak, not here,
# because they have special compilation requirements that require defining
# parameter macros not relevant to other platforms; the OS/2-specific
# drivers are there too, because they share some definitions.
# User-contributed drivers marked with * require hardware or software
# that is not available to Aladdin Enterprises. Please contact the
# original contributors, not Aladdin Enterprises, if you have questions.
# Contact information appears in the driver entry below.
#
# Drivers marked with a + are maintained by Aladdin Enterprises with
# the assistance of users, since Aladdin Enterprises doesn't have access to
# the hardware for these either.
# If you add drivers, it would be nice if you kept each list
# in alphabetical order.
###### ----------------------- End of catalog ----------------------- ######
# As noted in gs.mak, DEVICE_DEVS and DEVICE_DEVS1..15 select the devices
# that should be included in a given configuration. By convention, these
# are used as follows. Each of these must be limited to about 6 devices
# so as not to overflow the 120 character limit on MS-DOS command lines.
# DEVICE_DEVS - the default device, and any display devices.
# DEVICE_DEVS1 - additional display devices if needed.
# DEVICE_DEVS2 - dot matrix printers.
# DEVICE_DEVS3 - H-P monochrome printers.
# DEVICE_DEVS4 - H-P color printers.
# DEVICE_DEVS5 - additional inkjet printers if needed.
# DEVICE_DEVS6 - other ink-jet and laser printers.
# DEVICE_DEVS7 - fax file formats.
# DEVICE_DEVS8 - PCX file formats.
# DEVICE_DEVS9 - PBM/PGM/PPM file formats.
# DEVICE_DEVS10 - black-and-white TIFF file formats.
# DEVICE_DEVS11 - BMP and color TIFF file formats.
# DEVICE_DEVS12 - PostScript image and 'bit' file formats.
# DEVICE_DEVS13 - PNG file formats.
# DEVICE_DEVS14 - CGM, JPEG, and MIFF file formats.
# DEVICE_DEVS15 - high-level (PostScript and PDF) file formats.
# DEVICE_DEVS16 - additional high-level and utility drivers
# DEVICE_DEVS17 - (overflow for PC platforms)
# DEVICE_DEVS18 - (ditto)
# DEVICE_DEVS19 - (ditto)
# DEVICE_DEVS20 - (ditto)
# Feel free to disregard this convention if it gets in your way.
# If you want to add a new device driver, the examples below should be
# enough of a guide to the correct form for the makefile rules.
# Note that all drivers other than displays must include page.dev in their
# dependencies and use $(SETPDEV) rather than $(SETDEV) in their rule bodies.
# "Printer" drivers depend on the following:
PDEVH=$(AK) $(gdevprn_h)
# Define the header files for device drivers. Every header file used by
# more than one device driver family must be listed here.
gdev8bcm_h=$(GLSRC)gdev8bcm.h
gdevcbjc_h=$(GLSRC)gdevcbjc.h $(stream_h)
gdevdcrd_h=$(GLSRC)gdevdcrd.h
gsequivc_h=$(GLSRC)gsequivc.h
gdevdevn_h=$(GLSRC)gdevdevn.h $(gsequivc_h)
gdevpccm_h=$(GLSRC)gdevpccm.h
gdevpcfb_h=$(GLSRC)gdevpcfb.h $(dos__h)
gdevpcl_h=$(GLSRC)gdevpcl.h
gdevpsu_h=$(GLSRC)gdevpsu.h
gdevsvga_h=$(GLSRC)gdevsvga.h
# Out of order
gdevdljm_h=$(GLSRC)gdevdljm.h $(gdevpcl_h)
###### ----------------------- Device support ----------------------- ######
# Implement dynamic color management for 8-bit mapped color displays.
$(GLOBJ)gdev8bcm.$(OBJ) : $(GLSRC)gdev8bcm.c $(AK)\
$(gx_h) $(gxdevice_h) $(gdev8bcm_h)
$(GLCC) $(GLO_)gdev8bcm.$(OBJ) $(C_) $(GLSRC)gdev8bcm.c
# PC display color mapping
$(GLOBJ)gdevpccm.$(OBJ) : $(GLSRC)gdevpccm.c $(AK)\
$(gx_h) $(gsmatrix_h) $(gxdevice_h) $(gdevpccm_h)
$(GLCC) $(GLO_)gdevpccm.$(OBJ) $(C_) $(GLSRC)gdevpccm.c
# Generate Canon BJC command sequences.
$(GLOBJ)gdevcbjc.$(OBJ) : $(GLSRC)gdevcbjc.c $(AK)\
$(std_h) $(stream_h) $(gdevcbjc_h)
$(GLCC) $(GLO_)gdevcbjc.$(OBJ) $(C_) $(GLSRC)gdevcbjc.c
# Provide a sample device CRD.
$(GLOBJ)gdevdcrd.$(OBJ) : $(GLSRC)gdevdcrd.c $(AK)\
$(math__h) $(memory__h) $(string__h)\
$(gscrd_h) $(gscrdp_h) $(gserrors_h) $(gsparam_h) $(gscspace_h)\
$(gx_h) $(gxdevcli_h) $(gdevdcrd_h)
$(GLCC) $(GLO_)gdevdcrd.$(OBJ) $(C_) $(GLSRC)gdevdcrd.c
# Support for writing PostScript (high- or low-level).
$(GLOBJ)gdevpsu.$(OBJ) : $(GLSRC)gdevpsu.c $(GX) $(GDEV) $(math__h) $(time__h)\
$(stat__h) $(unistd__h)\
$(gdevpsu_h) $(gscdefs_h) $(gxdevice_h)\
$(spprint_h) $(stream_h)
$(GLCC) $(GLO_)gdevpsu.$(OBJ) $(C_) $(GLSRC)gdevpsu.c
###### ------------------- MS-DOS display devices ------------------- ######
# There are really only three drivers: an EGA/VGA driver (4 bit-planes,
# plane-addressed), a SuperVGA driver (8 bit-planes, byte addressed),
# and a special driver for the S3 chip.
### ----------------------- EGA and VGA displays ----------------------- ###
# The shared MS-DOS makefile defines PCFBASM as either gdevegaa.$(OBJ)
# or an empty string.
$(GLOBJ)gdevegaa.$(OBJ) : $(GLSRC)gdevegaa.asm
$(GLCC) $(GLO_)gdevegaa.$(OBJ) $(C_) $(GLSRC)gdevegaa.c
EGAVGA_DOS=$(GLOBJ)gdevevga.$(OBJ) $(GLOBJ)gdevpcfb.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ) $(PCFBASM)
EGAVGA_SCO=$(GLOBJ)gdevsco.$(OBJ) $(GLOBJ)gdevpcfb.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ) $(PCFBASM)
# NOTE: for direct frame buffer addressing under SCO Unix or Xenix,
# change DOS to SCO in the following line. Also, since SCO's /bin/as
# does not support the "out" instructions, you must build the GNU
# assembler and have it on your path as "as".
EGAVGA=$(EGAVGA_DOS)
#**************** $(CCD) gdevevga.c
$(GLOBJ)gdevevga.$(OBJ) : $(GLSRC)gdevevga.c $(GDEV) $(memory__h) $(gdevpcfb_h)
$(GLCC) $(GLO_)gdevevga.$(OBJ) $(C_) $(GLSRC)gdevevga.c
$(GLOBJ)gdevsco.$(OBJ) : $(GLSRC)gdevsco.c $(GDEV) $(memory__h) $(gdevpcfb_h)
$(GLCC) $(GLO_)gdevsco.$(OBJ) $(C_) $(GLSRC)gdevsco.c
# Common code for MS-DOS and SCO.
#**************** $(CCD) gdevpcfb.c
$(GLOBJ)gdevpcfb.$(OBJ) : $(GLSRC)gdevpcfb.c $(GDEV) $(memory__h) $(gconfigv_h)\
$(gdevpccm_h) $(gdevpcfb_h) $(gsparam_h)
$(GLCC) $(GLO_)gdevpcfb.$(OBJ) $(C_) $(GLSRC)gdevpcfb.c
# The EGA/VGA family includes EGA and VGA. Many SuperVGAs in 800x600,
# 16-color mode can share the same code; see the next section below.
$(DD)ega.dev : $(DEVS_MAK) $(EGAVGA)
$(SETDEV) $(DD)ega $(EGAVGA)
$(DD)vga.dev : $(DEVS_MAK) $(EGAVGA)
$(SETDEV) $(DD)vga $(EGAVGA)
### ------------------------- SuperVGA displays ------------------------ ###
# SuperVGA displays in 16-color, 800x600 mode are really just slightly
# glorified VGA's, so we can handle them all with a single driver.
# The way to select them on the command line is with
# -sDEVICE=svga16 -dDisplayMode=NNN
# where NNN is the display mode in decimal. See Use.htm for the modes
# for some popular display chipsets.
$(DD)svga16.dev : $(DEVS_MAK) $(EGAVGA)
$(SETDEV) $(DD)svga16 $(EGAVGA)
# More capable SuperVGAs have a wide variety of slightly differing
# interfaces, so we need a separate driver for each one.
SVGA=$(GLOBJ)gdevsvga.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ) $(PCFBASM)
#**************** $(CCD) gdevsvga.c
$(GLOBJ)gdevsvga.$(OBJ) : $(GLSRC)gdevsvga.c $(GDEV) $(memory__h) $(gconfigv_h)\
$(gsparam_h) $(gxarith_h) $(gdevpccm_h) $(gdevpcfb_h) $(gdevsvga_h)
