/* Copyright (C) 1991, 2000 Aladdin Enterprises. 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: gscspace.h,v 1.14 2004/08/04 19:36:12 stefan Exp $ */ /* Client interface to color spaces */ #ifndef gscspace_INCLUDED # define gscspace_INCLUDED #include "gsmemory.h" #include "gsiparam.h" /* * The handling of color spaces in the graphic library is somewhat * awkward because of historical artifacts. * * The PostScript Level 1 (DeviceGray/RGB) color spaces, and the "Level * 1 1/2" DeviceCMYK space, have no associated parameters. Therefore, * they can be represented as simple objects (just a pointer to a type * vector containing procedures and parameters). This was the original * design. * * PostScript Level 2 and LanguageLevel 3 add two new kinds of color spaces: * color spaces with parameters (CIEBased and DevicePixel spaces), and * compound color spaces (Indexed, Separation, Pattern, and DeviceN spaces), * with parameters that include a specification of an alternative or * underlying color space. To handle these spaces, we extended the original * design to store in-line certain scalar parameters (i.e., parameters other * than the complex color transformation data for CIEBased spaces, the lookup * table for Indexed spaces, and the list of component names for DeviceN * spaces) in the color space object. For compound spaces, this requires * storing a color space in-line inside another color space, which is clearly * impossible. Therefore, we defined a generality hierarchy for color spaces: * * - Base spaces (DeviceGray/RGB/CMYK/Pixel, CIEBased), whose * whose parameters (if any) don't include other color spaces. * * - Direct spaces (base spaces + Separation and DeviceN), which * may have a base space as an alternative space. * * - Paint spaces (direct spaces + Indexed), which may have a direct * space as the underlying space * * - General spaces (paint spaces + Pattern), which may have a * paint space as the underlying space. * * With this approach, a general space can include a paint space stored * in-line; a paint space (either in its own right or as the underlying * space of a Pattern space) can include a direct space in-line; and a * direct space can include a base space in-line. * * The introduction of ICCBased color spaces in PDF 1.3 wrecked havoc on * this hierarchy. ICCBased color spaces contain alternative color spaces, * which may be paint spaces. On the other hand, ICCBased spaces may be * use as alternative or underlying color spaces in direct and paint * spaces. * * The proper solution to this problem would be to reference alternative and * underlying color spaces via a pointer. The cost and risk of that approach * is, however, larger than is warranted just by the addition of ICCBased * color spaces. Another alternative is to allow just base color spaces to * include an alternative color space via a pointer. That would require two * separate mechanisms for dealing with alternative color spaces, which * seems messy and may well cause problems in the future. * * Examination of some PDF files indicates that ICCBased color spaces are * routinely used as alternative spaces for Separation or Device color * spaces, but essentially never make use of alternative color spaces other * than the device-specific spaces. To support this usage, the approach * taken here splits previous base color space class into "small" and * "regular" base color spaces. Small base color spaces include all of * those color spaces that previously were considered base spaces. Regular * base spaces add the ICCBased color spaces to this set. To maintain * compatibility with the existing code base, regular base spaces make use * of the gs_base_color_space type name. * * Note that because general, paint, direct, regular base, and small base * spaces are (necessarily) of different sizes, assigning (copying the top * object of) color spaces must take into account the actual size of the * color space being assigned. In principle, this also requires checking * that the source object will actually fit into the destination. Currently * we rely on the caller to ensure that this is the case; in fact, the * current API (gs_cspace_init and gs_cspace_assign) doesn't even provide * enough information to