Limnoria/others/convertcore.py

#!/usr/bin/env python


#****************************************************************************
# This file has been modified from its original version. It has been 
# formatted to fit your irc bot. 
# 
# Below is the original copyright. Doug Bell rocks. 
# The hijacker is Keith Jones, and he has no bomb in his shoe.
#
#****************************************************************************

#****************************************************************************
# convertcore.py, provides non-GUI base classes for data
#
# ConvertAll, a units conversion program
# Copyright (C) 2002, Douglas W. Bell
#
# This is free software; you can redistribute it and/or modify it under the
# terms of the GNU General Public License, Version 2.  This program is
# distributed in the hope that it will be useful, but WITTHOUT ANY WARRANTY.
#*****************************************************************************

#from option import Option
import re, copy, sys, os.path
import registry
import conf
#from math import *

class UnitGroup:
    "Stores, updates and converts a group of units"
    maxDecPlcs = 12
    def __init__(self, unitData, option):
        self.unitData = unitData
        self.option = option
        self.unitList = []
        self.currentNum = 0
        self.factor = 1.0
        self.reducedList = []
        self.linear = 1

    def update(self, text, cursorPos=None):
        "Decode user entered text into units"
        self.unitList = self.parseGroup(text)
        if cursorPos != None:
            self.updateCurrentUnit(text, cursorPos)
        else:
            self.currentNum = len(self.unitList) - 1

    def updateCurrentUnit(self, text, cursorPos):
        "Set current unit number"
        self.currentNum = len(re.findall('[\*/]', text[:cursorPos]))

    def currentUnit(self):
        "Return current unit if its a full match, o/w None"
        if self.unitList and self.unitList[self.currentNum].equiv:
            return self.unitList[self.currentNum]
        return None

    def currentPartialUnit(self):
        "Return unit with at least a partial match, o/w None"
        if not self.unitList:
            return None
        return self.unitData.findPartialMatch(self.unitList[self.currentNum]\
                                              .name)

    def currentSortPos(self):
        "Return unit near current unit for sorting"
        if not self.unitList:
            return self.unitData[self.unitData.sortedKeys[0]]
        return self.unitData.findSortPos(self.unitList[self.currentNum]\
                                         .name)

    def replaceCurrent(self, unit):
        "Replace the current unit with unit"
        if self.unitList:
            exp = self.unitList[self.currentNum].exp
            self.unitList[self.currentNum] = copy.copy(unit)
            self.unitList[self.currentNum].exp = exp
        else:
            self.unitList.append(copy.copy(unit))

    def completePartial(self):
        "Replace a partial unit with a full one"
        if self.unitList and not self.unitList[self.currentNum].equiv:
            text = self.unitList[self.currentNum].name
            unit = self.unitData.findPartialMatch(text)
            if unit:
                exp = self.unitList[self.currentNum].exp
                self.unitList[self.currentNum] = copy.copy(unit)
                self.unitList[self.currentNum].exp = exp

    def moveToNext(self, upward):
        "Replace unit with adjacent one based on match or sort position"
        unit = self.currentSortPos()
        num = self.unitData.sortedKeys.index(unit.name.\
                                             replace(' ', '')) \
                                             + (upward and -1 or 1)
        if 0 <= num < len(self.unitData.sortedKeys):
            self.replaceCurrent(self.unitData[self.unitData.sortedKeys[num]])

    def addOper(self, mult):
        "Add new operator & blank unit after current, * if mult is true"
        if self.unitList:
            self.completePartial()
            prevExp = self.unitList[self.currentNum].exp
            self.currentNum += 1
            self.unitList.insert(self.currentNum, Unit(''))
            if (not mult and prevExp > 0) or (mult and prevExp < 0):
                self.unitList[self.currentNum].exp = -1