$(GLCC) $(GLO_)gdevsvga.$(OBJ) $(C_) $(GLSRC)gdevsvga.c
# The SuperVGA family includes: Avance Logic Inc., ATI Wonder, S3,
# Trident, Tseng ET3000/4000, and VESA.
$(DD)ali.dev : $(DEVS_MAK) $(SVGA)
$(SETDEV) $(DD)ali $(SVGA)
$(DD)atiw.dev : $(DEVS_MAK) $(SVGA)
$(SETDEV) $(DD)atiw $(SVGA)
$(DD)cirr.dev : $(DEVS_MAK) $(SVGA)
$(SETDEV) $(DD)cirr $(SVGA)
$(DD)tseng.dev : $(DEVS_MAK) $(SVGA)
$(SETDEV) $(DD)tseng $(SVGA)
$(DD)tvga.dev : $(DEVS_MAK) $(SVGA)
$(SETDEV) $(DD)tvga $(SVGA)
$(DD)vesa.dev : $(DEVS_MAK) $(SVGA)
$(SETDEV) $(DD)vesa $(SVGA)
# The S3 driver doesn't share much code with the others.
s3vga_=$(GLOBJ)gdevs3ga.$(OBJ) $(GLOBJ)gdevsvga.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ)
$(DD)s3vga.dev : $(DEVS_MAK) $(SVGA) $(s3vga_)
$(SETDEV) $(DD)s3vga $(SVGA)
$(ADDMOD) $(DD)s3vga -obj $(s3vga_)
#**************** $(CCD) gdevs3ga.c
$(GLOBJ)gdevs3ga.$(OBJ) : $(GLSRC)gdevs3ga.c $(GDEV) $(gdevpcfb_h) $(gdevsvga_h)
$(GLCC) $(GLO_)gdevs3ga.$(OBJ) $(C_) $(GLSRC)gdevs3ga.c
###### ----------------------- Other displays ------------------------ ######
### ------------------ Display device for DLL platforms ----------------- ###
display_=$(GLOBJ)gdevdsp.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ) $(GLOBJ)gdevdevn.$(OBJ) \
$(GLOBJ)gsequivc.$(OBJ) $(GLOBJ)gdevdcrd.$(OBJ)
$(DD)display.dev : $(display_)
$(SETDEV) $(DD)display $(display_)
$(GLOBJ)gdevdsp.$(OBJ) : $(GLSRC)gdevdsp.c $(string__h)\
$(gp_h) $(gpcheck_h) $(gdevpccm_h) $(gsparam_h) $(gsdevice_h)\
$(GDEVH) $(gxdevmem_h) $(gdevdevn_h) $(gsequivc_h) $(gdevdsp_h) $(gdevdsp2_h)
$(GLCC) $(GLO_)gdevdsp.$(OBJ) $(C_) $(GLSRC)gdevdsp.c
### ---------------------- Linux PC with vgalib ------------------------- ###
### Note: these drivers were contributed by users. ###
### For questions about the lvga256 driver, please contact ###
### Ludger Kunz (ludger.kunz@fernuni-hagen.de). ###
### For questions about the vgalib driver, please contact ###
### Erik Talvola (talvola@gnu.ai.mit.edu). ###
### Note that the vgalib device supports only 16-color VGA modes. ###
lvga256_=$(GLOBJ)gdevl256.$(OBJ)
$(DD)lvga256.dev : $(DEVS_MAK) $(lvga256_)
$(SETDEV) $(DD)lvga256 $(lvga256_)
$(ADDMOD) $(DD)lvga256 -lib vga vgagl
$(GLOBJ)gdevl256.$(OBJ) : $(GLSRC)gdevl256.c $(GDEV) $(memory__h)
$(GLCC) $(GLO_)gdevl256.$(OBJ) $(C_) $(GLSRC)gdevl256.c
vgalib_=$(GLOBJ)gdevvglb.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ)
$(DD)vgalib.dev : $(DEVS_MAK) $(vgalib_)
$(SETDEV2) $(DD)vgalib $(vgalib_)
$(ADDMOD) $(DD)vgalib -lib vga
$(GLOBJ)gdevvglb.$(OBJ) : $(GLSRC)gdevvglb.c $(GDEV) $(gdevpccm_h) $(gsparam_h)
$(GLCC) $(GLO_)gdevvglb.$(OBJ) $(C_) $(GLSRC)gdevvglb.c
### -------------------------- The X11 device -------------------------- ###
# Please note that Aladdin Enterprises does not support Ghostview.
# For more information about Ghostview, please contact Tim Theisen
# (ghostview@cs.wisc.edu).
x__h=$(GLSRC)x_.h
gdevxcmp_h=$(GLSRC)gdevxcmp.h
gdevx_h=$(GLSRC)gdevx.h $(gdevbbox_h) $(gdevxcmp_h)
# See the main makefile for the definition of XLIBDIRS and XLIBS.
x11_=$(GLOBJ)gdevx.$(OBJ) $(GLOBJ)gdevxcmp.$(OBJ) $(GLOBJ)gdevxini.$(OBJ)\
$(GLOBJ)gdevxres.$(OBJ) $(GLOBJ)gdevxxf.$(OBJ)\
$(GLOBJ)gdevemap.$(OBJ) $(GLOBJ)gsparamx.$(OBJ)
$(DD)x11_.dev : $(DEVS_MAK) $(x11_) $(GLD)bboxutil.dev
$(SETMOD) $(DD)x11_ $(x11_)
$(ADDMOD) $(DD)x11_ -link $(XLIBDIRS)
$(ADDMOD) $(DD)x11_ -lib $(XLIBS)
$(ADDMOD) $(DD)x11_ -include $(GLD)bboxutil
$(DD)x11.dev : $(DEVS_MAK) $(DD)x11_.dev
$(SETDEV2) $(DD)x11 -include $(DD)x11_
# See the main makefile for the definition of XINCLUDE.
GDEVX=$(GDEV) $(x__h) $(gdevx_h) $(TOP_MAKEFILES)
$(GLOBJ)gdevx.$(OBJ) : $(GLSRC)gdevx.c $(GDEVX) $(math__h) $(memory__h)\
$(gscoord_h) $(gsdevice_h) $(gsiparm2_h) $(gsmatrix_h) $(gsparam_h)\
$(gxdevmem_h) $(gxgetbit_h) $(gxiparam_h) $(gxpath_h)
$(GLCC) $(XINCLUDE) $(GLO_)gdevx.$(OBJ) $(C_) $(GLSRC)gdevx.c
$(GLOBJ)gdevxcmp.$(OBJ) : $(GLSRC)gdevxcmp.c $(GDEVX) $(math__h)
$(GLCC) $(XINCLUDE) $(GLO_)gdevxcmp.$(OBJ) $(C_) $(GLSRC)gdevxcmp.c
$(GLOBJ)gdevxini.$(OBJ) : $(GLSRC)gdevxini.c $(GDEVX) $(memory__h)\
$(gserrors_h) $(gsparamx_h) $(gxdevmem_h) $(gdevbbox_h)
$(GLCC) $(XINCLUDE) $(GLO_)gdevxini.$(OBJ) $(C_) $(GLSRC)gdevxini.c
# We have to compile gdevxres without warnings, because there is a
# const/non-const cast required by the X headers that we can't work around.
$(GLOBJ)gdevxres.$(OBJ) : $(GLSRC)gdevxres.c $(std_h) $(x__h)\
$(gsmemory_h) $(gstypes_h) $(gxdevice_h) $(gdevx_h)
$(CC_NO_WARN) $(GLCCFLAGS) $(XINCLUDE) $(GLO_)gdevxres.$(OBJ) $(C_) $(GLSRC)gdevxres.c
$(GLOBJ)gdevxxf.$(OBJ) : $(GLSRC)gdevxxf.c $(GDEVX) $(math__h) $(memory__h)\
$(gsstruct_h) $(gsutil_h) $(gxxfont_h)
$(GLCC) $(XINCLUDE) $(GLO_)gdevxxf.$(OBJ) $(C_) $(GLSRC)gdevxxf.c
# Alternate X11-based devices to help debug other drivers.
# x11alpha pretends to have 4 bits of alpha channel.
# x11cmyk pretends to be a CMYK device with 1 bit each of C,M,Y,K.
# x11cmyk2 pretends to be a CMYK device with 2 bits each of C,M,Y,K.
# x11cmyk4 pretends to be a CMYK device with 4 bits each of C,M,Y,K.
# x11cmyk8 pretends to be a CMYK device with 8 bits each of C,M,Y,K.
# x11gray2 pretends to be a 2-bit gray-scale device.
# x11gray4 pretends to be a 4-bit gray-scale device.
# x11mono pretends to be a black-and-white device.
# x11rg16x pretends to be a G5/B5/R6 color device.
# x11rg16x pretends to be a G11/B10/R11 color device.
x11alt_=$(GLOBJ)gdevxalt.$(OBJ)
$(DD)x11alt_.dev : $(DEVS_MAK) $(x11alt_) $(DD)x11_.dev
$(SETMOD) $(DD)x11alt_ $(x11alt_)
$(ADDMOD) $(DD)x11alt_ -include $(DD)x11_
$(DD)x11alpha.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11alpha -include $(DD)x11alt_
$(DD)x11cmyk.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11cmyk -include $(DD)x11alt_
$(DD)x11cmyk2.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11cmyk2 -include $(DD)x11alt_
$(DD)x11cmyk4.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11cmyk4 -include $(DD)x11alt_
$(DD)x11cmyk8.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11cmyk8 -include $(DD)x11alt_
$(DD)x11gray2.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11gray2 -include $(DD)x11alt_
$(DD)x11gray4.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11gray4 -include $(DD)x11alt_
$(DD)x11mono.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11mono -include $(DD)x11alt_
$(DD)x11rg16x.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11rg16x -include $(DD)x11alt_
$(DD)x11rg32x.dev : $(DEVS_MAK) $(DD)x11alt_.dev
$(SETDEV2) $(DD)x11rg32x -include $(DD)x11alt_
$(GLOBJ)gdevxalt.$(OBJ) : $(GLSRC)gdevxalt.c $(GDEVX) $(math__h) $(memory__h)\
$(gsdevice_h) $(gsparam_h) $(gsstruct_h)
$(GLCC) $(XINCLUDE) $(GLO_)gdevxalt.$(OBJ) $(C_) $(GLSRC)gdevxalt.c
###### --------------- Memory-buffered printer devices --------------- ######
### ---------------- Practical Automation label printers ---------------- ###
atx_=$(GLOBJ)gdevatx.$(OBJ)
$(DD)atx23.dev : $(DEVS_MAK) $(atx_) $(GLD)page.dev
$(SETPDEV2) $(DD)atx23 $(atx_)
$(DD)atx24.dev : $(DEVS_MAK) $(atx_) $(GLD)page.dev
$(SETPDEV2) $(DD)atx24 $(atx_)
$(DD)atx38.dev : $(DEVS_MAK) $(atx_) $(GLD)page.dev
$(SETPDEV2) $(DD)atx38 $(atx_)
$(GLOBJ)gdevatx.$(OBJ) : $(GLSRC)gdevatx.c $(PDEVH) $(math__h)
$(GLCC) $(GLO_)gdevatx.$(OBJ) $(C_) $(GLSRC)gdevatx.c
### ----------- The H-P DeskJet and LaserJet printer devices ----------- ###
### These are essentially the same device.
### NOTE: printing at full resolution (300 DPI) requires a printer
### with at least 1.5 Mb of memory. 150 DPI only requires .5 Mb.
### Note that the lj4dith driver is included with the H-P color printer
### drivers below.
### For questions about the fs600 device, please contact ###
### Peter Schildmann (peter.schildmann@etechnik.uni-rostock.de). ###
HPPCL=$(GLOBJ)gdevpcl.$(OBJ)
HPDLJM=$(GLOBJ)gdevdljm.$(OBJ) $(HPPCL)
HPMONO=$(GLOBJ)gdevdjet.$(OBJ) $(HPDLJM)
$(GLOBJ)gdevpcl.$(OBJ) : $(GLSRC)gdevpcl.c $(PDEVH) $(math__h) $(gdevpcl_h)
$(GLCC) $(GLO_)gdevpcl.$(OBJ) $(C_) $(GLSRC)gdevpcl.c
$(GLOBJ)gdevdljm.$(OBJ) : $(GLSRC)gdevdljm.c $(PDEVH) $(gdevdljm_h)
$(GLCC) $(GLO_)gdevdljm.$(OBJ) $(C_) $(GLSRC)gdevdljm.c
$(GLOBJ)gdevdjet.$(OBJ) : $(GLSRC)gdevdjet.c $(PDEVH) $(gdevdljm_h)
$(GLCC) $(GLO_)gdevdjet.$(OBJ) $(C_) $(GLSRC)gdevdjet.c
$(DD)deskjet.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)deskjet $(HPMONO)
$(DD)djet500.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)djet500 $(HPMONO)
$(DD)fs600.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)fs600 $(HPMONO)
$(DD)laserjet.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)laserjet $(HPMONO)
$(DD)ljetplus.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)ljetplus $(HPMONO)
