/* Copyright (C) 2001-2012 Artifex Software, Inc.
   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.

   Refer to licensing information at http://www.artifex.com or contact
   Artifex Software, Inc.,  7 Mt. Lassen Drive - Suite A-134, San Rafael,
   CA  94903, U.S.A., +1(415)492-9861, for further information.
*/


/* ICCBased color operators */

#include "math_.h"
#include "memory_.h"
#include "ghost.h"
#include "oper.h"
#include "gsstruct.h"
#include "gxcspace.h"		/* gscolor2.h requires gscspace.h */
#include "stream.h"
#include "files.h"
#include "gscolor2.h"
#include "gsicc.h"
#include "estack.h"
#include "idict.h"
#include "idparam.h"
#include "igstate.h"
#include "icie.h"
#include "ialloc.h"
#include "zicc.h"
#include "gsicc_manage.h"
#include "gx.h"
#include "gxistate.h"
#include "gsicc_create.h"
#include "gsicc_profilecache.h"
#include "gxdevice.h"  /* for output intent setting */
#include "gsicc_cache.h"

int seticc(i_ctx_t * i_ctx_p, int ncomps, ref *ICCdict, float *range_buff)
{
    int                     code, k;
    gs_color_space *        pcs;
    gs_color_space *  palt_cs;
    ref *                   pstrmval;
    stream *                s = 0L;
    cmm_profile_t           *picc_profile;
    gs_imager_state *       pis = (gs_imager_state *)igs;
    int                     i, expected = 0;
    ref *                   pnameval;
    static const char *const icc_std_profile_names[] = {
            GSICC_STANDARD_PROFILES
        };
    static const char *const icc_std_profile_keys[] = {
            GSICC_STANDARD_PROFILES_KEYS
        };

    palt_cs = gs_currentcolorspace(igs);

    /* verify the DataSource entry */
    if (dict_find_string(ICCdict, "DataSource", &pstrmval) <= 0)
        return_error(e_undefined);
    check_read_file(i_ctx_p, s, pstrmval);

    /* build the color space object */
    code = gs_cspace_build_ICC(&pcs, NULL, gs_state_memory(igs));
    if (code < 0)
        return gs_rethrow(code, "building color space object");
    /*  For now, dump the profile into a buffer
        and obtain handle from the buffer when we need it.
        We may want to change this later.
        This depends to some degree on what the CMS is capable of doing.
        I don't want to get bogged down on stream I/O at this point.
        Note also, if we are going to be putting these into the clist we will
        want to have this buffer. */
    /* Check if we have the /Name entry.  This is used to associate with
       specs that have enumerated types to indicate sRGB sGray etc */
    if (dict_find_string(ICCdict, "Name", &pnameval) > 0){
        uint size = r_size(pnameval);
        char *str = (char *)gs_alloc_bytes(gs_state_memory(igs), size+1, "seticc");
        memcpy(str, (const char *)pnameval->value.bytes, size);
        str[size] = 0;

        /* Compare this to the standard profile names */
        picc_profile = NULL;
        for (k = 0; k < GSICC_NUMBER_STANDARD_PROFILES; k++) {
            if ( strcmp( str, icc_std_profile_keys[k] ) == 0 ) {
                picc_profile = gsicc_get_profile_handle_file(icc_std_profile_names[k],
                    strlen(icc_std_profile_names[k]), gs_state_memory(igs));
                break;
            }
        }
    } else {
        picc_profile = gsicc_profile_new(s, gs_state_memory(igs), NULL, 0);
    }
    if (picc_profile == NULL) {
        rc_decrement(picc_profile,"seticc");
        rc_decrement(pcs,"seticc");
        return -1;
    }
    code = gsicc_set_gscs_profile(pcs, picc_profile, gs_state_memory(igs));
    if (code < 0) {
        rc_decrement(picc_profile,"seticc");
        rc_decrement(pcs,"seticc");
        return code;
    }
    picc_profile->num_comps = ncomps;

