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335 lines
15 KiB
Python
335 lines
15 KiB
Python
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#!/usr/bin/env python3
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#
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# mawj.py -- MiRCART Animation via Waves Generator
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# Copyright (c) 2018 Lucio Andrés Illanes Albornoz <lucio@lucioillanes.de>
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# This project is licensed under the terms of the MIT license.
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#
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from OpenGL.GL import *
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from PIL import Image
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import cv2, math, numpy, os, sys, wx, wx.glcanvas
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MiRCARTColours = [
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# {{{ MiRCARTColours: mIRC colour number to RGBA map given none of ^[BFV_] (bold, italic, reverse, underline],
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[1.00, 1.00, 1.00], # White
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[0.00, 0.00, 0.00], # Black
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[0.00, 0.00, 0.73], # Blue
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[0.00, 0.73, 0.00], # Green
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[1.00, 0.33, 0.33], # Light Red
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[0.73, 0.00, 0.00], # Red
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[0.73, 0.00, 0.73], # Purple
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[0.73, 0.73, 0.00], # Yellow
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[1.00, 1.00, 0.33], # Light Yellow
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[0.33, 1.00, 0.33], # Light Green
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[0.00, 0.73, 0.73], # Cyan
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[0.33, 1.00, 1.00], # Light Cyan
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[0.33, 0.33, 1.00], # Light Blue
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[1.00, 0.33, 1.00], # Pink
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[0.33, 0.33, 0.33], # Grey
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[0.73, 0.73, 0.73], # Light Grey
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]
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# }}}
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class MawjMiRCARTImporter(object):
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"""XXX"""
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# {{{ _CellState(): Cell state
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class _CellState():
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CS_NONE = 0x00
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CS_BOLD = 0x01
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CS_ITALIC = 0x02
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CS_UNDERLINE = 0x04
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# }}}
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# {{{ _ParseState(): Parsing loop state
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class _ParseState():
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PS_CHAR = 1
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PS_COLOUR_DIGIT0 = 2
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PS_COLOUR_DIGIT1 = 3
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# }}}
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# {{{ _flipCellStateBit(self, cellState, bit): XXX
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def _flipCellStateBit(self, cellState, bit):
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if cellState & bit:
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return cellState & ~bit
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else:
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return cellState | bit
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# }}}
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# {{{ _parseCharAsColourSpec(self, colourSpec, curColours): XXX
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def _parseCharAsColourSpec(self, colourSpec, curColours):
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if len(colourSpec) > 0:
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colourSpec = colourSpec.split(",")
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if len(colourSpec) == 2 \
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and len(colourSpec[1]) > 0:
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return [int(colourSpec[0] or curColours[0]), \
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int(colourSpec[1])]
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elif len(colourSpec) == 1 \
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or len(colourSpec[1]) == 0:
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return [int(colourSpec[0]), curColours[1]]
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else:
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return [15, 1]
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# }}}
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# {{{ fromTextFile(self, pathName): XXX
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def fromTextFile(self, pathName):
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self.inFile = open(pathName, "r")
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self.inSize = self.outMap = None;
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inCurColourSpec = ""; inCurRow = -1;
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inLine = self.inFile.readline()
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inSize = [0, 0]; outMap = []; inMaxCols = 0;
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while inLine:
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inCellState = self._CellState.CS_NONE
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inParseState = self._ParseState.PS_CHAR
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inCurCol = 0; inMaxCol = len(inLine);
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inCurColourDigits = 0; inCurColours = [15, 1]; inCurColourSpec = "";
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inCurRow += 1; outMap.append([]); inRowCols = 0; inSize[1] += 1;
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while inCurCol < inMaxCol:
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inChar = inLine[inCurCol]
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if inChar in set("\r\n"): \
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inCurCol += 1
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elif inParseState == self._ParseState.PS_CHAR:
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inCurCol += 1
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if inChar == "":