    def changeExp(self, newExp):
        "Change the current unit's exponent"
        if self.unitList:
            self.completePartial()
            if self.unitList[self.currentNum].exp > 0:
                self.unitList[self.currentNum].exp = newExp
            else:
                self.unitList[self.currentNum].exp = -newExp

    def clearUnit(self):
        "Remove units"
        self.unitList = []

    def parseGroup(self, text):
        "Return list of units from text string"
        unitList = []
        parts = [part.strip() for part in re.split('([\*/])', text)]
        numerator = 1
        while parts:
            unit = self.parseUnit(parts.pop(0))
            if not numerator:
                unit.exp = -unit.exp
            if parts and parts.pop(0) == '/':
                numerator = not numerator
            unitList.append(unit)
        return unitList

    def parseUnit(self, text):
        "Return a valid or invalid unit with exponent from a text string"
        parts = text.split('^', 1)
        exp = 1
        if len(parts) > 1:   # has exponent
            try:
                exp = int(parts[1])
            except ValueError:
                if parts[1].lstrip().startswith('-'):
                    exp = -Unit.partialExp  # tmp invalid exp
                else:
                    exp = Unit.partialExp
        unitText = parts[0].strip().replace(' ', '')
        unit = copy.copy(self.unitData.get(unitText, None))
        if not unit and unitText and unitText[-1] == 's' and not \
           self.unitData.findPartialMatch(unitText):   # check for plural
            unit = copy.copy(self.unitData.get(unitText[:-1], None))
        if not unit:
            #unit = Unit(parts[0].strip())   # tmp invalid unit
            raise UnitDataError('%s is not a valid unit.' % (unitText))
        unit.exp = exp
        return unit

    def unitString(self, unitList=None):
        "Return the full string for this group or a given group"
        if unitList == None:
            unitList = self.unitList[:]
        fullText = ''
        if unitList:
            fullText = unitList[0].unitText(0)
            numerator = 1
            for unit in unitList[1:]:
                if (numerator and unit.exp > 0) \
                   or (not numerator and unit.exp < 0):
                    fullText = '%s * %s' % (fullText, unit.unitText(1))
                else:
                    fullText = '%s / %s' % (fullText, unit.unitText(1))
                    numerator = not numerator
        return fullText

    def groupValid(self):
        "Return 1 if all unitself.reducedLists are valid"
        if not self.unitList:
            return 0
        for unit in self.unitList:
            if not unit.unitValid():
                return 0
        return 1

    def reduceGroup(self):
        "Update reduced list of units and factor"
        self.linear = 1
        self.reducedList = []
        self.factor = 1.0
        if not self.groupValid():
            return
        count = 0
        tmpList = self.unitList[:]
        while tmpList:
            count += 1
            if count > 5000:
                raise UnitDataError, 'Circular unit definition'
            unit = tmpList.pop(0)
            if unit.equiv == '!':
                self.reducedList.append(copy.copy(unit))
            elif not unit.equiv:
                raise UnitDataError, 'Invalid conversion for "%s"' % unit.name
            else:
                if unit.fromEqn:
                    self.linear = 0
                newList = self.parseGroup(unit.equiv)
                for newUnit in newList:
                    newUnit.exp *= unit.exp
                tmpList.extend(newList)
                self.factor *= unit.factor**unit.exp
        self.reducedList.sort()
        tmpList = self.reducedList[:]
        self.reducedList = []
        for unit in tmpList:
            if self.reducedList and unit == self.reducedList[-1]:
                self.reducedList[-1].exp += unit.exp
            else:
                self.reducedList.append(unit)
        self.reducedList = [unit for unit in self.reducedList if \
                            unit.name != 'unit' and unit.exp != 0]

    def categoryMatch(self, otherGroup):
        "Return 1 if unit types are equivalent"
        if not self.checkLinear() or not otherGroup.checkLinear():
            return 0
        return self.reducedList == otherGroup.reducedList and \
               [unit.exp for unit in self.reducedList] \
               == [unit.exp for unit in otherGroup.reducedList]

