/******************************************************************************
 * $Id: dataset.cpp 25776 2013-03-20 20:46:48Z rouault $
 *
 * Project:  WMS Client Driver
 * Purpose:  Implementation of Dataset and RasterBand classes for WMS
 *           and other similar services.
 * Author:   Adam Nowacki, nowak@xpam.de
 *
 ******************************************************************************
 * Copyright (c) 2007, Adam Nowacki
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 ****************************************************************************
 *
 * dataset.cpp:
 * Initialization of the GDALWMSdriver, parsing the XML configuration file, 
 * instantiation of the minidrivers and accessors used by minidrivers
 *
 ***************************************************************************/ 


#include "stdinc.h"

GDALWMSDataset::GDALWMSDataset() {
    m_mini_driver = 0;
    m_cache = 0;
    m_hint.m_valid = false;
    m_data_type = GDT_Byte;
    m_clamp_requests = true;
    m_unsafeSsl = false;
    m_data_window.m_sx = -1;
    nBands = 0;
    m_default_block_size_x = 1024;
    m_default_block_size_y = 1024;
    m_bNeedsDataWindow = TRUE;
    m_default_tile_count_x = 1;
    m_default_tile_count_y = 1;
    m_default_overview_count = -1;
    m_zeroblock_on_serverexceptions = 0;
    m_poColorTable = NULL;
}

GDALWMSDataset::~GDALWMSDataset() {
    if (m_mini_driver) delete m_mini_driver;
    if (m_cache) delete m_cache;
    if (m_poColorTable) delete m_poColorTable;
}

CPLErr GDALWMSDataset::Initialize(CPLXMLNode *config) {
    CPLErr ret = CE_None;

    char* pszXML = CPLSerializeXMLTree( config );
    if (pszXML)
    {
        m_osXML = pszXML;
        CPLFree(pszXML);
    }

    // Initialize the minidriver, which can set parameters for the dataset using member functions
    CPLXMLNode *service_node = CPLGetXMLNode(config, "Service");
    if (service_node != NULL)
    {
        const CPLString service_name = CPLGetXMLValue(service_node, "name", "");
        if (!service_name.empty())
        {
            GDALWMSMiniDriverManager *const mdm = GetGDALWMSMiniDriverManager();
            GDALWMSMiniDriverFactory *const mdf = mdm->Find(service_name);
            if (mdf != NULL)
            {
                m_mini_driver = mdf->New();
                m_mini_driver->m_parent_dataset = this;
                if (m_mini_driver->Initialize(service_node) == CE_None)
                {
                    m_mini_driver_caps.m_capabilities_version = -1;
                    m_mini_driver->GetCapabilities(&m_mini_driver_caps);
                    if (m_mini_driver_caps.m_capabilities_version == -1)
                    {
                        CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Internal error, mini-driver capabilities version not set.");
                        ret = CE_Failure;
                    }
                }
                else
                {
                    delete m_mini_driver;
                    m_mini_driver = NULL;

                    CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Failed to initialize minidriver.");
                    ret = CE_Failure;
                }
            }
            else
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                                "GDALWMS: No mini-driver registered for '%s'.", service_name.c_str());
                ret = CE_Failure;
            }
        }
        else
        {
            CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: No Service specified.");
            ret = CE_Failure;
        }
    }
    else
    {
        CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: No Service specified.");
        ret = CE_Failure;
    }


    /*
    Parameters that could be set by minidriver already, based on server side information.
    If the size is set, minidriver has done this already
    A "server" side minidriver needs to set at least:
      - Blocksize (x and y)
      - Clamp flag (defaults to true)
      - DataWindow
      - Band Count
      - Data Type
    It should also initialize and register the bands and overviews.
    */

    if (m_data_window.m_sx<1)
    {
        int nOverviews = 0;

        if (ret == CE_None)
        {
            m_block_size_x = atoi(CPLGetXMLValue(config, "BlockSizeX", CPLString().Printf("%d", m_default_block_size_x)));
            m_block_size_y = atoi(CPLGetXMLValue(config, "BlockSizeY", CPLString().Printf("%d", m_default_block_size_y)));
            if (m_block_size_x <= 0 || m_block_size_y <= 0)
            {
                CPLError( CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value in BlockSizeX or BlockSizeY" );
                ret = CE_Failure;
            }
        }

