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''Example 2:'' Changing the color settings of attribute 0 (the background) to dark blue in [[SCREEN]]s 12 or 13.
''Example 2:'' Changing the color settings of attribute 0 (the background) to blue in [[SCREEN]]s 12 or 13.
{{CodeStart}} '' ''
{{CodeStart}} '' ''
{{Cl|SCREEN}} 12
{{Cl|SCREEN}} 12
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{{Cl|OUT}} {{Cl|&H}}3C9, 0          'red intensity
{{Cl|OUT}} {{Cl|&H}}3C9, 0          'red intensity
{{Cl|OUT}} {{Cl|&H}}3C9, 0          'green intensity
{{Cl|OUT}} {{Cl|&H}}3C9, 0          'green intensity
{{Cl|OUT}} {{Cl|&H}}3C9, 30         'blue intensity  
{{Cl|OUT}} {{Cl|&H}}3C9, 42         'blue intensity  


{{Cl|OUT}} {{Cl|&H}}3C7, 0
{{Cl|OUT}} {{Cl|&H}}3C7, 0
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{{Cl|END}}'' ''
{{Cl|END}}'' ''
{{CodeEnd}}
{{CodeEnd}}
{{CodeStart}} 0  0  30 {{CodeEnd}}
{{OutputStartBG1}} 0  0  30 {{OutputEnd}}





Revision as of 14:56, 26 April 2022

The COLOR statement is used to change the foreground and background colors for printing text.

Syntax

COLOR [foreground&][, background&]


Description

  • background& colors are available in all QB64 color SCREEN modes.
  • SCREEN mode 10 has only 3 white foreground attributes including flashing.
  • To change the background& color only, use a comma and the desired color. Ex: COLOR , background&
  • Graphic drawing statements like PSET, PRESET, LINE, etc, also use the colors set by the COLOR statement if no color is passed when they are called.
  • The $COLOR metacommand adds named color constants for both text and 32-bit modes.


Screen Mode Attributes

  • SCREEN 0 background& colors 0 to 7 can be changed each text character without affecting other text. Use CLS after a background color statement to create a fullscreen background color. 64 DAC hues with 16 high intensity blinking foreground (16 to 31) color attributes. See _BLINK.
    • See example 7 below for more SCREEN 0 background colors.
  • SCREEN 1 has 4 background color attributes: 0 = black, 1 = blue, 2 = green, 3 = grey. White foreground color only.
  • SCREEN 2 is monochrome with white forecolor and black background.
  • SCREEN 7 can use 16 (DAC) colors with background colors. RGB settings can be changed in colors 0 to 7 using _PALETTECOLOR.
  • SCREEN 8 has 16 color attributes with 16 background colors.
  • SCREEN 9 can use up to 64 DAC color hues in 16 color attributes with background colors assigned to attribute 0 with a _PALETTECOLOR swap. RGB settings can be changed in colors 0 to 5 and 7 using _PALETTECOLOR.
  • SCREEN 10 has only 4 color attributes with black background. COLOR 0 = black, 1 = grey, 2 = flash white and 3 = bright white.
  • SCREEN 11 is monochrome with white forecolor and a black background.
  • SCREEN 12 can use 16 color attributes with a black background. 256K possible RGB color hues. Background colors can be used with QB64.
  • SCREEN 13 can use 256 color attributes with a black background. 256K possible RGB hues.
  • PALETTE swaps can be made in SCREEN 7 and 9 only. Those screens were DAC screen modes in QBasic.
  • _DEST can be used to set the destination page or image to color using QB64.
  • _DEFAULTCOLOR returns the current color being used on an image or screen page handle.


24/32-Bit colors using QB64

  • Pixel color intensities for red, green, blue and alpha range from 0 to 255 when used with _RGB, _RGBA, _RGB32 and RGBA32.
  • Combined RGB function values returned are LONG values. Blue intensity values may be cut off using SINGLE variables.
  • _ALPHA transparency values can range from 0 as transparent up to 255 which is fully opaque.
  • _CLEARCOLOR can also be used to set a color as transparent.
  • Colors can be mixed by using _BLEND (default) in 32-bit screen modes. _DONTBLEND disables blending.
  • NOTE: Default 32-bit backgrounds are clear black or _RGBA(0, 0, 0, 0). Use CLS to make the black opaque.

(Return to Table of Contents)

RGB Palette Intensities

RGB intensity values can be converted to hexadecimal values to create the LONG _PALETTECOLOR value in non-32-bit screens:

  
SCREEN 12
alpha$ = "FF" 'solid alpha colors only
PRINT "Attribute = Hex value      Red          Green         Blue "
PRINT
COLOR 7 
FOR attribute = 1 TO 15
  OUT &H3C7, attribute 'set color attribute to read
  red$ = HEX$(INP(&H3C9) * 4) 'convert port setting to 32 bit values
  grn$ = HEX$(INP(&H3C9) * 4)
  blu$ = HEX$(INP(&H3C9) * 4)
  IF LEN(red$) = 1 THEN red$ = "0" + red$ '2 hex digits required
  IF LEN(grn$) = 1 THEN grn$ = "0" + grn$ 'for low or zero hex values
  IF LEN(blu$) = 1 THEN blu$ = "0" + blu$
  hex32$ = "&H" + alpha$ + red$ + grn$ + blu$
  _PALETTECOLOR attribute, VAL(hex32$) 'VAL converts hex string to a LONG 32 bit value
  IF attribute THEN COLOR attribute 'exclude black color print
  PRINT "COLOR" + STR$(attribute) + " = " + hex32$, red$, grn$, blu$ 'returns closest attribute
NEXT  
Attribute  Hex value      Red        Green       Blue