### Selecting ljet2p provides TIFF (mode 2) compression on LaserJet III,
### IIIp, IIId, IIIsi, IId, and IIp.
$(DD)ljet2p.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)ljet2p $(HPMONO)
### Selecting ljet3 provides Delta Row (mode 3) compression on LaserJet III,
### IIIp, IIId, IIIsi.
$(DD)ljet3.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)ljet3 $(HPMONO)
### Selecting ljet3d also provides duplex printing capability.
$(DD)ljet3d.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)ljet3d $(HPMONO)
### Selecting ljet4 or ljet4d also provides Delta Row compression on
### LaserJet IV series.
$(DD)ljet4.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)ljet4 $(HPMONO)
$(DD)ljet4d.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)ljet4d $(HPMONO)
$(DD)lp2563.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)lp2563 $(HPMONO)
$(DD)oce9050.dev : $(DEVS_MAK) $(HPMONO) $(GLD)page.dev
$(SETPDEV2) $(DD)oce9050 $(HPMONO)
### ------------------ The H-P LaserJet 5 and 6 devices ----------------- ###
### These drivers use H-P's new PCL XL printer language, like H-P's
### LaserJet 5 Enhanced driver for MS Windows. We don't recommend using
### them:
### - If you have a LJ 5L or 5P, which isn't a "real" LaserJet 5,
### use the ljet4 driver instead. (The lj5 drivers won't work.)
### - If you have any other model of LJ 5 or 6, use the pxlmono
### driver, which often produces much more compact output.
gdevpxat_h=$(GLSRC)gdevpxat.h
gdevpxen_h=$(GLSRC)gdevpxen.h
gdevpxop_h=$(GLSRC)gdevpxop.h
gdevpxut_h=$(GLSRC)gdevpxut.h
$(GLOBJ)gdevpxut.$(OBJ) : $(GLSRC)gdevpxut.c $(math__h) $(string__h)\
$(gx_h) $(gxdevcli_h) $(stream_h)\
$(gdevpxat_h) $(gdevpxen_h) $(gdevpxop_h) $(gdevpxut_h)
$(GLCC) $(GLO_)gdevpxut.$(OBJ) $(C_) $(GLSRC)gdevpxut.c
ljet5_=$(GLOBJ)gdevlj56.$(OBJ) $(GLOBJ)gdevpxut.$(OBJ) $(HPPCL)
$(DD)lj5mono.dev : $(DEVS_MAK) $(ljet5_) $(GLD)page.dev
$(SETPDEV) $(DD)lj5mono $(ljet5_)
$(DD)lj5gray.dev : $(DEVS_MAK) $(ljet5_) $(GLD)page.dev
$(SETPDEV) $(DD)lj5gray $(ljet5_)
$(GLOBJ)gdevlj56.$(OBJ) : $(GLSRC)gdevlj56.c $(PDEVH) $(gdevpcl_h)\
$(gdevpxat_h) $(gdevpxen_h) $(gdevpxop_h) $(gdevpxut_h) $(stream_h)
$(GLCC) $(GLO_)gdevlj56.$(OBJ) $(C_) $(GLSRC)gdevlj56.c
### -------------------- The ijs client ----------------- ###
ijs_=$(GLOBJ)gdevijs.$(OBJ) $(IJSOBJ)ijs.$(OBJ) $(IJSOBJ)ijs_client.$(OBJ) \
$(IJSOBJ)ijs_exec_$(IJSEXECTYPE).$(OBJ)
$(DD)ijs.dev : $(ijs_) $(GLD)page.dev $(DD)ijslib.dev
$(SETPDEV) $(DD)ijs $(ijs_)
$(GLOBJ)gdevijs.$(OBJ) : $(GLSRC)gdevijs.c $(PDEVH) $(unistd__h) $(gp_h)\
$(ijs_h) $(ijs_client_h)
$(CC_) $(I_)$(GLI_) $(II)$(IJSI_)$(_I) $(GLF_) $(GLO_)gdevijs.$(OBJ) $(C_) $(GLSRC)gdevijs.c
# Please see ijs.mak for the Makefile fragment which builds the IJS
# library.
### -------------------------- The rinkj device ------------------------ ###
RINKJ_SRCDIR=$(GLSRC)rinkj
RINKJ_SRC=$(RINKJ_SRCDIR)$(D)
RINKJ_OBJ=$(GLOBJ)
RINKJ_O_=$(O_)$(RINKJ_OBJ)
RINKJ_INCL=$(I_)$(RINKJ_SRCDIR)$(_I)
RINKJ_CC=$(CC_) $(RINKJ_INCL)
rinkj_core=$(RINKJ_OBJ)evenbetter-rll.$(OBJ) \
$(RINKJ_OBJ)rinkj-byte-stream.$(OBJ) $(RINKJ_OBJ)rinkj-device.$(OBJ) \
$(RINKJ_OBJ)rinkj-config.$(OBJ) $(RINKJ_OBJ)rinkj-dither.$(OBJ) \
$(RINKJ_OBJ)rinkj-epson870.$(OBJ) $(RINKJ_OBJ)rinkj-screen-eb.$(OBJ)
$(RINKJ_OBJ)evenbetter-rll.$(OBJ): $(RINKJ_SRC)evenbetter-rll.c
$(RINKJ_CC) $(RINKJ_O_)evenbetter-rll.$(OBJ) $(C_) $(RINKJ_SRC)evenbetter-rll.c
$(RINKJ_OBJ)rinkj-byte-stream.$(OBJ): $(RINKJ_SRC)rinkj-byte-stream.c
$(RINKJ_CC) $(RINKJ_O_)rinkj-byte-stream.$(OBJ) $(C_) $(RINKJ_SRC)rinkj-byte-stream.c
$(RINKJ_OBJ)rinkj-device.$(OBJ): $(RINKJ_SRC)rinkj-device.c
$(RINKJ_CC) $(RINKJ_O_)rinkj-device.$(OBJ) $(C_) $(RINKJ_SRC)rinkj-device.c
$(RINKJ_OBJ)rinkj-config.$(OBJ): $(RINKJ_SRC)rinkj-config.c
$(RINKJ_CC) $(RINKJ_O_)rinkj-config.$(OBJ) $(C_) $(RINKJ_SRC)rinkj-config.c
$(RINKJ_OBJ)rinkj-dither.$(OBJ): $(RINKJ_SRC)rinkj-dither.c
$(RINKJ_CC) $(RINKJ_O_)rinkj-dither.$(OBJ) $(C_) $(RINKJ_SRC)rinkj-dither.c
$(RINKJ_OBJ)rinkj-epson870.$(OBJ): $(RINKJ_SRC)rinkj-epson870.c
$(RINKJ_CC) $(RINKJ_O_)rinkj-epson870.$(OBJ) $(C_) $(RINKJ_SRC)rinkj-epson870.c
$(RINKJ_OBJ)rinkj-screen-eb.$(OBJ): $(RINKJ_SRC)rinkj-screen-eb.c
$(RINKJ_CC) $(RINKJ_O_)rinkj-screen-eb.$(OBJ) $(C_) $(RINKJ_SRC)rinkj-screen-eb.c
rinkj_=$(GLOBJ)gdevrinkj.$(OBJ) $(rinkj_core)
$(DD)rinkj.dev : $(DEVS_MAK) $(rinkj_) $(GLD)page.dev
$(SETDEV) $(DD)rinkj $(rinkj_)
$(GLOBJ)gdevrinkj.$(OBJ) : $(GLSRC)gdevrinkj.c $(PDEVH) $(math__h)\
$(gdevdcrd_h) $(gscrd_h) $(gscrdp_h) $(gsparam_h) $(gxlum_h) $(icc_h)\
$(gxdcconv_h)
$(GLICCCC) $(GLO_)gdevrinkj.$(OBJ) $(C_) $(GLSRC)gdevrinkj.c
###### ------------------- High-level file formats ------------------- ######
# Support for PostScript and PDF
gdevpsdf_h=$(GLSRC)gdevpsdf.h $(gdevvec_h) $(gsparam_h)\
$(sa85x_h) $(scfx_h) $(spsdf_h) $(strimpl_h)
gdevpsds_h=$(GLSRC)gdevpsds.h $(strimpl_h) $(gsiparam_h)
psdf_1=$(GLOBJ)gdevpsdi.$(OBJ) $(GLOBJ)gdevpsdp.$(OBJ)
psdf_2=$(GLOBJ)gdevpsds.$(OBJ) $(GLOBJ)gdevpsdu.$(OBJ)
psdf_3=$(GLOBJ)scfparam.$(OBJ) $(GLOBJ)sdcparam.$(OBJ) $(GLOBJ)sdeparam.$(OBJ)
psdf_4=$(GLOBJ)spprint.$(OBJ) $(GLOBJ)spsdf.$(OBJ) $(GLOBJ)sstring.$(OBJ)
psdf_5=$(GLOBJ)gsparamx.$(OBJ)
psdf_=$(psdf_1) $(psdf_2) $(psdf_3) $(psdf_4) $(psdf_5)
psdf_inc1=$(GLD)vector.dev $(GLD)pngp.dev $(GLD)seexec.dev
psdf_inc2=$(GLD)sdcte.dev $(GLD)slzwe.dev $(GLD)szlibe.dev
psdf_inc=$(psdf_inc1) $(psdf_inc2)
$(DD)psdf.dev : $(DEVS_MAK) $(ECHOGS_XE) $(psdf_) $(psdf_inc)
$(SETMOD) $(DD)psdf $(psdf_1)
$(ADDMOD) $(DD)psdf -obj $(psdf_2)
$(ADDMOD) $(DD)psdf -obj $(psdf_3)
$(ADDMOD) $(DD)psdf -obj $(psdf_4)
$(ADDMOD) $(DD)psdf -obj $(psdf_5)
$(ADDMOD) $(DD)psdf -include $(psdf_inc1)
$(ADDMOD) $(DD)psdf -include $(psdf_inc2)
$(GLOBJ)gdevpsdi.$(OBJ) : $(GLSRC)gdevpsdi.c $(GXERR)\
$(jpeglib__h) $(math__h) $(stdio__h)\
$(gscspace_h)\
$(scfx_h) $(sdct_h) $(sjpeg_h) $(slzwx_h) $(srlx_h) $(spngpx_h)\
$(strimpl_h) $(szlibx_h)\
$(gdevpsdf_h) $(gdevpsds_h) $(gxdevmem_h) $(gxcspace_h) $(gxparamx_h)
$(GLJCC) $(GLO_)gdevpsdi.$(OBJ) $(C_) $(GLSRC)gdevpsdi.c
$(GLOBJ)gdevpsdp.$(OBJ) : $(GLSRC)gdevpsdp.c $(GDEVH)\
$(string__h) $(jpeglib__h)\
$(scfx_h) $(sdct_h) $(slzwx_h) $(srlx_h) $(strimpl_h) $(szlibx_h)\
$(gsparamx_h) $(gsutil_h) $(gdevpsdf_h) $(spprint_h)
$(GLJCC) $(GLO_)gdevpsdp.$(OBJ) $(C_) $(GLSRC)gdevpsdp.c
$(GLOBJ)gdevpsds.$(OBJ) : $(GLSRC)gdevpsds.c $(GX) $(memory__h)\
$(gserrors_h) $(gxdcconv_h) $(gdevpsds_h) $(gxbitmap_h)\
$(gxcspace_h) $(gsdcolor_h) $(gscspace_h) $(gxdevcli_h)
$(GLCC) $(GLO_)gdevpsds.$(OBJ) $(C_) $(GLSRC)gdevpsds.c
$(GLOBJ)gdevpsdu.$(OBJ) : $(GLSRC)gdevpsdu.c $(GXERR)\
$(jpeglib__h) $(memory__h) $(stdio__h)\
$(sa85x_h) $(scfx_h) $(sdct_h) $(sjpeg_h) $(sstring_h) $(strimpl_h)\
$(gdevpsdf_h) $(spprint_h) $(gsovrc_h)
$(GLJCC) $(GLO_)gdevpsdu.$(OBJ) $(C_) $(GLSRC)gdevpsdu.c
# PostScript and EPS writers
pswrite_=$(GLOBJ)gdevps.$(OBJ) $(GLOBJ)gdevpsu.$(OBJ) $(GLOBJ)scantab.$(OBJ) $(GLOBJ)sfilter2.$(OBJ)
$(DD)epswrite.dev : $(DEVS_MAK) $(ECHOGS_XE) $(pswrite_) $(GLD)psdf.dev
$(SETDEV2) $(DD)epswrite $(pswrite_)
$(ADDMOD) $(DD)epswrite -include $(GLD)psdf
$(DD)pswrite.dev : $(DEVS_MAK) $(ECHOGS_XE) $(pswrite_) $(GLD)psdf.dev
$(SETDEV2) $(DD)pswrite $(pswrite_)
$(ADDMOD) $(DD)pswrite -include $(GLD)psdf
$(GLOBJ)gdevps.$(OBJ) : $(GLSRC)gdevps.c $(GDEV)\
$(math__h) $(memory__h) $(string__h) $(time__h)\
$(gscdefs_h) $(gscspace_h) $(gsline_h) $(gsparam_h) $(gsiparam_h) $(gsmatrix_h)\
$(gxdcolor_h) $(gxpath_h)\
$(sa85x_h) $(sstring_h) $(strimpl_h)\
$(gdevpsdf_h) $(gdevpsu_h) $(spprint_h)