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inCellState = self._flipCellStateBit( \
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inCellState, self._CellState.CS_BOLD)
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elif inChar == "":
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inParseState = self._ParseState.PS_COLOUR_DIGIT0
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elif inChar == "":
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inCellState = self._flipCellStateBit( \
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inCellState, self._CellState.CS_ITALIC)
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elif inChar == "":
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inCellState |= self._CellState.CS_NONE
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inCurColours = [15, 1]
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elif inChar == "":
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inCurColours = [inCurColours[1], inCurColours[0]]
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elif inChar == "":
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inCellState = self._flipCellStateBit( \
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inCellState, self._CellState.CS_UNDERLINE)
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else:
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inRowCols += 1
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outMap[inCurRow].append([*inCurColours, inCellState, inChar])
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elif inParseState == self._ParseState.PS_COLOUR_DIGIT0 \
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or inParseState == self._ParseState.PS_COLOUR_DIGIT1:
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if inChar == "," \
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and inParseState == self._ParseState.PS_COLOUR_DIGIT0:
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if (inCurCol + 1) < inMaxCol \
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and not inLine[inCurCol + 1] in set("0123456789"):
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inCurColours = self._parseCharAsColourSpec( \
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inCurColourSpec, inCurColours)
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inCurColourDigits = 0; inCurColourSpec = "";
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inParseState = self._ParseState.PS_CHAR
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else:
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inCurCol += 1
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inCurColourDigits = 0; inCurColourSpec += inChar;
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inParseState = self._ParseState.PS_COLOUR_DIGIT1
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elif inChar in set("0123456789") \
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and inCurColourDigits == 0:
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inCurCol += 1
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inCurColourDigits += 1; inCurColourSpec += inChar;
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elif inChar in set("0123456789") \
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and inCurColourDigits == 1 \
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and inCurColourSpec[-1] == "0":
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inCurCol += 1
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inCurColourDigits += 1; inCurColourSpec += inChar;
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elif inChar in set("012345") \
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and inCurColourDigits == 1 \
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and inCurColourSpec[-1] == "1":
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inCurCol += 1
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inCurColourDigits += 1; inCurColourSpec += inChar;
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else:
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inCurColours = self._parseCharAsColourSpec( \
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inCurColourSpec, inCurColours)
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inCurColourDigits = 0; inCurColourSpec = "";
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inParseState = self._ParseState.PS_CHAR
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inMaxCols = max(inMaxCols, inRowCols)
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inLine = self.inFile.readline()
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inSize[0] = inMaxCols; self.inSize = inSize; self.outMap = outMap;
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self.inFile.close()
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# }}}
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# {{{ __init__(self, inFile): initialisation method
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def __init__(self, inFile):
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self.inFile = inFile; self.inSize = self.outMap = None;
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self.fromTextFile(inFile)
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# }}}
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class MawjFrame(wx.Frame):
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"""XXX"""
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# {{{ __init__(self, parent, size, videoPath=None): initialisation method
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def __init__(self, parent, size, videoPath=None):
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super().__init__(parent, size=size)
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self.panelSkin = wx.Panel(self, wx.ID_ANY)
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self.panelGLCanvas = MawjGLCanvasPanel(self.panelSkin, size=[s-128 for s in size], videoPath=videoPath)
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self.Bind(wx.EVT_MOUSEWHEEL, self.panelGLCanvas.onMouseWheel)
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self.SetFocus(); self.Show(True);
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# }}}
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class MawjGLCanvasPanel(wx.glcanvas.GLCanvas, wx.Panel):
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"""XXX"""
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# {{{ drawAll(self, deltaX=0, deltaY=0, deltaZ=0, paintFlag=False): XXX
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def drawAll(self, deltaX=0, deltaY=0, deltaZ=0, paintFlag=False):
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self.SetCurrent(self.glContext)
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if not self.hasGLInit:
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self.onGLInit(); self.hasGLInit = True;
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if deltaX != 0 or deltaY != 0 or deltaZ != 0 or paintFlag:
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self.isDirty = True
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if self.isDirty:
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glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT)
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glBegin(GL_QUADS)
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curPos = [0,0,0]; cubeSize = (0.1,0.2);
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for numRow in range(len(self.MiRCART.outMap)):
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for numCol in range(len(self.MiRCART.outMap[numRow])):
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cubeColour = MiRCARTColours[self.MiRCART.outMap[numRow][numCol][1]]
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self.drawIrcCube(colour=cubeColour, pos=curPos, size=cubeSize)
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curPos[0] += cubeSize[0]
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curPos[0] = 0; curPos[1] -= cubeSize[1];
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glEnd()
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if deltaX != 0 or deltaY != 0:
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w, h = self.GetClientSize(); w = max(w, 1.0); h = max(h, 1.0);
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glRotatef(deltaY * (180.0/h), 1.0, 0.0, 0.0)
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glRotatef(deltaX * (180.0/w), 0.0, 1.0, 0.0)
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if deltaZ != 0:
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glTranslatef(0, 0, deltaZ)
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self.isDirty = False; self.SwapBuffers(); self.snap();
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# }}}
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# {{{ drawIrcCube(self, colour=(1.0, 0.0, 0.0), pos=(0,0,0), size=(0.1,0.2)): XXX
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def drawIrcCube(self, colour=(1.0, 0.0, 0.0), pos=(0,0,0), size=(0.1,0.2)):
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# Top Right, Top Left, Bottom Left, Bottom Right
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glColor3f(*colour)
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glNormal3f(0.0, 0.0, 1.0)
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glVertex3f(pos[0], pos[1], pos[2])
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glVertex3f(pos[0]-size[0], pos[1], pos[2])
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glVertex3f(pos[0]-size[0], pos[1]-size[1], pos[2])
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glVertex3f(pos[0], pos[1]-size[1], pos[2])
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# }}}
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# {{{ onGLInit(self): XXX
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def onGLInit(self):
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# <https://www.opengl.org/discussion_boards/showthread.php/125843-default-camera?p=954801&viewfull=1#post954801>
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glViewport(0, 0, *self.curSize)
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glMatrixMode(GL_PROJECTION)
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glLoadIdentity(); glFrustum(-1, 1, -1, 1, 1, 100);
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glMatrixMode(GL_MODELVIEW)
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glEnable(GL_DEPTH_TEST)
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glClearColor(0, 0, 0, 1); glClearDepth(1);
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glTranslatef(-5.0, 3.0, -5)
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# <https://www.khronos.org/opengl/wiki/How_lighting_works#Good_Settings.>
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glLight(GL_LIGHT0, GL_AMBIENT, (0, 0, 0, 1))
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glLight(GL_LIGHT0, GL_DIFFUSE, (1, 1, 1, 1))
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glLight(GL_LIGHT0, GL_POSITION, (1, 1, 0+2, 0))
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glLight(GL_LIGHT0, GL_SPECULAR, (1, 1, 1, 1))
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glLightModelfv(GL_LIGHT_MODEL_AMBIENT, (0.2, 0.2, 0.2, 1))
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glEnable(GL_LIGHTING); glEnable(GL_LIGHT0);
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glEnable(GL_COLOR_MATERIAL)
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glColorMaterial(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE)
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if self.videoPath != None:
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width, height = self.GetClientSize()
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fourcc = cv2.VideoWriter_fourcc("X", "V", "I", "D")
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self.videoWriter = cv2.VideoWriter(self.videoPath, fourcc, 25, (width, height), True)
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# }}}
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# {{{ onMouseDown(self, event): XXX
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def onMouseDown(self, event):
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self.CaptureMouse(); self.mouseXlast, self.mouseYlast = event.GetPosition();
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# }}}
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# {{{ onMouseMotion(self, event): XXX
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def onMouseMotion(self, event):
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if event.Dragging():
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if event.LeftIsDown():
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mouseX, mouseY = event.GetPosition()
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self.drawAll(deltaX=mouseX-self.mouseXlast, deltaY=mouseY-self.mouseYlast)
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self.mouseXlast, self.mouseYlast = mouseX, mouseY
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elif event.RightIsDown():
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mouseX, mouseY = event.GetPosition()
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self.swirlAll(2, 30.0)
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self.drawAll(paintFlag=True)
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self.mouseXlast, self.mouseYlast = mouseX, mouseY
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# }}}
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# {{{ onMouseWheel(self, event): XXX
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def onMouseWheel(self, event):
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wheelRotation = event.GetWheelRotation()
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if wheelRotation < 0:
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self.drawAll(deltaZ=-1)
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else:
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self.drawAll(deltaZ=1)
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# }}}
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# {{{ onMouseUp(self, event): XXX
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def onMouseUp(self, event):
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self.ReleaseMouse(); self.mouseXlast = self.mouseYlast = 0;
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# }}}
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# {{{ onPaint(self, event): XXX
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def onPaint(self, event):
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eventDc = wx.PaintDC(self)
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eventUpdates = wx.RegionIterator(self.GetUpdateRegion())
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paintFlag = True if eventUpdates.HaveRects() else False
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self.drawAll(paintFlag=paintFlag)
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# }}}
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# {{{ snap(self): XXX
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def snap(self):
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width, height = self.GetClientSize()
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if sys.byteorder == "little":
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screenshot = glReadPixels(0, 0, width, height, GL_BGR, GL_UNSIGNED_BYTE)
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else:
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screenshot = glReadPixels(0, 0, width, height, GL_RGB, GL_UNSIGNED_BYTE)
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screenshot = numpy.flipud(numpy.frombuffer(screenshot, numpy.uint8).reshape((height, width, 3)))
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self.videoWriter.write(screenshot)
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# }}}
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# {{{ swirlAll(self, radiusDiv=4, step=30.0): XXX
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def swirlAll(self, radiusDiv=4, step=30.0):
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# <http://geekofficedog.blogspot.de/2013/04/hello-swirl-swirl-effect-tutorial-in.html>
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width = len(self.MiRCART.outMap[0]); height = len(self.MiRCART.outMap);
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centerX = math.floor(width / 2); centerY = math.floor(height / 2);
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size = width if width < height else height
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radius = math.floor(size / radiusDiv)
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newMap = self.MiRCART.outMap.copy()
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for y in range(-radius, radius):
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for x in range(-radius, radius):
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# Transform the pixel cartesian coordinates (x, y) to polar coordinates (r, alpha)
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# Remember that the angle alpha is in radians, transform it to degrees
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r = math.sqrt(pow(x, 2) + pow(y, 2)); alpha = math.atan2(y, x);
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degrees = (alpha * 180.0) / math.pi
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# Shift the angle by a constant delta
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# Note the '-' sign was changed by '+' the inverted function
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degrees -= step
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# Transform back from polar coordinates to cartesian
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alpha = (degrees * math.pi) / 180.0
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newY = math.floor(r * math.sin(alpha)); newX = math.floor(r * math.cos(alpha));
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try:
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# Calculate the pixel array position
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# Get the new pixel location
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srcPosY = y + centerY; srcPosX = x + centerX;
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destPosY = newY + centerY; destPosX = newX + centerX;
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newMap[destPosY][destPosX] = self.MiRCART.outMap[srcPosY][srcPosX]
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except IndexError:
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continue
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self.MiRCART.outMap = newMap
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# }}}
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# {{{ __init__(self, parent, size, defaultPos=(24,24), videoPath=None): initialisation method
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def __init__(self, parent, size, defaultPos=(24,24), videoPath=None):
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super().__init__(parent, pos=defaultPos, size=size)
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self.curPos = list(defaultPos); self.curSize = list(size);
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self.glContext = wx.glcanvas.GLContext(self);
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self.hasGLInit = False; self.isDirty = True;
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self.mouseXlast = self.mouseYlast = 0;
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self.Bind(wx.EVT_LEFT_DOWN, self.onMouseDown)
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self.Bind(wx.EVT_LEFT_UP, self.onMouseUp)
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self.Bind(wx.EVT_MOTION, self.onMouseMotion)
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self.Bind(wx.EVT_PAINT, self.onPaint)
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self.MiRCART = MawjMiRCARTImporter("puke.txt"); self.videoPath = videoPath;
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# }}}
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#
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# Entry point
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def main(*argv):
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wxApp = wx.App(False)
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appFrame = MawjFrame(None, size=(1152,864), videoPath=os.path.join("F:\\", "mawj.avi"))
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wxApp.MainLoop()
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if __name__ == "__main__":
|
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|
main(*sys.argv)
|
|||
|
|
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# vim:expandtab foldmethod=marker sw=4 ts=4 tw=120
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