class Window_Base < Window
alias raz_bars_base_exp draw_actor_exp
alias raz_bars_base_parameter draw_actor_parameter
#--------------------------------------------------------------------------
# * Draw Slant Bar(by SephirothSpawn)
#--------------------------------------------------------------------------
def draw_slant_bar(x, y, min, max, width = 152, height = 6,
bar_color = Color.new(150, 0, 0, 255), end_color = Color.new(255, 255, 60, 255))
# Draw Border
for i in 0..height
self.contents.fill_rect(x + i, y + height - i, width + 1, 1, Color.new(50, 50, 50, 255))
end
# Draw Background
for i in 1..(height - 1)
r = 100 * (height - i) / height + 0 * i / height
g = 100 * (height - i) / height + 0 * i / height
b = 100 * (height - i) / height + 0 * i / height
a = 255 * (height - i) / height + 255 * i / height
self.contents.fill_rect(x + i, y + height - i, width, 1, Color.new(r, b, g, a))
end
# Draws Bar
for i in 1..( (min / max.to_f) * width - 1)
for j in 1..(height - 1)
r = bar_color.red * (width - i) / width + end_color.red * i / width
g = bar_color.green * (width - i) / width + end_color.green * i / width
b = bar_color.blue * (width - i) / width + end_color.blue * i / width
a = bar_color.alpha * (width - i) / width + end_color.alpha * i / width
self.contents.fill_rect(x + i + j, y + height - j, 1, 1, Color.new(r, g, b, a))
end
end
end
#--------------------------------------------------------------------------
# * Draw HP
# actor : actor
# x : draw spot x-coordinate
# y : draw spot y-coordinate
# width : draw spot width
#--------------------------------------------------------------------------
def draw_actor_hp(actor, x, y, width = 144)
# Calculate if there is draw space for MaxHP
if width - 32 >= 108
hp_x = x + width - 108
flag = true
elsif width - 32 >= 48
hp_x = x + width - 48
flag = false
end
if $game_temp.in_battle
bar_width = hp_x - x + 50
else
bar_width = hp_x - x + 100
end
# Draw HP
draw_slant_bar(x, y + 18, actor.hp, actor.maxhp, bar_width, 6, bar_color = Color.new(100, 0, 0, 255), end_color = Color.new(255, 0, 0, 255))
self.contents.font.color = system_color
self.contents.draw_text(x, y, 32, 32, $data_system.words.hp)
self.contents.font.color = actor.hp == 0 ? knockout_color :
actor.hp <= actor.maxhp / 4 ? crisis_color : normal_color
self.contents.draw_text(hp_x, y, 48, 32, actor.hp.to_s, 2)
# Draw MaxHP
if flag
self.contents.font.color = normal_color
self.contents.draw_text(hp_x + 48, y, 12, 32, "/", 1)
self.contents.draw_text(hp_x + 60, y, 48, 32, actor.maxhp.to_s)
end
end
#--------------------------------------------------------------------------
# * Draw SP
# actor : actor
# x : draw spot x-coordinate
# y : draw spot y-coordinate
# width : draw spot width
#--------------------------------------------------------------------------
def draw_actor_sp(actor, x, y, width = 144)
# Calculate if there is draw space for MaxHP
if width - 32 >= 108
sp_x = x + width - 108
flag = true
elsif width - 32 >= 48
sp_x = x + width - 48
flag = false
end
if $game_temp.in_battle
bar_width = sp_x - x + 50
else
bar_width = sp_x - x + 100
end
# Draw SP
draw_slant_bar(x, y + 18, actor.sp, actor.maxsp, bar_width, 6, bar_color = Color.new(0, 0, 100, 255), end_color = Color.new(0, 0, 255, 255))
# Draw "SP" text string
self.contents.font.color = system_color
self.contents.draw_text(x, y, 32, 32, $data_system.words.sp)
self.contents.font.color = actor.sp == 0 ? knockout_color :
actor.sp <= actor.maxsp / 4 ? crisis_color : normal_color
self.contents.draw_text(sp_x, y, 48, 32, actor.sp.to_s, 2)
# Draw MaxSP
if flag
self.contents.font.color = normal_color
self.contents.draw_text(sp_x + 48, y, 12, 32, "/", 1)
self.contents.draw_text(sp_x + 60, y, 48, 32, actor.maxsp.to_s)
end
end
def draw_actor_exp(actor, x, y)
if actor.level == 99
draw_slant_bar(x, y + 18, 1, 1, 144, 6, bar_color = Color.new(0, 100, 0, 255), end_color = Color.new(0, 255, 0, 255))
else
draw_slant_bar(x, y + 18, actor.now_exp, actor.next_exp, 144, 6, bar_color = Color.new(0, 100, 0, 255), end_color = Color.new(0, 255, 0, 255))
end
raz_bars_base_exp(actor, x, y)
end
def draw_actor_parameter(actor, x, y, type)
case type
when 0
para_color1 = Color.new(100,0,0)
para_color2 = Color.new(255,0,0)
para_begin = actor.atk
when 1
para_color1 = Color.new(100,100,0)
para_color2 = Color.new(255,255,0)
para_begin = actor.pdef
when 2
para_color1 = Color.new(100,0,100)
para_color2 = Color.new(255,0,255)
para_begin = actor.mdef
when 3
para_color1 = Color.new(50,0,100)
para_color2 = Color.new(50,0,255)
para_begin = actor.str
when 4
para_color1 = Color.new(0,100,0)
para_color2 = Color.new(0,255,0)
para_begin = actor.dex
when 5
para_color1 = Color.new(50,0,50)
para_color2 = Color.new(255,0,255)
para_begin = actor.agi
when 6
para_color1 = Color.new(0,100,100)
para_color2 = Color.new(0,255,255)
para_begin = actor.int
end
draw_slant_bar(x, y + 18, para_begin, 999, 155, 4, bar_color = para_color1, end_color = para_color2)
raz_bars_base_parameter(actor, x, y, type)
end
end
class Game_Actor
#--------------------------------------------------------------------------
# * Get the current EXP
#--------------------------------------------------------------------------
def now_exp
return @exp - @exp_list[@level]