$(GLCC) $(GLO_)gdevps.$(OBJ) $(C_) $(GLSRC)gdevps.c
################ BEGIN PDF WRITER ################
# PDF writer
# Note that gs_pdfwr.ps will only actually be loaded if the configuration
# includes a PostScript interpreter.
# We reserve slots here for gdevpdfa...z, just in case we need them.
pdfwrite1_=$(GLOBJ)gdevpdf.$(OBJ) $(GLOBJ)gdevpdfb.$(OBJ)
pdfwrite2_=$(GLOBJ)gdevpdfc.$(OBJ) $(GLOBJ)gdevpdfd.$(OBJ)
pdfwrite3_=$(GLOBJ)gdevpdfg.$(OBJ)
pdfwrite4_=$(GLOBJ)gdevpdfi.$(OBJ) $(GLOBJ)gdevpdfj.$(OBJ) $(GLOBJ)gdevpdfk.$(OBJ)
pdfwrite5_=$(GLOBJ)gdevpdfm.$(OBJ)
pdfwrite6_=$(GLOBJ)gdevpdfo.$(OBJ) $(GLOBJ)gdevpdfp.$(OBJ) $(GLOBJ)gdevpdft.$(OBJ)
pdfwrite7_=$(GLOBJ)gdevpdfr.$(OBJ)
pdfwrite8_=$(GLOBJ)gdevpdfu.$(OBJ) $(GLOBJ)gdevpdfv.$(OBJ)
pdfwrite9_=
pdfwrite10_=$(GLOBJ)gsflip.$(OBJ)
pdfwrite11_=$(GLOBJ)scantab.$(OBJ) $(GLOBJ)sfilter2.$(OBJ)
pdfwrite_=$(pdfwrite1_) $(pdfwrite2_) $(pdfwrite3_) $(pdfwrite4_)\
$(pdfwrite5_) $(pdfwrite6_) $(pdfwrite7_) $(pdfwrite8_) $(pdfwrite9_)\
$(pdfwrite10_) $(pdfwrite11_)
# Since ps2write actually is a clone of pdfwrite,
# we don't define a full module for it,
# but generate both devices within pdfwrite.dev .
# Note that for ps2pdf operation, we need to parse DSC comments to set
# the Orientation (Page dict /Rotate value). This is not part of the
# pdfwrite device, but part of the PS interpreter so that the pdfwrite
# device can be used with other top level interpreters (such as PCL).
$(DD)pdfwrite.dev : $(DEVS_MAK) $(ECHOGS_XE) $(pdfwrite_)\
$(GLD)cmyklib.dev $(GLD)cfe.dev $(GLD)lzwe.dev\
$(GLD)rle.dev $(GLD)sdcte.dev $(GLD)sdeparam.dev $(GLD)smd5.dev\
$(GLD)szlibe.dev $(GLD)psdf.dev \
$(DD)pdtext.dev
$(SETDEV2) $(DD)ps2write $(pdfwrite1_)
$(SETDEV2) $(DD)pdfwrite $(pdfwrite1_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite2_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite3_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite4_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite5_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite6_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite7_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite8_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite9_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite10_)
$(ADDMOD) $(DD)pdfwrite $(pdfwrite11_)
$(ADDMOD) $(DD)pdfwrite -ps gs_pdfwr
$(ADDMOD) $(DD)pdfwrite -include $(GLD)cmyklib $(GLD)cfe $(GLD)lzwe
$(ADDMOD) $(DD)pdfwrite -include $(GLD)rle $(GLD)sdcte $(GLD)sdeparam
$(ADDMOD) $(DD)pdfwrite -include $(GLD)smd5 $(GLD)szlibe
$(ADDMOD) $(DD)pdfwrite -include $(GLD)psdf
$(ADDMOD) $(DD)pdfwrite -include $(DD)pdtext
gdevpdfb_h=$(GLSRC)gdevpdfb.h
gdevpdfc_h=$(GLSRC)gdevpdfc.h
gdevpdfg_h=$(GLSRC)gdevpdfg.h $(gscspace_h)
gdevpdfo_h=$(GLSRC)gdevpdfo.h $(gsparam_h)
gdevpdfx_h=$(GLSRC)gdevpdfx.h\
$(gsparam_h) $(gsuid_h) $(gxdevice_h) $(gxfont_h) $(gxline_h)\
$(spprint_h) $(stream_h) $(gdevpsdf_h)
$(GLOBJ)gdevpdf.$(OBJ) : $(GLSRC)gdevpdf.c $(GDEVH)\
$(fcntl__h) $(memory__h) $(string__h) $(time__h) $(unistd__h) $(gp_h)\
$(gdevpdfg_h) $(gdevpdfo_h) $(gdevpdfx_h) $(gdevpdt_h) $(smd5_h) $(sarc4_h)\
$(gdevpdfb_h)
$(GLCC) $(GLO_)gdevpdf.$(OBJ) $(C_) $(GLSRC)gdevpdf.c
$(GLOBJ)gdevpdfb.$(OBJ) : $(GLSRC)gdevpdfb.c\
$(string__h) $(gx_h)\
$(gdevpdfg_h) $(gdevpdfo_h) $(gdevpdfx_h)\
$(gserrors_h) $(gxcspace_h) $(gxdcolor_h) $(gxpcolor_h) $(gxhldevc_h)
$(GLCC) $(GLO_)gdevpdfb.$(OBJ) $(C_) $(GLSRC)gdevpdfb.c
$(GLOBJ)gdevpdfc.$(OBJ) : $(GLSRC)gdevpdfc.c $(GXERR) $(math__h) $(memory__h)\
$(gdevpdfc_h) $(gdevpdfg_h) $(gdevpdfo_h) $(gdevpdfx_h)\
$(gscie_h) $(gscindex_h) $(gscspace_h) $(gscdevn_h) $(gscsepr_h) $(gsicc_h)\
$(sstring_h) $(stream_h) $(strimpl_h) $(gxcspace_h)
$(GLCC) $(GLO_)gdevpdfc.$(OBJ) $(C_) $(GLSRC)gdevpdfc.c
$(GLOBJ)gdevpdfd.$(OBJ) : $(GLSRC)gdevpdfd.c $(math__h) $(memory__h)\
$(gx_h) $(gxdevice_h) $(gxfixed_h) $(gxistate_h) $(gxpaint_h)\
$(gxcoord_h) $(gxdevmem_h) $(gxcolor2_h) $(gxhldevc_h)\
$(gsstate_h) $(gserrors_h) $(gsptype2_h)\
$(gzpath_h) $(gzcpath_h) $(gdevpdfx_h) $(gdevpdfg_h) $(gdevpdfo_h) $(gsutil_h)
$(GLCC) $(GLO_)gdevpdfd.$(OBJ) $(C_) $(GLSRC)gdevpdfd.c
$(GLOBJ)gdevpdfg.$(OBJ) : $(GLSRC)gdevpdfg.c $(GXERR) $(math__h) $(string__h)\
$(memory__h) $(gdevpdfg_h) $(gdevpdfo_h) $(gdevpdfx_h)\
$(gsfunc0_h) $(gsstate_h) $(gxdcolor_h) $(gxpcolor_h) $(gxcolor2_h) $(gsptype2_h)\
$(gxbitmap_h) $(gxdht_h) $(gxfarith_h) $(gxfmap_h) $(gxht_h) $(gxistate_h)\
$(gzht_h)\
$(szlibx_h)
$(GLCC) $(GLO_)gdevpdfg.$(OBJ) $(C_) $(GLSRC)gdevpdfg.c
$(GLOBJ)gdevpdfi.$(OBJ) : $(GLSRC)gdevpdfi.c $(memory__h) $(math__h)\
$(gx_h)\
$(gserrors_h) $(gsdevice_h) $(gsflip_h) $(gsiparm4_h) $(gsstate_h) $(gscolor2_h)\
$(gdevpdfx_h) $(gdevpdfg_h) $(gdevpdfo_h)\
$(gxcspace_h) $(gximage3_h) $(gximag3x_h) $(gxdcolor_h) $(gxpcolor_h)\
$(gxhldevc_h)
$(GLCC) $(GLO_)gdevpdfi.$(OBJ) $(C_) $(GLSRC)gdevpdfi.c
$(GLOBJ)gdevpdfj.$(OBJ) : $(GLSRC)gdevpdfj.c\
$(memory__h) $(string__h) $(gx_h) $(gserrors_h)\
$(gdevpdfx_h) $(gdevpdfg_h) $(gdevpdfo_h) $(gxcspace_h)\
$(gsiparm4_h) $(gdevpsds_h) $(spngpx_h)
$(GLJCC) $(GLO_)gdevpdfj.$(OBJ) $(C_) $(GLSRC)gdevpdfj.c
$(GLOBJ)gdevpdfk.$(OBJ) : $(GLSRC)gdevpdfk.c $(GXERR) $(math__h) $(memory__h)\
$(gdevpdfc_h) $(gdevpdfg_h) $(gdevpdfo_h) $(gdevpdfx_h)\
$(gsicc_h) $(gxcie_h) $(gxcspace_h)\
$(stream_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevpdfk.$(OBJ) $(C_) $(GLSRC)gdevpdfk.c
$(GLOBJ)gdevpdfm.$(OBJ) : $(GLSRC)gdevpdfm.c\
$(math__h) $(memory__h) $(string__h) $(gx_h)\
$(gdevpdfo_h) $(gdevpdfx_h) $(gserrors_h) $(gsutil_h) $(scanchar_h)\
$(szlibx_h) $(slzwx_h)
$(GLCC) $(GLO_)gdevpdfm.$(OBJ) $(C_) $(GLSRC)gdevpdfm.c
$(GLOBJ)gdevpdfo.$(OBJ) : $(GLSRC)gdevpdfo.c $(memory__h) $(string__h)\
$(gx_h)\
$(gdevpdfo_h) $(gdevpdfx_h) $(gserrors_h) $(gsparam_h) $(gsutil_h)\
$(sa85x_h) $(slzwx_h) $(sarc4_h) $(sstring_h) $(strimpl_h) $(szlibx_h)
$(GLCC) $(GLO_)gdevpdfo.$(OBJ) $(C_) $(GLSRC)gdevpdfo.c
