Available map attribute values (R22)
Contents
1. INTREPID User Manual Available map attribute values R22 1 Library Help Top 4 Back gt Available map attribute values R22 Top If you are using the Map Composition tool interactively you can usually specify attribute values by choosing them from a list or palette or by typing them in If you are preparing your map by programming in MAPCOMP then you also need to type the required values into your MAPCOMP file See Specifying map attribute values T45e for instructions on choosing attribute values from lists or palettes This appendix describes the available attribute values that you can type in when using the Map Composition tool interactively and when programming in MAPCOMP language Symbol shape If you are specifying a symbol by name either in MAPCOMP language or in the interactive Map Composition tool you can use any of the symbol names in the following sections In MAPCOMP the lt symbo1 gt data type must take one of the values described here Standard symbol shapes hierarchy Library Help Top The standard INTREPID Map symbol set has a ranking order Using a legend you can represent ranges of values with different symbols We have arranged the list in order from the symbol that normally corresponds to the lowest value through to the symbol that corresponds to the highest value Square Plus Asterisk Circle Triangle Cross SquarePlus SquareCross Dot SolidSquare SolidCircle SolidTriangle Soli2. common convention is to use the term font to refer to typeface The Map Composition tool uses this convention the term font is used to label buttons and text boxes that control typeface INTREPID has a standard set of typefaces including a default internal typeface font 0 and a number of typefaces defined by typeface files in the directory install_path font where install_pathis the location of your INTREPID installation The names of the typefaces files are font2 fnt font20 fnt In MAPCOMP your typeface selection is represented by the lt typeface gt data type which is a whole number The lt typeface gt value for a typeface corresponds to the number in its file name For example if you specify typeface 18 INTREPID will use font18 fnt as the typeface definition INTREPID does not necessarily have all typeface numbers between 1 and 20 Use the Typeface dialog box interactively or check the directory install_path font for the existence of the corresponding file if you are uncertain If you specify font 0 or select Default from the Typeface dialog box INTREPID will use its internal default typeface which does not have a fnt file You can specify font size in millimetres 1 millimetre equals approximately 3 points more exactly 2 83 points 2012 Intrepid Geophysics 4 Back gt INTREPID User Manual Available map attribute values R22 6 Library Help Top 4 Back gt Line thickness and font weight Li
3. dSquarePlus SolidSquareCross This hierarchy is defined in mapcomp cfg You can edit it if required See Map composition configuration files R21 for further information 2012 Intrepid Geophysics lt 4 Back gt INTREPID User Manual Library Help Top Special purpose symbol shapes Available map attribute values R22 2 lt 4 Back gt The following symbol shapes are not part of the standard symbol hierarchy We have designed them with special purposes in mind as described here You can directly use the Naudy model output fields dip length width rather than the scaled versions MC_slope MC_length MC_width If you are composing map of a Naudy model point dataset using rectangle and or dip symbols we recommend the following field to attribute assignments MAPCOMP attribute of Naudy dataset field Naudy dataset field to assign to dip rectangle or dip to assign to symbol symbol rectangle symbol colour depth If used with rectangle symbol black If used alone depth field angle strike strike size length length thickness width dip rectangle The rectangle symbol consists of a filled rectangle shape You can specify the rectangle symbol s other attributes as shown in the following table A typical use of the rectangle symbol is to show inferred geological structures calculated by the Naudy Automatic Model tool The table includes suggestions for representing Naudy model sol
4. e Lookup table lut files in Map composition configuration files R21 for a full description of lookup table specification If you are using a variety of lookup tables or have both grey scale and pseudocolour elements in your map data then we recommend that you avoid using these names in Map Composition interactive mode e The names foreground and background These are INTREPID system colour identifiers whose precise definition depend on the context For the purposes of Map Composition you can take foreground to be black and background to be white In MAPCOMP the lt colour gt data type must take one of the values described above 2012 Intrepid Geophysics 4 Back gt INTREPID User Manual Library Help Top HP GL and DGN pen numbers Library Help Top Available map attribute values R22 7 4 Back gt If you are using HP GL not HP GL 2 or DGN the driver will select pens according to the following table Pen number DGN HP GL Black 0 1 White 1 2 Red 2 3 Green 3 4 Blue 4 5 Legendl 5 6 Legend2 6 7 Legend1 16 17 2 Imagel 17 18 Image2 18 19 Image25 271 272 5 2012 Intrepid Geophysics 4 Back gt
