286 lines
11 KiB
Python
Executable File
286 lines
11 KiB
Python
Executable File
#!/usr/bin/env python3
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#
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# SuperTuxKart - a fun racing game with go-kart
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# Copyright (C) 2006-2015 SuperTuxKart-Team
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#
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# This program is free software; you can redistribute it and/or
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# modify it under the terms of the GNU General Public License
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# as published by the Free Software Foundation; either version 3
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# of the License, or (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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# This script creates code for the characteristics.
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# It takes an argument that specifies what the output of the script should be.
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# The output options can be seen by running this script without arguments.
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# A more convenient version to update the code is to run update_characteristics.py
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import sys
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# Input data
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# Each line contains a topic and the attributes of that topic.
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# This model is used for the xml file and to access the kart properties in the code.
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characteristics = """Suspension: stiffness, rest, travel, expSpringResponse(bool), maxForce
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Stability: rollInfluence, chassisLinearDamping, chassisAngularDamping, downwardImpulseFactor, trackConnectionAccel, smoothFlyingImpulse
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Turn: radius(InterpolationArray), timeResetSteer, timeFullSteer(InterpolationArray)
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Engine: power, maxSpeed, brakeFactor, brakeTimeIncrease, maxSpeedReverseRatio
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Gear: switchRatio(std::vector<float>/floatVector), powerIncrease(std::vector<float>/floatVector)
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Mass
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Wheels: dampingRelaxation, dampingCompression
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Camera: distance, forwardUpAngle, backwardUpAngle
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Jump: animationTime
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Lean: max, speed
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Anvil: duration, weight, speedFactor
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Parachute: friction, duration, durationOther, lboundFraction, uboundFraction, maxSpeed
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Bubblegum: duration, speedFraction, torque, fadeInTime, shieldDuration
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Zipper: duration, force, speedGain, maxSpeedIncrease, fadeOutTime
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Swatter: duration, distance, squashDuration, squashSlowdown
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Plunger: bandMaxLength, bandForce, bandDuration, bandSpeedIncrease, bandFadeOutTime, inFaceTime
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Startup: time(std::vector<float>/floatVector), boost(std::vector<float>/floatVector)
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Rescue: duration, vertOffset, height
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Explosion: duration, radius, invulnerabilityTime
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Nitro: duration, engineForce, consumption, smallContainer, bigContainer, maxSpeedIncrease, fadeOutTime, max
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Slipstream: duration, length, width, collectTime, useTime, addPower, minSpeed, maxSpeedIncrease, fadeOutTime
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Skid: increase, decrease, max, timeTillMax, visual, visualTime, revertVisualTime, minSpeed, timeTillBonus(std::vector<float>/floatVector), bonusSpeed(std::vector<float>/floatVector), bonusTime(std::vector<float>/floatVector), bonusForce(std::vector<float>/floatVector), physicalJumpTime, graphicalJumpTime, postSkidRotateFactor, reduceTurnMin, reduceTurnMax, enabled(bool)"""
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""" A GroupMember is an attribute of a group.
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In the xml files, a value will be assigned to it.
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If the name of the attribute is 'value', the getter method will only
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contain the group name and 'value' will be omitted (e.g. used for mass). """
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class GroupMember:
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def __init__(self, name, typeC, typeStr):
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self.name = name
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if name == "value":
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self.getName = ""
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else:
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self.getName = name
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self.typeC = typeC
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self.typeStr = typeStr
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""" E.g. power(std::vector<float>/floatVector)
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or speed(InterpolationArray)
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The default type is float
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The name 'value' is special: Only the group name will be used to access
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the member but in the xml file it will be still value (because we
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need a name). """
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def parse(content):
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typeC = "float"
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typeStr = typeC
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name = content.strip()
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pos = content.find("(")
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end = content.find(")", pos)
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if pos != -1 and end != -1:
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name = content[:pos].strip()
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pos2 = content.find("/", pos, end)
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if pos2 != -1:
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typeC = content[pos + 1:pos2].strip()
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typeStr = content[pos2 + 1:end].strip()
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else:
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typeC = content[pos + 1:end].strip()
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typeStr = typeC
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return GroupMember(name, typeC, typeStr)
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""" A Group has a base name and can contain GroupMembers.
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In the xml files, a group is a tag. """
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class Group:
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def __init__(self, baseName):
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self.baseName = baseName
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self.members = []
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""" Parses and adds a member to this group """
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def addMember(self, content):
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self.members.append(GroupMember.parse(content))
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def getBaseName(self):
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return self.baseName
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""" E.g. engine: power, gears(std::vector<Gear>/Gears)
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or mass(float) or only mass """
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def parse(content):
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pos = content.find(":")
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if pos == -1:
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group = Group(content)
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group.addMember("value")
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return group
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else:
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group = Group(content[:pos].strip())
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for m in content[pos + 1:].split(","):
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group.addMember(m)
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return group
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""" Creates a list of words from a titlecase string """
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def toList(name):
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result = []
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cur = ""
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for c in name:
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if c.isupper() and len(cur) != 0:
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result.append(cur)
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cur = ""
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cur += c.lower()
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if len(cur) != 0:
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result.append(cur)
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return result
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""" titleCase: true = result is titlecase
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false = result has underscores """
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def joinSubName(group, member, titleCase):
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words = toList(group.baseName) + toList(member.getName)
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first = True
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if titleCase:
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words = [w.title() for w in words]
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return "".join(words)
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else:
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return "_".join(words)
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# Functions to generate code
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def createEnum(groups):
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for g in groups:
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print()
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print(" // {0}".format(g.getBaseName().title()))
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for m in g.members:
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print(" {0},".format(joinSubName(g, m, False).upper()))
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def createAcDefs(groups):
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for g in groups:
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print()
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for m in g.members:
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nameTitle = joinSubName(g, m, True)
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nameUnderscore = joinSubName(g, m, False)
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typeC = m.typeC
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print(" {0} get{1}() const;".