$(GLOBJ)gdevpdfp.$(OBJ) : $(GLSRC)gdevpdfp.c $(memory__h) $(string__h) $(gx_h)\
$(gdevpdfo_h) $(gdevpdfg_h) $(gdevpdfx_h) $(gserrors_h) $(gsparamx_h)
$(GLCC) $(GLO_)gdevpdfp.$(OBJ) $(C_) $(GLSRC)gdevpdfp.c
$(GLOBJ)gdevpdfr.$(OBJ) : $(GLSRC)gdevpdfr.c $(memory__h) $(string__h)\
$(gx_h)\
$(gdevpdfo_h) $(gdevpdfx_h) $(gserrors_h) $(gsutil_h)\
$(scanchar_h) $(sstring_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevpdfr.$(OBJ) $(C_) $(GLSRC)gdevpdfr.c
$(GLOBJ)gdevpdft.$(OBJ) : $(GLSRC)gdevpdft.c $(string__h)\
$(gx_h) $(gserrors_h) $(gstrans_h) $(gscolor2_h) $(gzstate_h)\
$(gdevpdfx_h) $(gdevpdfg_h) $(gdevpdfo_h)
$(GLCC) $(GLO_)gdevpdft.$(OBJ) $(C_) $(GLSRC)gdevpdft.c
$(GLOBJ)gdevpdfu.$(OBJ) : $(GLSRC)gdevpdfu.c $(GXERR)\
$(jpeglib__h) $(memory__h) $(string__h)\
$(gdevpdfo_h) $(gdevpdfx_h) $(gdevpdfg_h) $(gdevpdtd_h) $(gscdefs_h)\
$(gsdsrc_h) $(gsfunc_h) $(gsfunc3_h)\
$(sa85x_h) $(scanchar_h) $(scfx_h) $(sdct_h) $(slzwx_h) $(spngpx_h)\
$(srlx_h) $(sarc4_h) $(smd5_h) $(sstring_h) $(strimpl_h) $(szlibx_h)
$(GLCC) $(GLO_)gdevpdfu.$(OBJ) $(C_) $(GLSRC)gdevpdfu.c
$(GLOBJ)gdevpdfv.$(OBJ) : $(GLSRC)gdevpdfv.c $(GXERR) $(math__h) $(string__h)\
$(gdevpdfg_h) $(gdevpdfo_h) $(gdevpdfx_h)\
$(gscindex_h) $(gscoord_h) $(gsiparm3_h) $(gsmatrix_h) $(gsptype2_h)\
$(gxcolor2_h) $(gxdcolor_h) $(gxpcolor_h) $(gxshade_h)\
$(szlibx_h)
$(GLCC) $(GLO_)gdevpdfv.$(OBJ) $(C_) $(GLSRC)gdevpdfv.c
######## pdfwrite text
# The text facilities for the PDF writer are so large and complex that
# we give them their own module name and (for the new code) file name prefix.
# However, logically they are part of pdfwrite and cannot be used separately.
$(DD)pdtext.dev : $(DEVS_MAK) $(ECHOGS_XE) $(DD)pdxtext.dev
$(SETMOD) $(DD)pdtext -include $(DD)pdxtext
# For a code roadmap, see gdevpdtx.h.
gdevpdt_h=$(GLSRC)gdevpdt.h
gdevpdtx_h=$(GLSRC)gdevpdtx.h $(gdevpdt_h)
gdevpdtb_h=$(GLSRC)gdevpdtb.h $(gdevpdtx_h)
gdevpdtd_h=$(GLSRC)gdevpdtd.h $(gdevpdtb_h) $(gdevpdtx_h)
gdevpdtf_h=$(GLSRC)gdevpdtf.h $(gdevpdtx_h)
gdevpdti_h=$(GLSRC)gdevpdti.h $(gdevpdt_h)
gdevpdts_h=$(GLSRC)gdevpdts.h $(gsmatrix_h)
gdevpdtt_h=$(GLSRC)gdevpdtt.h
gdevpdtv_h=$(GLSRC)gdevpdtv.h
gdevpdtw_h=$(GLSRC)gdevpdtw.h
# We reserve space for all of a..z, just in case.
pdxtext_ab=$(GLOBJ)gdevpdt.$(OBJ) $(GLOBJ)gdevpdtb.$(OBJ)
pdxtext_cde=$(GLOBJ)gdevpdtc.$(OBJ) $(GLOBJ)gdevpdtd.$(OBJ) $(GLOBJ)gdevpdte.$(OBJ)
pdxtext_fgh=$(GLOBJ)gdevpdtf.$(OBJ)
pdxtext_ijk=$(GLOBJ)gdevpdti.$(OBJ)
pdxtext_lmn=
pdxtext_opq=
pdxtext_rst=$(GLOBJ)gdevpdts.$(OBJ) $(GLOBJ)gdevpdtt.$(OBJ)
pdxtext_uvw=$(GLOBJ)gdevpdtv.$(OBJ) $(GLOBJ)gdevpdtw.$(OBJ)
pdxtext_xyz=
pdxtext_=$(pdxtext_ab) $(pdxtext_cde) $(pdxtext_fgh) $(pdxtext_ijk)\
$(pdxtext_lmn) $(pdxtext_opq) $(pdxtext_rst) $(pdxtext_uvw) $(pdxtext_xyz)\
$(GLOBJ)gsfont0c.$(OBJ)
$(DD)pdxtext.dev : $(DEVS_MAK) $(ECHOGS_XE) $(pdxtext_)\
$(GLD)fcopy.dev $(GLD)psf.dev
$(SETMOD) $(DD)pdxtext $(pdxtext_ab)
$(ADDMOD) $(DD)pdxtext $(pdxtext_cde)
$(ADDMOD) $(DD)pdxtext $(pdxtext_fgh)
$(ADDMOD) $(DD)pdxtext $(pdxtext_ijk)
$(ADDMOD) $(DD)pdxtext $(pdxtext_lmn)
$(ADDMOD) $(DD)pdxtext $(pdxtext_opq)
$(ADDMOD) $(DD)pdxtext $(pdxtext_rst)
$(ADDMOD) $(DD)pdxtext $(pdxtext_uvw)
$(ADDMOD) $(DD)pdxtext $(pdxtext_xyz)
$(ADDMOD) $(DD)pdxtext $(GLOBJ)gsfont0c.$(OBJ)
$(ADDMOD) $(DD)pdxtext -include $(GLD)fcopy $(GLD)psf
$(GLOBJ)gdevpdt.$(OBJ) : $(GLSRC)gdevpdt.c $(gx_h) $(gxpath_h) $(memory__h)\
$(gdevpdfx_h) $(gdevpdfg_h) $(gdevpdtf_h) $(gdevpdti_h) $(gdevpdts_h) $(gdevpdtx_h) $(gdevpdt_h)
$(GLCC) $(GLO_)gdevpdt.$(OBJ) $(C_) $(GLSRC)gdevpdt.c
$(GLOBJ)gdevpdtb.$(OBJ) : $(GLSRC)gdevpdtb.c $(memory__h) $(ctype__h) $(string__h)\
$(gx_h) $(gserrors_h) $(gsutil_h)\
$(gxfcid_h) $(gxfcopy_h) $(gxfont_h) $(gxfont42_h)\
$(gdevpsf_h) $(gdevpdfx_h) $(gdevpdtb_h)
$(GLCC) $(GLO_)gdevpdtb.$(OBJ) $(C_) $(GLSRC)gdevpdtb.c
$(GLOBJ)gdevpdtc.$(OBJ) : $(GLSRC)gdevpdtc.c $(gx_h) $(memory__h) $(string__h)\
$(gserrors_h) $(gxfcmap_h) $(gxfont_h) $(gxfont0_h) $(gxfont0c_h)\
$(gzpath_h) $(gxchar_h) $(gdevpsf_h) $(gdevpdfx_h) $(gdevpdtx_h)\
$(gdevpdtd_h) $(gdevpdtf_h) $(gdevpdts_h) $(gdevpdtt_h)
$(GLCC) $(GLO_)gdevpdtc.$(OBJ) $(C_) $(GLSRC)gdevpdtc.c
$(GLOBJ)gdevpdte.$(OBJ) : $(GLSRC)gdevpdte.c $(gx_h) $(math__h) $(memory__h)\
$(gserrors_h) $(gsutil_h) $(gxfcmap_h) $(gxfcopy_h) $(gxfont_h) \
$(gxfont0_h) $(gxfont0c_h) $(gxpath_h) $(gdevpsf_h) $(gdevpdfx_h) \
$(gdevpdfg_h) $(gdevpdtx_h) $(gdevpdtd_h) $(gdevpdtf_h) $(gdevpdts_h) \
$(gdevpdtt_h)
$(GLCC) $(GLO_)gdevpdte.$(OBJ) $(C_) $(GLSRC)gdevpdte.c
$(GLOBJ)gdevpdtd.$(OBJ) : $(GLSRC)gdevpdtd.c $(math__h) $(memory__h) $(gx_h)\
$(gserrors_h) $(gsrect_h)\
$(gdevpdfo_h) $(gdevpdfx_h)\
$(gdevpdtb_h) $(gdevpdtd_h)
$(GLCC) $(GLO_)gdevpdtd.$(OBJ) $(C_) $(GLSRC)gdevpdtd.c
$(GLOBJ)gdevpdtf.$(OBJ) : $(GLSRC)gdevpdtf.c $(gx_h) $(memory__h)\
$(string__h) $(gserrors_h) $(gsutil_h)\
$(gxfcache_h) $(gxfcid_h) $(gxfcmap_h) $(gxfcopy_h) $(gxfont_h) $(gxfont1_h)\
$(gdevpsf_h) $(gdevpdfx_h) $(gdevpdtb_h) $(gdevpdtd_h) $(gdevpdtf_h) $(gdevpdtw_h)
$(GLCC) $(GLO_)gdevpdtf.$(OBJ) $(C_) $(GLSRC)gdevpdtf.c
$(GLOBJ)gdevpdti.$(OBJ) : $(GLSRC)gdevpdti.c $(memory__h) $(string__h) $(gx_h)\
$(gserrors_h) $(gsutil_h)\
$(gdevpdfx_h) $(gdevpdfg_h)\
$(gdevpdtf_h) $(gdevpdti_h) $(gdevpdts_h) $(gdevpdtw_h) $(gdevpdtt_h) $(gdevpdfo_h)
$(GLCC) $(GLO_)gdevpdti.$(OBJ) $(C_) $(GLSRC)gdevpdti.c
$(GLOBJ)gdevpdts.$(OBJ) : $(GLSRC)gdevpdts.c $(gx_h) $(math__h) $(memory__h)\
$(gdevpdfx_h) $(gdevpdtf_h) $(gdevpdts_h) $(gdevpdtx_h)
$(GLCC) $(GLO_)gdevpdts.$(OBJ) $(C_) $(GLSRC)gdevpdts.c
$(GLOBJ)gdevpdtt.$(OBJ) : $(GLSRC)gdevpdtt.c $(gx_h) $(math__h) $(string__h)\
$(gserrors_h) $(gsencs_h) $(gscedata_h) $(gsmatrix_h) $(gzstate_h)\
$(gxfcache_h) $(gxfont_h) $(gxfont0_h) $(gxfcid_h) $(gxfcopy_h)\
$(gxfcmap_h) $(gxpath_h) $(gxchar_h) $(gxstate_h) $(gdevpdfx_h) $(gdevpdfg_h)\