5. l attribute Suggested value or Naudy model MAPCOMP solutions point dataset field for display colour colour Z depth of inferred geological structure angle rotation angle 0 L strike strike of inferred geological North South structure size length of crossbar MC_length length of inferred geological structure perpendicular to line direction thickness length of shaft MC_ slope dip of inferred geological structure Thickness of lines fixed at 0 2 mm Library Help Top 2012 Intrepid Geophysics 4 Back gt INTREPID User Manual Available map attribute values R22 4 Library Help Top lt 4 Back gt pointer The pointer symbol is a simple bar shape with variable orientation thickness and length You can specify the pointer symbol s other attributes as shown in the following table A typical use of the pointer symbol is to plot trend information The table includes suggestions for representing data from the trend dataset generated during the trend spline gridding process See Initial gridding Trend Spline in Old Gridding T22 and other sections for more information Attribute in Pointer symbol Suggested value or trend point MAPCOMP attribute dataset field for display colour colour TRENDZ gridded Z field value for data point angle angle 0 orientation BEARING direction of detected trend North South size length of bar 2 thickness thickne
6. ne styles Whenever you specify a line thickness or the weight of a font you can select it from the following thickness levels 0 1 2 3 0 corresponds to the thinnest line that the output device can produce Numbers gt 0 correspond to the thickness in millimetres In INTREPID lt thickness gt must take one of these values Whenever you specify a line style you can select it from the following solid dash dashdot In a line dataset path plot you can also specify the bipole style See Bipole style in Including datasets in a map composition T45b or details In MAPCOMP the lt style gt data type must take one of these values Colour Specifications Library Help Top If you are specifying a colour by name you can use any of the following colour names Colours from the X 11 named colours database This database includes the colour names black white red green blue yellow magenta cyan and maps names to specific RGB mixes e g Cyan is 000r255g255b PapayaWhip is 255r239g213b The file rgb txt in the install_path config directory where install1_pathis the location of your INTREPID installation contains a complete list of these colours and their corresponding RGB values Explicit RGB values using decimal numbers in the range 0 255 and the format 999r999 999b e g 255r125g000b The names imagel image256 e g image33 These names specify colours from the currently loaded lookup table Lut file Se
7. ss of bar 0 Symbol size You can specify symbol sizes in millimetres Tick types Whenever you specify tick marks in you can select the tick mark type value from the following tick grid border In MAPCOMP the lt ticktype gt data type must take one of these values Fill types Whenever you specify a polygon or rectangle annotation select the Fill attribute from the following solid hollow In MAPCOMP the lt filltype gt data type must take one of these values Library Help Top 2012 Intrepid Geophysics 4 Back gt INTREPID User Manual Available map attribute values R22 5 Library Help Top 4 Back gt Text justification Whenever you specify text select its justification from the following IE ct rt lec cc re lb cb rb where 1 c r stand for left centre right andt c b stand for top centre bottom The default value is normally 1b This data type enables you to specify text to be located in one of nine positions in a text object In MAPCOMP the lt justification gt data type must take one of these values You can also displace text from the left bottom of the object with the XY lt number gt lt number gt statement Typeface font Font size Library Help Top Note With regard to text the term font when correctly used refers to a combination of a typeface character shape a size and a style e g normal bold italic However a
8. utions point datasets See Structure of Naudy model point datasets in Naudy Automatic Model interpretation T43 and other sections for more information Attribute in MAPCOMP Rectangle attribute Suggested value or Naudy model solutions point dataset field for display colour colour MC_slope dip of inferred geological structure angle size angle from North North South dimension for angle 0 0 MC_length length of inferred geological structure perpendicular to line direction thickness East West dimension for angle 0 MC_width width of inferred geological structure parallel to line direction Thickness of lines fixed at 0 2 mm Library Help Top 2012 Intrepid Geophysics 4 Back gt INTREPID User Manual Available map attribute values R22 3 Library Help Top lt 4 Back gt dip The dip symbol is a T shape with variable orientation and lengths of its two lines Crossbar Shaft lt gt Rotation You can specify the dip symbol s other attributes as shown in the following table A typical use of the dip symbol is to show inferred geological structures calculated by the Naudy Automatic Model tool The table includes suggestions for representing Naudy model solutions point datasets See Structure of Naudy model point datasets in Naudy Automatic Model interpretation T43 for more information Attribute in Dip symbo
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