    def checkLinear(self):
        "Return 1 if linear or acceptable non-linear"
        if not self.linear:
            if len(self.unitList) > 1 or self.unitList[0].exp != 1:
                return 0
        return 1

    def compatStr(self):
        "Return string with reduced unit or linear compatability problem"
        if self.checkLinear():
            return self.unitString(self.reducedList)
        return 'Cannot combine non-linear units'

    def convert(self, num, toGroup):
        "Return num of this group converted to toGroup"
        if self.linear:
            num *= self.factor
        else:
            num = self.nonLinearCalc(num, 1) * self.factor
        if toGroup.linear:
            return num / toGroup.factor
        return toGroup.nonLinearCalc(num / toGroup.factor, 0)

    def nonLinearCalc(self, num, isFrom):
        "Return result of non-linear calculation"
        x = num
        try:
            if self.unitList[0].toEqn:      # regular equations
                if isFrom:
                    return float(eval(self.unitList[0].fromEqn))
                return float(eval(self.unitList[0].toEqn))
            data = list(eval(self.unitList[0].fromEqn))  # extrapolation list
            if isFrom:
                data = [(float(group[0]), float(group[1])) for group in data]
            else:
                data = [(float(group[1]), float(group[0])) for group in data]
            data.sort()
            pos = len(data) - 1
            for i in range(len(data)):
                if num <= data[i][0]:
                    pos = i
                    break
            if pos == 0:
                pos = 1
            return (num-data[pos-1][0]) / float(data[pos][0]-data[pos-1][0]) \
                   * (data[pos][1]-data[pos-1][1]) + data[pos-1][1]
        except OverflowError:
            return 1e9999
        except:
            raise UnitDataError, 'Bad equation for %s' % self.unitList[0].name

    def convertStr(self, num, toGroup):
        "Return formatted string of converted number"
        return self.formatNumStr(self.convert(num, toGroup))

    def formatNumStr(self, num):
        "Return num string formatted per options"
        decPlcs = self.option.intData('DecimalPlaces', 0, UnitGroup.maxDecPlcs)
        if self.option.boolData('SciNotation'):
            return ('%%0.%dE' % decPlcs) % num
        if self.option.boolData('FixedDecimals'):
            return ('%%0.%df' % decPlcs) % num
        return ('%%0.%dG' % decPlcs) % num


class UnitDataError(Exception):
    pass


class UnitData(dict):
    def __init__(self):
        dict.__init__(self)
        self.sortedKeys = []

    def readData(self):
        "Read all unit data from file"
        types = []
        typeUnits = {}
        try:
            f = file(os.path.join(conf.supybot.directories.data(), \
                                  'units.dat'), 'r')
            lines = f.readlines()
            f.close()
        except IOError:
            raise UnitDataError, 'Can not read "units.dat" file'
        for i in range(len(lines)):     # join continuation lines
            delta = 1
            while lines[i].rstrip().endswith('\\'):
                lines[i] = ''.join([lines[i].rstrip()[:-1], lines[i+delta]])
                lines[i+delta] = ''
                delta += 1
        units = [Unit(line) for line in lines if \
                 line.split('#', 1)[0].strip()]   # remove comment lines
        typeText = ''
        for unit in units:               # find & set headings
            if unit.name.startswith('['):
                typeText = unit.name[1:-1].strip()
                types.append(typeText)
                typeUnits[typeText] = []
            unit.typeName = typeText
        units = [unit for unit in units if unit.equiv]  # keep valid units
        for unit in units:
            self[unit.name.replace(' ', '')] = unit
            typeUnits[unit.typeName].append(unit.name)
        self.sortedKeys = self.keys()
        self.sortedKeys.sort()
        print len(units), 'units loaded'
        if len(self.sortedKeys) < len(units):
            raise UnitDataError, 'Duplicate unit names found'

        return (types, typeUnits)