        if (ret == CE_None)
        {
            m_clamp_requests = StrToBool(CPLGetXMLValue(config, "ClampRequests", "true"));
            if (m_clamp_requests<0)
            {
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of ClampRequests, true/false expected.");
                ret = CE_Failure;
            }
        }

        if (ret == CE_None)
        {
            CPLXMLNode *data_window_node = CPLGetXMLNode(config, "DataWindow");
            if (data_window_node == NULL && m_bNeedsDataWindow)
            {
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: DataWindow missing.");
                ret = CE_Failure;
            }
            else
            {
                CPLString osDefaultX0, osDefaultX1, osDefaultY0, osDefaultY1;
                CPLString osDefaultTileCountX, osDefaultTileCountY, osDefaultTileLevel;
                CPLString osDefaultOverviewCount;
                osDefaultX0.Printf("%.8f", m_default_data_window.m_x0);
                osDefaultX1.Printf("%.8f", m_default_data_window.m_x1);
                osDefaultY0.Printf("%.8f", m_default_data_window.m_y0);
                osDefaultY1.Printf("%.8f", m_default_data_window.m_y1);
                osDefaultTileCountX.Printf("%d", m_default_tile_count_x);
                osDefaultTileCountY.Printf("%d", m_default_tile_count_y);
                if (m_default_data_window.m_tlevel >= 0)
                    osDefaultTileLevel.Printf("%d", m_default_data_window.m_tlevel);
                if (m_default_overview_count >= 0)
                    osDefaultOverviewCount.Printf("%d", m_default_overview_count);
                const char *overview_count = CPLGetXMLValue(config, "OverviewCount", osDefaultOverviewCount);
                const char *ulx = CPLGetXMLValue(data_window_node, "UpperLeftX", osDefaultX0);
                const char *uly = CPLGetXMLValue(data_window_node, "UpperLeftY", osDefaultY0);
                const char *lrx = CPLGetXMLValue(data_window_node, "LowerRightX", osDefaultX1);
                const char *lry = CPLGetXMLValue(data_window_node, "LowerRightY", osDefaultY1);
                const char *sx = CPLGetXMLValue(data_window_node, "SizeX", "");
                const char *sy = CPLGetXMLValue(data_window_node, "SizeY", "");
                const char *tx = CPLGetXMLValue(data_window_node, "TileX", "0");
                const char *ty = CPLGetXMLValue(data_window_node, "TileY", "0");
                const char *tlevel = CPLGetXMLValue(data_window_node, "TileLevel", osDefaultTileLevel);
                const char *str_tile_count_x = CPLGetXMLValue(data_window_node, "TileCountX", osDefaultTileCountX);
                const char *str_tile_count_y = CPLGetXMLValue(data_window_node, "TileCountY", osDefaultTileCountY);
                const char *y_origin = CPLGetXMLValue(data_window_node, "YOrigin", "default");

                if (ret == CE_None)
                {
                    if ((ulx[0] != '\0') && (uly[0] != '\0') && (lrx[0] != '\0') && (lry[0] != '\0'))
                    {
                        m_data_window.m_x0 = atof(ulx);
                        m_data_window.m_y0 = atof(uly);
                        m_data_window.m_x1 = atof(lrx);
                        m_data_window.m_y1 = atof(lry);
                    }
                    else
                    {
                        CPLError(CE_Failure, CPLE_AppDefined,
                                 "GDALWMS: Mandatory elements of DataWindow missing: UpperLeftX, UpperLeftY, LowerRightX, LowerRightY.");
                        ret = CE_Failure;
                    }
                }

                m_data_window.m_tlevel = atoi(tlevel);

