# HP/SP/EXP Gauge Script v1.00
# Distribution original support URL
# http://members.jcom.home.ne.jp/cogwheel/
#==============================================================================
# ** Game_Actor
#------------------------------------------------------------------------------
# This class handles the actor. It's used within the Game_Actors class
# ($game_actors) and refers to the Game_Party class ($game_party).
#==============================================================================
class Game_Actor < Game_Battler
def now_exp
return @exp - @exp_list[@level]
end
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
#--------------------------------------------------------------------------
# * Draw HP Gauge
#--------------------------------------------------------------------------
# Modification of the original Draw HP process
alias :draw_actor_hp_hpsp :draw_actor_hp
def draw_actor_hp(actor, x, y, width = 144)
# Determine the rate of fill based on the actor's HP and HP Max
if actor.maxhp != 0
rate = actor.hp.to_f / actor.maxhp
else
rate = 0
end
# plus_x: revised x-coordinate
# rate_x: revised X-coordinate as (%)
# plus_y: revised y-coordinate
# plus_width: revised width
# rate_width: revised width as (%)
# height: Vertical width
# align1: Type 1 ( 0: left justify 1: center justify 2: right justify )
# align2: Type 2 ( 0: Upper stuffing 1: Central arranging 2:Lower stuffing )
# align3: Gauge type 0:Left justify 1: Right justify
plus_x = 0
rate_x = 0
plus_y = 25
plus_width = 0
rate_width = 100
height = 10
align1 = 1
align2 = 2
align3 = 0
# Gradation settings: grade1: Empty gauge grade2:Actual gauge
# (0:On side gradation 1:Vertically gradation 2: Slantedly gradation)
grade1 = 1
grade2 = 0
# Color setting. color1: Outermost framework, color2: Medium framework
# color3: Empty framework dark color, color4: Empty framework light/write color
color1 = Color.new(0, 0, 0, 192)
color2 = Color.new(255, 255, 192, 192)
color3 = Color.new(0, 0, 0, 192)
color4 = Color.new(64, 0, 0, 192)
# Color setting of gauge
# Usually color setting of the time
color5 = Color.new(80 - 24 * rate, 80 * rate, 14 * rate, 192)
color6 = Color.new(240 - 72 * rate, 240 * rate, 62 * rate, 192)
# Determine the gauge's width & fill based on the actor's HP
if actor.maxhp != 0
hp = (width + plus_width) * actor.hp * rate_width / 100 / actor.maxhp
else
hp = 0
end
# Drawing of gauge
gauge_rect(x + plus_x + width * rate_x / 100, y + plus_y,
width, plus_width + width * rate_width / 100,
height, hp, align1, align2, align3,
color1, color2, color3, color4, color5, color6, grade1, grade2)
# Call the original Draw HP process
draw_actor_hp_hpsp(actor, x, y, width)
end
#--------------------------------------------------------------------------
# * Draw SP Gauge
#--------------------------------------------------------------------------
# Modification of the original Draw SP process
alias :draw_actor_sp_hpsp :draw_actor_sp
def draw_actor_sp(actor, x, y, width = 144)
# Determine the rate of fill based on the actor's SP and SP Max
if actor.maxsp != 0
rate = actor.sp.to_f / actor.maxsp
else
rate = 1
end
# plus_x: revised x-coordinate
# rate_x: revised X-coordinate as (%)
# plus_y: revised y-coordinate
# plus_width: revised width
# rate_width: revised width as (%)
# height: Vertical width
# align1: Type 1 ( 0: left justify 1: center justify 2: right justify )
# align2: Type 2 ( 0: Upper stuffing 1: Central arranging 2:Lower stuffing )
# align3: Gauge type 0:Left justify 1: Right justify
plus_x = 0