$(gdevpdtx_h) $(gdevpdtd_h) $(gdevpdtf_h) $(gdevpdts_h) $(gdevpdtt_h)\
$(gdevpdti_h) $(gxhldevc_h)
$(GLCC) $(GLO_)gdevpdtt.$(OBJ) $(C_) $(GLSRC)gdevpdtt.c
$(GLOBJ)gdevpdtv.$(OBJ) : $(GLSRC)gdevpdtv.c $(gx_h) $(gdevpdtv_h)
$(GLCC) $(GLO_)gdevpdtv.$(OBJ) $(C_) $(GLSRC)gdevpdtv.c
$(GLOBJ)gdevpdtw.$(OBJ) : $(GLSRC)gdevpdtw.c $(gx_h) $(gserrors_h) $(memory__h)\
$(gxfcmap_h) $(gxfont_h) $(gscencs_h)\
$(gdevpsf_h) $(gdevpdfx_h) $(gdevpdfo_h)\
$(gdevpdtd_h) $(gdevpdtf_h) $(gdevpdti_h) $(gdevpdtw_h) $(gdevpdtv_h) $(sarc4_h)
$(GLCC) $(GLO_)gdevpdtw.$(OBJ) $(C_) $(GLSRC)gdevpdtw.c
################ END PDF WRITER ################
# High-level PCL XL writer
pxl_=$(GLOBJ)gdevpx.$(OBJ) $(GLOBJ)gdevpxut.$(OBJ)
$(DD)pxlmono.dev : $(DEVS_MAK) $(pxl_) $(GDEV) $(GLD)vector.dev
$(SETDEV2) $(DD)pxlmono $(pxl_)
$(ADDMOD) $(DD)pxlmono -include $(GLD)vector
$(DD)pxlcolor.dev : $(DEVS_MAK) $(pxl_) $(GDEV) $(GLD)vector.dev
$(SETDEV2) $(DD)pxlcolor $(pxl_)
$(ADDMOD) $(DD)pxlcolor -include $(GLD)vector
$(GLOBJ)gdevpx.$(OBJ) : $(GLSRC)gdevpx.c\
$(math__h) $(memory__h) $(string__h)\
$(gx_h) $(gsccolor_h) $(gsdcolor_h) $(gserrors_h)\
$(gxcspace_h) $(gxdevice_h) $(gxpath_h)\
$(gdevpxat_h) $(gdevpxen_h) $(gdevpxop_h) $(gdevpxut_h) $(gdevvec_h)\
$(srlx_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevpx.$(OBJ) $(C_) $(GLSRC)gdevpx.c
###### --------------------- Raster file formats --------------------- ######
### --------------------- The "plain bits" devices ---------------------- ###
# This device also exercises the driver CRD facilities, which is why it
# needs some additional files.
bit_=$(GLOBJ)gdevbit.$(OBJ) $(GLOBJ)gdevdcrd.$(OBJ)
$(DD)bit.dev : $(DEVS_MAK) $(bit_) $(GLD)page.dev $(GLD)cielib.dev
$(SETPDEV2) $(DD)bit $(bit_)
$(ADDMOD) $(DD)bit -include $(GLD)cielib
$(DD)bitrgb.dev : $(DEVS_MAK) $(bit_) $(GLD)page.dev $(GLD)cielib.dev
$(SETPDEV2) $(DD)bitrgb $(bit_)
$(ADDMOD) $(DD)bitrgb -include $(GLD)cielib
$(DD)bitcmyk.dev : $(DEVS_MAK) $(bit_) $(GLD)page.dev $(GLD)cielib.dev
$(SETPDEV2) $(DD)bitcmyk $(bit_)
$(ADDMOD) $(DD)bitcmyk -include $(GLD)cielib
$(DD)bitrgbtags.dev : $(DEVS_MAK) $(bit_) $(GLD)page.dev $(GLD)cielib.dev
$(SETPDEV2) $(DD)bitrgbtags $(bit_)
$(ADDMOD) $(DD)bitrgbtags -include $(GLD)cielib
$(GLOBJ)gdevbit.$(OBJ) : $(GLSRC)gdevbit.c $(PDEVH) $(math__h)\
$(gdevdcrd_h) $(gscrd_h) $(gscrdp_h) $(gsparam_h) $(gxlum_h)
$(GLCC) $(GLO_)gdevbit.$(OBJ) $(C_) $(GLSRC)gdevbit.c
### ------------------------- .BMP file formats ------------------------- ###
gdevbmp_h=$(GLSRC)gdevbmp.h
bmp_=$(GLOBJ)gdevbmp.$(OBJ) $(GLOBJ)gdevbmpc.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ)
$(GLOBJ)gdevbmp.$(OBJ) : $(GLSRC)gdevbmp.c $(PDEVH) $(gdevbmp_h) $(gdevpccm_h)
$(GLCC) $(GLO_)gdevbmp.$(OBJ) $(C_) $(GLSRC)gdevbmp.c
$(GLOBJ)gdevbmpc.$(OBJ) : $(GLSRC)gdevbmpc.c $(PDEVH) $(gdevbmp_h)
$(GLCC) $(GLO_)gdevbmpc.$(OBJ) $(C_) $(GLSRC)gdevbmpc.c
$(DD)bmpmono.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmpmono $(bmp_)
$(DD)bmpgray.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmpgray $(bmp_)
$(DD)bmpsep1.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmpsep1 $(bmp_)
$(DD)bmpsep8.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmpsep8 $(bmp_)
$(DD)bmp16.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmp16 $(bmp_)
$(DD)bmp256.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmp256 $(bmp_)
$(DD)bmp16m.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmp16m $(bmp_)
$(DD)bmp32b.dev : $(DEVS_MAK) $(bmp_) $(GLD)page.dev
$(SETPDEV2) $(DD)bmp32b $(bmp_)
### ------------- BMP driver that serves as demo of async rendering ---- ###
bmpa_=$(GLOBJ)gdevbmpa.$(OBJ) $(GLOBJ)gdevbmpc.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ) $(GLOBJ)gdevppla.$(OBJ)
$(GLOBJ)gdevbmpa.$(OBJ) : $(GLSRC)gdevbmpa.c $(AK) $(stdio__h)\
$(gdevbmp_h) $(gdevprna_h) $(gdevpccm_h) $(gdevppla_h)\
$(gserrors_h) $(gpsync_h)
$(GLCC) $(GLO_)gdevbmpa.$(OBJ) $(C_) $(GLSRC)gdevbmpa.c
$(DD)bmpamono.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpamono $(bmpa_)
$(ADDMOD) $(DD)bmpamono -include $(GLD)async
$(DD)bmpasep1.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpasep1 $(bmpa_)
$(ADDMOD) $(DD)bmpasep1 -include $(GLD)async
$(DD)bmpasep8.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpasep8 $(bmpa_)
$(ADDMOD) $(DD)bmpasep8 -include $(GLD)async
$(DD)bmpa16.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpa16 $(bmpa_)
$(ADDMOD) $(DD)bmpa16 -include $(GLD)async
$(DD)bmpa256.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpa256 $(bmpa_)
$(ADDMOD) $(DD)bmpa256 -include $(GLD)async
$(DD)bmpa16m.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpa16m $(bmpa_)
$(ADDMOD) $(DD)bmpa16m -include $(GLD)async
$(DD)bmpa32b.dev : $(DEVS_MAK) $(bmpa_) $(GLD)page.dev $(GLD)async.dev
$(SETPDEV2) $(DD)bmpa32b $(bmpa_)
$(ADDMOD) $(DD)bmpa32b -include $(GLD)async
### -------------------------- CGM file format ------------------------- ###
### This driver is under development. Use at your own risk. ###
### The output is very low-level, consisting only of rectangles and ###
### cell arrays. ###
cgm_=$(GLOBJ)gdevcgm.$(OBJ) $(GLOBJ)gdevcgml.$(OBJ)
gdevcgml_h=$(GLSRC)gdevcgml.h
gdevcgmx_h=$(GLSRC)gdevcgmx.h $(gdevcgml_h)
$(GLOBJ)gdevcgm.$(OBJ) : $(GLSRC)gdevcgm.c $(GDEV) $(memory__h)\
$(gp_h) $(gsparam_h) $(gdevpccm_h) $(gdevcgml_h)
$(GLCC) $(GLO_)gdevcgm.$(OBJ) $(C_) $(GLSRC)gdevcgm.c
$(GLOBJ)gdevcgml.$(OBJ) : $(GLSRC)gdevcgml.c $(memory__h) $(stdio__h)\
$(gdevcgmx_h)
$(GLCC) $(GLO_)gdevcgml.$(OBJ) $(C_) $(GLSRC)gdevcgml.c
$(DD)cgmmono.dev : $(DEVS_MAK) $(cgm_)
$(SETDEV) $(DD)cgmmono $(cgm_)
$(DD)cgm8.dev : $(DEVS_MAK) $(cgm_)
$(SETDEV) $(DD)cgm8 $(cgm_)
$(DD)cgm24.dev : $(DEVS_MAK) $(cgm_)
$(SETDEV) $(DD)cgm24 $(cgm_)
### ------------------------ The DeviceN device ------------------------ ###
devn_=$(GLOBJ)gdevdevn.$(OBJ)
$(DD)spotcmyk.dev : $(DEVS_MAK) $(devn_) $(GLD)page.dev