    /* We have to get the profile handle due to the fact that we need to know
       if it has a data space that is CIELAB */
    picc_profile->profile_handle =
        gsicc_get_profile_handle_buffer(picc_profile->buffer,
                                        picc_profile->buffer_size);
    if (picc_profile->profile_handle == NULL) {
        /* Free up everything, the profile is not valid. We will end up going
           ahead and using a default based upon the number of components */
        rc_decrement(picc_profile,"seticc");
        rc_decrement(pcs,"seticc");
        return -1;
    }
    picc_profile->data_cs = gscms_get_profile_data_space(picc_profile->profile_handle);
    switch( picc_profile->data_cs ) {
        case gsCIEXYZ:
        case gsCIELAB:
        case gsRGB:
            expected = 3;
            break;
        case gsGRAY:
            expected = 1;
            break;
        case gsCMYK:
            expected = 4;
            break;
        case gsNCHANNEL:
            expected = 0;
            break;
        case gsNAMED:            /* Silence warnings */
        case gsUNDEFINED:        /* Silence warnings */
            break;
    }
    if (expected && ncomps != expected) {
        rc_decrement(picc_profile,"seticc");
        rc_decrement(pcs,"seticc");
        return_error(e_rangecheck);
    }

    /* Lets go ahead and get the hash code and check if we match one of the default spaces */
    /* Later we may want to delay this, but for now lets go ahead and do it */
    gsicc_init_hash_cs(picc_profile, pis);

    /* Set the range according to the data type that is associated with the
       ICC input color type.  Occasionally, we will run into CIELAB to CIELAB
       profiles for spot colors in PDF documents. These spot colors are typically described
       as separation colors with tint transforms that go from a tint value
       to a linear mapping between the CIELAB white point and the CIELAB tint
       color.  This results in a CIELAB value that we need to use to fill.  We
       need to detect this to make sure we do the proper scaling of the data.  For
       CIELAB images in PDF, the source is always normal 8 or 16 bit encoded data
       in the range from 0 to 255 or 0 to 65535.  In that case, there should not
       be any encoding and decoding to CIELAB.  The PDF content will not include
       an ICC profile but will set the color space to \Lab.  In this case, we use
       our seticc_lab operation to install the LAB to LAB profile, but we detect
       that we did that through the use of the is_lab flag in the profile descriptor.
       When then avoid the CIELAB encode and decode */
    if (picc_profile->data_cs == gsCIELAB) {
    /* If the input space to this profile is CIELAB, then we need to adjust the limits */
        /* See ICC spec ICC.1:2004-10 Section 6.3.4.2 and 6.4.  I don't believe we need to
           worry about CIEXYZ profiles or any of the other odds ones.  Need to check that though
           at some point. */
        picc_profile->Range.ranges[0].rmin = 0.0;
        picc_profile->Range.ranges[0].rmax = 100.0;
        picc_profile->Range.ranges[1].rmin = -128.0;
        picc_profile->Range.ranges[1].rmax = 127.0;
        picc_profile->Range.ranges[2].rmin = -128.0;
        picc_profile->Range.ranges[2].rmax = 127.0;
        picc_profile->islab = true;
    } else {
        for (i = 0; i < ncomps; i++) {
            picc_profile->Range.ranges[i].rmin = range_buff[2 * i];
            picc_profile->Range.ranges[i].rmax = range_buff[2 * i + 1];
        }
    }
    /* Now see if we are in an overide situation.  We have to wait until now
       in case this is an LAB profile which we will not overide */
    if (gs_currentoverrideicc(pis) && picc_profile->data_cs != gsCIELAB) {
        /* Free up the profile structure */
        switch( picc_profile->data_cs ) {
            case gsRGB:
                pcs->cmm_icc_profile_data = pis->icc_manager->default_rgb;
                break;
            case gsGRAY:
                pcs->cmm_icc_profile_data = pis->icc_manager->default_gray;
                break;
            case gsCMYK:
                pcs->cmm_icc_profile_data = pis->icc_manager->default_cmyk;
                break;
            default:
                break;
        }
        /* Have one increment from the color space.  Having these tied 
           together is not really correct.  Need to fix that.  ToDo.  MJV */
        rc_adjust(picc_profile, -2, "seticc");
        rc_increment(pcs->cmm_icc_profile_data);
    } 
    /* Set the color space.  We are done.  No joint cache here... */
    code = gs_setcolorspace(igs, pcs);
    /* The context has taken a reference to the colorspace. We no longer need
     * ours, so drop it. */
    rc_decrement_only(pcs, "seticc");
    /* In this case, we already have a ref count of 2 on the icc profile
       one for when it was created and one for when it was set.  We really
       only want one here so adjust */
    rc_decrement(picc_profile,"seticc");
    /* Remove the ICC dict from the stack */
    pop(1);
    return code;
}