rate_x = 0
plus_y = 25
plus_width = 0
rate_width = 100
height = 10
align1 = 1
align2 = 2
align3 = 0
# Gradation settings: grade1: Empty gauge grade2:Actual gauge
# (0:On side gradation 1:Vertically gradation 2: Slantedly gradation)
grade1 = 1
grade2 = 0
# Color setting. color1: Outermost framework, color2: Medium framework
# color3: Empty framework dark color, color4: Empty framework light/write color
color1 = Color.new(0, 0, 0, 192)
color2 = Color.new(255, 255, 192, 192)
color3 = Color.new(0, 0, 0, 192)
color4 = Color.new(0, 64, 0, 192)
# Color setting of gauge
# Usually color setting of the time
color5 = Color.new(14 * rate, 80 - 24 * rate, 80 * rate, 192)
color6 = Color.new(62 * rate, 240 - 72 * rate, 240 * rate, 192)
# Determine the gauge's width & fill based on the actor's SP
if actor.maxsp != 0
sp = (width + plus_width) * actor.sp * rate_width / 100 / actor.maxsp
else
sp = (width + plus_width) * rate_width / 100
end
# Drawing of gauge
gauge_rect(x + plus_x + width * rate_x / 100, y + plus_y,
width, plus_width + width * rate_width / 100,
height, sp, align1, align2, align3,
color1, color2, color3, color4, color5, color6, grade1, grade2)
# Call the original Draw HP process
draw_actor_sp_hpsp(actor, x, y, width)
end
#--------------------------------------------------------------------------
# * Draw EXP Gauge
#--------------------------------------------------------------------------
# Modification of the original Draw HP process
alias :draw_actor_exp_hpsp :draw_actor_exp
def draw_actor_exp(actor, x, y, width = 204)
# Determine the rate of fill based on the actor's EXP and Next EXP
if actor.next_exp != 0
rate = actor.now_exp.to_f / actor.next_exp
else
rate = 1
end
# plus_x: revised x-coordinate
# rate_x: revised X-coordinate as (%)
# plus_y: revised y-coordinate
# plus_width: revised width
# rate_width: revised width as (%)
# height: Vertical width
# align1: Type 1 ( 0: left justify 1: center justify 2: right justify )
# align2: Type 2 ( 0: Upper stuffing 1: Central arranging 2:Lower stuffing )
# align3: Gauge type 0:Left justify 1: Right justify
plus_x = 0
rate_x = 0
plus_y = 25
plus_width = 0
rate_width = 100
height = 10
align1 = 1
align2 = 2
align3 = 0
# Gradation settings: grade1: Empty gauge grade2:Actual gauge
# (0:On side gradation 1:Vertically gradation 2: Slantedly gradation)
grade1 = 1
grade2 = 0
# Color setting. color1: Outermost framework, color2: Medium framework
# color3: Empty framework dark color, color4: Empty framework light/write color
color1 = Color.new(0, 0, 0, 192)
color2 = Color.new(255, 255, 192, 192)
color3 = Color.new(0, 0, 0, 192)
color4 = Color.new(64, 0, 0, 192)
# Color setting of gauge
# Usually color setting of the time
color5 = Color.new(80 * rate, 80 - 80 * rate ** 2, 80 - 80 * rate, 192)
color6 = Color.new(240 * rate, 240 - 240 * rate ** 2, 240 - 240 * rate, 192)
# Determine the gauge's width & fill based on the actor's Next EXP
if actor.next_exp != 0
exp = (width + plus_width) * actor.now_exp * rate_width /
100 / actor.next_exp
else
exp = (width + plus_width) * rate_width / 100
end
# Drawing of gauge
gauge_rect(x + plus_x + width * rate_x / 100, y + plus_y,
width, plus_width + width * rate_width / 100,
height, exp, align1, align2, align3,
color1, color2, color3, color4, color5, color6, grade1, grade2)
# Call the original Draw EXP process
draw_actor_exp_hpsp(actor, x, y)
end
#--------------------------------------------------------------------------
# * 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