                if (ret == CE_None)
                {
                    if ((sx[0] != '\0') && (sy[0] != '\0'))
                    {
                        m_data_window.m_sx = atoi(sx);
                        m_data_window.m_sy = atoi(sy);
                    }
                    else if ((tlevel[0] != '\0') && (str_tile_count_x[0] != '\0') && (str_tile_count_y[0] != '\0'))
                    {
                        int tile_count_x = atoi(str_tile_count_x);
                        int tile_count_y = atoi(str_tile_count_y);
                        m_data_window.m_sx = tile_count_x * m_block_size_x * (1 << m_data_window.m_tlevel);
                        m_data_window.m_sy = tile_count_y * m_block_size_y * (1 << m_data_window.m_tlevel);
                    }
                    else
                    {
                        CPLError(CE_Failure, CPLE_AppDefined,
                                 "GDALWMS: Mandatory elements of DataWindow missing: SizeX, SizeY.");
                        ret = CE_Failure;
                    }
                }
                if (ret == CE_None)
                {
                    if ((tx[0] != '\0') && (ty[0] != '\0'))
                    {
                        m_data_window.m_tx = atoi(tx);
                        m_data_window.m_ty = atoi(ty);
                    }
                    else
                    {
                        CPLError(CE_Failure, CPLE_AppDefined,
                                 "GDALWMS: Mandatory elements of DataWindow missing: TileX, TileY.");
                        ret = CE_Failure;
                    }
                }

                if (ret == CE_None)
                {
                    if (overview_count[0] != '\0')
                    {
                        nOverviews = atoi(overview_count);
                    }
                    else if (tlevel[0] != '\0')
                    {
                        nOverviews = m_data_window.m_tlevel;
                    }
                    else
                    {
                        const int min_overview_size = MAX(32, MIN(m_block_size_x, m_block_size_y));
                        double a = log(static_cast<double>(MIN(m_data_window.m_sx, m_data_window.m_sy))) / log(2.0)
                            - log(static_cast<double>(min_overview_size)) / log(2.0);
                        nOverviews = MAX(0, MIN(static_cast<int>(ceil(a)), 32));
                    }
                }
                if (ret == CE_None)
                {
                    CPLString y_origin_str = y_origin;
                    if (y_origin_str == "top") {
                        m_data_window.m_y_origin = GDALWMSDataWindow::TOP;
                    } else if (y_origin_str == "bottom") {
                        m_data_window.m_y_origin = GDALWMSDataWindow::BOTTOM;
                    } else if (y_origin_str == "default") {
                        m_data_window.m_y_origin = GDALWMSDataWindow::DEFAULT;
                    } else {
                        CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: DataWindow YOrigin must be set to "
                            "one of 'default', 'top', or 'bottom', not '%s'.", y_origin_str.c_str());
                        ret = CE_Failure;
                    }
                }
            }
        }

        if (ret == CE_None)
        {
            if (nBands<1)
                nBands=atoi(CPLGetXMLValue(config,"BandsCount","3"));
            if (nBands<1)
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "GDALWMS: Bad number of bands.");
                ret = CE_Failure;
            }
        }

        if (ret == CE_None)
        {
            const char *data_type = CPLGetXMLValue(config, "DataType", "Byte");
            m_data_type = GDALGetDataTypeByName( data_type );
            if ( m_data_type == GDT_Unknown || m_data_type >= GDT_TypeCount )
            {
                CPLError( CE_Failure, CPLE_AppDefined,
                          "GDALWMS: Invalid value in DataType. Data type \"%s\" is not supported.", data_type );
                ret = CE_Failure;
            }
        }

        // Initialize the bands and the overviews.  Assumes overviews are powers of two
        if (ret == CE_None)
        {
            nRasterXSize = m_data_window.m_sx;
            nRasterYSize = m_data_window.m_sy;

            if (!GDALCheckDatasetDimensions(nRasterXSize, nRasterYSize) ||
                !GDALCheckBandCount(nBands, TRUE))
            {
                return CE_Failure;
            }

            GDALColorInterp default_color_interp[4][4] = {
                { GCI_GrayIndex, GCI_Undefined, GCI_Undefined, GCI_Undefined },
                { GCI_GrayIndex, GCI_AlphaBand, GCI_Undefined, GCI_Undefined },
                { GCI_RedBand, GCI_GreenBand, GCI_BlueBand, GCI_Undefined },
                { GCI_RedBand, GCI_GreenBand, GCI_BlueBand, GCI_AlphaBand }
            };
            for (int i = 0; i < nBands; ++i)
            {
                GDALColorInterp color_interp = (nBands <= 4 && i <= 3 ? default_color_interp[nBands - 1][i] : GCI_Undefined);
                GDALWMSRasterBand *band = new GDALWMSRasterBand(this, i, 1.0);
                band->m_color_interp = color_interp;
                SetBand(i + 1, band);
                double scale = 0.5;
                for (int j = 0; j < nOverviews; ++j)
                {
                    band->AddOverview(scale);
                    band->m_color_interp = color_interp;
                    scale *= 0.5;
                }
            }
        }
    }
    