/*
 *   <dict>  .set_outputintent  -
 *
 * Set and use the specified output intent.  
 *
 */
static int
zset_outputintent(i_ctx_t * i_ctx_p)
{
    os_ptr                  op = osp;
    int                     code = 0;
    gx_device *dev = gs_currentdevice(igs);
    gs_imager_state *pis = (gs_imager_state *)igs;
    cmm_dev_profile_t       *dev_profile;
    stream *                s = 0L;
    ref *                   pnval;
    ref *                   pstrmval;
    int                     ncomps, dev_comps;
    cmm_profile_t           *picc_profile;
    int                     expected = 0;
    gs_color_space_index    index;
    gsicc_manager_t         *icc_manager = pis->icc_manager;
    cmm_profile_t           *source_profile = NULL;

    check_type(*op, t_dictionary);
    check_dict_read(*op);
    if_debug0(gs_debug_flag_icc,"[icc] Using OutputIntent\n");

    /* Get the device structure */
    code = dev_proc(dev, get_profile)(dev,  &dev_profile);
    if (dev_profile == NULL) { 
        code = gsicc_init_device_profile_struct(dev, NULL, 0);
        code = dev_proc(dev, get_profile)(dev,  &dev_profile);
    }
    if (dev_profile->oi_profile != NULL) {
        return 0;  /* Allow only one setting of this object */
    }
    code = dict_find_string(op, "N", &pnval);
    if (code < 0)
        return code;
    ncomps = pnval->value.intval;

    /* verify the DataSource entry. Creat profile from stream */
    if (dict_find_string(op, "DataSource", &pstrmval) <= 0)
        return_error(e_undefined);
    check_read_file(i_ctx_p, s, pstrmval);

    picc_profile = gsicc_profile_new(s, gs_state_memory(igs), NULL, 0);
    picc_profile->num_comps = ncomps;
    picc_profile->profile_handle =
        gsicc_get_profile_handle_buffer(picc_profile->buffer,
                                        picc_profile->buffer_size);
    if (picc_profile->profile_handle == NULL) {
        rc_decrement(picc_profile,"zset_outputintent");
        return -1;
    }
    picc_profile->data_cs = gscms_get_profile_data_space(picc_profile->profile_handle);
    switch (picc_profile->data_cs) {
        case gsCIEXYZ:
        case gsCIELAB:
        case gsRGB:
            expected = 3;
            source_profile = icc_manager->default_rgb;
            break;
        case gsGRAY:
            expected = 1;
            source_profile = icc_manager->default_gray;
            break;
        case gsCMYK:
            expected = 4;
            source_profile = icc_manager->default_cmyk;
            break;
        case gsNCHANNEL:
            expected = 0;
            break;
        case gsNAMED:            
        case gsUNDEFINED:        
            break;
    }
    if (expected && ncomps != expected) {
        rc_decrement(picc_profile,"zset_outputintent");
        return_error(e_rangecheck);
    }
    gsicc_init_hash_cs(picc_profile, pis);

    /* All is well with the profile.  Lets set the stuff that needs to be set */
    dev_profile->oi_profile = picc_profile;
    picc_profile->name = (char *) gs_alloc_bytes(picc_profile->memory, 
                                                 MAX_DEFAULT_ICC_LENGTH,
                                                 "zset_outputintent");
    strncpy(picc_profile->name, OI_PROFILE, strlen(OI_PROFILE));
    picc_profile->name[strlen(OI_PROFILE)] = 0;
    picc_profile->name_length = strlen(OI_PROFILE);
    /* Set the range of the profile */
    gscms_set_icc_range(&picc_profile);

    /* If the output device has a different number of componenets, then we are 
       going to set the output intent as the proofing profile, unless the 
       proofing profile has already been set. 

       If the device has the same number of components (and color model) then as 
       the profile we will use this as the output profile, unless someone has 
       explicitly set the output profile.

       Finally, we will use the output intent profile for the default profile
       of the proper Device profile in the icc manager, again, unless someone
       has explicitly set this default profile. */