    def findPartialMatch(self, text):
        "Return first partially matching unit or None"
        text = text.replace(' ', '')
        if not text:
            return None
        for name in self.sortedKeys:
            if name.startswith(text):
                return self[name]
        return None

    def findSortPos(self, text):
        "Return unit whose abbrev comes immediately after text"
        text = text.replace(' ', '')
        for name in self.sortedKeys:
            if text <= name:
                return self[name]
        return self[self.sortedKeys[-1]]


class Unit:
    "Reads and stores a single unit conversion"
    partialExp = 1000
    def __init__(self, dataStr):
        dataList = dataStr.split('#')
        unitList = dataList.pop(0).split('=', 1)
        self.name = unitList.pop(0).strip()
        self.equiv = ''
        self.factor = 1.0
        self.fromEqn = ''   # used only for non-linear units
        self.toEqn = ''     # used only for non-linear units
        if unitList:
            self.equiv = unitList[0].strip()
            if self.equiv[0] == '[':   # used only for non-linear units
                try:
                    self.equiv, self.fromEqn = re.match('\[(.*?)\](.*)', \
                                                        self.equiv).groups()
                    if ';' in self.fromEqn:
                        self.fromEqn, self.toEqn = self.fromEqn.split(';', 1)
                        self.toEqn = self.toEqn.strip()
                    self.fromEqn = self.fromEqn.strip()
                except AttributeError:
                    raise UnitDataError, 'Bad equation for "%s"' % self.name
            else:                # split factor and equiv unit for linear
                parts = self.equiv.split(None, 1)
                if len(parts) > 1 and re.search('[^\d\.eE\+\-\*/]', parts[0]) \
                   == None:       # only allowed digits and operators
                    try:
                        self.factor = float(eval(parts[0]))
                        self.equiv = parts[1]
                    except:
                        pass
        self.comments = [comm.strip() for comm in dataList]
        self.comments.extend([''] * (2 - len(self.comments)))
        self.exp = 1
        self.viewLink = [None, None]
        self.typeName = ''

    def description(self):
        "Return name and 1st comment (usu. full name) if applicable"
        if self.comments[0]:
            return '%s  (%s)' % (self.name, self.comments[0])
        return self.name

    def unitValid(self):
        "Return 1 if unit and exponent are valid"
        if self.equiv and -Unit.partialExp < self.exp < Unit.partialExp:
            return 1
        return 0

    def unitText(self, absExp=0):
        "Return text for unit name with exponent or absolute value of exp"
        exp = self.exp
        if absExp:
            exp = abs(self.exp)
        if exp == 1:
            return self.name
        if -Unit.partialExp < exp < Unit.partialExp:
            return '%s^%d' % (self.name, exp)
        if exp > 1:
            return '%s^' % self.name
        else:
            return '%s^-' % self.name

    def __cmp__(self, other):
        return cmp(self.name, other.name)

############################################################################
# Wrapper functionality
#
############################################################################ 


# Parse the data file, and set everything up for conversion
data = UnitData()
(types, unitsByType) = data.readData()

# At the moment, we're not handling options
option = None

# set up the objects for unit conversion
fromUnit = UnitGroup(data, option)
toUnit = UnitGroup(data, option)

def convert(num, unit1, unit2):
    """ Convert from one unit to another

    num is the factor for the first unit. Raises UnitDataError for 
    various errors.
    """
    fromUnit.update(unit1)
    toUnit.update(unit2)

    fromUnit.reduceGroup()
    toUnit.reduceGroup()
    
    # Match up unit categories
    if not fromUnit.categoryMatch(toUnit):
        raise UnitDataError('unit categories did not match')
            
    return fromUnit.convert(num, toUnit)
                


def units(type):
    """ Return comma separated string list of units of given type, or 
        a list of types if the argument is not valid.
    """
    if type in types:
        return '%s units: %s' % (type, ', '.join(unitsByType[type]))
    else:
        return 'valid types: ' + ', '.join(types)