end
#--------------------------------------------------------------------------
# * Get the next level's EXP
#--------------------------------------------------------------------------
def next_exp
return @exp_list[@level+1] > 0 ? @exp_list[@level+1] - @exp_list[@level] : 0
end
end
#================================================= =============================
# ** Window_Base
#------------------------------------------------------------------------------
# This class is for all in-game windows.
#================================================= =============================
class Window_Base < Window
#--------------------------------------------------------------------------
# * Drawing of gauge
#--------------------------------------------------------------------------
def gauge_rect(x, y, rect_width, width, height, gauge, align1, align2, align3,
color1, color2, color3, color4, color5, color6, grade1, grade2)
case align1
when 1
x += (rect_width - width) / 2
when 2
x += rect_width - width
end
case align2
when 1
y -= height / 2
when 2
y -= height
end
# Framework Drawing
self.contents.fill_rect(x, y, width, height, color1)
self.contents.fill_rect(x + 1, y + 1, width - 2, height - 2, color2)
if align3 == 0
if grade1 == 2
grade1 = 3
end
if grade2 == 2
grade2 = 3
end
end
if (align3 == 1 and grade1 == 0) or grade1 > 0
color = color3
color3 = color4
color4 = color
end
if (align3 == 1 and grade2 == 0) or grade2 > 0
color = color5
color5 = color6
color6 = color
end
# Drawing of empty gauge
self.contents.gradation_rect(x + 2, y + 2, width - 4, height - 4,
color3, color4, grade1)
if align3 == 1
x += width - gauge
end
# Drawing of actual gauge
self.contents.gradation_rect(x + 2, y + 2, gauge - 4, height - 4,
color5, color6, grade2)
end
end
#------------------------------------------------------------------------------
# New routine added to the Bitmap class.
#================================================= =============================
class Bitmap
#--------------------------------------------------------------------------
# * Rectangle Gradation Indicator
# color1: Start color
# color2: Ending color
# align: 0: On side gradation
# 1: Vertically gradation
# 2: The gradation (intense concerning slantedly heavily note)
#--------------------------------------------------------------------------
def gradation_rect(x, y, width, height, color1, color2, align = 0)
if align == 0
for i in x...x + width
red = color1.red + (color2.red - color1.red) * (i - x) / (width - 1)
green = color1.green +
(color2.green - color1.green) * (i - x) / (width - 1)
blue = color1.blue +
(color2.blue - color1.blue) * (i - x) / (width - 1)
alpha = color1.alpha +
(color2.alpha - color1.alpha) * (i - x) / (width - 1)
color = Color.new(red, green, blue, alpha)
fill_rect(i, y, 1, height, color)
end
elsif align == 1
for i in y...y + height
red = color1.red +
(color2.red - color1.red) * (i - y) / (height - 1)
green = color1.green +
(color2.green - color1.green) * (i - y) / (height - 1)
blue = color1.blue +
(color2.blue - color1.blue) * (i - y) / (height - 1)
alpha = color1.alpha +
(color2.alpha - color1.alpha) * (i - y) / (height - 1)
color = Color.new(red, green, blue, alpha)
fill_rect(x, i, width, 1, color)
end
elsif align == 2
for i in x...x + width
for j in y...y + height
red = color1.red + (color2.red - color1.red) *
((i - x) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
green = color1.green + (color2.green - color1.green) *
((i - x) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
blue = color1.blue + (color2.blue - color1.blue) *
((i - x) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
alpha = color1.alpha + (color2.alpha - color1.alpha) *
((i - x) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
color = Color.new(red, green, blue, alpha)
set_pixel(i, j, color)
end
end
elsif align == 3
for i in x...x + width
for j in y...y + height
red = color1.red + (color2.red - color1.red) *
((x + width - i) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
green = color1.green + (color2.green - color1.green) *
((x + width - i) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
blue = color1.blue + (color2.blue - color1.blue) *
((x + width - i) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
alpha = color1.alpha + (color2.alpha - color1.alpha) *
((x + width - i) / (width - 1.0) + (j - y) / (height - 1.0)) / 2
color = Color.new(red, green, blue, alpha)
set_pixel(i, j, color)
end
end
end
end
end