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!
! Alpha color values demonstration
!
! Copyright (C) 2008 Hazen Babcock
! Copyright (C) 2008 Andrew Ross
!
! This file is part of PLplot.
!
! PLplot is free software; you can redistribute it and/or modify
! it under the terms of the GNU Library General Public License as
! published by the Free Software Foundation; either version 2 of the
! License, or (at your option) any later version.
!
! PLplot is distributed in the hope that it will be useful,
! but WITHOUT ANY WARRANTY; without even the implied warranty of
! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
! GNU Library General Public License for more details.
!
! You should have received a copy of the GNU Library General Public
! License along with PLplot; if not, write to the Free Software
! Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
!
program x30f95
use plplot
implicit none
integer, dimension(4) :: red, green, blue
real(kind=plflt), dimension (4) :: alpha, px, py
real(kind=plflt), dimension (2) :: pos, rcoord, gcoord, bcoord, acoord
logical, dimension(2) :: rev
data red / 0, 255, 0, 0 /
data green / 0, 0, 255, 0 /
data blue / 0, 0, 0, 255 /
data alpha / 1.0_plflt, 1.0_plflt, 1.0_plflt, 1.0_plflt /
data px / 0.1_plflt, 0.5_plflt, 0.5_plflt, 0.1_plflt /
data py / 0.1_plflt, 0.1_plflt, 0.5_plflt, 0.5_plflt /
data pos / 0.0_plflt, 1.0_plflt /
data rcoord / 1.0_plflt, 1.0_plflt /
data gcoord / 0.0_plflt, 0.0_plflt /
data bcoord / 0.0_plflt, 0.0_plflt /
data acoord / 0.0_plflt, 1.0_plflt /
data rev / .false. , .false. /
integer i, j
integer icol, r, g, b
real(kind=plflt) :: a
call plparseopts(PL_PARSE_FULL)
call plinit()
call plscmap0n(4)
call plscmap0a (red, green, blue, alpha)
!
! Page 1:
!
! This is a series of red, green and blue rectangles overlaid
! on each other with gradually increasing transparency.
!
! Set up the window
call pladv (0)
call plvpor (0.0_plflt, 1.0_plflt, 0.0_plflt, 1.0_plflt)
call plwind (0.0_plflt, 1.0_plflt, 0.0_plflt, 1.0_plflt)
call plcol0 (0)
call plbox ("", 1.0_plflt, 0, "", 1.0_plflt, 0)
! Draw the boxes
do i = 1,9
icol = mod(i-1,3) + 1
! Get a color, change its transparency and
! set it as the current color.
call plgcol0a (icol, r, g, b, a)
call plscol0a (icol, r, g, b, 1.0_plflt - dble(i-1)/9.0_plflt)
call plcol0 (icol)
! Draw the rectangle
call plfill (px, py)
! Shift the rectangles coordinates
do j = 1,4
px(j) = px(j) + 0.5_plflt/9.0_plflt
py(j) = py(j) + 0.5_plflt/9.0_plflt
enddo
enddo
!
! Page 2:
!
! This is a bunch of boxes colored red, green or blue with a single
! large (red) box of linearly varying transparency overlaid. The
! overlaid box is completely transparent at the bottom and completely
! opaque at the top.
!
! Set up the window
call pladv(0)
call plvpor(0.1_plflt, 0.9_plflt, 0.1_plflt, 0.9_plflt)
call plwind(0.0_plflt, 1.0_plflt, 0.0_plflt, 1.0_plflt)
! Draw the boxes. There are 25 of them drawn on a 5 x 5 grid.
do i = 1,5
! Set box X position
px(1) = 0.05_plflt + 0.2_plflt * dble(i-1)
px(2) = px(1) + 0.1_plflt
px(3) = px(2)
px(4) = px(1)
! We don't want the boxes to be transparent, so since we changed
! the colors transparencies in the first example we have to change
! the transparencies back to completely opaque.
icol = mod(i-1,3) + 1
call plgcol0a (icol, r, g, b, a)
call plscol0a (icol, r, g, b, 1.0_plflt)
call plcol0 (icol)
do j = 1, 5
! Set box y position and draw the box.
py(1) = 0.05_plflt + 0.2_plflt * dble(j-1)
py(2) = py(1)
py(3) = py(1) + 0.1_plflt
py(4) = py(3)
call plfill(px, py)
enddo
enddo
! Create the color map with 128 colors and call plscmap1la to initialize
! the color values with a linearly varying red transparency (or alpha)
call plscmap1n(128)
call plscmap1la(.true., pos, rcoord, gcoord, bcoord, acoord, rev)
! Use that cmap1 to create a transparent red gradient for the whole
! window.
px(1) = 0._plflt
px(2) = 1._plflt
px(3) = 1._plflt
px(4) = 0._plflt
py(1) = 0._plflt
py(2) = 0._plflt
py(3) = 1._plflt
py(4) = 1._plflt
call plgradient( px, py, 90._plflt )
call plend()
end program x30f95
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