    // UserPwd 
    const char *pszUserPwd = CPLGetXMLValue(config, "UserPwd", "");
    if (pszUserPwd[0] != '\0')
        m_osUserPwd = pszUserPwd;

    const char *pszUserAgent = CPLGetXMLValue(config, "UserAgent", "");
    if (pszUserAgent[0] != '\0')
        m_osUserAgent = pszUserAgent;
    
    const char *pszReferer = CPLGetXMLValue(config, "Referer", "");
    if (pszReferer[0] != '\0')
        m_osReferer = pszReferer;
    
    if (ret == CE_None) {
        const char *pszHttpZeroBlockCodes = CPLGetXMLValue(config, "ZeroBlockHttpCodes", "");
        if(pszHttpZeroBlockCodes == '\0') {
            m_http_zeroblock_codes.push_back(204);
        } else {
            char **kv = CSLTokenizeString2(pszHttpZeroBlockCodes,",",CSLT_HONOURSTRINGS);
            int nCount = CSLCount(kv);
            for(int i=0; i<nCount; i++) {
                int code = atoi(kv[i]);
                if(code <= 0) {
                    CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of ZeroBlockHttpCodes \"%s\", comma separated HTTP response codes expected.",
                            kv[i]);
                    ret = CE_Failure;
                    break;
                }
                m_http_zeroblock_codes.push_back(code);
            }
            CSLDestroy(kv);
        }
    }

    if (ret == CE_None) {
        const char *pszZeroExceptions = CPLGetXMLValue(config, "ZeroBlockOnServerException", "");
        if(pszZeroExceptions[0] != '\0') {
            m_zeroblock_on_serverexceptions = StrToBool(pszZeroExceptions);
            if (m_zeroblock_on_serverexceptions == -1) {
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of ZeroBlockOnServerException \"%s\", true/false expected.",
                     pszZeroExceptions);
                ret = CE_Failure;
            }
        }
    }

    if (ret == CE_None) {
        const char *max_conn = CPLGetXMLValue(config, "MaxConnections", "");
        if (max_conn[0] != '\0') {
            m_http_max_conn = atoi(max_conn);
        } else {
            m_http_max_conn = 2;
        }
    }
    if (ret == CE_None) {
        const char *timeout = CPLGetXMLValue(config, "Timeout", "");
        if (timeout[0] != '\0') {
            m_http_timeout = atoi(timeout);
        } else {
            m_http_timeout = 300;
        }
    }
    if (ret == CE_None) {
        const char *offline_mode = CPLGetXMLValue(config, "OfflineMode", "");
        if (offline_mode[0] != '\0') {
            const int offline_mode_bool = StrToBool(offline_mode);
            if (offline_mode_bool == -1) {
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of OfflineMode, true / false expected.");
                ret = CE_Failure;
            } else {
                m_offline_mode = offline_mode_bool;
            }
        } else {
            m_offline_mode = 0;
        }
    }

    if (ret == CE_None) {
        const char *advise_read = CPLGetXMLValue(config, "AdviseRead", "");
        if (advise_read[0] != '\0') {
            const int advise_read_bool = StrToBool(advise_read);
            if (advise_read_bool == -1) {
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of AdviseRead, true / false expected.");
                ret = CE_Failure;
            } else {
                m_use_advise_read = advise_read_bool;
            }
        } else {
            m_use_advise_read = 0;
        }
    }

    if (ret == CE_None) {
        const char *verify_advise_read = CPLGetXMLValue(config, "VerifyAdviseRead", "");
        if (m_use_advise_read) {
            if (verify_advise_read[0] != '\0') {
                const int verify_advise_read_bool = StrToBool(verify_advise_read);
                if (verify_advise_read_bool == -1) {
                    CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of VerifyAdviseRead, true / false expected.");
                    ret = CE_Failure;
                } else {
                    m_verify_advise_read = verify_advise_read_bool;
                }
            } else {
                m_verify_advise_read = 1;
            }
        }
    }