$(SETDEV) $(DD)spotcmyk $(devn_)
$(DD)devicen.dev : $(DEVS_MAK) $(devn_) $(GLD)page.dev
$(SETDEV) $(DD)devicen $(devn_)
$(GLOBJ)gdevdevn.$(OBJ) : $(GLSRC)gdevdevn.c $(PDEVH) $(math__h) $(string__h)\
$(gdevprn_h) $(gsparam_h) $(gscrd_h) $(gscrdp_h) $(gxlum_h) $(gdevdcrd_h)\
$(gstypes_h) $(gxdcconv_h) $(gdevdevn_h) $(gsequivc_h)
$(GLCC) $(GLO_)gdevdevn.$(OBJ) $(C_) $(GLSRC)gdevdevn.c
### --------------------------- The XCF device ------------------------- ###
xcf_=$(GLOBJ)gdevxcf.$(OBJ)
$(DD)xcf.dev : $(DEVS_MAK) $(xcf_) $(GLD)page.dev
$(SETDEV) $(DD)xcf $(xcf_)
$(DD)xcfcmyk.dev : $(DEVS_MAK) $(xcf_) $(GLD)page.dev
$(SETDEV) $(DD)xcfcmyk $(xcf_)
$(GLOBJ)gdevxcf.$(OBJ) : $(GLSRC)gdevxcf.c $(PDEVH) $(math__h)\
$(gdevdcrd_h) $(gscrd_h) $(gscrdp_h) $(gsparam_h) $(gxlum_h) $(icc_h)\
$(gxdcconv_h)
$(GLICCCC) $(GLO_)gdevxcf.$(OBJ) $(C_) $(GLSRC)gdevxcf.c
### --------------------------- The PSD device ------------------------- ###
psd_=$(GLOBJ)gdevpsd.$(OBJ) $(GLOBJ)gdevdevn.$(OBJ) $(GLOBJ)gsequivc.$(OBJ)
$(DD)psdrgb.dev : $(DEVS_MAK) $(psd_) $(GLD)page.dev
$(SETDEV) $(DD)psdrgb $(psd_)
$(DD)psdcmyk.dev : $(DEVS_MAK) $(psd_) $(GLD)page.dev
$(SETDEV) $(DD)psdcmyk $(psd_)
$(GLOBJ)gdevpsd.$(OBJ) : $(GLSRC)gdevpsd.c $(PDEVH) $(math__h)\
$(gdevdcrd_h) $(gscrd_h) $(gscrdp_h) $(gsparam_h) $(gxlum_h) $(icc_h)\
$(gstypes_h) $(gxdcconv_h) $(gdevdevn_h) $(gsequivc_h)
$(GLICCCC) $(GLO_)gdevpsd.$(OBJ) $(C_) $(GLSRC)gdevpsd.c
$(GLOBJ)gsequivc.$(OBJ) : $(GLSRC)gsequivc.c $(math__h)\
$(PDEVH) $(gsparam_h) $(gstypes_h) $(gxdconv_h) $(gdevdevn_h)\
$(gsequivc_h) $(gzstate_h) $(gsstate_h) $(gscspace_h) $(gxcspace_h)
$(GLICCCC) $(GLO_)gsequivc.$(OBJ) $(C_) $(GLSRC)gsequivc.c
### ----------------------- The permutation device --------------------- ###
perm_=$(GLOBJ)gdevperm.$(OBJ)
$(DD)perm.dev : $(DEVS_MAK) $(perm_) $(GLD)page.dev
$(SETDEV) $(DD)perm $(perm_)
$(GLOBJ)gdevperm.$(OBJ) : $(GLSRC)gdevperm.c $(PDEVH) $(math__h)\
$(gdevdcrd_h) $(gscrd_h) $(gscrdp_h) $(gsparam_h) $(gxlum_h) $(icc_h)
$(GLICCCC) $(GLO_)gdevperm.$(OBJ) $(C_) $(GLSRC)gdevperm.c
### ------------------------- JPEG file format ------------------------- ###
jpeg_=$(GLOBJ)gdevjpeg.$(OBJ)
# RGB output
$(DD)jpeg.dev : $(DEVS_MAK) $(jpeg_) $(GLD)sdcte.dev $(GLD)page.dev
$(SETPDEV2) $(DD)jpeg $(jpeg_)
$(ADDMOD) $(DD)jpeg -include $(GLD)sdcte
# Gray output
$(DD)jpeggray.dev : $(DEVS_MAK) $(jpeg_) $(GLD)sdcte.dev $(GLD)page.dev
$(SETPDEV2) $(DD)jpeggray $(jpeg_)
$(ADDMOD) $(DD)jpeggray -include $(GLD)sdcte
# CMYK output
$(DD)jpegcmyk.dev : $(DEVS_MAK) $(jpeg_) $(GLD)sdcte.dev $(GLD)page.dev
$(SETPDEV2) $(DD)jpegcmyk $(jpeg_)
$(ADDMOD) $(DD)jpegcmyk -include $(GLD)sdcte
$(GLOBJ)gdevjpeg.$(OBJ) : $(GLSRC)gdevjpeg.c $(PDEVH)\
$(stdio__h) $(jpeglib__h)\
$(sdct_h) $(sjpeg_h) $(stream_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevjpeg.$(OBJ) $(C_) $(GLSRC)gdevjpeg.c
### ------------------------- MIFF file format ------------------------- ###
### Right now we support only 24-bit direct color, but we might add more ###
### formats in the future. ###
miff_=$(GLOBJ)gdevmiff.$(OBJ)
$(DD)miff24.dev : $(DEVS_MAK) $(miff_) $(GLD)page.dev
$(SETPDEV) $(DD)miff24 $(miff_)
$(GLOBJ)gdevmiff.$(OBJ) : $(GLSRC)gdevmiff.c $(PDEVH)
$(GLCC) $(GLO_)gdevmiff.$(OBJ) $(C_) $(GLSRC)gdevmiff.c
### ------------------------- PCX file formats ------------------------- ###
pcx_=$(GLOBJ)gdevpcx.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ)
$(GLOBJ)gdevpcx.$(OBJ) : $(GLSRC)gdevpcx.c $(PDEVH) $(gdevpccm_h) $(gxlum_h)
$(GLCC) $(GLO_)gdevpcx.$(OBJ) $(C_) $(GLSRC)gdevpcx.c
$(DD)pcxmono.dev : $(DEVS_MAK) $(pcx_) $(GLD)page.dev
$(SETPDEV2) $(DD)pcxmono $(pcx_)
$(DD)pcxgray.dev : $(DEVS_MAK) $(pcx_) $(GLD)page.dev
$(SETPDEV2) $(DD)pcxgray $(pcx_)
$(DD)pcx16.dev : $(DEVS_MAK) $(pcx_) $(GLD)page.dev
$(SETPDEV2) $(DD)pcx16 $(pcx_)
$(DD)pcx256.dev : $(DEVS_MAK) $(pcx_) $(GLD)page.dev
$(SETPDEV2) $(DD)pcx256 $(pcx_)
$(DD)pcx24b.dev : $(DEVS_MAK) $(pcx_) $(GLD)page.dev
$(SETPDEV2) $(DD)pcx24b $(pcx_)
$(DD)pcxcmyk.dev : $(DEVS_MAK) $(pcx_) $(GLD)page.dev
$(SETPDEV2) $(DD)pcxcmyk $(pcx_)
# The 2-up PCX device is here only as an example, and for testing.
$(DD)pcx2up.dev : $(DEVS_MAK) $(LIB_MAK) $(ECHOGS_XE) $(GLOBJ)gdevp2up.$(OBJ) $(GLD)page.dev $(DD)pcx256.dev
$(SETPDEV) $(DD)pcx2up $(GLOBJ)gdevp2up.$(OBJ)
$(ADDMOD) $(DD)pcx2up -include $(DD)pcx256
$(GLOBJ)gdevp2up.$(OBJ) : $(GLSRC)gdevp2up.c $(AK)\
$(gdevpccm_h) $(gdevprn_h) $(gxclpage_h)
$(GLCC) $(GLO_)gdevp2up.$(OBJ) $(C_) $(GLSRC)gdevp2up.c
### ------------------- Portable Bitmap file formats ------------------- ###
### For more information, see the pam(5), pbm(5), pgm(5), and ppm(5) ###
### man pages. ###
pxm_=$(GLOBJ)gdevpbm.$(OBJ) $(GLOBJ)gdevppla.$(OBJ) $(GLOBJ)gdevmpla.$(OBJ)
$(GLOBJ)gdevpbm.$(OBJ) : $(GLSRC)gdevpbm.c $(PDEVH)\
$(gdevmpla_h) $(gdevplnx_h) $(gdevppla_h)\
$(gscdefs_h) $(gscspace_h) $(gxgetbit_h) $(gxiparam_h) $(gxlum_h)
$(GLCC) $(GLO_)gdevpbm.$(OBJ) $(C_) $(GLSRC)gdevpbm.c
### Portable Bitmap (PBM, plain or raw format, magic numbers "P1" or "P4")
$(DD)pbm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pbm $(pxm_)
$(DD)pbmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pbmraw $(pxm_)
### Portable Graymap (PGM, plain or raw format, magic numbers "P2" or "P5")
$(DD)pgm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pgm $(pxm_)
$(DD)pgmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pgmraw $(pxm_)
# PGM with automatic optimization to PBM if this is possible.
$(DD)pgnm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pgnm $(pxm_)
$(DD)pgnmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pgnmraw $(pxm_)
### Portable Pixmap (PPM, plain or raw format, magic numbers "P3" or "P6")
$(DD)ppm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)ppm $(pxm_)
$(DD)ppmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)ppmraw $(pxm_)