    dev_comps = dev_profile->device_profile[0]->num_comps;
    index = gsicc_get_default_type(dev_profile->device_profile[0]);
    if (ncomps == dev_comps && index < gs_color_space_index_DevicePixel) {
        /* The OI profile is the same type as the profile for the device and a 
           "default" profile for the device was not externally set. So we go 
           ahead and use the OI profile as the device profile.  Care needs to be 
           taken here to keep from screwing up any device parameters.   We will 
           use a keyword of OIProfile for the user/device parameter to indicate 
           its usage.  Also, note conflicts if one is setting object dependent 
           color management */
        rc_assign(dev_profile->device_profile[0], picc_profile, 
                  "zset_outputintent");
        if_debug0(gs_debug_flag_icc,"[icc] OutputIntent used for device profile\n");
    } else {
        if (dev_profile->proof_profile == NULL) {
            /* This means that we should use the OI profile as the proofing 
               profile.  Note that if someone already has specified a 
               proofing profile it is unclear what they are trying to do
               with the output intent.  In this case, we will use it 
               just for the source data below */
            dev_profile->proof_profile = picc_profile;
            rc_increment(picc_profile);
            if_debug0(gs_debug_flag_icc,"[icc] OutputIntent used for proof profile\n");
        }
    }
    /* Now the source colors.  See which source color space needs to use the
       output intent ICC profile */
    index = gsicc_get_default_type(source_profile);
    if (index < gs_color_space_index_DevicePixel) {
        /* source_profile is currently the default.  Set it to the OI profile */
        switch (picc_profile->data_cs) {
            case gsGRAY:
                if_debug0(gs_debug_flag_icc,"[icc] OutputIntent used source Gray\n");
                rc_assign(icc_manager->default_gray, picc_profile, 
                          "zset_outputintent");
                break;
            case gsRGB:
                if_debug0(gs_debug_flag_icc,"[icc] OutputIntent used source RGB\n");
                rc_assign(icc_manager->default_rgb, picc_profile, 
                          "zset_outputintent");
                break;
            case gsCMYK:
                if_debug0(gs_debug_flag_icc,"[icc] OutputIntent used source CMYK\n");
                rc_assign(icc_manager->default_cmyk, picc_profile, 
                          "zset_outputintent");
                break;
            default:
                break;
        }
    }
    /* Remove the output intent dict from the stack */
    pop(1);
    return code;
}

/*
 *   <dict>  .seticcspace  -
 *
 * Create an ICCBased color space and set it to be the current color space.
 *
 * The PostScript structure of an ICCBased color space is that same as that
 * for a CIEBased* color space:
 *
 *     [ /ICCBased <dictionary> ]
 *
 * As is the for other .setcie*space operators, the operand dictionary rather
 * than the complete color space array is on the stack when this operator
 * is inovked.
 *
 * At the time this procedure is called, the alternative color space for
 * the ICCBased color space is expected to be the current color space,
 * whether that space was explicitly specified or implied by the number
 * of components in the ICCBased color space dictionary. This is consistent
 * with the handling of alternative spaces in Separation, DeviceN, and
 * Indexed color spaces. Unlike the "zset*space" routines for those spaces,
 * however, the current code does not attempt to build the color space
 * "in place" in the graphic state.
 *
 * The procedure that invokes this operator will already have checked that
 * the operand is a dictionary, is readable, and defines the key /N
 * (number of components).
 */
static int
zseticcspace(i_ctx_t * i_ctx_p)
{
    os_ptr                  op = osp;
    int                     code;
    gs_color_space *  palt_cs;
    ref *                   pnval;
    ref *                   pstrmval;
    stream *                s;
    int                     i, ncomps;
    float                   range_buff[8];
    static const float      dflt_range[8] = { 0, 1,   0, 1,   0, 1,   0, 1 };

    code = dict_find_string(op, "N", &pnval);
    if (code < 0)
        return code;
    ncomps = pnval->value.intval;
    if (2*ncomps > sizeof(range_buff)/sizeof(range_buff[0]))
        return_error(e_rangecheck);
    /* verify the DataSource entry */
    if (dict_find_string(op, "DataSource", &pstrmval) <= 0)
        return_error(e_undefined);
    check_read_file(i_ctx_p, s, pstrmval);
    /*
     * Verify that the current color space can be a alternative color space.
     * The check for ICCBased color space is a hack to avoid introducing yet
     * another category indicator into the gs_color_space_type structur.
     */
    palt_cs = gs_currentcolorspace(igs);
    if ( !palt_cs->type->can_be_alt_space                                ||
         gs_color_space_get_index(palt_cs) == gs_color_space_index_ICC  )
        return_error(e_rangecheck);
    /*
     * Fetch and verify the Range array.
     *
     * The PDF documentation is unclear as to the purpose of this array.
     * Essentially all that is stated is that "These values must match the
     * information in the ICC profile" (PDF Reference, 2nd ed., p. 174).
     * If that is the case, why not use the information in the profile?
     * The only reason we can think of is range specification is intended
     * to be used to limit the range of values passed to the alternate
     * color space (the range may be smaller than the native range of values
     * provided by that color space).
     *
     * Because the cms code will perform normalization based on color
     * space, we use the range values only to restrict the set of input
     * values; they are not used for normalization.
     */
    code = dict_floats_param( imemory,
                              op,
                              "Range",
                              2 * ncomps,
                              range_buff,
                              dflt_range );
    for (i = 0; i < 2 * ncomps && range_buff[i + 1] >= range_buff[i]; i += 2)
        ;
    if (i != 2 * ncomps)
        return_error(e_rangecheck);
    return seticc(i_ctx_p, ncomps, op, range_buff);
}