    // Let the local configuration override the minidriver supplied projection

    if (ret == CE_None) {
        const char *proj = CPLGetXMLValue(config, "Projection", "");
        if (proj[0] != '\0') {
            m_projection = ProjToWKT(proj);
            if (m_projection.size() == 0) {
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Bad projection specified.");
                ret = CE_Failure;
            }
        }
    }

    // Same for Min, Max and NoData, defined per band or per dataset
    // If they are set as null strings, they clear the server declared values
    if (ret == CE_None) {
       // Data values are attributes, they include NoData Min and Max
       // TODO: document those options
       if (0!=CPLGetXMLNode(config,"DataValues")) {
           const char *nodata=CPLGetXMLValue(config,"DataValues.NoData",NULL);
           if (nodata!=NULL) WMSSetNoDataValue(nodata);
           const char *min=CPLGetXMLValue(config,"DataValues.min",NULL);
           if (min!=NULL) WMSSetMinValue(min);
           const char *max=CPLGetXMLValue(config,"DataValues.max",NULL);
           if (max!=NULL) WMSSetMaxValue(max);
       }
    }

    if (ret == CE_None) {
        CPLXMLNode *cache_node = CPLGetXMLNode(config, "Cache");
        if (cache_node != NULL) {
            m_cache = new GDALWMSCache();
            if (m_cache->Initialize(cache_node) != CE_None) {
                delete m_cache;
                m_cache = NULL;
                CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Failed to initialize cache.");
                ret = CE_Failure;
            }
        }
    }
    
    if (ret == CE_None) {
    	const int v = StrToBool(CPLGetXMLValue(config, "UnsafeSSL", "false"));
    	if (v == -1) {
	    CPLError(CE_Failure, CPLE_AppDefined, "GDALWMS: Invalid value of UnsafeSSL: true or false expected.");
	    ret = CE_Failure;
	} else {
	    m_unsafeSsl = v;
	}
    }

    if (ret == CE_None) {
        /* If we dont have projection already set ask mini-driver. */
        if (!m_projection.size()) {
            const char *proj = m_mini_driver->GetProjectionInWKT();
            if (proj != NULL) {
                m_projection = proj;
            }
        }
    }

    return ret;
}

CPLErr GDALWMSDataset::IRasterIO(GDALRWFlag rw, int x0, int y0, int sx, int sy, void *buffer, int bsx, int bsy, GDALDataType bdt, int band_count, int *band_map, int pixel_space, int line_space, int band_space) {
    CPLErr ret;

    if (rw != GF_Read) return CE_Failure;
    if (buffer == NULL) return CE_Failure;
    if ((sx == 0) || (sy == 0) || (bsx == 0) || (bsy == 0) || (band_count == 0)) return CE_None;

    m_hint.m_x0 = x0;
    m_hint.m_y0 = y0;
    m_hint.m_sx = sx;
    m_hint.m_sy = sy;
    m_hint.m_overview = -1;
    m_hint.m_valid = true;
    //	printf("[%p] GDALWMSDataset::IRasterIO(x0: %d, y0: %d, sx: %d, sy: %d, bsx: %d, bsy: %d, band_count: %d, band_map: %p)\n", this, x0, y0, sx, sy, bsx, bsy, band_count, band_map);
    ret = GDALDataset::IRasterIO(rw, x0, y0, sx, sy, buffer, bsx, bsy, bdt, band_count, band_map, pixel_space, line_space, band_space);
    m_hint.m_valid = false;

    return ret;
}

const char *GDALWMSDataset::GetProjectionRef() {
    return m_projection.c_str();
}

CPLErr GDALWMSDataset::SetProjection(const char *proj) {
    return CE_Failure;
}

CPLErr GDALWMSDataset::GetGeoTransform(double *gt) {
    gt[0] = m_data_window.m_x0;
    gt[1] = (m_data_window.m_x1 - m_data_window.m_x0) / static_cast<double>(m_data_window.m_sx);
    gt[2] = 0.0;
    gt[3] = m_data_window.m_y0;
    gt[4] = 0.0;
    gt[5] = (m_data_window.m_y1 - m_data_window.m_y0) / static_cast<double>(m_data_window.m_sy);
    return CE_None;
}