# PPM with automatic optimization to PGM or PBM if possible.
$(DD)pnm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pnm $(pxm_)
$(DD)pnmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pnmraw $(pxm_)
### Portable inKmap (CMYK internally, converted to PPM=RGB at output time)
$(DD)pkm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pkm $(pxm_)
$(DD)pkmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pkmraw $(pxm_)
### Portable Separated map (CMYK internally, produces 4 monobit pages)
$(DD)pksm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pksm $(pxm_)
$(DD)pksmraw.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pksmraw $(pxm_)
### Plan 9 bitmap format
$(DD)plan9bm.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)plan9bm $(pxm_)
### Portable Arbitrary Map (PAM, magic number "P7", CMYK)
$(DD)pam.dev : $(DEVS_MAK) $(pxm_) $(GLD)page.dev
$(SETPDEV2) $(DD)pam $(pxm_)
### --------------- Portable Network Graphics file format --------------- ###
### Requires libpng 0.81 and zlib 0.95 (or more recent versions). ###
### See libpng.mak and zlib.mak for more details. ###
png__h=$(GLSRC)png_.h $(MAKEFILE)
png_=$(GLOBJ)gdevpng.$(OBJ) $(GLOBJ)gdevpccm.$(OBJ)
libpng_dev=$(PNGGENDIR)$(D)libpng.dev
png_i_=-include $(PNGGENDIR)$(D)libpng
$(GLOBJ)gdevpng.$(OBJ) : $(GLSRC)gdevpng.c\
$(gdevprn_h) $(gdevpccm_h) $(gscdefs_h) $(png__h)
$(CC_) $(I_)$(GLI_) $(II)$(PI_)$(_I) $(PCF_) $(GLF_) $(GLO_)gdevpng.$(OBJ) $(C_) $(GLSRC)gdevpng.c
$(DD)pngmono.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)pngmono $(png_)
$(ADDMOD) $(DD)pngmono $(png_i_)
$(DD)pnggray.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)pnggray $(png_)
$(ADDMOD) $(DD)pnggray $(png_i_)
$(DD)png16.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)png16 $(png_)
$(ADDMOD) $(DD)png16 $(png_i_)
$(DD)png256.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)png256 $(png_)
$(ADDMOD) $(DD)png256 $(png_i_)
$(DD)png16m.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)png16m $(png_)
$(ADDMOD) $(DD)png16m $(png_i_)
$(DD)png48.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)png48 $(png_)
$(ADDMOD) $(DD)png48 $(png_i_)
$(DD)pngalpha.dev : $(DEVS_MAK) $(libpng_dev) $(png_) $(GLD)page.dev
$(SETPDEV2) $(DD)pngalpha $(png_)
$(ADDMOD) $(DD)pngalpha $(png_i_)
### -------------------- PNG with transparency -------------------- ###
pnga_=$(GLOBJ)gdevpnga.$(OBJ)
$(DD)pnga.dev : $(pnga_)
$(SETDEV) $(DD)pnga $(pnga_)
$(GLOBJ)gdevpnga.$(OBJ) : $(GLSRC)gdevpnga.c $(png__h)\
$(gscdefs_h) $(gsdevice_h) $(gxblend_h) $(gxtext_h)\
$(gdevmem_h) $(gdevpccm_h) $(gdevprn_h)
$(CC_) $(I_)$(GLI_) $(II)$(PI_)$(_I) $(PCF_) $(GLF_) $(GLO_)gdevpnga.$(OBJ) $(C_) $(GLSRC)gdevpnga.c
### ---------------------- PostScript image format ---------------------- ###
### These devices make it possible to print monochrome Level 2 files on a ###
### Level 1 printer, by converting them to a bitmap in PostScript ###
### format. They also can convert big, complex color PostScript files ###
### to (often) smaller and more easily printed bitmaps. ###
psim_=$(GLOBJ)gdevpsim.$(OBJ) $(GLOBJ)gdevpsu.$(OBJ)
$(GLOBJ)gdevpsim.$(OBJ) : $(GLSRC)gdevpsim.c $(PDEVH)\
$(gdevpsu_h)\
$(sa85x_h) $(srlx_h) $(stream_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevpsim.$(OBJ) $(C_) $(GLSRC)gdevpsim.c
# Monochrome, Level 1 output
$(DD)psmono.dev : $(DEVS_MAK) $(psim_) $(GLD)page.dev
$(SETPDEV2) $(DD)psmono $(psim_)
$(DD)psgray.dev : $(DEVS_MAK) $(psim_) $(GLD)page.dev
$(SETPDEV2) $(DD)psgray $(psim_)
# RGB, Level 2 output
$(DD)psrgb.dev : $(DEVS_MAK) $(psim_) $(GLD)page.dev
$(SETPDEV2) $(DD)psrgb $(psim_)
### ---------------- Fax encoding ---------------- ###
# By default, these drivers recognize 3 page sizes -- (U.S.) letter, A4, and
# B4 -- and adjust the page width to the nearest legal value for real fax
# systems (1728 or 2048 pixels). To suppress this, set the device parameter
# AdjustWidth to 0 (e.g., -dAdjustWidth=0 on the command line).
gdevfax_h=$(GLSRC)gdevfax.h
fax_=$(GLOBJ)gdevfax.$(OBJ)
$(DD)fax.dev : $(DEVS_MAK) $(fax_) $(GLD)cfe.dev
$(SETMOD) $(DD)fax $(fax_)
$(ADDMOD) $(DD)fax -include $(GLD)cfe
$(GLOBJ)gdevfax.$(OBJ) : $(GLSRC)gdevfax.c $(PDEVH)\
$(gdevfax_h) $(scfx_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevfax.$(OBJ) $(C_) $(GLSRC)gdevfax.c
$(DD)faxg3.dev : $(DEVS_MAK) $(DD)fax.dev
$(SETDEV2) $(DD)faxg3 -include $(DD)fax
$(DD)faxg32d.dev : $(DEVS_MAK) $(DD)fax.dev
$(SETDEV2) $(DD)faxg32d -include $(DD)fax
$(DD)faxg4.dev : $(DEVS_MAK) $(DD)fax.dev
$(SETDEV2) $(DD)faxg4 -include $(DD)fax
### -------------------- Plain or TIFF fax encoding --------------------- ###
### Use -sDEVICE=tiffg3 or tiffg4 and ###
### -r204x98 for low resolution output, or ###
### -r204x196 for high resolution output ###
gdevtifs_h=$(GLSRC)gdevtifs.h
gdevtfax_h=$(GLSRC)gdevtfax.h
tfax_=$(GLOBJ)gdevtfax.$(OBJ)
$(DD)tfax.dev : $(DEVS_MAK) $(tfax_) $(GLD)cfe.dev $(GLD)lzwe.dev $(GLD)rle.dev $(DD)fax.dev $(DD)tiffs.dev
$(SETMOD) $(DD)tfax $(tfax_)
$(ADDMOD) $(DD)tfax -include $(GLD)cfe $(GLD)lzwe $(GLD)rle
$(ADDMOD) $(DD)tfax -include $(DD)fax $(DD)tiffs
$(GLOBJ)gdevtfax.$(OBJ) : $(GLSRC)gdevtfax.c $(PDEVH)\
$(gdevfax_h) $(gdevtfax_h) $(gdevtifs_h)\
$(scfx_h) $(slzwx_h) $(srlx_h) $(strimpl_h)
$(GLCC) $(GLO_)gdevtfax.$(OBJ) $(C_) $(GLSRC)gdevtfax.c
### ---------------------------- TIFF formats --------------------------- ###
tiffs_=$(GLOBJ)gdevtifs.$(OBJ)
$(DD)tiffs.dev : $(DEVS_MAK) $(tiffs_) $(GLD)page.dev
$(SETMOD) $(DD)tiffs $(tiffs_)
$(ADDMOD) $(DD)tiffs -include $(GLD)page
$(GLOBJ)gdevtifs.$(OBJ) : $(GLSRC)gdevtifs.c $(PDEVH) $(stdio__h) $(time__h)\
$(gdevtifs_h) $(gscdefs_h) $(gstypes_h)
$(GLCC) $(GLO_)gdevtifs.$(OBJ) $(C_) $(GLSRC)gdevtifs.c
# Black & white, G3/G4 fax
# NOTE: see under faxg* above regarding page width adjustment.
$(DD)tiffcrle.dev : $(DEVS_MAK) $(DD)tfax.dev
$(SETDEV2) $(DD)tiffcrle -include $(DD)tfax
$(DD)tiffg3.dev : $(DEVS_MAK) $(DD)tfax.dev
$(SETDEV2) $(DD)tiffg3 -include $(DD)tfax
$(DD)tiffg32d.dev : $(DEVS_MAK) $(DD)tfax.dev
$(SETDEV2) $(DD)tiffg32d -include $(DD)tfax
$(DD)tiffg4.dev : $(DEVS_MAK) $(DD)tfax.dev
$(SETDEV2) $(DD)tiffg4 -include $(DD)tfax
# Black & white, LZW compression
$(DD)tifflzw.dev : $(DEVS_MAK) $(DD)tfax.dev
$(SETDEV2) $(DD)tifflzw -include $(DD)tfax
# Black & white, PackBits compression
$(DD)tiffpack.dev : $(DEVS_MAK) $(DD)tfax.dev
$(SETDEV2) $(DD)tiffpack -include $(DD)tfax
# TIFF Gray, no compression
tiffgray_=$(GLOBJ)gdevtsep.$(OBJ)
$(DD)tiffgray.dev : $(DEVS_MAK) $(tiffgray_) $(DD)tiffs.dev
$(SETPDEV2) $(DD)tiffgray $(tiffgray_)
$(ADDMOD) $(DD)tiffgray -include $(DD)tiffs
$(GLOBJ)gdevtsep.$(OBJ) : $(GLSRC)gdevtsep.c $(PDEVH) $(gdevtifs_h)\
$(gdevdevn_h) $(gsequivc_h)
$(GLCC) $(GLO_)gdevtsep.$(OBJ) $(C_) $(GLSRC)gdevtsep.c
# TIFF RGB, no compression
tiffrgb_=$(GLOBJ)gdevtfnx.$(OBJ)
$(DD)tiff12nc.dev : $(DEVS_MAK) $(tiffrgb_) $(DD)tiffs.dev
$(SETPDEV2) $(DD)tiff12nc $(tiffrgb_)
$(ADDMOD) $(DD)tiff12nc -include $(DD)tiffs
$(DD)tiff24nc.dev : $(DEVS_MAK) $(tiffrgb_) $(DD)tiffs.dev
$(SETPDEV2) $(DD)tiff24nc $(tiffrgb_)
$(ADDMOD) $(DD)tiff24nc -include $(DD)tiffs
$(GLOBJ)gdevtfnx.$(OBJ) : $(GLSRC)gdevtfnx.c $(PDEVH) $(gdevtifs_h)
$(GLCC) $(GLO_)gdevtfnx.$(OBJ) $(C_) $(GLSRC)gdevtfnx.c
# TIFF CMYK, no compression
$(DD)tiff32nc.dev : $(DEVS_MAK) $(tiffgray_) $(DD)tiffs.dev
$(SETPDEV2) $(DD)tiff32nc $(tiffgray_)
$(ADDMOD) $(DD)tiff32nc -include $(DD)tiffs
#
# Create separation files (tiffgray) plus CMYK composite (tiff32nc)
tiffsep_=$(tiffgray_) $(GLOBJ)gdevdevn.$(OBJ) $(GLOBJ)gsequivc.$(OBJ)
$(DD)tiffsep.dev : $(DEVS_MAK) $(tiffgray_) $(DD)tiffs.dev
$(SETPDEV2) $(DD)tiffsep $(tiffsep_)
$(ADDMOD) $(DD)tiffsep -include $(DD)tiffs
|