make the check. * * In retrospect, we might have gotten a simpler design without significant * performance loss by always referencing underlying and alternate spaces * through a pointer; however, at this point, the cost and risk of changing * to such a design are too high. * * There are two aspects to memory management for color spaces: managing * the color space objects themselves, and managing the non-scalar * parameters that they reference (if any). * * - Color space objects per se have no special management properties: * they can be allocated on the stack or on the heap, and freed by * scope exit, explicit deallocation, or garbage collection. * * - Separately allocated (non-scalar) color space parameters are * managed by reference counting. Currently we do this for the * CIEBased spaces, and for the first-level parameters of Indexed and * Separation spaces: clients must deal with deallocating the other * parameter structures mentioned above, including the Indexed lookup * table if any. This is clearly not a good situation, but we don't * envision fixing it any time soon. * * Here is the information associated with the various color space * structures. Note that DevicePixel, DeviceN, and the ability to use * Separation or DeviceN spaces as the base space of an Indexed space * are LanguageLevel 3 additions. Unfortunately, the terminology for the * different levels of generality is confusing and inconsistent for * historical reasons. * * For base spaces: * * Space Space parameters Color parameters * ----- ---------------- ---------------- * DeviceGray (none) 1 real [0-1] * DeviceRGB (none) 3 reals [0-1] * DeviceCMYK (none) 4 reals [0-1] * DevicePixel depth 1 int [up to depth bits] * CIEBasedDEFG dictionary 4 reals * CIEBasedDEF dictionary 3 reals * CIEBasedABC dictionary 3 reals * CIEBasedA dictionary 1 real * * For non-base direct spaces: * * Space Space parameters Color parameters * ----- ---------------- ---------------- * * Separation name, alt_space, tint_xform 1 real [0-1] * DeviceN names, alt_space, tint_xform N reals * * For non-direct paint spaces: * * Space Space parameters Color parameters * ----- ---------------- ---------------- * Indexed base_space, hival, lookup 1 int [0-hival] * ICCBased dictionary, alt_space 1, 3, or 4 reals * * For non-paint spaces: * * Space Space parameters Color parameters * ----- ---------------- ---------------- * Pattern colored: (none) dictionary * uncolored: base_space dictionary + base space params */ /* * Define color space type indices. NOTE: PostScript code (gs_res.ps, * gs_ll3.ps) and the color space substitution code (gscssub.[hc] and its * clients) assumes values 0-2 for DeviceGray/RGB/CMYK respectively. */ typedef enum { /* Supported in all configurations */ gs_color_space_index_DeviceGray = 0, gs_color_space_index_DeviceRGB, /* Supported in extended Level 1, and in Level 2 and above */ gs_color_space_index_DeviceCMYK, /* Supported in LanguageLevel 3 only */ gs_color_space_index_DevicePixel, gs_color_space_index_DeviceN, /* Supported in Level 2 and above only */ /* DEC C truncates identifiers at 32 characters, so.... */ gs_color_space_index_CIEDEFG, gs_color_space_index_CIEDEF, gs_color_space_index_CIEABC, gs_color_space_index_CIEA, gs_color_space_index_Separation, gs_color_space_index_Indexed, gs_color_space_index_Pattern, /* Supported in PDF 1.3 and later only */ gs_color_space_index_CIEICC } gs_color_space_index; /* We define the names only for debugging printout. */ #define GS_COLOR_SPACE_TYPE_NAMES\ "DeviceGray", "DeviceRGB", "DeviceCMYK", "DevicePixel", "DeviceN",\ "ICCBased", "CIEBasedDEFG", "CIEBasedDEF", "CIEBasedABC", "CIEBasedA",\ "Separation", "Indexed", "Pattern" /* Define an abstract type for color space types (method structures). */ typedef struct gs_color_space_type_s gs_color_space_type; /* * The common part of all color spaces. This structure now includes a memory * structure pointer, so that it may be released without providing this * information separately. (type is a pointer to the structure of methods.) * * Note that all color space structures consist of the basic information and * a union containing some additional information. The macro operand is that * union. */ #define gs_cspace_common(param_union) \ const gs_color_space_type * type; \ gs_memory_t * pmem; \ gs_id id; \ union { \ param_union; \ } params /* * Parameters for "small" base color spaces. Of the small base color spaces, * only DevicePixel and CIE spaces have parameters: see gscie.h for the * structure definitions for CIE space parameters. */ typedef struct gs_device_pixel_params_s { int depth; } gs_device_pixel_params; typedef struct gs_cie_a_s gs_cie_a; typedef struct gs_cie_abc_s gs_cie_abc; typedef struct gs_cie_def_s gs_cie_def; typedef struct gs_cie_defg_s gs_cie_defg; #define gs_small_base_cspace_params \ gs_device_pixel_params pixel; \ gs_cie_defg * defg; \ gs_cie_def * def; \ gs_cie_abc * abc; \ gs_cie_a * a typedef struct gs_small_base_color_space_s { gs_cspace_common(gs_small_base_cspace_params); } gs_small_base_color_space; #define gs_small_base_color_space_size sizeof(gs_small_base_color_space) /* * "Regular" base color spaces include all of the small base color space and * the ICCBased color space, which includes a small base color space as an * alternative color space. See gsicc.h for the structure definition of * gs_cie_icc_s. */ typedef struct gs_cie_icc_s gs_cie_icc; typedef struct gs_cieicc_params_s { gs_cie_icc * picc_info; gs_small_base_color_space alt_space; } gs_icc_params; #define gs_base_cspace_params \ gs_small_base_cspace_params;\ gs_icc_params icc typedef struct gs_base_color_space_s { gs_cspace_common(gs_base_cspace_params); } gs_base_color_space; #define gs_base_color_space_size sizeof(gs_base_color_space) #ifndef gs_device_n_map_DEFINED # define gs_device_n_map_DEFINED typedef struct gs_device_n_map_s gs_device_n_map; #endif /* * Non-base direct color spaces: Separation and DeviceN. * These include a base alternative color space. */ typedef ulong gs_separation_name; /* BOGUS */ /* * Define callback function for graphics library to ask * interpreter about character string representation of * component names. This is used for comparison of component * names with similar objects like ProcessColorModel colorant * names. */ typedef int (gs_callback_func_get_colorname_string) (const gs_memory_t *mem, gs_separation_name colorname, unsigned char **ppstr, unsigned int *plen); typedef enum { SEP_NONE, SEP_ALL, SEP_OTHER } separation_type; typedef struct gs_separation_params_s { gs_separation_name sep_name; gs_base_color_space alt_space; gs_device_n_map *map; separation_type sep_type; bool use_alt_cspace; gs_callback_func_get_colorname_string *get_colorname_string; } gs_separation_params; typedef struct gs_device_n_params_s { gs_separation_name *names; uint num_components; gs_base_color_space alt_space; gs_device_n_map *map; bool use_alt_cspace; gs_callback_func_get_colorname_string *get_colorname_string; } gs_device_n_params; #define gs_direct_cspace_params \ gs_base_cspace_params; \ gs_separation_params separation; \ gs_device_n_params device_n typedef struct gs_direct_color_space_s { gs_cspace_common(gs_direct_cspace_params); } gs_direct_color_space; #define gs_direct_color_space_size sizeof(gs_direct_color_space) /* * Non-direct paint space: Indexed space. * * Note that for indexed color spaces, hival is the highest support index, * which is one less than the number of entries in the palette (as defined * in PostScript). */ typedef struct gs_indexed_map_s gs_indexed_map; typedef struct gs_indexed_params_s { gs_direct_color_space base_space; int hival; /* num_entries - 1 */ union { gs_const_string table; /* size is implicit */ gs_indexed_map *map; } lookup; bool use_proc; /* 0 = use table, 1 = use proc & map */ } gs_indexed_params; #define gs_paint_cspace_params \ gs_direct_cspace_params; \ gs_indexed_params indexed typedef struct gs_paint_color_space_s { gs_cspace_common(gs_paint_cspace_params); } gs_paint_color_space; #define gs_paint_color_space_size sizeof(gs_paint_color_space) /* * Pattern parameter set. This may contain an instances of a paintable * color space. The boolean indicates if this is the case. */ typedef struct gs_pattern_params_s { bool has_base_space; gs_paint_color_space base_space; } gs_pattern_params; /* * Fully general color spaces. */ struct gs_color_space_s { gs_cspace_common( gs_paint_cspace_params; gs_pattern_params pattern ); }; #define