CPLErr GDALWMSDataset::SetGeoTransform(double *gt) {
    return CE_Failure;
}

const GDALWMSDataWindow *GDALWMSDataset::WMSGetDataWindow() const {
    return &m_data_window;
}

void GDALWMSDataset::WMSSetBlockSize(int x, int y) {
    m_block_size_x=x;
    m_block_size_y=y;
}

void GDALWMSDataset::WMSSetRasterSize(int x, int y) {
    nRasterXSize=x;
    nRasterYSize=y;
}

void GDALWMSDataset::WMSSetBandsCount(int count) {
    nBands=count;
}

void GDALWMSDataset::WMSSetClamp(bool flag=true) {
    m_clamp_requests=flag;
}

void GDALWMSDataset::WMSSetDataType(GDALDataType type) {
    m_data_type=type;
}

void GDALWMSDataset::WMSSetDataWindow(GDALWMSDataWindow &window) {
    m_data_window=window;
}

void GDALWMSDataset::WMSSetDefaultBlockSize(int x, int y) {
    m_default_block_size_x=x;
    m_default_block_size_y=y;
}

void GDALWMSDataset::WMSSetDefaultDataWindowCoordinates(double x0, double y0, double x1, double y1)
{
    m_default_data_window.m_x0 = x0;
    m_default_data_window.m_y0 = y0;
    m_default_data_window.m_x1 = x1;
    m_default_data_window.m_y1 = y1;
}

void GDALWMSDataset::WMSSetDefaultTileCount(int tilecountx, int tilecounty)
{
    m_default_tile_count_x = tilecountx;
    m_default_tile_count_y = tilecounty;
}

void GDALWMSDataset::WMSSetDefaultTileLevel(int tlevel)
{
    m_default_data_window.m_tlevel = tlevel;
}

void GDALWMSDataset::WMSSetDefaultOverviewCount(int overview_count)
{
    m_default_overview_count = overview_count;
}

void GDALWMSDataset::WMSSetNeedsDataWindow(int flag)
{
    m_bNeedsDataWindow = flag;
}

static void list2vec(std::vector<double> &v,const char *pszList)
{
    if ((pszList==NULL)||(pszList[0]==0)) return;
    char **papszTokens=CSLTokenizeString2(pszList," \t\n\r",
        CSLT_STRIPLEADSPACES|CSLT_STRIPENDSPACES);
    v.clear();
    for (int i=0;i<CSLCount(papszTokens);i++)
        v.push_back(CPLStrtod(papszTokens[i],NULL));
    CSLDestroy(papszTokens);
}

void GDALWMSDataset::WMSSetNoDataValue(const char * pszNoData)
{
    list2vec(vNoData,pszNoData);
}

void GDALWMSDataset::WMSSetMinValue(const char * pszMin)
{
    list2vec(vMin,pszMin);
}

void GDALWMSDataset::WMSSetMaxValue(const char * pszMax)
{
    list2vec(vMax,pszMax);
}

CPLErr GDALWMSDataset::AdviseRead(int x0, int y0, int sx, int sy, int bsx, int bsy, GDALDataType bdt, int band_count, int *band_map, char **options) {
//    printf("AdviseRead(%d, %d, %d, %d)\n", x0, y0, sx, sy);
    if (m_offline_mode || !m_use_advise_read) return CE_None;
    if (m_cache == NULL) return CE_Failure;

    GDALRasterBand *band = GetRasterBand(1);
    if (band == NULL) return CE_Failure;
    return band->AdviseRead(x0, y0, sx, sy, bsx, bsy, bdt, options);
}

const char *GDALWMSDataset::GetMetadataItem( const char * pszName,
                                             const char * pszDomain )
{
    if( pszName != NULL && EQUAL(pszName, "XML") &&
        pszDomain != NULL && EQUAL(pszDomain, "WMS") )
    {
        return (m_osXML.size()) ? m_osXML.c_str() : NULL;
    }

    return GDALPamDataset::GetMetadataItem(pszName, pszDomain);
}