COLOR 1 = &HFF0000A8       00         00         A8
COLOR 2 = &HFF00A800       00         A8         00
COLOR 3 = &HFF00A8A8       00         A8         A8
COLOR 4 = &HFFA80000       A8         00         00
COLOR 5 = &HFFA800A8       A8         00         A8
COLOR 6 = &HFFA85400       A8         54         00
COLOR 7 = &HFFA8A8A8       A8         A8         A8
COLOR 8 = &HFF545454       54         54         54
COLOR 9 = &HFF5454FC       54         54         FC
COLOR 10 = &HFF54FC54      54         FC         54
COLOR 11 = &HFF5454FC      54         FC         FC
COLOR 12 = &HFFFC5454      FC         54         54
COLOR 13 = &HFFFC54FC      FC         54         FC
COLOR 14 = &HFFFCFC54      FC         FC         54
COLOR 15 = &HFFFCFCFC      FC         FC         FC
Explanation: The RGB intensity values are multiplied by 4 to get the _RGB intensity values as hexadecimal values. The individual 2 digit HEX$ intensity values can be added to "&HFF" to make up the 32-bit hexadecimal string value necessary for VAL to return to _PALETTECOLOR. The statement is only included in the example to show how that can be done with any 32-bit color value.


Reading and setting color port intensities using INP and OUT

  • Legacy code may use INP and OUT to read or set color port intensities. QB64 emulates VGA memory to maintain compatibility.
  • The same can be achieved using _PALETTECOLOR (recommended practice).
OUT &H3C7, attribute 'Set port to read RGB settings with:
color_intensity = INP(&H3C9) 'reads present intensity setting
OUT &H3C8, attribute 'Set port to write RGB settings with:
OUT &H3C9, color_intensity 'writes new intensity setting
  • After every 3 reads or writes, changes to next higher color attribute. Loops can be used to set more than one attribute's intensities.
  • Color port setting of red, green and blue intensities can be done in ascending order.
  • Color port attribute intensity values range from 0 to 63 (1/4 of the 32-bit values) in QBasic's legacy 4 and 8 bit screen modes.

(Return to Table of Contents)


Examples

Example 1: Reading the default RGB color settings of color attribute 15.

  
 OUT &H3C7, 15
 red% = INP(&H3C9)
 green% = INP(&H3C9)
 blue% = INP(&H3C9)
 PRINT red%, green%, blue%  
 63       63       63


Example 2: Changing the color settings of attribute 0 (the background) to blue in SCREENs 12 or 13.

  
SCREEN 12
OUT &H3C8, 0          'set color port attribute to write
OUT &H3C9, 0          'red intensity
OUT &H3C9, 0          'green intensity
OUT &H3C9, 42         'blue intensity 

OUT &H3C7, 0
PRINT INP(&H3C9); INP(&H3C9); INP(&H3C9)
END 
 0  0  30 


Example 3: Printing in fullscreen SCREEN 0 mode with a color background under the text only.

  
SCREEN 0: _FULLSCREEN ' used for fullscreen instead of window
COLOR 30, 6: LOCATE 12, 4: PRINT "Hello!"  
Result: Hello! is printed in flashing high intensity yellow with brown background behind text only when in Qbasic fullscreen.


Example 4: Using CLS after setting the background color in SCREEN 0 to make the color cover the entire screen.

  
SCREEN 0: _FULLSCREEN
COLOR , 7: CLS
COLOR 9: PRINT "Hello"  
Hello
Result: The blue word Hello is printed to a totally grey background in fullscreen.


Example 5: Using a different foreground color for each letter:

  
SCREEN 0
COLOR 1: PRINT "H";
COLOR 3: PRINT "E";
COLOR 4: PRINT "L";
COLOR 5: PRINT "L";
COLOR 6: PRINT "O"
COLOR 9: PRINT "W";
COLOR 11: PRINT "O";
COLOR 12: PRINT "R";
COLOR 13: PRINT "L";
COLOR 14: PRINT "D"  
HELLO
WORLD


Example 6: Doing the same as Example 5 but in only a few lines:

  
SCREEN 0
text$ = "HelloWorld"
FOR textpos = 1 TO LEN(text$)
  COLOR textpos
  IF textpos <> 5 THEN PRINT MID$(text$, textpos, 1);
  IF textpos = 5 THEN PRINT MID$(text$, textpos, 1)    'start print on next row
NEXT

Hello
World  
Explanation:Semicolon(;) means that the next PRINT happens on the same line, we don't want that when it comes to position 5 so when it is at position 5 the next PRINT will move to the next line (when it isn't at position 5 we want it to continue printing the letter side-by-side on the same line though).


Example 7: Since SCREEN 0 only uses background colors 0 to 7 by default, use _PALETTECOLOR to change color intensities of color 0.

  
_PALETTECOLOR 0, _RGB32(255, 255, 255) 'change color 0 intensity
_PALETTECOLOR 8, _RGB32(0, 0, 0) 'change color 8 intensity

COLOR 8: PRINT "Black on bright white!"  

Template:WhiteStartBlack on bright white! Template:WhiteEnd


Explanation: Since QB64 does not have DAC SCREEN 0 limitations, changing color intensities for custom background colors is possible.


Example 8: Changing light gray text in SCREEN 0 to a 32 bit custom color using a LONG HTML hexadecimal value:

  
COLOR 7
PRINT "Color 7 is gray"
K$ = INPUT$(1)
_PALETTECOLOR 7, &HFFDAA520 ' FF alpha makes the color translucent
PRINT "Color 7 is now Goldenrod in SCREEN 0!  
Color 7 is gray
Color 7 is now Goldenrod in SCREEN 0!
Explanation: _RGB32 could be used to make custom 32 bit colors or HTML values could be used after &HFF for solid colors.

(Return to Table of Contents)


See also



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