gs_pattern_color_space_size sizeof(gs_color_space) /* * Define the abstract type for color space objects. */ #ifndef gs_color_space_DEFINED # define gs_color_space_DEFINED typedef struct gs_color_space_s gs_color_space; #endif /*extern_st(st_color_space); *//* in gxcspace.h */ #define public_st_color_space() /* in gscspace.c */ \ gs_public_st_composite( st_color_space, \ gs_color_space, \ "gs_color_space", \ color_space_enum_ptrs, \ color_space_reloc_ptrs \ ) #define st_color_space_max_ptrs 2 /* 1 base + 1 indexed */ /* ---------------- Procedures ---------------- */ /* ------ Create/copy/destroy ------ */ /* * Note that many of the constructors take no parameters, and the * remainder take only a few (CIE color spaces constructures take a * client data pointer as an operand, the composite color space (Separation, * Indexed, and Pattern) constructurs take the base space as an operand, * and the Indexed color space constructors have a few additiona operands). * This is done to conserve memory. If initialization values for all the * color space parameters were provided to the constructors, these values * would need to have some fairly generic format. Different clients gather * this data in different forms, so they would need to allocate memory to * convert it to the generic form, only to immediately release this memory * once the construction is complete. * * The alternative approach employed here is to provide a number of access * methods (macros) that return pointers to individual fields of the * various color space structures. This requires exporting only fairly simple * data structures, and so does not violate modularity too severely. * * NB: Of necessity, the macros provide access to modifiable structures. If * these structures are modified after the color space object is first * initialized, unpredictable and, most likely, undesirable results will * occur. * * The constructors return an integer, 0 on success and an * error code on failure (gs_error_VMerror or gs_error_rangecheck). * * In parallel with the constructors, we provide initializers that assume * the client has allocated the color space object (perhaps on the stack) * and takes responsibility for freeing it. */ extern int gs_cspace_init_DeviceGray(const gs_memory_t *mem, gs_color_space *pcs), gs_cspace_build_DeviceGray(gs_color_space ** ppcspace, gs_memory_t * pmem), gs_cspace_init_DeviceRGB(const gs_memory_t *mem, gs_color_space *pcs), gs_cspace_build_DeviceRGB(gs_color_space ** ppcspace, gs_memory_t * pmem), gs_cspace_init_DeviceCMYK(const gs_memory_t *mem, gs_color_space *pcs), gs_cspace_build_DeviceCMYK(gs_color_space ** ppcspace, gs_memory_t * pmem); /* Copy a color space into one newly allocated by the caller. */ void gs_cspace_init_from(gs_color_space * pcsto, const gs_color_space * pcsfrom); /* Assign a color space into a previously initialized one. */ void gs_cspace_assign(gs_color_space * pdest, const gs_color_space * psrc); /* Prepare to free a color space. */ void gs_cspace_release(gs_color_space * pcs); /* ------ Accessors ------ */ /* Get the index of a color space. */ gs_color_space_index gs_color_space_get_index(const gs_color_space *); /* Get the number of components in a color space. */ int gs_color_space_num_components(const gs_color_space *); /* * Test whether two color spaces are equal. Note that this test is * conservative: if it returns true, the color spaces are definitely * equal, while if it returns false, they might still be equivalent. */ bool gs_color_space_equal(const gs_color_space *pcs1, const gs_color_space *pcs2); /* Restrict a color to its legal range. */ #ifndef gs_client_color_DEFINED # define gs_client_color_DEFINED typedef struct gs_client_color_s gs_client_color; #endif void gs_color_space_restrict_color(gs_client_color *, const gs_color_space *); /* * Get the base space of an Indexed or uncolored Pattern color space, or the * alternate space of a Separation or DeviceN space. Return NULL if the * color space does not have a base/alternative color space. */ const gs_color_space *gs_cspace_base_space(const gs_color_space * pcspace); /* backwards compatibility */ #define gs_color_space_indexed_base_space(pcspace)\ gs_cspace_base_space(pcspace) #endif /* gscspace_INCLUDED */