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format(typeC, nameTitle, nameUnderscore))
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def createAcGetter(groups):
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for g in groups:
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for m in g.members:
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nameTitle = joinSubName(g, m, True)
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nameUnderscore = joinSubName(g, m, False)
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typeC = m.typeC
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result = "result"
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print("""// ----------------------------------------------------------------------------
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{3} AbstractCharacteristic::get{1}() const
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{{
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{0} result;
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bool is_set = false;
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process({2}, &result, &is_set);
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if (!is_set)
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Log::fatal("AbstractCharacteristic", "Can't get characteristic %s",
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getName({2}).c_str());
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return {4};
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}} // get{1}
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""".format(m.typeC, nameTitle, nameUnderscore.upper(), typeC, result))
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def createKpDefs(groups):
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for g in groups:
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print()
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for m in g.members:
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nameTitle = joinSubName(g, m, True)
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nameUnderscore = joinSubName(g, m, False)
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typeC = m.typeC
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print(" {0} get{1}() const;".
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format(typeC, nameTitle, nameUnderscore))
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def createKpGetter(groups):
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for g in groups:
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for m in g.members:
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nameTitle = joinSubName(g, m, True)
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nameUnderscore = joinSubName(g, m, False)
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typeC = m.typeC
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result = "result"
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print("""// ----------------------------------------------------------------------------
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{1} KartProperties::get{0}() const
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{{
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return m_cached_characteristic->get{0}();
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}} // get{0}
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""".format(nameTitle, typeC))
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def createGetType(groups):
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for g in groups:
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for m in g.members:
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nameTitle = joinSubName(g, m, True)
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nameUnderscore = joinSubName(g, m, False)
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print(" case {0}:\n return TYPE_{1};".
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format(nameUnderscore.upper(), "_".join(toList(m.typeStr)).upper()))
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def createGetName(groups):
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for g in groups:
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for m in g.members:
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nameTitle = joinSubName(g, m, True)
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nameUnderscore = joinSubName(g, m, False).upper()
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print(" case {0}:\n return \"{0}\";".
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format(nameUnderscore))
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def createLoadXml(groups):
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for g in groups:
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print(" if (const XMLNode *sub_node = node->getNode(\"{0}\"))\n {{".
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format(g.baseName.lower()))
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for m in g.members:
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nameUnderscore = joinSubName(g, m, False)
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nameMinus = "-".join(toList(m.name))
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print(""" sub_node->get(\"{0}\",
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&m_values[{1}]);""".
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format(nameMinus, nameUnderscore.upper()))
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print(" }\n")
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# Dicionary that maps an argument string to a tupel of
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# a generator function, a help string and a filename
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functions = {
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"enum": (createEnum, "List the enum values for all characteristics", "karts/abstract_characteristic.hpp"),
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"acdefs": (createAcDefs, "Create the header function definitions", "karts/abstract_characteristic.hpp"),
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"acgetter": (createAcGetter, "Implement the getters", "karts/abstract_characteristic.cpp"),
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"getType": (createGetType, "Implement the getType function", "karts/abstract_characteristic.cpp"),
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"getName": (createGetName, "Implement the getName function", "karts/abstract_characteristic.cpp"),
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"kpdefs": (createKpDefs, "Create the header function definitions for the getters", "karts/kart_properties.hpp"),
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"kpgetter": (createKpGetter, "Implement the getters", "karts/kart_properties.cpp"),
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"loadXml": (createLoadXml, "Code to load the characteristics from an xml file", "karts/xml_characteristic.hpp"),
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}
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def main():
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# Find out what to do
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if len(sys.argv) != 2:
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print("""Usage: ./create_kart_properties.py <operation>
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Operations:""")
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maxOperationLength = 0
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maxDescriptionLength = 0
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for o, f in functions.items():
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l = len(o)
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if l > maxOperationLength:
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maxOperationLength = l
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l = len(f[1])
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if l > maxDescriptionLength:
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maxDescriptionLength = l
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formatString = " {{0:{0}}} {{1:{1}}} in {{2}}".format(maxOperationLength, maxDescriptionLength)
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for o, f in functions.items():
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print(formatString.format(o, f[1], f[2]))
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return
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task = sys.argv[1]
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if task not in functions:
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print("The wanted operation was not found. Please call this script without arguments to list available arguments.")
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return
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# Parse properties
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groups = [Group.parse(line) for line in characteristics.split("\n")]
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# Create the wanted code
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functions[task][0](groups)
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if __name__ == '__main__':
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main()
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