/* Install a ICC type color space and use the ICC LABLUT profile. */
int
seticc_lab(i_ctx_t * i_ctx_p, float *white, float *black, float *range_buff)
{
    int                     code;
    gs_color_space *        pcs;
    gs_color_space *        palt_cs;
    gs_imager_state *       pis = (gs_imager_state *)igs;
    int                     i;
    static const char *const rfs = LAB_ICC;
    gs_param_string val, *pval;

    val.data = (const byte *)rfs;
    val.size = strlen(rfs);
    val.persistent = true;
    pval = &val;

    palt_cs = gs_currentcolorspace(igs);
    /* build the color space object */
    code = gs_cspace_build_ICC(&pcs, NULL, gs_state_memory(igs));
    if (code < 0)
        return gs_rethrow(code, "building color space object");
    /* record the current space as the alternative color space */
    /* pcs->base_space = palt_cs;
    rc_increment_cs(palt_cs); */
    /* Get the lab profile.  It may already be set in the icc manager.
       If not then lets populate it.  */
    if (pis->icc_manager->lab_profile == NULL ) {
        /* This can't happen as the profile
           should be initialized during the
           setting of the user params */
        return gs_rethrow(code, "cannot find lab icc profile");
    }
    /* Assign the LAB to LAB profile to this color space */
    code = gsicc_set_gscs_profile(pcs, pis->icc_manager->lab_profile, gs_state_memory(igs));
    rc_increment(pis->icc_manager->lab_profile);
    if (code < 0)
        return gs_rethrow(code, "installing the lab profile");
    pcs->cmm_icc_profile_data->Range.ranges[0].rmin = 0.0;
    pcs->cmm_icc_profile_data->Range.ranges[0].rmax = 100.0;
    for (i = 1; i < 3; i++) {
        pcs->cmm_icc_profile_data->Range.ranges[i].rmin =
            range_buff[2 * (i-1)];
        pcs->cmm_icc_profile_data->Range.ranges[i].rmax =
            range_buff[2 * (i-1) + 1];
    }
    /* Set the color space.  We are done.  */
    code = gs_setcolorspace(igs, pcs);
    return code;
}

/* Install an ICC space from the PDF CalRGB or CalGray types */
int
seticc_cal(i_ctx_t * i_ctx_p, float *white, float *black, float *gamma,
           float *matrix, int num_colorants, ulong dictkey)
{
    int                     code;
    gs_color_space *        pcs;
    gs_imager_state *       pis = (gs_imager_state *)igs;
    gs_memory_t             *mem = pis->memory;
    int                     i;
    cmm_profile_t           *cal_profile;

    /* See if the color space is in the profile cache */
    pcs = gsicc_find_cs(dictkey, igs);
    if (pcs == NULL ) {
        /* build the color space object.  Since this is cached
           in the profile cache which is a member variable
           of the graphic state, we will want to use stable
           memory here */
        code = gs_cspace_build_ICC(&pcs, NULL, mem->stable_memory);
        if (code < 0)
            return gs_rethrow(code, "building color space object");
        /* There is no alternate for this.  Perhaps we should set DeviceRGB? */
        pcs->base_space = NULL;
        /* Create the ICC profile from the CalRGB or CalGray parameters */
        cal_profile = gsicc_create_from_cal(white, black, gamma, matrix,
                                            mem->stable_memory, num_colorants);
        if (cal_profile == NULL)
            return gs_rethrow(-1, "creating the cal profile");
        /* Assign the profile to this color space */
        code = gsicc_set_gscs_profile(pcs, cal_profile, mem->stable_memory);
        if (code < 0)
            return gs_rethrow(code, "installing the cal profile");
        for (i = 0; i < num_colorants; i++) {
            pcs->cmm_icc_profile_data->Range.ranges[i].rmin = 0;
            pcs->cmm_icc_profile_data->Range.ranges[i].rmax = 1;
        }
        /* Add the color space to the profile cache */
        gsicc_add_cs(igs, pcs,dictkey);
    }
    /* Set the color space.  We are done.  */
    code = gs_setcolorspace(igs, pcs);
    return code;
}

const op_def    zicc_ll3_op_defs[] = {
    op_def_begin_ll3(),
    { "1.seticcspace", zseticcspace },    
    { "1.set_outputintent", zset_outputintent },
    op_def_end(0)
};